infinityofspace/python_codestyles-mixed1-500

code stringlengths 86 54.5k	code_codestyle int64 0 371	style_context stringlengths 87 49.2k	style_context_codestyle int64 0 349	label int64 0 1
import unittest import numpy as np from transformers import RoFormerConfig, is_flax_available from transformers.testing_utils import require_flax, slow from ...test_modeling_flax_common import FlaxModelTesterMixin, ids_tensor, random_attention_mask if is_flax_available(): import jax.numpy as jnp from transformers.models.roformer.modeling_flax_roformer import ( FlaxRoFormerForMaskedLM, FlaxRoFormerForMultipleChoice, FlaxRoFormerForQuestionAnswering, FlaxRoFormerForSequenceClassification, FlaxRoFormerForTokenClassification, FlaxRoFormerModel, ) class __lowercase ( unittest.TestCase ): """simple docstring""" def __init__( self : str , lowerCAmelCase__ : Dict , lowerCAmelCase__ : Dict=13 , lowerCAmelCase__ : int=7 , lowerCAmelCase__ : List[str]=True , lowerCAmelCase__ : Dict=True , lowerCAmelCase__ : List[Any]=True , lowerCAmelCase__ : Optional[Any]=True , lowerCAmelCase__ : Dict=99 , lowerCAmelCase__ : List[Any]=32 , lowerCAmelCase__ : Dict=5 , lowerCAmelCase__ : Union[str, Any]=4 , lowerCAmelCase__ : List[str]=37 , lowerCAmelCase__ : str="gelu" , lowerCAmelCase__ : int=0.1 , lowerCAmelCase__ : Union[str, Any]=0.1 , lowerCAmelCase__ : Tuple=512 , lowerCAmelCase__ : Dict=16 , lowerCAmelCase__ : List[Any]=2 , lowerCAmelCase__ : Dict=0.02 , lowerCAmelCase__ : List[str]=4 , ): SCREAMING_SNAKE_CASE_: Optional[int] = parent SCREAMING_SNAKE_CASE_: Union[str, Any] = batch_size SCREAMING_SNAKE_CASE_: Tuple = seq_length SCREAMING_SNAKE_CASE_: Optional[Any] = is_training SCREAMING_SNAKE_CASE_: int = use_attention_mask SCREAMING_SNAKE_CASE_: Optional[int] = use_token_type_ids SCREAMING_SNAKE_CASE_: Tuple = use_labels SCREAMING_SNAKE_CASE_: List[Any] = vocab_size SCREAMING_SNAKE_CASE_: Any = hidden_size SCREAMING_SNAKE_CASE_: str = num_hidden_layers SCREAMING_SNAKE_CASE_: Union[str, Any] = num_attention_heads SCREAMING_SNAKE_CASE_: List[str] = intermediate_size SCREAMING_SNAKE_CASE_: Dict = hidden_act SCREAMING_SNAKE_CASE_: Optional[int] = hidden_dropout_prob SCREAMING_SNAKE_CASE_: List[str] = attention_probs_dropout_prob SCREAMING_SNAKE_CASE_: Any = max_position_embeddings SCREAMING_SNAKE_CASE_: str = type_vocab_size SCREAMING_SNAKE_CASE_: Optional[int] = type_sequence_label_size SCREAMING_SNAKE_CASE_: List[str] = initializer_range SCREAMING_SNAKE_CASE_: Dict = num_choices def _SCREAMING_SNAKE_CASE ( self : int): SCREAMING_SNAKE_CASE_: Dict = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size) SCREAMING_SNAKE_CASE_: Dict = None if self.use_attention_mask: SCREAMING_SNAKE_CASE_: str = random_attention_mask([self.batch_size, self.seq_length]) SCREAMING_SNAKE_CASE_: Tuple = None if self.use_token_type_ids: SCREAMING_SNAKE_CASE_: List[str] = ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size) SCREAMING_SNAKE_CASE_: int = RoFormerConfig( vocab_size=self.vocab_size , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , max_position_embeddings=self.max_position_embeddings , type_vocab_size=self.type_vocab_size , is_decoder=lowerCAmelCase__ , initializer_range=self.initializer_range , ) return config, input_ids, token_type_ids, attention_mask def _SCREAMING_SNAKE_CASE ( self : List[str]): SCREAMING_SNAKE_CASE_: List[Any] = self.prepare_config_and_inputs() SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_: Optional[Any] = config_and_inputs SCREAMING_SNAKE_CASE_: Any = {"input_ids": input_ids, "token_type_ids": token_type_ids, "attention_mask": attention_mask} return config, inputs_dict @require_flax class __lowercase ( UpperCAmelCase_ , unittest.TestCase ): """simple docstring""" _UpperCAmelCase : List[Any] = True _UpperCAmelCase : str = ( ( FlaxRoFormerModel, FlaxRoFormerForMaskedLM, FlaxRoFormerForSequenceClassification, FlaxRoFormerForTokenClassification, FlaxRoFormerForMultipleChoice, FlaxRoFormerForQuestionAnswering, ) if is_flax_available() else () ) def _SCREAMING_SNAKE_CASE ( self : Optional[int]): SCREAMING_SNAKE_CASE_: Tuple = FlaxRoFormerModelTester(self) @slow def _SCREAMING_SNAKE_CASE ( self : Optional[Any]): for model_class_name in self.all_model_classes: SCREAMING_SNAKE_CASE_: Optional[int] = model_class_name.from_pretrained("junnyu/roformer_chinese_small" , from_pt=lowerCAmelCase__) SCREAMING_SNAKE_CASE_: Dict = model(np.ones((1, 1))) self.assertIsNotNone(lowerCAmelCase__) @require_flax class __lowercase ( unittest.TestCase ): """simple docstring""" @slow def _SCREAMING_SNAKE_CASE ( self : List[str]): SCREAMING_SNAKE_CASE_: List[str] = FlaxRoFormerForMaskedLM.from_pretrained("junnyu/roformer_chinese_base") SCREAMING_SNAKE_CASE_: Union[str, Any] = jnp.array([[0, 1, 2, 3, 4, 5]]) SCREAMING_SNAKE_CASE_: Optional[int] = model(lowerCAmelCase__)[0] SCREAMING_SNAKE_CASE_: str = 5_0000 SCREAMING_SNAKE_CASE_: Optional[int] = (1, 6, vocab_size) self.assertEqual(output.shape , lowerCAmelCase__) SCREAMING_SNAKE_CASE_: int = jnp.array( [[[-0.1205, -1.0265, 0.2922], [-1.5134, 0.1974, 0.1519], [-5.0135, -3.9003, -0.8404]]]) self.assertTrue(jnp.allclose(output[:, :3, :3] , lowerCAmelCase__ , atol=1E-4))	13	import torch import torch.nn as nn from transformers.modeling_utils import ModuleUtilsMixin from transformers.models.ta.modeling_ta import TaBlock, TaConfig, TaLayerNorm from ...configuration_utils import ConfigMixin, register_to_config from ...models import ModelMixin class _a (__magic_name__ , __magic_name__ , __magic_name__ ): '''simple docstring''' @register_to_config def __init__( self , A__ , A__ , A__ , A__ , A__ , A__ , A__ , A__ , A__ , A__ = False , ): super().__init__() A__ : List[str] = nn.Embedding(A__ , A__ ) A__ : Any = nn.Embedding(A__ , A__ ) A__ : Optional[int] = False A__ : Optional[Any] = nn.Dropout(p=A__ ) A__ : int = TaConfig( vocab_size=A__ , d_model=A__ , num_heads=A__ , d_kv=A__ , d_ff=A__ , dropout_rate=A__ , feed_forward_proj=A__ , is_decoder=A__ , is_encoder_decoder=A__ , ) A__ : Dict = nn.ModuleList() for lyr_num in range(A__ ): A__ : str = TaBlock(A__ ) self.encoders.append(A__ ) A__ : Tuple = TaLayerNorm(A__ ) A__ : str = nn.Dropout(p=A__ ) def __A ( self , A__ , A__ ): A__ : List[str] = self.token_embedder(A__ ) A__ : Optional[Any] = encoder_input_tokens.shape[1] A__ : Optional[int] = torch.arange(A__ , device=encoder_input_tokens.device ) x += self.position_encoding(A__ ) A__ : Optional[Any] = self.dropout_pre(A__ ) # inverted the attention mask A__ : Tuple = encoder_input_tokens.size() A__ : Union[str, Any] = self.get_extended_attention_mask(A__ , A__ ) for lyr in self.encoders: A__ : List[str] = lyr(A__ , A__ )[0] A__ : List[Any] = self.layer_norm(A__ ) return self.dropout_post(A__ ), encoder_inputs_mask	192	0
import unittest from diffusers.pipelines.pipeline_utils import is_safetensors_compatible class __a ( unittest.TestCase ): def __lowercase ( self : str ): '''simple docstring''' UpperCamelCase__ : Optional[Any] = [ "safety_checker/pytorch_model.bin", "safety_checker/model.safetensors", "vae/diffusion_pytorch_model.bin", "vae/diffusion_pytorch_model.safetensors", "text_encoder/pytorch_model.bin", "text_encoder/model.safetensors", "unet/diffusion_pytorch_model.bin", "unet/diffusion_pytorch_model.safetensors", ] self.assertTrue(is_safetensors_compatible(SCREAMING_SNAKE_CASE ) ) def __lowercase ( self : Tuple ): '''simple docstring''' UpperCamelCase__ : Optional[int] = [ "unet/diffusion_pytorch_model.bin", "unet/diffusion_pytorch_model.safetensors", ] self.assertTrue(is_safetensors_compatible(SCREAMING_SNAKE_CASE ) ) def __lowercase ( self : Optional[Any] ): '''simple docstring''' UpperCamelCase__ : int = [ "safety_checker/pytorch_model.bin", "safety_checker/model.safetensors", "vae/diffusion_pytorch_model.bin", "vae/diffusion_pytorch_model.safetensors", "text_encoder/pytorch_model.bin", "text_encoder/model.safetensors", "unet/diffusion_pytorch_model.bin", # Removed: 'unet/diffusion_pytorch_model.safetensors', ] self.assertFalse(is_safetensors_compatible(SCREAMING_SNAKE_CASE ) ) def __lowercase ( self : Tuple ): '''simple docstring''' UpperCamelCase__ : Optional[int] = [ "text_encoder/pytorch_model.bin", "text_encoder/model.safetensors", ] self.assertTrue(is_safetensors_compatible(SCREAMING_SNAKE_CASE ) ) def __lowercase ( self : Any ): '''simple docstring''' UpperCamelCase__ : Tuple = [ "safety_checker/pytorch_model.bin", "safety_checker/model.safetensors", "vae/diffusion_pytorch_model.bin", "vae/diffusion_pytorch_model.safetensors", "text_encoder/pytorch_model.bin", # Removed: 'text_encoder/model.safetensors', "unet/diffusion_pytorch_model.bin", "unet/diffusion_pytorch_model.safetensors", ] self.assertFalse(is_safetensors_compatible(SCREAMING_SNAKE_CASE ) ) def __lowercase ( self : Dict ): '''simple docstring''' UpperCamelCase__ : int = [ "safety_checker/pytorch_model.fp16.bin", "safety_checker/model.fp16.safetensors", "vae/diffusion_pytorch_model.fp16.bin", "vae/diffusion_pytorch_model.fp16.safetensors", "text_encoder/pytorch_model.fp16.bin", "text_encoder/model.fp16.safetensors", "unet/diffusion_pytorch_model.fp16.bin", "unet/diffusion_pytorch_model.fp16.safetensors", ] UpperCamelCase__ : Optional[int] = "fp16" self.assertTrue(is_safetensors_compatible(SCREAMING_SNAKE_CASE , variant=SCREAMING_SNAKE_CASE ) ) def __lowercase ( self : Any ): '''simple docstring''' UpperCamelCase__ : Dict = [ "unet/diffusion_pytorch_model.fp16.bin", "unet/diffusion_pytorch_model.fp16.safetensors", ] UpperCamelCase__ : Union[str, Any] = "fp16" self.assertTrue(is_safetensors_compatible(SCREAMING_SNAKE_CASE , variant=SCREAMING_SNAKE_CASE ) ) def __lowercase ( self : List[str] ): '''simple docstring''' UpperCamelCase__ : Optional[Any] = [ "unet/diffusion_pytorch_model.bin", "unet/diffusion_pytorch_model.safetensors", ] UpperCamelCase__ : Optional[int] = "fp16" self.assertTrue(is_safetensors_compatible(SCREAMING_SNAKE_CASE , variant=SCREAMING_SNAKE_CASE ) ) def __lowercase ( self : Tuple ): '''simple docstring''' UpperCamelCase__ : int = [ "safety_checker/pytorch_model.fp16.bin", "safety_checker/model.fp16.safetensors", "vae/diffusion_pytorch_model.fp16.bin", "vae/diffusion_pytorch_model.fp16.safetensors", "text_encoder/pytorch_model.fp16.bin", "text_encoder/model.fp16.safetensors", "unet/diffusion_pytorch_model.fp16.bin", # Removed: 'unet/diffusion_pytorch_model.fp16.safetensors', ] UpperCamelCase__ : Union[str, Any] = "fp16" self.assertFalse(is_safetensors_compatible(SCREAMING_SNAKE_CASE , variant=SCREAMING_SNAKE_CASE ) ) def __lowercase ( self : Tuple ): '''simple docstring''' UpperCamelCase__ : Tuple = [ "text_encoder/pytorch_model.fp16.bin", "text_encoder/model.fp16.safetensors", ] UpperCamelCase__ : Tuple = "fp16" self.assertTrue(is_safetensors_compatible(SCREAMING_SNAKE_CASE , variant=SCREAMING_SNAKE_CASE ) ) def __lowercase ( self : List[str] ): '''simple docstring''' UpperCamelCase__ : List[Any] = [ "text_encoder/pytorch_model.bin", "text_encoder/model.safetensors", ] UpperCamelCase__ : Any = "fp16" self.assertTrue(is_safetensors_compatible(SCREAMING_SNAKE_CASE , variant=SCREAMING_SNAKE_CASE ) ) def __lowercase ( self : List[str] ): '''simple docstring''' UpperCamelCase__ : Optional[Any] = [ "safety_checker/pytorch_model.fp16.bin", "safety_checker/model.fp16.safetensors", "vae/diffusion_pytorch_model.fp16.bin", "vae/diffusion_pytorch_model.fp16.safetensors", "text_encoder/pytorch_model.fp16.bin", # 'text_encoder/model.fp16.safetensors', "unet/diffusion_pytorch_model.fp16.bin", "unet/diffusion_pytorch_model.fp16.safetensors", ] UpperCamelCase__ : List[Any] = "fp16" self.assertFalse(is_safetensors_compatible(SCREAMING_SNAKE_CASE , variant=SCREAMING_SNAKE_CASE ) )	351	from __future__ import annotations def SCREAMING_SNAKE_CASE ( __lowerCAmelCase , __lowerCAmelCase = None , __lowerCAmelCase = None ) -> None: if start is None: UpperCamelCase__ : Union[str, Any] = 0 if end is None: UpperCamelCase__ : List[Any] = len(__lowerCAmelCase ) - 1 if start >= end: return UpperCamelCase__ : Union[str, Any] = (start + end) // 2 slowsort(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) slowsort(__lowerCAmelCase , mid + 1 , __lowerCAmelCase ) if sequence[end] < sequence[mid]: UpperCamelCase__ , UpperCamelCase__ : Optional[int] = sequence[mid], sequence[end] slowsort(__lowerCAmelCase , __lowerCAmelCase , end - 1 ) if __name__ == "__main__": from doctest import testmod testmod()	196	0
import argparse import json import logging import os import sys from unittest.mock import patch from transformers.testing_utils import TestCasePlus, get_gpu_count, slow __lowerCamelCase : str = [ os.path.join(os.path.dirname(__file__), dirname) for dirname in [ '''text-classification''', '''language-modeling''', '''summarization''', '''token-classification''', '''question-answering''', ] ] sys.path.extend(SRC_DIRS) if SRC_DIRS is not None: import run_clm_flax import run_flax_glue import run_flax_ner import run_mlm_flax import run_qa import run_summarization_flax import run_ta_mlm_flax logging.basicConfig(level=logging.DEBUG) __lowerCamelCase : Tuple = logging.getLogger() def __SCREAMING_SNAKE_CASE ( ) -> Optional[Any]: """simple docstring""" SCREAMING_SNAKE_CASE__ = argparse.ArgumentParser() parser.add_argument("""-f""" ) SCREAMING_SNAKE_CASE__ = parser.parse_args() return args.f def __SCREAMING_SNAKE_CASE ( __UpperCamelCase : Optional[int] , __UpperCamelCase : Dict="eval" ) -> Optional[Any]: """simple docstring""" SCREAMING_SNAKE_CASE__ = os.path.join(__UpperCamelCase , f"""{split}_results.json""" ) if os.path.exists(__UpperCamelCase ): with open(__UpperCamelCase , """r""" ) as f: return json.load(__UpperCamelCase ) raise ValueError(f"""can't find {path}""" ) __lowerCamelCase : int = logging.StreamHandler(sys.stdout) logger.addHandler(stream_handler) class __snake_case ( lowerCamelCase_ ): def __a ( self : Dict ): """simple docstring""" SCREAMING_SNAKE_CASE__ = self.get_auto_remove_tmp_dir() SCREAMING_SNAKE_CASE__ = f""" run_glue.py --model_name_or_path distilbert-base-uncased --output_dir {tmp_dir} --train_file ./tests/fixtures/tests_samples/MRPC/train.csv --validation_file ./tests/fixtures/tests_samples/MRPC/dev.csv --per_device_train_batch_size=2 --per_device_eval_batch_size=1 --learning_rate=1e-4 --eval_steps=2 --warmup_steps=2 --seed=42 --max_seq_length=128 """.split() with patch.object(_lowercase , """argv""" , _lowercase ): run_flax_glue.main() SCREAMING_SNAKE_CASE__ = get_results(_lowercase ) self.assertGreaterEqual(result["""eval_accuracy"""] , 0.75 ) @slow def __a ( self : List[Any] ): """simple docstring""" SCREAMING_SNAKE_CASE__ = self.get_auto_remove_tmp_dir() SCREAMING_SNAKE_CASE__ = f""" run_clm_flax.py --model_name_or_path distilgpt2 --train_file ./tests/fixtures/sample_text.txt --validation_file ./tests/fixtures/sample_text.txt --do_train --do_eval --block_size 128 --per_device_train_batch_size 4 --per_device_eval_batch_size 4 --num_train_epochs 2 --logging_steps 2 --eval_steps 2 --output_dir {tmp_dir} --overwrite_output_dir """.split() with patch.object(_lowercase , """argv""" , _lowercase ): run_clm_flax.main() SCREAMING_SNAKE_CASE__ = get_results(_lowercase ) self.assertLess(result["""eval_perplexity"""] , 1_00 ) @slow def __a ( self : Optional[int] ): """simple docstring""" SCREAMING_SNAKE_CASE__ = self.get_auto_remove_tmp_dir() SCREAMING_SNAKE_CASE__ = f""" run_summarization.py --model_name_or_path t5-small --train_file tests/fixtures/tests_samples/xsum/sample.json --validation_file tests/fixtures/tests_samples/xsum/sample.json --test_file tests/fixtures/tests_samples/xsum/sample.json --output_dir {tmp_dir} --overwrite_output_dir --num_train_epochs=3 --warmup_steps=8 --do_train --do_eval --do_predict --learning_rate=2e-4 --per_device_train_batch_size=2 --per_device_eval_batch_size=1 --predict_with_generate """.split() with patch.object(_lowercase , """argv""" , _lowercase ): run_summarization_flax.main() SCREAMING_SNAKE_CASE__ = get_results(_lowercase , split="""test""" ) self.assertGreaterEqual(result["""test_rouge1"""] , 10 ) self.assertGreaterEqual(result["""test_rouge2"""] , 2 ) self.assertGreaterEqual(result["""test_rougeL"""] , 7 ) self.assertGreaterEqual(result["""test_rougeLsum"""] , 7 ) @slow def __a ( self : Optional[Any] ): """simple docstring""" SCREAMING_SNAKE_CASE__ = self.get_auto_remove_tmp_dir() SCREAMING_SNAKE_CASE__ = f""" run_mlm.py --model_name_or_path distilroberta-base --train_file ./tests/fixtures/sample_text.txt --validation_file ./tests/fixtures/sample_text.txt --output_dir {tmp_dir} --overwrite_output_dir --max_seq_length 128 --per_device_train_batch_size 4 --per_device_eval_batch_size 4 --logging_steps 2 --eval_steps 2 --do_train --do_eval --num_train_epochs=1 """.split() with patch.object(_lowercase , """argv""" , _lowercase ): run_mlm_flax.main() SCREAMING_SNAKE_CASE__ = get_results(_lowercase ) self.assertLess(result["""eval_perplexity"""] , 42 ) @slow def __a ( self : int ): """simple docstring""" SCREAMING_SNAKE_CASE__ = self.get_auto_remove_tmp_dir() SCREAMING_SNAKE_CASE__ = f""" run_t5_mlm_flax.py --model_name_or_path t5-small --train_file ./tests/fixtures/sample_text.txt --validation_file ./tests/fixtures/sample_text.txt --do_train --do_eval --max_seq_length 128 --per_device_train_batch_size 4 --per_device_eval_batch_size 4 --num_train_epochs 2 --logging_steps 2 --eval_steps 2 --output_dir {tmp_dir} --overwrite_output_dir """.split() with patch.object(_lowercase , """argv""" , _lowercase ): run_ta_mlm_flax.main() SCREAMING_SNAKE_CASE__ = get_results(_lowercase ) self.assertGreaterEqual(result["""eval_accuracy"""] , 0.42 ) @slow def __a ( self : Dict ): """simple docstring""" SCREAMING_SNAKE_CASE__ = 7 if get_gpu_count() > 1 else 2 SCREAMING_SNAKE_CASE__ = self.get_auto_remove_tmp_dir() SCREAMING_SNAKE_CASE__ = f""" run_flax_ner.py --model_name_or_path bert-base-uncased --train_file tests/fixtures/tests_samples/conll/sample.json --validation_file tests/fixtures/tests_samples/conll/sample.json --output_dir {tmp_dir} --overwrite_output_dir --do_train --do_eval --warmup_steps=2 --learning_rate=2e-4 --logging_steps 2 --eval_steps 2 --per_device_train_batch_size=2 --per_device_eval_batch_size=2 --num_train_epochs={epochs} --seed 7 """.split() with patch.object(_lowercase , """argv""" , _lowercase ): run_flax_ner.main() SCREAMING_SNAKE_CASE__ = get_results(_lowercase ) self.assertGreaterEqual(result["""eval_accuracy"""] , 0.75 ) self.assertGreaterEqual(result["""eval_f1"""] , 0.3 ) @slow def __a ( self : Dict ): """simple docstring""" SCREAMING_SNAKE_CASE__ = self.get_auto_remove_tmp_dir() SCREAMING_SNAKE_CASE__ = f""" run_qa.py --model_name_or_path bert-base-uncased --version_2_with_negative --train_file tests/fixtures/tests_samples/SQUAD/sample.json --validation_file tests/fixtures/tests_samples/SQUAD/sample.json --output_dir {tmp_dir} --overwrite_output_dir --num_train_epochs=3 --warmup_steps=2 --do_train --do_eval --logging_steps 2 --eval_steps 2 --learning_rate=2e-4 --per_device_train_batch_size=2 --per_device_eval_batch_size=1 """.split() with patch.object(_lowercase , """argv""" , _lowercase ): run_qa.main() SCREAMING_SNAKE_CASE__ = get_results(_lowercase ) self.assertGreaterEqual(result["""eval_f1"""] , 30 ) self.assertGreaterEqual(result["""eval_exact"""] , 30 )	219	# tests directory-specific settings - this file is run automatically # by pytest before any tests are run import sys import warnings from os.path import abspath, dirname, join # allow having multiple repository checkouts and not needing to remember to rerun # 'pip install -e .[dev]' when switching between checkouts and running tests. __lowerCamelCase : Any = abspath(join(dirname(dirname(__file__)), '''src''')) sys.path.insert(1, git_repo_path) # silence FutureWarning warnings in tests since often we can't act on them until # they become normal warnings - i.e. the tests still need to test the current functionality warnings.simplefilter(action='''ignore''', category=FutureWarning) def __SCREAMING_SNAKE_CASE ( __UpperCamelCase : Optional[int] ) -> Any: """simple docstring""" from diffusers.utils.testing_utils import pytest_addoption_shared pytest_addoption_shared(__UpperCamelCase ) def __SCREAMING_SNAKE_CASE ( __UpperCamelCase : Dict ) -> Optional[Any]: """simple docstring""" from diffusers.utils.testing_utils import pytest_terminal_summary_main SCREAMING_SNAKE_CASE__ = terminalreporter.config.getoption("""--make-reports""" ) if make_reports: pytest_terminal_summary_main(__UpperCamelCase , id=__UpperCamelCase )	219	1
'''simple docstring''' from string import ascii_uppercase lowercase__ : Any = {char: i for i, char in enumerate(ascii_uppercase)} lowercase__ : List[Any] = dict(enumerate(ascii_uppercase)) def a__ ( lowercase : str, lowercase : str ) -> str: """simple docstring""" _UpperCamelCase = len(lowercase ) _UpperCamelCase = 0 while True: if x == i: _UpperCamelCase = 0 if len(lowercase ) == len(lowercase ): break key += key[i] i += 1 return key def a__ ( lowercase : str, lowercase : str ) -> str: """simple docstring""" _UpperCamelCase = '''''' _UpperCamelCase = 0 for letter in message: if letter == " ": cipher_text += " " else: _UpperCamelCase = (dicta[letter] - dicta[key_new[i]]) % 26 i += 1 cipher_text += dicta[x] return cipher_text def a__ ( lowercase : str, lowercase : str ) -> str: """simple docstring""" _UpperCamelCase = '''''' _UpperCamelCase = 0 for letter in cipher_text: if letter == " ": or_txt += " " else: _UpperCamelCase = (dicta[letter] + dicta[key_new[i]] + 26) % 26 i += 1 or_txt += dicta[x] return or_txt def a__ ( ) -> None: """simple docstring""" _UpperCamelCase = '''THE GERMAN ATTACK''' _UpperCamelCase = '''SECRET''' _UpperCamelCase = generate_key(lowercase, lowercase ) _UpperCamelCase = cipher_text(lowercase, lowercase ) print(F"""Encrypted Text = {s}""" ) print(F"""Original Text = {original_text(lowercase, lowercase )}""" ) if __name__ == "__main__": import doctest doctest.testmod() main()	287	'''simple docstring''' from ...configuration_utils import PretrainedConfig from ...utils import logging lowercase__ : List[Any] = logging.get_logger(__name__) lowercase__ : Tuple = { 'microsoft/trocr-base-handwritten': ( 'https://huggingface.co/microsoft/trocr-base-handwritten/resolve/main/config.json' ), # See all TrOCR models at https://huggingface.co/models?filter=trocr } class __lowerCAmelCase ( __magic_name__ ): """simple docstring""" _snake_case : int = 'trocr' _snake_case : List[str] = ['past_key_values'] _snake_case : Tuple = { 'num_attention_heads': 'decoder_attention_heads', 'hidden_size': 'd_model', 'num_hidden_layers': 'decoder_layers', } def __init__( self : Tuple , lowerCAmelCase__ : Union[str, Any]=50265 , lowerCAmelCase__ : List[Any]=1024 , lowerCAmelCase__ : List[str]=12 , lowerCAmelCase__ : int=16 , lowerCAmelCase__ : List[Any]=4096 , lowerCAmelCase__ : Optional[int]="gelu" , lowerCAmelCase__ : int=512 , lowerCAmelCase__ : Optional[Any]=0.1 , lowerCAmelCase__ : Optional[int]=0.0 , lowerCAmelCase__ : Dict=0.0 , lowerCAmelCase__ : Tuple=2 , lowerCAmelCase__ : Dict=0.02 , lowerCAmelCase__ : Tuple=0.0 , lowerCAmelCase__ : int=True , lowerCAmelCase__ : Optional[Any]=False , lowerCAmelCase__ : Any=True , lowerCAmelCase__ : Dict=True , lowerCAmelCase__ : Optional[int]=1 , lowerCAmelCase__ : List[Any]=0 , lowerCAmelCase__ : Any=2 , lowerCAmelCase__ : Optional[int] , ) -> Any: '''simple docstring''' _UpperCamelCase = vocab_size _UpperCamelCase = d_model _UpperCamelCase = decoder_layers _UpperCamelCase = decoder_attention_heads _UpperCamelCase = decoder_ffn_dim _UpperCamelCase = activation_function _UpperCamelCase = max_position_embeddings _UpperCamelCase = dropout _UpperCamelCase = attention_dropout _UpperCamelCase = activation_dropout _UpperCamelCase = init_std _UpperCamelCase = decoder_layerdrop _UpperCamelCase = use_cache _UpperCamelCase = scale_embedding _UpperCamelCase = use_learned_position_embeddings _UpperCamelCase = layernorm_embedding super().__init__( pad_token_id=lowerCAmelCase__ , bos_token_id=lowerCAmelCase__ , eos_token_id=lowerCAmelCase__ , decoder_start_token_id=lowerCAmelCase__ , lowerCAmelCase__ , )	287	1
"""simple docstring""" from typing import Optional import torch import torch.utils.checkpoint from torch import Tensor, nn from torch.nn import BCEWithLogitsLoss, CrossEntropyLoss, MSELoss from ...activations import ACTaFN from ...file_utils import add_code_sample_docstrings, add_start_docstrings, add_start_docstrings_to_model_forward from ...modeling_outputs import ( BaseModelOutputWithNoAttention, BaseModelOutputWithPoolingAndNoAttention, ImageClassifierOutputWithNoAttention, ) from ...modeling_utils import PreTrainedModel from ...utils import logging from .configuration_regnet import RegNetConfig _a : List[Any] = logging.get_logger(__name__) # General docstring _a : Optional[int] = 'RegNetConfig' # Base docstring _a : Union[str, Any] = 'facebook/regnet-y-040' _a : Tuple = [1, 1_088, 7, 7] # Image classification docstring _a : Tuple = 'facebook/regnet-y-040' _a : Union[str, Any] = 'tabby, tabby cat' _a : Union[str, Any] = [ 'facebook/regnet-y-040', # See all regnet models at https://huggingface.co/models?filter=regnet ] class __A ( nn.Module ): def __init__( self , a__ , a__ , a__ = 3 , a__ = 1 , a__ = 1 , a__ = "relu" , ): super().__init__() _lowerCAmelCase : str = nn.Convad( a__ , a__ , kernel_size=a__ , stride=a__ , padding=kernel_size // 2 , groups=a__ , bias=a__ , ) _lowerCAmelCase : str = nn.BatchNormad(a__ ) _lowerCAmelCase : Optional[int] = ACTaFN[activation] if activation is not None else nn.Identity() def __A ( self , a__ ): _lowerCAmelCase : List[str] = self.convolution(a__ ) _lowerCAmelCase : Union[str, Any] = self.normalization(a__ ) _lowerCAmelCase : List[Any] = self.activation(a__ ) return hidden_state class __A ( nn.Module ): def __init__( self , a__ ): super().__init__() _lowerCAmelCase : Optional[int] = RegNetConvLayer( config.num_channels , config.embedding_size , kernel_size=3 , stride=2 , activation=config.hidden_act ) _lowerCAmelCase : List[Any] = config.num_channels def __A ( self , a__ ): _lowerCAmelCase : Tuple = pixel_values.shape[1] if num_channels != self.num_channels: raise ValueError( """Make sure that the channel dimension of the pixel values match with the one set in the configuration.""" ) _lowerCAmelCase : List[Any] = self.embedder(a__ ) return hidden_state class __A ( nn.Module ): def __init__( self , a__ , a__ , a__ = 2 ): super().__init__() _lowerCAmelCase : Union[str, Any] = nn.Convad(a__ , a__ , kernel_size=1 , stride=a__ , bias=a__ ) _lowerCAmelCase : Optional[int] = nn.BatchNormad(a__ ) def __A ( self , a__ ): _lowerCAmelCase : str = self.convolution(a__ ) _lowerCAmelCase : Tuple = self.normalization(a__ ) return hidden_state class __A ( nn.Module ): def __init__( self , a__ , a__ ): super().__init__() _lowerCAmelCase : Dict = nn.AdaptiveAvgPoolad((1, 1) ) _lowerCAmelCase : Tuple = nn.Sequential( nn.Convad(a__ , a__ , kernel_size=1 ) , nn.ReLU() , nn.Convad(a__ , a__ , kernel_size=1 ) , nn.Sigmoid() , ) def __A ( self , a__ ): # b c h w -> b c 1 1 _lowerCAmelCase : Tuple = self.pooler(a__ ) _lowerCAmelCase : int = self.attention(a__ ) _lowerCAmelCase : Optional[Any] = hidden_state * attention return hidden_state class __A ( nn.Module ): def __init__( self , a__ , a__ , a__ , a__ = 1 ): super().__init__() _lowerCAmelCase : Optional[Any] = in_channels != out_channels or stride != 1 _lowerCAmelCase : Optional[Any] = max(1 , out_channels // config.groups_width ) _lowerCAmelCase : Tuple = ( RegNetShortCut(a__ , a__ , stride=a__ ) if should_apply_shortcut else nn.Identity() ) _lowerCAmelCase : str = nn.Sequential( RegNetConvLayer(a__ , a__ , kernel_size=1 , activation=config.hidden_act ) , RegNetConvLayer(a__ , a__ , stride=a__ , groups=a__ , activation=config.hidden_act ) , RegNetConvLayer(a__ , a__ , kernel_size=1 , activation=a__ ) , ) _lowerCAmelCase : Union[str, Any] = ACTaFN[config.hidden_act] def __A ( self , a__ ): _lowerCAmelCase : Any = hidden_state _lowerCAmelCase : Any = self.layer(a__ ) _lowerCAmelCase : str = self.shortcut(a__ ) hidden_state += residual _lowerCAmelCase : int = self.activation(a__ ) return hidden_state class __A ( nn.Module ): def __init__( self , a__ , a__ , a__ , a__ = 1 ): super().__init__() _lowerCAmelCase : Dict = in_channels != out_channels or stride != 1 _lowerCAmelCase : List[Any] = max(1 , out_channels // config.groups_width ) _lowerCAmelCase : List[Any] = ( RegNetShortCut(a__ , a__ , stride=a__ ) if should_apply_shortcut else nn.Identity() ) _lowerCAmelCase : Tuple = nn.Sequential( RegNetConvLayer(a__ , a__ , kernel_size=1 , activation=config.hidden_act ) , RegNetConvLayer(a__ , a__ , stride=a__ , groups=a__ , activation=config.hidden_act ) , RegNetSELayer(a__ , reduced_channels=int(round(in_channels / 4 ) ) ) , RegNetConvLayer(a__ , a__ , kernel_size=1 , activation=a__ ) , ) _lowerCAmelCase : Dict = ACTaFN[config.hidden_act] def __A ( self , a__ ): _lowerCAmelCase : List[str] = hidden_state _lowerCAmelCase : Optional[int] = self.layer(a__ ) _lowerCAmelCase : List[Any] = self.shortcut(a__ ) hidden_state += residual _lowerCAmelCase : List[str] = self.activation(a__ ) return hidden_state class __A ( nn.Module ): def __init__( self , a__ , a__ , a__ , a__ = 2 , a__ = 2 , ): super().__init__() _lowerCAmelCase : List[Any] = RegNetXLayer if config.layer_type == """x""" else RegNetYLayer _lowerCAmelCase : str = nn.Sequential( # downsampling is done in the first layer with stride of 2 layer( a__ , a__ , a__ , stride=a__ , ) , [layer(a__ , a__ , a__ ) for _ in range(depth - 1 )] , ) def __A ( self , a__ ): _lowerCAmelCase : List[Any] = self.layers(a__ ) return hidden_state class __A ( nn.Module ): def __init__( self , a__ ): super().__init__() _lowerCAmelCase : Optional[int] = nn.ModuleList([] ) # based on `downsample_in_first_stage`, the first layer of the first stage may or may not downsample the input self.stages.append( RegNetStage( a__ , config.embedding_size , config.hidden_sizes[0] , stride=2 if config.downsample_in_first_stage else 1 , depth=config.depths[0] , ) ) _lowerCAmelCase : List[str] = zip(config.hidden_sizes , config.hidden_sizes[1:] ) for (in_channels, out_channels), depth in zip(a__ , config.depths[1:] ): self.stages.append(RegNetStage(a__ , a__ , a__ , depth=a__ ) ) def __A ( self , a__ , a__ = False , a__ = True ): _lowerCAmelCase : Any = () if output_hidden_states else None for stage_module in self.stages: if output_hidden_states: _lowerCAmelCase : Union[str, Any] = hidden_states + (hidden_state,) _lowerCAmelCase : Union[str, Any] = stage_module(a__ ) if output_hidden_states: _lowerCAmelCase : Union[str, Any] = hidden_states + (hidden_state,) if not return_dict: return tuple(v for v in [hidden_state, hidden_states] if v is not None ) return BaseModelOutputWithNoAttention(last_hidden_state=a__ , hidden_states=a__ ) class __A ( SCREAMING_SNAKE_CASE_ ): _UpperCamelCase : Tuple = RegNetConfig _UpperCamelCase : int = "regnet" _UpperCamelCase : List[str] = "pixel_values" _UpperCamelCase : Union[str, Any] = True def __A ( self , a__ ): if isinstance(a__ , nn.Convad ): nn.init.kaiming_normal_(module.weight , mode="""fan_out""" , nonlinearity="""relu""" ) elif isinstance(a__ , (nn.BatchNormad, nn.GroupNorm) ): nn.init.constant_(module.weight , 1 ) nn.init.constant_(module.bias , 0 ) def __A ( self , a__ , a__=False ): if isinstance(a__ , a__ ): _lowerCAmelCase : Optional[int] = value _a : List[Any] = r'\n This model is a PyTorch [torch.nn.Module](https://pytorch.org/docs/stable/nn.html#torch.nn.Module) subclass. Use it\n as a regular PyTorch Module and refer to the PyTorch documentation for all matter related to general usage and\n behavior.\n\n Parameters:\n config ([`RegNetConfig`]): Model configuration class with all the parameters of the model.\n Initializing with a config file does not load the weights associated with the model, only the\n configuration. Check out the [`~PreTrainedModel.from_pretrained`] method to load the model weights.\n' _a : List[Any] = r'\n Args:\n pixel_values (`torch.FloatTensor` of shape `(batch_size, num_channels, height, width)`):\n Pixel values. Pixel values can be obtained using [`AutoImageProcessor`]. See\n [`ConvNextImageProcessor.__call__`] for details.\n\n output_hidden_states (`bool`, optional):\n Whether or not to return the hidden states of all layers. See `hidden_states` under returned tensors for\n more detail.\n return_dict (`bool`, optional*):\n Whether or not to return a [`~file_utils.ModelOutput`] instead of a plain tuple.\n' @add_start_docstrings( "The bare RegNet model outputting raw features without any specific head on top." , SCREAMING_SNAKE_CASE_ , ) # Copied from transformers.models.resnet.modeling_resnet.ResNetModel with RESNET->REGNET,ResNet->RegNet class __A ( SCREAMING_SNAKE_CASE_ ): def __init__( self , a__ ): super().__init__(a__ ) _lowerCAmelCase : List[Any] = config _lowerCAmelCase : Any = RegNetEmbeddings(a__ ) _lowerCAmelCase : List[str] = RegNetEncoder(a__ ) _lowerCAmelCase : str = nn.AdaptiveAvgPoolad((1, 1) ) # Initialize weights and apply final processing self.post_init() @add_start_docstrings_to_model_forward(a__ ) @add_code_sample_docstrings( checkpoint=_CHECKPOINT_FOR_DOC , output_type=a__ , config_class=_CONFIG_FOR_DOC , modality="""vision""" , expected_output=_EXPECTED_OUTPUT_SHAPE , ) def __A ( self , a__ , a__ = None , a__ = None ): _lowerCAmelCase : Any = ( output_hidden_states if output_hidden_states is not None else self.config.output_hidden_states ) _lowerCAmelCase : Tuple = return_dict if return_dict is not None else self.config.use_return_dict _lowerCAmelCase : List[Any] = self.embedder(a__ ) _lowerCAmelCase : Optional[Any] = self.encoder( a__ , output_hidden_states=a__ , return_dict=a__ ) _lowerCAmelCase : str = encoder_outputs[0] _lowerCAmelCase : Optional[Any] = self.pooler(a__ ) if not return_dict: return (last_hidden_state, pooled_output) + encoder_outputs[1:] return BaseModelOutputWithPoolingAndNoAttention( last_hidden_state=a__ , pooler_output=a__ , hidden_states=encoder_outputs.hidden_states , ) @add_start_docstrings( "\n RegNet Model with an image classification head on top (a linear layer on top of the pooled features), e.g. for\n ImageNet.\n " , SCREAMING_SNAKE_CASE_ , ) # Copied from transformers.models.resnet.modeling_resnet.ResNetForImageClassification with RESNET->REGNET,ResNet->RegNet,resnet->regnet class __A ( SCREAMING_SNAKE_CASE_ ): def __init__( self , a__ ): super().__init__(a__ ) _lowerCAmelCase : Any = config.num_labels _lowerCAmelCase : Optional[int] = RegNetModel(a__ ) # classification head _lowerCAmelCase : Optional[Any] = nn.Sequential( nn.Flatten() , nn.Linear(config.hidden_sizes[-1] , config.num_labels ) if config.num_labels > 0 else nn.Identity() , ) # initialize weights and apply final processing self.post_init() @add_start_docstrings_to_model_forward(a__ ) @add_code_sample_docstrings( checkpoint=_IMAGE_CLASS_CHECKPOINT , output_type=a__ , config_class=_CONFIG_FOR_DOC , expected_output=_IMAGE_CLASS_EXPECTED_OUTPUT , ) def __A ( self , a__ = None , a__ = None , a__ = None , a__ = None , ): _lowerCAmelCase : List[Any] = return_dict if return_dict is not None else self.config.use_return_dict _lowerCAmelCase : Union[str, Any] = self.regnet(a__ , output_hidden_states=a__ , return_dict=a__ ) _lowerCAmelCase : str = outputs.pooler_output if return_dict else outputs[1] _lowerCAmelCase : str = self.classifier(a__ ) _lowerCAmelCase : List[str] = None if labels is not None: if self.config.problem_type is None: if self.num_labels == 1: _lowerCAmelCase : str = """regression""" elif self.num_labels > 1 and (labels.dtype == torch.long or labels.dtype == torch.int): _lowerCAmelCase : Optional[int] = """single_label_classification""" else: _lowerCAmelCase : Optional[int] = """multi_label_classification""" if self.config.problem_type == "regression": _lowerCAmelCase : Optional[Any] = MSELoss() if self.num_labels == 1: _lowerCAmelCase : int = loss_fct(logits.squeeze() , labels.squeeze() ) else: _lowerCAmelCase : Dict = loss_fct(a__ , a__ ) elif self.config.problem_type == "single_label_classification": _lowerCAmelCase : Any = CrossEntropyLoss() _lowerCAmelCase : Dict = loss_fct(logits.view(-1 , self.num_labels ) , labels.view(-1 ) ) elif self.config.problem_type == "multi_label_classification": _lowerCAmelCase : Dict = BCEWithLogitsLoss() _lowerCAmelCase : Tuple = loss_fct(a__ , a__ ) if not return_dict: _lowerCAmelCase : Optional[int] = (logits,) + outputs[2:] return (loss,) + output if loss is not None else output return ImageClassifierOutputWithNoAttention(loss=a__ , logits=a__ , hidden_states=outputs.hidden_states )	44	'''simple docstring''' from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available __lowerCAmelCase = { '''configuration_lilt''': ['''LILT_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''LiltConfig'''], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: __lowerCAmelCase = [ '''LILT_PRETRAINED_MODEL_ARCHIVE_LIST''', '''LiltForQuestionAnswering''', '''LiltForSequenceClassification''', '''LiltForTokenClassification''', '''LiltModel''', '''LiltPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_lilt import LILT_PRETRAINED_CONFIG_ARCHIVE_MAP, LiltConfig try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_lilt import ( LILT_PRETRAINED_MODEL_ARCHIVE_LIST, LiltForQuestionAnswering, LiltForSequenceClassification, LiltForTokenClassification, LiltModel, LiltPreTrainedModel, ) else: import sys __lowerCAmelCase = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)	89	0
def snake_case__ ( SCREAMING_SNAKE_CASE_ : List[Any] , SCREAMING_SNAKE_CASE_ : Tuple , SCREAMING_SNAKE_CASE_ : Union[str, Any] , SCREAMING_SNAKE_CASE_ : int ): '''simple docstring''' global f # a global dp table for knapsack if f[i][j] < 0: if j < wt[i - 1]: lowercase__ : Any = mf_knapsack(i - 1 , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ ) else: lowercase__ : Dict = max( mf_knapsack(i - 1 , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ ) , mf_knapsack(i - 1 , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , j - wt[i - 1] ) + val[i - 1] , ) lowercase__ : Union[str, Any] = val return f[i][j] def snake_case__ ( SCREAMING_SNAKE_CASE_ : str , SCREAMING_SNAKE_CASE_ : List[str] , SCREAMING_SNAKE_CASE_ : List[Any] , SCREAMING_SNAKE_CASE_ : Any ): '''simple docstring''' lowercase__ : Optional[Any] = [[0] * (w + 1) for _ in range(n + 1 )] for i in range(1 , n + 1 ): for w_ in range(1 , w + 1 ): if wt[i - 1] <= w_: lowercase__ : List[str] = max(val[i - 1] + dp[i - 1][w_ - wt[i - 1]] , dp[i - 1][w_] ) else: lowercase__ : str = dp[i - 1][w_] return dp[n][w_], dp def snake_case__ ( SCREAMING_SNAKE_CASE_ : int , SCREAMING_SNAKE_CASE_ : list , SCREAMING_SNAKE_CASE_ : list ): '''simple docstring''' if not (isinstance(SCREAMING_SNAKE_CASE_ , (list, tuple) ) and isinstance(SCREAMING_SNAKE_CASE_ , (list, tuple) )): raise ValueError( 'Both the weights and values vectors must be either lists or tuples' ) lowercase__ : Tuple = len(SCREAMING_SNAKE_CASE_ ) if num_items != len(SCREAMING_SNAKE_CASE_ ): lowercase__ : Tuple = ( 'The number of weights must be the same as the number of values.\n' f"""But got {num_items} weights and {len(SCREAMING_SNAKE_CASE_ )} values""" ) raise ValueError(SCREAMING_SNAKE_CASE_ ) for i in range(SCREAMING_SNAKE_CASE_ ): if not isinstance(wt[i] , SCREAMING_SNAKE_CASE_ ): lowercase__ : Tuple = ( 'All weights must be integers but got weight of ' f"""type {type(wt[i] )} at index {i}""" ) raise TypeError(SCREAMING_SNAKE_CASE_ ) lowercase__ : int = knapsack(SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ ) lowercase__ : set = set() _construct_solution(SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ ) return optimal_val, example_optional_set def snake_case__ ( SCREAMING_SNAKE_CASE_ : list , SCREAMING_SNAKE_CASE_ : list , SCREAMING_SNAKE_CASE_ : int , SCREAMING_SNAKE_CASE_ : int , SCREAMING_SNAKE_CASE_ : set ): '''simple docstring''' if i > 0 and j > 0: if dp[i - 1][j] == dp[i][j]: _construct_solution(SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , i - 1 , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ ) else: optimal_set.add(SCREAMING_SNAKE_CASE_ ) _construct_solution(SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , i - 1 , j - wt[i - 1] , SCREAMING_SNAKE_CASE_ ) if __name__ == "__main__": snake_case_ = [3, 2, 4, 4] snake_case_ = [4, 3, 2, 3] snake_case_ = 4 snake_case_ = 6 snake_case_ = [[0] * (w + 1)] + [[0] + [-1] * (w + 1) for _ in range(n + 1)] snake_case_ , snake_case_ = knapsack(w, wt, val, n) print(optimal_solution) print(mf_knapsack(n, wt, val, w)) # switched the n and w # testing the dynamic programming problem with example # the optimal subset for the above example are items 3 and 4 snake_case_ , snake_case_ = knapsack_with_example_solution(w, wt, val) assert optimal_solution == 8 assert optimal_subset == {3, 4} print('''optimal_value = ''', optimal_solution) print('''An optimal subset corresponding to the optimal value''', optimal_subset)	358	import json from typing import List, Optional, Tuple from tokenizers import normalizers from tokenizers.pre_tokenizers import BertPreTokenizer, PreTokenizer from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_roformer import RoFormerTokenizer from .tokenization_utils import JiebaPreTokenizer snake_case_ = logging.get_logger(__name__) snake_case_ = {'''vocab_file''': '''vocab.txt''', '''tokenizer_file''': '''tokenizer.json'''} snake_case_ = { '''vocab_file''': { '''junnyu/roformer_chinese_small''': '''https://huggingface.co/junnyu/roformer_chinese_small/resolve/main/vocab.txt''', '''junnyu/roformer_chinese_base''': '''https://huggingface.co/junnyu/roformer_chinese_base/resolve/main/vocab.txt''', '''junnyu/roformer_chinese_char_small''': ( '''https://huggingface.co/junnyu/roformer_chinese_char_small/resolve/main/vocab.txt''' ), '''junnyu/roformer_chinese_char_base''': ( '''https://huggingface.co/junnyu/roformer_chinese_char_base/resolve/main/vocab.txt''' ), '''junnyu/roformer_small_discriminator''': ( '''https://huggingface.co/junnyu/roformer_small_discriminator/resolve/main/vocab.txt''' ), '''junnyu/roformer_small_generator''': ( '''https://huggingface.co/junnyu/roformer_small_generator/resolve/main/vocab.txt''' ), } } snake_case_ = { '''junnyu/roformer_chinese_small''': 1_536, '''junnyu/roformer_chinese_base''': 1_536, '''junnyu/roformer_chinese_char_small''': 512, '''junnyu/roformer_chinese_char_base''': 512, '''junnyu/roformer_small_discriminator''': 128, '''junnyu/roformer_small_generator''': 128, } snake_case_ = { '''junnyu/roformer_chinese_small''': {'''do_lower_case''': True}, '''junnyu/roformer_chinese_base''': {'''do_lower_case''': True}, '''junnyu/roformer_chinese_char_small''': {'''do_lower_case''': True}, '''junnyu/roformer_chinese_char_base''': {'''do_lower_case''': True}, '''junnyu/roformer_small_discriminator''': {'''do_lower_case''': True}, '''junnyu/roformer_small_generator''': {'''do_lower_case''': True}, } class SCREAMING_SNAKE_CASE__ (__snake_case ): __lowerCamelCase : Union[str, Any] = VOCAB_FILES_NAMES __lowerCamelCase : int = PRETRAINED_VOCAB_FILES_MAP __lowerCamelCase : Any = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES __lowerCamelCase : int = PRETRAINED_INIT_CONFIGURATION __lowerCamelCase : Tuple = RoFormerTokenizer def __init__( self , a=None , a=None , a=True , a="[UNK]" , a="[SEP]" , a="[PAD]" , a="[CLS]" , a="[MASK]" , a=True , a=None , a , ): super().__init__( a , tokenizer_file=a , do_lower_case=a , unk_token=a , sep_token=a , pad_token=a , cls_token=a , mask_token=a , tokenize_chinese_chars=a , strip_accents=a , a , ) lowercase__ : Optional[Any] = json.loads(self.backend_tokenizer.normalizer.__getstate__()) if ( pre_tok_state.get('lowercase' , a) != do_lower_case or pre_tok_state.get('strip_accents' , a) != strip_accents ): lowercase__ : Optional[int] = getattr(a , pre_tok_state.pop('type')) lowercase__ : str = do_lower_case lowercase__ : Union[str, Any] = strip_accents lowercase__ : int = pre_tok_class(*a) lowercase__ : Optional[int] = do_lower_case def __getstate__( self): lowercase__ : str = self.__dict__.copy() lowercase__ : Any = BertPreTokenizer() return state def __setstate__( self , a): lowercase__ : Union[str, Any] = d lowercase__ : int = self.__dict__['_tokenizer'].get_vocab() lowercase__ : List[str] = PreTokenizer.custom(JiebaPreTokenizer(a)) def snake_case_ ( self , a , a=None): lowercase__ : Union[str, Any] = [self.cls_token_id] + token_ids_a + [self.sep_token_id] if token_ids_a: output += token_ids_a + [self.sep_token_id] return output def snake_case_ ( self , a , a = None): lowercase__ : Tuple = [self.sep_token_id] lowercase__ : Optional[int] = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep) [0] return len(cls + token_ids_a + sep) * [0] + len(token_ids_a + sep) * [1] def snake_case_ ( self , a , a = None): lowercase__ : Optional[Any] = self._tokenizer.model.save(a , name=a) return tuple(a) def snake_case_ ( self , a , a=None , a=None , a=False , a , ): lowercase__ : List[str] = BertPreTokenizer() return super().save_pretrained(a , a , a , a , a)	216	0
"""simple docstring""" import argparse from transformers import TaConfig, TaForConditionalGeneration, load_tf_weights_in_ta from transformers.utils import logging logging.set_verbosity_info() def lowerCamelCase__ ( _lowerCamelCase : Union[str, Any] , _lowerCamelCase : Tuple , _lowerCamelCase : Dict ) -> List[str]: lowerCamelCase_ = TaConfig.from_json_file(_SCREAMING_SNAKE_CASE ) print(F'''Building PyTorch model from configuration: {config}''' ) lowerCamelCase_ = TaForConditionalGeneration(_SCREAMING_SNAKE_CASE ) # Load weights from tf checkpoint load_tf_weights_in_ta(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) # Save pytorch-model print(F'''Save PyTorch model to {pytorch_dump_path}''' ) model.save_pretrained(_SCREAMING_SNAKE_CASE ) if __name__ == "__main__": _SCREAMING_SNAKE_CASE : int = argparse.ArgumentParser() # Required parameters parser.add_argument( '''--tf_checkpoint_path''', default=None, type=str, required=True, help='''Path to the TensorFlow checkpoint path.''' ) parser.add_argument( '''--config_file''', default=None, type=str, required=True, help=( '''The config json file corresponding to the pre-trained T5 model. \nThis specifies the model architecture.''' ), ) parser.add_argument( '''--pytorch_dump_path''', default=None, type=str, required=True, help='''Path to the output PyTorch model.''' ) _SCREAMING_SNAKE_CASE : Union[str, Any] = parser.parse_args() convert_tf_checkpoint_to_pytorch(args.tf_checkpoint_path, args.config_file, args.pytorch_dump_path)	183	from collections import defaultdict from math import gcd def __lowercase ( _SCREAMING_SNAKE_CASE = 1_50_00_00 ) -> int: '''simple docstring''' SCREAMING_SNAKE_CASE = defaultdict(_SCREAMING_SNAKE_CASE ) SCREAMING_SNAKE_CASE = 2 while 2 * euclid_m * (euclid_m + 1) <= limit: for euclid_n in range((euclid_m % 2) + 1 , _SCREAMING_SNAKE_CASE , 2 ): if gcd(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) > 1: continue SCREAMING_SNAKE_CASE = 2 * euclid_m * (euclid_m + euclid_n) for perimeter in range(_SCREAMING_SNAKE_CASE , limit + 1 , _SCREAMING_SNAKE_CASE ): frequencies[perimeter] += 1 euclid_m += 1 return sum(1 for frequency in frequencies.values() if frequency == 1 ) if __name__ == "__main__": print(F'''{solution() = }''')	296	0
import copy import os from typing import Union from ...configuration_utils import PretrainedConfig from ...utils import logging lowerCamelCase : List[Any] = logging.get_logger(__name__) lowerCamelCase : Any = { '''BAAI/AltCLIP''': '''https://huggingface.co/BAAI/AltCLIP/resolve/main/config.json''', # See all AltCLIP models at https://huggingface.co/models?filter=altclip } class lowerCAmelCase ( __a ): '''simple docstring''' _A : List[Any] = '''altclip_text_model''' def __init__( self : Optional[Any] , __a : int=250002 , __a : Dict=1024 , __a : Optional[Any]=24 , __a : Optional[int]=16 , __a : Optional[int]=4096 , __a : Union[str, Any]="gelu" , __a : Optional[int]=0.1 , __a : Tuple=0.1 , __a : Optional[Any]=514 , __a : Optional[int]=1 , __a : Dict=0.02 , __a : Optional[int]=0.02 , __a : int=1E-05 , __a : int=1 , __a : Any=0 , __a : Union[str, Any]=2 , __a : Any="absolute" , __a : Any=True , __a : Tuple=768 , __a : Union[str, Any] , ) -> Dict: """simple docstring""" super().__init__(pad_token_id=__a , bos_token_id=__a , eos_token_id=__a , __a ) __lowercase : Optional[int] = vocab_size __lowercase : List[str] = hidden_size __lowercase : Tuple = num_hidden_layers __lowercase : str = num_attention_heads __lowercase : Any = hidden_act __lowercase : int = intermediate_size __lowercase : Optional[int] = hidden_dropout_prob __lowercase : List[str] = attention_probs_dropout_prob __lowercase : int = max_position_embeddings __lowercase : Optional[Any] = type_vocab_size __lowercase : Any = initializer_range __lowercase : Optional[Any] = initializer_factor __lowercase : int = layer_norm_eps __lowercase : List[str] = position_embedding_type __lowercase : Any = use_cache __lowercase : Optional[Any] = project_dim class lowerCAmelCase ( __a ): '''simple docstring''' _A : Any = '''altclip_vision_model''' def __init__( self : Tuple , __a : List[Any]=768 , __a : Optional[int]=3072 , __a : Optional[Any]=512 , __a : Union[str, Any]=12 , __a : Any=12 , __a : Optional[int]=3 , __a : Any=224 , __a : Dict=32 , __a : int="quick_gelu" , __a : Dict=1E-5 , __a : Dict=0.0 , __a : Optional[Any]=0.02 , __a : Dict=1.0 , __a : Optional[int] , ) -> Union[str, Any]: """simple docstring""" super().__init__(__a ) __lowercase : List[Any] = hidden_size __lowercase : Optional[int] = intermediate_size __lowercase : Tuple = projection_dim __lowercase : List[Any] = num_hidden_layers __lowercase : Optional[Any] = num_attention_heads __lowercase : str = num_channels __lowercase : Optional[int] = patch_size __lowercase : Optional[Any] = image_size __lowercase : List[str] = initializer_range __lowercase : Optional[int] = initializer_factor __lowercase : str = attention_dropout __lowercase : str = layer_norm_eps __lowercase : List[Any] = hidden_act @classmethod def lowerCAmelCase ( cls : int , __a : Union[str, os.PathLike] , __a : List[Any] ) -> "PretrainedConfig": """simple docstring""" cls._set_token_in_kwargs(__a ) __lowercase , __lowercase : Optional[Any] = cls.get_config_dict(__a , __a ) # get the vision config dict if we are loading from AltCLIPConfig if config_dict.get("""model_type""" ) == "altclip": __lowercase : Tuple = config_dict["""vision_config"""] if "model_type" in config_dict and hasattr(cls , """model_type""" ) and config_dict["model_type"] != cls.model_type: logger.warning( F"You are using a model of type {config_dict['model_type']} to instantiate a model of type " F"{cls.model_type}. This is not supported for all configurations of models and can yield errors." ) return cls.from_dict(__a , __a ) class lowerCAmelCase ( __a ): '''simple docstring''' _A : str = '''altclip''' _A : str = True def __init__( self : Optional[Any] , __a : Union[str, Any]=None , __a : str=None , __a : Optional[int]=768 , __a : Optional[int]=2.6592 , __a : Any ) -> List[Any]: """simple docstring""" __lowercase : Dict = kwargs.pop("""text_config_dict""" , __a ) __lowercase : Optional[int] = kwargs.pop("""vision_config_dict""" , __a ) super().__init__(__a ) # Instead of simply assigning `[text\|vision]_config_dict` to `[text\|vision]_config`, we use the values in # `[text\|vision]_config_dict` to update the values in `[text\|vision]_config`. The values should be same in most # cases, but we don't want to break anything regarding `_config_dict` that existed before commit `8827e1b2`. if text_config_dict is not None: if text_config is None: __lowercase : Optional[Any] = {} # This is the complete result when using `text_config_dict`. __lowercase : Tuple = AltCLIPTextConfig(__a ).to_dict() # Give a warning if the values exist in both `_text_config_dict` and `text_config` but being different. for key, value in _text_config_dict.items(): if key in text_config and value != text_config[key] and key not in ["transformers_version"]: # If specified in `text_config_dict` if key in text_config_dict: __lowercase : List[Any] = ( F"`{key}` is found in both `text_config_dict` and `text_config` but with different values. " F"The value `text_config_dict[\"{key}\"]` will be used instead." ) # If inferred from default argument values (just to be super careful) else: __lowercase : Union[str, Any] = ( F"`text_config_dict` is provided which will be used to initialize `AltCLIPTextConfig`. The " F"value `text_config[\"{key}\"]` will be overriden." ) logger.warning(__a ) # Update all values in `text_config` with the ones in `_text_config_dict`. text_config.update(_text_config_dict ) if vision_config_dict is not None: if vision_config is None: __lowercase : Tuple = {} # This is the complete result when using `vision_config_dict`. __lowercase : Any = AltCLIPVisionConfig(__a ).to_dict() # convert keys to string instead of integer if "id2label" in _vision_config_dict: __lowercase : int = { str(__a ): value for key, value in _vision_config_dict["""id2label"""].items() } # Give a warning if the values exist in both `_vision_config_dict` and `vision_config` but being different. for key, value in _vision_config_dict.items(): if key in vision_config and value != vision_config[key] and key not in ["transformers_version"]: # If specified in `vision_config_dict` if key in vision_config_dict: __lowercase : Optional[int] = ( F"`{key}` is found in both `vision_config_dict` and `vision_config` but with different " F"values. The value `vision_config_dict[\"{key}\"]` will be used instead." ) # If inferred from default argument values (just to be super careful) else: __lowercase : Optional[int] = ( F"`vision_config_dict` is provided which will be used to initialize `AltCLIPVisionConfig`. " F"The value `vision_config[\"{key}\"]` will be overriden." ) logger.warning(__a ) # Update all values in `vision_config` with the ones in `_vision_config_dict`. vision_config.update(_vision_config_dict ) if text_config is None: __lowercase : List[str] = {} logger.info("""`text_config` is `None`. Initializing the `AltCLIPTextConfig` with default values.""" ) if vision_config is None: __lowercase : int = {} logger.info("""`vision_config` is `None`. initializing the `AltCLIPVisionConfig` with default values.""" ) __lowercase : int = AltCLIPTextConfig(__a ) __lowercase : int = AltCLIPVisionConfig(__a ) __lowercase : Optional[int] = projection_dim __lowercase : Dict = logit_scale_init_value __lowercase : Any = 1.0 @classmethod def lowerCAmelCase ( cls : Optional[int] , __a : AltCLIPTextConfig , __a : AltCLIPVisionConfig , __a : List[Any] ) -> int: """simple docstring""" return cls(text_config=text_config.to_dict() , vision_config=vision_config.to_dict() , **__a ) def lowerCAmelCase ( self : Tuple ) -> int: """simple docstring""" __lowercase : Tuple = copy.deepcopy(self.__dict__ ) __lowercase : Optional[Any] = self.text_config.to_dict() __lowercase : int = self.vision_config.to_dict() __lowercase : Tuple = self.__class__.model_type return output	306	def snake_case_ ( lowerCAmelCase_ : int ): __lowercase : int = (1 + 24 * n) ** 0.5 return ((1 + root) / 6) % 1 == 0 def snake_case_ ( lowerCAmelCase_ : int = 5000 ): __lowercase : Optional[int] = [(i * (3 * i - 1)) // 2 for i in range(1 , lowerCAmelCase_ )] for i, pentagonal_i in enumerate(lowerCAmelCase_ ): for j in range(lowerCAmelCase_ , len(lowerCAmelCase_ ) ): __lowercase : int = pentagonal_nums[j] __lowercase : Optional[int] = pentagonal_i + pentagonal_j __lowercase : Union[str, Any] = pentagonal_j - pentagonal_i if is_pentagonal(lowerCAmelCase_ ) and is_pentagonal(lowerCAmelCase_ ): return b return -1 if __name__ == "__main__": print(f'''{solution() = }''')	306	1
import argparse import json import os import time import zipfile from get_ci_error_statistics import download_artifact, get_artifacts_links from transformers import logging __lowerCamelCase = logging.get_logger(__name__) def UpperCamelCase ( __lowerCamelCase : Any , __lowerCamelCase : List[Any] ): snake_case : int = set() snake_case : Tuple = [] def parse_line(__lowerCamelCase : Optional[Any] ): for line in fp: if isinstance(__lowerCamelCase , __lowerCamelCase ): snake_case : Tuple = line.decode("UTF-8" ) if "warnings summary (final)" in line: continue # This means we are outside the body of a warning elif not line.startswith(" " ): # process a single warning and move it to `selected_warnings`. if len(__lowerCamelCase ) > 0: snake_case : List[str] = "\n".join(__lowerCamelCase ) # Only keep the warnings specified in `targets` if any(f""": {x}: """ in warning for x in targets ): selected_warnings.add(__lowerCamelCase ) buffer.clear() continue else: snake_case : Tuple = line.strip() buffer.append(__lowerCamelCase ) if from_gh: for filename in os.listdir(__lowerCamelCase ): snake_case : List[Any] = os.path.join(__lowerCamelCase , __lowerCamelCase ) if not os.path.isdir(__lowerCamelCase ): # read the file if filename != "warnings.txt": continue with open(__lowerCamelCase ) as fp: parse_line(__lowerCamelCase ) else: try: with zipfile.ZipFile(__lowerCamelCase ) as z: for filename in z.namelist(): if not os.path.isdir(__lowerCamelCase ): # read the file if filename != "warnings.txt": continue with z.open(__lowerCamelCase ) as fp: parse_line(__lowerCamelCase ) except Exception: logger.warning( f"""{artifact_path} is either an invalid zip file or something else wrong. This file is skipped.""" ) return selected_warnings def UpperCamelCase ( __lowerCamelCase : int , __lowerCamelCase : str ): snake_case : Union[str, Any] = set() snake_case : List[Any] = [os.path.join(__lowerCamelCase , __lowerCamelCase ) for p in os.listdir(__lowerCamelCase ) if (p.endswith(".zip" ) or from_gh)] for p in paths: selected_warnings.update(extract_warnings_from_single_artifact(__lowerCamelCase , __lowerCamelCase ) ) return selected_warnings if __name__ == "__main__": def UpperCamelCase ( __lowerCamelCase : Union[str, Any] ): return values.split("," ) __lowerCamelCase = argparse.ArgumentParser() # Required parameters parser.add_argument("""--workflow_run_id""", type=str, required=True, help="""A GitHub Actions workflow run id.""") parser.add_argument( """--output_dir""", type=str, required=True, help="""Where to store the downloaded artifacts and other result files.""", ) parser.add_argument("""--token""", default=None, type=str, help="""A token that has actions:read permission.""") # optional parameters parser.add_argument( """--targets""", default="""DeprecationWarning,UserWarning,FutureWarning""", type=list_str, help="""Comma-separated list of target warning(s) which we want to extract.""", ) parser.add_argument( """--from_gh""", action="""store_true""", help="""If running from a GitHub action workflow and collecting warnings from its artifacts.""", ) __lowerCamelCase = parser.parse_args() __lowerCamelCase = args.from_gh if from_gh: # The artifacts have to be downloaded using `actions/download-artifact@v3` pass else: os.makedirs(args.output_dir, exist_ok=True) # get download links __lowerCamelCase = get_artifacts_links(args.workflow_run_id, token=args.token) with open(os.path.join(args.output_dir, """artifacts.json"""), """w""", encoding="""UTF-8""") as fp: json.dump(artifacts, fp, ensure_ascii=False, indent=4) # download artifacts for idx, (name, url) in enumerate(artifacts.items()): print(name) print(url) print("""=""" * 80) download_artifact(name, url, args.output_dir, args.token) # Be gentle to GitHub time.sleep(1) # extract warnings from artifacts __lowerCamelCase = extract_warnings(args.output_dir, args.targets) __lowerCamelCase = sorted(selected_warnings) with open(os.path.join(args.output_dir, """selected_warnings.json"""), """w""", encoding="""UTF-8""") as fp: json.dump(selected_warnings, fp, ensure_ascii=False, indent=4)	59	import json from typing import List, Optional, Tuple from tokenizers import normalizers from ...tokenization_utils_fast import PreTrainedTokenizerFast from .tokenization_lxmert import LxmertTokenizer __lowerCamelCase = {"""vocab_file""": """vocab.txt""", """tokenizer_file""": """tokenizer.json"""} __lowerCamelCase = { """vocab_file""": { """unc-nlp/lxmert-base-uncased""": """https://huggingface.co/unc-nlp/lxmert-base-uncased/resolve/main/vocab.txt""", }, """tokenizer_file""": { """unc-nlp/lxmert-base-uncased""": ( """https://huggingface.co/unc-nlp/lxmert-base-uncased/resolve/main/tokenizer.json""" ), }, } __lowerCamelCase = { """unc-nlp/lxmert-base-uncased""": 5_12, } __lowerCamelCase = { """unc-nlp/lxmert-base-uncased""": {"""do_lower_case""": True}, } class UpperCAmelCase ( A_ ): A__ : Any = VOCAB_FILES_NAMES A__ : Optional[int] = PRETRAINED_VOCAB_FILES_MAP A__ : Tuple = PRETRAINED_INIT_CONFIGURATION A__ : Tuple = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES A__ : List[Any] = LxmertTokenizer def __init__(self : Dict , snake_case__ : Tuple=None , snake_case__ : Optional[Any]=None , snake_case__ : Optional[Any]=True , snake_case__ : Tuple="[UNK]" , snake_case__ : Optional[Any]="[SEP]" , snake_case__ : Optional[Any]="[PAD]" , snake_case__ : List[Any]="[CLS]" , snake_case__ : Tuple="[MASK]" , snake_case__ : Dict=True , snake_case__ : Union[str, Any]=None , snake_case__ : Dict , ) -> Optional[int]: '''simple docstring''' super().__init__( snake_case__ , tokenizer_file=snake_case__ , do_lower_case=snake_case__ , unk_token=snake_case__ , sep_token=snake_case__ , pad_token=snake_case__ , cls_token=snake_case__ , mask_token=snake_case__ , tokenize_chinese_chars=snake_case__ , strip_accents=snake_case__ , snake_case__ , ) snake_case : int = json.loads(self.backend_tokenizer.normalizer.__getstate__() ) if ( normalizer_state.get("lowercase" , snake_case__ ) != do_lower_case or normalizer_state.get("strip_accents" , snake_case__ ) != strip_accents or normalizer_state.get("handle_chinese_chars" , snake_case__ ) != tokenize_chinese_chars ): snake_case : Union[str, Any] = getattr(snake_case__ , normalizer_state.pop("type" ) ) snake_case : str = do_lower_case snake_case : List[Any] = strip_accents snake_case : Optional[int] = tokenize_chinese_chars snake_case : int = normalizer_class(*snake_case__ ) snake_case : Optional[Any] = do_lower_case def _SCREAMING_SNAKE_CASE (self : Union[str, Any] , snake_case__ : Optional[Any] , snake_case__ : Dict=None ) -> Any: '''simple docstring''' snake_case : Optional[int] = [self.cls_token_id] + token_ids_a + [self.sep_token_id] if token_ids_a: output += token_ids_a + [self.sep_token_id] return output def _SCREAMING_SNAKE_CASE (self : Optional[int] , snake_case__ : List[int] , snake_case__ : Optional[List[int]] = None ) -> List[int]: '''simple docstring''' snake_case : Optional[Any] = [self.sep_token_id] snake_case : Optional[Any] = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) [0] return len(cls + token_ids_a + sep ) * [0] + len(token_ids_a + sep ) * [1] def _SCREAMING_SNAKE_CASE (self : Any , snake_case__ : str , snake_case__ : Optional[str] = None ) -> Tuple[str]: '''simple docstring''' snake_case : List[Any] = self._tokenizer.model.save(snake_case__ , name=snake_case__ ) return tuple(snake_case__ )	59	1
'''simple docstring''' import argparse import json from dataclasses import dataclass, field from functools import partial from pathlib import Path from typing import Callable, Dict, List, Tuple import timm import torch import torch.nn as nn from classy_vision.models.regnet import RegNet, RegNetParams, RegNetYaagf, RegNetYaagf, RegNetYaaagf from huggingface_hub import cached_download, hf_hub_url from torch import Tensor from vissl.models.model_helpers import get_trunk_forward_outputs from transformers import AutoImageProcessor, RegNetConfig, RegNetForImageClassification, RegNetModel from transformers.utils import logging logging.set_verbosity_info() _UpperCamelCase = logging.get_logger() @dataclass class _A : _SCREAMING_SNAKE_CASE : nn.Module _SCREAMING_SNAKE_CASE : List[nn.Module] = field(default_factory=__SCREAMING_SNAKE_CASE ) _SCREAMING_SNAKE_CASE : list = field(default_factory=__SCREAMING_SNAKE_CASE ) def __A ( self , __UpperCAmelCase , __UpperCAmelCase , __UpperCAmelCase ) -> Dict: '''simple docstring''' __UpperCAmelCase : List[Any] = len(list(m.modules() ) ) == 1 or isinstance(__UpperCAmelCase , nn.Convad ) or isinstance(__UpperCAmelCase , nn.BatchNormad ) if has_not_submodules: self.traced.append(__UpperCAmelCase ) def __call__( self , __UpperCAmelCase ) -> str: '''simple docstring''' for m in self.module.modules(): self.handles.append(m.register_forward_hook(self._forward_hook ) ) self.module(__UpperCAmelCase ) [x.remove() for x in self.handles] return self @property def __A ( self ) -> Union[str, Any]: '''simple docstring''' return list(filter(lambda __UpperCAmelCase : len(list(x.state_dict().keys() ) ) > 0 , self.traced ) ) @dataclass class _A : _SCREAMING_SNAKE_CASE : nn.Module _SCREAMING_SNAKE_CASE : nn.Module _SCREAMING_SNAKE_CASE : int = 1 _SCREAMING_SNAKE_CASE : List = field(default_factory=__SCREAMING_SNAKE_CASE ) _SCREAMING_SNAKE_CASE : List = field(default_factory=__SCREAMING_SNAKE_CASE ) _SCREAMING_SNAKE_CASE : bool = True def __call__( self , __UpperCAmelCase ) -> Any: '''simple docstring''' __UpperCAmelCase : str = Tracker(self.dest )(__UpperCAmelCase ).parametrized __UpperCAmelCase : int = Tracker(self.src )(__UpperCAmelCase ).parametrized __UpperCAmelCase : Optional[Any] = list(filter(lambda __UpperCAmelCase : type(__UpperCAmelCase ) not in self.src_skip , __UpperCAmelCase ) ) __UpperCAmelCase : Any = list(filter(lambda __UpperCAmelCase : type(__UpperCAmelCase ) not in self.dest_skip , __UpperCAmelCase ) ) if len(__UpperCAmelCase ) != len(__UpperCAmelCase ) and self.raise_if_mismatch: raise Exception( f'Numbers of operations are different. Source module has {len(__UpperCAmelCase )} operations while' f' destination module has {len(__UpperCAmelCase )}.' ) for dest_m, src_m in zip(__UpperCAmelCase , __UpperCAmelCase ): dest_m.load_state_dict(src_m.state_dict() ) if self.verbose == 1: print(f'Transfered from={src_m} to={dest_m}' ) class _A ( nn.Module ): def __init__( self , __UpperCAmelCase ) -> Optional[int]: '''simple docstring''' super().__init__() __UpperCAmelCase : List[Tuple[str, nn.Module]] = [] # - get the stem feature_blocks.append(("""conv1""", model.stem) ) # - get all the feature blocks for k, v in model.trunk_output.named_children(): assert k.startswith("""block""" ), f'Unexpected layer name {k}' __UpperCAmelCase : Any = len(__UpperCAmelCase ) + 1 feature_blocks.append((f'res{block_index}', v) ) __UpperCAmelCase : List[Any] = nn.ModuleDict(__UpperCAmelCase ) def __A ( self , __UpperCAmelCase ) -> List[Any]: '''simple docstring''' return get_trunk_forward_outputs( __UpperCAmelCase , out_feat_keys=__UpperCAmelCase , feature_blocks=self._feature_blocks , ) class _A ( __SCREAMING_SNAKE_CASE ): def __A ( self , __UpperCAmelCase ) -> str: '''simple docstring''' __UpperCAmelCase : int = x.split("""-""" ) return x_split[0] + x_split[1] + "_" + "".join(x_split[2:] ) def __getitem__( self , __UpperCAmelCase ) -> Callable[[], Tuple[nn.Module, Dict]]: '''simple docstring''' # default to timm! if x not in self: __UpperCAmelCase : List[Any] = self.convert_name_to_timm(__UpperCAmelCase ) __UpperCAmelCase : Tuple = partial(lambda: (timm.create_model(__UpperCAmelCase , pretrained=__UpperCAmelCase ).eval(), None) ) else: __UpperCAmelCase : str = super().__getitem__(__UpperCAmelCase ) return val class _A ( __SCREAMING_SNAKE_CASE ): def __getitem__( self , __UpperCAmelCase ) -> Callable[[], nn.Module]: '''simple docstring''' if "seer" in x and "in1k" not in x: __UpperCAmelCase : Tuple = RegNetModel else: __UpperCAmelCase : int = RegNetForImageClassification return val def lowercase_ ( lowerCAmelCase__ : List[Any] , lowerCAmelCase__ : int , lowerCAmelCase__ : List[Tuple[str, str]] ): """simple docstring""" for from_key, to_key in keys: __UpperCAmelCase : int = from_state_dict[from_key].clone() print(f'Copied key={from_key} to={to_key}' ) return to_state_dict def lowercase_ ( lowerCAmelCase__ : str , lowerCAmelCase__ : Callable[[], nn.Module] , lowerCAmelCase__ : Callable[[], nn.Module] , lowerCAmelCase__ : RegNetConfig , lowerCAmelCase__ : Path , lowerCAmelCase__ : bool = True , ): """simple docstring""" print(f'Converting {name}...' ) with torch.no_grad(): __UpperCAmelCase : Tuple = from_model_func() __UpperCAmelCase : Optional[int] = our_model_func(lowerCAmelCase__ ).eval() __UpperCAmelCase : Dict = ModuleTransfer(src=lowerCAmelCase__ , dest=lowerCAmelCase__ , raise_if_mismatch=lowerCAmelCase__ ) __UpperCAmelCase : Union[str, Any] = torch.randn((1, 3, 224, 224) ) module_transfer(lowerCAmelCase__ ) if from_state_dict is not None: __UpperCAmelCase : List[str] = [] # for seer - in1k finetuned we have to manually copy the head if "seer" in name and "in1k" in name: __UpperCAmelCase : Tuple = [("""0.clf.0.weight""", """classifier.1.weight"""), ("""0.clf.0.bias""", """classifier.1.bias""")] __UpperCAmelCase : Any = manually_copy_vissl_head(lowerCAmelCase__ , our_model.state_dict() , lowerCAmelCase__ ) our_model.load_state_dict(lowerCAmelCase__ ) __UpperCAmelCase : List[str] = our_model(lowerCAmelCase__ , output_hidden_states=lowerCAmelCase__ ) __UpperCAmelCase : Optional[int] = ( our_outputs.logits if isinstance(lowerCAmelCase__ , lowerCAmelCase__ ) else our_outputs.last_hidden_state ) __UpperCAmelCase : Tuple = from_model(lowerCAmelCase__ ) __UpperCAmelCase : List[Any] = from_output[-1] if type(lowerCAmelCase__ ) is list else from_output # now since I don't want to use any config files, vissl seer model doesn't actually have an head, so let's just check the last hidden state if "seer" in name and "in1k" in name: __UpperCAmelCase : Union[str, Any] = our_outputs.hidden_states[-1] assert torch.allclose(lowerCAmelCase__ , lowerCAmelCase__ ), "The model logits don't match the original one." if push_to_hub: our_model.push_to_hub( repo_path_or_name=save_directory / name , commit_message="""Add model""" , use_temp_dir=lowerCAmelCase__ , ) __UpperCAmelCase : Tuple = 224 if """seer""" not in name else 384 # we can use the convnext one __UpperCAmelCase : List[str] = AutoImageProcessor.from_pretrained("""facebook/convnext-base-224-22k-1k""" , size=lowerCAmelCase__ ) image_processor.push_to_hub( repo_path_or_name=save_directory / name , commit_message="""Add image processor""" , use_temp_dir=lowerCAmelCase__ , ) print(f'Pushed {name}' ) def lowercase_ ( lowerCAmelCase__ : Path , lowerCAmelCase__ : str = None , lowerCAmelCase__ : bool = True ): """simple docstring""" __UpperCAmelCase : List[str] = """imagenet-1k-id2label.json""" __UpperCAmelCase : List[str] = 1000 __UpperCAmelCase : Optional[Any] = (1, num_labels) __UpperCAmelCase : Any = """huggingface/label-files""" __UpperCAmelCase : Optional[Any] = num_labels __UpperCAmelCase : Optional[Any] = json.load(open(cached_download(hf_hub_url(lowerCAmelCase__ , lowerCAmelCase__ , repo_type="""dataset""" ) ) , """r""" ) ) __UpperCAmelCase : List[str] = {int(lowerCAmelCase__ ): v for k, v in idalabel.items()} __UpperCAmelCase : Tuple = idalabel __UpperCAmelCase : int = {v: k for k, v in idalabel.items()} __UpperCAmelCase : Dict = partial(lowerCAmelCase__ , num_labels=lowerCAmelCase__ , idalabel=lowerCAmelCase__ , labelaid=lowerCAmelCase__ ) __UpperCAmelCase : Tuple = { """regnet-x-002""": ImageNetPreTrainedConfig( depths=[1, 1, 4, 7] , hidden_sizes=[24, 56, 152, 368] , groups_width=8 , layer_type="""x""" ), """regnet-x-004""": ImageNetPreTrainedConfig( depths=[1, 2, 7, 12] , hidden_sizes=[32, 64, 160, 384] , groups_width=16 , layer_type="""x""" ), """regnet-x-006""": ImageNetPreTrainedConfig( depths=[1, 3, 5, 7] , hidden_sizes=[48, 96, 240, 528] , groups_width=24 , layer_type="""x""" ), """regnet-x-008""": ImageNetPreTrainedConfig( depths=[1, 3, 7, 5] , hidden_sizes=[64, 128, 288, 672] , groups_width=16 , layer_type="""x""" ), """regnet-x-016""": ImageNetPreTrainedConfig( depths=[2, 4, 10, 2] , hidden_sizes=[72, 168, 408, 912] , groups_width=24 , layer_type="""x""" ), """regnet-x-032""": ImageNetPreTrainedConfig( depths=[2, 6, 15, 2] , hidden_sizes=[96, 192, 432, 1008] , groups_width=48 , layer_type="""x""" ), """regnet-x-040""": ImageNetPreTrainedConfig( depths=[2, 5, 14, 2] , hidden_sizes=[80, 240, 560, 1360] , groups_width=40 , layer_type="""x""" ), """regnet-x-064""": ImageNetPreTrainedConfig( depths=[2, 4, 10, 1] , hidden_sizes=[168, 392, 784, 1624] , groups_width=56 , layer_type="""x""" ), """regnet-x-080""": ImageNetPreTrainedConfig( depths=[2, 5, 15, 1] , hidden_sizes=[80, 240, 720, 1920] , groups_width=120 , layer_type="""x""" ), """regnet-x-120""": ImageNetPreTrainedConfig( depths=[2, 5, 11, 1] , hidden_sizes=[224, 448, 896, 2240] , groups_width=112 , layer_type="""x""" ), """regnet-x-160""": ImageNetPreTrainedConfig( depths=[2, 6, 13, 1] , hidden_sizes=[256, 512, 896, 2048] , groups_width=128 , layer_type="""x""" ), """regnet-x-320""": ImageNetPreTrainedConfig( depths=[2, 7, 13, 1] , hidden_sizes=[336, 672, 1344, 2520] , groups_width=168 , layer_type="""x""" ), # y variant """regnet-y-002""": ImageNetPreTrainedConfig(depths=[1, 1, 4, 7] , hidden_sizes=[24, 56, 152, 368] , groups_width=8 ), """regnet-y-004""": ImageNetPreTrainedConfig( depths=[1, 3, 6, 6] , hidden_sizes=[48, 104, 208, 440] , groups_width=8 ), """regnet-y-006""": ImageNetPreTrainedConfig( depths=[1, 3, 7, 4] , hidden_sizes=[48, 112, 256, 608] , groups_width=16 ), """regnet-y-008""": ImageNetPreTrainedConfig( depths=[1, 3, 8, 2] , hidden_sizes=[64, 128, 320, 768] , groups_width=16 ), """regnet-y-016""": ImageNetPreTrainedConfig( depths=[2, 6, 17, 2] , hidden_sizes=[48, 120, 336, 888] , groups_width=24 ), """regnet-y-032""": ImageNetPreTrainedConfig( depths=[2, 5, 13, 1] , hidden_sizes=[72, 216, 576, 1512] , groups_width=24 ), """regnet-y-040""": ImageNetPreTrainedConfig( depths=[2, 6, 12, 2] , hidden_sizes=[128, 192, 512, 1088] , groups_width=64 ), """regnet-y-064""": ImageNetPreTrainedConfig( depths=[2, 7, 14, 2] , hidden_sizes=[144, 288, 576, 1296] , groups_width=72 ), """regnet-y-080""": ImageNetPreTrainedConfig( depths=[2, 4, 10, 1] , hidden_sizes=[168, 448, 896, 2016] , groups_width=56 ), """regnet-y-120""": ImageNetPreTrainedConfig( depths=[2, 5, 11, 1] , hidden_sizes=[224, 448, 896, 2240] , groups_width=112 ), """regnet-y-160""": ImageNetPreTrainedConfig( depths=[2, 4, 11, 1] , hidden_sizes=[224, 448, 1232, 3024] , groups_width=112 ), """regnet-y-320""": ImageNetPreTrainedConfig( depths=[2, 5, 12, 1] , hidden_sizes=[232, 696, 1392, 3712] , groups_width=232 ), # models created by SEER -> https://arxiv.org/abs/2202.08360 """regnet-y-320-seer""": RegNetConfig(depths=[2, 5, 12, 1] , hidden_sizes=[232, 696, 1392, 3712] , groups_width=232 ), """regnet-y-640-seer""": RegNetConfig(depths=[2, 5, 12, 1] , hidden_sizes=[328, 984, 1968, 4920] , groups_width=328 ), """regnet-y-1280-seer""": RegNetConfig( depths=[2, 7, 17, 1] , hidden_sizes=[528, 1056, 2904, 7392] , groups_width=264 ), """regnet-y-2560-seer""": RegNetConfig( depths=[3, 7, 16, 1] , hidden_sizes=[640, 1696, 2544, 5088] , groups_width=640 ), """regnet-y-10b-seer""": ImageNetPreTrainedConfig( depths=[2, 7, 17, 1] , hidden_sizes=[2020, 4040, 11110, 28280] , groups_width=1010 ), # finetuned on imagenet """regnet-y-320-seer-in1k""": ImageNetPreTrainedConfig( depths=[2, 5, 12, 1] , hidden_sizes=[232, 696, 1392, 3712] , groups_width=232 ), """regnet-y-640-seer-in1k""": ImageNetPreTrainedConfig( depths=[2, 5, 12, 1] , hidden_sizes=[328, 984, 1968, 4920] , groups_width=328 ), """regnet-y-1280-seer-in1k""": ImageNetPreTrainedConfig( depths=[2, 7, 17, 1] , hidden_sizes=[528, 1056, 2904, 7392] , groups_width=264 ), """regnet-y-2560-seer-in1k""": ImageNetPreTrainedConfig( depths=[3, 7, 16, 1] , hidden_sizes=[640, 1696, 2544, 5088] , groups_width=640 ), """regnet-y-10b-seer-in1k""": ImageNetPreTrainedConfig( depths=[2, 7, 17, 1] , hidden_sizes=[2020, 4040, 11110, 28280] , groups_width=1010 ), } __UpperCAmelCase : int = NameToOurModelFuncMap() __UpperCAmelCase : str = NameToFromModelFuncMap() # add seer weights logic def load_using_classy_vision(lowerCAmelCase__ : str , lowerCAmelCase__ : Callable[[], nn.Module] ) -> Tuple[nn.Module, Dict]: __UpperCAmelCase : Optional[int] = torch.hub.load_state_dict_from_url(lowerCAmelCase__ , model_dir=str(lowerCAmelCase__ ) , map_location="""cpu""" ) __UpperCAmelCase : int = model_func() # check if we have a head, if yes add it __UpperCAmelCase : Optional[int] = files["""classy_state_dict"""]["""base_model"""]["""model"""] __UpperCAmelCase : List[str] = model_state_dict["""trunk"""] model.load_state_dict(lowerCAmelCase__ ) return model.eval(), model_state_dict["heads"] # pretrained __UpperCAmelCase : Any = partial( lowerCAmelCase__ , """https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_regnet32d/seer_regnet32gf_model_iteration244000.torch""" , lambda: FakeRegNetVisslWrapper(RegNetYaagf() ) , ) __UpperCAmelCase : Optional[Any] = partial( lowerCAmelCase__ , """https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_regnet64/seer_regnet64gf_model_final_checkpoint_phase0.torch""" , lambda: FakeRegNetVisslWrapper(RegNetYaagf() ) , ) __UpperCAmelCase : Optional[int] = partial( lowerCAmelCase__ , """https://dl.fbaipublicfiles.com/vissl/model_zoo/swav_ig1b_regnet128Gf_cnstant_bs32_node16_sinkhorn10_proto16k_syncBN64_warmup8k/model_final_checkpoint_phase0.torch""" , lambda: FakeRegNetVisslWrapper(RegNetYaaagf() ) , ) __UpperCAmelCase : int = partial( lowerCAmelCase__ , """https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_regnet10B/model_iteration124500_conso.torch""" , lambda: FakeRegNetVisslWrapper( RegNet(RegNetParams(depth=27 , group_width=1010 , w_a=1744 , w_a=620.83 , w_m=2.52 ) ) ) , ) # IN1K finetuned __UpperCAmelCase : List[str] = partial( lowerCAmelCase__ , """https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_finetuned/seer_regnet32_finetuned_in1k_model_final_checkpoint_phase78.torch""" , lambda: FakeRegNetVisslWrapper(RegNetYaagf() ) , ) __UpperCAmelCase : Optional[int] = partial( lowerCAmelCase__ , """https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_finetuned/seer_regnet64_finetuned_in1k_model_final_checkpoint_phase78.torch""" , lambda: FakeRegNetVisslWrapper(RegNetYaagf() ) , ) __UpperCAmelCase : str = partial( lowerCAmelCase__ , """https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_finetuned/seer_regnet128_finetuned_in1k_model_final_checkpoint_phase78.torch""" , lambda: FakeRegNetVisslWrapper(RegNetYaaagf() ) , ) __UpperCAmelCase : Any = partial( lowerCAmelCase__ , """https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_finetuned/seer_10b_finetuned_in1k_model_phase28_conso.torch""" , lambda: FakeRegNetVisslWrapper( RegNet(RegNetParams(depth=27 , group_width=1010 , w_a=1744 , w_a=620.83 , w_m=2.52 ) ) ) , ) if model_name: convert_weight_and_push( lowerCAmelCase__ , names_to_from_model_map[model_name] , names_to_ours_model_map[model_name] , names_to_config[model_name] , lowerCAmelCase__ , lowerCAmelCase__ , ) else: for model_name, config in names_to_config.items(): convert_weight_and_push( lowerCAmelCase__ , names_to_from_model_map[model_name] , names_to_ours_model_map[model_name] , lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ , ) return config, expected_shape if __name__ == "__main__": _UpperCamelCase = argparse.ArgumentParser() # Required parameters parser.add_argument( '''--model_name''', default=None, type=str, help=( '''The name of the model you wish to convert, it must be one of the supported regnet* architecture,''' ''' currently: regnetx-, regnety-. If `None`, all of them will the converted.''' ), ) parser.add_argument( '''--pytorch_dump_folder_path''', default=None, type=Path, required=True, help='''Path to the output PyTorch model directory.''', ) parser.add_argument( '''--push_to_hub''', default=True, type=bool, required=False, help='''If True, push model and image processor to the hub.''', ) _UpperCamelCase = parser.parse_args() _UpperCamelCase = args.pytorch_dump_folder_path pytorch_dump_folder_path.mkdir(exist_ok=True, parents=True) convert_weights_and_push(pytorch_dump_folder_path, args.model_name, args.push_to_hub)	368	'''simple docstring''' import unittest from transformers import MODEL_FOR_ZERO_SHOT_OBJECT_DETECTION_MAPPING, is_vision_available, pipeline from transformers.testing_utils import ( is_pipeline_test, nested_simplify, require_tf, require_torch, require_vision, slow, ) from .test_pipelines_common import ANY if is_vision_available(): from PIL import Image else: class _A : @staticmethod def __A ( __UpperCAmelCase , *__UpperCAmelCase ) -> Dict: '''simple docstring''' pass @is_pipeline_test @require_vision @require_torch class _A ( unittest.TestCase ): _SCREAMING_SNAKE_CASE : List[str] = MODEL_FOR_ZERO_SHOT_OBJECT_DETECTION_MAPPING def __A ( self , __UpperCAmelCase , __UpperCAmelCase , __UpperCAmelCase ) -> Tuple: '''simple docstring''' __UpperCAmelCase : Optional[int] = pipeline( """zero-shot-object-detection""" , model="""hf-internal-testing/tiny-random-owlvit-object-detection""" ) __UpperCAmelCase : Optional[int] = [ { """image""": """./tests/fixtures/tests_samples/COCO/000000039769.png""", """candidate_labels""": ["""cat""", """remote""", """couch"""], } ] return object_detector, examples def __A ( self , __UpperCAmelCase , __UpperCAmelCase ) -> Tuple: '''simple docstring''' __UpperCAmelCase : Optional[int] = object_detector(examples[0] , threshold=0.0 ) __UpperCAmelCase : Tuple = len(__UpperCAmelCase ) self.assertGreater(__UpperCAmelCase , 0 ) self.assertEqual( __UpperCAmelCase , [ { """score""": ANY(__UpperCAmelCase ), """label""": ANY(__UpperCAmelCase ), """box""": {"""xmin""": ANY(__UpperCAmelCase ), """ymin""": ANY(__UpperCAmelCase ), """xmax""": ANY(__UpperCAmelCase ), """ymax""": ANY(__UpperCAmelCase )}, } for i in range(__UpperCAmelCase ) ] , ) @require_tf @unittest.skip("""Zero Shot Object Detection not implemented in TF""" ) def __A ( self ) -> Tuple: '''simple docstring''' pass @require_torch def __A ( self ) -> Dict: '''simple docstring''' __UpperCAmelCase : Union[str, Any] = pipeline( """zero-shot-object-detection""" , model="""hf-internal-testing/tiny-random-owlvit-object-detection""" ) __UpperCAmelCase : Optional[int] = object_detector( """./tests/fixtures/tests_samples/COCO/000000039769.png""" , candidate_labels=["""cat""", """remote""", """couch"""] , threshold=0.64 , ) self.assertEqual( nested_simplify(__UpperCAmelCase , decimals=4 ) , [ {"""score""": 0.7235, """label""": """cat""", """box""": {"""xmin""": 204, """ymin""": 167, """xmax""": 232, """ymax""": 190}}, {"""score""": 0.7218, """label""": """remote""", """box""": {"""xmin""": 204, """ymin""": 167, """xmax""": 232, """ymax""": 190}}, {"""score""": 0.7184, """label""": """couch""", """box""": {"""xmin""": 204, """ymin""": 167, """xmax""": 232, """ymax""": 190}}, {"""score""": 0.6748, """label""": """remote""", """box""": {"""xmin""": 571, """ymin""": 83, """xmax""": 598, """ymax""": 103}}, {"""score""": 0.6656, """label""": """cat""", """box""": {"""xmin""": 571, """ymin""": 83, """xmax""": 598, """ymax""": 103}}, {"""score""": 0.6614, """label""": """couch""", """box""": {"""xmin""": 571, """ymin""": 83, """xmax""": 598, """ymax""": 103}}, {"""score""": 0.6456, """label""": """remote""", """box""": {"""xmin""": 494, """ymin""": 105, """xmax""": 521, """ymax""": 127}}, {"""score""": 0.642, """label""": """remote""", """box""": {"""xmin""": 67, """ymin""": 274, """xmax""": 93, """ymax""": 297}}, {"""score""": 0.6419, """label""": """cat""", """box""": {"""xmin""": 494, """ymin""": 105, """xmax""": 521, """ymax""": 127}}, ] , ) __UpperCAmelCase : str = object_detector( [ { """image""": """./tests/fixtures/tests_samples/COCO/000000039769.png""", """candidate_labels""": ["""cat""", """remote""", """couch"""], } ] , threshold=0.64 , ) self.assertEqual( nested_simplify(__UpperCAmelCase , decimals=4 ) , [ [ {"""score""": 0.7235, """label""": """cat""", """box""": {"""xmin""": 204, """ymin""": 167, """xmax""": 232, """ymax""": 190}}, {"""score""": 0.7218, """label""": """remote""", """box""": {"""xmin""": 204, """ymin""": 167, """xmax""": 232, """ymax""": 190}}, {"""score""": 0.7184, """label""": """couch""", """box""": {"""xmin""": 204, """ymin""": 167, """xmax""": 232, """ymax""": 190}}, {"""score""": 0.6748, """label""": """remote""", """box""": {"""xmin""": 571, """ymin""": 83, """xmax""": 598, """ymax""": 103}}, {"""score""": 0.6656, """label""": """cat""", """box""": {"""xmin""": 571, """ymin""": 83, """xmax""": 598, """ymax""": 103}}, {"""score""": 0.6614, """label""": """couch""", """box""": {"""xmin""": 571, """ymin""": 83, """xmax""": 598, """ymax""": 103}}, {"""score""": 0.6456, """label""": """remote""", """box""": {"""xmin""": 494, """ymin""": 105, """xmax""": 521, """ymax""": 127}}, {"""score""": 0.642, """label""": """remote""", """box""": {"""xmin""": 67, """ymin""": 274, """xmax""": 93, """ymax""": 297}}, {"""score""": 0.6419, """label""": """cat""", """box""": {"""xmin""": 494, """ymin""": 105, """xmax""": 521, """ymax""": 127}}, ] ] , ) @require_torch @slow def __A ( self ) -> Tuple: '''simple docstring''' __UpperCAmelCase : Tuple = pipeline("""zero-shot-object-detection""" ) __UpperCAmelCase : List[Any] = object_detector( """http://images.cocodataset.org/val2017/000000039769.jpg""" , candidate_labels=["""cat""", """remote""", """couch"""] , ) self.assertEqual( nested_simplify(__UpperCAmelCase , decimals=4 ) , [ {"""score""": 0.2868, """label""": """cat""", """box""": {"""xmin""": 324, """ymin""": 20, """xmax""": 640, """ymax""": 373}}, {"""score""": 0.277, """label""": """remote""", """box""": {"""xmin""": 40, """ymin""": 72, """xmax""": 177, """ymax""": 115}}, {"""score""": 0.2537, """label""": """cat""", """box""": {"""xmin""": 1, """ymin""": 55, """xmax""": 315, """ymax""": 472}}, {"""score""": 0.1474, """label""": """remote""", """box""": {"""xmin""": 335, """ymin""": 74, """xmax""": 371, """ymax""": 187}}, {"""score""": 0.1208, """label""": """couch""", """box""": {"""xmin""": 4, """ymin""": 0, """xmax""": 642, """ymax""": 476}}, ] , ) __UpperCAmelCase : Any = object_detector( [ { """image""": """http://images.cocodataset.org/val2017/000000039769.jpg""", """candidate_labels""": ["""cat""", """remote""", """couch"""], }, { """image""": """http://images.cocodataset.org/val2017/000000039769.jpg""", """candidate_labels""": ["""cat""", """remote""", """couch"""], }, ] , ) self.assertEqual( nested_simplify(__UpperCAmelCase , decimals=4 ) , [ [ {"""score""": 0.2868, """label""": """cat""", """box""": {"""xmin""": 324, """ymin""": 20, """xmax""": 640, """ymax""": 373}}, {"""score""": 0.277, """label""": """remote""", """box""": {"""xmin""": 40, """ymin""": 72, """xmax""": 177, """ymax""": 115}}, {"""score""": 0.2537, """label""": """cat""", """box""": {"""xmin""": 1, """ymin""": 55, """xmax""": 315, """ymax""": 472}}, {"""score""": 0.1474, """label""": """remote""", """box""": {"""xmin""": 335, """ymin""": 74, """xmax""": 371, """ymax""": 187}}, {"""score""": 0.1208, """label""": """couch""", """box""": {"""xmin""": 4, """ymin""": 0, """xmax""": 642, """ymax""": 476}}, ], [ {"""score""": 0.2868, """label""": """cat""", """box""": {"""xmin""": 324, """ymin""": 20, """xmax""": 640, """ymax""": 373}}, {"""score""": 0.277, """label""": """remote""", """box""": {"""xmin""": 40, """ymin""": 72, """xmax""": 177, """ymax""": 115}}, {"""score""": 0.2537, """label""": """cat""", """box""": {"""xmin""": 1, """ymin""": 55, """xmax""": 315, """ymax""": 472}}, {"""score""": 0.1474, """label""": """remote""", """box""": {"""xmin""": 335, """ymin""": 74, """xmax""": 371, """ymax""": 187}}, {"""score""": 0.1208, """label""": """couch""", """box""": {"""xmin""": 4, """ymin""": 0, """xmax""": 642, """ymax""": 476}}, ], ] , ) @require_tf @unittest.skip("""Zero Shot Object Detection not implemented in TF""" ) def __A ( self ) -> List[str]: '''simple docstring''' pass @require_torch @slow def __A ( self ) -> List[str]: '''simple docstring''' __UpperCAmelCase : Optional[int] = 0.2 __UpperCAmelCase : List[Any] = pipeline("""zero-shot-object-detection""" ) __UpperCAmelCase : Optional[int] = object_detector( """http://images.cocodataset.org/val2017/000000039769.jpg""" , candidate_labels=["""cat""", """remote""", """couch"""] , threshold=__UpperCAmelCase , ) self.assertEqual( nested_simplify(__UpperCAmelCase , decimals=4 ) , [ {"""score""": 0.2868, """label""": """cat""", """box""": {"""xmin""": 324, """ymin""": 20, """xmax""": 640, """ymax""": 373}}, {"""score""": 0.277, """label""": """remote""", """box""": {"""xmin""": 40, """ymin""": 72, """xmax""": 177, """ymax""": 115}}, {"""score""": 0.2537, """label""": """cat""", """box""": {"""xmin""": 1, """ymin""": 55, """xmax""": 315, """ymax""": 472}}, ] , ) @require_torch @slow def __A ( self ) -> List[Any]: '''simple docstring''' __UpperCAmelCase : Optional[Any] = 2 __UpperCAmelCase : Optional[int] = pipeline("""zero-shot-object-detection""" ) __UpperCAmelCase : List[Any] = object_detector( """http://images.cocodataset.org/val2017/000000039769.jpg""" , candidate_labels=["""cat""", """remote""", """couch"""] , top_k=__UpperCAmelCase , ) self.assertEqual( nested_simplify(__UpperCAmelCase , decimals=4 ) , [ {"""score""": 0.2868, """label""": """cat""", """box""": {"""xmin""": 324, """ymin""": 20, """xmax""": 640, """ymax""": 373}}, {"""score""": 0.277, """label""": """remote""", """box""": {"""xmin""": 40, """ymin""": 72, """xmax""": 177, """ymax""": 115}}, ] , )	16	0
from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available snake_case : List[str] = { '''configuration_bigbird_pegasus''': [ '''BIGBIRD_PEGASUS_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''BigBirdPegasusConfig''', '''BigBirdPegasusOnnxConfig''', ], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: snake_case : Dict = [ '''BIGBIRD_PEGASUS_PRETRAINED_MODEL_ARCHIVE_LIST''', '''BigBirdPegasusForCausalLM''', '''BigBirdPegasusForConditionalGeneration''', '''BigBirdPegasusForQuestionAnswering''', '''BigBirdPegasusForSequenceClassification''', '''BigBirdPegasusModel''', '''BigBirdPegasusPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_bigbird_pegasus import ( BIGBIRD_PEGASUS_PRETRAINED_CONFIG_ARCHIVE_MAP, BigBirdPegasusConfig, BigBirdPegasusOnnxConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_bigbird_pegasus import ( BIGBIRD_PEGASUS_PRETRAINED_MODEL_ARCHIVE_LIST, BigBirdPegasusForCausalLM, BigBirdPegasusForConditionalGeneration, BigBirdPegasusForQuestionAnswering, BigBirdPegasusForSequenceClassification, BigBirdPegasusModel, BigBirdPegasusPreTrainedModel, ) else: import sys snake_case : Any = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)	94	def a( A : int ) -> str: """simple docstring""" if number > 0: raise ValueError("input must be a negative integer" ) a = len(bin(A )[3:] ) a = bin(abs(A ) - (1 << binary_number_length) )[3:] a = ( ( "1" + "0" * (binary_number_length - len(A )) + twos_complement_number ) if number < 0 else "0" ) return "0b" + twos_complement_number if __name__ == "__main__": import doctest doctest.testmod()	227	0
"""simple docstring""" def __SCREAMING_SNAKE_CASE ( __UpperCAmelCase ): _lowercase : list[list[float]] = [] for data in source_data: for i, el in enumerate(__UpperCAmelCase ): if len(__UpperCAmelCase ) < i + 1: data_lists.append([] ) data_lists[i].append(float(__UpperCAmelCase ) ) return data_lists def __SCREAMING_SNAKE_CASE ( __UpperCAmelCase , __UpperCAmelCase ): _lowercase : list[list[float]] = [] for dlist, weight in zip(__UpperCAmelCase , __UpperCAmelCase ): _lowercase : Dict = min(__UpperCAmelCase ) _lowercase : List[Any] = max(__UpperCAmelCase ) _lowercase : list[float] = [] # for weight 0 score is 1 - actual score if weight == 0: for item in dlist: try: score.append(1 - ((item - mind) / (maxd - mind)) ) except ZeroDivisionError: score.append(1 ) elif weight == 1: for item in dlist: try: score.append((item - mind) / (maxd - mind) ) except ZeroDivisionError: score.append(0 ) # weight not 0 or 1 else: _lowercase : List[str] = F"""Invalid weight of {weight:f} provided""" raise ValueError(__UpperCAmelCase ) score_lists.append(__UpperCAmelCase ) return score_lists def __SCREAMING_SNAKE_CASE ( __UpperCAmelCase ): _lowercase : list[float] = [0 for i in range(len(score_lists[0] ) )] for slist in score_lists: for j, ele in enumerate(__UpperCAmelCase ): _lowercase : List[Any] = final_scores[j] + ele return final_scores def __SCREAMING_SNAKE_CASE ( __UpperCAmelCase , __UpperCAmelCase ): _lowercase : Any = get_data(__UpperCAmelCase ) _lowercase : Optional[Any] = calculate_each_score(__UpperCAmelCase , __UpperCAmelCase ) _lowercase : Union[str, Any] = generate_final_scores(__UpperCAmelCase ) # append scores to source data for i, ele in enumerate(__UpperCAmelCase ): source_data[i].append(__UpperCAmelCase ) return source_data	367	"""simple docstring""" import os import posixpath import uuid from dataclasses import dataclass from typing import TYPE_CHECKING, Iterable, List, Optional, Tuple, Union import numpy as np import pyarrow as pa import datasets from datasets.arrow_writer import ArrowWriter, ParquetWriter from datasets.config import MAX_SHARD_SIZE from datasets.filesystems import ( is_remote_filesystem, rename, ) from datasets.iterable_dataset import _BaseExamplesIterable from datasets.utils.py_utils import convert_file_size_to_int UpperCAmelCase: str = datasets.utils.logging.get_logger(__name__) if TYPE_CHECKING: import pyspark @dataclass class UpperCamelCase ( datasets.BuilderConfig ): """simple docstring""" SCREAMING_SNAKE_CASE_ : Optional[datasets.Features] = None def __SCREAMING_SNAKE_CASE ( __UpperCAmelCase , __UpperCAmelCase , ): import pyspark def generate_fn(): _lowercase : List[Any] = df.select("""""" , pyspark.sql.functions.spark_partition_id().alias("""part_id""" ) ) for partition_id in partition_order: _lowercase : Optional[int] = df_with_partition_id.select("""""" ).where(F"""part_id = {partition_id}""" ).drop("""part_id""" ) _lowercase : int = partition_df.collect() _lowercase : Dict = 0 for row in rows: yield F"""{partition_id}_{row_id}""", row.asDict() row_id += 1 return generate_fn class UpperCamelCase ( _BaseExamplesIterable ): """simple docstring""" def __init__( self ,UpperCAmelCase_ ,UpperCAmelCase_=None ,): _lowercase : Union[str, Any] = df _lowercase : List[str] = partition_order or range(self.df.rdd.getNumPartitions() ) _lowercase : Tuple = _generate_iterable_examples(self.df ,self.partition_order ) def __iter__( self ): yield from self.generate_examples_fn() def lowerCamelCase__ ( self ,UpperCAmelCase_ ): _lowercase : List[str] = list(range(self.df.rdd.getNumPartitions() ) ) generator.shuffle(UpperCAmelCase_ ) return SparkExamplesIterable(self.df ,partition_order=UpperCAmelCase_ ) def lowerCamelCase__ ( self ,UpperCAmelCase_ ,UpperCAmelCase_ ): _lowercase : Union[str, Any] = self.split_shard_indices_by_worker(UpperCAmelCase_ ,UpperCAmelCase_ ) return SparkExamplesIterable(self.df ,partition_order=UpperCAmelCase_ ) @property def lowerCamelCase__ ( self ): return len(self.partition_order ) class UpperCamelCase ( datasets.DatasetBuilder ): """simple docstring""" SCREAMING_SNAKE_CASE_ : Any = SparkConfig def __init__( self ,UpperCAmelCase_ ,UpperCAmelCase_ = None ,UpperCAmelCase_ = None ,UpperCAmelCase_ ,): import pyspark _lowercase : List[Any] = pyspark.sql.SparkSession.builder.getOrCreate() _lowercase : List[Any] = df _lowercase : int = working_dir super().__init__( cache_dir=UpperCAmelCase_ ,config_name=str(self.df.semanticHash() ) ,UpperCAmelCase_ ,) def lowerCamelCase__ ( self ): # Returns the path of the created file. def create_cache_and_write_probe(UpperCAmelCase_ ): # makedirs with exist_ok will recursively create the directory. It will not throw an error if directories # already exist. os.makedirs(self._cache_dir ,exist_ok=UpperCAmelCase_ ) _lowercase : Union[str, Any] = os.path.join(self._cache_dir ,"""fs_test""" + uuid.uuida().hex ) # Opening the file in append mode will create a new file unless it already exists, in which case it will not # change the file contents. open(UpperCAmelCase_ ,"""a""" ) return [probe_file] if self._spark.conf.get("""spark.master""" ,"""""" ).startswith("""local""" ): return # If the cluster is multi-node, make sure that the user provided a cache_dir and that it is on an NFS # accessible to the driver. # TODO: Stream batches to the driver using ArrowCollectSerializer instead of throwing an error. if self._cache_dir: _lowercase : List[str] = ( self._spark.sparkContext.parallelize(range(1 ) ,1 ).mapPartitions(UpperCAmelCase_ ).collect() ) if os.path.isfile(probe[0] ): return raise ValueError( """When using Dataset.from_spark on a multi-node cluster, the driver and all workers should be able to access cache_dir""" ) def lowerCamelCase__ ( self ): return datasets.DatasetInfo(features=self.config.features ) def lowerCamelCase__ ( self ,UpperCAmelCase_ ): return [datasets.SplitGenerator(name=datasets.Split.TRAIN )] def lowerCamelCase__ ( self ,UpperCAmelCase_ ): import pyspark def get_arrow_batch_size(UpperCAmelCase_ ): for batch in it: yield pa.RecordBatch.from_pydict({"""batch_bytes""": [batch.nbytes]} ) _lowercase : List[str] = self.df.count() _lowercase : List[str] = df_num_rows if df_num_rows <= 1_00 else 1_00 # Approximate the size of each row (in Arrow format) by averaging over a max-100-row sample. _lowercase : Union[str, Any] = ( self.df.limit(UpperCAmelCase_ ) .repartition(1 ) .mapInArrow(UpperCAmelCase_ ,"""batch_bytes: long""" ) .agg(pyspark.sql.functions.sum("""batch_bytes""" ).alias("""sample_bytes""" ) ) .collect()[0] .sample_bytes / sample_num_rows ) _lowercase : List[Any] = approx_bytes_per_row * df_num_rows if approx_total_size > max_shard_size: # Make sure there is at least one row per partition. _lowercase : int = min(UpperCAmelCase_ ,int(approx_total_size / max_shard_size ) ) _lowercase : List[Any] = self.df.repartition(UpperCAmelCase_ ) def lowerCamelCase__ ( self ,UpperCAmelCase_ ,UpperCAmelCase_ ,UpperCAmelCase_ ,): import pyspark _lowercase : Union[str, Any] = ParquetWriter if file_format == """parquet""" else ArrowWriter _lowercase : List[Any] = os.path.join(self._working_dir ,os.path.basename(UpperCAmelCase_ ) ) if self._working_dir else fpath _lowercase : Any = file_format == """parquet""" # Define these so that we don't reference self in write_arrow, which will result in a pickling error due to # pickling the SparkContext. _lowercase : Union[str, Any] = self.config.features _lowercase : Optional[int] = self._writer_batch_size _lowercase : Optional[Any] = self._fs.storage_options def write_arrow(UpperCAmelCase_ ): # Within the same SparkContext, no two task attempts will share the same attempt ID. _lowercase : Any = pyspark.TaskContext().taskAttemptId() _lowercase : List[str] = next(UpperCAmelCase_ ,UpperCAmelCase_ ) if first_batch is None: # Some partitions might not receive any data. return pa.RecordBatch.from_arrays( [[task_id], [0], [0]] ,names=["""task_id""", """num_examples""", """num_bytes"""] ,) _lowercase : List[Any] = 0 _lowercase : int = writer_class( features=UpperCAmelCase_ ,path=working_fpath.replace("""SSSSS""" ,f"""{shard_id:05d}""" ).replace("""TTTTT""" ,f"""{task_id:05d}""" ) ,writer_batch_size=UpperCAmelCase_ ,storage_options=UpperCAmelCase_ ,embed_local_files=UpperCAmelCase_ ,) _lowercase : Optional[int] = pa.Table.from_batches([first_batch] ) writer.write_table(UpperCAmelCase_ ) for batch in it: if max_shard_size is not None and writer._num_bytes >= max_shard_size: _lowercase , _lowercase : Optional[Any] = writer.finalize() writer.close() yield pa.RecordBatch.from_arrays( [[task_id], [num_examples], [num_bytes]] ,names=["""task_id""", """num_examples""", """num_bytes"""] ,) shard_id += 1 _lowercase : Union[str, Any] = writer_class( features=writer._features ,path=working_fpath.replace("""SSSSS""" ,f"""{shard_id:05d}""" ).replace("""TTTTT""" ,f"""{task_id:05d}""" ) ,writer_batch_size=UpperCAmelCase_ ,storage_options=UpperCAmelCase_ ,embed_local_files=UpperCAmelCase_ ,) _lowercase : Dict = pa.Table.from_batches([batch] ) writer.write_table(UpperCAmelCase_ ) if writer._num_bytes > 0: _lowercase , _lowercase : Dict = writer.finalize() writer.close() yield pa.RecordBatch.from_arrays( [[task_id], [num_examples], [num_bytes]] ,names=["""task_id""", """num_examples""", """num_bytes"""] ,) if working_fpath != fpath: for file in os.listdir(os.path.dirname(UpperCAmelCase_ ) ): _lowercase : Dict = os.path.join(os.path.dirname(UpperCAmelCase_ ) ,os.path.basename(UpperCAmelCase_ ) ) shutil.move(UpperCAmelCase_ ,UpperCAmelCase_ ) _lowercase : List[str] = ( self.df.mapInArrow(UpperCAmelCase_ ,"""task_id: long, num_examples: long, num_bytes: long""" ) .groupBy("""task_id""" ) .agg( pyspark.sql.functions.sum("""num_examples""" ).alias("""total_num_examples""" ) ,pyspark.sql.functions.sum("""num_bytes""" ).alias("""total_num_bytes""" ) ,pyspark.sql.functions.count("""num_bytes""" ).alias("""num_shards""" ) ,pyspark.sql.functions.collect_list("""num_examples""" ).alias("""shard_lengths""" ) ,) .collect() ) for row in stats: yield row.task_id, (row.total_num_examples, row.total_num_bytes, row.num_shards, row.shard_lengths) def lowerCamelCase__ ( self ,UpperCAmelCase_ ,UpperCAmelCase_ = "arrow" ,UpperCAmelCase_ = None ,UpperCAmelCase_ = None ,*UpperCAmelCase_ ,): self._validate_cache_dir() _lowercase : Tuple = convert_file_size_to_int(max_shard_size or MAX_SHARD_SIZE ) self._repartition_df_if_needed(UpperCAmelCase_ ) _lowercase : Optional[int] = not is_remote_filesystem(self._fs ) _lowercase : Dict = os.path.join if is_local else posixpath.join _lowercase : int = """-TTTTT-SSSSS-of-NNNNN""" _lowercase : Optional[Any] = f"""{self.name}-{split_generator.name}{SUFFIX}.{file_format}""" _lowercase : Dict = path_join(self._output_dir ,UpperCAmelCase_ ) _lowercase : List[Any] = 0 _lowercase : Optional[Any] = 0 _lowercase : int = 0 _lowercase : Any = [] _lowercase : Any = [] for task_id, content in self._prepare_split_single(UpperCAmelCase_ ,UpperCAmelCase_ ,UpperCAmelCase_ ): ( ( _lowercase ) , ( _lowercase ) , ( _lowercase ) , ( _lowercase ) , ) : Tuple = content if num_bytes > 0: total_num_examples += num_examples total_num_bytes += num_bytes total_shards += num_shards task_id_and_num_shards.append((task_id, num_shards) ) all_shard_lengths.extend(UpperCAmelCase_ ) _lowercase : Optional[int] = total_num_examples _lowercase : List[Any] = total_num_bytes # should rename everything at the end logger.debug(f"""Renaming {total_shards} shards.""" ) if total_shards > 1: _lowercase : List[Any] = all_shard_lengths # Define fs outside of _rename_shard so that we don't reference self in the function, which will result in a # pickling error due to pickling the SparkContext. _lowercase : Union[str, Any] = self._fs # use the -SSSSS-of-NNNNN pattern def _rename_shard( UpperCAmelCase_ ,UpperCAmelCase_ ,UpperCAmelCase_ ,): rename( UpperCAmelCase_ ,fpath.replace("""SSSSS""" ,f"""{shard_id:05d}""" ).replace("""TTTTT""" ,f"""{task_id:05d}""" ) ,fpath.replace("""TTTTT-SSSSS""" ,f"""{global_shard_id:05d}""" ).replace("""NNNNN""" ,f"""{total_shards:05d}""" ) ,) _lowercase : Optional[Any] = [] _lowercase : List[str] = 0 for i in range(len(UpperCAmelCase_ ) ): _lowercase , _lowercase : List[str] = task_id_and_num_shards[i] for shard_id in range(UpperCAmelCase_ ): args.append([task_id, shard_id, global_shard_id] ) global_shard_id += 1 self._spark.sparkContext.parallelize(UpperCAmelCase_ ,len(UpperCAmelCase_ ) ).map(lambda UpperCAmelCase_ : _rename_shard(UpperCAmelCase_ ) ).collect() else: # don't use any pattern _lowercase : Tuple = 0 _lowercase : Optional[Any] = task_id_and_num_shards[0][0] self._rename( fpath.replace("""SSSSS""" ,f"""{shard_id:05d}""" ).replace("""TTTTT""" ,f"""{task_id:05d}""" ) ,fpath.replace(UpperCAmelCase_ ,"""""" ) ,) def lowerCamelCase__ ( self ,UpperCAmelCase_ ,): return SparkExamplesIterable(self.df )	336	0
'''simple docstring''' lowerCAmelCase: List[Any] = { "a": "AAAAA", "b": "AAAAB", "c": "AAABA", "d": "AAABB", "e": "AABAA", "f": "AABAB", "g": "AABBA", "h": "AABBB", "i": "ABAAA", "j": "BBBAA", "k": "ABAAB", "l": "ABABA", "m": "ABABB", "n": "ABBAA", "o": "ABBAB", "p": "ABBBA", "q": "ABBBB", "r": "BAAAA", "s": "BAAAB", "t": "BAABA", "u": "BAABB", "v": "BBBAB", "w": "BABAA", "x": "BABAB", "y": "BABBA", "z": "BABBB", " ": " ", } lowerCAmelCase: int = {value: key for key, value in encode_dict.items()} def lowerCamelCase__ ( _A ): a : str = '' for letter in word.lower(): if letter.isalpha() or letter == " ": encoded += encode_dict[letter] else: raise Exception('encode() accepts only letters of the alphabet and spaces' ) return encoded def lowerCamelCase__ ( _A ): if set(_lowerCAmelCase ) - {"A", "B", " "} != set(): raise Exception('decode() accepts only \'A\', \'B\' and spaces' ) a : Any = '' for word in coded.split(): while len(_lowerCAmelCase ) != 0: decoded += decode_dict[word[:5]] a : List[str] = word[5:] decoded += " " return decoded.strip() if __name__ == "__main__": from doctest import testmod testmod()	297	import warnings from transformers import AutoTokenizer from transformers.utils import is_torch_available from transformers.utils.generic import ExplicitEnum from ...processing_utils import ProcessorMixin if is_torch_available(): import torch class _UpperCamelCase ( lowerCAmelCase ): UpperCAmelCase_ = """char""" UpperCAmelCase_ = """bpe""" UpperCAmelCase_ = """wp""" _lowerCAmelCase : Optional[Any] = (DecodeType.CHARACTER, DecodeType.BPE, DecodeType.WORDPIECE) class _UpperCamelCase ( lowerCAmelCase ): UpperCAmelCase_ = ["""image_processor""", """char_tokenizer"""] UpperCAmelCase_ = """ViTImageProcessor""" UpperCAmelCase_ = """MgpstrTokenizer""" def __init__( self :List[str] , lowerCamelCase :Dict=None , lowerCamelCase :Optional[int]=None , lowerCamelCase :List[str] ) -> Optional[Any]: UpperCAmelCase__ = None if "feature_extractor" in kwargs: warnings.warn( "The `feature_extractor` argument is deprecated and will be removed in v5, use `image_processor`" " instead." , lowerCamelCase , ) UpperCAmelCase__ = kwargs.pop("feature_extractor" ) UpperCAmelCase__ = image_processor if image_processor is not None else feature_extractor if image_processor is None: raise ValueError("You need to specify an `image_processor`." ) if tokenizer is None: raise ValueError("You need to specify a `tokenizer`." ) UpperCAmelCase__ = tokenizer UpperCAmelCase__ = AutoTokenizer.from_pretrained("gpt2" ) UpperCAmelCase__ = AutoTokenizer.from_pretrained("bert-base-uncased" ) super().__init__(lowerCamelCase , lowerCamelCase ) def __call__( self :Optional[Any] , lowerCamelCase :List[str]=None , lowerCamelCase :Any=None , lowerCamelCase :Optional[Any]=None , lowerCamelCase :Optional[int] ) -> Union[str, Any]: if images is None and text is None: raise ValueError("You need to specify either an `images` or `text` input to process." ) if images is not None: UpperCAmelCase__ = self.image_processor(lowerCamelCase , return_tensors=lowerCamelCase , lowerCamelCase ) if text is not None: UpperCAmelCase__ = self.char_tokenizer(lowerCamelCase , return_tensors=lowerCamelCase , lowerCamelCase ) if text is None: return inputs elif images is None: return encodings else: UpperCAmelCase__ = encodings["input_ids"] return inputs def UpperCAmelCase_ ( self :List[str] , lowerCamelCase :Optional[Any] ) -> Optional[Any]: UpperCAmelCase__ , UpperCAmelCase__ , UpperCAmelCase__ = sequences UpperCAmelCase__ = char_preds.size(0 ) UpperCAmelCase__ , UpperCAmelCase__ = self._decode_helper(lowerCamelCase , "char" ) UpperCAmelCase__ , UpperCAmelCase__ = self._decode_helper(lowerCamelCase , "bpe" ) UpperCAmelCase__ , UpperCAmelCase__ = self._decode_helper(lowerCamelCase , "wp" ) UpperCAmelCase__ = [] UpperCAmelCase__ = [] for i in range(lowerCamelCase ): UpperCAmelCase__ = [char_scores[i], bpe_scores[i], wp_scores[i]] UpperCAmelCase__ = [char_strs[i], bpe_strs[i], wp_strs[i]] UpperCAmelCase__ = scores.index(max(lowerCamelCase ) ) final_strs.append(strs[max_score_index] ) final_scores.append(scores[max_score_index] ) UpperCAmelCase__ = {} UpperCAmelCase__ = final_strs UpperCAmelCase__ = final_scores UpperCAmelCase__ = char_strs UpperCAmelCase__ = bpe_strs UpperCAmelCase__ = wp_strs return out def UpperCAmelCase_ ( self :Optional[int] , lowerCamelCase :int , lowerCamelCase :List[str] ) -> Union[str, Any]: if format == DecodeType.CHARACTER: UpperCAmelCase__ = self.char_decode UpperCAmelCase__ = 1 UpperCAmelCase__ = "[s]" elif format == DecodeType.BPE: UpperCAmelCase__ = self.bpe_decode UpperCAmelCase__ = 2 UpperCAmelCase__ = "#" elif format == DecodeType.WORDPIECE: UpperCAmelCase__ = self.wp_decode UpperCAmelCase__ = 102 UpperCAmelCase__ = "[SEP]" else: raise ValueError(f'''Format {format} is not supported.''' ) UpperCAmelCase__ , UpperCAmelCase__ = [], [] UpperCAmelCase__ = pred_logits.size(0 ) UpperCAmelCase__ = pred_logits.size(1 ) UpperCAmelCase__ , UpperCAmelCase__ = pred_logits.topk(1 , dim=-1 , largest=lowerCamelCase , sorted=lowerCamelCase ) UpperCAmelCase__ = preds_index.view(-1 , lowerCamelCase )[:, 1:] UpperCAmelCase__ = decoder(lowerCamelCase ) UpperCAmelCase__ , UpperCAmelCase__ = torch.nn.functional.softmax(lowerCamelCase , dim=2 ).max(dim=2 ) UpperCAmelCase__ = preds_max_prob[:, 1:] for index in range(lowerCamelCase ): UpperCAmelCase__ = preds_str[index].find(lowerCamelCase ) UpperCAmelCase__ = preds_str[index][:pred_eos] UpperCAmelCase__ = preds_index[index].cpu().tolist() UpperCAmelCase__ = pred_index.index(lowerCamelCase ) if eos_token in pred_index else -1 UpperCAmelCase__ = preds_max_prob[index][: pred_eos_index + 1] UpperCAmelCase__ = pred_max_prob.cumprod(dim=0 )[-1] if pred_max_prob.nelement() != 0 else 0.0 dec_strs.append(lowerCamelCase ) conf_scores.append(lowerCamelCase ) return dec_strs, conf_scores def UpperCAmelCase_ ( self :Optional[int] , lowerCamelCase :int ) -> List[str]: UpperCAmelCase__ = [seq.replace(" " , "" ) for seq in self.char_tokenizer.batch_decode(lowerCamelCase )] return decode_strs def UpperCAmelCase_ ( self :Optional[Any] , lowerCamelCase :Dict ) -> Dict: return self.bpe_tokenizer.batch_decode(lowerCamelCase ) def UpperCAmelCase_ ( self :str , lowerCamelCase :str ) -> Tuple: UpperCAmelCase__ = [seq.replace(" " , "" ) for seq in self.wp_tokenizer.batch_decode(lowerCamelCase )] return decode_strs	169	0
"""simple docstring""" import argparse import json import logging import os import shutil import sys import tempfile import unittest from unittest import mock import torch from accelerate.utils import write_basic_config from transformers.testing_utils import TestCasePlus, get_gpu_count, run_command, slow, torch_device from transformers.utils import is_apex_available logging.basicConfig(level=logging.DEBUG) lowerCAmelCase__ = logging.getLogger() def a__ ( ): '''simple docstring''' lowerCAmelCase : Tuple = argparse.ArgumentParser() parser.add_argument("-f" ) lowerCAmelCase : Tuple = parser.parse_args() return args.f def a__ ( SCREAMING_SNAKE_CASE : int ): '''simple docstring''' lowerCAmelCase : Union[str, Any] = {} lowerCAmelCase : List[str] = os.path.join(SCREAMING_SNAKE_CASE , "all_results.json" ) if os.path.exists(SCREAMING_SNAKE_CASE ): with open(SCREAMING_SNAKE_CASE , "r" ) as f: lowerCAmelCase : str = json.load(SCREAMING_SNAKE_CASE ) else: raise ValueError(f"""can't find {path}""" ) return results def a__ ( ): '''simple docstring''' lowerCAmelCase : Tuple = torch.cuda.is_available() and torch_device == "cuda" return is_using_cuda and is_apex_available() lowerCAmelCase__ = logging.StreamHandler(sys.stdout) logger.addHandler(stream_handler) class SCREAMING_SNAKE_CASE__ ( lowercase ): """simple docstring""" @classmethod def lowercase__ ( cls ): """simple docstring""" lowerCAmelCase : Any = tempfile.mkdtemp() lowerCAmelCase : List[Any] = os.path.join(cls.tmpdir , "default_config.yml" ) write_basic_config(save_location=cls.configPath ) lowerCAmelCase : Optional[int] = ["accelerate", "launch", "--config_file", cls.configPath] @classmethod def lowercase__ ( cls ): """simple docstring""" shutil.rmtree(cls.tmpdir ) @mock.patch.dict(os.environ , {"WANDB_MODE": "offline"} ) def lowercase__ ( self ): """simple docstring""" lowerCAmelCase : Optional[int] = self.get_auto_remove_tmp_dir() lowerCAmelCase : int = f""" {self.examples_dir}/pytorch/text-classification/run_glue_no_trainer.py --model_name_or_path distilbert-base-uncased --output_dir {tmp_dir} --train_file ./tests/fixtures/tests_samples/MRPC/train.csv --validation_file ./tests/fixtures/tests_samples/MRPC/dev.csv --per_device_train_batch_size=2 --per_device_eval_batch_size=1 --learning_rate=1e-4 --seed=42 --checkpointing_steps epoch --with_tracking """.split() if is_cuda_and_apex_available(): testargs.append("--fp16" ) run_command(self._launch_args + testargs ) lowerCAmelCase : Dict = get_results(snake_case__ ) self.assertGreaterEqual(result["eval_accuracy"] , 0.75 ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "epoch_0" ) ) ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "glue_no_trainer" ) ) ) @mock.patch.dict(os.environ , {"WANDB_MODE": "offline"} ) def lowercase__ ( self ): """simple docstring""" lowerCAmelCase : List[Any] = self.get_auto_remove_tmp_dir() lowerCAmelCase : Tuple = f""" {self.examples_dir}/pytorch/language-modeling/run_clm_no_trainer.py --model_name_or_path distilgpt2 --train_file ./tests/fixtures/sample_text.txt --validation_file ./tests/fixtures/sample_text.txt --block_size 128 --per_device_train_batch_size 5 --per_device_eval_batch_size 5 --num_train_epochs 2 --output_dir {tmp_dir} --checkpointing_steps epoch --with_tracking """.split() if torch.cuda.device_count() > 1: # Skipping because there are not enough batches to train the model + would need a drop_last to work. return run_command(self._launch_args + testargs ) lowerCAmelCase : List[str] = get_results(snake_case__ ) self.assertLess(result["perplexity"] , 100 ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "epoch_0" ) ) ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "clm_no_trainer" ) ) ) @mock.patch.dict(os.environ , {"WANDB_MODE": "offline"} ) def lowercase__ ( self ): """simple docstring""" lowerCAmelCase : Union[str, Any] = self.get_auto_remove_tmp_dir() lowerCAmelCase : Tuple = f""" {self.examples_dir}/pytorch/language-modeling/run_mlm_no_trainer.py --model_name_or_path distilroberta-base --train_file ./tests/fixtures/sample_text.txt --validation_file ./tests/fixtures/sample_text.txt --output_dir {tmp_dir} --num_train_epochs=1 --checkpointing_steps epoch --with_tracking """.split() run_command(self._launch_args + testargs ) lowerCAmelCase : Any = get_results(snake_case__ ) self.assertLess(result["perplexity"] , 42 ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "epoch_0" ) ) ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "mlm_no_trainer" ) ) ) @mock.patch.dict(os.environ , {"WANDB_MODE": "offline"} ) def lowercase__ ( self ): """simple docstring""" lowerCAmelCase : Optional[int] = 7 if get_gpu_count() > 1 else 2 lowerCAmelCase : Optional[Any] = self.get_auto_remove_tmp_dir() lowerCAmelCase : int = f""" {self.examples_dir}/pytorch/token-classification/run_ner_no_trainer.py --model_name_or_path bert-base-uncased --train_file tests/fixtures/tests_samples/conll/sample.json --validation_file tests/fixtures/tests_samples/conll/sample.json --output_dir {tmp_dir} --learning_rate=2e-4 --per_device_train_batch_size=2 --per_device_eval_batch_size=2 --num_train_epochs={epochs} --seed 7 --checkpointing_steps epoch --with_tracking """.split() run_command(self._launch_args + testargs ) lowerCAmelCase : str = get_results(snake_case__ ) self.assertGreaterEqual(result["eval_accuracy"] , 0.75 ) self.assertLess(result["train_loss"] , 0.5 ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "epoch_0" ) ) ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "ner_no_trainer" ) ) ) @unittest.skip(reason="Fix me @muellerzr" ) @mock.patch.dict(os.environ , {"WANDB_MODE": "offline"} ) def lowercase__ ( self ): """simple docstring""" lowerCAmelCase : Optional[int] = self.get_auto_remove_tmp_dir() lowerCAmelCase : List[str] = f""" {self.examples_dir}/pytorch/question-answering/run_qa_no_trainer.py --model_name_or_path bert-base-uncased --version_2_with_negative --train_file tests/fixtures/tests_samples/SQUAD/sample.json --validation_file tests/fixtures/tests_samples/SQUAD/sample.json --output_dir {tmp_dir} --seed=42 --max_train_steps=10 --num_warmup_steps=2 --learning_rate=2e-4 --per_device_train_batch_size=2 --per_device_eval_batch_size=1 --checkpointing_steps epoch --with_tracking """.split() run_command(self._launch_args + testargs ) lowerCAmelCase : Optional[Any] = get_results(snake_case__ ) # Because we use --version_2_with_negative the testing script uses SQuAD v2 metrics. self.assertGreaterEqual(result["eval_f1"] , 28 ) self.assertGreaterEqual(result["eval_exact"] , 28 ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "epoch_0" ) ) ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "qa_no_trainer" ) ) ) @mock.patch.dict(os.environ , {"WANDB_MODE": "offline"} ) def lowercase__ ( self ): """simple docstring""" lowerCAmelCase : List[Any] = self.get_auto_remove_tmp_dir() lowerCAmelCase : List[Any] = f""" {self.examples_dir}/pytorch/multiple-choice/run_swag_no_trainer.py --model_name_or_path bert-base-uncased --train_file tests/fixtures/tests_samples/swag/sample.json --validation_file tests/fixtures/tests_samples/swag/sample.json --output_dir {tmp_dir} --max_train_steps=20 --num_warmup_steps=2 --learning_rate=2e-4 --per_device_train_batch_size=2 --per_device_eval_batch_size=1 --with_tracking """.split() run_command(self._launch_args + testargs ) lowerCAmelCase : Tuple = get_results(snake_case__ ) self.assertGreaterEqual(result["eval_accuracy"] , 0.8 ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "swag_no_trainer" ) ) ) @slow @mock.patch.dict(os.environ , {"WANDB_MODE": "offline"} ) def lowercase__ ( self ): """simple docstring""" lowerCAmelCase : str = self.get_auto_remove_tmp_dir() lowerCAmelCase : Tuple = f""" {self.examples_dir}/pytorch/summarization/run_summarization_no_trainer.py --model_name_or_path t5-small --train_file tests/fixtures/tests_samples/xsum/sample.json --validation_file tests/fixtures/tests_samples/xsum/sample.json --output_dir {tmp_dir} --max_train_steps=50 --num_warmup_steps=8 --learning_rate=2e-4 --per_device_train_batch_size=2 --per_device_eval_batch_size=1 --checkpointing_steps epoch --with_tracking """.split() run_command(self._launch_args + testargs ) lowerCAmelCase : str = get_results(snake_case__ ) self.assertGreaterEqual(result["eval_rouge1"] , 10 ) self.assertGreaterEqual(result["eval_rouge2"] , 2 ) self.assertGreaterEqual(result["eval_rougeL"] , 7 ) self.assertGreaterEqual(result["eval_rougeLsum"] , 7 ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "epoch_0" ) ) ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "summarization_no_trainer" ) ) ) @slow @mock.patch.dict(os.environ , {"WANDB_MODE": "offline"} ) def lowercase__ ( self ): """simple docstring""" lowerCAmelCase : Tuple = self.get_auto_remove_tmp_dir() lowerCAmelCase : Tuple = f""" {self.examples_dir}/pytorch/translation/run_translation_no_trainer.py --model_name_or_path sshleifer/student_marian_en_ro_6_1 --source_lang en --target_lang ro --train_file tests/fixtures/tests_samples/wmt16/sample.json --validation_file tests/fixtures/tests_samples/wmt16/sample.json --output_dir {tmp_dir} --max_train_steps=50 --num_warmup_steps=8 --num_beams=6 --learning_rate=3e-3 --per_device_train_batch_size=2 --per_device_eval_batch_size=1 --source_lang en_XX --target_lang ro_RO --checkpointing_steps epoch --with_tracking """.split() run_command(self._launch_args + testargs ) lowerCAmelCase : int = get_results(snake_case__ ) self.assertGreaterEqual(result["eval_bleu"] , 30 ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "epoch_0" ) ) ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "translation_no_trainer" ) ) ) @slow def lowercase__ ( self ): """simple docstring""" lowerCAmelCase : Optional[int] = logging.StreamHandler(sys.stdout ) logger.addHandler(snake_case__ ) lowerCAmelCase : Optional[Any] = self.get_auto_remove_tmp_dir() lowerCAmelCase : Any = f""" {self.examples_dir}/pytorch/semantic-segmentation/run_semantic_segmentation_no_trainer.py --dataset_name huggingface/semantic-segmentation-test-sample --output_dir {tmp_dir} --max_train_steps=10 --num_warmup_steps=2 --learning_rate=2e-4 --per_device_train_batch_size=2 --per_device_eval_batch_size=1 --checkpointing_steps epoch """.split() run_command(self._launch_args + testargs ) lowerCAmelCase : int = get_results(snake_case__ ) self.assertGreaterEqual(result["eval_overall_accuracy"] , 0.10 ) @mock.patch.dict(os.environ , {"WANDB_MODE": "offline"} ) def lowercase__ ( self ): """simple docstring""" lowerCAmelCase : str = self.get_auto_remove_tmp_dir() lowerCAmelCase : Union[str, Any] = f""" {self.examples_dir}/pytorch/image-classification/run_image_classification_no_trainer.py --model_name_or_path google/vit-base-patch16-224-in21k --dataset_name hf-internal-testing/cats_vs_dogs_sample --learning_rate 1e-4 --per_device_train_batch_size 2 --per_device_eval_batch_size 1 --max_train_steps 2 --train_val_split 0.1 --seed 42 --output_dir {tmp_dir} --with_tracking --checkpointing_steps 1 """.split() if is_cuda_and_apex_available(): testargs.append("--fp16" ) run_command(self._launch_args + testargs ) lowerCAmelCase : Dict = get_results(snake_case__ ) # The base model scores a 25% self.assertGreaterEqual(result["eval_accuracy"] , 0.6 ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "step_1" ) ) ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "image_classification_no_trainer" ) ) )	133	"""simple docstring""" import pyarrow.parquet as pq import pytest from datasets import Audio, Dataset, DatasetDict, Features, NamedSplit, Sequence, Value, config from datasets.features.image import Image from datasets.io.parquet import ParquetDatasetReader, ParquetDatasetWriter, get_writer_batch_size from ..utils import assert_arrow_memory_doesnt_increase, assert_arrow_memory_increases def a__ ( SCREAMING_SNAKE_CASE : str , SCREAMING_SNAKE_CASE : Any ): '''simple docstring''' assert isinstance(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) assert dataset.num_rows == 4 assert dataset.num_columns == 3 assert dataset.column_names == ["col_1", "col_2", "col_3"] for feature, expected_dtype in expected_features.items(): assert dataset.features[feature].dtype == expected_dtype @pytest.mark.parametrize("keep_in_memory" , [False, True] ) def a__ ( SCREAMING_SNAKE_CASE : Any , SCREAMING_SNAKE_CASE : List[str] , SCREAMING_SNAKE_CASE : int ): '''simple docstring''' lowerCAmelCase : List[Any] = tmp_path / "cache" lowerCAmelCase : Optional[int] = {"col_1": "string", "col_2": "int64", "col_3": "float64"} with assert_arrow_memory_increases() if keep_in_memory else assert_arrow_memory_doesnt_increase(): lowerCAmelCase : str = ParquetDatasetReader(SCREAMING_SNAKE_CASE , cache_dir=SCREAMING_SNAKE_CASE , keep_in_memory=SCREAMING_SNAKE_CASE ).read() _check_parquet_dataset(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) @pytest.mark.parametrize( "features" , [ None, {"col_1": "string", "col_2": "int64", "col_3": "float64"}, {"col_1": "string", "col_2": "string", "col_3": "string"}, {"col_1": "int32", "col_2": "int32", "col_3": "int32"}, {"col_1": "float32", "col_2": "float32", "col_3": "float32"}, ] , ) def a__ ( SCREAMING_SNAKE_CASE : Tuple , SCREAMING_SNAKE_CASE : Optional[Any] , SCREAMING_SNAKE_CASE : Tuple ): '''simple docstring''' lowerCAmelCase : Optional[int] = tmp_path / "cache" lowerCAmelCase : Optional[Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"} lowerCAmelCase : Tuple = features.copy() if features else default_expected_features lowerCAmelCase : List[str] = ( Features({feature: Value(SCREAMING_SNAKE_CASE ) for feature, dtype in features.items()} ) if features is not None else None ) lowerCAmelCase : List[str] = ParquetDatasetReader(SCREAMING_SNAKE_CASE , features=SCREAMING_SNAKE_CASE , cache_dir=SCREAMING_SNAKE_CASE ).read() _check_parquet_dataset(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) @pytest.mark.parametrize("split" , [None, NamedSplit("train" ), "train", "test"] ) def a__ ( SCREAMING_SNAKE_CASE : Union[str, Any] , SCREAMING_SNAKE_CASE : Union[str, Any] , SCREAMING_SNAKE_CASE : Optional[int] ): '''simple docstring''' lowerCAmelCase : List[Any] = tmp_path / "cache" lowerCAmelCase : int = {"col_1": "string", "col_2": "int64", "col_3": "float64"} lowerCAmelCase : Tuple = ParquetDatasetReader(SCREAMING_SNAKE_CASE , cache_dir=SCREAMING_SNAKE_CASE , split=SCREAMING_SNAKE_CASE ).read() _check_parquet_dataset(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) assert dataset.split == split if split else "train" @pytest.mark.parametrize("path_type" , [str, list] ) def a__ ( SCREAMING_SNAKE_CASE : List[Any] , SCREAMING_SNAKE_CASE : Dict , SCREAMING_SNAKE_CASE : List[str] ): '''simple docstring''' if issubclass(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ): lowerCAmelCase : Optional[Any] = parquet_path elif issubclass(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ): lowerCAmelCase : Dict = [parquet_path] lowerCAmelCase : Optional[Any] = tmp_path / "cache" lowerCAmelCase : Any = {"col_1": "string", "col_2": "int64", "col_3": "float64"} lowerCAmelCase : Optional[Any] = ParquetDatasetReader(SCREAMING_SNAKE_CASE , cache_dir=SCREAMING_SNAKE_CASE ).read() _check_parquet_dataset(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) def a__ ( SCREAMING_SNAKE_CASE : Dict , SCREAMING_SNAKE_CASE : List[str] , SCREAMING_SNAKE_CASE : Tuple=("train",) ): '''simple docstring''' assert isinstance(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) for split in splits: lowerCAmelCase : List[Any] = dataset_dict[split] assert dataset.num_rows == 4 assert dataset.num_columns == 3 assert dataset.column_names == ["col_1", "col_2", "col_3"] for feature, expected_dtype in expected_features.items(): assert dataset.features[feature].dtype == expected_dtype @pytest.mark.parametrize("keep_in_memory" , [False, True] ) def a__ ( SCREAMING_SNAKE_CASE : Optional[int] , SCREAMING_SNAKE_CASE : Tuple , SCREAMING_SNAKE_CASE : Tuple ): '''simple docstring''' lowerCAmelCase : Tuple = tmp_path / "cache" lowerCAmelCase : List[Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"} with assert_arrow_memory_increases() if keep_in_memory else assert_arrow_memory_doesnt_increase(): lowerCAmelCase : Optional[Any] = ParquetDatasetReader( {"train": parquet_path} , cache_dir=SCREAMING_SNAKE_CASE , keep_in_memory=SCREAMING_SNAKE_CASE ).read() _check_parquet_datasetdict(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) @pytest.mark.parametrize( "features" , [ None, {"col_1": "string", "col_2": "int64", "col_3": "float64"}, {"col_1": "string", "col_2": "string", "col_3": "string"}, {"col_1": "int32", "col_2": "int32", "col_3": "int32"}, {"col_1": "float32", "col_2": "float32", "col_3": "float32"}, ] , ) def a__ ( SCREAMING_SNAKE_CASE : Optional[int] , SCREAMING_SNAKE_CASE : Dict , SCREAMING_SNAKE_CASE : Optional[int] ): '''simple docstring''' lowerCAmelCase : Any = tmp_path / "cache" lowerCAmelCase : Union[str, Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"} lowerCAmelCase : List[Any] = features.copy() if features else default_expected_features lowerCAmelCase : List[Any] = ( Features({feature: Value(SCREAMING_SNAKE_CASE ) for feature, dtype in features.items()} ) if features is not None else None ) lowerCAmelCase : Optional[int] = ParquetDatasetReader({"train": parquet_path} , features=SCREAMING_SNAKE_CASE , cache_dir=SCREAMING_SNAKE_CASE ).read() _check_parquet_datasetdict(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) @pytest.mark.parametrize("split" , [None, NamedSplit("train" ), "train", "test"] ) def a__ ( SCREAMING_SNAKE_CASE : str , SCREAMING_SNAKE_CASE : Dict , SCREAMING_SNAKE_CASE : List[str] ): '''simple docstring''' if split: lowerCAmelCase : List[str] = {split: parquet_path} else: lowerCAmelCase : List[str] = "train" lowerCAmelCase : str = {"train": parquet_path, "test": parquet_path} lowerCAmelCase : Optional[int] = tmp_path / "cache" lowerCAmelCase : List[Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"} lowerCAmelCase : List[str] = ParquetDatasetReader(SCREAMING_SNAKE_CASE , cache_dir=SCREAMING_SNAKE_CASE ).read() _check_parquet_datasetdict(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , splits=list(path.keys() ) ) assert all(dataset[split].split == split for split in path.keys() ) def a__ ( SCREAMING_SNAKE_CASE : Optional[Any] , SCREAMING_SNAKE_CASE : Any ): '''simple docstring''' lowerCAmelCase : Optional[int] = ParquetDatasetWriter(SCREAMING_SNAKE_CASE , tmp_path / "foo.parquet" ) assert writer.write() > 0 lowerCAmelCase : List[str] = pq.ParquetFile(tmp_path / "foo.parquet" ) lowerCAmelCase : Union[str, Any] = pf.read() assert dataset.data.table == output_table def a__ ( SCREAMING_SNAKE_CASE : List[Any] , SCREAMING_SNAKE_CASE : List[str] ): '''simple docstring''' lowerCAmelCase : str = str(shared_datadir / "test_image_rgb.jpg" ) lowerCAmelCase : List[str] = {"image": [image_path]} lowerCAmelCase : str = Features({"image": Image()} ) lowerCAmelCase : Optional[Any] = Dataset.from_dict(SCREAMING_SNAKE_CASE , features=SCREAMING_SNAKE_CASE ) lowerCAmelCase : List[Any] = ParquetDatasetWriter(SCREAMING_SNAKE_CASE , tmp_path / "foo.parquet" ) assert writer.write() > 0 lowerCAmelCase : Any = Dataset.from_parquet(str(tmp_path / "foo.parquet" ) ) assert dataset.features == reloaded_dataset.features lowerCAmelCase : Optional[int] = ParquetDatasetReader(str(tmp_path / "foo.parquet" ) , streaming=SCREAMING_SNAKE_CASE ).read() assert dataset.features == reloaded_iterable_dataset.features @pytest.mark.parametrize( "feature, expected" , [ (Features({"foo": Value("int32" )} ), None), (Features({"image": Image(), "foo": Value("int32" )} ), config.PARQUET_ROW_GROUP_SIZE_FOR_IMAGE_DATASETS), (Features({"nested": Sequence(Audio() )} ), config.PARQUET_ROW_GROUP_SIZE_FOR_AUDIO_DATASETS), ] , ) def a__ ( SCREAMING_SNAKE_CASE : str , SCREAMING_SNAKE_CASE : List[str] ): '''simple docstring''' assert get_writer_batch_size(SCREAMING_SNAKE_CASE ) == expected	133	1
import os import unittest from transformers import BatchEncoding from transformers.models.bert.tokenization_bert import ( BasicTokenizer, WordpieceTokenizer, _is_control, _is_punctuation, _is_whitespace, ) from transformers.models.prophetnet.tokenization_prophetnet import VOCAB_FILES_NAMES, ProphetNetTokenizer from transformers.testing_utils import require_torch, slow from ...test_tokenization_common import TokenizerTesterMixin class _SCREAMING_SNAKE_CASE ( __SCREAMING_SNAKE_CASE , unittest.TestCase ): '''simple docstring''' lowercase_ = ProphetNetTokenizer lowercase_ = False def SCREAMING_SNAKE_CASE_ (self : Dict) ->List[str]: '''simple docstring''' super().setUp() lowerCamelCase__: Union[str, Any] =[ "[UNK]", "[CLS]", "[SEP]", "[PAD]", "[MASK]", "want", "##want", "##ed", "wa", "un", "runn", "##ing", ",", "low", "lowest", ] lowerCamelCase__: Dict =os.path.join(self.tmpdirname , VOCAB_FILES_NAMES["vocab_file"]) with open(self.vocab_file , "w" , encoding="utf-8") as vocab_writer: vocab_writer.write("".join([x + "\n" for x in vocab_tokens])) def SCREAMING_SNAKE_CASE_ (self : str , UpperCAmelCase_ : int) ->Tuple: '''simple docstring''' lowerCamelCase__: int ="UNwant\u00E9d,running" lowerCamelCase__: Optional[Any] ="unwanted, running" return input_text, output_text def SCREAMING_SNAKE_CASE_ (self : str) ->Tuple: '''simple docstring''' lowerCamelCase__: Dict =self.tokenizer_class(self.vocab_file) lowerCamelCase__: Tuple =tokenizer.tokenize("UNwant\u00E9d,running") self.assertListEqual(UpperCAmelCase_ , ["un", "##want", "##ed", ",", "runn", "##ing"]) self.assertListEqual(tokenizer.convert_tokens_to_ids(UpperCAmelCase_) , [9, 6, 7, 12, 10, 11]) def SCREAMING_SNAKE_CASE_ (self : Optional[int]) ->Union[str, Any]: '''simple docstring''' lowerCamelCase__: List[Any] =BasicTokenizer() self.assertListEqual(tokenizer.tokenize("ah\u535A\u63A8zz") , ["ah", "\u535A", "\u63A8", "zz"]) def SCREAMING_SNAKE_CASE_ (self : str) ->Optional[int]: '''simple docstring''' lowerCamelCase__: Union[str, Any] =BasicTokenizer(do_lower_case=UpperCAmelCase_) self.assertListEqual( tokenizer.tokenize(" \tHeLLo!how \n Are yoU? ") , ["hello", "!", "how", "are", "you", "?"]) self.assertListEqual(tokenizer.tokenize("H\u00E9llo") , ["hello"]) def SCREAMING_SNAKE_CASE_ (self : int) ->Tuple: '''simple docstring''' lowerCamelCase__: Dict =BasicTokenizer(do_lower_case=UpperCAmelCase_ , strip_accents=UpperCAmelCase_) self.assertListEqual( tokenizer.tokenize(" \tHäLLo!how \n Are yoU? ") , ["hällo", "!", "how", "are", "you", "?"]) self.assertListEqual(tokenizer.tokenize("H\u00E9llo") , ["h\u00E9llo"]) def SCREAMING_SNAKE_CASE_ (self : List[str]) ->List[str]: '''simple docstring''' lowerCamelCase__: List[Any] =BasicTokenizer(do_lower_case=UpperCAmelCase_ , strip_accents=UpperCAmelCase_) self.assertListEqual( tokenizer.tokenize(" \tHäLLo!how \n Are yoU? ") , ["hallo", "!", "how", "are", "you", "?"]) self.assertListEqual(tokenizer.tokenize("H\u00E9llo") , ["hello"]) def SCREAMING_SNAKE_CASE_ (self : Optional[Any]) ->Union[str, Any]: '''simple docstring''' lowerCamelCase__: Union[str, Any] =BasicTokenizer(do_lower_case=UpperCAmelCase_) self.assertListEqual( tokenizer.tokenize(" \tHäLLo!how \n Are yoU? ") , ["hallo", "!", "how", "are", "you", "?"]) self.assertListEqual(tokenizer.tokenize("H\u00E9llo") , ["hello"]) def SCREAMING_SNAKE_CASE_ (self : Any) ->Any: '''simple docstring''' lowerCamelCase__: Any =BasicTokenizer(do_lower_case=UpperCAmelCase_) self.assertListEqual( tokenizer.tokenize(" \tHeLLo!how \n Are yoU? ") , ["HeLLo", "!", "how", "Are", "yoU", "?"]) def SCREAMING_SNAKE_CASE_ (self : str) ->Any: '''simple docstring''' lowerCamelCase__: Union[str, Any] =BasicTokenizer(do_lower_case=UpperCAmelCase_ , strip_accents=UpperCAmelCase_) self.assertListEqual( tokenizer.tokenize(" \tHäLLo!how \n Are yoU? ") , ["HäLLo", "!", "how", "Are", "yoU", "?"]) def SCREAMING_SNAKE_CASE_ (self : Dict) ->Optional[Any]: '''simple docstring''' lowerCamelCase__: Tuple =BasicTokenizer(do_lower_case=UpperCAmelCase_ , strip_accents=UpperCAmelCase_) self.assertListEqual( tokenizer.tokenize(" \tHäLLo!how \n Are yoU? ") , ["HaLLo", "!", "how", "Are", "yoU", "?"]) def SCREAMING_SNAKE_CASE_ (self : Union[str, Any]) ->Any: '''simple docstring''' lowerCamelCase__: int =BasicTokenizer(do_lower_case=UpperCAmelCase_ , never_split=["[UNK]"]) self.assertListEqual( tokenizer.tokenize(" \tHeLLo!how \n Are yoU? [UNK]") , ["HeLLo", "!", "how", "Are", "yoU", "?", "[UNK]"]) def SCREAMING_SNAKE_CASE_ (self : Optional[int]) ->Union[str, Any]: '''simple docstring''' lowerCamelCase__: int =["[UNK]", "[CLS]", "[SEP]", "want", "##want", "##ed", "wa", "un", "runn", "##ing"] lowerCamelCase__: Any ={} for i, token in enumerate(UpperCAmelCase_): lowerCamelCase__: str =i lowerCamelCase__: Union[str, Any] =WordpieceTokenizer(vocab=UpperCAmelCase_ , unk_token="[UNK]") self.assertListEqual(tokenizer.tokenize("") , []) self.assertListEqual(tokenizer.tokenize("unwanted running") , ["un", "##want", "##ed", "runn", "##ing"]) self.assertListEqual(tokenizer.tokenize("unwantedX running") , ["[UNK]", "runn", "##ing"]) @require_torch def SCREAMING_SNAKE_CASE_ (self : Any) ->Tuple: '''simple docstring''' lowerCamelCase__: int =self.tokenizer_class.from_pretrained("microsoft/prophetnet-large-uncased") lowerCamelCase__: int =["A long paragraph for summarization.", "Another paragraph for summarization."] lowerCamelCase__: Any =[1_037, 2_146, 20_423, 2_005, 7_680, 7_849, 3_989, 1_012, 102] lowerCamelCase__: Optional[Any] =tokenizer(UpperCAmelCase_ , padding=UpperCAmelCase_ , return_tensors="pt") self.assertIsInstance(UpperCAmelCase_ , UpperCAmelCase_) lowerCamelCase__: int =list(batch.input_ids.numpy()[0]) self.assertListEqual(UpperCAmelCase_ , UpperCAmelCase_) self.assertEqual((2, 9) , batch.input_ids.shape) self.assertEqual((2, 9) , batch.attention_mask.shape) def SCREAMING_SNAKE_CASE_ (self : Optional[Any]) ->Any: '''simple docstring''' self.assertTrue(_is_whitespace(" ")) self.assertTrue(_is_whitespace("\t")) self.assertTrue(_is_whitespace("\r")) self.assertTrue(_is_whitespace("\n")) self.assertTrue(_is_whitespace("\u00A0")) self.assertFalse(_is_whitespace("A")) self.assertFalse(_is_whitespace("-")) def SCREAMING_SNAKE_CASE_ (self : Optional[Any]) ->Dict: '''simple docstring''' self.assertTrue(_is_control("\u0005")) self.assertFalse(_is_control("A")) self.assertFalse(_is_control(" ")) self.assertFalse(_is_control("\t")) self.assertFalse(_is_control("\r")) def SCREAMING_SNAKE_CASE_ (self : List[Any]) ->int: '''simple docstring''' self.assertTrue(_is_punctuation("-")) self.assertTrue(_is_punctuation("$")) self.assertTrue(_is_punctuation("`")) self.assertTrue(_is_punctuation(".")) self.assertFalse(_is_punctuation("A")) self.assertFalse(_is_punctuation(" ")) @slow def SCREAMING_SNAKE_CASE_ (self : Optional[Any]) ->Any: '''simple docstring''' lowerCamelCase__: List[Any] =self.tokenizer_class.from_pretrained("microsoft/prophetnet-large-uncased") lowerCamelCase__: str =tokenizer.encode("sequence builders" , add_special_tokens=UpperCAmelCase_) lowerCamelCase__: Optional[Any] =tokenizer.encode("multi-sequence build" , add_special_tokens=UpperCAmelCase_) lowerCamelCase__: int =tokenizer.build_inputs_with_special_tokens(UpperCAmelCase_) lowerCamelCase__: int =tokenizer.build_inputs_with_special_tokens(UpperCAmelCase_ , UpperCAmelCase_) assert encoded_sentence == text + [102] assert encoded_pair == text + [102] + text_a + [102]	10	class _SCREAMING_SNAKE_CASE : '''simple docstring''' def __init__(self : Optional[Any] , UpperCAmelCase_ : int) ->Optional[int]: '''simple docstring''' lowerCamelCase__: Any =n lowerCamelCase__: Tuple =[None] * self.n lowerCamelCase__: str =0 # index of the first element lowerCamelCase__: Tuple =0 lowerCamelCase__: Optional[Any] =0 def __len__(self : str) ->int: '''simple docstring''' return self.size def SCREAMING_SNAKE_CASE_ (self : int) ->bool: '''simple docstring''' return self.size == 0 def SCREAMING_SNAKE_CASE_ (self : List[str]) ->str: '''simple docstring''' return False if self.is_empty() else self.array[self.front] def SCREAMING_SNAKE_CASE_ (self : int , UpperCAmelCase_ : Optional[int]) ->str: '''simple docstring''' if self.size >= self.n: raise Exception("QUEUE IS FULL") lowerCamelCase__: List[Any] =data lowerCamelCase__: Dict =(self.rear + 1) % self.n self.size += 1 return self def SCREAMING_SNAKE_CASE_ (self : Tuple) ->Tuple: '''simple docstring''' if self.size == 0: raise Exception("UNDERFLOW") lowerCamelCase__: Optional[Any] =self.array[self.front] lowerCamelCase__: Optional[int] =None lowerCamelCase__: Dict =(self.front + 1) % self.n self.size -= 1 return temp	10	1
"""simple docstring""" from __future__ import annotations class SCREAMING_SNAKE_CASE__ : def __init__( self , _SCREAMING_SNAKE_CASE = 0 ) -> Tuple: '''simple docstring''' UpperCAmelCase : Dict = key def SCREAMING_SNAKE_CASE ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) -> list[str]: '''simple docstring''' assert isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) and isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) UpperCAmelCase : List[str] = key or self.__key or 1 # make sure key is an appropriate size key %= 255 return [chr(ord(_SCREAMING_SNAKE_CASE ) ^ key ) for ch in content] def SCREAMING_SNAKE_CASE ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) -> list[str]: '''simple docstring''' assert isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) and isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) UpperCAmelCase : Union[str, Any] = key or self.__key or 1 # make sure key is an appropriate size key %= 255 return [chr(ord(_SCREAMING_SNAKE_CASE ) ^ key ) for ch in content] def SCREAMING_SNAKE_CASE ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE = 0 ) -> str: '''simple docstring''' assert isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) and isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) UpperCAmelCase : int = key or self.__key or 1 # make sure key can be any size while key > 255: key -= 255 # This will be returned UpperCAmelCase : Optional[Any] = """""" for ch in content: ans += chr(ord(_SCREAMING_SNAKE_CASE ) ^ key ) return ans def SCREAMING_SNAKE_CASE ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE = 0 ) -> str: '''simple docstring''' assert isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) and isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) UpperCAmelCase : List[Any] = key or self.__key or 1 # make sure key can be any size while key > 255: key -= 255 # This will be returned UpperCAmelCase : List[Any] = """""" for ch in content: ans += chr(ord(_SCREAMING_SNAKE_CASE ) ^ key ) return ans def SCREAMING_SNAKE_CASE ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE = 0 ) -> bool: '''simple docstring''' assert isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) and isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) try: with open(_SCREAMING_SNAKE_CASE ) as fin, open("""encrypt.out""" , """w+""" ) as fout: # actual encrypt-process for line in fin: fout.write(self.encrypt_string(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) ) except OSError: return False return True def SCREAMING_SNAKE_CASE ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) -> bool: '''simple docstring''' assert isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) and isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) try: with open(_SCREAMING_SNAKE_CASE ) as fin, open("""decrypt.out""" , """w+""" ) as fout: # actual encrypt-process for line in fin: fout.write(self.decrypt_string(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) ) except OSError: return False return True # Tests # crypt = XORCipher() # key = 67 # # test encrypt # print(crypt.encrypt("hallo welt",key)) # # test decrypt # print(crypt.decrypt(crypt.encrypt("hallo welt",key), key)) # # test encrypt_string # print(crypt.encrypt_string("hallo welt",key)) # # test decrypt_string # print(crypt.decrypt_string(crypt.encrypt_string("hallo welt",key),key)) # if (crypt.encrypt_file("test.txt",key)): # print("encrypt successful") # else: # print("encrypt unsuccessful") # if (crypt.decrypt_file("encrypt.out",key)): # print("decrypt successful") # else: # print("decrypt unsuccessful")	76	"""simple docstring""" def _snake_case ( UpperCamelCase : dict ): UpperCAmelCase : set[int] = set() # To detect a back edge, keep track of vertices currently in the recursion stack UpperCAmelCase : set[int] = set() return any( node not in visited and depth_first_search(UpperCamelCase , UpperCamelCase , UpperCamelCase , UpperCamelCase ) for node in graph ) def _snake_case ( UpperCamelCase : dict , UpperCamelCase : int , UpperCamelCase : set , UpperCamelCase : set ): visited.add(UpperCamelCase ) rec_stk.add(UpperCamelCase ) for node in graph[vertex]: if node not in visited: if depth_first_search(UpperCamelCase , UpperCamelCase , UpperCamelCase , UpperCamelCase ): return True elif node in rec_stk: return True # The node needs to be removed from recursion stack before function ends rec_stk.remove(UpperCamelCase ) return False if __name__ == "__main__": from doctest import testmod testmod()	76	1
import argparse import json from pathlib import Path import torch import torchaudio from datasets import load_dataset from huggingface_hub import hf_hub_download from transformers import ASTConfig, ASTFeatureExtractor, ASTForAudioClassification from transformers.utils import logging logging.set_verbosity_info() __lowerCAmelCase : str = logging.get_logger(__name__) def __magic_name__ ( A : int ): '''simple docstring''' a = ASTConfig() if "10-10" in model_name: pass elif "speech-commands" in model_name: a = 128 elif "12-12" in model_name: a = 12 a = 12 elif "14-14" in model_name: a = 14 a = 14 elif "16-16" in model_name: a = 16 a = 16 else: raise ValueError("Model not supported" ) a = "huggingface/label-files" if "speech-commands" in model_name: a = 35 a = "speech-commands-v2-id2label.json" else: a = 527 a = "audioset-id2label.json" a = json.load(open(hf_hub_download(A, A, repo_type="dataset" ), "r" ) ) a = {int(A ): v for k, v in idalabel.items()} a = idalabel a = {v: k for k, v in idalabel.items()} return config def __magic_name__ ( A : Dict ): '''simple docstring''' if "module.v" in name: a = name.replace("module.v", "audio_spectrogram_transformer" ) if "cls_token" in name: a = name.replace("cls_token", "embeddings.cls_token" ) if "dist_token" in name: a = name.replace("dist_token", "embeddings.distillation_token" ) if "pos_embed" in name: a = name.replace("pos_embed", "embeddings.position_embeddings" ) if "patch_embed.proj" in name: a = name.replace("patch_embed.proj", "embeddings.patch_embeddings.projection" ) # transformer blocks if "blocks" in name: a = name.replace("blocks", "encoder.layer" ) if "attn.proj" in name: a = name.replace("attn.proj", "attention.output.dense" ) if "attn" in name: a = name.replace("attn", "attention.self" ) if "norm1" in name: a = name.replace("norm1", "layernorm_before" ) if "norm2" in name: a = name.replace("norm2", "layernorm_after" ) if "mlp.fc1" in name: a = name.replace("mlp.fc1", "intermediate.dense" ) if "mlp.fc2" in name: a = name.replace("mlp.fc2", "output.dense" ) # final layernorm if "audio_spectrogram_transformer.norm" in name: a = name.replace("audio_spectrogram_transformer.norm", "audio_spectrogram_transformer.layernorm" ) # classifier head if "module.mlp_head.0" in name: a = name.replace("module.mlp_head.0", "classifier.layernorm" ) if "module.mlp_head.1" in name: a = name.replace("module.mlp_head.1", "classifier.dense" ) return name def __magic_name__ ( A : Tuple, A : Optional[Any] ): '''simple docstring''' for key in orig_state_dict.copy().keys(): a = orig_state_dict.pop(A ) if "qkv" in key: a = key.split("." ) a = int(key_split[3] ) a = config.hidden_size if "weight" in key: a = val[:dim, :] a = val[dim : dim * 2, :] a = val[-dim:, :] else: a = val[:dim] a = val[dim : dim * 2] a = val[-dim:] else: a = val return orig_state_dict def __magic_name__ ( A : Optional[int] ): '''simple docstring''' a = [ "module.v.head.weight", "module.v.head.bias", "module.v.head_dist.weight", "module.v.head_dist.bias", ] for k in ignore_keys: state_dict.pop(A, A ) @torch.no_grad() def __magic_name__ ( A : List[str], A : Optional[int], A : Any=False ): '''simple docstring''' a = get_audio_spectrogram_transformer_config(A ) a = { "ast-finetuned-audioset-10-10-0.4593": ( "https://www.dropbox.com/s/ca0b1v2nlxzyeb4/audioset_10_10_0.4593.pth?dl=1" ), "ast-finetuned-audioset-10-10-0.450": ( "https://www.dropbox.com/s/1tv0hovue1bxupk/audioset_10_10_0.4495.pth?dl=1" ), "ast-finetuned-audioset-10-10-0.448": ( "https://www.dropbox.com/s/6u5sikl4b9wo4u5/audioset_10_10_0.4483.pth?dl=1" ), "ast-finetuned-audioset-10-10-0.448-v2": ( "https://www.dropbox.com/s/kt6i0v9fvfm1mbq/audioset_10_10_0.4475.pth?dl=1" ), "ast-finetuned-audioset-12-12-0.447": ( "https://www.dropbox.com/s/snfhx3tizr4nuc8/audioset_12_12_0.4467.pth?dl=1" ), "ast-finetuned-audioset-14-14-0.443": ( "https://www.dropbox.com/s/z18s6pemtnxm4k7/audioset_14_14_0.4431.pth?dl=1" ), "ast-finetuned-audioset-16-16-0.442": ( "https://www.dropbox.com/s/mdsa4t1xmcimia6/audioset_16_16_0.4422.pth?dl=1" ), "ast-finetuned-speech-commands-v2": ( "https://www.dropbox.com/s/q0tbqpwv44pquwy/speechcommands_10_10_0.9812.pth?dl=1" ), } # load original state_dict a = model_name_to_url[model_name] a = torch.hub.load_state_dict_from_url(A, map_location="cpu" ) # remove some keys remove_keys(A ) # rename some keys a = convert_state_dict(A, A ) # load 🤗 model a = ASTForAudioClassification(A ) model.eval() model.load_state_dict(A ) # verify outputs on dummy input # source: https://github.com/YuanGongND/ast/blob/79e873b8a54d0a3b330dd522584ff2b9926cd581/src/run.py#L62 a = -4.2_67_73_93 if "speech-commands" not in model_name else -6.84_59_78 a = 4.5_68_99_74 if "speech-commands" not in model_name else 5.5_65_45_26 a = 1024 if "speech-commands" not in model_name else 128 a = ASTFeatureExtractor(mean=A, std=A, max_length=A ) if "speech-commands" in model_name: a = load_dataset("speech_commands", "v0.02", split="validation" ) a = dataset[0]["audio"]["array"] else: a = hf_hub_download( repo_id="nielsr/audio-spectogram-transformer-checkpoint", filename="sample_audio.flac", repo_type="dataset", ) a , a = torchaudio.load(A ) a = waveform.squeeze().numpy() a = feature_extractor(A, sampling_rate=16000, return_tensors="pt" ) # forward pass a = model(**A ) a = outputs.logits if model_name == "ast-finetuned-audioset-10-10-0.4593": a = torch.tensor([-0.87_60, -7.00_42, -8.66_02] ) elif model_name == "ast-finetuned-audioset-10-10-0.450": a = torch.tensor([-1.19_86, -7.09_03, -8.27_18] ) elif model_name == "ast-finetuned-audioset-10-10-0.448": a = torch.tensor([-2.61_28, -8.00_80, -9.43_44] ) elif model_name == "ast-finetuned-audioset-10-10-0.448-v2": a = torch.tensor([-1.50_80, -7.45_34, -8.89_17] ) elif model_name == "ast-finetuned-audioset-12-12-0.447": a = torch.tensor([-0.50_50, -6.58_33, -8.08_43] ) elif model_name == "ast-finetuned-audioset-14-14-0.443": a = torch.tensor([-0.38_26, -7.03_36, -8.24_13] ) elif model_name == "ast-finetuned-audioset-16-16-0.442": a = torch.tensor([-1.21_13, -6.91_01, -8.34_70] ) elif model_name == "ast-finetuned-speech-commands-v2": a = torch.tensor([6.15_89, -8.05_66, -8.79_84] ) else: raise ValueError("Unknown model name" ) if not torch.allclose(logits[0, :3], A, atol=1E-4 ): raise ValueError("Logits don't match" ) print("Looks ok!" ) if pytorch_dump_folder_path is not None: Path(A ).mkdir(exist_ok=A ) print(F"""Saving model {model_name} to {pytorch_dump_folder_path}""" ) model.save_pretrained(A ) print(F"""Saving feature extractor to {pytorch_dump_folder_path}""" ) feature_extractor.save_pretrained(A ) if push_to_hub: print("Pushing model and feature extractor to the hub..." ) model.push_to_hub(F"""MIT/{model_name}""" ) feature_extractor.push_to_hub(F"""MIT/{model_name}""" ) if __name__ == "__main__": __lowerCAmelCase : Tuple = argparse.ArgumentParser() # Required parameters parser.add_argument( '--model_name', default='ast-finetuned-audioset-10-10-0.4593', type=str, help='Name of the Audio Spectrogram Transformer model you\'d like to convert.', ) parser.add_argument( '--pytorch_dump_folder_path', default=None, type=str, help='Path to the output PyTorch model directory.' ) parser.add_argument( '--push_to_hub', action='store_true', help='Whether or not to push the converted model to the 🤗 hub.' ) __lowerCAmelCase : Dict = parser.parse_args() convert_audio_spectrogram_transformer_checkpoint(args.model_name, args.pytorch_dump_folder_path, args.push_to_hub)	107	from math import acos, sin from typing import List, Tuple, Union import numpy as np import torch from PIL import Image from ...models import AutoencoderKL, UNetaDConditionModel from ...schedulers import DDIMScheduler, DDPMScheduler from ...utils import randn_tensor from ..pipeline_utils import AudioPipelineOutput, BaseOutput, DiffusionPipeline, ImagePipelineOutput from .mel import Mel class __a ( __UpperCamelCase ): __lowercase : Any = ['vqvae'] def __init__( self , lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ , ) -> Union[str, Any]: '''simple docstring''' super().__init__() self.register_modules(unet=lowerCAmelCase__ , scheduler=lowerCAmelCase__ , mel=lowerCAmelCase__ , vqvae=lowerCAmelCase__ ) def SCREAMING_SNAKE_CASE__ ( self ) -> int: '''simple docstring''' return 50 if isinstance(self.scheduler , lowerCAmelCase__ ) else 1_000 @torch.no_grad() def __call__( self , lowerCAmelCase__ = 1 , lowerCAmelCase__ = None , lowerCAmelCase__ = None , lowerCAmelCase__ = 0 , lowerCAmelCase__ = 0 , lowerCAmelCase__ = None , lowerCAmelCase__ = None , lowerCAmelCase__ = 0 , lowerCAmelCase__ = 0 , lowerCAmelCase__ = None , lowerCAmelCase__ = 0 , lowerCAmelCase__ = None , lowerCAmelCase__ = None , lowerCAmelCase__=True , ) -> Union[ Union[AudioPipelineOutput, ImagePipelineOutput], Tuple[List[Image.Image], Tuple[int, List[np.ndarray]]], ]: '''simple docstring''' lowercase__: Union[str, Any] = steps or self.get_default_steps() self.scheduler.set_timesteps(lowerCAmelCase__ ) lowercase__: Optional[int] = step_generator or generator # For backwards compatibility if type(self.unet.config.sample_size ) == int: lowercase__: Optional[int] = (self.unet.config.sample_size, self.unet.config.sample_size) if noise is None: lowercase__: List[str] = randn_tensor( ( batch_size, self.unet.config.in_channels, self.unet.config.sample_size[0], self.unet.config.sample_size[1], ) , generator=lowerCAmelCase__ , device=self.device , ) lowercase__: List[Any] = noise lowercase__: int = None if audio_file is not None or raw_audio is not None: self.mel.load_audio(lowerCAmelCase__ , lowerCAmelCase__ ) lowercase__: int = self.mel.audio_slice_to_image(lowerCAmelCase__ ) lowercase__: int = np.frombuffer(input_image.tobytes() , dtype='uint8' ).reshape( (input_image.height, input_image.width) ) lowercase__: str = (input_image / 255) * 2 - 1 lowercase__: Union[str, Any] = torch.tensor(input_image[np.newaxis, :, :] , dtype=torch.float ).to(self.device ) if self.vqvae is not None: lowercase__: Optional[int] = self.vqvae.encode(torch.unsqueeze(lowerCAmelCase__ , 0 ) ).latent_dist.sample( generator=lowerCAmelCase__ )[0] lowercase__: Dict = self.vqvae.config.scaling_factor * input_images if start_step > 0: lowercase__: List[Any] = self.scheduler.add_noise(lowerCAmelCase__ , lowerCAmelCase__ , self.scheduler.timesteps[start_step - 1] ) lowercase__: str = ( self.unet.config.sample_size[1] * self.mel.get_sample_rate() / self.mel.x_res / self.mel.hop_length ) lowercase__: Dict = int(mask_start_secs * pixels_per_second ) lowercase__: Tuple = int(mask_end_secs * pixels_per_second ) lowercase__: List[Any] = self.scheduler.add_noise(lowerCAmelCase__ , lowerCAmelCase__ , torch.tensor(self.scheduler.timesteps[start_step:] ) ) for step, t in enumerate(self.progress_bar(self.scheduler.timesteps[start_step:] ) ): if isinstance(self.unet , lowerCAmelCase__ ): lowercase__: Union[str, Any] = self.unet(lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ )['sample'] else: lowercase__: Optional[Any] = self.unet(lowerCAmelCase__ , lowerCAmelCase__ )['sample'] if isinstance(self.scheduler , lowerCAmelCase__ ): lowercase__: List[str] = self.scheduler.step( model_output=lowerCAmelCase__ , timestep=lowerCAmelCase__ , sample=lowerCAmelCase__ , eta=lowerCAmelCase__ , generator=lowerCAmelCase__ , )['prev_sample'] else: lowercase__: int = self.scheduler.step( model_output=lowerCAmelCase__ , timestep=lowerCAmelCase__ , sample=lowerCAmelCase__ , generator=lowerCAmelCase__ , )['prev_sample'] if mask is not None: if mask_start > 0: lowercase__: List[Any] = mask[:, step, :, :mask_start] if mask_end > 0: lowercase__: Optional[int] = mask[:, step, :, -mask_end:] if self.vqvae is not None: # 0.18215 was scaling factor used in training to ensure unit variance lowercase__: Union[str, Any] = 1 / self.vqvae.config.scaling_factor * images lowercase__: Optional[Any] = self.vqvae.decode(lowerCAmelCase__ )['sample'] lowercase__: Dict = (images / 2 + 0.5).clamp(0 , 1 ) lowercase__: List[Any] = images.cpu().permute(0 , 2 , 3 , 1 ).numpy() lowercase__: int = (images * 255).round().astype('uint8' ) lowercase__: Optional[Any] = list( (Image.fromarray(_[:, :, 0] ) for _ in images) if images.shape[3] == 1 else (Image.fromarray(lowerCAmelCase__ , mode='RGB' ).convert('L' ) for _ in images) ) lowercase__: Dict = [self.mel.image_to_audio(lowerCAmelCase__ ) for _ in images] if not return_dict: return images, (self.mel.get_sample_rate(), audios) return BaseOutput(AudioPipelineOutput(np.array(lowerCAmelCase__ )[:, np.newaxis, :] ) , ImagePipelineOutput(lowerCAmelCase__ ) ) @torch.no_grad() def SCREAMING_SNAKE_CASE__ ( self , lowerCAmelCase__ , lowerCAmelCase__ = 50 ) -> np.ndarray: '''simple docstring''' assert isinstance(self.scheduler , lowerCAmelCase__ ) self.scheduler.set_timesteps(lowerCAmelCase__ ) lowercase__: List[str] = np.array( [np.frombuffer(image.tobytes() , dtype='uint8' ).reshape((1, image.height, image.width) ) for image in images] ) lowercase__: str = (sample / 255) * 2 - 1 lowercase__: str = torch.Tensor(lowerCAmelCase__ ).to(self.device ) for t in self.progress_bar(torch.flip(self.scheduler.timesteps , (0,) ) ): lowercase__: Union[str, Any] = t - self.scheduler.config.num_train_timesteps // self.scheduler.num_inference_steps lowercase__: Optional[Any] = self.scheduler.alphas_cumprod[t] lowercase__: str = ( self.scheduler.alphas_cumprod[prev_timestep] if prev_timestep >= 0 else self.scheduler.final_alpha_cumprod ) lowercase__: str = 1 - alpha_prod_t lowercase__: int = self.unet(lowerCAmelCase__ , lowerCAmelCase__ )['sample'] lowercase__: int = (1 - alpha_prod_t_prev) ** 0.5 * model_output lowercase__: Optional[int] = (sample - pred_sample_direction) * alpha_prod_t_prev ** (-0.5) lowercase__: Any = sample * alpha_prod_t 0.5 + beta_prod_t 0.5 * model_output return sample @staticmethod def SCREAMING_SNAKE_CASE__ ( lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ ) -> torch.Tensor: '''simple docstring''' lowercase__: Any = acos(torch.dot(torch.flatten(lowerCAmelCase__ ) , torch.flatten(lowerCAmelCase__ ) ) / torch.norm(lowerCAmelCase__ ) / torch.norm(lowerCAmelCase__ ) ) return sin((1 - alpha) * theta ) * xa / sin(lowerCAmelCase__ ) + sin(alpha * theta ) * xa / sin(lowerCAmelCase__ )	196	0
"""simple docstring""" from __future__ import annotations from functools import lru_cache from math import ceil lowercase__ = 100 lowercase__ = set(range(3, NUM_PRIMES, 2)) primes.add(2) lowercase__ = 42 for prime in range(3, ceil(NUM_PRIMES*0.5), 2): if prime not in primes: continue primes.difference_update(set(range(prime prime, NUM_PRIMES, prime))) @lru_cache(maxsize=100 ) def __a ( _SCREAMING_SNAKE_CASE ) ->int: if number_to_partition < 0: return set() elif number_to_partition == 0: return {1} a__: set[int] = set() a__: int a__: int for prime in primes: if prime > number_to_partition: continue for sub in partition(number_to_partition - prime ): ret.add(sub * prime ) return ret def __a ( _SCREAMING_SNAKE_CASE = 5000 ) ->Union[str, Any]: for number_to_partition in range(1 , _SCREAMING_SNAKE_CASE ): if len(partition(_SCREAMING_SNAKE_CASE ) ) > number_unique_partitions: return number_to_partition return None if __name__ == "__main__": print(f"{solution() = }")	370	"""simple docstring""" import unittest import numpy as np import torch from transformers import CLIPTextConfig, CLIPTextModel from diffusers import DDIMScheduler, LDMPipeline, UNetaDModel, VQModel from diffusers.utils.testing_utils import enable_full_determinism, require_torch, slow, torch_device enable_full_determinism() class __snake_case ( unittest.TestCase ): @property def lowerCamelCase_ ( self) -> Dict: '''simple docstring''' torch.manual_seed(0) a__: str = UNetaDModel( block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=3 , out_channels=3 , down_block_types=('DownBlock2D', 'AttnDownBlock2D') , up_block_types=('AttnUpBlock2D', 'UpBlock2D') , ) return model @property def lowerCamelCase_ ( self) -> int: '''simple docstring''' torch.manual_seed(0) a__: List[Any] = VQModel( block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=['DownEncoderBlock2D', 'DownEncoderBlock2D'] , up_block_types=['UpDecoderBlock2D', 'UpDecoderBlock2D'] , latent_channels=3 , ) return model @property def lowerCamelCase_ ( self) -> Optional[Any]: '''simple docstring''' torch.manual_seed(0) a__: Optional[int] = CLIPTextConfig( bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1e-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=10_00 , ) return CLIPTextModel(lowercase) def lowerCamelCase_ ( self) -> str: '''simple docstring''' a__: Union[str, Any] = self.dummy_uncond_unet a__: Optional[int] = DDIMScheduler() a__: Optional[int] = self.dummy_vq_model a__: Union[str, Any] = LDMPipeline(unet=lowercase , vqvae=lowercase , scheduler=lowercase) ldm.to(lowercase) ldm.set_progress_bar_config(disable=lowercase) a__: str = torch.manual_seed(0) a__: Dict = ldm(generator=lowercase , num_inference_steps=2 , output_type='numpy').images a__: Union[str, Any] = torch.manual_seed(0) a__: int = ldm(generator=lowercase , num_inference_steps=2 , output_type='numpy' , return_dict=lowercase)[0] a__: Union[str, Any] = image[0, -3:, -3:, -1] a__: int = image_from_tuple[0, -3:, -3:, -1] assert image.shape == (1, 64, 64, 3) a__: int = np.array([0.8512, 0.818, 0.6411, 0.6808, 0.4465, 0.5618, 0.46, 0.6231, 0.5172]) a__: Optional[Any] = 1e-2 if torch_device != 'mps' else 3e-2 assert np.abs(image_slice.flatten() - expected_slice).max() < tolerance assert np.abs(image_from_tuple_slice.flatten() - expected_slice).max() < tolerance @slow @require_torch class __snake_case ( unittest.TestCase ): def lowerCamelCase_ ( self) -> Optional[Any]: '''simple docstring''' a__: Union[str, Any] = LDMPipeline.from_pretrained('CompVis/ldm-celebahq-256') ldm.to(lowercase) ldm.set_progress_bar_config(disable=lowercase) a__: List[str] = torch.manual_seed(0) a__: Optional[int] = ldm(generator=lowercase , num_inference_steps=5 , output_type='numpy').images a__: Optional[int] = image[0, -3:, -3:, -1] assert image.shape == (1, 2_56, 2_56, 3) a__: int = np.array([0.4399, 0.44975, 0.46825, 0.474, 0.4359, 0.4581, 0.45095, 0.4341, 0.4447]) a__: Any = 1e-2 if torch_device != 'mps' else 3e-2 assert np.abs(image_slice.flatten() - expected_slice).max() < tolerance	203	0
'''simple docstring''' import functools import operator from ...configuration_utils import PretrainedConfig from ...utils import logging _UpperCamelCase : Any = logging.get_logger(__name__) _UpperCamelCase : Tuple = { 'microsoft/unispeech-large-1500h-cv': ( 'https://huggingface.co/microsoft/unispeech-large-1500h-cv/resolve/main/config.json' ), # See all UniSpeech models at https://huggingface.co/models?filter=unispeech } class snake_case__ ( UpperCamelCase): a_ = "unispeech" def __init__( self : Tuple , _A : List[Any]=32 , _A : Optional[int]=7_68 , _A : int=12 , _A : Tuple=12 , _A : Optional[int]=30_72 , _A : List[str]="gelu" , _A : int=0.1 , _A : Dict=0.1 , _A : Any=0.1 , _A : Optional[Any]=0.0 , _A : Dict=0.0 , _A : Union[str, Any]=0.1 , _A : Tuple=0.1 , _A : Union[str, Any]=0.02 , _A : Union[str, Any]=1e-5 , _A : Dict="group" , _A : Dict="gelu" , _A : Union[str, Any]=(5_12, 5_12, 5_12, 5_12, 5_12, 5_12, 5_12) , _A : Tuple=(5, 2, 2, 2, 2, 2, 2) , _A : List[Any]=(10, 3, 3, 3, 3, 2, 2) , _A : str=False , _A : int=1_28 , _A : Dict=16 , _A : Any=False , _A : List[str]=True , _A : str=0.05 , _A : Dict=10 , _A : Union[str, Any]=2 , _A : Optional[int]=0.0 , _A : Dict=10 , _A : Optional[int]=0 , _A : str=3_20 , _A : List[Any]=2 , _A : str=0.1 , _A : Any=1_00 , _A : Union[str, Any]=2_56 , _A : Optional[Any]=2_56 , _A : Optional[Any]=0.1 , _A : Union[str, Any]="mean" , _A : Any=False , _A : List[str]=False , _A : Dict=2_56 , _A : List[Any]=80 , _A : Optional[Any]=0 , _A : str=1 , _A : Dict=2 , _A : Optional[Any]=0.5 , _A : List[Any] , ) -> int: super().__init__(_A , pad_token_id=_A , bos_token_id=_A , eos_token_id=_A ) UpperCAmelCase_ : List[str] = hidden_size UpperCAmelCase_ : Optional[int] = feat_extract_norm UpperCAmelCase_ : Optional[Any] = feat_extract_activation UpperCAmelCase_ : Any = list(_A ) UpperCAmelCase_ : Optional[Any] = list(_A ) UpperCAmelCase_ : int = list(_A ) UpperCAmelCase_ : int = conv_bias UpperCAmelCase_ : List[str] = num_conv_pos_embeddings UpperCAmelCase_ : Dict = num_conv_pos_embedding_groups UpperCAmelCase_ : Any = len(self.conv_dim ) UpperCAmelCase_ : Tuple = num_hidden_layers UpperCAmelCase_ : Tuple = intermediate_size UpperCAmelCase_ : int = hidden_act UpperCAmelCase_ : int = num_attention_heads UpperCAmelCase_ : Tuple = hidden_dropout UpperCAmelCase_ : List[str] = attention_dropout UpperCAmelCase_ : Union[str, Any] = activation_dropout UpperCAmelCase_ : List[Any] = feat_proj_dropout UpperCAmelCase_ : List[str] = final_dropout UpperCAmelCase_ : Any = layerdrop UpperCAmelCase_ : Optional[int] = layer_norm_eps UpperCAmelCase_ : str = initializer_range UpperCAmelCase_ : Tuple = num_ctc_classes UpperCAmelCase_ : List[str] = vocab_size UpperCAmelCase_ : int = do_stable_layer_norm UpperCAmelCase_ : Optional[Any] = use_weighted_layer_sum UpperCAmelCase_ : List[str] = classifier_proj_size if ( (len(self.conv_stride ) != self.num_feat_extract_layers) or (len(self.conv_kernel ) != self.num_feat_extract_layers) or (len(self.conv_dim ) != self.num_feat_extract_layers) ): raise ValueError( '''Configuration for convolutional layers is incorrect. It is required that `len(config.conv_dim)` ==''' ''' `len(config.conv_stride)` == `len(config.conv_kernel)`, but is `len(config.conv_dim) =''' F" {len(self.conv_dim )}`, `len(config.conv_stride) = {len(self.conv_stride )}`," F" `len(config.conv_kernel) = {len(self.conv_kernel )}`." ) # fine-tuning config parameters for SpecAugment: https://arxiv.org/abs/1904.08779 UpperCAmelCase_ : int = apply_spec_augment UpperCAmelCase_ : Any = mask_time_prob UpperCAmelCase_ : Any = mask_time_length UpperCAmelCase_ : Any = mask_time_min_masks UpperCAmelCase_ : List[Any] = mask_feature_prob UpperCAmelCase_ : str = mask_feature_length UpperCAmelCase_ : Any = mask_feature_min_masks # parameters for pretraining with codevector quantized representations UpperCAmelCase_ : List[Any] = num_codevectors_per_group UpperCAmelCase_ : Dict = num_codevector_groups UpperCAmelCase_ : List[str] = contrastive_logits_temperature UpperCAmelCase_ : str = feat_quantizer_dropout UpperCAmelCase_ : int = num_negatives UpperCAmelCase_ : List[str] = codevector_dim UpperCAmelCase_ : Optional[Any] = proj_codevector_dim UpperCAmelCase_ : Dict = diversity_loss_weight # ctc loss UpperCAmelCase_ : Optional[int] = ctc_loss_reduction UpperCAmelCase_ : List[str] = ctc_zero_infinity # pretraining loss UpperCAmelCase_ : Any = replace_prob @property def A ( self : Optional[int] ) -> List[str]: return functools.reduce(operator.mul , self.conv_stride , 1 )	304	'''simple docstring''' def __UpperCAmelCase ( A : int = 1_0_0_0 ) -> int: UpperCAmelCase_ , UpperCAmelCase_ : Union[str, Any] = 1, 1 UpperCAmelCase_ : Dict = [] for i in range(1 , n + 1 ): UpperCAmelCase_ : Optional[int] = prev_numerator + 2 * prev_denominator UpperCAmelCase_ : Tuple = prev_numerator + prev_denominator if len(str(A ) ) > len(str(A ) ): result.append(A ) UpperCAmelCase_ : Optional[Any] = numerator UpperCAmelCase_ : Optional[int] = denominator return len(A ) if __name__ == "__main__": print(f'''{solution() = }''')	304	1
"""simple docstring""" import re import subprocess import sys _UpperCamelCase = subprocess.check_output("""git merge-base main HEAD""".split()).decode("""utf-8""") _UpperCamelCase = subprocess.check_output(F"""git diff --name-only {fork_point_sha}""".split()).decode("""utf-8""").split() _UpperCamelCase = "\|".join(sys.argv[1:]) _UpperCamelCase = re.compile(RF"""^({joined_dirs}).*?\.py$""") _UpperCamelCase = [x for x in modified_files if regex.match(x)] print(""" """.join(relevant_modified_files), end="""""")	357	"""simple docstring""" _UpperCamelCase = [4, 1, 7, 4, 2, 6, 4, 1, 5, 3, 7, 5] _UpperCamelCase = [3, 7, 7, 4, 2, 6, 4, 1, 5, 3, 7, 5] _UpperCamelCase = { 0: """Sunday""", 1: """Monday""", 2: """Tuesday""", 3: """Wednesday""", 4: """Thursday""", 5: """Friday""", 6: """Saturday""", } def _a ( _snake_case , _snake_case , _snake_case ): """simple docstring""" assert len(str(_snake_case ) ) > 2, "year should be in YYYY format" assert 1 <= month <= 12, "month should be between 1 to 12" assert 1 <= day <= 31, "day should be between 1 to 31" # Doomsday algorithm: UpperCAmelCase = year // 100 UpperCAmelCase = (5 * (century % 4) + 2) % 7 UpperCAmelCase = year % 100 UpperCAmelCase = centurian % 12 UpperCAmelCase = ( (centurian // 12) + centurian_m + (centurian_m // 4) + century_anchor ) % 7 UpperCAmelCase = ( DOOMSDAY_NOT_LEAP[month - 1] if (year % 4 != 0) or (centurian == 0 and (year % 400) == 0) else DOOMSDAY_LEAP[month - 1] ) UpperCAmelCase = (dooms_day + day - day_anchor) % 7 return WEEK_DAY_NAMES[week_day] if __name__ == "__main__": import doctest doctest.testmod()	234	0
'''simple docstring''' from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available, is_tf_available, is_tokenizers_available, is_torch_available, ) UpperCamelCase__ = { '''configuration_rembert''': ['''REMBERT_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''RemBertConfig''', '''RemBertOnnxConfig'''] } try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCamelCase__ = ['''RemBertTokenizer'''] try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCamelCase__ = ['''RemBertTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCamelCase__ = [ '''REMBERT_PRETRAINED_MODEL_ARCHIVE_LIST''', '''RemBertForCausalLM''', '''RemBertForMaskedLM''', '''RemBertForMultipleChoice''', '''RemBertForQuestionAnswering''', '''RemBertForSequenceClassification''', '''RemBertForTokenClassification''', '''RemBertLayer''', '''RemBertModel''', '''RemBertPreTrainedModel''', '''load_tf_weights_in_rembert''', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCamelCase__ = [ '''TF_REMBERT_PRETRAINED_MODEL_ARCHIVE_LIST''', '''TFRemBertForCausalLM''', '''TFRemBertForMaskedLM''', '''TFRemBertForMultipleChoice''', '''TFRemBertForQuestionAnswering''', '''TFRemBertForSequenceClassification''', '''TFRemBertForTokenClassification''', '''TFRemBertLayer''', '''TFRemBertModel''', '''TFRemBertPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_rembert import REMBERT_PRETRAINED_CONFIG_ARCHIVE_MAP, RemBertConfig, RemBertOnnxConfig try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_rembert import RemBertTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_rembert_fast import RemBertTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_rembert import ( REMBERT_PRETRAINED_MODEL_ARCHIVE_LIST, RemBertForCausalLM, RemBertForMaskedLM, RemBertForMultipleChoice, RemBertForQuestionAnswering, RemBertForSequenceClassification, RemBertForTokenClassification, RemBertLayer, RemBertModel, RemBertPreTrainedModel, load_tf_weights_in_rembert, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_rembert import ( TF_REMBERT_PRETRAINED_MODEL_ARCHIVE_LIST, TFRemBertForCausalLM, TFRemBertForMaskedLM, TFRemBertForMultipleChoice, TFRemBertForQuestionAnswering, TFRemBertForSequenceClassification, TFRemBertForTokenClassification, TFRemBertLayer, TFRemBertModel, TFRemBertPreTrainedModel, ) else: import sys UpperCamelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)	181	from __future__ import annotations from typing import Any class UpperCamelCase__ : def __init__(self : Union[str, Any] , snake_case_ : int ): __a : Dict = num_of_nodes __a : list[list[int]] = [] __a : dict[int, int] = {} def lowerCAmelCase (self : Optional[Any] , snake_case_ : int , snake_case_ : int , snake_case_ : int ): self.m_edges.append([u_node, v_node, weight] ) def lowerCAmelCase (self : Any , snake_case_ : int ): if self.m_component[u_node] == u_node: return u_node return self.find_component(self.m_component[u_node] ) def lowerCAmelCase (self : str , snake_case_ : int ): if self.m_component[u_node] != u_node: for k in self.m_component: __a : Optional[int] = self.find_component(snake_case_ ) def lowerCAmelCase (self : Any , snake_case_ : list[int] , snake_case_ : int , snake_case_ : int ): if component_size[u_node] <= component_size[v_node]: __a : List[str] = v_node component_size[v_node] += component_size[u_node] self.set_component(snake_case_ ) elif component_size[u_node] >= component_size[v_node]: __a : Optional[int] = self.find_component(snake_case_ ) component_size[u_node] += component_size[v_node] self.set_component(snake_case_ ) def lowerCAmelCase (self : Optional[Any] ): __a : str = [] __a : int = 0 __a : list[Any] = [-1] * self.m_num_of_nodes # A list of components (initialized to all of the nodes) for node in range(self.m_num_of_nodes ): self.m_component.update({node: node} ) component_size.append(1 ) __a : Union[str, Any] = self.m_num_of_nodes while num_of_components > 1: for edge in self.m_edges: __a , __a , __a : Optional[Any] = edge __a : List[str] = self.m_component[u] __a : List[Any] = self.m_component[v] if u_component != v_component: for component in (u_component, v_component): if ( minimum_weight_edge[component] == -1 or minimum_weight_edge[component][2] > w ): __a : str = [u, v, w] for edge in minimum_weight_edge: if isinstance(snake_case_ , snake_case_ ): __a , __a , __a : str = edge __a : Any = self.m_component[u] __a : Any = self.m_component[v] if u_component != v_component: mst_weight += w self.union(snake_case_ , snake_case_ , snake_case_ ) print(f"Added edge [{u} - {v}]\nAdded weight: {w}\n" ) num_of_components -= 1 __a : Optional[int] = [-1] * self.m_num_of_nodes print(f"The total weight of the minimal spanning tree is: {mst_weight}" ) def __UpperCamelCase ( ): pass if __name__ == "__main__": import doctest doctest.testmod()	216	0
'''simple docstring''' import subprocess import sys from transformers import BertConfig, BertModel, BertTokenizer, pipeline from transformers.testing_utils import TestCasePlus, require_torch class lowerCamelCase ( _lowerCamelCase ): @require_torch def _lowerCamelCase ( self ) -> Dict: snake_case = '\nfrom transformers import BertConfig, BertModel, BertTokenizer, pipeline\n ' snake_case = '\nmname = \"hf-internal-testing/tiny-random-bert\"\nBertConfig.from_pretrained(mname)\nBertModel.from_pretrained(mname)\nBertTokenizer.from_pretrained(mname)\npipe = pipeline(task=\"fill-mask\", model=mname)\nprint(\"success\")\n ' snake_case = '\nimport socket\ndef offline_socket(args, kwargs): raise RuntimeError(\"Offline mode is enabled, we shouldn\'t access internet\")\nsocket.socket = offline_socket\n ' # Force fetching the files so that we can use the cache snake_case = 'hf-internal-testing/tiny-random-bert' BertConfig.from_pretrained(lowercase_ ) BertModel.from_pretrained(lowercase_ ) BertTokenizer.from_pretrained(lowercase_ ) pipeline(task='fill-mask', model=lowercase_ ) # baseline - just load from_pretrained with normal network snake_case = [sys.executable, '-c', '\n'.join([load, run, mock] )] # should succeed snake_case = self.get_env() # should succeed as TRANSFORMERS_OFFLINE=1 tells it to use local files snake_case = '1' snake_case = subprocess.run(lowercase_, env=lowercase_, check=lowercase_, capture_output=lowercase_ ) self.assertEqual(result.returncode, 0, result.stderr ) self.assertIn('success', result.stdout.decode() ) @require_torch def _lowerCamelCase ( self ) -> Optional[Any]: snake_case = '\nfrom transformers import BertConfig, BertModel, BertTokenizer, pipeline\n ' snake_case = '\nmname = \"hf-internal-testing/tiny-random-bert\"\nBertConfig.from_pretrained(mname)\nBertModel.from_pretrained(mname)\nBertTokenizer.from_pretrained(mname)\npipe = pipeline(task=\"fill-mask\", model=mname)\nprint(\"success\")\n ' snake_case = '\nimport socket\ndef offline_socket(args, *kwargs): raise socket.error(\"Faking flaky internet\")\nsocket.socket = offline_socket\n ' # Force fetching the files so that we can use the cache snake_case = 'hf-internal-testing/tiny-random-bert' BertConfig.from_pretrained(lowercase_ ) BertModel.from_pretrained(lowercase_ ) BertTokenizer.from_pretrained(lowercase_ ) pipeline(task='fill-mask', model=lowercase_ ) # baseline - just load from_pretrained with normal network snake_case = [sys.executable, '-c', '\n'.join([load, run, mock] )] # should succeed snake_case = self.get_env() snake_case = subprocess.run(lowercase_, env=lowercase_, check=lowercase_, capture_output=lowercase_ ) self.assertEqual(result.returncode, 0, result.stderr ) self.assertIn('success', result.stdout.decode() ) @require_torch def _lowerCamelCase ( self ) -> List[str]: snake_case = '\nfrom transformers import BertConfig, BertModel, BertTokenizer\n ' snake_case = '\nmname = \"hf-internal-testing/tiny-random-bert-sharded\"\nBertConfig.from_pretrained(mname)\nBertModel.from_pretrained(mname)\nprint(\"success\")\n ' snake_case = '\nimport socket\ndef offline_socket(args, *kwargs): raise ValueError(\"Offline mode is enabled\")\nsocket.socket = offline_socket\n ' # baseline - just load from_pretrained with normal network snake_case = [sys.executable, '-c', '\n'.join([load, run] )] # should succeed snake_case = self.get_env() snake_case = subprocess.run(lowercase_, env=lowercase_, check=lowercase_, capture_output=lowercase_ ) self.assertEqual(result.returncode, 0, result.stderr ) self.assertIn('success', result.stdout.decode() ) # next emulate no network snake_case = [sys.executable, '-c', '\n'.join([load, mock, run] )] # Doesn't fail anymore since the model is in the cache due to other tests, so commenting this. # env["TRANSFORMERS_OFFLINE"] = "0" # result = subprocess.run(cmd, env=env, check=False, capture_output=True) # self.assertEqual(result.returncode, 1, result.stderr) # should succeed as TRANSFORMERS_OFFLINE=1 tells it to use local files snake_case = '1' snake_case = subprocess.run(lowercase_, env=lowercase_, check=lowercase_, capture_output=lowercase_ ) self.assertEqual(result.returncode, 0, result.stderr ) self.assertIn('success', result.stdout.decode() ) @require_torch def _lowerCamelCase ( self ) -> Optional[Any]: snake_case = '\nfrom transformers import pipeline\n ' snake_case = '\nmname = \"hf-internal-testing/tiny-random-bert\"\npipe = pipeline(model=mname)\n ' snake_case = '\nimport socket\ndef offline_socket(args, **kwargs): raise socket.error(\"Offline mode is enabled\")\nsocket.socket = offline_socket\n ' snake_case = self.get_env() snake_case = '1' snake_case = [sys.executable, '-c', '\n'.join([load, mock, run] )] snake_case = subprocess.run(lowercase_, env=lowercase_, check=lowercase_, capture_output=lowercase_ ) self.assertEqual(result.returncode, 1, result.stderr ) self.assertIn( 'You cannot infer task automatically within `pipeline` when using offline mode', result.stderr.decode().replace('\n', '' ), ) @require_torch def _lowerCamelCase ( self ) -> Tuple: snake_case = '\nfrom transformers import AutoModel\n ' snake_case = '\nmname = \"hf-internal-testing/test_dynamic_model\"\nAutoModel.from_pretrained(mname, trust_remote_code=True)\nprint(\"success\")\n ' # baseline - just load from_pretrained with normal network snake_case = [sys.executable, '-c', '\n'.join([load, run] )] # should succeed snake_case = self.get_env() snake_case = subprocess.run(lowercase_, env=lowercase_, check=lowercase_, capture_output=lowercase_ ) self.assertEqual(result.returncode, 0, result.stderr ) self.assertIn('success', result.stdout.decode() ) # should succeed as TRANSFORMERS_OFFLINE=1 tells it to use local files snake_case = '1' snake_case = subprocess.run(lowercase_, env=lowercase_, check=lowercase_, capture_output=lowercase_ ) self.assertEqual(result.returncode, 0, result.stderr ) self.assertIn('success', result.stdout.decode() )	353	'''simple docstring''' from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_flax_available, is_tf_available, is_torch_available, ) lowerCAmelCase_ = { "configuration_vision_text_dual_encoder": ["VisionTextDualEncoderConfig"], "processing_vision_text_dual_encoder": ["VisionTextDualEncoderProcessor"], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase_ = ["VisionTextDualEncoderModel"] try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase_ = ["FlaxVisionTextDualEncoderModel"] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase_ = ["TFVisionTextDualEncoderModel"] if TYPE_CHECKING: from .configuration_vision_text_dual_encoder import VisionTextDualEncoderConfig from .processing_vision_text_dual_encoder import VisionTextDualEncoderProcessor try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_vision_text_dual_encoder import VisionTextDualEncoderModel try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_flax_vision_text_dual_encoder import FlaxVisionTextDualEncoderModel try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_vision_text_dual_encoder import TFVisionTextDualEncoderModel else: import sys lowerCAmelCase_ = _LazyModule(__name__, globals()["__file__"], _import_structure)	332	0
from collections import OrderedDict from typing import Mapping from ...configuration_utils import PretrainedConfig from ...onnx import OnnxConfig from ...utils import logging UpperCamelCase = logging.get_logger(__name__) UpperCamelCase = { '''roberta-base''': '''https://huggingface.co/roberta-base/resolve/main/config.json''', '''roberta-large''': '''https://huggingface.co/roberta-large/resolve/main/config.json''', '''roberta-large-mnli''': '''https://huggingface.co/roberta-large-mnli/resolve/main/config.json''', '''distilroberta-base''': '''https://huggingface.co/distilroberta-base/resolve/main/config.json''', '''roberta-base-openai-detector''': '''https://huggingface.co/roberta-base-openai-detector/resolve/main/config.json''', '''roberta-large-openai-detector''': '''https://huggingface.co/roberta-large-openai-detector/resolve/main/config.json''', } class __UpperCAmelCase (_UpperCAmelCase ): __snake_case : Any = "roberta" def __init__( self: Union[str, Any] , UpperCAmelCase_: List[str]=50_265 , UpperCAmelCase_: Any=768 , UpperCAmelCase_: Optional[int]=12 , UpperCAmelCase_: Union[str, Any]=12 , UpperCAmelCase_: Optional[int]=3_072 , UpperCAmelCase_: Optional[int]="gelu" , UpperCAmelCase_: Dict=0.1 , UpperCAmelCase_: Tuple=0.1 , UpperCAmelCase_: Any=512 , UpperCAmelCase_: str=2 , UpperCAmelCase_: Optional[Any]=0.02 , UpperCAmelCase_: Optional[Any]=1E-12 , UpperCAmelCase_: Union[str, Any]=1 , UpperCAmelCase_: int=0 , UpperCAmelCase_: Union[str, Any]=2 , UpperCAmelCase_: List[str]="absolute" , UpperCAmelCase_: Optional[int]=True , UpperCAmelCase_: str=None , UpperCAmelCase_: Any , ): '''simple docstring''' super().__init__(pad_token_id=UpperCAmelCase_ , bos_token_id=UpperCAmelCase_ , eos_token_id=UpperCAmelCase_ , UpperCAmelCase_ ) _SCREAMING_SNAKE_CASE = vocab_size _SCREAMING_SNAKE_CASE = hidden_size _SCREAMING_SNAKE_CASE = num_hidden_layers _SCREAMING_SNAKE_CASE = num_attention_heads _SCREAMING_SNAKE_CASE = hidden_act _SCREAMING_SNAKE_CASE = intermediate_size _SCREAMING_SNAKE_CASE = hidden_dropout_prob _SCREAMING_SNAKE_CASE = attention_probs_dropout_prob _SCREAMING_SNAKE_CASE = max_position_embeddings _SCREAMING_SNAKE_CASE = type_vocab_size _SCREAMING_SNAKE_CASE = initializer_range _SCREAMING_SNAKE_CASE = layer_norm_eps _SCREAMING_SNAKE_CASE = position_embedding_type _SCREAMING_SNAKE_CASE = use_cache _SCREAMING_SNAKE_CASE = classifier_dropout class __UpperCAmelCase (_UpperCAmelCase ): @property def UpperCamelCase ( self: Any ): '''simple docstring''' if self.task == "multiple-choice": _SCREAMING_SNAKE_CASE = {0: """batch""", 1: """choice""", 2: """sequence"""} else: _SCREAMING_SNAKE_CASE = {0: """batch""", 1: """sequence"""} return OrderedDict( [ ("""input_ids""", dynamic_axis), ("""attention_mask""", dynamic_axis), ] )	306	import os from shutil import copyfile from typing import List, Optional, Tuple from tokenizers import processors from ...tokenization_utils import AddedToken, BatchEncoding from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import is_sentencepiece_available, logging if is_sentencepiece_available(): from .tokenization_nllb import NllbTokenizer else: UpperCamelCase = None UpperCamelCase = logging.get_logger(__name__) UpperCamelCase = {'''vocab_file''': '''sentencepiece.bpe.model''', '''tokenizer_file''': '''tokenizer.json'''} UpperCamelCase = { '''vocab_file''': { '''facebook/nllb-200-distilled-600M''': ( '''https://huggingface.co/facebook/nllb-200-distilled-600M/resolve/main/sentencepiece.bpe.model''' ), }, '''tokenizer_file''': { '''facebook/nllb-200-distilled-600M''': ( '''https://huggingface.co/facebook/nllb-200-distilled-600M/resolve/main/tokenizer.json''' ), }, } UpperCamelCase = { '''facebook/nllb-large-en-ro''': 1_024, '''facebook/nllb-200-distilled-600M''': 1_024, } # fmt: off UpperCamelCase = ['''ace_Arab''', '''ace_Latn''', '''acm_Arab''', '''acq_Arab''', '''aeb_Arab''', '''afr_Latn''', '''ajp_Arab''', '''aka_Latn''', '''amh_Ethi''', '''apc_Arab''', '''arb_Arab''', '''ars_Arab''', '''ary_Arab''', '''arz_Arab''', '''asm_Beng''', '''ast_Latn''', '''awa_Deva''', '''ayr_Latn''', '''azb_Arab''', '''azj_Latn''', '''bak_Cyrl''', '''bam_Latn''', '''ban_Latn''', '''bel_Cyrl''', '''bem_Latn''', '''ben_Beng''', '''bho_Deva''', '''bjn_Arab''', '''bjn_Latn''', '''bod_Tibt''', '''bos_Latn''', '''bug_Latn''', '''bul_Cyrl''', '''cat_Latn''', '''ceb_Latn''', '''ces_Latn''', '''cjk_Latn''', '''ckb_Arab''', '''crh_Latn''', '''cym_Latn''', '''dan_Latn''', '''deu_Latn''', '''dik_Latn''', '''dyu_Latn''', '''dzo_Tibt''', '''ell_Grek''', '''eng_Latn''', '''epo_Latn''', '''est_Latn''', '''eus_Latn''', '''ewe_Latn''', '''fao_Latn''', '''pes_Arab''', '''fij_Latn''', '''fin_Latn''', '''fon_Latn''', '''fra_Latn''', '''fur_Latn''', '''fuv_Latn''', '''gla_Latn''', '''gle_Latn''', '''glg_Latn''', '''grn_Latn''', '''guj_Gujr''', '''hat_Latn''', '''hau_Latn''', '''heb_Hebr''', '''hin_Deva''', '''hne_Deva''', '''hrv_Latn''', '''hun_Latn''', '''hye_Armn''', '''ibo_Latn''', '''ilo_Latn''', '''ind_Latn''', '''isl_Latn''', '''ita_Latn''', '''jav_Latn''', '''jpn_Jpan''', '''kab_Latn''', '''kac_Latn''', '''kam_Latn''', '''kan_Knda''', '''kas_Arab''', '''kas_Deva''', '''kat_Geor''', '''knc_Arab''', '''knc_Latn''', '''kaz_Cyrl''', '''kbp_Latn''', '''kea_Latn''', '''khm_Khmr''', '''kik_Latn''', '''kin_Latn''', '''kir_Cyrl''', '''kmb_Latn''', '''kon_Latn''', '''kor_Hang''', '''kmr_Latn''', '''lao_Laoo''', '''lvs_Latn''', '''lij_Latn''', '''lim_Latn''', '''lin_Latn''', '''lit_Latn''', '''lmo_Latn''', '''ltg_Latn''', '''ltz_Latn''', '''lua_Latn''', '''lug_Latn''', '''luo_Latn''', '''lus_Latn''', '''mag_Deva''', '''mai_Deva''', '''mal_Mlym''', '''mar_Deva''', '''min_Latn''', '''mkd_Cyrl''', '''plt_Latn''', '''mlt_Latn''', '''mni_Beng''', '''khk_Cyrl''', '''mos_Latn''', '''mri_Latn''', '''zsm_Latn''', '''mya_Mymr''', '''nld_Latn''', '''nno_Latn''', '''nob_Latn''', '''npi_Deva''', '''nso_Latn''', '''nus_Latn''', '''nya_Latn''', '''oci_Latn''', '''gaz_Latn''', '''ory_Orya''', '''pag_Latn''', '''pan_Guru''', '''pap_Latn''', '''pol_Latn''', '''por_Latn''', '''prs_Arab''', '''pbt_Arab''', '''quy_Latn''', '''ron_Latn''', '''run_Latn''', '''rus_Cyrl''', '''sag_Latn''', '''san_Deva''', '''sat_Beng''', '''scn_Latn''', '''shn_Mymr''', '''sin_Sinh''', '''slk_Latn''', '''slv_Latn''', '''smo_Latn''', '''sna_Latn''', '''snd_Arab''', '''som_Latn''', '''sot_Latn''', '''spa_Latn''', '''als_Latn''', '''srd_Latn''', '''srp_Cyrl''', '''ssw_Latn''', '''sun_Latn''', '''swe_Latn''', '''swh_Latn''', '''szl_Latn''', '''tam_Taml''', '''tat_Cyrl''', '''tel_Telu''', '''tgk_Cyrl''', '''tgl_Latn''', '''tha_Thai''', '''tir_Ethi''', '''taq_Latn''', '''taq_Tfng''', '''tpi_Latn''', '''tsn_Latn''', '''tso_Latn''', '''tuk_Latn''', '''tum_Latn''', '''tur_Latn''', '''twi_Latn''', '''tzm_Tfng''', '''uig_Arab''', '''ukr_Cyrl''', '''umb_Latn''', '''urd_Arab''', '''uzn_Latn''', '''vec_Latn''', '''vie_Latn''', '''war_Latn''', '''wol_Latn''', '''xho_Latn''', '''ydd_Hebr''', '''yor_Latn''', '''yue_Hant''', '''zho_Hans''', '''zho_Hant''', '''zul_Latn'''] class __UpperCAmelCase (_UpperCAmelCase ): __snake_case : List[str] = VOCAB_FILES_NAMES __snake_case : List[str] = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES __snake_case : List[Any] = PRETRAINED_VOCAB_FILES_MAP __snake_case : Tuple = ["input_ids", "attention_mask"] __snake_case : Dict = NllbTokenizer __snake_case : List[int] = [] __snake_case : List[int] = [] def __init__( self: Tuple , UpperCAmelCase_: str=None , UpperCAmelCase_: List[str]=None , UpperCAmelCase_: Tuple="<s>" , UpperCAmelCase_: str="</s>" , UpperCAmelCase_: Union[str, Any]="</s>" , UpperCAmelCase_: int="<s>" , UpperCAmelCase_: Union[str, Any]="<unk>" , UpperCAmelCase_: Union[str, Any]="<pad>" , UpperCAmelCase_: str="<mask>" , UpperCAmelCase_: Union[str, Any]=None , UpperCAmelCase_: Optional[int]=None , UpperCAmelCase_: int=None , UpperCAmelCase_: str=False , UpperCAmelCase_: int , ): '''simple docstring''' _SCREAMING_SNAKE_CASE = AddedToken(UpperCAmelCase_ , lstrip=UpperCAmelCase_ , rstrip=UpperCAmelCase_ ) if isinstance(UpperCAmelCase_ , UpperCAmelCase_ ) else mask_token _SCREAMING_SNAKE_CASE = legacy_behaviour super().__init__( vocab_file=UpperCAmelCase_ , tokenizer_file=UpperCAmelCase_ , bos_token=UpperCAmelCase_ , eos_token=UpperCAmelCase_ , sep_token=UpperCAmelCase_ , cls_token=UpperCAmelCase_ , unk_token=UpperCAmelCase_ , pad_token=UpperCAmelCase_ , mask_token=UpperCAmelCase_ , src_lang=UpperCAmelCase_ , tgt_lang=UpperCAmelCase_ , additional_special_tokens=UpperCAmelCase_ , legacy_behaviour=UpperCAmelCase_ , UpperCAmelCase_ , ) _SCREAMING_SNAKE_CASE = vocab_file _SCREAMING_SNAKE_CASE = False if not self.vocab_file else True _SCREAMING_SNAKE_CASE = FAIRSEQ_LANGUAGE_CODES.copy() if additional_special_tokens is not None: # Only add those special tokens if they are not already there. _additional_special_tokens.extend( [t for t in additional_special_tokens if t not in _additional_special_tokens] ) self.add_special_tokens({"""additional_special_tokens""": _additional_special_tokens} ) _SCREAMING_SNAKE_CASE = { lang_code: self.convert_tokens_to_ids(UpperCAmelCase_ ) for lang_code in FAIRSEQ_LANGUAGE_CODES } _SCREAMING_SNAKE_CASE = src_lang if src_lang is not None else """eng_Latn""" _SCREAMING_SNAKE_CASE = self.convert_tokens_to_ids(self._src_lang ) _SCREAMING_SNAKE_CASE = tgt_lang self.set_src_lang_special_tokens(self._src_lang ) @property def UpperCamelCase ( self: int ): '''simple docstring''' return self._src_lang @src_lang.setter def UpperCamelCase ( self: int , UpperCAmelCase_: str ): '''simple docstring''' _SCREAMING_SNAKE_CASE = new_src_lang self.set_src_lang_special_tokens(self._src_lang ) def UpperCamelCase ( self: List[str] , UpperCAmelCase_: List[int] , UpperCAmelCase_: Optional[List[int]] = None ): '''simple docstring''' if token_ids_a is None: return self.prefix_tokens + token_ids_a + self.suffix_tokens # We don't expect to process pairs, but leave the pair logic for API consistency return self.prefix_tokens + token_ids_a + token_ids_a + self.suffix_tokens def UpperCamelCase ( self: Dict , UpperCAmelCase_: List[int] , UpperCAmelCase_: Optional[List[int]] = None ): '''simple docstring''' _SCREAMING_SNAKE_CASE = [self.sep_token_id] _SCREAMING_SNAKE_CASE = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) * [0] return len(cls + token_ids_a + sep + sep + token_ids_a + sep ) * [0] def UpperCamelCase ( self: Tuple , UpperCAmelCase_: List[str] , UpperCAmelCase_: str , UpperCAmelCase_: Optional[str] , UpperCAmelCase_: Optional[str] , UpperCAmelCase_: Any ): '''simple docstring''' if src_lang is None or tgt_lang is None: raise ValueError("""Translation requires a `src_lang` and a `tgt_lang` for this model""" ) _SCREAMING_SNAKE_CASE = src_lang _SCREAMING_SNAKE_CASE = self(UpperCAmelCase_ , add_special_tokens=UpperCAmelCase_ , return_tensors=UpperCAmelCase_ , UpperCAmelCase_ ) _SCREAMING_SNAKE_CASE = self.convert_tokens_to_ids(UpperCAmelCase_ ) _SCREAMING_SNAKE_CASE = tgt_lang_id return inputs def UpperCamelCase ( self: int , UpperCAmelCase_: List[str] , UpperCAmelCase_: str = "eng_Latn" , UpperCAmelCase_: Optional[List[str]] = None , UpperCAmelCase_: str = "fra_Latn" , UpperCAmelCase_: List[str] , ): '''simple docstring''' _SCREAMING_SNAKE_CASE = src_lang _SCREAMING_SNAKE_CASE = tgt_lang return super().prepare_seqaseq_batch(UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ ) def UpperCamelCase ( self: Any ): '''simple docstring''' return self.set_src_lang_special_tokens(self.src_lang ) def UpperCamelCase ( self: Optional[Any] ): '''simple docstring''' return self.set_tgt_lang_special_tokens(self.tgt_lang ) def UpperCamelCase ( self: Union[str, Any] , UpperCAmelCase_: List[str] ): '''simple docstring''' _SCREAMING_SNAKE_CASE = self.convert_tokens_to_ids(UpperCAmelCase_ ) if self.legacy_behaviour: _SCREAMING_SNAKE_CASE = [] _SCREAMING_SNAKE_CASE = [self.eos_token_id, self.cur_lang_code] else: _SCREAMING_SNAKE_CASE = [self.cur_lang_code] _SCREAMING_SNAKE_CASE = [self.eos_token_id] _SCREAMING_SNAKE_CASE = self.convert_ids_to_tokens(self.prefix_tokens ) _SCREAMING_SNAKE_CASE = self.convert_ids_to_tokens(self.suffix_tokens ) _SCREAMING_SNAKE_CASE = processors.TemplateProcessing( single=prefix_tokens_str + ["""$A"""] + suffix_tokens_str , pair=prefix_tokens_str + ["""$A""", """$B"""] + suffix_tokens_str , special_tokens=list(zip(prefix_tokens_str + suffix_tokens_str , self.prefix_tokens + self.suffix_tokens ) ) , ) def UpperCamelCase ( self: Optional[int] , UpperCAmelCase_: str ): '''simple docstring''' _SCREAMING_SNAKE_CASE = self.convert_tokens_to_ids(UpperCAmelCase_ ) if self.legacy_behaviour: _SCREAMING_SNAKE_CASE = [] _SCREAMING_SNAKE_CASE = [self.eos_token_id, self.cur_lang_code] else: _SCREAMING_SNAKE_CASE = [self.cur_lang_code] _SCREAMING_SNAKE_CASE = [self.eos_token_id] _SCREAMING_SNAKE_CASE = self.convert_ids_to_tokens(self.prefix_tokens ) _SCREAMING_SNAKE_CASE = self.convert_ids_to_tokens(self.suffix_tokens ) _SCREAMING_SNAKE_CASE = processors.TemplateProcessing( single=prefix_tokens_str + ["""$A"""] + suffix_tokens_str , pair=prefix_tokens_str + ["""$A""", """$B"""] + suffix_tokens_str , special_tokens=list(zip(prefix_tokens_str + suffix_tokens_str , self.prefix_tokens + self.suffix_tokens ) ) , ) def UpperCamelCase ( self: Tuple , UpperCAmelCase_: str , UpperCAmelCase_: Optional[str] = None ): '''simple docstring''' if not self.can_save_slow_tokenizer: raise ValueError( """Your fast tokenizer does not have the necessary information to save the vocabulary for a slow """ """tokenizer.""" ) if not os.path.isdir(UpperCAmelCase_ ): logger.error(F'Vocabulary path ({save_directory}) should be a directory.' ) return _SCREAMING_SNAKE_CASE = os.path.join( UpperCAmelCase_ , (filename_prefix + """-""" if filename_prefix else """""") + VOCAB_FILES_NAMES["""vocab_file"""] ) if os.path.abspath(self.vocab_file ) != os.path.abspath(UpperCAmelCase_ ): copyfile(self.vocab_file , UpperCAmelCase_ ) return (out_vocab_file,)	306	1
"""simple docstring""" from __future__ import annotations def __lowerCAmelCase (_UpperCamelCase , _UpperCamelCase ): __lowerCAmelCase : list[list[int]] = [] __lowerCAmelCase : list[int] = [] __lowerCAmelCase : Tuple = 0 __lowerCAmelCase : int = sum(_UpperCamelCase ) create_state_space_tree(_UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase ) return result def __lowerCAmelCase (_UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , ): if sum(_UpperCamelCase ) > max_sum or (remaining_nums_sum + sum(_UpperCamelCase )) < max_sum: return if sum(_UpperCamelCase ) == max_sum: result.append(_UpperCamelCase ) return for index in range(_UpperCamelCase , len(_UpperCamelCase ) ): create_state_space_tree( _UpperCamelCase , _UpperCamelCase , index + 1 , [path, nums[index]] , _UpperCamelCase , remaining_nums_sum - nums[index] , ) lowerCamelCase__ = [3, 34, 4, 12, 5, 2] lowerCamelCase__ = 9 lowerCamelCase__ = generate_sum_of_subsets_soln(nums, max_sum) print(result)	182	"""simple docstring""" import unittest from transformers import AlbertConfig, is_torch_available from transformers.models.auto import get_values from transformers.testing_utils import require_torch, slow, torch_device from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin, ids_tensor, random_attention_mask from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import ( MODEL_FOR_PRETRAINING_MAPPING, AlbertForMaskedLM, AlbertForMultipleChoice, AlbertForPreTraining, AlbertForQuestionAnswering, AlbertForSequenceClassification, AlbertForTokenClassification, AlbertModel, ) from transformers.models.albert.modeling_albert import ALBERT_PRETRAINED_MODEL_ARCHIVE_LIST class A__ : def __init__( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE=13 , _SCREAMING_SNAKE_CASE=7 , _SCREAMING_SNAKE_CASE=True , _SCREAMING_SNAKE_CASE=True , _SCREAMING_SNAKE_CASE=True , _SCREAMING_SNAKE_CASE=True , _SCREAMING_SNAKE_CASE=99 , _SCREAMING_SNAKE_CASE=16 , _SCREAMING_SNAKE_CASE=36 , _SCREAMING_SNAKE_CASE=6 , _SCREAMING_SNAKE_CASE=6 , _SCREAMING_SNAKE_CASE=6 , _SCREAMING_SNAKE_CASE=37 , _SCREAMING_SNAKE_CASE="gelu" , _SCREAMING_SNAKE_CASE=0.1 , _SCREAMING_SNAKE_CASE=0.1 , _SCREAMING_SNAKE_CASE=5_12 , _SCREAMING_SNAKE_CASE=16 , _SCREAMING_SNAKE_CASE=2 , _SCREAMING_SNAKE_CASE=0.02 , _SCREAMING_SNAKE_CASE=3 , _SCREAMING_SNAKE_CASE=4 , _SCREAMING_SNAKE_CASE=None , ): __lowerCAmelCase : List[str] = parent __lowerCAmelCase : Optional[int] = batch_size __lowerCAmelCase : List[Any] = seq_length __lowerCAmelCase : List[Any] = is_training __lowerCAmelCase : Tuple = use_input_mask __lowerCAmelCase : Tuple = use_token_type_ids __lowerCAmelCase : Optional[int] = use_labels __lowerCAmelCase : Tuple = vocab_size __lowerCAmelCase : List[Any] = embedding_size __lowerCAmelCase : List[Any] = hidden_size __lowerCAmelCase : Union[str, Any] = num_hidden_layers __lowerCAmelCase : int = num_hidden_groups __lowerCAmelCase : List[Any] = num_attention_heads __lowerCAmelCase : Dict = intermediate_size __lowerCAmelCase : List[str] = hidden_act __lowerCAmelCase : Optional[Any] = hidden_dropout_prob __lowerCAmelCase : List[Any] = attention_probs_dropout_prob __lowerCAmelCase : Any = max_position_embeddings __lowerCAmelCase : str = type_vocab_size __lowerCAmelCase : List[Any] = type_sequence_label_size __lowerCAmelCase : List[Any] = initializer_range __lowerCAmelCase : Tuple = num_labels __lowerCAmelCase : int = num_choices __lowerCAmelCase : Dict = scope def __lowerCamelCase ( self ): __lowerCAmelCase : Dict = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size ) __lowerCAmelCase : Union[str, Any] = None if self.use_input_mask: __lowerCAmelCase : List[Any] = random_attention_mask([self.batch_size, self.seq_length] ) __lowerCAmelCase : Any = None if self.use_token_type_ids: __lowerCAmelCase : List[str] = ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size ) __lowerCAmelCase : Optional[int] = None __lowerCAmelCase : Optional[Any] = None __lowerCAmelCase : Any = None if self.use_labels: __lowerCAmelCase : List[str] = ids_tensor([self.batch_size] , self.type_sequence_label_size ) __lowerCAmelCase : Optional[int] = ids_tensor([self.batch_size, self.seq_length] , self.num_labels ) __lowerCAmelCase : int = ids_tensor([self.batch_size] , self.num_choices ) __lowerCAmelCase : Any = self.get_config() return config, input_ids, token_type_ids, input_mask, sequence_labels, token_labels, choice_labels def __lowerCamelCase ( self ): return AlbertConfig( vocab_size=self.vocab_size , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , max_position_embeddings=self.max_position_embeddings , type_vocab_size=self.type_vocab_size , initializer_range=self.initializer_range , num_hidden_groups=self.num_hidden_groups , ) def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ): __lowerCAmelCase : List[str] = AlbertModel(config=_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() __lowerCAmelCase : Dict = model(_SCREAMING_SNAKE_CASE , attention_mask=_SCREAMING_SNAKE_CASE , token_type_ids=_SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Optional[Any] = model(_SCREAMING_SNAKE_CASE , token_type_ids=_SCREAMING_SNAKE_CASE ) __lowerCAmelCase : List[Any] = model(_SCREAMING_SNAKE_CASE ) self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) ) self.parent.assertEqual(result.pooler_output.shape , (self.batch_size, self.hidden_size) ) def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ): __lowerCAmelCase : str = AlbertForPreTraining(config=_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() __lowerCAmelCase : Any = model( _SCREAMING_SNAKE_CASE , attention_mask=_SCREAMING_SNAKE_CASE , token_type_ids=_SCREAMING_SNAKE_CASE , labels=_SCREAMING_SNAKE_CASE , sentence_order_label=_SCREAMING_SNAKE_CASE , ) self.parent.assertEqual(result.prediction_logits.shape , (self.batch_size, self.seq_length, self.vocab_size) ) self.parent.assertEqual(result.sop_logits.shape , (self.batch_size, config.num_labels) ) def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ): __lowerCAmelCase : Optional[int] = AlbertForMaskedLM(config=_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() __lowerCAmelCase : Any = model(_SCREAMING_SNAKE_CASE , attention_mask=_SCREAMING_SNAKE_CASE , token_type_ids=_SCREAMING_SNAKE_CASE , labels=_SCREAMING_SNAKE_CASE ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.seq_length, self.vocab_size) ) def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ): __lowerCAmelCase : Optional[int] = AlbertForQuestionAnswering(config=_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() __lowerCAmelCase : List[str] = model( _SCREAMING_SNAKE_CASE , attention_mask=_SCREAMING_SNAKE_CASE , token_type_ids=_SCREAMING_SNAKE_CASE , start_positions=_SCREAMING_SNAKE_CASE , end_positions=_SCREAMING_SNAKE_CASE , ) self.parent.assertEqual(result.start_logits.shape , (self.batch_size, self.seq_length) ) self.parent.assertEqual(result.end_logits.shape , (self.batch_size, self.seq_length) ) def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ): __lowerCAmelCase : Optional[int] = self.num_labels __lowerCAmelCase : str = AlbertForSequenceClassification(_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() __lowerCAmelCase : str = model(_SCREAMING_SNAKE_CASE , attention_mask=_SCREAMING_SNAKE_CASE , token_type_ids=_SCREAMING_SNAKE_CASE , labels=_SCREAMING_SNAKE_CASE ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_labels) ) def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ): __lowerCAmelCase : Optional[Any] = self.num_labels __lowerCAmelCase : List[str] = AlbertForTokenClassification(config=_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() __lowerCAmelCase : Dict = model(_SCREAMING_SNAKE_CASE , attention_mask=_SCREAMING_SNAKE_CASE , token_type_ids=_SCREAMING_SNAKE_CASE , labels=_SCREAMING_SNAKE_CASE ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.seq_length, self.num_labels) ) def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ): __lowerCAmelCase : str = self.num_choices __lowerCAmelCase : Dict = AlbertForMultipleChoice(config=_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() __lowerCAmelCase : Union[str, Any] = input_ids.unsqueeze(1 ).expand(-1 , self.num_choices , -1 ).contiguous() __lowerCAmelCase : Dict = token_type_ids.unsqueeze(1 ).expand(-1 , self.num_choices , -1 ).contiguous() __lowerCAmelCase : List[str] = input_mask.unsqueeze(1 ).expand(-1 , self.num_choices , -1 ).contiguous() __lowerCAmelCase : Dict = model( _SCREAMING_SNAKE_CASE , attention_mask=_SCREAMING_SNAKE_CASE , token_type_ids=_SCREAMING_SNAKE_CASE , labels=_SCREAMING_SNAKE_CASE , ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_choices) ) def __lowerCamelCase ( self ): __lowerCAmelCase : List[Any] = self.prepare_config_and_inputs() ( ( __lowerCAmelCase ) , ( __lowerCAmelCase ) , ( __lowerCAmelCase ) , ( __lowerCAmelCase ) , ( __lowerCAmelCase ) , ( __lowerCAmelCase ) , ( __lowerCAmelCase ) , ) : int = config_and_inputs __lowerCAmelCase : Tuple = {'input_ids': input_ids, 'token_type_ids': token_type_ids, 'attention_mask': input_mask} return config, inputs_dict @require_torch class A__ ( _lowerCamelCase , _lowerCamelCase , unittest.TestCase): A_ : List[str] = ( ( AlbertModel, AlbertForPreTraining, AlbertForMaskedLM, AlbertForMultipleChoice, AlbertForSequenceClassification, AlbertForTokenClassification, AlbertForQuestionAnswering, ) if is_torch_available() else () ) A_ : str = ( { 'feature-extraction': AlbertModel, 'fill-mask': AlbertForMaskedLM, 'question-answering': AlbertForQuestionAnswering, 'text-classification': AlbertForSequenceClassification, 'token-classification': AlbertForTokenClassification, 'zero-shot': AlbertForSequenceClassification, } if is_torch_available() else {} ) A_ : Union[str, Any] = True def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE=False ): __lowerCAmelCase : Optional[Any] = super()._prepare_for_class(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , return_labels=_SCREAMING_SNAKE_CASE ) if return_labels: if model_class in get_values(_SCREAMING_SNAKE_CASE ): __lowerCAmelCase : List[Any] = torch.zeros( (self.model_tester.batch_size, self.model_tester.seq_length) , dtype=torch.long , device=_SCREAMING_SNAKE_CASE ) __lowerCAmelCase : List[Any] = torch.zeros( self.model_tester.batch_size , dtype=torch.long , device=_SCREAMING_SNAKE_CASE ) return inputs_dict def __lowerCamelCase ( self ): __lowerCAmelCase : List[str] = AlbertModelTester(self ) __lowerCAmelCase : List[str] = ConfigTester(self , config_class=_SCREAMING_SNAKE_CASE , hidden_size=37 ) def __lowerCamelCase ( self ): self.config_tester.run_common_tests() def __lowerCamelCase ( self ): __lowerCAmelCase : Any = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(_SCREAMING_SNAKE_CASE ) def __lowerCamelCase ( self ): __lowerCAmelCase : Tuple = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_pretraining(_SCREAMING_SNAKE_CASE ) def __lowerCamelCase ( self ): __lowerCAmelCase : Tuple = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_masked_lm(_SCREAMING_SNAKE_CASE ) def __lowerCamelCase ( self ): __lowerCAmelCase : Optional[Any] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_multiple_choice(_SCREAMING_SNAKE_CASE ) def __lowerCamelCase ( self ): __lowerCAmelCase : List[Any] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_question_answering(_SCREAMING_SNAKE_CASE ) def __lowerCamelCase ( self ): __lowerCAmelCase : Dict = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_sequence_classification(_SCREAMING_SNAKE_CASE ) def __lowerCamelCase ( self ): __lowerCAmelCase : Optional[Any] = self.model_tester.prepare_config_and_inputs() for type in ["absolute", "relative_key", "relative_key_query"]: __lowerCAmelCase : Optional[Any] = type self.model_tester.create_and_check_model(*_SCREAMING_SNAKE_CASE ) @slow def __lowerCamelCase ( self ): for model_name in ALBERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: __lowerCAmelCase : Optional[int] = AlbertModel.from_pretrained(_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) @require_torch class A__ ( unittest.TestCase): @slow def __lowerCamelCase ( self ): __lowerCAmelCase : str = AlbertModel.from_pretrained('albert-base-v2' ) __lowerCAmelCase : List[str] = torch.tensor([[0, 3_45, 2_32, 3_28, 7_40, 1_40, 16_95, 69, 60_78, 15_88, 2]] ) __lowerCAmelCase : Optional[Any] = torch.tensor([[0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]] ) with torch.no_grad(): __lowerCAmelCase : Dict = model(_SCREAMING_SNAKE_CASE , attention_mask=_SCREAMING_SNAKE_CASE )[0] __lowerCAmelCase : Dict = torch.Size((1, 11, 7_68) ) self.assertEqual(output.shape , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : List[Any] = torch.tensor( [[[-0.6513, 1.5035, -0.2766], [-0.6515, 1.5046, -0.2780], [-0.6512, 1.5049, -0.2784]]] ) self.assertTrue(torch.allclose(output[:, 1:4, 1:4] , _SCREAMING_SNAKE_CASE , atol=1E-4 ) )	182	1
'''simple docstring''' from PIL import Image def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = (2_59 * (level + 2_55)) / (2_55 * (2_59 - level)) def contrast(lowerCAmelCase ) -> int: return int(1_28 + factor * (c - 1_28) ) return img.point(__lowerCamelCase ) if __name__ == "__main__": # Load image with Image.open('''image_data/lena.jpg''') as img: # Change contrast to 170 A__ : Dict =change_contrast(img, 1_70) cont_img.save('''image_data/lena_high_contrast.png''', format='''png''')	70	"""simple docstring""" def __UpperCAmelCase ( __lowerCamelCase , __lowerCamelCase ) -> List[Any]: print('''\nThe shortest path matrix using Floyd Warshall algorithm\n''' ) for i in range(__lowerCamelCase ): for j in range(__lowerCamelCase ): if dist[i][j] != float('''inf''' ): print(int(dist[i][j] ) , end='''\t''' ) else: print('''INF''' , end='''\t''' ) print() def __UpperCAmelCase ( __lowerCamelCase , __lowerCamelCase ) -> Optional[Any]: lowercase__ : str = [[float('''inf''' ) for _ in range(__lowerCamelCase )] for _ in range(__lowerCamelCase )] for i in range(__lowerCamelCase ): for j in range(__lowerCamelCase ): lowercase__ : List[str] = graph[i][j] # check vertex k against all other vertices (i, j) for k in range(__lowerCamelCase ): # looping through rows of graph array for i in range(__lowerCamelCase ): # looping through columns of graph array for j in range(__lowerCamelCase ): if ( dist[i][k] != float('''inf''' ) and dist[k][j] != float('''inf''' ) and dist[i][k] + dist[k][j] < dist[i][j] ): lowercase__ : str = dist[i][k] + dist[k][j] _print_dist(__lowerCamelCase , __lowerCamelCase ) return dist, v if __name__ == "__main__": lowerCAmelCase_ = int(input('Enter number of vertices: ')) lowerCAmelCase_ = int(input('Enter number of edges: ')) lowerCAmelCase_ = [[float('inf') for i in range(v)] for j in range(v)] for i in range(v): lowerCAmelCase_ = 0.0 # src and dst are indices that must be within the array size graph[e][v] # failure to follow this will result in an error for i in range(e): print('\nEdge ', i + 1) lowerCAmelCase_ = int(input('Enter source:')) lowerCAmelCase_ = int(input('Enter destination:')) lowerCAmelCase_ = float(input('Enter weight:')) lowerCAmelCase_ = weight floyd_warshall(graph, v) # Example Input # Enter number of vertices: 3 # Enter number of edges: 2 # # generated graph from vertex and edge inputs # [[inf, inf, inf], [inf, inf, inf], [inf, inf, inf]] # [[0.0, inf, inf], [inf, 0.0, inf], [inf, inf, 0.0]] # specify source, destination and weight for edge #1 # Edge 1 # Enter source:1 # Enter destination:2 # Enter weight:2 # specify source, destination and weight for edge #2 # Edge 2 # Enter source:2 # Enter destination:1 # Enter weight:1 # # Expected Output from the vertice, edge and src, dst, weight inputs!! # 0 INF INF # INF 0 2 # INF 1 0	16	0
import unittest import numpy as np import torch from diffusers import PNDMPipeline, PNDMScheduler, UNetaDModel from diffusers.utils.testing_utils import enable_full_determinism, require_torch, slow, torch_device enable_full_determinism() class __snake_case ( unittest.TestCase ): @property def __a ( self : Any ): """simple docstring""" torch.manual_seed(0 ) SCREAMING_SNAKE_CASE__ = UNetaDModel( block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=3 , out_channels=3 , down_block_types=("""DownBlock2D""", """AttnDownBlock2D""") , up_block_types=("""AttnUpBlock2D""", """UpBlock2D""") , ) return model def __a ( self : Dict ): """simple docstring""" SCREAMING_SNAKE_CASE__ = self.dummy_uncond_unet SCREAMING_SNAKE_CASE__ = PNDMScheduler() SCREAMING_SNAKE_CASE__ = PNDMPipeline(unet=_lowercase , scheduler=_lowercase ) pndm.to(_lowercase ) pndm.set_progress_bar_config(disable=_lowercase ) SCREAMING_SNAKE_CASE__ = torch.manual_seed(0 ) SCREAMING_SNAKE_CASE__ = pndm(generator=_lowercase , num_inference_steps=20 , output_type="""numpy""" ).images SCREAMING_SNAKE_CASE__ = torch.manual_seed(0 ) SCREAMING_SNAKE_CASE__ = pndm(generator=_lowercase , num_inference_steps=20 , output_type="""numpy""" , return_dict=_lowercase )[0] SCREAMING_SNAKE_CASE__ = image[0, -3:, -3:, -1] SCREAMING_SNAKE_CASE__ = image_from_tuple[0, -3:, -3:, -1] assert image.shape == (1, 32, 32, 3) SCREAMING_SNAKE_CASE__ = np.array([1.0, 1.0, 0.0, 1.0, 0.0, 1.0, 0.0, 0.0, 0.0] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2 assert np.abs(image_from_tuple_slice.flatten() - expected_slice ).max() < 1E-2 @slow @require_torch class __snake_case ( unittest.TestCase ): def __a ( self : Optional[Any] ): """simple docstring""" SCREAMING_SNAKE_CASE__ = """google/ddpm-cifar10-32""" SCREAMING_SNAKE_CASE__ = UNetaDModel.from_pretrained(_lowercase ) SCREAMING_SNAKE_CASE__ = PNDMScheduler() SCREAMING_SNAKE_CASE__ = PNDMPipeline(unet=_lowercase , scheduler=_lowercase ) pndm.to(_lowercase ) pndm.set_progress_bar_config(disable=_lowercase ) SCREAMING_SNAKE_CASE__ = torch.manual_seed(0 ) SCREAMING_SNAKE_CASE__ = pndm(generator=_lowercase , output_type="""numpy""" ).images SCREAMING_SNAKE_CASE__ = image[0, -3:, -3:, -1] assert image.shape == (1, 32, 32, 3) SCREAMING_SNAKE_CASE__ = np.array([0.15_64, 0.1_46_45, 0.14_06, 0.1_47_15, 0.1_24_25, 0.1_40_45, 0.1_31_15, 0.1_21_75, 0.1_25] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2	371	from __future__ import annotations __lowerCamelCase : Tuple = list[list[int]] # assigning initial values to the grid __lowerCamelCase : Matrix = [ [3, 0, 6, 5, 0, 8, 4, 0, 0], [5, 2, 0, 0, 0, 0, 0, 0, 0], [0, 8, 7, 0, 0, 0, 0, 3, 1], [0, 0, 3, 0, 1, 0, 0, 8, 0], [9, 0, 0, 8, 6, 3, 0, 0, 5], [0, 5, 0, 0, 9, 0, 6, 0, 0], [1, 3, 0, 0, 0, 0, 2, 5, 0], [0, 0, 0, 0, 0, 0, 0, 7, 4], [0, 0, 5, 2, 0, 6, 3, 0, 0], ] # a grid with no solution __lowerCamelCase : Matrix = [ [5, 0, 6, 5, 0, 8, 4, 0, 3], [5, 2, 0, 0, 0, 0, 0, 0, 2], [1, 8, 7, 0, 0, 0, 0, 3, 1], [0, 0, 3, 0, 1, 0, 0, 8, 0], [9, 0, 0, 8, 6, 3, 0, 0, 5], [0, 5, 0, 0, 9, 0, 6, 0, 0], [1, 3, 0, 0, 0, 0, 2, 5, 0], [0, 0, 0, 0, 0, 0, 0, 7, 4], [0, 0, 5, 2, 0, 6, 3, 0, 0], ] def __SCREAMING_SNAKE_CASE ( __UpperCamelCase : Matrix , __UpperCamelCase : int , __UpperCamelCase : int , __UpperCamelCase : int ) -> bool: """simple docstring""" for i in range(9 ): if grid[row][i] == n or grid[i][column] == n: return False for i in range(3 ): for j in range(3 ): if grid[(row - row % 3) + i][(column - column % 3) + j] == n: return False return True def __SCREAMING_SNAKE_CASE ( __UpperCamelCase : Matrix ) -> tuple[int, int] \| None: """simple docstring""" for i in range(9 ): for j in range(9 ): if grid[i][j] == 0: return i, j return None def __SCREAMING_SNAKE_CASE ( __UpperCamelCase : Matrix ) -> Matrix \| None: """simple docstring""" if location := find_empty_location(__UpperCamelCase ): SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ = location else: # If the location is ``None``, then the grid is solved. return grid for digit in range(1 , 10 ): if is_safe(__UpperCamelCase , __UpperCamelCase , __UpperCamelCase , __UpperCamelCase ): SCREAMING_SNAKE_CASE__ = digit if sudoku(__UpperCamelCase ) is not None: return grid SCREAMING_SNAKE_CASE__ = 0 return None def __SCREAMING_SNAKE_CASE ( __UpperCamelCase : Matrix ) -> None: """simple docstring""" for row in grid: for cell in row: print(__UpperCamelCase , end=""" """ ) print() if __name__ == "__main__": # make a copy of grid so that you can compare with the unmodified grid for example_grid in (initial_grid, no_solution): print('''\nExample grid:\n''' + '''=''' * 20) print_solution(example_grid) print('''\nExample grid solution:''') __lowerCamelCase : str = sudoku(example_grid) if solution is not None: print_solution(solution) else: print('''Cannot find a solution.''')	204	0
import inspect import re from hashlib import shaaaa from typing import Dict, List from .arrow import arrow from .audiofolder import audiofolder from .csv import csv from .imagefolder import imagefolder from .json import json from .pandas import pandas from .parquet import parquet from .sql import sql # noqa F401 from .text import text def __UpperCamelCase ( _A ): lowerCAmelCase_ = [] for line in lines: lowerCAmelCase_ = re.sub(r'''#.*''' , '''''' , _A ) # remove comments if line: filtered_lines.append(_A ) lowerCAmelCase_ = '''\n'''.join(_A ) # Make a hash from all this code lowerCAmelCase_ = full_str.encode('''utf-8''' ) return shaaaa(_A ).hexdigest() # get importable module names and hash for caching _A = { "csv": (csv.__name__, _hash_python_lines(inspect.getsource(csv).splitlines())), "json": (json.__name__, _hash_python_lines(inspect.getsource(json).splitlines())), "pandas": (pandas.__name__, _hash_python_lines(inspect.getsource(pandas).splitlines())), "parquet": (parquet.__name__, _hash_python_lines(inspect.getsource(parquet).splitlines())), "arrow": (arrow.__name__, _hash_python_lines(inspect.getsource(arrow).splitlines())), "text": (text.__name__, _hash_python_lines(inspect.getsource(text).splitlines())), "imagefolder": (imagefolder.__name__, _hash_python_lines(inspect.getsource(imagefolder).splitlines())), "audiofolder": (audiofolder.__name__, _hash_python_lines(inspect.getsource(audiofolder).splitlines())), } # Used to infer the module to use based on the data files extensions _A = { ".csv": ("csv", {}), ".tsv": ("csv", {"sep": "\t"}), ".json": ("json", {}), ".jsonl": ("json", {}), ".parquet": ("parquet", {}), ".arrow": ("arrow", {}), ".txt": ("text", {}), } _EXTENSION_TO_MODULE.update({ext: ('''imagefolder''', {}) for ext in imagefolder.ImageFolder.EXTENSIONS}) _EXTENSION_TO_MODULE.update({ext.upper(): ('''imagefolder''', {}) for ext in imagefolder.ImageFolder.EXTENSIONS}) _EXTENSION_TO_MODULE.update({ext: ('''audiofolder''', {}) for ext in audiofolder.AudioFolder.EXTENSIONS}) _EXTENSION_TO_MODULE.update({ext.upper(): ('''audiofolder''', {}) for ext in audiofolder.AudioFolder.EXTENSIONS}) _A = {"imagefolder", "audiofolder"} # Used to filter data files based on extensions given a module name _A = {} for _ext, (_module, _) in _EXTENSION_TO_MODULE.items(): _MODULE_TO_EXTENSIONS.setdefault(_module, []).append(_ext) _MODULE_TO_EXTENSIONS["imagefolder"].append('''.zip''') _MODULE_TO_EXTENSIONS["audiofolder"].append('''.zip''')	278	import os from typing import List, Optional, Union from ...tokenization_utils import PreTrainedTokenizer from ...tokenization_utils_base import AddedToken from ...utils import logging _lowerCamelCase : Optional[Any] = logging.get_logger(__name__) _lowerCamelCase : Dict = {"vocab_file": "vocab.txt"} _lowerCamelCase : List[str] = { "vocab_file": { "facebook/esm2_t6_8M_UR50D": "https://huggingface.co/facebook/esm2_t6_8M_UR50D/resolve/main/vocab.txt", "facebook/esm2_t12_35M_UR50D": "https://huggingface.co/facebook/esm2_t12_35M_UR50D/resolve/main/vocab.txt", }, } _lowerCamelCase : List[Any] = { "facebook/esm2_t6_8M_UR50D": 1_0_2_4, "facebook/esm2_t12_35M_UR50D": 1_0_2_4, } def a__ ( UpperCAmelCase : List[str] ) -> Any: with open(UpperCAmelCase , '''r''' ) as f: UpperCAmelCase : Dict = f.read().splitlines() return [l.strip() for l in lines] class __UpperCAmelCase ( lowerCamelCase__ ): UpperCamelCase = VOCAB_FILES_NAMES UpperCamelCase = PRETRAINED_VOCAB_FILES_MAP UpperCamelCase = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES UpperCamelCase = ["""input_ids""", """attention_mask"""] def __init__( self : Any, __A : Dict, __A : List[Any]="<unk>", __A : List[str]="<cls>", __A : Any="<pad>", __A : Union[str, Any]="<mask>", __A : int="<eos>", __A : Tuple, ): super().__init__(__A ) UpperCAmelCase : Tuple = load_vocab_file(__A ) UpperCAmelCase : List[Any] = dict(enumerate(self.all_tokens ) ) UpperCAmelCase : str = {tok: ind for ind, tok in enumerate(self.all_tokens )} UpperCAmelCase : Union[str, Any] = unk_token UpperCAmelCase : Optional[Any] = cls_token UpperCAmelCase : Optional[int] = pad_token UpperCAmelCase : Optional[int] = mask_token UpperCAmelCase : List[str] = eos_token UpperCAmelCase : Optional[Any] = self.all_tokens self._create_trie(self.unique_no_split_tokens ) def __magic_name__ ( self : Tuple, __A : int ): return self._id_to_token.get(__A, self.unk_token ) def __magic_name__ ( self : List[Any], __A : str ): return self._token_to_id.get(__A, self._token_to_id.get(self.unk_token ) ) def __magic_name__ ( self : Any, __A : Optional[Any], *__A : Union[str, Any] ): return text.split() def __magic_name__ ( self : Optional[int], __A : Dict=False ): return len(self._id_to_token ) def __magic_name__ ( self : int ): return {token: i for i, token in enumerate(self.all_tokens )} def __magic_name__ ( self : Tuple, __A : str ): return self._token_to_id.get(__A, self._token_to_id.get(self.unk_token ) ) def __magic_name__ ( self : Any, __A : int ): return self._id_to_token.get(__A, self.unk_token ) def __magic_name__ ( self : Union[str, Any], __A : List[int], __A : Optional[List[int]] = None ): UpperCAmelCase : Optional[int] = [self.cls_token_id] UpperCAmelCase : Optional[int] = [self.eos_token_id] # No sep token in ESM vocabulary if token_ids_a is None: if self.eos_token_id is None: return cls + token_ids_a else: return cls + token_ids_a + sep elif self.eos_token_id is None: raise ValueError('''Cannot tokenize multiple sequences when EOS token is not set!''' ) return cls + token_ids_a + sep + token_ids_a + sep # Multiple inputs always have an EOS token def __magic_name__ ( self : Any, __A : List, __A : Optional[List] = None, __A : bool = False ): if already_has_special_tokens: if token_ids_a is not None: raise ValueError( '''You should not supply a second sequence if the provided sequence of ''' '''ids is already formatted with special tokens for the model.''' ) return [1 if token in self.all_special_ids else 0 for token in token_ids_a] UpperCAmelCase : Dict = [1] + ([0] len(__A )) + [1] if token_ids_a is not None: mask += [0] * len(__A ) + [1] return mask def __magic_name__ ( self : Optional[int], __A : List[Any], __A : Dict ): UpperCAmelCase : Union[str, Any] = os.path.join(__A, (filename_prefix + '''-''' if filename_prefix else '''''') + '''vocab.txt''' ) with open(__A, '''w''' ) as f: f.write('''\n'''.join(self.all_tokens ) ) return (vocab_file,) @property def __magic_name__ ( self : Dict ): return self.get_vocab_size(with_added_tokens=__A ) def __magic_name__ ( self : Optional[int], __A : Union[List[str], List[AddedToken]], __A : bool = False ): return super()._add_tokens(__A, special_tokens=__A )	336	0
"""simple docstring""" from ..utils import DummyObject, requires_backends class _lowerCamelCase ( metaclass=_lowercase ): UpperCAmelCase_ = ["speech"] def __init__(self , __a , __a ) -> int: requires_backends(self , ["speech"] ) class _lowerCamelCase ( metaclass=_lowercase ): UpperCAmelCase_ = ["speech"] def __init__(self , __a , **__a ) -> List[Any]: requires_backends(self , ["speech"] )	357	"""simple docstring""" from collections import defaultdict from typing import Optional from ..image_utils import load_image from ..utils import ( add_end_docstrings, is_torch_available, logging, requires_backends, ) from .base import PIPELINE_INIT_ARGS, ChunkPipeline if is_torch_available(): import torch from ..models.auto.modeling_auto import MODEL_FOR_MASK_GENERATION_MAPPING lowerCAmelCase__ = logging.get_logger(__name__) @add_end_docstrings(_lowercase ) class _lowerCamelCase ( _lowercase ): def __init__(self , __a ) -> Optional[int]: super().__init__(__a ) requires_backends(self , "vision" ) requires_backends(self , "torch" ) if self.framework != "pt": raise ValueError(F"The {self.__class__} is only available in PyTorch." ) self.check_model_type(__a ) def snake_case_ (self , *__a ) -> List[Any]: UpperCamelCase = {} UpperCamelCase = {} UpperCamelCase = {} # preprocess args if "points_per_batch" in kwargs: UpperCamelCase = kwargs["points_per_batch"] if "points_per_crop" in kwargs: UpperCamelCase = kwargs["points_per_crop"] if "crops_n_layers" in kwargs: UpperCamelCase = kwargs["crops_n_layers"] if "crop_overlap_ratio" in kwargs: UpperCamelCase = kwargs["crop_overlap_ratio"] if "crop_n_points_downscale_factor" in kwargs: UpperCamelCase = kwargs["crop_n_points_downscale_factor"] # postprocess args if "pred_iou_thresh" in kwargs: UpperCamelCase = kwargs["pred_iou_thresh"] if "stability_score_offset" in kwargs: UpperCamelCase = kwargs["stability_score_offset"] if "mask_threshold" in kwargs: UpperCamelCase = kwargs["mask_threshold"] if "stability_score_thresh" in kwargs: UpperCamelCase = kwargs["stability_score_thresh"] if "crops_nms_thresh" in kwargs: UpperCamelCase = kwargs["crops_nms_thresh"] if "output_rle_mask" in kwargs: UpperCamelCase = kwargs["output_rle_mask"] if "output_bboxes_mask" in kwargs: UpperCamelCase = kwargs["output_bboxes_mask"] return preprocess_kwargs, forward_params, postprocess_kwargs def __call__(self , __a , __a , __a=None , __a=None , *__a ) -> str: return super().__call__(__a , __a , num_workers=__a , batch_size=__a , __a ) def snake_case_ (self , __a , __a=64 , __a = 0 , __a = 5_12 / 15_00 , __a = 32 , __a = 1 , ) -> List[str]: UpperCamelCase = load_image(__a ) UpperCamelCase = self.image_processor.size["longest_edge"] UpperCamelCase , UpperCamelCase , UpperCamelCase , UpperCamelCase = self.image_processor.generate_crop_boxes( __a , __a , __a , __a , __a , __a ) UpperCamelCase = self.image_processor(images=__a , return_tensors="pt" ) with self.device_placement(): if self.framework == "pt": UpperCamelCase = self.get_inference_context() with inference_context(): UpperCamelCase = self._ensure_tensor_on_device(__a , device=self.device ) UpperCamelCase = self.model.get_image_embeddings(model_inputs.pop("pixel_values" ) ) UpperCamelCase = image_embeddings UpperCamelCase = grid_points.shape[1] UpperCamelCase = points_per_batch if points_per_batch is not None else n_points if points_per_batch <= 0: raise ValueError( "Cannot have points_per_batch<=0. Must be >=1 to returned batched outputs. " "To return all points at once, set points_per_batch to None" ) for i in range(0 , __a , __a ): UpperCamelCase = grid_points[:, i : i + points_per_batch, :, :] UpperCamelCase = input_labels[:, i : i + points_per_batch] UpperCamelCase = i == n_points - points_per_batch yield { "input_points": batched_points, "input_labels": labels, "input_boxes": crop_boxes, "is_last": is_last, model_inputs, } def snake_case_ (self , __a , __a=0.88 , __a=0.95 , __a=0 , __a=1 , ) -> int: UpperCamelCase = model_inputs.pop("input_boxes" ) UpperCamelCase = model_inputs.pop("is_last" ) UpperCamelCase = model_inputs.pop("original_sizes" ).tolist() UpperCamelCase = model_inputs.pop("reshaped_input_sizes" ).tolist() UpperCamelCase = self.model(__a ) # post processing happens here in order to avoid CPU GPU copies of ALL the masks UpperCamelCase = model_outputs["pred_masks"] UpperCamelCase = self.image_processor.post_process_masks( __a , __a , __a , __a , binarize=__a ) UpperCamelCase = model_outputs["iou_scores"] UpperCamelCase , UpperCamelCase , UpperCamelCase = self.image_processor.filter_masks( masks[0] , iou_scores[0] , original_sizes[0] , input_boxes[0] , __a , __a , __a , __a , ) return { "masks": masks, "is_last": is_last, "boxes": boxes, "iou_scores": iou_scores, } def snake_case_ (self , __a , __a=False , __a=False , __a=0.7 , ) -> Optional[int]: UpperCamelCase = [] UpperCamelCase = [] UpperCamelCase = [] for model_output in model_outputs: all_scores.append(model_output.pop("iou_scores" ) ) all_masks.extend(model_output.pop("masks" ) ) all_boxes.append(model_output.pop("boxes" ) ) UpperCamelCase = torch.cat(__a ) UpperCamelCase = torch.cat(__a ) UpperCamelCase , UpperCamelCase , UpperCamelCase , UpperCamelCase = self.image_processor.post_process_for_mask_generation( __a , __a , __a , __a ) UpperCamelCase = defaultdict(__a ) for output in model_outputs: for k, v in output.items(): extra[k].append(__a ) UpperCamelCase = {} if output_rle_mask: UpperCamelCase = rle_mask if output_bboxes_mask: UpperCamelCase = bounding_boxes return {"masks": output_masks, "scores": iou_scores, optional, **extra}	244	0
import gc import unittest import numpy as np import torch from diffusers import DanceDiffusionPipeline, IPNDMScheduler, UNetaDModel from diffusers.utils import slow, torch_device from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu, skip_mps from ..pipeline_params import UNCONDITIONAL_AUDIO_GENERATION_BATCH_PARAMS, UNCONDITIONAL_AUDIO_GENERATION_PARAMS from ..test_pipelines_common import PipelineTesterMixin enable_full_determinism() class __lowerCAmelCase ( UpperCAmelCase__ , unittest.TestCase ): snake_case_ : Any = DanceDiffusionPipeline snake_case_ : Optional[int] = UNCONDITIONAL_AUDIO_GENERATION_PARAMS snake_case_ : Dict = PipelineTesterMixin.required_optional_params - { "callback", "latents", "callback_steps", "output_type", "num_images_per_prompt", } snake_case_ : Optional[Any] = UNCONDITIONAL_AUDIO_GENERATION_BATCH_PARAMS snake_case_ : Dict = False snake_case_ : Tuple = False def UpperCamelCase ( self : str ): """simple docstring""" torch.manual_seed(0 ) _UpperCAmelCase = UNetaDModel( block_out_channels=(32, 32, 64) , extra_in_channels=16 , sample_size=512 , sample_rate=16_000 , in_channels=2 , out_channels=2 , flip_sin_to_cos=snake_case__ , use_timestep_embedding=snake_case__ , time_embedding_type="fourier" , mid_block_type="UNetMidBlock1D" , down_block_types=("DownBlock1DNoSkip", "DownBlock1D", "AttnDownBlock1D") , up_block_types=("AttnUpBlock1D", "UpBlock1D", "UpBlock1DNoSkip") , ) _UpperCAmelCase = IPNDMScheduler() _UpperCAmelCase = { "unet": unet, "scheduler": scheduler, } return components def UpperCamelCase ( self : Dict , snake_case__ : Dict , snake_case__ : Tuple=0 ): """simple docstring""" if str(snake_case__ ).startswith("mps" ): _UpperCAmelCase = torch.manual_seed(snake_case__ ) else: _UpperCAmelCase = torch.Generator(device=snake_case__ ).manual_seed(snake_case__ ) _UpperCAmelCase = { "batch_size": 1, "generator": generator, "num_inference_steps": 4, } return inputs def UpperCamelCase ( self : Tuple ): """simple docstring""" _UpperCAmelCase = "cpu" # ensure determinism for the device-dependent torch.Generator _UpperCAmelCase = self.get_dummy_components() _UpperCAmelCase = DanceDiffusionPipeline(snake_case__ ) _UpperCAmelCase = pipe.to(snake_case__ ) pipe.set_progress_bar_config(disable=snake_case__ ) _UpperCAmelCase = self.get_dummy_inputs(snake_case__ ) _UpperCAmelCase = pipe(snake_case__ ) _UpperCAmelCase = output.audios _UpperCAmelCase = audio[0, -3:, -3:] assert audio.shape == (1, 2, components["unet"].sample_size) _UpperCAmelCase = np.array([-0.7_265, 1.0_000, -0.8_388, 0.1_175, 0.9_498, -1.0_000] ) assert np.abs(audio_slice.flatten() - expected_slice ).max() < 1e-2 @skip_mps def UpperCamelCase ( self : str ): """simple docstring""" return super().test_save_load_local() @skip_mps def UpperCamelCase ( self : str ): """simple docstring""" return super().test_dict_tuple_outputs_equivalent(expected_max_difference=3e-3 ) @skip_mps def UpperCamelCase ( self : List[str] ): """simple docstring""" return super().test_save_load_optional_components() @skip_mps def UpperCamelCase ( self : Optional[int] ): """simple docstring""" return super().test_attention_slicing_forward_pass() def UpperCamelCase ( self : List[Any] ): """simple docstring""" super().test_inference_batch_single_identical(expected_max_diff=3e-3 ) @slow @require_torch_gpu class __lowerCAmelCase ( unittest.TestCase ): def UpperCamelCase ( self : str ): """simple docstring""" super().tearDown() gc.collect() torch.cuda.empty_cache() def UpperCamelCase ( self : int ): """simple docstring""" _UpperCAmelCase = torch_device _UpperCAmelCase = DanceDiffusionPipeline.from_pretrained("harmonai/maestro-150k" ) _UpperCAmelCase = pipe.to(snake_case__ ) pipe.set_progress_bar_config(disable=snake_case__ ) _UpperCAmelCase = torch.manual_seed(0 ) _UpperCAmelCase = pipe(generator=snake_case__ , num_inference_steps=100 , audio_length_in_s=4.096 ) _UpperCAmelCase = output.audios _UpperCAmelCase = audio[0, -3:, -3:] assert audio.shape == (1, 2, pipe.unet.sample_size) _UpperCAmelCase = np.array([-0.0_192, -0.0_231, -0.0_318, -0.0_059, 0.0_002, -0.0_020] ) assert np.abs(audio_slice.flatten() - expected_slice ).max() < 1e-2 def UpperCamelCase ( self : Union[str, Any] ): """simple docstring""" _UpperCAmelCase = torch_device _UpperCAmelCase = DanceDiffusionPipeline.from_pretrained("harmonai/maestro-150k" , torch_dtype=torch.floataa ) _UpperCAmelCase = pipe.to(snake_case__ ) pipe.set_progress_bar_config(disable=snake_case__ ) _UpperCAmelCase = torch.manual_seed(0 ) _UpperCAmelCase = pipe(generator=snake_case__ , num_inference_steps=100 , audio_length_in_s=4.096 ) _UpperCAmelCase = output.audios _UpperCAmelCase = audio[0, -3:, -3:] assert audio.shape == (1, 2, pipe.unet.sample_size) _UpperCAmelCase = np.array([-0.0_367, -0.0_488, -0.0_771, -0.0_525, -0.0_444, -0.0_341] ) assert np.abs(audio_slice.flatten() - expected_slice ).max() < 1e-2	133	import importlib import os from dataclasses import dataclass from enum import Enum from typing import Any, Dict, Optional, Union import torch from ..utils import BaseOutput lowercase_ : str = 'scheduler_config.json' class __lowerCAmelCase ( UpperCAmelCase__ ): snake_case_ : List[str] = 1 snake_case_ : Tuple = 2 snake_case_ : List[Any] = 3 snake_case_ : Union[str, Any] = 4 snake_case_ : Optional[int] = 5 snake_case_ : str = 6 snake_case_ : Any = 7 snake_case_ : List[str] = 8 snake_case_ : Optional[Any] = 9 snake_case_ : Any = 10 snake_case_ : int = 11 snake_case_ : int = 12 snake_case_ : Union[str, Any] = 13 snake_case_ : int = 14 @dataclass class __lowerCAmelCase ( UpperCAmelCase__ ): snake_case_ : torch.FloatTensor class __lowerCAmelCase : snake_case_ : List[str] = SCHEDULER_CONFIG_NAME snake_case_ : Union[str, Any] = [] snake_case_ : str = True @classmethod def UpperCamelCase ( cls : List[str] , snake_case__ : Dict[str, Any] = None , snake_case__ : Optional[str] = None , snake_case__ : int=False , snake_case__ : Tuple , ): """simple docstring""" _UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = cls.load_config( pretrained_model_name_or_path=snake_case__ , subfolder=snake_case__ , return_unused_kwargs=snake_case__ , return_commit_hash=snake_case__ , snake_case__ , ) return cls.from_config(snake_case__ , return_unused_kwargs=snake_case__ , snake_case__ ) def UpperCamelCase ( self : List[str] , snake_case__ : Union[str, os.PathLike] , snake_case__ : bool = False , snake_case__ : List[Any] ): """simple docstring""" self.save_config(save_directory=snake_case__ , push_to_hub=snake_case__ , **snake_case__ ) @property def UpperCamelCase ( self : Optional[Any] ): """simple docstring""" return self._get_compatibles() @classmethod def UpperCamelCase ( cls : str ): """simple docstring""" _UpperCAmelCase = list(set([cls.__name__] + cls._compatibles ) ) _UpperCAmelCase = importlib.import_module(__name__.split("." )[0] ) _UpperCAmelCase = [ getattr(snake_case__ , snake_case__ ) for c in compatible_classes_str if hasattr(snake_case__ , snake_case__ ) ] return compatible_classes	133	1
import hashlib import unittest from transformers import MODEL_FOR_DEPTH_ESTIMATION_MAPPING, is_torch_available, is_vision_available from transformers.pipelines import DepthEstimationPipeline, pipeline from transformers.testing_utils import ( is_pipeline_test, nested_simplify, require_tf, require_timm, require_torch, require_vision, slow, ) from .test_pipelines_common import ANY if is_torch_available(): import torch if is_vision_available(): from PIL import Image else: class __SCREAMING_SNAKE_CASE : @staticmethod def UpperCamelCase__ ( _UpperCamelCase , *_UpperCamelCase ): """simple docstring""" pass def _UpperCamelCase ( UpperCamelCase_ : Image ) -> str: """simple docstring""" lowerCAmelCase__ = hashlib.mda(image.tobytes() ) return m.hexdigest() @is_pipeline_test @require_vision @require_timm @require_torch class __SCREAMING_SNAKE_CASE ( unittest.TestCase): _SCREAMING_SNAKE_CASE : List[Any] = MODEL_FOR_DEPTH_ESTIMATION_MAPPING def UpperCamelCase__ ( self , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase ): """simple docstring""" lowerCAmelCase__ = DepthEstimationPipeline(model=_UpperCamelCase , image_processor=_UpperCamelCase ) return depth_estimator, [ "./tests/fixtures/tests_samples/COCO/000000039769.png", "./tests/fixtures/tests_samples/COCO/000000039769.png", ] def UpperCamelCase__ ( self , _UpperCamelCase , _UpperCamelCase ): """simple docstring""" lowerCAmelCase__ = depth_estimator('./tests/fixtures/tests_samples/COCO/000000039769.png' ) self.assertEqual({'predicted_depth': ANY(torch.Tensor ), 'depth': ANY(Image.Image )} , _UpperCamelCase ) import datasets lowerCAmelCase__ = datasets.load_dataset('hf-internal-testing/fixtures_image_utils' , 'image' , split='test' ) lowerCAmelCase__ = depth_estimator( [ Image.open('./tests/fixtures/tests_samples/COCO/000000039769.png' ), 'http://images.cocodataset.org/val2017/000000039769.jpg', # RGBA dataset[0]['file'], # LA dataset[1]['file'], # L dataset[2]['file'], ] ) self.assertEqual( [ {'predicted_depth': ANY(torch.Tensor ), 'depth': ANY(Image.Image )}, {'predicted_depth': ANY(torch.Tensor ), 'depth': ANY(Image.Image )}, {'predicted_depth': ANY(torch.Tensor ), 'depth': ANY(Image.Image )}, {'predicted_depth': ANY(torch.Tensor ), 'depth': ANY(Image.Image )}, {'predicted_depth': ANY(torch.Tensor ), 'depth': ANY(Image.Image )}, ] , _UpperCamelCase , ) @require_tf @unittest.skip('Depth estimation is not implemented in TF' ) def UpperCamelCase__ ( self ): """simple docstring""" pass @slow @require_torch def UpperCamelCase__ ( self ): """simple docstring""" lowerCAmelCase__ = 'Intel/dpt-large' lowerCAmelCase__ = pipeline('depth-estimation' , model=_UpperCamelCase ) lowerCAmelCase__ = depth_estimator('http://images.cocodataset.org/val2017/000000039769.jpg' ) lowerCAmelCase__ = hashimage(outputs['depth'] ) # This seems flaky. # self.assertEqual(outputs["depth"], "1a39394e282e9f3b0741a90b9f108977") self.assertEqual(nested_simplify(outputs['predicted_depth'].max().item() ) , 29.3_04 ) self.assertEqual(nested_simplify(outputs['predicted_depth'].min().item() ) , 2.6_62 ) @require_torch def UpperCamelCase__ ( self ): """simple docstring""" # This is highly irregular to have no small tests. self.skipTest('There is not hf-internal-testing tiny model for either GLPN nor DPT' )	122	from typing import TYPE_CHECKING # rely on isort to merge the imports from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available __snake_case : Dict = {"""configuration_focalnet""": ["""FOCALNET_PRETRAINED_CONFIG_ARCHIVE_MAP""", """FocalNetConfig"""]} try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: __snake_case : str = [ """FOCALNET_PRETRAINED_MODEL_ARCHIVE_LIST""", """FocalNetForImageClassification""", """FocalNetForMaskedImageModeling""", """FocalNetBackbone""", """FocalNetModel""", """FocalNetPreTrainedModel""", ] if TYPE_CHECKING: from .configuration_focalnet import FOCALNET_PRETRAINED_CONFIG_ARCHIVE_MAP, FocalNetConfig try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_focalnet import ( FOCALNET_PRETRAINED_MODEL_ARCHIVE_LIST, FocalNetBackbone, FocalNetForImageClassification, FocalNetForMaskedImageModeling, FocalNetModel, FocalNetPreTrainedModel, ) else: import sys __snake_case : List[Any] = _LazyModule(__name__, globals()["""__file__"""], _import_structure, module_spec=__spec__)	122	1
import os def lowerCamelCase__ ( ): with open(os.path.dirname(_a) + "/p022_names.txt") as file: SCREAMING_SNAKE_CASE : List[str] = str(file.readlines()[0]) SCREAMING_SNAKE_CASE : List[Any] = names.replace("\"" , "").split(",") names.sort() SCREAMING_SNAKE_CASE : Dict = 0 SCREAMING_SNAKE_CASE : Dict = 0 for i, name in enumerate(_a): for letter in name: name_score += ord(_a) - 64 total_score += (i + 1) * name_score SCREAMING_SNAKE_CASE : str = 0 return total_score if __name__ == "__main__": print(solution())	76	import os def lowerCamelCase__ ( ): with open(os.path.dirname(_a) + "/p022_names.txt") as file: SCREAMING_SNAKE_CASE : List[str] = str(file.readlines()[0]) SCREAMING_SNAKE_CASE : List[Any] = names.replace("\"" , "").split(",") names.sort() SCREAMING_SNAKE_CASE : Dict = 0 SCREAMING_SNAKE_CASE : Dict = 0 for i, name in enumerate(_a): for letter in name: name_score += ord(_a) - 64 total_score += (i + 1) * name_score SCREAMING_SNAKE_CASE : str = 0 return total_score if __name__ == "__main__": print(solution())	76	1
"""simple docstring""" import re from flax.core.frozen_dict import freeze from flax.traverse_util import flatten_dict, unflatten_dict from jax.experimental import PartitionSpec as P # Sentinels UpperCamelCase : Tuple = object() # For specifying empty leaf dict `{}` UpperCamelCase : Optional[int] = object() def A ( snake_case :int , snake_case :Optional[int] ) -> Any: __UpperCamelCase = tuple((re.compile(x + '$' ) for x in qs) ) for i in range(len(snake_case ) - len(snake_case ) + 1 ): __UpperCamelCase = [x.match(snake_case ) for x, y in zip(snake_case , ks[i:] )] if matches and all(snake_case ): return True return False def A ( snake_case :Dict ) -> List[str]: def replace(snake_case :int , snake_case :List[Any] ): for rule, replacement in rules: if _match(snake_case , snake_case ): return replacement return val return replace def A ( ) -> Any: return [ # embeddings (("transformer", "wpe", "embedding"), P('mp' , snake_case )), (("transformer", "wte", "embedding"), P('mp' , snake_case )), # atention (("attention", "(q_proj\|k_proj\|v_proj)", "kernel"), P(snake_case , 'mp' )), (("attention", "out_proj", "kernel"), P('mp' , snake_case )), (("attention", "out_proj", "bias"), None), # mlp (("mlp", "c_fc", "kernel"), P(snake_case , 'mp' )), (("mlp", "c_fc", "bias"), P('mp' )), (("mlp", "c_proj", "kernel"), P('mp' , snake_case )), (("mlp", "c_proj", "bias"), None), # layer norms ((r"ln_\d+", "bias"), None), ((r"\d+", r"ln_\d+", "scale"), None), (("ln_f", "bias"), None), (("ln_f", "scale"), None), ] def A ( snake_case :Any ) -> Optional[Any]: __UpperCamelCase = _get_partition_rules() __UpperCamelCase = _replacement_rules(snake_case ) __UpperCamelCase = {k: _unmatched for k in flatten_dict(snake_case )} __UpperCamelCase = {k: replace(snake_case , snake_case ) for k, v in initd.items()} assert _unmatched not in result.values(), "Incomplete partition spec." return freeze(unflatten_dict(snake_case ) )	263	"""simple docstring""" from argparse import ArgumentParser from .add_new_model import AddNewModelCommand from .add_new_model_like import AddNewModelLikeCommand from .convert import ConvertCommand from .download import DownloadCommand from .env import EnvironmentCommand from .lfs import LfsCommands from .pt_to_tf import PTtoTFCommand from .run import RunCommand from .serving import ServeCommand from .user import UserCommands def A ( ) -> Union[str, Any]: __UpperCamelCase = ArgumentParser('Transformers CLI tool' , usage='transformers-cli <command> [<args>]' ) __UpperCamelCase = parser.add_subparsers(help='transformers-cli command helpers' ) # Register commands ConvertCommand.register_subcommand(snake_case ) DownloadCommand.register_subcommand(snake_case ) EnvironmentCommand.register_subcommand(snake_case ) RunCommand.register_subcommand(snake_case ) ServeCommand.register_subcommand(snake_case ) UserCommands.register_subcommand(snake_case ) AddNewModelCommand.register_subcommand(snake_case ) AddNewModelLikeCommand.register_subcommand(snake_case ) LfsCommands.register_subcommand(snake_case ) PTtoTFCommand.register_subcommand(snake_case ) # Let's go __UpperCamelCase = parser.parse_args() if not hasattr(snake_case , 'func' ): parser.print_help() exit(1 ) # Run __UpperCamelCase = args.func(snake_case ) service.run() if __name__ == "__main__": main()	263	1
import io import itertools import json from dataclasses import dataclass from typing import Optional import pyarrow as pa import pyarrow.json as paj import datasets from datasets.table import table_cast from datasets.utils.file_utils import readline UpperCAmelCase_ : str = datasets.utils.logging.get_logger(__name__) @dataclass class _SCREAMING_SNAKE_CASE ( datasets.BuilderConfig ): snake_case__ : Optional[datasets.Features] = None snake_case__ : str = "utf-8" snake_case__ : Optional[str] = None snake_case__ : Optional[str] = None snake_case__ : bool = True # deprecated snake_case__ : Optional[int] = None # deprecated snake_case__ : int = 1_0 << 2_0 # 10MB snake_case__ : Optional[bool] = None class _SCREAMING_SNAKE_CASE ( datasets.ArrowBasedBuilder ): snake_case__ : int = JsonConfig def _A ( self : List[Any] ): if self.config.block_size is not None: logger.warning("""The JSON loader parameter `block_size` is deprecated. Please use `chunksize` instead""" ) UpperCamelCase :Union[str, Any] = self.config.block_size if self.config.use_threads is not True: logger.warning( """The JSON loader parameter `use_threads` is deprecated and doesn't have any effect anymore.""" ) if self.config.newlines_in_values is not None: raise ValueError("""The JSON loader parameter `newlines_in_values` is no longer supported""" ) return datasets.DatasetInfo(features=self.config.features ) def _A ( self : int , __lowerCamelCase : Tuple ): if not self.config.data_files: raise ValueError(F"""At least one data file must be specified, but got data_files={self.config.data_files}""" ) UpperCamelCase :List[Any] = dl_manager.download_and_extract(self.config.data_files ) if isinstance(__lowerCamelCase , (str, list, tuple) ): UpperCamelCase :Optional[int] = data_files if isinstance(__lowerCamelCase , __lowerCamelCase ): UpperCamelCase :Optional[int] = [files] UpperCamelCase :Optional[Any] = [dl_manager.iter_files(__lowerCamelCase ) for file in files] return [datasets.SplitGenerator(name=datasets.Split.TRAIN , gen_kwargs={"""files""": files} )] UpperCamelCase :Tuple = [] for split_name, files in data_files.items(): if isinstance(__lowerCamelCase , __lowerCamelCase ): UpperCamelCase :Dict = [files] UpperCamelCase :List[Any] = [dl_manager.iter_files(__lowerCamelCase ) for file in files] splits.append(datasets.SplitGenerator(name=__lowerCamelCase , gen_kwargs={"""files""": files} ) ) return splits def _A ( self : List[str] , __lowerCamelCase : pa.Table ): if self.config.features is not None: # adding missing columns for column_name in set(self.config.features ) - set(pa_table.column_names ): UpperCamelCase :List[str] = self.config.features.arrow_schema.field(__lowerCamelCase ).type UpperCamelCase :Union[str, Any] = pa_table.append_column(__lowerCamelCase , pa.array([None] * len(__lowerCamelCase ) , type=__lowerCamelCase ) ) # more expensive cast to support nested structures with keys in a different order # allows str <-> int/float or str to Audio for example UpperCamelCase :Any = table_cast(__lowerCamelCase , self.config.features.arrow_schema ) return pa_table def _A ( self : Tuple , __lowerCamelCase : int ): for file_idx, file in enumerate(itertools.chain.from_iterable(__lowerCamelCase ) ): # If the file is one json object and if we need to look at the list of items in one specific field if self.config.field is not None: with open(__lowerCamelCase , encoding=self.config.encoding , errors=self.config.encoding_errors ) as f: UpperCamelCase :Dict = json.load(__lowerCamelCase ) # We keep only the field we are interested in UpperCamelCase :int = dataset[self.config.field] # We accept two format: a list of dicts or a dict of lists if isinstance(__lowerCamelCase , (list, tuple) ): UpperCamelCase :Optional[int] = set().union([row.keys() for row in dataset] ) UpperCamelCase :Any = {col: [row.get(__lowerCamelCase ) for row in dataset] for col in keys} else: UpperCamelCase :Optional[int] = dataset UpperCamelCase :Optional[Any] = pa.Table.from_pydict(__lowerCamelCase ) yield file_idx, self._cast_table(__lowerCamelCase ) # If the file has one json object per line else: with open(__lowerCamelCase , """rb""" ) as f: UpperCamelCase :List[str] = 0 # Use block_size equal to the chunk size divided by 32 to leverage multithreading # Set a default minimum value of 16kB if the chunk size is really small UpperCamelCase :str = max(self.config.chunksize // 32 , 16 << 10 ) UpperCamelCase :Optional[int] = ( self.config.encoding_errors if self.config.encoding_errors is not None else """strict""" ) while True: UpperCamelCase :int = f.read(self.config.chunksize ) if not batch: break # Finish current line try: batch += f.readline() except (AttributeError, io.UnsupportedOperation): batch += readline(__lowerCamelCase ) # PyArrow only accepts utf-8 encoded bytes if self.config.encoding != "utf-8": UpperCamelCase :List[str] = batch.decode(self.config.encoding , errors=__lowerCamelCase ).encode("""utf-8""" ) try: while True: try: UpperCamelCase :int = paj.read_json( io.BytesIO(__lowerCamelCase ) , read_options=paj.ReadOptions(block_size=__lowerCamelCase ) ) break except (pa.ArrowInvalid, pa.ArrowNotImplementedError) as e: if ( isinstance(__lowerCamelCase , pa.ArrowInvalid ) and "straddling" not in str(__lowerCamelCase ) or block_size > len(__lowerCamelCase ) ): raise else: # Increase the block size in case it was too small. # The block size will be reset for the next file. logger.debug( F"""Batch of {len(__lowerCamelCase )} bytes couldn't be parsed with block_size={block_size}. Retrying with block_size={block_size 2}.""" ) block_size = 2 except pa.ArrowInvalid as e: try: with open( __lowerCamelCase , encoding=self.config.encoding , errors=self.config.encoding_errors ) as f: UpperCamelCase :Optional[Any] = json.load(__lowerCamelCase ) except json.JSONDecodeError: logger.error(F"""Failed to read file '{file}' with error {type(__lowerCamelCase )}: {e}""" ) raise e # If possible, parse the file as a list of json objects and exit the loop if isinstance(__lowerCamelCase , __lowerCamelCase ): # list is the only sequence type supported in JSON try: UpperCamelCase :Tuple = set().union([row.keys() for row in dataset] ) UpperCamelCase :Dict = {col: [row.get(__lowerCamelCase ) for row in dataset] for col in keys} UpperCamelCase :Any = pa.Table.from_pydict(__lowerCamelCase ) except (pa.ArrowInvalid, AttributeError) as e: logger.error(F"""Failed to read file '{file}' with error {type(__lowerCamelCase )}: {e}""" ) raise ValueError(F"""Not able to read records in the JSON file at {file}.""" ) from None yield file_idx, self._cast_table(__lowerCamelCase ) break else: logger.error(F"""Failed to read file '{file}' with error {type(__lowerCamelCase )}: {e}""" ) raise ValueError( F"""Not able to read records in the JSON file at {file}. """ F"""You should probably indicate the field of the JSON file containing your records. """ F"""This JSON file contain the following fields: {str(list(dataset.keys() ) )}. """ F"""Select the correct one and provide it as `field='XXX'` to the dataset loading method. """ ) from None # Uncomment for debugging (will print the Arrow table size and elements) # logger.warning(f"pa_table: {pa_table} num rows: {pa_table.num_rows}") # logger.warning('\n'.join(str(pa_table.slice(i, 1).to_pydict()) for i in range(pa_table.num_rows))) yield (file_idx, batch_idx), self._cast_table(__lowerCamelCase ) batch_idx += 1	38	"""simple docstring""" def __lowerCAmelCase ( ) -> Union[str, Any]: """simple docstring""" snake_case : Dict = [] snake_case : List[Any] = 1 while len(lowercase ) < 1e6: constant.append(str(lowercase ) ) i += 1 snake_case : Tuple = "".join(lowercase ) return ( int(constant[0] ) * int(constant[9] ) * int(constant[99] ) * int(constant[999] ) * int(constant[9999] ) * int(constant[9_9999] ) * int(constant[99_9999] ) ) if __name__ == "__main__": print(solution())	203	0
"""simple docstring""" import json from typing import List, Optional, Tuple from tokenizers import normalizers from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_mobilebert import MobileBertTokenizer lowerCamelCase__ = logging.get_logger(__name__) lowerCamelCase__ = {"""vocab_file""": """vocab.txt""", """tokenizer_file""": """tokenizer.json"""} lowerCamelCase__ = { """vocab_file""": {"""mobilebert-uncased""": """https://huggingface.co/google/mobilebert-uncased/resolve/main/vocab.txt"""}, """tokenizer_file""": { """mobilebert-uncased""": """https://huggingface.co/google/mobilebert-uncased/resolve/main/tokenizer.json""" }, } lowerCamelCase__ = {"""mobilebert-uncased""": 512} lowerCamelCase__ = {} class A__ ( _UpperCAmelCase): A_ : Any = VOCAB_FILES_NAMES A_ : int = PRETRAINED_VOCAB_FILES_MAP A_ : Dict = PRETRAINED_INIT_CONFIGURATION A_ : Tuple = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES A_ : Dict = MobileBertTokenizer def __init__( self , _SCREAMING_SNAKE_CASE=None , _SCREAMING_SNAKE_CASE=None , _SCREAMING_SNAKE_CASE=True , _SCREAMING_SNAKE_CASE="[UNK]" , _SCREAMING_SNAKE_CASE="[SEP]" , _SCREAMING_SNAKE_CASE="[PAD]" , _SCREAMING_SNAKE_CASE="[CLS]" , _SCREAMING_SNAKE_CASE="[MASK]" , _SCREAMING_SNAKE_CASE=True , _SCREAMING_SNAKE_CASE=None , _SCREAMING_SNAKE_CASE , ): super().__init__( _UpperCAmelCase , tokenizer_file=_UpperCAmelCase , do_lower_case=_UpperCAmelCase , unk_token=_UpperCAmelCase , sep_token=_UpperCAmelCase , pad_token=_UpperCAmelCase , cls_token=_UpperCAmelCase , mask_token=_UpperCAmelCase , tokenize_chinese_chars=_UpperCAmelCase , strip_accents=_UpperCAmelCase , _UpperCAmelCase , ) __lowerCAmelCase : Optional[Any] = json.loads(self.backend_tokenizer.normalizer.__getstate__() ) if ( normalizer_state.get('lowercase' , _UpperCAmelCase ) != do_lower_case or normalizer_state.get('strip_accents' , _UpperCAmelCase ) != strip_accents or normalizer_state.get('handle_chinese_chars' , _UpperCAmelCase ) != tokenize_chinese_chars ): __lowerCAmelCase : Optional[Any] = getattr(_UpperCAmelCase , normalizer_state.pop('type' ) ) __lowerCAmelCase : Any = do_lower_case __lowerCAmelCase : List[Any] = strip_accents __lowerCAmelCase : List[Any] = tokenize_chinese_chars __lowerCAmelCase : Tuple = normalizer_class(*_UpperCAmelCase ) __lowerCAmelCase : Dict = do_lower_case def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE=None ): __lowerCAmelCase : Any = [self.cls_token_id] + token_ids_a + [self.sep_token_id] if token_ids_a: output += token_ids_a + [self.sep_token_id] return output def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE = None ): __lowerCAmelCase : Union[str, Any] = [self.sep_token_id] __lowerCAmelCase : Optional[int] = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) [0] return len(cls + token_ids_a + sep ) * [0] + len(token_ids_a + sep ) * [1] def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE = None ): __lowerCAmelCase : Optional[Any] = self._tokenizer.model.save(_UpperCAmelCase , name=_UpperCAmelCase ) return tuple(_UpperCAmelCase )	352	"""simple docstring""" from __future__ import annotations def __lowerCAmelCase (_UpperCamelCase ): __lowerCAmelCase : List[str] = str(_UpperCamelCase ) return len(_UpperCamelCase ) == 9 and set(_UpperCamelCase ) == set('123456789' ) def __lowerCAmelCase (): for base_num in range(9999 , 4999 , -1 ): __lowerCAmelCase : Union[str, Any] = 10_0002 * base_num if is_9_pandigital(_UpperCamelCase ): return candidate for base_num in range(333 , 99 , -1 ): __lowerCAmelCase : Dict = 100_2003 * base_num if is_9_pandigital(_UpperCamelCase ): return candidate return None if __name__ == "__main__": print(f'{solution() = }')	182	0
'''simple docstring''' import unittest from diffusers import FlaxAutoencoderKL from diffusers.utils import is_flax_available from diffusers.utils.testing_utils import require_flax from .test_modeling_common_flax import FlaxModelTesterMixin if is_flax_available(): import jax @require_flax class __magic_name__ ( _UpperCamelCase , unittest.TestCase ): lowerCAmelCase : Optional[int] = FlaxAutoencoderKL @property def __lowercase ( self : str ): _a : Dict = 4 _a : Dict = 3 _a : str = (32, 32) _a : Tuple = jax.random.PRNGKey(0 ) _a : List[str] = jax.random.uniform(_UpperCAmelCase ,((batch_size, num_channels) + sizes) ) return {"sample": image, "prng_key": prng_key} def __lowercase ( self : Tuple ): _a : Any = { 'block_out_channels': [32, 64], 'in_channels': 3, 'out_channels': 3, 'down_block_types': ['DownEncoderBlock2D', 'DownEncoderBlock2D'], 'up_block_types': ['UpDecoderBlock2D', 'UpDecoderBlock2D'], 'latent_channels': 4, } _a : Any = self.dummy_input return init_dict, inputs_dict	89	'''simple docstring''' from typing import Dict, List from nltk.translate import gleu_score import datasets from datasets import MetricInfo lowerCamelCase__ = '\\n@misc{wu2016googles,\n title={Google\'s Neural Machine Translation System: Bridging the Gap between Human and Machine Translation},\n author={Yonghui Wu and Mike Schuster and Zhifeng Chen and Quoc V. Le and Mohammad Norouzi and Wolfgang Macherey\n and Maxim Krikun and Yuan Cao and Qin Gao and Klaus Macherey and Jeff Klingner and Apurva Shah and Melvin\n Johnson and Xiaobing Liu and Łukasz Kaiser and Stephan Gouws and Yoshikiyo Kato and Taku Kudo and Hideto\n Kazawa and Keith Stevens and George Kurian and Nishant Patil and Wei Wang and Cliff Young and\n Jason Smith and Jason Riesa and Alex Rudnick and Oriol Vinyals and Greg Corrado and Macduff Hughes\n and Jeffrey Dean},\n year={2016},\n eprint={1609.08144},\n archivePrefix={arXiv},\n primaryClass={cs.CL}\n}\n' lowerCamelCase__ = '\\nThe BLEU score has some undesirable properties when used for single\nsentences, as it was designed to be a corpus measure. We therefore\nuse a slightly different score for our RL experiments which we call\nthe \'GLEU score\'. For the GLEU score, we record all sub-sequences of\n1, 2, 3 or 4 tokens in output and target sequence (n-grams). We then\ncompute a recall, which is the ratio of the number of matching n-grams\nto the number of total n-grams in the target (ground truth) sequence,\nand a precision, which is the ratio of the number of matching n-grams\nto the number of total n-grams in the generated output sequence. Then\nGLEU score is simply the minimum of recall and precision. This GLEU\nscore\'s range is always between 0 (no matches) and 1 (all match) and\nit is symmetrical when switching output and target. According to\nour experiments, GLEU score correlates quite well with the BLEU\nmetric on a corpus level but does not have its drawbacks for our per\nsentence reward objective.\n' lowerCamelCase__ = '\\nComputes corpus-level Google BLEU (GLEU) score of translated segments against one or more references.\nInstead of averaging the sentence level GLEU scores (i.e. macro-average precision), Wu et al. (2016) sum up the matching\ntokens and the max of hypothesis and reference tokens for each sentence, then compute using the aggregate values.\n\nArgs:\n predictions (list of str): list of translations to score.\n Each translation should be tokenized into a list of tokens.\n references (list of list of str): list of lists of references for each translation.\n Each reference should be tokenized into a list of tokens.\n min_len (int): The minimum order of n-gram this function should extract. Defaults to 1.\n max_len (int): The maximum order of n-gram this function should extract. Defaults to 4.\n\nReturns:\n \'google_bleu\': google_bleu score\n\nExamples:\n Example 1:\n >>> hyp1 = [\'It\', \'is\', \'a\', \'guide\', \'to\', \'action\', \'which\',\n ... \'ensures\', \'that\', \'the\', \'rubber\', \'duck\', \'always\',\n ... \'disobeys\', \'the\', \'commands\', \'of\', \'the\', \'cat\']\n >>> ref1a = [\'It\', \'is\', \'the\', \'guiding\', \'principle\', \'which\',\n ... \'guarantees\', \'the\', \'rubber\', \'duck\', \'forces\', \'never\',\n ... \'being\', \'under\', \'the\', \'command\', \'of\', \'the\', \'cat\']\n\n >>> hyp2 = [\'he\', \'read\', \'the\', \'book\', \'because\', \'he\', \'was\',\n ... \'interested\', \'in\', \'world\', \'history\']\n >>> ref2a = [\'he\', \'was\', \'interested\', \'in\', \'world\', \'history\',\n ... \'because\', \'he\', \'read\', \'the\', \'book\']\n\n >>> list_of_references = [[ref1a], [ref2a]]\n >>> hypotheses = [hyp1, hyp2]\n >>> google_bleu = datasets.load_metric("google_bleu")\n >>> results = google_bleu.compute(predictions=hypotheses, references=list_of_references)\n >>> print(round(results["google_bleu"], 2))\n 0.44\n\n Example 2:\n >>> hyp1 = [\'It\', \'is\', \'a\', \'guide\', \'to\', \'action\', \'which\',\n ... \'ensures\', \'that\', \'the\', \'rubber\', \'duck\', \'always\',\n ... \'disobeys\', \'the\', \'commands\', \'of\', \'the\', \'cat\']\n >>> ref1a = [\'It\', \'is\', \'the\', \'guiding\', \'principle\', \'which\',\n ... \'guarantees\', \'the\', \'rubber\', \'duck\', \'forces\', \'never\',\n ... \'being\', \'under\', \'the\', \'command\', \'of\', \'the\', \'cat\']\n >>> ref1b = [\'It\', \'is\', \'a\', \'guide\', \'to\', \'action\', \'that\',\n ... \'ensures\', \'that\', \'the\', \'rubber\', \'duck\', \'will\', \'never\',\n ... \'heed\', \'the\', \'cat\', \'commands\']\n >>> ref1c = [\'It\', \'is\', \'the\', \'practical\', \'guide\', \'for\', \'the\',\n ... \'rubber\', \'duck\', \'army\', \'never\', \'to\', \'heed\', \'the\', \'directions\',\n ... \'of\', \'the\', \'cat\']\n\n >>> hyp2 = [\'he\', \'read\', \'the\', \'book\', \'because\', \'he\', \'was\',\n ... \'interested\', \'in\', \'world\', \'history\']\n >>> ref2a = [\'he\', \'was\', \'interested\', \'in\', \'world\', \'history\',\n ... \'because\', \'he\', \'read\', \'the\', \'book\']\n\n >>> list_of_references = [[ref1a, ref1b, ref1c], [ref2a]]\n >>> hypotheses = [hyp1, hyp2]\n >>> google_bleu = datasets.load_metric("google_bleu")\n >>> results = google_bleu.compute(predictions=hypotheses, references=list_of_references)\n >>> print(round(results["google_bleu"], 2))\n 0.61\n\n Example 3:\n >>> hyp1 = [\'It\', \'is\', \'a\', \'guide\', \'to\', \'action\', \'which\',\n ... \'ensures\', \'that\', \'the\', \'rubber\', \'duck\', \'always\',\n ... \'disobeys\', \'the\', \'commands\', \'of\', \'the\', \'cat\']\n >>> ref1a = [\'It\', \'is\', \'the\', \'guiding\', \'principle\', \'which\',\n ... \'guarantees\', \'the\', \'rubber\', \'duck\', \'forces\', \'never\',\n ... \'being\', \'under\', \'the\', \'command\', \'of\', \'the\', \'cat\']\n >>> ref1b = [\'It\', \'is\', \'a\', \'guide\', \'to\', \'action\', \'that\',\n ... \'ensures\', \'that\', \'the\', \'rubber\', \'duck\', \'will\', \'never\',\n ... \'heed\', \'the\', \'cat\', \'commands\']\n >>> ref1c = [\'It\', \'is\', \'the\', \'practical\', \'guide\', \'for\', \'the\',\n ... \'rubber\', \'duck\', \'army\', \'never\', \'to\', \'heed\', \'the\', \'directions\',\n ... \'of\', \'the\', \'cat\']\n\n >>> hyp2 = [\'he\', \'read\', \'the\', \'book\', \'because\', \'he\', \'was\',\n ... \'interested\', \'in\', \'world\', \'history\']\n >>> ref2a = [\'he\', \'was\', \'interested\', \'in\', \'world\', \'history\',\n ... \'because\', \'he\', \'read\', \'the\', \'book\']\n\n >>> list_of_references = [[ref1a, ref1b, ref1c], [ref2a]]\n >>> hypotheses = [hyp1, hyp2]\n >>> google_bleu = datasets.load_metric("google_bleu")\n >>> results = google_bleu.compute(predictions=hypotheses, references=list_of_references, min_len=2)\n >>> print(round(results["google_bleu"], 2))\n 0.53\n\n Example 4:\n >>> hyp1 = [\'It\', \'is\', \'a\', \'guide\', \'to\', \'action\', \'which\',\n ... \'ensures\', \'that\', \'the\', \'rubber\', \'duck\', \'always\',\n ... \'disobeys\', \'the\', \'commands\', \'of\', \'the\', \'cat\']\n >>> ref1a = [\'It\', \'is\', \'the\', \'guiding\', \'principle\', \'which\',\n ... \'guarantees\', \'the\', \'rubber\', \'duck\', \'forces\', \'never\',\n ... \'being\', \'under\', \'the\', \'command\', \'of\', \'the\', \'cat\']\n >>> ref1b = [\'It\', \'is\', \'a\', \'guide\', \'to\', \'action\', \'that\',\n ... \'ensures\', \'that\', \'the\', \'rubber\', \'duck\', \'will\', \'never\',\n ... \'heed\', \'the\', \'cat\', \'commands\']\n >>> ref1c = [\'It\', \'is\', \'the\', \'practical\', \'guide\', \'for\', \'the\',\n ... \'rubber\', \'duck\', \'army\', \'never\', \'to\', \'heed\', \'the\', \'directions\',\n ... \'of\', \'the\', \'cat\']\n\n >>> hyp2 = [\'he\', \'read\', \'the\', \'book\', \'because\', \'he\', \'was\',\n ... \'interested\', \'in\', \'world\', \'history\']\n >>> ref2a = [\'he\', \'was\', \'interested\', \'in\', \'world\', \'history\',\n ... \'because\', \'he\', \'read\', \'the\', \'book\']\n\n >>> list_of_references = [[ref1a, ref1b, ref1c], [ref2a]]\n >>> hypotheses = [hyp1, hyp2]\n >>> google_bleu = datasets.load_metric("google_bleu")\n >>> results = google_bleu.compute(predictions=hypotheses,references=list_of_references, min_len=2, max_len=6)\n >>> print(round(results["google_bleu"], 2))\n 0.4\n' @datasets.utils.file_utils.add_start_docstrings(_DESCRIPTION , _KWARGS_DESCRIPTION ) class lowerCAmelCase__ ( datasets.Metric ): def lowerCAmelCase__ ( self : int ) ->MetricInfo: '''simple docstring''' return datasets.MetricInfo( description=_DESCRIPTION , citation=_CITATION , inputs_description=_KWARGS_DESCRIPTION , features=datasets.Features( { "predictions": datasets.Sequence(datasets.Value("string" , id="token" ) , id="sequence" ), "references": datasets.Sequence( datasets.Sequence(datasets.Value("string" , id="token" ) , id="sequence" ) , id="references" ), } ) , ) def lowerCAmelCase__ ( self : Dict , lowerCamelCase__ : List[List[List[str]]] , lowerCamelCase__ : List[List[str]] , lowerCamelCase__ : int = 1 , lowerCamelCase__ : int = 4 , ) ->Dict[str, float]: '''simple docstring''' return { "google_bleu": gleu_score.corpus_gleu( list_of_references=lowerCamelCase__ , hypotheses=lowerCamelCase__ , min_len=lowerCamelCase__ , max_len=lowerCamelCase__ ) }	234	0
'''simple docstring''' import os import re import shutil import sys import tempfile import unittest import black lowerCamelCase__ = os.path.abspath(os.path.dirname(os.path.dirname(os.path.dirname(__file__)))) sys.path.append(os.path.join(git_repo_path, 'utils')) import check_copies # noqa: E402 # This is the reference code that will be used in the tests. # If BertLMPredictionHead is changed in modeling_bert.py, this code needs to be manually updated. lowerCamelCase__ = ' def __init__(self, config):\n super().__init__()\n self.transform = BertPredictionHeadTransform(config)\n\n # The output weights are the same as the input embeddings, but there is\n # an output-only bias for each token.\n self.decoder = nn.Linear(config.hidden_size, config.vocab_size, bias=False)\n\n self.bias = nn.Parameter(torch.zeros(config.vocab_size))\n\n # Need a link between the two variables so that the bias is correctly resized with `resize_token_embeddings`\n self.decoder.bias = self.bias\n\n def forward(self, hidden_states):\n hidden_states = self.transform(hidden_states)\n hidden_states = self.decoder(hidden_states)\n return hidden_states\n' class lowerCAmelCase__ ( unittest.TestCase ): def lowerCAmelCase__ ( self : Union[str, Any] ) ->Any: '''simple docstring''' _UpperCAmelCase : List[Any] = tempfile.mkdtemp() os.makedirs(os.path.join(self.transformer_dir , "models/bert/" ) ) _UpperCAmelCase : Optional[int] = self.transformer_dir shutil.copy( os.path.join(lowerCamelCase__ , "src/transformers/models/bert/modeling_bert.py" ) , os.path.join(self.transformer_dir , "models/bert/modeling_bert.py" ) , ) def lowerCAmelCase__ ( self : List[Any] ) ->int: '''simple docstring''' _UpperCAmelCase : Dict = "src/transformers" shutil.rmtree(self.transformer_dir ) def lowerCAmelCase__ ( self : List[Any] , lowerCamelCase__ : Optional[int] , lowerCamelCase__ : Dict , lowerCamelCase__ : List[str] , lowerCamelCase__ : List[str]=None ) ->List[str]: '''simple docstring''' _UpperCAmelCase : str = comment + F"""\nclass {class_name}(nn.Module):\n""" + class_code if overwrite_result is not None: _UpperCAmelCase : Optional[Any] = comment + F"""\nclass {class_name}(nn.Module):\n""" + overwrite_result _UpperCAmelCase : Tuple = black.Mode(target_versions={black.TargetVersion.PYaa} , line_length=1_19 ) _UpperCAmelCase : Optional[int] = black.format_str(lowerCamelCase__ , mode=lowerCamelCase__ ) _UpperCAmelCase : Union[str, Any] = os.path.join(self.transformer_dir , "new_code.py" ) with open(lowerCamelCase__ , "w" , newline="\n" ) as f: f.write(lowerCamelCase__ ) if overwrite_result is None: self.assertTrue(len(check_copies.is_copy_consistent(lowerCamelCase__ ) ) == 0 ) else: check_copies.is_copy_consistent(f.name , overwrite=lowerCamelCase__ ) with open(lowerCamelCase__ , "r" ) as f: self.assertTrue(f.read() , lowerCamelCase__ ) def lowerCAmelCase__ ( self : int ) ->List[Any]: '''simple docstring''' _UpperCAmelCase : Union[str, Any] = check_copies.find_code_in_transformers("models.bert.modeling_bert.BertLMPredictionHead" ) self.assertEqual(lowerCamelCase__ , lowerCamelCase__ ) def lowerCAmelCase__ ( self : Optional[Any] ) ->Optional[int]: '''simple docstring''' self.check_copy_consistency( "# Copied from transformers.models.bert.modeling_bert.BertLMPredictionHead" , "BertLMPredictionHead" , REFERENCE_CODE + "\n" , ) # With no empty line at the end self.check_copy_consistency( "# Copied from transformers.models.bert.modeling_bert.BertLMPredictionHead" , "BertLMPredictionHead" , lowerCamelCase__ , ) # Copy consistency with rename self.check_copy_consistency( "# Copied from transformers.models.bert.modeling_bert.BertLMPredictionHead with Bert->TestModel" , "TestModelLMPredictionHead" , re.sub("Bert" , "TestModel" , lowerCamelCase__ ) , ) # Copy consistency with a really long name _UpperCAmelCase : str = "TestModelWithAReallyLongNameBecauseSomePeopleLikeThatForSomeReason" self.check_copy_consistency( F"""# Copied from transformers.models.bert.modeling_bert.BertLMPredictionHead with Bert->{long_class_name}""" , F"""{long_class_name}LMPredictionHead""" , re.sub("Bert" , lowerCamelCase__ , lowerCamelCase__ ) , ) # Copy consistency with overwrite self.check_copy_consistency( "# Copied from transformers.models.bert.modeling_bert.BertLMPredictionHead with Bert->TestModel" , "TestModelLMPredictionHead" , lowerCamelCase__ , overwrite_result=re.sub("Bert" , "TestModel" , lowerCamelCase__ ) , ) def lowerCAmelCase__ ( self : Tuple ) ->List[Any]: '''simple docstring''' _UpperCAmelCase : int = check_copies.LOCALIZED_READMES["README_zh-hans.md"] _UpperCAmelCase : Dict = ( "1. [ALBERT](https://huggingface.co/transformers/model_doc/albert.html) (from Google Research and the" " Toyota Technological Institute at Chicago) released with the paper [ALBERT: A Lite BERT for" " Self-supervised Learning of Language Representations](https://arxiv.org/abs/1909.11942), by Zhenzhong" " Lan, Mingda Chen, Sebastian Goodman, Kevin Gimpel, Piyush Sharma, Radu Soricut.\n1." " [DistilBERT](https://huggingface.co/transformers/model_doc/distilbert.html) (from HuggingFace)," " released together with the paper [DistilBERT, a distilled version of BERT: smaller, faster, cheaper and" " lighter](https://arxiv.org/abs/1910.01108) by Victor Sanh, Lysandre Debut and Thomas Wolf. The same" " method has been applied to compress GPT2 into" " [DistilGPT2](https://github.com/huggingface/transformers/tree/main/examples/distillation), RoBERTa into" " [DistilRoBERTa](https://github.com/huggingface/transformers/tree/main/examples/distillation)," " Multilingual BERT into" " [DistilmBERT](https://github.com/huggingface/transformers/tree/main/examples/distillation) and a German" " version of DistilBERT.\n1. [ELECTRA](https://huggingface.co/transformers/model_doc/electra.html)" " (from Google Research/Stanford University) released with the paper [ELECTRA: Pre-training text encoders" " as discriminators rather than generators](https://arxiv.org/abs/2003.10555) by Kevin Clark, Minh-Thang" " Luong, Quoc V. Le, Christopher D. Manning." ) _UpperCAmelCase : Dict = ( "1. [ALBERT](https://huggingface.co/transformers/model_doc/albert.html) (来自 Google Research and the" " Toyota Technological Institute at Chicago) 伴随论文 [ALBERT: A Lite BERT for Self-supervised Learning of" " Language Representations](https://arxiv.org/abs/1909.11942), 由 Zhenzhong Lan, Mingda Chen, Sebastian" " Goodman, Kevin Gimpel, Piyush Sharma, Radu Soricut 发布。\n" ) _UpperCAmelCase : str = ( "1. [ALBERT](https://huggingface.co/transformers/model_doc/albert.html) (来自 Google Research and the" " Toyota Technological Institute at Chicago) 伴随论文 [ALBERT: A Lite BERT for Self-supervised Learning of" " Language Representations](https://arxiv.org/abs/1909.11942), 由 Zhenzhong Lan, Mingda Chen, Sebastian" " Goodman, Kevin Gimpel, Piyush Sharma, Radu Soricut 发布。\n1." " [DistilBERT](https://huggingface.co/transformers/model_doc/distilbert.html) (来自 HuggingFace) 伴随论文" " [DistilBERT, a distilled version of BERT: smaller, faster, cheaper and" " lighter](https://arxiv.org/abs/1910.01108) 由 Victor Sanh, Lysandre Debut and Thomas Wolf 发布。 The same" " method has been applied to compress GPT2 into" " [DistilGPT2](https://github.com/huggingface/transformers/tree/main/examples/distillation), RoBERTa into" " [DistilRoBERTa](https://github.com/huggingface/transformers/tree/main/examples/distillation)," " Multilingual BERT into" " [DistilmBERT](https://github.com/huggingface/transformers/tree/main/examples/distillation) and a German" " version of DistilBERT.\n1. [ELECTRA](https://huggingface.co/transformers/model_doc/electra.html) (来自" " Google Research/Stanford University) 伴随论文 [ELECTRA: Pre-training text encoders as discriminators rather" " than generators](https://arxiv.org/abs/2003.10555) 由 Kevin Clark, Minh-Thang Luong, Quoc V. Le," " Christopher D. Manning 发布。\n" ) _UpperCAmelCase , _UpperCAmelCase : Dict = check_copies.convert_to_localized_md( lowerCamelCase__ , lowerCamelCase__ , localized_readme["format_model_list"] ) self.assertFalse(lowerCamelCase__ ) self.assertEqual(lowerCamelCase__ , lowerCamelCase__ ) _UpperCAmelCase , _UpperCAmelCase : Union[str, Any] = check_copies.convert_to_localized_md( lowerCamelCase__ , lowerCamelCase__ , localized_readme["format_model_list"] ) # Check whether the number of models is equal to README.md after conversion. self.assertTrue(lowerCamelCase__ ) _UpperCAmelCase : Optional[Any] = ( "1. [ALBERT](https://huggingface.co/transformers/model_doc/albert.html) (from Google Research and the" " Toyota Technological Institute at Chicago) released with the paper [ALBERT: A Lite BERT for" " Self-supervised Learning of Language Representations](https://arxiv.org/abs/1909.11942), by Zhenzhong" " Lan, Mingda Chen, Sebastian Goodman, Kevin Gimpel, Piyush Sharma, Radu Soricut." ) _UpperCAmelCase : Tuple = ( "1. [ALBERT](https://huggingface.co/transformers/main/model_doc/albert.html) (来自 Google Research and" " the Toyota Technological Institute at Chicago) 伴随论文 [ALBERT: A Lite BERT for Self-supervised Learning of" " Language Representations](https://arxiv.org/abs/1909.11942), 由 Zhenzhong Lan, Mingda Chen, Sebastian" " Goodman, Kevin Gimpel, Piyush Sharma, Radu Soricut 发布。\n" ) _UpperCAmelCase : Optional[Any] = ( "1. [ALBERT](https://huggingface.co/transformers/model_doc/albert.html) (来自 Google Research and the" " Toyota Technological Institute at Chicago) 伴随论文 [ALBERT: A Lite BERT for Self-supervised Learning of" " Language Representations](https://arxiv.org/abs/1909.11942), 由 Zhenzhong Lan, Mingda Chen, Sebastian" " Goodman, Kevin Gimpel, Piyush Sharma, Radu Soricut 发布。\n" ) _UpperCAmelCase , _UpperCAmelCase : List[str] = check_copies.convert_to_localized_md( lowerCamelCase__ , lowerCamelCase__ , localized_readme["format_model_list"] ) # Check if the model link is synchronized. self.assertEqual(lowerCamelCase__ , lowerCamelCase__ )	322	'''simple docstring''' import pytest lowerCamelCase__ = '__dummy_dataset1__' lowerCamelCase__ = '\nimport json\nimport os\n\nimport datasets\n\n\nREPO_URL = "https://huggingface.co/datasets/albertvillanova/tests-raw-jsonl/resolve/main/"\nURLS = {"train": REPO_URL + "wikiann-bn-train.jsonl", "validation": REPO_URL + "wikiann-bn-validation.jsonl"}\n\n\nclass __DummyDataset1__(datasets.GeneratorBasedBuilder):\n\n def _info(self):\n features = datasets.Features(\n {\n "tokens": datasets.Sequence(datasets.Value("string")),\n "ner_tags": datasets.Sequence(\n datasets.features.ClassLabel(\n names=[\n "O",\n "B-PER",\n "I-PER",\n "B-ORG",\n "I-ORG",\n "B-LOC",\n "I-LOC",\n ]\n )\n ),\n "langs": datasets.Sequence(datasets.Value("string")),\n "spans": datasets.Sequence(datasets.Value("string")),\n }\n )\n return datasets.DatasetInfo(features=features)\n\n def _split_generators(self, dl_manager):\n dl_path = dl_manager.download(URLS)\n return [\n datasets.SplitGenerator(datasets.Split.TRAIN, gen_kwargs={"filepath": dl_path["train"]}),\n datasets.SplitGenerator(datasets.Split.VALIDATION, gen_kwargs={"filepath": dl_path["validation"]}),\n ]\n\n def _generate_examples(self, filepath):\n with open(filepath, "r", encoding="utf-8") as f:\n for i, line in enumerate(f):\n yield i, json.loads(line)\n' @pytest.fixture def __lowerCAmelCase (): return DATASET_LOADING_SCRIPT_NAME @pytest.fixture def __lowerCAmelCase (): return DATASET_LOADING_SCRIPT_CODE @pytest.fixture def __lowerCAmelCase (__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ): _UpperCAmelCase : Optional[Any] = dataset_loading_script_name _UpperCAmelCase : Any = tmp_path / "datasets" / script_name script_dir.mkdir(parents=__lowerCAmelCase ) _UpperCAmelCase : Optional[Any] = script_dir / F"""{script_name}.py""" with open(__lowerCAmelCase , "w" ) as f: f.write(__lowerCAmelCase ) return str(__lowerCAmelCase )	322	1
"""simple docstring""" from __future__ import annotations import unittest from transformers import BlenderbotConfig, BlenderbotTokenizer, is_tf_available from transformers.testing_utils import require_tf, require_tokenizers, slow from transformers.utils import cached_property from ...test_configuration_common import ConfigTester from ...test_modeling_tf_common import TFModelTesterMixin, ids_tensor from ...test_pipeline_mixin import PipelineTesterMixin if is_tf_available(): import tensorflow as tf from transformers import TFAutoModelForSeqaSeqLM, TFBlenderbotForConditionalGeneration, TFBlenderbotModel @require_tf class UpperCamelCase : SCREAMING_SNAKE_CASE_ = BlenderbotConfig SCREAMING_SNAKE_CASE_ = {} SCREAMING_SNAKE_CASE_ = "gelu" def __init__( self, lowerCAmelCase__, lowerCAmelCase__=13, lowerCAmelCase__=7, lowerCAmelCase__=True, lowerCAmelCase__=False, lowerCAmelCase__=99, lowerCAmelCase__=32, lowerCAmelCase__=2, lowerCAmelCase__=4, lowerCAmelCase__=37, lowerCAmelCase__=0.1, lowerCAmelCase__=0.1, lowerCAmelCase__=20, lowerCAmelCase__=2, lowerCAmelCase__=1, lowerCAmelCase__=0, ) -> Optional[int]: snake_case_ = parent snake_case_ = batch_size snake_case_ = seq_length snake_case_ = is_training snake_case_ = use_labels snake_case_ = vocab_size snake_case_ = hidden_size snake_case_ = num_hidden_layers snake_case_ = num_attention_heads snake_case_ = intermediate_size snake_case_ = hidden_dropout_prob snake_case_ = attention_probs_dropout_prob snake_case_ = max_position_embeddings snake_case_ = eos_token_id snake_case_ = pad_token_id snake_case_ = bos_token_id def a_ ( self) -> List[str]: snake_case_ = ids_tensor([self.batch_size, self.seq_length - 1], self.vocab_size) snake_case_ = tf.expand_dims(tf.constant([self.eos_token_id] * self.batch_size), 1) snake_case_ = tf.concat([input_ids, eos_tensor], axis=1) snake_case_ = ids_tensor([self.batch_size, self.seq_length], self.vocab_size) snake_case_ = self.config_cls( vocab_size=self.vocab_size, d_model=self.hidden_size, encoder_layers=self.num_hidden_layers, decoder_layers=self.num_hidden_layers, encoder_attention_heads=self.num_attention_heads, decoder_attention_heads=self.num_attention_heads, encoder_ffn_dim=self.intermediate_size, decoder_ffn_dim=self.intermediate_size, dropout=self.hidden_dropout_prob, attention_dropout=self.attention_probs_dropout_prob, max_position_embeddings=self.max_position_embeddings, eos_token_ids=[2], bos_token_id=self.bos_token_id, pad_token_id=self.pad_token_id, decoder_start_token_id=self.pad_token_id, *self.config_updates, ) snake_case_ = prepare_blenderbot_inputs_dict(lowerCAmelCase__, lowerCAmelCase__, lowerCAmelCase__) return config, inputs_dict def a_ ( self, lowerCAmelCase__, lowerCAmelCase__) -> Dict: snake_case_ = TFBlenderbotModel(config=lowerCAmelCase__).get_decoder() snake_case_ = inputs_dict['input_ids'] snake_case_ = input_ids[:1, :] snake_case_ = inputs_dict['attention_mask'][:1, :] snake_case_ = inputs_dict['head_mask'] snake_case_ = 1 # first forward pass snake_case_ = model(lowerCAmelCase__, attention_mask=lowerCAmelCase__, head_mask=lowerCAmelCase__, use_cache=lowerCAmelCase__) snake_case_ , snake_case_ = outputs.to_tuple() # create hypothetical next token and extent to next_input_ids snake_case_ = ids_tensor((self.batch_size, 3), config.vocab_size) snake_case_ = tf.cast(ids_tensor((self.batch_size, 3), 2), tf.inta) # append to next input_ids and snake_case_ = tf.concat([input_ids, next_tokens], axis=-1) snake_case_ = tf.concat([attention_mask, next_attn_mask], axis=-1) snake_case_ = model(lowerCAmelCase__, attention_mask=lowerCAmelCase__)[0] snake_case_ = model(lowerCAmelCase__, attention_mask=lowerCAmelCase__, past_key_values=lowerCAmelCase__)[0] self.parent.assertEqual(next_tokens.shape[1], output_from_past.shape[1]) # select random slice snake_case_ = int(ids_tensor((1,), output_from_past.shape[-1])) snake_case_ = output_from_no_past[:, -3:, random_slice_idx] snake_case_ = output_from_past[:, :, random_slice_idx] # test that outputs are equal for slice tf.debugging.assert_near(lowerCAmelCase__, lowerCAmelCase__, rtol=1e-3) def UpperCAmelCase ( UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase=None , ) -> Optional[Any]: if attention_mask is None: snake_case_ = tf.cast(tf.math.not_equal(UpperCAmelCase , config.pad_token_id ) , tf.inta ) if decoder_attention_mask is None: snake_case_ = tf.concat( [ tf.ones(decoder_input_ids[:, :1].shape , dtype=tf.inta ), tf.cast(tf.math.not_equal(decoder_input_ids[:, 1:] , config.pad_token_id ) , tf.inta ), ] , axis=-1 , ) if head_mask is None: snake_case_ = tf.ones((config.encoder_layers, config.encoder_attention_heads) ) if decoder_head_mask is None: snake_case_ = tf.ones((config.decoder_layers, config.decoder_attention_heads) ) if cross_attn_head_mask is None: snake_case_ = tf.ones((config.decoder_layers, config.decoder_attention_heads) ) return { "input_ids": input_ids, "decoder_input_ids": decoder_input_ids, "attention_mask": attention_mask, "decoder_attention_mask": decoder_attention_mask, "head_mask": head_mask, "decoder_head_mask": decoder_head_mask, "cross_attn_head_mask": cross_attn_head_mask, } @require_tf class UpperCamelCase ( lowerCAmelCase__ , lowerCAmelCase__ , unittest.TestCase ): SCREAMING_SNAKE_CASE_ = (TFBlenderbotForConditionalGeneration, TFBlenderbotModel) if is_tf_available() else () SCREAMING_SNAKE_CASE_ = (TFBlenderbotForConditionalGeneration,) if is_tf_available() else () SCREAMING_SNAKE_CASE_ = ( { "conversational": TFBlenderbotForConditionalGeneration, "feature-extraction": TFBlenderbotModel, "summarization": TFBlenderbotForConditionalGeneration, "text2text-generation": TFBlenderbotForConditionalGeneration, "translation": TFBlenderbotForConditionalGeneration, } if is_tf_available() else {} ) SCREAMING_SNAKE_CASE_ = True SCREAMING_SNAKE_CASE_ = False SCREAMING_SNAKE_CASE_ = False def a_ ( self) -> Union[str, Any]: snake_case_ = TFBlenderbotModelTester(self) snake_case_ = ConfigTester(self, config_class=lowerCAmelCase__) def a_ ( self) -> Dict: self.config_tester.run_common_tests() def a_ ( self) -> Tuple: snake_case_ = self.model_tester.prepare_config_and_inputs_for_common() self.model_tester.check_decoder_model_past_large_inputs(lowerCAmelCase__) @require_tokenizers @require_tf class UpperCamelCase ( unittest.TestCase ): SCREAMING_SNAKE_CASE_ = ["My friends are cool but they eat too many carbs."] SCREAMING_SNAKE_CASE_ = "facebook/blenderbot-400M-distill" @cached_property def a_ ( self) -> Union[str, Any]: return BlenderbotTokenizer.from_pretrained(self.model_name) @cached_property def a_ ( self) -> Union[str, Any]: snake_case_ = TFAutoModelForSeqaSeqLM.from_pretrained(self.model_name) return model @slow def a_ ( self) -> Dict: snake_case_ = self.tokenizer(self.src_text, return_tensors='tf') snake_case_ = self.model.generate( model_inputs.input_ids, ) snake_case_ = self.tokenizer.batch_decode(generated_ids.numpy(), skip_special_tokens=lowerCAmelCase__)[0] assert ( generated_words == " That's unfortunate. Are they trying to lose weight or are they just trying to be healthier?" )	69	"""simple docstring""" from collections import defaultdict def lowercase__ ( snake_case_ :str , snake_case_ :str ): __UpperCAmelCase = first_str.lower().strip() __UpperCAmelCase = second_str.lower().strip() # Remove whitespace __UpperCAmelCase = first_str.replace(''' ''' , '''''' ) __UpperCAmelCase = second_str.replace(''' ''' , '''''' ) # Strings of different lengths are not anagrams if len(snake_case_ ) != len(snake_case_ ): return False # Default values for count should be 0 __UpperCAmelCase = defaultdict(snake_case_ ) # For each character in input strings, # increment count in the corresponding for i in range(len(snake_case_ ) ): count[first_str[i]] += 1 count[second_str[i]] -= 1 return all(_count == 0 for _count in count.values() ) if __name__ == "__main__": from doctest import testmod testmod() _lowercase : List[Any] = input('Enter the first string ').strip() _lowercase : Tuple = input('Enter the second string ').strip() _lowercase : str = check_anagrams(input_a, input_b) print(f"""{input_a} and {input_b} are {"" if status else "not "}anagrams.""")	332	0
"""simple docstring""" import os import pytest import yaml from datasets.features.features import Features, Value from datasets.info import DatasetInfo, DatasetInfosDict @pytest.mark.parametrize( 'files' , [ ['full:README.md', 'dataset_infos.json'], ['empty:README.md', 'dataset_infos.json'], ['dataset_infos.json'], ['full:README.md'], ] , ) def lowercase__ ( __snake_case : Tuple , __snake_case : Any ): '''simple docstring''' UpperCAmelCase_ : Union[str, Any] = tmp_path_factory.mktemp('dset_infos_dir' ) if "full:README.md" in files: with open(dataset_infos_dir / 'README.md' , 'w' ) as f: f.write('---\ndataset_info:\n dataset_size: 42\n---' ) if "empty:README.md" in files: with open(dataset_infos_dir / 'README.md' , 'w' ) as f: f.write('' ) # we want to support dataset_infos.json for backward compatibility if "dataset_infos.json" in files: with open(dataset_infos_dir / 'dataset_infos.json' , 'w' ) as f: f.write('{\"default\": {\"dataset_size\": 42}}' ) UpperCAmelCase_ : List[str] = DatasetInfosDict.from_directory(a_ ) assert dataset_infos assert dataset_infos["default"].dataset_size == 42 @pytest.mark.parametrize( 'dataset_info' , [ DatasetInfo(), DatasetInfo( description='foo' , features=Features({'a': Value('int32' )} ) , builder_name='builder' , config_name='config' , version='1.0.0' , splits=[{'name': 'train'}] , download_size=42 , ), ] , ) def lowercase__ ( __snake_case : Union[str, Any] , __snake_case : DatasetInfo ): '''simple docstring''' UpperCAmelCase_ : Tuple = str(a_ ) dataset_info.write_to_directory(a_ ) UpperCAmelCase_ : Any = DatasetInfo.from_directory(a_ ) assert dataset_info == reloaded assert os.path.exists(os.path.join(a_ , 'dataset_info.json' ) ) def lowercase__ ( ): '''simple docstring''' UpperCAmelCase_ : Optional[int] = DatasetInfo( description='foo' , citation='bar' , homepage='https://foo.bar' , license='CC0' , features=Features({'a': Value('int32' )} ) , post_processed={} , supervised_keys=() , task_templates=[] , builder_name='builder' , config_name='config' , version='1.0.0' , splits=[{'name': 'train', 'num_examples': 42}] , download_checksums={} , download_size=1_337 , post_processing_size=442 , dataset_size=1_234 , size_in_bytes=1_337 + 442 + 1_234 , ) UpperCAmelCase_ : Tuple = dataset_info._to_yaml_dict() assert sorted(a_ ) == sorted(DatasetInfo._INCLUDED_INFO_IN_YAML ) for key in DatasetInfo._INCLUDED_INFO_IN_YAML: assert key in dataset_info_yaml_dict assert isinstance(dataset_info_yaml_dict[key] , (list, dict, int, str) ) UpperCAmelCase_ : List[Any] = yaml.safe_dump(a_ ) UpperCAmelCase_ : Optional[int] = yaml.safe_load(a_ ) assert dataset_info_yaml_dict == reloaded def lowercase__ ( ): '''simple docstring''' UpperCAmelCase_ : str = DatasetInfo() UpperCAmelCase_ : List[str] = dataset_info._to_yaml_dict() assert dataset_info_yaml_dict == {} @pytest.mark.parametrize( 'dataset_infos_dict' , [ DatasetInfosDict(), DatasetInfosDict({'default': DatasetInfo()} ), DatasetInfosDict({'my_config_name': DatasetInfo()} ), DatasetInfosDict( { 'default': DatasetInfo( description='foo' , features=Features({'a': Value('int32' )} ) , builder_name='builder' , config_name='config' , version='1.0.0' , splits=[{'name': 'train'}] , download_size=42 , ) } ), DatasetInfosDict( { 'v1': DatasetInfo(dataset_size=42 ), 'v2': DatasetInfo(dataset_size=1_337 ), } ), ] , ) def lowercase__ ( __snake_case : str , __snake_case : DatasetInfosDict ): '''simple docstring''' UpperCAmelCase_ : Union[str, Any] = str(a_ ) dataset_infos_dict.write_to_directory(a_ ) UpperCAmelCase_ : Union[str, Any] = DatasetInfosDict.from_directory(a_ ) # the config_name of the dataset_infos_dict take over the attribute for config_name, dataset_info in dataset_infos_dict.items(): UpperCAmelCase_ : Optional[int] = config_name # the yaml representation doesn't include fields like description or citation # so we just test that we can recover what we can from the yaml UpperCAmelCase_ : List[str] = DatasetInfo._from_yaml_dict(dataset_info._to_yaml_dict() ) assert dataset_infos_dict == reloaded if dataset_infos_dict: assert os.path.exists(os.path.join(a_ , 'README.md' ) )	367	from collections import OrderedDict from typing import TYPE_CHECKING, Any, Mapping, Optional from packaging import version from ...configuration_utils import PretrainedConfig from ...onnx import OnnxConfig from ...onnx.utils import compute_effective_axis_dimension from ...utils import logging if TYPE_CHECKING: from ...processing_utils import ProcessorMixin from ...utils import TensorType __UpperCAmelCase = logging.get_logger(__name__) __UpperCAmelCase = { 'microsoft/layoutlmv3-base': 'https://huggingface.co/microsoft/layoutlmv3-base/resolve/main/config.json', } class lowerCamelCase (_snake_case ): '''simple docstring''' _snake_case : Dict = '''layoutlmv3''' def __init__( self , _UpperCamelCase=5_0_2_6_5 , _UpperCamelCase=7_6_8 , _UpperCamelCase=1_2 , _UpperCamelCase=1_2 , _UpperCamelCase=3_0_7_2 , _UpperCamelCase="gelu" , _UpperCamelCase=0.1 , _UpperCamelCase=0.1 , _UpperCamelCase=5_1_2 , _UpperCamelCase=2 , _UpperCamelCase=0.02 , _UpperCamelCase=1E-5 , _UpperCamelCase=1 , _UpperCamelCase=0 , _UpperCamelCase=2 , _UpperCamelCase=1_0_2_4 , _UpperCamelCase=1_2_8 , _UpperCamelCase=1_2_8 , _UpperCamelCase=True , _UpperCamelCase=3_2 , _UpperCamelCase=1_2_8 , _UpperCamelCase=6_4 , _UpperCamelCase=2_5_6 , _UpperCamelCase=True , _UpperCamelCase=True , _UpperCamelCase=True , _UpperCamelCase=2_2_4 , _UpperCamelCase=3 , _UpperCamelCase=1_6 , _UpperCamelCase=None , _UpperCamelCase , ) -> Optional[Any]: super().__init__( vocab_size=_UpperCamelCase , hidden_size=_UpperCamelCase , num_hidden_layers=_UpperCamelCase , num_attention_heads=_UpperCamelCase , intermediate_size=_UpperCamelCase , hidden_act=_UpperCamelCase , hidden_dropout_prob=_UpperCamelCase , attention_probs_dropout_prob=_UpperCamelCase , max_position_embeddings=_UpperCamelCase , type_vocab_size=_UpperCamelCase , initializer_range=_UpperCamelCase , layer_norm_eps=_UpperCamelCase , pad_token_id=_UpperCamelCase , bos_token_id=_UpperCamelCase , eos_token_id=_UpperCamelCase , _UpperCamelCase , ) UpperCAmelCase_ : str = max_ad_position_embeddings UpperCAmelCase_ : Union[str, Any] = coordinate_size UpperCAmelCase_ : Union[str, Any] = shape_size UpperCAmelCase_ : str = has_relative_attention_bias UpperCAmelCase_ : Tuple = rel_pos_bins UpperCAmelCase_ : Dict = max_rel_pos UpperCAmelCase_ : Any = has_spatial_attention_bias UpperCAmelCase_ : Optional[Any] = rel_ad_pos_bins UpperCAmelCase_ : List[str] = max_rel_ad_pos UpperCAmelCase_ : List[str] = text_embed UpperCAmelCase_ : Dict = visual_embed UpperCAmelCase_ : Optional[int] = input_size UpperCAmelCase_ : List[Any] = num_channels UpperCAmelCase_ : List[Any] = patch_size UpperCAmelCase_ : Union[str, Any] = classifier_dropout class lowerCamelCase (_snake_case ): '''simple docstring''' _snake_case : Tuple = version.parse('''1.12''' ) @property def __UpperCAmelCase ( self ) -> Mapping[str, Mapping[int, str]]: # The order of inputs is different for question answering and sequence classification if self.task in ["question-answering", "sequence-classification"]: return OrderedDict( [ ('input_ids', {0: 'batch', 1: 'sequence'}), ('attention_mask', {0: 'batch', 1: 'sequence'}), ('bbox', {0: 'batch', 1: 'sequence'}), ('pixel_values', {0: 'batch', 1: 'num_channels', 2: 'height', 3: 'width'}), ] ) else: return OrderedDict( [ ('input_ids', {0: 'batch', 1: 'sequence'}), ('bbox', {0: 'batch', 1: 'sequence'}), ('attention_mask', {0: 'batch', 1: 'sequence'}), ('pixel_values', {0: 'batch', 1: 'num_channels'}), ] ) @property def __UpperCAmelCase ( self ) -> float: return 1E-5 @property def __UpperCAmelCase ( self ) -> int: return 1_2 def __UpperCAmelCase ( self , _UpperCamelCase , _UpperCamelCase = -1 , _UpperCamelCase = -1 , _UpperCamelCase = False , _UpperCamelCase = None , _UpperCamelCase = 3 , _UpperCamelCase = 4_0 , _UpperCamelCase = 4_0 , ) -> Mapping[str, Any]: setattr(processor.image_processor , 'apply_ocr' , _UpperCamelCase ) # If dynamic axis (-1) we forward with a fixed dimension of 2 samples to avoid optimizations made by ONNX UpperCAmelCase_ : Optional[int] = compute_effective_axis_dimension( _UpperCamelCase , fixed_dimension=OnnxConfig.default_fixed_batch , num_token_to_add=0 ) # If dynamic axis (-1) we forward with a fixed dimension of 8 tokens to avoid optimizations made by ONNX UpperCAmelCase_ : Any = processor.tokenizer.num_special_tokens_to_add(_UpperCamelCase ) UpperCAmelCase_ : Any = compute_effective_axis_dimension( _UpperCamelCase , fixed_dimension=OnnxConfig.default_fixed_sequence , num_token_to_add=_UpperCamelCase ) # Generate dummy inputs according to compute batch and sequence UpperCAmelCase_ : Tuple = [[' '.join([processor.tokenizer.unk_token] ) * seq_length]] * batch_size # Generate dummy bounding boxes UpperCAmelCase_ : List[str] = [[[4_8, 8_4, 7_3, 1_2_8]]] * batch_size # If dynamic axis (-1) we forward with a fixed dimension of 2 samples to avoid optimizations made by ONNX # batch_size = compute_effective_axis_dimension(batch_size, fixed_dimension=OnnxConfig.default_fixed_batch) UpperCAmelCase_ : str = self._generate_dummy_images(_UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase ) UpperCAmelCase_ : List[str] = dict( processor( _UpperCamelCase , text=_UpperCamelCase , boxes=_UpperCamelCase , return_tensors=_UpperCamelCase , ) ) return inputs	145	0
def A ( _lowercase , _lowercase ): SCREAMING_SNAKE_CASE : list[list[str]] = [[] for _ in range(_lowercase )] SCREAMING_SNAKE_CASE : Union[str, Any] = key - 1 if key <= 0: raise ValueError('''Height of grid can\'t be 0 or negative''' ) if key == 1 or len(_lowercase ) <= key: return input_string for position, character in enumerate(_lowercase ): SCREAMING_SNAKE_CASE : List[Any] = position % (lowest * 2) # puts it in bounds SCREAMING_SNAKE_CASE : List[str] = min(_lowercase , lowest * 2 - num ) # creates zigzag pattern temp_grid[num].append(_lowercase ) SCREAMING_SNAKE_CASE : int = [''''''.join(_lowercase ) for row in temp_grid] SCREAMING_SNAKE_CASE : Any = ''''''.join(_lowercase ) return output_string def A ( _lowercase , _lowercase ): SCREAMING_SNAKE_CASE : Optional[int] = [] SCREAMING_SNAKE_CASE : Optional[Any] = key - 1 if key <= 0: raise ValueError('''Height of grid can\'t be 0 or negative''' ) if key == 1: return input_string SCREAMING_SNAKE_CASE : list[list[str]] = [[] for _ in range(_lowercase )] # generates template for position in range(len(_lowercase ) ): SCREAMING_SNAKE_CASE : int = position % (lowest * 2) # puts it in bounds SCREAMING_SNAKE_CASE : List[str] = min(_lowercase , lowest * 2 - num ) # creates zigzag pattern temp_grid[num].append('''''' ) SCREAMING_SNAKE_CASE : List[Any] = 0 for row in temp_grid: # fills in the characters SCREAMING_SNAKE_CASE : Optional[Any] = input_string[counter : counter + len(_lowercase )] grid.append(list(_lowercase ) ) counter += len(_lowercase ) SCREAMING_SNAKE_CASE : List[Any] = '''''' # reads as zigzag for position in range(len(_lowercase ) ): SCREAMING_SNAKE_CASE : List[str] = position % (lowest 2) # puts it in bounds SCREAMING_SNAKE_CASE : List[Any] = min(_lowercase , lowest * 2 - num ) # creates zigzag pattern output_string += grid[num][0] grid[num].pop(0 ) return output_string def A ( _lowercase ): SCREAMING_SNAKE_CASE : Dict = {} for key_guess in range(1 , len(_lowercase ) ): # tries every key SCREAMING_SNAKE_CASE : Tuple = decrypt(_lowercase , _lowercase ) return results if __name__ == "__main__": import doctest doctest.testmod()	182	import math def A ( _lowercase ): return math.sqrt(_lowercase ) * math.sqrt(_lowercase ) == num def A ( _lowercase ): SCREAMING_SNAKE_CASE : Dict = 0 SCREAMING_SNAKE_CASE : Tuple = n while left <= right: SCREAMING_SNAKE_CASE : Union[str, Any] = (left + right) // 2 if mid2 == n: return True elif mid2 > n: SCREAMING_SNAKE_CASE : Optional[Any] = mid - 1 else: SCREAMING_SNAKE_CASE : Optional[int] = mid + 1 return False if __name__ == "__main__": import doctest doctest.testmod()	182	1
"""simple docstring""" from abc import ABC, abstractmethod from argparse import ArgumentParser class UpperCamelCase ( snake_case ): """simple docstring""" @staticmethod @abstractmethod def lowerCamelCase__ ( UpperCAmelCase_ ): raise NotImplementedError() @abstractmethod def lowerCamelCase__ ( self ): raise NotImplementedError()	336	"""simple docstring""" from __future__ import annotations from typing import TypedDict class UpperCamelCase ( snake_case ): """simple docstring""" SCREAMING_SNAKE_CASE_ : str SCREAMING_SNAKE_CASE_ : int def __SCREAMING_SNAKE_CASE ( __UpperCAmelCase ): if not isinstance(__UpperCAmelCase , __UpperCAmelCase ): raise TypeError("""The parameter s type must be str.""" ) return [s[i:] + s[:i] for i in range(len(__UpperCAmelCase ) )] def __SCREAMING_SNAKE_CASE ( __UpperCAmelCase ): if not isinstance(__UpperCAmelCase , __UpperCAmelCase ): raise TypeError("""The parameter s type must be str.""" ) if not s: raise ValueError("""The parameter s must not be empty.""" ) _lowercase : Tuple = all_rotations(__UpperCAmelCase ) rotations.sort() # sort the list of rotations in alphabetically order # make a string composed of the last char of each rotation _lowercase : BWTTransformDict = { "bwt_string": "".join([word[-1] for word in rotations] ), "idx_original_string": rotations.index(__UpperCAmelCase ), } return response def __SCREAMING_SNAKE_CASE ( __UpperCAmelCase , __UpperCAmelCase ): if not isinstance(__UpperCAmelCase , __UpperCAmelCase ): raise TypeError("""The parameter bwt_string type must be str.""" ) if not bwt_string: raise ValueError("""The parameter bwt_string must not be empty.""" ) try: _lowercase : Optional[Any] = int(__UpperCAmelCase ) except ValueError: raise TypeError( """The parameter idx_original_string type must be int or passive""" """ of cast to int.""" ) if idx_original_string < 0: raise ValueError("""The parameter idx_original_string must not be lower than 0.""" ) if idx_original_string >= len(__UpperCAmelCase ): raise ValueError( """The parameter idx_original_string must be lower than""" """ len(bwt_string).""" ) _lowercase : int = [""""""] * len(__UpperCAmelCase ) for _ in range(len(__UpperCAmelCase ) ): for i in range(len(__UpperCAmelCase ) ): _lowercase : Union[str, Any] = bwt_string[i] + ordered_rotations[i] ordered_rotations.sort() return ordered_rotations[idx_original_string] if __name__ == "__main__": UpperCAmelCase: Optional[int] = """Provide a string that I will generate its BWT transform: """ UpperCAmelCase: int = input(entry_msg).strip() UpperCAmelCase: List[str] = bwt_transform(s) print( F'Burrows Wheeler transform for string \'{s}\' results ' F'in \'{result["bwt_string"]}\'' ) UpperCAmelCase: Union[str, Any] = reverse_bwt(result["""bwt_string"""], result["""idx_original_string"""]) print( F'Reversing Burrows Wheeler transform for entry \'{result["bwt_string"]}\' ' F'we get original string \'{original_string}\'' )	336	1
'''simple docstring''' from __future__ import annotations import unittest from transformers import is_tf_available from transformers.testing_utils import require_tf, slow from ...test_configuration_common import ConfigTester from ...test_modeling_tf_common import TFModelTesterMixin, ids_tensor, random_attention_mask from ...test_pipeline_mixin import PipelineTesterMixin if is_tf_available(): import numpy import tensorflow as tf from transformers import ( TF_DPR_CONTEXT_ENCODER_PRETRAINED_MODEL_ARCHIVE_LIST, TF_DPR_QUESTION_ENCODER_PRETRAINED_MODEL_ARCHIVE_LIST, TF_DPR_READER_PRETRAINED_MODEL_ARCHIVE_LIST, BertConfig, DPRConfig, TFDPRContextEncoder, TFDPRQuestionEncoder, TFDPRReader, ) class a__ : def __init__( self , _UpperCamelCase , _UpperCamelCase=13 , _UpperCamelCase=7 , _UpperCamelCase=True , _UpperCamelCase=True , _UpperCamelCase=True , _UpperCamelCase=True , _UpperCamelCase=99 , _UpperCamelCase=32 , _UpperCamelCase=2 , _UpperCamelCase=4 , _UpperCamelCase=37 , _UpperCamelCase="gelu" , _UpperCamelCase=0.1 , _UpperCamelCase=0.1 , _UpperCamelCase=512 , _UpperCamelCase=16 , _UpperCamelCase=2 , _UpperCamelCase=0.0_2 , _UpperCamelCase=3 , _UpperCamelCase=4 , _UpperCamelCase=None , _UpperCamelCase=0 , ): """simple docstring""" _lowercase : Dict = parent _lowercase : str = batch_size _lowercase : int = seq_length _lowercase : Any = is_training _lowercase : Any = use_input_mask _lowercase : List[Any] = use_token_type_ids _lowercase : str = use_labels _lowercase : int = vocab_size _lowercase : Dict = hidden_size _lowercase : Dict = num_hidden_layers _lowercase : Optional[Any] = num_attention_heads _lowercase : Optional[Any] = intermediate_size _lowercase : Optional[int] = hidden_act _lowercase : Tuple = hidden_dropout_prob _lowercase : Optional[Any] = attention_probs_dropout_prob _lowercase : List[Any] = max_position_embeddings _lowercase : Optional[int] = type_vocab_size _lowercase : Optional[int] = type_sequence_label_size _lowercase : Dict = initializer_range _lowercase : List[str] = num_labels _lowercase : List[Any] = num_choices _lowercase : Optional[int] = scope _lowercase : Optional[Any] = projection_dim def _lowerCamelCase ( self ): """simple docstring""" _lowercase : Dict = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size ) _lowercase : Any = None if self.use_input_mask: # follow test_modeling_tf_ctrl.py _lowercase : int = random_attention_mask([self.batch_size, self.seq_length] ) _lowercase : List[str] = None if self.use_token_type_ids: _lowercase : str = ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size ) _lowercase : Optional[int] = None _lowercase : Any = None _lowercase : int = None if self.use_labels: _lowercase : Tuple = ids_tensor([self.batch_size] , self.type_sequence_label_size ) _lowercase : List[str] = ids_tensor([self.batch_size, self.seq_length] , self.num_labels ) _lowercase : List[Any] = ids_tensor([self.batch_size] , self.num_choices ) _lowercase : List[Any] = BertConfig( vocab_size=self.vocab_size , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , max_position_embeddings=self.max_position_embeddings , type_vocab_size=self.type_vocab_size , is_decoder=A_ , initializer_range=self.initializer_range , ) _lowercase : Any = DPRConfig(projection_dim=self.projection_dim , *config.to_dict() ) return config, input_ids, token_type_ids, input_mask, sequence_labels, token_labels, choice_labels def _lowerCamelCase ( self , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase ): """simple docstring""" _lowercase : Tuple = TFDPRContextEncoder(config=A_ ) _lowercase : str = model(A_ , attention_mask=A_ , token_type_ids=A_ ) _lowercase : Tuple = model(A_ , token_type_ids=A_ ) _lowercase : Any = model(A_ ) self.parent.assertEqual(result.pooler_output.shape , (self.batch_size, self.projection_dim or self.hidden_size) ) def _lowerCamelCase ( self , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase ): """simple docstring""" _lowercase : Optional[int] = TFDPRQuestionEncoder(config=A_ ) _lowercase : str = model(A_ , attention_mask=A_ , token_type_ids=A_ ) _lowercase : Any = model(A_ , token_type_ids=A_ ) _lowercase : str = model(A_ ) self.parent.assertEqual(result.pooler_output.shape , (self.batch_size, self.projection_dim or self.hidden_size) ) def _lowerCamelCase ( self , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase ): """simple docstring""" _lowercase : Optional[Any] = TFDPRReader(config=A_ ) _lowercase : int = model(A_ , attention_mask=A_ ) self.parent.assertEqual(result.start_logits.shape , (self.batch_size, self.seq_length) ) self.parent.assertEqual(result.end_logits.shape , (self.batch_size, self.seq_length) ) self.parent.assertEqual(result.relevance_logits.shape , (self.batch_size,) ) def _lowerCamelCase ( self ): """simple docstring""" _lowercase : List[Any] = self.prepare_config_and_inputs() ( ( _lowercase ) , ( _lowercase ) , ( _lowercase ) , ( _lowercase ) , ( _lowercase ) , ( _lowercase ) , ( _lowercase ) , ) : str = config_and_inputs _lowercase : str = {"input_ids": input_ids} return config, inputs_dict @require_tf class a__ ( lowerCamelCase_ , lowerCamelCase_ , unittest.TestCase ): _SCREAMING_SNAKE_CASE : List[Any] = ( ( TFDPRContextEncoder, TFDPRQuestionEncoder, TFDPRReader, ) if is_tf_available() else () ) _SCREAMING_SNAKE_CASE : Optional[int] = {'feature-extraction': TFDPRQuestionEncoder} if is_tf_available() else {} _SCREAMING_SNAKE_CASE : List[str] = False _SCREAMING_SNAKE_CASE : Optional[int] = False _SCREAMING_SNAKE_CASE : int = False _SCREAMING_SNAKE_CASE : List[Any] = False _SCREAMING_SNAKE_CASE : Any = False def _lowerCamelCase ( self ): """simple docstring""" _lowercase : Dict = TFDPRModelTester(self ) _lowercase : List[Any] = ConfigTester(self , config_class=A_ , hidden_size=37 ) def _lowerCamelCase ( self ): """simple docstring""" self.config_tester.run_common_tests() def _lowerCamelCase ( self ): """simple docstring""" _lowercase : Tuple = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_dpr_context_encoder(A_ ) def _lowerCamelCase ( self ): """simple docstring""" _lowercase : Optional[int] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_dpr_question_encoder(A_ ) def _lowerCamelCase ( self ): """simple docstring""" _lowercase : List[Any] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_dpr_reader(A_ ) @slow def _lowerCamelCase ( self ): """simple docstring""" for model_name in TF_DPR_CONTEXT_ENCODER_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: _lowercase : int = TFDPRContextEncoder.from_pretrained(A_ ) self.assertIsNotNone(A_ ) for model_name in TF_DPR_CONTEXT_ENCODER_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: _lowercase : List[str] = TFDPRContextEncoder.from_pretrained(A_ ) self.assertIsNotNone(A_ ) for model_name in TF_DPR_QUESTION_ENCODER_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: _lowercase : Union[str, Any] = TFDPRQuestionEncoder.from_pretrained(A_ ) self.assertIsNotNone(A_ ) for model_name in TF_DPR_READER_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: _lowercase : str = TFDPRReader.from_pretrained(A_ ) self.assertIsNotNone(A_ ) @require_tf class a__ ( unittest.TestCase ): @slow def _lowerCamelCase ( self ): """simple docstring""" _lowercase : List[Any] = TFDPRQuestionEncoder.from_pretrained("facebook/dpr-question_encoder-single-nq-base" ) _lowercase : Any = tf.constant( [[101, 7592, 1010, 2003, 2026, 3899, 10140, 1029, 102]] ) # [CLS] hello, is my dog cute? [SEP] _lowercase : str = model(A_ )[0] # embedding shape = (1, 768) # compare the actual values for a slice. _lowercase : str = tf.constant( [ [ 0.0_3_2_3_6_2_5_3, 0.1_2_7_5_3_3_3_5, 0.1_6_8_1_8_5_0_9, 0.0_0_2_7_9_7_8_6, 0.3_8_9_6_9_3_3, 0.2_4_2_6_4_9_4_5, 0.2_1_7_8_9_7_1, -0.0_2_3_3_5_2_2_7, -0.0_8_4_8_1_9_5_9, -0.1_4_3_2_4_1_1_7, ] ] ) self.assertTrue(numpy.allclose(output[:, :10].numpy() , expected_slice.numpy() , atol=1E-4 ) )	250	import os from shutil import copyfile from typing import List, Optional, Tuple from ...tokenization_utils import AddedToken from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import is_sentencepiece_available, logging if is_sentencepiece_available(): from .tokenization_fnet import FNetTokenizer else: lowerCamelCase : List[Any] = None lowerCamelCase : int = logging.get_logger(__name__) lowerCamelCase : Optional[int] = {"vocab_file": "spiece.model", "tokenizer_file": "tokenizer.json"} lowerCamelCase : Optional[int] = { "vocab_file": { "google/fnet-base": "https://huggingface.co/google/fnet-base/resolve/main/spiece.model", "google/fnet-large": "https://huggingface.co/google/fnet-large/resolve/main/spiece.model", }, "tokenizer_file": { "google/fnet-base": "https://huggingface.co/google/fnet-base/resolve/main/tokenizer.json", "google/fnet-large": "https://huggingface.co/google/fnet-large/resolve/main/tokenizer.json", }, } lowerCamelCase : List[Any] = { "google/fnet-base": 512, "google/fnet-large": 512, } lowerCamelCase : Any = "▁" class A( UpperCamelCase ): '''simple docstring''' UpperCamelCase = VOCAB_FILES_NAMES UpperCamelCase = PRETRAINED_VOCAB_FILES_MAP UpperCamelCase = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES UpperCamelCase = ['''input_ids''', '''token_type_ids'''] UpperCamelCase = FNetTokenizer def __init__( self : Optional[int] , A_ : Any=None , A_ : int=None , A_ : int=False , A_ : Optional[int]=True , A_ : List[Any]=True , A_ : Tuple="<unk>" , A_ : Optional[int]="[SEP]" , A_ : List[Any]="<pad>" , A_ : Optional[int]="[CLS]" , A_ : Optional[Any]="[MASK]" , A_ : Dict , ) -> List[str]: """simple docstring""" lowerCamelCase_ = ( AddedToken(A_ , lstrip=A_ , rstrip=A_ , normalized=A_ ) if isinstance(A_ , A_ ) else mask_token ) super().__init__( A_ , tokenizer_file=A_ , do_lower_case=A_ , remove_space=A_ , keep_accents=A_ , unk_token=A_ , sep_token=A_ , pad_token=A_ , cls_token=A_ , mask_token=A_ , A_ , ) lowerCamelCase_ = do_lower_case lowerCamelCase_ = remove_space lowerCamelCase_ = keep_accents lowerCamelCase_ = vocab_file lowerCamelCase_ = False if not self.vocab_file else True def a__ ( self : List[Any] , A_ : List[int] , A_ : Optional[List[int]] = None ) -> List[int]: """simple docstring""" lowerCamelCase_ = [self.sep_token_id] lowerCamelCase_ = [self.cls_token_id] if token_ids_a is None: return cls + token_ids_a + sep return cls + token_ids_a + sep + token_ids_a + sep def a__ ( self : Tuple , A_ : List[int] , A_ : Optional[List[int]] = None ) -> List[int]: """simple docstring""" lowerCamelCase_ = [self.sep_token_id] lowerCamelCase_ = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) * [0] return len(cls + token_ids_a + sep ) * [0] + len(token_ids_a + sep ) * [1] def a__ ( self : Dict , A_ : str , A_ : Optional[str] = None ) -> Tuple[str]: """simple docstring""" if not os.path.isdir(A_ ): logger.error(f"""Vocabulary path ({save_directory}) should be a directory""" ) return lowerCamelCase_ = os.path.join( A_ , (filename_prefix + '-' if filename_prefix else '') + VOCAB_FILES_NAMES['vocab_file'] ) if os.path.abspath(self.vocab_file ) != os.path.abspath(A_ ): copyfile(self.vocab_file , A_ ) return (out_vocab_file,)	204	0
def lowerCAmelCase_ ( ) -> int: '''simple docstring''' return [ a * b * (1_000 - a - b) for a in range(1, 999 ) for b in range(__A, 999 ) if (a * a + b * b == (1_000 - a - b) ** 2) ][0] if __name__ == "__main__": print(f'''{solution() = }''')	143	import json from typing import List, Optional, Tuple from tokenizers import pre_tokenizers, processors from ...tokenization_utils_base import AddedToken, BatchEncoding from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_bart import BartTokenizer UpperCamelCase__ = logging.get_logger(__name__) UpperCamelCase__ = {'vocab_file': 'vocab.json', 'merges_file': 'merges.txt', 'tokenizer_file': 'tokenizer.json'} # See all BART models at https://huggingface.co/models?filter=bart UpperCamelCase__ = { 'vocab_file': { 'facebook/bart-base': 'https://huggingface.co/facebook/bart-base/resolve/main/vocab.json', 'facebook/bart-large': 'https://huggingface.co/facebook/bart-large/resolve/main/vocab.json', 'facebook/bart-large-mnli': 'https://huggingface.co/facebook/bart-large-mnli/resolve/main/vocab.json', 'facebook/bart-large-cnn': 'https://huggingface.co/facebook/bart-large-cnn/resolve/main/vocab.json', 'facebook/bart-large-xsum': 'https://huggingface.co/facebook/bart-large-xsum/resolve/main/vocab.json', 'yjernite/bart_eli5': 'https://huggingface.co/yjernite/bart_eli5/resolve/main/vocab.json', }, 'merges_file': { 'facebook/bart-base': 'https://huggingface.co/facebook/bart-base/resolve/main/merges.txt', 'facebook/bart-large': 'https://huggingface.co/facebook/bart-large/resolve/main/merges.txt', 'facebook/bart-large-mnli': 'https://huggingface.co/facebook/bart-large-mnli/resolve/main/merges.txt', 'facebook/bart-large-cnn': 'https://huggingface.co/facebook/bart-large-cnn/resolve/main/merges.txt', 'facebook/bart-large-xsum': 'https://huggingface.co/facebook/bart-large-xsum/resolve/main/merges.txt', 'yjernite/bart_eli5': 'https://huggingface.co/yjernite/bart_eli5/resolve/main/merges.txt', }, 'tokenizer_file': { 'facebook/bart-base': 'https://huggingface.co/facebook/bart-base/resolve/main/tokenizer.json', 'facebook/bart-large': 'https://huggingface.co/facebook/bart-large/resolve/main/tokenizer.json', 'facebook/bart-large-mnli': 'https://huggingface.co/facebook/bart-large-mnli/resolve/main/tokenizer.json', 'facebook/bart-large-cnn': 'https://huggingface.co/facebook/bart-large-cnn/resolve/main/tokenizer.json', 'facebook/bart-large-xsum': 'https://huggingface.co/facebook/bart-large-xsum/resolve/main/tokenizer.json', 'yjernite/bart_eli5': 'https://huggingface.co/yjernite/bart_eli5/resolve/main/tokenizer.json', }, } UpperCamelCase__ = { 'facebook/bart-base': 1_0_2_4, 'facebook/bart-large': 1_0_2_4, 'facebook/bart-large-mnli': 1_0_2_4, 'facebook/bart-large-cnn': 1_0_2_4, 'facebook/bart-large-xsum': 1_0_2_4, 'yjernite/bart_eli5': 1_0_2_4, } class A ( UpperCAmelCase_ ): __UpperCAmelCase : List[str] = VOCAB_FILES_NAMES __UpperCAmelCase : int = PRETRAINED_VOCAB_FILES_MAP __UpperCAmelCase : int = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES __UpperCAmelCase : str = ['input_ids', 'attention_mask'] __UpperCAmelCase : str = BartTokenizer def __init__(self : Tuple , __UpperCAmelCase : int=None , __UpperCAmelCase : Optional[int]=None , __UpperCAmelCase : int=None , __UpperCAmelCase : str="replace" , __UpperCAmelCase : List[str]="<s>" , __UpperCAmelCase : Tuple="</s>" , __UpperCAmelCase : List[Any]="</s>" , __UpperCAmelCase : Tuple="<s>" , __UpperCAmelCase : List[str]="<unk>" , __UpperCAmelCase : Optional[int]="<pad>" , __UpperCAmelCase : List[Any]="<mask>" , __UpperCAmelCase : Any=False , __UpperCAmelCase : str=True , __UpperCAmelCase : Tuple , ) -> Any: """simple docstring""" super().__init__( __UpperCAmelCase , __UpperCAmelCase , tokenizer_file=__UpperCAmelCase , errors=__UpperCAmelCase , bos_token=__UpperCAmelCase , eos_token=__UpperCAmelCase , sep_token=__UpperCAmelCase , cls_token=__UpperCAmelCase , unk_token=__UpperCAmelCase , pad_token=__UpperCAmelCase , mask_token=__UpperCAmelCase , add_prefix_space=__UpperCAmelCase , trim_offsets=__UpperCAmelCase , __UpperCAmelCase , ) UpperCAmelCase__ = json.loads(self.backend_tokenizer.pre_tokenizer.__getstate__() ) if pre_tok_state.get("add_prefix_space" , __UpperCAmelCase ) != add_prefix_space: UpperCAmelCase__ = getattr(__UpperCAmelCase , pre_tok_state.pop("type" ) ) UpperCAmelCase__ = add_prefix_space UpperCAmelCase__ = pre_tok_class(__UpperCAmelCase ) UpperCAmelCase__ = add_prefix_space # the pre_tokenizer is already updated in the GPT2TokenizerFast `__init__` UpperCAmelCase__ = "post_processor" UpperCAmelCase__ = getattr(self.backend_tokenizer , __UpperCAmelCase , __UpperCAmelCase ) if tokenizer_component_instance: UpperCAmelCase__ = json.loads(tokenizer_component_instance.__getstate__() ) # The lists 'sep' and 'cls' must be cased in tuples for the object `post_processor_class` if "sep" in state: UpperCAmelCase__ = tuple(state["sep"] ) if "cls" in state: UpperCAmelCase__ = tuple(state["cls"] ) UpperCAmelCase__ = False if state.get("add_prefix_space" , __UpperCAmelCase ) != add_prefix_space: UpperCAmelCase__ = add_prefix_space UpperCAmelCase__ = True if state.get("trim_offsets" , __UpperCAmelCase ) != trim_offsets: UpperCAmelCase__ = trim_offsets UpperCAmelCase__ = True if changes_to_apply: UpperCAmelCase__ = getattr(__UpperCAmelCase , state.pop("type" ) ) UpperCAmelCase__ = component_class(__UpperCAmelCase ) setattr(self.backend_tokenizer , __UpperCAmelCase , __UpperCAmelCase ) @property def lowercase_ (self : Tuple ) -> str: """simple docstring""" if self._mask_token is None: if self.verbose: logger.error("Using mask_token, but it is not set yet." ) return None return str(self._mask_token ) @mask_token.setter def lowercase_ (self : Optional[int] , __UpperCAmelCase : Union[str, Any] ) -> Tuple: """simple docstring""" UpperCAmelCase__ = AddedToken(__UpperCAmelCase , lstrip=__UpperCAmelCase , rstrip=__UpperCAmelCase ) if isinstance(__UpperCAmelCase , __UpperCAmelCase ) else value UpperCAmelCase__ = value def lowercase_ (self : List[str] , __UpperCAmelCase : str , __UpperCAmelCase : List[str] ) -> BatchEncoding: """simple docstring""" UpperCAmelCase__ = kwargs.get("is_split_into_words" , __UpperCAmelCase ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f"""You need to instantiate {self.__class__.__name__} with add_prefix_space=True """ "to use it with pretokenized inputs." ) return super()._batch_encode_plus(__UpperCAmelCase , *__UpperCAmelCase ) def lowercase_ (self : List[Any] , __UpperCAmelCase : Optional[Any] , *__UpperCAmelCase : Optional[Any] ) -> BatchEncoding: """simple docstring""" UpperCAmelCase__ = kwargs.get("is_split_into_words" , __UpperCAmelCase ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f"""You need to instantiate {self.__class__.__name__} with add_prefix_space=True """ "to use it with pretokenized inputs." ) return super()._encode_plus(__UpperCAmelCase , *__UpperCAmelCase ) def lowercase_ (self : Any , __UpperCAmelCase : str , __UpperCAmelCase : Optional[str] = None ) -> Tuple[str]: """simple docstring""" UpperCAmelCase__ = self._tokenizer.model.save(__UpperCAmelCase , name=__UpperCAmelCase ) return tuple(__UpperCAmelCase ) def lowercase_ (self : Optional[Any] , __UpperCAmelCase : int , __UpperCAmelCase : Dict=None ) -> Optional[int]: """simple docstring""" UpperCAmelCase__ = [self.bos_token_id] + token_ids_a + [self.eos_token_id] if token_ids_a is None: return output return output + [self.eos_token_id] + token_ids_a + [self.eos_token_id] def lowercase_ (self : Union[str, Any] , __UpperCAmelCase : List[int] , __UpperCAmelCase : Optional[List[int]] = None ) -> List[int]: """simple docstring""" UpperCAmelCase__ = [self.sep_token_id] UpperCAmelCase__ = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) [0] return len(cls + token_ids_a + sep + sep + token_ids_a + sep ) * [0]	143	1
from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_torch_available, is_vision_available, ) __a = { 'configuration_mobilevit': ['MOBILEVIT_PRETRAINED_CONFIG_ARCHIVE_MAP', 'MobileViTConfig', 'MobileViTOnnxConfig'], } try: if not is_vision_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: __a = ['MobileViTFeatureExtractor'] __a = ['MobileViTImageProcessor'] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: __a = [ 'MOBILEVIT_PRETRAINED_MODEL_ARCHIVE_LIST', 'MobileViTForImageClassification', 'MobileViTForSemanticSegmentation', 'MobileViTModel', 'MobileViTPreTrainedModel', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: __a = [ 'TF_MOBILEVIT_PRETRAINED_MODEL_ARCHIVE_LIST', 'TFMobileViTForImageClassification', 'TFMobileViTForSemanticSegmentation', 'TFMobileViTModel', 'TFMobileViTPreTrainedModel', ] if TYPE_CHECKING: from .configuration_mobilevit import MOBILEVIT_PRETRAINED_CONFIG_ARCHIVE_MAP, MobileViTConfig, MobileViTOnnxConfig try: if not is_vision_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .feature_extraction_mobilevit import MobileViTFeatureExtractor from .image_processing_mobilevit import MobileViTImageProcessor try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_mobilevit import ( MOBILEVIT_PRETRAINED_MODEL_ARCHIVE_LIST, MobileViTForImageClassification, MobileViTForSemanticSegmentation, MobileViTModel, MobileViTPreTrainedModel, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_mobilevit import ( TF_MOBILEVIT_PRETRAINED_MODEL_ARCHIVE_LIST, TFMobileViTForImageClassification, TFMobileViTForSemanticSegmentation, TFMobileViTModel, TFMobileViTPreTrainedModel, ) else: import sys __a = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)	30	from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available lowerCamelCase_ = {'''configuration_vit_msn''': ['''VIT_MSN_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''ViTMSNConfig''']} try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCamelCase_ = [ '''VIT_MSN_PRETRAINED_MODEL_ARCHIVE_LIST''', '''ViTMSNModel''', '''ViTMSNForImageClassification''', '''ViTMSNPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_vit_msn import VIT_MSN_PRETRAINED_CONFIG_ARCHIVE_MAP, ViTMSNConfig try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_vit_msn import ( VIT_MSN_PRETRAINED_MODEL_ARCHIVE_LIST, ViTMSNForImageClassification, ViTMSNModel, ViTMSNPreTrainedModel, ) else: import sys lowerCamelCase_ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)	244	0
"""simple docstring""" import os import shutil from pathlib import Path from typing import Optional, Union import numpy as np from huggingface_hub import hf_hub_download from ..utils import ONNX_EXTERNAL_WEIGHTS_NAME, ONNX_WEIGHTS_NAME, is_onnx_available, logging if is_onnx_available(): import onnxruntime as ort SCREAMING_SNAKE_CASE : str = logging.get_logger(__name__) SCREAMING_SNAKE_CASE : Union[str, Any] = { '''tensor(bool)''': np.bool_, '''tensor(int8)''': np.inta, '''tensor(uint8)''': np.uinta, '''tensor(int16)''': np.intaa, '''tensor(uint16)''': np.uintaa, '''tensor(int32)''': np.intaa, '''tensor(uint32)''': np.uintaa, '''tensor(int64)''': np.intaa, '''tensor(uint64)''': np.uintaa, '''tensor(float16)''': np.floataa, '''tensor(float)''': np.floataa, '''tensor(double)''': np.floataa, } class __lowerCamelCase : def __init__(self , lowerCamelCase=None , lowerCamelCase ): '''simple docstring''' logger.info("""`diffusers.OnnxRuntimeModel` is experimental and might change in the future.""" ) _lowerCAmelCase = model _lowerCAmelCase = kwargs.get("""model_save_dir""" , lowerCamelCase ) _lowerCAmelCase = kwargs.get("""latest_model_name""" , lowerCamelCase ) def __call__(self , lowerCamelCase ): '''simple docstring''' _lowerCAmelCase = {k: np.array(lowerCamelCase ) for k, v in kwargs.items()} return self.model.run(lowerCamelCase , lowerCamelCase ) @staticmethod def A__ (lowerCamelCase , lowerCamelCase=None , lowerCamelCase=None ): '''simple docstring''' if provider is None: logger.info("""No onnxruntime provider specified, using CPUExecutionProvider""" ) _lowerCAmelCase = """CPUExecutionProvider""" return ort.InferenceSession(lowerCamelCase , providers=[provider] , sess_options=lowerCamelCase ) def A__ (self , lowerCamelCase , lowerCamelCase = None , lowerCamelCase ): '''simple docstring''' _lowerCAmelCase = file_name if file_name is not None else ONNX_WEIGHTS_NAME _lowerCAmelCase = self.model_save_dir.joinpath(self.latest_model_name ) _lowerCAmelCase = Path(lowerCamelCase ).joinpath(lowerCamelCase ) try: shutil.copyfile(lowerCamelCase , lowerCamelCase ) except shutil.SameFileError: pass # copy external weights (for models >2GB) _lowerCAmelCase = self.model_save_dir.joinpath(lowerCamelCase ) if src_path.exists(): _lowerCAmelCase = Path(lowerCamelCase ).joinpath(lowerCamelCase ) try: shutil.copyfile(lowerCamelCase , lowerCamelCase ) except shutil.SameFileError: pass def A__ (self , lowerCamelCase , lowerCamelCase , ): '''simple docstring''' if os.path.isfile(lowerCamelCase ): logger.error(f"""Provided path ({save_directory}) should be a directory, not a file""" ) return os.makedirs(lowerCamelCase , exist_ok=lowerCamelCase ) # saving model weights/files self._save_pretrained(lowerCamelCase , lowerCamelCase ) @classmethod def A__ (cls , lowerCamelCase , lowerCamelCase = None , lowerCamelCase = None , lowerCamelCase = False , lowerCamelCase = None , lowerCamelCase = None , lowerCamelCase = None , lowerCamelCase = None , lowerCamelCase , ): '''simple docstring''' _lowerCAmelCase = file_name if file_name is not None else ONNX_WEIGHTS_NAME # load model from local directory if os.path.isdir(lowerCamelCase ): _lowerCAmelCase = OnnxRuntimeModel.load_model( os.path.join(lowerCamelCase , lowerCamelCase ) , provider=lowerCamelCase , sess_options=lowerCamelCase ) _lowerCAmelCase = Path(lowerCamelCase ) # load model from hub else: # download model _lowerCAmelCase = hf_hub_download( repo_id=lowerCamelCase , filename=lowerCamelCase , use_auth_token=lowerCamelCase , revision=lowerCamelCase , cache_dir=lowerCamelCase , force_download=lowerCamelCase , ) _lowerCAmelCase = Path(lowerCamelCase ).parent _lowerCAmelCase = Path(lowerCamelCase ).name _lowerCAmelCase = OnnxRuntimeModel.load_model(lowerCamelCase , provider=lowerCamelCase , sess_options=lowerCamelCase ) return cls(model=lowerCamelCase , lowerCamelCase ) @classmethod def A__ (cls , lowerCamelCase , lowerCamelCase = True , lowerCamelCase = None , lowerCamelCase = None , lowerCamelCase , ): '''simple docstring''' _lowerCAmelCase = None if len(str(lowerCamelCase ).split("""@""" ) ) == 2: _lowerCAmelCase , _lowerCAmelCase = model_id.split("""@""" ) return cls._from_pretrained( model_id=lowerCamelCase , revision=lowerCamelCase , cache_dir=lowerCamelCase , force_download=lowerCamelCase , use_auth_token=lowerCamelCase , **lowerCamelCase , )	317	"""simple docstring""" from functools import reduce SCREAMING_SNAKE_CASE : int = ( '''73167176531330624919225119674426574742355349194934''' '''96983520312774506326239578318016984801869478851843''' '''85861560789112949495459501737958331952853208805511''' '''12540698747158523863050715693290963295227443043557''' '''66896648950445244523161731856403098711121722383113''' '''62229893423380308135336276614282806444486645238749''' '''30358907296290491560440772390713810515859307960866''' '''70172427121883998797908792274921901699720888093776''' '''65727333001053367881220235421809751254540594752243''' '''52584907711670556013604839586446706324415722155397''' '''53697817977846174064955149290862569321978468622482''' '''83972241375657056057490261407972968652414535100474''' '''82166370484403199890008895243450658541227588666881''' '''16427171479924442928230863465674813919123162824586''' '''17866458359124566529476545682848912883142607690042''' '''24219022671055626321111109370544217506941658960408''' '''07198403850962455444362981230987879927244284909188''' '''84580156166097919133875499200524063689912560717606''' '''05886116467109405077541002256983155200055935729725''' '''71636269561882670428252483600823257530420752963450''' ) def __UpperCAmelCase ( snake_case_ : str = N ) -> int: """simple docstring""" return max( # mypy cannot properly interpret reduce int(reduce(lambda snake_case_ , snake_case_ : str(int(snake_case_ ) * int(snake_case_ ) ) , n[i : i + 13] ) ) for i in range(len(snake_case_ ) - 12 ) ) if __name__ == "__main__": print(F'{solution() = }')	317	1
from ...processing_utils import ProcessorMixin from ...tokenization_utils_base import BatchEncoding class lowercase_ ( __SCREAMING_SNAKE_CASE ): A__ : Optional[Any] = """ClapFeatureExtractor""" A__ : Union[str, Any] = ("""RobertaTokenizer""", """RobertaTokenizerFast""") def __init__( self , __UpperCamelCase , __UpperCamelCase ): """simple docstring""" super().__init__(__UpperCamelCase , __UpperCamelCase ) def __call__( self , __UpperCamelCase=None , __UpperCamelCase=None , __UpperCamelCase=None , __UpperCamelCase ): """simple docstring""" UpperCamelCase_ = kwargs.pop("""sampling_rate""" , __UpperCamelCase ) if text is None and audios is None: raise ValueError("""You have to specify either text or audios. Both cannot be none.""" ) if text is not None: UpperCamelCase_ = self.tokenizer(__UpperCamelCase , return_tensors=__UpperCamelCase , __UpperCamelCase ) if audios is not None: UpperCamelCase_ = self.feature_extractor( __UpperCamelCase , sampling_rate=__UpperCamelCase , return_tensors=__UpperCamelCase , __UpperCamelCase ) if text is not None and audios is not None: UpperCamelCase_ = audio_features.input_features return encoding elif text is not None: return encoding else: return BatchEncoding(data=dict(__UpperCamelCase ) , tensor_type=__UpperCamelCase ) def lowerCamelCase_ ( self , __UpperCamelCase , __UpperCamelCase ): """simple docstring""" return self.tokenizer.batch_decode(__UpperCamelCase , *__UpperCamelCase ) def lowerCamelCase_ ( self , __UpperCamelCase , *__UpperCamelCase ): """simple docstring""" return self.tokenizer.decode(__UpperCamelCase , **__UpperCamelCase ) @property def lowerCamelCase_ ( self ): """simple docstring""" UpperCamelCase_ = self.tokenizer.model_input_names UpperCamelCase_ = self.feature_extractor.model_input_names return list(dict.fromkeys(tokenizer_input_names + feature_extractor_input_names ) )	122	_A = [0, 2, 4, 6, 8] _A = [1, 3, 5, 7, 9] def lowerCamelCase__ ( a__ : int , a__ : int , a__ : list[int] , a__ : int ) -> int: if remaining_length == 0: if digits[0] == 0 or digits[-1] == 0: return 0 for i in range(length // 2 - 1 , -1 , -1 ): remainder += digits[i] + digits[length - i - 1] if remainder % 2 == 0: return 0 remainder //= 10 return 1 if remaining_length == 1: if remainder % 2 == 0: return 0 UpperCamelCase_ = 0 for digit in range(10 ): UpperCamelCase_ = digit result += reversible_numbers( 0 , (remainder + 2 * digit) // 10 , a__ , a__ ) return result UpperCamelCase_ = 0 for digita in range(10 ): UpperCamelCase_ = digita if (remainder + digita) % 2 == 0: UpperCamelCase_ = ODD_DIGITS else: UpperCamelCase_ = EVEN_DIGITS for digita in other_parity_digits: UpperCamelCase_ = digita result += reversible_numbers( remaining_length - 2 , (remainder + digita + digita) // 10 , a__ , a__ , ) return result def lowerCamelCase__ ( a__ : int = 9 ) -> int: UpperCamelCase_ = 0 for length in range(1 , max_power + 1 ): result += reversible_numbers(a__ , 0 , [0] * length , a__ ) return result if __name__ == "__main__": print(F'''{solution() = }''')	122	1
"""simple docstring""" from __future__ import annotations import inspect import unittest import numpy as np from transformers import DeiTConfig from transformers.testing_utils import require_tf, require_vision, slow from transformers.utils import cached_property, is_tf_available, is_vision_available from ...test_configuration_common import ConfigTester from ...test_modeling_tf_common import TFModelTesterMixin, floats_tensor, ids_tensor from ...test_pipeline_mixin import PipelineTesterMixin if is_tf_available(): import tensorflow as tf from transformers import ( TFDeiTForImageClassification, TFDeiTForImageClassificationWithTeacher, TFDeiTForMaskedImageModeling, TFDeiTModel, ) from transformers.models.deit.modeling_tf_deit import TF_DEIT_PRETRAINED_MODEL_ARCHIVE_LIST if is_vision_available(): from PIL import Image from transformers import DeiTImageProcessor class _SCREAMING_SNAKE_CASE : def __init__( self , __A , __A=13 , __A=30 , __A=2 , __A=3 , __A=True , __A=True , __A=32 , __A=2 , __A=4 , __A=37 , __A="gelu" , __A=0.1 , __A=0.1 , __A=10 , __A=0.0_2 , __A=3 , __A=None , __A=2 , ) -> int: lowerCAmelCase_ :List[Any] = parent lowerCAmelCase_ :Any = batch_size lowerCAmelCase_ :int = image_size lowerCAmelCase_ :Tuple = patch_size lowerCAmelCase_ :Union[str, Any] = num_channels lowerCAmelCase_ :Union[str, Any] = is_training lowerCAmelCase_ :Union[str, Any] = use_labels lowerCAmelCase_ :Any = hidden_size lowerCAmelCase_ :Optional[int] = num_hidden_layers lowerCAmelCase_ :Union[str, Any] = num_attention_heads lowerCAmelCase_ :Any = intermediate_size lowerCAmelCase_ :Dict = hidden_act lowerCAmelCase_ :Tuple = hidden_dropout_prob lowerCAmelCase_ :Tuple = attention_probs_dropout_prob lowerCAmelCase_ :Dict = type_sequence_label_size lowerCAmelCase_ :Any = initializer_range lowerCAmelCase_ :Tuple = scope lowerCAmelCase_ :Union[str, Any] = encoder_stride # in DeiT, the seq length equals the number of patches + 2 (we add 2 for the [CLS] and distilation tokens) lowerCAmelCase_ :List[Any] = (image_size // patch_size) ** 2 lowerCAmelCase_ :List[str] = num_patches + 2 def __lowerCAmelCase ( self ) -> Dict: lowerCAmelCase_ :Optional[Any] = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] ) lowerCAmelCase_ :Optional[int] = None if self.use_labels: lowerCAmelCase_ :Optional[int] = ids_tensor([self.batch_size] , self.type_sequence_label_size ) lowerCAmelCase_ :Dict = self.get_config() return config, pixel_values, labels def __lowerCAmelCase ( self ) -> Optional[Any]: return DeiTConfig( image_size=self.image_size , patch_size=self.patch_size , num_channels=self.num_channels , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , is_decoder=__A , initializer_range=self.initializer_range , encoder_stride=self.encoder_stride , ) def __lowerCAmelCase ( self , __A , __A , __A ) -> List[str]: lowerCAmelCase_ :List[Any] = TFDeiTModel(config=__A ) lowerCAmelCase_ :str = model(__A ) self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) ) def __lowerCAmelCase ( self , __A , __A , __A ) -> Optional[Any]: lowerCAmelCase_ :List[str] = TFDeiTForMaskedImageModeling(config=__A ) lowerCAmelCase_ :Optional[int] = model(__A ) self.parent.assertEqual( result.reconstruction.shape , (self.batch_size, self.num_channels, self.image_size, self.image_size) ) # test greyscale images lowerCAmelCase_ :Any = 1 lowerCAmelCase_ :Union[str, Any] = TFDeiTForMaskedImageModeling(__A ) lowerCAmelCase_ :int = floats_tensor([self.batch_size, 1, self.image_size, self.image_size] ) lowerCAmelCase_ :Optional[Any] = model(__A ) self.parent.assertEqual(result.reconstruction.shape , (self.batch_size, 1, self.image_size, self.image_size) ) def __lowerCAmelCase ( self , __A , __A , __A ) -> str: lowerCAmelCase_ :str = self.type_sequence_label_size lowerCAmelCase_ :Optional[Any] = TFDeiTForImageClassification(__A ) lowerCAmelCase_ :Dict = model(__A , labels=__A ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size) ) # test greyscale images lowerCAmelCase_ :int = 1 lowerCAmelCase_ :List[Any] = TFDeiTForImageClassification(__A ) lowerCAmelCase_ :Dict = floats_tensor([self.batch_size, 1, self.image_size, self.image_size] ) lowerCAmelCase_ :int = model(__A , labels=__A ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size) ) def __lowerCAmelCase ( self ) -> Optional[int]: lowerCAmelCase_ :str = self.prepare_config_and_inputs() lowerCAmelCase_ , lowerCAmelCase_ , lowerCAmelCase_ :List[Any] = config_and_inputs lowerCAmelCase_ :Dict = {"""pixel_values""": pixel_values} return config, inputs_dict @require_tf class _SCREAMING_SNAKE_CASE ( A__ , A__ , unittest.TestCase ): UpperCAmelCase_ :Dict = ( ( TFDeiTModel, TFDeiTForImageClassification, TFDeiTForImageClassificationWithTeacher, TFDeiTForMaskedImageModeling, ) if is_tf_available() else () ) UpperCAmelCase_ :int = ( { "feature-extraction": TFDeiTModel, "image-classification": (TFDeiTForImageClassification, TFDeiTForImageClassificationWithTeacher), } if is_tf_available() else {} ) UpperCAmelCase_ :Union[str, Any] = False UpperCAmelCase_ :str = False UpperCAmelCase_ :Union[str, Any] = False UpperCAmelCase_ :List[str] = False def __lowerCAmelCase ( self ) -> Tuple: lowerCAmelCase_ :Optional[int] = TFDeiTModelTester(self ) lowerCAmelCase_ :Any = ConfigTester(self , config_class=__A , has_text_modality=__A , hidden_size=37 ) def __lowerCAmelCase ( self ) -> Optional[Any]: self.config_tester.run_common_tests() @unittest.skip(reason="""DeiT does not use inputs_embeds""" ) def __lowerCAmelCase ( self ) -> List[Any]: pass def __lowerCAmelCase ( self ) -> str: lowerCAmelCase_ , lowerCAmelCase_ :Tuple = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: lowerCAmelCase_ :List[str] = model_class(__A ) self.assertIsInstance(model.get_input_embeddings() , (tf.keras.layers.Layer) ) lowerCAmelCase_ :int = model.get_output_embeddings() self.assertTrue(x is None or isinstance(__A , tf.keras.layers.Dense ) ) def __lowerCAmelCase ( self ) -> List[Any]: lowerCAmelCase_ , lowerCAmelCase_ :List[Any] = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: lowerCAmelCase_ :Optional[int] = model_class(__A ) lowerCAmelCase_ :str = inspect.signature(model.call ) # signature.parameters is an OrderedDict => so arg_names order is deterministic lowerCAmelCase_ :Any = [signature.parameters.keys()] lowerCAmelCase_ :List[str] = ["""pixel_values"""] self.assertListEqual(arg_names[:1] , __A ) def __lowerCAmelCase ( self ) -> int: lowerCAmelCase_ :Optional[int] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(__A ) def __lowerCAmelCase ( self ) -> Optional[Any]: lowerCAmelCase_ :Tuple = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_masked_image_modeling(__A ) def __lowerCAmelCase ( self ) -> Optional[Any]: lowerCAmelCase_ :Union[str, Any] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_image_classification(__A ) def __lowerCAmelCase ( self , __A , __A , __A=False ) -> int: lowerCAmelCase_ :List[str] = super()._prepare_for_class(__A , __A , return_labels=__A ) if return_labels: if "labels" in inputs_dict and "labels" not in inspect.signature(model_class.call ).parameters: del inputs_dict["labels"] return inputs_dict @slow def __lowerCAmelCase ( self ) -> List[str]: for model_name in TF_DEIT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: lowerCAmelCase_ :List[Any] = TFDeiTModel.from_pretrained(__A ) self.assertIsNotNone(__A ) def _snake_case ( ) -> Optional[int]: '''simple docstring''' lowerCAmelCase_ :List[str] = Image.open("""./tests/fixtures/tests_samples/COCO/000000039769.png""" ) return image @require_tf @require_vision class _SCREAMING_SNAKE_CASE ( unittest.TestCase ): @cached_property def __lowerCAmelCase ( self ) -> Tuple: return ( DeiTImageProcessor.from_pretrained("""facebook/deit-base-distilled-patch16-224""" ) if is_vision_available() else None ) @slow def __lowerCAmelCase ( self ) -> Any: lowerCAmelCase_ :Tuple = TFDeiTForImageClassificationWithTeacher.from_pretrained("""facebook/deit-base-distilled-patch16-224""" ) lowerCAmelCase_ :List[str] = self.default_image_processor lowerCAmelCase_ :int = prepare_img() lowerCAmelCase_ :Tuple = image_processor(images=__A , return_tensors="""tf""" ) # forward pass lowerCAmelCase_ :Tuple = model(**__A ) # verify the logits lowerCAmelCase_ :str = tf.TensorShape((1, 1000) ) self.assertEqual(outputs.logits.shape , __A ) lowerCAmelCase_ :Any = tf.constant([-1.0_2_6_6, 0.1_9_1_2, -1.2_8_6_1] ) self.assertTrue(np.allclose(outputs.logits[0, :3] , __A , atol=1E-4 ) )	1	"""simple docstring""" from .imports import is_tqdm_available if is_tqdm_available(): from tqdm.auto import tqdm as _tqdm from ..state import PartialState def _snake_case ( lowercase__ : bool = True , lowercase__ : Optional[int] , lowercase__ : str ) -> Optional[Any]: '''simple docstring''' if not is_tqdm_available(): raise ImportError("""Accelerate's `tqdm` module requires `tqdm` to be installed. Please run `pip install tqdm`.""" ) lowerCAmelCase_ :Tuple = False if main_process_only: lowerCAmelCase_ :Dict = PartialState().local_process_index == 0 return _tqdm(lowercase__ , **lowercase__ , disable=lowercase__ )	1	1
"""simple docstring""" from __future__ import annotations def lowerCamelCase_ (UpperCamelCase__ : list[int] ): if not nums: return 0 _UpperCAmelCase : int = nums[0] _UpperCAmelCase : Union[str, Any] = 0 for num in nums[1:]: _UpperCAmelCase , _UpperCAmelCase : Any = ( max_excluding + num, max(UpperCamelCase__ , UpperCamelCase__ ), ) return max(UpperCamelCase__ , UpperCamelCase__ ) if __name__ == "__main__": import doctest doctest.testmod()	263	"""simple docstring""" from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_flax_available, is_tf_available, is_tokenizers_available, is_torch_available, ) _lowerCAmelCase :List[Any] = {'configuration_opt': ['OPT_PRETRAINED_CONFIG_ARCHIVE_MAP', 'OPTConfig']} try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: _lowerCAmelCase :Any = [ 'OPT_PRETRAINED_MODEL_ARCHIVE_LIST', 'OPTForCausalLM', 'OPTModel', 'OPTPreTrainedModel', 'OPTForSequenceClassification', 'OPTForQuestionAnswering', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: _lowerCAmelCase :Optional[int] = ['TFOPTForCausalLM', 'TFOPTModel', 'TFOPTPreTrainedModel'] try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: _lowerCAmelCase :Any = [ 'FlaxOPTForCausalLM', 'FlaxOPTModel', 'FlaxOPTPreTrainedModel', ] if TYPE_CHECKING: from .configuration_opt import OPT_PRETRAINED_CONFIG_ARCHIVE_MAP, OPTConfig try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_opt import ( OPT_PRETRAINED_MODEL_ARCHIVE_LIST, OPTForCausalLM, OPTForQuestionAnswering, OPTForSequenceClassification, OPTModel, OPTPreTrainedModel, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_opt import TFOPTForCausalLM, TFOPTModel, TFOPTPreTrainedModel try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_flax_opt import FlaxOPTForCausalLM, FlaxOPTModel, FlaxOPTPreTrainedModel else: import sys _lowerCAmelCase :int = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)	263	1
class _SCREAMING_SNAKE_CASE : def __init__( self , lowercase ) -> None: lowerCamelCase_ = size lowerCamelCase_ = [0] * size lowerCamelCase_ = [0] * size @staticmethod def SCREAMING_SNAKE_CASE_( lowercase ) -> int: return index \| (index + 1) @staticmethod def SCREAMING_SNAKE_CASE_( lowercase ) -> int: return (index & (index + 1)) - 1 def SCREAMING_SNAKE_CASE_( self , lowercase , lowercase ) -> None: lowerCamelCase_ = value while index < self.size: lowerCamelCase_ = self.get_prev(lowercase ) + 1 if current_left_border == index: lowerCamelCase_ = value else: lowerCamelCase_ = max(lowercase , lowercase , lowercase ) lowerCamelCase_ = self.get_next(lowercase ) def SCREAMING_SNAKE_CASE_( self , lowercase , lowercase ) -> int: right -= 1 # Because of right is exclusive lowerCamelCase_ = 0 while left <= right: lowerCamelCase_ = self.get_prev(lowercase ) if left <= current_left: lowerCamelCase_ = max(lowercase , self.tree[right] ) lowerCamelCase_ = current_left else: lowerCamelCase_ = max(lowercase , self.arr[right] ) right -= 1 return result if __name__ == "__main__": import doctest doctest.testmod()	47	from __future__ import annotations def lowerCamelCase_ ( lowerCamelCase__ , lowerCamelCase__ ): lowerCamelCase_ = get_failure_array(lowerCamelCase__ ) # 2) Step through text searching for pattern lowerCamelCase_ , lowerCamelCase_ = 0, 0 # index into text, pattern while i < len(lowerCamelCase__ ): if pattern[j] == text[i]: if j == (len(lowerCamelCase__ ) - 1): return True j += 1 # if this is a prefix in our pattern # just go back far enough to continue elif j > 0: lowerCamelCase_ = failure[j - 1] continue i += 1 return False def lowerCamelCase_ ( lowerCamelCase__ ): lowerCamelCase_ = [0] lowerCamelCase_ = 0 lowerCamelCase_ = 1 while j < len(lowerCamelCase__ ): if pattern[i] == pattern[j]: i += 1 elif i > 0: lowerCamelCase_ = failure[i - 1] continue j += 1 failure.append(lowerCamelCase__ ) return failure if __name__ == "__main__": # Test 1) __A ='''abc1abc12''' __A ='''alskfjaldsabc1abc1abc12k23adsfabcabc''' __A ='''alskfjaldsk23adsfabcabc''' assert kmp(pattern, texta) and not kmp(pattern, texta) # Test 2) __A ='''ABABX''' __A ='''ABABZABABYABABX''' assert kmp(pattern, text) # Test 3) __A ='''AAAB''' __A ='''ABAAAAAB''' assert kmp(pattern, text) # Test 4) __A ='''abcdabcy''' __A ='''abcxabcdabxabcdabcdabcy''' assert kmp(pattern, text) # Test 5) __A ='''aabaabaaa''' assert get_failure_array(pattern) == [0, 1, 0, 1, 2, 3, 4, 5, 2]	47	1
from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_torch_available __UpperCamelCase : Tuple = { 'configuration_ctrl': ['CTRL_PRETRAINED_CONFIG_ARCHIVE_MAP', 'CTRLConfig'], 'tokenization_ctrl': ['CTRLTokenizer'], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: __UpperCamelCase : List[Any] = [ 'CTRL_PRETRAINED_MODEL_ARCHIVE_LIST', 'CTRLForSequenceClassification', 'CTRLLMHeadModel', 'CTRLModel', 'CTRLPreTrainedModel', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: __UpperCamelCase : Any = [ 'TF_CTRL_PRETRAINED_MODEL_ARCHIVE_LIST', 'TFCTRLForSequenceClassification', 'TFCTRLLMHeadModel', 'TFCTRLModel', 'TFCTRLPreTrainedModel', ] if TYPE_CHECKING: from .configuration_ctrl import CTRL_PRETRAINED_CONFIG_ARCHIVE_MAP, CTRLConfig from .tokenization_ctrl import CTRLTokenizer try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_ctrl import ( CTRL_PRETRAINED_MODEL_ARCHIVE_LIST, CTRLForSequenceClassification, CTRLLMHeadModel, CTRLModel, CTRLPreTrainedModel, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_ctrl import ( TF_CTRL_PRETRAINED_MODEL_ARCHIVE_LIST, TFCTRLForSequenceClassification, TFCTRLLMHeadModel, TFCTRLModel, TFCTRLPreTrainedModel, ) else: import sys __UpperCamelCase : Dict = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)	182	import os import tempfile import unittest from pathlib import Path from transformers import AutoConfig, is_tf_available from transformers.testing_utils import require_tf if is_tf_available(): import tensorflow as tf from transformers import TensorFlowBenchmark, TensorFlowBenchmarkArguments @require_tf class lowercase__ ( unittest.TestCase): def __A ( self : str , UpperCamelCase__ : int ): '''simple docstring''' for model_result in results.values(): for batch_size, sequence_length in zip(model_result['''bs'''] , model_result['''ss'''] ): SCREAMING_SNAKE_CASE : Union[str, Any] = model_result['''result'''][batch_size][sequence_length] self.assertIsNotNone(UpperCamelCase__ ) def __A ( self : Optional[Any] ): '''simple docstring''' SCREAMING_SNAKE_CASE : List[Any] = '''sshleifer/tiny-gpt2''' SCREAMING_SNAKE_CASE : List[Any] = TensorFlowBenchmarkArguments( models=[MODEL_ID] , training=UpperCamelCase__ , inference=UpperCamelCase__ , sequence_lengths=[8] , batch_sizes=[1] , eager_mode=UpperCamelCase__ , multi_process=UpperCamelCase__ , ) SCREAMING_SNAKE_CASE : str = TensorFlowBenchmark(UpperCamelCase__ ) SCREAMING_SNAKE_CASE : List[Any] = benchmark.run() self.check_results_dict_not_empty(results.time_inference_result ) self.check_results_dict_not_empty(results.memory_inference_result ) def __A ( self : List[str] ): '''simple docstring''' SCREAMING_SNAKE_CASE : str = '''sgugger/tiny-distilbert-classification''' SCREAMING_SNAKE_CASE : Union[str, Any] = TensorFlowBenchmarkArguments( models=[MODEL_ID] , training=UpperCamelCase__ , inference=UpperCamelCase__ , sequence_lengths=[8] , batch_sizes=[1] , multi_process=UpperCamelCase__ , only_pretrain_model=UpperCamelCase__ , ) SCREAMING_SNAKE_CASE : List[str] = TensorFlowBenchmark(UpperCamelCase__ ) SCREAMING_SNAKE_CASE : Optional[Any] = benchmark.run() self.check_results_dict_not_empty(results.time_inference_result ) self.check_results_dict_not_empty(results.memory_inference_result ) def __A ( self : Any ): '''simple docstring''' SCREAMING_SNAKE_CASE : Union[str, Any] = '''sshleifer/tiny-gpt2''' SCREAMING_SNAKE_CASE : int = TensorFlowBenchmarkArguments( models=[MODEL_ID] , training=UpperCamelCase__ , inference=UpperCamelCase__ , sequence_lengths=[8] , batch_sizes=[1] , multi_process=UpperCamelCase__ , ) SCREAMING_SNAKE_CASE : Union[str, Any] = TensorFlowBenchmark(UpperCamelCase__ ) SCREAMING_SNAKE_CASE : int = benchmark.run() self.check_results_dict_not_empty(results.time_inference_result ) self.check_results_dict_not_empty(results.memory_inference_result ) def __A ( self : Optional[Any] ): '''simple docstring''' SCREAMING_SNAKE_CASE : Optional[int] = '''sshleifer/tiny-gpt2''' SCREAMING_SNAKE_CASE : int = AutoConfig.from_pretrained(UpperCamelCase__ ) SCREAMING_SNAKE_CASE : Optional[int] = TensorFlowBenchmarkArguments( models=[MODEL_ID] , training=UpperCamelCase__ , inference=UpperCamelCase__ , sequence_lengths=[8] , batch_sizes=[1] , eager_mode=UpperCamelCase__ , multi_process=UpperCamelCase__ , ) SCREAMING_SNAKE_CASE : str = TensorFlowBenchmark(UpperCamelCase__ , [config] ) SCREAMING_SNAKE_CASE : Optional[int] = benchmark.run() self.check_results_dict_not_empty(results.time_inference_result ) self.check_results_dict_not_empty(results.memory_inference_result ) def __A ( self : int ): '''simple docstring''' SCREAMING_SNAKE_CASE : Dict = '''sshleifer/tiny-gpt2''' SCREAMING_SNAKE_CASE : Optional[int] = AutoConfig.from_pretrained(UpperCamelCase__ ) SCREAMING_SNAKE_CASE : Optional[Any] = TensorFlowBenchmarkArguments( models=[MODEL_ID] , training=UpperCamelCase__ , inference=UpperCamelCase__ , sequence_lengths=[8] , batch_sizes=[1] , multi_process=UpperCamelCase__ , ) SCREAMING_SNAKE_CASE : List[str] = TensorFlowBenchmark(UpperCamelCase__ , [config] ) SCREAMING_SNAKE_CASE : int = benchmark.run() self.check_results_dict_not_empty(results.time_inference_result ) self.check_results_dict_not_empty(results.memory_inference_result ) def __A ( self : List[Any] ): '''simple docstring''' SCREAMING_SNAKE_CASE : str = '''sshleifer/tiny-gpt2''' SCREAMING_SNAKE_CASE : int = TensorFlowBenchmarkArguments( models=[MODEL_ID] , training=UpperCamelCase__ , inference=UpperCamelCase__ , sequence_lengths=[8] , batch_sizes=[1] , multi_process=UpperCamelCase__ , ) SCREAMING_SNAKE_CASE : Optional[int] = TensorFlowBenchmark(UpperCamelCase__ ) SCREAMING_SNAKE_CASE : Tuple = benchmark.run() self.check_results_dict_not_empty(results.time_train_result ) self.check_results_dict_not_empty(results.memory_train_result ) def __A ( self : Optional[Any] ): '''simple docstring''' SCREAMING_SNAKE_CASE : List[str] = '''sshleifer/tiny-gpt2''' SCREAMING_SNAKE_CASE : int = AutoConfig.from_pretrained(UpperCamelCase__ ) SCREAMING_SNAKE_CASE : Tuple = TensorFlowBenchmarkArguments( models=[MODEL_ID] , training=UpperCamelCase__ , inference=UpperCamelCase__ , sequence_lengths=[8] , batch_sizes=[1] , multi_process=UpperCamelCase__ , ) SCREAMING_SNAKE_CASE : Dict = TensorFlowBenchmark(UpperCamelCase__ , [config] ) SCREAMING_SNAKE_CASE : str = benchmark.run() self.check_results_dict_not_empty(results.time_train_result ) self.check_results_dict_not_empty(results.memory_train_result ) def __A ( self : Optional[int] ): '''simple docstring''' SCREAMING_SNAKE_CASE : List[str] = '''patrickvonplaten/t5-tiny-random''' SCREAMING_SNAKE_CASE : Union[str, Any] = AutoConfig.from_pretrained(UpperCamelCase__ ) SCREAMING_SNAKE_CASE : Union[str, Any] = TensorFlowBenchmarkArguments( models=[MODEL_ID] , training=UpperCamelCase__ , inference=UpperCamelCase__ , sequence_lengths=[8] , batch_sizes=[1] , multi_process=UpperCamelCase__ , ) SCREAMING_SNAKE_CASE : Dict = TensorFlowBenchmark(UpperCamelCase__ , configs=[config] ) SCREAMING_SNAKE_CASE : Dict = benchmark.run() self.check_results_dict_not_empty(results.time_inference_result ) self.check_results_dict_not_empty(results.memory_inference_result ) @unittest.skipIf(is_tf_available() and len(tf.config.list_physical_devices('''GPU''' ) ) == 0 , '''Cannot do xla on CPU.''' ) def __A ( self : Optional[int] ): '''simple docstring''' SCREAMING_SNAKE_CASE : Optional[Any] = '''sshleifer/tiny-gpt2''' SCREAMING_SNAKE_CASE : Tuple = TensorFlowBenchmarkArguments( models=[MODEL_ID] , training=UpperCamelCase__ , inference=UpperCamelCase__ , sequence_lengths=[8] , batch_sizes=[1] , use_xla=UpperCamelCase__ , multi_process=UpperCamelCase__ , ) SCREAMING_SNAKE_CASE : Any = TensorFlowBenchmark(UpperCamelCase__ ) SCREAMING_SNAKE_CASE : List[Any] = benchmark.run() self.check_results_dict_not_empty(results.time_inference_result ) self.check_results_dict_not_empty(results.memory_inference_result ) def __A ( self : List[str] ): '''simple docstring''' SCREAMING_SNAKE_CASE : Optional[int] = '''sshleifer/tiny-gpt2''' with tempfile.TemporaryDirectory() as tmp_dir: SCREAMING_SNAKE_CASE : Tuple = TensorFlowBenchmarkArguments( models=[MODEL_ID] , inference=UpperCamelCase__ , save_to_csv=UpperCamelCase__ , sequence_lengths=[8] , batch_sizes=[1] , inference_time_csv_file=os.path.join(UpperCamelCase__ , '''inf_time.csv''' ) , inference_memory_csv_file=os.path.join(UpperCamelCase__ , '''inf_mem.csv''' ) , env_info_csv_file=os.path.join(UpperCamelCase__ , '''env.csv''' ) , multi_process=UpperCamelCase__ , ) SCREAMING_SNAKE_CASE : Optional[Any] = TensorFlowBenchmark(UpperCamelCase__ ) benchmark.run() self.assertTrue(Path(os.path.join(UpperCamelCase__ , '''inf_time.csv''' ) ).exists() ) self.assertTrue(Path(os.path.join(UpperCamelCase__ , '''inf_mem.csv''' ) ).exists() ) self.assertTrue(Path(os.path.join(UpperCamelCase__ , '''env.csv''' ) ).exists() ) def __A ( self : int ): '''simple docstring''' SCREAMING_SNAKE_CASE : Any = '''sshleifer/tiny-gpt2''' def _check_summary_is_not_empty(UpperCamelCase__ : Dict ): self.assertTrue(hasattr(UpperCamelCase__ , '''sequential''' ) ) self.assertTrue(hasattr(UpperCamelCase__ , '''cumulative''' ) ) self.assertTrue(hasattr(UpperCamelCase__ , '''current''' ) ) self.assertTrue(hasattr(UpperCamelCase__ , '''total''' ) ) with tempfile.TemporaryDirectory() as tmp_dir: SCREAMING_SNAKE_CASE : List[str] = TensorFlowBenchmarkArguments( models=[MODEL_ID] , inference=UpperCamelCase__ , sequence_lengths=[8] , batch_sizes=[1] , log_filename=os.path.join(UpperCamelCase__ , '''log.txt''' ) , log_print=UpperCamelCase__ , trace_memory_line_by_line=UpperCamelCase__ , eager_mode=UpperCamelCase__ , multi_process=UpperCamelCase__ , ) SCREAMING_SNAKE_CASE : List[Any] = TensorFlowBenchmark(UpperCamelCase__ ) SCREAMING_SNAKE_CASE : Dict = benchmark.run() _check_summary_is_not_empty(result.inference_summary ) self.assertTrue(Path(os.path.join(UpperCamelCase__ , '''log.txt''' ) ).exists() )	182	1
import argparse import math import traceback import dateutil.parser as date_parser import requests def UpperCAmelCase ( _lowerCamelCase ): A : Union[str, Any] = {} A : Union[str, Any] = job["started_at"] A : Tuple = job["completed_at"] A : List[Any] = date_parser.parse(_lowerCamelCase ) A : str = date_parser.parse(_lowerCamelCase ) A : str = round((end_datetime - start_datetime).total_seconds() / 60.0 ) A : int = start A : Tuple = end A : Dict = duration_in_min return job_info def UpperCAmelCase ( _lowerCamelCase , _lowerCamelCase=None ): A : Any = None if token is not None: A : str = {"Accept": "application/vnd.github+json", "Authorization": f"""Bearer {token}"""} A : Union[str, Any] = f"""https://api.github.com/repos/huggingface/transformers/actions/runs/{workflow_run_id}/jobs?per_page=100""" A : Optional[int] = requests.get(_lowerCamelCase , headers=_lowerCamelCase ).json() A : Any = {} try: job_time.update({job["name"]: extract_time_from_single_job(_lowerCamelCase ) for job in result["jobs"]} ) A : List[Any] = math.ceil((result["total_count"] - 100) / 100 ) for i in range(_lowerCamelCase ): A : str = requests.get(url + f"""&page={i + 2}""" , headers=_lowerCamelCase ).json() job_time.update({job["name"]: extract_time_from_single_job(_lowerCamelCase ) for job in result["jobs"]} ) return job_time except Exception: print(f"""Unknown error, could not fetch links:\n{traceback.format_exc()}""" ) return {} if __name__ == "__main__": __SCREAMING_SNAKE_CASE = argparse.ArgumentParser() # Required parameters parser.add_argument("""--workflow_run_id""", type=str, required=True, help="""A GitHub Actions workflow run id.""") __SCREAMING_SNAKE_CASE = parser.parse_args() __SCREAMING_SNAKE_CASE = get_job_time(args.workflow_run_id) __SCREAMING_SNAKE_CASE = dict(sorted(job_time.items(), key=lambda item: item[1]["duration"], reverse=True)) for k, v in job_time.items(): print(F"""{k}: {v['duration']}""")	256	import numpy as np import torch import torch.nn as nn from transformers import CLIPConfig, CLIPVisionModelWithProjection, PreTrainedModel from ...utils import logging __SCREAMING_SNAKE_CASE = logging.get_logger(__name__) class lowerCamelCase_ ( _A ): '''simple docstring''' a__ = CLIPConfig a__ = ["CLIPEncoderLayer"] def __init__( self : Optional[Any] , __lowerCamelCase : CLIPConfig ) -> Tuple: super().__init__(__lowerCamelCase ) A : List[Any] = CLIPVisionModelWithProjection(config.vision_config ) A : List[str] = nn.Linear(config.vision_config.projection_dim , 1 ) A : Optional[Any] = nn.Linear(config.vision_config.projection_dim , 1 ) @torch.no_grad() def SCREAMING_SNAKE_CASE__ ( self : str , __lowerCamelCase : Union[str, Any] , __lowerCamelCase : Dict , __lowerCamelCase : Union[str, Any]=0.5 , __lowerCamelCase : Dict=0.5 ) -> Optional[int]: A : List[str] = self.vision_model(__lowerCamelCase )[0] A : Dict = self.p_head(__lowerCamelCase ) A : Dict = nsfw_detected.flatten() A : Any = nsfw_detected > p_threshold A : Optional[int] = nsfw_detected.tolist() if any(__lowerCamelCase ): logger.warning( "Potential NSFW content was detected in one or more images. A black image will be returned instead." " Try again with a different prompt and/or seed." ) for idx, nsfw_detected_ in enumerate(__lowerCamelCase ): if nsfw_detected_: A : List[str] = np.zeros(images[idx].shape ) A : List[str] = self.w_head(__lowerCamelCase ) A : str = watermark_detected.flatten() A : List[Any] = watermark_detected > w_threshold A : List[Any] = watermark_detected.tolist() if any(__lowerCamelCase ): logger.warning( "Potential watermarked content was detected in one or more images. A black image will be returned instead." " Try again with a different prompt and/or seed." ) for idx, watermark_detected_ in enumerate(__lowerCamelCase ): if watermark_detected_: A : List[str] = np.zeros(images[idx].shape ) return images, nsfw_detected, watermark_detected	256	1
import os import re import shutil import sys import tempfile import unittest import black _a = os.path.abspath(os.path.dirname(os.path.dirname(os.path.dirname(__file__)))) sys.path.append(os.path.join(git_repo_path, '''utils''')) import check_copies # noqa: E402 # This is the reference code that will be used in the tests. # If BertLMPredictionHead is changed in modeling_bert.py, this code needs to be manually updated. _a = ''' def __init__(self, config): super().__init__() self.transform = BertPredictionHeadTransform(config) # The output weights are the same as the input embeddings, but there is # an output-only bias for each token. self.decoder = nn.Linear(config.hidden_size, config.vocab_size, bias=False) self.bias = nn.Parameter(torch.zeros(config.vocab_size)) # Need a link between the two variables so that the bias is correctly resized with `resize_token_embeddings` self.decoder.bias = self.bias def forward(self, hidden_states): hidden_states = self.transform(hidden_states) hidden_states = self.decoder(hidden_states) return hidden_states ''' class A_ ( unittest.TestCase ): def UpperCAmelCase ( self : Optional[int] ) -> str: __lowerCAmelCase: List[str] = tempfile.mkdtemp() os.makedirs(os.path.join(self.transformer_dir , 'models/bert/' ) ) __lowerCAmelCase: Optional[Any] = self.transformer_dir shutil.copy( os.path.join(UpperCAmelCase , 'src/transformers/models/bert/modeling_bert.py' ) , os.path.join(self.transformer_dir , 'models/bert/modeling_bert.py' ) , ) def UpperCAmelCase ( self : Optional[Any] ) -> Any: __lowerCAmelCase: List[str] = 'src/transformers' shutil.rmtree(self.transformer_dir ) def UpperCAmelCase ( self : List[Any] , UpperCAmelCase : Optional[Any] , UpperCAmelCase : Optional[Any] , UpperCAmelCase : List[Any] , UpperCAmelCase : Dict=None ) -> Union[str, Any]: __lowerCAmelCase: str = comment + F'''\nclass {class_name}(nn.Module):\n''' + class_code if overwrite_result is not None: __lowerCAmelCase: str = comment + F'''\nclass {class_name}(nn.Module):\n''' + overwrite_result __lowerCAmelCase: Union[str, Any] = black.Mode(target_versions={black.TargetVersion.PYaa} , line_length=1_1_9 ) __lowerCAmelCase: Optional[int] = black.format_str(UpperCAmelCase , mode=UpperCAmelCase ) __lowerCAmelCase: Union[str, Any] = os.path.join(self.transformer_dir , 'new_code.py' ) with open(UpperCAmelCase , 'w' , newline='\n' ) as f: f.write(UpperCAmelCase ) if overwrite_result is None: self.assertTrue(len(check_copies.is_copy_consistent(UpperCAmelCase ) ) == 0 ) else: check_copies.is_copy_consistent(f.name , overwrite=UpperCAmelCase ) with open(UpperCAmelCase , 'r' ) as f: self.assertTrue(f.read() , UpperCAmelCase ) def UpperCAmelCase ( self : Union[str, Any] ) -> List[Any]: __lowerCAmelCase: List[Any] = check_copies.find_code_in_transformers('models.bert.modeling_bert.BertLMPredictionHead' ) self.assertEqual(UpperCAmelCase , UpperCAmelCase ) def UpperCAmelCase ( self : List[Any] ) -> Optional[int]: # Base copy consistency self.check_copy_consistency( '# Copied from transformers.models.bert.modeling_bert.BertLMPredictionHead' , 'BertLMPredictionHead' , REFERENCE_CODE + '\n' , ) # With no empty line at the end self.check_copy_consistency( '# Copied from transformers.models.bert.modeling_bert.BertLMPredictionHead' , 'BertLMPredictionHead' , UpperCAmelCase , ) # Copy consistency with rename self.check_copy_consistency( '# Copied from transformers.models.bert.modeling_bert.BertLMPredictionHead with Bert->TestModel' , 'TestModelLMPredictionHead' , re.sub('Bert' , 'TestModel' , UpperCAmelCase ) , ) # Copy consistency with a really long name __lowerCAmelCase: Any = 'TestModelWithAReallyLongNameBecauseSomePeopleLikeThatForSomeReason' self.check_copy_consistency( F'''# Copied from transformers.models.bert.modeling_bert.BertLMPredictionHead with Bert->{long_class_name}''' , F'''{long_class_name}LMPredictionHead''' , re.sub('Bert' , UpperCAmelCase , UpperCAmelCase ) , ) # Copy consistency with overwrite self.check_copy_consistency( '# Copied from transformers.models.bert.modeling_bert.BertLMPredictionHead with Bert->TestModel' , 'TestModelLMPredictionHead' , UpperCAmelCase , overwrite_result=re.sub('Bert' , 'TestModel' , UpperCAmelCase ) , ) def UpperCAmelCase ( self : Any ) -> int: __lowerCAmelCase: str = check_copies.LOCALIZED_READMES['README_zh-hans.md'] __lowerCAmelCase: Dict = ( '1. [ALBERT](https://huggingface.co/transformers/model_doc/albert.html) (from Google Research and the' ' Toyota Technological Institute at Chicago) released with the paper [ALBERT: A Lite BERT for' ' Self-supervised Learning of Language Representations](https://arxiv.org/abs/1909.11942), by Zhenzhong' ' Lan, Mingda Chen, Sebastian Goodman, Kevin Gimpel, Piyush Sharma, Radu Soricut.\n1.' ' [DistilBERT](https://huggingface.co/transformers/model_doc/distilbert.html) (from HuggingFace),' ' released together with the paper [DistilBERT, a distilled version of BERT: smaller, faster, cheaper and' ' lighter](https://arxiv.org/abs/1910.01108) by Victor Sanh, Lysandre Debut and Thomas Wolf. The same' ' method has been applied to compress GPT2 into' ' [DistilGPT2](https://github.com/huggingface/transformers/tree/main/examples/distillation), RoBERTa into' ' [DistilRoBERTa](https://github.com/huggingface/transformers/tree/main/examples/distillation),' ' Multilingual BERT into' ' [DistilmBERT](https://github.com/huggingface/transformers/tree/main/examples/distillation) and a German' ' version of DistilBERT.\n1. [ELECTRA](https://huggingface.co/transformers/model_doc/electra.html)' ' (from Google Research/Stanford University) released with the paper [ELECTRA: Pre-training text encoders' ' as discriminators rather than generators](https://arxiv.org/abs/2003.10555) by Kevin Clark, Minh-Thang' ' Luong, Quoc V. Le, Christopher D. Manning.' ) __lowerCAmelCase: List[str] = ( '1. [ALBERT](https://huggingface.co/transformers/model_doc/albert.html) (来自 Google Research and the' ' Toyota Technological Institute at Chicago) 伴随论文 [ALBERT: A Lite BERT for Self-supervised Learning of' ' Language Representations](https://arxiv.org/abs/1909.11942), 由 Zhenzhong Lan, Mingda Chen, Sebastian' ' Goodman, Kevin Gimpel, Piyush Sharma, Radu Soricut 发布。\n' ) __lowerCAmelCase: Union[str, Any] = ( '1. [ALBERT](https://huggingface.co/transformers/model_doc/albert.html) (来自 Google Research and the' ' Toyota Technological Institute at Chicago) 伴随论文 [ALBERT: A Lite BERT for Self-supervised Learning of' ' Language Representations](https://arxiv.org/abs/1909.11942), 由 Zhenzhong Lan, Mingda Chen, Sebastian' ' Goodman, Kevin Gimpel, Piyush Sharma, Radu Soricut 发布。\n1.' ' [DistilBERT](https://huggingface.co/transformers/model_doc/distilbert.html) (来自 HuggingFace) 伴随论文' ' [DistilBERT, a distilled version of BERT: smaller, faster, cheaper and' ' lighter](https://arxiv.org/abs/1910.01108) 由 Victor Sanh, Lysandre Debut and Thomas Wolf 发布。 The same' ' method has been applied to compress GPT2 into' ' [DistilGPT2](https://github.com/huggingface/transformers/tree/main/examples/distillation), RoBERTa into' ' [DistilRoBERTa](https://github.com/huggingface/transformers/tree/main/examples/distillation),' ' Multilingual BERT into' ' [DistilmBERT](https://github.com/huggingface/transformers/tree/main/examples/distillation) and a German' ' version of DistilBERT.\n1. [ELECTRA](https://huggingface.co/transformers/model_doc/electra.html) (来自' ' Google Research/Stanford University) 伴随论文 [ELECTRA: Pre-training text encoders as discriminators rather' ' than generators](https://arxiv.org/abs/2003.10555) 由 Kevin Clark, Minh-Thang Luong, Quoc V. Le,' ' Christopher D. Manning 发布。\n' ) __lowerCAmelCase , __lowerCAmelCase: Tuple = check_copies.convert_to_localized_md( UpperCAmelCase , UpperCAmelCase , localized_readme['format_model_list'] ) self.assertFalse(UpperCAmelCase ) self.assertEqual(UpperCAmelCase , UpperCAmelCase ) __lowerCAmelCase , __lowerCAmelCase: List[str] = check_copies.convert_to_localized_md( UpperCAmelCase , UpperCAmelCase , localized_readme['format_model_list'] ) # Check whether the number of models is equal to README.md after conversion. self.assertTrue(UpperCAmelCase ) __lowerCAmelCase: Any = ( '1. [ALBERT](https://huggingface.co/transformers/model_doc/albert.html) (from Google Research and the' ' Toyota Technological Institute at Chicago) released with the paper [ALBERT: A Lite BERT for' ' Self-supervised Learning of Language Representations](https://arxiv.org/abs/1909.11942), by Zhenzhong' ' Lan, Mingda Chen, Sebastian Goodman, Kevin Gimpel, Piyush Sharma, Radu Soricut.' ) __lowerCAmelCase: Any = ( '1. [ALBERT](https://huggingface.co/transformers/main/model_doc/albert.html) (来自 Google Research and' ' the Toyota Technological Institute at Chicago) 伴随论文 [ALBERT: A Lite BERT for Self-supervised Learning of' ' Language Representations](https://arxiv.org/abs/1909.11942), 由 Zhenzhong Lan, Mingda Chen, Sebastian' ' Goodman, Kevin Gimpel, Piyush Sharma, Radu Soricut 发布。\n' ) __lowerCAmelCase: Dict = ( '1. [ALBERT](https://huggingface.co/transformers/model_doc/albert.html) (来自 Google Research and the' ' Toyota Technological Institute at Chicago) 伴随论文 [ALBERT: A Lite BERT for Self-supervised Learning of' ' Language Representations](https://arxiv.org/abs/1909.11942), 由 Zhenzhong Lan, Mingda Chen, Sebastian' ' Goodman, Kevin Gimpel, Piyush Sharma, Radu Soricut 发布。\n' ) __lowerCAmelCase , __lowerCAmelCase: str = check_copies.convert_to_localized_md( UpperCAmelCase , UpperCAmelCase , localized_readme['format_model_list'] ) # Check if the model link is synchronized. self.assertEqual(UpperCAmelCase , UpperCAmelCase )	322	import os from datetime import datetime as dt from github import Github _a = [ '''good first issue''', '''feature request''', '''wip''', ] def _a ( ) -> List[Any]: """simple docstring""" __lowerCAmelCase: Dict = Github(os.environ['GITHUB_TOKEN'] ) __lowerCAmelCase: Tuple = g.get_repo('huggingface/accelerate' ) __lowerCAmelCase: str = repo.get_issues(state='open' ) for issue in open_issues: __lowerCAmelCase: Optional[int] = sorted([comment for comment in issue.get_comments()] , key=lambda SCREAMING_SNAKE_CASE : i.created_at , reverse=SCREAMING_SNAKE_CASE ) __lowerCAmelCase: Dict = comments[0] if len(SCREAMING_SNAKE_CASE ) > 0 else None __lowerCAmelCase: Tuple = dt.utcnow() __lowerCAmelCase: Optional[int] = (current_time - issue.updated_at).days __lowerCAmelCase: str = (current_time - issue.created_at).days if ( last_comment is not None and last_comment.user.login == "github-actions[bot]" and days_since_updated > 7 and days_since_creation >= 30 and not any(label.name.lower() in LABELS_TO_EXEMPT for label in issue.get_labels() ) ): # Close issue since it has been 7 days of inactivity since bot mention. issue.edit(state='closed' ) elif ( days_since_updated > 23 and days_since_creation >= 30 and not any(label.name.lower() in LABELS_TO_EXEMPT for label in issue.get_labels() ) ): # Add stale comment issue.create_comment( 'This issue has been automatically marked as stale because it has not had ' 'recent activity. If you think this still needs to be addressed ' 'please comment on this thread.\n\nPlease note that issues that do not follow the ' '[contributing guidelines](https://github.com/huggingface/accelerate/blob/main/CONTRIBUTING.md) ' 'are likely to be ignored.' ) if __name__ == "__main__": main()	322	1
'''simple docstring''' # Copyright 2022 The HuggingFace Team. All rights reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import argparse import os import platform import numpy as np import psutil import torch from accelerate import __version__ as version from accelerate.commands.config import default_config_file, load_config_from_file from ..utils import is_npu_available, is_xpu_available def lowerCamelCase ( lowerCAmelCase : Optional[int]=None ): """simple docstring""" if subparsers is not None: __magic_name__ : Tuple = subparsers.add_parser('env' ) else: __magic_name__ : Union[str, Any] = argparse.ArgumentParser('Accelerate env command' ) parser.add_argument( '--config_file' , default=lowerCAmelCase , help='The config file to use for the default values in the launching script.' ) if subparsers is not None: parser.set_defaults(func=lowerCAmelCase ) return parser def lowerCamelCase ( lowerCAmelCase : List[Any] ): """simple docstring""" __magic_name__ : Union[str, Any] = torch.__version__ __magic_name__ : str = torch.cuda.is_available() __magic_name__ : Dict = is_xpu_available() __magic_name__ : Optional[Any] = is_npu_available() __magic_name__ : List[Any] = 'Not found' # Get the default from the config file. if args.config_file is not None or os.path.isfile(lowerCAmelCase ): __magic_name__ : Dict = load_config_from_file(args.config_file ).to_dict() __magic_name__ : List[Any] = { '`Accelerate` version': version, 'Platform': platform.platform(), 'Python version': platform.python_version(), 'Numpy version': np.__version__, 'PyTorch version (GPU?)': f'{pt_version} ({pt_cuda_available})', 'PyTorch XPU available': str(lowerCAmelCase ), 'PyTorch NPU available': str(lowerCAmelCase ), 'System RAM': f'{psutil.virtual_memory().total / 1024 ** 3:.2f} GB', } if pt_cuda_available: __magic_name__ : List[Any] = torch.cuda.get_device_name() print('\nCopy-and-paste the text below in your GitHub issue\n' ) print('\n'.join([f'- {prop}: {val}' for prop, val in info.items()] ) ) print('- `Accelerate` default config:' if args.config_file is None else '- `Accelerate` config passed:' ) __magic_name__ : Any = ( '\n'.join([f'\t- {prop}: {val}' for prop, val in accelerate_config.items()] ) if isinstance(lowerCAmelCase , lowerCAmelCase ) else f'\t{accelerate_config}' ) print(lowerCAmelCase ) __magic_name__ : str = accelerate_config return info def lowerCamelCase ( ): """simple docstring""" __magic_name__ : Optional[int] = env_command_parser() __magic_name__ : Tuple = parser.parse_args() env_command(lowerCAmelCase ) return 0 if __name__ == "__main__": raise SystemExit(main())	275	'''simple docstring''' # tests directory-specific settings - this file is run automatically # by pytest before any tests are run import doctest import sys import warnings from os.path import abspath, dirname, join import _pytest from transformers.testing_utils import HfDoctestModule, HfDocTestParser # allow having multiple repository checkouts and not needing to remember to rerun # 'pip install -e .[dev]' when switching between checkouts and running tests. lowerCAmelCase :Optional[int] = abspath(join(dirname(__file__), '''src''')) sys.path.insert(1, git_repo_path) # silence FutureWarning warnings in tests since often we can't act on them until # they become normal warnings - i.e. the tests still need to test the current functionality warnings.simplefilter(action='''ignore''', category=FutureWarning) def lowerCamelCase ( lowerCAmelCase : Tuple ): """simple docstring""" config.addinivalue_line( 'markers' , 'is_pt_tf_cross_test: mark test to run only when PT and TF interactions are tested' ) config.addinivalue_line( 'markers' , 'is_pt_flax_cross_test: mark test to run only when PT and FLAX interactions are tested' ) config.addinivalue_line('markers' , 'is_pipeline_test: mark test to run only when pipelines are tested' ) config.addinivalue_line('markers' , 'is_staging_test: mark test to run only in the staging environment' ) config.addinivalue_line('markers' , 'accelerate_tests: mark test that require accelerate' ) config.addinivalue_line('markers' , 'tool_tests: mark the tool tests that are run on their specific schedule' ) def lowerCamelCase ( lowerCAmelCase : Any ): """simple docstring""" from transformers.testing_utils import pytest_addoption_shared pytest_addoption_shared(lowerCAmelCase ) def lowerCamelCase ( lowerCAmelCase : Dict ): """simple docstring""" from transformers.testing_utils import pytest_terminal_summary_main __magic_name__ : Tuple = terminalreporter.config.getoption('--make-reports' ) if make_reports: pytest_terminal_summary_main(lowerCAmelCase , id=lowerCAmelCase ) def lowerCamelCase ( lowerCAmelCase : List[Any] , lowerCAmelCase : Tuple ): """simple docstring""" if exitstatus == 5: __magic_name__ : Any = 0 # Doctest custom flag to ignore output. lowerCAmelCase :List[str] = doctest.register_optionflag('''IGNORE_RESULT''') lowerCAmelCase :Union[str, Any] = doctest.OutputChecker class _lowerCamelCase ( lowercase__ ): '''simple docstring''' def __lowerCAmelCase ( self : List[str] , _A : Tuple , _A : Tuple , _A : str ) -> int: if IGNORE_RESULT & optionflags: return True return OutputChecker.check_output(self , _A , _A , _A ) lowerCAmelCase :Optional[Any] = CustomOutputChecker lowerCAmelCase :int = HfDoctestModule lowerCAmelCase :Any = HfDocTestParser	275	1
from __future__ import annotations import queue class UpperCamelCase_ : '''simple docstring''' def __init__( self : str , UpperCAmelCase__ : str) ->Tuple: '''simple docstring''' A__ = data A__ = None A__ = None def SCREAMING_SNAKE_CASE ( ) -> TreeNode: """simple docstring""" print('''\n******Press N to stop entering at any point of time*****\n''' ) A__ = input('''Enter the value of the root node: ''' ).strip().lower() A__ = queue.Queue() A__ = TreeNode(int(lowercase_ ) ) q.put(lowercase_ ) while not q.empty(): A__ = q.get() A__ = f"""Enter the left node of {node_found.data}: """ A__ = input(lowercase_ ).strip().lower() or '''n''' if check == "n": return tree_node A__ = TreeNode(int(lowercase_ ) ) A__ = left_node q.put(lowercase_ ) A__ = f"""Enter the right node of {node_found.data}: """ A__ = input(lowercase_ ).strip().lower() or '''n''' if check == "n": return tree_node A__ = TreeNode(int(lowercase_ ) ) A__ = right_node q.put(lowercase_ ) raise def SCREAMING_SNAKE_CASE ( lowercase_ ) -> None: """simple docstring""" if not isinstance(lowercase_ , lowercase_ ) or not node: return print(node.data , end=''',''' ) pre_order(node.left ) pre_order(node.right ) def SCREAMING_SNAKE_CASE ( lowercase_ ) -> None: """simple docstring""" if not isinstance(lowercase_ , lowercase_ ) or not node: return in_order(node.left ) print(node.data , end=''',''' ) in_order(node.right ) def SCREAMING_SNAKE_CASE ( lowercase_ ) -> None: """simple docstring""" if not isinstance(lowercase_ , lowercase_ ) or not node: return post_order(node.left ) post_order(node.right ) print(node.data , end=''',''' ) def SCREAMING_SNAKE_CASE ( lowercase_ ) -> None: """simple docstring""" if not isinstance(lowercase_ , lowercase_ ) or not node: return A__ = queue.Queue() q.put(lowercase_ ) while not q.empty(): A__ = q.get() print(node_dequeued.data , end=''',''' ) if node_dequeued.left: q.put(node_dequeued.left ) if node_dequeued.right: q.put(node_dequeued.right ) def SCREAMING_SNAKE_CASE ( lowercase_ ) -> None: """simple docstring""" if not isinstance(lowercase_ , lowercase_ ) or not node: return A__ = queue.Queue() q.put(lowercase_ ) while not q.empty(): A__ = [] while not q.empty(): A__ = q.get() print(node_dequeued.data , end=''',''' ) if node_dequeued.left: list_.append(node_dequeued.left ) if node_dequeued.right: list_.append(node_dequeued.right ) print() for node in list_: q.put(lowercase_ ) def SCREAMING_SNAKE_CASE ( lowercase_ ) -> None: """simple docstring""" if not isinstance(lowercase_ , lowercase_ ) or not node: return A__ = [] A__ = node while n or stack: while n: # start from root node, find its left child print(n.data , end=''',''' ) stack.append(lowercase_ ) A__ = n.left # end of while means current node doesn't have left child A__ = stack.pop() # start to traverse its right child A__ = n.right def SCREAMING_SNAKE_CASE ( lowercase_ ) -> None: """simple docstring""" if not isinstance(lowercase_ , lowercase_ ) or not node: return A__ = [] A__ = node while n or stack: while n: stack.append(lowercase_ ) A__ = n.left A__ = stack.pop() print(n.data , end=''',''' ) A__ = n.right def SCREAMING_SNAKE_CASE ( lowercase_ ) -> None: """simple docstring""" if not isinstance(lowercase_ , lowercase_ ) or not node: return A__ , A__ = [], [] A__ = node stacka.append(lowercase_ ) while stacka: # to find the reversed order of post order, store it in stack2 A__ = stacka.pop() if n.left: stacka.append(n.left ) if n.right: stacka.append(n.right ) stacka.append(lowercase_ ) while stacka: # pop up from stack2 will be the post order print(stacka.pop().data , end=''',''' ) def SCREAMING_SNAKE_CASE ( lowercase_ = "" , lowercase_=50 , lowercase_="" ) -> str: """simple docstring""" if not s: return "\n" + width * char A__ , A__ = divmod(width - len(lowercase_ ) - 2 , 2 ) return f"""{left * char} {s} {(left + extra) * char}""" if __name__ == "__main__": import doctest doctest.testmod() print(prompt("""Binary Tree Traversals""")) _lowerCamelCase : TreeNode = build_tree() print(prompt("""Pre Order Traversal""")) pre_order(node) print(prompt() + """\n""") print(prompt("""In Order Traversal""")) in_order(node) print(prompt() + """\n""") print(prompt("""Post Order Traversal""")) post_order(node) print(prompt() + """\n""") print(prompt("""Level Order Traversal""")) level_order(node) print(prompt() + """\n""") print(prompt("""Actual Level Order Traversal""")) level_order_actual(node) print("""""" 50 + """\n""") print(prompt("""Pre Order Traversal - Iteration Version""")) pre_order_iter(node) print(prompt() + """\n""") print(prompt("""In Order Traversal - Iteration Version""")) in_order_iter(node) print(prompt() + """\n""") print(prompt("""Post Order Traversal - Iteration Version""")) post_order_iter(node) print(prompt())	14	'''simple docstring''' import re import tempfile from pathlib import Path import pytest import yaml from datasets.utils.readme import ReadMe # @pytest.fixture # def example_yaml_structure(): __a = yaml.safe_load( '\\nname: ""\nallow_empty: false\nallow_empty_text: true\nsubsections:\n - name: "Dataset Card for X" # First-level markdown heading\n allow_empty: false\n allow_empty_text: true\n subsections:\n - name: "Table of Contents"\n allow_empty: false\n allow_empty_text: false\n subsections: null\n - name: "Dataset Description"\n allow_empty: false\n allow_empty_text: false\n subsections:\n - name: "Dataset Summary"\n allow_empty: false\n allow_empty_text: false\n subsections: null\n - name: "Supported Tasks and Leaderboards"\n allow_empty: true\n allow_empty_text: true\n subsections: null\n - name: Languages\n allow_empty: false\n allow_empty_text: true\n subsections: null\n' ) __a = { 'name': 'root', 'text': '', 'is_empty_text': True, 'subsections': [ { 'name': 'Dataset Card for My Dataset', 'text': '', 'is_empty_text': True, 'subsections': [ {'name': 'Table of Contents', 'text': 'Some text here.', 'is_empty_text': False, 'subsections': []}, { 'name': 'Dataset Description', 'text': 'Some text here.', 'is_empty_text': False, 'subsections': [ { 'name': 'Dataset Summary', 'text': 'Some text here.', 'is_empty_text': False, 'subsections': [], }, { 'name': 'Supported Tasks and Leaderboards', 'text': '', 'is_empty_text': True, 'subsections': [], }, {'name': 'Languages', 'text': 'Language Text', 'is_empty_text': False, 'subsections': []}, ], }, ], } ], } __a = '\\n---\nlanguage:\n- zh\n- en\n---\n\n# Dataset Card for My Dataset\n## Table of Contents\nSome text here.\n## Dataset Description\nSome text here.\n### Dataset Summary\nSome text here.\n### Supported Tasks and Leaderboards\n### Languages\nLanguage Text\n' __a = '\\n---\nlanguage:\n- zh\n- en\n---\n\n# Dataset Card for My Dataset\n## Table of Contents\nSome text here.\n## Dataset Description\nSome text here.\n### Dataset Summary\nSome text here.\n#### Extra Ignored Subsection\n### Supported Tasks and Leaderboards\n### Languages\nLanguage Text\n' __a = { 'name': 'root', 'text': '', 'is_empty_text': True, 'subsections': [ { 'name': 'Dataset Card for My Dataset', 'text': '', 'is_empty_text': True, 'subsections': [ {'name': 'Table of Contents', 'text': 'Some text here.', 'is_empty_text': False, 'subsections': []}, { 'name': 'Dataset Description', 'text': 'Some text here.', 'is_empty_text': False, 'subsections': [ { 'name': 'Dataset Summary', 'text': 'Some text here.', 'is_empty_text': False, 'subsections': [ { 'name': 'Extra Ignored Subsection', 'text': '', 'is_empty_text': True, 'subsections': [], } ], }, { 'name': 'Supported Tasks and Leaderboards', 'text': '', 'is_empty_text': True, 'subsections': [], }, {'name': 'Languages', 'text': 'Language Text', 'is_empty_text': False, 'subsections': []}, ], }, ], } ], } __a = '\\n---\n---\n# Dataset Card for My Dataset\n## Table of Contents\nSome text here.\n## Dataset Description\nSome text here.\n### Dataset Summary\nSome text here.\n### Supported Tasks and Leaderboards\n### Languages\nLanguage Text\n' __a = ( 'The following issues were found for the README at `{path}`:\n-\tEmpty YAML markers are present in the README.' ) __a = '\\n# Dataset Card for My Dataset\n## Table of Contents\nSome text here.\n## Dataset Description\nSome text here.\n### Dataset Summary\nSome text here.\n### Supported Tasks and Leaderboards\n### Languages\nLanguage Text\n' __a = ( 'The following issues were found for the README at `{path}`:\n-\tNo YAML markers are present in the README.' ) __a = '\\n---\n# Dataset Card for My Dataset\n## Table of Contents\nSome text here.\n## Dataset Description\nSome text here.\n### Dataset Summary\nSome text here.\n### Supported Tasks and Leaderboards\n### Languages\nLanguage Text\n' __a = 'The following issues were found for the README at `{path}`:\n-\tOnly the start of YAML tags present in the README.' __a = '\\n---\nlanguage:\n- zh\n- en\n---\n\n# Dataset Card for My Dataset\n## Table of Contents\nSome text here.\n## Dataset Description\nSome text here.\n### Dataset Summary\n### Supported Tasks and Leaderboards\n### Languages\nLanguage Text\n' __a = 'The following issues were found for the README at `{path}`:\n-\tExpected some content in section `Dataset Summary` but it is empty.\n-\tExpected some text in section `Dataset Summary` but it is empty (text in subsections are ignored).' __a = '\\n---\nlanguage:\n- zh\n- en\n---\n\n# Dataset Card for My Dataset\n' __a = 'The following issues were found for the README at `{path}`:\n-\tExpected some content in section `Dataset Card for My Dataset` but it is empty.\n-\tSection `Dataset Card for My Dataset` expected the following subsections: `Table of Contents`, `Dataset Description`. Found \'None\'.' __a = '\\n---\nlanguage:\n- zh\n- en\n---\n\n# Dataset Card for My Dataset\n## Table of Contents\nSome text here.\n## Dataset Description\nSome text here.\n### Dataset Summary\nSome text here.\n### Languages\nLanguage Text\n' __a = 'The following issues were found for the README at `{path}`:\n-\tSection `Dataset Description` is missing subsection: `Supported Tasks and Leaderboards`.' __a = '\\n---\nlanguage:\n- zh\n- en\n---\n\n# Dataset Card for My Dataset\n## Table of Contents\nSome text here.\n## Dataset Description\nSome text here.\n### Dataset Summary\nSome text here.\n### Supported Tasks and Leaderboards\n### Languages\n' __a = 'The following issues were found for the README at `{path}`:\n-\tExpected some content in section `Languages` but it is empty.' __a = '\\n---\nlanguage:\n- zh\n- en\n---\n\n## Table of Contents\nSome text here.\n## Dataset Description\nSome text here.\n### Dataset Summary\nSome text here.\n### Supported Tasks and Leaderboards\n### Languages\nLanguage Text\n' __a = 'The following issues were found for the README at `{path}`:\n-\tThe README has no first-level headings. One heading is expected. Skipping further validation for this README.' __a = '\\n---\nlanguage:\n- zh\n- en\n---\n\n# Dataset Card for My Dataset\n## Table of Contents\nSome text here.\n## Dataset Description\nSome text here.\n### Dataset Summary\nSome text here.\n### Supported Tasks and Leaderboards\n### Languages\nLanguage Text\n# Dataset Card My Dataset\n' __a = 'The following issues were found for the README at `{path}`:\n-\tThe README has several first-level headings: `Dataset Card for My Dataset`, `Dataset Card My Dataset`. Only one heading is expected. Skipping further validation for this README.' __a = '\\n---\nlanguage:\n- zh\n- en\n---\n\n# Dataset Card My Dataset\n## Table of Contents\nSome text here.\n## Dataset Description\nSome text here.\n### Dataset Summary\nSome text here.\n### Supported Tasks and Leaderboards\n### Languages\nLanguage Text\n' __a = 'The following issues were found for the README at `{path}`:\n-\tNo first-level heading starting with `Dataset Card for` found in README. Skipping further validation for this README.' __a = '' __a = 'The following issues were found for the README at `{path}`:\n-\tThe README has no first-level headings. One heading is expected. Skipping further validation for this README.\n-\tNo YAML markers are present in the README.' __a = '\\n---\nlanguage:\n- zh\n- en\n---\n\n# Dataset Card for My Dataset\n# Dataset Card for My Dataset\n## Table of Contents\nSome text here.\n## Dataset Description\nSome text here.\n### Dataset Summary\nSome text here.\n### Supported Tasks and Leaderboards\n### Languages\nLanguage Text\n' __a = 'The following issues were found while parsing the README at `{path}`:\n-\tMultiple sections with the same heading `Dataset Card for My Dataset` have been found. Please keep only one of these sections.' @pytest.mark.parametrize( "readme_md, expected_dict", [ (README_CORRECT, CORRECT_DICT), (README_CORRECT_FOUR_LEVEL, CORRECT_DICT_FOUR_LEVEL), ], ) def __UpperCAmelCase ( a_: Any, a_: Any ): assert ReadMe.from_string(a_, a_ ).to_dict() == expected_dict @pytest.mark.parametrize( "readme_md, expected_error", [ (README_NO_YAML, EXPECTED_ERROR_README_NO_YAML), (README_EMPTY_YAML, EXPECTED_ERROR_README_EMPTY_YAML), (README_INCORRECT_YAML, EXPECTED_ERROR_README_INCORRECT_YAML), (README_EMPTY, EXPECTED_ERROR_README_EMPTY), (README_NONE_SUBSECTION, EXPECTED_ERROR_README_NONE_SUBSECTION), (README_MISSING_FIRST_LEVEL, EXPECTED_ERROR_README_MISSING_FIRST_LEVEL), (README_MISSING_SUBSECTION, EXPECTED_ERROR_README_MISSING_SUBSECTION), (README_MISSING_TEXT, EXPECTED_ERROR_README_MISSING_TEXT), (README_WRONG_FIRST_LEVEL, EXPECTED_ERROR_README_WRONG_FIRST_LEVEL), (README_MULTIPLE_WRONG_FIRST_LEVEL, EXPECTED_ERROR_README_MULTIPLE_WRONG_FIRST_LEVEL), (README_MISSING_CONTENT, EXPECTED_ERROR_README_MISSING_CONTENT), ], ) def __UpperCAmelCase ( a_: Optional[int], a_: int ): with pytest.raises(a_, match=re.escape(expected_error.format(path="root" ) ) ): _UpperCAmelCase : Union[str, Any] = ReadMe.from_string(a_, a_ ) readme.validate() @pytest.mark.parametrize( "readme_md, expected_error", [ (README_MULTIPLE_SAME_HEADING_1, EXPECTED_ERROR_README_MULTIPLE_SAME_HEADING_1), ], ) def __UpperCAmelCase ( a_: str, a_: Optional[Any] ): with pytest.raises(a_, match=re.escape(expected_error.format(path="root" ) ) ): ReadMe.from_string(a_, a_ ) @pytest.mark.parametrize( "readme_md,", [ (README_MULTIPLE_SAME_HEADING_1), ], ) def __UpperCAmelCase ( a_: str ): ReadMe.from_string(a_, a_, suppress_parsing_errors=a_ ) @pytest.mark.parametrize( "readme_md, expected_dict", [ (README_CORRECT, CORRECT_DICT), (README_CORRECT_FOUR_LEVEL, CORRECT_DICT_FOUR_LEVEL), ], ) def __UpperCAmelCase ( a_: str, a_: Union[str, Any] ): with tempfile.TemporaryDirectory() as tmp_dir: _UpperCAmelCase : Optional[Any] = Path(a_ ) / "README.md" with open(a_, "w+" ) as readme_file: readme_file.write(a_ ) _UpperCAmelCase : Tuple = ReadMe.from_readme(a_, a_ ).to_dict() assert out["name"] == path assert out["text"] == "" assert out["is_empty_text"] assert out["subsections"] == expected_dict["subsections"] @pytest.mark.parametrize( "readme_md, expected_error", [ (README_NO_YAML, EXPECTED_ERROR_README_NO_YAML), (README_EMPTY_YAML, EXPECTED_ERROR_README_EMPTY_YAML), (README_INCORRECT_YAML, EXPECTED_ERROR_README_INCORRECT_YAML), (README_EMPTY, EXPECTED_ERROR_README_EMPTY), (README_NONE_SUBSECTION, EXPECTED_ERROR_README_NONE_SUBSECTION), (README_MISSING_FIRST_LEVEL, EXPECTED_ERROR_README_MISSING_FIRST_LEVEL), (README_MISSING_SUBSECTION, EXPECTED_ERROR_README_MISSING_SUBSECTION), (README_MISSING_TEXT, EXPECTED_ERROR_README_MISSING_TEXT), (README_WRONG_FIRST_LEVEL, EXPECTED_ERROR_README_WRONG_FIRST_LEVEL), (README_MULTIPLE_WRONG_FIRST_LEVEL, EXPECTED_ERROR_README_MULTIPLE_WRONG_FIRST_LEVEL), (README_MISSING_CONTENT, EXPECTED_ERROR_README_MISSING_CONTENT), ], ) def __UpperCAmelCase ( a_: List[Any], a_: str ): with tempfile.TemporaryDirectory() as tmp_dir: _UpperCAmelCase : Optional[Any] = Path(a_ ) / "README.md" with open(a_, "w+" ) as readme_file: readme_file.write(a_ ) _UpperCAmelCase : Any = expected_error.format(path=a_ ) with pytest.raises(a_, match=re.escape(a_ ) ): _UpperCAmelCase : str = ReadMe.from_readme(a_, a_ ) readme.validate() @pytest.mark.parametrize( "readme_md, expected_error", [ (README_MULTIPLE_SAME_HEADING_1, EXPECTED_ERROR_README_MULTIPLE_SAME_HEADING_1), ], ) def __UpperCAmelCase ( a_: Tuple, a_: Optional[int] ): with tempfile.TemporaryDirectory() as tmp_dir: _UpperCAmelCase : List[str] = Path(a_ ) / "README.md" with open(a_, "w+" ) as readme_file: readme_file.write(a_ ) _UpperCAmelCase : Any = expected_error.format(path=a_ ) with pytest.raises(a_, match=re.escape(a_ ) ): ReadMe.from_readme(a_, a_ ) @pytest.mark.parametrize( "readme_md,", [ (README_MULTIPLE_SAME_HEADING_1), ], ) def __UpperCAmelCase ( a_: Any ): with tempfile.TemporaryDirectory() as tmp_dir: _UpperCAmelCase : List[Any] = Path(a_ ) / "README.md" with open(a_, "w+" ) as readme_file: readme_file.write(a_ ) ReadMe.from_readme(a_, a_, suppress_parsing_errors=a_ )	145	0
from ...configuration_utils import PretrainedConfig from ...utils import logging lowerCamelCase_ = logging.get_logger(__name__) lowerCamelCase_ = {} class __A( __lowerCamelCase ): """simple docstring""" SCREAMING_SNAKE_CASE__ = """llama""" SCREAMING_SNAKE_CASE__ = ["""past_key_values"""] def __init__(self , SCREAMING_SNAKE_CASE_=3_20_00 , SCREAMING_SNAKE_CASE_=40_96 , SCREAMING_SNAKE_CASE_=1_10_08 , SCREAMING_SNAKE_CASE_=32 , SCREAMING_SNAKE_CASE_=32 , SCREAMING_SNAKE_CASE_=None , SCREAMING_SNAKE_CASE_="silu" , SCREAMING_SNAKE_CASE_=20_48 , SCREAMING_SNAKE_CASE_=0.02 , SCREAMING_SNAKE_CASE_=1E-6 , SCREAMING_SNAKE_CASE_=True , SCREAMING_SNAKE_CASE_=0 , SCREAMING_SNAKE_CASE_=1 , SCREAMING_SNAKE_CASE_=2 , SCREAMING_SNAKE_CASE_=1 , SCREAMING_SNAKE_CASE_=False , SCREAMING_SNAKE_CASE_=None , SCREAMING_SNAKE_CASE_ , ): UpperCamelCase__ = vocab_size UpperCamelCase__ = max_position_embeddings UpperCamelCase__ = hidden_size UpperCamelCase__ = intermediate_size UpperCamelCase__ = num_hidden_layers UpperCamelCase__ = num_attention_heads # for backward compatibility if num_key_value_heads is None: UpperCamelCase__ = num_attention_heads UpperCamelCase__ = num_key_value_heads UpperCamelCase__ = hidden_act UpperCamelCase__ = initializer_range UpperCamelCase__ = rms_norm_eps UpperCamelCase__ = pretraining_tp UpperCamelCase__ = use_cache UpperCamelCase__ = rope_scaling self._rope_scaling_validation() super().__init__( pad_token_id=SCREAMING_SNAKE_CASE_ , bos_token_id=SCREAMING_SNAKE_CASE_ , eos_token_id=SCREAMING_SNAKE_CASE_ , tie_word_embeddings=SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , ) def UpperCAmelCase_ (self ): if self.rope_scaling is None: return if not isinstance(self.rope_scaling , SCREAMING_SNAKE_CASE_ ) or len(self.rope_scaling ) != 2: raise ValueError( """`rope_scaling` must be a dictionary with with two fields, `name` and `factor`, """ F"got {self.rope_scaling}" ) UpperCamelCase__ = self.rope_scaling.get("""type""" , SCREAMING_SNAKE_CASE_ ) UpperCamelCase__ = self.rope_scaling.get("""factor""" , SCREAMING_SNAKE_CASE_ ) if rope_scaling_type is None or rope_scaling_type not in ["linear", "dynamic"]: raise ValueError( F"`rope_scaling`'s name field must be one of ['linear', 'dynamic'], got {rope_scaling_type}" ) if rope_scaling_factor is None or not isinstance(SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ ) or rope_scaling_factor <= 1.0: raise ValueError(F"`rope_scaling`'s factor field must be an float > 1, got {rope_scaling_factor}" )	178	from pathlib import Path from typing import List from transformers import is_torch_available, is_vision_available from transformers.testing_utils import get_tests_dir, is_tool_test from transformers.tools.agent_types import AGENT_TYPE_MAPPING, AgentAudio, AgentImage, AgentText if is_torch_available(): import torch if is_vision_available(): from PIL import Image lowerCamelCase_ = ['''text''', '''image''', '''audio'''] def __magic_name__ ( __a : List[str] ): '''simple docstring''' UpperCamelCase__ = [] for input_type in input_types: if input_type == "text": inputs.append("""Text input""" ) elif input_type == "image": inputs.append( Image.open(Path(get_tests_dir("""fixtures/tests_samples/COCO""" ) ) / """000000039769.png""" ).resize((512, 512) ) ) elif input_type == "audio": inputs.append(torch.ones(3_000 ) ) elif isinstance(__a , __a ): inputs.append(create_inputs(__a ) ) else: raise ValueError(f"Invalid type requested: {input_type}" ) return inputs def __magic_name__ ( __a : List ): '''simple docstring''' UpperCamelCase__ = [] for output in outputs: if isinstance(__a , (str, AgentText) ): output_types.append("""text""" ) elif isinstance(__a , (Image.Image, AgentImage) ): output_types.append("""image""" ) elif isinstance(__a , (torch.Tensor, AgentAudio) ): output_types.append("""audio""" ) else: raise ValueError(f"Invalid output: {output}" ) return output_types @is_tool_test class __A: """simple docstring""" def UpperCAmelCase_ (self ): self.assertTrue(hasattr(self.tool , """inputs""" ) ) self.assertTrue(hasattr(self.tool , """outputs""" ) ) UpperCamelCase__ = self.tool.inputs for _input in inputs: if isinstance(_input , SCREAMING_SNAKE_CASE_ ): for __input in _input: self.assertTrue(__input in authorized_types ) else: self.assertTrue(_input in authorized_types ) UpperCamelCase__ = self.tool.outputs for _output in outputs: self.assertTrue(_output in authorized_types ) def UpperCAmelCase_ (self ): UpperCamelCase__ = create_inputs(self.tool.inputs ) UpperCamelCase__ = self.tool(SCREAMING_SNAKE_CASE_ ) # There is a single output if len(self.tool.outputs ) == 1: UpperCamelCase__ = [outputs] self.assertListEqual(output_types(SCREAMING_SNAKE_CASE_ ) , self.tool.outputs ) def UpperCAmelCase_ (self ): self.assertTrue(hasattr(self.tool , """description""" ) ) self.assertTrue(hasattr(self.tool , """default_checkpoint""" ) ) self.assertTrue(self.tool.description.startswith("""This is a tool that""" ) ) def UpperCAmelCase_ (self ): UpperCamelCase__ = create_inputs(self.tool.inputs ) UpperCamelCase__ = self.tool(SCREAMING_SNAKE_CASE_ ) if not isinstance(SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ ): UpperCamelCase__ = [outputs] self.assertEqual(len(SCREAMING_SNAKE_CASE_ ) , len(self.tool.outputs ) ) for output, output_type in zip(SCREAMING_SNAKE_CASE_ , self.tool.outputs ): UpperCamelCase__ = AGENT_TYPE_MAPPING[output_type] self.assertTrue(isinstance(SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ ) ) def UpperCAmelCase_ (self ): UpperCamelCase__ = create_inputs(self.tool.inputs ) UpperCamelCase__ = [] for _input, input_type in zip(SCREAMING_SNAKE_CASE_ , self.tool.inputs ): if isinstance(SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ ): _inputs.append([AGENT_TYPE_MAPPING[_input_type](_input ) for _input_type in input_type] ) else: _inputs.append(AGENT_TYPE_MAPPING[input_type](_input ) ) # Should not raise an error UpperCamelCase__ = self.tool(*SCREAMING_SNAKE_CASE_ ) if not isinstance(SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ ): UpperCamelCase__ = [outputs] self.assertEqual(len(SCREAMING_SNAKE_CASE_ ) , len(self.tool.outputs ) )	178	1
from abc import ABC, abstractmethod from argparse import ArgumentParser class __UpperCAmelCase ( lowerCamelCase__ ): @staticmethod @abstractmethod def __magic_name__ ( __A : ArgumentParser ): raise NotImplementedError() @abstractmethod def __magic_name__ ( self : int ): raise NotImplementedError()	336	import argparse import collections import json from pathlib import Path import requests import torch import yaml from huggingface_hub import hf_hub_download from PIL import Image from transformers import ( MobileViTImageProcessor, MobileViTVaConfig, MobileViTVaForImageClassification, MobileViTVaForSemanticSegmentation, ) from transformers.utils import logging logging.set_verbosity_info() _lowerCamelCase : Optional[int] = logging.get_logger(__name__) def a__ ( UpperCAmelCase : Union[str, Any] ) -> Optional[Any]: print('''Loading config file...''' ) def flatten_yaml_as_dict(UpperCAmelCase : Tuple , UpperCAmelCase : Any="" , UpperCAmelCase : Dict="." ): UpperCAmelCase : List[str] = [] for k, v in d.items(): UpperCAmelCase : List[Any] = parent_key + sep + k if parent_key else k if isinstance(UpperCAmelCase , collections.abc.MutableMapping ): items.extend(flatten_yaml_as_dict(UpperCAmelCase , UpperCAmelCase , sep=UpperCAmelCase ).items() ) else: items.append((new_key, v) ) return dict(UpperCAmelCase ) UpperCAmelCase : List[str] = argparse.Namespace() with open(UpperCAmelCase , '''r''' ) as yaml_file: try: UpperCAmelCase : List[str] = yaml.load(UpperCAmelCase , Loader=yaml.FullLoader ) UpperCAmelCase : Optional[int] = flatten_yaml_as_dict(UpperCAmelCase ) for k, v in flat_cfg.items(): setattr(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ) except yaml.YAMLError as exc: logger.error('''Error while loading config file: {}. Error message: {}'''.format(UpperCAmelCase , str(UpperCAmelCase ) ) ) return config def a__ ( UpperCAmelCase : List[str] , UpperCAmelCase : int ) -> List[Any]: UpperCAmelCase : int = MobileViTVaConfig() UpperCAmelCase : str = False # dataset if task_name.startswith('''imagenet1k_''' ): UpperCAmelCase : Any = 1_000 if int(task_name.strip().split('''_''' )[-1] ) == 384: UpperCAmelCase : Any = 384 else: UpperCAmelCase : Tuple = 256 UpperCAmelCase : int = '''imagenet-1k-id2label.json''' elif task_name.startswith('''imagenet21k_to_1k_''' ): UpperCAmelCase : Optional[Any] = 21_000 if int(task_name.strip().split('''_''' )[-1] ) == 384: UpperCAmelCase : str = 384 else: UpperCAmelCase : Dict = 256 UpperCAmelCase : List[Any] = '''imagenet-22k-id2label.json''' elif task_name.startswith('''ade20k_''' ): UpperCAmelCase : Optional[Any] = 151 UpperCAmelCase : Tuple = 512 UpperCAmelCase : Tuple = '''ade20k-id2label.json''' UpperCAmelCase : Tuple = True elif task_name.startswith('''voc_''' ): UpperCAmelCase : Dict = 21 UpperCAmelCase : str = 512 UpperCAmelCase : Union[str, Any] = '''pascal-voc-id2label.json''' UpperCAmelCase : Dict = True # orig_config UpperCAmelCase : List[Any] = load_orig_config_file(UpperCAmelCase ) assert getattr(UpperCAmelCase , '''model.classification.name''' , -1 ) == "mobilevit_v2", "Invalid model" UpperCAmelCase : Tuple = getattr(UpperCAmelCase , '''model.classification.mitv2.width_multiplier''' , 1.0 ) assert ( getattr(UpperCAmelCase , '''model.classification.mitv2.attn_norm_layer''' , -1 ) == "layer_norm_2d" ), "Norm layers other than layer_norm_2d is not supported" UpperCAmelCase : int = getattr(UpperCAmelCase , '''model.classification.activation.name''' , '''swish''' ) # config.image_size == getattr(orig_config, 'sampler.bs.crop_size_width', 256) if is_segmentation_model: UpperCAmelCase : str = getattr(UpperCAmelCase , '''model.segmentation.output_stride''' , 16 ) if "_deeplabv3" in task_name: UpperCAmelCase : int = getattr(UpperCAmelCase , '''model.segmentation.deeplabv3.aspp_rates''' , [12, 24, 36] ) UpperCAmelCase : Any = getattr(UpperCAmelCase , '''model.segmentation.deeplabv3.aspp_out_channels''' , 512 ) UpperCAmelCase : Optional[Any] = getattr(UpperCAmelCase , '''model.segmentation.deeplabv3.aspp_dropout''' , 0.1 ) # id2label UpperCAmelCase : Union[str, Any] = '''huggingface/label-files''' UpperCAmelCase : List[Any] = json.load(open(hf_hub_download(UpperCAmelCase , UpperCAmelCase , repo_type='''dataset''' ) , '''r''' ) ) UpperCAmelCase : Any = {int(UpperCAmelCase ): v for k, v in idalabel.items()} UpperCAmelCase : int = idalabel UpperCAmelCase : Optional[int] = {v: k for k, v in idalabel.items()} return config def a__ ( UpperCAmelCase : Dict , UpperCAmelCase : Union[str, Any] , UpperCAmelCase : Optional[int] ) -> List[str]: UpperCAmelCase : Union[str, Any] = dct.pop(UpperCAmelCase ) UpperCAmelCase : List[str] = val def a__ ( UpperCAmelCase : Union[str, Any] , UpperCAmelCase : int=False ) -> Union[str, Any]: if base_model: UpperCAmelCase : Dict = '''''' else: UpperCAmelCase : Dict = '''mobilevitv2.''' UpperCAmelCase : Optional[int] = [] for k in state_dict.keys(): if k[:8] == "encoder.": UpperCAmelCase : List[str] = k[8:] else: UpperCAmelCase : Dict = k if ".block." in k: UpperCAmelCase : List[Any] = k_new.replace('''.block.''' , '''.''' ) if ".conv." in k: UpperCAmelCase : Optional[int] = k_new.replace('''.conv.''' , '''.convolution.''' ) if ".norm." in k: UpperCAmelCase : List[str] = k_new.replace('''.norm.''' , '''.normalization.''' ) if "conv_1." in k: UpperCAmelCase : Union[str, Any] = k_new.replace('''conv_1.''' , f'''{model_prefix}conv_stem.''' ) for i in [1, 2]: if f'''layer_{i}.''' in k: UpperCAmelCase : Union[str, Any] = k_new.replace(f'''layer_{i}.''' , f'''{model_prefix}encoder.layer.{i-1}.layer.''' ) if ".exp_1x1." in k: UpperCAmelCase : Optional[Any] = k_new.replace('''.exp_1x1.''' , '''.expand_1x1.''' ) if ".red_1x1." in k: UpperCAmelCase : int = k_new.replace('''.red_1x1.''' , '''.reduce_1x1.''' ) for i in [3, 4, 5]: if f'''layer_{i}.0.''' in k: UpperCAmelCase : Any = k_new.replace(f'''layer_{i}.0.''' , f'''{model_prefix}encoder.layer.{i-1}.downsampling_layer.''' ) if f'''layer_{i}.1.local_rep.0.''' in k: UpperCAmelCase : str = k_new.replace(f'''layer_{i}.1.local_rep.0.''' , f'''{model_prefix}encoder.layer.{i-1}.conv_kxk.''' ) if f'''layer_{i}.1.local_rep.1.''' in k: UpperCAmelCase : int = k_new.replace(f'''layer_{i}.1.local_rep.1.''' , f'''{model_prefix}encoder.layer.{i-1}.conv_1x1.''' ) for i in [3, 4, 5]: if i == 3: UpperCAmelCase : Dict = [0, 1] elif i == 4: UpperCAmelCase : Dict = [0, 1, 2, 3] elif i == 5: UpperCAmelCase : int = [0, 1, 2] for j in j_in: if f'''layer_{i}.1.global_rep.{j}.''' in k: UpperCAmelCase : Optional[Any] = k_new.replace( f'''layer_{i}.1.global_rep.{j}.''' , f'''{model_prefix}encoder.layer.{i-1}.transformer.layer.{j}.''' ) if f'''layer_{i}.1.global_rep.{j+1}.''' in k: UpperCAmelCase : Any = k_new.replace( f'''layer_{i}.1.global_rep.{j+1}.''' , f'''{model_prefix}encoder.layer.{i-1}.layernorm.''' ) if f'''layer_{i}.1.conv_proj.''' in k: UpperCAmelCase : Union[str, Any] = k_new.replace(f'''layer_{i}.1.conv_proj.''' , f'''{model_prefix}encoder.layer.{i-1}.conv_projection.''' ) if "pre_norm_attn.0." in k: UpperCAmelCase : Optional[int] = k_new.replace('''pre_norm_attn.0.''' , '''layernorm_before.''' ) if "pre_norm_attn.1." in k: UpperCAmelCase : Optional[Any] = k_new.replace('''pre_norm_attn.1.''' , '''attention.''' ) if "pre_norm_ffn.0." in k: UpperCAmelCase : List[Any] = k_new.replace('''pre_norm_ffn.0.''' , '''layernorm_after.''' ) if "pre_norm_ffn.1." in k: UpperCAmelCase : List[Any] = k_new.replace('''pre_norm_ffn.1.''' , '''ffn.conv1.''' ) if "pre_norm_ffn.3." in k: UpperCAmelCase : Any = k_new.replace('''pre_norm_ffn.3.''' , '''ffn.conv2.''' ) if "classifier.1." in k: UpperCAmelCase : Optional[int] = k_new.replace('''classifier.1.''' , '''classifier.''' ) if "seg_head." in k: UpperCAmelCase : Union[str, Any] = k_new.replace('''seg_head.''' , '''segmentation_head.''' ) if ".aspp_layer." in k: UpperCAmelCase : Tuple = k_new.replace('''.aspp_layer.''' , '''.''' ) if ".aspp_pool." in k: UpperCAmelCase : Optional[int] = k_new.replace('''.aspp_pool.''' , '''.''' ) rename_keys.append((k, k_new) ) return rename_keys def a__ ( UpperCAmelCase : Union[str, Any] ) -> Any: UpperCAmelCase : str = [] for k in state_dict.keys(): if k.startswith('''seg_head.aux_head.''' ): keys_to_ignore.append(UpperCAmelCase ) for k in keys_to_ignore: state_dict.pop(UpperCAmelCase , UpperCAmelCase ) def a__ ( ) -> Union[str, Any]: UpperCAmelCase : int = '''http://images.cocodataset.org/val2017/000000039769.jpg''' # url = "https://cdn.britannica.com/86/141086-050-9D7C75EE/Gulfstream-G450-business-jet-passengers.jpg" UpperCAmelCase : List[str] = Image.open(requests.get(UpperCAmelCase , stream=UpperCAmelCase ).raw ) return im @torch.no_grad() def a__ ( UpperCAmelCase : int , UpperCAmelCase : int , UpperCAmelCase : Union[str, Any] , UpperCAmelCase : List[Any] ) -> Union[str, Any]: UpperCAmelCase : Union[str, Any] = get_mobilevitva_config(UpperCAmelCase , UpperCAmelCase ) # load original state_dict UpperCAmelCase : List[str] = torch.load(UpperCAmelCase , map_location='''cpu''' ) # load huggingface model if task_name.startswith('''ade20k_''' ) or task_name.startswith('''voc_''' ): UpperCAmelCase : str = MobileViTVaForSemanticSegmentation(UpperCAmelCase ).eval() UpperCAmelCase : str = False else: UpperCAmelCase : Union[str, Any] = MobileViTVaForImageClassification(UpperCAmelCase ).eval() UpperCAmelCase : Any = False # remove and rename some keys of load the original model UpperCAmelCase : Optional[Any] = checkpoint remove_unused_keys(UpperCAmelCase ) UpperCAmelCase : Optional[Any] = create_rename_keys(UpperCAmelCase , base_model=UpperCAmelCase ) for rename_key_src, rename_key_dest in rename_keys: rename_key(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ) # load modified state_dict model.load_state_dict(UpperCAmelCase ) # Check outputs on an image, prepared by MobileViTImageProcessor UpperCAmelCase : Dict = MobileViTImageProcessor(crop_size=config.image_size , size=config.image_size + 32 ) UpperCAmelCase : Any = image_processor(images=prepare_img() , return_tensors='''pt''' ) UpperCAmelCase : Union[str, Any] = model(**UpperCAmelCase ) # verify classification model if task_name.startswith('''imagenet''' ): UpperCAmelCase : Optional[Any] = outputs.logits UpperCAmelCase : int = logits.argmax(-1 ).item() print('''Predicted class:''' , model.config.idalabel[predicted_class_idx] ) if task_name.startswith('''imagenet1k_256''' ) and config.width_multiplier == 1.0: # expected_logits for base variant UpperCAmelCase : str = torch.tensor([-1.6_336E00, -7.3_204E-02, -5.1_883E-01] ) assert torch.allclose(logits[0, :3] , UpperCAmelCase , atol=1E-4 ) Path(UpperCAmelCase ).mkdir(exist_ok=UpperCAmelCase ) print(f'''Saving model {task_name} to {pytorch_dump_folder_path}''' ) model.save_pretrained(UpperCAmelCase ) print(f'''Saving image processor to {pytorch_dump_folder_path}''' ) image_processor.save_pretrained(UpperCAmelCase ) if __name__ == "__main__": _lowerCamelCase : str = argparse.ArgumentParser() # Required parameters parser.add_argument( "--task", default="imagenet1k_256", type=str, help=( "Name of the task for which the MobileViTV2 model you'd like to convert is trained on . " "\n Classification (ImageNet-1k)\n - MobileViTV2 (256x256) : imagenet1k_256\n - MobileViTV2 (Trained on 256x256 and Finetuned on 384x384) : imagenet1k_384\n - MobileViTV2 (Trained on ImageNet-21k and Finetuned on ImageNet-1k 256x256) :\n imagenet21k_to_1k_256\n - MobileViTV2 (Trained on ImageNet-21k, Finetuned on ImageNet-1k 256x256, and Finetuned on\n ImageNet-1k 384x384) : imagenet21k_to_1k_384\n Segmentation\n - ADE20K Dataset : ade20k_deeplabv3\n - Pascal VOC 2012 Dataset: voc_deeplabv3\n " ), choices=[ "imagenet1k_256", "imagenet1k_384", "imagenet21k_to_1k_256", "imagenet21k_to_1k_384", "ade20k_deeplabv3", "voc_deeplabv3", ], ) parser.add_argument( "--orig_checkpoint_path", required=True, type=str, help="Path to the original state dict (.pt file)." ) parser.add_argument("--orig_config_path", required=True, type=str, help="Path to the original config file.") parser.add_argument( "--pytorch_dump_folder_path", required=True, type=str, help="Path to the output PyTorch model directory." ) _lowerCamelCase : Optional[int] = parser.parse_args() convert_mobilevitva_checkpoint( args.task, args.orig_checkpoint_path, args.orig_config_path, args.pytorch_dump_folder_path )	336	1
import copy import inspect import unittest import numpy as np from huggingface_hub import hf_hub_download from transformers import VideoMAEConfig from transformers.models.auto import get_values from transformers.testing_utils import require_torch, require_vision, slow, torch_device from transformers.utils import cached_property, is_torch_available, is_vision_available from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin, floats_tensor, ids_tensor from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from torch import nn from transformers import ( MODEL_FOR_VIDEO_CLASSIFICATION_MAPPING, VideoMAEForPreTraining, VideoMAEForVideoClassification, VideoMAEModel, ) from transformers.models.videomae.modeling_videomae import VIDEOMAE_PRETRAINED_MODEL_ARCHIVE_LIST if is_vision_available(): from transformers import VideoMAEImageProcessor class __UpperCAmelCase : def __init__( self : Union[str, Any], __A : int, __A : Union[str, Any]=1_3, __A : Optional[int]=1_0, __A : str=3, __A : int=2, __A : List[str]=2, __A : Tuple=2, __A : Dict=True, __A : Tuple=True, __A : List[Any]=3_2, __A : List[Any]=5, __A : str=4, __A : Dict=3_7, __A : int="gelu", __A : List[str]=0.1, __A : Any=0.1, __A : Any=1_0, __A : int=0.0_2, __A : Union[str, Any]=0.9, __A : Union[str, Any]=None, ): UpperCAmelCase : Tuple = parent UpperCAmelCase : str = batch_size UpperCAmelCase : str = image_size UpperCAmelCase : List[Any] = num_channels UpperCAmelCase : Optional[Any] = patch_size UpperCAmelCase : Tuple = tubelet_size UpperCAmelCase : int = num_frames UpperCAmelCase : str = is_training UpperCAmelCase : int = use_labels UpperCAmelCase : Any = hidden_size UpperCAmelCase : Any = num_hidden_layers UpperCAmelCase : Optional[int] = num_attention_heads UpperCAmelCase : Dict = intermediate_size UpperCAmelCase : Tuple = hidden_act UpperCAmelCase : Dict = hidden_dropout_prob UpperCAmelCase : Any = attention_probs_dropout_prob UpperCAmelCase : int = type_sequence_label_size UpperCAmelCase : Dict = initializer_range UpperCAmelCase : Union[str, Any] = mask_ratio UpperCAmelCase : List[Any] = scope # in VideoMAE, the number of tokens equals num_frames/tubelet_size * num_patches per frame UpperCAmelCase : str = (image_size // patch_size) ** 2 UpperCAmelCase : int = (num_frames // tubelet_size) * self.num_patches_per_frame # use this variable to define bool_masked_pos UpperCAmelCase : List[str] = int(mask_ratio * self.seq_length ) def __magic_name__ ( self : str ): UpperCAmelCase : Optional[int] = floats_tensor( [self.batch_size, self.num_frames, self.num_channels, self.image_size, self.image_size] ) UpperCAmelCase : Any = None if self.use_labels: UpperCAmelCase : str = ids_tensor([self.batch_size], self.type_sequence_label_size ) UpperCAmelCase : Any = self.get_config() return config, pixel_values, labels def __magic_name__ ( self : Any ): return VideoMAEConfig( image_size=self.image_size, patch_size=self.patch_size, num_channels=self.num_channels, num_frames=self.num_frames, tubelet_size=self.tubelet_size, hidden_size=self.hidden_size, num_hidden_layers=self.num_hidden_layers, num_attention_heads=self.num_attention_heads, intermediate_size=self.intermediate_size, hidden_act=self.hidden_act, hidden_dropout_prob=self.hidden_dropout_prob, attention_probs_dropout_prob=self.attention_probs_dropout_prob, is_decoder=__A, initializer_range=self.initializer_range, ) def __magic_name__ ( self : str, __A : Optional[int], __A : int, __A : List[Any] ): UpperCAmelCase : List[str] = VideoMAEModel(config=__A ) model.to(__A ) model.eval() UpperCAmelCase : List[Any] = model(__A ) self.parent.assertEqual(result.last_hidden_state.shape, (self.batch_size, self.seq_length, self.hidden_size) ) def __magic_name__ ( self : Optional[int], __A : int, __A : Dict, __A : str ): UpperCAmelCase : List[str] = VideoMAEForPreTraining(__A ) model.to(__A ) model.eval() # important: each video needs to have the same number of masked patches # hence we define a single mask, which we then repeat for each example in the batch UpperCAmelCase : str = torch.ones((self.num_masks,) ) UpperCAmelCase : Optional[Any] = torch.cat([mask, torch.zeros(self.seq_length - mask.size(0 ) )] ) UpperCAmelCase : Optional[int] = mask.expand(self.batch_size, -1 ).bool() UpperCAmelCase : str = model(__A, __A ) # model only returns predictions for masked patches UpperCAmelCase : Dict = mask.sum().item() UpperCAmelCase : Dict = 3 * self.tubelet_size * self.patch_size*2 self.parent.assertEqual(result.logits.shape, (self.batch_size, num_masked_patches, decoder_num_labels) ) def __magic_name__ ( self : List[str] ): UpperCAmelCase : Optional[int] = self.prepare_config_and_inputs() UpperCAmelCase , UpperCAmelCase , UpperCAmelCase : Optional[Any] = config_and_inputs UpperCAmelCase : int = {'''pixel_values''': pixel_values} return config, inputs_dict @require_torch class __UpperCAmelCase ( lowerCamelCase__ , lowerCamelCase__ , unittest.TestCase ): UpperCamelCase = ( (VideoMAEModel, VideoMAEForPreTraining, VideoMAEForVideoClassification) if is_torch_available() else () ) UpperCamelCase = ( {"""feature-extraction""": VideoMAEModel, """video-classification""": VideoMAEForVideoClassification} if is_torch_available() else {} ) UpperCamelCase = False UpperCamelCase = False UpperCamelCase = False UpperCamelCase = False def __magic_name__ ( self : Any ): UpperCAmelCase : str = VideoMAEModelTester(self ) UpperCAmelCase : Any = ConfigTester(self, config_class=__A, has_text_modality=__A, hidden_size=3_7 ) def __magic_name__ ( self : Tuple, __A : Tuple, __A : str, __A : Tuple=False ): UpperCAmelCase : Tuple = copy.deepcopy(__A ) if model_class == VideoMAEForPreTraining: # important: each video needs to have the same number of masked patches # hence we define a single mask, which we then repeat for each example in the batch UpperCAmelCase : Dict = torch.ones((self.model_tester.num_masks,) ) UpperCAmelCase : int = torch.cat([mask, torch.zeros(self.model_tester.seq_length - mask.size(0 ) )] ) UpperCAmelCase : Union[str, Any] = mask.expand(self.model_tester.batch_size, -1 ).bool() UpperCAmelCase : Dict = bool_masked_pos.to(__A ) if return_labels: if model_class in [ get_values(__A ), ]: UpperCAmelCase : Union[str, Any] = torch.zeros( self.model_tester.batch_size, dtype=torch.long, device=__A ) return inputs_dict def __magic_name__ ( self : Any ): self.config_tester.run_common_tests() @unittest.skip(reason='''VideoMAE does not use inputs_embeds''' ) def __magic_name__ ( self : List[str] ): pass def __magic_name__ ( self : List[Any] ): UpperCAmelCase , UpperCAmelCase : int = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: UpperCAmelCase : List[Any] = model_class(__A ) self.assertIsInstance(model.get_input_embeddings(), (nn.Module) ) UpperCAmelCase : Tuple = model.get_output_embeddings() self.assertTrue(x is None or isinstance(__A, nn.Linear ) ) def __magic_name__ ( self : List[Any] ): UpperCAmelCase , UpperCAmelCase : Tuple = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: UpperCAmelCase : Optional[Any] = model_class(__A ) UpperCAmelCase : Tuple = inspect.signature(model.forward ) # signature.parameters is an OrderedDict => so arg_names order is deterministic UpperCAmelCase : List[str] = [signature.parameters.keys()] UpperCAmelCase : Tuple = ['''pixel_values'''] self.assertListEqual(arg_names[:1], __A ) def __magic_name__ ( self : Any ): UpperCAmelCase : Any = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(__A ) def __magic_name__ ( self : Optional[int] ): UpperCAmelCase : Union[str, Any] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_pretraining(__A ) @slow def __magic_name__ ( self : str ): for model_name in VIDEOMAE_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: UpperCAmelCase : Tuple = VideoMAEModel.from_pretrained(__A ) self.assertIsNotNone(__A ) def __magic_name__ ( self : Optional[Any] ): if not self.has_attentions: pass else: UpperCAmelCase , UpperCAmelCase : int = self.model_tester.prepare_config_and_inputs_for_common() UpperCAmelCase : Optional[Any] = True for model_class in self.all_model_classes: UpperCAmelCase : Union[str, Any] = self.model_tester.seq_length - self.model_tester.num_masks UpperCAmelCase : str = ( num_visible_patches if model_class == VideoMAEForPreTraining else self.model_tester.seq_length ) UpperCAmelCase : Any = True UpperCAmelCase : Tuple = False UpperCAmelCase : Union[str, Any] = True UpperCAmelCase : Optional[Any] = model_class(__A ) model.to(__A ) model.eval() with torch.no_grad(): UpperCAmelCase : Tuple = model(self._prepare_for_class(__A, __A ) ) UpperCAmelCase : int = outputs.attentions self.assertEqual(len(__A ), self.model_tester.num_hidden_layers ) # check that output_attentions also work using config del inputs_dict["output_attentions"] UpperCAmelCase : int = True UpperCAmelCase : str = model_class(__A ) model.to(__A ) model.eval() with torch.no_grad(): UpperCAmelCase : Optional[Any] = model(self._prepare_for_class(__A, __A ) ) UpperCAmelCase : Any = outputs.attentions self.assertEqual(len(__A ), self.model_tester.num_hidden_layers ) self.assertListEqual( list(attentions[0].shape[-3:] ), [self.model_tester.num_attention_heads, seq_len, seq_len], ) UpperCAmelCase : Any = len(__A ) # Check attention is always last and order is fine UpperCAmelCase : int = True UpperCAmelCase : Union[str, Any] = True UpperCAmelCase : List[Any] = model_class(__A ) model.to(__A ) model.eval() with torch.no_grad(): UpperCAmelCase : str = model(self._prepare_for_class(__A, __A ) ) self.assertEqual(out_len + 1, len(__A ) ) UpperCAmelCase : Dict = outputs.attentions self.assertEqual(len(__A ), self.model_tester.num_hidden_layers ) self.assertListEqual( list(self_attentions[0].shape[-3:] ), [self.model_tester.num_attention_heads, seq_len, seq_len], ) def __magic_name__ ( self : Dict ): def check_hidden_states_output(__A : Any, __A : Optional[int], __A : List[str] ): UpperCAmelCase : List[Any] = model_class(__A ) model.to(__A ) model.eval() with torch.no_grad(): UpperCAmelCase : Optional[int] = model(self._prepare_for_class(__A, __A ) ) UpperCAmelCase : List[Any] = outputs.hidden_states UpperCAmelCase : Dict = self.model_tester.num_hidden_layers + 1 self.assertEqual(len(__A ), __A ) UpperCAmelCase : Optional[int] = self.model_tester.seq_length - self.model_tester.num_masks UpperCAmelCase : Optional[Any] = num_visible_patches if model_class == VideoMAEForPreTraining else self.model_tester.seq_length self.assertListEqual( list(hidden_states[0].shape[-2:] ), [seq_length, self.model_tester.hidden_size], ) UpperCAmelCase , UpperCAmelCase : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: UpperCAmelCase : Any = True check_hidden_states_output(__A, __A, __A ) # check that output_hidden_states also work using config del inputs_dict["output_hidden_states"] UpperCAmelCase : Optional[Any] = True check_hidden_states_output(__A, __A, __A ) @unittest.skip('''Will be fixed soon by reducing the size of the model used for common tests.''' ) def __magic_name__ ( self : str ): pass def a__ ( ) -> Dict: UpperCAmelCase : Any = hf_hub_download( repo_id='''hf-internal-testing/spaghetti-video''' , filename='''eating_spaghetti.npy''' , repo_type='''dataset''' ) UpperCAmelCase : int = np.load(UpperCAmelCase ) return list(UpperCAmelCase ) @require_torch @require_vision class __UpperCAmelCase ( unittest.TestCase ): @cached_property def __magic_name__ ( self : List[Any] ): # logits were tested with a different mean and std, so we use the same here return ( VideoMAEImageProcessor(image_mean=[0.5, 0.5, 0.5], image_std=[0.5, 0.5, 0.5] ) if is_vision_available() else None ) @slow def __magic_name__ ( self : str ): UpperCAmelCase : Dict = VideoMAEForVideoClassification.from_pretrained('''MCG-NJU/videomae-base-finetuned-kinetics''' ).to( __A ) UpperCAmelCase : Any = self.default_image_processor UpperCAmelCase : int = prepare_video() UpperCAmelCase : str = image_processor(__A, return_tensors='''pt''' ).to(__A ) # forward pass with torch.no_grad(): UpperCAmelCase : Dict = model(__A ) # verify the logits UpperCAmelCase : Optional[Any] = torch.Size((1, 4_0_0) ) self.assertEqual(outputs.logits.shape, __A ) UpperCAmelCase : Dict = torch.tensor([0.3_6_6_9, -0.0_6_8_8, -0.2_4_2_1] ).to(__A ) self.assertTrue(torch.allclose(outputs.logits[0, :3], __A, atol=1E-4 ) ) @slow def __magic_name__ ( self : str ): UpperCAmelCase : Dict = VideoMAEForPreTraining.from_pretrained('''MCG-NJU/videomae-base-short''' ).to(__A ) UpperCAmelCase : Optional[Any] = self.default_image_processor UpperCAmelCase : List[Any] = prepare_video() UpperCAmelCase : List[str] = image_processor(__A, return_tensors='''pt''' ).to(__A ) # add boolean mask, indicating which patches to mask UpperCAmelCase : str = hf_hub_download(repo_id='''hf-internal-testing/bool-masked-pos''', filename='''bool_masked_pos.pt''' ) UpperCAmelCase : List[Any] = torch.load(__A ) # forward pass with torch.no_grad(): UpperCAmelCase : Dict = model(__A ) # verify the logits UpperCAmelCase : List[str] = torch.Size([1, 1_4_0_8, 1_5_3_6] ) UpperCAmelCase : Tuple = torch.tensor( [[0.7_9_9_4, 0.9_6_1_2, 0.8_5_0_8], [0.7_4_0_1, 0.8_9_5_8, 0.8_3_0_2], [0.5_8_6_2, 0.7_4_6_8, 0.7_3_2_5]], device=__A ) self.assertEqual(outputs.logits.shape, __A ) self.assertTrue(torch.allclose(outputs.logits[0, :3, :3], __A, atol=1E-4 ) ) # verify the loss (`config.norm_pix_loss` = `True`) UpperCAmelCase : Union[str, Any] = torch.tensor([0.5_1_4_2], device=__A ) self.assertTrue(torch.allclose(outputs.loss, __A, atol=1E-4 ) ) # verify the loss (`config.norm_pix_loss` = `False`) UpperCAmelCase : Union[str, Any] = VideoMAEForPreTraining.from_pretrained('''MCG-NJU/videomae-base-short''', norm_pix_loss=__A ).to( __A ) with torch.no_grad(): UpperCAmelCase : str = model(*__A ) UpperCAmelCase : List[Any] = torch.tensor(torch.tensor([0.6_4_6_9] ), device=__A ) self.assertTrue(torch.allclose(outputs.loss, __A, atol=1E-4 ) )	99	import coval # From: git+https://github.com/ns-moosavi/coval.git # noqa: F401 from coval.conll import reader, util from coval.eval import evaluator import datasets _lowerCamelCase : int = datasets.logging.get_logger(__name__) _lowerCamelCase : Any = "\\n@InProceedings{moosavi2019minimum,\n author = { Nafise Sadat Moosavi, Leo Born, Massimo Poesio and Michael Strube},\n title = {Using Automatically Extracted Minimum Spans to Disentangle Coreference Evaluation from Boundary Detection},\n year = {2019},\n booktitle = {Proceedings of the 57th Annual Meeting of\n the Association for Computational Linguistics (Volume 1: Long Papers)},\n publisher = {Association for Computational Linguistics},\n address = {Florence, Italy},\n}\n\n@inproceedings{10.3115/1072399.1072405,\nauthor = {Vilain, Marc and Burger, John and Aberdeen, John and Connolly, Dennis and Hirschman, Lynette},\ntitle = {A Model-Theoretic Coreference Scoring Scheme},\nyear = {1995},\nisbn = {1558604022},\npublisher = {Association for Computational Linguistics},\naddress = {USA},\nurl = {https://doi.org/10.3115/1072399.1072405},\ndoi = {10.3115/1072399.1072405},\nbooktitle = {Proceedings of the 6th Conference on Message Understanding},\npages = {45–52},\nnumpages = {8},\nlocation = {Columbia, Maryland},\nseries = {MUC6 ’95}\n}\n\n@INPROCEEDINGS{Bagga98algorithmsfor,\n author = {Amit Bagga and Breck Baldwin},\n title = {Algorithms for Scoring Coreference Chains},\n booktitle = {In The First International Conference on Language Resources and Evaluation Workshop on Linguistics Coreference},\n year = {1998},\n pages = {563--566}\n}\n\n@INPROCEEDINGS{Luo05oncoreference,\n author = {Xiaoqiang Luo},\n title = {On coreference resolution performance metrics},\n booktitle = {In Proc. of HLT/EMNLP},\n year = {2005},\n pages = {25--32},\n publisher = {URL}\n}\n\n@inproceedings{moosavi-strube-2016-coreference,\n title = \"Which Coreference Evaluation Metric Do You Trust? A Proposal for a Link-based Entity Aware Metric\",\n author = \"Moosavi, Nafise Sadat and\n Strube, Michael\",\n booktitle = \"Proceedings of the 54th Annual Meeting of the Association for Computational Linguistics (Volume 1: Long Papers)\",\n month = aug,\n year = \"2016\",\n address = \"Berlin, Germany\",\n publisher = \"Association for Computational Linguistics\",\n url = \"https://www.aclweb.org/anthology/P16-1060\",\n doi = \"10.18653/v1/P16-1060\",\n pages = \"632--642\",\n}\n\n" _lowerCamelCase : Tuple = "\\nCoVal is a coreference evaluation tool for the CoNLL and ARRAU datasets which\nimplements of the common evaluation metrics including MUC [Vilain et al, 1995],\nB-cubed [Bagga and Baldwin, 1998], CEAFe [Luo et al., 2005],\nLEA [Moosavi and Strube, 2016] and the averaged CoNLL score\n(the average of the F1 values of MUC, B-cubed and CEAFe)\n[Denis and Baldridge, 2009a; Pradhan et al., 2011].\n\nThis wrapper of CoVal currently only work with CoNLL line format:\nThe CoNLL format has one word per line with all the annotation for this word in column separated by spaces:\nColumn Type Description\n1 Document ID This is a variation on the document filename\n2 Part number Some files are divided into multiple parts numbered as 000, 001, 002, ... etc.\n3 Word number\n4 Word itself This is the token as segmented/tokenized in the Treebank. Initially the _skel file contain the placeholder [WORD] which gets replaced by the actual token from the Treebank which is part of the OntoNotes release.\n5 Part-of-Speech\n6 Parse bit This is the bracketed structure broken before the first open parenthesis in the parse, and the word/part-of-speech leaf replaced with a . The full parse can be created by substituting the asterix with the \"([pos] [word])\" string (or leaf) and concatenating the items in the rows of that column.\n7 Predicate lemma The predicate lemma is mentioned for the rows for which we have semantic role information. All other rows are marked with a \"-\"\n8 Predicate Frameset ID This is the PropBank frameset ID of the predicate in Column 7.\n9 Word sense This is the word sense of the word in Column 3.\n10 Speaker/Author This is the speaker or author name where available. Mostly in Broadcast Conversation and Web Log data.\n11 Named Entities These columns identifies the spans representing various named entities.\n12:N Predicate Arguments There is one column each of predicate argument structure information for the predicate mentioned in Column 7.\nN Coreference Coreference chain information encoded in a parenthesis structure.\nMore informations on the format can be found here (section \"_conll File Format\"): http://www.conll.cemantix.org/2012/data.html\n\nDetails on the evaluation on CoNLL can be found here: https://github.com/ns-moosavi/coval/blob/master/conll/README.md\n\nCoVal code was written by @ns-moosavi.\nSome parts are borrowed from https://github.com/clarkkev/deep-coref/blob/master/evaluation.py\nThe test suite is taken from https://github.com/conll/reference-coreference-scorers/\nMention evaluation and the test suite are added by @andreasvc.\nParsing CoNLL files is developed by Leo Born.\n" _lowerCamelCase : List[str] = "\nCalculates coreference evaluation metrics.\nArgs:\n predictions: list of sentences. Each sentence is a list of word predictions to score in the CoNLL format.\n Each prediction is a word with its annotations as a string made of columns joined with spaces.\n Only columns 4, 5, 6 and the last column are used (word, POS, Pars and coreference annotation)\n See the details on the format in the description of the metric.\n references: list of sentences. Each sentence is a list of word reference to score in the CoNLL format.\n Each reference is a word with its annotations as a string made of columns joined with spaces.\n Only columns 4, 5, 6 and the last column are used (word, POS, Pars and coreference annotation)\n See the details on the format in the description of the metric.\n keep_singletons: After extracting all mentions of key or system files,\n mentions whose corresponding coreference chain is of size one,\n are considered as singletons. The default evaluation mode will include\n singletons in evaluations if they are included in the key or the system files.\n By setting 'keep_singletons=False', all singletons in the key and system files\n will be excluded from the evaluation.\n NP_only: Most of the recent coreference resolvers only resolve NP mentions and\n leave out the resolution of VPs. By setting the 'NP_only' option, the scorer will only evaluate the resolution of NPs.\n min_span: By setting 'min_span', the scorer reports the results based on automatically detected minimum spans.\n Minimum spans are determined using the MINA algorithm.\n\nReturns:\n 'mentions': mentions\n 'muc': MUC metric [Vilain et al, 1995]\n 'bcub': B-cubed [Bagga and Baldwin, 1998]\n 'ceafe': CEAFe [Luo et al., 2005]\n 'lea': LEA [Moosavi and Strube, 2016]\n 'conll_score': averaged CoNLL score (the average of the F1 values of MUC, B-cubed and CEAFe)\n\nExamples:\n\n >>> coval = datasets.load_metric('coval')\n >>> words = ['bc/cctv/00/cctv_0005 0 0 Thank VBP (TOP(S(VP thank 01 1 Xu_li * (V) -',\n ... 'bc/cctv/00/cctv_0005 0 1 you PRP (NP) - - - Xu_li (ARG1) (ARG0) (116)',\n ... 'bc/cctv/00/cctv_0005 0 2 everyone NN (NP) - - - Xu_li (ARGM-DIS) (116)',\n ... 'bc/cctv/00/cctv_0005 0 3 for IN (PP* - - - Xu_li * (ARG2* * -',\n ... 'bc/cctv/00/cctv_0005 0 4 watching VBG (S(VP)))) watch 01 1 Xu_li ) (V) -',\n ... 'bc/cctv/00/cctv_0005 0 5 . . )) - - - Xu_li * * -']\n >>> references = [words]\n >>> predictions = [words]\n >>> results = coval.compute(predictions=predictions, references=references)\n >>> print(results) # doctest:+ELLIPSIS\n {'mentions/recall': 1.0,[...] 'conll_score': 100.0}\n" def a__ ( UpperCAmelCase : int , UpperCAmelCase : str , UpperCAmelCase : Union[str, Any]=False , UpperCAmelCase : Optional[Any]=False , UpperCAmelCase : Optional[Any]=True , UpperCAmelCase : List[str]=False , UpperCAmelCase : List[str]="dummy_doc" ) -> Any: UpperCAmelCase : Dict = {doc: key_lines} UpperCAmelCase : Any = {doc: sys_lines} UpperCAmelCase : int = {} UpperCAmelCase : List[Any] = 0 UpperCAmelCase : Any = 0 UpperCAmelCase : Optional[int] = 0 UpperCAmelCase : Optional[Any] = 0 UpperCAmelCase : int = 0 UpperCAmelCase : List[str] = 0 UpperCAmelCase , UpperCAmelCase : Tuple = reader.get_doc_mentions(UpperCAmelCase , key_doc_lines[doc] , UpperCAmelCase ) key_singletons_num += singletons_num if NP_only or min_span: UpperCAmelCase : int = reader.set_annotated_parse_trees(UpperCAmelCase , key_doc_lines[doc] , UpperCAmelCase , UpperCAmelCase ) UpperCAmelCase , UpperCAmelCase : str = reader.get_doc_mentions(UpperCAmelCase , sys_doc_lines[doc] , UpperCAmelCase ) sys_singletons_num += singletons_num if NP_only or min_span: UpperCAmelCase : Tuple = reader.set_annotated_parse_trees(UpperCAmelCase , key_doc_lines[doc] , UpperCAmelCase , UpperCAmelCase ) if remove_nested: UpperCAmelCase , UpperCAmelCase : Tuple = reader.remove_nested_coref_mentions(UpperCAmelCase , UpperCAmelCase ) key_nested_coref_num += nested_mentions key_removed_nested_clusters += removed_clusters UpperCAmelCase , UpperCAmelCase : List[str] = reader.remove_nested_coref_mentions(UpperCAmelCase , UpperCAmelCase ) sys_nested_coref_num += nested_mentions sys_removed_nested_clusters += removed_clusters UpperCAmelCase : Union[str, Any] = reader.get_mention_assignments(UpperCAmelCase , UpperCAmelCase ) UpperCAmelCase : Optional[int] = reader.get_mention_assignments(UpperCAmelCase , UpperCAmelCase ) UpperCAmelCase : str = (key_clusters, sys_clusters, key_mention_sys_cluster, sys_mention_key_cluster) if remove_nested: logger.info( '''Number of removed nested coreferring mentions in the key ''' f'''annotation: {key_nested_coref_num}; and system annotation: {sys_nested_coref_num}''' ) logger.info( '''Number of resulting singleton clusters in the key ''' f'''annotation: {key_removed_nested_clusters}; and system annotation: {sys_removed_nested_clusters}''' ) if not keep_singletons: logger.info( f'''{key_singletons_num:d} and {sys_singletons_num:d} singletons are removed from the key and system ''' '''files, respectively''' ) return doc_coref_infos def a__ ( UpperCAmelCase : Tuple , UpperCAmelCase : Optional[Any] , UpperCAmelCase : Dict , UpperCAmelCase : List[str] , UpperCAmelCase : Tuple , UpperCAmelCase : int , UpperCAmelCase : Optional[Any] ) -> Union[str, Any]: UpperCAmelCase : Optional[int] = get_coref_infos(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ) UpperCAmelCase : Dict = {} UpperCAmelCase : Dict = 0 UpperCAmelCase : Tuple = 0 for name, metric in metrics: UpperCAmelCase , UpperCAmelCase , UpperCAmelCase : List[str] = evaluator.evaluate_documents(UpperCAmelCase , UpperCAmelCase , beta=1 ) if name in ["muc", "bcub", "ceafe"]: conll += fa conll_subparts_num += 1 output_scores.update({f'''{name}/recall''': recall, f'''{name}/precision''': precision, f'''{name}/f1''': fa} ) logger.info( name.ljust(10 ) , f'''Recall: {recall * 100:.2f}''' , f''' Precision: {precision * 100:.2f}''' , f''' F1: {fa * 100:.2f}''' , ) if conll_subparts_num == 3: UpperCAmelCase : Optional[int] = (conll / 3) * 100 logger.info(f'''CoNLL score: {conll:.2f}''' ) output_scores.update({'''conll_score''': conll} ) return output_scores def a__ ( UpperCAmelCase : Optional[int] ) -> List[str]: UpperCAmelCase : int = False for line in key_lines: if not line.startswith('''#''' ): if len(line.split() ) > 6: UpperCAmelCase : List[str] = line.split()[5] if not parse_col == "-": UpperCAmelCase : Optional[int] = True break else: break return has_gold_parse @datasets.utils.file_utils.add_start_docstrings(_DESCRIPTION , _KWARGS_DESCRIPTION ) class __UpperCAmelCase ( datasets.Metric ): def __magic_name__ ( self : Union[str, Any] ): return datasets.MetricInfo( description=_DESCRIPTION, citation=_CITATION, inputs_description=_KWARGS_DESCRIPTION, features=datasets.Features( { '''predictions''': datasets.Sequence(datasets.Value('''string''' ) ), '''references''': datasets.Sequence(datasets.Value('''string''' ) ), } ), codebase_urls=['''https://github.com/ns-moosavi/coval'''], reference_urls=[ '''https://github.com/ns-moosavi/coval''', '''https://www.aclweb.org/anthology/P16-1060''', '''http://www.conll.cemantix.org/2012/data.html''', ], ) def __magic_name__ ( self : str, __A : Any, __A : Dict, __A : List[str]=True, __A : Optional[Any]=False, __A : List[Any]=False, __A : Tuple=False ): UpperCAmelCase : Optional[Any] = [ ('''mentions''', evaluator.mentions), ('''muc''', evaluator.muc), ('''bcub''', evaluator.b_cubed), ('''ceafe''', evaluator.ceafe), ('''lea''', evaluator.lea), ] if min_span: UpperCAmelCase : List[Any] = util.check_gold_parse_annotation(__A ) if not has_gold_parse: raise NotImplementedError('''References should have gold parse annotation to use \'min_span\'.''' ) # util.parse_key_file(key_file) # key_file = key_file + ".parsed" UpperCAmelCase : Union[str, Any] = evaluate( key_lines=__A, sys_lines=__A, metrics=__A, NP_only=__A, remove_nested=__A, keep_singletons=__A, min_span=__A, ) return score	99	1
import argparse import OmegaConf import torch from diffusers import DDIMScheduler, LDMPipeline, UNetLDMModel, VQModel def UpperCamelCase__ ( A__ , A__ , A__ ) -> Dict: snake_case__ : Union[str, Any] = OmegaConf.load(A__ ) snake_case__ : int = torch.load(A__ , map_location='cpu' )['model'] snake_case__ : Optional[int] = list(state_dict.keys() ) # extract state_dict for VQVAE snake_case__ : int = {} snake_case__ : Dict = 'first_stage_model.' for key in keys: if key.startswith(A__ ): snake_case__ : List[str] = state_dict[key] # extract state_dict for UNetLDM snake_case__ : Any = {} snake_case__ : str = 'model.diffusion_model.' for key in keys: if key.startswith(A__ ): snake_case__ : Optional[int] = state_dict[key] snake_case__ : Any = config.model.params.first_stage_config.params snake_case__ : Optional[int] = config.model.params.unet_config.params snake_case__ : Optional[int] = VQModel(A__ ).eval() vqvae.load_state_dict(A__ ) snake_case__ : List[Any] = UNetLDMModel(A__ ).eval() unet.load_state_dict(A__ ) snake_case__ : Optional[int] = DDIMScheduler( timesteps=config.model.params.timesteps , beta_schedule='scaled_linear' , beta_start=config.model.params.linear_start , beta_end=config.model.params.linear_end , clip_sample=A__ , ) snake_case__ : Any = LDMPipeline(A__ , A__ , A__ ) pipeline.save_pretrained(A__ ) if __name__ == "__main__": lowerCAmelCase__ : Any = argparse.ArgumentParser() parser.add_argument('''--checkpoint_path''', type=str, required=True) parser.add_argument('''--config_path''', type=str, required=True) parser.add_argument('''--output_path''', type=str, required=True) lowerCAmelCase__ : str = parser.parse_args() convert_ldm_original(args.checkpoint_path, args.config_path, args.output_path)	143	from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_torch_available, is_vision_available, ) lowerCAmelCase__ : Optional[Any] = { '''configuration_mobilevit''': ['''MOBILEVIT_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''MobileViTConfig''', '''MobileViTOnnxConfig'''], } try: if not is_vision_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ : Dict = ['''MobileViTFeatureExtractor'''] lowerCAmelCase__ : Optional[int] = ['''MobileViTImageProcessor'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ : str = [ '''MOBILEVIT_PRETRAINED_MODEL_ARCHIVE_LIST''', '''MobileViTForImageClassification''', '''MobileViTForSemanticSegmentation''', '''MobileViTModel''', '''MobileViTPreTrainedModel''', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ : str = [ '''TF_MOBILEVIT_PRETRAINED_MODEL_ARCHIVE_LIST''', '''TFMobileViTForImageClassification''', '''TFMobileViTForSemanticSegmentation''', '''TFMobileViTModel''', '''TFMobileViTPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_mobilevit import MOBILEVIT_PRETRAINED_CONFIG_ARCHIVE_MAP, MobileViTConfig, MobileViTOnnxConfig try: if not is_vision_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .feature_extraction_mobilevit import MobileViTFeatureExtractor from .image_processing_mobilevit import MobileViTImageProcessor try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_mobilevit import ( MOBILEVIT_PRETRAINED_MODEL_ARCHIVE_LIST, MobileViTForImageClassification, MobileViTForSemanticSegmentation, MobileViTModel, MobileViTPreTrainedModel, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_mobilevit import ( TF_MOBILEVIT_PRETRAINED_MODEL_ARCHIVE_LIST, TFMobileViTForImageClassification, TFMobileViTForSemanticSegmentation, TFMobileViTModel, TFMobileViTPreTrainedModel, ) else: import sys lowerCAmelCase__ : Any = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)	143	1
"""simple docstring""" from __future__ import annotations import os from typing import Any import requests A__ : Any = """https://api.github.com""" # https://docs.github.com/en/free-pro-team@latest/rest/reference/users#get-the-authenticated-user A__ : Tuple = BASE_URL + """/user""" # https://github.com/settings/tokens A__ : Optional[Any] = os.environ.get('USER_TOKEN', '') def _snake_case ( lowerCamelCase__ : str ): lowerCamelCase_ : Dict ={ '''Authorization''': F"""token {auth_token}""", '''Accept''': '''application/vnd.github.v3+json''', } return requests.get(_snake_case , headers=_snake_case ).json() if __name__ == "__main__": # pragma: no cover if USER_TOKEN: for key, value in fetch_github_info(USER_TOKEN).items(): print(f'{key}: {value}') else: raise ValueError('\'USER_TOKEN\' field cannot be empty.')	352	"""simple docstring""" import itertools from dataclasses import dataclass from typing import List, Optional import pyarrow as pa import pyarrow.parquet as pq import datasets from datasets.table import table_cast A__ : List[str] = datasets.utils.logging.get_logger(__name__) @dataclass class lowercase__ ( datasets.BuilderConfig ): _UpperCAmelCase :int = 10000 _UpperCAmelCase :Optional[List[str]] = None _UpperCAmelCase :Optional[datasets.Features] = None class lowercase__ ( datasets.ArrowBasedBuilder ): _UpperCAmelCase :Optional[int] = ParquetConfig def UpperCAmelCase__ ( self : Optional[int] ): return datasets.DatasetInfo(features=self.config.features ) def UpperCAmelCase__ ( self : List[Any] , snake_case__ : List[Any] ): if not self.config.data_files: raise ValueError(F"""At least one data file must be specified, but got data_files={self.config.data_files}""" ) lowerCamelCase_ : str =dl_manager.download_and_extract(self.config.data_files ) if isinstance(snake_case__ , (str, list, tuple) ): lowerCamelCase_ : Dict =data_files if isinstance(snake_case__ , snake_case__ ): lowerCamelCase_ : List[Any] =[files] # Use `dl_manager.iter_files` to skip hidden files in an extracted archive lowerCamelCase_ : Any =[dl_manager.iter_files(snake_case__ ) for file in files] return [datasets.SplitGenerator(name=datasets.Split.TRAIN , gen_kwargs={"files": files} )] lowerCamelCase_ : Optional[int] =[] for split_name, files in data_files.items(): if isinstance(snake_case__ , snake_case__ ): lowerCamelCase_ : Optional[int] =[files] # Use `dl_manager.iter_files` to skip hidden files in an extracted archive lowerCamelCase_ : int =[dl_manager.iter_files(snake_case__ ) for file in files] # Infer features is they are stoed in the arrow schema if self.info.features is None: for file in itertools.chain.from_iterable(snake_case__ ): with open(snake_case__ , "rb" ) as f: lowerCamelCase_ : List[Any] =datasets.Features.from_arrow_schema(pq.read_schema(snake_case__ ) ) break splits.append(datasets.SplitGenerator(name=snake_case__ , gen_kwargs={"files": files} ) ) return splits def UpperCAmelCase__ ( self : int , snake_case__ : pa.Table ): if self.info.features is not None: # more expensive cast to support nested features with keys in a different order # allows str <-> int/float or str to Audio for example lowerCamelCase_ : List[str] =table_cast(snake_case__ , self.info.features.arrow_schema ) return pa_table def UpperCAmelCase__ ( self : int , snake_case__ : Optional[Any] ): lowerCamelCase_ : Tuple =self.info.features.arrow_schema if self.info.features is not None else None if self.info.features is not None and self.config.columns is not None: if sorted(field.name for field in schema ) != sorted(self.config.columns ): raise ValueError( F"""Tried to load parquet data with columns '{self.config.columns}' with mismatching features '{self.info.features}'""" ) for file_idx, file in enumerate(itertools.chain.from_iterable(snake_case__ ) ): with open(snake_case__ , "rb" ) as f: lowerCamelCase_ : List[str] =pq.ParquetFile(snake_case__ ) try: for batch_idx, record_batch in enumerate( parquet_file.iter_batches(batch_size=self.config.batch_size , columns=self.config.columns ) ): lowerCamelCase_ : Union[str, Any] =pa.Table.from_batches([record_batch] ) # Uncomment for debugging (will print the Arrow table size and elements) # logger.warning(f"pa_table: {pa_table} num rows: {pa_table.num_rows}") # logger.warning('\n'.join(str(pa_table.slice(i, 1).to_pydict()) for i in range(pa_table.num_rows))) yield F"""{file_idx}_{batch_idx}""", self._cast_table(snake_case__ ) except ValueError as e: logger.error(F"""Failed to read file '{file}' with error {type(snake_case__ )}: {e}""" ) raise	209	0
import os import shutil from pathlib import Path from typing import Optional, Union import numpy as np from huggingface_hub import hf_hub_download from ..utils import ONNX_EXTERNAL_WEIGHTS_NAME, ONNX_WEIGHTS_NAME, is_onnx_available, logging if is_onnx_available(): import onnxruntime as ort a__ = logging.get_logger(__name__) a__ = { """tensor(bool)""": np.bool_, """tensor(int8)""": np.inta, """tensor(uint8)""": np.uinta, """tensor(int16)""": np.intaa, """tensor(uint16)""": np.uintaa, """tensor(int32)""": np.intaa, """tensor(uint32)""": np.uintaa, """tensor(int64)""": np.intaa, """tensor(uint64)""": np.uintaa, """tensor(float16)""": np.floataa, """tensor(float)""": np.floataa, """tensor(double)""": np.floataa, } class snake_case : '''simple docstring''' def __init__( self : List[Any] , lowerCAmelCase : int=None , lowerCAmelCase : str) -> List[Any]: """simple docstring""" logger.info("""`diffusers.OnnxRuntimeModel` is experimental and might change in the future.""") _snake_case : Union[str, Any] = model _snake_case : List[Any] = kwargs.get("""model_save_dir""" , lowerCAmelCase) _snake_case : int = kwargs.get("""latest_model_name""" , lowerCAmelCase) def __call__( self : str , lowerCAmelCase : Any) -> Optional[int]: """simple docstring""" _snake_case : int = {k: np.array(lowerCAmelCase) for k, v in kwargs.items()} return self.model.run(lowerCAmelCase , lowerCAmelCase) @staticmethod def UpperCamelCase_ ( lowerCAmelCase : Union[str, Path] , lowerCAmelCase : Optional[Any]=None , lowerCAmelCase : Dict=None) -> List[str]: """simple docstring""" if provider is None: logger.info("""No onnxruntime provider specified, using CPUExecutionProvider""") _snake_case : Tuple = """CPUExecutionProvider""" return ort.InferenceSession(lowerCAmelCase , providers=[provider] , sess_options=lowerCAmelCase) def UpperCamelCase_ ( self : Any , lowerCAmelCase : Union[str, Path] , lowerCAmelCase : Optional[str] = None , lowerCAmelCase : Union[str, Any]) -> List[str]: """simple docstring""" _snake_case : Tuple = file_name if file_name is not None else ONNX_WEIGHTS_NAME _snake_case : Tuple = self.model_save_dir.joinpath(self.latest_model_name) _snake_case : Dict = Path(lowerCAmelCase).joinpath(lowerCAmelCase) try: shutil.copyfile(lowerCAmelCase , lowerCAmelCase) except shutil.SameFileError: pass # copy external weights (for models >2GB) _snake_case : Dict = self.model_save_dir.joinpath(lowerCAmelCase) if src_path.exists(): _snake_case : Optional[int] = Path(lowerCAmelCase).joinpath(lowerCAmelCase) try: shutil.copyfile(lowerCAmelCase , lowerCAmelCase) except shutil.SameFileError: pass def UpperCamelCase_ ( self : int , lowerCAmelCase : Union[str, os.PathLike] , lowerCAmelCase : Optional[int] , ) -> str: """simple docstring""" if os.path.isfile(lowerCAmelCase): logger.error(F'''Provided path ({save_directory}) should be a directory, not a file''') return os.makedirs(lowerCAmelCase , exist_ok=lowerCAmelCase) # saving model weights/files self._save_pretrained(lowerCAmelCase , lowerCAmelCase) @classmethod def UpperCamelCase_ ( cls : List[Any] , lowerCAmelCase : Union[str, Path] , lowerCAmelCase : Optional[Union[bool, str, None]] = None , lowerCAmelCase : Optional[Union[str, None]] = None , lowerCAmelCase : bool = False , lowerCAmelCase : Optional[str] = None , lowerCAmelCase : Optional[str] = None , lowerCAmelCase : Optional[str] = None , lowerCAmelCase : Optional["ort.SessionOptions"] = None , lowerCAmelCase : List[str] , ) -> List[str]: """simple docstring""" _snake_case : str = file_name if file_name is not None else ONNX_WEIGHTS_NAME # load model from local directory if os.path.isdir(lowerCAmelCase): _snake_case : Optional[Any] = OnnxRuntimeModel.load_model( os.path.join(lowerCAmelCase , lowerCAmelCase) , provider=lowerCAmelCase , sess_options=lowerCAmelCase) _snake_case : Optional[Any] = Path(lowerCAmelCase) # load model from hub else: # download model _snake_case : List[str] = hf_hub_download( repo_id=lowerCAmelCase , filename=lowerCAmelCase , use_auth_token=lowerCAmelCase , revision=lowerCAmelCase , cache_dir=lowerCAmelCase , force_download=lowerCAmelCase , ) _snake_case : str = Path(lowerCAmelCase).parent _snake_case : List[Any] = Path(lowerCAmelCase).name _snake_case : str = OnnxRuntimeModel.load_model(lowerCAmelCase , provider=lowerCAmelCase , sess_options=lowerCAmelCase) return cls(model=lowerCAmelCase , lowerCAmelCase) @classmethod def UpperCamelCase_ ( cls : Dict , lowerCAmelCase : Union[str, Path] , lowerCAmelCase : bool = True , lowerCAmelCase : Optional[str] = None , lowerCAmelCase : Optional[str] = None , lowerCAmelCase : str , ) -> List[Any]: """simple docstring""" _snake_case : Any = None if len(str(lowerCAmelCase).split("""@""")) == 2: _snake_case , _snake_case : Optional[Any] = model_id.split("""@""") return cls._from_pretrained( model_id=lowerCAmelCase , revision=lowerCAmelCase , cache_dir=lowerCAmelCase , force_download=lowerCAmelCase , use_auth_token=lowerCAmelCase , **lowerCAmelCase , )	317	from operator import delitem, getitem, setitem import pytest from data_structures.hashing.hash_map import HashMap def lowercase ( SCREAMING_SNAKE_CASE__ : Optional[int] ) -> int: return getitem, k def lowercase ( SCREAMING_SNAKE_CASE__ : Tuple , SCREAMING_SNAKE_CASE__ : Optional[int] ) -> str: return setitem, k, v def lowercase ( SCREAMING_SNAKE_CASE__ : Tuple ) -> Optional[Any]: return delitem, k def lowercase ( SCREAMING_SNAKE_CASE__ : Dict , SCREAMING_SNAKE_CASE__ : str , SCREAMING_SNAKE_CASE__ : int ) -> Optional[int]: try: return fun(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ), None except Exception as e: return None, e a__ = ( _set("""key_a""", """val_a"""), _set("""key_b""", """val_b"""), ) a__ = [ _set("""key_a""", """val_a"""), _set("""key_a""", """val_b"""), ] a__ = [ _set("""key_a""", """val_a"""), _set("""key_b""", """val_b"""), _del("""key_a"""), _del("""key_b"""), _set("""key_a""", """val_a"""), _del("""key_a"""), ] a__ = [ _get("""key_a"""), _del("""key_a"""), _set("""key_a""", """val_a"""), _del("""key_a"""), _del("""key_a"""), _get("""key_a"""), ] a__ = [ [_set(x, x) for x in range(5)], # guaranteed upsize ] a__ = [ [_set(x, x) for x in range(5)], # guaranteed upsize [_del(x) for x in range(5)], _set("""key_a""", """val_b"""), ] @pytest.mark.parametrize( """operations""" , ( pytest.param(_add_items , id="""add items""" ), pytest.param(_overwrite_items , id="""overwrite items""" ), pytest.param(_delete_items , id="""delete items""" ), pytest.param(_access_absent_items , id="""access absent items""" ), pytest.param(_add_with_resize_up , id="""add with resize up""" ), pytest.param(_add_with_resize_down , id="""add with resize down""" ), ) , ) def lowercase ( SCREAMING_SNAKE_CASE__ : str ) -> Tuple: _snake_case : List[Any] = HashMap(initial_block_size=4 ) _snake_case : int = {} for _, (fun, args) in enumerate(SCREAMING_SNAKE_CASE__ ): _snake_case , _snake_case : Tuple = _run_operation(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ) _snake_case , _snake_case : int = _run_operation(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ) assert my_res == py_res assert str(SCREAMING_SNAKE_CASE__ ) == str(SCREAMING_SNAKE_CASE__ ) assert set(SCREAMING_SNAKE_CASE__ ) == set(SCREAMING_SNAKE_CASE__ ) assert len(SCREAMING_SNAKE_CASE__ ) == len(SCREAMING_SNAKE_CASE__ ) assert set(my.items() ) == set(py.items() ) def lowercase ( ) -> Optional[int]: def is_public(SCREAMING_SNAKE_CASE__ : str ) -> bool: return not name.startswith("""_""" ) _snake_case : Tuple = {name for name in dir({} ) if is_public(SCREAMING_SNAKE_CASE__ )} _snake_case : Optional[Any] = {name for name in dir(HashMap() ) if is_public(SCREAMING_SNAKE_CASE__ )} assert dict_public_names > hash_public_names	317	1
import unittest from transformers import LiltConfig, is_torch_available from transformers.testing_utils import require_torch, slow, torch_device from ...generation.test_utils import GenerationTesterMixin from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin, ids_tensor from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import ( LiltForQuestionAnswering, LiltForSequenceClassification, LiltForTokenClassification, LiltModel, ) from transformers.models.lilt.modeling_lilt import LILT_PRETRAINED_MODEL_ARCHIVE_LIST class __A : """simple docstring""" def __init__( self , lowerCamelCase__ , lowerCamelCase__=13 , lowerCamelCase__=7 , lowerCamelCase__=True , lowerCamelCase__=True , lowerCamelCase__=True , lowerCamelCase__=True , lowerCamelCase__=99 , lowerCamelCase__=24 , lowerCamelCase__=2 , lowerCamelCase__=6 , lowerCamelCase__=37 , lowerCamelCase__="gelu" , lowerCamelCase__=0.1 , lowerCamelCase__=0.1 , lowerCamelCase__=512 , lowerCamelCase__=16 , lowerCamelCase__=2 , lowerCamelCase__=0.02 , lowerCamelCase__=3 , lowerCamelCase__=None , lowerCamelCase__=1000 , ): """simple docstring""" __UpperCamelCase : int =parent __UpperCamelCase : List[str] =batch_size __UpperCamelCase : List[str] =seq_length __UpperCamelCase : str =is_training __UpperCamelCase : Union[str, Any] =use_input_mask __UpperCamelCase : Dict =use_token_type_ids __UpperCamelCase : int =use_labels __UpperCamelCase : Any =vocab_size __UpperCamelCase : List[Any] =hidden_size __UpperCamelCase : List[str] =num_hidden_layers __UpperCamelCase : Dict =num_attention_heads __UpperCamelCase : Union[str, Any] =intermediate_size __UpperCamelCase : int =hidden_act __UpperCamelCase : List[Any] =hidden_dropout_prob __UpperCamelCase : Dict =attention_probs_dropout_prob __UpperCamelCase : Union[str, Any] =max_position_embeddings __UpperCamelCase : str =type_vocab_size __UpperCamelCase : Dict =type_sequence_label_size __UpperCamelCase : Optional[Any] =initializer_range __UpperCamelCase : Any =num_labels __UpperCamelCase : List[Any] =scope __UpperCamelCase : Dict =range_bbox def __lowercase ( self ): """simple docstring""" __UpperCamelCase : str =ids_tensor([self.batch_size, self.seq_length] , self.vocab_size ) __UpperCamelCase : int =ids_tensor([self.batch_size, self.seq_length, 4] , self.range_bbox ) # Ensure that bbox is legal for i in range(bbox.shape[0] ): for j in range(bbox.shape[1] ): if bbox[i, j, 3] < bbox[i, j, 1]: __UpperCamelCase : List[Any] =bbox[i, j, 3] __UpperCamelCase : Any =bbox[i, j, 1] __UpperCamelCase : Union[str, Any] =t if bbox[i, j, 2] < bbox[i, j, 0]: __UpperCamelCase : str =bbox[i, j, 2] __UpperCamelCase : List[str] =bbox[i, j, 0] __UpperCamelCase : Optional[Any] =t __UpperCamelCase : str =None if self.use_input_mask: __UpperCamelCase : Any =ids_tensor([self.batch_size, self.seq_length] , vocab_size=2 ) __UpperCamelCase : List[str] =None if self.use_token_type_ids: __UpperCamelCase : int =ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size ) __UpperCamelCase : int =None __UpperCamelCase : Dict =None if self.use_labels: __UpperCamelCase : Tuple =ids_tensor([self.batch_size] , self.type_sequence_label_size ) __UpperCamelCase : List[Any] =ids_tensor([self.batch_size, self.seq_length] , self.num_labels ) __UpperCamelCase : Union[str, Any] =self.get_config() return config, input_ids, bbox, token_type_ids, input_mask, sequence_labels, token_labels def __lowercase ( self ): """simple docstring""" return LiltConfig( vocab_size=self.vocab_size , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , max_position_embeddings=self.max_position_embeddings , type_vocab_size=self.type_vocab_size , initializer_range=self.initializer_range , ) def __lowercase ( self , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , ): """simple docstring""" __UpperCamelCase : List[Any] =LiltModel(config=_a ) model.to(_a ) model.eval() __UpperCamelCase : Any =model(_a , bbox=_a , attention_mask=_a , token_type_ids=_a ) __UpperCamelCase : Optional[Any] =model(_a , bbox=_a , token_type_ids=_a ) __UpperCamelCase : List[Any] =model(_a , bbox=_a ) self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) ) self.parent.assertEqual(result.pooler_output.shape , (self.batch_size, self.hidden_size) ) def __lowercase ( self , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , ): """simple docstring""" __UpperCamelCase : str =self.num_labels __UpperCamelCase : str =LiltForTokenClassification(config=_a ) model.to(_a ) model.eval() __UpperCamelCase : Optional[int] =model( _a , bbox=_a , attention_mask=_a , token_type_ids=_a , labels=_a ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.seq_length, self.num_labels) ) def __lowercase ( self , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , ): """simple docstring""" __UpperCamelCase : int =LiltForQuestionAnswering(config=_a ) model.to(_a ) model.eval() __UpperCamelCase : List[Any] =model( _a , bbox=_a , attention_mask=_a , token_type_ids=_a , start_positions=_a , end_positions=_a , ) self.parent.assertEqual(result.start_logits.shape , (self.batch_size, self.seq_length) ) self.parent.assertEqual(result.end_logits.shape , (self.batch_size, self.seq_length) ) def __lowercase ( self ): """simple docstring""" __UpperCamelCase : List[str] =self.prepare_config_and_inputs() ( __UpperCamelCase ) : Union[str, Any] =config_and_inputs __UpperCamelCase : Tuple ={ 'input_ids': input_ids, 'bbox': bbox, 'token_type_ids': token_type_ids, 'attention_mask': input_mask, } return config, inputs_dict @require_torch class __A ( lowercase__ , lowercase__ , lowercase__ , unittest.TestCase ): """simple docstring""" UpperCamelCase__ : Tuple =( ( LiltModel, LiltForSequenceClassification, LiltForTokenClassification, LiltForQuestionAnswering, ) if is_torch_available() else () ) UpperCamelCase__ : Tuple =( { '''feature-extraction''': LiltModel, '''question-answering''': LiltForQuestionAnswering, '''text-classification''': LiltForSequenceClassification, '''token-classification''': LiltForTokenClassification, '''zero-shot''': LiltForSequenceClassification, } if is_torch_available() else {} ) UpperCamelCase__ : Tuple =False UpperCamelCase__ : Dict =False def __lowercase ( self , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ ): """simple docstring""" return True def __lowercase ( self ): """simple docstring""" __UpperCamelCase : Optional[Any] =LiltModelTester(self ) __UpperCamelCase : List[str] =ConfigTester(self , config_class=_a , hidden_size=37 ) def __lowercase ( self ): """simple docstring""" self.config_tester.run_common_tests() def __lowercase ( self ): """simple docstring""" __UpperCamelCase : str =self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(_a ) def __lowercase ( self ): """simple docstring""" __UpperCamelCase : Optional[int] =self.model_tester.prepare_config_and_inputs() for type in ["absolute", "relative_key", "relative_key_query"]: __UpperCamelCase : Any =type self.model_tester.create_and_check_model(_a ) def __lowercase ( self ): """simple docstring""" __UpperCamelCase : Optional[int] =self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_token_classification(_a ) def __lowercase ( self ): """simple docstring""" __UpperCamelCase : Tuple =self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_question_answering(_a ) @slow def __lowercase ( self ): """simple docstring""" for model_name in LILT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: __UpperCamelCase : Any =LiltModel.from_pretrained(_a ) self.assertIsNotNone(_a ) @require_torch @slow class __A ( unittest.TestCase ): """simple docstring""" def __lowercase ( self ): """simple docstring""" __UpperCamelCase : Optional[Any] =LiltModel.from_pretrained('SCUT-DLVCLab/lilt-roberta-en-base' ).to(_a ) __UpperCamelCase : Optional[int] =torch.tensor([[1, 2]] , device=_a ) __UpperCamelCase : Dict =torch.tensor([[[1, 2, 3, 4], [5, 6, 7, 8]]] , device=_a ) # forward pass with torch.no_grad(): __UpperCamelCase : List[Any] =model(input_ids=_a , bbox=_a ) __UpperCamelCase : Any =torch.Size([1, 2, 768] ) __UpperCamelCase : Any =torch.tensor( [[-0.0_653, 0.0_950, -0.0_061], [-0.0_545, 0.0_926, -0.0_324]] , device=_a , ) self.assertTrue(outputs.last_hidden_state.shape , _a ) self.assertTrue(torch.allclose(outputs.last_hidden_state[0, :, :3] , _a , atol=1E-3 ) )	355	from ...configuration_utils import PretrainedConfig from ...utils import logging A_ :Any = logging.get_logger(__name__) A_ :List[Any] = { '''edbeeching/decision-transformer-gym-hopper-medium''': ( '''https://huggingface.co/edbeeching/decision-transformer-gym-hopper-medium/resolve/main/config.json''' ), # See all DecisionTransformer models at https://huggingface.co/models?filter=decision_transformer } class __A ( a ): """simple docstring""" UpperCamelCase__ : Optional[Any] ="""decision_transformer""" UpperCamelCase__ : str =["""past_key_values"""] UpperCamelCase__ : Union[str, Any] ={ """max_position_embeddings""": """n_positions""", """num_attention_heads""": """n_head""", """num_hidden_layers""": """n_layer""", } def __init__( self , lowerCamelCase__=17 , lowerCamelCase__=4 , lowerCamelCase__=128 , lowerCamelCase__=4096 , lowerCamelCase__=True , lowerCamelCase__=1 , lowerCamelCase__=1024 , lowerCamelCase__=3 , lowerCamelCase__=1 , lowerCamelCase__=None , lowerCamelCase__="relu" , lowerCamelCase__=0.1 , lowerCamelCase__=0.1 , lowerCamelCase__=0.1 , lowerCamelCase__=1E-5 , lowerCamelCase__=0.02 , lowerCamelCase__=True , lowerCamelCase__=True , lowerCamelCase__=50256 , lowerCamelCase__=50256 , lowerCamelCase__=False , lowerCamelCase__=False , lowerCamelCase__ , ): """simple docstring""" __UpperCamelCase : str =state_dim __UpperCamelCase : List[Any] =act_dim __UpperCamelCase : Any =hidden_size __UpperCamelCase : Union[str, Any] =max_ep_len __UpperCamelCase : Optional[int] =action_tanh __UpperCamelCase : Tuple =vocab_size __UpperCamelCase : Any =n_positions __UpperCamelCase : Optional[Any] =n_layer __UpperCamelCase : List[str] =n_head __UpperCamelCase : Union[str, Any] =n_inner __UpperCamelCase : List[Any] =activation_function __UpperCamelCase : Tuple =resid_pdrop __UpperCamelCase : List[str] =embd_pdrop __UpperCamelCase : Tuple =attn_pdrop __UpperCamelCase : Dict =layer_norm_epsilon __UpperCamelCase : Any =initializer_range __UpperCamelCase : Tuple =scale_attn_weights __UpperCamelCase : List[Any] =use_cache __UpperCamelCase : List[str] =scale_attn_by_inverse_layer_idx __UpperCamelCase : Any =reorder_and_upcast_attn __UpperCamelCase : Tuple =bos_token_id __UpperCamelCase : Optional[int] =eos_token_id super().__init__(bos_token_id=lowerCamelCase__ , eos_token_id=lowerCamelCase__ , lowerCamelCase__ )	245	0
'''simple docstring''' from __future__ import annotations import inspect import unittest import numpy as np from transformers import DeiTConfig from transformers.testing_utils import require_tf, require_vision, slow from transformers.utils import cached_property, is_tf_available, is_vision_available from ...test_configuration_common import ConfigTester from ...test_modeling_tf_common import TFModelTesterMixin, floats_tensor, ids_tensor from ...test_pipeline_mixin import PipelineTesterMixin if is_tf_available(): import tensorflow as tf from transformers import ( TFDeiTForImageClassification, TFDeiTForImageClassificationWithTeacher, TFDeiTForMaskedImageModeling, TFDeiTModel, ) from transformers.models.deit.modeling_tf_deit import TF_DEIT_PRETRAINED_MODEL_ARCHIVE_LIST if is_vision_available(): from PIL import Image from transformers import DeiTImageProcessor class __A : def __init__(self : Any , __a : str , __a : List[str]=13 , __a : Optional[int]=30 , __a : Tuple=2 , __a : str=3 , __a : Tuple=True , __a : List[Any]=True , __a : Optional[int]=32 , __a : Optional[int]=2 , __a : int=4 , __a : Optional[Any]=37 , __a : Optional[Any]="gelu" , __a : Optional[Any]=0.1 , __a : int=0.1 , __a : int=10 , __a : Optional[int]=0.02 , __a : Dict=3 , __a : Optional[int]=None , __a : List[str]=2 , ): UpperCAmelCase_ = parent UpperCAmelCase_ = batch_size UpperCAmelCase_ = image_size UpperCAmelCase_ = patch_size UpperCAmelCase_ = num_channels UpperCAmelCase_ = is_training UpperCAmelCase_ = use_labels UpperCAmelCase_ = hidden_size UpperCAmelCase_ = num_hidden_layers UpperCAmelCase_ = num_attention_heads UpperCAmelCase_ = intermediate_size UpperCAmelCase_ = hidden_act UpperCAmelCase_ = hidden_dropout_prob UpperCAmelCase_ = attention_probs_dropout_prob UpperCAmelCase_ = type_sequence_label_size UpperCAmelCase_ = initializer_range UpperCAmelCase_ = scope UpperCAmelCase_ = encoder_stride # in DeiT, the seq length equals the number of patches + 2 (we add 2 for the [CLS] and distilation tokens) UpperCAmelCase_ = (image_size // patch_size) ** 2 UpperCAmelCase_ = num_patches + 2 def _lowercase (self : Optional[Any] ): UpperCAmelCase_ = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] ) UpperCAmelCase_ = None if self.use_labels: UpperCAmelCase_ = ids_tensor([self.batch_size] , self.type_sequence_label_size ) UpperCAmelCase_ = self.get_config() return config, pixel_values, labels def _lowercase (self : List[str] ): return DeiTConfig( image_size=self.image_size , patch_size=self.patch_size , num_channels=self.num_channels , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , is_decoder=__a , initializer_range=self.initializer_range , encoder_stride=self.encoder_stride , ) def _lowercase (self : Union[str, Any] , __a : str , __a : Any , __a : Dict ): UpperCAmelCase_ = TFDeiTModel(config=__a ) UpperCAmelCase_ = model(__a ) self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) ) def _lowercase (self : str , __a : Optional[int] , __a : List[str] , __a : Tuple ): UpperCAmelCase_ = TFDeiTForMaskedImageModeling(config=__a ) UpperCAmelCase_ = model(__a ) self.parent.assertEqual( result.reconstruction.shape , (self.batch_size, self.num_channels, self.image_size, self.image_size) ) # test greyscale images UpperCAmelCase_ = 1 UpperCAmelCase_ = TFDeiTForMaskedImageModeling(__a ) UpperCAmelCase_ = floats_tensor([self.batch_size, 1, self.image_size, self.image_size] ) UpperCAmelCase_ = model(__a ) self.parent.assertEqual(result.reconstruction.shape , (self.batch_size, 1, self.image_size, self.image_size) ) def _lowercase (self : List[Any] , __a : List[str] , __a : int , __a : int ): UpperCAmelCase_ = self.type_sequence_label_size UpperCAmelCase_ = TFDeiTForImageClassification(__a ) UpperCAmelCase_ = model(__a , labels=__a ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size) ) # test greyscale images UpperCAmelCase_ = 1 UpperCAmelCase_ = TFDeiTForImageClassification(__a ) UpperCAmelCase_ = floats_tensor([self.batch_size, 1, self.image_size, self.image_size] ) UpperCAmelCase_ = model(__a , labels=__a ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size) ) def _lowercase (self : Dict ): UpperCAmelCase_ = self.prepare_config_and_inputs() UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = config_and_inputs UpperCAmelCase_ = {"pixel_values": pixel_values} return config, inputs_dict @require_tf class __A ( UpperCamelCase__ , UpperCamelCase__ , unittest.TestCase ): a__ : Tuple = ( ( TFDeiTModel, TFDeiTForImageClassification, TFDeiTForImageClassificationWithTeacher, TFDeiTForMaskedImageModeling, ) if is_tf_available() else () ) a__ : Union[str, Any] = ( { """feature-extraction""": TFDeiTModel, """image-classification""": (TFDeiTForImageClassification, TFDeiTForImageClassificationWithTeacher), } if is_tf_available() else {} ) a__ : Tuple = False a__ : List[Any] = False a__ : Any = False a__ : Dict = False def _lowercase (self : List[Any] ): UpperCAmelCase_ = TFDeiTModelTester(self ) UpperCAmelCase_ = ConfigTester(self , config_class=__a , has_text_modality=__a , hidden_size=37 ) def _lowercase (self : Union[str, Any] ): self.config_tester.run_common_tests() @unittest.skip(reason="DeiT does not use inputs_embeds" ) def _lowercase (self : List[str] ): pass def _lowercase (self : List[Any] ): UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: UpperCAmelCase_ = model_class(__a ) self.assertIsInstance(model.get_input_embeddings() , (tf.keras.layers.Layer) ) UpperCAmelCase_ = model.get_output_embeddings() self.assertTrue(x is None or isinstance(__a , tf.keras.layers.Dense ) ) def _lowercase (self : Optional[Any] ): UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: UpperCAmelCase_ = model_class(__a ) UpperCAmelCase_ = inspect.signature(model.call ) # signature.parameters is an OrderedDict => so arg_names order is deterministic UpperCAmelCase_ = [signature.parameters.keys()] UpperCAmelCase_ = ["pixel_values"] self.assertListEqual(arg_names[:1] , __a ) def _lowercase (self : Dict ): UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(__a ) def _lowercase (self : Any ): UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_masked_image_modeling(__a ) def _lowercase (self : Any ): UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_image_classification(__a ) def _lowercase (self : Optional[Any] , __a : Tuple , __a : Tuple , __a : Union[str, Any]=False ): UpperCAmelCase_ = super()._prepare_for_class(__a , __a , return_labels=__a ) if return_labels: if "labels" in inputs_dict and "labels" not in inspect.signature(model_class.call ).parameters: del inputs_dict["labels"] return inputs_dict @slow def _lowercase (self : int ): for model_name in TF_DEIT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: UpperCAmelCase_ = TFDeiTModel.from_pretrained(__a ) self.assertIsNotNone(__a ) def lowerCAmelCase_ ( ) -> Dict: '''simple docstring''' UpperCAmelCase_ = Image.open("./tests/fixtures/tests_samples/COCO/000000039769.png" ) return image @require_tf @require_vision class __A ( unittest.TestCase ): @cached_property def _lowercase (self : Union[str, Any] ): return ( DeiTImageProcessor.from_pretrained("facebook/deit-base-distilled-patch16-224" ) if is_vision_available() else None ) @slow def _lowercase (self : Optional[Any] ): UpperCAmelCase_ = TFDeiTForImageClassificationWithTeacher.from_pretrained("facebook/deit-base-distilled-patch16-224" ) UpperCAmelCase_ = self.default_image_processor UpperCAmelCase_ = prepare_img() UpperCAmelCase_ = image_processor(images=__a , return_tensors="tf" ) # forward pass UpperCAmelCase_ = model(**__a ) # verify the logits UpperCAmelCase_ = tf.TensorShape((1, 1000) ) self.assertEqual(outputs.logits.shape , __a ) UpperCAmelCase_ = tf.constant([-1.02_66, 0.19_12, -1.28_61] ) self.assertTrue(np.allclose(outputs.logits[0, :3] , __a , atol=1E-4 ) )	1	'''simple docstring''' import os import shutil import tempfile from unittest import TestCase from unittest.mock import patch import numpy as np from datasets import Dataset from transformers.models.realm.configuration_realm import RealmConfig from transformers.models.realm.retrieval_realm import _REALM_BLOCK_RECORDS_FILENAME, RealmRetriever from transformers.models.realm.tokenization_realm import VOCAB_FILES_NAMES, RealmTokenizer class __A ( UpperCamelCase__ ): def _lowercase (self : Optional[Any] ): UpperCAmelCase_ = tempfile.mkdtemp() UpperCAmelCase_ = 5 # Realm tok UpperCAmelCase_ = [ "[UNK]", "[CLS]", "[SEP]", "[PAD]", "[MASK]", "test", "question", "this", "is", "the", "first", "second", "third", "fourth", "fifth", "record", "want", "##want", "##ed", "wa", "un", "runn", "##ing", ",", "low", "lowest", ] UpperCAmelCase_ = os.path.join(self.tmpdirname , "realm_tokenizer" ) os.makedirs(__a , exist_ok=__a ) UpperCAmelCase_ = os.path.join(__a , VOCAB_FILES_NAMES["vocab_file"] ) with open(self.vocab_file , "w" , encoding="utf-8" ) as vocab_writer: vocab_writer.write("".join([x + "\n" for x in vocab_tokens] ) ) UpperCAmelCase_ = os.path.join(self.tmpdirname , "realm_block_records" ) os.makedirs(__a , exist_ok=__a ) def _lowercase (self : Optional[Any] ): return RealmTokenizer.from_pretrained(os.path.join(self.tmpdirname , "realm_tokenizer" ) ) def _lowercase (self : Any ): shutil.rmtree(self.tmpdirname ) def _lowercase (self : List[Any] ): UpperCAmelCase_ = RealmConfig(num_block_records=self.num_block_records ) return config def _lowercase (self : List[str] ): UpperCAmelCase_ = Dataset.from_dict( { "id": ["0", "1"], "question": ["foo", "bar"], "answers": [["Foo", "Bar"], ["Bar"]], } ) return dataset def _lowercase (self : Any ): UpperCAmelCase_ = np.array( [ B"This is the first record", B"This is the second record", B"This is the third record", B"This is the fourth record", B"This is the fifth record", B"This is a longer longer longer record", ] , dtype=__a , ) return block_records def _lowercase (self : Union[str, Any] ): UpperCAmelCase_ = RealmRetriever( block_records=self.get_dummy_block_records() , tokenizer=self.get_tokenizer() , ) return retriever def _lowercase (self : int ): UpperCAmelCase_ = self.get_config() UpperCAmelCase_ = self.get_dummy_retriever() UpperCAmelCase_ = retriever.tokenizer UpperCAmelCase_ = np.array([0, 3] , dtype="long" ) UpperCAmelCase_ = tokenizer(["Test question"] ).input_ids UpperCAmelCase_ = tokenizer( ["the fourth"] , add_special_tokens=__a , return_token_type_ids=__a , return_attention_mask=__a , ).input_ids UpperCAmelCase_ = config.reader_seq_len UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = retriever( __a , __a , answer_ids=__a , max_length=__a , return_tensors="np" ) self.assertEqual(len(__a ) , 2 ) self.assertEqual(len(__a ) , 2 ) self.assertEqual(len(__a ) , 2 ) self.assertEqual(concat_inputs.input_ids.shape , (2, 10) ) self.assertEqual(concat_inputs.attention_mask.shape , (2, 10) ) self.assertEqual(concat_inputs.token_type_ids.shape , (2, 10) ) self.assertEqual(concat_inputs.special_tokens_mask.shape , (2, 10) ) self.assertEqual( tokenizer.convert_ids_to_tokens(concat_inputs.input_ids[0] ) , ["[CLS]", "test", "question", "[SEP]", "this", "is", "the", "first", "record", "[SEP]"] , ) self.assertEqual( tokenizer.convert_ids_to_tokens(concat_inputs.input_ids[1] ) , ["[CLS]", "test", "question", "[SEP]", "this", "is", "the", "fourth", "record", "[SEP]"] , ) def _lowercase (self : List[Any] ): UpperCAmelCase_ = self.get_config() UpperCAmelCase_ = self.get_dummy_retriever() UpperCAmelCase_ = retriever.tokenizer UpperCAmelCase_ = np.array([0, 3, 5] , dtype="long" ) UpperCAmelCase_ = tokenizer(["Test question"] ).input_ids UpperCAmelCase_ = tokenizer( ["the fourth", "longer longer"] , add_special_tokens=__a , return_token_type_ids=__a , return_attention_mask=__a , ).input_ids UpperCAmelCase_ = config.reader_seq_len UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = retriever( __a , __a , answer_ids=__a , max_length=__a , return_tensors="np" ) self.assertEqual([False, True, True] , __a ) self.assertEqual([[-1, -1, -1], [6, -1, -1], [6, 7, 8]] , __a ) self.assertEqual([[-1, -1, -1], [7, -1, -1], [7, 8, 9]] , __a ) def _lowercase (self : Optional[Any] ): UpperCAmelCase_ = self.get_dummy_retriever() retriever.save_pretrained(os.path.join(self.tmpdirname , "realm_block_records" ) ) # Test local path UpperCAmelCase_ = retriever.from_pretrained(os.path.join(self.tmpdirname , "realm_block_records" ) ) self.assertEqual(retriever.block_records[0] , B"This is the first record" ) # Test mocked remote path with patch("transformers.models.realm.retrieval_realm.hf_hub_download" ) as mock_hf_hub_download: UpperCAmelCase_ = os.path.join( os.path.join(self.tmpdirname , "realm_block_records" ) , _REALM_BLOCK_RECORDS_FILENAME ) UpperCAmelCase_ = RealmRetriever.from_pretrained("google/realm-cc-news-pretrained-openqa" ) self.assertEqual(retriever.block_records[0] , B"This is the first record" )	1	1
"""simple docstring""" import inspect import unittest from transformers import YolosConfig from transformers.testing_utils import require_torch, require_vision, slow, torch_device from transformers.utils import cached_property, is_torch_available, is_vision_available from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin, floats_tensor from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from torch import nn from transformers import YolosForObjectDetection, YolosModel from transformers.models.yolos.modeling_yolos import YOLOS_PRETRAINED_MODEL_ARCHIVE_LIST if is_vision_available(): from PIL import Image from transformers import AutoImageProcessor class lowerCamelCase__ : """simple docstring""" def __init__( self : Optional[int] , UpperCamelCase : List[str] , UpperCamelCase : Dict=13 , UpperCamelCase : Optional[int]=[30, 30] , UpperCamelCase : Optional[int]=2 , UpperCamelCase : Dict=3 , UpperCamelCase : int=True , UpperCamelCase : List[str]=True , UpperCamelCase : Union[str, Any]=32 , UpperCamelCase : str=5 , UpperCamelCase : List[str]=4 , UpperCamelCase : Any=37 , UpperCamelCase : List[Any]="gelu" , UpperCamelCase : Tuple=0.1 , UpperCamelCase : Any=0.1 , UpperCamelCase : int=10 , UpperCamelCase : Union[str, Any]=0.02 , UpperCamelCase : Dict=3 , UpperCamelCase : List[Any]=None , UpperCamelCase : str=8 , UpperCamelCase : List[str]=10 , ): '''simple docstring''' __UpperCAmelCase : List[str] = parent __UpperCAmelCase : Union[str, Any] = batch_size __UpperCAmelCase : Optional[int] = image_size __UpperCAmelCase : List[str] = patch_size __UpperCAmelCase : str = num_channels __UpperCAmelCase : Optional[int] = is_training __UpperCAmelCase : str = use_labels __UpperCAmelCase : Union[str, Any] = hidden_size __UpperCAmelCase : Optional[int] = num_hidden_layers __UpperCAmelCase : Any = num_attention_heads __UpperCAmelCase : int = intermediate_size __UpperCAmelCase : str = hidden_act __UpperCAmelCase : Optional[Any] = hidden_dropout_prob __UpperCAmelCase : int = attention_probs_dropout_prob __UpperCAmelCase : str = type_sequence_label_size __UpperCAmelCase : Any = initializer_range __UpperCAmelCase : List[str] = num_labels __UpperCAmelCase : List[str] = scope __UpperCAmelCase : int = n_targets __UpperCAmelCase : List[Any] = num_detection_tokens # we set the expected sequence length (which is used in several tests) # expected sequence length = num_patches + 1 (we add 1 for the [CLS] token) + num_detection_tokens __UpperCAmelCase : Optional[Any] = (image_size[1] // patch_size) * (image_size[0] // patch_size) __UpperCAmelCase : Union[str, Any] = num_patches + 1 + self.num_detection_tokens def lowerCamelCase__ ( self : Dict ): '''simple docstring''' __UpperCAmelCase : int = floats_tensor([self.batch_size, self.num_channels, self.image_size[0], self.image_size[1]] ) __UpperCAmelCase : Dict = None if self.use_labels: # labels is a list of Dict (each Dict being the labels for a given example in the batch) __UpperCAmelCase : int = [] for i in range(self.batch_size ): __UpperCAmelCase : List[Any] = {} __UpperCAmelCase : str = torch.randint( high=self.num_labels , size=(self.n_targets,) , device=_SCREAMING_SNAKE_CASE ) __UpperCAmelCase : Dict = torch.rand(self.n_targets , 4 , device=_SCREAMING_SNAKE_CASE ) labels.append(_SCREAMING_SNAKE_CASE ) __UpperCAmelCase : Optional[Any] = self.get_config() return config, pixel_values, labels def lowerCamelCase__ ( self : int ): '''simple docstring''' return YolosConfig( image_size=self.image_size , patch_size=self.patch_size , num_channels=self.num_channels , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , is_decoder=_SCREAMING_SNAKE_CASE , initializer_range=self.initializer_range , num_detection_tokens=self.num_detection_tokens , num_labels=self.num_labels , ) def lowerCamelCase__ ( self : int , UpperCamelCase : Any , UpperCamelCase : Optional[int] , UpperCamelCase : Tuple ): '''simple docstring''' __UpperCAmelCase : Dict = YolosModel(config=_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() __UpperCAmelCase : Dict = model(_SCREAMING_SNAKE_CASE ) self.parent.assertEqual( result.last_hidden_state.shape , (self.batch_size, self.expected_seq_len, self.hidden_size) ) def lowerCamelCase__ ( self : Union[str, Any] , UpperCamelCase : Optional[Any] , UpperCamelCase : Optional[Any] , UpperCamelCase : Dict ): '''simple docstring''' __UpperCAmelCase : Union[str, Any] = YolosForObjectDetection(_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() __UpperCAmelCase : int = model(pixel_values=_SCREAMING_SNAKE_CASE ) __UpperCAmelCase : List[Any] = model(_SCREAMING_SNAKE_CASE ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_detection_tokens, self.num_labels + 1) ) self.parent.assertEqual(result.pred_boxes.shape , (self.batch_size, self.num_detection_tokens, 4) ) __UpperCAmelCase : Tuple = model(pixel_values=_SCREAMING_SNAKE_CASE , labels=_SCREAMING_SNAKE_CASE ) self.parent.assertEqual(result.loss.shape , () ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_detection_tokens, self.num_labels + 1) ) self.parent.assertEqual(result.pred_boxes.shape , (self.batch_size, self.num_detection_tokens, 4) ) def lowerCamelCase__ ( self : Any ): '''simple docstring''' __UpperCAmelCase : List[str] = self.prepare_config_and_inputs() __UpperCAmelCase : Optional[Any] = config_and_inputs __UpperCAmelCase : Optional[Any] = {'''pixel_values''': pixel_values} return config, inputs_dict @require_torch class lowerCamelCase__ ( A , A , unittest.TestCase ): """simple docstring""" __a = (YolosModel, YolosForObjectDetection) if is_torch_available() else () __a = ( {"""feature-extraction""": YolosModel, """object-detection""": YolosForObjectDetection} if is_torch_available() else {} ) __a = False __a = False __a = False __a = False def lowerCamelCase__ ( self : List[Any] , UpperCamelCase : Dict , UpperCamelCase : Optional[Any] , UpperCamelCase : Optional[Any]=False ): '''simple docstring''' __UpperCAmelCase : str = super()._prepare_for_class(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , return_labels=_SCREAMING_SNAKE_CASE ) if return_labels: if model_class.__name__ == "YolosForObjectDetection": __UpperCAmelCase : List[Any] = [] for i in range(self.model_tester.batch_size ): __UpperCAmelCase : Union[str, Any] = {} __UpperCAmelCase : str = torch.ones( size=(self.model_tester.n_targets,) , device=_SCREAMING_SNAKE_CASE , dtype=torch.long ) __UpperCAmelCase : List[str] = torch.ones( self.model_tester.n_targets , 4 , device=_SCREAMING_SNAKE_CASE , dtype=torch.float ) labels.append(_SCREAMING_SNAKE_CASE ) __UpperCAmelCase : Tuple = labels return inputs_dict def lowerCamelCase__ ( self : str ): '''simple docstring''' __UpperCAmelCase : Optional[int] = YolosModelTester(self ) __UpperCAmelCase : Optional[int] = ConfigTester(self , config_class=_SCREAMING_SNAKE_CASE , has_text_modality=_SCREAMING_SNAKE_CASE , hidden_size=37 ) def lowerCamelCase__ ( self : Union[str, Any] ): '''simple docstring''' self.config_tester.run_common_tests() def lowerCamelCase__ ( self : str ): '''simple docstring''' pass def lowerCamelCase__ ( self : str ): '''simple docstring''' __UpperCAmelCase : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: __UpperCAmelCase : List[Any] = model_class(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(model.get_input_embeddings() , (nn.Module) ) __UpperCAmelCase : List[Any] = model.get_output_embeddings() self.assertTrue(x is None or isinstance(_SCREAMING_SNAKE_CASE , nn.Linear ) ) def lowerCamelCase__ ( self : str ): '''simple docstring''' __UpperCAmelCase : List[Any] = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: __UpperCAmelCase : Dict = model_class(_SCREAMING_SNAKE_CASE ) __UpperCAmelCase : Dict = inspect.signature(model.forward ) # signature.parameters is an OrderedDict => so arg_names order is deterministic __UpperCAmelCase : Any = [signature.parameters.keys()] __UpperCAmelCase : List[Any] = ['''pixel_values'''] self.assertListEqual(arg_names[:1] , _SCREAMING_SNAKE_CASE ) def lowerCamelCase__ ( self : Union[str, Any] ): '''simple docstring''' __UpperCAmelCase : Union[str, Any] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(_SCREAMING_SNAKE_CASE ) def lowerCamelCase__ ( self : int ): '''simple docstring''' __UpperCAmelCase : Optional[int] = self.model_tester.prepare_config_and_inputs_for_common() __UpperCAmelCase : Any = True # in YOLOS, the seq_len is different __UpperCAmelCase : str = self.model_tester.expected_seq_len for model_class in self.all_model_classes: __UpperCAmelCase : Any = True __UpperCAmelCase : List[Any] = False __UpperCAmelCase : Any = True __UpperCAmelCase : Optional[int] = model_class(_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() with torch.no_grad(): __UpperCAmelCase : Dict = model(self._prepare_for_class(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) ) __UpperCAmelCase : Dict = outputs.attentions self.assertEqual(len(_SCREAMING_SNAKE_CASE ) , self.model_tester.num_hidden_layers ) # check that output_attentions also work using config del inputs_dict["output_attentions"] __UpperCAmelCase : Any = True __UpperCAmelCase : List[str] = model_class(_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() with torch.no_grad(): __UpperCAmelCase : Any = model(self._prepare_for_class(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) ) __UpperCAmelCase : str = outputs.attentions self.assertEqual(len(_SCREAMING_SNAKE_CASE ) , self.model_tester.num_hidden_layers ) self.assertListEqual( list(attentions[0].shape[-3:] ) , [self.model_tester.num_attention_heads, seq_len, seq_len] , ) __UpperCAmelCase : int = len(_SCREAMING_SNAKE_CASE ) # Check attention is always last and order is fine __UpperCAmelCase : Tuple = True __UpperCAmelCase : int = True __UpperCAmelCase : Union[str, Any] = model_class(_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() with torch.no_grad(): __UpperCAmelCase : Optional[int] = model(self._prepare_for_class(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) ) __UpperCAmelCase : List[Any] = 1 self.assertEqual(out_len + added_hidden_states , len(_SCREAMING_SNAKE_CASE ) ) __UpperCAmelCase : str = outputs.attentions self.assertEqual(len(_SCREAMING_SNAKE_CASE ) , self.model_tester.num_hidden_layers ) self.assertListEqual( list(self_attentions[0].shape[-3:] ) , [self.model_tester.num_attention_heads, seq_len, seq_len] , ) def lowerCamelCase__ ( self : Optional[int] ): '''simple docstring''' def check_hidden_states_output(UpperCamelCase : Union[str, Any] , UpperCamelCase : int , UpperCamelCase : List[Any] ): __UpperCAmelCase : Dict = model_class(_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() with torch.no_grad(): __UpperCAmelCase : Optional[Any] = model(self._prepare_for_class(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) ) __UpperCAmelCase : str = outputs.hidden_states __UpperCAmelCase : Union[str, Any] = getattr( self.model_tester , """expected_num_hidden_layers""" , self.model_tester.num_hidden_layers + 1 ) self.assertEqual(len(_SCREAMING_SNAKE_CASE ) , _SCREAMING_SNAKE_CASE ) # YOLOS has a different seq_length __UpperCAmelCase : Tuple = self.model_tester.expected_seq_len self.assertListEqual( list(hidden_states[0].shape[-2:] ) , [seq_length, self.model_tester.hidden_size] , ) __UpperCAmelCase : Tuple = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: __UpperCAmelCase : List[Any] = True check_hidden_states_output(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) # check that output_hidden_states also work using config del inputs_dict["output_hidden_states"] __UpperCAmelCase : Union[str, Any] = True check_hidden_states_output(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) def lowerCamelCase__ ( self : List[Any] ): '''simple docstring''' __UpperCAmelCase : int = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_object_detection(*_SCREAMING_SNAKE_CASE ) @slow def lowerCamelCase__ ( self : Union[str, Any] ): '''simple docstring''' for model_name in YOLOS_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: __UpperCAmelCase : Dict = YolosModel.from_pretrained(_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) def lowerCamelCase ( ) -> Optional[Any]: '''simple docstring''' __UpperCAmelCase : Union[str, Any] = Image.open("""./tests/fixtures/tests_samples/COCO/000000039769.png""" ) return image @require_torch @require_vision class lowerCamelCase__ ( unittest.TestCase ): """simple docstring""" @cached_property def lowerCamelCase__ ( self : Optional[Any] ): '''simple docstring''' return AutoImageProcessor.from_pretrained("""hustvl/yolos-small""" ) if is_vision_available() else None @slow def lowerCamelCase__ ( self : str ): '''simple docstring''' __UpperCAmelCase : Dict = YolosForObjectDetection.from_pretrained("""hustvl/yolos-small""" ).to(_SCREAMING_SNAKE_CASE ) __UpperCAmelCase : List[Any] = self.default_image_processor __UpperCAmelCase : Tuple = prepare_img() __UpperCAmelCase : str = image_processor(images=_SCREAMING_SNAKE_CASE , return_tensors="""pt""" ).to(_SCREAMING_SNAKE_CASE ) # forward pass with torch.no_grad(): __UpperCAmelCase : Optional[int] = model(inputs.pixel_values ) # verify outputs __UpperCAmelCase : int = torch.Size((1, 100, 92) ) self.assertEqual(outputs.logits.shape , _SCREAMING_SNAKE_CASE ) __UpperCAmelCase : List[Any] = torch.tensor( [[-24.0_248, -10.3_024, -14.8_290], [-42.0_392, -16.8_200, -27.4_334], [-27.2_743, -11.8_154, -18.7_148]] , device=_SCREAMING_SNAKE_CASE , ) __UpperCAmelCase : Optional[int] = torch.tensor( [[0.2559, 0.5455, 0.4706], [0.2989, 0.7279, 0.1875], [0.7732, 0.4017, 0.4462]] , device=_SCREAMING_SNAKE_CASE ) self.assertTrue(torch.allclose(outputs.logits[0, :3, :3] , _SCREAMING_SNAKE_CASE , atol=1e-4 ) ) self.assertTrue(torch.allclose(outputs.pred_boxes[0, :3, :3] , _SCREAMING_SNAKE_CASE , atol=1e-4 ) ) # verify postprocessing __UpperCAmelCase : List[str] = image_processor.post_process_object_detection( _SCREAMING_SNAKE_CASE , threshold=0.3 , target_sizes=[image.size[::-1]] )[0] __UpperCAmelCase : List[Any] = torch.tensor([0.9994, 0.9790, 0.9964, 0.9972, 0.9861] ).to(_SCREAMING_SNAKE_CASE ) __UpperCAmelCase : List[Any] = [75, 75, 17, 63, 17] __UpperCAmelCase : int = torch.tensor([335.0_609, 79.3_848, 375.4_216, 187.2_495] ).to(_SCREAMING_SNAKE_CASE ) self.assertEqual(len(results["""scores"""] ) , 5 ) self.assertTrue(torch.allclose(results["""scores"""] , _SCREAMING_SNAKE_CASE , atol=1e-4 ) ) self.assertSequenceEqual(results["""labels"""].tolist() , _SCREAMING_SNAKE_CASE ) self.assertTrue(torch.allclose(results["""boxes"""][0, :] , _SCREAMING_SNAKE_CASE ) )	371	"""simple docstring""" def lowerCamelCase ( _UpperCamelCase : str , _UpperCamelCase : Optional[int] ) -> Any: '''simple docstring''' __UpperCAmelCase : Optional[Any] = 0 while b > 0: if b & 1: res += a a += a b >>= 1 return res def lowerCamelCase ( _UpperCamelCase : str , _UpperCamelCase : Optional[int] , _UpperCamelCase : List[Any] ) -> str: '''simple docstring''' __UpperCAmelCase : Dict = 0 while b > 0: if b & 1: __UpperCAmelCase : int = ((res % c) + (a % c)) % c a += a b >>= 1 return res	320	0
'''simple docstring''' import numpy as np from cva import destroyAllWindows, imread, imshow, waitKey class A__ : def __init__( self : Tuple , _a : Any , _a : int , _a : int ) -> List[str]: '''simple docstring''' if dst_width < 0 or dst_height < 0: raise ValueError('Destination width/height should be > 0' ) _SCREAMING_SNAKE_CASE =img _SCREAMING_SNAKE_CASE =img.shape[1] _SCREAMING_SNAKE_CASE =img.shape[0] _SCREAMING_SNAKE_CASE =dst_width _SCREAMING_SNAKE_CASE =dst_height _SCREAMING_SNAKE_CASE =self.src_w / self.dst_w _SCREAMING_SNAKE_CASE =self.src_h / self.dst_h _SCREAMING_SNAKE_CASE =_SCREAMING_SNAKE_CASE =( np.ones((self.dst_h, self.dst_w, 3) , np.uinta ) * 255 ) def A ( self : Any ) -> Tuple: '''simple docstring''' for i in range(self.dst_h ): for j in range(self.dst_w ): _SCREAMING_SNAKE_CASE =self.img[self.get_y(_a )][self.get_x(_a )] def A ( self : int , _a : int ) -> int: '''simple docstring''' return int(self.ratio_x * x ) def A ( self : Dict , _a : int ) -> int: '''simple docstring''' return int(self.ratio_y * y ) if __name__ == "__main__": lowerCamelCase , lowerCamelCase : Optional[Any] = 8_0_0, 6_0_0 lowerCamelCase : str = imread("image_data/lena.jpg", 1) lowerCamelCase : Optional[int] = NearestNeighbour(im, dst_w, dst_h) n.process() imshow( f'''Image resized from: {im.shape[1]}x{im.shape[0]} to {dst_w}x{dst_h}''', n.output ) waitKey(0) destroyAllWindows()	47	'''simple docstring''' import unittest import numpy as np import requests from transformers.testing_utils import require_torch, require_vision from transformers.utils import is_torch_available, is_vision_available from ...test_image_processing_common import ImageProcessingSavingTestMixin, prepare_image_inputs if is_torch_available(): import torch from transformers.pytorch_utils import is_torch_greater_or_equal_than_1_11 else: lowerCamelCase : int = False if is_vision_available(): from PIL import Image from transformers import PixaStructImageProcessor class A__ ( unittest.TestCase ): def __init__( self : List[str] , _a : List[Any] , _a : List[str]=7 , _a : List[str]=3 , _a : Tuple=18 , _a : Tuple=30 , _a : str=400 , _a : Tuple=None , _a : Union[str, Any]=True , _a : List[str]=True , _a : Optional[int]=None , ) -> List[str]: '''simple docstring''' _SCREAMING_SNAKE_CASE =size if size is not None else {'height': 20, 'width': 20} _SCREAMING_SNAKE_CASE =parent _SCREAMING_SNAKE_CASE =batch_size _SCREAMING_SNAKE_CASE =num_channels _SCREAMING_SNAKE_CASE =image_size _SCREAMING_SNAKE_CASE =min_resolution _SCREAMING_SNAKE_CASE =max_resolution _SCREAMING_SNAKE_CASE =size _SCREAMING_SNAKE_CASE =do_normalize _SCREAMING_SNAKE_CASE =do_convert_rgb _SCREAMING_SNAKE_CASE =[512, 1024, 2048, 4096] _SCREAMING_SNAKE_CASE =patch_size if patch_size is not None else {'height': 16, 'width': 16} def A ( self : Any ) -> List[str]: '''simple docstring''' return {"do_normalize": self.do_normalize, "do_convert_rgb": self.do_convert_rgb} def A ( self : int ) -> str: '''simple docstring''' _SCREAMING_SNAKE_CASE ='https://huggingface.co/datasets/huggingface/documentation-images/resolve/main/transformers/tasks/australia.jpg' _SCREAMING_SNAKE_CASE =Image.open(requests.get(_a , stream=_a ).raw ).convert('RGB' ) return raw_image @unittest.skipIf( not is_torch_greater_or_equal_than_1_11 , reason='`Pix2StructImageProcessor` requires `torch>=1.11.0`.' , ) @require_torch @require_vision class A__ ( A__ , unittest.TestCase ): A__ = PixaStructImageProcessor if is_vision_available() else None def A ( self : Dict ) -> Tuple: '''simple docstring''' _SCREAMING_SNAKE_CASE =PixaStructImageProcessingTester(self ) @property def A ( self : Optional[Any] ) -> int: '''simple docstring''' return self.image_processor_tester.prepare_image_processor_dict() def A ( self : Any ) -> Tuple: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.image_processing_class(self.image_processor_dict ) self.assertTrue(hasattr(_a , 'do_normalize' ) ) self.assertTrue(hasattr(_a , 'do_convert_rgb' ) ) def A ( self : Any ) -> List[str]: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.image_processor_tester.prepare_dummy_image() _SCREAMING_SNAKE_CASE =self.image_processing_class(self.image_processor_dict ) _SCREAMING_SNAKE_CASE =2048 _SCREAMING_SNAKE_CASE =image_processor(_a , return_tensors='pt' , max_patches=_a ) self.assertTrue(torch.allclose(inputs.flattened_patches.mean() , torch.tensor(0.06_06 ) , atol=1e-3 , rtol=1e-3 ) ) def A ( self : Any ) -> Any: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.image_processing_class(*self.image_processor_dict ) # create random PIL images _SCREAMING_SNAKE_CASE =prepare_image_inputs(self.image_processor_tester , equal_resolution=_a ) for image in image_inputs: self.assertIsInstance(_a , Image.Image ) # Test not batched input _SCREAMING_SNAKE_CASE =( (self.image_processor_tester.patch_size['height'] self.image_processor_tester.patch_size['width']) * self.image_processor_tester.num_channels ) + 2 for max_patch in self.image_processor_tester.max_patches: # Test not batched input _SCREAMING_SNAKE_CASE =image_processor( image_inputs[0] , return_tensors='pt' , max_patches=_a ).flattened_patches self.assertEqual( encoded_images.shape , (1, max_patch, expected_hidden_dim) , ) # Test batched _SCREAMING_SNAKE_CASE =image_processor( _a , return_tensors='pt' , max_patches=_a ).flattened_patches self.assertEqual( encoded_images.shape , (self.image_processor_tester.batch_size, max_patch, expected_hidden_dim) , ) def A ( self : List[str] ) -> Optional[Any]: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.image_processing_class(*self.image_processor_dict ) # create random PIL images _SCREAMING_SNAKE_CASE =prepare_image_inputs(self.image_processor_tester , equal_resolution=_a ) for image in image_inputs: self.assertIsInstance(_a , Image.Image ) # Test not batched input _SCREAMING_SNAKE_CASE =( (self.image_processor_tester.patch_size['height'] self.image_processor_tester.patch_size['width']) * self.image_processor_tester.num_channels ) + 2 _SCREAMING_SNAKE_CASE =True for max_patch in self.image_processor_tester.max_patches: # Test not batched input with self.assertRaises(_a ): _SCREAMING_SNAKE_CASE =image_processor( image_inputs[0] , return_tensors='pt' , max_patches=_a ).flattened_patches _SCREAMING_SNAKE_CASE ='Hello' _SCREAMING_SNAKE_CASE =image_processor( image_inputs[0] , return_tensors='pt' , max_patches=_a , header_text=_a ).flattened_patches self.assertEqual( encoded_images.shape , (1, max_patch, expected_hidden_dim) , ) # Test batched _SCREAMING_SNAKE_CASE =image_processor( _a , return_tensors='pt' , max_patches=_a , header_text=_a ).flattened_patches self.assertEqual( encoded_images.shape , (self.image_processor_tester.batch_size, max_patch, expected_hidden_dim) , ) def A ( self : List[Any] ) -> Any: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.image_processing_class(*self.image_processor_dict ) # create random numpy tensors _SCREAMING_SNAKE_CASE =prepare_image_inputs(self.image_processor_tester , equal_resolution=_a , numpify=_a ) for image in image_inputs: self.assertIsInstance(_a , np.ndarray ) _SCREAMING_SNAKE_CASE =( (self.image_processor_tester.patch_size['height'] self.image_processor_tester.patch_size['width']) * self.image_processor_tester.num_channels ) + 2 for max_patch in self.image_processor_tester.max_patches: # Test not batched input _SCREAMING_SNAKE_CASE =image_processor( image_inputs[0] , return_tensors='pt' , max_patches=_a ).flattened_patches self.assertEqual( encoded_images.shape , (1, max_patch, expected_hidden_dim) , ) # Test batched _SCREAMING_SNAKE_CASE =image_processor( _a , return_tensors='pt' , max_patches=_a ).flattened_patches self.assertEqual( encoded_images.shape , (self.image_processor_tester.batch_size, max_patch, expected_hidden_dim) , ) def A ( self : Union[str, Any] ) -> Tuple: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.image_processing_class(*self.image_processor_dict ) # create random PyTorch tensors _SCREAMING_SNAKE_CASE =prepare_image_inputs(self.image_processor_tester , equal_resolution=_a , torchify=_a ) for image in image_inputs: self.assertIsInstance(_a , torch.Tensor ) # Test not batched input _SCREAMING_SNAKE_CASE =( (self.image_processor_tester.patch_size['height'] self.image_processor_tester.patch_size['width']) * self.image_processor_tester.num_channels ) + 2 for max_patch in self.image_processor_tester.max_patches: # Test not batched input _SCREAMING_SNAKE_CASE =image_processor( image_inputs[0] , return_tensors='pt' , max_patches=_a ).flattened_patches self.assertEqual( encoded_images.shape , (1, max_patch, expected_hidden_dim) , ) # Test batched _SCREAMING_SNAKE_CASE =image_processor( _a , return_tensors='pt' , max_patches=_a ).flattened_patches self.assertEqual( encoded_images.shape , (self.image_processor_tester.batch_size, max_patch, expected_hidden_dim) , ) @unittest.skipIf( not is_torch_greater_or_equal_than_1_11 , reason='`Pix2StructImageProcessor` requires `torch>=1.11.0`.' , ) @require_torch @require_vision class A__ ( A__ , unittest.TestCase ): A__ = PixaStructImageProcessor if is_vision_available() else None def A ( self : str ) -> Dict: '''simple docstring''' _SCREAMING_SNAKE_CASE =PixaStructImageProcessingTester(self , num_channels=4 ) _SCREAMING_SNAKE_CASE =3 @property def A ( self : List[str] ) -> Optional[Any]: '''simple docstring''' return self.image_processor_tester.prepare_image_processor_dict() def A ( self : List[str] ) -> Tuple: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.image_processing_class(self.image_processor_dict ) self.assertTrue(hasattr(_a , 'do_normalize' ) ) self.assertTrue(hasattr(_a , 'do_convert_rgb' ) ) def A ( self : Dict ) -> int: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.image_processing_class(self.image_processor_dict ) # create random PIL images _SCREAMING_SNAKE_CASE =prepare_image_inputs(self.image_processor_tester , equal_resolution=_a ) for image in image_inputs: self.assertIsInstance(_a , Image.Image ) # Test not batched input _SCREAMING_SNAKE_CASE =( (self.image_processor_tester.patch_size['height'] * self.image_processor_tester.patch_size['width']) * (self.image_processor_tester.num_channels - 1) ) + 2 for max_patch in self.image_processor_tester.max_patches: # Test not batched input _SCREAMING_SNAKE_CASE =image_processor( image_inputs[0] , return_tensors='pt' , max_patches=_a ).flattened_patches self.assertEqual( encoded_images.shape , (1, max_patch, expected_hidden_dim) , ) # Test batched _SCREAMING_SNAKE_CASE =image_processor( _a , return_tensors='pt' , max_patches=_a ).flattened_patches self.assertEqual( encoded_images.shape , (self.image_processor_tester.batch_size, max_patch, expected_hidden_dim) , )	47	1
import logging import os import sys import warnings from dataclasses import dataclass, field from random import randint from typing import Optional import datasets import evaluate import numpy as np from datasets import DatasetDict, load_dataset import transformers from transformers import ( AutoConfig, AutoFeatureExtractor, AutoModelForAudioClassification, HfArgumentParser, Trainer, TrainingArguments, set_seed, ) from transformers.trainer_utils import get_last_checkpoint from transformers.utils import check_min_version, send_example_telemetry from transformers.utils.versions import require_version __snake_case :Tuple = logging.getLogger(__name__) # Will error if the minimal version of Transformers is not installed. Remove at your own risks. check_min_version('''4.31.0''') require_version('''datasets>=1.14.0''', '''To fix: pip install -r examples/pytorch/audio-classification/requirements.txt''') def __snake_case ( _UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = 16000 ): __a = int(round(sample_rate * max_length ) ) if len(_a ) <= sample_length: return wav __a = randint(0 , len(_a ) - sample_length - 1 ) return wav[random_offset : random_offset + sample_length] @dataclass class _A : UpperCamelCase__ : Optional[str] = field(default=SCREAMING_SNAKE_CASE__ ,metadata={'''help''': '''Name of a dataset from the datasets package'''} ) UpperCamelCase__ : Optional[str] = field( default=SCREAMING_SNAKE_CASE__ ,metadata={'''help''': '''The configuration name of the dataset to use (via the datasets library).'''} ) UpperCamelCase__ : Optional[str] = field( default=SCREAMING_SNAKE_CASE__ ,metadata={'''help''': '''A file containing the training audio paths and labels.'''} ) UpperCamelCase__ : Optional[str] = field( default=SCREAMING_SNAKE_CASE__ ,metadata={'''help''': '''A file containing the validation audio paths and labels.'''} ) UpperCamelCase__ : str = field( default='''train''' ,metadata={ '''help''': '''The name of the training data set split to use (via the datasets library). Defaults to \'train\'''' } ,) UpperCamelCase__ : str = field( default='''validation''' ,metadata={ '''help''': ( '''The name of the training data set split to use (via the datasets library). Defaults to \'validation\'''' ) } ,) UpperCamelCase__ : str = field( default='''audio''' ,metadata={'''help''': '''The name of the dataset column containing the audio data. Defaults to \'audio\''''} ,) UpperCamelCase__ : str = field( default='''label''' ,metadata={'''help''': '''The name of the dataset column containing the labels. Defaults to \'label\''''} ) UpperCamelCase__ : Optional[int] = field( default=SCREAMING_SNAKE_CASE__ ,metadata={ '''help''': ( '''For debugging purposes or quicker training, truncate the number of training examples to this ''' '''value if set.''' ) } ,) UpperCamelCase__ : Optional[int] = field( default=SCREAMING_SNAKE_CASE__ ,metadata={ '''help''': ( '''For debugging purposes or quicker training, truncate the number of evaluation examples to this ''' '''value if set.''' ) } ,) UpperCamelCase__ : float = field( default=20 ,metadata={'''help''': '''Audio clips will be randomly cut to this length during training if the value is set.'''} ,) @dataclass class _A : UpperCamelCase__ : str = field( default='''facebook/wav2vec2-base''' ,metadata={'''help''': '''Path to pretrained model or model identifier from huggingface.co/models'''} ,) UpperCamelCase__ : Optional[str] = field( default=SCREAMING_SNAKE_CASE__ ,metadata={'''help''': '''Pretrained config name or path if not the same as model_name'''} ) UpperCamelCase__ : Optional[str] = field( default=SCREAMING_SNAKE_CASE__ ,metadata={'''help''': '''Where do you want to store the pretrained models downloaded from the Hub'''} ) UpperCamelCase__ : str = field( default='''main''' ,metadata={'''help''': '''The specific model version to use (can be a branch name, tag name or commit id).'''} ,) UpperCamelCase__ : Optional[str] = field( default=SCREAMING_SNAKE_CASE__ ,metadata={'''help''': '''Name or path of preprocessor config.'''} ) UpperCamelCase__ : bool = field( default=SCREAMING_SNAKE_CASE__ ,metadata={'''help''': '''Whether to freeze the feature encoder layers of the model.'''} ) UpperCamelCase__ : bool = field( default=SCREAMING_SNAKE_CASE__ ,metadata={'''help''': '''Whether to generate an attention mask in the feature extractor.'''} ) UpperCamelCase__ : bool = field( default=SCREAMING_SNAKE_CASE__ ,metadata={ '''help''': ( '''Will use the token generated when running `huggingface-cli login` (necessary to use this script ''' '''with private models).''' ) } ,) UpperCamelCase__ : Optional[bool] = field( default=SCREAMING_SNAKE_CASE__ ,metadata={'''help''': '''Whether to freeze the feature extractor layers of the model.'''} ) UpperCamelCase__ : bool = field( default=SCREAMING_SNAKE_CASE__ ,metadata={'''help''': '''Will enable to load a pretrained model whose head dimensions are different.'''} ,) def _lowerCamelCase ( self : str): '''simple docstring''' if not self.freeze_feature_extractor and self.freeze_feature_encoder: warnings.warn( '''The argument `--freeze_feature_extractor` is deprecated and ''' '''will be removed in a future version. Use `--freeze_feature_encoder`''' '''instead. Setting `freeze_feature_encoder==True`.''' , _SCREAMING_SNAKE_CASE , ) if self.freeze_feature_extractor and not self.freeze_feature_encoder: raise ValueError( '''The argument `--freeze_feature_extractor` is deprecated and ''' '''should not be used in combination with `--freeze_feature_encoder`.''' '''Only make use of `--freeze_feature_encoder`.''') def __snake_case ( ): # See all possible arguments in src/transformers/training_args.py # or by passing the --help flag to this script. # We now keep distinct sets of args, for a cleaner separation of concerns. __a = HfArgumentParser((ModelArguments, DataTrainingArguments, TrainingArguments) ) if len(sys.argv ) == 2 and sys.argv[1].endswith('''.json''' ): # If we pass only one argument to the script and it's the path to a json file, # let's parse it to get our arguments. __a = parser.parse_json_file(json_file=os.path.abspath(sys.argv[1] ) ) else: __a = parser.parse_args_into_dataclasses() # Sending telemetry. Tracking the example usage helps us better allocate resources to maintain them. The # information sent is the one passed as arguments along with your Python/PyTorch versions. send_example_telemetry('''run_audio_classification''' , _a , _a ) # Setup logging logging.basicConfig( format='''%(asctime)s - %(levelname)s - %(name)s - %(message)s''' , datefmt='''%m/%d/%Y %H:%M:%S''' , handlers=[logging.StreamHandler(sys.stdout )] , ) if training_args.should_log: # The default of training_args.log_level is passive, so we set log level at info here to have that default. transformers.utils.logging.set_verbosity_info() __a = training_args.get_process_log_level() logger.setLevel(_a ) transformers.utils.logging.set_verbosity(_a ) transformers.utils.logging.enable_default_handler() transformers.utils.logging.enable_explicit_format() # Log on each process the small summary: logger.warning( f'Process rank: {training_args.local_rank}, device: {training_args.device}, n_gpu: {training_args.n_gpu} ' + f'distributed training: {bool(training_args.local_rank != -1 )}, 16-bits training: {training_args.fpaa}' ) logger.info(f'Training/evaluation parameters {training_args}' ) # Set seed before initializing model. set_seed(training_args.seed ) # Detecting last checkpoint. __a = None if os.path.isdir(training_args.output_dir ) and training_args.do_train and not training_args.overwrite_output_dir: __a = get_last_checkpoint(training_args.output_dir ) if last_checkpoint is None and len(os.listdir(training_args.output_dir ) ) > 0: raise ValueError( f'Output directory ({training_args.output_dir}) already exists and is not empty. ' '''Use --overwrite_output_dir to train from scratch.''' ) elif last_checkpoint is not None and training_args.resume_from_checkpoint is None: logger.info( f'Checkpoint detected, resuming training at {last_checkpoint}. To avoid this behavior, change ' '''the `--output_dir` or add `--overwrite_output_dir` to train from scratch.''' ) # Initialize our dataset and prepare it for the audio classification task. __a = DatasetDict() __a = load_dataset( data_args.dataset_name , data_args.dataset_config_name , split=data_args.train_split_name , use_auth_token=True if model_args.use_auth_token else None , ) __a = load_dataset( data_args.dataset_name , data_args.dataset_config_name , split=data_args.eval_split_name , use_auth_token=True if model_args.use_auth_token else None , ) if data_args.audio_column_name not in raw_datasets["train"].column_names: raise ValueError( f'--audio_column_name {data_args.audio_column_name} not found in dataset \'{data_args.dataset_name}\'. ' '''Make sure to set `--audio_column_name` to the correct audio column - one of ''' f'{", ".join(raw_datasets["train"].column_names )}.' ) if data_args.label_column_name not in raw_datasets["train"].column_names: raise ValueError( f'--label_column_name {data_args.label_column_name} not found in dataset \'{data_args.dataset_name}\'. ' '''Make sure to set `--label_column_name` to the correct text column - one of ''' f'{", ".join(raw_datasets["train"].column_names )}.' ) # Setting `return_attention_mask=True` is the way to get a correctly masked mean-pooling over # transformer outputs in the classifier, but it doesn't always lead to better accuracy __a = AutoFeatureExtractor.from_pretrained( model_args.feature_extractor_name or model_args.model_name_or_path , return_attention_mask=model_args.attention_mask , cache_dir=model_args.cache_dir , revision=model_args.model_revision , use_auth_token=True if model_args.use_auth_token else None , ) # `datasets` takes care of automatically loading and resampling the audio, # so we just need to set the correct target sampling rate. __a = raw_datasets.cast_column( data_args.audio_column_name , datasets.features.Audio(sampling_rate=feature_extractor.sampling_rate ) ) __a = feature_extractor.model_input_names[0] def train_transforms(_UpperCAmelCase ): __a = [] for audio in batch[data_args.audio_column_name]: __a = random_subsample( audio['''array'''] , max_length=data_args.max_length_seconds , sample_rate=feature_extractor.sampling_rate ) subsampled_wavs.append(_a ) __a = feature_extractor(_a , sampling_rate=feature_extractor.sampling_rate ) __a = {model_input_name: inputs.get(_a )} __a = list(batch[data_args.label_column_name] ) return output_batch def val_transforms(_UpperCAmelCase ): __a = [audio["array"] for audio in batch[data_args.audio_column_name]] __a = feature_extractor(_a , sampling_rate=feature_extractor.sampling_rate ) __a = {model_input_name: inputs.get(_a )} __a = list(batch[data_args.label_column_name] ) return output_batch # Prepare label mappings. # We'll include these in the model's config to get human readable labels in the Inference API. __a = raw_datasets["train"].features[data_args.label_column_name].names __a = {}, {} for i, label in enumerate(_a ): __a = str(_a ) __a = label # Load the accuracy metric from the datasets package __a = evaluate.load('''accuracy''' ) # Define our compute_metrics function. It takes an `EvalPrediction` object (a namedtuple with # `predictions` and `label_ids` fields) and has to return a dictionary string to float. def compute_metrics(_UpperCAmelCase ): __a = np.argmax(eval_pred.predictions , axis=1 ) return metric.compute(predictions=_a , references=eval_pred.label_ids ) __a = AutoConfig.from_pretrained( model_args.config_name or model_args.model_name_or_path , num_labels=len(_a ) , labelaid=_a , idalabel=_a , finetuning_task='''audio-classification''' , cache_dir=model_args.cache_dir , revision=model_args.model_revision , use_auth_token=True if model_args.use_auth_token else None , ) __a = AutoModelForAudioClassification.from_pretrained( model_args.model_name_or_path , from_tf=bool('''.ckpt''' in model_args.model_name_or_path ) , config=_a , cache_dir=model_args.cache_dir , revision=model_args.model_revision , use_auth_token=True if model_args.use_auth_token else None , ignore_mismatched_sizes=model_args.ignore_mismatched_sizes , ) # freeze the convolutional waveform encoder if model_args.freeze_feature_encoder: model.freeze_feature_encoder() if training_args.do_train: if data_args.max_train_samples is not None: __a = ( raw_datasets["train"].shuffle(seed=training_args.seed ).select(range(data_args.max_train_samples ) ) ) # Set the training transforms raw_datasets["train"].set_transform(_a , output_all_columns=_a ) if training_args.do_eval: if data_args.max_eval_samples is not None: __a = ( raw_datasets["eval"].shuffle(seed=training_args.seed ).select(range(data_args.max_eval_samples ) ) ) # Set the validation transforms raw_datasets["eval"].set_transform(_a , output_all_columns=_a ) # Initialize our trainer __a = Trainer( model=_a , args=_a , train_dataset=raw_datasets['''train'''] if training_args.do_train else None , eval_dataset=raw_datasets['''eval'''] if training_args.do_eval else None , compute_metrics=_a , tokenizer=_a , ) # Training if training_args.do_train: __a = None if training_args.resume_from_checkpoint is not None: __a = training_args.resume_from_checkpoint elif last_checkpoint is not None: __a = last_checkpoint __a = trainer.train(resume_from_checkpoint=_a ) trainer.save_model() trainer.log_metrics('''train''' , train_result.metrics ) trainer.save_metrics('''train''' , train_result.metrics ) trainer.save_state() # Evaluation if training_args.do_eval: __a = trainer.evaluate() trainer.log_metrics('''eval''' , _a ) trainer.save_metrics('''eval''' , _a ) # Write model card and (optionally) push to hub __a = { "finetuned_from": model_args.model_name_or_path, "tasks": "audio-classification", "dataset": data_args.dataset_name, "tags": ["audio-classification"], } if training_args.push_to_hub: trainer.push_to_hub(_a ) else: trainer.create_model_card(_a ) if __name__ == "__main__": main()	364	import gc import random import unittest import numpy as np import torch from PIL import Image from diffusers import ( DDIMScheduler, KandinskyVaaImgaImgPipeline, KandinskyVaaPriorPipeline, UNetaDConditionModel, VQModel, ) from diffusers.utils import floats_tensor, load_image, load_numpy, slow, torch_device from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu from ..test_pipelines_common import PipelineTesterMixin, assert_mean_pixel_difference enable_full_determinism() class _A ( __UpperCAmelCase ,unittest.TestCase ): UpperCamelCase__ : str = KandinskyVaaImgaImgPipeline UpperCamelCase__ : Optional[Any] = ['''image_embeds''', '''negative_image_embeds''', '''image'''] UpperCamelCase__ : Dict = [ '''image_embeds''', '''negative_image_embeds''', '''image''', ] UpperCamelCase__ : Any = [ '''generator''', '''height''', '''width''', '''strength''', '''guidance_scale''', '''num_inference_steps''', '''return_dict''', '''guidance_scale''', '''num_images_per_prompt''', '''output_type''', '''return_dict''', ] UpperCamelCase__ : List[Any] = False @property def _lowerCamelCase ( self : Optional[int]): '''simple docstring''' return 32 @property def _lowerCamelCase ( self : List[str]): '''simple docstring''' return 32 @property def _lowerCamelCase ( self : List[Any]): '''simple docstring''' return self.time_input_dim @property def _lowerCamelCase ( self : int): '''simple docstring''' return self.time_input_dim * 4 @property def _lowerCamelCase ( self : Optional[Any]): '''simple docstring''' return 100 @property def _lowerCamelCase ( self : Any): '''simple docstring''' torch.manual_seed(0) __a = { '''in_channels''': 4, # Out channels is double in channels because predicts mean and variance '''out_channels''': 8, '''addition_embed_type''': '''image''', '''down_block_types''': ('''ResnetDownsampleBlock2D''', '''SimpleCrossAttnDownBlock2D'''), '''up_block_types''': ('''SimpleCrossAttnUpBlock2D''', '''ResnetUpsampleBlock2D'''), '''mid_block_type''': '''UNetMidBlock2DSimpleCrossAttn''', '''block_out_channels''': (self.block_out_channels_a, self.block_out_channels_a * 2), '''layers_per_block''': 1, '''encoder_hid_dim''': self.text_embedder_hidden_size, '''encoder_hid_dim_type''': '''image_proj''', '''cross_attention_dim''': self.cross_attention_dim, '''attention_head_dim''': 4, '''resnet_time_scale_shift''': '''scale_shift''', '''class_embed_type''': None, } __a = UNetaDConditionModel(__SCREAMING_SNAKE_CASE) return model @property def _lowerCamelCase ( self : Tuple): '''simple docstring''' return { "block_out_channels": [32, 64], "down_block_types": ["DownEncoderBlock2D", "AttnDownEncoderBlock2D"], "in_channels": 3, "latent_channels": 4, "layers_per_block": 1, "norm_num_groups": 8, "norm_type": "spatial", "num_vq_embeddings": 12, "out_channels": 3, "up_block_types": [ "AttnUpDecoderBlock2D", "UpDecoderBlock2D", ], "vq_embed_dim": 4, } @property def _lowerCamelCase ( self : Optional[int]): '''simple docstring''' torch.manual_seed(0) __a = VQModel(self.dummy_movq_kwargs) return model def _lowerCamelCase ( self : Optional[int]): '''simple docstring''' __a = self.dummy_unet __a = self.dummy_movq __a = { '''num_train_timesteps''': 1_000, '''beta_schedule''': '''linear''', '''beta_start''': 0.0_00_85, '''beta_end''': 0.0_12, '''clip_sample''': False, '''set_alpha_to_one''': False, '''steps_offset''': 0, '''prediction_type''': '''epsilon''', '''thresholding''': False, } __a = DDIMScheduler(__SCREAMING_SNAKE_CASE) __a = { '''unet''': unet, '''scheduler''': scheduler, '''movq''': movq, } return components def _lowerCamelCase ( self : Union[str, Any] , __SCREAMING_SNAKE_CASE : Optional[Any] , __SCREAMING_SNAKE_CASE : Union[str, Any]=0): '''simple docstring''' __a = floats_tensor((1, self.text_embedder_hidden_size) , rng=random.Random(__SCREAMING_SNAKE_CASE)).to(__SCREAMING_SNAKE_CASE) __a = floats_tensor((1, self.text_embedder_hidden_size) , rng=random.Random(seed + 1)).to( __SCREAMING_SNAKE_CASE) # create init_image __a = floats_tensor((1, 3, 64, 64) , rng=random.Random(__SCREAMING_SNAKE_CASE)).to(__SCREAMING_SNAKE_CASE) __a = image.cpu().permute(0 , 2 , 3 , 1)[0] __a = Image.fromarray(np.uinta(__SCREAMING_SNAKE_CASE)).convert('''RGB''').resize((256, 256)) if str(__SCREAMING_SNAKE_CASE).startswith('''mps'''): __a = torch.manual_seed(__SCREAMING_SNAKE_CASE) else: __a = torch.Generator(device=__SCREAMING_SNAKE_CASE).manual_seed(__SCREAMING_SNAKE_CASE) __a = { '''image''': init_image, '''image_embeds''': image_embeds, '''negative_image_embeds''': negative_image_embeds, '''generator''': generator, '''height''': 64, '''width''': 64, '''num_inference_steps''': 10, '''guidance_scale''': 7.0, '''strength''': 0.2, '''output_type''': '''np''', } return inputs def _lowerCamelCase ( self : Dict): '''simple docstring''' __a = '''cpu''' __a = self.get_dummy_components() __a = self.pipeline_class(__SCREAMING_SNAKE_CASE) __a = pipe.to(__SCREAMING_SNAKE_CASE) pipe.set_progress_bar_config(disable=__SCREAMING_SNAKE_CASE) __a = pipe(self.get_dummy_inputs(__SCREAMING_SNAKE_CASE)) __a = output.images __a = pipe( self.get_dummy_inputs(__SCREAMING_SNAKE_CASE) , return_dict=__SCREAMING_SNAKE_CASE , )[0] __a = image[0, -3:, -3:, -1] __a = image_from_tuple[0, -3:, -3:, -1] assert image.shape == (1, 64, 64, 3) __a = np.array( [0.6_19_97_78, 0.63_98_44_06, 0.46_14_57_85, 0.62_94_49_84, 0.5_62_22_15, 0.47_30_61_32, 0.47_44_14_56, 0.4_60_76_06, 0.48_71_92_63]) assert ( np.abs(image_slice.flatten() - expected_slice).max() < 1E-2 ), F' expected_slice {expected_slice}, but got {image_slice.flatten()}' assert ( np.abs(image_from_tuple_slice.flatten() - expected_slice).max() < 1E-2 ), F' expected_slice {expected_slice}, but got {image_from_tuple_slice.flatten()}' @slow @require_torch_gpu class _A ( unittest.TestCase ): def _lowerCamelCase ( self : Dict): '''simple docstring''' super().tearDown() gc.collect() torch.cuda.empty_cache() def _lowerCamelCase ( self : str): '''simple docstring''' __a = load_numpy( '''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main''' '''/kandinskyv22/kandinskyv22_img2img_frog.npy''') __a = load_image( '''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main''' '''/kandinsky/cat.png''') __a = '''A red cartoon frog, 4k''' __a = KandinskyVaaPriorPipeline.from_pretrained( '''kandinsky-community/kandinsky-2-2-prior''' , torch_dtype=torch.floataa) pipe_prior.to(__SCREAMING_SNAKE_CASE) __a = KandinskyVaaImgaImgPipeline.from_pretrained( '''kandinsky-community/kandinsky-2-2-decoder''' , torch_dtype=torch.floataa) __a = pipeline.to(__SCREAMING_SNAKE_CASE) pipeline.set_progress_bar_config(disable=__SCREAMING_SNAKE_CASE) __a = torch.Generator(device='''cpu''').manual_seed(0) __a , __a = pipe_prior( __SCREAMING_SNAKE_CASE , generator=__SCREAMING_SNAKE_CASE , num_inference_steps=5 , negative_prompt='''''' , ).to_tuple() __a = pipeline( image=__SCREAMING_SNAKE_CASE , image_embeds=__SCREAMING_SNAKE_CASE , negative_image_embeds=__SCREAMING_SNAKE_CASE , generator=__SCREAMING_SNAKE_CASE , num_inference_steps=100 , height=768 , width=768 , strength=0.2 , output_type='''np''' , ) __a = output.images[0] assert image.shape == (768, 768, 3) assert_mean_pixel_difference(__SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE)	131	0
"""simple docstring""" from __future__ import annotations from dataclasses import dataclass @dataclass class UpperCAmelCase_ : snake_case__ = 42 snake_case__ = None snake_case__ = None def lowercase ( a__ : TreeNode \| None ) -> bool: # Validation def is_valid_tree(a__ : TreeNode \| None ) -> bool: if node is None: return True if not isinstance(a__ , a__ ): return False try: float(node.data ) except (TypeError, ValueError): return False return is_valid_tree(node.left ) and is_valid_tree(node.right ) if not is_valid_tree(a__ ): raise ValueError( '''Each node should be type of TreeNode and data should be float.''' ) def is_binary_search_tree_recursive_check( a__ : TreeNode \| None , a__ : float , a__ : float ) -> bool: if node is None: return True return ( left_bound < node.data < right_bound and is_binary_search_tree_recursive_check(node.left , a__ , node.data ) and is_binary_search_tree_recursive_check( node.right , node.data , a__ ) ) return is_binary_search_tree_recursive_check(a__ , -float('''inf''' ) , float('''inf''' ) ) if __name__ == "__main__": import doctest doctest.testmod()	256	"""simple docstring""" import logging from dataclasses import dataclass, field from typing import Optional from seqaseq_trainer import arg_to_scheduler from transformers import TrainingArguments UpperCAmelCase = logging.getLogger(__name__) @dataclass class UpperCAmelCase_ ( _lowercase): snake_case__ = field( default=0.0 , metadata={'''help''': '''The label smoothing epsilon to apply (if not zero).'''}) snake_case__ = field(default=_lowercase , metadata={'''help''': '''Whether to SortishSamler or not.'''}) snake_case__ = field( default=_lowercase , metadata={'''help''': '''Whether to use generate to calculate generative metrics (ROUGE, BLEU).'''}) snake_case__ = field(default=_lowercase , metadata={'''help''': '''whether to use adafactor'''}) snake_case__ = field( default=_lowercase , metadata={'''help''': '''Encoder layer dropout probability. Goes into model.config.'''}) snake_case__ = field( default=_lowercase , metadata={'''help''': '''Decoder layer dropout probability. Goes into model.config.'''}) snake_case__ = field(default=_lowercase , metadata={'''help''': '''Dropout probability. Goes into model.config.'''}) snake_case__ = field( default=_lowercase , metadata={'''help''': '''Attention dropout probability. Goes into model.config.'''}) snake_case__ = field( default='''linear''' , metadata={'''help''': F'''Which lr scheduler to use. Selected in {sorted(arg_to_scheduler.keys())}'''} , )	256	1
"""simple docstring""" from typing import Optional from .. import Features, NamedSplit from ..packaged_modules.text.text import Text from ..utils.typing import NestedDataStructureLike, PathLike from .abc import AbstractDatasetReader class lowerCAmelCase_ ( lowerCAmelCase ): """simple docstring""" def __init__( self , lowerCAmelCase , lowerCAmelCase = None , lowerCAmelCase = None , lowerCAmelCase = None , lowerCAmelCase = False , lowerCAmelCase = False , lowerCAmelCase = None , lowerCAmelCase , ): """simple docstring""" super().__init__( lowerCamelCase_ , split=lowerCamelCase_ , features=lowerCamelCase_ , cache_dir=lowerCamelCase_ , keep_in_memory=lowerCamelCase_ , streaming=lowerCamelCase_ , num_proc=lowerCamelCase_ , lowerCamelCase_ , ) snake_case = path_or_paths if isinstance(lowerCamelCase_ , lowerCamelCase_ ) else {self.split: path_or_paths} snake_case = Text( cache_dir=lowerCamelCase_ , data_files=lowerCamelCase_ , features=lowerCamelCase_ , **lowerCamelCase_ , ) def snake_case ( self ): """simple docstring""" if self.streaming: snake_case = self.builder.as_streaming_dataset(split=self.split ) # Build regular (map-style) dataset else: snake_case = None snake_case = None snake_case = None snake_case = None self.builder.download_and_prepare( download_config=lowerCamelCase_ , download_mode=lowerCamelCase_ , verification_mode=lowerCamelCase_ , base_path=lowerCamelCase_ , num_proc=self.num_proc , ) snake_case = self.builder.as_dataset( split=self.split , verification_mode=lowerCamelCase_ , in_memory=self.keep_in_memory ) return dataset	361	"""simple docstring""" from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_torch_available SCREAMING_SNAKE_CASE__ = { "configuration_data2vec_audio": ["DATA2VEC_AUDIO_PRETRAINED_CONFIG_ARCHIVE_MAP", "Data2VecAudioConfig"], "configuration_data2vec_text": [ "DATA2VEC_TEXT_PRETRAINED_CONFIG_ARCHIVE_MAP", "Data2VecTextConfig", "Data2VecTextOnnxConfig", ], "configuration_data2vec_vision": [ "DATA2VEC_VISION_PRETRAINED_CONFIG_ARCHIVE_MAP", "Data2VecVisionConfig", "Data2VecVisionOnnxConfig", ], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: SCREAMING_SNAKE_CASE__ = [ "DATA2VEC_AUDIO_PRETRAINED_MODEL_ARCHIVE_LIST", "Data2VecAudioForAudioFrameClassification", "Data2VecAudioForCTC", "Data2VecAudioForSequenceClassification", "Data2VecAudioForXVector", "Data2VecAudioModel", "Data2VecAudioPreTrainedModel", ] SCREAMING_SNAKE_CASE__ = [ "DATA2VEC_TEXT_PRETRAINED_MODEL_ARCHIVE_LIST", "Data2VecTextForCausalLM", "Data2VecTextForMaskedLM", "Data2VecTextForMultipleChoice", "Data2VecTextForQuestionAnswering", "Data2VecTextForSequenceClassification", "Data2VecTextForTokenClassification", "Data2VecTextModel", "Data2VecTextPreTrainedModel", ] SCREAMING_SNAKE_CASE__ = [ "DATA2VEC_VISION_PRETRAINED_MODEL_ARCHIVE_LIST", "Data2VecVisionForImageClassification", "Data2VecVisionForMaskedImageModeling", "Data2VecVisionForSemanticSegmentation", "Data2VecVisionModel", "Data2VecVisionPreTrainedModel", ] if is_tf_available(): SCREAMING_SNAKE_CASE__ = [ "TFData2VecVisionForImageClassification", "TFData2VecVisionForSemanticSegmentation", "TFData2VecVisionModel", "TFData2VecVisionPreTrainedModel", ] if TYPE_CHECKING: from .configuration_dataavec_audio import DATA2VEC_AUDIO_PRETRAINED_CONFIG_ARCHIVE_MAP, DataaVecAudioConfig from .configuration_dataavec_text import ( DATA2VEC_TEXT_PRETRAINED_CONFIG_ARCHIVE_MAP, DataaVecTextConfig, DataaVecTextOnnxConfig, ) from .configuration_dataavec_vision import ( DATA2VEC_VISION_PRETRAINED_CONFIG_ARCHIVE_MAP, DataaVecVisionConfig, DataaVecVisionOnnxConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_dataavec_audio import ( DATA2VEC_AUDIO_PRETRAINED_MODEL_ARCHIVE_LIST, DataaVecAudioForAudioFrameClassification, DataaVecAudioForCTC, DataaVecAudioForSequenceClassification, DataaVecAudioForXVector, DataaVecAudioModel, DataaVecAudioPreTrainedModel, ) from .modeling_dataavec_text import ( DATA2VEC_TEXT_PRETRAINED_MODEL_ARCHIVE_LIST, DataaVecTextForCausalLM, DataaVecTextForMaskedLM, DataaVecTextForMultipleChoice, DataaVecTextForQuestionAnswering, DataaVecTextForSequenceClassification, DataaVecTextForTokenClassification, DataaVecTextModel, DataaVecTextPreTrainedModel, ) from .modeling_dataavec_vision import ( DATA2VEC_VISION_PRETRAINED_MODEL_ARCHIVE_LIST, DataaVecVisionForImageClassification, DataaVecVisionForMaskedImageModeling, DataaVecVisionForSemanticSegmentation, DataaVecVisionModel, DataaVecVisionPreTrainedModel, ) if is_tf_available(): from .modeling_tf_dataavec_vision import ( TFDataaVecVisionForImageClassification, TFDataaVecVisionForSemanticSegmentation, TFDataaVecVisionModel, TFDataaVecVisionPreTrainedModel, ) else: import sys SCREAMING_SNAKE_CASE__ = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)	149	0
from collections import deque from .hash_table import HashTable class __lowercase (_UpperCAmelCase ): def __init__( self , A_ , A_ ) ->int: '''simple docstring''' super().__init__(A_ , *A_ ) def UpperCamelCase__ ( self , A_ , A_ ) ->Optional[int]: '''simple docstring''' __lowerCAmelCase : Dict = deque([] ) if self.values[key] is None else self.values[key] self.values[key].appendleft(A_ ) __lowerCAmelCase : int = self.values[key] def UpperCamelCase__ ( self ) ->Tuple: '''simple docstring''' return ( sum(self.charge_factor - len(A_ ) for slot in self.values ) / self.size_table self.charge_factor ) def UpperCamelCase__ ( self , A_ , A_=None ) ->str: '''simple docstring''' if not ( len(self.values[key] ) == self.charge_factor and self.values.count(A_ ) == 0 ): return key return super()._collision_resolution(A_ , A_ )	275	def _lowercase ( lowercase__ = 2_0_0 ): __lowerCAmelCase : Union[str, Any] = [1, 2, 5, 1_0, 2_0, 5_0, 1_0_0, 2_0_0] __lowerCAmelCase : Dict = [0] * (pence + 1) __lowerCAmelCase : Optional[int] = 1 # base case: 1 way to make 0 pence for coin in coins: for i in range(lowercase__ , pence + 1 , 1 ): number_of_ways[i] += number_of_ways[i - coin] return number_of_ways[pence] if __name__ == "__main__": assert solution(200) == 7_3682	275	1
from __future__ import annotations import os from typing import Any import requests UpperCamelCase__ : Any = """https://api.github.com""" # https://docs.github.com/en/free-pro-team@latest/rest/reference/users#get-the-authenticated-user UpperCamelCase__ : Union[str, Any] = BASE_URL + """/user""" # https://github.com/settings/tokens UpperCamelCase__ : Tuple = os.environ.get("""USER_TOKEN""", """""") def SCREAMING_SNAKE_CASE__ ( snake_case_ ) -> dict[Any, Any]: """simple docstring""" a = { '''Authorization''': f"""token {auth_token}""", '''Accept''': '''application/vnd.github.v3+json''', } return requests.get(snake_case_, headers=snake_case_ ).json() if __name__ == "__main__": # pragma: no cover if USER_TOKEN: for key, value in fetch_github_info(USER_TOKEN).items(): print(F"{key}: {value}") else: raise ValueError("""'USER_TOKEN' field cannot be empty.""")	371	from collections import OrderedDict from typing import Mapping from packaging import version from ...configuration_utils import PretrainedConfig from ...onnx import OnnxConfig from ...utils import logging UpperCamelCase__ : Union[str, Any] = logging.get_logger(__name__) UpperCamelCase__ : Union[str, Any] = { """hustvl/yolos-small""": """https://huggingface.co/hustvl/yolos-small/resolve/main/config.json""", # See all YOLOS models at https://huggingface.co/models?filter=yolos } class lowerCamelCase_ ( a_ ): SCREAMING_SNAKE_CASE_ = 'yolos' def __init__( self : Union[str, Any] ,__lowerCamelCase : int=7_68 ,__lowerCamelCase : Dict=12 ,__lowerCamelCase : Union[str, Any]=12 ,__lowerCamelCase : List[Any]=30_72 ,__lowerCamelCase : int="gelu" ,__lowerCamelCase : int=0.0 ,__lowerCamelCase : str=0.0 ,__lowerCamelCase : Optional[Any]=0.02 ,__lowerCamelCase : int=1e-12 ,__lowerCamelCase : Any=[5_12, 8_64] ,__lowerCamelCase : Tuple=16 ,__lowerCamelCase : int=3 ,__lowerCamelCase : Tuple=True ,__lowerCamelCase : Optional[int]=1_00 ,__lowerCamelCase : List[Any]=True ,__lowerCamelCase : List[str]=False ,__lowerCamelCase : int=1 ,__lowerCamelCase : List[Any]=5 ,__lowerCamelCase : Optional[int]=2 ,__lowerCamelCase : int=5 ,__lowerCamelCase : str=2 ,__lowerCamelCase : Tuple=0.1 ,__lowerCamelCase : List[Any] ,): '''simple docstring''' super().__init__(__lowerCamelCase ) a = hidden_size a = num_hidden_layers a = num_attention_heads a = intermediate_size a = hidden_act a = hidden_dropout_prob a = attention_probs_dropout_prob a = initializer_range a = layer_norm_eps a = image_size a = patch_size a = num_channels a = qkv_bias a = num_detection_tokens a = use_mid_position_embeddings a = auxiliary_loss # Hungarian matcher a = class_cost a = bbox_cost a = giou_cost # Loss coefficients a = bbox_loss_coefficient a = giou_loss_coefficient a = eos_coefficient class lowerCamelCase_ ( a_ ): SCREAMING_SNAKE_CASE_ = version.parse('1.11' ) @property def SCREAMING_SNAKE_CASE_ ( self : str ): '''simple docstring''' return OrderedDict( [ ('''pixel_values''', {0: '''batch''', 1: '''num_channels''', 2: '''height''', 3: '''width'''}), ] ) @property def SCREAMING_SNAKE_CASE_ ( self : Optional[Any] ): '''simple docstring''' return 1e-4 @property def SCREAMING_SNAKE_CASE_ ( self : str ): '''simple docstring''' return 12	330	0
import unittest import numpy as np import requests from transformers.testing_utils import require_torch, require_vision from transformers.utils import is_torch_available, is_vision_available from ...test_image_processing_common import ImageProcessingSavingTestMixin, prepare_image_inputs if is_torch_available(): import torch from transformers.pytorch_utils import is_torch_greater_or_equal_than_1_11 else: lowercase = False if is_vision_available(): from PIL import Image from transformers import PixaStructImageProcessor class UpperCamelCase_ ( unittest.TestCase ): '''simple docstring''' def __init__( self , a , a=7 , a=3 , a=18 , a=30 , a=4_00 , a=None , a=True , a=True , a=None , ) -> Union[str, Any]: snake_case_ = size if size is not None else {'height': 20, 'width': 20} snake_case_ = parent snake_case_ = batch_size snake_case_ = num_channels snake_case_ = image_size snake_case_ = min_resolution snake_case_ = max_resolution snake_case_ = size snake_case_ = do_normalize snake_case_ = do_convert_rgb snake_case_ = [5_12, 10_24, 20_48, 40_96] snake_case_ = patch_size if patch_size is not None else {'height': 16, 'width': 16} def _UpperCamelCase ( self ) -> str: return {"do_normalize": self.do_normalize, "do_convert_rgb": self.do_convert_rgb} def _UpperCamelCase ( self ) -> int: snake_case_ = 'https://huggingface.co/datasets/huggingface/documentation-images/resolve/main/transformers/tasks/australia.jpg' snake_case_ = Image.open(requests.get(a , stream=a ).raw ).convert('RGB' ) return raw_image @unittest.skipIf( not is_torch_greater_or_equal_than_1_11 , reason='''`Pix2StructImageProcessor` requires `torch>=1.11.0`.''' , ) @require_torch @require_vision class UpperCamelCase_ ( snake_case_ , unittest.TestCase ): '''simple docstring''' lowerCAmelCase = PixaStructImageProcessor if is_vision_available() else None def _UpperCamelCase ( self ) -> List[str]: snake_case_ = PixaStructImageProcessingTester(self ) @property def _UpperCamelCase ( self ) -> List[Any]: return self.image_processor_tester.prepare_image_processor_dict() def _UpperCamelCase ( self ) -> List[Any]: snake_case_ = self.image_processing_class(self.image_processor_dict ) self.assertTrue(hasattr(a , 'do_normalize' ) ) self.assertTrue(hasattr(a , 'do_convert_rgb' ) ) def _UpperCamelCase ( self ) -> Optional[Any]: snake_case_ = self.image_processor_tester.prepare_dummy_image() snake_case_ = self.image_processing_class(self.image_processor_dict ) snake_case_ = 20_48 snake_case_ = image_processor(a , return_tensors='pt' , max_patches=a ) self.assertTrue(torch.allclose(inputs.flattened_patches.mean() , torch.tensor(0.0_606 ) , atol=1E-3 , rtol=1E-3 ) ) def _UpperCamelCase ( self ) -> Tuple: # Initialize image_processor snake_case_ = self.image_processing_class(*self.image_processor_dict ) # create random PIL images snake_case_ = prepare_image_inputs(self.image_processor_tester , equal_resolution=a ) for image in image_inputs: self.assertIsInstance(a , Image.Image ) # Test not batched input snake_case_ = ( (self.image_processor_tester.patch_size['height'] self.image_processor_tester.patch_size['width']) * self.image_processor_tester.num_channels ) + 2 for max_patch in self.image_processor_tester.max_patches: # Test not batched input snake_case_ = image_processor( image_inputs[0] , return_tensors='pt' , max_patches=a ).flattened_patches self.assertEqual( encoded_images.shape , (1, max_patch, expected_hidden_dim) , ) # Test batched snake_case_ = image_processor( a , return_tensors='pt' , max_patches=a ).flattened_patches self.assertEqual( encoded_images.shape , (self.image_processor_tester.batch_size, max_patch, expected_hidden_dim) , ) def _UpperCamelCase ( self ) -> Optional[int]: # Initialize image_processor snake_case_ = self.image_processing_class(*self.image_processor_dict ) # create random PIL images snake_case_ = prepare_image_inputs(self.image_processor_tester , equal_resolution=a ) for image in image_inputs: self.assertIsInstance(a , Image.Image ) # Test not batched input snake_case_ = ( (self.image_processor_tester.patch_size['height'] self.image_processor_tester.patch_size['width']) * self.image_processor_tester.num_channels ) + 2 snake_case_ = True for max_patch in self.image_processor_tester.max_patches: # Test not batched input with self.assertRaises(a ): snake_case_ = image_processor( image_inputs[0] , return_tensors='pt' , max_patches=a ).flattened_patches snake_case_ = 'Hello' snake_case_ = image_processor( image_inputs[0] , return_tensors='pt' , max_patches=a , header_text=a ).flattened_patches self.assertEqual( encoded_images.shape , (1, max_patch, expected_hidden_dim) , ) # Test batched snake_case_ = image_processor( a , return_tensors='pt' , max_patches=a , header_text=a ).flattened_patches self.assertEqual( encoded_images.shape , (self.image_processor_tester.batch_size, max_patch, expected_hidden_dim) , ) def _UpperCamelCase ( self ) -> Dict: # Initialize image_processor snake_case_ = self.image_processing_class(*self.image_processor_dict ) # create random numpy tensors snake_case_ = prepare_image_inputs(self.image_processor_tester , equal_resolution=a , numpify=a ) for image in image_inputs: self.assertIsInstance(a , np.ndarray ) snake_case_ = ( (self.image_processor_tester.patch_size['height'] self.image_processor_tester.patch_size['width']) * self.image_processor_tester.num_channels ) + 2 for max_patch in self.image_processor_tester.max_patches: # Test not batched input snake_case_ = image_processor( image_inputs[0] , return_tensors='pt' , max_patches=a ).flattened_patches self.assertEqual( encoded_images.shape , (1, max_patch, expected_hidden_dim) , ) # Test batched snake_case_ = image_processor( a , return_tensors='pt' , max_patches=a ).flattened_patches self.assertEqual( encoded_images.shape , (self.image_processor_tester.batch_size, max_patch, expected_hidden_dim) , ) def _UpperCamelCase ( self ) -> List[Any]: # Initialize image_processor snake_case_ = self.image_processing_class(*self.image_processor_dict ) # create random PyTorch tensors snake_case_ = prepare_image_inputs(self.image_processor_tester , equal_resolution=a , torchify=a ) for image in image_inputs: self.assertIsInstance(a , torch.Tensor ) # Test not batched input snake_case_ = ( (self.image_processor_tester.patch_size['height'] self.image_processor_tester.patch_size['width']) * self.image_processor_tester.num_channels ) + 2 for max_patch in self.image_processor_tester.max_patches: # Test not batched input snake_case_ = image_processor( image_inputs[0] , return_tensors='pt' , max_patches=a ).flattened_patches self.assertEqual( encoded_images.shape , (1, max_patch, expected_hidden_dim) , ) # Test batched snake_case_ = image_processor( a , return_tensors='pt' , max_patches=a ).flattened_patches self.assertEqual( encoded_images.shape , (self.image_processor_tester.batch_size, max_patch, expected_hidden_dim) , ) @unittest.skipIf( not is_torch_greater_or_equal_than_1_11 , reason='''`Pix2StructImageProcessor` requires `torch>=1.11.0`.''' , ) @require_torch @require_vision class UpperCamelCase_ ( snake_case_ , unittest.TestCase ): '''simple docstring''' lowerCAmelCase = PixaStructImageProcessor if is_vision_available() else None def _UpperCamelCase ( self ) -> Any: snake_case_ = PixaStructImageProcessingTester(self , num_channels=4 ) snake_case_ = 3 @property def _UpperCamelCase ( self ) -> Any: return self.image_processor_tester.prepare_image_processor_dict() def _UpperCamelCase ( self ) -> Optional[int]: snake_case_ = self.image_processing_class(self.image_processor_dict ) self.assertTrue(hasattr(a , 'do_normalize' ) ) self.assertTrue(hasattr(a , 'do_convert_rgb' ) ) def _UpperCamelCase ( self ) -> List[str]: # Initialize image_processor snake_case_ = self.image_processing_class(self.image_processor_dict ) # create random PIL images snake_case_ = prepare_image_inputs(self.image_processor_tester , equal_resolution=a ) for image in image_inputs: self.assertIsInstance(a , Image.Image ) # Test not batched input snake_case_ = ( (self.image_processor_tester.patch_size['height'] * self.image_processor_tester.patch_size['width']) * (self.image_processor_tester.num_channels - 1) ) + 2 for max_patch in self.image_processor_tester.max_patches: # Test not batched input snake_case_ = image_processor( image_inputs[0] , return_tensors='pt' , max_patches=a ).flattened_patches self.assertEqual( encoded_images.shape , (1, max_patch, expected_hidden_dim) , ) # Test batched snake_case_ = image_processor( a , return_tensors='pt' , max_patches=a ).flattened_patches self.assertEqual( encoded_images.shape , (self.image_processor_tester.batch_size, max_patch, expected_hidden_dim) , )	178	import numpy as np from sklearn.datasets import fetch_california_housing from sklearn.metrics import mean_absolute_error, mean_squared_error from sklearn.model_selection import train_test_split from xgboost import XGBRegressor def __UpperCAmelCase ( a_): return (data["data"], data["target"]) def __UpperCAmelCase ( a_ , a_ , a_): snake_case_ = XGBRegressor(verbosity=0 , random_state=42) xgb.fit(a_ , a_) # Predict target for test data snake_case_ = xgb.predict(a_) snake_case_ = predictions.reshape(len(a_) , 1) return predictions def __UpperCAmelCase ( ): snake_case_ = fetch_california_housing() snake_case_ , snake_case_ = data_handling(a_) snake_case_ , snake_case_ , snake_case_ , snake_case_ = train_test_split( a_ , a_ , test_size=0.25 , random_state=1) snake_case_ = xgboost(a_ , a_ , a_) # Error printing print(f'''Mean Absolute Error : {mean_absolute_error(a_ , a_)}''') print(f'''Mean Square Error : {mean_squared_error(a_ , a_)}''') if __name__ == "__main__": import doctest doctest.testmod(verbose=True) main()	178	1
"""simple docstring""" import unittest from pathlib import Path from tempfile import NamedTemporaryFile, TemporaryDirectory from transformers import BertConfig, BertTokenizerFast, FeatureExtractionPipeline from transformers.convert_graph_to_onnx import ( convert, ensure_valid_input, generate_identified_filename, infer_shapes, quantize, ) from transformers.testing_utils import require_tf, require_tokenizers, require_torch, slow class __SCREAMING_SNAKE_CASE : '''simple docstring''' def snake_case ( self : int, lowerCamelCase : Optional[int], lowerCamelCase : Tuple, lowerCamelCase : Tuple )-> Union[str, Any]: return None class __SCREAMING_SNAKE_CASE : '''simple docstring''' def snake_case ( self : str, lowerCamelCase : List[str], lowerCamelCase : Tuple, lowerCamelCase : str, lowerCamelCase : Optional[int] )-> Union[str, Any]: return None class __SCREAMING_SNAKE_CASE ( unittest.TestCase ): '''simple docstring''' _a = [ # (model_name, model_kwargs) ('bert-base-cased', {}), ('gpt2', {'use_cache': False}), # We don't support exporting GPT2 past keys anymore ] @require_tf @slow def snake_case ( self : Any )-> Tuple: for model, model_kwargs in OnnxExportTestCase.MODEL_TO_TEST: self._test_export(UpperCAmelCase_, '''tf''', 12, UpperCAmelCase_ ) @require_torch @slow def snake_case ( self : Optional[int] )-> Tuple: for model, model_kwargs in OnnxExportTestCase.MODEL_TO_TEST: self._test_export(UpperCAmelCase_, '''pt''', 12, UpperCAmelCase_ ) @require_torch @slow def snake_case ( self : Optional[int] )-> List[str]: from transformers import BertModel lowerCamelCase__ : List[str] =["[UNK]", "[SEP]", "[CLS]", "[PAD]", "[MASK]", "some", "other", "words"] with NamedTemporaryFile(mode='''w+t''' ) as vocab_file: vocab_file.write('''\n'''.join(UpperCAmelCase_ ) ) vocab_file.flush() lowerCamelCase__ : Tuple =BertTokenizerFast(vocab_file.name ) with TemporaryDirectory() as bert_save_dir: lowerCamelCase__ : int =BertModel(BertConfig(vocab_size=len(UpperCAmelCase_ ) ) ) model.save_pretrained(UpperCAmelCase_ ) self._test_export(UpperCAmelCase_, '''pt''', 12, UpperCAmelCase_ ) @require_tf @slow def snake_case ( self : str )-> str: for model, model_kwargs in OnnxExportTestCase.MODEL_TO_TEST: lowerCamelCase__ : List[Any] =self._test_export(UpperCAmelCase_, '''tf''', 12, UpperCAmelCase_ ) lowerCamelCase__ : str =quantize(Path(UpperCAmelCase_ ) ) # Ensure the actual quantized model is not bigger than the original one if quantized_path.stat().st_size >= Path(UpperCAmelCase_ ).stat().st_size: self.fail('''Quantized model is bigger than initial ONNX model''' ) @require_torch @slow def snake_case ( self : Union[str, Any] )-> List[str]: for model, model_kwargs in OnnxExportTestCase.MODEL_TO_TEST: lowerCamelCase__ : Optional[Any] =self._test_export(UpperCAmelCase_, '''pt''', 12, UpperCAmelCase_ ) lowerCamelCase__ : Union[str, Any] =quantize(UpperCAmelCase_ ) # Ensure the actual quantized model is not bigger than the original one if quantized_path.stat().st_size >= Path(UpperCAmelCase_ ).stat().st_size: self.fail('''Quantized model is bigger than initial ONNX model''' ) def snake_case ( self : int, lowerCamelCase : Any, lowerCamelCase : Optional[int], lowerCamelCase : List[str], lowerCamelCase : List[str]=None, lowerCamelCase : Dict )-> int: try: # Compute path with TemporaryDirectory() as tempdir: lowerCamelCase__ : Any =Path(UpperCAmelCase_ ).joinpath('''model.onnx''' ) # Remove folder if exists if path.parent.exists(): path.parent.rmdir() # Export convert(UpperCAmelCase_, UpperCAmelCase_, UpperCAmelCase_, UpperCAmelCase_, UpperCAmelCase_, UpperCAmelCase_ ) return path except Exception as e: self.fail(UpperCAmelCase_ ) @require_torch @require_tokenizers @slow def snake_case ( self : Optional[int] )-> Union[str, Any]: from transformers import BertModel lowerCamelCase__ : List[Any] =BertModel(BertConfig.from_pretrained('''lysandre/tiny-bert-random''' ) ) lowerCamelCase__ : Dict =BertTokenizerFast.from_pretrained('''lysandre/tiny-bert-random''' ) self._test_infer_dynamic_axis(UpperCAmelCase_, UpperCAmelCase_, '''pt''' ) @require_tf @require_tokenizers @slow def snake_case ( self : str )-> List[Any]: from transformers import TFBertModel lowerCamelCase__ : Dict =TFBertModel(BertConfig.from_pretrained('''lysandre/tiny-bert-random''' ) ) lowerCamelCase__ : Union[str, Any] =BertTokenizerFast.from_pretrained('''lysandre/tiny-bert-random''' ) self._test_infer_dynamic_axis(UpperCAmelCase_, UpperCAmelCase_, '''tf''' ) def snake_case ( self : Union[str, Any], lowerCamelCase : str, lowerCamelCase : Tuple, lowerCamelCase : Tuple )-> List[Any]: lowerCamelCase__ : Optional[int] =FeatureExtractionPipeline(UpperCAmelCase_, UpperCAmelCase_ ) lowerCamelCase__ : Any =["input_ids", "token_type_ids", "attention_mask", "output_0", "output_1"] lowerCamelCase__ : Tuple =infer_shapes(UpperCAmelCase_, UpperCAmelCase_ ) # Assert all variables are present self.assertEqual(len(UpperCAmelCase_ ), len(UpperCAmelCase_ ) ) self.assertTrue(all(var_name in shapes for var_name in variable_names ) ) self.assertSequenceEqual(variable_names[:3], UpperCAmelCase_ ) self.assertSequenceEqual(variable_names[3:], UpperCAmelCase_ ) # Assert inputs are {0: batch, 1: sequence} for var_name in ["input_ids", "token_type_ids", "attention_mask"]: self.assertDictEqual(shapes[var_name], {0: '''batch''', 1: '''sequence'''} ) # Assert outputs are {0: batch, 1: sequence} and {0: batch} self.assertDictEqual(shapes['''output_0'''], {0: '''batch''', 1: '''sequence'''} ) self.assertDictEqual(shapes['''output_1'''], {0: '''batch'''} ) def snake_case ( self : Optional[Any] )-> List[str]: lowerCamelCase__ : Union[str, Any] =["input_ids", "attention_mask", "token_type_ids"] lowerCamelCase__ : Optional[Any] ={"input_ids": [1, 2, 3, 4], "attention_mask": [0, 0, 0, 0], "token_type_ids": [1, 1, 1, 1]} lowerCamelCase__ : int =ensure_valid_input(FuncContiguousArgs(), UpperCAmelCase_, UpperCAmelCase_ ) # Should have exactly the same number of args (all are valid) self.assertEqual(len(UpperCAmelCase_ ), 3 ) # Should have exactly the same input names self.assertEqual(set(UpperCAmelCase_ ), set(UpperCAmelCase_ ) ) # Parameter should be reordered according to their respective place in the function: # (input_ids, token_type_ids, attention_mask) self.assertEqual(UpperCAmelCase_, (tokens['''input_ids'''], tokens['''token_type_ids'''], tokens['''attention_mask''']) ) # Generated args are interleaved with another args (for instance parameter "past" in GPT2) lowerCamelCase__ : Any =ensure_valid_input(FuncNonContiguousArgs(), UpperCAmelCase_, UpperCAmelCase_ ) # Should have exactly the one arg (all before the one not provided "some_other_args") self.assertEqual(len(UpperCAmelCase_ ), 1 ) self.assertEqual(len(UpperCAmelCase_ ), 1 ) # Should have only "input_ids" self.assertEqual(inputs_args[0], tokens['''input_ids'''] ) self.assertEqual(ordered_input_names[0], '''input_ids''' ) def snake_case ( self : Dict )-> Any: lowerCamelCase__ : List[Any] =generate_identified_filename(Path('''/home/something/my_fake_model.onnx''' ), '''-test''' ) self.assertEqual('''/home/something/my_fake_model-test.onnx''', generated.as_posix() )	365	"""simple docstring""" import logging import os from typing import Dict, List, Optional, Union import torch import torch.nn as nn from accelerate.utils.imports import ( is_abit_bnb_available, is_abit_bnb_available, is_bnb_available, ) from ..big_modeling import dispatch_model, init_empty_weights from .dataclasses import BnbQuantizationConfig from .modeling import ( find_tied_parameters, get_balanced_memory, infer_auto_device_map, load_checkpoint_in_model, offload_weight, set_module_tensor_to_device, ) if is_bnb_available(): import bitsandbytes as bnb from copy import deepcopy _lowercase : Tuple = logging.getLogger(__name__) def snake_case__ ( __lowerCamelCase : torch.nn.Module , __lowerCamelCase : BnbQuantizationConfig , __lowerCamelCase : Union[str, os.PathLike] = None , __lowerCamelCase : Optional[Dict[str, Union[int, str, torch.device]]] = None , __lowerCamelCase : Optional[List[str]] = None , __lowerCamelCase : Optional[Dict[Union[int, str], Union[int, str]]] = None , __lowerCamelCase : Optional[Union[str, os.PathLike]] = None , __lowerCamelCase : bool = False , ): """simple docstring""" lowerCamelCase__ : str =bnb_quantization_config.load_in_abit lowerCamelCase__ : str =bnb_quantization_config.load_in_abit if load_in_abit and not is_abit_bnb_available(): raise ImportError( '''You have a version of `bitsandbytes` that is not compatible with 8bit quantization,''' ''' make sure you have the latest version of `bitsandbytes` installed.''' ) if load_in_abit and not is_abit_bnb_available(): raise ValueError( '''You have a version of `bitsandbytes` that is not compatible with 4bit quantization,''' '''make sure you have the latest version of `bitsandbytes` installed.''' ) lowerCamelCase__ : str =[] # custom device map if isinstance(__lowerCamelCase , __lowerCamelCase ) and len(device_map.keys() ) > 1: lowerCamelCase__ : Union[str, Any] =[key for key, value in device_map.items() if value in ['''disk''', '''cpu''']] # We keep some modules such as the lm_head in their original dtype for numerical stability reasons if bnb_quantization_config.skip_modules is None: lowerCamelCase__ : Any =get_keys_to_not_convert(__lowerCamelCase ) # add cpu modules to skip modules only for 4-bit modules if load_in_abit: bnb_quantization_config.skip_modules.extend(__lowerCamelCase ) lowerCamelCase__ : Tuple =bnb_quantization_config.skip_modules # We add the modules we want to keep in full precision if bnb_quantization_config.keep_in_fpaa_modules is None: lowerCamelCase__ : Optional[Any] =[] lowerCamelCase__ : List[Any] =bnb_quantization_config.keep_in_fpaa_modules modules_to_not_convert.extend(__lowerCamelCase ) # compatibility with peft lowerCamelCase__ : List[str] =load_in_abit lowerCamelCase__ : List[str] =load_in_abit lowerCamelCase__ : Union[str, Any] =get_parameter_device(__lowerCamelCase ) if model_device.type != "meta": # quantization of an already loaded model logger.warning( '''It is not recommended to quantize a loaded model. ''' '''The model should be instantiated under the `init_empty_weights` context manager.''' ) lowerCamelCase__ : str =replace_with_bnb_layers(__lowerCamelCase , __lowerCamelCase , modules_to_not_convert=__lowerCamelCase ) # convert param to the right dtype lowerCamelCase__ : Union[str, Any] =bnb_quantization_config.torch_dtype for name, param in model.state_dict().items(): if any(module_to_keep_in_fpaa in name for module_to_keep_in_fpaa in keep_in_fpaa_modules ): param.to(torch.floataa ) if param.dtype != torch.floataa: lowerCamelCase__ : Optional[int] =name.replace('''.weight''' , '''''' ).replace('''.bias''' , '''''' ) lowerCamelCase__ : Dict =getattr(__lowerCamelCase , __lowerCamelCase , __lowerCamelCase ) if param is not None: param.to(torch.floataa ) elif torch.is_floating_point(__lowerCamelCase ): param.to(__lowerCamelCase ) if model_device.type == "cuda": # move everything to cpu in the first place because we can't do quantization if the weights are already on cuda model.cuda(torch.cuda.current_device() ) torch.cuda.empty_cache() elif torch.cuda.is_available(): model.to(torch.cuda.current_device() ) else: raise RuntimeError('''No GPU found. A GPU is needed for quantization.''' ) logger.info( f'''The model device type is {model_device.type}. However, cuda is needed for quantization.''' '''We move the model to cuda.''' ) return model elif weights_location is None: raise RuntimeError( f'''`weights_location` needs to be the folder path containing the weights of the model, but we found {weights_location} ''' ) else: with init_empty_weights(): lowerCamelCase__ : Dict =replace_with_bnb_layers( __lowerCamelCase , __lowerCamelCase , modules_to_not_convert=__lowerCamelCase ) lowerCamelCase__ : Optional[int] =get_quantized_model_device_map( __lowerCamelCase , __lowerCamelCase , __lowerCamelCase , max_memory=__lowerCamelCase , no_split_module_classes=__lowerCamelCase , ) if offload_state_dict is None and device_map is not None and "disk" in device_map.values(): lowerCamelCase__ : List[str] =True lowerCamelCase__ : Dict =any(x in list(device_map.values() ) for x in ['''cpu''', '''disk'''] ) load_checkpoint_in_model( __lowerCamelCase , __lowerCamelCase , __lowerCamelCase , dtype=bnb_quantization_config.torch_dtype , offload_folder=__lowerCamelCase , offload_state_dict=__lowerCamelCase , keep_in_fpaa_modules=bnb_quantization_config.keep_in_fpaa_modules , offload_abit_bnb=load_in_abit and offload , ) return dispatch_model(__lowerCamelCase , device_map=__lowerCamelCase , offload_dir=__lowerCamelCase ) def snake_case__ ( __lowerCamelCase : Dict , __lowerCamelCase : Any , __lowerCamelCase : Optional[Any]=None , __lowerCamelCase : Tuple=None , __lowerCamelCase : Optional[int]=None ): """simple docstring""" if device_map is None: if torch.cuda.is_available(): lowerCamelCase__ : List[Any] ={'''''': torch.cuda.current_device()} else: raise RuntimeError('''No GPU found. A GPU is needed for quantization.''' ) logger.info('''The device_map was not initialized.''' '''Setting device_map to `{\'\':torch.cuda.current_device()}`.''' ) if isinstance(__lowerCamelCase , __lowerCamelCase ): if device_map not in ["auto", "balanced", "balanced_low_0", "sequential"]: raise ValueError( '''If passing a string for `device_map`, please choose \'auto\', \'balanced\', \'balanced_low_0\' or ''' '''\'sequential\'.''' ) lowerCamelCase__ : List[Any] ={} special_dtypes.update( { name: bnb_quantization_config.torch_dtype for name, _ in model.named_parameters() if any(m in name for m in bnb_quantization_config.skip_modules ) } ) special_dtypes.update( { name: torch.floataa for name, _ in model.named_parameters() if any(m in name for m in bnb_quantization_config.keep_in_fpaa_modules ) } ) lowerCamelCase__ : int ={} lowerCamelCase__ : Optional[int] =special_dtypes lowerCamelCase__ : List[str] =no_split_module_classes lowerCamelCase__ : Tuple =bnb_quantization_config.target_dtype # get max_memory for each device. if device_map != "sequential": lowerCamelCase__ : List[str] =get_balanced_memory( __lowerCamelCase , low_zero=(device_map == '''balanced_low_0''') , max_memory=__lowerCamelCase , __lowerCamelCase , ) lowerCamelCase__ : str =max_memory lowerCamelCase__ : Any =infer_auto_device_map(__lowerCamelCase , __lowerCamelCase ) if isinstance(__lowerCamelCase , __lowerCamelCase ): # check if don't have any quantized module on the cpu lowerCamelCase__ : List[str] =bnb_quantization_config.skip_modules + bnb_quantization_config.keep_in_fpaa_modules lowerCamelCase__ : List[str] ={ key: device_map[key] for key in device_map.keys() if key not in modules_not_to_convert } for device in ["cpu", "disk"]: if device in device_map_without_some_modules.values(): if bnb_quantization_config.load_in_abit: raise ValueError( ''' Some modules are dispatched on the CPU or the disk. Make sure you have enough GPU RAM to fit the quantized model. If you want to dispatch the model on the CPU or the disk while keeping these modules in `torch_dtype`, you need to pass a custom `device_map` to `load_and_quantize_model`. Check https://huggingface.co/docs/accelerate/main/en/usage_guides/quantization#offload-modules-to-cpu-and-disk for more details. ''' ) else: logger.info( '''Some modules are are offloaded to the CPU or the disk. Note that these modules will be converted to 8-bit''' ) del device_map_without_some_modules return device_map def snake_case__ ( __lowerCamelCase : List[Any] , __lowerCamelCase : Union[str, Any] , __lowerCamelCase : Union[str, Any]=None , __lowerCamelCase : str=None ): """simple docstring""" if modules_to_not_convert is None: lowerCamelCase__ : Dict =[] lowerCamelCase__ , lowerCamelCase__ : List[Any] =_replace_with_bnb_layers( __lowerCamelCase , __lowerCamelCase , __lowerCamelCase , __lowerCamelCase ) if not has_been_replaced: logger.warning( '''You are loading your model in 8bit or 4bit but no linear modules were found in your model.''' ''' this can happen for some architectures such as gpt2 that uses Conv1D instead of Linear layers.''' ''' Please double check your model architecture, or submit an issue on github if you think this is''' ''' a bug.''' ) return model def snake_case__ ( __lowerCamelCase : List[Any] , __lowerCamelCase : int , __lowerCamelCase : int=None , __lowerCamelCase : Optional[Any]=None , ): """simple docstring""" lowerCamelCase__ : Tuple =False for name, module in model.named_children(): if current_key_name is None: lowerCamelCase__ : Optional[Any] =[] current_key_name.append(__lowerCamelCase ) if isinstance(__lowerCamelCase , nn.Linear ) and name not in modules_to_not_convert: # Check if the current key is not in the `modules_to_not_convert` lowerCamelCase__ : Optional[Any] ='''.'''.join(__lowerCamelCase ) lowerCamelCase__ : Tuple =True for key in modules_to_not_convert: if ( (key in current_key_name_str) and (key + "." in current_key_name_str) ) or key == current_key_name_str: lowerCamelCase__ : Any =False break if proceed: # Load bnb module with empty weight and replace ``nn.Linear` module if bnb_quantization_config.load_in_abit: lowerCamelCase__ : List[str] =bnb.nn.LinearabitLt( module.in_features , module.out_features , module.bias is not None , has_fpaa_weights=__lowerCamelCase , threshold=bnb_quantization_config.llm_inta_threshold , ) elif bnb_quantization_config.load_in_abit: lowerCamelCase__ : str =bnb.nn.Linearabit( module.in_features , module.out_features , module.bias is not None , bnb_quantization_config.bnb_abit_compute_dtype , compress_statistics=bnb_quantization_config.bnb_abit_use_double_quant , quant_type=bnb_quantization_config.bnb_abit_quant_type , ) else: raise ValueError('''load_in_8bit and load_in_4bit can\'t be both False''' ) lowerCamelCase__ : Any =module.weight.data if module.bias is not None: lowerCamelCase__ : Any =module.bias.data bnb_module.requires_grad_(__lowerCamelCase ) setattr(__lowerCamelCase , __lowerCamelCase , __lowerCamelCase ) lowerCamelCase__ : str =True if len(list(module.children() ) ) > 0: lowerCamelCase__ , lowerCamelCase__ : Optional[int] =_replace_with_bnb_layers( __lowerCamelCase , __lowerCamelCase , __lowerCamelCase , __lowerCamelCase ) lowerCamelCase__ : Any =has_been_replaced \| _has_been_replaced # Remove the last key for recursion current_key_name.pop(-1 ) return model, has_been_replaced def snake_case__ ( __lowerCamelCase : Union[str, Any] ): """simple docstring""" # Create a copy of the model with init_empty_weights(): lowerCamelCase__ : Optional[Any] =deepcopy(__lowerCamelCase ) # this has 0 cost since it is done inside `init_empty_weights` context manager` lowerCamelCase__ : Union[str, Any] =find_tied_parameters(__lowerCamelCase ) # For compatibility with Accelerate < 0.18 if isinstance(__lowerCamelCase , __lowerCamelCase ): lowerCamelCase__ : List[str] =sum(list(tied_params.values() ) , [] ) + list(tied_params.keys() ) else: lowerCamelCase__ : Any =sum(__lowerCamelCase , [] ) lowerCamelCase__ : Any =len(__lowerCamelCase ) > 0 # Check if it is a base model lowerCamelCase__ : Optional[Any] =False if hasattr(__lowerCamelCase , '''base_model_prefix''' ): lowerCamelCase__ : Dict =not hasattr(__lowerCamelCase , model.base_model_prefix ) # Ignore this for base models (BertModel, GPT2Model, etc.) if (not has_tied_params) and is_base_model: return [] # otherwise they have an attached head lowerCamelCase__ : List[str] =list(model.named_children() ) lowerCamelCase__ : Any =[list_modules[-1][0]] # add last module together with tied weights lowerCamelCase__ : Optional[Any] =set(__lowerCamelCase ) - set(__lowerCamelCase ) lowerCamelCase__ : List[str] =list(set(__lowerCamelCase ) ) + list(__lowerCamelCase ) # remove ".weight" from the keys lowerCamelCase__ : Optional[Any] =['''.weight''', '''.bias'''] lowerCamelCase__ : List[Any] =[] for name in list_untouched: for name_to_remove in names_to_remove: if name_to_remove in name: lowerCamelCase__ : Union[str, Any] =name.replace(__lowerCamelCase , '''''' ) filtered_module_names.append(__lowerCamelCase ) return filtered_module_names def snake_case__ ( __lowerCamelCase : Tuple ): """simple docstring""" for m in model.modules(): if isinstance(__lowerCamelCase , bnb.nn.Linearabit ): return True return False def snake_case__ ( __lowerCamelCase : nn.Module ): """simple docstring""" return next(parameter.parameters() ).device def snake_case__ ( __lowerCamelCase : List[str] , __lowerCamelCase : Tuple , __lowerCamelCase : Any , __lowerCamelCase : Any , __lowerCamelCase : Optional[int] , __lowerCamelCase : int , __lowerCamelCase : Optional[int] ): """simple docstring""" # if it is not quantized, we quantize and offload the quantized weights and the SCB stats if fpaa_statistics is None: set_module_tensor_to_device(__lowerCamelCase , __lowerCamelCase , 0 , dtype=__lowerCamelCase , value=__lowerCamelCase ) lowerCamelCase__ : Union[str, Any] =param_name lowerCamelCase__ : Dict =model if "." in tensor_name: lowerCamelCase__ : Optional[int] =tensor_name.split('''.''' ) for split in splits[:-1]: lowerCamelCase__ : Union[str, Any] =getattr(__lowerCamelCase , __lowerCamelCase ) if new_module is None: raise ValueError(f'''{module} has no attribute {split}.''' ) lowerCamelCase__ : Union[str, Any] =new_module lowerCamelCase__ : List[Any] =splits[-1] # offload weights lowerCamelCase__ : Optional[Any] =False offload_weight(module._parameters[tensor_name] , __lowerCamelCase , __lowerCamelCase , index=__lowerCamelCase ) if hasattr(module._parameters[tensor_name] , '''SCB''' ): offload_weight( module._parameters[tensor_name].SCB , param_name.replace('''weight''' , '''SCB''' ) , __lowerCamelCase , index=__lowerCamelCase , ) else: offload_weight(__lowerCamelCase , __lowerCamelCase , __lowerCamelCase , index=__lowerCamelCase ) offload_weight(__lowerCamelCase , param_name.replace('''weight''' , '''SCB''' ) , __lowerCamelCase , index=__lowerCamelCase ) set_module_tensor_to_device(__lowerCamelCase , __lowerCamelCase , '''meta''' , dtype=__lowerCamelCase , value=torch.empty(*param.size() ) )	272	0
import string def A_ ( A__ ) -> None: for key in range(len(string.ascii_uppercase ) ): a__ : int = '' for symbol in message: if symbol in string.ascii_uppercase: a__ : List[Any] = string.ascii_uppercase.find(A__ ) a__ : str = num - key if num < 0: a__ : int = num + len(string.ascii_uppercase ) a__ : List[str] = translated + string.ascii_uppercase[num] else: a__ : Any = translated + symbol print(F'Decryption using Key #{key}: {translated}' ) def A_ ( ) -> None: a__ : str = input('Encrypted message: ' ) a__ : str = message.upper() decrypt(A__ ) if __name__ == "__main__": import doctest doctest.testmod() main()	99	import argparse from pathlib import Path import torch from transformers import OPTConfig, OPTModel from transformers.utils import logging logging.set_verbosity_info() lowercase : Any = logging.get_logger(__name__) def A_ ( A__ ) -> List[str]: a__ : Union[str, Any] = torch.load(A__ , map_location='cpu' ) if "model" in sd.keys(): a__ : Tuple = torch.load(A__ , map_location='cpu' )['model'] # pop unnecessary weights a__ : Optional[Any] = [ 'decoder.version', 'decoder.output_projection.weight', ] for key in keys_to_delete: if key in sd: sd.pop(A__ ) a__ : Union[str, Any] = { 'decoder.project_in_dim.weight': 'decoder.project_in.weight', 'decoder.project_out_dim.weight': 'decoder.project_out.weight', 'decoder.layer_norm.weight': 'decoder.final_layer_norm.weight', 'decoder.layer_norm.bias': 'decoder.final_layer_norm.bias', } for old_key, new_key in keys_to_rename.items(): if old_key in sd: a__ : Any = sd.pop(A__ ) a__ : Optional[int] = list(sd.keys() ) for key in keys: if ".qkv_proj." in key: a__ : str = sd[key] # We split QKV in separate Q,K,V a__ : Union[str, Any] = key.replace('.qkv_proj.' , '.q_proj.' ) a__ : int = key.replace('.qkv_proj.' , '.k_proj.' ) a__ : Optional[int] = key.replace('.qkv_proj.' , '.v_proj.' ) a__ : List[Any] = value.shape[0] assert depth % 3 == 0 # `SequeuceParallelTransformerBlock` has QKV weight is separated in K,V,Q despite the naming: # https://cs.github.com/facebookresearch/metaseq/blob/51871bd73cd04c038f239ea2a26db1d7f6b37927/metaseq/modules/sequence_parallel_transformer_layer.py#L97 a__ , a__ , a__ : Any = torch.split(A__ , depth // 3 , dim=0 ) a__ : int = q a__ : List[Any] = k a__ : int = v del sd[key] return sd @torch.no_grad() def A_ ( A__ , A__ , A__=None ) -> Union[str, Any]: a__ : Union[str, Any] = load_checkpoint(A__ ) if config is not None: a__ : List[Any] = OPTConfig.from_pretrained(A__ ) else: a__ : int = OPTConfig() a__ : Optional[int] = OPTModel(A__ ).half().eval() model.load_state_dict(A__ ) # Check results Path(A__ ).mkdir(exist_ok=A__ ) model.save_pretrained(A__ ) if __name__ == "__main__": lowercase : str = argparse.ArgumentParser() # Required parameters parser.add_argument( """--fairseq_path""", type=str, help=( """path to fairseq checkpoint in correct format. You can find all checkpoints in the correct format here:""" """ https://huggingface.co/models?other=opt_metasq""" ), ) parser.add_argument("""--pytorch_dump_folder_path""", default=None, type=str, help="""Path to the output PyTorch model.""") parser.add_argument("""--hf_config""", default=None, type=str, help="""Define HF config.""") lowercase : Any = parser.parse_args() convert_opt_checkpoint(args.fairseq_path, args.pytorch_dump_folder_path, config=args.hf_config)	99	1
"""simple docstring""" def a__ ( snake_case__ , snake_case__ , snake_case__ ) -> List[str]: if n == 0: return 1 elif n % 2 == 1: return (binary_exponentiation(snake_case__ , n - 1 , snake_case__ ) * a) % mod else: lowerCamelCase = binary_exponentiation(snake_case__ , n / 2 , snake_case__ ) return (b * b) % mod # a prime number lowerCAmelCase : Optional[int] = 701 lowerCAmelCase : Any = 10_0000_0000 lowerCAmelCase : Tuple = 10 # using binary exponentiation function, O(log(p)): print((a / b) % p == (a * binary_exponentiation(b, p - 2, p)) % p) print((a / b) % p == (a * b ** (p - 2)) % p)	351	"""simple docstring""" import logging import os from dataclasses import dataclass from typing import List, Optional, Union import tqdm from filelock import FileLock from transformers import ( BartTokenizer, BartTokenizerFast, DataProcessor, PreTrainedTokenizer, RobertaTokenizer, RobertaTokenizerFast, XLMRobertaTokenizer, is_tf_available, is_torch_available, ) lowerCAmelCase : List[str] = logging.getLogger(__name__) @dataclass(frozen=UpperCAmelCase__ ) class __magic_name__ : '''simple docstring''' __UpperCamelCase = 42 __UpperCamelCase = 42 __UpperCamelCase = None __UpperCamelCase = None __UpperCamelCase = None @dataclass(frozen=UpperCAmelCase__ ) class __magic_name__ : '''simple docstring''' __UpperCamelCase = 42 __UpperCamelCase = None __UpperCamelCase = None __UpperCamelCase = None __UpperCamelCase = None if is_torch_available(): import torch from torch.utils.data import Dataset class __magic_name__ ( UpperCAmelCase__ ): '''simple docstring''' __UpperCamelCase = 42 def __init__( self , _a , _a , _a , _a = None , _a=False , _a = False , ): """simple docstring""" lowerCamelCase = hans_processors[task]() lowerCamelCase = os.path.join( _a , """cached_{}_{}_{}_{}""".format( """dev""" if evaluate else """train""" , tokenizer.__class__.__name__ , str(_a ) , _a , ) , ) lowerCamelCase = processor.get_labels() if tokenizer.__class__ in ( RobertaTokenizer, RobertaTokenizerFast, XLMRobertaTokenizer, BartTokenizer, BartTokenizerFast, ): # HACK(label indices are swapped in RoBERTa pretrained model) lowerCamelCase , lowerCamelCase = label_list[2], label_list[1] lowerCamelCase = label_list # Make sure only the first process in distributed training processes the dataset, # and the others will use the cache. lowerCamelCase = cached_features_file + """.lock""" with FileLock(_a ): if os.path.exists(_a ) and not overwrite_cache: logger.info(f'Loading features from cached file {cached_features_file}' ) lowerCamelCase = torch.load(_a ) else: logger.info(f'Creating features from dataset file at {data_dir}' ) lowerCamelCase = ( processor.get_dev_examples(_a ) if evaluate else processor.get_train_examples(_a ) ) logger.info("""Training examples: %s""" , len(_a ) ) lowerCamelCase = hans_convert_examples_to_features(_a , _a , _a , _a ) logger.info("""Saving features into cached file %s""" , _a ) torch.save(self.features , _a ) def __len__( self ): """simple docstring""" return len(self.features ) def __getitem__( self , _a ): """simple docstring""" return self.features[i] def _lowerCAmelCase ( self ): """simple docstring""" return self.label_list if is_tf_available(): import tensorflow as tf class __magic_name__ : '''simple docstring''' __UpperCamelCase = 42 def __init__( self , _a , _a , _a , _a = 128 , _a=False , _a = False , ): """simple docstring""" lowerCamelCase = hans_processors[task]() lowerCamelCase = processor.get_labels() if tokenizer.__class__ in ( RobertaTokenizer, RobertaTokenizerFast, XLMRobertaTokenizer, BartTokenizer, BartTokenizerFast, ): # HACK(label indices are swapped in RoBERTa pretrained model) lowerCamelCase , lowerCamelCase = label_list[2], label_list[1] lowerCamelCase = label_list lowerCamelCase = processor.get_dev_examples(_a ) if evaluate else processor.get_train_examples(_a ) lowerCamelCase = hans_convert_examples_to_features(_a , _a , _a , _a ) def gen(): for ex_index, ex in tqdm.tqdm(enumerate(self.features ) , desc="""convert examples to features""" ): if ex_index % 10_000 == 0: logger.info("""Writing example %d of %d""" % (ex_index, len(_a )) ) yield ( { "example_id": 0, "input_ids": ex.input_ids, "attention_mask": ex.attention_mask, "token_type_ids": ex.token_type_ids, }, ex.label, ) lowerCamelCase = tf.data.Dataset.from_generator( _a , ( { """example_id""": tf.intaa, """input_ids""": tf.intaa, """attention_mask""": tf.intaa, """token_type_ids""": tf.intaa, }, tf.intaa, ) , ( { """example_id""": tf.TensorShape([] ), """input_ids""": tf.TensorShape([None, None] ), """attention_mask""": tf.TensorShape([None, None] ), """token_type_ids""": tf.TensorShape([None, None] ), }, tf.TensorShape([] ), ) , ) def _lowerCAmelCase ( self ): """simple docstring""" return self.dataset def __len__( self ): """simple docstring""" return len(self.features ) def __getitem__( self , _a ): """simple docstring""" return self.features[i] def _lowerCAmelCase ( self ): """simple docstring""" return self.label_list class __magic_name__ ( UpperCAmelCase__ ): '''simple docstring''' def _lowerCAmelCase ( self , _a ): """simple docstring""" return self._create_examples(self._read_tsv(os.path.join(_a , """heuristics_train_set.txt""" ) ) , """train""" ) def _lowerCAmelCase ( self , _a ): """simple docstring""" return self._create_examples(self._read_tsv(os.path.join(_a , """heuristics_evaluation_set.txt""" ) ) , """dev""" ) def _lowerCAmelCase ( self ): """simple docstring""" return ["contradiction", "entailment", "neutral"] def _lowerCAmelCase ( self , _a , _a ): """simple docstring""" lowerCamelCase = [] for i, line in enumerate(_a ): if i == 0: continue lowerCamelCase = """%s-%s""" % (set_type, line[0]) lowerCamelCase = line[5] lowerCamelCase = line[6] lowerCamelCase = line[7][2:] if line[7].startswith("""ex""" ) else line[7] lowerCamelCase = line[0] examples.append(InputExample(guid=_a , text_a=_a , text_b=_a , label=_a , pairID=_a ) ) return examples def a__ ( snake_case__ , snake_case__ , snake_case__ , snake_case__ , ) -> Tuple: lowerCamelCase = {label: i for i, label in enumerate(snake_case__ )} lowerCamelCase = [] for ex_index, example in tqdm.tqdm(enumerate(snake_case__ ) , desc="""convert examples to features""" ): if ex_index % 1_00_00 == 0: logger.info("""Writing example %d""" % (ex_index) ) lowerCamelCase = tokenizer( example.text_a , example.text_b , add_special_tokens=snake_case__ , max_length=snake_case__ , padding="""max_length""" , truncation=snake_case__ , return_overflowing_tokens=snake_case__ , ) lowerCamelCase = label_map[example.label] if example.label in label_map else 0 lowerCamelCase = int(example.pairID ) features.append(InputFeatures(snake_case__ , label=snake_case__ , pairID=snake_case__ ) ) for i, example in enumerate(examples[:5] ): logger.info("""* Example ***""" ) logger.info(F'guid: {example}' ) logger.info(F'features: {features[i]}' ) return features lowerCAmelCase : List[str] = { """hans""": 3, } lowerCAmelCase : str = { """hans""": HansProcessor, }	168	0
import shutil import tempfile import unittest import numpy as np import pytest from transformers.testing_utils import require_vision from transformers.utils import is_vision_available if is_vision_available(): from PIL import Image from transformers import AutoProcessor, BlipaProcessor, BlipImageProcessor, GPTaTokenizer, PreTrainedTokenizerFast @require_vision class _SCREAMING_SNAKE_CASE ( unittest.TestCase ): def SCREAMING_SNAKE_CASE_( self ) -> int: lowerCamelCase_ = tempfile.mkdtemp() lowerCamelCase_ = BlipImageProcessor() lowerCamelCase_ = GPTaTokenizer.from_pretrained("hf-internal-testing/tiny-random-GPT2Model" ) lowerCamelCase_ = BlipaProcessor(lowercase , lowercase ) processor.save_pretrained(self.tmpdirname ) def SCREAMING_SNAKE_CASE_( self , lowercase ) -> Union[str, Any]: return AutoProcessor.from_pretrained(self.tmpdirname , lowercase ).tokenizer def SCREAMING_SNAKE_CASE_( self , lowercase ) -> str: return AutoProcessor.from_pretrained(self.tmpdirname , lowercase ).image_processor def SCREAMING_SNAKE_CASE_( self ) -> Optional[int]: shutil.rmtree(self.tmpdirname ) def SCREAMING_SNAKE_CASE_( self ) -> List[Any]: lowerCamelCase_ = [np.random.randint(255 , size=(3, 30, 400) , dtype=np.uinta )] lowerCamelCase_ = [Image.fromarray(np.moveaxis(lowercase , 0 , -1 ) ) for x in image_inputs] return image_inputs def SCREAMING_SNAKE_CASE_( self ) -> Optional[Any]: lowerCamelCase_ = BlipaProcessor(tokenizer=self.get_tokenizer() , image_processor=self.get_image_processor() ) processor.save_pretrained(self.tmpdirname ) lowerCamelCase_ = self.get_tokenizer(bos_token="(BOS)" , eos_token="(EOS)" ) lowerCamelCase_ = self.get_image_processor(do_normalize=lowercase , padding_value=1.0 ) lowerCamelCase_ = BlipaProcessor.from_pretrained( self.tmpdirname , bos_token="(BOS)" , eos_token="(EOS)" , do_normalize=lowercase , padding_value=1.0 ) self.assertEqual(processor.tokenizer.get_vocab() , tokenizer_add_kwargs.get_vocab() ) self.assertIsInstance(processor.tokenizer , lowercase ) self.assertEqual(processor.image_processor.to_json_string() , image_processor_add_kwargs.to_json_string() ) self.assertIsInstance(processor.image_processor , lowercase ) def SCREAMING_SNAKE_CASE_( self ) -> str: lowerCamelCase_ = self.get_image_processor() lowerCamelCase_ = self.get_tokenizer() lowerCamelCase_ = BlipaProcessor(tokenizer=lowercase , image_processor=lowercase ) lowerCamelCase_ = self.prepare_image_inputs() lowerCamelCase_ = image_processor(lowercase , return_tensors="np" ) lowerCamelCase_ = processor(images=lowercase , return_tensors="np" ) for key in input_feat_extract.keys(): self.assertAlmostEqual(input_feat_extract[key].sum() , input_processor[key].sum() , delta=1e-2 ) def SCREAMING_SNAKE_CASE_( self ) -> Optional[int]: lowerCamelCase_ = self.get_image_processor() lowerCamelCase_ = self.get_tokenizer() lowerCamelCase_ = BlipaProcessor(tokenizer=lowercase , image_processor=lowercase ) lowerCamelCase_ = "lower newer" lowerCamelCase_ = processor(text=lowercase ) lowerCamelCase_ = tokenizer(lowercase , return_token_type_ids=lowercase ) for key in encoded_tok.keys(): self.assertListEqual(encoded_tok[key] , encoded_processor[key] ) def SCREAMING_SNAKE_CASE_( self ) -> Optional[Any]: lowerCamelCase_ = self.get_image_processor() lowerCamelCase_ = self.get_tokenizer() lowerCamelCase_ = BlipaProcessor(tokenizer=lowercase , image_processor=lowercase ) lowerCamelCase_ = "lower newer" lowerCamelCase_ = self.prepare_image_inputs() lowerCamelCase_ = processor(text=lowercase , images=lowercase ) self.assertListEqual(list(inputs.keys() ) , ["pixel_values", "input_ids", "attention_mask"] ) # test if it raises when no input is passed with pytest.raises(lowercase ): processor() def SCREAMING_SNAKE_CASE_( self ) -> Tuple: lowerCamelCase_ = self.get_image_processor() lowerCamelCase_ = self.get_tokenizer() lowerCamelCase_ = BlipaProcessor(tokenizer=lowercase , image_processor=lowercase ) lowerCamelCase_ = [[1, 4, 5, 8, 1, 0, 8], [3, 4, 3, 1, 1, 8, 9]] lowerCamelCase_ = processor.batch_decode(lowercase ) lowerCamelCase_ = tokenizer.batch_decode(lowercase ) self.assertListEqual(lowercase , lowercase ) def SCREAMING_SNAKE_CASE_( self ) -> Optional[int]: lowerCamelCase_ = self.get_image_processor() lowerCamelCase_ = self.get_tokenizer() lowerCamelCase_ = BlipaProcessor(tokenizer=lowercase , image_processor=lowercase ) lowerCamelCase_ = "lower newer" lowerCamelCase_ = self.prepare_image_inputs() lowerCamelCase_ = processor(text=lowercase , images=lowercase ) # For now the processor supports only ['pixel_values', 'input_ids', 'attention_mask'] self.assertListEqual(list(inputs.keys() ) , ["pixel_values", "input_ids", "attention_mask"] )	19	def lowerCAmelCase__(__snake_case ,__snake_case ) -> float: '''simple docstring''' if mass < 0: raise ValueError('''The mass of a body cannot be negative''' ) return 0.5 * mass * abs(__snake_case ) * abs(__snake_case ) if __name__ == "__main__": import doctest doctest.testmod(verbose=True)	209	0
import json import os import shutil import tempfile import unittest import numpy as np import pytest from transformers import CLIPTokenizer, CLIPTokenizerFast from transformers.models.clip.tokenization_clip import VOCAB_FILES_NAMES from transformers.testing_utils import require_vision from transformers.utils import IMAGE_PROCESSOR_NAME, is_vision_available if is_vision_available(): from PIL import Image from transformers import CLIPImageProcessor, CLIPProcessor @require_vision class lowerCAmelCase_ ( unittest.TestCase ): '''simple docstring''' def UpperCamelCase__ ( self ): snake_case_ = tempfile.mkdtemp() # fmt: off snake_case_ = ['''l''', '''o''', '''w''', '''e''', '''r''', '''s''', '''t''', '''i''', '''d''', '''n''', '''lo''', '''l</w>''', '''w</w>''', '''r</w>''', '''t</w>''', '''low</w>''', '''er</w>''', '''lowest</w>''', '''newer</w>''', '''wider''', '''<unk>''', '''<\|startoftext\|>''', '''<\|endoftext\|>'''] # fmt: on snake_case_ = dict(zip(_UpperCAmelCase , range(len(_UpperCAmelCase ) ) ) ) snake_case_ = ['''#version: 0.2''', '''l o''', '''lo w</w>''', '''e r</w>''', ''''''] snake_case_ = {'''unk_token''': '''<unk>'''} snake_case_ = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['''vocab_file'''] ) snake_case_ = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['''merges_file'''] ) with open(self.vocab_file , '''w''' , encoding='''utf-8''' ) as fp: fp.write(json.dumps(_UpperCAmelCase ) + '''\n''' ) with open(self.merges_file , '''w''' , encoding='''utf-8''' ) as fp: fp.write('''\n'''.join(_UpperCAmelCase ) ) snake_case_ = { '''do_resize''': True, '''size''': 20, '''do_center_crop''': True, '''crop_size''': 18, '''do_normalize''': True, '''image_mean''': [0.48_145_466, 0.4_578_275, 0.40_821_073], '''image_std''': [0.26_862_954, 0.26_130_258, 0.27_577_711], } snake_case_ = os.path.join(self.tmpdirname , _UpperCAmelCase ) with open(self.image_processor_file , '''w''' , encoding='''utf-8''' ) as fp: json.dump(_UpperCAmelCase , _UpperCAmelCase ) def UpperCamelCase__ ( self , _UpperCAmelCase ): return CLIPTokenizer.from_pretrained(self.tmpdirname , _UpperCAmelCase ) def UpperCamelCase__ ( self , _UpperCAmelCase ): return CLIPTokenizerFast.from_pretrained(self.tmpdirname , _UpperCAmelCase ) def UpperCamelCase__ ( self , _UpperCAmelCase ): return CLIPImageProcessor.from_pretrained(self.tmpdirname , _UpperCAmelCase ) def UpperCamelCase__ ( self ): shutil.rmtree(self.tmpdirname ) def UpperCamelCase__ ( self ): snake_case_ = [np.random.randint(2_55 , size=(3, 30, 4_00) , dtype=np.uinta )] snake_case_ = [Image.fromarray(np.moveaxis(_UpperCAmelCase , 0 , -1 ) ) for x in image_inputs] return image_inputs def UpperCamelCase__ ( self ): snake_case_ = self.get_tokenizer() snake_case_ = self.get_rust_tokenizer() snake_case_ = self.get_image_processor() snake_case_ = CLIPProcessor(tokenizer=_UpperCAmelCase , image_processor=_UpperCAmelCase ) processor_slow.save_pretrained(self.tmpdirname ) snake_case_ = CLIPProcessor.from_pretrained(self.tmpdirname , use_fast=_UpperCAmelCase ) snake_case_ = CLIPProcessor(tokenizer=_UpperCAmelCase , image_processor=_UpperCAmelCase ) processor_fast.save_pretrained(self.tmpdirname ) snake_case_ = CLIPProcessor.from_pretrained(self.tmpdirname ) self.assertEqual(processor_slow.tokenizer.get_vocab() , tokenizer_slow.get_vocab() ) self.assertEqual(processor_fast.tokenizer.get_vocab() , tokenizer_fast.get_vocab() ) self.assertEqual(tokenizer_slow.get_vocab() , tokenizer_fast.get_vocab() ) self.assertIsInstance(processor_slow.tokenizer , _UpperCAmelCase ) self.assertIsInstance(processor_fast.tokenizer , _UpperCAmelCase ) self.assertEqual(processor_slow.image_processor.to_json_string() , image_processor.to_json_string() ) self.assertEqual(processor_fast.image_processor.to_json_string() , image_processor.to_json_string() ) self.assertIsInstance(processor_slow.image_processor , _UpperCAmelCase ) self.assertIsInstance(processor_fast.image_processor , _UpperCAmelCase ) def UpperCamelCase__ ( self ): snake_case_ = CLIPProcessor(tokenizer=self.get_tokenizer() , image_processor=self.get_image_processor() ) processor.save_pretrained(self.tmpdirname ) snake_case_ = self.get_tokenizer(bos_token='''(BOS)''' , eos_token='''(EOS)''' ) snake_case_ = self.get_image_processor(do_normalize=_UpperCAmelCase , padding_value=1.0 ) snake_case_ = CLIPProcessor.from_pretrained( self.tmpdirname , bos_token='''(BOS)''' , eos_token='''(EOS)''' , do_normalize=_UpperCAmelCase , padding_value=1.0 ) self.assertEqual(processor.tokenizer.get_vocab() , tokenizer_add_kwargs.get_vocab() ) self.assertIsInstance(processor.tokenizer , _UpperCAmelCase ) self.assertEqual(processor.image_processor.to_json_string() , image_processor_add_kwargs.to_json_string() ) self.assertIsInstance(processor.image_processor , _UpperCAmelCase ) def UpperCamelCase__ ( self ): snake_case_ = self.get_image_processor() snake_case_ = self.get_tokenizer() snake_case_ = CLIPProcessor(tokenizer=_UpperCAmelCase , image_processor=_UpperCAmelCase ) snake_case_ = self.prepare_image_inputs() snake_case_ = image_processor(_UpperCAmelCase , return_tensors='''np''' ) snake_case_ = processor(images=_UpperCAmelCase , return_tensors='''np''' ) for key in input_image_proc.keys(): self.assertAlmostEqual(input_image_proc[key].sum() , input_processor[key].sum() , delta=1E-2 ) def UpperCamelCase__ ( self ): snake_case_ = self.get_image_processor() snake_case_ = self.get_tokenizer() snake_case_ = CLIPProcessor(tokenizer=_UpperCAmelCase , image_processor=_UpperCAmelCase ) snake_case_ = '''lower newer''' snake_case_ = processor(text=_UpperCAmelCase ) snake_case_ = tokenizer(_UpperCAmelCase ) for key in encoded_tok.keys(): self.assertListEqual(encoded_tok[key] , encoded_processor[key] ) def UpperCamelCase__ ( self ): snake_case_ = self.get_image_processor() snake_case_ = self.get_tokenizer() snake_case_ = CLIPProcessor(tokenizer=_UpperCAmelCase , image_processor=_UpperCAmelCase ) snake_case_ = '''lower newer''' snake_case_ = self.prepare_image_inputs() snake_case_ = processor(text=_UpperCAmelCase , images=_UpperCAmelCase ) self.assertListEqual(list(inputs.keys() ) , ['''input_ids''', '''attention_mask''', '''pixel_values'''] ) # test if it raises when no input is passed with pytest.raises(_UpperCAmelCase ): processor() def UpperCamelCase__ ( self ): snake_case_ = self.get_image_processor() snake_case_ = self.get_tokenizer() snake_case_ = CLIPProcessor(tokenizer=_UpperCAmelCase , image_processor=_UpperCAmelCase ) snake_case_ = [[1, 4, 5, 8, 1, 0, 8], [3, 4, 3, 1, 1, 8, 9]] snake_case_ = processor.batch_decode(_UpperCAmelCase ) snake_case_ = tokenizer.batch_decode(_UpperCAmelCase ) self.assertListEqual(_UpperCAmelCase , _UpperCAmelCase ) def UpperCamelCase__ ( self ): snake_case_ = self.get_image_processor() snake_case_ = self.get_tokenizer() snake_case_ = CLIPProcessor(tokenizer=_UpperCAmelCase , image_processor=_UpperCAmelCase ) snake_case_ = '''lower newer''' snake_case_ = self.prepare_image_inputs() snake_case_ = processor(text=_UpperCAmelCase , images=_UpperCAmelCase ) self.assertListEqual(list(inputs.keys() ) , processor.model_input_names )	267	import unittest from transformers import PegasusTokenizer, PegasusTokenizerFast from transformers.testing_utils import get_tests_dir, require_sentencepiece, require_tokenizers, require_torch, slow from transformers.utils import cached_property from ...test_tokenization_common import TokenizerTesterMixin UpperCAmelCase = get_tests_dir("""fixtures/test_sentencepiece_no_bos.model""") @require_sentencepiece @require_tokenizers class lowerCAmelCase_ ( lowerCamelCase__ , unittest.TestCase ): '''simple docstring''' __snake_case = PegasusTokenizer __snake_case = PegasusTokenizerFast __snake_case = True __snake_case = True def UpperCamelCase__ ( self ): super().setUp() # We have a SentencePiece fixture for testing snake_case_ = PegasusTokenizer(_UpperCAmelCase ) tokenizer.save_pretrained(self.tmpdirname ) @cached_property def UpperCamelCase__ ( self ): return PegasusTokenizer.from_pretrained('''google/pegasus-large''' ) def UpperCamelCase__ ( self , _UpperCAmelCase ): return PegasusTokenizer.from_pretrained(self.tmpdirname , _UpperCAmelCase ) def UpperCamelCase__ ( self , _UpperCAmelCase ): return ("This is a test", "This is a test") def UpperCamelCase__ ( self ): snake_case_ = '''</s>''' snake_case_ = 1 self.assertEqual(self.get_tokenizer()._convert_token_to_id(_UpperCAmelCase ) , _UpperCAmelCase ) self.assertEqual(self.get_tokenizer()._convert_id_to_token(_UpperCAmelCase ) , _UpperCAmelCase ) def UpperCamelCase__ ( self ): snake_case_ = list(self.get_tokenizer().get_vocab().keys() ) self.assertEqual(vocab_keys[0] , '''<pad>''' ) self.assertEqual(vocab_keys[1] , '''</s>''' ) self.assertEqual(vocab_keys[-1] , '''v''' ) self.assertEqual(len(_UpperCAmelCase ) , 11_03 ) def UpperCamelCase__ ( self ): self.assertEqual(self.get_tokenizer().vocab_size , 11_03 ) def UpperCamelCase__ ( self ): snake_case_ = self.rust_tokenizer_class.from_pretrained(self.tmpdirname ) snake_case_ = self.tokenizer_class.from_pretrained(self.tmpdirname ) snake_case_ = ( '''Let\'s see which <unk> is the better <unk_token_11> one <mask_1> It seems like this <mask_2> was important''' ''' </s> <pad> <pad> <pad>''' ) snake_case_ = rust_tokenizer([raw_input_str] , return_tensors=_UpperCAmelCase , add_special_tokens=_UpperCAmelCase ).input_ids[0] snake_case_ = py_tokenizer([raw_input_str] , return_tensors=_UpperCAmelCase , add_special_tokens=_UpperCAmelCase ).input_ids[0] self.assertListEqual(_UpperCAmelCase , _UpperCAmelCase ) def UpperCamelCase__ ( self ): snake_case_ = self._large_tokenizer # <mask_1> masks whole sentence while <mask_2> masks single word snake_case_ = '''<mask_1> To ensure a <mask_2> flow of bank resolutions.''' snake_case_ = [2, 4_13, 6_15, 1_14, 3, 19_71, 1_13, 16_79, 1_07_10, 1_07, 1] snake_case_ = tokenizer([raw_input_str] , return_tensors=_UpperCAmelCase ).input_ids[0] self.assertListEqual(_UpperCAmelCase , _UpperCAmelCase ) def UpperCamelCase__ ( self ): snake_case_ = self._large_tokenizer # The tracebacks for the following asserts are better without messages or self.assertEqual assert tokenizer.vocab_size == 9_61_03 assert tokenizer.pad_token_id == 0 assert tokenizer.eos_token_id == 1 assert tokenizer.offset == 1_03 assert tokenizer.unk_token_id == tokenizer.offset + 2 == 1_05 assert tokenizer.unk_token == "<unk>" assert tokenizer.model_max_length == 10_24 snake_case_ = '''To ensure a smooth flow of bank resolutions.''' snake_case_ = [4_13, 6_15, 1_14, 22_91, 19_71, 1_13, 16_79, 1_07_10, 1_07, 1] snake_case_ = tokenizer([raw_input_str] , return_tensors=_UpperCAmelCase ).input_ids[0] self.assertListEqual(_UpperCAmelCase , _UpperCAmelCase ) assert tokenizer.convert_ids_to_tokens([0, 1, 2, 3] ) == ["<pad>", "</s>", "<mask_1>", "<mask_2>"] @require_torch def UpperCamelCase__ ( self ): snake_case_ = ['''This is going to be way too long.''' * 1_50, '''short example'''] snake_case_ = ['''not super long but more than 5 tokens''', '''tiny'''] snake_case_ = self._large_tokenizer(_UpperCAmelCase , padding=_UpperCAmelCase , truncation=_UpperCAmelCase , return_tensors='''pt''' ) snake_case_ = self._large_tokenizer( text_target=_UpperCAmelCase , max_length=5 , padding=_UpperCAmelCase , truncation=_UpperCAmelCase , return_tensors='''pt''' ) assert batch.input_ids.shape == (2, 10_24) assert batch.attention_mask.shape == (2, 10_24) assert targets["input_ids"].shape == (2, 5) assert len(_UpperCAmelCase ) == 2 # input_ids, attention_mask. @slow def UpperCamelCase__ ( self ): # fmt: off snake_case_ = {'''input_ids''': [[3_89_79, 1_43, 1_84_85, 6_06, 1_30, 2_66_69, 8_76_86, 1_21, 5_41_89, 11_29, 1_11, 2_66_69, 8_76_86, 1_21, 91_14, 1_47_87, 1_21, 1_32_49, 1_58, 5_92, 9_56, 1_21, 1_46_21, 3_15_76, 1_43, 6_26_13, 1_08, 96_88, 9_30, 4_34_30, 1_15_62, 6_26_13, 3_04, 1_08, 1_14_43, 8_97, 1_08, 93_14, 1_74_15, 6_33_99, 1_08, 1_14_43, 76_14, 1_83_16, 1_18, 42_84, 71_48, 1_24_30, 1_43, 14_00, 2_57_03, 1_58, 1_11, 42_84, 71_48, 1_17_72, 1_43, 2_12_97, 10_64, 1_58, 1_22, 2_04, 35_06, 17_54, 11_33, 1_47_87, 15_81, 1_15, 3_32_24, 44_82, 1_11, 13_55, 1_10, 2_91_73, 3_17, 5_08_33, 1_08, 2_01_47, 9_46_65, 1_11, 7_71_98, 1_07, 1], [1_10, 6_26_13, 1_17, 6_38, 1_12, 11_33, 1_21, 2_00_98, 13_55, 7_90_50, 1_38_72, 1_35, 15_96, 5_35_41, 13_52, 1_41, 1_30_39, 55_42, 1_24, 3_02, 5_18, 1_11, 2_68, 29_56, 1_15, 1_49, 44_27, 1_07, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [1_39, 12_35, 27_99, 1_82_89, 1_77_80, 2_04, 1_09, 94_74, 12_96, 1_07, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]], '''attention_mask''': [[1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]]} # noqa: E501 # fmt: on self.tokenizer_integration_test_util( expected_encoding=_UpperCAmelCase , model_name='''google/bigbird-pegasus-large-arxiv''' , revision='''ba85d0851d708441f91440d509690f1ab6353415''' , ) @require_sentencepiece @require_tokenizers class lowerCAmelCase_ ( lowerCamelCase__ , unittest.TestCase ): '''simple docstring''' __snake_case = PegasusTokenizer __snake_case = PegasusTokenizerFast __snake_case = True __snake_case = True def UpperCamelCase__ ( self ): super().setUp() # We have a SentencePiece fixture for testing snake_case_ = PegasusTokenizer(_UpperCAmelCase , offset=0 , mask_token_sent=_UpperCAmelCase , mask_token='''[MASK]''' ) tokenizer.save_pretrained(self.tmpdirname ) @cached_property def UpperCamelCase__ ( self ): return PegasusTokenizer.from_pretrained('''google/bigbird-pegasus-large-arxiv''' ) def UpperCamelCase__ ( self , _UpperCAmelCase ): return PegasusTokenizer.from_pretrained(self.tmpdirname , _UpperCAmelCase ) def UpperCamelCase__ ( self , _UpperCAmelCase ): return ("This is a test", "This is a test") def UpperCamelCase__ ( self ): snake_case_ = self.rust_tokenizer_class.from_pretrained(self.tmpdirname ) snake_case_ = self.tokenizer_class.from_pretrained(self.tmpdirname ) snake_case_ = ( '''Let\'s see which <unk> is the better <unk_token> one [MASK] It seems like this [MASK] was important </s>''' ''' <pad> <pad> <pad>''' ) snake_case_ = rust_tokenizer([raw_input_str] , return_tensors=_UpperCAmelCase , add_special_tokens=_UpperCAmelCase ).input_ids[0] snake_case_ = py_tokenizer([raw_input_str] , return_tensors=_UpperCAmelCase , add_special_tokens=_UpperCAmelCase ).input_ids[0] self.assertListEqual(_UpperCAmelCase , _UpperCAmelCase ) @require_torch def UpperCamelCase__ ( self ): snake_case_ = ['''This is going to be way too long.''' * 10_00, '''short example'''] snake_case_ = ['''not super long but more than 5 tokens''', '''tiny'''] snake_case_ = self._large_tokenizer(_UpperCAmelCase , padding=_UpperCAmelCase , truncation=_UpperCAmelCase , return_tensors='''pt''' ) snake_case_ = self._large_tokenizer( text_target=_UpperCAmelCase , max_length=5 , padding=_UpperCAmelCase , truncation=_UpperCAmelCase , return_tensors='''pt''' ) assert batch.input_ids.shape == (2, 40_96) assert batch.attention_mask.shape == (2, 40_96) assert targets["input_ids"].shape == (2, 5) assert len(_UpperCAmelCase ) == 2 # input_ids, attention_mask. def UpperCamelCase__ ( self ): snake_case_ = ( '''This is an example string that is used to test the original TF implementation against the HF''' ''' implementation''' ) snake_case_ = self._large_tokenizer(_UpperCAmelCase ).input_ids self.assertListEqual( _UpperCAmelCase , [1_82, 1_17, 1_42, 5_87, 42_11, 1_20, 1_17, 2_63, 1_12, 8_04, 1_09, 8_56, 2_50_16, 31_37, 4_64, 1_09, 2_69_55, 31_37, 1] , )	267	1
from torch import nn class a__ ( nn.Module ): """simple docstring""" def __init__( self : List[str] , UpperCAmelCase__ : Any , UpperCAmelCase__ : Union[str, Any] ) ->Optional[Any]: """simple docstring""" super().__init__() SCREAMING_SNAKE_CASE : List[Any] = class_size SCREAMING_SNAKE_CASE : Optional[int] = embed_size # self.mlp1 = nn.Linear(embed_size, embed_size) # self.mlp2 = (nn.Linear(embed_size, class_size)) SCREAMING_SNAKE_CASE : Dict = nn.Linear(UpperCAmelCase__ , UpperCAmelCase__ ) def _lowercase ( self : Dict , UpperCAmelCase__ : Dict ) ->Any: """simple docstring""" SCREAMING_SNAKE_CASE : Union[str, Any] = self.mlp(UpperCAmelCase__ ) return logits	245	from collections import OrderedDict from typing import Any, List, Mapping, Optional from ... import PreTrainedTokenizer, TensorType, is_torch_available from ...configuration_utils import PretrainedConfig from ...onnx import OnnxConfigWithPast, PatchingSpec from ...utils import logging UpperCAmelCase__ : Optional[int] = logging.get_logger(__name__) UpperCAmelCase__ : int = { """EleutherAI/gpt-j-6B""": """https://huggingface.co/EleutherAI/gpt-j-6B/resolve/main/config.json""", # See all GPT-J models at https://huggingface.co/models?filter=gpt_j } class a__ ( UpperCAmelCase ): """simple docstring""" UpperCAmelCase__ : List[str] ="""gptj""" UpperCAmelCase__ : Any ={ """max_position_embeddings""": """n_positions""", """hidden_size""": """n_embd""", """num_attention_heads""": """n_head""", """num_hidden_layers""": """n_layer""", } def __init__( self : List[str] , UpperCAmelCase__ : int=5_0_4_0_0 , UpperCAmelCase__ : str=2_0_4_8 , UpperCAmelCase__ : str=4_0_9_6 , UpperCAmelCase__ : List[Any]=2_8 , UpperCAmelCase__ : Union[str, Any]=1_6 , UpperCAmelCase__ : str=6_4 , UpperCAmelCase__ : Union[str, Any]=None , UpperCAmelCase__ : List[Any]="gelu_new" , UpperCAmelCase__ : Union[str, Any]=0.0 , UpperCAmelCase__ : List[Any]=0.0 , UpperCAmelCase__ : int=0.0 , UpperCAmelCase__ : Optional[int]=1e-5 , UpperCAmelCase__ : Optional[Any]=0.02 , UpperCAmelCase__ : Tuple=True , UpperCAmelCase__ : str=5_0_2_5_6 , UpperCAmelCase__ : Dict=5_0_2_5_6 , UpperCAmelCase__ : int=False , UpperCAmelCase__ : Dict , ) ->Optional[Any]: """simple docstring""" SCREAMING_SNAKE_CASE : List[str] = vocab_size SCREAMING_SNAKE_CASE : str = n_positions SCREAMING_SNAKE_CASE : int = n_embd SCREAMING_SNAKE_CASE : Any = n_layer SCREAMING_SNAKE_CASE : Optional[Any] = n_head SCREAMING_SNAKE_CASE : Union[str, Any] = n_inner SCREAMING_SNAKE_CASE : Dict = rotary_dim SCREAMING_SNAKE_CASE : Union[str, Any] = activation_function SCREAMING_SNAKE_CASE : Any = resid_pdrop SCREAMING_SNAKE_CASE : List[Any] = embd_pdrop SCREAMING_SNAKE_CASE : Tuple = attn_pdrop SCREAMING_SNAKE_CASE : Any = layer_norm_epsilon SCREAMING_SNAKE_CASE : Union[str, Any] = initializer_range SCREAMING_SNAKE_CASE : Any = use_cache SCREAMING_SNAKE_CASE : Any = bos_token_id SCREAMING_SNAKE_CASE : List[Any] = eos_token_id super().__init__( bos_token_id=UpperCAmelCase__ , eos_token_id=UpperCAmelCase__ , tie_word_embeddings=UpperCAmelCase__ , UpperCAmelCase__ ) class a__ ( UpperCAmelCase ): """simple docstring""" def __init__( self : int , UpperCAmelCase__ : PretrainedConfig , UpperCAmelCase__ : str = "default" , UpperCAmelCase__ : List[PatchingSpec] = None , UpperCAmelCase__ : bool = False , ) ->Optional[int]: """simple docstring""" super().__init__(UpperCAmelCase__ , task=UpperCAmelCase__ , patching_specs=UpperCAmelCase__ , use_past=UpperCAmelCase__ ) if not getattr(self._config , """pad_token_id""" , UpperCAmelCase__ ): # TODO: how to do that better? SCREAMING_SNAKE_CASE : str = 0 @property def _lowercase ( self : Tuple ) ->Mapping[str, Mapping[int, str]]: """simple docstring""" SCREAMING_SNAKE_CASE : Any = OrderedDict({"""input_ids""": {0: """batch""", 1: """sequence"""}} ) if self.use_past: self.fill_with_past_key_values_(UpperCAmelCase__ , direction="""inputs""" ) SCREAMING_SNAKE_CASE : Optional[Any] = {0: """batch""", 1: """past_sequence + sequence"""} else: SCREAMING_SNAKE_CASE : List[str] = {0: """batch""", 1: """sequence"""} return common_inputs @property def _lowercase ( self : List[str] ) ->int: """simple docstring""" return self._config.n_layer @property def _lowercase ( self : Tuple ) ->int: """simple docstring""" return self._config.n_head def _lowercase ( self : str , UpperCAmelCase__ : PreTrainedTokenizer , UpperCAmelCase__ : int = -1 , UpperCAmelCase__ : int = -1 , UpperCAmelCase__ : bool = False , UpperCAmelCase__ : Optional[TensorType] = None , ) ->Mapping[str, Any]: """simple docstring""" SCREAMING_SNAKE_CASE : int = super(UpperCAmelCase__ , self ).generate_dummy_inputs( UpperCAmelCase__ , batch_size=UpperCAmelCase__ , seq_length=UpperCAmelCase__ , is_pair=UpperCAmelCase__ , framework=UpperCAmelCase__ ) # We need to order the input in the way they appears in the forward() SCREAMING_SNAKE_CASE : Tuple = OrderedDict({"""input_ids""": common_inputs["""input_ids"""]} ) # Need to add the past_keys if self.use_past: if not is_torch_available(): raise ValueError("""Cannot generate dummy past_keys inputs without PyTorch installed.""" ) else: import torch SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE : str = common_inputs["""input_ids"""].shape # Not using the same length for past_key_values SCREAMING_SNAKE_CASE : Dict = seqlen + 2 SCREAMING_SNAKE_CASE : Any = ( batch, self.num_attention_heads, past_key_values_length, self._config.hidden_size // self.num_attention_heads, ) SCREAMING_SNAKE_CASE : Optional[int] = [ (torch.zeros(UpperCAmelCase__ ), torch.zeros(UpperCAmelCase__ )) for _ in range(self.num_layers ) ] SCREAMING_SNAKE_CASE : Dict = common_inputs["""attention_mask"""] if self.use_past: SCREAMING_SNAKE_CASE : Optional[int] = ordered_inputs["""attention_mask"""].dtype SCREAMING_SNAKE_CASE : Union[str, Any] = torch.cat( [ordered_inputs["""attention_mask"""], torch.ones(UpperCAmelCase__ , UpperCAmelCase__ , dtype=UpperCAmelCase__ )] , dim=1 ) return ordered_inputs @property def _lowercase ( self : Dict ) ->int: """simple docstring""" return 1_3	245	1
from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available lowerCAmelCase_ = {} try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase_ = ['''MLukeTokenizer'''] if TYPE_CHECKING: try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_mluke import MLukeTokenizer else: import sys lowerCAmelCase_ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)	355	from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_flax_available, is_sentencepiece_available, is_tf_available, is_tokenizers_available, is_torch_available, ) lowerCAmelCase_ = {'''configuration_xglm''': ['''XGLM_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''XGLMConfig''']} try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase_ = ['''XGLMTokenizer'''] try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase_ = ['''XGLMTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase_ = [ '''XGLM_PRETRAINED_MODEL_ARCHIVE_LIST''', '''XGLMForCausalLM''', '''XGLMModel''', '''XGLMPreTrainedModel''', ] try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase_ = [ '''FlaxXGLMForCausalLM''', '''FlaxXGLMModel''', '''FlaxXGLMPreTrainedModel''', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase_ = [ '''TF_XGLM_PRETRAINED_MODEL_ARCHIVE_LIST''', '''TFXGLMForCausalLM''', '''TFXGLMModel''', '''TFXGLMPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_xglm import XGLM_PRETRAINED_CONFIG_ARCHIVE_MAP, XGLMConfig try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_xglm import XGLMTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_xglm_fast import XGLMTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_xglm import XGLM_PRETRAINED_MODEL_ARCHIVE_LIST, XGLMForCausalLM, XGLMModel, XGLMPreTrainedModel try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_flax_xglm import FlaxXGLMForCausalLM, FlaxXGLMModel, FlaxXGLMPreTrainedModel try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_xglm import ( TF_XGLM_PRETRAINED_MODEL_ARCHIVE_LIST, TFXGLMForCausalLM, TFXGLMModel, TFXGLMPreTrainedModel, ) else: import sys lowerCAmelCase_ = _LazyModule(__name__, globals()['''__file__'''], _import_structure)	279	0
import itertools from dataclasses import dataclass from typing import List, Optional import pyarrow as pa import pyarrow.parquet as pq import datasets from datasets.table import table_cast UpperCamelCase__ = datasets.utils.logging.get_logger(__name__) @dataclass class A ( datasets.BuilderConfig ): __UpperCAmelCase : int = 1_00_00 __UpperCAmelCase : Optional[List[str]] = None __UpperCAmelCase : Optional[datasets.Features] = None class A ( datasets.ArrowBasedBuilder ): __UpperCAmelCase : List[Any] = ParquetConfig def lowercase_ (self : Optional[Any] ) -> Optional[Any]: """simple docstring""" return datasets.DatasetInfo(features=self.config.features ) def lowercase_ (self : Dict , __UpperCAmelCase : int ) -> Union[str, Any]: """simple docstring""" if not self.config.data_files: raise ValueError(f"""At least one data file must be specified, but got data_files={self.config.data_files}""" ) UpperCAmelCase__ = dl_manager.download_and_extract(self.config.data_files ) if isinstance(__UpperCAmelCase , (str, list, tuple) ): UpperCAmelCase__ = data_files if isinstance(__UpperCAmelCase , __UpperCAmelCase ): UpperCAmelCase__ = [files] # Use `dl_manager.iter_files` to skip hidden files in an extracted archive UpperCAmelCase__ = [dl_manager.iter_files(__UpperCAmelCase ) for file in files] return [datasets.SplitGenerator(name=datasets.Split.TRAIN , gen_kwargs={"files": files} )] UpperCAmelCase__ = [] for split_name, files in data_files.items(): if isinstance(__UpperCAmelCase , __UpperCAmelCase ): UpperCAmelCase__ = [files] # Use `dl_manager.iter_files` to skip hidden files in an extracted archive UpperCAmelCase__ = [dl_manager.iter_files(__UpperCAmelCase ) for file in files] # Infer features is they are stoed in the arrow schema if self.info.features is None: for file in itertools.chain.from_iterable(__UpperCAmelCase ): with open(__UpperCAmelCase , "rb" ) as f: UpperCAmelCase__ = datasets.Features.from_arrow_schema(pq.read_schema(__UpperCAmelCase ) ) break splits.append(datasets.SplitGenerator(name=__UpperCAmelCase , gen_kwargs={"files": files} ) ) return splits def lowercase_ (self : Union[str, Any] , __UpperCAmelCase : pa.Table ) -> pa.Table: """simple docstring""" if self.info.features is not None: # more expensive cast to support nested features with keys in a different order # allows str <-> int/float or str to Audio for example UpperCAmelCase__ = table_cast(__UpperCAmelCase , self.info.features.arrow_schema ) return pa_table def lowercase_ (self : Union[str, Any] , __UpperCAmelCase : Optional[Any] ) -> Union[str, Any]: """simple docstring""" UpperCAmelCase__ = self.info.features.arrow_schema if self.info.features is not None else None if self.info.features is not None and self.config.columns is not None: if sorted(field.name for field in schema ) != sorted(self.config.columns ): raise ValueError( f"""Tried to load parquet data with columns '{self.config.columns}' with mismatching features '{self.info.features}'""" ) for file_idx, file in enumerate(itertools.chain.from_iterable(__UpperCAmelCase ) ): with open(__UpperCAmelCase , "rb" ) as f: UpperCAmelCase__ = pq.ParquetFile(__UpperCAmelCase ) try: for batch_idx, record_batch in enumerate( parquet_file.iter_batches(batch_size=self.config.batch_size , columns=self.config.columns ) ): UpperCAmelCase__ = pa.Table.from_batches([record_batch] ) # Uncomment for debugging (will print the Arrow table size and elements) # logger.warning(f"pa_table: {pa_table} num rows: {pa_table.num_rows}") # logger.warning('\n'.join(str(pa_table.slice(i, 1).to_pydict()) for i in range(pa_table.num_rows))) yield f"""{file_idx}_{batch_idx}""", self._cast_table(__UpperCAmelCase ) except ValueError as e: logger.error(f"""Failed to read file '{file}' with error {type(__UpperCAmelCase )}: {e}""" ) raise	65	"""simple docstring""" from collections import deque from math import floor from random import random from time import time class __lowerCamelCase : '''simple docstring''' def __init__( self ) -> Tuple: _a = {} def _UpperCAmelCase ( self , __UpperCAmelCase , __UpperCAmelCase , __UpperCAmelCase=1 ) -> int: if self.graph.get(__UpperCAmelCase ): if self.graph[u].count([w, v] ) == 0: self.graph[u].append([w, v] ) else: _a = [[w, v]] if not self.graph.get(__UpperCAmelCase ): _a = [] def _UpperCAmelCase ( self ) -> int: return list(self.graph ) def _UpperCAmelCase ( self , __UpperCAmelCase , __UpperCAmelCase ) -> List[str]: if self.graph.get(__UpperCAmelCase ): for _ in self.graph[u]: if _[1] == v: self.graph[u].remove(__UpperCAmelCase ) def _UpperCAmelCase ( self , __UpperCAmelCase=-2 , __UpperCAmelCase=-1 ) -> Optional[int]: if s == d: return [] _a = [] _a = [] if s == -2: _a = list(self.graph )[0] stack.append(__UpperCAmelCase ) visited.append(__UpperCAmelCase ) _a = s while True: # check if there is any non isolated nodes if len(self.graph[s] ) != 0: _a = s for node in self.graph[s]: if visited.count(node[1] ) < 1: if node[1] == d: visited.append(__UpperCAmelCase ) return visited else: stack.append(node[1] ) visited.append(node[1] ) _a = node[1] break # check if all the children are visited if s == ss: stack.pop() if len(__UpperCAmelCase ) != 0: _a = stack[len(__UpperCAmelCase ) - 1] else: _a = ss # check if se have reached the starting point if len(__UpperCAmelCase ) == 0: return visited def _UpperCAmelCase ( self , __UpperCAmelCase=-1 ) -> Tuple: if c == -1: _a = floor(random() * 10000 ) + 10 for i in range(__UpperCAmelCase ): # every vertex has max 100 edges for _ in range(floor(random() * 102 ) + 1 ): _a = floor(random() * c ) + 1 if n != i: self.add_pair(__UpperCAmelCase , __UpperCAmelCase , 1 ) def _UpperCAmelCase ( self , __UpperCAmelCase=-2 ) -> List[str]: _a = deque() _a = [] if s == -2: _a = list(self.graph )[0] d.append(__UpperCAmelCase ) visited.append(__UpperCAmelCase ) while d: _a = d.popleft() if len(self.graph[s] ) != 0: for node in self.graph[s]: if visited.count(node[1] ) < 1: d.append(node[1] ) visited.append(node[1] ) return visited def _UpperCAmelCase ( self , __UpperCAmelCase ) -> Tuple: _a = 0 for x in self.graph: for y in self.graph[x]: if y[1] == u: count += 1 return count def _UpperCAmelCase ( self , __UpperCAmelCase ) -> Dict: return len(self.graph[u] ) def _UpperCAmelCase ( self , __UpperCAmelCase=-2 ) -> Tuple: _a = [] _a = [] if s == -2: _a = list(self.graph )[0] stack.append(__UpperCAmelCase ) visited.append(__UpperCAmelCase ) _a = s _a = [] while True: # check if there is any non isolated nodes if len(self.graph[s] ) != 0: _a = s for node in self.graph[s]: if visited.count(node[1] ) < 1: stack.append(node[1] ) visited.append(node[1] ) _a = node[1] break # check if all the children are visited if s == ss: sorted_nodes.append(stack.pop() ) if len(__UpperCAmelCase ) != 0: _a = stack[len(__UpperCAmelCase ) - 1] else: _a = ss # check if se have reached the starting point if len(__UpperCAmelCase ) == 0: return sorted_nodes def _UpperCAmelCase ( self ) -> Optional[int]: _a = [] _a = [] _a = list(self.graph )[0] stack.append(__UpperCAmelCase ) visited.append(__UpperCAmelCase ) _a = -2 _a = [] _a = s _a = False _a = set() while True: # check if there is any non isolated nodes if len(self.graph[s] ) != 0: _a = s for node in self.graph[s]: if ( visited.count(node[1] ) > 0 and node[1] != parent and indirect_parents.count(node[1] ) > 0 and not on_the_way_back ): _a = len(__UpperCAmelCase ) - 1 while len_stack >= 0: if stack[len_stack] == node[1]: anticipating_nodes.add(node[1] ) break else: anticipating_nodes.add(stack[len_stack] ) len_stack -= 1 if visited.count(node[1] ) < 1: stack.append(node[1] ) visited.append(node[1] ) _a = node[1] break # check if all the children are visited if s == ss: stack.pop() _a = True if len(__UpperCAmelCase ) != 0: _a = stack[len(__UpperCAmelCase ) - 1] else: _a = False indirect_parents.append(__UpperCAmelCase ) _a = s _a = ss # check if se have reached the starting point if len(__UpperCAmelCase ) == 0: return list(__UpperCAmelCase ) def _UpperCAmelCase ( self ) -> Any: _a = [] _a = [] _a = list(self.graph )[0] stack.append(__UpperCAmelCase ) visited.append(__UpperCAmelCase ) _a = -2 _a = [] _a = s _a = False _a = set() while True: # check if there is any non isolated nodes if len(self.graph[s] ) != 0: _a = s for node in self.graph[s]: if ( visited.count(node[1] ) > 0 and node[1] != parent and indirect_parents.count(node[1] ) > 0 and not on_the_way_back ): _a = len(__UpperCAmelCase ) - 1 while len_stack_minus_one >= 0: if stack[len_stack_minus_one] == node[1]: anticipating_nodes.add(node[1] ) break else: return True if visited.count(node[1] ) < 1: stack.append(node[1] ) visited.append(node[1] ) _a = node[1] break # check if all the children are visited if s == ss: stack.pop() _a = True if len(__UpperCAmelCase ) != 0: _a = stack[len(__UpperCAmelCase ) - 1] else: _a = False indirect_parents.append(__UpperCAmelCase ) _a = s _a = ss # check if se have reached the starting point if len(__UpperCAmelCase ) == 0: return False def _UpperCAmelCase ( self , __UpperCAmelCase=-2 , __UpperCAmelCase=-1 ) -> Optional[int]: _a = time() self.dfs(__UpperCAmelCase , __UpperCAmelCase ) _a = time() return end - begin def _UpperCAmelCase ( self , __UpperCAmelCase=-2 ) -> Optional[Any]: _a = time() self.bfs(__UpperCAmelCase ) _a = time() return end - begin class __lowerCamelCase : '''simple docstring''' def __init__( self ) -> Optional[int]: _a = {} def _UpperCAmelCase ( self , __UpperCAmelCase , __UpperCAmelCase , __UpperCAmelCase=1 ) -> Dict: # check if the u exists if self.graph.get(__UpperCAmelCase ): # if there already is a edge if self.graph[u].count([w, v] ) == 0: self.graph[u].append([w, v] ) else: # if u does not exist _a = [[w, v]] # add the other way if self.graph.get(__UpperCAmelCase ): # if there already is a edge if self.graph[v].count([w, u] ) == 0: self.graph[v].append([w, u] ) else: # if u does not exist _a = [[w, u]] def _UpperCAmelCase ( self , __UpperCAmelCase , __UpperCAmelCase ) -> Tuple: if self.graph.get(__UpperCAmelCase ): for _ in self.graph[u]: if _[1] == v: self.graph[u].remove(__UpperCAmelCase ) # the other way round if self.graph.get(__UpperCAmelCase ): for _ in self.graph[v]: if _[1] == u: self.graph[v].remove(__UpperCAmelCase ) def _UpperCAmelCase ( self , __UpperCAmelCase=-2 , __UpperCAmelCase=-1 ) -> Dict: if s == d: return [] _a = [] _a = [] if s == -2: _a = list(self.graph )[0] stack.append(__UpperCAmelCase ) visited.append(__UpperCAmelCase ) _a = s while True: # check if there is any non isolated nodes if len(self.graph[s] ) != 0: _a = s for node in self.graph[s]: if visited.count(node[1] ) < 1: if node[1] == d: visited.append(__UpperCAmelCase ) return visited else: stack.append(node[1] ) visited.append(node[1] ) _a = node[1] break # check if all the children are visited if s == ss: stack.pop() if len(__UpperCAmelCase ) != 0: _a = stack[len(__UpperCAmelCase ) - 1] else: _a = ss # check if se have reached the starting point if len(__UpperCAmelCase ) == 0: return visited def _UpperCAmelCase ( self , __UpperCAmelCase=-1 ) -> Tuple: if c == -1: _a = floor(random() * 10000 ) + 10 for i in range(__UpperCAmelCase ): # every vertex has max 100 edges for _ in range(floor(random() * 102 ) + 1 ): _a = floor(random() * c ) + 1 if n != i: self.add_pair(__UpperCAmelCase , __UpperCAmelCase , 1 ) def _UpperCAmelCase ( self , __UpperCAmelCase=-2 ) -> List[Any]: _a = deque() _a = [] if s == -2: _a = list(self.graph )[0] d.append(__UpperCAmelCase ) visited.append(__UpperCAmelCase ) while d: _a = d.popleft() if len(self.graph[s] ) != 0: for node in self.graph[s]: if visited.count(node[1] ) < 1: d.append(node[1] ) visited.append(node[1] ) return visited def _UpperCAmelCase ( self , __UpperCAmelCase ) -> Dict: return len(self.graph[u] ) def _UpperCAmelCase ( self ) -> int: _a = [] _a = [] _a = list(self.graph )[0] stack.append(__UpperCAmelCase ) visited.append(__UpperCAmelCase ) _a = -2 _a = [] _a = s _a = False _a = set() while True: # check if there is any non isolated nodes if len(self.graph[s] ) != 0: _a = s for node in self.graph[s]: if ( visited.count(node[1] ) > 0 and node[1] != parent and indirect_parents.count(node[1] ) > 0 and not on_the_way_back ): _a = len(__UpperCAmelCase ) - 1 while len_stack >= 0: if stack[len_stack] == node[1]: anticipating_nodes.add(node[1] ) break else: anticipating_nodes.add(stack[len_stack] ) len_stack -= 1 if visited.count(node[1] ) < 1: stack.append(node[1] ) visited.append(node[1] ) _a = node[1] break # check if all the children are visited if s == ss: stack.pop() _a = True if len(__UpperCAmelCase ) != 0: _a = stack[len(__UpperCAmelCase ) - 1] else: _a = False indirect_parents.append(__UpperCAmelCase ) _a = s _a = ss # check if se have reached the starting point if len(__UpperCAmelCase ) == 0: return list(__UpperCAmelCase ) def _UpperCAmelCase ( self ) -> Optional[Any]: _a = [] _a = [] _a = list(self.graph )[0] stack.append(__UpperCAmelCase ) visited.append(__UpperCAmelCase ) _a = -2 _a = [] _a = s _a = False _a = set() while True: # check if there is any non isolated nodes if len(self.graph[s] ) != 0: _a = s for node in self.graph[s]: if ( visited.count(node[1] ) > 0 and node[1] != parent and indirect_parents.count(node[1] ) > 0 and not on_the_way_back ): _a = len(__UpperCAmelCase ) - 1 while len_stack_minus_one >= 0: if stack[len_stack_minus_one] == node[1]: anticipating_nodes.add(node[1] ) break else: return True if visited.count(node[1] ) < 1: stack.append(node[1] ) visited.append(node[1] ) _a = node[1] break # check if all the children are visited if s == ss: stack.pop() _a = True if len(__UpperCAmelCase ) != 0: _a = stack[len(__UpperCAmelCase ) - 1] else: _a = False indirect_parents.append(__UpperCAmelCase ) _a = s _a = ss # check if se have reached the starting point if len(__UpperCAmelCase ) == 0: return False def _UpperCAmelCase ( self ) -> Union[str, Any]: return list(self.graph ) def _UpperCAmelCase ( self , __UpperCAmelCase=-2 , __UpperCAmelCase=-1 ) -> Tuple: _a = time() self.dfs(__UpperCAmelCase , __UpperCAmelCase ) _a = time() return end - begin def _UpperCAmelCase ( self , __UpperCAmelCase=-2 ) -> Tuple: _a = time() self.bfs(__UpperCAmelCase ) _a = time() return end - begin	320	0
"""simple docstring""" def _lowerCAmelCase ( lowerCAmelCase , lowerCAmelCase ): '''simple docstring''' UpperCAmelCase = len(_snake_case ) UpperCAmelCase = len(_snake_case ) UpperCAmelCase = [[False for _ in range(m + 1 )] for _ in range(n + 1 )] UpperCAmelCase = True for i in range(_snake_case ): for j in range(m + 1 ): if dp[i][j]: if j < m and a[i].upper() == b[j]: UpperCAmelCase = True if a[i].islower(): UpperCAmelCase = True return dp[n][m] if __name__ == "__main__": import doctest doctest.testmod()	369	"""simple docstring""" from __future__ import annotations import math def _lowerCAmelCase ( lowerCAmelCase ): '''simple docstring''' if 1 < number < 4: # 2 and 3 are primes return True elif number < 2 or number % 2 == 0 or number % 3 == 0: # Negatives, 0, 1, all even numbers, all multiples of 3 are not primes return False # All primes number are in format of 6k +/- 1 for i in range(5 , int(math.sqrt(lowerCAmelCase ) + 1 ) , 6 ): if number % i == 0 or number % (i + 2) == 0: return False return True def _lowerCAmelCase ( lowerCAmelCase ): '''simple docstring''' UpperCAmelCase = str(lowerCAmelCase ) UpperCAmelCase = [n] for i in range(1 , len(lowerCAmelCase ) ): list_nums.append(int(str_num[i:] ) ) list_nums.append(int(str_num[:-i] ) ) return list_nums def _lowerCAmelCase ( lowerCAmelCase ): '''simple docstring''' if len(str(lowerCAmelCase ) ) > 3: if not is_prime(int(str(lowerCAmelCase )[-3:] ) ) or not is_prime(int(str(lowerCAmelCase )[:3] ) ): return False return True def _lowerCAmelCase ( lowerCAmelCase = 11 ): '''simple docstring''' UpperCAmelCase = [] UpperCAmelCase = 13 while len(lowerCAmelCase ) != count: if validate(lowerCAmelCase ): UpperCAmelCase = list_truncated_nums(lowerCAmelCase ) if all(is_prime(lowerCAmelCase ) for i in list_nums ): list_truncated_primes.append(lowerCAmelCase ) num += 2 return list_truncated_primes def _lowerCAmelCase ( ): '''simple docstring''' return sum(compute_truncated_primes(11 ) ) if __name__ == "__main__": print(F'{sum(compute_truncated_primes(1_1)) = }')	248	0
"""simple docstring""" from __future__ import annotations def lowercase ( __snake_case : list , __snake_case : int \| None = None , __snake_case : int \| None = None ): if start is None: lowercase_ : Optional[Any] = 0 if end is None: lowercase_ : List[Any] = len(__snake_case ) - 1 if start >= end: return lowercase_ : str = (start + end) // 2 slowsort(__snake_case , __snake_case , __snake_case ) slowsort(__snake_case , mid + 1 , __snake_case ) if sequence[end] < sequence[mid]: lowercase_ , lowercase_ : Optional[int] = sequence[mid], sequence[end] slowsort(__snake_case , __snake_case , end - 1 ) if __name__ == "__main__": from doctest import testmod testmod()	33	import argparse import json from dataclasses import dataclass, field from functools import partial from pathlib import Path from typing import Callable, Dict, List, Tuple import timm import torch import torch.nn as nn from classy_vision.models.regnet import RegNet, RegNetParams, RegNetYaagf, RegNetYaagf, RegNetYaaagf from huggingface_hub import cached_download, hf_hub_url from torch import Tensor from vissl.models.model_helpers import get_trunk_forward_outputs from transformers import AutoImageProcessor, RegNetConfig, RegNetForImageClassification, RegNetModel from transformers.utils import logging logging.set_verbosity_info() lowerCamelCase = logging.get_logger() @dataclass class _a : _a : nn.Module _a : List[nn.Module] = field(default_factory=_lowercase) _a : list = field(default_factory=_lowercase) def UpperCAmelCase__( self : Tuple , _SCREAMING_SNAKE_CASE : Dict , _SCREAMING_SNAKE_CASE : Tensor , _SCREAMING_SNAKE_CASE : Tensor )-> Any: lowerCAmelCase__ : str = len(list(m.modules() ) ) == 1 or isinstance(_SCREAMING_SNAKE_CASE , nn.Convad ) or isinstance(_SCREAMING_SNAKE_CASE , nn.BatchNormad ) if has_not_submodules: self.traced.append(_SCREAMING_SNAKE_CASE ) def __call__( self : Union[str, Any] , _SCREAMING_SNAKE_CASE : Tensor )-> str: for m in self.module.modules(): self.handles.append(m.register_forward_hook(self._forward_hook ) ) self.module(_SCREAMING_SNAKE_CASE ) [x.remove() for x in self.handles] return self @property def UpperCAmelCase__( self : Any )-> Union[str, Any]: # check the len of the state_dict keys to see if we have learnable params return list(filter(lambda _SCREAMING_SNAKE_CASE : len(list(x.state_dict().keys() ) ) > 0 , self.traced ) ) @dataclass class _a : _a : nn.Module _a : nn.Module _a : int = 1 _a : List = field(default_factory=_lowercase) _a : List = field(default_factory=_lowercase) _a : bool = True def __call__( self : Optional[Any] , _SCREAMING_SNAKE_CASE : Tensor )-> str: lowerCAmelCase__ : List[Any] = Tracker(self.dest )(_SCREAMING_SNAKE_CASE ).parametrized lowerCAmelCase__ : str = Tracker(self.src )(_SCREAMING_SNAKE_CASE ).parametrized lowerCAmelCase__ : List[str] = list(filter(lambda _SCREAMING_SNAKE_CASE : type(_SCREAMING_SNAKE_CASE ) not in self.src_skip , _SCREAMING_SNAKE_CASE ) ) lowerCAmelCase__ : str = list(filter(lambda _SCREAMING_SNAKE_CASE : type(_SCREAMING_SNAKE_CASE ) not in self.dest_skip , _SCREAMING_SNAKE_CASE ) ) if len(_SCREAMING_SNAKE_CASE ) != len(_SCREAMING_SNAKE_CASE ) and self.raise_if_mismatch: raise Exception( F'Numbers of operations are different. Source module has {len(_SCREAMING_SNAKE_CASE )} operations while' F' destination module has {len(_SCREAMING_SNAKE_CASE )}.' ) for dest_m, src_m in zip(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ): dest_m.load_state_dict(src_m.state_dict() ) if self.verbose == 1: print(F'Transfered from={src_m} to={dest_m}' ) class _a ( nn.Module): def __init__( self : List[Any] , _SCREAMING_SNAKE_CASE : nn.Module )-> Optional[int]: super().__init__() lowerCAmelCase__ : List[Tuple[str, nn.Module]] = [] # - get the stem feature_blocks.append(('''conv1''', model.stem) ) # - get all the feature blocks for k, v in model.trunk_output.named_children(): assert k.startswith('''block''' ), F'Unexpected layer name {k}' lowerCAmelCase__ : Optional[int] = len(_SCREAMING_SNAKE_CASE ) + 1 feature_blocks.append((F'res{block_index}', v) ) lowerCAmelCase__ : List[str] = nn.ModuleDict(_SCREAMING_SNAKE_CASE ) def UpperCAmelCase__( self : int , _SCREAMING_SNAKE_CASE : Tensor )-> List[str]: return get_trunk_forward_outputs( _SCREAMING_SNAKE_CASE , out_feat_keys=_SCREAMING_SNAKE_CASE , feature_blocks=self._feature_blocks , ) class _a ( _lowercase): def UpperCAmelCase__( self : Union[str, Any] , _SCREAMING_SNAKE_CASE : str )-> str: lowerCAmelCase__ : int = x.split('''-''' ) return x_split[0] + x_split[1] + "_" + "".join(x_split[2:] ) def __getitem__( self : Optional[Any] , _SCREAMING_SNAKE_CASE : str )-> Callable[[], Tuple[nn.Module, Dict]]: # default to timm! if x not in self: lowerCAmelCase__ : Optional[Any] = self.convert_name_to_timm(_SCREAMING_SNAKE_CASE ) lowerCAmelCase__ : List[str] = partial(lambda: (timm.create_model(_SCREAMING_SNAKE_CASE , pretrained=_SCREAMING_SNAKE_CASE ).eval(), None) ) else: lowerCAmelCase__ : Any = super().__getitem__(_SCREAMING_SNAKE_CASE ) return val class _a ( _lowercase): def __getitem__( self : Optional[Any] , _SCREAMING_SNAKE_CASE : str )-> Callable[[], nn.Module]: if "seer" in x and "in1k" not in x: lowerCAmelCase__ : int = RegNetModel else: lowerCAmelCase__ : List[str] = RegNetForImageClassification return val def lowerCamelCase_ ( _a , _a , _a ): """simple docstring""" for from_key, to_key in keys: lowerCAmelCase__ : Optional[Any] = from_state_dict[from_key].clone() print(f'Copied key={from_key} to={to_key}' ) return to_state_dict def lowerCamelCase_ ( _a , _a , _a , _a , _a , _a = True , ): """simple docstring""" print(f'Converting {name}...' ) with torch.no_grad(): lowerCAmelCase__ , lowerCAmelCase__ : int = from_model_func() lowerCAmelCase__ : Optional[Any] = our_model_func(_a ).eval() lowerCAmelCase__ : int = ModuleTransfer(src=_a , dest=_a , raise_if_mismatch=_a ) lowerCAmelCase__ : str = torch.randn((1, 3, 224, 224) ) module_transfer(_a ) if from_state_dict is not None: lowerCAmelCase__ : Any = [] # for seer - in1k finetuned we have to manually copy the head if "seer" in name and "in1k" in name: lowerCAmelCase__ : List[Any] = [('''0.clf.0.weight''', '''classifier.1.weight'''), ('''0.clf.0.bias''', '''classifier.1.bias''')] lowerCAmelCase__ : int = manually_copy_vissl_head(_a , our_model.state_dict() , _a ) our_model.load_state_dict(_a ) lowerCAmelCase__ : List[str] = our_model(_a , output_hidden_states=_a ) lowerCAmelCase__ : Dict = ( our_outputs.logits if isinstance(_a , _a ) else our_outputs.last_hidden_state ) lowerCAmelCase__ : Tuple = from_model(_a ) lowerCAmelCase__ : int = from_output[-1] if type(_a ) is list else from_output # now since I don't want to use any config files, vissl seer model doesn't actually have an head, so let's just check the last hidden state if "seer" in name and "in1k" in name: lowerCAmelCase__ : Optional[int] = our_outputs.hidden_states[-1] assert torch.allclose(_a , _a ), "The model logits don't match the original one." if push_to_hub: our_model.push_to_hub( repo_path_or_name=save_directory / name , commit_message='''Add model''' , use_temp_dir=_a , ) lowerCAmelCase__ : Optional[int] = 224 if '''seer''' not in name else 384 # we can use the convnext one lowerCAmelCase__ : int = AutoImageProcessor.from_pretrained('''facebook/convnext-base-224-22k-1k''' , size=_a ) image_processor.push_to_hub( repo_path_or_name=save_directory / name , commit_message='''Add image processor''' , use_temp_dir=_a , ) print(f'Pushed {name}' ) def lowerCamelCase_ ( _a , _a = None , _a = True ): """simple docstring""" lowerCAmelCase__ : str = '''imagenet-1k-id2label.json''' lowerCAmelCase__ : Dict = 1_000 lowerCAmelCase__ : Optional[int] = (1, num_labels) lowerCAmelCase__ : Optional[int] = '''huggingface/label-files''' lowerCAmelCase__ : Tuple = num_labels lowerCAmelCase__ : List[Any] = json.load(open(cached_download(hf_hub_url(_a , _a , repo_type='''dataset''' ) ) , '''r''' ) ) lowerCAmelCase__ : Dict = {int(_a ): v for k, v in idalabel.items()} lowerCAmelCase__ : List[Any] = idalabel lowerCAmelCase__ : Union[str, Any] = {v: k for k, v in idalabel.items()} lowerCAmelCase__ : Dict = partial(_a , num_labels=_a , idalabel=_a , labelaid=_a ) lowerCAmelCase__ : Tuple = { '''regnet-x-002''': ImageNetPreTrainedConfig( depths=[1, 1, 4, 7] , hidden_sizes=[24, 56, 152, 368] , groups_width=8 , layer_type='''x''' ), '''regnet-x-004''': ImageNetPreTrainedConfig( depths=[1, 2, 7, 12] , hidden_sizes=[32, 64, 160, 384] , groups_width=16 , layer_type='''x''' ), '''regnet-x-006''': ImageNetPreTrainedConfig( depths=[1, 3, 5, 7] , hidden_sizes=[48, 96, 240, 528] , groups_width=24 , layer_type='''x''' ), '''regnet-x-008''': ImageNetPreTrainedConfig( depths=[1, 3, 7, 5] , hidden_sizes=[64, 128, 288, 672] , groups_width=16 , layer_type='''x''' ), '''regnet-x-016''': ImageNetPreTrainedConfig( depths=[2, 4, 10, 2] , hidden_sizes=[72, 168, 408, 912] , groups_width=24 , layer_type='''x''' ), '''regnet-x-032''': ImageNetPreTrainedConfig( depths=[2, 6, 15, 2] , hidden_sizes=[96, 192, 432, 1_008] , groups_width=48 , layer_type='''x''' ), '''regnet-x-040''': ImageNetPreTrainedConfig( depths=[2, 5, 14, 2] , hidden_sizes=[80, 240, 560, 1_360] , groups_width=40 , layer_type='''x''' ), '''regnet-x-064''': ImageNetPreTrainedConfig( depths=[2, 4, 10, 1] , hidden_sizes=[168, 392, 784, 1_624] , groups_width=56 , layer_type='''x''' ), '''regnet-x-080''': ImageNetPreTrainedConfig( depths=[2, 5, 15, 1] , hidden_sizes=[80, 240, 720, 1_920] , groups_width=120 , layer_type='''x''' ), '''regnet-x-120''': ImageNetPreTrainedConfig( depths=[2, 5, 11, 1] , hidden_sizes=[224, 448, 896, 2_240] , groups_width=112 , layer_type='''x''' ), '''regnet-x-160''': ImageNetPreTrainedConfig( depths=[2, 6, 13, 1] , hidden_sizes=[256, 512, 896, 2_048] , groups_width=128 , layer_type='''x''' ), '''regnet-x-320''': ImageNetPreTrainedConfig( depths=[2, 7, 13, 1] , hidden_sizes=[336, 672, 1_344, 2_520] , groups_width=168 , layer_type='''x''' ), # y variant '''regnet-y-002''': ImageNetPreTrainedConfig(depths=[1, 1, 4, 7] , hidden_sizes=[24, 56, 152, 368] , groups_width=8 ), '''regnet-y-004''': ImageNetPreTrainedConfig( depths=[1, 3, 6, 6] , hidden_sizes=[48, 104, 208, 440] , groups_width=8 ), '''regnet-y-006''': ImageNetPreTrainedConfig( depths=[1, 3, 7, 4] , hidden_sizes=[48, 112, 256, 608] , groups_width=16 ), '''regnet-y-008''': ImageNetPreTrainedConfig( depths=[1, 3, 8, 2] , hidden_sizes=[64, 128, 320, 768] , groups_width=16 ), '''regnet-y-016''': ImageNetPreTrainedConfig( depths=[2, 6, 17, 2] , hidden_sizes=[48, 120, 336, 888] , groups_width=24 ), '''regnet-y-032''': ImageNetPreTrainedConfig( depths=[2, 5, 13, 1] , hidden_sizes=[72, 216, 576, 1_512] , groups_width=24 ), '''regnet-y-040''': ImageNetPreTrainedConfig( depths=[2, 6, 12, 2] , hidden_sizes=[128, 192, 512, 1_088] , groups_width=64 ), '''regnet-y-064''': ImageNetPreTrainedConfig( depths=[2, 7, 14, 2] , hidden_sizes=[144, 288, 576, 1_296] , groups_width=72 ), '''regnet-y-080''': ImageNetPreTrainedConfig( depths=[2, 4, 10, 1] , hidden_sizes=[168, 448, 896, 2_016] , groups_width=56 ), '''regnet-y-120''': ImageNetPreTrainedConfig( depths=[2, 5, 11, 1] , hidden_sizes=[224, 448, 896, 2_240] , groups_width=112 ), '''regnet-y-160''': ImageNetPreTrainedConfig( depths=[2, 4, 11, 1] , hidden_sizes=[224, 448, 1_232, 3_024] , groups_width=112 ), '''regnet-y-320''': ImageNetPreTrainedConfig( depths=[2, 5, 12, 1] , hidden_sizes=[232, 696, 1_392, 3_712] , groups_width=232 ), # models created by SEER -> https://arxiv.org/abs/2202.08360 '''regnet-y-320-seer''': RegNetConfig(depths=[2, 5, 12, 1] , hidden_sizes=[232, 696, 1_392, 3_712] , groups_width=232 ), '''regnet-y-640-seer''': RegNetConfig(depths=[2, 5, 12, 1] , hidden_sizes=[328, 984, 1_968, 4_920] , groups_width=328 ), '''regnet-y-1280-seer''': RegNetConfig( depths=[2, 7, 17, 1] , hidden_sizes=[528, 1_056, 2_904, 7_392] , groups_width=264 ), '''regnet-y-2560-seer''': RegNetConfig( depths=[3, 7, 16, 1] , hidden_sizes=[640, 1_696, 2_544, 5_088] , groups_width=640 ), '''regnet-y-10b-seer''': ImageNetPreTrainedConfig( depths=[2, 7, 17, 1] , hidden_sizes=[2_020, 4_040, 11_110, 28_280] , groups_width=1_010 ), # finetuned on imagenet '''regnet-y-320-seer-in1k''': ImageNetPreTrainedConfig( depths=[2, 5, 12, 1] , hidden_sizes=[232, 696, 1_392, 3_712] , groups_width=232 ), '''regnet-y-640-seer-in1k''': ImageNetPreTrainedConfig( depths=[2, 5, 12, 1] , hidden_sizes=[328, 984, 1_968, 4_920] , groups_width=328 ), '''regnet-y-1280-seer-in1k''': ImageNetPreTrainedConfig( depths=[2, 7, 17, 1] , hidden_sizes=[528, 1_056, 2_904, 7_392] , groups_width=264 ), '''regnet-y-2560-seer-in1k''': ImageNetPreTrainedConfig( depths=[3, 7, 16, 1] , hidden_sizes=[640, 1_696, 2_544, 5_088] , groups_width=640 ), '''regnet-y-10b-seer-in1k''': ImageNetPreTrainedConfig( depths=[2, 7, 17, 1] , hidden_sizes=[2_020, 4_040, 11_110, 28_280] , groups_width=1_010 ), } lowerCAmelCase__ : Optional[Any] = NameToOurModelFuncMap() lowerCAmelCase__ : Optional[Any] = NameToFromModelFuncMap() # add seer weights logic def load_using_classy_vision(_a , _a ) -> Tuple[nn.Module, Dict]: lowerCAmelCase__ : Tuple = torch.hub.load_state_dict_from_url(_a , model_dir=str(_a ) , map_location='''cpu''' ) lowerCAmelCase__ : int = model_func() # check if we have a head, if yes add it lowerCAmelCase__ : int = files['''classy_state_dict''']['''base_model''']['''model'''] lowerCAmelCase__ : Tuple = model_state_dict['''trunk'''] model.load_state_dict(_a ) return model.eval(), model_state_dict["heads"] # pretrained lowerCAmelCase__ : int = partial( _a , '''https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_regnet32d/seer_regnet32gf_model_iteration244000.torch''' , lambda: FakeRegNetVisslWrapper(RegNetYaagf() ) , ) lowerCAmelCase__ : Optional[int] = partial( _a , '''https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_regnet64/seer_regnet64gf_model_final_checkpoint_phase0.torch''' , lambda: FakeRegNetVisslWrapper(RegNetYaagf() ) , ) lowerCAmelCase__ : Optional[int] = partial( _a , '''https://dl.fbaipublicfiles.com/vissl/model_zoo/swav_ig1b_regnet128Gf_cnstant_bs32_node16_sinkhorn10_proto16k_syncBN64_warmup8k/model_final_checkpoint_phase0.torch''' , lambda: FakeRegNetVisslWrapper(RegNetYaaagf() ) , ) lowerCAmelCase__ : Tuple = partial( _a , '''https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_regnet10B/model_iteration124500_conso.torch''' , lambda: FakeRegNetVisslWrapper( RegNet(RegNetParams(depth=27 , group_width=1_010 , w_a=1_744 , w_a=6_20.83 , w_m=2.52 ) ) ) , ) # IN1K finetuned lowerCAmelCase__ : List[Any] = partial( _a , '''https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_finetuned/seer_regnet32_finetuned_in1k_model_final_checkpoint_phase78.torch''' , lambda: FakeRegNetVisslWrapper(RegNetYaagf() ) , ) lowerCAmelCase__ : Optional[int] = partial( _a , '''https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_finetuned/seer_regnet64_finetuned_in1k_model_final_checkpoint_phase78.torch''' , lambda: FakeRegNetVisslWrapper(RegNetYaagf() ) , ) lowerCAmelCase__ : Union[str, Any] = partial( _a , '''https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_finetuned/seer_regnet128_finetuned_in1k_model_final_checkpoint_phase78.torch''' , lambda: FakeRegNetVisslWrapper(RegNetYaaagf() ) , ) lowerCAmelCase__ : Union[str, Any] = partial( _a , '''https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_finetuned/seer_10b_finetuned_in1k_model_phase28_conso.torch''' , lambda: FakeRegNetVisslWrapper( RegNet(RegNetParams(depth=27 , group_width=1_010 , w_a=1_744 , w_a=6_20.83 , w_m=2.52 ) ) ) , ) if model_name: convert_weight_and_push( _a , names_to_from_model_map[model_name] , names_to_ours_model_map[model_name] , names_to_config[model_name] , _a , _a , ) else: for model_name, config in names_to_config.items(): convert_weight_and_push( _a , names_to_from_model_map[model_name] , names_to_ours_model_map[model_name] , _a , _a , _a , ) return config, expected_shape if __name__ == "__main__": lowerCamelCase = argparse.ArgumentParser() # Required parameters parser.add_argument( '''--model_name''', default=None, type=str, help=( '''The name of the model you wish to convert, it must be one of the supported regnet* architecture,''' ''' currently: regnetx-, regnety-. If `None`, all of them will the converted.''' ), ) parser.add_argument( '''--pytorch_dump_folder_path''', default=None, type=Path, required=True, help='''Path to the output PyTorch model directory.''', ) parser.add_argument( '''--push_to_hub''', default=True, type=bool, required=False, help='''If True, push model and image processor to the hub.''', ) lowerCamelCase = parser.parse_args() lowerCamelCase = args.pytorch_dump_folder_path pytorch_dump_folder_path.mkdir(exist_ok=True, parents=True) convert_weights_and_push(pytorch_dump_folder_path, args.model_name, args.push_to_hub)	131	0
'''simple docstring''' import unittest import numpy as np import torch from diffusers import ScoreSdeVePipeline, ScoreSdeVeScheduler, UNetaDModel from diffusers.utils.testing_utils import enable_full_determinism, require_torch, slow, torch_device enable_full_determinism() class SCREAMING_SNAKE_CASE__ ( unittest.TestCase): @property def UpperCAmelCase_ ( self )-> List[str]: '''simple docstring''' torch.manual_seed(0 ) UpperCamelCase = UNetaDModel( block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=3 , out_channels=3 , down_block_types=('DownBlock2D', 'AttnDownBlock2D') , up_block_types=('AttnUpBlock2D', 'UpBlock2D') , ) return model def UpperCAmelCase_ ( self )-> Tuple: '''simple docstring''' UpperCamelCase = self.dummy_uncond_unet UpperCamelCase = ScoreSdeVeScheduler() UpperCamelCase = ScoreSdeVePipeline(unet=A_ , scheduler=A_ ) sde_ve.to(A_ ) sde_ve.set_progress_bar_config(disable=A_ ) UpperCamelCase = torch.manual_seed(0 ) UpperCamelCase = sde_ve(num_inference_steps=2 , output_type='numpy' , generator=A_ ).images UpperCamelCase = torch.manual_seed(0 ) UpperCamelCase = sde_ve(num_inference_steps=2 , output_type='numpy' , generator=A_ , return_dict=A_ )[ 0 ] UpperCamelCase = image[0, -3:, -3:, -1] UpperCamelCase = image_from_tuple[0, -3:, -3:, -1] assert image.shape == (1, 32, 32, 3) UpperCamelCase = np.array([0.0, 1.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0, 0.0] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-2 assert np.abs(image_from_tuple_slice.flatten() - expected_slice ).max() < 1e-2 @slow @require_torch class SCREAMING_SNAKE_CASE__ ( unittest.TestCase): def UpperCAmelCase_ ( self )-> Tuple: '''simple docstring''' UpperCamelCase = 'google/ncsnpp-church-256' UpperCamelCase = UNetaDModel.from_pretrained(A_ ) UpperCamelCase = ScoreSdeVeScheduler.from_pretrained(A_ ) UpperCamelCase = ScoreSdeVePipeline(unet=A_ , scheduler=A_ ) sde_ve.to(A_ ) sde_ve.set_progress_bar_config(disable=A_ ) UpperCamelCase = torch.manual_seed(0 ) UpperCamelCase = sde_ve(num_inference_steps=10 , output_type='numpy' , generator=A_ ).images UpperCamelCase = image[0, -3:, -3:, -1] assert image.shape == (1, 256, 256, 3) UpperCamelCase = np.array([0.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 0.0, 0.0] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-2	251	'''simple docstring''' from __future__ import annotations import time import numpy as np lowerCAmelCase : List[Any] = [8, 5, 9, 7] lowerCAmelCase : str = [ [2, 0, 1, 1], [0, 1, 2, 1], [4, 0, 0, 3], [0, 2, 1, 0], [1, 0, 3, 0], ] lowerCAmelCase : Tuple = [ [3, 2, 1, 4], [0, 2, 5, 2], [5, 1, 0, 5], [1, 5, 3, 0], [3, 0, 3, 3], ] class SCREAMING_SNAKE_CASE__ : def __init__( self , A_ , A_ , A_ , )-> None: '''simple docstring''' UpperCamelCase = claim_vector UpperCamelCase = allocated_resources_table UpperCamelCase = maximum_claim_table def UpperCAmelCase_ ( self )-> list[int]: '''simple docstring''' return [ sum(p_item[i] for p_item in self.__allocated_resources_table ) for i in range(len(self.__allocated_resources_table[0] ) ) ] def UpperCAmelCase_ ( self )-> list[int]: '''simple docstring''' return np.array(self.__claim_vector ) - np.array( self.__processes_resource_summation() ) def UpperCAmelCase_ ( self )-> list[list[int]]: '''simple docstring''' return [ list(np.array(self.__maximum_claim_table[i] ) - np.array(A_ ) ) for i, allocated_resource in enumerate(self.__allocated_resources_table ) ] def UpperCAmelCase_ ( self )-> dict[int, list[int]]: '''simple docstring''' return {self.__need().index(A_ ): i for i in self.__need()} def UpperCAmelCase_ ( self , *A_ )-> None: '''simple docstring''' UpperCamelCase = self.__need() UpperCamelCase = self.__allocated_resources_table UpperCamelCase = self.__available_resources() UpperCamelCase = self.__need_index_manager() for kw, val in kwargs.items(): if kw and val is True: self.__pretty_data() print('_' 50 + '\n' ) while need_list: UpperCamelCase = False for each_need in need_list: UpperCamelCase = True for index, need in enumerate(A_ ): if need > available_resources[index]: UpperCamelCase = False break if execution: UpperCamelCase = True # get the original index of the process from ind_ctrl db for original_need_index, need_clone in need_index_manager.items(): if each_need == need_clone: UpperCamelCase = original_need_index print(F'''Process {process_number + 1} is executing.''' ) # remove the process run from stack need_list.remove(A_ ) # update available/freed resources stack UpperCamelCase = np.array(A_ ) + np.array( alloc_resources_table[process_number] ) print( 'Updated available resource stack for processes: ' + ' '.join([str(A_ ) for x in available_resources] ) ) break if safe: print('The process is in a safe state.\n' ) else: print('System in unsafe state. Aborting...\n' ) break def UpperCAmelCase_ ( self )-> Union[str, Any]: '''simple docstring''' print(' ' * 9 + 'Allocated Resource Table' ) for item in self.__allocated_resources_table: print( F'''P{self.__allocated_resources_table.index(A_ ) + 1}''' + ' '.join(F'''{it:>8}''' for it in item ) + '\n' ) print(' ' * 9 + 'System Resource Table' ) for item in self.__maximum_claim_table: print( F'''P{self.__maximum_claim_table.index(A_ ) + 1}''' + ' '.join(F'''{it:>8}''' for it in item ) + '\n' ) print( 'Current Usage by Active Processes: ' + ' '.join(str(A_ ) for x in self.__claim_vector ) ) print( 'Initial Available Resources: ' + ' '.join(str(A_ ) for x in self.__available_resources() ) ) time.sleep(1 ) if __name__ == "__main__": import doctest doctest.testmod()	251	1
"""simple docstring""" import os from typing import Optional import fsspec from fsspec.archive import AbstractArchiveFileSystem from fsspec.utils import DEFAULT_BLOCK_SIZE class lowerCAmelCase_ ( _lowercase ): '''simple docstring''' _lowerCamelCase: Dict = '''''' _lowerCamelCase: str = ( None # protocol passed in prefix to the url. ex: "gzip", for gzip://file.txt::http://foo.bar/file.txt.gz ) _lowerCamelCase: str = None # compression type in fsspec. ex: "gzip" _lowerCamelCase: str = None # extension of the filename to strip. ex: "".gz" to get file.txt from file.txt.gz def __init__( self : Union[str, Any] ,A_ : str = "" ,A_ : Optional[str] = None ,A_ : Optional[dict] = None ,A_ : int ) -> Optional[int]: super().__init__(self ,A_ ) # always open as "rb" since fsspec can then use the TextIOWrapper to make it work for "r" mode A = fsspec.open( A_ ,mode='rb' ,protocol=A_ ,compression=self.compression ,client_kwargs={ 'requote_redirect_url': False, # see https://github.com/huggingface/datasets/pull/5459 'trust_env': True, # Enable reading proxy env variables. (target_options or {}).pop('client_kwargs' ,{} ), # To avoid issues if it was already passed. } ,(target_options or {}) ,) A = os.path.basename(self.file.path.split('::' )[0] ) A = ( self.compressed_name[: self.compressed_name.rindex('.' )] if '.' in self.compressed_name else self.compressed_name ) A = None @classmethod def _SCREAMING_SNAKE_CASE ( cls : List[Any] ,A_ : Union[str, Any] ) -> Dict: # compressed file paths are always relative to the archive root return super()._strip_protocol(A_ ).lstrip('/' ) def _SCREAMING_SNAKE_CASE ( self : Tuple ) -> int: if self.dir_cache is None: A = {self.file.fs.info(self.file.path ), 'name': self.uncompressed_name} A = {f['name']: f} def _SCREAMING_SNAKE_CASE ( self : Tuple ,A_ : str ) -> Dict: return self.file.open().read() def _SCREAMING_SNAKE_CASE ( self : Tuple ,A_ : str ,A_ : str = "rb" ,A_ : List[str]=None ,A_ : Optional[int]=True ,A_ : Dict=None ,A_ : int ,) -> Tuple: A = self._strip_protocol(A_ ) if mode != "rb": raise ValueError(F'Tried to read with mode {mode} on file {self.file.path} opened with mode \'rb\'' ) return self.file.open() class lowerCAmelCase_ ( _lowercase ): '''simple docstring''' _lowerCamelCase: Any = '''bz2''' _lowerCamelCase: Tuple = '''bz2''' _lowerCamelCase: Tuple = '''.bz2''' class lowerCAmelCase_ ( _lowercase ): '''simple docstring''' _lowerCamelCase: Union[str, Any] = '''gzip''' _lowerCamelCase: str = '''gzip''' _lowerCamelCase: Dict = '''.gz''' class lowerCAmelCase_ ( _lowercase ): '''simple docstring''' _lowerCamelCase: Any = '''lz4''' _lowerCamelCase: Dict = '''lz4''' _lowerCamelCase: List[Any] = '''.lz4''' class lowerCAmelCase_ ( _lowercase ): '''simple docstring''' _lowerCamelCase: List[Any] = '''xz''' _lowerCamelCase: Tuple = '''xz''' _lowerCamelCase: List[str] = '''.xz''' class lowerCAmelCase_ ( _lowercase ): '''simple docstring''' _lowerCamelCase: Any = '''zstd''' _lowerCamelCase: int = '''zstd''' _lowerCamelCase: str = '''.zst''' def __init__( self : Optional[Any] ,A_ : str ,A_ : str = "rb" ,A_ : Optional[str] = None ,A_ : Optional[dict] = None ,A_ : int = DEFAULT_BLOCK_SIZE ,A_ : int ,) -> int: super().__init__( fo=A_ ,mode=A_ ,target_protocol=A_ ,target_options=A_ ,block_size=A_ ,A_ ,) # We need to wrap the zstd decompressor to avoid this error in fsspec==2021.7.0 and zstandard==0.15.2: # # File "/Users/user/.virtualenvs/hf-datasets/lib/python3.7/site-packages/fsspec/core.py", line 145, in open # out.close = close # AttributeError: 'zstd.ZstdDecompressionReader' object attribute 'close' is read-only # # see https://github.com/intake/filesystem_spec/issues/725 A = self.file.__enter__ class lowerCAmelCase_ : '''simple docstring''' def __init__( self : List[Any] ,A_ : int ) -> Any: A = file_ def __enter__( self : Union[str, Any] ) -> Tuple: self._file.__enter__() return self def __exit__( self : Dict ,A_ : Dict ,A_ : List[str] ) -> int: self._file.__exit__(A_ ,*A_ ) def __iter__( self : Optional[int] ) -> Optional[int]: return iter(self._file ) def _SCREAMING_SNAKE_CASE ( self : Optional[int] ) -> Optional[int]: return next(self._file ) def __getattr__( self : Optional[Any] ,A_ : int ) -> List[Any]: return getattr(self._file ,A_ ) def fixed_enter(A_ : List[Any] ,*A_ : List[str] ): return WrappedFile(_enter(A_ ,**A_ ) ) A = fixed_enter	74	import os from datetime import datetime as dt from github import Github A__: int = [ '''good first issue''', '''good second issue''', '''good difficult issue''', '''enhancement''', '''new pipeline/model''', '''new scheduler''', '''wip''', ] def lowerCAmelCase_ ( ): UpperCamelCase__: Dict = Github(os.environ["GITHUB_TOKEN"]) UpperCamelCase__: Union[str, Any] = g.get_repo("huggingface/diffusers") UpperCamelCase__: str = repo.get_issues(state="open") for issue in open_issues: UpperCamelCase__: Union[str, Any] = sorted(issue.get_comments() ,key=lambda A_: i.created_at ,reverse=A_) UpperCamelCase__: Tuple = comments[0] if len(A_) > 0 else None if ( last_comment is not None and last_comment.user.login == "github-actions[bot]" and (dt.utcnow() - issue.updated_at).days > 7 and (dt.utcnow() - issue.created_at).days >= 30 and not any(label.name.lower() in LABELS_TO_EXEMPT for label in issue.get_labels()) ): # Closes the issue after 7 days of inactivity since the Stalebot notification. issue.edit(state="closed") elif ( "stale" in issue.get_labels() and last_comment is not None and last_comment.user.login != "github-actions[bot]" ): # Opens the issue if someone other than Stalebot commented. issue.edit(state="open") issue.remove_from_labels("stale") elif ( (dt.utcnow() - issue.updated_at).days > 23 and (dt.utcnow() - issue.created_at).days >= 30 and not any(label.name.lower() in LABELS_TO_EXEMPT for label in issue.get_labels()) ): # Post a Stalebot notification after 23 days of inactivity. issue.create_comment( "This issue has been automatically marked as stale because it has not had " "recent activity. If you think this still needs to be addressed " "please comment on this thread.\n\nPlease note that issues that do not follow the " "[contributing guidelines](https://github.com/huggingface/diffusers/blob/main/CONTRIBUTING.md) " "are likely to be ignored.") issue.add_to_labels("stale") if __name__ == "__main__": main()	149	0
import inspect import unittest from transformers import MobileViTConfig from transformers.testing_utils import require_torch, require_vision, slow, torch_device from transformers.utils import cached_property, is_torch_available, is_vision_available from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin, floats_tensor, ids_tensor from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import MobileViTForImageClassification, MobileViTForSemanticSegmentation, MobileViTModel from transformers.models.mobilevit.modeling_mobilevit import MOBILEVIT_PRETRAINED_MODEL_ARCHIVE_LIST if is_vision_available(): from PIL import Image from transformers import MobileViTImageProcessor class _A ( __lowercase ): def lowercase__ ( self : str ) -> Union[str, Any]: """simple docstring""" __snake_case : str = self.config_class(*self.inputs_dict ) self.parent.assertTrue(hasattr(__magic_name__ , """hidden_sizes""" ) ) self.parent.assertTrue(hasattr(__magic_name__ , """neck_hidden_sizes""" ) ) self.parent.assertTrue(hasattr(__magic_name__ , """num_attention_heads""" ) ) class _A : def __init__( self : List[Any] , __magic_name__ : Union[str, Any] , __magic_name__ : int=13 , __magic_name__ : List[str]=32 , __magic_name__ : Optional[int]=2 , __magic_name__ : List[str]=3 , __magic_name__ : Optional[int]=6_40 , __magic_name__ : Dict=4 , __magic_name__ : Tuple="silu" , __magic_name__ : Optional[int]=3 , __magic_name__ : Any=32 , __magic_name__ : Union[str, Any]=0.1 , __magic_name__ : Union[str, Any]=0.1 , __magic_name__ : int=0.1 , __magic_name__ : Optional[int]=0.02 , __magic_name__ : List[Any]=True , __magic_name__ : Any=True , __magic_name__ : str=10 , __magic_name__ : Tuple=None , ) -> Optional[int]: """simple docstring""" __snake_case : Dict = parent __snake_case : List[str] = batch_size __snake_case : Any = image_size __snake_case : List[Any] = patch_size __snake_case : Union[str, Any] = num_channels __snake_case : Dict = last_hidden_size __snake_case : Dict = num_attention_heads __snake_case : Any = hidden_act __snake_case : int = conv_kernel_size __snake_case : Tuple = output_stride __snake_case : str = hidden_dropout_prob __snake_case : List[Any] = attention_probs_dropout_prob __snake_case : Any = classifier_dropout_prob __snake_case : Any = use_labels __snake_case : str = is_training __snake_case : int = num_labels __snake_case : int = initializer_range __snake_case : int = scope def lowercase__ ( self : str ) -> Tuple: """simple docstring""" __snake_case : List[Any] = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] ) __snake_case : int = None __snake_case : Union[str, Any] = None if self.use_labels: __snake_case : Union[str, Any] = ids_tensor([self.batch_size] , self.num_labels ) __snake_case : Union[str, Any] = ids_tensor([self.batch_size, self.image_size, self.image_size] , self.num_labels ) __snake_case : Optional[Any] = self.get_config() return config, pixel_values, labels, pixel_labels def lowercase__ ( self : Dict ) -> int: """simple docstring""" return MobileViTConfig( image_size=self.image_size , patch_size=self.patch_size , num_channels=self.num_channels , num_attention_heads=self.num_attention_heads , hidden_act=self.hidden_act , conv_kernel_size=self.conv_kernel_size , output_stride=self.output_stride , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , classifier_dropout_prob=self.classifier_dropout_prob , initializer_range=self.initializer_range , ) def lowercase__ ( self : List[Any] , __magic_name__ : List[str] , __magic_name__ : List[Any] , __magic_name__ : List[str] , __magic_name__ : Optional[int] ) -> Union[str, Any]: """simple docstring""" __snake_case : int = MobileViTModel(config=__magic_name__ ) model.to(__magic_name__ ) model.eval() __snake_case : Optional[int] = model(__magic_name__ ) self.parent.assertEqual( result.last_hidden_state.shape , ( self.batch_size, self.last_hidden_size, self.image_size // self.output_stride, self.image_size // self.output_stride, ) , ) def lowercase__ ( self : int , __magic_name__ : List[str] , __magic_name__ : Optional[Any] , __magic_name__ : Optional[int] , __magic_name__ : Any ) -> Optional[int]: """simple docstring""" __snake_case : str = self.num_labels __snake_case : Optional[Any] = MobileViTForImageClassification(__magic_name__ ) model.to(__magic_name__ ) model.eval() __snake_case : Optional[int] = model(__magic_name__ , labels=__magic_name__ ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_labels) ) def lowercase__ ( self : List[str] , __magic_name__ : Dict , __magic_name__ : Optional[Any] , __magic_name__ : Union[str, Any] , __magic_name__ : Optional[int] ) -> str: """simple docstring""" __snake_case : Tuple = self.num_labels __snake_case : str = MobileViTForSemanticSegmentation(__magic_name__ ) model.to(__magic_name__ ) model.eval() __snake_case : Any = model(__magic_name__ ) self.parent.assertEqual( result.logits.shape , ( self.batch_size, self.num_labels, self.image_size // self.output_stride, self.image_size // self.output_stride, ) , ) __snake_case : Tuple = model(__magic_name__ , labels=__magic_name__ ) self.parent.assertEqual( result.logits.shape , ( self.batch_size, self.num_labels, self.image_size // self.output_stride, self.image_size // self.output_stride, ) , ) def lowercase__ ( self : Tuple ) -> Optional[Any]: """simple docstring""" __snake_case : Any = self.prepare_config_and_inputs() __snake_case : List[str] = config_and_inputs __snake_case : List[Any] = {"""pixel_values""": pixel_values} return config, inputs_dict @require_torch class _A ( __lowercase , __lowercase , unittest.TestCase ): lowercase__: Dict = ( (MobileViTModel, MobileViTForImageClassification, MobileViTForSemanticSegmentation) if is_torch_available() else () ) lowercase__: Optional[int] = ( { '''feature-extraction''': MobileViTModel, '''image-classification''': MobileViTForImageClassification, '''image-segmentation''': MobileViTForSemanticSegmentation, } if is_torch_available() else {} ) lowercase__: Union[str, Any] = False lowercase__: Optional[int] = False lowercase__: int = False lowercase__: int = False def lowercase__ ( self : List[Any] ) -> List[str]: """simple docstring""" __snake_case : Dict = MobileViTModelTester(self ) __snake_case : Union[str, Any] = MobileViTConfigTester(self , config_class=__magic_name__ , has_text_modality=__magic_name__ ) def lowercase__ ( self : List[Any] ) -> Union[str, Any]: """simple docstring""" self.config_tester.run_common_tests() @unittest.skip(reason="""MobileViT does not use inputs_embeds""" ) def lowercase__ ( self : int ) -> List[str]: """simple docstring""" pass @unittest.skip(reason="""MobileViT does not support input and output embeddings""" ) def lowercase__ ( self : str ) -> Any: """simple docstring""" pass @unittest.skip(reason="""MobileViT does not output attentions""" ) def lowercase__ ( self : List[Any] ) -> Union[str, Any]: """simple docstring""" pass def lowercase__ ( self : Optional[Any] ) -> Optional[Any]: """simple docstring""" __snake_case : Tuple = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: __snake_case : List[str] = model_class(__magic_name__ ) __snake_case : Tuple = inspect.signature(model.forward ) # signature.parameters is an OrderedDict => so arg_names order is deterministic __snake_case : List[Any] = [signature.parameters.keys()] __snake_case : Any = ["""pixel_values"""] self.assertListEqual(arg_names[:1] , __magic_name__ ) @unittest.skip("""Will be fixed soon by reducing the size of the model used for common tests.""" ) def lowercase__ ( self : Union[str, Any] ) -> List[Any]: """simple docstring""" pass def lowercase__ ( self : int ) -> Optional[int]: """simple docstring""" __snake_case : List[str] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(__magic_name__ ) def lowercase__ ( self : Optional[int] ) -> Union[str, Any]: """simple docstring""" def check_hidden_states_output(__magic_name__ : Dict , __magic_name__ : Dict , __magic_name__ : Optional[int] ): __snake_case : Any = model_class(__magic_name__ ) model.to(__magic_name__ ) model.eval() with torch.no_grad(): __snake_case : Union[str, Any] = model(self._prepare_for_class(__magic_name__ , __magic_name__ ) ) __snake_case : List[str] = outputs.hidden_states __snake_case : Union[str, Any] = 5 self.assertEqual(len(__magic_name__ ) , __magic_name__ ) # MobileViT's feature maps are of shape (batch_size, num_channels, height, width) # with the width and height being successively divided by 2. __snake_case : Union[str, Any] = 2 for i in range(len(__magic_name__ ) ): self.assertListEqual( list(hidden_states[i].shape[-2:] ) , [self.model_tester.image_size // divisor, self.model_tester.image_size // divisor] , ) divisor = 2 self.assertEqual(self.model_tester.output_stride , divisor // 2 ) __snake_case : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: __snake_case : int = True check_hidden_states_output(__magic_name__ , __magic_name__ , __magic_name__ ) # check that output_hidden_states also work using config del inputs_dict["output_hidden_states"] __snake_case : Optional[int] = True check_hidden_states_output(__magic_name__ , __magic_name__ , __magic_name__ ) def lowercase__ ( self : Union[str, Any] ) -> Any: """simple docstring""" __snake_case : Union[str, Any] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_image_classification(__magic_name__ ) def lowercase__ ( self : Optional[Any] ) -> Tuple: """simple docstring""" __snake_case : int = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_semantic_segmentation(__magic_name__ ) @slow def lowercase__ ( self : Union[str, Any] ) -> List[Any]: """simple docstring""" for model_name in MOBILEVIT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: __snake_case : Optional[int] = MobileViTModel.from_pretrained(__magic_name__ ) self.assertIsNotNone(__magic_name__ ) def _a ( ) -> Any: """simple docstring""" __snake_case : List[Any] = Image.open("""./tests/fixtures/tests_samples/COCO/000000039769.png""" ) return image @require_torch @require_vision class _A ( unittest.TestCase ): @cached_property def lowercase__ ( self : Dict ) -> Any: """simple docstring""" return MobileViTImageProcessor.from_pretrained("""apple/mobilevit-xx-small""" ) if is_vision_available() else None @slow def lowercase__ ( self : Dict ) -> Any: """simple docstring""" __snake_case : int = MobileViTForImageClassification.from_pretrained("""apple/mobilevit-xx-small""" ).to(__magic_name__ ) __snake_case : Tuple = self.default_image_processor __snake_case : str = prepare_img() __snake_case : Optional[Any] = image_processor(images=__magic_name__ , return_tensors="""pt""" ).to(__magic_name__ ) # forward pass with torch.no_grad(): __snake_case : Any = model(__magic_name__ ) # verify the logits __snake_case : str = torch.Size((1, 10_00) ) self.assertEqual(outputs.logits.shape , __magic_name__ ) __snake_case : Optional[int] = torch.tensor([-1.9364, -1.2327, -0.4653] ).to(__magic_name__ ) self.assertTrue(torch.allclose(outputs.logits[0, :3] , __magic_name__ , atol=1E-4 ) ) @slow def lowercase__ ( self : List[str] ) -> Dict: """simple docstring""" __snake_case : Dict = MobileViTForSemanticSegmentation.from_pretrained("""apple/deeplabv3-mobilevit-xx-small""" ) __snake_case : int = model.to(__magic_name__ ) __snake_case : Dict = MobileViTImageProcessor.from_pretrained("""apple/deeplabv3-mobilevit-xx-small""" ) __snake_case : Union[str, Any] = prepare_img() __snake_case : int = image_processor(images=__magic_name__ , return_tensors="""pt""" ).to(__magic_name__ ) # forward pass with torch.no_grad(): __snake_case : str = model(__magic_name__ ) __snake_case : Optional[int] = outputs.logits # verify the logits __snake_case : Dict = torch.Size((1, 21, 32, 32) ) self.assertEqual(logits.shape , __magic_name__ ) __snake_case : Union[str, Any] = torch.tensor( [ [[6.9713, 6.9786, 7.2422], [7.2893, 7.2825, 7.4446], [7.6580, 7.8797, 7.9420]], [[-10.6869, -10.3250, -10.3471], [-10.4228, -9.9868, -9.7132], [-11.0405, -11.0221, -10.7318]], [[-3.3089, -2.8539, -2.6740], [-3.2706, -2.5621, -2.5108], [-3.2534, -2.6615, -2.6651]], ] , device=__magic_name__ , ) self.assertTrue(torch.allclose(logits[0, :3, :3, :3] , __magic_name__ , atol=1E-4 ) ) @slow def lowercase__ ( self : List[Any] ) -> Dict: """simple docstring""" __snake_case : int = MobileViTForSemanticSegmentation.from_pretrained("""apple/deeplabv3-mobilevit-xx-small""" ) __snake_case : Tuple = model.to(__magic_name__ ) __snake_case : Any = MobileViTImageProcessor.from_pretrained("""apple/deeplabv3-mobilevit-xx-small""" ) __snake_case : List[str] = prepare_img() __snake_case : List[str] = image_processor(images=__magic_name__ , return_tensors="""pt""" ).to(__magic_name__ ) # forward pass with torch.no_grad(): __snake_case : int = model(**__magic_name__ ) __snake_case : str = outputs.logits.detach().cpu() __snake_case : int = image_processor.post_process_semantic_segmentation(outputs=__magic_name__ , target_sizes=[(50, 60)] ) __snake_case : Tuple = torch.Size((50, 60) ) self.assertEqual(segmentation[0].shape , __magic_name__ ) __snake_case : str = image_processor.post_process_semantic_segmentation(outputs=__magic_name__ ) __snake_case : Tuple = torch.Size((32, 32) ) self.assertEqual(segmentation[0].shape , __magic_name__ )	354	'''simple docstring''' def _a ( _lowerCamelCase ) -> Dict: """simple docstring""" __snake_case : str = 0 __snake_case : Optional[int] = len(_lowerCamelCase ) for i in range(n - 1 ): for j in range(i + 1 , _lowerCamelCase ): if arr[i] > arr[j]: num_inversions += 1 return num_inversions def _a ( _lowerCamelCase ) -> Tuple: """simple docstring""" if len(_lowerCamelCase ) <= 1: return arr, 0 __snake_case : Any = len(_lowerCamelCase ) // 2 __snake_case : List[str] = arr[0:mid] __snake_case : int = arr[mid:] __snake_case , __snake_case : List[Any] = count_inversions_recursive(_lowerCamelCase ) __snake_case , __snake_case : Tuple = count_inversions_recursive(_lowerCamelCase ) __snake_case , __snake_case : str = _count_cross_inversions(_lowerCamelCase , _lowerCamelCase ) __snake_case : str = inversion_p + inversions_q + cross_inversions return c, num_inversions def _a ( _lowerCamelCase , _lowerCamelCase ) -> int: """simple docstring""" __snake_case : Any = [] __snake_case : List[str] = 0 while i < len(_lowerCamelCase ) and j < len(_lowerCamelCase ): if p[i] > q[j]: # if P[1] > Q[j], then P[k] > Q[k] for all i < k <= len(P) # These are all inversions. The claim emerges from the # property that P is sorted. num_inversion += len(_lowerCamelCase ) - i r.append(q[j] ) j += 1 else: r.append(p[i] ) i += 1 if i < len(_lowerCamelCase ): r.extend(p[i:] ) else: r.extend(q[j:] ) return r, num_inversion def _a ( ) -> Optional[int]: """simple docstring""" __snake_case : Optional[Any] = [10, 2, 1, 5, 5, 2, 11] # this arr has 8 inversions: # (10, 2), (10, 1), (10, 5), (10, 5), (10, 2), (2, 1), (5, 2), (5, 2) __snake_case : Optional[Any] = count_inversions_bf(_lowerCamelCase ) __snake_case , __snake_case : Union[str, Any] = count_inversions_recursive(_lowerCamelCase ) assert num_inversions_bf == num_inversions_recursive == 8 print("""number of inversions = """ , _lowerCamelCase ) # testing an array with zero inversion (a sorted arr_1) arr_a.sort() __snake_case : Any = count_inversions_bf(_lowerCamelCase ) __snake_case , __snake_case : Union[str, Any] = count_inversions_recursive(_lowerCamelCase ) assert num_inversions_bf == num_inversions_recursive == 0 print("""number of inversions = """ , _lowerCamelCase ) # an empty list should also have zero inversions __snake_case : List[Any] = [] __snake_case : List[Any] = count_inversions_bf(_lowerCamelCase ) __snake_case , __snake_case : List[Any] = count_inversions_recursive(_lowerCamelCase ) assert num_inversions_bf == num_inversions_recursive == 0 print("""number of inversions = """ , _lowerCamelCase ) if __name__ == "__main__": main()	13	0
from .glue import GlueDataset, GlueDataTrainingArguments from .language_modeling import ( LineByLineTextDataset, LineByLineWithRefDataset, LineByLineWithSOPTextDataset, TextDataset, TextDatasetForNextSentencePrediction, ) from .squad import SquadDataset, SquadDataTrainingArguments	305	import uuid from typing import Any, Dict, List, Optional, Union from ..utils import add_end_docstrings, is_tf_available, is_torch_available, logging from .base import PIPELINE_INIT_ARGS, Pipeline if is_tf_available(): import tensorflow as tf if is_torch_available(): import torch a_ = logging.get_logger(__name__) class __lowerCAmelCase : def __init__( self , __UpperCAmelCase = None , __UpperCAmelCase = None , __UpperCAmelCase=None , __UpperCAmelCase=None ): '''simple docstring''' if not conversation_id: __lowerCamelCase = uuid.uuida() if past_user_inputs is None: __lowerCamelCase = [] if generated_responses is None: __lowerCamelCase = [] __lowerCamelCase = conversation_id __lowerCamelCase = past_user_inputs __lowerCamelCase = generated_responses __lowerCamelCase = text def __eq__( self , __UpperCAmelCase ): '''simple docstring''' if not isinstance(__UpperCAmelCase , __UpperCAmelCase ): return False if self.uuid == other.uuid: return True return ( self.new_user_input == other.new_user_input and self.past_user_inputs == other.past_user_inputs and self.generated_responses == other.generated_responses ) def lowerCamelCase ( self , __UpperCAmelCase , __UpperCAmelCase = False ): '''simple docstring''' if self.new_user_input: if overwrite: logger.warning( F"""User input added while unprocessed input was existing: \"{self.new_user_input}\" was overwritten """ F"""with: \"{text}\".""" ) __lowerCamelCase = text else: logger.warning( F"""User input added while unprocessed input was existing: \"{self.new_user_input}\" new input """ F"""ignored: \"{text}\". Set `overwrite` to True to overwrite unprocessed user input""" ) else: __lowerCamelCase = text def lowerCamelCase ( self ): '''simple docstring''' if self.new_user_input: self.past_user_inputs.append(self.new_user_input ) __lowerCamelCase = None def lowerCamelCase ( self , __UpperCAmelCase ): '''simple docstring''' self.generated_responses.append(__UpperCAmelCase ) def lowerCamelCase ( self ): '''simple docstring''' for user_input, generated_response in zip(self.past_user_inputs , self.generated_responses ): yield True, user_input yield False, generated_response if self.new_user_input: yield True, self.new_user_input def __repr__( self ): '''simple docstring''' __lowerCamelCase = F"""Conversation id: {self.uuid} \n""" for is_user, text in self.iter_texts(): __lowerCamelCase = '''user''' if is_user else '''bot''' output += F"""{name} >> {text} \n""" return output @add_end_docstrings( lowerCAmelCase__ , r""" min_length_for_response (`int`, optional, defaults to 32): The minimum length (in number of tokens) for a response. minimum_tokens (`int`, optional, defaults to 10): The minimum length of tokens to leave for a response. """ , ) class __lowerCAmelCase ( lowerCAmelCase__ ): def __init__( self , __UpperCAmelCase , __UpperCAmelCase ): '''simple docstring''' super().__init__(__UpperCAmelCase , __UpperCAmelCase ) if self.tokenizer.pad_token_id is None: __lowerCamelCase = self.tokenizer.eos_token def lowerCamelCase ( self , __UpperCAmelCase=None , __UpperCAmelCase=None , __UpperCAmelCase=None , __UpperCAmelCase ): '''simple docstring''' __lowerCamelCase = {} __lowerCamelCase = {} __lowerCamelCase = {} if min_length_for_response is not None: __lowerCamelCase = min_length_for_response if minimum_tokens is not None: __lowerCamelCase = minimum_tokens if "max_length" in generate_kwargs: __lowerCamelCase = generate_kwargs['''max_length'''] # self.max_length = generate_kwargs.get("max_length", self.model.config.max_length) if clean_up_tokenization_spaces is not None: __lowerCamelCase = clean_up_tokenization_spaces if generate_kwargs: forward_params.update(__UpperCAmelCase ) return preprocess_params, forward_params, postprocess_params def __call__( self , __UpperCAmelCase , __UpperCAmelCase=0 , __UpperCAmelCase ): '''simple docstring''' __lowerCamelCase = super().__call__(__UpperCAmelCase , num_workers=__UpperCAmelCase , __UpperCAmelCase ) if isinstance(__UpperCAmelCase , __UpperCAmelCase ) and len(__UpperCAmelCase ) == 1: return outputs[0] return outputs def lowerCamelCase ( self , __UpperCAmelCase , __UpperCAmelCase=32 ): '''simple docstring''' if not isinstance(__UpperCAmelCase , __UpperCAmelCase ): raise ValueError('''ConversationalPipeline, expects Conversation as inputs''' ) if conversation.new_user_input is None: raise ValueError( F"""Conversation with UUID {type(conversation.uuid )} does not contain new user input to process. """ '''Add user inputs with the conversation\'s `add_user_input` method''' ) if hasattr(self.tokenizer , '''_build_conversation_input_ids''' ): __lowerCamelCase = self.tokenizer._build_conversation_input_ids(__UpperCAmelCase ) else: # If the tokenizer cannot handle conversations, we default to only the old version __lowerCamelCase = self._legacy_parse_and_tokenize(__UpperCAmelCase ) if self.framework == "pt": __lowerCamelCase = torch.LongTensor([input_ids] ) elif self.framework == "tf": __lowerCamelCase = tf.constant([input_ids] ) return {"input_ids": input_ids, "conversation": conversation} def lowerCamelCase ( self , __UpperCAmelCase , __UpperCAmelCase=10 , __UpperCAmelCase ): '''simple docstring''' __lowerCamelCase = generate_kwargs.get('''max_length''' , self.model.config.max_length ) __lowerCamelCase = model_inputs['''input_ids'''].shape[1] if max_length - minimum_tokens < n: logger.warning(F"""Conversation input is to long ({n}), trimming it to ({max_length} - {minimum_tokens})""" ) __lowerCamelCase = max_length - minimum_tokens __lowerCamelCase = model_inputs['''input_ids'''][:, -trim:] if "attention_mask" in model_inputs: __lowerCamelCase = model_inputs['''attention_mask'''][:, -trim:] __lowerCamelCase = model_inputs.pop('''conversation''' ) __lowerCamelCase = max_length __lowerCamelCase = self.model.generate(__UpperCAmelCase , **__UpperCAmelCase ) if self.model.config.is_encoder_decoder: __lowerCamelCase = 1 else: __lowerCamelCase = n return {"output_ids": output_ids[:, start_position:], "conversation": conversation} def lowerCamelCase ( self , __UpperCAmelCase , __UpperCAmelCase=True ): '''simple docstring''' __lowerCamelCase = model_outputs['''output_ids'''] __lowerCamelCase = self.tokenizer.decode( output_ids[0] , skip_special_tokens=__UpperCAmelCase , clean_up_tokenization_spaces=__UpperCAmelCase , ) __lowerCamelCase = model_outputs['''conversation'''] conversation.mark_processed() conversation.append_response(__UpperCAmelCase ) return conversation def lowerCamelCase ( self , __UpperCAmelCase ): '''simple docstring''' __lowerCamelCase = self.tokenizer.eos_token_id __lowerCamelCase = [] for is_user, text in conversation.iter_texts(): if eos_token_id is not None: input_ids.extend(self.tokenizer.encode(__UpperCAmelCase , add_special_tokens=__UpperCAmelCase ) + [eos_token_id] ) else: input_ids.extend(self.tokenizer.encode(__UpperCAmelCase , add_special_tokens=__UpperCAmelCase ) ) if len(__UpperCAmelCase ) > self.tokenizer.model_max_length: __lowerCamelCase = input_ids[-self.tokenizer.model_max_length :] return input_ids	330	0
import itertools import random import unittest import numpy as np from transformers import WAV_2_VEC_2_PRETRAINED_MODEL_ARCHIVE_LIST, WavaVecaConfig, WavaVecaFeatureExtractor from transformers.testing_utils import require_torch, slow from ...test_sequence_feature_extraction_common import SequenceFeatureExtractionTestMixin UpperCAmelCase : str = random.Random() def _A ( SCREAMING_SNAKE_CASE : List[Any] , SCREAMING_SNAKE_CASE : int=1.0 , SCREAMING_SNAKE_CASE : Any=None , SCREAMING_SNAKE_CASE : Union[str, Any]=None ): """simple docstring""" if rng is None: a__ : int =global_rng a__ : List[Any] =[] for batch_idx in range(shape[0] ): values.append([] ) for _ in range(shape[1] ): values[-1].append(rng.random() * scale ) return values class __lowerCAmelCase ( unittest.TestCase): def __init__( self , lowerCAmelCase__ , lowerCAmelCase__=7 , lowerCAmelCase__=4_0_0 , lowerCAmelCase__=2_0_0_0 , lowerCAmelCase__=1 , lowerCAmelCase__=0.0 , lowerCAmelCase__=1_6_0_0_0 , lowerCAmelCase__=True , lowerCAmelCase__=True , ) -> Union[str, Any]: '''simple docstring''' a__ : Any =parent a__ : Any =batch_size a__ : Optional[int] =min_seq_length a__ : Optional[Any] =max_seq_length a__ : List[Any] =(self.max_seq_length - self.min_seq_length) // (self.batch_size - 1) a__ : List[Any] =feature_size a__ : Any =padding_value a__ : List[Any] =sampling_rate a__ : Tuple =return_attention_mask a__ : List[str] =do_normalize def _lowercase ( self ) -> Tuple: '''simple docstring''' return { "feature_size": self.feature_size, "padding_value": self.padding_value, "sampling_rate": self.sampling_rate, "return_attention_mask": self.return_attention_mask, "do_normalize": self.do_normalize, } def _lowercase ( self , lowerCAmelCase__=False , lowerCAmelCase__=False ) -> Dict: '''simple docstring''' def _flatten(lowerCAmelCase__ ): return list(itertools.chain(lowerCAmelCase__ ) ) if equal_length: a__ : int =floats_list((self.batch_size, self.max_seq_length) ) else: # make sure that inputs increase in size a__ : Tuple =[ _flatten(floats_list((x, self.feature_size) ) ) for x in range(self.min_seq_length , self.max_seq_length , self.seq_length_diff ) ] if numpify: a__ : Optional[Any] =[np.asarray(lowerCAmelCase__ ) for x in speech_inputs] return speech_inputs class __lowerCAmelCase ( UpperCamelCase__ , unittest.TestCase): _lowercase : Optional[int] = WavaVecaFeatureExtractor def _lowercase ( self ) -> Optional[int]: '''simple docstring''' a__ : Union[str, Any] =WavaVecaFeatureExtractionTester(self ) def _lowercase ( self , lowerCAmelCase__ ) -> List[Any]: '''simple docstring''' self.assertTrue(np.all(np.mean(lowerCAmelCase__ , axis=0 ) < 1E-3 ) ) self.assertTrue(np.all(np.abs(np.var(lowerCAmelCase__ , axis=0 ) - 1 ) < 1E-3 ) ) def _lowercase ( self ) -> int: '''simple docstring''' a__ : Any =self.feature_extraction_class(self.feat_extract_tester.prepare_feat_extract_dict() ) # create three inputs of length 800, 1000, and 1200 a__ : int =[floats_list((1, x) )[0] for x in range(8_0_0 , 1_4_0_0 , 2_0_0 )] a__ : Tuple =[np.asarray(lowerCAmelCase__ ) for speech_input in speech_inputs] # Test not batched input a__ : Any =feat_extract(speech_inputs[0] , return_tensors="np" ).input_values a__ : Dict =feat_extract(np_speech_inputs[0] , return_tensors="np" ).input_values self.assertTrue(np.allclose(lowerCAmelCase__ , lowerCAmelCase__ , atol=1E-3 ) ) # Test batched a__ : str =feat_extract(lowerCAmelCase__ , return_tensors="np" ).input_values a__ : Optional[Any] =feat_extract(lowerCAmelCase__ , return_tensors="np" ).input_values for enc_seq_a, enc_seq_a in zip(lowerCAmelCase__ , lowerCAmelCase__ ): self.assertTrue(np.allclose(lowerCAmelCase__ , lowerCAmelCase__ , atol=1E-3 ) ) # Test 2-D numpy arrays are batched. a__ : List[str] =[floats_list((1, x) )[0] for x in (8_0_0, 8_0_0, 8_0_0)] a__ : Tuple =np.asarray(lowerCAmelCase__ ) a__ : Optional[int] =feat_extract(lowerCAmelCase__ , return_tensors="np" ).input_values a__ : List[str] =feat_extract(lowerCAmelCase__ , return_tensors="np" ).input_values for enc_seq_a, enc_seq_a in zip(lowerCAmelCase__ , lowerCAmelCase__ ): self.assertTrue(np.allclose(lowerCAmelCase__ , lowerCAmelCase__ , atol=1E-3 ) ) def _lowercase ( self ) -> Dict: '''simple docstring''' a__ : Union[str, Any] =self.feature_extraction_class(self.feat_extract_tester.prepare_feat_extract_dict() ) a__ : Optional[int] =[floats_list((1, x) )[0] for x in range(8_0_0 , 1_4_0_0 , 2_0_0 )] a__ : List[Any] =["longest", "max_length", "do_not_pad"] a__ : Optional[int] =[None, 1_6_0_0, None] for max_length, padding in zip(lowerCAmelCase__ , lowerCAmelCase__ ): a__ : Union[str, Any] =feat_extract(lowerCAmelCase__ , padding=lowerCAmelCase__ , max_length=lowerCAmelCase__ , return_tensors="np" ) a__ : Dict =processed.input_values self._check_zero_mean_unit_variance(input_values[0][:8_0_0] ) self.assertTrue(input_values[0][8_0_0:].sum() < 1E-6 ) self._check_zero_mean_unit_variance(input_values[1][:1_0_0_0] ) self.assertTrue(input_values[0][1_0_0_0:].sum() < 1E-6 ) self._check_zero_mean_unit_variance(input_values[2][:1_2_0_0] ) def _lowercase ( self ) -> List[Any]: '''simple docstring''' a__ : Tuple =self.feature_extraction_class(self.feat_extract_tester.prepare_feat_extract_dict() ) a__ : List[str] =range(8_0_0 , 1_4_0_0 , 2_0_0 ) a__ : List[str] =[floats_list((1, x) )[0] for x in lengths] a__ : Tuple =["longest", "max_length", "do_not_pad"] a__ : Tuple =[None, 1_6_0_0, None] for max_length, padding in zip(lowerCAmelCase__ , lowerCAmelCase__ ): a__ : Optional[Any] =feat_extract(lowerCAmelCase__ , max_length=lowerCAmelCase__ , padding=lowerCAmelCase__ ) a__ : str =processed.input_values self._check_zero_mean_unit_variance(input_values[0][:8_0_0] ) self._check_zero_mean_unit_variance(input_values[1][:1_0_0_0] ) self._check_zero_mean_unit_variance(input_values[2][:1_2_0_0] ) def _lowercase ( self ) -> Dict: '''simple docstring''' a__ : Optional[int] =self.feature_extraction_class(self.feat_extract_tester.prepare_feat_extract_dict() ) a__ : Union[str, Any] =[floats_list((1, x) )[0] for x in range(8_0_0 , 1_4_0_0 , 2_0_0 )] a__ : Any =feat_extract( lowerCAmelCase__ , truncation=lowerCAmelCase__ , max_length=1_0_0_0 , padding="max_length" , return_tensors="np" ) a__ : str =processed.input_values self._check_zero_mean_unit_variance(input_values[0, :8_0_0] ) self._check_zero_mean_unit_variance(input_values[1] ) self._check_zero_mean_unit_variance(input_values[2] ) def _lowercase ( self ) -> int: '''simple docstring''' a__ : List[Any] =self.feature_extraction_class(self.feat_extract_tester.prepare_feat_extract_dict() ) a__ : List[Any] =[floats_list((1, x) )[0] for x in range(8_0_0 , 1_4_0_0 , 2_0_0 )] a__ : str =feat_extract( lowerCAmelCase__ , truncation=lowerCAmelCase__ , max_length=1_0_0_0 , padding="longest" , return_tensors="np" ) a__ : Optional[int] =processed.input_values self._check_zero_mean_unit_variance(input_values[0, :8_0_0] ) self._check_zero_mean_unit_variance(input_values[1, :1_0_0_0] ) self._check_zero_mean_unit_variance(input_values[2] ) # make sure that if max_length < longest -> then pad to max_length self.assertTrue(input_values.shape == (3, 1_0_0_0) ) a__ : Any =[floats_list((1, x) )[0] for x in range(8_0_0 , 1_4_0_0 , 2_0_0 )] a__ : Dict =feat_extract( lowerCAmelCase__ , truncation=lowerCAmelCase__ , max_length=2_0_0_0 , padding="longest" , return_tensors="np" ) a__ : Tuple =processed.input_values self._check_zero_mean_unit_variance(input_values[0, :8_0_0] ) self._check_zero_mean_unit_variance(input_values[1, :1_0_0_0] ) self._check_zero_mean_unit_variance(input_values[2] ) # make sure that if max_length > longest -> then pad to longest self.assertTrue(input_values.shape == (3, 1_2_0_0) ) @require_torch def _lowercase ( self ) -> Optional[int]: '''simple docstring''' import torch a__ : Dict =self.feature_extraction_class(*self.feat_extract_tester.prepare_feat_extract_dict() ) a__ : List[Any] =np.random.rand(1_0_0 ).astype(np.floataa ) a__ : Optional[int] =np_speech_inputs.tolist() for inputs in [py_speech_inputs, np_speech_inputs]: a__ : Any =feature_extractor.pad([{"input_values": inputs}] , return_tensors="np" ) self.assertTrue(np_processed.input_values.dtype == np.floataa ) a__ : List[Any] =feature_extractor.pad([{"input_values": inputs}] , return_tensors="pt" ) self.assertTrue(pt_processed.input_values.dtype == torch.floataa ) @slow @require_torch def _lowercase ( self ) -> Dict: '''simple docstring''' for model_id in WAV_2_VEC_2_PRETRAINED_MODEL_ARCHIVE_LIST: a__ : Optional[Any] =WavaVecaConfig.from_pretrained(lowerCAmelCase__ ) a__ : Any =WavaVecaFeatureExtractor.from_pretrained(lowerCAmelCase__ ) # only "layer" feature extraction norm should make use of # attention_mask self.assertEqual(feat_extract.return_attention_mask , config.feat_extract_norm == "layer" )	148	import unittest from transformers import ( MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING, TF_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING, TextClassificationPipeline, pipeline, ) from transformers.testing_utils import is_pipeline_test, nested_simplify, require_tf, require_torch, slow from .test_pipelines_common import ANY # These 2 model types require different inputs than those of the usual text models. UpperCAmelCase : List[Any] = {"""LayoutLMv2Config""", """LayoutLMv3Config"""} @is_pipeline_test class __lowerCAmelCase ( unittest.TestCase): _lowercase : str = MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING _lowercase : Tuple = TF_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING if model_mapping is not None: _lowercase : Dict = {config: model for config, model in model_mapping.items() if config.__name__ not in _TO_SKIP} if tf_model_mapping is not None: _lowercase : int = { config: model for config, model in tf_model_mapping.items() if config.__name__ not in _TO_SKIP } @require_torch def _lowercase ( self ) -> Tuple: '''simple docstring''' a__ : str =pipeline( task="text-classification" , model="hf-internal-testing/tiny-random-distilbert" , framework="pt" ) a__ : Any =text_classifier("This is great !" ) self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "LABEL_0", "score": 0.5_04}] ) a__ : Any =text_classifier("This is great !" , top_k=2 ) self.assertEqual( nested_simplify(lowerCAmelCase__ ) , [{"label": "LABEL_0", "score": 0.5_04}, {"label": "LABEL_1", "score": 0.4_96}] ) a__ : Tuple =text_classifier(["This is great !", "This is bad"] , top_k=2 ) self.assertEqual( nested_simplify(lowerCAmelCase__ ) , [ [{"label": "LABEL_0", "score": 0.5_04}, {"label": "LABEL_1", "score": 0.4_96}], [{"label": "LABEL_0", "score": 0.5_04}, {"label": "LABEL_1", "score": 0.4_96}], ] , ) a__ : List[Any] =text_classifier("This is great !" , top_k=1 ) self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "LABEL_0", "score": 0.5_04}] ) # Legacy behavior a__ : Any =text_classifier("This is great !" , return_all_scores=lowerCAmelCase__ ) self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "LABEL_0", "score": 0.5_04}] ) a__ : List[str] =text_classifier("This is great !" , return_all_scores=lowerCAmelCase__ ) self.assertEqual( nested_simplify(lowerCAmelCase__ ) , [[{"label": "LABEL_0", "score": 0.5_04}, {"label": "LABEL_1", "score": 0.4_96}]] ) a__ : Optional[int] =text_classifier(["This is great !", "Something else"] , return_all_scores=lowerCAmelCase__ ) self.assertEqual( nested_simplify(lowerCAmelCase__ ) , [ [{"label": "LABEL_0", "score": 0.5_04}, {"label": "LABEL_1", "score": 0.4_96}], [{"label": "LABEL_0", "score": 0.5_04}, {"label": "LABEL_1", "score": 0.4_96}], ] , ) a__ : int =text_classifier(["This is great !", "Something else"] , return_all_scores=lowerCAmelCase__ ) self.assertEqual( nested_simplify(lowerCAmelCase__ ) , [ {"label": "LABEL_0", "score": 0.5_04}, {"label": "LABEL_0", "score": 0.5_04}, ] , ) @require_torch def _lowercase ( self ) -> List[Any]: '''simple docstring''' import torch a__ : Dict =pipeline( task="text-classification" , model="hf-internal-testing/tiny-random-distilbert" , framework="pt" , device=torch.device("cpu" ) , ) a__ : Optional[Any] =text_classifier("This is great !" ) self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "LABEL_0", "score": 0.5_04}] ) @require_tf def _lowercase ( self ) -> Union[str, Any]: '''simple docstring''' a__ : Optional[int] =pipeline( task="text-classification" , model="hf-internal-testing/tiny-random-distilbert" , framework="tf" ) a__ : Optional[Any] =text_classifier("This is great !" ) self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "LABEL_0", "score": 0.5_04}] ) @slow @require_torch def _lowercase ( self ) -> str: '''simple docstring''' a__ : Union[str, Any] =pipeline("text-classification" ) a__ : Union[str, Any] =text_classifier("This is great !" ) self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "POSITIVE", "score": 1.0}] ) a__ : Optional[Any] =text_classifier("This is bad !" ) self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "NEGATIVE", "score": 1.0}] ) a__ : Dict =text_classifier("Birds are a type of animal" ) self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "POSITIVE", "score": 0.9_88}] ) @slow @require_tf def _lowercase ( self ) -> Optional[int]: '''simple docstring''' a__ : Tuple =pipeline("text-classification" , framework="tf" ) a__ : str =text_classifier("This is great !" ) self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "POSITIVE", "score": 1.0}] ) a__ : str =text_classifier("This is bad !" ) self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "NEGATIVE", "score": 1.0}] ) a__ : Dict =text_classifier("Birds are a type of animal" ) self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "POSITIVE", "score": 0.9_88}] ) def _lowercase ( self , lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ ) -> Optional[int]: '''simple docstring''' a__ : List[Any] =TextClassificationPipeline(model=lowerCAmelCase__ , tokenizer=lowerCAmelCase__ ) return text_classifier, ["HuggingFace is in", "This is another test"] def _lowercase ( self , lowerCAmelCase__ , lowerCAmelCase__ ) -> List[str]: '''simple docstring''' a__ : Tuple =text_classifier.model # Small inputs because BartTokenizer tiny has maximum position embeddings = 22 a__ : List[Any] ="HuggingFace is in" a__ : int =text_classifier(lowerCAmelCase__ ) self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": ANY(lowerCAmelCase__ ), "score": ANY(lowerCAmelCase__ )}] ) self.assertTrue(outputs[0]["label"] in model.config.idalabel.values() ) a__ : Optional[int] =["HuggingFace is in ", "Paris is in France"] a__ : Optional[Any] =text_classifier(lowerCAmelCase__ ) self.assertEqual( nested_simplify(lowerCAmelCase__ ) , [{"label": ANY(lowerCAmelCase__ ), "score": ANY(lowerCAmelCase__ )}, {"label": ANY(lowerCAmelCase__ ), "score": ANY(lowerCAmelCase__ )}] , ) self.assertTrue(outputs[0]["label"] in model.config.idalabel.values() ) self.assertTrue(outputs[1]["label"] in model.config.idalabel.values() ) # Forcing to get all results with `top_k=None` # This is NOT the legacy format a__ : Union[str, Any] =text_classifier(lowerCAmelCase__ , top_k=lowerCAmelCase__ ) a__ : Optional[Any] =len(model.config.idalabel.values() ) self.assertEqual( nested_simplify(lowerCAmelCase__ ) , [[{"label": ANY(lowerCAmelCase__ ), "score": ANY(lowerCAmelCase__ )}] * N, [{"label": ANY(lowerCAmelCase__ ), "score": ANY(lowerCAmelCase__ )}] * N] , ) a__ : List[str] ={"text": "HuggingFace is in ", "text_pair": "Paris is in France"} a__ : Optional[Any] =text_classifier(lowerCAmelCase__ ) self.assertEqual( nested_simplify(lowerCAmelCase__ ) , {"label": ANY(lowerCAmelCase__ ), "score": ANY(lowerCAmelCase__ )} , ) self.assertTrue(outputs["label"] in model.config.idalabel.values() ) # This might be used a text pair, but tokenizer + pipe interaction # makes it hard to understand that it's not using the pair properly # https://github.com/huggingface/transformers/issues/17305 # We disabled this usage instead as it was outputting wrong outputs. a__ : Any =[["HuggingFace is in ", "Paris is in France"]] with self.assertRaises(lowerCAmelCase__ ): text_classifier(lowerCAmelCase__ ) # This used to be valid for doing text pairs # We're keeping it working because of backward compatibility a__ : Optional[int] =text_classifier([[["HuggingFace is in ", "Paris is in France"]]] ) self.assertEqual( nested_simplify(lowerCAmelCase__ ) , [{"label": ANY(lowerCAmelCase__ ), "score": ANY(lowerCAmelCase__ )}] , ) self.assertTrue(outputs[0]["label"] in model.config.idalabel.values() )	148	1
def __snake_case ( ): for n in range(1 , 1000000 ): yield n * (n + 1) // 2 def __snake_case ( _UpperCAmelCase ): __a = 1 __a = 2 while i * i <= n: __a = 0 while n % i == 0: n //= i multiplicity += 1 divisors_count = multiplicity + 1 i += 1 if n > 1: divisors_count = 2 return divisors_count def __snake_case ( ): return next(i for i in triangle_number_generator() if count_divisors(_UpperCAmelCase ) > 500 ) if __name__ == "__main__": print(solution())	49	'''simple docstring''' from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available __lowercase = { '''configuration_instructblip''': [ '''INSTRUCTBLIP_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''InstructBlipConfig''', '''InstructBlipQFormerConfig''', '''InstructBlipVisionConfig''', ], '''processing_instructblip''': ['''InstructBlipProcessor'''], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: __lowercase = [ '''INSTRUCTBLIP_PRETRAINED_MODEL_ARCHIVE_LIST''', '''InstructBlipQFormerModel''', '''InstructBlipPreTrainedModel''', '''InstructBlipForConditionalGeneration''', '''InstructBlipVisionModel''', ] if TYPE_CHECKING: from .configuration_instructblip import ( INSTRUCTBLIP_PRETRAINED_CONFIG_ARCHIVE_MAP, InstructBlipConfig, InstructBlipQFormerConfig, InstructBlipVisionConfig, ) from .processing_instructblip import InstructBlipProcessor try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_instructblip import ( INSTRUCTBLIP_PRETRAINED_MODEL_ARCHIVE_LIST, InstructBlipForConditionalGeneration, InstructBlipPreTrainedModel, InstructBlipQFormerModel, InstructBlipVisionModel, ) else: import sys __lowercase = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)	272	0
"""simple docstring""" from typing import List import datasets from datasets.tasks import AudioClassification from ..folder_based_builder import folder_based_builder a_ = datasets.utils.logging.get_logger(__name__) class snake_case ( folder_based_builder.FolderBasedBuilderConfig): __UpperCamelCase = None __UpperCamelCase = None class snake_case ( folder_based_builder.FolderBasedBuilder): __UpperCamelCase = datasets.Audio() __UpperCamelCase = 'audio' __UpperCamelCase = AudioFolderConfig __UpperCamelCase = 42 # definition at the bottom of the script __UpperCamelCase = AudioClassification(audio_column='audio' , label_column='label') a_ = [ ".aiff", ".au", ".avr", ".caf", ".flac", ".htk", ".svx", ".mat4", ".mat5", ".mpc2k", ".ogg", ".paf", ".pvf", ".raw", ".rf64", ".sd2", ".sds", ".ircam", ".voc", ".w64", ".wav", ".nist", ".wavex", ".wve", ".xi", ".mp3", ".opus", ] a_ = AUDIO_EXTENSIONS	163	"""simple docstring""" import argparse import re from pathlib import Path import requests import torch from PIL import Image from torchvision.transforms import CenterCrop, Compose, Normalize, Resize, ToTensor from transformers import ( EfficientFormerConfig, EfficientFormerForImageClassificationWithTeacher, EfficientFormerImageProcessor, ) from transformers.image_utils import IMAGENET_DEFAULT_MEAN, IMAGENET_DEFAULT_STD, PILImageResampling def a__ ( __lowercase , __lowercase ) -> Dict: _A = old_name if "patch_embed" in old_name: _A , _A , _A = old_name.split("." ) if layer == "0": _A = old_name.replace("0" , "convolution1" ) elif layer == "1": _A = old_name.replace("1" , "batchnorm_before" ) elif layer == "3": _A = old_name.replace("3" , "convolution2" ) else: _A = old_name.replace("4" , "batchnorm_after" ) if "network" in old_name and re.search(R"\d\.\d" , __lowercase ): _A = R"\b\d{2}\b" if bool(re.search(__lowercase , __lowercase ) ): _A = re.search(R"\d\.\d\d." , __lowercase ).group() else: _A = re.search(R"\d\.\d." , __lowercase ).group() if int(match[0] ) < 6: _A = old_name.replace(__lowercase , "" ) _A = trimmed_name.replace("network" , match[0] + ".meta4D_layers.blocks." + match[2:-1] ) _A = "intermediate_stages." + trimmed_name else: _A = old_name.replace(__lowercase , "" ) if int(match[2] ) < num_meta4D_last_stage: _A = trimmed_name.replace("network" , "meta4D_layers.blocks." + match[2] ) else: _A = str(int(match[2] ) - num_meta4D_last_stage ) _A = trimmed_name.replace("network" , "meta3D_layers.blocks." + layer_index ) if "norm1" in old_name: _A = trimmed_name.replace("norm1" , "layernorm1" ) elif "norm2" in old_name: _A = trimmed_name.replace("norm2" , "layernorm2" ) elif "fc1" in old_name: _A = trimmed_name.replace("fc1" , "linear_in" ) elif "fc2" in old_name: _A = trimmed_name.replace("fc2" , "linear_out" ) _A = "last_stage." + trimmed_name elif "network" in old_name and re.search(R".\d." , __lowercase ): _A = old_name.replace("network" , "intermediate_stages" ) if "fc" in new_name: _A = new_name.replace("fc" , "convolution" ) elif ("norm1" in new_name) and ("layernorm1" not in new_name): _A = new_name.replace("norm1" , "batchnorm_before" ) elif ("norm2" in new_name) and ("layernorm2" not in new_name): _A = new_name.replace("norm2" , "batchnorm_after" ) if "proj" in new_name: _A = new_name.replace("proj" , "projection" ) if "dist_head" in new_name: _A = new_name.replace("dist_head" , "distillation_classifier" ) elif "head" in new_name: _A = new_name.replace("head" , "classifier" ) elif "patch_embed" in new_name: _A = "efficientformer." + new_name elif new_name == "norm.weight" or new_name == "norm.bias": _A = new_name.replace("norm" , "layernorm" ) _A = "efficientformer." + new_name else: _A = "efficientformer.encoder." + new_name return new_name def a__ ( __lowercase , __lowercase ) -> List[str]: for key in checkpoint.copy().keys(): _A = checkpoint.pop(__lowercase ) _A = val return checkpoint def a__ ( ) -> Dict: _A = "http://images.cocodataset.org/val2017/000000039769.jpg" _A = Image.open(requests.get(__lowercase , stream=__lowercase ).raw ) return image def a__ ( __lowercase , __lowercase , __lowercase , __lowercase ) -> str: _A = torch.load(__lowercase , map_location="cpu" )["model"] _A = EfficientFormerConfig.from_json_file(__lowercase ) _A = EfficientFormerForImageClassificationWithTeacher(__lowercase ) _A = "_".join(checkpoint_path.split("/" )[-1].split("." )[0].split("_" )[:-1] ) _A = config.depths[-1] - config.num_metaad_blocks + 1 _A = convert_torch_checkpoint(__lowercase , __lowercase ) model.load_state_dict(__lowercase ) model.eval() _A = { "bilinear": PILImageResampling.BILINEAR, "bicubic": PILImageResampling.BICUBIC, "nearest": PILImageResampling.NEAREST, } # prepare image _A = prepare_img() _A = 256 _A = 224 _A = EfficientFormerImageProcessor( size={"shortest_edge": image_size} , crop_size={"height": crop_size, "width": crop_size} , resample=pillow_resamplings["bicubic"] , ) _A = processor(images=__lowercase , return_tensors="pt" ).pixel_values # original processing pipeline _A = Compose( [ Resize(__lowercase , interpolation=pillow_resamplings["bicubic"] ), CenterCrop(__lowercase ), ToTensor(), Normalize(__lowercase , __lowercase ), ] ) _A = image_transforms(__lowercase ).unsqueeze(0 ) assert torch.allclose(__lowercase , __lowercase ) _A = model(__lowercase ) _A = outputs.logits _A = (1, 1000) if "l1" in model_name: _A = torch.Tensor( [-0.1_312, 0.4_353, -1.0_499, -0.5_124, 0.4_183, -0.6_793, -1.3_777, -0.0_893, -0.7_358, -2.4_328] ) assert torch.allclose(logits[0, :10] , __lowercase , atol=1E-3 ) assert logits.shape == expected_shape elif "l3" in model_name: _A = torch.Tensor( [-1.3_150, -1.5_456, -1.2_556, -0.8_496, -0.7_127, -0.7_897, -0.9_728, -0.3_052, 0.3_751, -0.3_127] ) assert torch.allclose(logits[0, :10] , __lowercase , atol=1E-3 ) assert logits.shape == expected_shape elif "l7" in model_name: _A = torch.Tensor( [-1.0_283, -1.4_131, -0.5_644, -1.3_115, -0.5_785, -1.2_049, -0.7_528, 0.1_992, -0.3_822, -0.0_878] ) assert logits.shape == expected_shape else: raise ValueError( f"""Unknown model checkpoint: {checkpoint_path}. Supported version of efficientformer are l1, l3 and l7""" ) # Save Checkpoints Path(__lowercase ).mkdir(exist_ok=__lowercase ) model.save_pretrained(__lowercase ) print(f"""Checkpoint successfuly converted. Model saved at {pytorch_dump_path}""" ) processor.save_pretrained(__lowercase ) print(f"""Processor successfuly saved at {pytorch_dump_path}""" ) if push_to_hub: print("Pushing model to the hub..." ) model.push_to_hub( repo_id=f"""Bearnardd/{pytorch_dump_path}""" , commit_message="Add model" , use_temp_dir=__lowercase , ) processor.push_to_hub( repo_id=f"""Bearnardd/{pytorch_dump_path}""" , commit_message="Add image processor" , use_temp_dir=__lowercase , ) if __name__ == "__main__": a_ = argparse.ArgumentParser() # Required parameters parser.add_argument( "--pytorch_model_path", default=None, type=str, required=True, help="Path to EfficientFormer pytorch checkpoint.", ) parser.add_argument( "--config_file", default=None, type=str, required=True, help="The json file for EfficientFormer model config.", ) parser.add_argument( "--pytorch_dump_path", default=None, type=str, required=True, help="Path to the output PyTorch model." ) parser.add_argument("--push_to_hub", action="store_true", help="Push model and image processor to the hub") parser.add_argument( "--no-push_to_hub", dest="push_to_hub", action="store_false", help="Do not push model and image processor to the hub", ) parser.set_defaults(push_to_hub=True) a_ = parser.parse_args() convert_efficientformer_checkpoint( checkpoint_path=args.pytorch_model_path, efficientformer_config_file=args.config_file, pytorch_dump_path=args.pytorch_dump_path, push_to_hub=args.push_to_hub, )	163	1
from collections.abc import Generator from math import sin def a_ ( _A ) -> bytes: """simple docstring""" if len(lowerCAmelCase__ ) != 32: raise ValueError('Input must be of length 32' ) snake_case__ = B'' for i in [3, 2, 1, 0]: little_endian += string_aa[8 * i : 8 * i + 8] return little_endian def a_ ( _A ) -> bytes: """simple docstring""" if i < 0: raise ValueError('Input must be non-negative' ) snake_case__ = format(lowerCAmelCase__ , '08x' )[-8:] snake_case__ = B'' for i in [3, 2, 1, 0]: little_endian_hex += hex_rep[2 * i : 2 * i + 2].encode('utf-8' ) return little_endian_hex def a_ ( _A ) -> bytes: """simple docstring""" snake_case__ = B'' for char in message: bit_string += format(lowerCAmelCase__ , '08b' ).encode('utf-8' ) snake_case__ = format(len(lowerCAmelCase__ ) , '064b' ).encode('utf-8' ) # Pad bit_string to a multiple of 512 chars bit_string += b"1" while len(lowerCAmelCase__ ) % 512 != 448: bit_string += b"0" bit_string += to_little_endian(start_len[32:] ) + to_little_endian(start_len[:32] ) return bit_string def a_ ( _A ) -> Generator[list[int], None, None]: """simple docstring""" if len(lowerCAmelCase__ ) % 512 != 0: raise ValueError('Input must have length that\'s a multiple of 512' ) for pos in range(0 , len(lowerCAmelCase__ ) , 512 ): snake_case__ = bit_string[pos : pos + 512] snake_case__ = [] for i in range(0 , 512 , 32 ): block_words.append(int(to_little_endian(block[i : i + 32] ) , 2 ) ) yield block_words def a_ ( _A ) -> int: """simple docstring""" if i < 0: raise ValueError('Input must be non-negative' ) snake_case__ = format(lowerCAmelCase__ , '032b' ) snake_case__ = '' for c in i_str: new_str += "1" if c == "0" else "0" return int(lowerCAmelCase__ , 2 ) def a_ ( _A , _A ) -> int: """simple docstring""" return (a + b) % 232 def a_ ( _A , _A ) -> int: """simple docstring""" if i < 0: raise ValueError('Input must be non-negative' ) if shift < 0: raise ValueError('Shift must be non-negative' ) return ((i << shift) ^ (i >> (32 - shift))) % 232 def a_ ( _A ) -> bytes: """simple docstring""" snake_case__ = preprocess(lowerCAmelCase__ ) snake_case__ = [int(2*32 abs(sin(i + 1 ) ) ) for i in range(64 )] # Starting states snake_case__ = 0X67452301 snake_case__ = 0XEFCDAB89 snake_case__ = 0X98BADCFE snake_case__ = 0X10325476 snake_case__ = [ 7, 12, 17, 22, 7, 12, 17, 22, 7, 12, 17, 22, 7, 12, 17, 22, 5, 9, 14, 20, 5, 9, 14, 20, 5, 9, 14, 20, 5, 9, 14, 20, 4, 11, 16, 23, 4, 11, 16, 23, 4, 11, 16, 23, 4, 11, 16, 23, 6, 10, 15, 21, 6, 10, 15, 21, 6, 10, 15, 21, 6, 10, 15, 21, ] # Process bit string in chunks, each with 16 32-char words for block_words in get_block_words(lowerCAmelCase__ ): snake_case__ = aa snake_case__ = ba snake_case__ = ca snake_case__ = da # Hash current chunk for i in range(64 ): if i <= 15: # f = (b & c) \| (not_32(b) & d) # Alternate definition for f snake_case__ = d ^ (b & (c ^ d)) snake_case__ = i elif i <= 31: # f = (d & b) \| (not_32(d) & c) # Alternate definition for f snake_case__ = c ^ (d & (b ^ c)) snake_case__ = (5 * i + 1) % 16 elif i <= 47: snake_case__ = b ^ c ^ d snake_case__ = (3 * i + 5) % 16 else: snake_case__ = c ^ (b \| not_aa(lowerCAmelCase__ )) snake_case__ = (7 * i) % 16 snake_case__ = (f + a + added_consts[i] + block_words[g]) % 2**32 snake_case__ = d snake_case__ = c snake_case__ = b snake_case__ = sum_aa(lowerCAmelCase__ , left_rotate_aa(lowerCAmelCase__ , shift_amounts[i] ) ) # Add hashed chunk to running total snake_case__ = sum_aa(lowerCAmelCase__ , lowerCAmelCase__ ) snake_case__ = sum_aa(lowerCAmelCase__ , lowerCAmelCase__ ) snake_case__ = sum_aa(lowerCAmelCase__ , lowerCAmelCase__ ) snake_case__ = sum_aa(lowerCAmelCase__ , lowerCAmelCase__ ) snake_case__ = reformat_hex(lowerCAmelCase__ ) + reformat_hex(lowerCAmelCase__ ) + reformat_hex(lowerCAmelCase__ ) + reformat_hex(lowerCAmelCase__ ) return digest if __name__ == "__main__": import doctest doctest.testmod()	307	'''simple docstring''' import json from typing import List, Optional, Tuple from tokenizers import pre_tokenizers, processors from ...tokenization_utils_base import AddedToken, BatchEncoding from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_bart import BartTokenizer a_ : Dict = logging.get_logger(__name__) a_ : Optional[Any] = {"vocab_file": "vocab.json", "merges_file": "merges.txt", "tokenizer_file": "tokenizer.json"} # See all BART models at https://huggingface.co/models?filter=bart a_ : int = { "vocab_file": { "facebook/bart-base": "https://huggingface.co/facebook/bart-base/resolve/main/vocab.json", "facebook/bart-large": "https://huggingface.co/facebook/bart-large/resolve/main/vocab.json", "facebook/bart-large-mnli": "https://huggingface.co/facebook/bart-large-mnli/resolve/main/vocab.json", "facebook/bart-large-cnn": "https://huggingface.co/facebook/bart-large-cnn/resolve/main/vocab.json", "facebook/bart-large-xsum": "https://huggingface.co/facebook/bart-large-xsum/resolve/main/vocab.json", "yjernite/bart_eli5": "https://huggingface.co/yjernite/bart_eli5/resolve/main/vocab.json", }, "merges_file": { "facebook/bart-base": "https://huggingface.co/facebook/bart-base/resolve/main/merges.txt", "facebook/bart-large": "https://huggingface.co/facebook/bart-large/resolve/main/merges.txt", "facebook/bart-large-mnli": "https://huggingface.co/facebook/bart-large-mnli/resolve/main/merges.txt", "facebook/bart-large-cnn": "https://huggingface.co/facebook/bart-large-cnn/resolve/main/merges.txt", "facebook/bart-large-xsum": "https://huggingface.co/facebook/bart-large-xsum/resolve/main/merges.txt", "yjernite/bart_eli5": "https://huggingface.co/yjernite/bart_eli5/resolve/main/merges.txt", }, "tokenizer_file": { "facebook/bart-base": "https://huggingface.co/facebook/bart-base/resolve/main/tokenizer.json", "facebook/bart-large": "https://huggingface.co/facebook/bart-large/resolve/main/tokenizer.json", "facebook/bart-large-mnli": "https://huggingface.co/facebook/bart-large-mnli/resolve/main/tokenizer.json", "facebook/bart-large-cnn": "https://huggingface.co/facebook/bart-large-cnn/resolve/main/tokenizer.json", "facebook/bart-large-xsum": "https://huggingface.co/facebook/bart-large-xsum/resolve/main/tokenizer.json", "yjernite/bart_eli5": "https://huggingface.co/yjernite/bart_eli5/resolve/main/tokenizer.json", }, } a_ : int = { "facebook/bart-base": 1_0_2_4, "facebook/bart-large": 1_0_2_4, "facebook/bart-large-mnli": 1_0_2_4, "facebook/bart-large-cnn": 1_0_2_4, "facebook/bart-large-xsum": 1_0_2_4, "yjernite/bart_eli5": 1_0_2_4, } class a ( _SCREAMING_SNAKE_CASE ): _lowerCAmelCase = VOCAB_FILES_NAMES _lowerCAmelCase = PRETRAINED_VOCAB_FILES_MAP _lowerCAmelCase = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES _lowerCAmelCase = ["""input_ids""", """attention_mask"""] _lowerCAmelCase = BartTokenizer def __init__( self , __magic_name__=None , __magic_name__=None , __magic_name__=None , __magic_name__="replace" , __magic_name__="<s>" , __magic_name__="</s>" , __magic_name__="</s>" , __magic_name__="<s>" , __magic_name__="<unk>" , __magic_name__="<pad>" , __magic_name__="<mask>" , __magic_name__=False , __magic_name__=True , __magic_name__ , ) -> List[Any]: super().__init__( __magic_name__ , __magic_name__ , tokenizer_file=__magic_name__ , errors=__magic_name__ , bos_token=__magic_name__ , eos_token=__magic_name__ , sep_token=__magic_name__ , cls_token=__magic_name__ , unk_token=__magic_name__ , pad_token=__magic_name__ , mask_token=__magic_name__ , add_prefix_space=__magic_name__ , trim_offsets=__magic_name__ , __magic_name__ , ) _a = json.loads(self.backend_tokenizer.pre_tokenizer.__getstate__() ) if pre_tok_state.get('add_prefix_space' , __magic_name__ ) != add_prefix_space: _a = getattr(__magic_name__ , pre_tok_state.pop('type' ) ) _a = add_prefix_space _a = pre_tok_class(__magic_name__ ) _a = add_prefix_space # the pre_tokenizer is already updated in the GPT2TokenizerFast `__init__` _a = 'post_processor' _a = getattr(self.backend_tokenizer , __magic_name__ , __magic_name__ ) if tokenizer_component_instance: _a = json.loads(tokenizer_component_instance.__getstate__() ) # The lists 'sep' and 'cls' must be cased in tuples for the object `post_processor_class` if "sep" in state: _a = tuple(state['sep'] ) if "cls" in state: _a = tuple(state['cls'] ) _a = False if state.get('add_prefix_space' , __magic_name__ ) != add_prefix_space: _a = add_prefix_space _a = True if state.get('trim_offsets' , __magic_name__ ) != trim_offsets: _a = trim_offsets _a = True if changes_to_apply: _a = getattr(__magic_name__ , state.pop('type' ) ) _a = component_class(__magic_name__ ) setattr(self.backend_tokenizer , __magic_name__ , __magic_name__ ) @property def __UpperCAmelCase ( self ) -> str: if self._mask_token is None: if self.verbose: logger.error('Using mask_token, but it is not set yet.' ) return None return str(self._mask_token ) @mask_token.setter def __UpperCAmelCase ( self , __magic_name__ ) -> Union[str, Any]: _a = AddedToken(__magic_name__ , lstrip=__magic_name__ , rstrip=__magic_name__ ) if isinstance(__magic_name__ , __magic_name__ ) else value _a = value def __UpperCAmelCase ( self , __magic_name__ , __magic_name__ ) -> BatchEncoding: _a = kwargs.get('is_split_into_words' , __magic_name__ ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f'You need to instantiate {self.__class__.__name__} with add_prefix_space=True ' 'to use it with pretokenized inputs.' ) return super()._batch_encode_plus(__magic_name__ , *__magic_name__ ) def __UpperCAmelCase ( self , __magic_name__ , *__magic_name__ ) -> BatchEncoding: _a = kwargs.get('is_split_into_words' , __magic_name__ ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f'You need to instantiate {self.__class__.__name__} with add_prefix_space=True ' 'to use it with pretokenized inputs.' ) return super()._encode_plus(__magic_name__ , *__magic_name__ ) def __UpperCAmelCase ( self , __magic_name__ , __magic_name__ = None ) -> Tuple[str]: _a = self._tokenizer.model.save(__magic_name__ , name=__magic_name__ ) return tuple(__magic_name__ ) def __UpperCAmelCase ( self , __magic_name__ , __magic_name__=None ) -> Any: _a = [self.bos_token_id] + token_ids_a + [self.eos_token_id] if token_ids_a is None: return output return output + [self.eos_token_id] + token_ids_a + [self.eos_token_id] def __UpperCAmelCase ( self , __magic_name__ , __magic_name__ = None ) -> List[int]: _a = [self.sep_token_id] _a = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) [0] return len(cls + token_ids_a + sep + sep + token_ids_a + sep ) * [0]	168	0
from collections import Counter from timeit import timeit def lowercase( UpperCamelCase_ = "" , ) -> bool: '''simple docstring''' return sum(c % 2 for c in Counter(input_str.replace(""" """ , """""" ).lower() ).values() ) < 2 def lowercase( UpperCamelCase_ = "" ) -> bool: '''simple docstring''' if len(UpperCamelCase_ ) == 0: return True UpperCamelCase = input_str.replace(""" """ , """""" ).lower() # character_freq_dict: Stores the frequency of every character in the input string UpperCamelCase = {} for character in lower_case_input_str: UpperCamelCase = character_freq_dict.get(UpperCamelCase_ , 0 ) + 1 UpperCamelCase = 0 for character_count in character_freq_dict.values(): if character_count % 2: odd_char += 1 if odd_char > 1: return False return True def lowercase( UpperCamelCase_ = "" ) -> None: '''simple docstring''' print("""\nFor string = """ , UpperCamelCase_ , """:""" ) print( """> can_string_be_rearranged_as_palindrome_counter()""" , """\tans =""" , can_string_be_rearranged_as_palindrome_counter(UpperCamelCase_ ) , """\ttime =""" , timeit( """z.can_string_be_rearranged_as_palindrome_counter(z.check_str)""" , setup="""import __main__ as z""" , ) , """seconds""" , ) print( """> can_string_be_rearranged_as_palindrome()""" , """\tans =""" , can_string_be_rearranged_as_palindrome(UpperCamelCase_ ) , """\ttime =""" , timeit( """z.can_string_be_rearranged_as_palindrome(z.check_str)""" , setup="""import __main__ as z""" , ) , """seconds""" , ) if __name__ == "__main__": _SCREAMING_SNAKE_CASE = input( """Enter string to determine if it can be rearranged as a palindrome or not: """ ).strip() benchmark(check_str) _SCREAMING_SNAKE_CASE = can_string_be_rearranged_as_palindrome_counter(check_str) print(F'''{check_str} can {"" if status else "not "}be rearranged as a palindrome''')	165	import collections import os from typing import List, Optional, Tuple from transformers.utils import is_jieba_available, requires_backends if is_jieba_available(): import jieba from ...tokenization_utils import PreTrainedTokenizer from ...utils import logging _SCREAMING_SNAKE_CASE = logging.get_logger(__name__) _SCREAMING_SNAKE_CASE = {"""vocab_file""": """vocab.txt"""} _SCREAMING_SNAKE_CASE = { """vocab_file""": { """openbmb/cpm-ant-10b""": """https://huggingface.co/openbmb/cpm-ant-10b/blob/main/vocab.txt""", }, } _SCREAMING_SNAKE_CASE = { """openbmb/cpm-ant-10b""": 1_0_2_4, } def lowercase( UpperCamelCase_ ) -> Tuple: '''simple docstring''' UpperCamelCase = collections.OrderedDict() with open(UpperCamelCase_ , """r""" , encoding="""utf-8""" ) as reader: UpperCamelCase = reader.readlines() for index, token in enumerate(UpperCamelCase_ ): UpperCamelCase = token.rstrip("""\n""" ) UpperCamelCase = index return vocab class SCREAMING_SNAKE_CASE_ ( __lowerCAmelCase ): def __init__( self : Dict , lowerCamelCase_ : str , lowerCamelCase_ : Union[str, Any]="<unk>" , lowerCamelCase_ : Any=200 ): """simple docstring""" UpperCamelCase = vocab UpperCamelCase = unk_token UpperCamelCase = max_input_chars_per_word def lowerCamelCase_ ( self : Optional[Any] , lowerCamelCase_ : Union[str, Any] ): """simple docstring""" UpperCamelCase = list(lowerCamelCase_ ) if len(lowerCamelCase_ ) > self.max_input_chars_per_word: return [self.unk_token] UpperCamelCase = 0 UpperCamelCase = [] while start < len(lowerCamelCase_ ): UpperCamelCase = len(lowerCamelCase_ ) UpperCamelCase = None while start < end: UpperCamelCase = """""".join(chars[start:end] ) if substr in self.vocab: UpperCamelCase = substr break end -= 1 if cur_substr is None: sub_tokens.append(self.unk_token ) start += 1 else: sub_tokens.append(lowerCamelCase_ ) UpperCamelCase = end return sub_tokens class SCREAMING_SNAKE_CASE_ ( __lowerCAmelCase ): __lowerCAmelCase = VOCAB_FILES_NAMES __lowerCAmelCase = PRETRAINED_VOCAB_FILES_MAP __lowerCAmelCase = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES __lowerCAmelCase = ["""input_ids""", """attention_mask"""] __lowerCAmelCase = False def __init__( self : Tuple , lowerCamelCase_ : Any , lowerCamelCase_ : Optional[Any]="<d>" , lowerCamelCase_ : List[Any]="</d>" , lowerCamelCase_ : Optional[Any]="<s>" , lowerCamelCase_ : List[str]="</s>" , lowerCamelCase_ : int="<pad>" , lowerCamelCase_ : List[Any]="<unk>" , lowerCamelCase_ : Optional[Any]="</n>" , lowerCamelCase_ : Tuple="</_>" , lowerCamelCase_ : Any="left" , lowerCamelCase_ : str , ): """simple docstring""" requires_backends(self , ["""jieba"""] ) super().__init__( bod_token=lowerCamelCase_ , eod_token=lowerCamelCase_ , bos_token=lowerCamelCase_ , eos_token=lowerCamelCase_ , pad_token=lowerCamelCase_ , unk_token=lowerCamelCase_ , line_token=lowerCamelCase_ , space_token=lowerCamelCase_ , padding_side=lowerCamelCase_ , lowerCamelCase_ , ) UpperCamelCase = bod_token UpperCamelCase = eod_token UpperCamelCase = load_vocab(lowerCamelCase_ ) UpperCamelCase = self.encoder[space_token] UpperCamelCase = self.encoder[line_token] del self.encoder[space_token] del self.encoder[line_token] UpperCamelCase = collections.OrderedDict(sorted(self.encoder.items() , key=lambda lowerCamelCase_ : x[1] ) ) UpperCamelCase = {v: k for k, v in self.encoder.items()} UpperCamelCase = WordpieceTokenizer(vocab=self.encoder , unk_token=self.unk_token ) @property def lowerCamelCase_ ( self : List[str] ): """simple docstring""" return self.encoder[self.bod_token] @property def lowerCamelCase_ ( self : Optional[Any] ): """simple docstring""" return self.encoder[self.eod_token] @property def lowerCamelCase_ ( self : List[str] ): """simple docstring""" return self.encoder["\n"] @property def lowerCamelCase_ ( self : Dict ): """simple docstring""" return len(self.encoder ) def lowerCamelCase_ ( self : List[Any] ): """simple docstring""" return dict(self.encoder , self.added_tokens_encoder ) def lowerCamelCase_ ( self : int , lowerCamelCase_ : Any ): """simple docstring""" UpperCamelCase = [] for x in jieba.cut(lowerCamelCase_ , cut_all=lowerCamelCase_ ): output_tokens.extend(self.wordpiece_tokenizer.tokenize(lowerCamelCase_ ) ) return output_tokens def lowerCamelCase_ ( self : str , lowerCamelCase_ : Tuple , lowerCamelCase_ : Tuple ): """simple docstring""" UpperCamelCase = [i for i in token_ids if i >= 0] UpperCamelCase = [ x for x in token_ids if x != self.pad_token_id and x != self.eos_token_id and x != self.bos_token_id ] return super()._decode(lowerCamelCase_ , *lowerCamelCase_ ) def lowerCamelCase_ ( self : int , lowerCamelCase_ : int ): """simple docstring""" return token in self.encoder def lowerCamelCase_ ( self : List[Any] , lowerCamelCase_ : List[str] ): """simple docstring""" return "".join(lowerCamelCase_ ) def lowerCamelCase_ ( self : Optional[Any] , lowerCamelCase_ : List[Any] ): """simple docstring""" return self.encoder.get(lowerCamelCase_ , self.encoder.get(self.unk_token ) ) def lowerCamelCase_ ( self : List[str] , lowerCamelCase_ : Tuple ): """simple docstring""" return self.decoder.get(lowerCamelCase_ , self.unk_token ) def lowerCamelCase_ ( self : Tuple , lowerCamelCase_ : str , lowerCamelCase_ : Optional[str] = None ): """simple docstring""" if os.path.isdir(lowerCamelCase_ ): UpperCamelCase = os.path.join( lowerCamelCase_ , (filename_prefix + """-""" if filename_prefix else """""") + VOCAB_FILES_NAMES["""vocab_file"""] ) else: UpperCamelCase = (filename_prefix + """-""" if filename_prefix else """""") + save_directory UpperCamelCase = 0 if " " in self.encoder: UpperCamelCase = self.encoder[""" """] del self.encoder[" "] if "\n" in self.encoder: UpperCamelCase = self.encoder["""\n"""] del self.encoder["\n"] UpperCamelCase = collections.OrderedDict(sorted(self.encoder.items() , key=lambda lowerCamelCase_ : x[1] ) ) with open(lowerCamelCase_ , """w""" , encoding="""utf-8""" ) as writer: for token, token_index in self.encoder.items(): if index != token_index: logger.warning( f"""Saving vocabulary to {vocab_file}: vocabulary indices are not consecutive.""" """ Please check that the vocabulary is not corrupted!""" ) UpperCamelCase = token_index writer.write(token + """\n""" ) index += 1 return (vocab_file,) def lowerCamelCase_ ( self : Optional[int] , lowerCamelCase_ : List[int] , lowerCamelCase_ : List[int] = None ): """simple docstring""" if token_ids_a is None: return [self.bos_token_id] + token_ids_a return [self.bos_token_id] + token_ids_a + [self.bos_token_id] + token_ids_a def lowerCamelCase_ ( self : str , lowerCamelCase_ : List[int] , lowerCamelCase_ : Optional[List[int]] = None , lowerCamelCase_ : bool = False ): """simple docstring""" if already_has_special_tokens: return super().get_special_tokens_mask( token_ids_a=lowerCamelCase_ , token_ids_a=lowerCamelCase_ , already_has_special_tokens=lowerCamelCase_ ) if token_ids_a is not None: return [1] + ([0] len(lowerCamelCase_ )) + [1] + ([0] * len(lowerCamelCase_ )) return [1] + ([0] * len(lowerCamelCase_ ))	165	1
'''simple docstring''' import gc import random import unittest import numpy as np import torch from transformers import ( CLIPImageProcessor, CLIPTextConfig, CLIPTextModelWithProjection, CLIPTokenizer, CLIPVisionConfig, CLIPVisionModelWithProjection, ) from diffusers import ( DiffusionPipeline, UnCLIPImageVariationPipeline, UnCLIPScheduler, UNetaDConditionModel, UNetaDModel, ) from diffusers.pipelines.unclip.text_proj import UnCLIPTextProjModel from diffusers.utils import floats_tensor, load_numpy, slow, torch_device from diffusers.utils.testing_utils import enable_full_determinism, load_image, require_torch_gpu, skip_mps from ..pipeline_params import IMAGE_VARIATION_BATCH_PARAMS, IMAGE_VARIATION_PARAMS from ..test_pipelines_common import PipelineTesterMixin, assert_mean_pixel_difference enable_full_determinism() class lowerCAmelCase__ ( a , unittest.TestCase ): """simple docstring""" lowerCAmelCase__ = UnCLIPImageVariationPipeline lowerCAmelCase__ = IMAGE_VARIATION_PARAMS - {"height", "width", "guidance_scale"} lowerCAmelCase__ = IMAGE_VARIATION_BATCH_PARAMS lowerCAmelCase__ = [ "generator", "return_dict", "decoder_num_inference_steps", "super_res_num_inference_steps", ] lowerCAmelCase__ = False @property def UpperCAmelCase__ ( self : Optional[int] ) -> Optional[int]: """simple docstring""" return 32 @property def UpperCAmelCase__ ( self : Union[str, Any] ) -> Union[str, Any]: """simple docstring""" return 32 @property def UpperCAmelCase__ ( self : Optional[Any] ) -> int: """simple docstring""" return self.time_input_dim @property def UpperCAmelCase__ ( self : List[str] ) -> Optional[Any]: """simple docstring""" return self.time_input_dim * 4 @property def UpperCAmelCase__ ( self : Any ) -> str: """simple docstring""" return 100 @property def UpperCAmelCase__ ( self : Tuple ) -> Dict: """simple docstring""" __SCREAMING_SNAKE_CASE = CLIPTokenizer.from_pretrained("""hf-internal-testing/tiny-random-clip""" ) return tokenizer @property def UpperCAmelCase__ ( self : List[str] ) -> Optional[int]: """simple docstring""" torch.manual_seed(0 ) __SCREAMING_SNAKE_CASE = CLIPTextConfig( bos_token_id=0 , eos_token_id=2 , hidden_size=self.text_embedder_hidden_size , projection_dim=self.text_embedder_hidden_size , intermediate_size=37 , layer_norm_eps=1E-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1_000 , ) return CLIPTextModelWithProjection(__SCREAMING_SNAKE_CASE ) @property def UpperCAmelCase__ ( self : Union[str, Any] ) -> Dict: """simple docstring""" torch.manual_seed(0 ) __SCREAMING_SNAKE_CASE = CLIPVisionConfig( hidden_size=self.text_embedder_hidden_size , projection_dim=self.text_embedder_hidden_size , num_hidden_layers=5 , num_attention_heads=4 , image_size=32 , intermediate_size=37 , patch_size=1 , ) return CLIPVisionModelWithProjection(__SCREAMING_SNAKE_CASE ) @property def UpperCAmelCase__ ( self : List[Any] ) -> Any: """simple docstring""" torch.manual_seed(0 ) __SCREAMING_SNAKE_CASE = { """clip_embeddings_dim""": self.text_embedder_hidden_size, """time_embed_dim""": self.time_embed_dim, """cross_attention_dim""": self.cross_attention_dim, } __SCREAMING_SNAKE_CASE = UnCLIPTextProjModel(*__SCREAMING_SNAKE_CASE ) return model @property def UpperCAmelCase__ ( self : List[Any] ) -> Optional[Any]: """simple docstring""" torch.manual_seed(0 ) __SCREAMING_SNAKE_CASE = { """sample_size""": 32, # RGB in channels """in_channels""": 3, # Out channels is double in channels because predicts mean and variance """out_channels""": 6, """down_block_types""": ("""ResnetDownsampleBlock2D""", """SimpleCrossAttnDownBlock2D"""), """up_block_types""": ("""SimpleCrossAttnUpBlock2D""", """ResnetUpsampleBlock2D"""), """mid_block_type""": """UNetMidBlock2DSimpleCrossAttn""", """block_out_channels""": (self.block_out_channels_a, self.block_out_channels_a 2), """layers_per_block""": 1, """cross_attention_dim""": self.cross_attention_dim, """attention_head_dim""": 4, """resnet_time_scale_shift""": """scale_shift""", """class_embed_type""": """identity""", } __SCREAMING_SNAKE_CASE = UNetaDConditionModel(*__SCREAMING_SNAKE_CASE ) return model @property def UpperCAmelCase__ ( self : Optional[Any] ) -> Optional[int]: """simple docstring""" return { "sample_size": 64, "layers_per_block": 1, "down_block_types": ("ResnetDownsampleBlock2D", "ResnetDownsampleBlock2D"), "up_block_types": ("ResnetUpsampleBlock2D", "ResnetUpsampleBlock2D"), "block_out_channels": (self.block_out_channels_a, self.block_out_channels_a 2), "in_channels": 6, "out_channels": 3, } @property def UpperCAmelCase__ ( self : str ) -> List[Any]: """simple docstring""" torch.manual_seed(0 ) __SCREAMING_SNAKE_CASE = UNetaDModel(self.dummy_super_res_kwargs ) return model @property def UpperCAmelCase__ ( self : Any ) -> str: """simple docstring""" torch.manual_seed(1 ) __SCREAMING_SNAKE_CASE = UNetaDModel(self.dummy_super_res_kwargs ) return model def UpperCAmelCase__ ( self : Any ) -> Any: """simple docstring""" __SCREAMING_SNAKE_CASE = self.dummy_decoder __SCREAMING_SNAKE_CASE = self.dummy_text_proj __SCREAMING_SNAKE_CASE = self.dummy_text_encoder __SCREAMING_SNAKE_CASE = self.dummy_tokenizer __SCREAMING_SNAKE_CASE = self.dummy_super_res_first __SCREAMING_SNAKE_CASE = self.dummy_super_res_last __SCREAMING_SNAKE_CASE = UnCLIPScheduler( variance_type="""learned_range""" , prediction_type="""epsilon""" , num_train_timesteps=1_000 , ) __SCREAMING_SNAKE_CASE = UnCLIPScheduler( variance_type="""fixed_small_log""" , prediction_type="""epsilon""" , num_train_timesteps=1_000 , ) __SCREAMING_SNAKE_CASE = CLIPImageProcessor(crop_size=32 , size=32 ) __SCREAMING_SNAKE_CASE = self.dummy_image_encoder return { "decoder": decoder, "text_encoder": text_encoder, "tokenizer": tokenizer, "text_proj": text_proj, "feature_extractor": feature_extractor, "image_encoder": image_encoder, "super_res_first": super_res_first, "super_res_last": super_res_last, "decoder_scheduler": decoder_scheduler, "super_res_scheduler": super_res_scheduler, } def UpperCAmelCase__ ( self : str , __SCREAMING_SNAKE_CASE : List[str] , __SCREAMING_SNAKE_CASE : List[Any]=0 , __SCREAMING_SNAKE_CASE : int=True ) -> str: """simple docstring""" __SCREAMING_SNAKE_CASE = floats_tensor((1, 3, 32, 32) , rng=random.Random(__SCREAMING_SNAKE_CASE ) ).to(__SCREAMING_SNAKE_CASE ) if str(__SCREAMING_SNAKE_CASE ).startswith("""mps""" ): __SCREAMING_SNAKE_CASE = torch.manual_seed(__SCREAMING_SNAKE_CASE ) else: __SCREAMING_SNAKE_CASE = torch.Generator(device=__SCREAMING_SNAKE_CASE ).manual_seed(__SCREAMING_SNAKE_CASE ) if pil_image: __SCREAMING_SNAKE_CASE = input_image * 0.5 + 0.5 __SCREAMING_SNAKE_CASE = input_image.clamp(0 , 1 ) __SCREAMING_SNAKE_CASE = input_image.cpu().permute(0 , 2 , 3 , 1 ).float().numpy() __SCREAMING_SNAKE_CASE = DiffusionPipeline.numpy_to_pil(__SCREAMING_SNAKE_CASE )[0] return { "image": input_image, "generator": generator, "decoder_num_inference_steps": 2, "super_res_num_inference_steps": 2, "output_type": "np", } def UpperCAmelCase__ ( self : List[Any] ) -> Any: """simple docstring""" __SCREAMING_SNAKE_CASE = """cpu""" __SCREAMING_SNAKE_CASE = self.get_dummy_components() __SCREAMING_SNAKE_CASE = self.pipeline_class(__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = pipe.to(__SCREAMING_SNAKE_CASE ) pipe.set_progress_bar_config(disable=__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = self.get_dummy_inputs(__SCREAMING_SNAKE_CASE , pil_image=__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = pipe(__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = output.images __SCREAMING_SNAKE_CASE = self.get_dummy_inputs(__SCREAMING_SNAKE_CASE , pil_image=__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = pipe( __SCREAMING_SNAKE_CASE , return_dict=__SCREAMING_SNAKE_CASE , )[0] __SCREAMING_SNAKE_CASE = image[0, -3:, -3:, -1] __SCREAMING_SNAKE_CASE = image_from_tuple[0, -3:, -3:, -1] assert image.shape == (1, 64, 64, 3) __SCREAMING_SNAKE_CASE = np.array( [ 0.9997, 0.0002, 0.9997, 0.9997, 0.9969, 0.0023, 0.9997, 0.9969, 0.9970, ] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2 assert np.abs(image_from_tuple_slice.flatten() - expected_slice ).max() < 1E-2 def UpperCAmelCase__ ( self : str ) -> Any: """simple docstring""" __SCREAMING_SNAKE_CASE = """cpu""" __SCREAMING_SNAKE_CASE = self.get_dummy_components() __SCREAMING_SNAKE_CASE = self.pipeline_class(__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = pipe.to(__SCREAMING_SNAKE_CASE ) pipe.set_progress_bar_config(disable=__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = self.get_dummy_inputs(__SCREAMING_SNAKE_CASE , pil_image=__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = pipe(__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = output.images __SCREAMING_SNAKE_CASE = self.get_dummy_inputs(__SCREAMING_SNAKE_CASE , pil_image=__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = pipe( __SCREAMING_SNAKE_CASE , return_dict=__SCREAMING_SNAKE_CASE , )[0] __SCREAMING_SNAKE_CASE = image[0, -3:, -3:, -1] __SCREAMING_SNAKE_CASE = image_from_tuple[0, -3:, -3:, -1] assert image.shape == (1, 64, 64, 3) __SCREAMING_SNAKE_CASE = np.array([0.9997, 0.0003, 0.9997, 0.9997, 0.9970, 0.0024, 0.9997, 0.9971, 0.9971] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2 assert np.abs(image_from_tuple_slice.flatten() - expected_slice ).max() < 1E-2 def UpperCAmelCase__ ( self : int ) -> Tuple: """simple docstring""" __SCREAMING_SNAKE_CASE = """cpu""" __SCREAMING_SNAKE_CASE = self.get_dummy_components() __SCREAMING_SNAKE_CASE = self.pipeline_class(__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = pipe.to(__SCREAMING_SNAKE_CASE ) pipe.set_progress_bar_config(disable=__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = self.get_dummy_inputs(__SCREAMING_SNAKE_CASE , pil_image=__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = [ pipeline_inputs["""image"""], pipeline_inputs["""image"""], ] __SCREAMING_SNAKE_CASE = pipe(__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = output.images __SCREAMING_SNAKE_CASE = self.get_dummy_inputs(__SCREAMING_SNAKE_CASE , pil_image=__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = [ tuple_pipeline_inputs["""image"""], tuple_pipeline_inputs["""image"""], ] __SCREAMING_SNAKE_CASE = pipe( __SCREAMING_SNAKE_CASE , return_dict=__SCREAMING_SNAKE_CASE , )[0] __SCREAMING_SNAKE_CASE = image[0, -3:, -3:, -1] __SCREAMING_SNAKE_CASE = image_from_tuple[0, -3:, -3:, -1] assert image.shape == (2, 64, 64, 3) __SCREAMING_SNAKE_CASE = np.array( [ 0.9997, 0.9989, 0.0008, 0.0021, 0.9960, 0.0018, 0.0014, 0.0002, 0.9933, ] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2 assert np.abs(image_from_tuple_slice.flatten() - expected_slice ).max() < 1E-2 def UpperCAmelCase__ ( self : Optional[int] ) -> Any: """simple docstring""" __SCREAMING_SNAKE_CASE = torch.device("""cpu""" ) class lowerCAmelCase__ : """simple docstring""" lowerCAmelCase__ = 1 __SCREAMING_SNAKE_CASE = self.get_dummy_components() __SCREAMING_SNAKE_CASE = self.pipeline_class(__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = pipe.to(__SCREAMING_SNAKE_CASE ) pipe.set_progress_bar_config(disable=__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = torch.Generator(device=__SCREAMING_SNAKE_CASE ).manual_seed(0 ) __SCREAMING_SNAKE_CASE = pipe.decoder.dtype __SCREAMING_SNAKE_CASE = 1 __SCREAMING_SNAKE_CASE = ( batch_size, pipe.decoder.config.in_channels, pipe.decoder.config.sample_size, pipe.decoder.config.sample_size, ) __SCREAMING_SNAKE_CASE = pipe.prepare_latents( __SCREAMING_SNAKE_CASE , dtype=__SCREAMING_SNAKE_CASE , device=__SCREAMING_SNAKE_CASE , generator=__SCREAMING_SNAKE_CASE , latents=__SCREAMING_SNAKE_CASE , scheduler=DummyScheduler() ) __SCREAMING_SNAKE_CASE = ( batch_size, pipe.super_res_first.config.in_channels // 2, pipe.super_res_first.config.sample_size, pipe.super_res_first.config.sample_size, ) __SCREAMING_SNAKE_CASE = pipe.prepare_latents( __SCREAMING_SNAKE_CASE , dtype=__SCREAMING_SNAKE_CASE , device=__SCREAMING_SNAKE_CASE , generator=__SCREAMING_SNAKE_CASE , latents=__SCREAMING_SNAKE_CASE , scheduler=DummyScheduler() ) __SCREAMING_SNAKE_CASE = self.get_dummy_inputs(__SCREAMING_SNAKE_CASE , pil_image=__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = pipe( __SCREAMING_SNAKE_CASE , decoder_latents=__SCREAMING_SNAKE_CASE , super_res_latents=__SCREAMING_SNAKE_CASE ).images __SCREAMING_SNAKE_CASE = self.get_dummy_inputs(__SCREAMING_SNAKE_CASE , pil_image=__SCREAMING_SNAKE_CASE ) # Don't pass image, instead pass embedding __SCREAMING_SNAKE_CASE = pipeline_inputs.pop("""image""" ) __SCREAMING_SNAKE_CASE = pipe.image_encoder(__SCREAMING_SNAKE_CASE ).image_embeds __SCREAMING_SNAKE_CASE = pipe( __SCREAMING_SNAKE_CASE , decoder_latents=__SCREAMING_SNAKE_CASE , super_res_latents=__SCREAMING_SNAKE_CASE , image_embeddings=__SCREAMING_SNAKE_CASE , ).images # make sure passing text embeddings manually is identical assert np.abs(img_out_a - img_out_a ).max() < 1E-4 @skip_mps def UpperCAmelCase__ ( self : List[str] ) -> List[Any]: """simple docstring""" __SCREAMING_SNAKE_CASE = torch_device == """cpu""" # Check is relaxed because there is not a torch 2.0 sliced attention added kv processor __SCREAMING_SNAKE_CASE = 1E-2 self._test_attention_slicing_forward_pass( test_max_difference=__SCREAMING_SNAKE_CASE , expected_max_diff=__SCREAMING_SNAKE_CASE ) @skip_mps def UpperCAmelCase__ ( self : Optional[int] ) -> int: """simple docstring""" __SCREAMING_SNAKE_CASE = torch_device == """cpu""" __SCREAMING_SNAKE_CASE = True __SCREAMING_SNAKE_CASE = [ """decoder_num_inference_steps""", """super_res_num_inference_steps""", ] self._test_inference_batch_single_identical( test_max_difference=__SCREAMING_SNAKE_CASE , relax_max_difference=__SCREAMING_SNAKE_CASE , additional_params_copy_to_batched_inputs=__SCREAMING_SNAKE_CASE , ) def UpperCAmelCase__ ( self : Tuple ) -> Optional[int]: """simple docstring""" __SCREAMING_SNAKE_CASE = [ """decoder_num_inference_steps""", """super_res_num_inference_steps""", ] if torch_device == "mps": # TODO: MPS errors with larger batch sizes __SCREAMING_SNAKE_CASE = [2, 3] self._test_inference_batch_consistent( batch_sizes=__SCREAMING_SNAKE_CASE , additional_params_copy_to_batched_inputs=__SCREAMING_SNAKE_CASE , ) else: self._test_inference_batch_consistent( additional_params_copy_to_batched_inputs=__SCREAMING_SNAKE_CASE ) @skip_mps def UpperCAmelCase__ ( self : Any ) -> Tuple: """simple docstring""" return super().test_dict_tuple_outputs_equivalent() @skip_mps def UpperCAmelCase__ ( self : Tuple ) -> List[str]: """simple docstring""" return super().test_save_load_local() @skip_mps def UpperCAmelCase__ ( self : Dict ) -> List[Any]: """simple docstring""" return super().test_save_load_optional_components() @slow @require_torch_gpu class lowerCAmelCase__ ( unittest.TestCase ): """simple docstring""" def UpperCAmelCase__ ( self : Dict ) -> str: """simple docstring""" super().tearDown() gc.collect() torch.cuda.empty_cache() def UpperCAmelCase__ ( self : List[str] ) -> List[Any]: """simple docstring""" __SCREAMING_SNAKE_CASE = load_image( """https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/unclip/cat.png""" ) __SCREAMING_SNAKE_CASE = load_numpy( """https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main""" """/unclip/karlo_v1_alpha_cat_variation_fp16.npy""" ) __SCREAMING_SNAKE_CASE = UnCLIPImageVariationPipeline.from_pretrained( """kakaobrain/karlo-v1-alpha-image-variations""" , torch_dtype=torch.floataa ) __SCREAMING_SNAKE_CASE = pipeline.to(__SCREAMING_SNAKE_CASE ) pipeline.set_progress_bar_config(disable=__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = torch.Generator(device="""cpu""" ).manual_seed(0 ) __SCREAMING_SNAKE_CASE = pipeline( __SCREAMING_SNAKE_CASE , generator=__SCREAMING_SNAKE_CASE , output_type="""np""" , ) __SCREAMING_SNAKE_CASE = output.images[0] assert image.shape == (256, 256, 3) assert_mean_pixel_difference(__SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , 15 )	267	'''simple docstring''' def a__ ( a__ , a__ ): """simple docstring""" _enforce_args(a__ , a__ ) if n == 0: return 0 __SCREAMING_SNAKE_CASE = float("""-inf""" ) for i in range(1 , n + 1 ): __SCREAMING_SNAKE_CASE = max( a__ , prices[i - 1] + naive_cut_rod_recursive(n - i , a__ ) ) return max_revue def a__ ( a__ , a__ ): """simple docstring""" _enforce_args(a__ , a__ ) __SCREAMING_SNAKE_CASE = [float("""-inf""" ) for _ in range(n + 1 )] return _top_down_cut_rod_recursive(a__ , a__ , a__ ) def a__ ( a__ , a__ , a__ ): """simple docstring""" if max_rev[n] >= 0: return max_rev[n] elif n == 0: return 0 else: __SCREAMING_SNAKE_CASE = float("""-inf""" ) for i in range(1 , n + 1 ): __SCREAMING_SNAKE_CASE = max( a__ , prices[i - 1] + _top_down_cut_rod_recursive(n - i , a__ , a__ ) , ) __SCREAMING_SNAKE_CASE = max_revenue return max_rev[n] def a__ ( a__ , a__ ): """simple docstring""" _enforce_args(a__ , a__ ) # length(max_rev) = n + 1, to accommodate for the revenue obtainable from a rod of # length 0. __SCREAMING_SNAKE_CASE = [float("""-inf""" ) for _ in range(n + 1 )] __SCREAMING_SNAKE_CASE = 0 for i in range(1 , n + 1 ): __SCREAMING_SNAKE_CASE = max_rev[i] for j in range(1 , i + 1 ): __SCREAMING_SNAKE_CASE = max(a__ , prices[j - 1] + max_rev[i - j] ) __SCREAMING_SNAKE_CASE = max_revenue_i return max_rev[n] def a__ ( a__ , a__ ): """simple docstring""" if n < 0: __SCREAMING_SNAKE_CASE = F'n must be greater than or equal to 0. Got n = {n}' raise ValueError(a__ ) if n > len(a__ ): __SCREAMING_SNAKE_CASE = ( """Each integral piece of rod must have a corresponding price. """ F'Got n = {n} but length of prices = {len(a__ )}' ) raise ValueError(a__ ) def a__ ( ): """simple docstring""" __SCREAMING_SNAKE_CASE = [6, 10, 12, 15, 20, 23] __SCREAMING_SNAKE_CASE = len(a__ ) # the best revenue comes from cutting the rod into 6 pieces, each # of length 1 resulting in a revenue of 6 * 6 = 36. __SCREAMING_SNAKE_CASE = 36 __SCREAMING_SNAKE_CASE = top_down_cut_rod(a__ , a__ ) __SCREAMING_SNAKE_CASE = bottom_up_cut_rod(a__ , a__ ) __SCREAMING_SNAKE_CASE = naive_cut_rod_recursive(a__ , a__ ) assert expected_max_revenue == max_rev_top_down assert max_rev_top_down == max_rev_bottom_up assert max_rev_bottom_up == max_rev_naive if __name__ == "__main__": main()	267	1
def _A ( __magic_name__ ): if n_term == "": return [] lowercase__ = [] for temp in range(int(SCREAMING_SNAKE_CASE_ ) ): series.append(f'''1/{temp + 1}''' if series else "1" ) return series if __name__ == "__main__": _snake_case = input("""Enter the last number (nth term) of the Harmonic Series""") print("""Formula of Harmonic Series => 1+1/2+1/3 ..... 1/n""") print(harmonic_series(nth_term))	364	def _A ( __magic_name__ , __magic_name__ , __magic_name__ , __magic_name__ ): if height >= 1: move_tower(height - 1 , __magic_name__ , __magic_name__ , __magic_name__ ) move_disk(__magic_name__ , __magic_name__ ) move_tower(height - 1 , __magic_name__ , __magic_name__ , __magic_name__ ) def _A ( __magic_name__ , __magic_name__ ): print("moving disk from" , __magic_name__ , "to" , __magic_name__ ) def _A ( ): lowercase__ = int(input("Height of hanoi: " ).strip() ) move_tower(__magic_name__ , "A" , "B" , "C" ) if __name__ == "__main__": main()	201	0
"""simple docstring""" import unittest from transformers.testing_utils import CaptureStdout from transformers.tools.python_interpreter import evaluate def lowercase (_lowerCAmelCase ): return x + 2 class lowerCAmelCase_ ( unittest.TestCase ): '''simple docstring''' def A__ ( self ) -> Union[str, Any]: __lowerCAmelCase = '''x = 3''' __lowerCAmelCase = {} __lowerCAmelCase = evaluate(snake_case_ , {} , state=snake_case_ ) assert result == 3 self.assertDictEqual(snake_case_ , {"""x""": 3} ) __lowerCAmelCase = '''x = y''' __lowerCAmelCase = {'''y''': 5} __lowerCAmelCase = evaluate(snake_case_ , {} , state=snake_case_ ) # evaluate returns the value of the last assignment. assert result == 5 self.assertDictEqual(snake_case_ , {"""x""": 5, """y""": 5} ) def A__ ( self ) -> List[str]: __lowerCAmelCase = '''y = add_two(x)''' __lowerCAmelCase = {'''x''': 3} __lowerCAmelCase = evaluate(snake_case_ , {"""add_two""": add_two} , state=snake_case_ ) assert result == 5 self.assertDictEqual(snake_case_ , {"""x""": 3, """y""": 5} ) # Won't work without the tool with CaptureStdout() as out: __lowerCAmelCase = evaluate(snake_case_ , {} , state=snake_case_ ) assert result is None assert "tried to execute add_two" in out.out def A__ ( self ) -> Union[str, Any]: __lowerCAmelCase = '''x = 3''' __lowerCAmelCase = {} __lowerCAmelCase = evaluate(snake_case_ , {} , state=snake_case_ ) assert result == 3 self.assertDictEqual(snake_case_ , {"""x""": 3} ) def A__ ( self ) -> Any: __lowerCAmelCase = '''test_dict = {\'x\': x, \'y\': add_two(x)}''' __lowerCAmelCase = {'''x''': 3} __lowerCAmelCase = evaluate(snake_case_ , {"""add_two""": add_two} , state=snake_case_ ) self.assertDictEqual(snake_case_ , {"""x""": 3, """y""": 5} ) self.assertDictEqual(snake_case_ , {"""x""": 3, """test_dict""": {"""x""": 3, """y""": 5}} ) def A__ ( self ) -> str: __lowerCAmelCase = '''x = 3\ny = 5''' __lowerCAmelCase = {} __lowerCAmelCase = evaluate(snake_case_ , {} , state=snake_case_ ) # evaluate returns the value of the last assignment. assert result == 5 self.assertDictEqual(snake_case_ , {"""x""": 3, """y""": 5} ) def A__ ( self ) -> Dict: __lowerCAmelCase = '''text = f\'This is x: {x}.\'''' __lowerCAmelCase = {'''x''': 3} __lowerCAmelCase = evaluate(snake_case_ , {} , state=snake_case_ ) # evaluate returns the value of the last assignment. assert result == "This is x: 3." self.assertDictEqual(snake_case_ , {"""x""": 3, """text""": """This is x: 3."""} ) def A__ ( self ) -> Tuple: __lowerCAmelCase = '''if x <= 3:\n y = 2\nelse:\n y = 5''' __lowerCAmelCase = {'''x''': 3} __lowerCAmelCase = evaluate(snake_case_ , {} , state=snake_case_ ) # evaluate returns the value of the last assignment. assert result == 2 self.assertDictEqual(snake_case_ , {"""x""": 3, """y""": 2} ) __lowerCAmelCase = {'''x''': 8} __lowerCAmelCase = evaluate(snake_case_ , {} , state=snake_case_ ) # evaluate returns the value of the last assignment. assert result == 5 self.assertDictEqual(snake_case_ , {"""x""": 8, """y""": 5} ) def A__ ( self ) -> List[Any]: __lowerCAmelCase = '''test_list = [x, add_two(x)]''' __lowerCAmelCase = {'''x''': 3} __lowerCAmelCase = evaluate(snake_case_ , {"""add_two""": add_two} , state=snake_case_ ) self.assertListEqual(snake_case_ , [3, 5] ) self.assertDictEqual(snake_case_ , {"""x""": 3, """test_list""": [3, 5]} ) def A__ ( self ) -> Dict: __lowerCAmelCase = '''y = x''' __lowerCAmelCase = {'''x''': 3} __lowerCAmelCase = evaluate(snake_case_ , {} , state=snake_case_ ) assert result == 3 self.assertDictEqual(snake_case_ , {"""x""": 3, """y""": 3} ) def A__ ( self ) -> Union[str, Any]: __lowerCAmelCase = '''test_list = [x, add_two(x)]\ntest_list[1]''' __lowerCAmelCase = {'''x''': 3} __lowerCAmelCase = evaluate(snake_case_ , {"""add_two""": add_two} , state=snake_case_ ) assert result == 5 self.assertDictEqual(snake_case_ , {"""x""": 3, """test_list""": [3, 5]} ) __lowerCAmelCase = '''test_dict = {\'x\': x, \'y\': add_two(x)}\ntest_dict[\'y\']''' __lowerCAmelCase = {'''x''': 3} __lowerCAmelCase = evaluate(snake_case_ , {"""add_two""": add_two} , state=snake_case_ ) assert result == 5 self.assertDictEqual(snake_case_ , {"""x""": 3, """test_dict""": {"""x""": 3, """y""": 5}} ) def A__ ( self ) -> Optional[int]: __lowerCAmelCase = '''x = 0\nfor i in range(3):\n x = i''' __lowerCAmelCase = {} __lowerCAmelCase = evaluate(snake_case_ , {"""range""": range} , state=snake_case_ ) assert result == 2 self.assertDictEqual(snake_case_ , {"""x""": 2, """i""": 2} )	301	import unittest from transformers import SPIECE_UNDERLINE from transformers.models.speechta import SpeechTaTokenizer from transformers.testing_utils import get_tests_dir, require_sentencepiece, require_tokenizers, slow from transformers.tokenization_utils import AddedToken from ...test_tokenization_common import TokenizerTesterMixin lowerCAmelCase_ = get_tests_dir('''fixtures/test_sentencepiece_bpe_char.model''') @require_sentencepiece @require_tokenizers class __lowerCAmelCase ( _a, unittest.TestCase ): lowerCamelCase_ : Optional[int] = SpeechTaTokenizer lowerCamelCase_ : int = False lowerCamelCase_ : Dict = True def lowerCamelCase (self ) -> Optional[Any]: '''simple docstring''' super().setUp() # We have a SentencePiece fixture for testing snake_case_ : Tuple = SpeechTaTokenizer(__magic_name__ ) snake_case_ : Any = AddedToken('''<mask>''' , lstrip=__magic_name__ , rstrip=__magic_name__ ) snake_case_ : int = mask_token tokenizer.add_special_tokens({'''mask_token''': mask_token} ) tokenizer.add_tokens(['''<ctc_blank>'''] ) tokenizer.save_pretrained(self.tmpdirname ) def lowerCamelCase (self , __magic_name__ ) -> Dict: '''simple docstring''' snake_case_ : Dict = '''this is a test''' snake_case_ : int = '''this is a test''' return input_text, output_text def lowerCamelCase (self , __magic_name__ , __magic_name__=False , __magic_name__=20 , __magic_name__=5 ) -> List[Any]: '''simple docstring''' snake_case_ , snake_case_ : int = self.get_input_output_texts(__magic_name__ ) snake_case_ : Optional[Any] = tokenizer.encode(__magic_name__ , add_special_tokens=__magic_name__ ) snake_case_ : Any = tokenizer.decode(__magic_name__ , clean_up_tokenization_spaces=__magic_name__ ) return text, ids def lowerCamelCase (self ) -> Optional[int]: '''simple docstring''' snake_case_ : List[str] = '''<pad>''' snake_case_ : Any = 1 self.assertEqual(self.get_tokenizer()._convert_token_to_id(__magic_name__ ) , __magic_name__ ) self.assertEqual(self.get_tokenizer()._convert_id_to_token(__magic_name__ ) , __magic_name__ ) def lowerCamelCase (self ) -> Any: '''simple docstring''' snake_case_ : Any = list(self.get_tokenizer().get_vocab().keys() ) self.assertEqual(vocab_keys[0] , '''<s>''' ) self.assertEqual(vocab_keys[1] , '''<pad>''' ) self.assertEqual(vocab_keys[-4] , '''œ''' ) self.assertEqual(vocab_keys[-2] , '''<mask>''' ) self.assertEqual(vocab_keys[-1] , '''<ctc_blank>''' ) self.assertEqual(len(__magic_name__ ) , 81 ) def lowerCamelCase (self ) -> Dict: '''simple docstring''' self.assertEqual(self.get_tokenizer().vocab_size , 79 ) def lowerCamelCase (self ) -> Tuple: '''simple docstring''' snake_case_ : int = self.get_tokenizers(do_lower_case=__magic_name__ ) for tokenizer in tokenizers: with self.subTest(F'''{tokenizer.__class__.__name__}''' ): snake_case_ : int = tokenizer.vocab_size snake_case_ : Optional[Any] = len(__magic_name__ ) self.assertNotEqual(__magic_name__ , 0 ) # We usually have added tokens from the start in tests because our vocab fixtures are # smaller than the original vocabs - let's not assert this # self.assertEqual(vocab_size, all_size) snake_case_ : List[Any] = ['''aaaaa bbbbbb''', '''cccccccccdddddddd'''] snake_case_ : List[Any] = tokenizer.add_tokens(__magic_name__ ) snake_case_ : Dict = tokenizer.vocab_size snake_case_ : Optional[Any] = len(__magic_name__ ) self.assertNotEqual(__magic_name__ , 0 ) self.assertEqual(__magic_name__ , __magic_name__ ) self.assertEqual(__magic_name__ , len(__magic_name__ ) ) self.assertEqual(__magic_name__ , all_size + len(__magic_name__ ) ) snake_case_ : Union[str, Any] = tokenizer.encode('''aaaaa bbbbbb low cccccccccdddddddd l''' , add_special_tokens=__magic_name__ ) self.assertGreaterEqual(len(__magic_name__ ) , 4 ) self.assertGreater(tokens[0] , tokenizer.vocab_size - 1 ) self.assertGreater(tokens[-3] , tokenizer.vocab_size - 1 ) snake_case_ : Union[str, Any] = {'''eos_token''': '''>>>>\|\|\|<\|\|<<\|<<''', '''pad_token''': '''<<<<<\|\|\|>\|>>>>\|>'''} snake_case_ : List[str] = tokenizer.add_special_tokens(__magic_name__ ) snake_case_ : Dict = tokenizer.vocab_size snake_case_ : Dict = len(__magic_name__ ) self.assertNotEqual(__magic_name__ , 0 ) self.assertEqual(__magic_name__ , __magic_name__ ) self.assertEqual(__magic_name__ , len(__magic_name__ ) ) self.assertEqual(__magic_name__ , all_size_a + len(__magic_name__ ) ) snake_case_ : Tuple = tokenizer.encode( '''>>>>\|\|\|<\|\|<<\|<< aaaaabbbbbb low cccccccccdddddddd <<<<<\|\|\|>\|>>>>\|> l''' , add_special_tokens=__magic_name__ ) self.assertGreaterEqual(len(__magic_name__ ) , 6 ) self.assertGreater(tokens[0] , tokenizer.vocab_size - 1 ) self.assertGreater(tokens[0] , tokens[1] ) self.assertGreater(tokens[-3] , tokenizer.vocab_size - 1 ) self.assertGreater(tokens[-3] , tokens[-4] ) self.assertEqual(tokens[0] , tokenizer.eos_token_id ) self.assertEqual(tokens[-3] , tokenizer.pad_token_id ) def lowerCamelCase (self ) -> Union[str, Any]: '''simple docstring''' pass def lowerCamelCase (self ) -> List[str]: '''simple docstring''' pass def lowerCamelCase (self ) -> int: '''simple docstring''' snake_case_ : Dict = self.get_tokenizer() snake_case_ : Optional[Any] = tokenizer.tokenize('''This is a test''' ) # fmt: off self.assertListEqual(__magic_name__ , [SPIECE_UNDERLINE, '''T''', '''h''', '''i''', '''s''', SPIECE_UNDERLINE, '''i''', '''s''', SPIECE_UNDERLINE, '''a''', SPIECE_UNDERLINE, '''t''', '''e''', '''s''', '''t'''] ) # fmt: on self.assertListEqual( tokenizer.convert_tokens_to_ids(__magic_name__ ) , [4, 32, 11, 10, 12, 4, 10, 12, 4, 7, 4, 6, 5, 12, 6] , ) snake_case_ : List[Any] = tokenizer.tokenize('''I was born in 92000, and this is falsé.''' ) self.assertListEqual( __magic_name__ , [SPIECE_UNDERLINE, '''I''', SPIECE_UNDERLINE, '''w''', '''a''', '''s''', SPIECE_UNDERLINE, '''b''', '''o''', '''r''', '''n''', SPIECE_UNDERLINE, '''i''', '''n''', SPIECE_UNDERLINE, '''92000''', ''',''', SPIECE_UNDERLINE, '''a''', '''n''', '''d''', SPIECE_UNDERLINE, '''t''', '''h''', '''i''', '''s''', SPIECE_UNDERLINE, '''i''', '''s''', SPIECE_UNDERLINE, '''f''', '''a''', '''l''', '''s''', '''é''', '''.'''] ) snake_case_ : List[str] = tokenizer.convert_tokens_to_ids(__magic_name__ ) # fmt: off self.assertListEqual(__magic_name__ , [4, 30, 4, 20, 7, 12, 4, 25, 8, 13, 9, 4, 10, 9, 4, 3, 23, 4, 7, 9, 14, 4, 6, 11, 10, 12, 4, 10, 12, 4, 19, 7, 15, 12, 73, 26] ) # fmt: on snake_case_ : int = tokenizer.convert_ids_to_tokens(__magic_name__ ) self.assertListEqual( __magic_name__ , [SPIECE_UNDERLINE, '''I''', SPIECE_UNDERLINE, '''w''', '''a''', '''s''', SPIECE_UNDERLINE, '''b''', '''o''', '''r''', '''n''', SPIECE_UNDERLINE, '''i''', '''n''', SPIECE_UNDERLINE, '''<unk>''', ''',''', SPIECE_UNDERLINE, '''a''', '''n''', '''d''', SPIECE_UNDERLINE, '''t''', '''h''', '''i''', '''s''', SPIECE_UNDERLINE, '''i''', '''s''', SPIECE_UNDERLINE, '''f''', '''a''', '''l''', '''s''', '''é''', '''.'''] ) @slow def lowerCamelCase (self ) -> Tuple: '''simple docstring''' snake_case_ : Tuple = [ '''Transformers (formerly known as pytorch-transformers and pytorch-pretrained-bert) provides ''' '''general-purpose architectures (BERT, GPT, RoBERTa, XLM, DistilBert, XLNet...) for Natural ''' '''Language Understanding (NLU) and Natural Language Generation (NLG) with over thirty-two pretrained ''' '''models in one hundred plus languages and deep interoperability between Jax, PyTorch and TensorFlow.''', '''BERT is designed to pre-train deep bidirectional representations from unlabeled text by jointly ''' '''conditioning on both left and right context in all layers.''', '''The quick brown fox jumps over the lazy dog.''', ] # fmt: off snake_case_ : List[Any] = { '''input_ids''': [ [4, 32, 13, 7, 9, 12, 19, 8, 13, 18, 5, 13, 12, 4, 64, 19, 8, 13, 18, 5, 13, 15, 22, 4, 28, 9, 8, 20, 9, 4, 7, 12, 4, 24, 22, 6, 8, 13, 17, 11, 39, 6, 13, 7, 9, 12, 19, 8, 13, 18, 5, 13, 12, 4, 7, 9, 14, 4, 24, 22, 6, 8, 13, 17, 11, 39, 24, 13, 5, 6, 13, 7, 10, 9, 5, 14, 39, 25, 5, 13, 6, 63, 4, 24, 13, 8, 27, 10, 14, 5, 12, 4, 21, 5, 9, 5, 13, 7, 15, 39, 24, 16, 13, 24, 8, 12, 5, 4, 7, 13, 17, 11, 10, 6, 5, 17, 6, 16, 13, 5, 12, 4, 64, 40, 47, 54, 32, 23, 4, 53, 49, 32, 23, 4, 54, 8, 40, 47, 54, 32, 7, 23, 4, 69, 52, 43, 23, 4, 51, 10, 12, 6, 10, 15, 40, 5, 13, 6, 23, 4, 69, 52, 48, 5, 6, 26, 26, 26, 63, 4, 19, 8, 13, 4, 48, 7, 6, 16, 13, 7, 15, 4, 52, 7, 9, 21, 16, 7, 21, 5, 4, 61, 9, 14, 5, 13, 12, 6, 7, 9, 14, 10, 9, 21, 4, 64, 48, 52, 61, 63, 4, 7, 9, 14, 4, 48, 7, 6, 16, 13, 7, 15, 4, 52, 7, 9, 21, 16, 7, 21, 5, 4, 53, 5, 9, 5, 13, 7, 6, 10, 8, 9, 4, 64, 48, 52, 53, 63, 4, 20, 10, 6, 11, 4, 8, 27, 5, 13, 4, 6, 11, 10, 13, 6, 22, 39, 6, 20, 8, 4, 24, 13, 5, 6, 13, 7, 10, 9, 5, 14, 4, 18, 8, 14, 5, 15, 12, 4, 10, 9, 4, 8, 9, 5, 4, 11, 16, 9, 14, 13, 5, 14, 4, 24, 15, 16, 12, 4, 15, 7, 9, 21, 16, 7, 21, 5, 12, 4, 7, 9, 14, 4, 14, 5, 5, 24, 4, 10, 9, 6, 5, 13, 8, 24, 5, 13, 7, 25, 10, 15, 10, 6, 22, 4, 25, 5, 6, 20, 5, 5, 9, 4, 58, 7, 37, 23, 4, 49, 22, 32, 8, 13, 17, 11, 4, 7, 9, 14, 4, 32, 5, 9, 12, 8, 13, 55, 15, 8, 20, 26, 2], [4, 40, 47, 54, 32, 4, 10, 12, 4, 14, 5, 12, 10, 21, 9, 5, 14, 4, 6, 8, 4, 24, 13, 5, 39, 6, 13, 7, 10, 9, 4, 14, 5, 5, 24, 4, 25, 10, 14, 10, 13, 5, 17, 6, 10, 8, 9, 7, 15, 4, 13, 5, 24, 13, 5, 12, 5, 9, 6, 7, 6, 10, 8, 9, 12, 4, 19, 13, 8, 18, 4, 16, 9, 15, 7, 25, 5, 15, 5, 14, 4, 6, 5, 37, 6, 4, 25, 22, 4, 46, 8, 10, 9, 6, 15, 22, 4, 17, 8, 9, 14, 10, 6, 10, 8, 9, 10, 9, 21, 4, 8, 9, 4, 25, 8, 6, 11, 4, 15, 5, 19, 6, 4, 7, 9, 14, 4, 13, 10, 21, 11, 6, 4, 17, 8, 9, 6, 5, 37, 6, 4, 10, 9, 4, 7, 15, 15, 4, 15, 7, 22, 5, 13, 12, 26, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [4, 32, 11, 5, 4, 45, 16, 10, 17, 28, 4, 25, 13, 8, 20, 9, 4, 19, 8, 37, 4, 46, 16, 18, 24, 12, 4, 8, 27, 5, 13, 4, 6, 11, 5, 4, 15, 7, 57, 22, 4, 14, 8, 21, 26, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], ], '''attention_mask''': [ [1, 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1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 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0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], ] } # fmt: on self.tokenizer_integration_test_util( expected_encoding=__magic_name__ , model_name='''microsoft/speecht5_asr''' , revision='''c5ef64c71905caeccde0e4462ef3f9077224c524''' , sequences=__magic_name__ , )	279	0
from .glue import GlueDataset, GlueDataTrainingArguments from .language_modeling import ( LineByLineTextDataset, LineByLineWithRefDataset, LineByLineWithSOPTextDataset, TextDataset, TextDatasetForNextSentencePrediction, ) from .squad import SquadDataset, SquadDataTrainingArguments	356	def _a ( SCREAMING_SNAKE_CASE : int ): """simple docstring""" UpperCamelCase__ : List[str] = generate_pascal_triangle(SCREAMING_SNAKE_CASE ) for row_idx in range(SCREAMING_SNAKE_CASE ): # Print left spaces for _ in range(num_rows - row_idx - 1 ): print(end=''' ''' ) # Print row values for col_idx in range(row_idx + 1 ): if col_idx != row_idx: print(triangle[row_idx][col_idx] , end=''' ''' ) else: print(triangle[row_idx][col_idx] , end='''''' ) print() def _a ( SCREAMING_SNAKE_CASE : int ): """simple docstring""" if not isinstance(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ): raise TypeError('''The input value of \'num_rows\' should be \'int\'''' ) if num_rows == 0: return [] elif num_rows < 0: raise ValueError( '''The input value of \'num_rows\' should be greater than or equal to 0''' ) UpperCamelCase__ : list[list[int]] = [] for current_row_idx in range(SCREAMING_SNAKE_CASE ): UpperCamelCase__ : str = populate_current_row(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) triangle.append(SCREAMING_SNAKE_CASE ) return triangle def _a ( SCREAMING_SNAKE_CASE : list[list[int]] , SCREAMING_SNAKE_CASE : int ): """simple docstring""" UpperCamelCase__ : List[Any] = [-1] * (current_row_idx + 1) # first and last elements of current row are equal to 1 UpperCamelCase__ , UpperCamelCase__ : Optional[int] = 1, 1 for current_col_idx in range(1 , SCREAMING_SNAKE_CASE ): calculate_current_element( SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) return current_row def _a ( SCREAMING_SNAKE_CASE : list[list[int]] , SCREAMING_SNAKE_CASE : list[int] , SCREAMING_SNAKE_CASE : int , SCREAMING_SNAKE_CASE : int , ): """simple docstring""" UpperCamelCase__ : Optional[Any] = triangle[current_row_idx - 1][current_col_idx - 1] UpperCamelCase__ : List[Any] = triangle[current_row_idx - 1][current_col_idx] UpperCamelCase__ : Tuple = above_to_left_elt + above_to_right_elt def _a ( SCREAMING_SNAKE_CASE : int ): """simple docstring""" if not isinstance(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ): raise TypeError('''The input value of \'num_rows\' should be \'int\'''' ) if num_rows == 0: return [] elif num_rows < 0: raise ValueError( '''The input value of \'num_rows\' should be greater than or equal to 0''' ) UpperCamelCase__ : list[list[int]] = [[1]] for row_index in range(1 , SCREAMING_SNAKE_CASE ): UpperCamelCase__ : Tuple = [0] + result[-1] + [0] UpperCamelCase__ : Any = row_index + 1 # Calculate the number of distinct elements in a row UpperCamelCase__ : str = sum(divmod(SCREAMING_SNAKE_CASE , 2 ) ) UpperCamelCase__ : Optional[int] = [ temp_row[i - 1] + temp_row[i] for i in range(1 , distinct_elements + 1 ) ] UpperCamelCase__ : int = row_first_half[: (row_index + 1) // 2] row_second_half.reverse() UpperCamelCase__ : List[Any] = row_first_half + row_second_half result.append(SCREAMING_SNAKE_CASE ) return result def _a ( ): """simple docstring""" from collections.abc import Callable from timeit import timeit def benchmark_a_function(SCREAMING_SNAKE_CASE : Callable , SCREAMING_SNAKE_CASE : int ) -> None: UpperCamelCase__ : Tuple = F"{func.__name__}({value})" UpperCamelCase__ : Dict = timeit(F"__main__.{call}" , setup='''import __main__''' ) # print(f"{call:38} = {func(value)} -- {timing:.4f} seconds") print(F"{call:38} -- {timing:.4f} seconds" ) for value in range(15 ): # (1, 7, 14): for func in (generate_pascal_triangle, generate_pascal_triangle_optimized): benchmark_a_function(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) print() if __name__ == "__main__": import doctest doctest.testmod() benchmark()	51	0
'''simple docstring''' from ...configuration_utils import PretrainedConfig from ...utils import logging __a = logging.get_logger(__name__) __a = { "vinvino02/glpn-kitti": "https://huggingface.co/vinvino02/glpn-kitti/resolve/main/config.json", # See all GLPN models at https://huggingface.co/models?filter=glpn } class UpperCAmelCase_ ( _a ): """simple docstring""" lowercase = "glpn" def __init__( self : Optional[Any] , snake_case_ : List[str]=3 , snake_case_ : Dict=4 , snake_case_ : List[Any]=[2, 2, 2, 2] , snake_case_ : int=[8, 4, 2, 1] , snake_case_ : List[str]=[32, 64, 160, 256] , snake_case_ : Tuple=[7, 3, 3, 3] , snake_case_ : List[Any]=[4, 2, 2, 2] , snake_case_ : Tuple=[1, 2, 5, 8] , snake_case_ : List[str]=[4, 4, 4, 4] , snake_case_ : Optional[int]="gelu" , snake_case_ : Dict=0.0 , snake_case_ : Union[str, Any]=0.0 , snake_case_ : List[Any]=0.02 , snake_case_ : Tuple=0.1 , snake_case_ : Any=1E-6 , snake_case_ : Dict=64 , snake_case_ : Tuple=10 , snake_case_ : List[Any]=-1 , snake_case_ : Optional[Any] , ): super().__init__(snake_case_ ) snake_case__ : Optional[Any] = num_channels snake_case__ : Dict = num_encoder_blocks snake_case__ : Tuple = depths snake_case__ : Union[str, Any] = sr_ratios snake_case__ : Tuple = hidden_sizes snake_case__ : Optional[Any] = patch_sizes snake_case__ : int = strides snake_case__ : List[Any] = mlp_ratios snake_case__ : Optional[int] = num_attention_heads snake_case__ : Dict = hidden_act snake_case__ : int = hidden_dropout_prob snake_case__ : Optional[Any] = attention_probs_dropout_prob snake_case__ : str = initializer_range snake_case__ : List[str] = drop_path_rate snake_case__ : int = layer_norm_eps snake_case__ : Tuple = decoder_hidden_size snake_case__ : List[Any] = max_depth snake_case__ : Dict = head_in_index	35	from typing import Dict, List, Optional, Union import numpy as np from ...image_processing_utils import BaseImageProcessor, BatchFeature, get_size_dict from ...image_transforms import convert_to_rgb, normalize, rescale, resize, to_channel_dimension_format from ...image_utils import ( OPENAI_CLIP_MEAN, OPENAI_CLIP_STD, ChannelDimension, ImageInput, PILImageResampling, make_list_of_images, to_numpy_array, valid_images, ) from ...utils import TensorType, is_vision_available, logging if is_vision_available(): import PIL __snake_case : List[Any] = logging.get_logger(__name__) class A__(a_ ): """simple docstring""" _A : Optional[Any] = ['''pixel_values'''] def __init__( self , _lowercase = True , _lowercase = None , _lowercase = PILImageResampling.BICUBIC , _lowercase = True , _lowercase = 1 / 255 , _lowercase = True , _lowercase = None , _lowercase = None , _lowercase = True , _lowercase , ) -> None: super().__init__(_lowercase ) a_ : Optional[Any] = size if size is not None else {"""height""": 384, """width""": 384} a_ : List[str] = get_size_dict(_lowercase , default_to_square=_lowercase ) a_ : str = do_resize a_ : Optional[int] = size a_ : Dict = resample a_ : Optional[int] = do_rescale a_ : Dict = rescale_factor a_ : int = do_normalize a_ : str = image_mean if image_mean is not None else OPENAI_CLIP_MEAN a_ : Optional[int] = image_std if image_std is not None else OPENAI_CLIP_STD a_ : Any = do_convert_rgb def UpperCamelCase__ ( self , _lowercase , _lowercase , _lowercase = PILImageResampling.BICUBIC , _lowercase = None , _lowercase , ) -> np.ndarray: a_ : Union[str, Any] = get_size_dict(_lowercase , default_to_square=_lowercase ) if "height" not in size or "width" not in size: raise ValueError(F'''The `size` dictionary must contain the keys `height` and `width`. Got {size.keys()}''' ) a_ : List[str] = (size["""height"""], size["""width"""]) return resize(_lowercase , size=_lowercase , resample=_lowercase , data_format=_lowercase , _lowercase ) def UpperCamelCase__ ( self , _lowercase , _lowercase , _lowercase = None , _lowercase , ) -> Optional[Any]: return rescale(_lowercase , scale=_lowercase , data_format=_lowercase , _lowercase ) def UpperCamelCase__ ( self , _lowercase , _lowercase , _lowercase , _lowercase = None , _lowercase , ) -> np.ndarray: return normalize(_lowercase , mean=_lowercase , std=_lowercase , data_format=_lowercase , _lowercase ) def UpperCamelCase__ ( self , _lowercase , _lowercase = None , _lowercase = None , _lowercase = None , _lowercase = None , _lowercase = None , _lowercase = None , _lowercase = None , _lowercase = None , _lowercase = None , _lowercase = None , _lowercase = ChannelDimension.FIRST , **_lowercase , ) -> PIL.Image.Image: a_ : Optional[int] = do_resize if do_resize is not None else self.do_resize a_ : Any = resample if resample is not None else self.resample a_ : Dict = do_rescale if do_rescale is not None else self.do_rescale a_ : int = rescale_factor if rescale_factor is not None else self.rescale_factor a_ : List[str] = do_normalize if do_normalize is not None else self.do_normalize a_ : Optional[int] = image_mean if image_mean is not None else self.image_mean a_ : Optional[Any] = image_std if image_std is not None else self.image_std a_ : Any = do_convert_rgb if do_convert_rgb is not None else self.do_convert_rgb a_ : str = size if size is not None else self.size a_ : Tuple = get_size_dict(_lowercase , default_to_square=_lowercase ) a_ : Optional[int] = make_list_of_images(_lowercase ) if not valid_images(_lowercase ): raise ValueError( """Invalid image type. Must be of type PIL.Image.Image, numpy.ndarray, """ """torch.Tensor, tf.Tensor or jax.ndarray.""" ) if do_resize and size is None or resample is None: raise ValueError("""Size and resample must be specified if do_resize is True.""" ) if do_rescale and rescale_factor is None: raise ValueError("""Rescale factor must be specified if do_rescale is True.""" ) if do_normalize and (image_mean is None or image_std is None): raise ValueError("""Image mean and std must be specified if do_normalize is True.""" ) # PIL RGBA images are converted to RGB if do_convert_rgb: a_ : Optional[Any] = [convert_to_rgb(_lowercase ) for image in images] # All transformations expect numpy arrays. a_ : str = [to_numpy_array(_lowercase ) for image in images] if do_resize: a_ : Optional[int] = [self.resize(image=_lowercase , size=_lowercase , resample=_lowercase ) for image in images] if do_rescale: a_ : Union[str, Any] = [self.rescale(image=_lowercase , scale=_lowercase ) for image in images] if do_normalize: a_ : str = [self.normalize(image=_lowercase , mean=_lowercase , std=_lowercase ) for image in images] a_ : Optional[Any] = [to_channel_dimension_format(_lowercase , _lowercase ) for image in images] a_ : Optional[Any] = BatchFeature(data={"""pixel_values""": images} , tensor_type=_lowercase ) return encoded_outputs	248	0
"""simple docstring""" import argparse import os from . import ( ALBERT_PRETRAINED_CONFIG_ARCHIVE_MAP, BART_PRETRAINED_MODEL_ARCHIVE_LIST, BERT_PRETRAINED_CONFIG_ARCHIVE_MAP, CAMEMBERT_PRETRAINED_CONFIG_ARCHIVE_MAP, CTRL_PRETRAINED_CONFIG_ARCHIVE_MAP, DISTILBERT_PRETRAINED_CONFIG_ARCHIVE_MAP, DPR_CONTEXT_ENCODER_PRETRAINED_MODEL_ARCHIVE_LIST, DPR_QUESTION_ENCODER_PRETRAINED_MODEL_ARCHIVE_LIST, DPR_READER_PRETRAINED_MODEL_ARCHIVE_LIST, ELECTRA_PRETRAINED_CONFIG_ARCHIVE_MAP, FLAUBERT_PRETRAINED_CONFIG_ARCHIVE_MAP, GPT2_PRETRAINED_CONFIG_ARCHIVE_MAP, LAYOUTLM_PRETRAINED_MODEL_ARCHIVE_LIST, LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP, OPENAI_GPT_PRETRAINED_CONFIG_ARCHIVE_MAP, ROBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP, T5_PRETRAINED_CONFIG_ARCHIVE_MAP, TRANSFO_XL_PRETRAINED_CONFIG_ARCHIVE_MAP, WAV_2_VEC_2_PRETRAINED_CONFIG_ARCHIVE_MAP, XLM_PRETRAINED_CONFIG_ARCHIVE_MAP, XLM_ROBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP, XLNET_PRETRAINED_CONFIG_ARCHIVE_MAP, AlbertConfig, BartConfig, BertConfig, CamembertConfig, CTRLConfig, DistilBertConfig, DPRConfig, ElectraConfig, FlaubertConfig, GPTaConfig, LayoutLMConfig, LxmertConfig, OpenAIGPTConfig, RobertaConfig, TaConfig, TFAlbertForPreTraining, TFBartForConditionalGeneration, TFBartForSequenceClassification, TFBertForPreTraining, TFBertForQuestionAnswering, TFBertForSequenceClassification, TFCamembertForMaskedLM, TFCTRLLMHeadModel, TFDistilBertForMaskedLM, TFDistilBertForQuestionAnswering, TFDPRContextEncoder, TFDPRQuestionEncoder, TFDPRReader, TFElectraForPreTraining, TFFlaubertWithLMHeadModel, TFGPTaLMHeadModel, TFLayoutLMForMaskedLM, TFLxmertForPreTraining, TFLxmertVisualFeatureEncoder, TFOpenAIGPTLMHeadModel, TFRobertaForCausalLM, TFRobertaForMaskedLM, TFRobertaForSequenceClassification, TFTaForConditionalGeneration, TFTransfoXLLMHeadModel, TFWavaVecaModel, TFXLMRobertaForMaskedLM, TFXLMWithLMHeadModel, TFXLNetLMHeadModel, TransfoXLConfig, WavaVecaConfig, WavaVecaModel, XLMConfig, XLMRobertaConfig, XLNetConfig, is_torch_available, load_pytorch_checkpoint_in_tfa_model, ) from .utils import CONFIG_NAME, WEIGHTS_NAME, cached_file, logging if is_torch_available(): import numpy as np import torch from . import ( AlbertForPreTraining, BartForConditionalGeneration, BertForPreTraining, BertForQuestionAnswering, BertForSequenceClassification, CamembertForMaskedLM, CTRLLMHeadModel, DistilBertForMaskedLM, DistilBertForQuestionAnswering, DPRContextEncoder, DPRQuestionEncoder, DPRReader, ElectraForPreTraining, FlaubertWithLMHeadModel, GPTaLMHeadModel, LayoutLMForMaskedLM, LxmertForPreTraining, LxmertVisualFeatureEncoder, OpenAIGPTLMHeadModel, RobertaForMaskedLM, RobertaForSequenceClassification, TaForConditionalGeneration, TransfoXLLMHeadModel, XLMRobertaForMaskedLM, XLMWithLMHeadModel, XLNetLMHeadModel, ) logging.set_verbosity_info() lowercase_ = { 'bart': ( BartConfig, TFBartForConditionalGeneration, TFBartForSequenceClassification, BartForConditionalGeneration, BART_PRETRAINED_MODEL_ARCHIVE_LIST, ), 'bert': ( BertConfig, TFBertForPreTraining, BertForPreTraining, BERT_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'bert-large-uncased-whole-word-masking-finetuned-squad': ( BertConfig, TFBertForQuestionAnswering, BertForQuestionAnswering, BERT_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'bert-large-cased-whole-word-masking-finetuned-squad': ( BertConfig, TFBertForQuestionAnswering, BertForQuestionAnswering, BERT_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'bert-base-cased-finetuned-mrpc': ( BertConfig, TFBertForSequenceClassification, BertForSequenceClassification, BERT_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'dpr': ( DPRConfig, TFDPRQuestionEncoder, TFDPRContextEncoder, TFDPRReader, DPRQuestionEncoder, DPRContextEncoder, DPRReader, DPR_CONTEXT_ENCODER_PRETRAINED_MODEL_ARCHIVE_LIST, DPR_QUESTION_ENCODER_PRETRAINED_MODEL_ARCHIVE_LIST, DPR_READER_PRETRAINED_MODEL_ARCHIVE_LIST, ), 'gpt2': ( GPTaConfig, TFGPTaLMHeadModel, GPTaLMHeadModel, GPT2_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'xlnet': ( XLNetConfig, TFXLNetLMHeadModel, XLNetLMHeadModel, XLNET_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'xlm': ( XLMConfig, TFXLMWithLMHeadModel, XLMWithLMHeadModel, XLM_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'xlm-roberta': ( XLMRobertaConfig, TFXLMRobertaForMaskedLM, XLMRobertaForMaskedLM, XLM_ROBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'transfo-xl': ( TransfoXLConfig, TFTransfoXLLMHeadModel, TransfoXLLMHeadModel, TRANSFO_XL_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'openai-gpt': ( OpenAIGPTConfig, TFOpenAIGPTLMHeadModel, OpenAIGPTLMHeadModel, OPENAI_GPT_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'roberta': ( RobertaConfig, TFRobertaForCausalLM, TFRobertaForMaskedLM, RobertaForMaskedLM, ROBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'layoutlm': ( LayoutLMConfig, TFLayoutLMForMaskedLM, LayoutLMForMaskedLM, LAYOUTLM_PRETRAINED_MODEL_ARCHIVE_LIST, ), 'roberta-large-mnli': ( RobertaConfig, TFRobertaForSequenceClassification, RobertaForSequenceClassification, ROBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'camembert': ( CamembertConfig, TFCamembertForMaskedLM, CamembertForMaskedLM, CAMEMBERT_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'flaubert': ( FlaubertConfig, TFFlaubertWithLMHeadModel, FlaubertWithLMHeadModel, FLAUBERT_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'distilbert': ( DistilBertConfig, TFDistilBertForMaskedLM, DistilBertForMaskedLM, DISTILBERT_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'distilbert-base-distilled-squad': ( DistilBertConfig, TFDistilBertForQuestionAnswering, DistilBertForQuestionAnswering, DISTILBERT_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'lxmert': ( LxmertConfig, TFLxmertForPreTraining, LxmertForPreTraining, LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'lxmert-visual-feature-encoder': ( LxmertConfig, TFLxmertVisualFeatureEncoder, LxmertVisualFeatureEncoder, LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'ctrl': ( CTRLConfig, TFCTRLLMHeadModel, CTRLLMHeadModel, CTRL_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'albert': ( AlbertConfig, TFAlbertForPreTraining, AlbertForPreTraining, ALBERT_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 't5': ( TaConfig, TFTaForConditionalGeneration, TaForConditionalGeneration, T5_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'electra': ( ElectraConfig, TFElectraForPreTraining, ElectraForPreTraining, ELECTRA_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'wav2vec2': ( WavaVecaConfig, TFWavaVecaModel, WavaVecaModel, WAV_2_VEC_2_PRETRAINED_CONFIG_ARCHIVE_MAP, ), } def __UpperCamelCase (_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE=False , _SCREAMING_SNAKE_CASE=True ) -> Optional[int]: if model_type not in MODEL_CLASSES: raise ValueError(F"""Unrecognized model type, should be one of {list(MODEL_CLASSES.keys() )}.""" ) lowercase__ , lowercase__ , lowercase__ , lowercase__ = MODEL_CLASSES[model_type] # Initialise TF model if config_file in aws_config_map: lowercase__ = cached_file(UpperCAmelCase_ , UpperCAmelCase_ , force_download=not use_cached_models ) lowercase__ = config_class.from_json_file(UpperCAmelCase_ ) lowercase__ = True lowercase__ = True print(F"""Building TensorFlow model from configuration: {config}""" ) lowercase__ = model_class(UpperCAmelCase_ ) # Load weights from tf checkpoint if pytorch_checkpoint_path in aws_config_map.keys(): lowercase__ = cached_file( UpperCAmelCase_ , UpperCAmelCase_ , force_download=not use_cached_models ) # Load PyTorch checkpoint in tf2 model: lowercase__ = load_pytorch_checkpoint_in_tfa_model(UpperCAmelCase_ , UpperCAmelCase_ ) if compare_with_pt_model: lowercase__ = tf_model(tf_model.dummy_inputs , training=UpperCAmelCase_ ) # build the network lowercase__ = torch.load(UpperCAmelCase_ , map_location='cpu' ) lowercase__ = pt_model_class.from_pretrained( pretrained_model_name_or_path=UpperCAmelCase_ , config=UpperCAmelCase_ , state_dict=UpperCAmelCase_ ) with torch.no_grad(): lowercase__ = pt_model(*pt_model.dummy_inputs ) lowercase__ = pto[0].numpy() lowercase__ = tfo[0].numpy() lowercase__ = np.amax(np.abs(np_pt - np_tf ) ) print(F"""Max absolute difference between models outputs {diff}""" ) assert diff <= 2E-2, F"""Error, model absolute difference is >2e-2: {diff}""" # Save pytorch-model print(F"""Save TensorFlow model to {tf_dump_path}""" ) tf_model.save_weights(UpperCAmelCase_ , save_format='h5' ) def __UpperCamelCase (_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE=None , _SCREAMING_SNAKE_CASE=None , _SCREAMING_SNAKE_CASE=False , _SCREAMING_SNAKE_CASE=False , _SCREAMING_SNAKE_CASE=False , _SCREAMING_SNAKE_CASE=False , ) -> Union[str, Any]: if args_model_type is None: lowercase__ = list(MODEL_CLASSES.keys() ) else: lowercase__ = [args_model_type] for j, model_type in enumerate(UpperCAmelCase_ , start=1 ): print('=' 100 ) print(F""" Converting model type {j}/{len(UpperCAmelCase_ )}: {model_type}""" ) print('=' * 100 ) if model_type not in MODEL_CLASSES: raise ValueError(F"""Unrecognized model type {model_type}, should be one of {list(MODEL_CLASSES.keys() )}.""" ) lowercase__ , lowercase__ , lowercase__ , lowercase__ , lowercase__ = MODEL_CLASSES[model_type] if model_shortcut_names_or_path is None: lowercase__ = list(aws_model_maps.keys() ) if config_shortcut_names_or_path is None: lowercase__ = model_shortcut_names_or_path for i, (model_shortcut_name, config_shortcut_name) in enumerate( zip(UpperCAmelCase_ , UpperCAmelCase_ ) , start=1 ): print('-' * 100 ) if "-squad" in model_shortcut_name or "-mrpc" in model_shortcut_name or "-mnli" in model_shortcut_name: if not only_convert_finetuned_models: print(F""" Skipping finetuned checkpoint {model_shortcut_name}""" ) continue lowercase__ = model_shortcut_name elif only_convert_finetuned_models: print(F""" Skipping not finetuned checkpoint {model_shortcut_name}""" ) continue print( F""" Converting checkpoint {i}/{len(UpperCAmelCase_ )}: {model_shortcut_name} - model_type {model_type}""" ) print('-' * 100 ) if config_shortcut_name in aws_config_map: lowercase__ = cached_file(UpperCAmelCase_ , UpperCAmelCase_ , force_download=not use_cached_models ) else: lowercase__ = config_shortcut_name if model_shortcut_name in aws_model_maps: lowercase__ = cached_file(UpperCAmelCase_ , UpperCAmelCase_ , force_download=not use_cached_models ) else: lowercase__ = model_shortcut_name if os.path.isfile(UpperCAmelCase_ ): lowercase__ = 'converted_model' convert_pt_checkpoint_to_tf( model_type=UpperCAmelCase_ , pytorch_checkpoint_path=UpperCAmelCase_ , config_file=UpperCAmelCase_ , tf_dump_path=os.path.join(UpperCAmelCase_ , model_shortcut_name + '-tf_model.h5' ) , compare_with_pt_model=UpperCAmelCase_ , ) if remove_cached_files: os.remove(UpperCAmelCase_ ) os.remove(UpperCAmelCase_ ) if __name__ == "__main__": lowercase_ = argparse.ArgumentParser() # Required parameters parser.add_argument( """--tf_dump_path""", default=None, type=str, required=True, help="""Path to the output Tensorflow dump file.""" ) parser.add_argument( """--model_type""", default=None, type=str, help=( f'''Model type selected in the list of {list(MODEL_CLASSES.keys())}. If not given, will download and ''' """convert all the models from AWS.""" ), ) parser.add_argument( """--pytorch_checkpoint_path""", default=None, type=str, help=( """Path to the PyTorch checkpoint path or shortcut name to download from AWS. """ """If not given, will download and convert all the checkpoints from AWS.""" ), ) parser.add_argument( """--config_file""", default=None, type=str, help=( """The config json file corresponding to the pre-trained model. \n""" """This specifies the model architecture. If not given and """ """--pytorch_checkpoint_path is not given or is a shortcut name """ """use the configuration associated to the shortcut name on the AWS""" ), ) parser.add_argument( """--compare_with_pt_model""", action="""store_true""", help="""Compare Tensorflow and PyTorch model predictions.""" ) parser.add_argument( """--use_cached_models""", action="""store_true""", help="""Use cached models if possible instead of updating to latest checkpoint versions.""", ) parser.add_argument( """--remove_cached_files""", action="""store_true""", help="""Remove pytorch models after conversion (save memory when converting in batches).""", ) parser.add_argument("""--only_convert_finetuned_models""", action="""store_true""", help="""Only convert finetuned models.""") lowercase_ = parser.parse_args() # if args.pytorch_checkpoint_path is not None: # convert_pt_checkpoint_to_tf(args.model_type.lower(), # args.pytorch_checkpoint_path, # args.config_file if args.config_file is not None else args.pytorch_checkpoint_path, # args.tf_dump_path, # compare_with_pt_model=args.compare_with_pt_model, # use_cached_models=args.use_cached_models) # else: convert_all_pt_checkpoints_to_tf( args.model_type.lower() if args.model_type is not None else None, args.tf_dump_path, model_shortcut_names_or_path=[args.pytorch_checkpoint_path] if args.pytorch_checkpoint_path is not None else None, config_shortcut_names_or_path=[args.config_file] if args.config_file is not None else None, compare_with_pt_model=args.compare_with_pt_model, use_cached_models=args.use_cached_models, remove_cached_files=args.remove_cached_files, only_convert_finetuned_models=args.only_convert_finetuned_models, )	353	from collections.abc import Iterator, MutableMapping from dataclasses import dataclass from typing import Generic, TypeVar lowercase_ = TypeVar("""KEY""") lowercase_ = TypeVar("""VAL""") @dataclass(frozen=UpperCAmelCase , slots=UpperCAmelCase ) class SCREAMING_SNAKE_CASE (Generic[KEY, VAL] ): _UpperCamelCase : KEY _UpperCamelCase : VAL class SCREAMING_SNAKE_CASE (_Item ): def __init__( self : Optional[int] )-> None: """simple docstring""" super().__init__(a , a ) def __bool__( self : str )-> bool: """simple docstring""" return False lowercase_ = _DeletedItem() class SCREAMING_SNAKE_CASE (MutableMapping[KEY, VAL] ): def __init__( self : Tuple , a : int = 8 , a : float = 0.75 )-> None: """simple docstring""" lowercase__ = initial_block_size lowercase__ = [None] * initial_block_size assert 0.0 < capacity_factor < 1.0 lowercase__ = capacity_factor lowercase__ = 0 def SCREAMING_SNAKE_CASE_ ( self : Any , a : KEY )-> int: """simple docstring""" return hash(a ) % len(self._buckets ) def SCREAMING_SNAKE_CASE_ ( self : Optional[Any] , a : int )-> int: """simple docstring""" return (ind + 1) % len(self._buckets ) def SCREAMING_SNAKE_CASE_ ( self : Any , a : int , a : KEY , a : VAL )-> bool: """simple docstring""" lowercase__ = self._buckets[ind] if not stored: lowercase__ = _Item(a , a ) self._len += 1 return True elif stored.key == key: lowercase__ = _Item(a , a ) return True else: return False def SCREAMING_SNAKE_CASE_ ( self : str )-> bool: """simple docstring""" lowercase__ = len(self._buckets ) * self._capacity_factor return len(self ) >= int(a ) def SCREAMING_SNAKE_CASE_ ( self : Tuple )-> bool: """simple docstring""" if len(self._buckets ) <= self._initial_block_size: return False lowercase__ = len(self._buckets ) * self._capacity_factor / 2 return len(self ) < limit def SCREAMING_SNAKE_CASE_ ( self : List[str] , a : int )-> None: """simple docstring""" lowercase__ = self._buckets lowercase__ = [None] * new_size lowercase__ = 0 for item in old_buckets: if item: self._add_item(item.key , item.val ) def SCREAMING_SNAKE_CASE_ ( self : Optional[int] )-> None: """simple docstring""" self._resize(len(self._buckets ) * 2 ) def SCREAMING_SNAKE_CASE_ ( self : Optional[int] )-> None: """simple docstring""" self._resize(len(self._buckets ) // 2 ) def SCREAMING_SNAKE_CASE_ ( self : Any , a : KEY )-> Iterator[int]: """simple docstring""" lowercase__ = self._get_bucket_index(a ) for _ in range(len(self._buckets ) ): yield ind lowercase__ = self._get_next_ind(a ) def SCREAMING_SNAKE_CASE_ ( self : Tuple , a : KEY , a : VAL )-> None: """simple docstring""" for ind in self._iterate_buckets(a ): if self._try_set(a , a , a ): break def __setitem__( self : List[Any] , a : KEY , a : VAL )-> None: """simple docstring""" if self._is_full(): self._size_up() self._add_item(a , a ) def __delitem__( self : str , a : KEY )-> None: """simple docstring""" for ind in self._iterate_buckets(a ): lowercase__ = self._buckets[ind] if item is None: raise KeyError(a ) if item is _deleted: continue if item.key == key: lowercase__ = _deleted self._len -= 1 break if self._is_sparse(): self._size_down() def __getitem__( self : List[str] , a : KEY )-> VAL: """simple docstring""" for ind in self._iterate_buckets(a ): lowercase__ = self._buckets[ind] if item is None: break if item is _deleted: continue if item.key == key: return item.val raise KeyError(a ) def __len__( self : Tuple )-> int: """simple docstring""" return self._len def __iter__( self : int )-> Iterator[KEY]: """simple docstring""" yield from (item.key for item in self._buckets if item) def __repr__( self : Union[str, Any] )-> str: """simple docstring""" lowercase__ = ' ,'.join( f"""{item.key}: {item.val}""" for item in self._buckets if item ) return f"""HashMap({val_string})"""	269	0
'''simple docstring''' import argparse import json from typing import List from ltp import LTP from transformers.models.bert.tokenization_bert import BertTokenizer def lowercase__( __UpperCamelCase: Tuple ): """simple docstring""" if ( (cp >= 0x4_e_0_0 and cp <= 0x9_f_f_f) or (cp >= 0x3_4_0_0 and cp <= 0x4_d_b_f) # or (cp >= 0x2_0_0_0_0 and cp <= 0x2_a_6_d_f) # or (cp >= 0x2_a_7_0_0 and cp <= 0x2_b_7_3_f) # or (cp >= 0x2_b_7_4_0 and cp <= 0x2_b_8_1_f) # or (cp >= 0x2_b_8_2_0 and cp <= 0x2_c_e_a_f) # or (cp >= 0xf_9_0_0 and cp <= 0xf_a_f_f) or (cp >= 0x2_f_8_0_0 and cp <= 0x2_f_a_1_f) # ): # return True return False def lowercase__( __UpperCamelCase: str ): """simple docstring""" for char in word: SCREAMING_SNAKE_CASE : Union[str, Any] = ord(__UpperCamelCase ) if not _is_chinese_char(__UpperCamelCase ): return 0 return 1 def lowercase__( __UpperCamelCase: List[str] ): """simple docstring""" SCREAMING_SNAKE_CASE : List[str] = set() for token in tokens: SCREAMING_SNAKE_CASE : Dict = len(__UpperCamelCase ) > 1 and is_chinese(__UpperCamelCase ) if chinese_word: word_set.add(__UpperCamelCase ) SCREAMING_SNAKE_CASE : str = list(__UpperCamelCase ) return word_list def lowercase__( __UpperCamelCase: List[str] ,__UpperCamelCase: set() ): """simple docstring""" if not chinese_word_set: return bert_tokens SCREAMING_SNAKE_CASE : Dict = max([len(__UpperCamelCase ) for w in chinese_word_set] ) SCREAMING_SNAKE_CASE : Any = bert_tokens SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE : Optional[Any] = 0, len(__UpperCamelCase ) while start < end: SCREAMING_SNAKE_CASE : int = True if is_chinese(bert_word[start] ): SCREAMING_SNAKE_CASE : Any = min(end - start ,__UpperCamelCase ) for i in range(__UpperCamelCase ,1 ,-1 ): SCREAMING_SNAKE_CASE : Tuple = ''.join(bert_word[start : start + i] ) if whole_word in chinese_word_set: for j in range(start + 1 ,start + i ): SCREAMING_SNAKE_CASE : Union[str, Any] = '##' + bert_word[j] SCREAMING_SNAKE_CASE : Optional[int] = start + i SCREAMING_SNAKE_CASE : Tuple = False break if single_word: start += 1 return bert_word def lowercase__( __UpperCamelCase: List[str] ,__UpperCamelCase: LTP ,__UpperCamelCase: BertTokenizer ): """simple docstring""" SCREAMING_SNAKE_CASE : int = [] for i in range(0 ,len(__UpperCamelCase ) ,1_00 ): SCREAMING_SNAKE_CASE : Optional[int] = ltp_tokenizer.pipeline(lines[i : i + 1_00] ,tasks=['cws'] ).cws SCREAMING_SNAKE_CASE : Union[str, Any] = [get_chinese_word(__UpperCamelCase ) for r in res] ltp_res.extend(__UpperCamelCase ) assert len(__UpperCamelCase ) == len(__UpperCamelCase ) SCREAMING_SNAKE_CASE : int = [] for i in range(0 ,len(__UpperCamelCase ) ,1_00 ): SCREAMING_SNAKE_CASE : List[Any] = bert_tokenizer(lines[i : i + 1_00] ,add_special_tokens=__UpperCamelCase ,truncation=__UpperCamelCase ,max_length=5_12 ) bert_res.extend(res['input_ids'] ) assert len(__UpperCamelCase ) == len(__UpperCamelCase ) SCREAMING_SNAKE_CASE : Dict = [] for input_ids, chinese_word in zip(__UpperCamelCase ,__UpperCamelCase ): SCREAMING_SNAKE_CASE : Any = [] for id in input_ids: SCREAMING_SNAKE_CASE : Tuple = bert_tokenizer._convert_id_to_token(__UpperCamelCase ) input_tokens.append(__UpperCamelCase ) SCREAMING_SNAKE_CASE : Dict = add_sub_symbol(__UpperCamelCase ,__UpperCamelCase ) SCREAMING_SNAKE_CASE : List[str] = [] # We only save pos of chinese subwords start with ##, which mean is part of a whole word. for i, token in enumerate(__UpperCamelCase ): if token[:2] == "##": SCREAMING_SNAKE_CASE : str = token[2:] # save chinese tokens' pos if len(__UpperCamelCase ) == 1 and _is_chinese_char(ord(__UpperCamelCase ) ): ref_id.append(__UpperCamelCase ) ref_ids.append(__UpperCamelCase ) assert len(__UpperCamelCase ) == len(__UpperCamelCase ) return ref_ids def lowercase__( __UpperCamelCase: str ): """simple docstring""" with open(args.file_name ,'r' ,encoding='utf-8' ) as f: SCREAMING_SNAKE_CASE : int = f.readlines() SCREAMING_SNAKE_CASE : Tuple = [line.strip() for line in data if len(__UpperCamelCase ) > 0 and not line.isspace()] # avoid delimiter like '\u2029' SCREAMING_SNAKE_CASE : Union[str, Any] = LTP(args.ltp ) # faster in GPU device SCREAMING_SNAKE_CASE : Union[str, Any] = BertTokenizer.from_pretrained(args.bert ) SCREAMING_SNAKE_CASE : List[str] = prepare_ref(__UpperCamelCase ,__UpperCamelCase ,__UpperCamelCase ) with open(args.save_path ,'w' ,encoding='utf-8' ) as f: SCREAMING_SNAKE_CASE : Optional[Any] = [json.dumps(__UpperCamelCase ) + '\n' for ref in ref_ids] f.writelines(__UpperCamelCase ) if __name__ == "__main__": UpperCamelCase_ = argparse.ArgumentParser(description="prepare_chinese_ref") parser.add_argument( "--file_name", required=False, type=str, default="./resources/chinese-demo.txt", help="file need process, same as training data in lm", ) parser.add_argument( "--ltp", required=False, type=str, default="./resources/ltp", help="resources for LTP tokenizer, usually a path", ) parser.add_argument( "--bert", required=False, type=str, default="./resources/robert", help="resources for Bert tokenizer", ) parser.add_argument( "--save_path", required=False, type=str, default="./resources/ref.txt", help="path to save res", ) UpperCamelCase_ = parser.parse_args() main(args)	251	'''simple docstring''' import math from enum import Enum from typing import Optional, Union from torch.optim import Optimizer from torch.optim.lr_scheduler import LambdaLR from .utils import logging UpperCamelCase_ = logging.get_logger(__name__) class _a ( SCREAMING_SNAKE_CASE ): '''simple docstring''' A : Union[str, Any] = '''linear''' A : int = '''cosine''' A : Optional[Any] = '''cosine_with_restarts''' A : Optional[int] = '''polynomial''' A : str = '''constant''' A : Union[str, Any] = '''constant_with_warmup''' A : Optional[Any] = '''piecewise_constant''' def lowercase__( __UpperCamelCase: Optimizer ,__UpperCamelCase: int = -1 ): """simple docstring""" return LambdaLR(__UpperCamelCase ,lambda __UpperCamelCase : 1 ,last_epoch=__UpperCamelCase ) def lowercase__( __UpperCamelCase: Optimizer ,__UpperCamelCase: int ,__UpperCamelCase: int = -1 ): """simple docstring""" def lr_lambda(__UpperCamelCase: int ): if current_step < num_warmup_steps: return float(__UpperCamelCase ) / float(max(1.0 ,__UpperCamelCase ) ) return 1.0 return LambdaLR(__UpperCamelCase ,__UpperCamelCase ,last_epoch=__UpperCamelCase ) def lowercase__( __UpperCamelCase: Optimizer ,__UpperCamelCase: str ,__UpperCamelCase: int = -1 ): """simple docstring""" SCREAMING_SNAKE_CASE : Dict = {} SCREAMING_SNAKE_CASE : Optional[Any] = step_rules.split(',' ) for rule_str in rule_list[:-1]: SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE : Optional[int] = rule_str.split(':' ) SCREAMING_SNAKE_CASE : int = int(__UpperCamelCase ) SCREAMING_SNAKE_CASE : Any = float(__UpperCamelCase ) SCREAMING_SNAKE_CASE : List[str] = value SCREAMING_SNAKE_CASE : Any = float(rule_list[-1] ) def create_rules_function(__UpperCamelCase: Union[str, Any] ,__UpperCamelCase: Optional[Any] ): def rule_func(__UpperCamelCase: int ) -> float: SCREAMING_SNAKE_CASE : Union[str, Any] = sorted(rules_dict.keys() ) for i, sorted_step in enumerate(__UpperCamelCase ): if steps < sorted_step: return rules_dict[sorted_steps[i]] return last_lr_multiple return rule_func SCREAMING_SNAKE_CASE : Any = create_rules_function(__UpperCamelCase ,__UpperCamelCase ) return LambdaLR(__UpperCamelCase ,__UpperCamelCase ,last_epoch=__UpperCamelCase ) def lowercase__( __UpperCamelCase: int ,__UpperCamelCase: List[Any] ,__UpperCamelCase: Dict ,__UpperCamelCase: int=-1 ): """simple docstring""" def lr_lambda(__UpperCamelCase: int ): if current_step < num_warmup_steps: return float(__UpperCamelCase ) / float(max(1 ,__UpperCamelCase ) ) return max( 0.0 ,float(num_training_steps - current_step ) / float(max(1 ,num_training_steps - num_warmup_steps ) ) ) return LambdaLR(__UpperCamelCase ,__UpperCamelCase ,__UpperCamelCase ) def lowercase__( __UpperCamelCase: Optimizer ,__UpperCamelCase: int ,__UpperCamelCase: int ,__UpperCamelCase: float = 0.5 ,__UpperCamelCase: int = -1 ): """simple docstring""" def lr_lambda(__UpperCamelCase: Any ): if current_step < num_warmup_steps: return float(__UpperCamelCase ) / float(max(1 ,__UpperCamelCase ) ) SCREAMING_SNAKE_CASE : str = float(current_step - num_warmup_steps ) / float(max(1 ,num_training_steps - num_warmup_steps ) ) return max(0.0 ,0.5 * (1.0 + math.cos(math.pi * float(__UpperCamelCase ) * 2.0 * progress )) ) return LambdaLR(__UpperCamelCase ,__UpperCamelCase ,__UpperCamelCase ) def lowercase__( __UpperCamelCase: Optimizer ,__UpperCamelCase: int ,__UpperCamelCase: int ,__UpperCamelCase: int = 1 ,__UpperCamelCase: int = -1 ): """simple docstring""" def lr_lambda(__UpperCamelCase: Dict ): if current_step < num_warmup_steps: return float(__UpperCamelCase ) / float(max(1 ,__UpperCamelCase ) ) SCREAMING_SNAKE_CASE : int = float(current_step - num_warmup_steps ) / float(max(1 ,num_training_steps - num_warmup_steps ) ) if progress >= 1.0: return 0.0 return max(0.0 ,0.5 * (1.0 + math.cos(math.pi * ((float(__UpperCamelCase ) * progress) % 1.0) )) ) return LambdaLR(__UpperCamelCase ,__UpperCamelCase ,__UpperCamelCase ) def lowercase__( __UpperCamelCase: Optional[int] ,__UpperCamelCase: Any ,__UpperCamelCase: Optional[int] ,__UpperCamelCase: Optional[Any]=1e-7 ,__UpperCamelCase: Dict=1.0 ,__UpperCamelCase: Optional[Any]=-1 ): """simple docstring""" SCREAMING_SNAKE_CASE : Dict = optimizer.defaults['lr'] if not (lr_init > lr_end): raise ValueError(f"lr_end ({lr_end}) must be be smaller than initial lr ({lr_init})" ) def lr_lambda(__UpperCamelCase: int ): if current_step < num_warmup_steps: return float(__UpperCamelCase ) / float(max(1 ,__UpperCamelCase ) ) elif current_step > num_training_steps: return lr_end / lr_init # as LambdaLR multiplies by lr_init else: SCREAMING_SNAKE_CASE : List[str] = lr_init - lr_end SCREAMING_SNAKE_CASE : Optional[Any] = num_training_steps - num_warmup_steps SCREAMING_SNAKE_CASE : Union[str, Any] = 1 - (current_step - num_warmup_steps) / decay_steps SCREAMING_SNAKE_CASE : str = lr_range * pct_remaining**power + lr_end return decay / lr_init # as LambdaLR multiplies by lr_init return LambdaLR(__UpperCamelCase ,__UpperCamelCase ,__UpperCamelCase ) UpperCamelCase_ = { SchedulerType.LINEAR: get_linear_schedule_with_warmup, SchedulerType.COSINE: get_cosine_schedule_with_warmup, SchedulerType.COSINE_WITH_RESTARTS: get_cosine_with_hard_restarts_schedule_with_warmup, SchedulerType.POLYNOMIAL: get_polynomial_decay_schedule_with_warmup, SchedulerType.CONSTANT: get_constant_schedule, SchedulerType.CONSTANT_WITH_WARMUP: get_constant_schedule_with_warmup, SchedulerType.PIECEWISE_CONSTANT: get_piecewise_constant_schedule, } def lowercase__( __UpperCamelCase: Union[str, SchedulerType] ,__UpperCamelCase: Optimizer ,__UpperCamelCase: Optional[str] = None ,__UpperCamelCase: Optional[int] = None ,__UpperCamelCase: Optional[int] = None ,__UpperCamelCase: int = 1 ,__UpperCamelCase: float = 1.0 ,__UpperCamelCase: int = -1 ,): """simple docstring""" SCREAMING_SNAKE_CASE : Union[str, Any] = SchedulerType(__UpperCamelCase ) SCREAMING_SNAKE_CASE : str = TYPE_TO_SCHEDULER_FUNCTION[name] if name == SchedulerType.CONSTANT: return schedule_func(__UpperCamelCase ,last_epoch=__UpperCamelCase ) if name == SchedulerType.PIECEWISE_CONSTANT: return schedule_func(__UpperCamelCase ,step_rules=__UpperCamelCase ,last_epoch=__UpperCamelCase ) # All other schedulers require `num_warmup_steps` if num_warmup_steps is None: raise ValueError(f"{name} requires `num_warmup_steps`, please provide that argument." ) if name == SchedulerType.CONSTANT_WITH_WARMUP: return schedule_func(__UpperCamelCase ,num_warmup_steps=__UpperCamelCase ,last_epoch=__UpperCamelCase ) # All other schedulers require `num_training_steps` if num_training_steps is None: raise ValueError(f"{name} requires `num_training_steps`, please provide that argument." ) if name == SchedulerType.COSINE_WITH_RESTARTS: return schedule_func( __UpperCamelCase ,num_warmup_steps=__UpperCamelCase ,num_training_steps=__UpperCamelCase ,num_cycles=__UpperCamelCase ,last_epoch=__UpperCamelCase ,) if name == SchedulerType.POLYNOMIAL: return schedule_func( __UpperCamelCase ,num_warmup_steps=__UpperCamelCase ,num_training_steps=__UpperCamelCase ,power=__UpperCamelCase ,last_epoch=__UpperCamelCase ,) return schedule_func( __UpperCamelCase ,num_warmup_steps=__UpperCamelCase ,num_training_steps=__UpperCamelCase ,last_epoch=__UpperCamelCase )	251	1
"""simple docstring""" from sklearn.metrics import fa_score, matthews_corrcoef import datasets from .record_evaluation import evaluate as evaluate_record __A : List[Any] = "\\n@article{wang2019superglue,\n title={SuperGLUE: A Stickier Benchmark for General-Purpose Language Understanding Systems},\n author={Wang, Alex and Pruksachatkun, Yada and Nangia, Nikita and Singh, Amanpreet and Michael, Julian and Hill, Felix and Levy, Omer and Bowman, Samuel R},\n journal={arXiv preprint arXiv:1905.00537},\n year={2019}\n}\n" __A : Union[str, Any] = "\\nSuperGLUE (https://super.gluebenchmark.com/) is a new benchmark styled after\nGLUE with a new set of more difficult language understanding tasks, improved\nresources, and a new public leaderboard.\n" __A : Optional[Any] = "\nCompute SuperGLUE evaluation metric associated to each SuperGLUE dataset.\nArgs:\n predictions: list of predictions to score. Depending on the SuperGlUE subset:\n - for 'record': list of question-answer dictionaries with the following keys:\n - 'idx': index of the question as specified by the dataset\n - 'prediction_text': the predicted answer text\n - for 'multirc': list of question-answer dictionaries with the following keys:\n - 'idx': index of the question-answer pair as specified by the dataset\n - 'prediction': the predicted answer label\n - otherwise: list of predicted labels\n references: list of reference labels. Depending on the SuperGLUE subset:\n - for 'record': list of question-answers dictionaries with the following keys:\n - 'idx': index of the question as specified by the dataset\n - 'answers': list of possible answers\n - otherwise: list of reference labels\nReturns: depending on the SuperGLUE subset:\n - for 'record':\n - 'exact_match': Exact match between answer and gold answer\n - 'f1': F1 score\n - for 'multirc':\n - 'exact_match': Exact match between answer and gold answer\n - 'f1_m': Per-question macro-F1 score\n - 'f1_a': Average F1 score over all answers\n - for 'axb':\n 'matthews_correlation': Matthew Correlation\n - for 'cb':\n - 'accuracy': Accuracy\n - 'f1': F1 score\n - for all others:\n - 'accuracy': Accuracy\nExamples:\n\n >>> super_glue_metric = datasets.load_metric('super_glue', 'copa') # any of [\"copa\", \"rte\", \"wic\", \"wsc\", \"wsc.fixed\", \"boolq\", \"axg\"]\n >>> predictions = [0, 1]\n >>> references = [0, 1]\n >>> results = super_glue_metric.compute(predictions=predictions, references=references)\n >>> print(results)\n {'accuracy': 1.0}\n\n >>> super_glue_metric = datasets.load_metric('super_glue', 'cb')\n >>> predictions = [0, 1]\n >>> references = [0, 1]\n >>> results = super_glue_metric.compute(predictions=predictions, references=references)\n >>> print(results)\n {'accuracy': 1.0, 'f1': 1.0}\n\n >>> super_glue_metric = datasets.load_metric('super_glue', 'record')\n >>> predictions = [{'idx': {'passage': 0, 'query': 0}, 'prediction_text': 'answer'}]\n >>> references = [{'idx': {'passage': 0, 'query': 0}, 'answers': ['answer', 'another_answer']}]\n >>> results = super_glue_metric.compute(predictions=predictions, references=references)\n >>> print(results)\n {'exact_match': 1.0, 'f1': 1.0}\n\n >>> super_glue_metric = datasets.load_metric('super_glue', 'multirc')\n >>> predictions = [{'idx': {'answer': 0, 'paragraph': 0, 'question': 0}, 'prediction': 0}, {'idx': {'answer': 1, 'paragraph': 2, 'question': 3}, 'prediction': 1}]\n >>> references = [0, 1]\n >>> results = super_glue_metric.compute(predictions=predictions, references=references)\n >>> print(results)\n {'exact_match': 1.0, 'f1_m': 1.0, 'f1_a': 1.0}\n\n >>> super_glue_metric = datasets.load_metric('super_glue', 'axb')\n >>> references = [0, 1]\n >>> predictions = [0, 1]\n >>> results = super_glue_metric.compute(predictions=predictions, references=references)\n >>> print(results)\n {'matthews_correlation': 1.0}\n" def lowercase ( _SCREAMING_SNAKE_CASE : Dict , _SCREAMING_SNAKE_CASE : Optional[int] ) -> Tuple: '''simple docstring''' return float((preds == labels).mean() ) def lowercase ( _SCREAMING_SNAKE_CASE : Union[str, Any] , _SCREAMING_SNAKE_CASE : Union[str, Any] , _SCREAMING_SNAKE_CASE : List[Any]="binary" ) -> Optional[int]: '''simple docstring''' _UpperCAmelCase = simple_accuracy(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) _UpperCAmelCase = float(fa_score(y_true=_SCREAMING_SNAKE_CASE , y_pred=_SCREAMING_SNAKE_CASE , average=_SCREAMING_SNAKE_CASE ) ) return { "accuracy": acc, "f1": fa, } def lowercase ( _SCREAMING_SNAKE_CASE : str , _SCREAMING_SNAKE_CASE : Tuple ) -> Dict: '''simple docstring''' _UpperCAmelCase = {} for id_pred, label in zip(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ): _UpperCAmelCase = f'{id_pred["idx"]["paragraph"]}-{id_pred["idx"]["question"]}' _UpperCAmelCase = id_pred['''prediction'''] if question_id in question_map: question_map[question_id].append((pred, label) ) else: _UpperCAmelCase = [(pred, label)] _UpperCAmelCase , _UpperCAmelCase = [], [] for question, preds_labels in question_map.items(): _UpperCAmelCase , _UpperCAmelCase = zip(*_SCREAMING_SNAKE_CASE ) _UpperCAmelCase = fa_score(y_true=_SCREAMING_SNAKE_CASE , y_pred=_SCREAMING_SNAKE_CASE , average='''macro''' ) fas.append(_SCREAMING_SNAKE_CASE ) _UpperCAmelCase = int(sum(pred == label for pred, label in preds_labels ) == len(_SCREAMING_SNAKE_CASE ) ) ems.append(_SCREAMING_SNAKE_CASE ) _UpperCAmelCase = float(sum(_SCREAMING_SNAKE_CASE ) / len(_SCREAMING_SNAKE_CASE ) ) _UpperCAmelCase = sum(_SCREAMING_SNAKE_CASE ) / len(_SCREAMING_SNAKE_CASE ) _UpperCAmelCase = float(fa_score(y_true=_SCREAMING_SNAKE_CASE , y_pred=[id_pred['''prediction'''] for id_pred in ids_preds] ) ) return {"exact_match": em, "f1_m": fa_m, "f1_a": fa_a} @datasets.utils.file_utils.add_start_docstrings(_DESCRIPTION , _KWARGS_DESCRIPTION) class _a ( datasets.Metric): """simple docstring""" def lowercase__ ( self : Optional[int] )->Tuple: if self.config_name not in [ "boolq", "cb", "copa", "multirc", "record", "rte", "wic", "wsc", "wsc.fixed", "axb", "axg", ]: raise KeyError( '''You should supply a configuration name selected in ''' '''["boolq", "cb", "copa", "multirc", "record", "rte", "wic", "wsc", "wsc.fixed", "axb", "axg",]''' ) return datasets.MetricInfo( description=_DESCRIPTION , citation=_CITATION , inputs_description=_KWARGS_DESCRIPTION , features=datasets.Features(self._get_feature_types() ) , codebase_urls=[] , reference_urls=[] , format='''numpy''' if not self.config_name == '''record''' and not self.config_name == '''multirc''' else None , ) def lowercase__ ( self : Any )->List[str]: if self.config_name == "record": return { "predictions": { "idx": { "passage": datasets.Value('''int64''' ), "query": datasets.Value('''int64''' ), }, "prediction_text": datasets.Value('''string''' ), }, "references": { "idx": { "passage": datasets.Value('''int64''' ), "query": datasets.Value('''int64''' ), }, "answers": datasets.Sequence(datasets.Value('''string''' ) ), }, } elif self.config_name == "multirc": return { "predictions": { "idx": { "answer": datasets.Value('''int64''' ), "paragraph": datasets.Value('''int64''' ), "question": datasets.Value('''int64''' ), }, "prediction": datasets.Value('''int64''' ), }, "references": datasets.Value('''int64''' ), } else: return { "predictions": datasets.Value('''int64''' ), "references": datasets.Value('''int64''' ), } def lowercase__ ( self : List[Any] , __UpperCamelCase : Dict , __UpperCamelCase : Optional[Any] )->Dict: if self.config_name == "axb": return {"matthews_correlation": matthews_corrcoef(__UpperCamelCase , __UpperCamelCase )} elif self.config_name == "cb": return acc_and_fa(__UpperCamelCase , __UpperCamelCase , fa_avg='''macro''' ) elif self.config_name == "record": _UpperCAmelCase = [ { '''qas''': [ {'''id''': ref['''idx''']['''query'''], '''answers''': [{'''text''': ans} for ans in ref['''answers''']]} for ref in references ] } ] _UpperCAmelCase = {pred['''idx''']['''query''']: pred['''prediction_text'''] for pred in predictions} return evaluate_record(__UpperCamelCase , __UpperCamelCase )[0] elif self.config_name == "multirc": return evaluate_multirc(__UpperCamelCase , __UpperCamelCase ) elif self.config_name in ["copa", "rte", "wic", "wsc", "wsc.fixed", "boolq", "axg"]: return {"accuracy": simple_accuracy(__UpperCamelCase , __UpperCamelCase )} else: raise KeyError( '''You should supply a configuration name selected in ''' '''["boolq", "cb", "copa", "multirc", "record", "rte", "wic", "wsc", "wsc.fixed", "axb", "axg",]''' )	352	"""simple docstring""" def lowercase ( _SCREAMING_SNAKE_CASE : int ): '''simple docstring''' if a < 0: raise ValueError('''Input value must be a positive integer''' ) elif isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ): raise TypeError('''Input value must be a \'int\' type''' ) return bin(_SCREAMING_SNAKE_CASE ).count('''1''' ) if __name__ == "__main__": import doctest doctest.testmod()	326	0
import torch from diffusers import KDPMaDiscreteScheduler from diffusers.utils import torch_device from .test_schedulers import SchedulerCommonTest class __snake_case ( UpperCAmelCase_ ): __lowerCamelCase : int = (KDPMaDiscreteScheduler,) __lowerCamelCase : Optional[Any] = 10 def UpperCAmelCase__ ( self , snake_case__ ) -> Tuple: '''simple docstring''' UpperCAmelCase : Tuple ={ "num_train_timesteps": 1100, "beta_start": 0.0001, "beta_end": 0.02, "beta_schedule": "linear", } config.update(lowerCAmelCase__ ) return config def UpperCAmelCase__ ( self ) -> Tuple: '''simple docstring''' for timesteps in [10, 50, 100, 1000]: self.check_over_configs(num_train_timesteps=lowerCAmelCase__ ) def UpperCAmelCase__ ( self ) -> Dict: '''simple docstring''' for beta_start, beta_end in zip([0.0_0001, 0.0001, 0.001] , [0.0002, 0.002, 0.02] ): self.check_over_configs(beta_start=lowerCAmelCase__ , beta_end=lowerCAmelCase__ ) def UpperCAmelCase__ ( self ) -> Union[str, Any]: '''simple docstring''' for schedule in ["linear", "scaled_linear"]: self.check_over_configs(beta_schedule=lowerCAmelCase__ ) def UpperCAmelCase__ ( self ) -> str: '''simple docstring''' for prediction_type in ["epsilon", "v_prediction"]: self.check_over_configs(prediction_type=lowerCAmelCase__ ) def UpperCAmelCase__ ( self ) -> Optional[int]: '''simple docstring''' UpperCAmelCase : int =self.scheduler_classes[0] UpperCAmelCase : Optional[int] =self.get_scheduler_config(prediction_type='''v_prediction''' ) UpperCAmelCase : Optional[int] =scheduler_class(*lowerCAmelCase__ ) scheduler.set_timesteps(self.num_inference_steps ) UpperCAmelCase : Any =self.dummy_model() UpperCAmelCase : int =self.dummy_sample_deter scheduler.init_noise_sigma UpperCAmelCase : Optional[int] =sample.to(lowerCAmelCase__ ) for i, t in enumerate(scheduler.timesteps ): UpperCAmelCase : Tuple =scheduler.scale_model_input(lowerCAmelCase__ , lowerCAmelCase__ ) UpperCAmelCase : Union[str, Any] =model(lowerCAmelCase__ , lowerCAmelCase__ ) UpperCAmelCase : Optional[Any] =scheduler.step(lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ ) UpperCAmelCase : Tuple =output.prev_sample UpperCAmelCase : Tuple =torch.sum(torch.abs(lowerCAmelCase__ ) ) UpperCAmelCase : Union[str, Any] =torch.mean(torch.abs(lowerCAmelCase__ ) ) if torch_device in ["cpu", "mps"]: assert abs(result_sum.item() - 4.69_34e-07 ) < 1e-2 assert abs(result_mean.item() - 6.11_12e-10 ) < 1e-3 else: # CUDA assert abs(result_sum.item() - 4.6_93_42_86_50_17_09_72e-07 ) < 1e-2 assert abs(result_mean.item() - 0.0002 ) < 1e-3 def UpperCAmelCase__ ( self ) -> int: '''simple docstring''' if torch_device == "mps": return UpperCAmelCase : List[str] =self.scheduler_classes[0] UpperCAmelCase : Dict =self.get_scheduler_config() UpperCAmelCase : Any =scheduler_class(*lowerCAmelCase__ ) scheduler.set_timesteps(self.num_inference_steps ) UpperCAmelCase : Dict =self.dummy_model() UpperCAmelCase : str =self.dummy_sample_deter scheduler.init_noise_sigma UpperCAmelCase : Any =sample.to(lowerCAmelCase__ ) for i, t in enumerate(scheduler.timesteps ): UpperCAmelCase : Union[str, Any] =scheduler.scale_model_input(lowerCAmelCase__ , lowerCAmelCase__ ) UpperCAmelCase : Tuple =model(lowerCAmelCase__ , lowerCAmelCase__ ) UpperCAmelCase : Optional[Any] =scheduler.step(lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ ) UpperCAmelCase : Tuple =output.prev_sample UpperCAmelCase : List[Any] =torch.sum(torch.abs(lowerCAmelCase__ ) ) UpperCAmelCase : str =torch.mean(torch.abs(lowerCAmelCase__ ) ) if torch_device in ["cpu", "mps"]: assert abs(result_sum.item() - 20.4125 ) < 1e-2 assert abs(result_mean.item() - 0.0266 ) < 1e-3 else: # CUDA assert abs(result_sum.item() - 20.4125 ) < 1e-2 assert abs(result_mean.item() - 0.0266 ) < 1e-3 def UpperCAmelCase__ ( self ) -> Dict: '''simple docstring''' if torch_device == "mps": return UpperCAmelCase : List[str] =self.scheduler_classes[0] UpperCAmelCase : Optional[Any] =self.get_scheduler_config() UpperCAmelCase : List[Any] =scheduler_class(*lowerCAmelCase__ ) scheduler.set_timesteps(self.num_inference_steps , device=lowerCAmelCase__ ) UpperCAmelCase : Optional[int] =self.dummy_model() UpperCAmelCase : Dict =self.dummy_sample_deter.to(lowerCAmelCase__ ) scheduler.init_noise_sigma for t in scheduler.timesteps: UpperCAmelCase : Tuple =scheduler.scale_model_input(lowerCAmelCase__ , lowerCAmelCase__ ) UpperCAmelCase : str =model(lowerCAmelCase__ , lowerCAmelCase__ ) UpperCAmelCase : Union[str, Any] =scheduler.step(lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ ) UpperCAmelCase : Any =output.prev_sample UpperCAmelCase : List[Any] =torch.sum(torch.abs(lowerCAmelCase__ ) ) UpperCAmelCase : Dict =torch.mean(torch.abs(lowerCAmelCase__ ) ) if str(lowerCAmelCase__ ).startswith('''cpu''' ): # The following sum varies between 148 and 156 on mps. Why? assert abs(result_sum.item() - 20.4125 ) < 1e-2 assert abs(result_mean.item() - 0.0266 ) < 1e-3 else: # CUDA assert abs(result_sum.item() - 20.4125 ) < 1e-2 assert abs(result_mean.item() - 0.0266 ) < 1e-3	348	import inspect import unittest from transformers import ViTConfig from transformers.testing_utils import ( require_accelerate, require_torch, require_torch_gpu, require_vision, slow, torch_device, ) from transformers.utils import cached_property, is_torch_available, is_vision_available from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin, floats_tensor, ids_tensor from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from torch import nn from transformers import ViTForImageClassification, ViTForMaskedImageModeling, ViTModel from transformers.models.vit.modeling_vit import VIT_PRETRAINED_MODEL_ARCHIVE_LIST if is_vision_available(): from PIL import Image from transformers import ViTImageProcessor class __lowercase : """simple docstring""" def __init__( self : Any , lowerCAmelCase__ : Union[str, Any] , lowerCAmelCase__ : Any=13 , lowerCAmelCase__ : Tuple=30 , lowerCAmelCase__ : List[str]=2 , lowerCAmelCase__ : int=3 , lowerCAmelCase__ : Optional[int]=True , lowerCAmelCase__ : List[str]=True , lowerCAmelCase__ : str=32 , lowerCAmelCase__ : Any=5 , lowerCAmelCase__ : str=4 , lowerCAmelCase__ : int=37 , lowerCAmelCase__ : Optional[Any]="gelu" , lowerCAmelCase__ : Optional[int]=0.1 , lowerCAmelCase__ : Dict=0.1 , lowerCAmelCase__ : Tuple=10 , lowerCAmelCase__ : Optional[Any]=0.02 , lowerCAmelCase__ : List[str]=None , lowerCAmelCase__ : Union[str, Any]=2 , ): SCREAMING_SNAKE_CASE_: str = parent SCREAMING_SNAKE_CASE_: Optional[Any] = batch_size SCREAMING_SNAKE_CASE_: str = image_size SCREAMING_SNAKE_CASE_: Tuple = patch_size SCREAMING_SNAKE_CASE_: int = num_channels SCREAMING_SNAKE_CASE_: List[str] = is_training SCREAMING_SNAKE_CASE_: str = use_labels SCREAMING_SNAKE_CASE_: int = hidden_size SCREAMING_SNAKE_CASE_: List[Any] = num_hidden_layers SCREAMING_SNAKE_CASE_: Union[str, Any] = num_attention_heads SCREAMING_SNAKE_CASE_: Any = intermediate_size SCREAMING_SNAKE_CASE_: str = hidden_act SCREAMING_SNAKE_CASE_: str = hidden_dropout_prob SCREAMING_SNAKE_CASE_: List[str] = attention_probs_dropout_prob SCREAMING_SNAKE_CASE_: int = type_sequence_label_size SCREAMING_SNAKE_CASE_: Dict = initializer_range SCREAMING_SNAKE_CASE_: Dict = scope SCREAMING_SNAKE_CASE_: Dict = encoder_stride # in ViT, the seq length equals the number of patches + 1 (we add 1 for the [CLS] token) SCREAMING_SNAKE_CASE_: List[Any] = (image_size // patch_size) ** 2 SCREAMING_SNAKE_CASE_: Dict = num_patches + 1 def _SCREAMING_SNAKE_CASE ( self : Union[str, Any]): SCREAMING_SNAKE_CASE_: Optional[int] = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size]) SCREAMING_SNAKE_CASE_: str = None if self.use_labels: SCREAMING_SNAKE_CASE_: Union[str, Any] = ids_tensor([self.batch_size] , self.type_sequence_label_size) SCREAMING_SNAKE_CASE_: Optional[Any] = self.get_config() return config, pixel_values, labels def _SCREAMING_SNAKE_CASE ( self : Optional[int]): return ViTConfig( image_size=self.image_size , patch_size=self.patch_size , num_channels=self.num_channels , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , is_decoder=lowerCAmelCase__ , initializer_range=self.initializer_range , encoder_stride=self.encoder_stride , ) def _SCREAMING_SNAKE_CASE ( self : Optional[Any] , lowerCAmelCase__ : int , lowerCAmelCase__ : int , lowerCAmelCase__ : Tuple): SCREAMING_SNAKE_CASE_: Union[str, Any] = ViTModel(config=lowerCAmelCase__) model.to(lowerCAmelCase__) model.eval() SCREAMING_SNAKE_CASE_: Optional[int] = model(lowerCAmelCase__) self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size)) def _SCREAMING_SNAKE_CASE ( self : Union[str, Any] , lowerCAmelCase__ : Optional[Any] , lowerCAmelCase__ : Tuple , lowerCAmelCase__ : Dict): SCREAMING_SNAKE_CASE_: Optional[int] = ViTForMaskedImageModeling(config=lowerCAmelCase__) model.to(lowerCAmelCase__) model.eval() SCREAMING_SNAKE_CASE_: str = model(lowerCAmelCase__) self.parent.assertEqual( result.reconstruction.shape , (self.batch_size, self.num_channels, self.image_size, self.image_size)) # test greyscale images SCREAMING_SNAKE_CASE_: Dict = 1 SCREAMING_SNAKE_CASE_: List[str] = ViTForMaskedImageModeling(lowerCAmelCase__) model.to(lowerCAmelCase__) model.eval() SCREAMING_SNAKE_CASE_: List[str] = floats_tensor([self.batch_size, 1, self.image_size, self.image_size]) SCREAMING_SNAKE_CASE_: str = model(lowerCAmelCase__) self.parent.assertEqual(result.reconstruction.shape , (self.batch_size, 1, self.image_size, self.image_size)) def _SCREAMING_SNAKE_CASE ( self : Any , lowerCAmelCase__ : List[str] , lowerCAmelCase__ : List[str] , lowerCAmelCase__ : Union[str, Any]): SCREAMING_SNAKE_CASE_: Tuple = self.type_sequence_label_size SCREAMING_SNAKE_CASE_: List[str] = ViTForImageClassification(lowerCAmelCase__) model.to(lowerCAmelCase__) model.eval() SCREAMING_SNAKE_CASE_: Any = model(lowerCAmelCase__ , labels=lowerCAmelCase__) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size)) # test greyscale images SCREAMING_SNAKE_CASE_: Union[str, Any] = 1 SCREAMING_SNAKE_CASE_: List[str] = ViTForImageClassification(lowerCAmelCase__) model.to(lowerCAmelCase__) model.eval() SCREAMING_SNAKE_CASE_: Union[str, Any] = floats_tensor([self.batch_size, 1, self.image_size, self.image_size]) SCREAMING_SNAKE_CASE_: Dict = model(lowerCAmelCase__) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size)) def _SCREAMING_SNAKE_CASE ( self : List[Any]): SCREAMING_SNAKE_CASE_: Union[str, Any] = self.prepare_config_and_inputs() ( ( SCREAMING_SNAKE_CASE_ ) , ( SCREAMING_SNAKE_CASE_ ) , ( SCREAMING_SNAKE_CASE_ ) , ): List[str] = config_and_inputs SCREAMING_SNAKE_CASE_: Optional[Any] = {"pixel_values": pixel_values} return config, inputs_dict @require_torch class __lowercase ( UpperCAmelCase_ , UpperCAmelCase_ , unittest.TestCase ): """simple docstring""" _UpperCAmelCase : List[Any] = ( ( ViTModel, ViTForImageClassification, ViTForMaskedImageModeling, ) if is_torch_available() else () ) _UpperCAmelCase : Tuple = ( {'''feature-extraction''': ViTModel, '''image-classification''': ViTForImageClassification} if is_torch_available() else {} ) _UpperCAmelCase : List[str] = True _UpperCAmelCase : List[Any] = False _UpperCAmelCase : Optional[Any] = False _UpperCAmelCase : Tuple = False def _SCREAMING_SNAKE_CASE ( self : Optional[int]): SCREAMING_SNAKE_CASE_: List[str] = ViTModelTester(self) SCREAMING_SNAKE_CASE_: Union[str, Any] = ConfigTester(self , config_class=lowerCAmelCase__ , has_text_modality=lowerCAmelCase__ , hidden_size=37) def _SCREAMING_SNAKE_CASE ( self : Any): self.config_tester.run_common_tests() @unittest.skip(reason="ViT does not use inputs_embeds") def _SCREAMING_SNAKE_CASE ( self : str): pass def _SCREAMING_SNAKE_CASE ( self : str): SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_: Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: SCREAMING_SNAKE_CASE_: Dict = model_class(lowerCAmelCase__) self.assertIsInstance(model.get_input_embeddings() , (nn.Module)) SCREAMING_SNAKE_CASE_: List[Any] = model.get_output_embeddings() self.assertTrue(x is None or isinstance(lowerCAmelCase__ , nn.Linear)) def _SCREAMING_SNAKE_CASE ( self : Optional[int]): SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_: Optional[Any] = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: SCREAMING_SNAKE_CASE_: List[Any] = model_class(lowerCAmelCase__) SCREAMING_SNAKE_CASE_: int = inspect.signature(model.forward) # signature.parameters is an OrderedDict => so arg_names order is deterministic SCREAMING_SNAKE_CASE_: Optional[Any] = [signature.parameters.keys()] SCREAMING_SNAKE_CASE_: Optional[int] = ["pixel_values"] self.assertListEqual(arg_names[:1] , lowerCAmelCase__) def _SCREAMING_SNAKE_CASE ( self : Union[str, Any]): SCREAMING_SNAKE_CASE_: Tuple = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(lowerCAmelCase__) def _SCREAMING_SNAKE_CASE ( self : Optional[Any]): SCREAMING_SNAKE_CASE_: Union[str, Any] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_masked_image_modeling(lowerCAmelCase__) def _SCREAMING_SNAKE_CASE ( self : List[str]): SCREAMING_SNAKE_CASE_: int = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_image_classification(lowerCAmelCase__) @slow def _SCREAMING_SNAKE_CASE ( self : int): for model_name in VIT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: SCREAMING_SNAKE_CASE_: Union[str, Any] = ViTModel.from_pretrained(lowerCAmelCase__) self.assertIsNotNone(lowerCAmelCase__) def A_ ( ): SCREAMING_SNAKE_CASE_: List[Any] = Image.open("./tests/fixtures/tests_samples/COCO/000000039769.png" ) return image @require_torch @require_vision class __lowercase ( unittest.TestCase ): """simple docstring""" @cached_property def _SCREAMING_SNAKE_CASE ( self : int): return ViTImageProcessor.from_pretrained("google/vit-base-patch16-224") if is_vision_available() else None @slow def _SCREAMING_SNAKE_CASE ( self : Union[str, Any]): SCREAMING_SNAKE_CASE_: int = ViTForImageClassification.from_pretrained("google/vit-base-patch16-224").to(lowerCAmelCase__) SCREAMING_SNAKE_CASE_: Optional[Any] = self.default_image_processor SCREAMING_SNAKE_CASE_: str = prepare_img() SCREAMING_SNAKE_CASE_: Optional[Any] = image_processor(images=lowerCAmelCase__ , return_tensors="pt").to(lowerCAmelCase__) # forward pass with torch.no_grad(): SCREAMING_SNAKE_CASE_: Optional[int] = model(**lowerCAmelCase__) # verify the logits SCREAMING_SNAKE_CASE_: Any = torch.Size((1, 1000)) self.assertEqual(outputs.logits.shape , lowerCAmelCase__) SCREAMING_SNAKE_CASE_: List[Any] = torch.tensor([-0.2744, 0.8215, -0.0836]).to(lowerCAmelCase__) self.assertTrue(torch.allclose(outputs.logits[0, :3] , lowerCAmelCase__ , atol=1E-4)) @slow def _SCREAMING_SNAKE_CASE ( self : List[Any]): # ViT models have an `interpolate_pos_encoding` argument in their forward method, # allowing to interpolate the pre-trained position embeddings in order to use # the model on higher resolutions. The DINO model by Facebook AI leverages this # to visualize self-attention on higher resolution images. SCREAMING_SNAKE_CASE_: str = ViTModel.from_pretrained("facebook/dino-vits8").to(lowerCAmelCase__) SCREAMING_SNAKE_CASE_: List[Any] = ViTImageProcessor.from_pretrained("facebook/dino-vits8" , size=480) SCREAMING_SNAKE_CASE_: List[Any] = prepare_img() SCREAMING_SNAKE_CASE_: List[Any] = image_processor(images=lowerCAmelCase__ , return_tensors="pt") SCREAMING_SNAKE_CASE_: int = inputs.pixel_values.to(lowerCAmelCase__) # forward pass with torch.no_grad(): SCREAMING_SNAKE_CASE_: Optional[int] = model(lowerCAmelCase__ , interpolate_pos_encoding=lowerCAmelCase__) # verify the logits SCREAMING_SNAKE_CASE_: Tuple = torch.Size((1, 3601, 384)) self.assertEqual(outputs.last_hidden_state.shape , lowerCAmelCase__) SCREAMING_SNAKE_CASE_: Union[str, Any] = torch.tensor( [[4.2340, 4.3906, -6.6692], [4.5463, 1.8928, -6.7257], [4.4429, 0.8496, -5.8585]]).to(lowerCAmelCase__) self.assertTrue(torch.allclose(outputs.last_hidden_state[0, :3, :3] , lowerCAmelCase__ , atol=1E-4)) @slow @require_accelerate @require_torch_gpu def _SCREAMING_SNAKE_CASE ( self : int): SCREAMING_SNAKE_CASE_: Dict = ViTModel.from_pretrained("facebook/dino-vits8" , torch_dtype=torch.floataa , device_map="auto") SCREAMING_SNAKE_CASE_: int = self.default_image_processor SCREAMING_SNAKE_CASE_: Union[str, Any] = prepare_img() SCREAMING_SNAKE_CASE_: Dict = image_processor(images=lowerCAmelCase__ , return_tensors="pt") SCREAMING_SNAKE_CASE_: str = inputs.pixel_values.to(lowerCAmelCase__) # forward pass to make sure inference works in fp16 with torch.no_grad(): SCREAMING_SNAKE_CASE_: str = model(lowerCAmelCase__)	13	0
import json import os import shutil import tempfile import unittest import numpy as np import pytest from transformers import CLIPTokenizer, CLIPTokenizerFast from transformers.models.clip.tokenization_clip import VOCAB_FILES_NAMES from transformers.testing_utils import require_vision from transformers.utils import IMAGE_PROCESSOR_NAME, is_vision_available if is_vision_available(): from PIL import Image from transformers import CLIPImageProcessor, CLIPProcessor @require_vision class __lowerCAmelCase ( unittest.TestCase ): def lowercase_ ( self ) -> Any: '''simple docstring''' __lowerCamelCase = tempfile.mkdtemp() # fmt: off __lowerCamelCase = ['l', 'o', 'w', 'e', 'r', 's', 't', 'i', 'd', 'n', 'lo', 'l</w>', 'w</w>', 'r</w>', 't</w>', 'low</w>', 'er</w>', 'lowest</w>', 'newer</w>', 'wider', '<unk>', '<\|startoftext\|>', '<\|endoftext\|>'] # fmt: on __lowerCamelCase = dict(zip(lowerCamelCase__ , range(len(lowerCamelCase__ ) ) ) ) __lowerCamelCase = ['#version: 0.2', 'l o', 'lo w</w>', 'e r</w>', ''] __lowerCamelCase = {'unk_token': '<unk>'} __lowerCamelCase = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['vocab_file'] ) __lowerCamelCase = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['merges_file'] ) with open(self.vocab_file , 'w' , encoding='utf-8' ) as fp: fp.write(json.dumps(lowerCamelCase__ ) + '\n' ) with open(self.merges_file , 'w' , encoding='utf-8' ) as fp: fp.write('\n'.join(lowerCamelCase__ ) ) __lowerCamelCase = { 'do_resize': True, 'size': 20, 'do_center_crop': True, 'crop_size': 18, 'do_normalize': True, 'image_mean': [0.48_14_54_66, 0.4_57_82_75, 0.40_82_10_73], 'image_std': [0.26_86_29_54, 0.26_13_02_58, 0.27_57_77_11], } __lowerCamelCase = os.path.join(self.tmpdirname , lowerCamelCase__ ) with open(self.image_processor_file , 'w' , encoding='utf-8' ) as fp: json.dump(lowerCamelCase__ , lowerCamelCase__ ) def lowercase_ ( self , lowerCamelCase__ ) -> Tuple: '''simple docstring''' return CLIPTokenizer.from_pretrained(self.tmpdirname , lowerCamelCase__ ) def lowercase_ ( self , lowerCamelCase__ ) -> Union[str, Any]: '''simple docstring''' return CLIPTokenizerFast.from_pretrained(self.tmpdirname , lowerCamelCase__ ) def lowercase_ ( self , lowerCamelCase__ ) -> Tuple: '''simple docstring''' return CLIPImageProcessor.from_pretrained(self.tmpdirname , lowerCamelCase__ ) def lowercase_ ( self ) -> int: '''simple docstring''' shutil.rmtree(self.tmpdirname ) def lowercase_ ( self ) -> Tuple: '''simple docstring''' __lowerCamelCase = [np.random.randint(255 , size=(3, 30, 400) , dtype=np.uinta )] __lowerCamelCase = [Image.fromarray(np.moveaxis(lowerCamelCase__ , 0 , -1 ) ) for x in image_inputs] return image_inputs def lowercase_ ( self ) -> int: '''simple docstring''' __lowerCamelCase = self.get_tokenizer() __lowerCamelCase = self.get_rust_tokenizer() __lowerCamelCase = self.get_image_processor() __lowerCamelCase = CLIPProcessor(tokenizer=lowerCamelCase__ , image_processor=lowerCamelCase__ ) processor_slow.save_pretrained(self.tmpdirname ) __lowerCamelCase = CLIPProcessor.from_pretrained(self.tmpdirname , use_fast=lowerCamelCase__ ) __lowerCamelCase = CLIPProcessor(tokenizer=lowerCamelCase__ , image_processor=lowerCamelCase__ ) processor_fast.save_pretrained(self.tmpdirname ) __lowerCamelCase = CLIPProcessor.from_pretrained(self.tmpdirname ) self.assertEqual(processor_slow.tokenizer.get_vocab() , tokenizer_slow.get_vocab() ) self.assertEqual(processor_fast.tokenizer.get_vocab() , tokenizer_fast.get_vocab() ) self.assertEqual(tokenizer_slow.get_vocab() , tokenizer_fast.get_vocab() ) self.assertIsInstance(processor_slow.tokenizer , lowerCamelCase__ ) self.assertIsInstance(processor_fast.tokenizer , lowerCamelCase__ ) self.assertEqual(processor_slow.image_processor.to_json_string() , image_processor.to_json_string() ) self.assertEqual(processor_fast.image_processor.to_json_string() , image_processor.to_json_string() ) self.assertIsInstance(processor_slow.image_processor , lowerCamelCase__ ) self.assertIsInstance(processor_fast.image_processor , lowerCamelCase__ ) def lowercase_ ( self ) -> int: '''simple docstring''' __lowerCamelCase = CLIPProcessor(tokenizer=self.get_tokenizer() , image_processor=self.get_image_processor() ) processor.save_pretrained(self.tmpdirname ) __lowerCamelCase = self.get_tokenizer(bos_token='(BOS)' , eos_token='(EOS)' ) __lowerCamelCase = self.get_image_processor(do_normalize=lowerCamelCase__ , padding_value=1.0 ) __lowerCamelCase = CLIPProcessor.from_pretrained( self.tmpdirname , bos_token='(BOS)' , eos_token='(EOS)' , do_normalize=lowerCamelCase__ , padding_value=1.0 ) self.assertEqual(processor.tokenizer.get_vocab() , tokenizer_add_kwargs.get_vocab() ) self.assertIsInstance(processor.tokenizer , lowerCamelCase__ ) self.assertEqual(processor.image_processor.to_json_string() , image_processor_add_kwargs.to_json_string() ) self.assertIsInstance(processor.image_processor , lowerCamelCase__ ) def lowercase_ ( self ) -> Optional[Any]: '''simple docstring''' __lowerCamelCase = self.get_image_processor() __lowerCamelCase = self.get_tokenizer() __lowerCamelCase = CLIPProcessor(tokenizer=lowerCamelCase__ , image_processor=lowerCamelCase__ ) __lowerCamelCase = self.prepare_image_inputs() __lowerCamelCase = image_processor(lowerCamelCase__ , return_tensors='np' ) __lowerCamelCase = processor(images=lowerCamelCase__ , return_tensors='np' ) for key in input_image_proc.keys(): self.assertAlmostEqual(input_image_proc[key].sum() , input_processor[key].sum() , delta=1e-2 ) def lowercase_ ( self ) -> Any: '''simple docstring''' __lowerCamelCase = self.get_image_processor() __lowerCamelCase = self.get_tokenizer() __lowerCamelCase = CLIPProcessor(tokenizer=lowerCamelCase__ , image_processor=lowerCamelCase__ ) __lowerCamelCase = 'lower newer' __lowerCamelCase = processor(text=lowerCamelCase__ ) __lowerCamelCase = tokenizer(lowerCamelCase__ ) for key in encoded_tok.keys(): self.assertListEqual(encoded_tok[key] , encoded_processor[key] ) def lowercase_ ( self ) -> List[str]: '''simple docstring''' __lowerCamelCase = self.get_image_processor() __lowerCamelCase = self.get_tokenizer() __lowerCamelCase = CLIPProcessor(tokenizer=lowerCamelCase__ , image_processor=lowerCamelCase__ ) __lowerCamelCase = 'lower newer' __lowerCamelCase = self.prepare_image_inputs() __lowerCamelCase = processor(text=lowerCamelCase__ , images=lowerCamelCase__ ) self.assertListEqual(list(inputs.keys() ) , ['input_ids', 'attention_mask', 'pixel_values'] ) # test if it raises when no input is passed with pytest.raises(lowerCamelCase__ ): processor() def lowercase_ ( self ) -> Any: '''simple docstring''' __lowerCamelCase = self.get_image_processor() __lowerCamelCase = self.get_tokenizer() __lowerCamelCase = CLIPProcessor(tokenizer=lowerCamelCase__ , image_processor=lowerCamelCase__ ) __lowerCamelCase = [[1, 4, 5, 8, 1, 0, 8], [3, 4, 3, 1, 1, 8, 9]] __lowerCamelCase = processor.batch_decode(lowerCamelCase__ ) __lowerCamelCase = tokenizer.batch_decode(lowerCamelCase__ ) self.assertListEqual(lowerCamelCase__ , lowerCamelCase__ ) def lowercase_ ( self ) -> Union[str, Any]: '''simple docstring''' __lowerCamelCase = self.get_image_processor() __lowerCamelCase = self.get_tokenizer() __lowerCamelCase = CLIPProcessor(tokenizer=lowerCamelCase__ , image_processor=lowerCamelCase__ ) __lowerCamelCase = 'lower newer' __lowerCamelCase = self.prepare_image_inputs() __lowerCamelCase = processor(text=lowerCamelCase__ , images=lowerCamelCase__ ) self.assertListEqual(list(inputs.keys() ) , processor.model_input_names )	371	from ..utils import DummyObject, requires_backends class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , lowerCamelCase__ ) -> Any: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> int: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> str: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> Union[str, Any]: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> Union[str, Any]: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> Union[str, Any]: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> Optional[Any]: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> List[str]: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> Union[str, Any]: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> Any: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> Any: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> Dict: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> Dict: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> Tuple: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> Dict: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> Optional[Any]: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> Optional[int]: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> str: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> Dict: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> Union[str, Any]: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> Tuple: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> Dict: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> Any: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> Dict: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> List[Any]: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> Optional[int]: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> List[Any]: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> Any: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> str: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , *lowerCamelCase__ ) -> int: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , lowerCamelCase__ , **lowerCamelCase__ ) -> int: '''simple docstring''' requires_backends(self , ['sentencepiece'] )	348	0
"""simple docstring""" import itertools import math def UpperCamelCase__ ( lowercase__ : int ): if 1 < number < 4: # 2 and 3 are primes return True elif number < 2 or number % 2 == 0 or number % 3 == 0: # Negatives, 0, 1, all even numbers, all multiples of 3 are not primes return False # All primes number are in format of 6k +/- 1 for i in range(5 , int(math.sqrt(lowercase__ ) + 1 ) , 6 ): if number % i == 0 or number % (i + 2) == 0: return False return True def UpperCamelCase__ ( ): snake_case : Optional[int] = 2 while True: if is_prime(lowercase__ ): yield num num += 1 def UpperCamelCase__ ( lowercase__ : int = 1_0001 ): return next(itertools.islice(prime_generator() , nth - 1 , lowercase__ ) ) if __name__ == "__main__": print(f'{solution() = }')	148	"""simple docstring""" from typing import Dict, List, Optional, Union import numpy as np from ...image_processing_utils import BaseImageProcessor, BatchFeature, get_size_dict from ...image_transforms import ( center_crop, convert_to_rgb, get_resize_output_image_size, normalize, rescale, resize, to_channel_dimension_format, ) from ...image_utils import ( OPENAI_CLIP_MEAN, OPENAI_CLIP_STD, ChannelDimension, ImageInput, PILImageResampling, make_list_of_images, to_numpy_array, valid_images, ) from ...utils import TensorType, is_vision_available, logging __A = logging.get_logger(__name__) if is_vision_available(): import PIL class lowerCamelCase__ ( lowerCamelCase_ ): a__ : Union[str, Any] = ["""pixel_values"""] def __init__( self , SCREAMING_SNAKE_CASE = True , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = PILImageResampling.BICUBIC , SCREAMING_SNAKE_CASE = True , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = True , SCREAMING_SNAKE_CASE = 1 / 255 , SCREAMING_SNAKE_CASE = True , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = True , SCREAMING_SNAKE_CASE , ): """simple docstring""" super().__init__(SCREAMING_SNAKE_CASE ) snake_case : int = size if size is not None else {"shortest_edge": 224} snake_case : int = get_size_dict(SCREAMING_SNAKE_CASE , default_to_square=SCREAMING_SNAKE_CASE ) snake_case : List[str] = crop_size if crop_size is not None else {"height": 224, "width": 224} snake_case : Tuple = get_size_dict(SCREAMING_SNAKE_CASE , default_to_square=SCREAMING_SNAKE_CASE , param_name="crop_size" ) snake_case : Dict = do_resize snake_case : Optional[int] = size snake_case : int = resample snake_case : Union[str, Any] = do_center_crop snake_case : Dict = crop_size snake_case : Dict = do_rescale snake_case : Any = rescale_factor snake_case : Tuple = do_normalize snake_case : int = image_mean if image_mean is not None else OPENAI_CLIP_MEAN snake_case : Tuple = image_std if image_std is not None else OPENAI_CLIP_STD snake_case : Tuple = do_convert_rgb def lowerCamelCase_ ( self , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE = PILImageResampling.BICUBIC , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE , ): """simple docstring""" snake_case : List[Any] = get_size_dict(SCREAMING_SNAKE_CASE , default_to_square=SCREAMING_SNAKE_CASE ) if "shortest_edge" not in size: raise ValueError(F'''The `size` parameter must contain the key `shortest_edge`. Got {size.keys()}''' ) snake_case : Dict = get_resize_output_image_size(SCREAMING_SNAKE_CASE , size=size["shortest_edge"] , default_to_square=SCREAMING_SNAKE_CASE ) return resize(SCREAMING_SNAKE_CASE , size=SCREAMING_SNAKE_CASE , resample=SCREAMING_SNAKE_CASE , data_format=SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) def lowerCamelCase_ ( self , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE , ): """simple docstring""" snake_case : Tuple = get_size_dict(SCREAMING_SNAKE_CASE ) if "height" not in size or "width" not in size: raise ValueError(F'''The `size` parameter must contain the keys (height, width). Got {size.keys()}''' ) return center_crop(SCREAMING_SNAKE_CASE , size=(size["height"], size["width"]) , data_format=SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) def lowerCamelCase_ ( self , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE , ): """simple docstring""" return rescale(SCREAMING_SNAKE_CASE , scale=SCREAMING_SNAKE_CASE , data_format=SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) def lowerCamelCase_ ( self , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE , ): """simple docstring""" return normalize(SCREAMING_SNAKE_CASE , mean=SCREAMING_SNAKE_CASE , std=SCREAMING_SNAKE_CASE , data_format=SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) def lowerCamelCase_ ( self , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = ChannelDimension.FIRST , **SCREAMING_SNAKE_CASE , ): """simple docstring""" snake_case : int = do_resize if do_resize is not None else self.do_resize snake_case : List[str] = size if size is not None else self.size snake_case : Dict = get_size_dict(SCREAMING_SNAKE_CASE , param_name="size" , default_to_square=SCREAMING_SNAKE_CASE ) snake_case : Optional[Any] = resample if resample is not None else self.resample snake_case : List[Any] = do_center_crop if do_center_crop is not None else self.do_center_crop snake_case : Optional[int] = crop_size if crop_size is not None else self.crop_size snake_case : Union[str, Any] = get_size_dict(SCREAMING_SNAKE_CASE , param_name="crop_size" , default_to_square=SCREAMING_SNAKE_CASE ) snake_case : Union[str, Any] = do_rescale if do_rescale is not None else self.do_rescale snake_case : Union[str, Any] = rescale_factor if rescale_factor is not None else self.rescale_factor snake_case : Union[str, Any] = do_normalize if do_normalize is not None else self.do_normalize snake_case : List[str] = image_mean if image_mean is not None else self.image_mean snake_case : Optional[int] = image_std if image_std is not None else self.image_std snake_case : Optional[Any] = do_convert_rgb if do_convert_rgb is not None else self.do_convert_rgb snake_case : List[Any] = make_list_of_images(SCREAMING_SNAKE_CASE ) if not valid_images(SCREAMING_SNAKE_CASE ): raise ValueError( "Invalid image type. Must be of type PIL.Image.Image, numpy.ndarray, " "torch.Tensor, tf.Tensor or jax.ndarray." ) if do_resize and size is None: raise ValueError("Size must be specified if do_resize is True." ) if do_center_crop and crop_size is None: raise ValueError("Crop size must be specified if do_center_crop is True." ) if do_rescale and rescale_factor is None: raise ValueError("Rescale factor must be specified if do_rescale is True." ) if do_normalize and (image_mean is None or image_std is None): raise ValueError("Image mean and std must be specified if do_normalize is True." ) # PIL RGBA images are converted to RGB if do_convert_rgb: snake_case : Optional[int] = [convert_to_rgb(SCREAMING_SNAKE_CASE ) for image in images] # All transformations expect numpy arrays. snake_case : List[str] = [to_numpy_array(SCREAMING_SNAKE_CASE ) for image in images] if do_resize: snake_case : Optional[Any] = [self.resize(image=SCREAMING_SNAKE_CASE , size=SCREAMING_SNAKE_CASE , resample=SCREAMING_SNAKE_CASE ) for image in images] if do_center_crop: snake_case : int = [self.center_crop(image=SCREAMING_SNAKE_CASE , size=SCREAMING_SNAKE_CASE ) for image in images] if do_rescale: snake_case : str = [self.rescale(image=SCREAMING_SNAKE_CASE , scale=SCREAMING_SNAKE_CASE ) for image in images] if do_normalize: snake_case : Optional[int] = [self.normalize(image=SCREAMING_SNAKE_CASE , mean=SCREAMING_SNAKE_CASE , std=SCREAMING_SNAKE_CASE ) for image in images] snake_case : Optional[int] = [to_channel_dimension_format(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) for image in images] snake_case : Tuple = {"pixel_values": images} return BatchFeature(data=SCREAMING_SNAKE_CASE , tensor_type=SCREAMING_SNAKE_CASE )	148	1
"""simple docstring""" import gc import threading import time import psutil import torch class lowerCAmelCase : '''simple docstring''' def __init__( self ) -> Optional[int]: SCREAMING_SNAKE_CASE = psutil.Process() SCREAMING_SNAKE_CASE = False def __A ( self ) -> List[Any]: SCREAMING_SNAKE_CASE = -1 while True: SCREAMING_SNAKE_CASE = max(self.process.memory_info().rss , self.cpu_memory_peak ) # can't sleep or will not catch the peak right (this comment is here on purpose) if not self.peak_monitoring: break def __A ( self ) -> Any: SCREAMING_SNAKE_CASE = True SCREAMING_SNAKE_CASE = threading.Thread(target=self.peak_monitor ) SCREAMING_SNAKE_CASE = True self.thread.start() def __A ( self ) -> Tuple: SCREAMING_SNAKE_CASE = False self.thread.join() return self.cpu_memory_peak __UpperCamelCase = PeakCPUMemory() def lowercase () -> Optional[int]: # Time SCREAMING_SNAKE_CASE = {'time': time.time()} gc.collect() torch.cuda.empty_cache() # CPU mem SCREAMING_SNAKE_CASE = psutil.Process().memory_info().rss cpu_peak_tracker.start() # GPU mem for i in range(torch.cuda.device_count() ): SCREAMING_SNAKE_CASE = torch.cuda.memory_allocated(SCREAMING_SNAKE_CASE_ ) torch.cuda.reset_peak_memory_stats() return measures def lowercase (SCREAMING_SNAKE_CASE_ : Union[str, Any] ) -> Union[str, Any]: # Time SCREAMING_SNAKE_CASE = {'time': time.time() - start_measures['time']} gc.collect() torch.cuda.empty_cache() # CPU mem SCREAMING_SNAKE_CASE = (psutil.Process().memory_info().rss - start_measures['cpu']) / 220 SCREAMING_SNAKE_CASE = (cpu_peak_tracker.stop() - start_measures['cpu']) / 220 # GPU mem for i in range(torch.cuda.device_count() ): SCREAMING_SNAKE_CASE = (torch.cuda.memory_allocated(SCREAMING_SNAKE_CASE_ ) - start_measures[str(SCREAMING_SNAKE_CASE_ )]) / 220 SCREAMING_SNAKE_CASE = (torch.cuda.max_memory_allocated(SCREAMING_SNAKE_CASE_ ) - start_measures[str(SCREAMING_SNAKE_CASE_ )]) / 220 return measures def lowercase (SCREAMING_SNAKE_CASE_ : Any , SCREAMING_SNAKE_CASE_ : Union[str, Any] ) -> int: print(F'{description}:' ) print(F'- Time: {measures["time"]:.2f}s' ) for i in range(torch.cuda.device_count() ): print(F'- GPU {i} allocated: {measures[str(SCREAMING_SNAKE_CASE_ )]:.2f}MiB' ) SCREAMING_SNAKE_CASE = measures[F'{i}-peak'] print(F'- GPU {i} peak: {peak:.2f}MiB' ) print(F'- CPU RAM allocated: {measures["cpu"]:.2f}MiB' ) print(F'- CPU RAM peak: {measures["cpu-peak"]:.2f}MiB' )	356	"""simple docstring""" from __future__ import annotations import unittest from transformers import XGLMConfig, XGLMTokenizer, is_tf_available from transformers.testing_utils import require_tf, slow from ...test_configuration_common import ConfigTester from ...test_modeling_tf_common import TFModelTesterMixin, floats_tensor, ids_tensor, random_attention_mask from ...test_pipeline_mixin import PipelineTesterMixin if is_tf_available(): import tensorflow as tf from transformers.models.xglm.modeling_tf_xglm import ( TF_XGLM_PRETRAINED_MODEL_ARCHIVE_LIST, TFXGLMForCausalLM, TFXGLMModel, ) @require_tf class lowerCAmelCase : '''simple docstring''' SCREAMING_SNAKE_CASE_ : int = XGLMConfig SCREAMING_SNAKE_CASE_ : List[str] = {} SCREAMING_SNAKE_CASE_ : Optional[Any] = """gelu""" def __init__( self , lowerCAmelCase__ , lowerCAmelCase__=14 , lowerCAmelCase__=7 , lowerCAmelCase__=True , lowerCAmelCase__=True , lowerCAmelCase__=True , lowerCAmelCase__=99 , lowerCAmelCase__=32 , lowerCAmelCase__=2 , lowerCAmelCase__=4 , lowerCAmelCase__=37 , lowerCAmelCase__="gelu" , lowerCAmelCase__=0.1 , lowerCAmelCase__=0.1 , lowerCAmelCase__=512 , lowerCAmelCase__=0.02 , ) -> str: SCREAMING_SNAKE_CASE = parent SCREAMING_SNAKE_CASE = batch_size SCREAMING_SNAKE_CASE = seq_length SCREAMING_SNAKE_CASE = is_training SCREAMING_SNAKE_CASE = use_input_mask SCREAMING_SNAKE_CASE = use_labels SCREAMING_SNAKE_CASE = vocab_size SCREAMING_SNAKE_CASE = d_model SCREAMING_SNAKE_CASE = num_hidden_layers SCREAMING_SNAKE_CASE = num_attention_heads SCREAMING_SNAKE_CASE = ffn_dim SCREAMING_SNAKE_CASE = activation_function SCREAMING_SNAKE_CASE = activation_dropout SCREAMING_SNAKE_CASE = attention_dropout SCREAMING_SNAKE_CASE = max_position_embeddings SCREAMING_SNAKE_CASE = initializer_range SCREAMING_SNAKE_CASE = None SCREAMING_SNAKE_CASE = 0 SCREAMING_SNAKE_CASE = 2 SCREAMING_SNAKE_CASE = 1 def __A ( self ) -> Optional[int]: return XGLMConfig.from_pretrained('facebook/xglm-564M' ) def __A ( self ) -> List[str]: SCREAMING_SNAKE_CASE = tf.clip_by_value( ids_tensor([self.batch_size, self.seq_length] , self.vocab_size ) , clip_value_min=0 , clip_value_max=3 ) SCREAMING_SNAKE_CASE = None if self.use_input_mask: SCREAMING_SNAKE_CASE = random_attention_mask([self.batch_size, self.seq_length] ) SCREAMING_SNAKE_CASE = self.get_config() SCREAMING_SNAKE_CASE = floats_tensor([self.num_hidden_layers, self.num_attention_heads] , 2 ) return ( config, input_ids, input_mask, head_mask, ) def __A ( self ) -> int: return XGLMConfig( vocab_size=self.vocab_size , d_model=self.hidden_size , num_layers=self.num_hidden_layers , attention_heads=self.num_attention_heads , ffn_dim=self.ffn_dim , activation_function=self.activation_function , activation_dropout=self.activation_dropout , attention_dropout=self.attention_dropout , max_position_embeddings=self.max_position_embeddings , initializer_range=self.initializer_range , use_cache=lowerCAmelCase__ , bos_token_id=self.bos_token_id , eos_token_id=self.eos_token_id , pad_token_id=self.pad_token_id , return_dict=lowerCAmelCase__ , ) def __A ( self ) -> List[Any]: SCREAMING_SNAKE_CASE = self.prepare_config_and_inputs() ( ( SCREAMING_SNAKE_CASE ) , ( SCREAMING_SNAKE_CASE ) , ( SCREAMING_SNAKE_CASE ) , ( SCREAMING_SNAKE_CASE ) , ) = config_and_inputs SCREAMING_SNAKE_CASE = { 'input_ids': input_ids, 'head_mask': head_mask, } return config, inputs_dict @require_tf class lowerCAmelCase ( lowerCamelCase_ , lowerCamelCase_ , unittest.TestCase ): '''simple docstring''' SCREAMING_SNAKE_CASE_ : List[str] = (TFXGLMModel, TFXGLMForCausalLM) if is_tf_available() else () SCREAMING_SNAKE_CASE_ : List[str] = (TFXGLMForCausalLM,) if is_tf_available() else () SCREAMING_SNAKE_CASE_ : int = ( {"""feature-extraction""": TFXGLMModel, """text-generation""": TFXGLMForCausalLM} if is_tf_available() else {} ) SCREAMING_SNAKE_CASE_ : Optional[int] = False SCREAMING_SNAKE_CASE_ : List[Any] = False SCREAMING_SNAKE_CASE_ : Tuple = False def __A ( self ) -> Optional[Any]: SCREAMING_SNAKE_CASE = TFXGLMModelTester(self ) SCREAMING_SNAKE_CASE = ConfigTester(self , config_class=lowerCAmelCase__ , n_embd=37 ) def __A ( self ) -> Optional[int]: self.config_tester.run_common_tests() @slow def __A ( self ) -> Tuple: for model_name in TF_XGLM_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: SCREAMING_SNAKE_CASE = TFXGLMModel.from_pretrained(lowerCAmelCase__ ) self.assertIsNotNone(lowerCAmelCase__ ) @unittest.skip(reason='Currently, model embeddings are going to undergo a major refactor.' ) def __A ( self ) -> Tuple: super().test_resize_token_embeddings() @require_tf class lowerCAmelCase ( unittest.TestCase ): '''simple docstring''' @slow def __A ( self , lowerCAmelCase__=True ) -> Optional[Any]: SCREAMING_SNAKE_CASE = TFXGLMForCausalLM.from_pretrained('facebook/xglm-564M' ) SCREAMING_SNAKE_CASE = tf.convert_to_tensor([[2, 268, 9_865]] , dtype=tf.intaa ) # The dog # </s> The dog is a very friendly dog. He is very affectionate and loves to play with other # fmt: off SCREAMING_SNAKE_CASE = [2, 268, 9_865, 67, 11, 1_988, 57_252, 9_865, 5, 984, 67, 1_988, 213_838, 1_658, 53, 70_446, 33, 6_657, 278, 1_581] # fmt: on SCREAMING_SNAKE_CASE = model.generate(lowerCAmelCase__ , do_sample=lowerCAmelCase__ , num_beams=1 ) if verify_outputs: self.assertListEqual(output_ids[0].numpy().tolist() , lowerCAmelCase__ ) @slow def __A ( self ) -> List[str]: SCREAMING_SNAKE_CASE = XGLMTokenizer.from_pretrained('facebook/xglm-564M' ) SCREAMING_SNAKE_CASE = TFXGLMForCausalLM.from_pretrained('facebook/xglm-564M' ) tf.random.set_seed(0 ) SCREAMING_SNAKE_CASE = tokenizer('Today is a nice day and' , return_tensors='tf' ) SCREAMING_SNAKE_CASE = tokenized.input_ids # forces the generation to happen on CPU, to avoid GPU-related quirks (and assure same output regardless of the available devices) with tf.device(':/CPU:0' ): SCREAMING_SNAKE_CASE = model.generate(lowerCAmelCase__ , do_sample=lowerCAmelCase__ , seed=[7, 0] ) SCREAMING_SNAKE_CASE = tokenizer.decode(output_ids[0] , skip_special_tokens=lowerCAmelCase__ ) SCREAMING_SNAKE_CASE = ( 'Today is a nice day and warm evening here over Southern Alberta!! Today when they closed schools due' ) self.assertEqual(lowerCAmelCase__ , lowerCAmelCase__ ) @slow def __A ( self ) -> Optional[int]: SCREAMING_SNAKE_CASE = TFXGLMForCausalLM.from_pretrained('facebook/xglm-564M' ) SCREAMING_SNAKE_CASE = XGLMTokenizer.from_pretrained('facebook/xglm-564M' ) SCREAMING_SNAKE_CASE = 'left' # use different length sentences to test batching SCREAMING_SNAKE_CASE = [ 'This is an extremelly long sentence that only exists to test the ability of the model to cope with ' 'left-padding, such as in batched generation. The output for the sequence below should be the same ' 'regardless of whether left padding is applied or not. When', 'Hello, my dog is a little', ] SCREAMING_SNAKE_CASE = tokenizer(lowerCAmelCase__ , return_tensors='tf' , padding=lowerCAmelCase__ ) SCREAMING_SNAKE_CASE = inputs['input_ids'] SCREAMING_SNAKE_CASE = model.generate(input_ids=lowerCAmelCase__ , attention_mask=inputs['attention_mask'] , max_new_tokens=12 ) SCREAMING_SNAKE_CASE = tokenizer(sentences[0] , return_tensors='tf' ).input_ids SCREAMING_SNAKE_CASE = model.generate(input_ids=lowerCAmelCase__ , max_new_tokens=12 ) SCREAMING_SNAKE_CASE = tokenizer(sentences[1] , return_tensors='tf' ).input_ids SCREAMING_SNAKE_CASE = model.generate(input_ids=lowerCAmelCase__ , max_new_tokens=12 ) SCREAMING_SNAKE_CASE = tokenizer.batch_decode(lowerCAmelCase__ , skip_special_tokens=lowerCAmelCase__ ) SCREAMING_SNAKE_CASE = tokenizer.decode(output_non_padded[0] , skip_special_tokens=lowerCAmelCase__ ) SCREAMING_SNAKE_CASE = tokenizer.decode(output_padded[0] , skip_special_tokens=lowerCAmelCase__ ) SCREAMING_SNAKE_CASE = [ 'This is an extremelly long sentence that only exists to test the ability of the model to cope with ' 'left-padding, such as in batched generation. The output for the sequence below should be the same ' 'regardless of whether left padding is applied or not. When left padding is applied, the sequence will be ' 'a single', 'Hello, my dog is a little bit of a shy one, but he is very friendly', ] self.assertListEqual(lowerCAmelCase__ , lowerCAmelCase__ ) self.assertListEqual(lowerCAmelCase__ , [non_padded_sentence, padded_sentence] )	38	0

import unittest import numpy as np from transformers import RoFormerConfig, is_flax_available from transformers.testing_utils import require_flax, slow from ...test_modeling_flax_common import FlaxModelTesterMixin, ids_tensor, random_attention_mask if is_flax_available(): import jax.numpy as jnp from transformers.models.roformer.modeling_flax_roformer import ( FlaxRoFormerForMaskedLM, FlaxRoFormerForMultipleChoice, FlaxRoFormerForQuestionAnswering, FlaxRoFormerForSequenceClassification, FlaxRoFormerForTokenClassification, FlaxRoFormerModel, ) class __lowercase ( unittest.TestCase ): """simple docstring""" def __init__( self : str , lowerCAmelCase__ : Dict , lowerCAmelCase__ : Dict=13 , lowerCAmelCase__ : int=7 , lowerCAmelCase__ : List[str]=True , lowerCAmelCase__ : Dict=True , lowerCAmelCase__ : List[Any]=True , lowerCAmelCase__ : Optional[Any]=True , lowerCAmelCase__ : Dict=99 , lowerCAmelCase__ : List[Any]=32 , lowerCAmelCase__ : Dict=5 , lowerCAmelCase__ : Union[str, Any]=4 , lowerCAmelCase__ : List[str]=37 , lowerCAmelCase__ : str="gelu" , lowerCAmelCase__ : int=0.1 , lowerCAmelCase__ : Union[str, Any]=0.1 , lowerCAmelCase__ : Tuple=512 , lowerCAmelCase__ : Dict=16 , lowerCAmelCase__ : List[Any]=2 , lowerCAmelCase__ : Dict=0.02 , lowerCAmelCase__ : List[str]=4 , ): SCREAMING_SNAKE_CASE_: Optional[int] = parent SCREAMING_SNAKE_CASE_: Union[str, Any] = batch_size SCREAMING_SNAKE_CASE_: Tuple = seq_length SCREAMING_SNAKE_CASE_: Optional[Any] = is_training SCREAMING_SNAKE_CASE_: int = use_attention_mask SCREAMING_SNAKE_CASE_: Optional[int] = use_token_type_ids SCREAMING_SNAKE_CASE_: Tuple = use_labels SCREAMING_SNAKE_CASE_: List[Any] = vocab_size SCREAMING_SNAKE_CASE_: Any = hidden_size SCREAMING_SNAKE_CASE_: str = num_hidden_layers SCREAMING_SNAKE_CASE_: Union[str, Any] = num_attention_heads SCREAMING_SNAKE_CASE_: List[str] = intermediate_size SCREAMING_SNAKE_CASE_: Dict = hidden_act SCREAMING_SNAKE_CASE_: Optional[int] = hidden_dropout_prob SCREAMING_SNAKE_CASE_: List[str] = attention_probs_dropout_prob SCREAMING_SNAKE_CASE_: Any = max_position_embeddings SCREAMING_SNAKE_CASE_: str = type_vocab_size SCREAMING_SNAKE_CASE_: Optional[int] = type_sequence_label_size SCREAMING_SNAKE_CASE_: List[str] = initializer_range SCREAMING_SNAKE_CASE_: Dict = num_choices def _SCREAMING_SNAKE_CASE ( self : int): SCREAMING_SNAKE_CASE_: Dict = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size) SCREAMING_SNAKE_CASE_: Dict = None if self.use_attention_mask: SCREAMING_SNAKE_CASE_: str = random_attention_mask([self.batch_size, self.seq_length]) SCREAMING_SNAKE_CASE_: Tuple = None if self.use_token_type_ids: SCREAMING_SNAKE_CASE_: List[str] = ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size) SCREAMING_SNAKE_CASE_: int = RoFormerConfig( vocab_size=self.vocab_size , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , max_position_embeddings=self.max_position_embeddings , type_vocab_size=self.type_vocab_size , is_decoder=lowerCAmelCase__ , initializer_range=self.initializer_range , ) return config, input_ids, token_type_ids, attention_mask def _SCREAMING_SNAKE_CASE ( self : List[str]): SCREAMING_SNAKE_CASE_: List[Any] = self.prepare_config_and_inputs() SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_: Optional[Any] = config_and_inputs SCREAMING_SNAKE_CASE_: Any = {"input_ids": input_ids, "token_type_ids": token_type_ids, "attention_mask": attention_mask} return config, inputs_dict @require_flax class __lowercase ( UpperCAmelCase_ , unittest.TestCase ): """simple docstring""" _UpperCAmelCase : List[Any] = True _UpperCAmelCase : str = ( ( FlaxRoFormerModel, FlaxRoFormerForMaskedLM, FlaxRoFormerForSequenceClassification, FlaxRoFormerForTokenClassification, FlaxRoFormerForMultipleChoice, FlaxRoFormerForQuestionAnswering, ) if is_flax_available() else () ) def _SCREAMING_SNAKE_CASE ( self : Optional[int]): SCREAMING_SNAKE_CASE_: Tuple = FlaxRoFormerModelTester(self) @slow def _SCREAMING_SNAKE_CASE ( self : Optional[Any]): for model_class_name in self.all_model_classes: SCREAMING_SNAKE_CASE_: Optional[int] = model_class_name.from_pretrained("junnyu/roformer_chinese_small" , from_pt=lowerCAmelCase__) SCREAMING_SNAKE_CASE_: Dict = model(np.ones((1, 1))) self.assertIsNotNone(lowerCAmelCase__) @require_flax class __lowercase ( unittest.TestCase ): """simple docstring""" @slow def _SCREAMING_SNAKE_CASE ( self : List[str]): SCREAMING_SNAKE_CASE_: List[str] = FlaxRoFormerForMaskedLM.from_pretrained("junnyu/roformer_chinese_base") SCREAMING_SNAKE_CASE_: Union[str, Any] = jnp.array([[0, 1, 2, 3, 4, 5]]) SCREAMING_SNAKE_CASE_: Optional[int] = model(lowerCAmelCase__)[0] SCREAMING_SNAKE_CASE_: str = 5_0000 SCREAMING_SNAKE_CASE_: Optional[int] = (1, 6, vocab_size) self.assertEqual(output.shape , lowerCAmelCase__) SCREAMING_SNAKE_CASE_: int = jnp.array( [[[-0.1205, -1.0265, 0.2922], [-1.5134, 0.1974, 0.1519], [-5.0135, -3.9003, -0.8404]]]) self.assertTrue(jnp.allclose(output[:, :3, :3] , lowerCAmelCase__ , atol=1E-4))

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import torch import torch.nn as nn from transformers.modeling_utils import ModuleUtilsMixin from transformers.models.ta.modeling_ta import TaBlock, TaConfig, TaLayerNorm from ...configuration_utils import ConfigMixin, register_to_config from ...models import ModelMixin class _a (__magic_name__ , __magic_name__ , __magic_name__ ): '''simple docstring''' @register_to_config def __init__( self , A__ , A__ , A__ , A__ , A__ , A__ , A__ , A__ , A__ , A__ = False , ): super().__init__() A__ : List[str] = nn.Embedding(A__ , A__ ) A__ : Any = nn.Embedding(A__ , A__ ) A__ : Optional[int] = False A__ : Optional[Any] = nn.Dropout(p=A__ ) A__ : int = TaConfig( vocab_size=A__ , d_model=A__ , num_heads=A__ , d_kv=A__ , d_ff=A__ , dropout_rate=A__ , feed_forward_proj=A__ , is_decoder=A__ , is_encoder_decoder=A__ , ) A__ : Dict = nn.ModuleList() for lyr_num in range(A__ ): A__ : str = TaBlock(A__ ) self.encoders.append(A__ ) A__ : Tuple = TaLayerNorm(A__ ) A__ : str = nn.Dropout(p=A__ ) def __A ( self , A__ , A__ ): A__ : List[str] = self.token_embedder(A__ ) A__ : Optional[Any] = encoder_input_tokens.shape[1] A__ : Optional[int] = torch.arange(A__ , device=encoder_input_tokens.device ) x += self.position_encoding(A__ ) A__ : Optional[Any] = self.dropout_pre(A__ ) # inverted the attention mask A__ : Tuple = encoder_input_tokens.size() A__ : Union[str, Any] = self.get_extended_attention_mask(A__ , A__ ) for lyr in self.encoders: A__ : List[str] = lyr(A__ , A__ )[0] A__ : List[Any] = self.layer_norm(A__ ) return self.dropout_post(A__ ), encoder_inputs_mask

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import unittest from diffusers.pipelines.pipeline_utils import is_safetensors_compatible class __a ( unittest.TestCase ): def __lowercase ( self : str ): '''simple docstring''' UpperCamelCase__ : Optional[Any] = [ "safety_checker/pytorch_model.bin", "safety_checker/model.safetensors", "vae/diffusion_pytorch_model.bin", "vae/diffusion_pytorch_model.safetensors", "text_encoder/pytorch_model.bin", "text_encoder/model.safetensors", "unet/diffusion_pytorch_model.bin", "unet/diffusion_pytorch_model.safetensors", ] self.assertTrue(is_safetensors_compatible(SCREAMING_SNAKE_CASE ) ) def __lowercase ( self : Tuple ): '''simple docstring''' UpperCamelCase__ : Optional[int] = [ "unet/diffusion_pytorch_model.bin", "unet/diffusion_pytorch_model.safetensors", ] self.assertTrue(is_safetensors_compatible(SCREAMING_SNAKE_CASE ) ) def __lowercase ( self : Optional[Any] ): '''simple docstring''' UpperCamelCase__ : int = [ "safety_checker/pytorch_model.bin", "safety_checker/model.safetensors", "vae/diffusion_pytorch_model.bin", "vae/diffusion_pytorch_model.safetensors", "text_encoder/pytorch_model.bin", "text_encoder/model.safetensors", "unet/diffusion_pytorch_model.bin", # Removed: 'unet/diffusion_pytorch_model.safetensors', ] self.assertFalse(is_safetensors_compatible(SCREAMING_SNAKE_CASE ) ) def __lowercase ( self : Tuple ): '''simple docstring''' UpperCamelCase__ : Optional[int] = [ "text_encoder/pytorch_model.bin", "text_encoder/model.safetensors", ] self.assertTrue(is_safetensors_compatible(SCREAMING_SNAKE_CASE ) ) def __lowercase ( self : Any ): '''simple docstring''' UpperCamelCase__ : Tuple = [ "safety_checker/pytorch_model.bin", "safety_checker/model.safetensors", "vae/diffusion_pytorch_model.bin", "vae/diffusion_pytorch_model.safetensors", "text_encoder/pytorch_model.bin", # Removed: 'text_encoder/model.safetensors', "unet/diffusion_pytorch_model.bin", "unet/diffusion_pytorch_model.safetensors", ] self.assertFalse(is_safetensors_compatible(SCREAMING_SNAKE_CASE ) ) def __lowercase ( self : Dict ): '''simple docstring''' UpperCamelCase__ : int = [ "safety_checker/pytorch_model.fp16.bin", "safety_checker/model.fp16.safetensors", "vae/diffusion_pytorch_model.fp16.bin", "vae/diffusion_pytorch_model.fp16.safetensors", "text_encoder/pytorch_model.fp16.bin", "text_encoder/model.fp16.safetensors", "unet/diffusion_pytorch_model.fp16.bin", "unet/diffusion_pytorch_model.fp16.safetensors", ] UpperCamelCase__ : Optional[int] = "fp16" self.assertTrue(is_safetensors_compatible(SCREAMING_SNAKE_CASE , variant=SCREAMING_SNAKE_CASE ) ) def __lowercase ( self : Any ): '''simple docstring''' UpperCamelCase__ : Dict = [ "unet/diffusion_pytorch_model.fp16.bin", "unet/diffusion_pytorch_model.fp16.safetensors", ] UpperCamelCase__ : Union[str, Any] = "fp16" self.assertTrue(is_safetensors_compatible(SCREAMING_SNAKE_CASE , variant=SCREAMING_SNAKE_CASE ) ) def __lowercase ( self : List[str] ): '''simple docstring''' UpperCamelCase__ : Optional[Any] = [ "unet/diffusion_pytorch_model.bin", "unet/diffusion_pytorch_model.safetensors", ] UpperCamelCase__ : Optional[int] = "fp16" self.assertTrue(is_safetensors_compatible(SCREAMING_SNAKE_CASE , variant=SCREAMING_SNAKE_CASE ) ) def __lowercase ( self : Tuple ): '''simple docstring''' UpperCamelCase__ : int = [ "safety_checker/pytorch_model.fp16.bin", "safety_checker/model.fp16.safetensors", "vae/diffusion_pytorch_model.fp16.bin", "vae/diffusion_pytorch_model.fp16.safetensors", "text_encoder/pytorch_model.fp16.bin", "text_encoder/model.fp16.safetensors", "unet/diffusion_pytorch_model.fp16.bin", # Removed: 'unet/diffusion_pytorch_model.fp16.safetensors', ] UpperCamelCase__ : Union[str, Any] = "fp16" self.assertFalse(is_safetensors_compatible(SCREAMING_SNAKE_CASE , variant=SCREAMING_SNAKE_CASE ) ) def __lowercase ( self : Tuple ): '''simple docstring''' UpperCamelCase__ : Tuple = [ "text_encoder/pytorch_model.fp16.bin", "text_encoder/model.fp16.safetensors", ] UpperCamelCase__ : Tuple = "fp16" self.assertTrue(is_safetensors_compatible(SCREAMING_SNAKE_CASE , variant=SCREAMING_SNAKE_CASE ) ) def __lowercase ( self : List[str] ): '''simple docstring''' UpperCamelCase__ : List[Any] = [ "text_encoder/pytorch_model.bin", "text_encoder/model.safetensors", ] UpperCamelCase__ : Any = "fp16" self.assertTrue(is_safetensors_compatible(SCREAMING_SNAKE_CASE , variant=SCREAMING_SNAKE_CASE ) ) def __lowercase ( self : List[str] ): '''simple docstring''' UpperCamelCase__ : Optional[Any] = [ "safety_checker/pytorch_model.fp16.bin", "safety_checker/model.fp16.safetensors", "vae/diffusion_pytorch_model.fp16.bin", "vae/diffusion_pytorch_model.fp16.safetensors", "text_encoder/pytorch_model.fp16.bin", # 'text_encoder/model.fp16.safetensors', "unet/diffusion_pytorch_model.fp16.bin", "unet/diffusion_pytorch_model.fp16.safetensors", ] UpperCamelCase__ : List[Any] = "fp16" self.assertFalse(is_safetensors_compatible(SCREAMING_SNAKE_CASE , variant=SCREAMING_SNAKE_CASE ) )

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from __future__ import annotations def SCREAMING_SNAKE_CASE ( __lowerCAmelCase , __lowerCAmelCase = None , __lowerCAmelCase = None ) -> None: if start is None: UpperCamelCase__ : Union[str, Any] = 0 if end is None: UpperCamelCase__ : List[Any] = len(__lowerCAmelCase ) - 1 if start >= end: return UpperCamelCase__ : Union[str, Any] = (start + end) // 2 slowsort(__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ) slowsort(__lowerCAmelCase , mid + 1 , __lowerCAmelCase ) if sequence[end] < sequence[mid]: UpperCamelCase__ , UpperCamelCase__ : Optional[int] = sequence[mid], sequence[end] slowsort(__lowerCAmelCase , __lowerCAmelCase , end - 1 ) if __name__ == "__main__": from doctest import testmod testmod()

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import argparse import json import logging import os import sys from unittest.mock import patch from transformers.testing_utils import TestCasePlus, get_gpu_count, slow __lowerCamelCase : str = [ os.path.join(os.path.dirname(__file__), dirname) for dirname in [ '''text-classification''', '''language-modeling''', '''summarization''', '''token-classification''', '''question-answering''', ] ] sys.path.extend(SRC_DIRS) if SRC_DIRS is not None: import run_clm_flax import run_flax_glue import run_flax_ner import run_mlm_flax import run_qa import run_summarization_flax import run_ta_mlm_flax logging.basicConfig(level=logging.DEBUG) __lowerCamelCase : Tuple = logging.getLogger() def __SCREAMING_SNAKE_CASE ( ) -> Optional[Any]: """simple docstring""" SCREAMING_SNAKE_CASE__ = argparse.ArgumentParser() parser.add_argument("""-f""" ) SCREAMING_SNAKE_CASE__ = parser.parse_args() return args.f def __SCREAMING_SNAKE_CASE ( __UpperCamelCase : Optional[int] , __UpperCamelCase : Dict="eval" ) -> Optional[Any]: """simple docstring""" SCREAMING_SNAKE_CASE__ = os.path.join(__UpperCamelCase , f"""{split}_results.json""" ) if os.path.exists(__UpperCamelCase ): with open(__UpperCamelCase , """r""" ) as f: return json.load(__UpperCamelCase ) raise ValueError(f"""can't find {path}""" ) __lowerCamelCase : int = logging.StreamHandler(sys.stdout) logger.addHandler(stream_handler) class __snake_case ( lowerCamelCase_ ): def __a ( self : Dict ): """simple docstring""" SCREAMING_SNAKE_CASE__ = self.get_auto_remove_tmp_dir() SCREAMING_SNAKE_CASE__ = f""" run_glue.py --model_name_or_path distilbert-base-uncased --output_dir {tmp_dir} --train_file ./tests/fixtures/tests_samples/MRPC/train.csv --validation_file ./tests/fixtures/tests_samples/MRPC/dev.csv --per_device_train_batch_size=2 --per_device_eval_batch_size=1 --learning_rate=1e-4 --eval_steps=2 --warmup_steps=2 --seed=42 --max_seq_length=128 """.split() with patch.object(_lowercase , """argv""" , _lowercase ): run_flax_glue.main() SCREAMING_SNAKE_CASE__ = get_results(_lowercase ) self.assertGreaterEqual(result["""eval_accuracy"""] , 0.75 ) @slow def __a ( self : List[Any] ): """simple docstring""" SCREAMING_SNAKE_CASE__ = self.get_auto_remove_tmp_dir() SCREAMING_SNAKE_CASE__ = f""" run_clm_flax.py --model_name_or_path distilgpt2 --train_file ./tests/fixtures/sample_text.txt --validation_file ./tests/fixtures/sample_text.txt --do_train --do_eval --block_size 128 --per_device_train_batch_size 4 --per_device_eval_batch_size 4 --num_train_epochs 2 --logging_steps 2 --eval_steps 2 --output_dir {tmp_dir} --overwrite_output_dir """.split() with patch.object(_lowercase , """argv""" , _lowercase ): run_clm_flax.main() SCREAMING_SNAKE_CASE__ = get_results(_lowercase ) self.assertLess(result["""eval_perplexity"""] , 1_00 ) @slow def __a ( self : Optional[int] ): """simple docstring""" SCREAMING_SNAKE_CASE__ = self.get_auto_remove_tmp_dir() SCREAMING_SNAKE_CASE__ = f""" run_summarization.py --model_name_or_path t5-small --train_file tests/fixtures/tests_samples/xsum/sample.json --validation_file tests/fixtures/tests_samples/xsum/sample.json --test_file tests/fixtures/tests_samples/xsum/sample.json --output_dir {tmp_dir} --overwrite_output_dir --num_train_epochs=3 --warmup_steps=8 --do_train --do_eval --do_predict --learning_rate=2e-4 --per_device_train_batch_size=2 --per_device_eval_batch_size=1 --predict_with_generate """.split() with patch.object(_lowercase , """argv""" , _lowercase ): run_summarization_flax.main() SCREAMING_SNAKE_CASE__ = get_results(_lowercase , split="""test""" ) self.assertGreaterEqual(result["""test_rouge1"""] , 10 ) self.assertGreaterEqual(result["""test_rouge2"""] , 2 ) self.assertGreaterEqual(result["""test_rougeL"""] , 7 ) self.assertGreaterEqual(result["""test_rougeLsum"""] , 7 ) @slow def __a ( self : Optional[Any] ): """simple docstring""" SCREAMING_SNAKE_CASE__ = self.get_auto_remove_tmp_dir() SCREAMING_SNAKE_CASE__ = f""" run_mlm.py --model_name_or_path distilroberta-base --train_file ./tests/fixtures/sample_text.txt --validation_file ./tests/fixtures/sample_text.txt --output_dir {tmp_dir} --overwrite_output_dir --max_seq_length 128 --per_device_train_batch_size 4 --per_device_eval_batch_size 4 --logging_steps 2 --eval_steps 2 --do_train --do_eval --num_train_epochs=1 """.split() with patch.object(_lowercase , """argv""" , _lowercase ): run_mlm_flax.main() SCREAMING_SNAKE_CASE__ = get_results(_lowercase ) self.assertLess(result["""eval_perplexity"""] , 42 ) @slow def __a ( self : int ): """simple docstring""" SCREAMING_SNAKE_CASE__ = self.get_auto_remove_tmp_dir() SCREAMING_SNAKE_CASE__ = f""" run_t5_mlm_flax.py --model_name_or_path t5-small --train_file ./tests/fixtures/sample_text.txt --validation_file ./tests/fixtures/sample_text.txt --do_train --do_eval --max_seq_length 128 --per_device_train_batch_size 4 --per_device_eval_batch_size 4 --num_train_epochs 2 --logging_steps 2 --eval_steps 2 --output_dir {tmp_dir} --overwrite_output_dir """.split() with patch.object(_lowercase , """argv""" , _lowercase ): run_ta_mlm_flax.main() SCREAMING_SNAKE_CASE__ = get_results(_lowercase ) self.assertGreaterEqual(result["""eval_accuracy"""] , 0.42 ) @slow def __a ( self : Dict ): """simple docstring""" SCREAMING_SNAKE_CASE__ = 7 if get_gpu_count() > 1 else 2 SCREAMING_SNAKE_CASE__ = self.get_auto_remove_tmp_dir() SCREAMING_SNAKE_CASE__ = f""" run_flax_ner.py --model_name_or_path bert-base-uncased --train_file tests/fixtures/tests_samples/conll/sample.json --validation_file tests/fixtures/tests_samples/conll/sample.json --output_dir {tmp_dir} --overwrite_output_dir --do_train --do_eval --warmup_steps=2 --learning_rate=2e-4 --logging_steps 2 --eval_steps 2 --per_device_train_batch_size=2 --per_device_eval_batch_size=2 --num_train_epochs={epochs} --seed 7 """.split() with patch.object(_lowercase , """argv""" , _lowercase ): run_flax_ner.main() SCREAMING_SNAKE_CASE__ = get_results(_lowercase ) self.assertGreaterEqual(result["""eval_accuracy"""] , 0.75 ) self.assertGreaterEqual(result["""eval_f1"""] , 0.3 ) @slow def __a ( self : Dict ): """simple docstring""" SCREAMING_SNAKE_CASE__ = self.get_auto_remove_tmp_dir() SCREAMING_SNAKE_CASE__ = f""" run_qa.py --model_name_or_path bert-base-uncased --version_2_with_negative --train_file tests/fixtures/tests_samples/SQUAD/sample.json --validation_file tests/fixtures/tests_samples/SQUAD/sample.json --output_dir {tmp_dir} --overwrite_output_dir --num_train_epochs=3 --warmup_steps=2 --do_train --do_eval --logging_steps 2 --eval_steps 2 --learning_rate=2e-4 --per_device_train_batch_size=2 --per_device_eval_batch_size=1 """.split() with patch.object(_lowercase , """argv""" , _lowercase ): run_qa.main() SCREAMING_SNAKE_CASE__ = get_results(_lowercase ) self.assertGreaterEqual(result["""eval_f1"""] , 30 ) self.assertGreaterEqual(result["""eval_exact"""] , 30 )

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# tests directory-specific settings - this file is run automatically # by pytest before any tests are run import sys import warnings from os.path import abspath, dirname, join # allow having multiple repository checkouts and not needing to remember to rerun # 'pip install -e .[dev]' when switching between checkouts and running tests. __lowerCamelCase : Any = abspath(join(dirname(dirname(__file__)), '''src''')) sys.path.insert(1, git_repo_path) # silence FutureWarning warnings in tests since often we can't act on them until # they become normal warnings - i.e. the tests still need to test the current functionality warnings.simplefilter(action='''ignore''', category=FutureWarning) def __SCREAMING_SNAKE_CASE ( __UpperCamelCase : Optional[int] ) -> Any: """simple docstring""" from diffusers.utils.testing_utils import pytest_addoption_shared pytest_addoption_shared(__UpperCamelCase ) def __SCREAMING_SNAKE_CASE ( __UpperCamelCase : Dict ) -> Optional[Any]: """simple docstring""" from diffusers.utils.testing_utils import pytest_terminal_summary_main SCREAMING_SNAKE_CASE__ = terminalreporter.config.getoption("""--make-reports""" ) if make_reports: pytest_terminal_summary_main(__UpperCamelCase , id=__UpperCamelCase )

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1

'''simple docstring''' from string import ascii_uppercase lowercase__ : Any = {char: i for i, char in enumerate(ascii_uppercase)} lowercase__ : List[Any] = dict(enumerate(ascii_uppercase)) def a__ ( lowercase : str, lowercase : str ) -> str: """simple docstring""" _UpperCamelCase = len(lowercase ) _UpperCamelCase = 0 while True: if x == i: _UpperCamelCase = 0 if len(lowercase ) == len(lowercase ): break key += key[i] i += 1 return key def a__ ( lowercase : str, lowercase : str ) -> str: """simple docstring""" _UpperCamelCase = '''''' _UpperCamelCase = 0 for letter in message: if letter == " ": cipher_text += " " else: _UpperCamelCase = (dicta[letter] - dicta[key_new[i]]) % 26 i += 1 cipher_text += dicta[x] return cipher_text def a__ ( lowercase : str, lowercase : str ) -> str: """simple docstring""" _UpperCamelCase = '''''' _UpperCamelCase = 0 for letter in cipher_text: if letter == " ": or_txt += " " else: _UpperCamelCase = (dicta[letter] + dicta[key_new[i]] + 26) % 26 i += 1 or_txt += dicta[x] return or_txt def a__ ( ) -> None: """simple docstring""" _UpperCamelCase = '''THE GERMAN ATTACK''' _UpperCamelCase = '''SECRET''' _UpperCamelCase = generate_key(lowercase, lowercase ) _UpperCamelCase = cipher_text(lowercase, lowercase ) print(F"""Encrypted Text = {s}""" ) print(F"""Original Text = {original_text(lowercase, lowercase )}""" ) if __name__ == "__main__": import doctest doctest.testmod() main()

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'''simple docstring''' from ...configuration_utils import PretrainedConfig from ...utils import logging lowercase__ : List[Any] = logging.get_logger(__name__) lowercase__ : Tuple = { 'microsoft/trocr-base-handwritten': ( 'https://huggingface.co/microsoft/trocr-base-handwritten/resolve/main/config.json' ), # See all TrOCR models at https://huggingface.co/models?filter=trocr } class __lowerCAmelCase ( __magic_name__ ): """simple docstring""" _snake_case : int = 'trocr' _snake_case : List[str] = ['past_key_values'] _snake_case : Tuple = { 'num_attention_heads': 'decoder_attention_heads', 'hidden_size': 'd_model', 'num_hidden_layers': 'decoder_layers', } def __init__( self : Tuple , lowerCAmelCase__ : Union[str, Any]=50265 , lowerCAmelCase__ : List[Any]=1024 , lowerCAmelCase__ : List[str]=12 , lowerCAmelCase__ : int=16 , lowerCAmelCase__ : List[Any]=4096 , lowerCAmelCase__ : Optional[int]="gelu" , lowerCAmelCase__ : int=512 , lowerCAmelCase__ : Optional[Any]=0.1 , lowerCAmelCase__ : Optional[int]=0.0 , lowerCAmelCase__ : Dict=0.0 , lowerCAmelCase__ : Tuple=2 , lowerCAmelCase__ : Dict=0.02 , lowerCAmelCase__ : Tuple=0.0 , lowerCAmelCase__ : int=True , lowerCAmelCase__ : Optional[Any]=False , lowerCAmelCase__ : Any=True , lowerCAmelCase__ : Dict=True , lowerCAmelCase__ : Optional[int]=1 , lowerCAmelCase__ : List[Any]=0 , lowerCAmelCase__ : Any=2 , **lowerCAmelCase__ : Optional[int] , ) -> Any: '''simple docstring''' _UpperCamelCase = vocab_size _UpperCamelCase = d_model _UpperCamelCase = decoder_layers _UpperCamelCase = decoder_attention_heads _UpperCamelCase = decoder_ffn_dim _UpperCamelCase = activation_function _UpperCamelCase = max_position_embeddings _UpperCamelCase = dropout _UpperCamelCase = attention_dropout _UpperCamelCase = activation_dropout _UpperCamelCase = init_std _UpperCamelCase = decoder_layerdrop _UpperCamelCase = use_cache _UpperCamelCase = scale_embedding _UpperCamelCase = use_learned_position_embeddings _UpperCamelCase = layernorm_embedding super().__init__( pad_token_id=lowerCAmelCase__ , bos_token_id=lowerCAmelCase__ , eos_token_id=lowerCAmelCase__ , decoder_start_token_id=lowerCAmelCase__ , **lowerCAmelCase__ , )

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"""simple docstring""" from typing import Optional import torch import torch.utils.checkpoint from torch import Tensor, nn from torch.nn import BCEWithLogitsLoss, CrossEntropyLoss, MSELoss from ...activations import ACTaFN from ...file_utils import add_code_sample_docstrings, add_start_docstrings, add_start_docstrings_to_model_forward from ...modeling_outputs import ( BaseModelOutputWithNoAttention, BaseModelOutputWithPoolingAndNoAttention, ImageClassifierOutputWithNoAttention, ) from ...modeling_utils import PreTrainedModel from ...utils import logging from .configuration_regnet import RegNetConfig _a : List[Any] = logging.get_logger(__name__) # General docstring _a : Optional[int] = 'RegNetConfig' # Base docstring _a : Union[str, Any] = 'facebook/regnet-y-040' _a : Tuple = [1, 1_088, 7, 7] # Image classification docstring _a : Tuple = 'facebook/regnet-y-040' _a : Union[str, Any] = 'tabby, tabby cat' _a : Union[str, Any] = [ 'facebook/regnet-y-040', # See all regnet models at https://huggingface.co/models?filter=regnet ] class __A ( nn.Module ): def __init__( self , a__ , a__ , a__ = 3 , a__ = 1 , a__ = 1 , a__ = "relu" , ): super().__init__() _lowerCAmelCase : str = nn.Convad( a__ , a__ , kernel_size=a__ , stride=a__ , padding=kernel_size // 2 , groups=a__ , bias=a__ , ) _lowerCAmelCase : str = nn.BatchNormad(a__ ) _lowerCAmelCase : Optional[int] = ACTaFN[activation] if activation is not None else nn.Identity() def __A ( self , a__ ): _lowerCAmelCase : List[str] = self.convolution(a__ ) _lowerCAmelCase : Union[str, Any] = self.normalization(a__ ) _lowerCAmelCase : List[Any] = self.activation(a__ ) return hidden_state class __A ( nn.Module ): def __init__( self , a__ ): super().__init__() _lowerCAmelCase : Optional[int] = RegNetConvLayer( config.num_channels , config.embedding_size , kernel_size=3 , stride=2 , activation=config.hidden_act ) _lowerCAmelCase : List[Any] = config.num_channels def __A ( self , a__ ): _lowerCAmelCase : Tuple = pixel_values.shape[1] if num_channels != self.num_channels: raise ValueError( """Make sure that the channel dimension of the pixel values match with the one set in the configuration.""" ) _lowerCAmelCase : List[Any] = self.embedder(a__ ) return hidden_state class __A ( nn.Module ): def __init__( self , a__ , a__ , a__ = 2 ): super().__init__() _lowerCAmelCase : Union[str, Any] = nn.Convad(a__ , a__ , kernel_size=1 , stride=a__ , bias=a__ ) _lowerCAmelCase : Optional[int] = nn.BatchNormad(a__ ) def __A ( self , a__ ): _lowerCAmelCase : str = self.convolution(a__ ) _lowerCAmelCase : Tuple = self.normalization(a__ ) return hidden_state class __A ( nn.Module ): def __init__( self , a__ , a__ ): super().__init__() _lowerCAmelCase : Dict = nn.AdaptiveAvgPoolad((1, 1) ) _lowerCAmelCase : Tuple = nn.Sequential( nn.Convad(a__ , a__ , kernel_size=1 ) , nn.ReLU() , nn.Convad(a__ , a__ , kernel_size=1 ) , nn.Sigmoid() , ) def __A ( self , a__ ): # b c h w -> b c 1 1 _lowerCAmelCase : Tuple = self.pooler(a__ ) _lowerCAmelCase : int = self.attention(a__ ) _lowerCAmelCase : Optional[Any] = hidden_state * attention return hidden_state class __A ( nn.Module ): def __init__( self , a__ , a__ , a__ , a__ = 1 ): super().__init__() _lowerCAmelCase : Optional[Any] = in_channels != out_channels or stride != 1 _lowerCAmelCase : Optional[Any] = max(1 , out_channels // config.groups_width ) _lowerCAmelCase : Tuple = ( RegNetShortCut(a__ , a__ , stride=a__ ) if should_apply_shortcut else nn.Identity() ) _lowerCAmelCase : str = nn.Sequential( RegNetConvLayer(a__ , a__ , kernel_size=1 , activation=config.hidden_act ) , RegNetConvLayer(a__ , a__ , stride=a__ , groups=a__ , activation=config.hidden_act ) , RegNetConvLayer(a__ , a__ , kernel_size=1 , activation=a__ ) , ) _lowerCAmelCase : Union[str, Any] = ACTaFN[config.hidden_act] def __A ( self , a__ ): _lowerCAmelCase : Any = hidden_state _lowerCAmelCase : Any = self.layer(a__ ) _lowerCAmelCase : str = self.shortcut(a__ ) hidden_state += residual _lowerCAmelCase : int = self.activation(a__ ) return hidden_state class __A ( nn.Module ): def __init__( self , a__ , a__ , a__ , a__ = 1 ): super().__init__() _lowerCAmelCase : Dict = in_channels != out_channels or stride != 1 _lowerCAmelCase : List[Any] = max(1 , out_channels // config.groups_width ) _lowerCAmelCase : List[Any] = ( RegNetShortCut(a__ , a__ , stride=a__ ) if should_apply_shortcut else nn.Identity() ) _lowerCAmelCase : Tuple = nn.Sequential( RegNetConvLayer(a__ , a__ , kernel_size=1 , activation=config.hidden_act ) , RegNetConvLayer(a__ , a__ , stride=a__ , groups=a__ , activation=config.hidden_act ) , RegNetSELayer(a__ , reduced_channels=int(round(in_channels / 4 ) ) ) , RegNetConvLayer(a__ , a__ , kernel_size=1 , activation=a__ ) , ) _lowerCAmelCase : Dict = ACTaFN[config.hidden_act] def __A ( self , a__ ): _lowerCAmelCase : List[str] = hidden_state _lowerCAmelCase : Optional[int] = self.layer(a__ ) _lowerCAmelCase : List[Any] = self.shortcut(a__ ) hidden_state += residual _lowerCAmelCase : List[str] = self.activation(a__ ) return hidden_state class __A ( nn.Module ): def __init__( self , a__ , a__ , a__ , a__ = 2 , a__ = 2 , ): super().__init__() _lowerCAmelCase : List[Any] = RegNetXLayer if config.layer_type == """x""" else RegNetYLayer _lowerCAmelCase : str = nn.Sequential( # downsampling is done in the first layer with stride of 2 layer( a__ , a__ , a__ , stride=a__ , ) , *[layer(a__ , a__ , a__ ) for _ in range(depth - 1 )] , ) def __A ( self , a__ ): _lowerCAmelCase : List[Any] = self.layers(a__ ) return hidden_state class __A ( nn.Module ): def __init__( self , a__ ): super().__init__() _lowerCAmelCase : Optional[int] = nn.ModuleList([] ) # based on `downsample_in_first_stage`, the first layer of the first stage may or may not downsample the input self.stages.append( RegNetStage( a__ , config.embedding_size , config.hidden_sizes[0] , stride=2 if config.downsample_in_first_stage else 1 , depth=config.depths[0] , ) ) _lowerCAmelCase : List[str] = zip(config.hidden_sizes , config.hidden_sizes[1:] ) for (in_channels, out_channels), depth in zip(a__ , config.depths[1:] ): self.stages.append(RegNetStage(a__ , a__ , a__ , depth=a__ ) ) def __A ( self , a__ , a__ = False , a__ = True ): _lowerCAmelCase : Any = () if output_hidden_states else None for stage_module in self.stages: if output_hidden_states: _lowerCAmelCase : Union[str, Any] = hidden_states + (hidden_state,) _lowerCAmelCase : Union[str, Any] = stage_module(a__ ) if output_hidden_states: _lowerCAmelCase : Union[str, Any] = hidden_states + (hidden_state,) if not return_dict: return tuple(v for v in [hidden_state, hidden_states] if v is not None ) return BaseModelOutputWithNoAttention(last_hidden_state=a__ , hidden_states=a__ ) class __A ( SCREAMING_SNAKE_CASE_ ): _UpperCamelCase : Tuple = RegNetConfig _UpperCamelCase : int = "regnet" _UpperCamelCase : List[str] = "pixel_values" _UpperCamelCase : Union[str, Any] = True def __A ( self , a__ ): if isinstance(a__ , nn.Convad ): nn.init.kaiming_normal_(module.weight , mode="""fan_out""" , nonlinearity="""relu""" ) elif isinstance(a__ , (nn.BatchNormad, nn.GroupNorm) ): nn.init.constant_(module.weight , 1 ) nn.init.constant_(module.bias , 0 ) def __A ( self , a__ , a__=False ): if isinstance(a__ , a__ ): _lowerCAmelCase : Optional[int] = value _a : List[Any] = r'\n This model is a PyTorch [torch.nn.Module](https://pytorch.org/docs/stable/nn.html#torch.nn.Module) subclass. Use it\n as a regular PyTorch Module and refer to the PyTorch documentation for all matter related to general usage and\n behavior.\n\n Parameters:\n config ([`RegNetConfig`]): Model configuration class with all the parameters of the model.\n Initializing with a config file does not load the weights associated with the model, only the\n configuration. Check out the [`~PreTrainedModel.from_pretrained`] method to load the model weights.\n' _a : List[Any] = r'\n Args:\n pixel_values (`torch.FloatTensor` of shape `(batch_size, num_channels, height, width)`):\n Pixel values. Pixel values can be obtained using [`AutoImageProcessor`]. See\n [`ConvNextImageProcessor.__call__`] for details.\n\n output_hidden_states (`bool`, *optional*):\n Whether or not to return the hidden states of all layers. See `hidden_states` under returned tensors for\n more detail.\n return_dict (`bool`, *optional*):\n Whether or not to return a [`~file_utils.ModelOutput`] instead of a plain tuple.\n' @add_start_docstrings( "The bare RegNet model outputting raw features without any specific head on top." , SCREAMING_SNAKE_CASE_ , ) # Copied from transformers.models.resnet.modeling_resnet.ResNetModel with RESNET->REGNET,ResNet->RegNet class __A ( SCREAMING_SNAKE_CASE_ ): def __init__( self , a__ ): super().__init__(a__ ) _lowerCAmelCase : List[Any] = config _lowerCAmelCase : Any = RegNetEmbeddings(a__ ) _lowerCAmelCase : List[str] = RegNetEncoder(a__ ) _lowerCAmelCase : str = nn.AdaptiveAvgPoolad((1, 1) ) # Initialize weights and apply final processing self.post_init() @add_start_docstrings_to_model_forward(a__ ) @add_code_sample_docstrings( checkpoint=_CHECKPOINT_FOR_DOC , output_type=a__ , config_class=_CONFIG_FOR_DOC , modality="""vision""" , expected_output=_EXPECTED_OUTPUT_SHAPE , ) def __A ( self , a__ , a__ = None , a__ = None ): _lowerCAmelCase : Any = ( output_hidden_states if output_hidden_states is not None else self.config.output_hidden_states ) _lowerCAmelCase : Tuple = return_dict if return_dict is not None else self.config.use_return_dict _lowerCAmelCase : List[Any] = self.embedder(a__ ) _lowerCAmelCase : Optional[Any] = self.encoder( a__ , output_hidden_states=a__ , return_dict=a__ ) _lowerCAmelCase : str = encoder_outputs[0] _lowerCAmelCase : Optional[Any] = self.pooler(a__ ) if not return_dict: return (last_hidden_state, pooled_output) + encoder_outputs[1:] return BaseModelOutputWithPoolingAndNoAttention( last_hidden_state=a__ , pooler_output=a__ , hidden_states=encoder_outputs.hidden_states , ) @add_start_docstrings( "\n RegNet Model with an image classification head on top (a linear layer on top of the pooled features), e.g. for\n ImageNet.\n " , SCREAMING_SNAKE_CASE_ , ) # Copied from transformers.models.resnet.modeling_resnet.ResNetForImageClassification with RESNET->REGNET,ResNet->RegNet,resnet->regnet class __A ( SCREAMING_SNAKE_CASE_ ): def __init__( self , a__ ): super().__init__(a__ ) _lowerCAmelCase : Any = config.num_labels _lowerCAmelCase : Optional[int] = RegNetModel(a__ ) # classification head _lowerCAmelCase : Optional[Any] = nn.Sequential( nn.Flatten() , nn.Linear(config.hidden_sizes[-1] , config.num_labels ) if config.num_labels > 0 else nn.Identity() , ) # initialize weights and apply final processing self.post_init() @add_start_docstrings_to_model_forward(a__ ) @add_code_sample_docstrings( checkpoint=_IMAGE_CLASS_CHECKPOINT , output_type=a__ , config_class=_CONFIG_FOR_DOC , expected_output=_IMAGE_CLASS_EXPECTED_OUTPUT , ) def __A ( self , a__ = None , a__ = None , a__ = None , a__ = None , ): _lowerCAmelCase : List[Any] = return_dict if return_dict is not None else self.config.use_return_dict _lowerCAmelCase : Union[str, Any] = self.regnet(a__ , output_hidden_states=a__ , return_dict=a__ ) _lowerCAmelCase : str = outputs.pooler_output if return_dict else outputs[1] _lowerCAmelCase : str = self.classifier(a__ ) _lowerCAmelCase : List[str] = None if labels is not None: if self.config.problem_type is None: if self.num_labels == 1: _lowerCAmelCase : str = """regression""" elif self.num_labels > 1 and (labels.dtype == torch.long or labels.dtype == torch.int): _lowerCAmelCase : Optional[int] = """single_label_classification""" else: _lowerCAmelCase : Optional[int] = """multi_label_classification""" if self.config.problem_type == "regression": _lowerCAmelCase : Optional[Any] = MSELoss() if self.num_labels == 1: _lowerCAmelCase : int = loss_fct(logits.squeeze() , labels.squeeze() ) else: _lowerCAmelCase : Dict = loss_fct(a__ , a__ ) elif self.config.problem_type == "single_label_classification": _lowerCAmelCase : Any = CrossEntropyLoss() _lowerCAmelCase : Dict = loss_fct(logits.view(-1 , self.num_labels ) , labels.view(-1 ) ) elif self.config.problem_type == "multi_label_classification": _lowerCAmelCase : Dict = BCEWithLogitsLoss() _lowerCAmelCase : Tuple = loss_fct(a__ , a__ ) if not return_dict: _lowerCAmelCase : Optional[int] = (logits,) + outputs[2:] return (loss,) + output if loss is not None else output return ImageClassifierOutputWithNoAttention(loss=a__ , logits=a__ , hidden_states=outputs.hidden_states )

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'''simple docstring''' from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available __lowerCAmelCase = { '''configuration_lilt''': ['''LILT_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''LiltConfig'''], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: __lowerCAmelCase = [ '''LILT_PRETRAINED_MODEL_ARCHIVE_LIST''', '''LiltForQuestionAnswering''', '''LiltForSequenceClassification''', '''LiltForTokenClassification''', '''LiltModel''', '''LiltPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_lilt import LILT_PRETRAINED_CONFIG_ARCHIVE_MAP, LiltConfig try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_lilt import ( LILT_PRETRAINED_MODEL_ARCHIVE_LIST, LiltForQuestionAnswering, LiltForSequenceClassification, LiltForTokenClassification, LiltModel, LiltPreTrainedModel, ) else: import sys __lowerCAmelCase = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)

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def snake_case__ ( SCREAMING_SNAKE_CASE_ : List[Any] , SCREAMING_SNAKE_CASE_ : Tuple , SCREAMING_SNAKE_CASE_ : Union[str, Any] , SCREAMING_SNAKE_CASE_ : int ): '''simple docstring''' global f # a global dp table for knapsack if f[i][j] < 0: if j < wt[i - 1]: lowercase__ : Any = mf_knapsack(i - 1 , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ ) else: lowercase__ : Dict = max( mf_knapsack(i - 1 , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ ) , mf_knapsack(i - 1 , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , j - wt[i - 1] ) + val[i - 1] , ) lowercase__ : Union[str, Any] = val return f[i][j] def snake_case__ ( SCREAMING_SNAKE_CASE_ : str , SCREAMING_SNAKE_CASE_ : List[str] , SCREAMING_SNAKE_CASE_ : List[Any] , SCREAMING_SNAKE_CASE_ : Any ): '''simple docstring''' lowercase__ : Optional[Any] = [[0] * (w + 1) for _ in range(n + 1 )] for i in range(1 , n + 1 ): for w_ in range(1 , w + 1 ): if wt[i - 1] <= w_: lowercase__ : List[str] = max(val[i - 1] + dp[i - 1][w_ - wt[i - 1]] , dp[i - 1][w_] ) else: lowercase__ : str = dp[i - 1][w_] return dp[n][w_], dp def snake_case__ ( SCREAMING_SNAKE_CASE_ : int , SCREAMING_SNAKE_CASE_ : list , SCREAMING_SNAKE_CASE_ : list ): '''simple docstring''' if not (isinstance(SCREAMING_SNAKE_CASE_ , (list, tuple) ) and isinstance(SCREAMING_SNAKE_CASE_ , (list, tuple) )): raise ValueError( 'Both the weights and values vectors must be either lists or tuples' ) lowercase__ : Tuple = len(SCREAMING_SNAKE_CASE_ ) if num_items != len(SCREAMING_SNAKE_CASE_ ): lowercase__ : Tuple = ( 'The number of weights must be the same as the number of values.\n' f"""But got {num_items} weights and {len(SCREAMING_SNAKE_CASE_ )} values""" ) raise ValueError(SCREAMING_SNAKE_CASE_ ) for i in range(SCREAMING_SNAKE_CASE_ ): if not isinstance(wt[i] , SCREAMING_SNAKE_CASE_ ): lowercase__ : Tuple = ( 'All weights must be integers but got weight of ' f"""type {type(wt[i] )} at index {i}""" ) raise TypeError(SCREAMING_SNAKE_CASE_ ) lowercase__ : int = knapsack(SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ ) lowercase__ : set = set() _construct_solution(SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ ) return optimal_val, example_optional_set def snake_case__ ( SCREAMING_SNAKE_CASE_ : list , SCREAMING_SNAKE_CASE_ : list , SCREAMING_SNAKE_CASE_ : int , SCREAMING_SNAKE_CASE_ : int , SCREAMING_SNAKE_CASE_ : set ): '''simple docstring''' if i > 0 and j > 0: if dp[i - 1][j] == dp[i][j]: _construct_solution(SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , i - 1 , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ ) else: optimal_set.add(SCREAMING_SNAKE_CASE_ ) _construct_solution(SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , i - 1 , j - wt[i - 1] , SCREAMING_SNAKE_CASE_ ) if __name__ == "__main__": snake_case_ = [3, 2, 4, 4] snake_case_ = [4, 3, 2, 3] snake_case_ = 4 snake_case_ = 6 snake_case_ = [[0] * (w + 1)] + [[0] + [-1] * (w + 1) for _ in range(n + 1)] snake_case_ , snake_case_ = knapsack(w, wt, val, n) print(optimal_solution) print(mf_knapsack(n, wt, val, w)) # switched the n and w # testing the dynamic programming problem with example # the optimal subset for the above example are items 3 and 4 snake_case_ , snake_case_ = knapsack_with_example_solution(w, wt, val) assert optimal_solution == 8 assert optimal_subset == {3, 4} print('''optimal_value = ''', optimal_solution) print('''An optimal subset corresponding to the optimal value''', optimal_subset)

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import json from typing import List, Optional, Tuple from tokenizers import normalizers from tokenizers.pre_tokenizers import BertPreTokenizer, PreTokenizer from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_roformer import RoFormerTokenizer from .tokenization_utils import JiebaPreTokenizer snake_case_ = logging.get_logger(__name__) snake_case_ = {'''vocab_file''': '''vocab.txt''', '''tokenizer_file''': '''tokenizer.json'''} snake_case_ = { '''vocab_file''': { '''junnyu/roformer_chinese_small''': '''https://huggingface.co/junnyu/roformer_chinese_small/resolve/main/vocab.txt''', '''junnyu/roformer_chinese_base''': '''https://huggingface.co/junnyu/roformer_chinese_base/resolve/main/vocab.txt''', '''junnyu/roformer_chinese_char_small''': ( '''https://huggingface.co/junnyu/roformer_chinese_char_small/resolve/main/vocab.txt''' ), '''junnyu/roformer_chinese_char_base''': ( '''https://huggingface.co/junnyu/roformer_chinese_char_base/resolve/main/vocab.txt''' ), '''junnyu/roformer_small_discriminator''': ( '''https://huggingface.co/junnyu/roformer_small_discriminator/resolve/main/vocab.txt''' ), '''junnyu/roformer_small_generator''': ( '''https://huggingface.co/junnyu/roformer_small_generator/resolve/main/vocab.txt''' ), } } snake_case_ = { '''junnyu/roformer_chinese_small''': 1_536, '''junnyu/roformer_chinese_base''': 1_536, '''junnyu/roformer_chinese_char_small''': 512, '''junnyu/roformer_chinese_char_base''': 512, '''junnyu/roformer_small_discriminator''': 128, '''junnyu/roformer_small_generator''': 128, } snake_case_ = { '''junnyu/roformer_chinese_small''': {'''do_lower_case''': True}, '''junnyu/roformer_chinese_base''': {'''do_lower_case''': True}, '''junnyu/roformer_chinese_char_small''': {'''do_lower_case''': True}, '''junnyu/roformer_chinese_char_base''': {'''do_lower_case''': True}, '''junnyu/roformer_small_discriminator''': {'''do_lower_case''': True}, '''junnyu/roformer_small_generator''': {'''do_lower_case''': True}, } class SCREAMING_SNAKE_CASE__ (__snake_case ): __lowerCamelCase : Union[str, Any] = VOCAB_FILES_NAMES __lowerCamelCase : int = PRETRAINED_VOCAB_FILES_MAP __lowerCamelCase : Any = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES __lowerCamelCase : int = PRETRAINED_INIT_CONFIGURATION __lowerCamelCase : Tuple = RoFormerTokenizer def __init__( self , a=None , a=None , a=True , a="[UNK]" , a="[SEP]" , a="[PAD]" , a="[CLS]" , a="[MASK]" , a=True , a=None , **a , ): super().__init__( a , tokenizer_file=a , do_lower_case=a , unk_token=a , sep_token=a , pad_token=a , cls_token=a , mask_token=a , tokenize_chinese_chars=a , strip_accents=a , **a , ) lowercase__ : Optional[Any] = json.loads(self.backend_tokenizer.normalizer.__getstate__()) if ( pre_tok_state.get('lowercase' , a) != do_lower_case or pre_tok_state.get('strip_accents' , a) != strip_accents ): lowercase__ : Optional[int] = getattr(a , pre_tok_state.pop('type')) lowercase__ : str = do_lower_case lowercase__ : Union[str, Any] = strip_accents lowercase__ : int = pre_tok_class(**a) lowercase__ : Optional[int] = do_lower_case def __getstate__( self): lowercase__ : str = self.__dict__.copy() lowercase__ : Any = BertPreTokenizer() return state def __setstate__( self , a): lowercase__ : Union[str, Any] = d lowercase__ : int = self.__dict__['_tokenizer'].get_vocab() lowercase__ : List[str] = PreTokenizer.custom(JiebaPreTokenizer(a)) def snake_case_ ( self , a , a=None): lowercase__ : Union[str, Any] = [self.cls_token_id] + token_ids_a + [self.sep_token_id] if token_ids_a: output += token_ids_a + [self.sep_token_id] return output def snake_case_ ( self , a , a = None): lowercase__ : Tuple = [self.sep_token_id] lowercase__ : Optional[int] = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep) * [0] return len(cls + token_ids_a + sep) * [0] + len(token_ids_a + sep) * [1] def snake_case_ ( self , a , a = None): lowercase__ : Optional[Any] = self._tokenizer.model.save(a , name=a) return tuple(a) def snake_case_ ( self , a , a=None , a=None , a=False , **a , ): lowercase__ : List[str] = BertPreTokenizer() return super().save_pretrained(a , a , a , a , **a)

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"""simple docstring""" import argparse from transformers import TaConfig, TaForConditionalGeneration, load_tf_weights_in_ta from transformers.utils import logging logging.set_verbosity_info() def lowerCamelCase__ ( _lowerCamelCase : Union[str, Any] , _lowerCamelCase : Tuple , _lowerCamelCase : Dict ) -> List[str]: lowerCamelCase_ = TaConfig.from_json_file(_SCREAMING_SNAKE_CASE ) print(F'''Building PyTorch model from configuration: {config}''' ) lowerCamelCase_ = TaForConditionalGeneration(_SCREAMING_SNAKE_CASE ) # Load weights from tf checkpoint load_tf_weights_in_ta(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) # Save pytorch-model print(F'''Save PyTorch model to {pytorch_dump_path}''' ) model.save_pretrained(_SCREAMING_SNAKE_CASE ) if __name__ == "__main__": _SCREAMING_SNAKE_CASE : int = argparse.ArgumentParser() # Required parameters parser.add_argument( '''--tf_checkpoint_path''', default=None, type=str, required=True, help='''Path to the TensorFlow checkpoint path.''' ) parser.add_argument( '''--config_file''', default=None, type=str, required=True, help=( '''The config json file corresponding to the pre-trained T5 model. \nThis specifies the model architecture.''' ), ) parser.add_argument( '''--pytorch_dump_path''', default=None, type=str, required=True, help='''Path to the output PyTorch model.''' ) _SCREAMING_SNAKE_CASE : Union[str, Any] = parser.parse_args() convert_tf_checkpoint_to_pytorch(args.tf_checkpoint_path, args.config_file, args.pytorch_dump_path)

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from collections import defaultdict from math import gcd def __lowercase ( _SCREAMING_SNAKE_CASE = 1_50_00_00 ) -> int: '''simple docstring''' SCREAMING_SNAKE_CASE = defaultdict(_SCREAMING_SNAKE_CASE ) SCREAMING_SNAKE_CASE = 2 while 2 * euclid_m * (euclid_m + 1) <= limit: for euclid_n in range((euclid_m % 2) + 1 , _SCREAMING_SNAKE_CASE , 2 ): if gcd(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) > 1: continue SCREAMING_SNAKE_CASE = 2 * euclid_m * (euclid_m + euclid_n) for perimeter in range(_SCREAMING_SNAKE_CASE , limit + 1 , _SCREAMING_SNAKE_CASE ): frequencies[perimeter] += 1 euclid_m += 1 return sum(1 for frequency in frequencies.values() if frequency == 1 ) if __name__ == "__main__": print(F'''{solution() = }''')

296

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import copy import os from typing import Union from ...configuration_utils import PretrainedConfig from ...utils import logging lowerCamelCase : List[Any] = logging.get_logger(__name__) lowerCamelCase : Any = { '''BAAI/AltCLIP''': '''https://huggingface.co/BAAI/AltCLIP/resolve/main/config.json''', # See all AltCLIP models at https://huggingface.co/models?filter=altclip } class lowerCAmelCase ( __a ): '''simple docstring''' _A : List[Any] = '''altclip_text_model''' def __init__( self : Optional[Any] , __a : int=250002 , __a : Dict=1024 , __a : Optional[Any]=24 , __a : Optional[int]=16 , __a : Optional[int]=4096 , __a : Union[str, Any]="gelu" , __a : Optional[int]=0.1 , __a : Tuple=0.1 , __a : Optional[Any]=514 , __a : Optional[int]=1 , __a : Dict=0.02 , __a : Optional[int]=0.02 , __a : int=1E-05 , __a : int=1 , __a : Any=0 , __a : Union[str, Any]=2 , __a : Any="absolute" , __a : Any=True , __a : Tuple=768 , **__a : Union[str, Any] , ) -> Dict: """simple docstring""" super().__init__(pad_token_id=__a , bos_token_id=__a , eos_token_id=__a , **__a ) __lowercase : Optional[int] = vocab_size __lowercase : List[str] = hidden_size __lowercase : Tuple = num_hidden_layers __lowercase : str = num_attention_heads __lowercase : Any = hidden_act __lowercase : int = intermediate_size __lowercase : Optional[int] = hidden_dropout_prob __lowercase : List[str] = attention_probs_dropout_prob __lowercase : int = max_position_embeddings __lowercase : Optional[Any] = type_vocab_size __lowercase : Any = initializer_range __lowercase : Optional[Any] = initializer_factor __lowercase : int = layer_norm_eps __lowercase : List[str] = position_embedding_type __lowercase : Any = use_cache __lowercase : Optional[Any] = project_dim class lowerCAmelCase ( __a ): '''simple docstring''' _A : Any = '''altclip_vision_model''' def __init__( self : Tuple , __a : List[Any]=768 , __a : Optional[int]=3072 , __a : Optional[Any]=512 , __a : Union[str, Any]=12 , __a : Any=12 , __a : Optional[int]=3 , __a : Any=224 , __a : Dict=32 , __a : int="quick_gelu" , __a : Dict=1E-5 , __a : Dict=0.0 , __a : Optional[Any]=0.02 , __a : Dict=1.0 , **__a : Optional[int] , ) -> Union[str, Any]: """simple docstring""" super().__init__(**__a ) __lowercase : List[Any] = hidden_size __lowercase : Optional[int] = intermediate_size __lowercase : Tuple = projection_dim __lowercase : List[Any] = num_hidden_layers __lowercase : Optional[Any] = num_attention_heads __lowercase : str = num_channels __lowercase : Optional[int] = patch_size __lowercase : Optional[Any] = image_size __lowercase : List[str] = initializer_range __lowercase : Optional[int] = initializer_factor __lowercase : str = attention_dropout __lowercase : str = layer_norm_eps __lowercase : List[Any] = hidden_act @classmethod def lowerCAmelCase ( cls : int , __a : Union[str, os.PathLike] , **__a : List[Any] ) -> "PretrainedConfig": """simple docstring""" cls._set_token_in_kwargs(__a ) __lowercase , __lowercase : Optional[Any] = cls.get_config_dict(__a , **__a ) # get the vision config dict if we are loading from AltCLIPConfig if config_dict.get("""model_type""" ) == "altclip": __lowercase : Tuple = config_dict["""vision_config"""] if "model_type" in config_dict and hasattr(cls , """model_type""" ) and config_dict["model_type"] != cls.model_type: logger.warning( F"You are using a model of type {config_dict['model_type']} to instantiate a model of type " F"{cls.model_type}. This is not supported for all configurations of models and can yield errors." ) return cls.from_dict(__a , **__a ) class lowerCAmelCase ( __a ): '''simple docstring''' _A : str = '''altclip''' _A : str = True def __init__( self : Optional[Any] , __a : Union[str, Any]=None , __a : str=None , __a : Optional[int]=768 , __a : Optional[int]=2.6592 , **__a : Any ) -> List[Any]: """simple docstring""" __lowercase : Dict = kwargs.pop("""text_config_dict""" , __a ) __lowercase : Optional[int] = kwargs.pop("""vision_config_dict""" , __a ) super().__init__(**__a ) # Instead of simply assigning `[text|vision]_config_dict` to `[text|vision]_config`, we use the values in # `[text|vision]_config_dict` to update the values in `[text|vision]_config`. The values should be same in most # cases, but we don't want to break anything regarding `_config_dict` that existed before commit `8827e1b2`. if text_config_dict is not None: if text_config is None: __lowercase : Optional[Any] = {} # This is the complete result when using `text_config_dict`. __lowercase : Tuple = AltCLIPTextConfig(**__a ).to_dict() # Give a warning if the values exist in both `_text_config_dict` and `text_config` but being different. for key, value in _text_config_dict.items(): if key in text_config and value != text_config[key] and key not in ["transformers_version"]: # If specified in `text_config_dict` if key in text_config_dict: __lowercase : List[Any] = ( F"`{key}` is found in both `text_config_dict` and `text_config` but with different values. " F"The value `text_config_dict[\"{key}\"]` will be used instead." ) # If inferred from default argument values (just to be super careful) else: __lowercase : Union[str, Any] = ( F"`text_config_dict` is provided which will be used to initialize `AltCLIPTextConfig`. The " F"value `text_config[\"{key}\"]` will be overriden." ) logger.warning(__a ) # Update all values in `text_config` with the ones in `_text_config_dict`. text_config.update(_text_config_dict ) if vision_config_dict is not None: if vision_config is None: __lowercase : Tuple = {} # This is the complete result when using `vision_config_dict`. __lowercase : Any = AltCLIPVisionConfig(**__a ).to_dict() # convert keys to string instead of integer if "id2label" in _vision_config_dict: __lowercase : int = { str(__a ): value for key, value in _vision_config_dict["""id2label"""].items() } # Give a warning if the values exist in both `_vision_config_dict` and `vision_config` but being different. for key, value in _vision_config_dict.items(): if key in vision_config and value != vision_config[key] and key not in ["transformers_version"]: # If specified in `vision_config_dict` if key in vision_config_dict: __lowercase : Optional[int] = ( F"`{key}` is found in both `vision_config_dict` and `vision_config` but with different " F"values. The value `vision_config_dict[\"{key}\"]` will be used instead." ) # If inferred from default argument values (just to be super careful) else: __lowercase : Optional[int] = ( F"`vision_config_dict` is provided which will be used to initialize `AltCLIPVisionConfig`. " F"The value `vision_config[\"{key}\"]` will be overriden." ) logger.warning(__a ) # Update all values in `vision_config` with the ones in `_vision_config_dict`. vision_config.update(_vision_config_dict ) if text_config is None: __lowercase : List[str] = {} logger.info("""`text_config` is `None`. Initializing the `AltCLIPTextConfig` with default values.""" ) if vision_config is None: __lowercase : int = {} logger.info("""`vision_config` is `None`. initializing the `AltCLIPVisionConfig` with default values.""" ) __lowercase : int = AltCLIPTextConfig(**__a ) __lowercase : int = AltCLIPVisionConfig(**__a ) __lowercase : Optional[int] = projection_dim __lowercase : Dict = logit_scale_init_value __lowercase : Any = 1.0 @classmethod def lowerCAmelCase ( cls : Optional[int] , __a : AltCLIPTextConfig , __a : AltCLIPVisionConfig , **__a : List[Any] ) -> int: """simple docstring""" return cls(text_config=text_config.to_dict() , vision_config=vision_config.to_dict() , **__a ) def lowerCAmelCase ( self : Tuple ) -> int: """simple docstring""" __lowercase : Tuple = copy.deepcopy(self.__dict__ ) __lowercase : Optional[Any] = self.text_config.to_dict() __lowercase : int = self.vision_config.to_dict() __lowercase : Tuple = self.__class__.model_type return output

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def snake_case_ ( lowerCAmelCase_ : int ): __lowercase : int = (1 + 24 * n) ** 0.5 return ((1 + root) / 6) % 1 == 0 def snake_case_ ( lowerCAmelCase_ : int = 5000 ): __lowercase : Optional[int] = [(i * (3 * i - 1)) // 2 for i in range(1 , lowerCAmelCase_ )] for i, pentagonal_i in enumerate(lowerCAmelCase_ ): for j in range(lowerCAmelCase_ , len(lowerCAmelCase_ ) ): __lowercase : int = pentagonal_nums[j] __lowercase : Optional[int] = pentagonal_i + pentagonal_j __lowercase : Union[str, Any] = pentagonal_j - pentagonal_i if is_pentagonal(lowerCAmelCase_ ) and is_pentagonal(lowerCAmelCase_ ): return b return -1 if __name__ == "__main__": print(f'''{solution() = }''')

306

1

import argparse import json import os import time import zipfile from get_ci_error_statistics import download_artifact, get_artifacts_links from transformers import logging __lowerCamelCase = logging.get_logger(__name__) def UpperCamelCase ( __lowerCamelCase : Any , __lowerCamelCase : List[Any] ): snake_case : int = set() snake_case : Tuple = [] def parse_line(__lowerCamelCase : Optional[Any] ): for line in fp: if isinstance(__lowerCamelCase , __lowerCamelCase ): snake_case : Tuple = line.decode("UTF-8" ) if "warnings summary (final)" in line: continue # This means we are outside the body of a warning elif not line.startswith(" " ): # process a single warning and move it to `selected_warnings`. if len(__lowerCamelCase ) > 0: snake_case : List[str] = "\n".join(__lowerCamelCase ) # Only keep the warnings specified in `targets` if any(f""": {x}: """ in warning for x in targets ): selected_warnings.add(__lowerCamelCase ) buffer.clear() continue else: snake_case : Tuple = line.strip() buffer.append(__lowerCamelCase ) if from_gh: for filename in os.listdir(__lowerCamelCase ): snake_case : List[Any] = os.path.join(__lowerCamelCase , __lowerCamelCase ) if not os.path.isdir(__lowerCamelCase ): # read the file if filename != "warnings.txt": continue with open(__lowerCamelCase ) as fp: parse_line(__lowerCamelCase ) else: try: with zipfile.ZipFile(__lowerCamelCase ) as z: for filename in z.namelist(): if not os.path.isdir(__lowerCamelCase ): # read the file if filename != "warnings.txt": continue with z.open(__lowerCamelCase ) as fp: parse_line(__lowerCamelCase ) except Exception: logger.warning( f"""{artifact_path} is either an invalid zip file or something else wrong. This file is skipped.""" ) return selected_warnings def UpperCamelCase ( __lowerCamelCase : int , __lowerCamelCase : str ): snake_case : Union[str, Any] = set() snake_case : List[Any] = [os.path.join(__lowerCamelCase , __lowerCamelCase ) for p in os.listdir(__lowerCamelCase ) if (p.endswith(".zip" ) or from_gh)] for p in paths: selected_warnings.update(extract_warnings_from_single_artifact(__lowerCamelCase , __lowerCamelCase ) ) return selected_warnings if __name__ == "__main__": def UpperCamelCase ( __lowerCamelCase : Union[str, Any] ): return values.split("," ) __lowerCamelCase = argparse.ArgumentParser() # Required parameters parser.add_argument("""--workflow_run_id""", type=str, required=True, help="""A GitHub Actions workflow run id.""") parser.add_argument( """--output_dir""", type=str, required=True, help="""Where to store the downloaded artifacts and other result files.""", ) parser.add_argument("""--token""", default=None, type=str, help="""A token that has actions:read permission.""") # optional parameters parser.add_argument( """--targets""", default="""DeprecationWarning,UserWarning,FutureWarning""", type=list_str, help="""Comma-separated list of target warning(s) which we want to extract.""", ) parser.add_argument( """--from_gh""", action="""store_true""", help="""If running from a GitHub action workflow and collecting warnings from its artifacts.""", ) __lowerCamelCase = parser.parse_args() __lowerCamelCase = args.from_gh if from_gh: # The artifacts have to be downloaded using `actions/download-artifact@v3` pass else: os.makedirs(args.output_dir, exist_ok=True) # get download links __lowerCamelCase = get_artifacts_links(args.workflow_run_id, token=args.token) with open(os.path.join(args.output_dir, """artifacts.json"""), """w""", encoding="""UTF-8""") as fp: json.dump(artifacts, fp, ensure_ascii=False, indent=4) # download artifacts for idx, (name, url) in enumerate(artifacts.items()): print(name) print(url) print("""=""" * 80) download_artifact(name, url, args.output_dir, args.token) # Be gentle to GitHub time.sleep(1) # extract warnings from artifacts __lowerCamelCase = extract_warnings(args.output_dir, args.targets) __lowerCamelCase = sorted(selected_warnings) with open(os.path.join(args.output_dir, """selected_warnings.json"""), """w""", encoding="""UTF-8""") as fp: json.dump(selected_warnings, fp, ensure_ascii=False, indent=4)

59

import json from typing import List, Optional, Tuple from tokenizers import normalizers from ...tokenization_utils_fast import PreTrainedTokenizerFast from .tokenization_lxmert import LxmertTokenizer __lowerCamelCase = {"""vocab_file""": """vocab.txt""", """tokenizer_file""": """tokenizer.json"""} __lowerCamelCase = { """vocab_file""": { """unc-nlp/lxmert-base-uncased""": """https://huggingface.co/unc-nlp/lxmert-base-uncased/resolve/main/vocab.txt""", }, """tokenizer_file""": { """unc-nlp/lxmert-base-uncased""": ( """https://huggingface.co/unc-nlp/lxmert-base-uncased/resolve/main/tokenizer.json""" ), }, } __lowerCamelCase = { """unc-nlp/lxmert-base-uncased""": 5_12, } __lowerCamelCase = { """unc-nlp/lxmert-base-uncased""": {"""do_lower_case""": True}, } class UpperCAmelCase ( A_ ): A__ : Any = VOCAB_FILES_NAMES A__ : Optional[int] = PRETRAINED_VOCAB_FILES_MAP A__ : Tuple = PRETRAINED_INIT_CONFIGURATION A__ : Tuple = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES A__ : List[Any] = LxmertTokenizer def __init__(self : Dict , snake_case__ : Tuple=None , snake_case__ : Optional[Any]=None , snake_case__ : Optional[Any]=True , snake_case__ : Tuple="[UNK]" , snake_case__ : Optional[Any]="[SEP]" , snake_case__ : Optional[Any]="[PAD]" , snake_case__ : List[Any]="[CLS]" , snake_case__ : Tuple="[MASK]" , snake_case__ : Dict=True , snake_case__ : Union[str, Any]=None , **snake_case__ : Dict , ) -> Optional[int]: '''simple docstring''' super().__init__( snake_case__ , tokenizer_file=snake_case__ , do_lower_case=snake_case__ , unk_token=snake_case__ , sep_token=snake_case__ , pad_token=snake_case__ , cls_token=snake_case__ , mask_token=snake_case__ , tokenize_chinese_chars=snake_case__ , strip_accents=snake_case__ , **snake_case__ , ) snake_case : int = json.loads(self.backend_tokenizer.normalizer.__getstate__() ) if ( normalizer_state.get("lowercase" , snake_case__ ) != do_lower_case or normalizer_state.get("strip_accents" , snake_case__ ) != strip_accents or normalizer_state.get("handle_chinese_chars" , snake_case__ ) != tokenize_chinese_chars ): snake_case : Union[str, Any] = getattr(snake_case__ , normalizer_state.pop("type" ) ) snake_case : str = do_lower_case snake_case : List[Any] = strip_accents snake_case : Optional[int] = tokenize_chinese_chars snake_case : int = normalizer_class(**snake_case__ ) snake_case : Optional[Any] = do_lower_case def _SCREAMING_SNAKE_CASE (self : Union[str, Any] , snake_case__ : Optional[Any] , snake_case__ : Dict=None ) -> Any: '''simple docstring''' snake_case : Optional[int] = [self.cls_token_id] + token_ids_a + [self.sep_token_id] if token_ids_a: output += token_ids_a + [self.sep_token_id] return output def _SCREAMING_SNAKE_CASE (self : Optional[int] , snake_case__ : List[int] , snake_case__ : Optional[List[int]] = None ) -> List[int]: '''simple docstring''' snake_case : Optional[Any] = [self.sep_token_id] snake_case : Optional[Any] = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) * [0] return len(cls + token_ids_a + sep ) * [0] + len(token_ids_a + sep ) * [1] def _SCREAMING_SNAKE_CASE (self : Any , snake_case__ : str , snake_case__ : Optional[str] = None ) -> Tuple[str]: '''simple docstring''' snake_case : List[Any] = self._tokenizer.model.save(snake_case__ , name=snake_case__ ) return tuple(snake_case__ )

59

1

'''simple docstring''' import argparse import json from dataclasses import dataclass, field from functools import partial from pathlib import Path from typing import Callable, Dict, List, Tuple import timm import torch import torch.nn as nn from classy_vision.models.regnet import RegNet, RegNetParams, RegNetYaagf, RegNetYaagf, RegNetYaaagf from huggingface_hub import cached_download, hf_hub_url from torch import Tensor from vissl.models.model_helpers import get_trunk_forward_outputs from transformers import AutoImageProcessor, RegNetConfig, RegNetForImageClassification, RegNetModel from transformers.utils import logging logging.set_verbosity_info() _UpperCamelCase = logging.get_logger() @dataclass class _A : _SCREAMING_SNAKE_CASE : nn.Module _SCREAMING_SNAKE_CASE : List[nn.Module] = field(default_factory=__SCREAMING_SNAKE_CASE ) _SCREAMING_SNAKE_CASE : list = field(default_factory=__SCREAMING_SNAKE_CASE ) def __A ( self , __UpperCAmelCase , __UpperCAmelCase , __UpperCAmelCase ) -> Dict: '''simple docstring''' __UpperCAmelCase : List[Any] = len(list(m.modules() ) ) == 1 or isinstance(__UpperCAmelCase , nn.Convad ) or isinstance(__UpperCAmelCase , nn.BatchNormad ) if has_not_submodules: self.traced.append(__UpperCAmelCase ) def __call__( self , __UpperCAmelCase ) -> str: '''simple docstring''' for m in self.module.modules(): self.handles.append(m.register_forward_hook(self._forward_hook ) ) self.module(__UpperCAmelCase ) [x.remove() for x in self.handles] return self @property def __A ( self ) -> Union[str, Any]: '''simple docstring''' return list(filter(lambda __UpperCAmelCase : len(list(x.state_dict().keys() ) ) > 0 , self.traced ) ) @dataclass class _A : _SCREAMING_SNAKE_CASE : nn.Module _SCREAMING_SNAKE_CASE : nn.Module _SCREAMING_SNAKE_CASE : int = 1 _SCREAMING_SNAKE_CASE : List = field(default_factory=__SCREAMING_SNAKE_CASE ) _SCREAMING_SNAKE_CASE : List = field(default_factory=__SCREAMING_SNAKE_CASE ) _SCREAMING_SNAKE_CASE : bool = True def __call__( self , __UpperCAmelCase ) -> Any: '''simple docstring''' __UpperCAmelCase : str = Tracker(self.dest )(__UpperCAmelCase ).parametrized __UpperCAmelCase : int = Tracker(self.src )(__UpperCAmelCase ).parametrized __UpperCAmelCase : Optional[Any] = list(filter(lambda __UpperCAmelCase : type(__UpperCAmelCase ) not in self.src_skip , __UpperCAmelCase ) ) __UpperCAmelCase : Any = list(filter(lambda __UpperCAmelCase : type(__UpperCAmelCase ) not in self.dest_skip , __UpperCAmelCase ) ) if len(__UpperCAmelCase ) != len(__UpperCAmelCase ) and self.raise_if_mismatch: raise Exception( f'Numbers of operations are different. Source module has {len(__UpperCAmelCase )} operations while' f' destination module has {len(__UpperCAmelCase )}.' ) for dest_m, src_m in zip(__UpperCAmelCase , __UpperCAmelCase ): dest_m.load_state_dict(src_m.state_dict() ) if self.verbose == 1: print(f'Transfered from={src_m} to={dest_m}' ) class _A ( nn.Module ): def __init__( self , __UpperCAmelCase ) -> Optional[int]: '''simple docstring''' super().__init__() __UpperCAmelCase : List[Tuple[str, nn.Module]] = [] # - get the stem feature_blocks.append(("""conv1""", model.stem) ) # - get all the feature blocks for k, v in model.trunk_output.named_children(): assert k.startswith("""block""" ), f'Unexpected layer name {k}' __UpperCAmelCase : Any = len(__UpperCAmelCase ) + 1 feature_blocks.append((f'res{block_index}', v) ) __UpperCAmelCase : List[Any] = nn.ModuleDict(__UpperCAmelCase ) def __A ( self , __UpperCAmelCase ) -> List[Any]: '''simple docstring''' return get_trunk_forward_outputs( __UpperCAmelCase , out_feat_keys=__UpperCAmelCase , feature_blocks=self._feature_blocks , ) class _A ( __SCREAMING_SNAKE_CASE ): def __A ( self , __UpperCAmelCase ) -> str: '''simple docstring''' __UpperCAmelCase : int = x.split("""-""" ) return x_split[0] + x_split[1] + "_" + "".join(x_split[2:] ) def __getitem__( self , __UpperCAmelCase ) -> Callable[[], Tuple[nn.Module, Dict]]: '''simple docstring''' # default to timm! if x not in self: __UpperCAmelCase : List[Any] = self.convert_name_to_timm(__UpperCAmelCase ) __UpperCAmelCase : Tuple = partial(lambda: (timm.create_model(__UpperCAmelCase , pretrained=__UpperCAmelCase ).eval(), None) ) else: __UpperCAmelCase : str = super().__getitem__(__UpperCAmelCase ) return val class _A ( __SCREAMING_SNAKE_CASE ): def __getitem__( self , __UpperCAmelCase ) -> Callable[[], nn.Module]: '''simple docstring''' if "seer" in x and "in1k" not in x: __UpperCAmelCase : Tuple = RegNetModel else: __UpperCAmelCase : int = RegNetForImageClassification return val def lowercase_ ( lowerCAmelCase__ : List[Any] , lowerCAmelCase__ : int , lowerCAmelCase__ : List[Tuple[str, str]] ): """simple docstring""" for from_key, to_key in keys: __UpperCAmelCase : int = from_state_dict[from_key].clone() print(f'Copied key={from_key} to={to_key}' ) return to_state_dict def lowercase_ ( lowerCAmelCase__ : str , lowerCAmelCase__ : Callable[[], nn.Module] , lowerCAmelCase__ : Callable[[], nn.Module] , lowerCAmelCase__ : RegNetConfig , lowerCAmelCase__ : Path , lowerCAmelCase__ : bool = True , ): """simple docstring""" print(f'Converting {name}...' ) with torch.no_grad(): __UpperCAmelCase : Tuple = from_model_func() __UpperCAmelCase : Optional[int] = our_model_func(lowerCAmelCase__ ).eval() __UpperCAmelCase : Dict = ModuleTransfer(src=lowerCAmelCase__ , dest=lowerCAmelCase__ , raise_if_mismatch=lowerCAmelCase__ ) __UpperCAmelCase : Union[str, Any] = torch.randn((1, 3, 224, 224) ) module_transfer(lowerCAmelCase__ ) if from_state_dict is not None: __UpperCAmelCase : List[str] = [] # for seer - in1k finetuned we have to manually copy the head if "seer" in name and "in1k" in name: __UpperCAmelCase : Tuple = [("""0.clf.0.weight""", """classifier.1.weight"""), ("""0.clf.0.bias""", """classifier.1.bias""")] __UpperCAmelCase : Any = manually_copy_vissl_head(lowerCAmelCase__ , our_model.state_dict() , lowerCAmelCase__ ) our_model.load_state_dict(lowerCAmelCase__ ) __UpperCAmelCase : List[str] = our_model(lowerCAmelCase__ , output_hidden_states=lowerCAmelCase__ ) __UpperCAmelCase : Optional[int] = ( our_outputs.logits if isinstance(lowerCAmelCase__ , lowerCAmelCase__ ) else our_outputs.last_hidden_state ) __UpperCAmelCase : Tuple = from_model(lowerCAmelCase__ ) __UpperCAmelCase : List[Any] = from_output[-1] if type(lowerCAmelCase__ ) is list else from_output # now since I don't want to use any config files, vissl seer model doesn't actually have an head, so let's just check the last hidden state if "seer" in name and "in1k" in name: __UpperCAmelCase : Union[str, Any] = our_outputs.hidden_states[-1] assert torch.allclose(lowerCAmelCase__ , lowerCAmelCase__ ), "The model logits don't match the original one." if push_to_hub: our_model.push_to_hub( repo_path_or_name=save_directory / name , commit_message="""Add model""" , use_temp_dir=lowerCAmelCase__ , ) __UpperCAmelCase : Tuple = 224 if """seer""" not in name else 384 # we can use the convnext one __UpperCAmelCase : List[str] = AutoImageProcessor.from_pretrained("""facebook/convnext-base-224-22k-1k""" , size=lowerCAmelCase__ ) image_processor.push_to_hub( repo_path_or_name=save_directory / name , commit_message="""Add image processor""" , use_temp_dir=lowerCAmelCase__ , ) print(f'Pushed {name}' ) def lowercase_ ( lowerCAmelCase__ : Path , lowerCAmelCase__ : str = None , lowerCAmelCase__ : bool = True ): """simple docstring""" __UpperCAmelCase : List[str] = """imagenet-1k-id2label.json""" __UpperCAmelCase : List[str] = 1000 __UpperCAmelCase : Optional[Any] = (1, num_labels) __UpperCAmelCase : Any = """huggingface/label-files""" __UpperCAmelCase : Optional[Any] = num_labels __UpperCAmelCase : Optional[Any] = json.load(open(cached_download(hf_hub_url(lowerCAmelCase__ , lowerCAmelCase__ , repo_type="""dataset""" ) ) , """r""" ) ) __UpperCAmelCase : List[str] = {int(lowerCAmelCase__ ): v for k, v in idalabel.items()} __UpperCAmelCase : Tuple = idalabel __UpperCAmelCase : int = {v: k for k, v in idalabel.items()} __UpperCAmelCase : Dict = partial(lowerCAmelCase__ , num_labels=lowerCAmelCase__ , idalabel=lowerCAmelCase__ , labelaid=lowerCAmelCase__ ) __UpperCAmelCase : Tuple = { """regnet-x-002""": ImageNetPreTrainedConfig( depths=[1, 1, 4, 7] , hidden_sizes=[24, 56, 152, 368] , groups_width=8 , layer_type="""x""" ), """regnet-x-004""": ImageNetPreTrainedConfig( depths=[1, 2, 7, 12] , hidden_sizes=[32, 64, 160, 384] , groups_width=16 , layer_type="""x""" ), """regnet-x-006""": ImageNetPreTrainedConfig( depths=[1, 3, 5, 7] , hidden_sizes=[48, 96, 240, 528] , groups_width=24 , layer_type="""x""" ), """regnet-x-008""": ImageNetPreTrainedConfig( depths=[1, 3, 7, 5] , hidden_sizes=[64, 128, 288, 672] , groups_width=16 , layer_type="""x""" ), """regnet-x-016""": ImageNetPreTrainedConfig( depths=[2, 4, 10, 2] , hidden_sizes=[72, 168, 408, 912] , groups_width=24 , layer_type="""x""" ), """regnet-x-032""": ImageNetPreTrainedConfig( depths=[2, 6, 15, 2] , hidden_sizes=[96, 192, 432, 1008] , groups_width=48 , layer_type="""x""" ), """regnet-x-040""": ImageNetPreTrainedConfig( depths=[2, 5, 14, 2] , hidden_sizes=[80, 240, 560, 1360] , groups_width=40 , layer_type="""x""" ), """regnet-x-064""": ImageNetPreTrainedConfig( depths=[2, 4, 10, 1] , hidden_sizes=[168, 392, 784, 1624] , groups_width=56 , layer_type="""x""" ), """regnet-x-080""": ImageNetPreTrainedConfig( depths=[2, 5, 15, 1] , hidden_sizes=[80, 240, 720, 1920] , groups_width=120 , layer_type="""x""" ), """regnet-x-120""": ImageNetPreTrainedConfig( depths=[2, 5, 11, 1] , hidden_sizes=[224, 448, 896, 2240] , groups_width=112 , layer_type="""x""" ), """regnet-x-160""": ImageNetPreTrainedConfig( depths=[2, 6, 13, 1] , hidden_sizes=[256, 512, 896, 2048] , groups_width=128 , layer_type="""x""" ), """regnet-x-320""": ImageNetPreTrainedConfig( depths=[2, 7, 13, 1] , hidden_sizes=[336, 672, 1344, 2520] , groups_width=168 , layer_type="""x""" ), # y variant """regnet-y-002""": ImageNetPreTrainedConfig(depths=[1, 1, 4, 7] , hidden_sizes=[24, 56, 152, 368] , groups_width=8 ), """regnet-y-004""": ImageNetPreTrainedConfig( depths=[1, 3, 6, 6] , hidden_sizes=[48, 104, 208, 440] , groups_width=8 ), """regnet-y-006""": ImageNetPreTrainedConfig( depths=[1, 3, 7, 4] , hidden_sizes=[48, 112, 256, 608] , groups_width=16 ), """regnet-y-008""": ImageNetPreTrainedConfig( depths=[1, 3, 8, 2] , hidden_sizes=[64, 128, 320, 768] , groups_width=16 ), """regnet-y-016""": ImageNetPreTrainedConfig( depths=[2, 6, 17, 2] , hidden_sizes=[48, 120, 336, 888] , groups_width=24 ), """regnet-y-032""": ImageNetPreTrainedConfig( depths=[2, 5, 13, 1] , hidden_sizes=[72, 216, 576, 1512] , groups_width=24 ), """regnet-y-040""": ImageNetPreTrainedConfig( depths=[2, 6, 12, 2] , hidden_sizes=[128, 192, 512, 1088] , groups_width=64 ), """regnet-y-064""": ImageNetPreTrainedConfig( depths=[2, 7, 14, 2] , hidden_sizes=[144, 288, 576, 1296] , groups_width=72 ), """regnet-y-080""": ImageNetPreTrainedConfig( depths=[2, 4, 10, 1] , hidden_sizes=[168, 448, 896, 2016] , groups_width=56 ), """regnet-y-120""": ImageNetPreTrainedConfig( depths=[2, 5, 11, 1] , hidden_sizes=[224, 448, 896, 2240] , groups_width=112 ), """regnet-y-160""": ImageNetPreTrainedConfig( depths=[2, 4, 11, 1] , hidden_sizes=[224, 448, 1232, 3024] , groups_width=112 ), """regnet-y-320""": ImageNetPreTrainedConfig( depths=[2, 5, 12, 1] , hidden_sizes=[232, 696, 1392, 3712] , groups_width=232 ), # models created by SEER -> https://arxiv.org/abs/2202.08360 """regnet-y-320-seer""": RegNetConfig(depths=[2, 5, 12, 1] , hidden_sizes=[232, 696, 1392, 3712] , groups_width=232 ), """regnet-y-640-seer""": RegNetConfig(depths=[2, 5, 12, 1] , hidden_sizes=[328, 984, 1968, 4920] , groups_width=328 ), """regnet-y-1280-seer""": RegNetConfig( depths=[2, 7, 17, 1] , hidden_sizes=[528, 1056, 2904, 7392] , groups_width=264 ), """regnet-y-2560-seer""": RegNetConfig( depths=[3, 7, 16, 1] , hidden_sizes=[640, 1696, 2544, 5088] , groups_width=640 ), """regnet-y-10b-seer""": ImageNetPreTrainedConfig( depths=[2, 7, 17, 1] , hidden_sizes=[2020, 4040, 11110, 28280] , groups_width=1010 ), # finetuned on imagenet """regnet-y-320-seer-in1k""": ImageNetPreTrainedConfig( depths=[2, 5, 12, 1] , hidden_sizes=[232, 696, 1392, 3712] , groups_width=232 ), """regnet-y-640-seer-in1k""": ImageNetPreTrainedConfig( depths=[2, 5, 12, 1] , hidden_sizes=[328, 984, 1968, 4920] , groups_width=328 ), """regnet-y-1280-seer-in1k""": ImageNetPreTrainedConfig( depths=[2, 7, 17, 1] , hidden_sizes=[528, 1056, 2904, 7392] , groups_width=264 ), """regnet-y-2560-seer-in1k""": ImageNetPreTrainedConfig( depths=[3, 7, 16, 1] , hidden_sizes=[640, 1696, 2544, 5088] , groups_width=640 ), """regnet-y-10b-seer-in1k""": ImageNetPreTrainedConfig( depths=[2, 7, 17, 1] , hidden_sizes=[2020, 4040, 11110, 28280] , groups_width=1010 ), } __UpperCAmelCase : int = NameToOurModelFuncMap() __UpperCAmelCase : str = NameToFromModelFuncMap() # add seer weights logic def load_using_classy_vision(lowerCAmelCase__ : str , lowerCAmelCase__ : Callable[[], nn.Module] ) -> Tuple[nn.Module, Dict]: __UpperCAmelCase : Optional[int] = torch.hub.load_state_dict_from_url(lowerCAmelCase__ , model_dir=str(lowerCAmelCase__ ) , map_location="""cpu""" ) __UpperCAmelCase : int = model_func() # check if we have a head, if yes add it __UpperCAmelCase : Optional[int] = files["""classy_state_dict"""]["""base_model"""]["""model"""] __UpperCAmelCase : List[str] = model_state_dict["""trunk"""] model.load_state_dict(lowerCAmelCase__ ) return model.eval(), model_state_dict["heads"] # pretrained __UpperCAmelCase : Any = partial( lowerCAmelCase__ , """https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_regnet32d/seer_regnet32gf_model_iteration244000.torch""" , lambda: FakeRegNetVisslWrapper(RegNetYaagf() ) , ) __UpperCAmelCase : Optional[Any] = partial( lowerCAmelCase__ , """https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_regnet64/seer_regnet64gf_model_final_checkpoint_phase0.torch""" , lambda: FakeRegNetVisslWrapper(RegNetYaagf() ) , ) __UpperCAmelCase : Optional[int] = partial( lowerCAmelCase__ , """https://dl.fbaipublicfiles.com/vissl/model_zoo/swav_ig1b_regnet128Gf_cnstant_bs32_node16_sinkhorn10_proto16k_syncBN64_warmup8k/model_final_checkpoint_phase0.torch""" , lambda: FakeRegNetVisslWrapper(RegNetYaaagf() ) , ) __UpperCAmelCase : int = partial( lowerCAmelCase__ , """https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_regnet10B/model_iteration124500_conso.torch""" , lambda: FakeRegNetVisslWrapper( RegNet(RegNetParams(depth=27 , group_width=1010 , w_a=1744 , w_a=620.83 , w_m=2.52 ) ) ) , ) # IN1K finetuned __UpperCAmelCase : List[str] = partial( lowerCAmelCase__ , """https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_finetuned/seer_regnet32_finetuned_in1k_model_final_checkpoint_phase78.torch""" , lambda: FakeRegNetVisslWrapper(RegNetYaagf() ) , ) __UpperCAmelCase : Optional[int] = partial( lowerCAmelCase__ , """https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_finetuned/seer_regnet64_finetuned_in1k_model_final_checkpoint_phase78.torch""" , lambda: FakeRegNetVisslWrapper(RegNetYaagf() ) , ) __UpperCAmelCase : str = partial( lowerCAmelCase__ , """https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_finetuned/seer_regnet128_finetuned_in1k_model_final_checkpoint_phase78.torch""" , lambda: FakeRegNetVisslWrapper(RegNetYaaagf() ) , ) __UpperCAmelCase : Any = partial( lowerCAmelCase__ , """https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_finetuned/seer_10b_finetuned_in1k_model_phase28_conso.torch""" , lambda: FakeRegNetVisslWrapper( RegNet(RegNetParams(depth=27 , group_width=1010 , w_a=1744 , w_a=620.83 , w_m=2.52 ) ) ) , ) if model_name: convert_weight_and_push( lowerCAmelCase__ , names_to_from_model_map[model_name] , names_to_ours_model_map[model_name] , names_to_config[model_name] , lowerCAmelCase__ , lowerCAmelCase__ , ) else: for model_name, config in names_to_config.items(): convert_weight_and_push( lowerCAmelCase__ , names_to_from_model_map[model_name] , names_to_ours_model_map[model_name] , lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ , ) return config, expected_shape if __name__ == "__main__": _UpperCamelCase = argparse.ArgumentParser() # Required parameters parser.add_argument( '''--model_name''', default=None, type=str, help=( '''The name of the model you wish to convert, it must be one of the supported regnet* architecture,''' ''' currently: regnetx-*, regnety-*. If `None`, all of them will the converted.''' ), ) parser.add_argument( '''--pytorch_dump_folder_path''', default=None, type=Path, required=True, help='''Path to the output PyTorch model directory.''', ) parser.add_argument( '''--push_to_hub''', default=True, type=bool, required=False, help='''If True, push model and image processor to the hub.''', ) _UpperCamelCase = parser.parse_args() _UpperCamelCase = args.pytorch_dump_folder_path pytorch_dump_folder_path.mkdir(exist_ok=True, parents=True) convert_weights_and_push(pytorch_dump_folder_path, args.model_name, args.push_to_hub)

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'''simple docstring''' import unittest from transformers import MODEL_FOR_ZERO_SHOT_OBJECT_DETECTION_MAPPING, is_vision_available, pipeline from transformers.testing_utils import ( is_pipeline_test, nested_simplify, require_tf, require_torch, require_vision, slow, ) from .test_pipelines_common import ANY if is_vision_available(): from PIL import Image else: class _A : @staticmethod def __A ( *__UpperCAmelCase , **__UpperCAmelCase ) -> Dict: '''simple docstring''' pass @is_pipeline_test @require_vision @require_torch class _A ( unittest.TestCase ): _SCREAMING_SNAKE_CASE : List[str] = MODEL_FOR_ZERO_SHOT_OBJECT_DETECTION_MAPPING def __A ( self , __UpperCAmelCase , __UpperCAmelCase , __UpperCAmelCase ) -> Tuple: '''simple docstring''' __UpperCAmelCase : Optional[int] = pipeline( """zero-shot-object-detection""" , model="""hf-internal-testing/tiny-random-owlvit-object-detection""" ) __UpperCAmelCase : Optional[int] = [ { """image""": """./tests/fixtures/tests_samples/COCO/000000039769.png""", """candidate_labels""": ["""cat""", """remote""", """couch"""], } ] return object_detector, examples def __A ( self , __UpperCAmelCase , __UpperCAmelCase ) -> Tuple: '''simple docstring''' __UpperCAmelCase : Optional[int] = object_detector(examples[0] , threshold=0.0 ) __UpperCAmelCase : Tuple = len(__UpperCAmelCase ) self.assertGreater(__UpperCAmelCase , 0 ) self.assertEqual( __UpperCAmelCase , [ { """score""": ANY(__UpperCAmelCase ), """label""": ANY(__UpperCAmelCase ), """box""": {"""xmin""": ANY(__UpperCAmelCase ), """ymin""": ANY(__UpperCAmelCase ), """xmax""": ANY(__UpperCAmelCase ), """ymax""": ANY(__UpperCAmelCase )}, } for i in range(__UpperCAmelCase ) ] , ) @require_tf @unittest.skip("""Zero Shot Object Detection not implemented in TF""" ) def __A ( self ) -> Tuple: '''simple docstring''' pass @require_torch def __A ( self ) -> Dict: '''simple docstring''' __UpperCAmelCase : Union[str, Any] = pipeline( """zero-shot-object-detection""" , model="""hf-internal-testing/tiny-random-owlvit-object-detection""" ) __UpperCAmelCase : Optional[int] = object_detector( """./tests/fixtures/tests_samples/COCO/000000039769.png""" , candidate_labels=["""cat""", """remote""", """couch"""] , threshold=0.64 , ) self.assertEqual( nested_simplify(__UpperCAmelCase , decimals=4 ) , [ {"""score""": 0.7235, """label""": """cat""", """box""": {"""xmin""": 204, """ymin""": 167, """xmax""": 232, """ymax""": 190}}, {"""score""": 0.7218, """label""": """remote""", """box""": {"""xmin""": 204, """ymin""": 167, """xmax""": 232, """ymax""": 190}}, {"""score""": 0.7184, """label""": """couch""", """box""": {"""xmin""": 204, """ymin""": 167, """xmax""": 232, """ymax""": 190}}, {"""score""": 0.6748, """label""": """remote""", """box""": {"""xmin""": 571, """ymin""": 83, """xmax""": 598, """ymax""": 103}}, {"""score""": 0.6656, """label""": """cat""", """box""": {"""xmin""": 571, """ymin""": 83, """xmax""": 598, """ymax""": 103}}, {"""score""": 0.6614, """label""": """couch""", """box""": {"""xmin""": 571, """ymin""": 83, """xmax""": 598, """ymax""": 103}}, {"""score""": 0.6456, """label""": """remote""", """box""": {"""xmin""": 494, """ymin""": 105, """xmax""": 521, """ymax""": 127}}, {"""score""": 0.642, """label""": """remote""", """box""": {"""xmin""": 67, """ymin""": 274, """xmax""": 93, """ymax""": 297}}, {"""score""": 0.6419, """label""": """cat""", """box""": {"""xmin""": 494, """ymin""": 105, """xmax""": 521, """ymax""": 127}}, ] , ) __UpperCAmelCase : str = object_detector( [ { """image""": """./tests/fixtures/tests_samples/COCO/000000039769.png""", """candidate_labels""": ["""cat""", """remote""", """couch"""], } ] , threshold=0.64 , ) self.assertEqual( nested_simplify(__UpperCAmelCase , decimals=4 ) , [ [ {"""score""": 0.7235, """label""": """cat""", """box""": {"""xmin""": 204, """ymin""": 167, """xmax""": 232, """ymax""": 190}}, {"""score""": 0.7218, """label""": """remote""", """box""": {"""xmin""": 204, """ymin""": 167, """xmax""": 232, """ymax""": 190}}, {"""score""": 0.7184, """label""": """couch""", """box""": {"""xmin""": 204, """ymin""": 167, """xmax""": 232, """ymax""": 190}}, {"""score""": 0.6748, """label""": """remote""", """box""": {"""xmin""": 571, """ymin""": 83, """xmax""": 598, """ymax""": 103}}, {"""score""": 0.6656, """label""": """cat""", """box""": {"""xmin""": 571, """ymin""": 83, """xmax""": 598, """ymax""": 103}}, {"""score""": 0.6614, """label""": """couch""", """box""": {"""xmin""": 571, """ymin""": 83, """xmax""": 598, """ymax""": 103}}, {"""score""": 0.6456, """label""": """remote""", """box""": {"""xmin""": 494, """ymin""": 105, """xmax""": 521, """ymax""": 127}}, {"""score""": 0.642, """label""": """remote""", """box""": {"""xmin""": 67, """ymin""": 274, """xmax""": 93, """ymax""": 297}}, {"""score""": 0.6419, """label""": """cat""", """box""": {"""xmin""": 494, """ymin""": 105, """xmax""": 521, """ymax""": 127}}, ] ] , ) @require_torch @slow def __A ( self ) -> Tuple: '''simple docstring''' __UpperCAmelCase : Tuple = pipeline("""zero-shot-object-detection""" ) __UpperCAmelCase : List[Any] = object_detector( """http://images.cocodataset.org/val2017/000000039769.jpg""" , candidate_labels=["""cat""", """remote""", """couch"""] , ) self.assertEqual( nested_simplify(__UpperCAmelCase , decimals=4 ) , [ {"""score""": 0.2868, """label""": """cat""", """box""": {"""xmin""": 324, """ymin""": 20, """xmax""": 640, """ymax""": 373}}, {"""score""": 0.277, """label""": """remote""", """box""": {"""xmin""": 40, """ymin""": 72, """xmax""": 177, """ymax""": 115}}, {"""score""": 0.2537, """label""": """cat""", """box""": {"""xmin""": 1, """ymin""": 55, """xmax""": 315, """ymax""": 472}}, {"""score""": 0.1474, """label""": """remote""", """box""": {"""xmin""": 335, """ymin""": 74, """xmax""": 371, """ymax""": 187}}, {"""score""": 0.1208, """label""": """couch""", """box""": {"""xmin""": 4, """ymin""": 0, """xmax""": 642, """ymax""": 476}}, ] , ) __UpperCAmelCase : Any = object_detector( [ { """image""": """http://images.cocodataset.org/val2017/000000039769.jpg""", """candidate_labels""": ["""cat""", """remote""", """couch"""], }, { """image""": """http://images.cocodataset.org/val2017/000000039769.jpg""", """candidate_labels""": ["""cat""", """remote""", """couch"""], }, ] , ) self.assertEqual( nested_simplify(__UpperCAmelCase , decimals=4 ) , [ [ {"""score""": 0.2868, """label""": """cat""", """box""": {"""xmin""": 324, """ymin""": 20, """xmax""": 640, """ymax""": 373}}, {"""score""": 0.277, """label""": """remote""", """box""": {"""xmin""": 40, """ymin""": 72, """xmax""": 177, """ymax""": 115}}, {"""score""": 0.2537, """label""": """cat""", """box""": {"""xmin""": 1, """ymin""": 55, """xmax""": 315, """ymax""": 472}}, {"""score""": 0.1474, """label""": """remote""", """box""": {"""xmin""": 335, """ymin""": 74, """xmax""": 371, """ymax""": 187}}, {"""score""": 0.1208, """label""": """couch""", """box""": {"""xmin""": 4, """ymin""": 0, """xmax""": 642, """ymax""": 476}}, ], [ {"""score""": 0.2868, """label""": """cat""", """box""": {"""xmin""": 324, """ymin""": 20, """xmax""": 640, """ymax""": 373}}, {"""score""": 0.277, """label""": """remote""", """box""": {"""xmin""": 40, """ymin""": 72, """xmax""": 177, """ymax""": 115}}, {"""score""": 0.2537, """label""": """cat""", """box""": {"""xmin""": 1, """ymin""": 55, """xmax""": 315, """ymax""": 472}}, {"""score""": 0.1474, """label""": """remote""", """box""": {"""xmin""": 335, """ymin""": 74, """xmax""": 371, """ymax""": 187}}, {"""score""": 0.1208, """label""": """couch""", """box""": {"""xmin""": 4, """ymin""": 0, """xmax""": 642, """ymax""": 476}}, ], ] , ) @require_tf @unittest.skip("""Zero Shot Object Detection not implemented in TF""" ) def __A ( self ) -> List[str]: '''simple docstring''' pass @require_torch @slow def __A ( self ) -> List[str]: '''simple docstring''' __UpperCAmelCase : Optional[int] = 0.2 __UpperCAmelCase : List[Any] = pipeline("""zero-shot-object-detection""" ) __UpperCAmelCase : Optional[int] = object_detector( """http://images.cocodataset.org/val2017/000000039769.jpg""" , candidate_labels=["""cat""", """remote""", """couch"""] , threshold=__UpperCAmelCase , ) self.assertEqual( nested_simplify(__UpperCAmelCase , decimals=4 ) , [ {"""score""": 0.2868, """label""": """cat""", """box""": {"""xmin""": 324, """ymin""": 20, """xmax""": 640, """ymax""": 373}}, {"""score""": 0.277, """label""": """remote""", """box""": {"""xmin""": 40, """ymin""": 72, """xmax""": 177, """ymax""": 115}}, {"""score""": 0.2537, """label""": """cat""", """box""": {"""xmin""": 1, """ymin""": 55, """xmax""": 315, """ymax""": 472}}, ] , ) @require_torch @slow def __A ( self ) -> List[Any]: '''simple docstring''' __UpperCAmelCase : Optional[Any] = 2 __UpperCAmelCase : Optional[int] = pipeline("""zero-shot-object-detection""" ) __UpperCAmelCase : List[Any] = object_detector( """http://images.cocodataset.org/val2017/000000039769.jpg""" , candidate_labels=["""cat""", """remote""", """couch"""] , top_k=__UpperCAmelCase , ) self.assertEqual( nested_simplify(__UpperCAmelCase , decimals=4 ) , [ {"""score""": 0.2868, """label""": """cat""", """box""": {"""xmin""": 324, """ymin""": 20, """xmax""": 640, """ymax""": 373}}, {"""score""": 0.277, """label""": """remote""", """box""": {"""xmin""": 40, """ymin""": 72, """xmax""": 177, """ymax""": 115}}, ] , )

16

0

from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available snake_case : List[str] = { '''configuration_bigbird_pegasus''': [ '''BIGBIRD_PEGASUS_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''BigBirdPegasusConfig''', '''BigBirdPegasusOnnxConfig''', ], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: snake_case : Dict = [ '''BIGBIRD_PEGASUS_PRETRAINED_MODEL_ARCHIVE_LIST''', '''BigBirdPegasusForCausalLM''', '''BigBirdPegasusForConditionalGeneration''', '''BigBirdPegasusForQuestionAnswering''', '''BigBirdPegasusForSequenceClassification''', '''BigBirdPegasusModel''', '''BigBirdPegasusPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_bigbird_pegasus import ( BIGBIRD_PEGASUS_PRETRAINED_CONFIG_ARCHIVE_MAP, BigBirdPegasusConfig, BigBirdPegasusOnnxConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_bigbird_pegasus import ( BIGBIRD_PEGASUS_PRETRAINED_MODEL_ARCHIVE_LIST, BigBirdPegasusForCausalLM, BigBirdPegasusForConditionalGeneration, BigBirdPegasusForQuestionAnswering, BigBirdPegasusForSequenceClassification, BigBirdPegasusModel, BigBirdPegasusPreTrainedModel, ) else: import sys snake_case : Any = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)

94

def a( A : int ) -> str: """simple docstring""" if number > 0: raise ValueError("input must be a negative integer" ) a = len(bin(A )[3:] ) a = bin(abs(A ) - (1 << binary_number_length) )[3:] a = ( ( "1" + "0" * (binary_number_length - len(A )) + twos_complement_number ) if number < 0 else "0" ) return "0b" + twos_complement_number if __name__ == "__main__": import doctest doctest.testmod()

227

0

"""simple docstring""" def __SCREAMING_SNAKE_CASE ( __UpperCAmelCase ): _lowercase : list[list[float]] = [] for data in source_data: for i, el in enumerate(__UpperCAmelCase ): if len(__UpperCAmelCase ) < i + 1: data_lists.append([] ) data_lists[i].append(float(__UpperCAmelCase ) ) return data_lists def __SCREAMING_SNAKE_CASE ( __UpperCAmelCase , __UpperCAmelCase ): _lowercase : list[list[float]] = [] for dlist, weight in zip(__UpperCAmelCase , __UpperCAmelCase ): _lowercase : Dict = min(__UpperCAmelCase ) _lowercase : List[Any] = max(__UpperCAmelCase ) _lowercase : list[float] = [] # for weight 0 score is 1 - actual score if weight == 0: for item in dlist: try: score.append(1 - ((item - mind) / (maxd - mind)) ) except ZeroDivisionError: score.append(1 ) elif weight == 1: for item in dlist: try: score.append((item - mind) / (maxd - mind) ) except ZeroDivisionError: score.append(0 ) # weight not 0 or 1 else: _lowercase : List[str] = F"""Invalid weight of {weight:f} provided""" raise ValueError(__UpperCAmelCase ) score_lists.append(__UpperCAmelCase ) return score_lists def __SCREAMING_SNAKE_CASE ( __UpperCAmelCase ): _lowercase : list[float] = [0 for i in range(len(score_lists[0] ) )] for slist in score_lists: for j, ele in enumerate(__UpperCAmelCase ): _lowercase : List[Any] = final_scores[j] + ele return final_scores def __SCREAMING_SNAKE_CASE ( __UpperCAmelCase , __UpperCAmelCase ): _lowercase : Any = get_data(__UpperCAmelCase ) _lowercase : Optional[Any] = calculate_each_score(__UpperCAmelCase , __UpperCAmelCase ) _lowercase : Union[str, Any] = generate_final_scores(__UpperCAmelCase ) # append scores to source data for i, ele in enumerate(__UpperCAmelCase ): source_data[i].append(__UpperCAmelCase ) return source_data

367

"""simple docstring""" import os import posixpath import uuid from dataclasses import dataclass from typing import TYPE_CHECKING, Iterable, List, Optional, Tuple, Union import numpy as np import pyarrow as pa import datasets from datasets.arrow_writer import ArrowWriter, ParquetWriter from datasets.config import MAX_SHARD_SIZE from datasets.filesystems import ( is_remote_filesystem, rename, ) from datasets.iterable_dataset import _BaseExamplesIterable from datasets.utils.py_utils import convert_file_size_to_int UpperCAmelCase: str = datasets.utils.logging.get_logger(__name__) if TYPE_CHECKING: import pyspark @dataclass class UpperCamelCase ( datasets.BuilderConfig ): """simple docstring""" SCREAMING_SNAKE_CASE_ : Optional[datasets.Features] = None def __SCREAMING_SNAKE_CASE ( __UpperCAmelCase , __UpperCAmelCase , ): import pyspark def generate_fn(): _lowercase : List[Any] = df.select("""*""" , pyspark.sql.functions.spark_partition_id().alias("""part_id""" ) ) for partition_id in partition_order: _lowercase : Optional[int] = df_with_partition_id.select("""*""" ).where(F"""part_id = {partition_id}""" ).drop("""part_id""" ) _lowercase : int = partition_df.collect() _lowercase : Dict = 0 for row in rows: yield F"""{partition_id}_{row_id}""", row.asDict() row_id += 1 return generate_fn class UpperCamelCase ( _BaseExamplesIterable ): """simple docstring""" def __init__( self ,UpperCAmelCase_ ,UpperCAmelCase_=None ,): _lowercase : Union[str, Any] = df _lowercase : List[str] = partition_order or range(self.df.rdd.getNumPartitions() ) _lowercase : Tuple = _generate_iterable_examples(self.df ,self.partition_order ) def __iter__( self ): yield from self.generate_examples_fn() def lowerCamelCase__ ( self ,UpperCAmelCase_ ): _lowercase : List[str] = list(range(self.df.rdd.getNumPartitions() ) ) generator.shuffle(UpperCAmelCase_ ) return SparkExamplesIterable(self.df ,partition_order=UpperCAmelCase_ ) def lowerCamelCase__ ( self ,UpperCAmelCase_ ,UpperCAmelCase_ ): _lowercase : Union[str, Any] = self.split_shard_indices_by_worker(UpperCAmelCase_ ,UpperCAmelCase_ ) return SparkExamplesIterable(self.df ,partition_order=UpperCAmelCase_ ) @property def lowerCamelCase__ ( self ): return len(self.partition_order ) class UpperCamelCase ( datasets.DatasetBuilder ): """simple docstring""" SCREAMING_SNAKE_CASE_ : Any = SparkConfig def __init__( self ,UpperCAmelCase_ ,UpperCAmelCase_ = None ,UpperCAmelCase_ = None ,**UpperCAmelCase_ ,): import pyspark _lowercase : List[Any] = pyspark.sql.SparkSession.builder.getOrCreate() _lowercase : List[Any] = df _lowercase : int = working_dir super().__init__( cache_dir=UpperCAmelCase_ ,config_name=str(self.df.semanticHash() ) ,**UpperCAmelCase_ ,) def lowerCamelCase__ ( self ): # Returns the path of the created file. def create_cache_and_write_probe(UpperCAmelCase_ ): # makedirs with exist_ok will recursively create the directory. It will not throw an error if directories # already exist. os.makedirs(self._cache_dir ,exist_ok=UpperCAmelCase_ ) _lowercase : Union[str, Any] = os.path.join(self._cache_dir ,"""fs_test""" + uuid.uuida().hex ) # Opening the file in append mode will create a new file unless it already exists, in which case it will not # change the file contents. open(UpperCAmelCase_ ,"""a""" ) return [probe_file] if self._spark.conf.get("""spark.master""" ,"""""" ).startswith("""local""" ): return # If the cluster is multi-node, make sure that the user provided a cache_dir and that it is on an NFS # accessible to the driver. # TODO: Stream batches to the driver using ArrowCollectSerializer instead of throwing an error. if self._cache_dir: _lowercase : List[str] = ( self._spark.sparkContext.parallelize(range(1 ) ,1 ).mapPartitions(UpperCAmelCase_ ).collect() ) if os.path.isfile(probe[0] ): return raise ValueError( """When using Dataset.from_spark on a multi-node cluster, the driver and all workers should be able to access cache_dir""" ) def lowerCamelCase__ ( self ): return datasets.DatasetInfo(features=self.config.features ) def lowerCamelCase__ ( self ,UpperCAmelCase_ ): return [datasets.SplitGenerator(name=datasets.Split.TRAIN )] def lowerCamelCase__ ( self ,UpperCAmelCase_ ): import pyspark def get_arrow_batch_size(UpperCAmelCase_ ): for batch in it: yield pa.RecordBatch.from_pydict({"""batch_bytes""": [batch.nbytes]} ) _lowercase : List[str] = self.df.count() _lowercase : List[str] = df_num_rows if df_num_rows <= 1_00 else 1_00 # Approximate the size of each row (in Arrow format) by averaging over a max-100-row sample. _lowercase : Union[str, Any] = ( self.df.limit(UpperCAmelCase_ ) .repartition(1 ) .mapInArrow(UpperCAmelCase_ ,"""batch_bytes: long""" ) .agg(pyspark.sql.functions.sum("""batch_bytes""" ).alias("""sample_bytes""" ) ) .collect()[0] .sample_bytes / sample_num_rows ) _lowercase : List[Any] = approx_bytes_per_row * df_num_rows if approx_total_size > max_shard_size: # Make sure there is at least one row per partition. _lowercase : int = min(UpperCAmelCase_ ,int(approx_total_size / max_shard_size ) ) _lowercase : List[Any] = self.df.repartition(UpperCAmelCase_ ) def lowerCamelCase__ ( self ,UpperCAmelCase_ ,UpperCAmelCase_ ,UpperCAmelCase_ ,): import pyspark _lowercase : Union[str, Any] = ParquetWriter if file_format == """parquet""" else ArrowWriter _lowercase : List[Any] = os.path.join(self._working_dir ,os.path.basename(UpperCAmelCase_ ) ) if self._working_dir else fpath _lowercase : Any = file_format == """parquet""" # Define these so that we don't reference self in write_arrow, which will result in a pickling error due to # pickling the SparkContext. _lowercase : Union[str, Any] = self.config.features _lowercase : Optional[int] = self._writer_batch_size _lowercase : Optional[Any] = self._fs.storage_options def write_arrow(UpperCAmelCase_ ): # Within the same SparkContext, no two task attempts will share the same attempt ID. _lowercase : Any = pyspark.TaskContext().taskAttemptId() _lowercase : List[str] = next(UpperCAmelCase_ ,UpperCAmelCase_ ) if first_batch is None: # Some partitions might not receive any data. return pa.RecordBatch.from_arrays( [[task_id], [0], [0]] ,names=["""task_id""", """num_examples""", """num_bytes"""] ,) _lowercase : List[Any] = 0 _lowercase : int = writer_class( features=UpperCAmelCase_ ,path=working_fpath.replace("""SSSSS""" ,f"""{shard_id:05d}""" ).replace("""TTTTT""" ,f"""{task_id:05d}""" ) ,writer_batch_size=UpperCAmelCase_ ,storage_options=UpperCAmelCase_ ,embed_local_files=UpperCAmelCase_ ,) _lowercase : Optional[int] = pa.Table.from_batches([first_batch] ) writer.write_table(UpperCAmelCase_ ) for batch in it: if max_shard_size is not None and writer._num_bytes >= max_shard_size: _lowercase , _lowercase : Optional[Any] = writer.finalize() writer.close() yield pa.RecordBatch.from_arrays( [[task_id], [num_examples], [num_bytes]] ,names=["""task_id""", """num_examples""", """num_bytes"""] ,) shard_id += 1 _lowercase : Union[str, Any] = writer_class( features=writer._features ,path=working_fpath.replace("""SSSSS""" ,f"""{shard_id:05d}""" ).replace("""TTTTT""" ,f"""{task_id:05d}""" ) ,writer_batch_size=UpperCAmelCase_ ,storage_options=UpperCAmelCase_ ,embed_local_files=UpperCAmelCase_ ,) _lowercase : Dict = pa.Table.from_batches([batch] ) writer.write_table(UpperCAmelCase_ ) if writer._num_bytes > 0: _lowercase , _lowercase : Dict = writer.finalize() writer.close() yield pa.RecordBatch.from_arrays( [[task_id], [num_examples], [num_bytes]] ,names=["""task_id""", """num_examples""", """num_bytes"""] ,) if working_fpath != fpath: for file in os.listdir(os.path.dirname(UpperCAmelCase_ ) ): _lowercase : Dict = os.path.join(os.path.dirname(UpperCAmelCase_ ) ,os.path.basename(UpperCAmelCase_ ) ) shutil.move(UpperCAmelCase_ ,UpperCAmelCase_ ) _lowercase : List[str] = ( self.df.mapInArrow(UpperCAmelCase_ ,"""task_id: long, num_examples: long, num_bytes: long""" ) .groupBy("""task_id""" ) .agg( pyspark.sql.functions.sum("""num_examples""" ).alias("""total_num_examples""" ) ,pyspark.sql.functions.sum("""num_bytes""" ).alias("""total_num_bytes""" ) ,pyspark.sql.functions.count("""num_bytes""" ).alias("""num_shards""" ) ,pyspark.sql.functions.collect_list("""num_examples""" ).alias("""shard_lengths""" ) ,) .collect() ) for row in stats: yield row.task_id, (row.total_num_examples, row.total_num_bytes, row.num_shards, row.shard_lengths) def lowerCamelCase__ ( self ,UpperCAmelCase_ ,UpperCAmelCase_ = "arrow" ,UpperCAmelCase_ = None ,UpperCAmelCase_ = None ,**UpperCAmelCase_ ,): self._validate_cache_dir() _lowercase : Tuple = convert_file_size_to_int(max_shard_size or MAX_SHARD_SIZE ) self._repartition_df_if_needed(UpperCAmelCase_ ) _lowercase : Optional[int] = not is_remote_filesystem(self._fs ) _lowercase : Dict = os.path.join if is_local else posixpath.join _lowercase : int = """-TTTTT-SSSSS-of-NNNNN""" _lowercase : Optional[Any] = f"""{self.name}-{split_generator.name}{SUFFIX}.{file_format}""" _lowercase : Dict = path_join(self._output_dir ,UpperCAmelCase_ ) _lowercase : List[Any] = 0 _lowercase : Optional[Any] = 0 _lowercase : int = 0 _lowercase : Any = [] _lowercase : Any = [] for task_id, content in self._prepare_split_single(UpperCAmelCase_ ,UpperCAmelCase_ ,UpperCAmelCase_ ): ( ( _lowercase ) , ( _lowercase ) , ( _lowercase ) , ( _lowercase ) , ) : Tuple = content if num_bytes > 0: total_num_examples += num_examples total_num_bytes += num_bytes total_shards += num_shards task_id_and_num_shards.append((task_id, num_shards) ) all_shard_lengths.extend(UpperCAmelCase_ ) _lowercase : Optional[int] = total_num_examples _lowercase : List[Any] = total_num_bytes # should rename everything at the end logger.debug(f"""Renaming {total_shards} shards.""" ) if total_shards > 1: _lowercase : List[Any] = all_shard_lengths # Define fs outside of _rename_shard so that we don't reference self in the function, which will result in a # pickling error due to pickling the SparkContext. _lowercase : Union[str, Any] = self._fs # use the -SSSSS-of-NNNNN pattern def _rename_shard( UpperCAmelCase_ ,UpperCAmelCase_ ,UpperCAmelCase_ ,): rename( UpperCAmelCase_ ,fpath.replace("""SSSSS""" ,f"""{shard_id:05d}""" ).replace("""TTTTT""" ,f"""{task_id:05d}""" ) ,fpath.replace("""TTTTT-SSSSS""" ,f"""{global_shard_id:05d}""" ).replace("""NNNNN""" ,f"""{total_shards:05d}""" ) ,) _lowercase : Optional[Any] = [] _lowercase : List[str] = 0 for i in range(len(UpperCAmelCase_ ) ): _lowercase , _lowercase : List[str] = task_id_and_num_shards[i] for shard_id in range(UpperCAmelCase_ ): args.append([task_id, shard_id, global_shard_id] ) global_shard_id += 1 self._spark.sparkContext.parallelize(UpperCAmelCase_ ,len(UpperCAmelCase_ ) ).map(lambda UpperCAmelCase_ : _rename_shard(*UpperCAmelCase_ ) ).collect() else: # don't use any pattern _lowercase : Tuple = 0 _lowercase : Optional[Any] = task_id_and_num_shards[0][0] self._rename( fpath.replace("""SSSSS""" ,f"""{shard_id:05d}""" ).replace("""TTTTT""" ,f"""{task_id:05d}""" ) ,fpath.replace(UpperCAmelCase_ ,"""""" ) ,) def lowerCamelCase__ ( self ,UpperCAmelCase_ ,): return SparkExamplesIterable(self.df )

336

0

'''simple docstring''' lowerCAmelCase: List[Any] = { "a": "AAAAA", "b": "AAAAB", "c": "AAABA", "d": "AAABB", "e": "AABAA", "f": "AABAB", "g": "AABBA", "h": "AABBB", "i": "ABAAA", "j": "BBBAA", "k": "ABAAB", "l": "ABABA", "m": "ABABB", "n": "ABBAA", "o": "ABBAB", "p": "ABBBA", "q": "ABBBB", "r": "BAAAA", "s": "BAAAB", "t": "BAABA", "u": "BAABB", "v": "BBBAB", "w": "BABAA", "x": "BABAB", "y": "BABBA", "z": "BABBB", " ": " ", } lowerCAmelCase: int = {value: key for key, value in encode_dict.items()} def lowerCamelCase__ ( _A ): a : str = '' for letter in word.lower(): if letter.isalpha() or letter == " ": encoded += encode_dict[letter] else: raise Exception('encode() accepts only letters of the alphabet and spaces' ) return encoded def lowerCamelCase__ ( _A ): if set(_lowerCAmelCase ) - {"A", "B", " "} != set(): raise Exception('decode() accepts only \'A\', \'B\' and spaces' ) a : Any = '' for word in coded.split(): while len(_lowerCAmelCase ) != 0: decoded += decode_dict[word[:5]] a : List[str] = word[5:] decoded += " " return decoded.strip() if __name__ == "__main__": from doctest import testmod testmod()

297

import warnings from transformers import AutoTokenizer from transformers.utils import is_torch_available from transformers.utils.generic import ExplicitEnum from ...processing_utils import ProcessorMixin if is_torch_available(): import torch class _UpperCamelCase ( lowerCAmelCase ): UpperCAmelCase_ = """char""" UpperCAmelCase_ = """bpe""" UpperCAmelCase_ = """wp""" _lowerCAmelCase : Optional[Any] = (DecodeType.CHARACTER, DecodeType.BPE, DecodeType.WORDPIECE) class _UpperCamelCase ( lowerCAmelCase ): UpperCAmelCase_ = ["""image_processor""", """char_tokenizer"""] UpperCAmelCase_ = """ViTImageProcessor""" UpperCAmelCase_ = """MgpstrTokenizer""" def __init__( self :List[str] , lowerCamelCase :Dict=None , lowerCamelCase :Optional[int]=None , **lowerCamelCase :List[str] ) -> Optional[Any]: UpperCAmelCase__ = None if "feature_extractor" in kwargs: warnings.warn( "The `feature_extractor` argument is deprecated and will be removed in v5, use `image_processor`" " instead." , lowerCamelCase , ) UpperCAmelCase__ = kwargs.pop("feature_extractor" ) UpperCAmelCase__ = image_processor if image_processor is not None else feature_extractor if image_processor is None: raise ValueError("You need to specify an `image_processor`." ) if tokenizer is None: raise ValueError("You need to specify a `tokenizer`." ) UpperCAmelCase__ = tokenizer UpperCAmelCase__ = AutoTokenizer.from_pretrained("gpt2" ) UpperCAmelCase__ = AutoTokenizer.from_pretrained("bert-base-uncased" ) super().__init__(lowerCamelCase , lowerCamelCase ) def __call__( self :Optional[Any] , lowerCamelCase :List[str]=None , lowerCamelCase :Any=None , lowerCamelCase :Optional[Any]=None , **lowerCamelCase :Optional[int] ) -> Union[str, Any]: if images is None and text is None: raise ValueError("You need to specify either an `images` or `text` input to process." ) if images is not None: UpperCAmelCase__ = self.image_processor(lowerCamelCase , return_tensors=lowerCamelCase , **lowerCamelCase ) if text is not None: UpperCAmelCase__ = self.char_tokenizer(lowerCamelCase , return_tensors=lowerCamelCase , **lowerCamelCase ) if text is None: return inputs elif images is None: return encodings else: UpperCAmelCase__ = encodings["input_ids"] return inputs def UpperCAmelCase_ ( self :List[str] , lowerCamelCase :Optional[Any] ) -> Optional[Any]: UpperCAmelCase__ , UpperCAmelCase__ , UpperCAmelCase__ = sequences UpperCAmelCase__ = char_preds.size(0 ) UpperCAmelCase__ , UpperCAmelCase__ = self._decode_helper(lowerCamelCase , "char" ) UpperCAmelCase__ , UpperCAmelCase__ = self._decode_helper(lowerCamelCase , "bpe" ) UpperCAmelCase__ , UpperCAmelCase__ = self._decode_helper(lowerCamelCase , "wp" ) UpperCAmelCase__ = [] UpperCAmelCase__ = [] for i in range(lowerCamelCase ): UpperCAmelCase__ = [char_scores[i], bpe_scores[i], wp_scores[i]] UpperCAmelCase__ = [char_strs[i], bpe_strs[i], wp_strs[i]] UpperCAmelCase__ = scores.index(max(lowerCamelCase ) ) final_strs.append(strs[max_score_index] ) final_scores.append(scores[max_score_index] ) UpperCAmelCase__ = {} UpperCAmelCase__ = final_strs UpperCAmelCase__ = final_scores UpperCAmelCase__ = char_strs UpperCAmelCase__ = bpe_strs UpperCAmelCase__ = wp_strs return out def UpperCAmelCase_ ( self :Optional[int] , lowerCamelCase :int , lowerCamelCase :List[str] ) -> Union[str, Any]: if format == DecodeType.CHARACTER: UpperCAmelCase__ = self.char_decode UpperCAmelCase__ = 1 UpperCAmelCase__ = "[s]" elif format == DecodeType.BPE: UpperCAmelCase__ = self.bpe_decode UpperCAmelCase__ = 2 UpperCAmelCase__ = "#" elif format == DecodeType.WORDPIECE: UpperCAmelCase__ = self.wp_decode UpperCAmelCase__ = 102 UpperCAmelCase__ = "[SEP]" else: raise ValueError(f'''Format {format} is not supported.''' ) UpperCAmelCase__ , UpperCAmelCase__ = [], [] UpperCAmelCase__ = pred_logits.size(0 ) UpperCAmelCase__ = pred_logits.size(1 ) UpperCAmelCase__ , UpperCAmelCase__ = pred_logits.topk(1 , dim=-1 , largest=lowerCamelCase , sorted=lowerCamelCase ) UpperCAmelCase__ = preds_index.view(-1 , lowerCamelCase )[:, 1:] UpperCAmelCase__ = decoder(lowerCamelCase ) UpperCAmelCase__ , UpperCAmelCase__ = torch.nn.functional.softmax(lowerCamelCase , dim=2 ).max(dim=2 ) UpperCAmelCase__ = preds_max_prob[:, 1:] for index in range(lowerCamelCase ): UpperCAmelCase__ = preds_str[index].find(lowerCamelCase ) UpperCAmelCase__ = preds_str[index][:pred_eos] UpperCAmelCase__ = preds_index[index].cpu().tolist() UpperCAmelCase__ = pred_index.index(lowerCamelCase ) if eos_token in pred_index else -1 UpperCAmelCase__ = preds_max_prob[index][: pred_eos_index + 1] UpperCAmelCase__ = pred_max_prob.cumprod(dim=0 )[-1] if pred_max_prob.nelement() != 0 else 0.0 dec_strs.append(lowerCamelCase ) conf_scores.append(lowerCamelCase ) return dec_strs, conf_scores def UpperCAmelCase_ ( self :Optional[int] , lowerCamelCase :int ) -> List[str]: UpperCAmelCase__ = [seq.replace(" " , "" ) for seq in self.char_tokenizer.batch_decode(lowerCamelCase )] return decode_strs def UpperCAmelCase_ ( self :Optional[Any] , lowerCamelCase :Dict ) -> Dict: return self.bpe_tokenizer.batch_decode(lowerCamelCase ) def UpperCAmelCase_ ( self :str , lowerCamelCase :str ) -> Tuple: UpperCAmelCase__ = [seq.replace(" " , "" ) for seq in self.wp_tokenizer.batch_decode(lowerCamelCase )] return decode_strs

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"""simple docstring""" import argparse import json import logging import os import shutil import sys import tempfile import unittest from unittest import mock import torch from accelerate.utils import write_basic_config from transformers.testing_utils import TestCasePlus, get_gpu_count, run_command, slow, torch_device from transformers.utils import is_apex_available logging.basicConfig(level=logging.DEBUG) lowerCAmelCase__ = logging.getLogger() def a__ ( ): '''simple docstring''' lowerCAmelCase : Tuple = argparse.ArgumentParser() parser.add_argument("-f" ) lowerCAmelCase : Tuple = parser.parse_args() return args.f def a__ ( SCREAMING_SNAKE_CASE : int ): '''simple docstring''' lowerCAmelCase : Union[str, Any] = {} lowerCAmelCase : List[str] = os.path.join(SCREAMING_SNAKE_CASE , "all_results.json" ) if os.path.exists(SCREAMING_SNAKE_CASE ): with open(SCREAMING_SNAKE_CASE , "r" ) as f: lowerCAmelCase : str = json.load(SCREAMING_SNAKE_CASE ) else: raise ValueError(f"""can't find {path}""" ) return results def a__ ( ): '''simple docstring''' lowerCAmelCase : Tuple = torch.cuda.is_available() and torch_device == "cuda" return is_using_cuda and is_apex_available() lowerCAmelCase__ = logging.StreamHandler(sys.stdout) logger.addHandler(stream_handler) class SCREAMING_SNAKE_CASE__ ( lowercase ): """simple docstring""" @classmethod def lowercase__ ( cls ): """simple docstring""" lowerCAmelCase : Any = tempfile.mkdtemp() lowerCAmelCase : List[Any] = os.path.join(cls.tmpdir , "default_config.yml" ) write_basic_config(save_location=cls.configPath ) lowerCAmelCase : Optional[int] = ["accelerate", "launch", "--config_file", cls.configPath] @classmethod def lowercase__ ( cls ): """simple docstring""" shutil.rmtree(cls.tmpdir ) @mock.patch.dict(os.environ , {"WANDB_MODE": "offline"} ) def lowercase__ ( self ): """simple docstring""" lowerCAmelCase : Optional[int] = self.get_auto_remove_tmp_dir() lowerCAmelCase : int = f""" {self.examples_dir}/pytorch/text-classification/run_glue_no_trainer.py --model_name_or_path distilbert-base-uncased --output_dir {tmp_dir} --train_file ./tests/fixtures/tests_samples/MRPC/train.csv --validation_file ./tests/fixtures/tests_samples/MRPC/dev.csv --per_device_train_batch_size=2 --per_device_eval_batch_size=1 --learning_rate=1e-4 --seed=42 --checkpointing_steps epoch --with_tracking """.split() if is_cuda_and_apex_available(): testargs.append("--fp16" ) run_command(self._launch_args + testargs ) lowerCAmelCase : Dict = get_results(snake_case__ ) self.assertGreaterEqual(result["eval_accuracy"] , 0.75 ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "epoch_0" ) ) ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "glue_no_trainer" ) ) ) @mock.patch.dict(os.environ , {"WANDB_MODE": "offline"} ) def lowercase__ ( self ): """simple docstring""" lowerCAmelCase : List[Any] = self.get_auto_remove_tmp_dir() lowerCAmelCase : Tuple = f""" {self.examples_dir}/pytorch/language-modeling/run_clm_no_trainer.py --model_name_or_path distilgpt2 --train_file ./tests/fixtures/sample_text.txt --validation_file ./tests/fixtures/sample_text.txt --block_size 128 --per_device_train_batch_size 5 --per_device_eval_batch_size 5 --num_train_epochs 2 --output_dir {tmp_dir} --checkpointing_steps epoch --with_tracking """.split() if torch.cuda.device_count() > 1: # Skipping because there are not enough batches to train the model + would need a drop_last to work. return run_command(self._launch_args + testargs ) lowerCAmelCase : List[str] = get_results(snake_case__ ) self.assertLess(result["perplexity"] , 100 ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "epoch_0" ) ) ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "clm_no_trainer" ) ) ) @mock.patch.dict(os.environ , {"WANDB_MODE": "offline"} ) def lowercase__ ( self ): """simple docstring""" lowerCAmelCase : Union[str, Any] = self.get_auto_remove_tmp_dir() lowerCAmelCase : Tuple = f""" {self.examples_dir}/pytorch/language-modeling/run_mlm_no_trainer.py --model_name_or_path distilroberta-base --train_file ./tests/fixtures/sample_text.txt --validation_file ./tests/fixtures/sample_text.txt --output_dir {tmp_dir} --num_train_epochs=1 --checkpointing_steps epoch --with_tracking """.split() run_command(self._launch_args + testargs ) lowerCAmelCase : Any = get_results(snake_case__ ) self.assertLess(result["perplexity"] , 42 ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "epoch_0" ) ) ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "mlm_no_trainer" ) ) ) @mock.patch.dict(os.environ , {"WANDB_MODE": "offline"} ) def lowercase__ ( self ): """simple docstring""" lowerCAmelCase : Optional[int] = 7 if get_gpu_count() > 1 else 2 lowerCAmelCase : Optional[Any] = self.get_auto_remove_tmp_dir() lowerCAmelCase : int = f""" {self.examples_dir}/pytorch/token-classification/run_ner_no_trainer.py --model_name_or_path bert-base-uncased --train_file tests/fixtures/tests_samples/conll/sample.json --validation_file tests/fixtures/tests_samples/conll/sample.json --output_dir {tmp_dir} --learning_rate=2e-4 --per_device_train_batch_size=2 --per_device_eval_batch_size=2 --num_train_epochs={epochs} --seed 7 --checkpointing_steps epoch --with_tracking """.split() run_command(self._launch_args + testargs ) lowerCAmelCase : str = get_results(snake_case__ ) self.assertGreaterEqual(result["eval_accuracy"] , 0.75 ) self.assertLess(result["train_loss"] , 0.5 ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "epoch_0" ) ) ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "ner_no_trainer" ) ) ) @unittest.skip(reason="Fix me @muellerzr" ) @mock.patch.dict(os.environ , {"WANDB_MODE": "offline"} ) def lowercase__ ( self ): """simple docstring""" lowerCAmelCase : Optional[int] = self.get_auto_remove_tmp_dir() lowerCAmelCase : List[str] = f""" {self.examples_dir}/pytorch/question-answering/run_qa_no_trainer.py --model_name_or_path bert-base-uncased --version_2_with_negative --train_file tests/fixtures/tests_samples/SQUAD/sample.json --validation_file tests/fixtures/tests_samples/SQUAD/sample.json --output_dir {tmp_dir} --seed=42 --max_train_steps=10 --num_warmup_steps=2 --learning_rate=2e-4 --per_device_train_batch_size=2 --per_device_eval_batch_size=1 --checkpointing_steps epoch --with_tracking """.split() run_command(self._launch_args + testargs ) lowerCAmelCase : Optional[Any] = get_results(snake_case__ ) # Because we use --version_2_with_negative the testing script uses SQuAD v2 metrics. self.assertGreaterEqual(result["eval_f1"] , 28 ) self.assertGreaterEqual(result["eval_exact"] , 28 ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "epoch_0" ) ) ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "qa_no_trainer" ) ) ) @mock.patch.dict(os.environ , {"WANDB_MODE": "offline"} ) def lowercase__ ( self ): """simple docstring""" lowerCAmelCase : List[Any] = self.get_auto_remove_tmp_dir() lowerCAmelCase : List[Any] = f""" {self.examples_dir}/pytorch/multiple-choice/run_swag_no_trainer.py --model_name_or_path bert-base-uncased --train_file tests/fixtures/tests_samples/swag/sample.json --validation_file tests/fixtures/tests_samples/swag/sample.json --output_dir {tmp_dir} --max_train_steps=20 --num_warmup_steps=2 --learning_rate=2e-4 --per_device_train_batch_size=2 --per_device_eval_batch_size=1 --with_tracking """.split() run_command(self._launch_args + testargs ) lowerCAmelCase : Tuple = get_results(snake_case__ ) self.assertGreaterEqual(result["eval_accuracy"] , 0.8 ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "swag_no_trainer" ) ) ) @slow @mock.patch.dict(os.environ , {"WANDB_MODE": "offline"} ) def lowercase__ ( self ): """simple docstring""" lowerCAmelCase : str = self.get_auto_remove_tmp_dir() lowerCAmelCase : Tuple = f""" {self.examples_dir}/pytorch/summarization/run_summarization_no_trainer.py --model_name_or_path t5-small --train_file tests/fixtures/tests_samples/xsum/sample.json --validation_file tests/fixtures/tests_samples/xsum/sample.json --output_dir {tmp_dir} --max_train_steps=50 --num_warmup_steps=8 --learning_rate=2e-4 --per_device_train_batch_size=2 --per_device_eval_batch_size=1 --checkpointing_steps epoch --with_tracking """.split() run_command(self._launch_args + testargs ) lowerCAmelCase : str = get_results(snake_case__ ) self.assertGreaterEqual(result["eval_rouge1"] , 10 ) self.assertGreaterEqual(result["eval_rouge2"] , 2 ) self.assertGreaterEqual(result["eval_rougeL"] , 7 ) self.assertGreaterEqual(result["eval_rougeLsum"] , 7 ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "epoch_0" ) ) ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "summarization_no_trainer" ) ) ) @slow @mock.patch.dict(os.environ , {"WANDB_MODE": "offline"} ) def lowercase__ ( self ): """simple docstring""" lowerCAmelCase : Tuple = self.get_auto_remove_tmp_dir() lowerCAmelCase : Tuple = f""" {self.examples_dir}/pytorch/translation/run_translation_no_trainer.py --model_name_or_path sshleifer/student_marian_en_ro_6_1 --source_lang en --target_lang ro --train_file tests/fixtures/tests_samples/wmt16/sample.json --validation_file tests/fixtures/tests_samples/wmt16/sample.json --output_dir {tmp_dir} --max_train_steps=50 --num_warmup_steps=8 --num_beams=6 --learning_rate=3e-3 --per_device_train_batch_size=2 --per_device_eval_batch_size=1 --source_lang en_XX --target_lang ro_RO --checkpointing_steps epoch --with_tracking """.split() run_command(self._launch_args + testargs ) lowerCAmelCase : int = get_results(snake_case__ ) self.assertGreaterEqual(result["eval_bleu"] , 30 ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "epoch_0" ) ) ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "translation_no_trainer" ) ) ) @slow def lowercase__ ( self ): """simple docstring""" lowerCAmelCase : Optional[int] = logging.StreamHandler(sys.stdout ) logger.addHandler(snake_case__ ) lowerCAmelCase : Optional[Any] = self.get_auto_remove_tmp_dir() lowerCAmelCase : Any = f""" {self.examples_dir}/pytorch/semantic-segmentation/run_semantic_segmentation_no_trainer.py --dataset_name huggingface/semantic-segmentation-test-sample --output_dir {tmp_dir} --max_train_steps=10 --num_warmup_steps=2 --learning_rate=2e-4 --per_device_train_batch_size=2 --per_device_eval_batch_size=1 --checkpointing_steps epoch """.split() run_command(self._launch_args + testargs ) lowerCAmelCase : int = get_results(snake_case__ ) self.assertGreaterEqual(result["eval_overall_accuracy"] , 0.10 ) @mock.patch.dict(os.environ , {"WANDB_MODE": "offline"} ) def lowercase__ ( self ): """simple docstring""" lowerCAmelCase : str = self.get_auto_remove_tmp_dir() lowerCAmelCase : Union[str, Any] = f""" {self.examples_dir}/pytorch/image-classification/run_image_classification_no_trainer.py --model_name_or_path google/vit-base-patch16-224-in21k --dataset_name hf-internal-testing/cats_vs_dogs_sample --learning_rate 1e-4 --per_device_train_batch_size 2 --per_device_eval_batch_size 1 --max_train_steps 2 --train_val_split 0.1 --seed 42 --output_dir {tmp_dir} --with_tracking --checkpointing_steps 1 """.split() if is_cuda_and_apex_available(): testargs.append("--fp16" ) run_command(self._launch_args + testargs ) lowerCAmelCase : Dict = get_results(snake_case__ ) # The base model scores a 25% self.assertGreaterEqual(result["eval_accuracy"] , 0.6 ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "step_1" ) ) ) self.assertTrue(os.path.exists(os.path.join(snake_case__ , "image_classification_no_trainer" ) ) )

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"""simple docstring""" import pyarrow.parquet as pq import pytest from datasets import Audio, Dataset, DatasetDict, Features, NamedSplit, Sequence, Value, config from datasets.features.image import Image from datasets.io.parquet import ParquetDatasetReader, ParquetDatasetWriter, get_writer_batch_size from ..utils import assert_arrow_memory_doesnt_increase, assert_arrow_memory_increases def a__ ( SCREAMING_SNAKE_CASE : str , SCREAMING_SNAKE_CASE : Any ): '''simple docstring''' assert isinstance(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) assert dataset.num_rows == 4 assert dataset.num_columns == 3 assert dataset.column_names == ["col_1", "col_2", "col_3"] for feature, expected_dtype in expected_features.items(): assert dataset.features[feature].dtype == expected_dtype @pytest.mark.parametrize("keep_in_memory" , [False, True] ) def a__ ( SCREAMING_SNAKE_CASE : Any , SCREAMING_SNAKE_CASE : List[str] , SCREAMING_SNAKE_CASE : int ): '''simple docstring''' lowerCAmelCase : List[Any] = tmp_path / "cache" lowerCAmelCase : Optional[int] = {"col_1": "string", "col_2": "int64", "col_3": "float64"} with assert_arrow_memory_increases() if keep_in_memory else assert_arrow_memory_doesnt_increase(): lowerCAmelCase : str = ParquetDatasetReader(SCREAMING_SNAKE_CASE , cache_dir=SCREAMING_SNAKE_CASE , keep_in_memory=SCREAMING_SNAKE_CASE ).read() _check_parquet_dataset(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) @pytest.mark.parametrize( "features" , [ None, {"col_1": "string", "col_2": "int64", "col_3": "float64"}, {"col_1": "string", "col_2": "string", "col_3": "string"}, {"col_1": "int32", "col_2": "int32", "col_3": "int32"}, {"col_1": "float32", "col_2": "float32", "col_3": "float32"}, ] , ) def a__ ( SCREAMING_SNAKE_CASE : Tuple , SCREAMING_SNAKE_CASE : Optional[Any] , SCREAMING_SNAKE_CASE : Tuple ): '''simple docstring''' lowerCAmelCase : Optional[int] = tmp_path / "cache" lowerCAmelCase : Optional[Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"} lowerCAmelCase : Tuple = features.copy() if features else default_expected_features lowerCAmelCase : List[str] = ( Features({feature: Value(SCREAMING_SNAKE_CASE ) for feature, dtype in features.items()} ) if features is not None else None ) lowerCAmelCase : List[str] = ParquetDatasetReader(SCREAMING_SNAKE_CASE , features=SCREAMING_SNAKE_CASE , cache_dir=SCREAMING_SNAKE_CASE ).read() _check_parquet_dataset(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) @pytest.mark.parametrize("split" , [None, NamedSplit("train" ), "train", "test"] ) def a__ ( SCREAMING_SNAKE_CASE : Union[str, Any] , SCREAMING_SNAKE_CASE : Union[str, Any] , SCREAMING_SNAKE_CASE : Optional[int] ): '''simple docstring''' lowerCAmelCase : List[Any] = tmp_path / "cache" lowerCAmelCase : int = {"col_1": "string", "col_2": "int64", "col_3": "float64"} lowerCAmelCase : Tuple = ParquetDatasetReader(SCREAMING_SNAKE_CASE , cache_dir=SCREAMING_SNAKE_CASE , split=SCREAMING_SNAKE_CASE ).read() _check_parquet_dataset(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) assert dataset.split == split if split else "train" @pytest.mark.parametrize("path_type" , [str, list] ) def a__ ( SCREAMING_SNAKE_CASE : List[Any] , SCREAMING_SNAKE_CASE : Dict , SCREAMING_SNAKE_CASE : List[str] ): '''simple docstring''' if issubclass(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ): lowerCAmelCase : Optional[Any] = parquet_path elif issubclass(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ): lowerCAmelCase : Dict = [parquet_path] lowerCAmelCase : Optional[Any] = tmp_path / "cache" lowerCAmelCase : Any = {"col_1": "string", "col_2": "int64", "col_3": "float64"} lowerCAmelCase : Optional[Any] = ParquetDatasetReader(SCREAMING_SNAKE_CASE , cache_dir=SCREAMING_SNAKE_CASE ).read() _check_parquet_dataset(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) def a__ ( SCREAMING_SNAKE_CASE : Dict , SCREAMING_SNAKE_CASE : List[str] , SCREAMING_SNAKE_CASE : Tuple=("train",) ): '''simple docstring''' assert isinstance(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) for split in splits: lowerCAmelCase : List[Any] = dataset_dict[split] assert dataset.num_rows == 4 assert dataset.num_columns == 3 assert dataset.column_names == ["col_1", "col_2", "col_3"] for feature, expected_dtype in expected_features.items(): assert dataset.features[feature].dtype == expected_dtype @pytest.mark.parametrize("keep_in_memory" , [False, True] ) def a__ ( SCREAMING_SNAKE_CASE : Optional[int] , SCREAMING_SNAKE_CASE : Tuple , SCREAMING_SNAKE_CASE : Tuple ): '''simple docstring''' lowerCAmelCase : Tuple = tmp_path / "cache" lowerCAmelCase : List[Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"} with assert_arrow_memory_increases() if keep_in_memory else assert_arrow_memory_doesnt_increase(): lowerCAmelCase : Optional[Any] = ParquetDatasetReader( {"train": parquet_path} , cache_dir=SCREAMING_SNAKE_CASE , keep_in_memory=SCREAMING_SNAKE_CASE ).read() _check_parquet_datasetdict(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) @pytest.mark.parametrize( "features" , [ None, {"col_1": "string", "col_2": "int64", "col_3": "float64"}, {"col_1": "string", "col_2": "string", "col_3": "string"}, {"col_1": "int32", "col_2": "int32", "col_3": "int32"}, {"col_1": "float32", "col_2": "float32", "col_3": "float32"}, ] , ) def a__ ( SCREAMING_SNAKE_CASE : Optional[int] , SCREAMING_SNAKE_CASE : Dict , SCREAMING_SNAKE_CASE : Optional[int] ): '''simple docstring''' lowerCAmelCase : Any = tmp_path / "cache" lowerCAmelCase : Union[str, Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"} lowerCAmelCase : List[Any] = features.copy() if features else default_expected_features lowerCAmelCase : List[Any] = ( Features({feature: Value(SCREAMING_SNAKE_CASE ) for feature, dtype in features.items()} ) if features is not None else None ) lowerCAmelCase : Optional[int] = ParquetDatasetReader({"train": parquet_path} , features=SCREAMING_SNAKE_CASE , cache_dir=SCREAMING_SNAKE_CASE ).read() _check_parquet_datasetdict(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) @pytest.mark.parametrize("split" , [None, NamedSplit("train" ), "train", "test"] ) def a__ ( SCREAMING_SNAKE_CASE : str , SCREAMING_SNAKE_CASE : Dict , SCREAMING_SNAKE_CASE : List[str] ): '''simple docstring''' if split: lowerCAmelCase : List[str] = {split: parquet_path} else: lowerCAmelCase : List[str] = "train" lowerCAmelCase : str = {"train": parquet_path, "test": parquet_path} lowerCAmelCase : Optional[int] = tmp_path / "cache" lowerCAmelCase : List[Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"} lowerCAmelCase : List[str] = ParquetDatasetReader(SCREAMING_SNAKE_CASE , cache_dir=SCREAMING_SNAKE_CASE ).read() _check_parquet_datasetdict(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , splits=list(path.keys() ) ) assert all(dataset[split].split == split for split in path.keys() ) def a__ ( SCREAMING_SNAKE_CASE : Optional[Any] , SCREAMING_SNAKE_CASE : Any ): '''simple docstring''' lowerCAmelCase : Optional[int] = ParquetDatasetWriter(SCREAMING_SNAKE_CASE , tmp_path / "foo.parquet" ) assert writer.write() > 0 lowerCAmelCase : List[str] = pq.ParquetFile(tmp_path / "foo.parquet" ) lowerCAmelCase : Union[str, Any] = pf.read() assert dataset.data.table == output_table def a__ ( SCREAMING_SNAKE_CASE : List[Any] , SCREAMING_SNAKE_CASE : List[str] ): '''simple docstring''' lowerCAmelCase : str = str(shared_datadir / "test_image_rgb.jpg" ) lowerCAmelCase : List[str] = {"image": [image_path]} lowerCAmelCase : str = Features({"image": Image()} ) lowerCAmelCase : Optional[Any] = Dataset.from_dict(SCREAMING_SNAKE_CASE , features=SCREAMING_SNAKE_CASE ) lowerCAmelCase : List[Any] = ParquetDatasetWriter(SCREAMING_SNAKE_CASE , tmp_path / "foo.parquet" ) assert writer.write() > 0 lowerCAmelCase : Any = Dataset.from_parquet(str(tmp_path / "foo.parquet" ) ) assert dataset.features == reloaded_dataset.features lowerCAmelCase : Optional[int] = ParquetDatasetReader(str(tmp_path / "foo.parquet" ) , streaming=SCREAMING_SNAKE_CASE ).read() assert dataset.features == reloaded_iterable_dataset.features @pytest.mark.parametrize( "feature, expected" , [ (Features({"foo": Value("int32" )} ), None), (Features({"image": Image(), "foo": Value("int32" )} ), config.PARQUET_ROW_GROUP_SIZE_FOR_IMAGE_DATASETS), (Features({"nested": Sequence(Audio() )} ), config.PARQUET_ROW_GROUP_SIZE_FOR_AUDIO_DATASETS), ] , ) def a__ ( SCREAMING_SNAKE_CASE : str , SCREAMING_SNAKE_CASE : List[str] ): '''simple docstring''' assert get_writer_batch_size(SCREAMING_SNAKE_CASE ) == expected

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1

import os import unittest from transformers import BatchEncoding from transformers.models.bert.tokenization_bert import ( BasicTokenizer, WordpieceTokenizer, _is_control, _is_punctuation, _is_whitespace, ) from transformers.models.prophetnet.tokenization_prophetnet import VOCAB_FILES_NAMES, ProphetNetTokenizer from transformers.testing_utils import require_torch, slow from ...test_tokenization_common import TokenizerTesterMixin class _SCREAMING_SNAKE_CASE ( __SCREAMING_SNAKE_CASE , unittest.TestCase ): '''simple docstring''' lowercase_ = ProphetNetTokenizer lowercase_ = False def SCREAMING_SNAKE_CASE_ (self : Dict) ->List[str]: '''simple docstring''' super().setUp() lowerCamelCase__: Union[str, Any] =[ "[UNK]", "[CLS]", "[SEP]", "[PAD]", "[MASK]", "want", "##want", "##ed", "wa", "un", "runn", "##ing", ",", "low", "lowest", ] lowerCamelCase__: Dict =os.path.join(self.tmpdirname , VOCAB_FILES_NAMES["vocab_file"]) with open(self.vocab_file , "w" , encoding="utf-8") as vocab_writer: vocab_writer.write("".join([x + "\n" for x in vocab_tokens])) def SCREAMING_SNAKE_CASE_ (self : str , UpperCAmelCase_ : int) ->Tuple: '''simple docstring''' lowerCamelCase__: int ="UNwant\u00E9d,running" lowerCamelCase__: Optional[Any] ="unwanted, running" return input_text, output_text def SCREAMING_SNAKE_CASE_ (self : str) ->Tuple: '''simple docstring''' lowerCamelCase__: Dict =self.tokenizer_class(self.vocab_file) lowerCamelCase__: Tuple =tokenizer.tokenize("UNwant\u00E9d,running") self.assertListEqual(UpperCAmelCase_ , ["un", "##want", "##ed", ",", "runn", "##ing"]) self.assertListEqual(tokenizer.convert_tokens_to_ids(UpperCAmelCase_) , [9, 6, 7, 12, 10, 11]) def SCREAMING_SNAKE_CASE_ (self : Optional[int]) ->Union[str, Any]: '''simple docstring''' lowerCamelCase__: List[Any] =BasicTokenizer() self.assertListEqual(tokenizer.tokenize("ah\u535A\u63A8zz") , ["ah", "\u535A", "\u63A8", "zz"]) def SCREAMING_SNAKE_CASE_ (self : str) ->Optional[int]: '''simple docstring''' lowerCamelCase__: Union[str, Any] =BasicTokenizer(do_lower_case=UpperCAmelCase_) self.assertListEqual( tokenizer.tokenize(" \tHeLLo!how \n Are yoU? ") , ["hello", "!", "how", "are", "you", "?"]) self.assertListEqual(tokenizer.tokenize("H\u00E9llo") , ["hello"]) def SCREAMING_SNAKE_CASE_ (self : int) ->Tuple: '''simple docstring''' lowerCamelCase__: Dict =BasicTokenizer(do_lower_case=UpperCAmelCase_ , strip_accents=UpperCAmelCase_) self.assertListEqual( tokenizer.tokenize(" \tHäLLo!how \n Are yoU? ") , ["hällo", "!", "how", "are", "you", "?"]) self.assertListEqual(tokenizer.tokenize("H\u00E9llo") , ["h\u00E9llo"]) def SCREAMING_SNAKE_CASE_ (self : List[str]) ->List[str]: '''simple docstring''' lowerCamelCase__: List[Any] =BasicTokenizer(do_lower_case=UpperCAmelCase_ , strip_accents=UpperCAmelCase_) self.assertListEqual( tokenizer.tokenize(" \tHäLLo!how \n Are yoU? ") , ["hallo", "!", "how", "are", "you", "?"]) self.assertListEqual(tokenizer.tokenize("H\u00E9llo") , ["hello"]) def SCREAMING_SNAKE_CASE_ (self : Optional[Any]) ->Union[str, Any]: '''simple docstring''' lowerCamelCase__: Union[str, Any] =BasicTokenizer(do_lower_case=UpperCAmelCase_) self.assertListEqual( tokenizer.tokenize(" \tHäLLo!how \n Are yoU? ") , ["hallo", "!", "how", "are", "you", "?"]) self.assertListEqual(tokenizer.tokenize("H\u00E9llo") , ["hello"]) def SCREAMING_SNAKE_CASE_ (self : Any) ->Any: '''simple docstring''' lowerCamelCase__: Any =BasicTokenizer(do_lower_case=UpperCAmelCase_) self.assertListEqual( tokenizer.tokenize(" \tHeLLo!how \n Are yoU? ") , ["HeLLo", "!", "how", "Are", "yoU", "?"]) def SCREAMING_SNAKE_CASE_ (self : str) ->Any: '''simple docstring''' lowerCamelCase__: Union[str, Any] =BasicTokenizer(do_lower_case=UpperCAmelCase_ , strip_accents=UpperCAmelCase_) self.assertListEqual( tokenizer.tokenize(" \tHäLLo!how \n Are yoU? ") , ["HäLLo", "!", "how", "Are", "yoU", "?"]) def SCREAMING_SNAKE_CASE_ (self : Dict) ->Optional[Any]: '''simple docstring''' lowerCamelCase__: Tuple =BasicTokenizer(do_lower_case=UpperCAmelCase_ , strip_accents=UpperCAmelCase_) self.assertListEqual( tokenizer.tokenize(" \tHäLLo!how \n Are yoU? ") , ["HaLLo", "!", "how", "Are", "yoU", "?"]) def SCREAMING_SNAKE_CASE_ (self : Union[str, Any]) ->Any: '''simple docstring''' lowerCamelCase__: int =BasicTokenizer(do_lower_case=UpperCAmelCase_ , never_split=["[UNK]"]) self.assertListEqual( tokenizer.tokenize(" \tHeLLo!how \n Are yoU? [UNK]") , ["HeLLo", "!", "how", "Are", "yoU", "?", "[UNK]"]) def SCREAMING_SNAKE_CASE_ (self : Optional[int]) ->Union[str, Any]: '''simple docstring''' lowerCamelCase__: int =["[UNK]", "[CLS]", "[SEP]", "want", "##want", "##ed", "wa", "un", "runn", "##ing"] lowerCamelCase__: Any ={} for i, token in enumerate(UpperCAmelCase_): lowerCamelCase__: str =i lowerCamelCase__: Union[str, Any] =WordpieceTokenizer(vocab=UpperCAmelCase_ , unk_token="[UNK]") self.assertListEqual(tokenizer.tokenize("") , []) self.assertListEqual(tokenizer.tokenize("unwanted running") , ["un", "##want", "##ed", "runn", "##ing"]) self.assertListEqual(tokenizer.tokenize("unwantedX running") , ["[UNK]", "runn", "##ing"]) @require_torch def SCREAMING_SNAKE_CASE_ (self : Any) ->Tuple: '''simple docstring''' lowerCamelCase__: int =self.tokenizer_class.from_pretrained("microsoft/prophetnet-large-uncased") lowerCamelCase__: int =["A long paragraph for summarization.", "Another paragraph for summarization."] lowerCamelCase__: Any =[1_037, 2_146, 20_423, 2_005, 7_680, 7_849, 3_989, 1_012, 102] lowerCamelCase__: Optional[Any] =tokenizer(UpperCAmelCase_ , padding=UpperCAmelCase_ , return_tensors="pt") self.assertIsInstance(UpperCAmelCase_ , UpperCAmelCase_) lowerCamelCase__: int =list(batch.input_ids.numpy()[0]) self.assertListEqual(UpperCAmelCase_ , UpperCAmelCase_) self.assertEqual((2, 9) , batch.input_ids.shape) self.assertEqual((2, 9) , batch.attention_mask.shape) def SCREAMING_SNAKE_CASE_ (self : Optional[Any]) ->Any: '''simple docstring''' self.assertTrue(_is_whitespace(" ")) self.assertTrue(_is_whitespace("\t")) self.assertTrue(_is_whitespace("\r")) self.assertTrue(_is_whitespace("\n")) self.assertTrue(_is_whitespace("\u00A0")) self.assertFalse(_is_whitespace("A")) self.assertFalse(_is_whitespace("-")) def SCREAMING_SNAKE_CASE_ (self : Optional[Any]) ->Dict: '''simple docstring''' self.assertTrue(_is_control("\u0005")) self.assertFalse(_is_control("A")) self.assertFalse(_is_control(" ")) self.assertFalse(_is_control("\t")) self.assertFalse(_is_control("\r")) def SCREAMING_SNAKE_CASE_ (self : List[Any]) ->int: '''simple docstring''' self.assertTrue(_is_punctuation("-")) self.assertTrue(_is_punctuation("$")) self.assertTrue(_is_punctuation("`")) self.assertTrue(_is_punctuation(".")) self.assertFalse(_is_punctuation("A")) self.assertFalse(_is_punctuation(" ")) @slow def SCREAMING_SNAKE_CASE_ (self : Optional[Any]) ->Any: '''simple docstring''' lowerCamelCase__: List[Any] =self.tokenizer_class.from_pretrained("microsoft/prophetnet-large-uncased") lowerCamelCase__: str =tokenizer.encode("sequence builders" , add_special_tokens=UpperCAmelCase_) lowerCamelCase__: Optional[Any] =tokenizer.encode("multi-sequence build" , add_special_tokens=UpperCAmelCase_) lowerCamelCase__: int =tokenizer.build_inputs_with_special_tokens(UpperCAmelCase_) lowerCamelCase__: int =tokenizer.build_inputs_with_special_tokens(UpperCAmelCase_ , UpperCAmelCase_) assert encoded_sentence == text + [102] assert encoded_pair == text + [102] + text_a + [102]

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class _SCREAMING_SNAKE_CASE : '''simple docstring''' def __init__(self : Optional[Any] , UpperCAmelCase_ : int) ->Optional[int]: '''simple docstring''' lowerCamelCase__: Any =n lowerCamelCase__: Tuple =[None] * self.n lowerCamelCase__: str =0 # index of the first element lowerCamelCase__: Tuple =0 lowerCamelCase__: Optional[Any] =0 def __len__(self : str) ->int: '''simple docstring''' return self.size def SCREAMING_SNAKE_CASE_ (self : int) ->bool: '''simple docstring''' return self.size == 0 def SCREAMING_SNAKE_CASE_ (self : List[str]) ->str: '''simple docstring''' return False if self.is_empty() else self.array[self.front] def SCREAMING_SNAKE_CASE_ (self : int , UpperCAmelCase_ : Optional[int]) ->str: '''simple docstring''' if self.size >= self.n: raise Exception("QUEUE IS FULL") lowerCamelCase__: List[Any] =data lowerCamelCase__: Dict =(self.rear + 1) % self.n self.size += 1 return self def SCREAMING_SNAKE_CASE_ (self : Tuple) ->Tuple: '''simple docstring''' if self.size == 0: raise Exception("UNDERFLOW") lowerCamelCase__: Optional[Any] =self.array[self.front] lowerCamelCase__: Optional[int] =None lowerCamelCase__: Dict =(self.front + 1) % self.n self.size -= 1 return temp

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"""simple docstring""" from __future__ import annotations class SCREAMING_SNAKE_CASE__ : def __init__( self , _SCREAMING_SNAKE_CASE = 0 ) -> Tuple: '''simple docstring''' UpperCAmelCase : Dict = key def SCREAMING_SNAKE_CASE ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) -> list[str]: '''simple docstring''' assert isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) and isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) UpperCAmelCase : List[str] = key or self.__key or 1 # make sure key is an appropriate size key %= 255 return [chr(ord(_SCREAMING_SNAKE_CASE ) ^ key ) for ch in content] def SCREAMING_SNAKE_CASE ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) -> list[str]: '''simple docstring''' assert isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) and isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) UpperCAmelCase : Union[str, Any] = key or self.__key or 1 # make sure key is an appropriate size key %= 255 return [chr(ord(_SCREAMING_SNAKE_CASE ) ^ key ) for ch in content] def SCREAMING_SNAKE_CASE ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE = 0 ) -> str: '''simple docstring''' assert isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) and isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) UpperCAmelCase : int = key or self.__key or 1 # make sure key can be any size while key > 255: key -= 255 # This will be returned UpperCAmelCase : Optional[Any] = """""" for ch in content: ans += chr(ord(_SCREAMING_SNAKE_CASE ) ^ key ) return ans def SCREAMING_SNAKE_CASE ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE = 0 ) -> str: '''simple docstring''' assert isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) and isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) UpperCAmelCase : List[Any] = key or self.__key or 1 # make sure key can be any size while key > 255: key -= 255 # This will be returned UpperCAmelCase : List[Any] = """""" for ch in content: ans += chr(ord(_SCREAMING_SNAKE_CASE ) ^ key ) return ans def SCREAMING_SNAKE_CASE ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE = 0 ) -> bool: '''simple docstring''' assert isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) and isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) try: with open(_SCREAMING_SNAKE_CASE ) as fin, open("""encrypt.out""" , """w+""" ) as fout: # actual encrypt-process for line in fin: fout.write(self.encrypt_string(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) ) except OSError: return False return True def SCREAMING_SNAKE_CASE ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) -> bool: '''simple docstring''' assert isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) and isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) try: with open(_SCREAMING_SNAKE_CASE ) as fin, open("""decrypt.out""" , """w+""" ) as fout: # actual encrypt-process for line in fin: fout.write(self.decrypt_string(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) ) except OSError: return False return True # Tests # crypt = XORCipher() # key = 67 # # test encrypt # print(crypt.encrypt("hallo welt",key)) # # test decrypt # print(crypt.decrypt(crypt.encrypt("hallo welt",key), key)) # # test encrypt_string # print(crypt.encrypt_string("hallo welt",key)) # # test decrypt_string # print(crypt.decrypt_string(crypt.encrypt_string("hallo welt",key),key)) # if (crypt.encrypt_file("test.txt",key)): # print("encrypt successful") # else: # print("encrypt unsuccessful") # if (crypt.decrypt_file("encrypt.out",key)): # print("decrypt successful") # else: # print("decrypt unsuccessful")

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"""simple docstring""" def _snake_case ( UpperCamelCase : dict ): UpperCAmelCase : set[int] = set() # To detect a back edge, keep track of vertices currently in the recursion stack UpperCAmelCase : set[int] = set() return any( node not in visited and depth_first_search(UpperCamelCase , UpperCamelCase , UpperCamelCase , UpperCamelCase ) for node in graph ) def _snake_case ( UpperCamelCase : dict , UpperCamelCase : int , UpperCamelCase : set , UpperCamelCase : set ): visited.add(UpperCamelCase ) rec_stk.add(UpperCamelCase ) for node in graph[vertex]: if node not in visited: if depth_first_search(UpperCamelCase , UpperCamelCase , UpperCamelCase , UpperCamelCase ): return True elif node in rec_stk: return True # The node needs to be removed from recursion stack before function ends rec_stk.remove(UpperCamelCase ) return False if __name__ == "__main__": from doctest import testmod testmod()

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import argparse import json from pathlib import Path import torch import torchaudio from datasets import load_dataset from huggingface_hub import hf_hub_download from transformers import ASTConfig, ASTFeatureExtractor, ASTForAudioClassification from transformers.utils import logging logging.set_verbosity_info() __lowerCAmelCase : str = logging.get_logger(__name__) def __magic_name__ ( A : int ): '''simple docstring''' a = ASTConfig() if "10-10" in model_name: pass elif "speech-commands" in model_name: a = 128 elif "12-12" in model_name: a = 12 a = 12 elif "14-14" in model_name: a = 14 a = 14 elif "16-16" in model_name: a = 16 a = 16 else: raise ValueError("Model not supported" ) a = "huggingface/label-files" if "speech-commands" in model_name: a = 35 a = "speech-commands-v2-id2label.json" else: a = 527 a = "audioset-id2label.json" a = json.load(open(hf_hub_download(A, A, repo_type="dataset" ), "r" ) ) a = {int(A ): v for k, v in idalabel.items()} a = idalabel a = {v: k for k, v in idalabel.items()} return config def __magic_name__ ( A : Dict ): '''simple docstring''' if "module.v" in name: a = name.replace("module.v", "audio_spectrogram_transformer" ) if "cls_token" in name: a = name.replace("cls_token", "embeddings.cls_token" ) if "dist_token" in name: a = name.replace("dist_token", "embeddings.distillation_token" ) if "pos_embed" in name: a = name.replace("pos_embed", "embeddings.position_embeddings" ) if "patch_embed.proj" in name: a = name.replace("patch_embed.proj", "embeddings.patch_embeddings.projection" ) # transformer blocks if "blocks" in name: a = name.replace("blocks", "encoder.layer" ) if "attn.proj" in name: a = name.replace("attn.proj", "attention.output.dense" ) if "attn" in name: a = name.replace("attn", "attention.self" ) if "norm1" in name: a = name.replace("norm1", "layernorm_before" ) if "norm2" in name: a = name.replace("norm2", "layernorm_after" ) if "mlp.fc1" in name: a = name.replace("mlp.fc1", "intermediate.dense" ) if "mlp.fc2" in name: a = name.replace("mlp.fc2", "output.dense" ) # final layernorm if "audio_spectrogram_transformer.norm" in name: a = name.replace("audio_spectrogram_transformer.norm", "audio_spectrogram_transformer.layernorm" ) # classifier head if "module.mlp_head.0" in name: a = name.replace("module.mlp_head.0", "classifier.layernorm" ) if "module.mlp_head.1" in name: a = name.replace("module.mlp_head.1", "classifier.dense" ) return name def __magic_name__ ( A : Tuple, A : Optional[Any] ): '''simple docstring''' for key in orig_state_dict.copy().keys(): a = orig_state_dict.pop(A ) if "qkv" in key: a = key.split("." ) a = int(key_split[3] ) a = config.hidden_size if "weight" in key: a = val[:dim, :] a = val[dim : dim * 2, :] a = val[-dim:, :] else: a = val[:dim] a = val[dim : dim * 2] a = val[-dim:] else: a = val return orig_state_dict def __magic_name__ ( A : Optional[int] ): '''simple docstring''' a = [ "module.v.head.weight", "module.v.head.bias", "module.v.head_dist.weight", "module.v.head_dist.bias", ] for k in ignore_keys: state_dict.pop(A, A ) @torch.no_grad() def __magic_name__ ( A : List[str], A : Optional[int], A : Any=False ): '''simple docstring''' a = get_audio_spectrogram_transformer_config(A ) a = { "ast-finetuned-audioset-10-10-0.4593": ( "https://www.dropbox.com/s/ca0b1v2nlxzyeb4/audioset_10_10_0.4593.pth?dl=1" ), "ast-finetuned-audioset-10-10-0.450": ( "https://www.dropbox.com/s/1tv0hovue1bxupk/audioset_10_10_0.4495.pth?dl=1" ), "ast-finetuned-audioset-10-10-0.448": ( "https://www.dropbox.com/s/6u5sikl4b9wo4u5/audioset_10_10_0.4483.pth?dl=1" ), "ast-finetuned-audioset-10-10-0.448-v2": ( "https://www.dropbox.com/s/kt6i0v9fvfm1mbq/audioset_10_10_0.4475.pth?dl=1" ), "ast-finetuned-audioset-12-12-0.447": ( "https://www.dropbox.com/s/snfhx3tizr4nuc8/audioset_12_12_0.4467.pth?dl=1" ), "ast-finetuned-audioset-14-14-0.443": ( "https://www.dropbox.com/s/z18s6pemtnxm4k7/audioset_14_14_0.4431.pth?dl=1" ), "ast-finetuned-audioset-16-16-0.442": ( "https://www.dropbox.com/s/mdsa4t1xmcimia6/audioset_16_16_0.4422.pth?dl=1" ), "ast-finetuned-speech-commands-v2": ( "https://www.dropbox.com/s/q0tbqpwv44pquwy/speechcommands_10_10_0.9812.pth?dl=1" ), } # load original state_dict a = model_name_to_url[model_name] a = torch.hub.load_state_dict_from_url(A, map_location="cpu" ) # remove some keys remove_keys(A ) # rename some keys a = convert_state_dict(A, A ) # load 🤗 model a = ASTForAudioClassification(A ) model.eval() model.load_state_dict(A ) # verify outputs on dummy input # source: https://github.com/YuanGongND/ast/blob/79e873b8a54d0a3b330dd522584ff2b9926cd581/src/run.py#L62 a = -4.2_67_73_93 if "speech-commands" not in model_name else -6.84_59_78 a = 4.5_68_99_74 if "speech-commands" not in model_name else 5.5_65_45_26 a = 1024 if "speech-commands" not in model_name else 128 a = ASTFeatureExtractor(mean=A, std=A, max_length=A ) if "speech-commands" in model_name: a = load_dataset("speech_commands", "v0.02", split="validation" ) a = dataset[0]["audio"]["array"] else: a = hf_hub_download( repo_id="nielsr/audio-spectogram-transformer-checkpoint", filename="sample_audio.flac", repo_type="dataset", ) a , a = torchaudio.load(A ) a = waveform.squeeze().numpy() a = feature_extractor(A, sampling_rate=16000, return_tensors="pt" ) # forward pass a = model(**A ) a = outputs.logits if model_name == "ast-finetuned-audioset-10-10-0.4593": a = torch.tensor([-0.87_60, -7.00_42, -8.66_02] ) elif model_name == "ast-finetuned-audioset-10-10-0.450": a = torch.tensor([-1.19_86, -7.09_03, -8.27_18] ) elif model_name == "ast-finetuned-audioset-10-10-0.448": a = torch.tensor([-2.61_28, -8.00_80, -9.43_44] ) elif model_name == "ast-finetuned-audioset-10-10-0.448-v2": a = torch.tensor([-1.50_80, -7.45_34, -8.89_17] ) elif model_name == "ast-finetuned-audioset-12-12-0.447": a = torch.tensor([-0.50_50, -6.58_33, -8.08_43] ) elif model_name == "ast-finetuned-audioset-14-14-0.443": a = torch.tensor([-0.38_26, -7.03_36, -8.24_13] ) elif model_name == "ast-finetuned-audioset-16-16-0.442": a = torch.tensor([-1.21_13, -6.91_01, -8.34_70] ) elif model_name == "ast-finetuned-speech-commands-v2": a = torch.tensor([6.15_89, -8.05_66, -8.79_84] ) else: raise ValueError("Unknown model name" ) if not torch.allclose(logits[0, :3], A, atol=1E-4 ): raise ValueError("Logits don't match" ) print("Looks ok!" ) if pytorch_dump_folder_path is not None: Path(A ).mkdir(exist_ok=A ) print(F"""Saving model {model_name} to {pytorch_dump_folder_path}""" ) model.save_pretrained(A ) print(F"""Saving feature extractor to {pytorch_dump_folder_path}""" ) feature_extractor.save_pretrained(A ) if push_to_hub: print("Pushing model and feature extractor to the hub..." ) model.push_to_hub(F"""MIT/{model_name}""" ) feature_extractor.push_to_hub(F"""MIT/{model_name}""" ) if __name__ == "__main__": __lowerCAmelCase : Tuple = argparse.ArgumentParser() # Required parameters parser.add_argument( '--model_name', default='ast-finetuned-audioset-10-10-0.4593', type=str, help='Name of the Audio Spectrogram Transformer model you\'d like to convert.', ) parser.add_argument( '--pytorch_dump_folder_path', default=None, type=str, help='Path to the output PyTorch model directory.' ) parser.add_argument( '--push_to_hub', action='store_true', help='Whether or not to push the converted model to the 🤗 hub.' ) __lowerCAmelCase : Dict = parser.parse_args() convert_audio_spectrogram_transformer_checkpoint(args.model_name, args.pytorch_dump_folder_path, args.push_to_hub)

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from math import acos, sin from typing import List, Tuple, Union import numpy as np import torch from PIL import Image from ...models import AutoencoderKL, UNetaDConditionModel from ...schedulers import DDIMScheduler, DDPMScheduler from ...utils import randn_tensor from ..pipeline_utils import AudioPipelineOutput, BaseOutput, DiffusionPipeline, ImagePipelineOutput from .mel import Mel class __a ( __UpperCamelCase ): __lowercase : Any = ['vqvae'] def __init__( self , lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ , ) -> Union[str, Any]: '''simple docstring''' super().__init__() self.register_modules(unet=lowerCAmelCase__ , scheduler=lowerCAmelCase__ , mel=lowerCAmelCase__ , vqvae=lowerCAmelCase__ ) def SCREAMING_SNAKE_CASE__ ( self ) -> int: '''simple docstring''' return 50 if isinstance(self.scheduler , lowerCAmelCase__ ) else 1_000 @torch.no_grad() def __call__( self , lowerCAmelCase__ = 1 , lowerCAmelCase__ = None , lowerCAmelCase__ = None , lowerCAmelCase__ = 0 , lowerCAmelCase__ = 0 , lowerCAmelCase__ = None , lowerCAmelCase__ = None , lowerCAmelCase__ = 0 , lowerCAmelCase__ = 0 , lowerCAmelCase__ = None , lowerCAmelCase__ = 0 , lowerCAmelCase__ = None , lowerCAmelCase__ = None , lowerCAmelCase__=True , ) -> Union[ Union[AudioPipelineOutput, ImagePipelineOutput], Tuple[List[Image.Image], Tuple[int, List[np.ndarray]]], ]: '''simple docstring''' lowercase__: Union[str, Any] = steps or self.get_default_steps() self.scheduler.set_timesteps(lowerCAmelCase__ ) lowercase__: Optional[int] = step_generator or generator # For backwards compatibility if type(self.unet.config.sample_size ) == int: lowercase__: Optional[int] = (self.unet.config.sample_size, self.unet.config.sample_size) if noise is None: lowercase__: List[str] = randn_tensor( ( batch_size, self.unet.config.in_channels, self.unet.config.sample_size[0], self.unet.config.sample_size[1], ) , generator=lowerCAmelCase__ , device=self.device , ) lowercase__: List[Any] = noise lowercase__: int = None if audio_file is not None or raw_audio is not None: self.mel.load_audio(lowerCAmelCase__ , lowerCAmelCase__ ) lowercase__: int = self.mel.audio_slice_to_image(lowerCAmelCase__ ) lowercase__: int = np.frombuffer(input_image.tobytes() , dtype='uint8' ).reshape( (input_image.height, input_image.width) ) lowercase__: str = (input_image / 255) * 2 - 1 lowercase__: Union[str, Any] = torch.tensor(input_image[np.newaxis, :, :] , dtype=torch.float ).to(self.device ) if self.vqvae is not None: lowercase__: Optional[int] = self.vqvae.encode(torch.unsqueeze(lowerCAmelCase__ , 0 ) ).latent_dist.sample( generator=lowerCAmelCase__ )[0] lowercase__: Dict = self.vqvae.config.scaling_factor * input_images if start_step > 0: lowercase__: List[Any] = self.scheduler.add_noise(lowerCAmelCase__ , lowerCAmelCase__ , self.scheduler.timesteps[start_step - 1] ) lowercase__: str = ( self.unet.config.sample_size[1] * self.mel.get_sample_rate() / self.mel.x_res / self.mel.hop_length ) lowercase__: Dict = int(mask_start_secs * pixels_per_second ) lowercase__: Tuple = int(mask_end_secs * pixels_per_second ) lowercase__: List[Any] = self.scheduler.add_noise(lowerCAmelCase__ , lowerCAmelCase__ , torch.tensor(self.scheduler.timesteps[start_step:] ) ) for step, t in enumerate(self.progress_bar(self.scheduler.timesteps[start_step:] ) ): if isinstance(self.unet , lowerCAmelCase__ ): lowercase__: Union[str, Any] = self.unet(lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ )['sample'] else: lowercase__: Optional[Any] = self.unet(lowerCAmelCase__ , lowerCAmelCase__ )['sample'] if isinstance(self.scheduler , lowerCAmelCase__ ): lowercase__: List[str] = self.scheduler.step( model_output=lowerCAmelCase__ , timestep=lowerCAmelCase__ , sample=lowerCAmelCase__ , eta=lowerCAmelCase__ , generator=lowerCAmelCase__ , )['prev_sample'] else: lowercase__: int = self.scheduler.step( model_output=lowerCAmelCase__ , timestep=lowerCAmelCase__ , sample=lowerCAmelCase__ , generator=lowerCAmelCase__ , )['prev_sample'] if mask is not None: if mask_start > 0: lowercase__: List[Any] = mask[:, step, :, :mask_start] if mask_end > 0: lowercase__: Optional[int] = mask[:, step, :, -mask_end:] if self.vqvae is not None: # 0.18215 was scaling factor used in training to ensure unit variance lowercase__: Union[str, Any] = 1 / self.vqvae.config.scaling_factor * images lowercase__: Optional[Any] = self.vqvae.decode(lowerCAmelCase__ )['sample'] lowercase__: Dict = (images / 2 + 0.5).clamp(0 , 1 ) lowercase__: List[Any] = images.cpu().permute(0 , 2 , 3 , 1 ).numpy() lowercase__: int = (images * 255).round().astype('uint8' ) lowercase__: Optional[Any] = list( (Image.fromarray(_[:, :, 0] ) for _ in images) if images.shape[3] == 1 else (Image.fromarray(lowerCAmelCase__ , mode='RGB' ).convert('L' ) for _ in images) ) lowercase__: Dict = [self.mel.image_to_audio(lowerCAmelCase__ ) for _ in images] if not return_dict: return images, (self.mel.get_sample_rate(), audios) return BaseOutput(**AudioPipelineOutput(np.array(lowerCAmelCase__ )[:, np.newaxis, :] ) , **ImagePipelineOutput(lowerCAmelCase__ ) ) @torch.no_grad() def SCREAMING_SNAKE_CASE__ ( self , lowerCAmelCase__ , lowerCAmelCase__ = 50 ) -> np.ndarray: '''simple docstring''' assert isinstance(self.scheduler , lowerCAmelCase__ ) self.scheduler.set_timesteps(lowerCAmelCase__ ) lowercase__: List[str] = np.array( [np.frombuffer(image.tobytes() , dtype='uint8' ).reshape((1, image.height, image.width) ) for image in images] ) lowercase__: str = (sample / 255) * 2 - 1 lowercase__: str = torch.Tensor(lowerCAmelCase__ ).to(self.device ) for t in self.progress_bar(torch.flip(self.scheduler.timesteps , (0,) ) ): lowercase__: Union[str, Any] = t - self.scheduler.config.num_train_timesteps // self.scheduler.num_inference_steps lowercase__: Optional[Any] = self.scheduler.alphas_cumprod[t] lowercase__: str = ( self.scheduler.alphas_cumprod[prev_timestep] if prev_timestep >= 0 else self.scheduler.final_alpha_cumprod ) lowercase__: str = 1 - alpha_prod_t lowercase__: int = self.unet(lowerCAmelCase__ , lowerCAmelCase__ )['sample'] lowercase__: int = (1 - alpha_prod_t_prev) ** 0.5 * model_output lowercase__: Optional[int] = (sample - pred_sample_direction) * alpha_prod_t_prev ** (-0.5) lowercase__: Any = sample * alpha_prod_t ** 0.5 + beta_prod_t ** 0.5 * model_output return sample @staticmethod def SCREAMING_SNAKE_CASE__ ( lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ ) -> torch.Tensor: '''simple docstring''' lowercase__: Any = acos(torch.dot(torch.flatten(lowerCAmelCase__ ) , torch.flatten(lowerCAmelCase__ ) ) / torch.norm(lowerCAmelCase__ ) / torch.norm(lowerCAmelCase__ ) ) return sin((1 - alpha) * theta ) * xa / sin(lowerCAmelCase__ ) + sin(alpha * theta ) * xa / sin(lowerCAmelCase__ )

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"""simple docstring""" from __future__ import annotations from functools import lru_cache from math import ceil lowercase__ = 100 lowercase__ = set(range(3, NUM_PRIMES, 2)) primes.add(2) lowercase__ = 42 for prime in range(3, ceil(NUM_PRIMES**0.5), 2): if prime not in primes: continue primes.difference_update(set(range(prime * prime, NUM_PRIMES, prime))) @lru_cache(maxsize=100 ) def __a ( _SCREAMING_SNAKE_CASE ) ->int: if number_to_partition < 0: return set() elif number_to_partition == 0: return {1} a__: set[int] = set() a__: int a__: int for prime in primes: if prime > number_to_partition: continue for sub in partition(number_to_partition - prime ): ret.add(sub * prime ) return ret def __a ( _SCREAMING_SNAKE_CASE = 5000 ) ->Union[str, Any]: for number_to_partition in range(1 , _SCREAMING_SNAKE_CASE ): if len(partition(_SCREAMING_SNAKE_CASE ) ) > number_unique_partitions: return number_to_partition return None if __name__ == "__main__": print(f"{solution() = }")

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"""simple docstring""" import unittest import numpy as np import torch from transformers import CLIPTextConfig, CLIPTextModel from diffusers import DDIMScheduler, LDMPipeline, UNetaDModel, VQModel from diffusers.utils.testing_utils import enable_full_determinism, require_torch, slow, torch_device enable_full_determinism() class __snake_case ( unittest.TestCase ): @property def lowerCamelCase_ ( self) -> Dict: '''simple docstring''' torch.manual_seed(0) a__: str = UNetaDModel( block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=3 , out_channels=3 , down_block_types=('DownBlock2D', 'AttnDownBlock2D') , up_block_types=('AttnUpBlock2D', 'UpBlock2D') , ) return model @property def lowerCamelCase_ ( self) -> int: '''simple docstring''' torch.manual_seed(0) a__: List[Any] = VQModel( block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=['DownEncoderBlock2D', 'DownEncoderBlock2D'] , up_block_types=['UpDecoderBlock2D', 'UpDecoderBlock2D'] , latent_channels=3 , ) return model @property def lowerCamelCase_ ( self) -> Optional[Any]: '''simple docstring''' torch.manual_seed(0) a__: Optional[int] = CLIPTextConfig( bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1e-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=10_00 , ) return CLIPTextModel(lowercase) def lowerCamelCase_ ( self) -> str: '''simple docstring''' a__: Union[str, Any] = self.dummy_uncond_unet a__: Optional[int] = DDIMScheduler() a__: Optional[int] = self.dummy_vq_model a__: Union[str, Any] = LDMPipeline(unet=lowercase , vqvae=lowercase , scheduler=lowercase) ldm.to(lowercase) ldm.set_progress_bar_config(disable=lowercase) a__: str = torch.manual_seed(0) a__: Dict = ldm(generator=lowercase , num_inference_steps=2 , output_type='numpy').images a__: Union[str, Any] = torch.manual_seed(0) a__: int = ldm(generator=lowercase , num_inference_steps=2 , output_type='numpy' , return_dict=lowercase)[0] a__: Union[str, Any] = image[0, -3:, -3:, -1] a__: int = image_from_tuple[0, -3:, -3:, -1] assert image.shape == (1, 64, 64, 3) a__: int = np.array([0.8512, 0.818, 0.6411, 0.6808, 0.4465, 0.5618, 0.46, 0.6231, 0.5172]) a__: Optional[Any] = 1e-2 if torch_device != 'mps' else 3e-2 assert np.abs(image_slice.flatten() - expected_slice).max() < tolerance assert np.abs(image_from_tuple_slice.flatten() - expected_slice).max() < tolerance @slow @require_torch class __snake_case ( unittest.TestCase ): def lowerCamelCase_ ( self) -> Optional[Any]: '''simple docstring''' a__: Union[str, Any] = LDMPipeline.from_pretrained('CompVis/ldm-celebahq-256') ldm.to(lowercase) ldm.set_progress_bar_config(disable=lowercase) a__: List[str] = torch.manual_seed(0) a__: Optional[int] = ldm(generator=lowercase , num_inference_steps=5 , output_type='numpy').images a__: Optional[int] = image[0, -3:, -3:, -1] assert image.shape == (1, 2_56, 2_56, 3) a__: int = np.array([0.4399, 0.44975, 0.46825, 0.474, 0.4359, 0.4581, 0.45095, 0.4341, 0.4447]) a__: Any = 1e-2 if torch_device != 'mps' else 3e-2 assert np.abs(image_slice.flatten() - expected_slice).max() < tolerance

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'''simple docstring''' import functools import operator from ...configuration_utils import PretrainedConfig from ...utils import logging _UpperCamelCase : Any = logging.get_logger(__name__) _UpperCamelCase : Tuple = { 'microsoft/unispeech-large-1500h-cv': ( 'https://huggingface.co/microsoft/unispeech-large-1500h-cv/resolve/main/config.json' ), # See all UniSpeech models at https://huggingface.co/models?filter=unispeech } class snake_case__ ( UpperCamelCase): a_ = "unispeech" def __init__( self : Tuple , _A : List[Any]=32 , _A : Optional[int]=7_68 , _A : int=12 , _A : Tuple=12 , _A : Optional[int]=30_72 , _A : List[str]="gelu" , _A : int=0.1 , _A : Dict=0.1 , _A : Any=0.1 , _A : Optional[Any]=0.0 , _A : Dict=0.0 , _A : Union[str, Any]=0.1 , _A : Tuple=0.1 , _A : Union[str, Any]=0.02 , _A : Union[str, Any]=1e-5 , _A : Dict="group" , _A : Dict="gelu" , _A : Union[str, Any]=(5_12, 5_12, 5_12, 5_12, 5_12, 5_12, 5_12) , _A : Tuple=(5, 2, 2, 2, 2, 2, 2) , _A : List[Any]=(10, 3, 3, 3, 3, 2, 2) , _A : str=False , _A : int=1_28 , _A : Dict=16 , _A : Any=False , _A : List[str]=True , _A : str=0.05 , _A : Dict=10 , _A : Union[str, Any]=2 , _A : Optional[int]=0.0 , _A : Dict=10 , _A : Optional[int]=0 , _A : str=3_20 , _A : List[Any]=2 , _A : str=0.1 , _A : Any=1_00 , _A : Union[str, Any]=2_56 , _A : Optional[Any]=2_56 , _A : Optional[Any]=0.1 , _A : Union[str, Any]="mean" , _A : Any=False , _A : List[str]=False , _A : Dict=2_56 , _A : List[Any]=80 , _A : Optional[Any]=0 , _A : str=1 , _A : Dict=2 , _A : Optional[Any]=0.5 , **_A : List[Any] , ) -> int: super().__init__(**_A , pad_token_id=_A , bos_token_id=_A , eos_token_id=_A ) UpperCAmelCase_ : List[str] = hidden_size UpperCAmelCase_ : Optional[int] = feat_extract_norm UpperCAmelCase_ : Optional[Any] = feat_extract_activation UpperCAmelCase_ : Any = list(_A ) UpperCAmelCase_ : Optional[Any] = list(_A ) UpperCAmelCase_ : int = list(_A ) UpperCAmelCase_ : int = conv_bias UpperCAmelCase_ : List[str] = num_conv_pos_embeddings UpperCAmelCase_ : Dict = num_conv_pos_embedding_groups UpperCAmelCase_ : Any = len(self.conv_dim ) UpperCAmelCase_ : Tuple = num_hidden_layers UpperCAmelCase_ : Tuple = intermediate_size UpperCAmelCase_ : int = hidden_act UpperCAmelCase_ : int = num_attention_heads UpperCAmelCase_ : Tuple = hidden_dropout UpperCAmelCase_ : List[str] = attention_dropout UpperCAmelCase_ : Union[str, Any] = activation_dropout UpperCAmelCase_ : List[Any] = feat_proj_dropout UpperCAmelCase_ : List[str] = final_dropout UpperCAmelCase_ : Any = layerdrop UpperCAmelCase_ : Optional[int] = layer_norm_eps UpperCAmelCase_ : str = initializer_range UpperCAmelCase_ : Tuple = num_ctc_classes UpperCAmelCase_ : List[str] = vocab_size UpperCAmelCase_ : int = do_stable_layer_norm UpperCAmelCase_ : Optional[Any] = use_weighted_layer_sum UpperCAmelCase_ : List[str] = classifier_proj_size if ( (len(self.conv_stride ) != self.num_feat_extract_layers) or (len(self.conv_kernel ) != self.num_feat_extract_layers) or (len(self.conv_dim ) != self.num_feat_extract_layers) ): raise ValueError( '''Configuration for convolutional layers is incorrect. It is required that `len(config.conv_dim)` ==''' ''' `len(config.conv_stride)` == `len(config.conv_kernel)`, but is `len(config.conv_dim) =''' F" {len(self.conv_dim )}`, `len(config.conv_stride) = {len(self.conv_stride )}`," F" `len(config.conv_kernel) = {len(self.conv_kernel )}`." ) # fine-tuning config parameters for SpecAugment: https://arxiv.org/abs/1904.08779 UpperCAmelCase_ : int = apply_spec_augment UpperCAmelCase_ : Any = mask_time_prob UpperCAmelCase_ : Any = mask_time_length UpperCAmelCase_ : Any = mask_time_min_masks UpperCAmelCase_ : List[Any] = mask_feature_prob UpperCAmelCase_ : str = mask_feature_length UpperCAmelCase_ : Any = mask_feature_min_masks # parameters for pretraining with codevector quantized representations UpperCAmelCase_ : List[Any] = num_codevectors_per_group UpperCAmelCase_ : Dict = num_codevector_groups UpperCAmelCase_ : List[str] = contrastive_logits_temperature UpperCAmelCase_ : str = feat_quantizer_dropout UpperCAmelCase_ : int = num_negatives UpperCAmelCase_ : List[str] = codevector_dim UpperCAmelCase_ : Optional[Any] = proj_codevector_dim UpperCAmelCase_ : Dict = diversity_loss_weight # ctc loss UpperCAmelCase_ : Optional[int] = ctc_loss_reduction UpperCAmelCase_ : List[str] = ctc_zero_infinity # pretraining loss UpperCAmelCase_ : Any = replace_prob @property def A ( self : Optional[int] ) -> List[str]: return functools.reduce(operator.mul , self.conv_stride , 1 )

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'''simple docstring''' def __UpperCAmelCase ( A : int = 1_0_0_0 ) -> int: UpperCAmelCase_ , UpperCAmelCase_ : Union[str, Any] = 1, 1 UpperCAmelCase_ : Dict = [] for i in range(1 , n + 1 ): UpperCAmelCase_ : Optional[int] = prev_numerator + 2 * prev_denominator UpperCAmelCase_ : Tuple = prev_numerator + prev_denominator if len(str(A ) ) > len(str(A ) ): result.append(A ) UpperCAmelCase_ : Optional[Any] = numerator UpperCAmelCase_ : Optional[int] = denominator return len(A ) if __name__ == "__main__": print(f'''{solution() = }''')

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1

"""simple docstring""" import re import subprocess import sys _UpperCamelCase = subprocess.check_output("""git merge-base main HEAD""".split()).decode("""utf-8""") _UpperCamelCase = subprocess.check_output(F"""git diff --name-only {fork_point_sha}""".split()).decode("""utf-8""").split() _UpperCamelCase = "|".join(sys.argv[1:]) _UpperCamelCase = re.compile(RF"""^({joined_dirs}).*?\.py$""") _UpperCamelCase = [x for x in modified_files if regex.match(x)] print(""" """.join(relevant_modified_files), end="""""")

357

"""simple docstring""" _UpperCamelCase = [4, 1, 7, 4, 2, 6, 4, 1, 5, 3, 7, 5] _UpperCamelCase = [3, 7, 7, 4, 2, 6, 4, 1, 5, 3, 7, 5] _UpperCamelCase = { 0: """Sunday""", 1: """Monday""", 2: """Tuesday""", 3: """Wednesday""", 4: """Thursday""", 5: """Friday""", 6: """Saturday""", } def _a ( _snake_case , _snake_case , _snake_case ): """simple docstring""" assert len(str(_snake_case ) ) > 2, "year should be in YYYY format" assert 1 <= month <= 12, "month should be between 1 to 12" assert 1 <= day <= 31, "day should be between 1 to 31" # Doomsday algorithm: UpperCAmelCase = year // 100 UpperCAmelCase = (5 * (century % 4) + 2) % 7 UpperCAmelCase = year % 100 UpperCAmelCase = centurian % 12 UpperCAmelCase = ( (centurian // 12) + centurian_m + (centurian_m // 4) + century_anchor ) % 7 UpperCAmelCase = ( DOOMSDAY_NOT_LEAP[month - 1] if (year % 4 != 0) or (centurian == 0 and (year % 400) == 0) else DOOMSDAY_LEAP[month - 1] ) UpperCAmelCase = (dooms_day + day - day_anchor) % 7 return WEEK_DAY_NAMES[week_day] if __name__ == "__main__": import doctest doctest.testmod()

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'''simple docstring''' from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available, is_tf_available, is_tokenizers_available, is_torch_available, ) UpperCamelCase__ = { '''configuration_rembert''': ['''REMBERT_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''RemBertConfig''', '''RemBertOnnxConfig'''] } try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCamelCase__ = ['''RemBertTokenizer'''] try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCamelCase__ = ['''RemBertTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCamelCase__ = [ '''REMBERT_PRETRAINED_MODEL_ARCHIVE_LIST''', '''RemBertForCausalLM''', '''RemBertForMaskedLM''', '''RemBertForMultipleChoice''', '''RemBertForQuestionAnswering''', '''RemBertForSequenceClassification''', '''RemBertForTokenClassification''', '''RemBertLayer''', '''RemBertModel''', '''RemBertPreTrainedModel''', '''load_tf_weights_in_rembert''', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: UpperCamelCase__ = [ '''TF_REMBERT_PRETRAINED_MODEL_ARCHIVE_LIST''', '''TFRemBertForCausalLM''', '''TFRemBertForMaskedLM''', '''TFRemBertForMultipleChoice''', '''TFRemBertForQuestionAnswering''', '''TFRemBertForSequenceClassification''', '''TFRemBertForTokenClassification''', '''TFRemBertLayer''', '''TFRemBertModel''', '''TFRemBertPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_rembert import REMBERT_PRETRAINED_CONFIG_ARCHIVE_MAP, RemBertConfig, RemBertOnnxConfig try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_rembert import RemBertTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_rembert_fast import RemBertTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_rembert import ( REMBERT_PRETRAINED_MODEL_ARCHIVE_LIST, RemBertForCausalLM, RemBertForMaskedLM, RemBertForMultipleChoice, RemBertForQuestionAnswering, RemBertForSequenceClassification, RemBertForTokenClassification, RemBertLayer, RemBertModel, RemBertPreTrainedModel, load_tf_weights_in_rembert, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_rembert import ( TF_REMBERT_PRETRAINED_MODEL_ARCHIVE_LIST, TFRemBertForCausalLM, TFRemBertForMaskedLM, TFRemBertForMultipleChoice, TFRemBertForQuestionAnswering, TFRemBertForSequenceClassification, TFRemBertForTokenClassification, TFRemBertLayer, TFRemBertModel, TFRemBertPreTrainedModel, ) else: import sys UpperCamelCase__ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)

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from __future__ import annotations from typing import Any class UpperCamelCase__ : def __init__(self : Union[str, Any] , snake_case_ : int ): __a : Dict = num_of_nodes __a : list[list[int]] = [] __a : dict[int, int] = {} def lowerCAmelCase (self : Optional[Any] , snake_case_ : int , snake_case_ : int , snake_case_ : int ): self.m_edges.append([u_node, v_node, weight] ) def lowerCAmelCase (self : Any , snake_case_ : int ): if self.m_component[u_node] == u_node: return u_node return self.find_component(self.m_component[u_node] ) def lowerCAmelCase (self : str , snake_case_ : int ): if self.m_component[u_node] != u_node: for k in self.m_component: __a : Optional[int] = self.find_component(snake_case_ ) def lowerCAmelCase (self : Any , snake_case_ : list[int] , snake_case_ : int , snake_case_ : int ): if component_size[u_node] <= component_size[v_node]: __a : List[str] = v_node component_size[v_node] += component_size[u_node] self.set_component(snake_case_ ) elif component_size[u_node] >= component_size[v_node]: __a : Optional[int] = self.find_component(snake_case_ ) component_size[u_node] += component_size[v_node] self.set_component(snake_case_ ) def lowerCAmelCase (self : Optional[Any] ): __a : str = [] __a : int = 0 __a : list[Any] = [-1] * self.m_num_of_nodes # A list of components (initialized to all of the nodes) for node in range(self.m_num_of_nodes ): self.m_component.update({node: node} ) component_size.append(1 ) __a : Union[str, Any] = self.m_num_of_nodes while num_of_components > 1: for edge in self.m_edges: __a , __a , __a : Optional[Any] = edge __a : List[str] = self.m_component[u] __a : List[Any] = self.m_component[v] if u_component != v_component: for component in (u_component, v_component): if ( minimum_weight_edge[component] == -1 or minimum_weight_edge[component][2] > w ): __a : str = [u, v, w] for edge in minimum_weight_edge: if isinstance(snake_case_ , snake_case_ ): __a , __a , __a : str = edge __a : Any = self.m_component[u] __a : Any = self.m_component[v] if u_component != v_component: mst_weight += w self.union(snake_case_ , snake_case_ , snake_case_ ) print(f"Added edge [{u} - {v}]\nAdded weight: {w}\n" ) num_of_components -= 1 __a : Optional[int] = [-1] * self.m_num_of_nodes print(f"The total weight of the minimal spanning tree is: {mst_weight}" ) def __UpperCamelCase ( ): pass if __name__ == "__main__": import doctest doctest.testmod()

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0

'''simple docstring''' import subprocess import sys from transformers import BertConfig, BertModel, BertTokenizer, pipeline from transformers.testing_utils import TestCasePlus, require_torch class lowerCamelCase ( _lowerCamelCase ): @require_torch def _lowerCamelCase ( self ) -> Dict: snake_case = '\nfrom transformers import BertConfig, BertModel, BertTokenizer, pipeline\n ' snake_case = '\nmname = \"hf-internal-testing/tiny-random-bert\"\nBertConfig.from_pretrained(mname)\nBertModel.from_pretrained(mname)\nBertTokenizer.from_pretrained(mname)\npipe = pipeline(task=\"fill-mask\", model=mname)\nprint(\"success\")\n ' snake_case = '\nimport socket\ndef offline_socket(*args, **kwargs): raise RuntimeError(\"Offline mode is enabled, we shouldn\'t access internet\")\nsocket.socket = offline_socket\n ' # Force fetching the files so that we can use the cache snake_case = 'hf-internal-testing/tiny-random-bert' BertConfig.from_pretrained(lowercase_ ) BertModel.from_pretrained(lowercase_ ) BertTokenizer.from_pretrained(lowercase_ ) pipeline(task='fill-mask', model=lowercase_ ) # baseline - just load from_pretrained with normal network snake_case = [sys.executable, '-c', '\n'.join([load, run, mock] )] # should succeed snake_case = self.get_env() # should succeed as TRANSFORMERS_OFFLINE=1 tells it to use local files snake_case = '1' snake_case = subprocess.run(lowercase_, env=lowercase_, check=lowercase_, capture_output=lowercase_ ) self.assertEqual(result.returncode, 0, result.stderr ) self.assertIn('success', result.stdout.decode() ) @require_torch def _lowerCamelCase ( self ) -> Optional[Any]: snake_case = '\nfrom transformers import BertConfig, BertModel, BertTokenizer, pipeline\n ' snake_case = '\nmname = \"hf-internal-testing/tiny-random-bert\"\nBertConfig.from_pretrained(mname)\nBertModel.from_pretrained(mname)\nBertTokenizer.from_pretrained(mname)\npipe = pipeline(task=\"fill-mask\", model=mname)\nprint(\"success\")\n ' snake_case = '\nimport socket\ndef offline_socket(*args, **kwargs): raise socket.error(\"Faking flaky internet\")\nsocket.socket = offline_socket\n ' # Force fetching the files so that we can use the cache snake_case = 'hf-internal-testing/tiny-random-bert' BertConfig.from_pretrained(lowercase_ ) BertModel.from_pretrained(lowercase_ ) BertTokenizer.from_pretrained(lowercase_ ) pipeline(task='fill-mask', model=lowercase_ ) # baseline - just load from_pretrained with normal network snake_case = [sys.executable, '-c', '\n'.join([load, run, mock] )] # should succeed snake_case = self.get_env() snake_case = subprocess.run(lowercase_, env=lowercase_, check=lowercase_, capture_output=lowercase_ ) self.assertEqual(result.returncode, 0, result.stderr ) self.assertIn('success', result.stdout.decode() ) @require_torch def _lowerCamelCase ( self ) -> List[str]: snake_case = '\nfrom transformers import BertConfig, BertModel, BertTokenizer\n ' snake_case = '\nmname = \"hf-internal-testing/tiny-random-bert-sharded\"\nBertConfig.from_pretrained(mname)\nBertModel.from_pretrained(mname)\nprint(\"success\")\n ' snake_case = '\nimport socket\ndef offline_socket(*args, **kwargs): raise ValueError(\"Offline mode is enabled\")\nsocket.socket = offline_socket\n ' # baseline - just load from_pretrained with normal network snake_case = [sys.executable, '-c', '\n'.join([load, run] )] # should succeed snake_case = self.get_env() snake_case = subprocess.run(lowercase_, env=lowercase_, check=lowercase_, capture_output=lowercase_ ) self.assertEqual(result.returncode, 0, result.stderr ) self.assertIn('success', result.stdout.decode() ) # next emulate no network snake_case = [sys.executable, '-c', '\n'.join([load, mock, run] )] # Doesn't fail anymore since the model is in the cache due to other tests, so commenting this. # env["TRANSFORMERS_OFFLINE"] = "0" # result = subprocess.run(cmd, env=env, check=False, capture_output=True) # self.assertEqual(result.returncode, 1, result.stderr) # should succeed as TRANSFORMERS_OFFLINE=1 tells it to use local files snake_case = '1' snake_case = subprocess.run(lowercase_, env=lowercase_, check=lowercase_, capture_output=lowercase_ ) self.assertEqual(result.returncode, 0, result.stderr ) self.assertIn('success', result.stdout.decode() ) @require_torch def _lowerCamelCase ( self ) -> Optional[Any]: snake_case = '\nfrom transformers import pipeline\n ' snake_case = '\nmname = \"hf-internal-testing/tiny-random-bert\"\npipe = pipeline(model=mname)\n ' snake_case = '\nimport socket\ndef offline_socket(*args, **kwargs): raise socket.error(\"Offline mode is enabled\")\nsocket.socket = offline_socket\n ' snake_case = self.get_env() snake_case = '1' snake_case = [sys.executable, '-c', '\n'.join([load, mock, run] )] snake_case = subprocess.run(lowercase_, env=lowercase_, check=lowercase_, capture_output=lowercase_ ) self.assertEqual(result.returncode, 1, result.stderr ) self.assertIn( 'You cannot infer task automatically within `pipeline` when using offline mode', result.stderr.decode().replace('\n', '' ), ) @require_torch def _lowerCamelCase ( self ) -> Tuple: snake_case = '\nfrom transformers import AutoModel\n ' snake_case = '\nmname = \"hf-internal-testing/test_dynamic_model\"\nAutoModel.from_pretrained(mname, trust_remote_code=True)\nprint(\"success\")\n ' # baseline - just load from_pretrained with normal network snake_case = [sys.executable, '-c', '\n'.join([load, run] )] # should succeed snake_case = self.get_env() snake_case = subprocess.run(lowercase_, env=lowercase_, check=lowercase_, capture_output=lowercase_ ) self.assertEqual(result.returncode, 0, result.stderr ) self.assertIn('success', result.stdout.decode() ) # should succeed as TRANSFORMERS_OFFLINE=1 tells it to use local files snake_case = '1' snake_case = subprocess.run(lowercase_, env=lowercase_, check=lowercase_, capture_output=lowercase_ ) self.assertEqual(result.returncode, 0, result.stderr ) self.assertIn('success', result.stdout.decode() )

353

'''simple docstring''' from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_flax_available, is_tf_available, is_torch_available, ) lowerCAmelCase_ = { "configuration_vision_text_dual_encoder": ["VisionTextDualEncoderConfig"], "processing_vision_text_dual_encoder": ["VisionTextDualEncoderProcessor"], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase_ = ["VisionTextDualEncoderModel"] try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase_ = ["FlaxVisionTextDualEncoderModel"] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase_ = ["TFVisionTextDualEncoderModel"] if TYPE_CHECKING: from .configuration_vision_text_dual_encoder import VisionTextDualEncoderConfig from .processing_vision_text_dual_encoder import VisionTextDualEncoderProcessor try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_vision_text_dual_encoder import VisionTextDualEncoderModel try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_flax_vision_text_dual_encoder import FlaxVisionTextDualEncoderModel try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_vision_text_dual_encoder import TFVisionTextDualEncoderModel else: import sys lowerCAmelCase_ = _LazyModule(__name__, globals()["__file__"], _import_structure)

332

0

from collections import OrderedDict from typing import Mapping from ...configuration_utils import PretrainedConfig from ...onnx import OnnxConfig from ...utils import logging UpperCamelCase = logging.get_logger(__name__) UpperCamelCase = { '''roberta-base''': '''https://huggingface.co/roberta-base/resolve/main/config.json''', '''roberta-large''': '''https://huggingface.co/roberta-large/resolve/main/config.json''', '''roberta-large-mnli''': '''https://huggingface.co/roberta-large-mnli/resolve/main/config.json''', '''distilroberta-base''': '''https://huggingface.co/distilroberta-base/resolve/main/config.json''', '''roberta-base-openai-detector''': '''https://huggingface.co/roberta-base-openai-detector/resolve/main/config.json''', '''roberta-large-openai-detector''': '''https://huggingface.co/roberta-large-openai-detector/resolve/main/config.json''', } class __UpperCAmelCase (_UpperCAmelCase ): __snake_case : Any = "roberta" def __init__( self: Union[str, Any] , UpperCAmelCase_: List[str]=50_265 , UpperCAmelCase_: Any=768 , UpperCAmelCase_: Optional[int]=12 , UpperCAmelCase_: Union[str, Any]=12 , UpperCAmelCase_: Optional[int]=3_072 , UpperCAmelCase_: Optional[int]="gelu" , UpperCAmelCase_: Dict=0.1 , UpperCAmelCase_: Tuple=0.1 , UpperCAmelCase_: Any=512 , UpperCAmelCase_: str=2 , UpperCAmelCase_: Optional[Any]=0.02 , UpperCAmelCase_: Optional[Any]=1E-12 , UpperCAmelCase_: Union[str, Any]=1 , UpperCAmelCase_: int=0 , UpperCAmelCase_: Union[str, Any]=2 , UpperCAmelCase_: List[str]="absolute" , UpperCAmelCase_: Optional[int]=True , UpperCAmelCase_: str=None , **UpperCAmelCase_: Any , ): '''simple docstring''' super().__init__(pad_token_id=UpperCAmelCase_ , bos_token_id=UpperCAmelCase_ , eos_token_id=UpperCAmelCase_ , **UpperCAmelCase_ ) _SCREAMING_SNAKE_CASE = vocab_size _SCREAMING_SNAKE_CASE = hidden_size _SCREAMING_SNAKE_CASE = num_hidden_layers _SCREAMING_SNAKE_CASE = num_attention_heads _SCREAMING_SNAKE_CASE = hidden_act _SCREAMING_SNAKE_CASE = intermediate_size _SCREAMING_SNAKE_CASE = hidden_dropout_prob _SCREAMING_SNAKE_CASE = attention_probs_dropout_prob _SCREAMING_SNAKE_CASE = max_position_embeddings _SCREAMING_SNAKE_CASE = type_vocab_size _SCREAMING_SNAKE_CASE = initializer_range _SCREAMING_SNAKE_CASE = layer_norm_eps _SCREAMING_SNAKE_CASE = position_embedding_type _SCREAMING_SNAKE_CASE = use_cache _SCREAMING_SNAKE_CASE = classifier_dropout class __UpperCAmelCase (_UpperCAmelCase ): @property def UpperCamelCase ( self: Any ): '''simple docstring''' if self.task == "multiple-choice": _SCREAMING_SNAKE_CASE = {0: """batch""", 1: """choice""", 2: """sequence"""} else: _SCREAMING_SNAKE_CASE = {0: """batch""", 1: """sequence"""} return OrderedDict( [ ("""input_ids""", dynamic_axis), ("""attention_mask""", dynamic_axis), ] )

306

import os from shutil import copyfile from typing import List, Optional, Tuple from tokenizers import processors from ...tokenization_utils import AddedToken, BatchEncoding from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import is_sentencepiece_available, logging if is_sentencepiece_available(): from .tokenization_nllb import NllbTokenizer else: UpperCamelCase = None UpperCamelCase = logging.get_logger(__name__) UpperCamelCase = {'''vocab_file''': '''sentencepiece.bpe.model''', '''tokenizer_file''': '''tokenizer.json'''} UpperCamelCase = { '''vocab_file''': { '''facebook/nllb-200-distilled-600M''': ( '''https://huggingface.co/facebook/nllb-200-distilled-600M/resolve/main/sentencepiece.bpe.model''' ), }, '''tokenizer_file''': { '''facebook/nllb-200-distilled-600M''': ( '''https://huggingface.co/facebook/nllb-200-distilled-600M/resolve/main/tokenizer.json''' ), }, } UpperCamelCase = { '''facebook/nllb-large-en-ro''': 1_024, '''facebook/nllb-200-distilled-600M''': 1_024, } # fmt: off UpperCamelCase = ['''ace_Arab''', '''ace_Latn''', '''acm_Arab''', '''acq_Arab''', '''aeb_Arab''', '''afr_Latn''', '''ajp_Arab''', '''aka_Latn''', '''amh_Ethi''', '''apc_Arab''', '''arb_Arab''', '''ars_Arab''', '''ary_Arab''', '''arz_Arab''', '''asm_Beng''', '''ast_Latn''', '''awa_Deva''', '''ayr_Latn''', '''azb_Arab''', '''azj_Latn''', '''bak_Cyrl''', '''bam_Latn''', '''ban_Latn''', '''bel_Cyrl''', '''bem_Latn''', '''ben_Beng''', '''bho_Deva''', '''bjn_Arab''', '''bjn_Latn''', '''bod_Tibt''', '''bos_Latn''', '''bug_Latn''', '''bul_Cyrl''', '''cat_Latn''', '''ceb_Latn''', '''ces_Latn''', '''cjk_Latn''', '''ckb_Arab''', '''crh_Latn''', '''cym_Latn''', '''dan_Latn''', '''deu_Latn''', '''dik_Latn''', '''dyu_Latn''', '''dzo_Tibt''', '''ell_Grek''', '''eng_Latn''', '''epo_Latn''', '''est_Latn''', '''eus_Latn''', '''ewe_Latn''', '''fao_Latn''', '''pes_Arab''', '''fij_Latn''', '''fin_Latn''', '''fon_Latn''', '''fra_Latn''', '''fur_Latn''', '''fuv_Latn''', '''gla_Latn''', '''gle_Latn''', '''glg_Latn''', '''grn_Latn''', '''guj_Gujr''', '''hat_Latn''', '''hau_Latn''', '''heb_Hebr''', '''hin_Deva''', '''hne_Deva''', '''hrv_Latn''', '''hun_Latn''', '''hye_Armn''', '''ibo_Latn''', '''ilo_Latn''', '''ind_Latn''', '''isl_Latn''', '''ita_Latn''', '''jav_Latn''', '''jpn_Jpan''', '''kab_Latn''', '''kac_Latn''', '''kam_Latn''', '''kan_Knda''', '''kas_Arab''', '''kas_Deva''', '''kat_Geor''', '''knc_Arab''', '''knc_Latn''', '''kaz_Cyrl''', '''kbp_Latn''', '''kea_Latn''', '''khm_Khmr''', '''kik_Latn''', '''kin_Latn''', '''kir_Cyrl''', '''kmb_Latn''', '''kon_Latn''', '''kor_Hang''', '''kmr_Latn''', '''lao_Laoo''', '''lvs_Latn''', '''lij_Latn''', '''lim_Latn''', '''lin_Latn''', '''lit_Latn''', '''lmo_Latn''', '''ltg_Latn''', '''ltz_Latn''', '''lua_Latn''', '''lug_Latn''', '''luo_Latn''', '''lus_Latn''', '''mag_Deva''', '''mai_Deva''', '''mal_Mlym''', '''mar_Deva''', '''min_Latn''', '''mkd_Cyrl''', '''plt_Latn''', '''mlt_Latn''', '''mni_Beng''', '''khk_Cyrl''', '''mos_Latn''', '''mri_Latn''', '''zsm_Latn''', '''mya_Mymr''', '''nld_Latn''', '''nno_Latn''', '''nob_Latn''', '''npi_Deva''', '''nso_Latn''', '''nus_Latn''', '''nya_Latn''', '''oci_Latn''', '''gaz_Latn''', '''ory_Orya''', '''pag_Latn''', '''pan_Guru''', '''pap_Latn''', '''pol_Latn''', '''por_Latn''', '''prs_Arab''', '''pbt_Arab''', '''quy_Latn''', '''ron_Latn''', '''run_Latn''', '''rus_Cyrl''', '''sag_Latn''', '''san_Deva''', '''sat_Beng''', '''scn_Latn''', '''shn_Mymr''', '''sin_Sinh''', '''slk_Latn''', '''slv_Latn''', '''smo_Latn''', '''sna_Latn''', '''snd_Arab''', '''som_Latn''', '''sot_Latn''', '''spa_Latn''', '''als_Latn''', '''srd_Latn''', '''srp_Cyrl''', '''ssw_Latn''', '''sun_Latn''', '''swe_Latn''', '''swh_Latn''', '''szl_Latn''', '''tam_Taml''', '''tat_Cyrl''', '''tel_Telu''', '''tgk_Cyrl''', '''tgl_Latn''', '''tha_Thai''', '''tir_Ethi''', '''taq_Latn''', '''taq_Tfng''', '''tpi_Latn''', '''tsn_Latn''', '''tso_Latn''', '''tuk_Latn''', '''tum_Latn''', '''tur_Latn''', '''twi_Latn''', '''tzm_Tfng''', '''uig_Arab''', '''ukr_Cyrl''', '''umb_Latn''', '''urd_Arab''', '''uzn_Latn''', '''vec_Latn''', '''vie_Latn''', '''war_Latn''', '''wol_Latn''', '''xho_Latn''', '''ydd_Hebr''', '''yor_Latn''', '''yue_Hant''', '''zho_Hans''', '''zho_Hant''', '''zul_Latn'''] class __UpperCAmelCase (_UpperCAmelCase ): __snake_case : List[str] = VOCAB_FILES_NAMES __snake_case : List[str] = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES __snake_case : List[Any] = PRETRAINED_VOCAB_FILES_MAP __snake_case : Tuple = ["input_ids", "attention_mask"] __snake_case : Dict = NllbTokenizer __snake_case : List[int] = [] __snake_case : List[int] = [] def __init__( self: Tuple , UpperCAmelCase_: str=None , UpperCAmelCase_: List[str]=None , UpperCAmelCase_: Tuple="<s>" , UpperCAmelCase_: str="</s>" , UpperCAmelCase_: Union[str, Any]="</s>" , UpperCAmelCase_: int="<s>" , UpperCAmelCase_: Union[str, Any]="<unk>" , UpperCAmelCase_: Union[str, Any]="<pad>" , UpperCAmelCase_: str="<mask>" , UpperCAmelCase_: Union[str, Any]=None , UpperCAmelCase_: Optional[int]=None , UpperCAmelCase_: int=None , UpperCAmelCase_: str=False , **UpperCAmelCase_: int , ): '''simple docstring''' _SCREAMING_SNAKE_CASE = AddedToken(UpperCAmelCase_ , lstrip=UpperCAmelCase_ , rstrip=UpperCAmelCase_ ) if isinstance(UpperCAmelCase_ , UpperCAmelCase_ ) else mask_token _SCREAMING_SNAKE_CASE = legacy_behaviour super().__init__( vocab_file=UpperCAmelCase_ , tokenizer_file=UpperCAmelCase_ , bos_token=UpperCAmelCase_ , eos_token=UpperCAmelCase_ , sep_token=UpperCAmelCase_ , cls_token=UpperCAmelCase_ , unk_token=UpperCAmelCase_ , pad_token=UpperCAmelCase_ , mask_token=UpperCAmelCase_ , src_lang=UpperCAmelCase_ , tgt_lang=UpperCAmelCase_ , additional_special_tokens=UpperCAmelCase_ , legacy_behaviour=UpperCAmelCase_ , **UpperCAmelCase_ , ) _SCREAMING_SNAKE_CASE = vocab_file _SCREAMING_SNAKE_CASE = False if not self.vocab_file else True _SCREAMING_SNAKE_CASE = FAIRSEQ_LANGUAGE_CODES.copy() if additional_special_tokens is not None: # Only add those special tokens if they are not already there. _additional_special_tokens.extend( [t for t in additional_special_tokens if t not in _additional_special_tokens] ) self.add_special_tokens({"""additional_special_tokens""": _additional_special_tokens} ) _SCREAMING_SNAKE_CASE = { lang_code: self.convert_tokens_to_ids(UpperCAmelCase_ ) for lang_code in FAIRSEQ_LANGUAGE_CODES } _SCREAMING_SNAKE_CASE = src_lang if src_lang is not None else """eng_Latn""" _SCREAMING_SNAKE_CASE = self.convert_tokens_to_ids(self._src_lang ) _SCREAMING_SNAKE_CASE = tgt_lang self.set_src_lang_special_tokens(self._src_lang ) @property def UpperCamelCase ( self: int ): '''simple docstring''' return self._src_lang @src_lang.setter def UpperCamelCase ( self: int , UpperCAmelCase_: str ): '''simple docstring''' _SCREAMING_SNAKE_CASE = new_src_lang self.set_src_lang_special_tokens(self._src_lang ) def UpperCamelCase ( self: List[str] , UpperCAmelCase_: List[int] , UpperCAmelCase_: Optional[List[int]] = None ): '''simple docstring''' if token_ids_a is None: return self.prefix_tokens + token_ids_a + self.suffix_tokens # We don't expect to process pairs, but leave the pair logic for API consistency return self.prefix_tokens + token_ids_a + token_ids_a + self.suffix_tokens def UpperCamelCase ( self: Dict , UpperCAmelCase_: List[int] , UpperCAmelCase_: Optional[List[int]] = None ): '''simple docstring''' _SCREAMING_SNAKE_CASE = [self.sep_token_id] _SCREAMING_SNAKE_CASE = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) * [0] return len(cls + token_ids_a + sep + sep + token_ids_a + sep ) * [0] def UpperCamelCase ( self: Tuple , UpperCAmelCase_: List[str] , UpperCAmelCase_: str , UpperCAmelCase_: Optional[str] , UpperCAmelCase_: Optional[str] , **UpperCAmelCase_: Any ): '''simple docstring''' if src_lang is None or tgt_lang is None: raise ValueError("""Translation requires a `src_lang` and a `tgt_lang` for this model""" ) _SCREAMING_SNAKE_CASE = src_lang _SCREAMING_SNAKE_CASE = self(UpperCAmelCase_ , add_special_tokens=UpperCAmelCase_ , return_tensors=UpperCAmelCase_ , **UpperCAmelCase_ ) _SCREAMING_SNAKE_CASE = self.convert_tokens_to_ids(UpperCAmelCase_ ) _SCREAMING_SNAKE_CASE = tgt_lang_id return inputs def UpperCamelCase ( self: int , UpperCAmelCase_: List[str] , UpperCAmelCase_: str = "eng_Latn" , UpperCAmelCase_: Optional[List[str]] = None , UpperCAmelCase_: str = "fra_Latn" , **UpperCAmelCase_: List[str] , ): '''simple docstring''' _SCREAMING_SNAKE_CASE = src_lang _SCREAMING_SNAKE_CASE = tgt_lang return super().prepare_seqaseq_batch(UpperCAmelCase_ , UpperCAmelCase_ , **UpperCAmelCase_ ) def UpperCamelCase ( self: Any ): '''simple docstring''' return self.set_src_lang_special_tokens(self.src_lang ) def UpperCamelCase ( self: Optional[Any] ): '''simple docstring''' return self.set_tgt_lang_special_tokens(self.tgt_lang ) def UpperCamelCase ( self: Union[str, Any] , UpperCAmelCase_: List[str] ): '''simple docstring''' _SCREAMING_SNAKE_CASE = self.convert_tokens_to_ids(UpperCAmelCase_ ) if self.legacy_behaviour: _SCREAMING_SNAKE_CASE = [] _SCREAMING_SNAKE_CASE = [self.eos_token_id, self.cur_lang_code] else: _SCREAMING_SNAKE_CASE = [self.cur_lang_code] _SCREAMING_SNAKE_CASE = [self.eos_token_id] _SCREAMING_SNAKE_CASE = self.convert_ids_to_tokens(self.prefix_tokens ) _SCREAMING_SNAKE_CASE = self.convert_ids_to_tokens(self.suffix_tokens ) _SCREAMING_SNAKE_CASE = processors.TemplateProcessing( single=prefix_tokens_str + ["""$A"""] + suffix_tokens_str , pair=prefix_tokens_str + ["""$A""", """$B"""] + suffix_tokens_str , special_tokens=list(zip(prefix_tokens_str + suffix_tokens_str , self.prefix_tokens + self.suffix_tokens ) ) , ) def UpperCamelCase ( self: Optional[int] , UpperCAmelCase_: str ): '''simple docstring''' _SCREAMING_SNAKE_CASE = self.convert_tokens_to_ids(UpperCAmelCase_ ) if self.legacy_behaviour: _SCREAMING_SNAKE_CASE = [] _SCREAMING_SNAKE_CASE = [self.eos_token_id, self.cur_lang_code] else: _SCREAMING_SNAKE_CASE = [self.cur_lang_code] _SCREAMING_SNAKE_CASE = [self.eos_token_id] _SCREAMING_SNAKE_CASE = self.convert_ids_to_tokens(self.prefix_tokens ) _SCREAMING_SNAKE_CASE = self.convert_ids_to_tokens(self.suffix_tokens ) _SCREAMING_SNAKE_CASE = processors.TemplateProcessing( single=prefix_tokens_str + ["""$A"""] + suffix_tokens_str , pair=prefix_tokens_str + ["""$A""", """$B"""] + suffix_tokens_str , special_tokens=list(zip(prefix_tokens_str + suffix_tokens_str , self.prefix_tokens + self.suffix_tokens ) ) , ) def UpperCamelCase ( self: Tuple , UpperCAmelCase_: str , UpperCAmelCase_: Optional[str] = None ): '''simple docstring''' if not self.can_save_slow_tokenizer: raise ValueError( """Your fast tokenizer does not have the necessary information to save the vocabulary for a slow """ """tokenizer.""" ) if not os.path.isdir(UpperCAmelCase_ ): logger.error(F'Vocabulary path ({save_directory}) should be a directory.' ) return _SCREAMING_SNAKE_CASE = os.path.join( UpperCAmelCase_ , (filename_prefix + """-""" if filename_prefix else """""") + VOCAB_FILES_NAMES["""vocab_file"""] ) if os.path.abspath(self.vocab_file ) != os.path.abspath(UpperCAmelCase_ ): copyfile(self.vocab_file , UpperCAmelCase_ ) return (out_vocab_file,)

306

1

"""simple docstring""" from __future__ import annotations def __lowerCAmelCase (_UpperCamelCase , _UpperCamelCase ): __lowerCAmelCase : list[list[int]] = [] __lowerCAmelCase : list[int] = [] __lowerCAmelCase : Tuple = 0 __lowerCAmelCase : int = sum(_UpperCamelCase ) create_state_space_tree(_UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase ) return result def __lowerCAmelCase (_UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , ): if sum(_UpperCamelCase ) > max_sum or (remaining_nums_sum + sum(_UpperCamelCase )) < max_sum: return if sum(_UpperCamelCase ) == max_sum: result.append(_UpperCamelCase ) return for index in range(_UpperCamelCase , len(_UpperCamelCase ) ): create_state_space_tree( _UpperCamelCase , _UpperCamelCase , index + 1 , [*path, nums[index]] , _UpperCamelCase , remaining_nums_sum - nums[index] , ) lowerCamelCase__ = [3, 34, 4, 12, 5, 2] lowerCamelCase__ = 9 lowerCamelCase__ = generate_sum_of_subsets_soln(nums, max_sum) print(*result)

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"""simple docstring""" import unittest from transformers import AlbertConfig, is_torch_available from transformers.models.auto import get_values from transformers.testing_utils import require_torch, slow, torch_device from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin, ids_tensor, random_attention_mask from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import ( MODEL_FOR_PRETRAINING_MAPPING, AlbertForMaskedLM, AlbertForMultipleChoice, AlbertForPreTraining, AlbertForQuestionAnswering, AlbertForSequenceClassification, AlbertForTokenClassification, AlbertModel, ) from transformers.models.albert.modeling_albert import ALBERT_PRETRAINED_MODEL_ARCHIVE_LIST class A__ : def __init__( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE=13 , _SCREAMING_SNAKE_CASE=7 , _SCREAMING_SNAKE_CASE=True , _SCREAMING_SNAKE_CASE=True , _SCREAMING_SNAKE_CASE=True , _SCREAMING_SNAKE_CASE=True , _SCREAMING_SNAKE_CASE=99 , _SCREAMING_SNAKE_CASE=16 , _SCREAMING_SNAKE_CASE=36 , _SCREAMING_SNAKE_CASE=6 , _SCREAMING_SNAKE_CASE=6 , _SCREAMING_SNAKE_CASE=6 , _SCREAMING_SNAKE_CASE=37 , _SCREAMING_SNAKE_CASE="gelu" , _SCREAMING_SNAKE_CASE=0.1 , _SCREAMING_SNAKE_CASE=0.1 , _SCREAMING_SNAKE_CASE=5_12 , _SCREAMING_SNAKE_CASE=16 , _SCREAMING_SNAKE_CASE=2 , _SCREAMING_SNAKE_CASE=0.02 , _SCREAMING_SNAKE_CASE=3 , _SCREAMING_SNAKE_CASE=4 , _SCREAMING_SNAKE_CASE=None , ): __lowerCAmelCase : List[str] = parent __lowerCAmelCase : Optional[int] = batch_size __lowerCAmelCase : List[Any] = seq_length __lowerCAmelCase : List[Any] = is_training __lowerCAmelCase : Tuple = use_input_mask __lowerCAmelCase : Tuple = use_token_type_ids __lowerCAmelCase : Optional[int] = use_labels __lowerCAmelCase : Tuple = vocab_size __lowerCAmelCase : List[Any] = embedding_size __lowerCAmelCase : List[Any] = hidden_size __lowerCAmelCase : Union[str, Any] = num_hidden_layers __lowerCAmelCase : int = num_hidden_groups __lowerCAmelCase : List[Any] = num_attention_heads __lowerCAmelCase : Dict = intermediate_size __lowerCAmelCase : List[str] = hidden_act __lowerCAmelCase : Optional[Any] = hidden_dropout_prob __lowerCAmelCase : List[Any] = attention_probs_dropout_prob __lowerCAmelCase : Any = max_position_embeddings __lowerCAmelCase : str = type_vocab_size __lowerCAmelCase : List[Any] = type_sequence_label_size __lowerCAmelCase : List[Any] = initializer_range __lowerCAmelCase : Tuple = num_labels __lowerCAmelCase : int = num_choices __lowerCAmelCase : Dict = scope def __lowerCamelCase ( self ): __lowerCAmelCase : Dict = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size ) __lowerCAmelCase : Union[str, Any] = None if self.use_input_mask: __lowerCAmelCase : List[Any] = random_attention_mask([self.batch_size, self.seq_length] ) __lowerCAmelCase : Any = None if self.use_token_type_ids: __lowerCAmelCase : List[str] = ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size ) __lowerCAmelCase : Optional[int] = None __lowerCAmelCase : Optional[Any] = None __lowerCAmelCase : Any = None if self.use_labels: __lowerCAmelCase : List[str] = ids_tensor([self.batch_size] , self.type_sequence_label_size ) __lowerCAmelCase : Optional[int] = ids_tensor([self.batch_size, self.seq_length] , self.num_labels ) __lowerCAmelCase : int = ids_tensor([self.batch_size] , self.num_choices ) __lowerCAmelCase : Any = self.get_config() return config, input_ids, token_type_ids, input_mask, sequence_labels, token_labels, choice_labels def __lowerCamelCase ( self ): return AlbertConfig( vocab_size=self.vocab_size , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , max_position_embeddings=self.max_position_embeddings , type_vocab_size=self.type_vocab_size , initializer_range=self.initializer_range , num_hidden_groups=self.num_hidden_groups , ) def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ): __lowerCAmelCase : List[str] = AlbertModel(config=_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() __lowerCAmelCase : Dict = model(_SCREAMING_SNAKE_CASE , attention_mask=_SCREAMING_SNAKE_CASE , token_type_ids=_SCREAMING_SNAKE_CASE ) __lowerCAmelCase : Optional[Any] = model(_SCREAMING_SNAKE_CASE , token_type_ids=_SCREAMING_SNAKE_CASE ) __lowerCAmelCase : List[Any] = model(_SCREAMING_SNAKE_CASE ) self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) ) self.parent.assertEqual(result.pooler_output.shape , (self.batch_size, self.hidden_size) ) def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ): __lowerCAmelCase : str = AlbertForPreTraining(config=_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() __lowerCAmelCase : Any = model( _SCREAMING_SNAKE_CASE , attention_mask=_SCREAMING_SNAKE_CASE , token_type_ids=_SCREAMING_SNAKE_CASE , labels=_SCREAMING_SNAKE_CASE , sentence_order_label=_SCREAMING_SNAKE_CASE , ) self.parent.assertEqual(result.prediction_logits.shape , (self.batch_size, self.seq_length, self.vocab_size) ) self.parent.assertEqual(result.sop_logits.shape , (self.batch_size, config.num_labels) ) def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ): __lowerCAmelCase : Optional[int] = AlbertForMaskedLM(config=_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() __lowerCAmelCase : Any = model(_SCREAMING_SNAKE_CASE , attention_mask=_SCREAMING_SNAKE_CASE , token_type_ids=_SCREAMING_SNAKE_CASE , labels=_SCREAMING_SNAKE_CASE ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.seq_length, self.vocab_size) ) def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ): __lowerCAmelCase : Optional[int] = AlbertForQuestionAnswering(config=_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() __lowerCAmelCase : List[str] = model( _SCREAMING_SNAKE_CASE , attention_mask=_SCREAMING_SNAKE_CASE , token_type_ids=_SCREAMING_SNAKE_CASE , start_positions=_SCREAMING_SNAKE_CASE , end_positions=_SCREAMING_SNAKE_CASE , ) self.parent.assertEqual(result.start_logits.shape , (self.batch_size, self.seq_length) ) self.parent.assertEqual(result.end_logits.shape , (self.batch_size, self.seq_length) ) def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ): __lowerCAmelCase : Optional[int] = self.num_labels __lowerCAmelCase : str = AlbertForSequenceClassification(_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() __lowerCAmelCase : str = model(_SCREAMING_SNAKE_CASE , attention_mask=_SCREAMING_SNAKE_CASE , token_type_ids=_SCREAMING_SNAKE_CASE , labels=_SCREAMING_SNAKE_CASE ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_labels) ) def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ): __lowerCAmelCase : Optional[Any] = self.num_labels __lowerCAmelCase : List[str] = AlbertForTokenClassification(config=_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() __lowerCAmelCase : Dict = model(_SCREAMING_SNAKE_CASE , attention_mask=_SCREAMING_SNAKE_CASE , token_type_ids=_SCREAMING_SNAKE_CASE , labels=_SCREAMING_SNAKE_CASE ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.seq_length, self.num_labels) ) def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ): __lowerCAmelCase : str = self.num_choices __lowerCAmelCase : Dict = AlbertForMultipleChoice(config=_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() __lowerCAmelCase : Union[str, Any] = input_ids.unsqueeze(1 ).expand(-1 , self.num_choices , -1 ).contiguous() __lowerCAmelCase : Dict = token_type_ids.unsqueeze(1 ).expand(-1 , self.num_choices , -1 ).contiguous() __lowerCAmelCase : List[str] = input_mask.unsqueeze(1 ).expand(-1 , self.num_choices , -1 ).contiguous() __lowerCAmelCase : Dict = model( _SCREAMING_SNAKE_CASE , attention_mask=_SCREAMING_SNAKE_CASE , token_type_ids=_SCREAMING_SNAKE_CASE , labels=_SCREAMING_SNAKE_CASE , ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_choices) ) def __lowerCamelCase ( self ): __lowerCAmelCase : List[Any] = self.prepare_config_and_inputs() ( ( __lowerCAmelCase ) , ( __lowerCAmelCase ) , ( __lowerCAmelCase ) , ( __lowerCAmelCase ) , ( __lowerCAmelCase ) , ( __lowerCAmelCase ) , ( __lowerCAmelCase ) , ) : int = config_and_inputs __lowerCAmelCase : Tuple = {'input_ids': input_ids, 'token_type_ids': token_type_ids, 'attention_mask': input_mask} return config, inputs_dict @require_torch class A__ ( _lowerCamelCase , _lowerCamelCase , unittest.TestCase): A_ : List[str] = ( ( AlbertModel, AlbertForPreTraining, AlbertForMaskedLM, AlbertForMultipleChoice, AlbertForSequenceClassification, AlbertForTokenClassification, AlbertForQuestionAnswering, ) if is_torch_available() else () ) A_ : str = ( { 'feature-extraction': AlbertModel, 'fill-mask': AlbertForMaskedLM, 'question-answering': AlbertForQuestionAnswering, 'text-classification': AlbertForSequenceClassification, 'token-classification': AlbertForTokenClassification, 'zero-shot': AlbertForSequenceClassification, } if is_torch_available() else {} ) A_ : Union[str, Any] = True def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE=False ): __lowerCAmelCase : Optional[Any] = super()._prepare_for_class(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , return_labels=_SCREAMING_SNAKE_CASE ) if return_labels: if model_class in get_values(_SCREAMING_SNAKE_CASE ): __lowerCAmelCase : List[Any] = torch.zeros( (self.model_tester.batch_size, self.model_tester.seq_length) , dtype=torch.long , device=_SCREAMING_SNAKE_CASE ) __lowerCAmelCase : List[Any] = torch.zeros( self.model_tester.batch_size , dtype=torch.long , device=_SCREAMING_SNAKE_CASE ) return inputs_dict def __lowerCamelCase ( self ): __lowerCAmelCase : List[str] = AlbertModelTester(self ) __lowerCAmelCase : List[str] = ConfigTester(self , config_class=_SCREAMING_SNAKE_CASE , hidden_size=37 ) def __lowerCamelCase ( self ): self.config_tester.run_common_tests() def __lowerCamelCase ( self ): __lowerCAmelCase : Any = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(*_SCREAMING_SNAKE_CASE ) def __lowerCamelCase ( self ): __lowerCAmelCase : Tuple = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_pretraining(*_SCREAMING_SNAKE_CASE ) def __lowerCamelCase ( self ): __lowerCAmelCase : Tuple = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_masked_lm(*_SCREAMING_SNAKE_CASE ) def __lowerCamelCase ( self ): __lowerCAmelCase : Optional[Any] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_multiple_choice(*_SCREAMING_SNAKE_CASE ) def __lowerCamelCase ( self ): __lowerCAmelCase : List[Any] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_question_answering(*_SCREAMING_SNAKE_CASE ) def __lowerCamelCase ( self ): __lowerCAmelCase : Dict = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_sequence_classification(*_SCREAMING_SNAKE_CASE ) def __lowerCamelCase ( self ): __lowerCAmelCase : Optional[Any] = self.model_tester.prepare_config_and_inputs() for type in ["absolute", "relative_key", "relative_key_query"]: __lowerCAmelCase : Optional[Any] = type self.model_tester.create_and_check_model(*_SCREAMING_SNAKE_CASE ) @slow def __lowerCamelCase ( self ): for model_name in ALBERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: __lowerCAmelCase : Optional[int] = AlbertModel.from_pretrained(_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) @require_torch class A__ ( unittest.TestCase): @slow def __lowerCamelCase ( self ): __lowerCAmelCase : str = AlbertModel.from_pretrained('albert-base-v2' ) __lowerCAmelCase : List[str] = torch.tensor([[0, 3_45, 2_32, 3_28, 7_40, 1_40, 16_95, 69, 60_78, 15_88, 2]] ) __lowerCAmelCase : Optional[Any] = torch.tensor([[0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]] ) with torch.no_grad(): __lowerCAmelCase : Dict = model(_SCREAMING_SNAKE_CASE , attention_mask=_SCREAMING_SNAKE_CASE )[0] __lowerCAmelCase : Dict = torch.Size((1, 11, 7_68) ) self.assertEqual(output.shape , _SCREAMING_SNAKE_CASE ) __lowerCAmelCase : List[Any] = torch.tensor( [[[-0.6513, 1.5035, -0.2766], [-0.6515, 1.5046, -0.2780], [-0.6512, 1.5049, -0.2784]]] ) self.assertTrue(torch.allclose(output[:, 1:4, 1:4] , _SCREAMING_SNAKE_CASE , atol=1E-4 ) )

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'''simple docstring''' from PIL import Image def UpperCamelCase__ ( lowerCAmelCase , lowerCAmelCase ): """simple docstring""" _lowerCAmelCase = (2_59 * (level + 2_55)) / (2_55 * (2_59 - level)) def contrast(lowerCAmelCase ) -> int: return int(1_28 + factor * (c - 1_28) ) return img.point(__lowerCamelCase ) if __name__ == "__main__": # Load image with Image.open('''image_data/lena.jpg''') as img: # Change contrast to 170 A__ : Dict =change_contrast(img, 1_70) cont_img.save('''image_data/lena_high_contrast.png''', format='''png''')

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"""simple docstring""" def __UpperCAmelCase ( __lowerCamelCase , __lowerCamelCase ) -> List[Any]: print('''\nThe shortest path matrix using Floyd Warshall algorithm\n''' ) for i in range(__lowerCamelCase ): for j in range(__lowerCamelCase ): if dist[i][j] != float('''inf''' ): print(int(dist[i][j] ) , end='''\t''' ) else: print('''INF''' , end='''\t''' ) print() def __UpperCAmelCase ( __lowerCamelCase , __lowerCamelCase ) -> Optional[Any]: lowercase__ : str = [[float('''inf''' ) for _ in range(__lowerCamelCase )] for _ in range(__lowerCamelCase )] for i in range(__lowerCamelCase ): for j in range(__lowerCamelCase ): lowercase__ : List[str] = graph[i][j] # check vertex k against all other vertices (i, j) for k in range(__lowerCamelCase ): # looping through rows of graph array for i in range(__lowerCamelCase ): # looping through columns of graph array for j in range(__lowerCamelCase ): if ( dist[i][k] != float('''inf''' ) and dist[k][j] != float('''inf''' ) and dist[i][k] + dist[k][j] < dist[i][j] ): lowercase__ : str = dist[i][k] + dist[k][j] _print_dist(__lowerCamelCase , __lowerCamelCase ) return dist, v if __name__ == "__main__": lowerCAmelCase_ = int(input('Enter number of vertices: ')) lowerCAmelCase_ = int(input('Enter number of edges: ')) lowerCAmelCase_ = [[float('inf') for i in range(v)] for j in range(v)] for i in range(v): lowerCAmelCase_ = 0.0 # src and dst are indices that must be within the array size graph[e][v] # failure to follow this will result in an error for i in range(e): print('\nEdge ', i + 1) lowerCAmelCase_ = int(input('Enter source:')) lowerCAmelCase_ = int(input('Enter destination:')) lowerCAmelCase_ = float(input('Enter weight:')) lowerCAmelCase_ = weight floyd_warshall(graph, v) # Example Input # Enter number of vertices: 3 # Enter number of edges: 2 # # generated graph from vertex and edge inputs # [[inf, inf, inf], [inf, inf, inf], [inf, inf, inf]] # [[0.0, inf, inf], [inf, 0.0, inf], [inf, inf, 0.0]] # specify source, destination and weight for edge #1 # Edge 1 # Enter source:1 # Enter destination:2 # Enter weight:2 # specify source, destination and weight for edge #2 # Edge 2 # Enter source:2 # Enter destination:1 # Enter weight:1 # # Expected Output from the vertice, edge and src, dst, weight inputs!! # 0 INF INF # INF 0 2 # INF 1 0

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import unittest import numpy as np import torch from diffusers import PNDMPipeline, PNDMScheduler, UNetaDModel from diffusers.utils.testing_utils import enable_full_determinism, require_torch, slow, torch_device enable_full_determinism() class __snake_case ( unittest.TestCase ): @property def __a ( self : Any ): """simple docstring""" torch.manual_seed(0 ) SCREAMING_SNAKE_CASE__ = UNetaDModel( block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=3 , out_channels=3 , down_block_types=("""DownBlock2D""", """AttnDownBlock2D""") , up_block_types=("""AttnUpBlock2D""", """UpBlock2D""") , ) return model def __a ( self : Dict ): """simple docstring""" SCREAMING_SNAKE_CASE__ = self.dummy_uncond_unet SCREAMING_SNAKE_CASE__ = PNDMScheduler() SCREAMING_SNAKE_CASE__ = PNDMPipeline(unet=_lowercase , scheduler=_lowercase ) pndm.to(_lowercase ) pndm.set_progress_bar_config(disable=_lowercase ) SCREAMING_SNAKE_CASE__ = torch.manual_seed(0 ) SCREAMING_SNAKE_CASE__ = pndm(generator=_lowercase , num_inference_steps=20 , output_type="""numpy""" ).images SCREAMING_SNAKE_CASE__ = torch.manual_seed(0 ) SCREAMING_SNAKE_CASE__ = pndm(generator=_lowercase , num_inference_steps=20 , output_type="""numpy""" , return_dict=_lowercase )[0] SCREAMING_SNAKE_CASE__ = image[0, -3:, -3:, -1] SCREAMING_SNAKE_CASE__ = image_from_tuple[0, -3:, -3:, -1] assert image.shape == (1, 32, 32, 3) SCREAMING_SNAKE_CASE__ = np.array([1.0, 1.0, 0.0, 1.0, 0.0, 1.0, 0.0, 0.0, 0.0] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2 assert np.abs(image_from_tuple_slice.flatten() - expected_slice ).max() < 1E-2 @slow @require_torch class __snake_case ( unittest.TestCase ): def __a ( self : Optional[Any] ): """simple docstring""" SCREAMING_SNAKE_CASE__ = """google/ddpm-cifar10-32""" SCREAMING_SNAKE_CASE__ = UNetaDModel.from_pretrained(_lowercase ) SCREAMING_SNAKE_CASE__ = PNDMScheduler() SCREAMING_SNAKE_CASE__ = PNDMPipeline(unet=_lowercase , scheduler=_lowercase ) pndm.to(_lowercase ) pndm.set_progress_bar_config(disable=_lowercase ) SCREAMING_SNAKE_CASE__ = torch.manual_seed(0 ) SCREAMING_SNAKE_CASE__ = pndm(generator=_lowercase , output_type="""numpy""" ).images SCREAMING_SNAKE_CASE__ = image[0, -3:, -3:, -1] assert image.shape == (1, 32, 32, 3) SCREAMING_SNAKE_CASE__ = np.array([0.15_64, 0.1_46_45, 0.14_06, 0.1_47_15, 0.1_24_25, 0.1_40_45, 0.1_31_15, 0.1_21_75, 0.1_25] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2

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from __future__ import annotations __lowerCamelCase : Tuple = list[list[int]] # assigning initial values to the grid __lowerCamelCase : Matrix = [ [3, 0, 6, 5, 0, 8, 4, 0, 0], [5, 2, 0, 0, 0, 0, 0, 0, 0], [0, 8, 7, 0, 0, 0, 0, 3, 1], [0, 0, 3, 0, 1, 0, 0, 8, 0], [9, 0, 0, 8, 6, 3, 0, 0, 5], [0, 5, 0, 0, 9, 0, 6, 0, 0], [1, 3, 0, 0, 0, 0, 2, 5, 0], [0, 0, 0, 0, 0, 0, 0, 7, 4], [0, 0, 5, 2, 0, 6, 3, 0, 0], ] # a grid with no solution __lowerCamelCase : Matrix = [ [5, 0, 6, 5, 0, 8, 4, 0, 3], [5, 2, 0, 0, 0, 0, 0, 0, 2], [1, 8, 7, 0, 0, 0, 0, 3, 1], [0, 0, 3, 0, 1, 0, 0, 8, 0], [9, 0, 0, 8, 6, 3, 0, 0, 5], [0, 5, 0, 0, 9, 0, 6, 0, 0], [1, 3, 0, 0, 0, 0, 2, 5, 0], [0, 0, 0, 0, 0, 0, 0, 7, 4], [0, 0, 5, 2, 0, 6, 3, 0, 0], ] def __SCREAMING_SNAKE_CASE ( __UpperCamelCase : Matrix , __UpperCamelCase : int , __UpperCamelCase : int , __UpperCamelCase : int ) -> bool: """simple docstring""" for i in range(9 ): if grid[row][i] == n or grid[i][column] == n: return False for i in range(3 ): for j in range(3 ): if grid[(row - row % 3) + i][(column - column % 3) + j] == n: return False return True def __SCREAMING_SNAKE_CASE ( __UpperCamelCase : Matrix ) -> tuple[int, int] | None: """simple docstring""" for i in range(9 ): for j in range(9 ): if grid[i][j] == 0: return i, j return None def __SCREAMING_SNAKE_CASE ( __UpperCamelCase : Matrix ) -> Matrix | None: """simple docstring""" if location := find_empty_location(__UpperCamelCase ): SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ = location else: # If the location is ``None``, then the grid is solved. return grid for digit in range(1 , 10 ): if is_safe(__UpperCamelCase , __UpperCamelCase , __UpperCamelCase , __UpperCamelCase ): SCREAMING_SNAKE_CASE__ = digit if sudoku(__UpperCamelCase ) is not None: return grid SCREAMING_SNAKE_CASE__ = 0 return None def __SCREAMING_SNAKE_CASE ( __UpperCamelCase : Matrix ) -> None: """simple docstring""" for row in grid: for cell in row: print(__UpperCamelCase , end=""" """ ) print() if __name__ == "__main__": # make a copy of grid so that you can compare with the unmodified grid for example_grid in (initial_grid, no_solution): print('''\nExample grid:\n''' + '''=''' * 20) print_solution(example_grid) print('''\nExample grid solution:''') __lowerCamelCase : str = sudoku(example_grid) if solution is not None: print_solution(solution) else: print('''Cannot find a solution.''')

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import inspect import re from hashlib import shaaaa from typing import Dict, List from .arrow import arrow from .audiofolder import audiofolder from .csv import csv from .imagefolder import imagefolder from .json import json from .pandas import pandas from .parquet import parquet from .sql import sql # noqa F401 from .text import text def __UpperCamelCase ( _A ): lowerCAmelCase_ = [] for line in lines: lowerCAmelCase_ = re.sub(r'''#.*''' , '''''' , _A ) # remove comments if line: filtered_lines.append(_A ) lowerCAmelCase_ = '''\n'''.join(_A ) # Make a hash from all this code lowerCAmelCase_ = full_str.encode('''utf-8''' ) return shaaaa(_A ).hexdigest() # get importable module names and hash for caching _A = { "csv": (csv.__name__, _hash_python_lines(inspect.getsource(csv).splitlines())), "json": (json.__name__, _hash_python_lines(inspect.getsource(json).splitlines())), "pandas": (pandas.__name__, _hash_python_lines(inspect.getsource(pandas).splitlines())), "parquet": (parquet.__name__, _hash_python_lines(inspect.getsource(parquet).splitlines())), "arrow": (arrow.__name__, _hash_python_lines(inspect.getsource(arrow).splitlines())), "text": (text.__name__, _hash_python_lines(inspect.getsource(text).splitlines())), "imagefolder": (imagefolder.__name__, _hash_python_lines(inspect.getsource(imagefolder).splitlines())), "audiofolder": (audiofolder.__name__, _hash_python_lines(inspect.getsource(audiofolder).splitlines())), } # Used to infer the module to use based on the data files extensions _A = { ".csv": ("csv", {}), ".tsv": ("csv", {"sep": "\t"}), ".json": ("json", {}), ".jsonl": ("json", {}), ".parquet": ("parquet", {}), ".arrow": ("arrow", {}), ".txt": ("text", {}), } _EXTENSION_TO_MODULE.update({ext: ('''imagefolder''', {}) for ext in imagefolder.ImageFolder.EXTENSIONS}) _EXTENSION_TO_MODULE.update({ext.upper(): ('''imagefolder''', {}) for ext in imagefolder.ImageFolder.EXTENSIONS}) _EXTENSION_TO_MODULE.update({ext: ('''audiofolder''', {}) for ext in audiofolder.AudioFolder.EXTENSIONS}) _EXTENSION_TO_MODULE.update({ext.upper(): ('''audiofolder''', {}) for ext in audiofolder.AudioFolder.EXTENSIONS}) _A = {"imagefolder", "audiofolder"} # Used to filter data files based on extensions given a module name _A = {} for _ext, (_module, _) in _EXTENSION_TO_MODULE.items(): _MODULE_TO_EXTENSIONS.setdefault(_module, []).append(_ext) _MODULE_TO_EXTENSIONS["imagefolder"].append('''.zip''') _MODULE_TO_EXTENSIONS["audiofolder"].append('''.zip''')

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import os from typing import List, Optional, Union from ...tokenization_utils import PreTrainedTokenizer from ...tokenization_utils_base import AddedToken from ...utils import logging _lowerCamelCase : Optional[Any] = logging.get_logger(__name__) _lowerCamelCase : Dict = {"vocab_file": "vocab.txt"} _lowerCamelCase : List[str] = { "vocab_file": { "facebook/esm2_t6_8M_UR50D": "https://huggingface.co/facebook/esm2_t6_8M_UR50D/resolve/main/vocab.txt", "facebook/esm2_t12_35M_UR50D": "https://huggingface.co/facebook/esm2_t12_35M_UR50D/resolve/main/vocab.txt", }, } _lowerCamelCase : List[Any] = { "facebook/esm2_t6_8M_UR50D": 1_0_2_4, "facebook/esm2_t12_35M_UR50D": 1_0_2_4, } def a__ ( UpperCAmelCase : List[str] ) -> Any: with open(UpperCAmelCase , '''r''' ) as f: UpperCAmelCase : Dict = f.read().splitlines() return [l.strip() for l in lines] class __UpperCAmelCase ( lowerCamelCase__ ): UpperCamelCase = VOCAB_FILES_NAMES UpperCamelCase = PRETRAINED_VOCAB_FILES_MAP UpperCamelCase = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES UpperCamelCase = ["""input_ids""", """attention_mask"""] def __init__( self : Any, __A : Dict, __A : List[Any]="<unk>", __A : List[str]="<cls>", __A : Any="<pad>", __A : Union[str, Any]="<mask>", __A : int="<eos>", **__A : Tuple, ): super().__init__(**__A ) UpperCAmelCase : Tuple = load_vocab_file(__A ) UpperCAmelCase : List[Any] = dict(enumerate(self.all_tokens ) ) UpperCAmelCase : str = {tok: ind for ind, tok in enumerate(self.all_tokens )} UpperCAmelCase : Union[str, Any] = unk_token UpperCAmelCase : Optional[Any] = cls_token UpperCAmelCase : Optional[int] = pad_token UpperCAmelCase : Optional[int] = mask_token UpperCAmelCase : List[str] = eos_token UpperCAmelCase : Optional[Any] = self.all_tokens self._create_trie(self.unique_no_split_tokens ) def __magic_name__ ( self : Tuple, __A : int ): return self._id_to_token.get(__A, self.unk_token ) def __magic_name__ ( self : List[Any], __A : str ): return self._token_to_id.get(__A, self._token_to_id.get(self.unk_token ) ) def __magic_name__ ( self : Any, __A : Optional[Any], **__A : Union[str, Any] ): return text.split() def __magic_name__ ( self : Optional[int], __A : Dict=False ): return len(self._id_to_token ) def __magic_name__ ( self : int ): return {token: i for i, token in enumerate(self.all_tokens )} def __magic_name__ ( self : Tuple, __A : str ): return self._token_to_id.get(__A, self._token_to_id.get(self.unk_token ) ) def __magic_name__ ( self : Any, __A : int ): return self._id_to_token.get(__A, self.unk_token ) def __magic_name__ ( self : Union[str, Any], __A : List[int], __A : Optional[List[int]] = None ): UpperCAmelCase : Optional[int] = [self.cls_token_id] UpperCAmelCase : Optional[int] = [self.eos_token_id] # No sep token in ESM vocabulary if token_ids_a is None: if self.eos_token_id is None: return cls + token_ids_a else: return cls + token_ids_a + sep elif self.eos_token_id is None: raise ValueError('''Cannot tokenize multiple sequences when EOS token is not set!''' ) return cls + token_ids_a + sep + token_ids_a + sep # Multiple inputs always have an EOS token def __magic_name__ ( self : Any, __A : List, __A : Optional[List] = None, __A : bool = False ): if already_has_special_tokens: if token_ids_a is not None: raise ValueError( '''You should not supply a second sequence if the provided sequence of ''' '''ids is already formatted with special tokens for the model.''' ) return [1 if token in self.all_special_ids else 0 for token in token_ids_a] UpperCAmelCase : Dict = [1] + ([0] * len(__A )) + [1] if token_ids_a is not None: mask += [0] * len(__A ) + [1] return mask def __magic_name__ ( self : Optional[int], __A : List[Any], __A : Dict ): UpperCAmelCase : Union[str, Any] = os.path.join(__A, (filename_prefix + '''-''' if filename_prefix else '''''') + '''vocab.txt''' ) with open(__A, '''w''' ) as f: f.write('''\n'''.join(self.all_tokens ) ) return (vocab_file,) @property def __magic_name__ ( self : Dict ): return self.get_vocab_size(with_added_tokens=__A ) def __magic_name__ ( self : Optional[int], __A : Union[List[str], List[AddedToken]], __A : bool = False ): return super()._add_tokens(__A, special_tokens=__A )

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"""simple docstring""" from ..utils import DummyObject, requires_backends class _lowerCamelCase ( metaclass=_lowercase ): UpperCAmelCase_ = ["speech"] def __init__(self , *__a , **__a ) -> int: requires_backends(self , ["speech"] ) class _lowerCamelCase ( metaclass=_lowercase ): UpperCAmelCase_ = ["speech"] def __init__(self , *__a , **__a ) -> List[Any]: requires_backends(self , ["speech"] )

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"""simple docstring""" from collections import defaultdict from typing import Optional from ..image_utils import load_image from ..utils import ( add_end_docstrings, is_torch_available, logging, requires_backends, ) from .base import PIPELINE_INIT_ARGS, ChunkPipeline if is_torch_available(): import torch from ..models.auto.modeling_auto import MODEL_FOR_MASK_GENERATION_MAPPING lowerCAmelCase__ = logging.get_logger(__name__) @add_end_docstrings(_lowercase ) class _lowerCamelCase ( _lowercase ): def __init__(self , **__a ) -> Optional[int]: super().__init__(**__a ) requires_backends(self , "vision" ) requires_backends(self , "torch" ) if self.framework != "pt": raise ValueError(F"The {self.__class__} is only available in PyTorch." ) self.check_model_type(__a ) def snake_case_ (self , **__a ) -> List[Any]: UpperCamelCase = {} UpperCamelCase = {} UpperCamelCase = {} # preprocess args if "points_per_batch" in kwargs: UpperCamelCase = kwargs["points_per_batch"] if "points_per_crop" in kwargs: UpperCamelCase = kwargs["points_per_crop"] if "crops_n_layers" in kwargs: UpperCamelCase = kwargs["crops_n_layers"] if "crop_overlap_ratio" in kwargs: UpperCamelCase = kwargs["crop_overlap_ratio"] if "crop_n_points_downscale_factor" in kwargs: UpperCamelCase = kwargs["crop_n_points_downscale_factor"] # postprocess args if "pred_iou_thresh" in kwargs: UpperCamelCase = kwargs["pred_iou_thresh"] if "stability_score_offset" in kwargs: UpperCamelCase = kwargs["stability_score_offset"] if "mask_threshold" in kwargs: UpperCamelCase = kwargs["mask_threshold"] if "stability_score_thresh" in kwargs: UpperCamelCase = kwargs["stability_score_thresh"] if "crops_nms_thresh" in kwargs: UpperCamelCase = kwargs["crops_nms_thresh"] if "output_rle_mask" in kwargs: UpperCamelCase = kwargs["output_rle_mask"] if "output_bboxes_mask" in kwargs: UpperCamelCase = kwargs["output_bboxes_mask"] return preprocess_kwargs, forward_params, postprocess_kwargs def __call__(self , __a , *__a , __a=None , __a=None , **__a ) -> str: return super().__call__(__a , *__a , num_workers=__a , batch_size=__a , **__a ) def snake_case_ (self , __a , __a=64 , __a = 0 , __a = 5_12 / 15_00 , __a = 32 , __a = 1 , ) -> List[str]: UpperCamelCase = load_image(__a ) UpperCamelCase = self.image_processor.size["longest_edge"] UpperCamelCase , UpperCamelCase , UpperCamelCase , UpperCamelCase = self.image_processor.generate_crop_boxes( __a , __a , __a , __a , __a , __a ) UpperCamelCase = self.image_processor(images=__a , return_tensors="pt" ) with self.device_placement(): if self.framework == "pt": UpperCamelCase = self.get_inference_context() with inference_context(): UpperCamelCase = self._ensure_tensor_on_device(__a , device=self.device ) UpperCamelCase = self.model.get_image_embeddings(model_inputs.pop("pixel_values" ) ) UpperCamelCase = image_embeddings UpperCamelCase = grid_points.shape[1] UpperCamelCase = points_per_batch if points_per_batch is not None else n_points if points_per_batch <= 0: raise ValueError( "Cannot have points_per_batch<=0. Must be >=1 to returned batched outputs. " "To return all points at once, set points_per_batch to None" ) for i in range(0 , __a , __a ): UpperCamelCase = grid_points[:, i : i + points_per_batch, :, :] UpperCamelCase = input_labels[:, i : i + points_per_batch] UpperCamelCase = i == n_points - points_per_batch yield { "input_points": batched_points, "input_labels": labels, "input_boxes": crop_boxes, "is_last": is_last, **model_inputs, } def snake_case_ (self , __a , __a=0.88 , __a=0.95 , __a=0 , __a=1 , ) -> int: UpperCamelCase = model_inputs.pop("input_boxes" ) UpperCamelCase = model_inputs.pop("is_last" ) UpperCamelCase = model_inputs.pop("original_sizes" ).tolist() UpperCamelCase = model_inputs.pop("reshaped_input_sizes" ).tolist() UpperCamelCase = self.model(**__a ) # post processing happens here in order to avoid CPU GPU copies of ALL the masks UpperCamelCase = model_outputs["pred_masks"] UpperCamelCase = self.image_processor.post_process_masks( __a , __a , __a , __a , binarize=__a ) UpperCamelCase = model_outputs["iou_scores"] UpperCamelCase , UpperCamelCase , UpperCamelCase = self.image_processor.filter_masks( masks[0] , iou_scores[0] , original_sizes[0] , input_boxes[0] , __a , __a , __a , __a , ) return { "masks": masks, "is_last": is_last, "boxes": boxes, "iou_scores": iou_scores, } def snake_case_ (self , __a , __a=False , __a=False , __a=0.7 , ) -> Optional[int]: UpperCamelCase = [] UpperCamelCase = [] UpperCamelCase = [] for model_output in model_outputs: all_scores.append(model_output.pop("iou_scores" ) ) all_masks.extend(model_output.pop("masks" ) ) all_boxes.append(model_output.pop("boxes" ) ) UpperCamelCase = torch.cat(__a ) UpperCamelCase = torch.cat(__a ) UpperCamelCase , UpperCamelCase , UpperCamelCase , UpperCamelCase = self.image_processor.post_process_for_mask_generation( __a , __a , __a , __a ) UpperCamelCase = defaultdict(__a ) for output in model_outputs: for k, v in output.items(): extra[k].append(__a ) UpperCamelCase = {} if output_rle_mask: UpperCamelCase = rle_mask if output_bboxes_mask: UpperCamelCase = bounding_boxes return {"masks": output_masks, "scores": iou_scores, **optional, **extra}

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import gc import unittest import numpy as np import torch from diffusers import DanceDiffusionPipeline, IPNDMScheduler, UNetaDModel from diffusers.utils import slow, torch_device from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu, skip_mps from ..pipeline_params import UNCONDITIONAL_AUDIO_GENERATION_BATCH_PARAMS, UNCONDITIONAL_AUDIO_GENERATION_PARAMS from ..test_pipelines_common import PipelineTesterMixin enable_full_determinism() class __lowerCAmelCase ( UpperCAmelCase__ , unittest.TestCase ): snake_case_ : Any = DanceDiffusionPipeline snake_case_ : Optional[int] = UNCONDITIONAL_AUDIO_GENERATION_PARAMS snake_case_ : Dict = PipelineTesterMixin.required_optional_params - { "callback", "latents", "callback_steps", "output_type", "num_images_per_prompt", } snake_case_ : Optional[Any] = UNCONDITIONAL_AUDIO_GENERATION_BATCH_PARAMS snake_case_ : Dict = False snake_case_ : Tuple = False def UpperCamelCase ( self : str ): """simple docstring""" torch.manual_seed(0 ) _UpperCAmelCase = UNetaDModel( block_out_channels=(32, 32, 64) , extra_in_channels=16 , sample_size=512 , sample_rate=16_000 , in_channels=2 , out_channels=2 , flip_sin_to_cos=snake_case__ , use_timestep_embedding=snake_case__ , time_embedding_type="fourier" , mid_block_type="UNetMidBlock1D" , down_block_types=("DownBlock1DNoSkip", "DownBlock1D", "AttnDownBlock1D") , up_block_types=("AttnUpBlock1D", "UpBlock1D", "UpBlock1DNoSkip") , ) _UpperCAmelCase = IPNDMScheduler() _UpperCAmelCase = { "unet": unet, "scheduler": scheduler, } return components def UpperCamelCase ( self : Dict , snake_case__ : Dict , snake_case__ : Tuple=0 ): """simple docstring""" if str(snake_case__ ).startswith("mps" ): _UpperCAmelCase = torch.manual_seed(snake_case__ ) else: _UpperCAmelCase = torch.Generator(device=snake_case__ ).manual_seed(snake_case__ ) _UpperCAmelCase = { "batch_size": 1, "generator": generator, "num_inference_steps": 4, } return inputs def UpperCamelCase ( self : Tuple ): """simple docstring""" _UpperCAmelCase = "cpu" # ensure determinism for the device-dependent torch.Generator _UpperCAmelCase = self.get_dummy_components() _UpperCAmelCase = DanceDiffusionPipeline(**snake_case__ ) _UpperCAmelCase = pipe.to(snake_case__ ) pipe.set_progress_bar_config(disable=snake_case__ ) _UpperCAmelCase = self.get_dummy_inputs(snake_case__ ) _UpperCAmelCase = pipe(**snake_case__ ) _UpperCAmelCase = output.audios _UpperCAmelCase = audio[0, -3:, -3:] assert audio.shape == (1, 2, components["unet"].sample_size) _UpperCAmelCase = np.array([-0.7_265, 1.0_000, -0.8_388, 0.1_175, 0.9_498, -1.0_000] ) assert np.abs(audio_slice.flatten() - expected_slice ).max() < 1e-2 @skip_mps def UpperCamelCase ( self : str ): """simple docstring""" return super().test_save_load_local() @skip_mps def UpperCamelCase ( self : str ): """simple docstring""" return super().test_dict_tuple_outputs_equivalent(expected_max_difference=3e-3 ) @skip_mps def UpperCamelCase ( self : List[str] ): """simple docstring""" return super().test_save_load_optional_components() @skip_mps def UpperCamelCase ( self : Optional[int] ): """simple docstring""" return super().test_attention_slicing_forward_pass() def UpperCamelCase ( self : List[Any] ): """simple docstring""" super().test_inference_batch_single_identical(expected_max_diff=3e-3 ) @slow @require_torch_gpu class __lowerCAmelCase ( unittest.TestCase ): def UpperCamelCase ( self : str ): """simple docstring""" super().tearDown() gc.collect() torch.cuda.empty_cache() def UpperCamelCase ( self : int ): """simple docstring""" _UpperCAmelCase = torch_device _UpperCAmelCase = DanceDiffusionPipeline.from_pretrained("harmonai/maestro-150k" ) _UpperCAmelCase = pipe.to(snake_case__ ) pipe.set_progress_bar_config(disable=snake_case__ ) _UpperCAmelCase = torch.manual_seed(0 ) _UpperCAmelCase = pipe(generator=snake_case__ , num_inference_steps=100 , audio_length_in_s=4.096 ) _UpperCAmelCase = output.audios _UpperCAmelCase = audio[0, -3:, -3:] assert audio.shape == (1, 2, pipe.unet.sample_size) _UpperCAmelCase = np.array([-0.0_192, -0.0_231, -0.0_318, -0.0_059, 0.0_002, -0.0_020] ) assert np.abs(audio_slice.flatten() - expected_slice ).max() < 1e-2 def UpperCamelCase ( self : Union[str, Any] ): """simple docstring""" _UpperCAmelCase = torch_device _UpperCAmelCase = DanceDiffusionPipeline.from_pretrained("harmonai/maestro-150k" , torch_dtype=torch.floataa ) _UpperCAmelCase = pipe.to(snake_case__ ) pipe.set_progress_bar_config(disable=snake_case__ ) _UpperCAmelCase = torch.manual_seed(0 ) _UpperCAmelCase = pipe(generator=snake_case__ , num_inference_steps=100 , audio_length_in_s=4.096 ) _UpperCAmelCase = output.audios _UpperCAmelCase = audio[0, -3:, -3:] assert audio.shape == (1, 2, pipe.unet.sample_size) _UpperCAmelCase = np.array([-0.0_367, -0.0_488, -0.0_771, -0.0_525, -0.0_444, -0.0_341] ) assert np.abs(audio_slice.flatten() - expected_slice ).max() < 1e-2

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import importlib import os from dataclasses import dataclass from enum import Enum from typing import Any, Dict, Optional, Union import torch from ..utils import BaseOutput lowercase_ : str = 'scheduler_config.json' class __lowerCAmelCase ( UpperCAmelCase__ ): snake_case_ : List[str] = 1 snake_case_ : Tuple = 2 snake_case_ : List[Any] = 3 snake_case_ : Union[str, Any] = 4 snake_case_ : Optional[int] = 5 snake_case_ : str = 6 snake_case_ : Any = 7 snake_case_ : List[str] = 8 snake_case_ : Optional[Any] = 9 snake_case_ : Any = 10 snake_case_ : int = 11 snake_case_ : int = 12 snake_case_ : Union[str, Any] = 13 snake_case_ : int = 14 @dataclass class __lowerCAmelCase ( UpperCAmelCase__ ): snake_case_ : torch.FloatTensor class __lowerCAmelCase : snake_case_ : List[str] = SCHEDULER_CONFIG_NAME snake_case_ : Union[str, Any] = [] snake_case_ : str = True @classmethod def UpperCamelCase ( cls : List[str] , snake_case__ : Dict[str, Any] = None , snake_case__ : Optional[str] = None , snake_case__ : int=False , **snake_case__ : Tuple , ): """simple docstring""" _UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = cls.load_config( pretrained_model_name_or_path=snake_case__ , subfolder=snake_case__ , return_unused_kwargs=snake_case__ , return_commit_hash=snake_case__ , **snake_case__ , ) return cls.from_config(snake_case__ , return_unused_kwargs=snake_case__ , **snake_case__ ) def UpperCamelCase ( self : List[str] , snake_case__ : Union[str, os.PathLike] , snake_case__ : bool = False , **snake_case__ : List[Any] ): """simple docstring""" self.save_config(save_directory=snake_case__ , push_to_hub=snake_case__ , **snake_case__ ) @property def UpperCamelCase ( self : Optional[Any] ): """simple docstring""" return self._get_compatibles() @classmethod def UpperCamelCase ( cls : str ): """simple docstring""" _UpperCAmelCase = list(set([cls.__name__] + cls._compatibles ) ) _UpperCAmelCase = importlib.import_module(__name__.split("." )[0] ) _UpperCAmelCase = [ getattr(snake_case__ , snake_case__ ) for c in compatible_classes_str if hasattr(snake_case__ , snake_case__ ) ] return compatible_classes

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import hashlib import unittest from transformers import MODEL_FOR_DEPTH_ESTIMATION_MAPPING, is_torch_available, is_vision_available from transformers.pipelines import DepthEstimationPipeline, pipeline from transformers.testing_utils import ( is_pipeline_test, nested_simplify, require_tf, require_timm, require_torch, require_vision, slow, ) from .test_pipelines_common import ANY if is_torch_available(): import torch if is_vision_available(): from PIL import Image else: class __SCREAMING_SNAKE_CASE : @staticmethod def UpperCamelCase__ ( *_UpperCamelCase , **_UpperCamelCase ): """simple docstring""" pass def _UpperCamelCase ( UpperCamelCase_ : Image ) -> str: """simple docstring""" lowerCAmelCase__ = hashlib.mda(image.tobytes() ) return m.hexdigest() @is_pipeline_test @require_vision @require_timm @require_torch class __SCREAMING_SNAKE_CASE ( unittest.TestCase): _SCREAMING_SNAKE_CASE : List[Any] = MODEL_FOR_DEPTH_ESTIMATION_MAPPING def UpperCamelCase__ ( self , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase ): """simple docstring""" lowerCAmelCase__ = DepthEstimationPipeline(model=_UpperCamelCase , image_processor=_UpperCamelCase ) return depth_estimator, [ "./tests/fixtures/tests_samples/COCO/000000039769.png", "./tests/fixtures/tests_samples/COCO/000000039769.png", ] def UpperCamelCase__ ( self , _UpperCamelCase , _UpperCamelCase ): """simple docstring""" lowerCAmelCase__ = depth_estimator('./tests/fixtures/tests_samples/COCO/000000039769.png' ) self.assertEqual({'predicted_depth': ANY(torch.Tensor ), 'depth': ANY(Image.Image )} , _UpperCamelCase ) import datasets lowerCAmelCase__ = datasets.load_dataset('hf-internal-testing/fixtures_image_utils' , 'image' , split='test' ) lowerCAmelCase__ = depth_estimator( [ Image.open('./tests/fixtures/tests_samples/COCO/000000039769.png' ), 'http://images.cocodataset.org/val2017/000000039769.jpg', # RGBA dataset[0]['file'], # LA dataset[1]['file'], # L dataset[2]['file'], ] ) self.assertEqual( [ {'predicted_depth': ANY(torch.Tensor ), 'depth': ANY(Image.Image )}, {'predicted_depth': ANY(torch.Tensor ), 'depth': ANY(Image.Image )}, {'predicted_depth': ANY(torch.Tensor ), 'depth': ANY(Image.Image )}, {'predicted_depth': ANY(torch.Tensor ), 'depth': ANY(Image.Image )}, {'predicted_depth': ANY(torch.Tensor ), 'depth': ANY(Image.Image )}, ] , _UpperCamelCase , ) @require_tf @unittest.skip('Depth estimation is not implemented in TF' ) def UpperCamelCase__ ( self ): """simple docstring""" pass @slow @require_torch def UpperCamelCase__ ( self ): """simple docstring""" lowerCAmelCase__ = 'Intel/dpt-large' lowerCAmelCase__ = pipeline('depth-estimation' , model=_UpperCamelCase ) lowerCAmelCase__ = depth_estimator('http://images.cocodataset.org/val2017/000000039769.jpg' ) lowerCAmelCase__ = hashimage(outputs['depth'] ) # This seems flaky. # self.assertEqual(outputs["depth"], "1a39394e282e9f3b0741a90b9f108977") self.assertEqual(nested_simplify(outputs['predicted_depth'].max().item() ) , 29.3_04 ) self.assertEqual(nested_simplify(outputs['predicted_depth'].min().item() ) , 2.6_62 ) @require_torch def UpperCamelCase__ ( self ): """simple docstring""" # This is highly irregular to have no small tests. self.skipTest('There is not hf-internal-testing tiny model for either GLPN nor DPT' )

122

from typing import TYPE_CHECKING # rely on isort to merge the imports from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available __snake_case : Dict = {"""configuration_focalnet""": ["""FOCALNET_PRETRAINED_CONFIG_ARCHIVE_MAP""", """FocalNetConfig"""]} try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: __snake_case : str = [ """FOCALNET_PRETRAINED_MODEL_ARCHIVE_LIST""", """FocalNetForImageClassification""", """FocalNetForMaskedImageModeling""", """FocalNetBackbone""", """FocalNetModel""", """FocalNetPreTrainedModel""", ] if TYPE_CHECKING: from .configuration_focalnet import FOCALNET_PRETRAINED_CONFIG_ARCHIVE_MAP, FocalNetConfig try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_focalnet import ( FOCALNET_PRETRAINED_MODEL_ARCHIVE_LIST, FocalNetBackbone, FocalNetForImageClassification, FocalNetForMaskedImageModeling, FocalNetModel, FocalNetPreTrainedModel, ) else: import sys __snake_case : List[Any] = _LazyModule(__name__, globals()["""__file__"""], _import_structure, module_spec=__spec__)

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import os def lowerCamelCase__ ( ): with open(os.path.dirname(_a) + "/p022_names.txt") as file: SCREAMING_SNAKE_CASE : List[str] = str(file.readlines()[0]) SCREAMING_SNAKE_CASE : List[Any] = names.replace("\"" , "").split(",") names.sort() SCREAMING_SNAKE_CASE : Dict = 0 SCREAMING_SNAKE_CASE : Dict = 0 for i, name in enumerate(_a): for letter in name: name_score += ord(_a) - 64 total_score += (i + 1) * name_score SCREAMING_SNAKE_CASE : str = 0 return total_score if __name__ == "__main__": print(solution())

76

import os def lowerCamelCase__ ( ): with open(os.path.dirname(_a) + "/p022_names.txt") as file: SCREAMING_SNAKE_CASE : List[str] = str(file.readlines()[0]) SCREAMING_SNAKE_CASE : List[Any] = names.replace("\"" , "").split(",") names.sort() SCREAMING_SNAKE_CASE : Dict = 0 SCREAMING_SNAKE_CASE : Dict = 0 for i, name in enumerate(_a): for letter in name: name_score += ord(_a) - 64 total_score += (i + 1) * name_score SCREAMING_SNAKE_CASE : str = 0 return total_score if __name__ == "__main__": print(solution())

76

1

"""simple docstring""" import re from flax.core.frozen_dict import freeze from flax.traverse_util import flatten_dict, unflatten_dict from jax.experimental import PartitionSpec as P # Sentinels UpperCamelCase : Tuple = object() # For specifying empty leaf dict `{}` UpperCamelCase : Optional[int] = object() def A ( snake_case :int , snake_case :Optional[int] ) -> Any: __UpperCamelCase = tuple((re.compile(x + '$' ) for x in qs) ) for i in range(len(snake_case ) - len(snake_case ) + 1 ): __UpperCamelCase = [x.match(snake_case ) for x, y in zip(snake_case , ks[i:] )] if matches and all(snake_case ): return True return False def A ( snake_case :Dict ) -> List[str]: def replace(snake_case :int , snake_case :List[Any] ): for rule, replacement in rules: if _match(snake_case , snake_case ): return replacement return val return replace def A ( ) -> Any: return [ # embeddings (("transformer", "wpe", "embedding"), P('mp' , snake_case )), (("transformer", "wte", "embedding"), P('mp' , snake_case )), # atention (("attention", "(q_proj|k_proj|v_proj)", "kernel"), P(snake_case , 'mp' )), (("attention", "out_proj", "kernel"), P('mp' , snake_case )), (("attention", "out_proj", "bias"), None), # mlp (("mlp", "c_fc", "kernel"), P(snake_case , 'mp' )), (("mlp", "c_fc", "bias"), P('mp' )), (("mlp", "c_proj", "kernel"), P('mp' , snake_case )), (("mlp", "c_proj", "bias"), None), # layer norms ((r"ln_\d+", "bias"), None), ((r"\d+", r"ln_\d+", "scale"), None), (("ln_f", "bias"), None), (("ln_f", "scale"), None), ] def A ( snake_case :Any ) -> Optional[Any]: __UpperCamelCase = _get_partition_rules() __UpperCamelCase = _replacement_rules(snake_case ) __UpperCamelCase = {k: _unmatched for k in flatten_dict(snake_case )} __UpperCamelCase = {k: replace(snake_case , snake_case ) for k, v in initd.items()} assert _unmatched not in result.values(), "Incomplete partition spec." return freeze(unflatten_dict(snake_case ) )

263

"""simple docstring""" from argparse import ArgumentParser from .add_new_model import AddNewModelCommand from .add_new_model_like import AddNewModelLikeCommand from .convert import ConvertCommand from .download import DownloadCommand from .env import EnvironmentCommand from .lfs import LfsCommands from .pt_to_tf import PTtoTFCommand from .run import RunCommand from .serving import ServeCommand from .user import UserCommands def A ( ) -> Union[str, Any]: __UpperCamelCase = ArgumentParser('Transformers CLI tool' , usage='transformers-cli <command> [<args>]' ) __UpperCamelCase = parser.add_subparsers(help='transformers-cli command helpers' ) # Register commands ConvertCommand.register_subcommand(snake_case ) DownloadCommand.register_subcommand(snake_case ) EnvironmentCommand.register_subcommand(snake_case ) RunCommand.register_subcommand(snake_case ) ServeCommand.register_subcommand(snake_case ) UserCommands.register_subcommand(snake_case ) AddNewModelCommand.register_subcommand(snake_case ) AddNewModelLikeCommand.register_subcommand(snake_case ) LfsCommands.register_subcommand(snake_case ) PTtoTFCommand.register_subcommand(snake_case ) # Let's go __UpperCamelCase = parser.parse_args() if not hasattr(snake_case , 'func' ): parser.print_help() exit(1 ) # Run __UpperCamelCase = args.func(snake_case ) service.run() if __name__ == "__main__": main()

263

1

import io import itertools import json from dataclasses import dataclass from typing import Optional import pyarrow as pa import pyarrow.json as paj import datasets from datasets.table import table_cast from datasets.utils.file_utils import readline UpperCAmelCase_ : str = datasets.utils.logging.get_logger(__name__) @dataclass class _SCREAMING_SNAKE_CASE ( datasets.BuilderConfig ): snake_case__ : Optional[datasets.Features] = None snake_case__ : str = "utf-8" snake_case__ : Optional[str] = None snake_case__ : Optional[str] = None snake_case__ : bool = True # deprecated snake_case__ : Optional[int] = None # deprecated snake_case__ : int = 1_0 << 2_0 # 10MB snake_case__ : Optional[bool] = None class _SCREAMING_SNAKE_CASE ( datasets.ArrowBasedBuilder ): snake_case__ : int = JsonConfig def _A ( self : List[Any] ): if self.config.block_size is not None: logger.warning("""The JSON loader parameter `block_size` is deprecated. Please use `chunksize` instead""" ) UpperCamelCase :Union[str, Any] = self.config.block_size if self.config.use_threads is not True: logger.warning( """The JSON loader parameter `use_threads` is deprecated and doesn't have any effect anymore.""" ) if self.config.newlines_in_values is not None: raise ValueError("""The JSON loader parameter `newlines_in_values` is no longer supported""" ) return datasets.DatasetInfo(features=self.config.features ) def _A ( self : int , __lowerCamelCase : Tuple ): if not self.config.data_files: raise ValueError(F"""At least one data file must be specified, but got data_files={self.config.data_files}""" ) UpperCamelCase :List[Any] = dl_manager.download_and_extract(self.config.data_files ) if isinstance(__lowerCamelCase , (str, list, tuple) ): UpperCamelCase :Optional[int] = data_files if isinstance(__lowerCamelCase , __lowerCamelCase ): UpperCamelCase :Optional[int] = [files] UpperCamelCase :Optional[Any] = [dl_manager.iter_files(__lowerCamelCase ) for file in files] return [datasets.SplitGenerator(name=datasets.Split.TRAIN , gen_kwargs={"""files""": files} )] UpperCamelCase :Tuple = [] for split_name, files in data_files.items(): if isinstance(__lowerCamelCase , __lowerCamelCase ): UpperCamelCase :Dict = [files] UpperCamelCase :List[Any] = [dl_manager.iter_files(__lowerCamelCase ) for file in files] splits.append(datasets.SplitGenerator(name=__lowerCamelCase , gen_kwargs={"""files""": files} ) ) return splits def _A ( self : List[str] , __lowerCamelCase : pa.Table ): if self.config.features is not None: # adding missing columns for column_name in set(self.config.features ) - set(pa_table.column_names ): UpperCamelCase :List[str] = self.config.features.arrow_schema.field(__lowerCamelCase ).type UpperCamelCase :Union[str, Any] = pa_table.append_column(__lowerCamelCase , pa.array([None] * len(__lowerCamelCase ) , type=__lowerCamelCase ) ) # more expensive cast to support nested structures with keys in a different order # allows str <-> int/float or str to Audio for example UpperCamelCase :Any = table_cast(__lowerCamelCase , self.config.features.arrow_schema ) return pa_table def _A ( self : Tuple , __lowerCamelCase : int ): for file_idx, file in enumerate(itertools.chain.from_iterable(__lowerCamelCase ) ): # If the file is one json object and if we need to look at the list of items in one specific field if self.config.field is not None: with open(__lowerCamelCase , encoding=self.config.encoding , errors=self.config.encoding_errors ) as f: UpperCamelCase :Dict = json.load(__lowerCamelCase ) # We keep only the field we are interested in UpperCamelCase :int = dataset[self.config.field] # We accept two format: a list of dicts or a dict of lists if isinstance(__lowerCamelCase , (list, tuple) ): UpperCamelCase :Optional[int] = set().union(*[row.keys() for row in dataset] ) UpperCamelCase :Any = {col: [row.get(__lowerCamelCase ) for row in dataset] for col in keys} else: UpperCamelCase :Optional[int] = dataset UpperCamelCase :Optional[Any] = pa.Table.from_pydict(__lowerCamelCase ) yield file_idx, self._cast_table(__lowerCamelCase ) # If the file has one json object per line else: with open(__lowerCamelCase , """rb""" ) as f: UpperCamelCase :List[str] = 0 # Use block_size equal to the chunk size divided by 32 to leverage multithreading # Set a default minimum value of 16kB if the chunk size is really small UpperCamelCase :str = max(self.config.chunksize // 32 , 16 << 10 ) UpperCamelCase :Optional[int] = ( self.config.encoding_errors if self.config.encoding_errors is not None else """strict""" ) while True: UpperCamelCase :int = f.read(self.config.chunksize ) if not batch: break # Finish current line try: batch += f.readline() except (AttributeError, io.UnsupportedOperation): batch += readline(__lowerCamelCase ) # PyArrow only accepts utf-8 encoded bytes if self.config.encoding != "utf-8": UpperCamelCase :List[str] = batch.decode(self.config.encoding , errors=__lowerCamelCase ).encode("""utf-8""" ) try: while True: try: UpperCamelCase :int = paj.read_json( io.BytesIO(__lowerCamelCase ) , read_options=paj.ReadOptions(block_size=__lowerCamelCase ) ) break except (pa.ArrowInvalid, pa.ArrowNotImplementedError) as e: if ( isinstance(__lowerCamelCase , pa.ArrowInvalid ) and "straddling" not in str(__lowerCamelCase ) or block_size > len(__lowerCamelCase ) ): raise else: # Increase the block size in case it was too small. # The block size will be reset for the next file. logger.debug( F"""Batch of {len(__lowerCamelCase )} bytes couldn't be parsed with block_size={block_size}. Retrying with block_size={block_size * 2}.""" ) block_size *= 2 except pa.ArrowInvalid as e: try: with open( __lowerCamelCase , encoding=self.config.encoding , errors=self.config.encoding_errors ) as f: UpperCamelCase :Optional[Any] = json.load(__lowerCamelCase ) except json.JSONDecodeError: logger.error(F"""Failed to read file '{file}' with error {type(__lowerCamelCase )}: {e}""" ) raise e # If possible, parse the file as a list of json objects and exit the loop if isinstance(__lowerCamelCase , __lowerCamelCase ): # list is the only sequence type supported in JSON try: UpperCamelCase :Tuple = set().union(*[row.keys() for row in dataset] ) UpperCamelCase :Dict = {col: [row.get(__lowerCamelCase ) for row in dataset] for col in keys} UpperCamelCase :Any = pa.Table.from_pydict(__lowerCamelCase ) except (pa.ArrowInvalid, AttributeError) as e: logger.error(F"""Failed to read file '{file}' with error {type(__lowerCamelCase )}: {e}""" ) raise ValueError(F"""Not able to read records in the JSON file at {file}.""" ) from None yield file_idx, self._cast_table(__lowerCamelCase ) break else: logger.error(F"""Failed to read file '{file}' with error {type(__lowerCamelCase )}: {e}""" ) raise ValueError( F"""Not able to read records in the JSON file at {file}. """ F"""You should probably indicate the field of the JSON file containing your records. """ F"""This JSON file contain the following fields: {str(list(dataset.keys() ) )}. """ F"""Select the correct one and provide it as `field='XXX'` to the dataset loading method. """ ) from None # Uncomment for debugging (will print the Arrow table size and elements) # logger.warning(f"pa_table: {pa_table} num rows: {pa_table.num_rows}") # logger.warning('\n'.join(str(pa_table.slice(i, 1).to_pydict()) for i in range(pa_table.num_rows))) yield (file_idx, batch_idx), self._cast_table(__lowerCamelCase ) batch_idx += 1

38

"""simple docstring""" def __lowerCAmelCase ( ) -> Union[str, Any]: """simple docstring""" snake_case : Dict = [] snake_case : List[Any] = 1 while len(lowercase ) < 1e6: constant.append(str(lowercase ) ) i += 1 snake_case : Tuple = "".join(lowercase ) return ( int(constant[0] ) * int(constant[9] ) * int(constant[99] ) * int(constant[999] ) * int(constant[9999] ) * int(constant[9_9999] ) * int(constant[99_9999] ) ) if __name__ == "__main__": print(solution())

203

0

"""simple docstring""" import json from typing import List, Optional, Tuple from tokenizers import normalizers from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_mobilebert import MobileBertTokenizer lowerCamelCase__ = logging.get_logger(__name__) lowerCamelCase__ = {"""vocab_file""": """vocab.txt""", """tokenizer_file""": """tokenizer.json"""} lowerCamelCase__ = { """vocab_file""": {"""mobilebert-uncased""": """https://huggingface.co/google/mobilebert-uncased/resolve/main/vocab.txt"""}, """tokenizer_file""": { """mobilebert-uncased""": """https://huggingface.co/google/mobilebert-uncased/resolve/main/tokenizer.json""" }, } lowerCamelCase__ = {"""mobilebert-uncased""": 512} lowerCamelCase__ = {} class A__ ( _UpperCAmelCase): A_ : Any = VOCAB_FILES_NAMES A_ : int = PRETRAINED_VOCAB_FILES_MAP A_ : Dict = PRETRAINED_INIT_CONFIGURATION A_ : Tuple = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES A_ : Dict = MobileBertTokenizer def __init__( self , _SCREAMING_SNAKE_CASE=None , _SCREAMING_SNAKE_CASE=None , _SCREAMING_SNAKE_CASE=True , _SCREAMING_SNAKE_CASE="[UNK]" , _SCREAMING_SNAKE_CASE="[SEP]" , _SCREAMING_SNAKE_CASE="[PAD]" , _SCREAMING_SNAKE_CASE="[CLS]" , _SCREAMING_SNAKE_CASE="[MASK]" , _SCREAMING_SNAKE_CASE=True , _SCREAMING_SNAKE_CASE=None , **_SCREAMING_SNAKE_CASE , ): super().__init__( _UpperCAmelCase , tokenizer_file=_UpperCAmelCase , do_lower_case=_UpperCAmelCase , unk_token=_UpperCAmelCase , sep_token=_UpperCAmelCase , pad_token=_UpperCAmelCase , cls_token=_UpperCAmelCase , mask_token=_UpperCAmelCase , tokenize_chinese_chars=_UpperCAmelCase , strip_accents=_UpperCAmelCase , **_UpperCAmelCase , ) __lowerCAmelCase : Optional[Any] = json.loads(self.backend_tokenizer.normalizer.__getstate__() ) if ( normalizer_state.get('lowercase' , _UpperCAmelCase ) != do_lower_case or normalizer_state.get('strip_accents' , _UpperCAmelCase ) != strip_accents or normalizer_state.get('handle_chinese_chars' , _UpperCAmelCase ) != tokenize_chinese_chars ): __lowerCAmelCase : Optional[Any] = getattr(_UpperCAmelCase , normalizer_state.pop('type' ) ) __lowerCAmelCase : Any = do_lower_case __lowerCAmelCase : List[Any] = strip_accents __lowerCAmelCase : List[Any] = tokenize_chinese_chars __lowerCAmelCase : Tuple = normalizer_class(**_UpperCAmelCase ) __lowerCAmelCase : Dict = do_lower_case def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE=None ): __lowerCAmelCase : Any = [self.cls_token_id] + token_ids_a + [self.sep_token_id] if token_ids_a: output += token_ids_a + [self.sep_token_id] return output def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE = None ): __lowerCAmelCase : Union[str, Any] = [self.sep_token_id] __lowerCAmelCase : Optional[int] = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) * [0] return len(cls + token_ids_a + sep ) * [0] + len(token_ids_a + sep ) * [1] def __lowerCamelCase ( self , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE = None ): __lowerCAmelCase : Optional[Any] = self._tokenizer.model.save(_UpperCAmelCase , name=_UpperCAmelCase ) return tuple(_UpperCAmelCase )

352

"""simple docstring""" from __future__ import annotations def __lowerCAmelCase (_UpperCamelCase ): __lowerCAmelCase : List[str] = str(_UpperCamelCase ) return len(_UpperCamelCase ) == 9 and set(_UpperCamelCase ) == set('123456789' ) def __lowerCAmelCase (): for base_num in range(9999 , 4999 , -1 ): __lowerCAmelCase : Union[str, Any] = 10_0002 * base_num if is_9_pandigital(_UpperCamelCase ): return candidate for base_num in range(333 , 99 , -1 ): __lowerCAmelCase : Dict = 100_2003 * base_num if is_9_pandigital(_UpperCamelCase ): return candidate return None if __name__ == "__main__": print(f'{solution() = }')

182

0

'''simple docstring''' import unittest from diffusers import FlaxAutoencoderKL from diffusers.utils import is_flax_available from diffusers.utils.testing_utils import require_flax from .test_modeling_common_flax import FlaxModelTesterMixin if is_flax_available(): import jax @require_flax class __magic_name__ ( _UpperCamelCase , unittest.TestCase ): lowerCAmelCase : Optional[int] = FlaxAutoencoderKL @property def __lowercase ( self : str ): _a : Dict = 4 _a : Dict = 3 _a : str = (32, 32) _a : Tuple = jax.random.PRNGKey(0 ) _a : List[str] = jax.random.uniform(_UpperCAmelCase ,((batch_size, num_channels) + sizes) ) return {"sample": image, "prng_key": prng_key} def __lowercase ( self : Tuple ): _a : Any = { 'block_out_channels': [32, 64], 'in_channels': 3, 'out_channels': 3, 'down_block_types': ['DownEncoderBlock2D', 'DownEncoderBlock2D'], 'up_block_types': ['UpDecoderBlock2D', 'UpDecoderBlock2D'], 'latent_channels': 4, } _a : Any = self.dummy_input return init_dict, inputs_dict

89

'''simple docstring''' from typing import Dict, List from nltk.translate import gleu_score import datasets from datasets import MetricInfo lowerCamelCase__ = '\\n@misc{wu2016googles,\n title={Google\'s Neural Machine Translation System: Bridging the Gap between Human and Machine Translation},\n author={Yonghui Wu and Mike Schuster and Zhifeng Chen and Quoc V. Le and Mohammad Norouzi and Wolfgang Macherey\n and Maxim Krikun and Yuan Cao and Qin Gao and Klaus Macherey and Jeff Klingner and Apurva Shah and Melvin\n Johnson and Xiaobing Liu and Łukasz Kaiser and Stephan Gouws and Yoshikiyo Kato and Taku Kudo and Hideto\n Kazawa and Keith Stevens and George Kurian and Nishant Patil and Wei Wang and Cliff Young and\n Jason Smith and Jason Riesa and Alex Rudnick and Oriol Vinyals and Greg Corrado and Macduff Hughes\n and Jeffrey Dean},\n year={2016},\n eprint={1609.08144},\n archivePrefix={arXiv},\n primaryClass={cs.CL}\n}\n' lowerCamelCase__ = '\\nThe BLEU score has some undesirable properties when used for single\nsentences, as it was designed to be a corpus measure. We therefore\nuse a slightly different score for our RL experiments which we call\nthe \'GLEU score\'. For the GLEU score, we record all sub-sequences of\n1, 2, 3 or 4 tokens in output and target sequence (n-grams). We then\ncompute a recall, which is the ratio of the number of matching n-grams\nto the number of total n-grams in the target (ground truth) sequence,\nand a precision, which is the ratio of the number of matching n-grams\nto the number of total n-grams in the generated output sequence. Then\nGLEU score is simply the minimum of recall and precision. This GLEU\nscore\'s range is always between 0 (no matches) and 1 (all match) and\nit is symmetrical when switching output and target. According to\nour experiments, GLEU score correlates quite well with the BLEU\nmetric on a corpus level but does not have its drawbacks for our per\nsentence reward objective.\n' lowerCamelCase__ = '\\nComputes corpus-level Google BLEU (GLEU) score of translated segments against one or more references.\nInstead of averaging the sentence level GLEU scores (i.e. macro-average precision), Wu et al. (2016) sum up the matching\ntokens and the max of hypothesis and reference tokens for each sentence, then compute using the aggregate values.\n\nArgs:\n predictions (list of str): list of translations to score.\n Each translation should be tokenized into a list of tokens.\n references (list of list of str): list of lists of references for each translation.\n Each reference should be tokenized into a list of tokens.\n min_len (int): The minimum order of n-gram this function should extract. Defaults to 1.\n max_len (int): The maximum order of n-gram this function should extract. Defaults to 4.\n\nReturns:\n \'google_bleu\': google_bleu score\n\nExamples:\n Example 1:\n >>> hyp1 = [\'It\', \'is\', \'a\', \'guide\', \'to\', \'action\', \'which\',\n ... \'ensures\', \'that\', \'the\', \'rubber\', \'duck\', \'always\',\n ... \'disobeys\', \'the\', \'commands\', \'of\', \'the\', \'cat\']\n >>> ref1a = [\'It\', \'is\', \'the\', \'guiding\', \'principle\', \'which\',\n ... \'guarantees\', \'the\', \'rubber\', \'duck\', \'forces\', \'never\',\n ... \'being\', \'under\', \'the\', \'command\', \'of\', \'the\', \'cat\']\n\n >>> hyp2 = [\'he\', \'read\', \'the\', \'book\', \'because\', \'he\', \'was\',\n ... \'interested\', \'in\', \'world\', \'history\']\n >>> ref2a = [\'he\', \'was\', \'interested\', \'in\', \'world\', \'history\',\n ... \'because\', \'he\', \'read\', \'the\', \'book\']\n\n >>> list_of_references = [[ref1a], [ref2a]]\n >>> hypotheses = [hyp1, hyp2]\n >>> google_bleu = datasets.load_metric("google_bleu")\n >>> results = google_bleu.compute(predictions=hypotheses, references=list_of_references)\n >>> print(round(results["google_bleu"], 2))\n 0.44\n\n Example 2:\n >>> hyp1 = [\'It\', \'is\', \'a\', \'guide\', \'to\', \'action\', \'which\',\n ... \'ensures\', \'that\', \'the\', \'rubber\', \'duck\', \'always\',\n ... \'disobeys\', \'the\', \'commands\', \'of\', \'the\', \'cat\']\n >>> ref1a = [\'It\', \'is\', \'the\', \'guiding\', \'principle\', \'which\',\n ... \'guarantees\', \'the\', \'rubber\', \'duck\', \'forces\', \'never\',\n ... \'being\', \'under\', \'the\', \'command\', \'of\', \'the\', \'cat\']\n >>> ref1b = [\'It\', \'is\', \'a\', \'guide\', \'to\', \'action\', \'that\',\n ... \'ensures\', \'that\', \'the\', \'rubber\', \'duck\', \'will\', \'never\',\n ... \'heed\', \'the\', \'cat\', \'commands\']\n >>> ref1c = [\'It\', \'is\', \'the\', \'practical\', \'guide\', \'for\', \'the\',\n ... \'rubber\', \'duck\', \'army\', \'never\', \'to\', \'heed\', \'the\', \'directions\',\n ... \'of\', \'the\', \'cat\']\n\n >>> hyp2 = [\'he\', \'read\', \'the\', \'book\', \'because\', \'he\', \'was\',\n ... \'interested\', \'in\', \'world\', \'history\']\n >>> ref2a = [\'he\', \'was\', \'interested\', \'in\', \'world\', \'history\',\n ... \'because\', \'he\', \'read\', \'the\', \'book\']\n\n >>> list_of_references = [[ref1a, ref1b, ref1c], [ref2a]]\n >>> hypotheses = [hyp1, hyp2]\n >>> google_bleu = datasets.load_metric("google_bleu")\n >>> results = google_bleu.compute(predictions=hypotheses, references=list_of_references)\n >>> print(round(results["google_bleu"], 2))\n 0.61\n\n Example 3:\n >>> hyp1 = [\'It\', \'is\', \'a\', \'guide\', \'to\', \'action\', \'which\',\n ... \'ensures\', \'that\', \'the\', \'rubber\', \'duck\', \'always\',\n ... \'disobeys\', \'the\', \'commands\', \'of\', \'the\', \'cat\']\n >>> ref1a = [\'It\', \'is\', \'the\', \'guiding\', \'principle\', \'which\',\n ... \'guarantees\', \'the\', \'rubber\', \'duck\', \'forces\', \'never\',\n ... \'being\', \'under\', \'the\', \'command\', \'of\', \'the\', \'cat\']\n >>> ref1b = [\'It\', \'is\', \'a\', \'guide\', \'to\', \'action\', \'that\',\n ... \'ensures\', \'that\', \'the\', \'rubber\', \'duck\', \'will\', \'never\',\n ... \'heed\', \'the\', \'cat\', \'commands\']\n >>> ref1c = [\'It\', \'is\', \'the\', \'practical\', \'guide\', \'for\', \'the\',\n ... \'rubber\', \'duck\', \'army\', \'never\', \'to\', \'heed\', \'the\', \'directions\',\n ... \'of\', \'the\', \'cat\']\n\n >>> hyp2 = [\'he\', \'read\', \'the\', \'book\', \'because\', \'he\', \'was\',\n ... \'interested\', \'in\', \'world\', \'history\']\n >>> ref2a = [\'he\', \'was\', \'interested\', \'in\', \'world\', \'history\',\n ... \'because\', \'he\', \'read\', \'the\', \'book\']\n\n >>> list_of_references = [[ref1a, ref1b, ref1c], [ref2a]]\n >>> hypotheses = [hyp1, hyp2]\n >>> google_bleu = datasets.load_metric("google_bleu")\n >>> results = google_bleu.compute(predictions=hypotheses, references=list_of_references, min_len=2)\n >>> print(round(results["google_bleu"], 2))\n 0.53\n\n Example 4:\n >>> hyp1 = [\'It\', \'is\', \'a\', \'guide\', \'to\', \'action\', \'which\',\n ... \'ensures\', \'that\', \'the\', \'rubber\', \'duck\', \'always\',\n ... \'disobeys\', \'the\', \'commands\', \'of\', \'the\', \'cat\']\n >>> ref1a = [\'It\', \'is\', \'the\', \'guiding\', \'principle\', \'which\',\n ... \'guarantees\', \'the\', \'rubber\', \'duck\', \'forces\', \'never\',\n ... \'being\', \'under\', \'the\', \'command\', \'of\', \'the\', \'cat\']\n >>> ref1b = [\'It\', \'is\', \'a\', \'guide\', \'to\', \'action\', \'that\',\n ... \'ensures\', \'that\', \'the\', \'rubber\', \'duck\', \'will\', \'never\',\n ... \'heed\', \'the\', \'cat\', \'commands\']\n >>> ref1c = [\'It\', \'is\', \'the\', \'practical\', \'guide\', \'for\', \'the\',\n ... \'rubber\', \'duck\', \'army\', \'never\', \'to\', \'heed\', \'the\', \'directions\',\n ... \'of\', \'the\', \'cat\']\n\n >>> hyp2 = [\'he\', \'read\', \'the\', \'book\', \'because\', \'he\', \'was\',\n ... \'interested\', \'in\', \'world\', \'history\']\n >>> ref2a = [\'he\', \'was\', \'interested\', \'in\', \'world\', \'history\',\n ... \'because\', \'he\', \'read\', \'the\', \'book\']\n\n >>> list_of_references = [[ref1a, ref1b, ref1c], [ref2a]]\n >>> hypotheses = [hyp1, hyp2]\n >>> google_bleu = datasets.load_metric("google_bleu")\n >>> results = google_bleu.compute(predictions=hypotheses,references=list_of_references, min_len=2, max_len=6)\n >>> print(round(results["google_bleu"], 2))\n 0.4\n' @datasets.utils.file_utils.add_start_docstrings(_DESCRIPTION , _KWARGS_DESCRIPTION ) class lowerCAmelCase__ ( datasets.Metric ): def lowerCAmelCase__ ( self : int ) ->MetricInfo: '''simple docstring''' return datasets.MetricInfo( description=_DESCRIPTION , citation=_CITATION , inputs_description=_KWARGS_DESCRIPTION , features=datasets.Features( { "predictions": datasets.Sequence(datasets.Value("string" , id="token" ) , id="sequence" ), "references": datasets.Sequence( datasets.Sequence(datasets.Value("string" , id="token" ) , id="sequence" ) , id="references" ), } ) , ) def lowerCAmelCase__ ( self : Dict , lowerCamelCase__ : List[List[List[str]]] , lowerCamelCase__ : List[List[str]] , lowerCamelCase__ : int = 1 , lowerCamelCase__ : int = 4 , ) ->Dict[str, float]: '''simple docstring''' return { "google_bleu": gleu_score.corpus_gleu( list_of_references=lowerCamelCase__ , hypotheses=lowerCamelCase__ , min_len=lowerCamelCase__ , max_len=lowerCamelCase__ ) }

234

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'''simple docstring''' import os import re import shutil import sys import tempfile import unittest import black lowerCamelCase__ = os.path.abspath(os.path.dirname(os.path.dirname(os.path.dirname(__file__)))) sys.path.append(os.path.join(git_repo_path, 'utils')) import check_copies # noqa: E402 # This is the reference code that will be used in the tests. # If BertLMPredictionHead is changed in modeling_bert.py, this code needs to be manually updated. lowerCamelCase__ = ' def __init__(self, config):\n super().__init__()\n self.transform = BertPredictionHeadTransform(config)\n\n # The output weights are the same as the input embeddings, but there is\n # an output-only bias for each token.\n self.decoder = nn.Linear(config.hidden_size, config.vocab_size, bias=False)\n\n self.bias = nn.Parameter(torch.zeros(config.vocab_size))\n\n # Need a link between the two variables so that the bias is correctly resized with `resize_token_embeddings`\n self.decoder.bias = self.bias\n\n def forward(self, hidden_states):\n hidden_states = self.transform(hidden_states)\n hidden_states = self.decoder(hidden_states)\n return hidden_states\n' class lowerCAmelCase__ ( unittest.TestCase ): def lowerCAmelCase__ ( self : Union[str, Any] ) ->Any: '''simple docstring''' _UpperCAmelCase : List[Any] = tempfile.mkdtemp() os.makedirs(os.path.join(self.transformer_dir , "models/bert/" ) ) _UpperCAmelCase : Optional[int] = self.transformer_dir shutil.copy( os.path.join(lowerCamelCase__ , "src/transformers/models/bert/modeling_bert.py" ) , os.path.join(self.transformer_dir , "models/bert/modeling_bert.py" ) , ) def lowerCAmelCase__ ( self : List[Any] ) ->int: '''simple docstring''' _UpperCAmelCase : Dict = "src/transformers" shutil.rmtree(self.transformer_dir ) def lowerCAmelCase__ ( self : List[Any] , lowerCamelCase__ : Optional[int] , lowerCamelCase__ : Dict , lowerCamelCase__ : List[str] , lowerCamelCase__ : List[str]=None ) ->List[str]: '''simple docstring''' _UpperCAmelCase : str = comment + F"""\nclass {class_name}(nn.Module):\n""" + class_code if overwrite_result is not None: _UpperCAmelCase : Optional[Any] = comment + F"""\nclass {class_name}(nn.Module):\n""" + overwrite_result _UpperCAmelCase : Tuple = black.Mode(target_versions={black.TargetVersion.PYaa} , line_length=1_19 ) _UpperCAmelCase : Optional[int] = black.format_str(lowerCamelCase__ , mode=lowerCamelCase__ ) _UpperCAmelCase : Union[str, Any] = os.path.join(self.transformer_dir , "new_code.py" ) with open(lowerCamelCase__ , "w" , newline="\n" ) as f: f.write(lowerCamelCase__ ) if overwrite_result is None: self.assertTrue(len(check_copies.is_copy_consistent(lowerCamelCase__ ) ) == 0 ) else: check_copies.is_copy_consistent(f.name , overwrite=lowerCamelCase__ ) with open(lowerCamelCase__ , "r" ) as f: self.assertTrue(f.read() , lowerCamelCase__ ) def lowerCAmelCase__ ( self : int ) ->List[Any]: '''simple docstring''' _UpperCAmelCase : Union[str, Any] = check_copies.find_code_in_transformers("models.bert.modeling_bert.BertLMPredictionHead" ) self.assertEqual(lowerCamelCase__ , lowerCamelCase__ ) def lowerCAmelCase__ ( self : Optional[Any] ) ->Optional[int]: '''simple docstring''' self.check_copy_consistency( "# Copied from transformers.models.bert.modeling_bert.BertLMPredictionHead" , "BertLMPredictionHead" , REFERENCE_CODE + "\n" , ) # With no empty line at the end self.check_copy_consistency( "# Copied from transformers.models.bert.modeling_bert.BertLMPredictionHead" , "BertLMPredictionHead" , lowerCamelCase__ , ) # Copy consistency with rename self.check_copy_consistency( "# Copied from transformers.models.bert.modeling_bert.BertLMPredictionHead with Bert->TestModel" , "TestModelLMPredictionHead" , re.sub("Bert" , "TestModel" , lowerCamelCase__ ) , ) # Copy consistency with a really long name _UpperCAmelCase : str = "TestModelWithAReallyLongNameBecauseSomePeopleLikeThatForSomeReason" self.check_copy_consistency( F"""# Copied from transformers.models.bert.modeling_bert.BertLMPredictionHead with Bert->{long_class_name}""" , F"""{long_class_name}LMPredictionHead""" , re.sub("Bert" , lowerCamelCase__ , lowerCamelCase__ ) , ) # Copy consistency with overwrite self.check_copy_consistency( "# Copied from transformers.models.bert.modeling_bert.BertLMPredictionHead with Bert->TestModel" , "TestModelLMPredictionHead" , lowerCamelCase__ , overwrite_result=re.sub("Bert" , "TestModel" , lowerCamelCase__ ) , ) def lowerCAmelCase__ ( self : Tuple ) ->List[Any]: '''simple docstring''' _UpperCAmelCase : int = check_copies.LOCALIZED_READMES["README_zh-hans.md"] _UpperCAmelCase : Dict = ( "1. **[ALBERT](https://huggingface.co/transformers/model_doc/albert.html)** (from Google Research and the" " Toyota Technological Institute at Chicago) released with the paper [ALBERT: A Lite BERT for" " Self-supervised Learning of Language Representations](https://arxiv.org/abs/1909.11942), by Zhenzhong" " Lan, Mingda Chen, Sebastian Goodman, Kevin Gimpel, Piyush Sharma, Radu Soricut.\n1." " **[DistilBERT](https://huggingface.co/transformers/model_doc/distilbert.html)** (from HuggingFace)," " released together with the paper [DistilBERT, a distilled version of BERT: smaller, faster, cheaper and" " lighter](https://arxiv.org/abs/1910.01108) by Victor Sanh, Lysandre Debut and Thomas Wolf. The same" " method has been applied to compress GPT2 into" " [DistilGPT2](https://github.com/huggingface/transformers/tree/main/examples/distillation), RoBERTa into" " [DistilRoBERTa](https://github.com/huggingface/transformers/tree/main/examples/distillation)," " Multilingual BERT into" " [DistilmBERT](https://github.com/huggingface/transformers/tree/main/examples/distillation) and a German" " version of DistilBERT.\n1. **[ELECTRA](https://huggingface.co/transformers/model_doc/electra.html)**" " (from Google Research/Stanford University) released with the paper [ELECTRA: Pre-training text encoders" " as discriminators rather than generators](https://arxiv.org/abs/2003.10555) by Kevin Clark, Minh-Thang" " Luong, Quoc V. Le, Christopher D. Manning." ) _UpperCAmelCase : Dict = ( "1. **[ALBERT](https://huggingface.co/transformers/model_doc/albert.html)** (来自 Google Research and the" " Toyota Technological Institute at Chicago) 伴随论文 [ALBERT: A Lite BERT for Self-supervised Learning of" " Language Representations](https://arxiv.org/abs/1909.11942), 由 Zhenzhong Lan, Mingda Chen, Sebastian" " Goodman, Kevin Gimpel, Piyush Sharma, Radu Soricut 发布。\n" ) _UpperCAmelCase : str = ( "1. **[ALBERT](https://huggingface.co/transformers/model_doc/albert.html)** (来自 Google Research and the" " Toyota Technological Institute at Chicago) 伴随论文 [ALBERT: A Lite BERT for Self-supervised Learning of" " Language Representations](https://arxiv.org/abs/1909.11942), 由 Zhenzhong Lan, Mingda Chen, Sebastian" " Goodman, Kevin Gimpel, Piyush Sharma, Radu Soricut 发布。\n1." " **[DistilBERT](https://huggingface.co/transformers/model_doc/distilbert.html)** (来自 HuggingFace) 伴随论文" " [DistilBERT, a distilled version of BERT: smaller, faster, cheaper and" " lighter](https://arxiv.org/abs/1910.01108) 由 Victor Sanh, Lysandre Debut and Thomas Wolf 发布。 The same" " method has been applied to compress GPT2 into" " [DistilGPT2](https://github.com/huggingface/transformers/tree/main/examples/distillation), RoBERTa into" " [DistilRoBERTa](https://github.com/huggingface/transformers/tree/main/examples/distillation)," " Multilingual BERT into" " [DistilmBERT](https://github.com/huggingface/transformers/tree/main/examples/distillation) and a German" " version of DistilBERT.\n1. **[ELECTRA](https://huggingface.co/transformers/model_doc/electra.html)** (来自" " Google Research/Stanford University) 伴随论文 [ELECTRA: Pre-training text encoders as discriminators rather" " than generators](https://arxiv.org/abs/2003.10555) 由 Kevin Clark, Minh-Thang Luong, Quoc V. Le," " Christopher D. Manning 发布。\n" ) _UpperCAmelCase , _UpperCAmelCase : Dict = check_copies.convert_to_localized_md( lowerCamelCase__ , lowerCamelCase__ , localized_readme["format_model_list"] ) self.assertFalse(lowerCamelCase__ ) self.assertEqual(lowerCamelCase__ , lowerCamelCase__ ) _UpperCAmelCase , _UpperCAmelCase : Union[str, Any] = check_copies.convert_to_localized_md( lowerCamelCase__ , lowerCamelCase__ , localized_readme["format_model_list"] ) # Check whether the number of models is equal to README.md after conversion. self.assertTrue(lowerCamelCase__ ) _UpperCAmelCase : Optional[Any] = ( "1. **[ALBERT](https://huggingface.co/transformers/model_doc/albert.html)** (from Google Research and the" " Toyota Technological Institute at Chicago) released with the paper [ALBERT: A Lite BERT for" " Self-supervised Learning of Language Representations](https://arxiv.org/abs/1909.11942), by Zhenzhong" " Lan, Mingda Chen, Sebastian Goodman, Kevin Gimpel, Piyush Sharma, Radu Soricut." ) _UpperCAmelCase : Tuple = ( "1. **[ALBERT](https://huggingface.co/transformers/main/model_doc/albert.html)** (来自 Google Research and" " the Toyota Technological Institute at Chicago) 伴随论文 [ALBERT: A Lite BERT for Self-supervised Learning of" " Language Representations](https://arxiv.org/abs/1909.11942), 由 Zhenzhong Lan, Mingda Chen, Sebastian" " Goodman, Kevin Gimpel, Piyush Sharma, Radu Soricut 发布。\n" ) _UpperCAmelCase : Optional[Any] = ( "1. **[ALBERT](https://huggingface.co/transformers/model_doc/albert.html)** (来自 Google Research and the" " Toyota Technological Institute at Chicago) 伴随论文 [ALBERT: A Lite BERT for Self-supervised Learning of" " Language Representations](https://arxiv.org/abs/1909.11942), 由 Zhenzhong Lan, Mingda Chen, Sebastian" " Goodman, Kevin Gimpel, Piyush Sharma, Radu Soricut 发布。\n" ) _UpperCAmelCase , _UpperCAmelCase : List[str] = check_copies.convert_to_localized_md( lowerCamelCase__ , lowerCamelCase__ , localized_readme["format_model_list"] ) # Check if the model link is synchronized. self.assertEqual(lowerCamelCase__ , lowerCamelCase__ )

322

'''simple docstring''' import pytest lowerCamelCase__ = '__dummy_dataset1__' lowerCamelCase__ = '\nimport json\nimport os\n\nimport datasets\n\n\nREPO_URL = "https://huggingface.co/datasets/albertvillanova/tests-raw-jsonl/resolve/main/"\nURLS = {"train": REPO_URL + "wikiann-bn-train.jsonl", "validation": REPO_URL + "wikiann-bn-validation.jsonl"}\n\n\nclass __DummyDataset1__(datasets.GeneratorBasedBuilder):\n\n def _info(self):\n features = datasets.Features(\n {\n "tokens": datasets.Sequence(datasets.Value("string")),\n "ner_tags": datasets.Sequence(\n datasets.features.ClassLabel(\n names=[\n "O",\n "B-PER",\n "I-PER",\n "B-ORG",\n "I-ORG",\n "B-LOC",\n "I-LOC",\n ]\n )\n ),\n "langs": datasets.Sequence(datasets.Value("string")),\n "spans": datasets.Sequence(datasets.Value("string")),\n }\n )\n return datasets.DatasetInfo(features=features)\n\n def _split_generators(self, dl_manager):\n dl_path = dl_manager.download(URLS)\n return [\n datasets.SplitGenerator(datasets.Split.TRAIN, gen_kwargs={"filepath": dl_path["train"]}),\n datasets.SplitGenerator(datasets.Split.VALIDATION, gen_kwargs={"filepath": dl_path["validation"]}),\n ]\n\n def _generate_examples(self, filepath):\n with open(filepath, "r", encoding="utf-8") as f:\n for i, line in enumerate(f):\n yield i, json.loads(line)\n' @pytest.fixture def __lowerCAmelCase (): return DATASET_LOADING_SCRIPT_NAME @pytest.fixture def __lowerCAmelCase (): return DATASET_LOADING_SCRIPT_CODE @pytest.fixture def __lowerCAmelCase (__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase ): _UpperCAmelCase : Optional[Any] = dataset_loading_script_name _UpperCAmelCase : Any = tmp_path / "datasets" / script_name script_dir.mkdir(parents=__lowerCAmelCase ) _UpperCAmelCase : Optional[Any] = script_dir / F"""{script_name}.py""" with open(__lowerCAmelCase , "w" ) as f: f.write(__lowerCAmelCase ) return str(__lowerCAmelCase )

322

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"""simple docstring""" from __future__ import annotations import unittest from transformers import BlenderbotConfig, BlenderbotTokenizer, is_tf_available from transformers.testing_utils import require_tf, require_tokenizers, slow from transformers.utils import cached_property from ...test_configuration_common import ConfigTester from ...test_modeling_tf_common import TFModelTesterMixin, ids_tensor from ...test_pipeline_mixin import PipelineTesterMixin if is_tf_available(): import tensorflow as tf from transformers import TFAutoModelForSeqaSeqLM, TFBlenderbotForConditionalGeneration, TFBlenderbotModel @require_tf class UpperCamelCase : SCREAMING_SNAKE_CASE_ = BlenderbotConfig SCREAMING_SNAKE_CASE_ = {} SCREAMING_SNAKE_CASE_ = "gelu" def __init__( self, lowerCAmelCase__, lowerCAmelCase__=13, lowerCAmelCase__=7, lowerCAmelCase__=True, lowerCAmelCase__=False, lowerCAmelCase__=99, lowerCAmelCase__=32, lowerCAmelCase__=2, lowerCAmelCase__=4, lowerCAmelCase__=37, lowerCAmelCase__=0.1, lowerCAmelCase__=0.1, lowerCAmelCase__=20, lowerCAmelCase__=2, lowerCAmelCase__=1, lowerCAmelCase__=0, ) -> Optional[int]: snake_case_ = parent snake_case_ = batch_size snake_case_ = seq_length snake_case_ = is_training snake_case_ = use_labels snake_case_ = vocab_size snake_case_ = hidden_size snake_case_ = num_hidden_layers snake_case_ = num_attention_heads snake_case_ = intermediate_size snake_case_ = hidden_dropout_prob snake_case_ = attention_probs_dropout_prob snake_case_ = max_position_embeddings snake_case_ = eos_token_id snake_case_ = pad_token_id snake_case_ = bos_token_id def a_ ( self) -> List[str]: snake_case_ = ids_tensor([self.batch_size, self.seq_length - 1], self.vocab_size) snake_case_ = tf.expand_dims(tf.constant([self.eos_token_id] * self.batch_size), 1) snake_case_ = tf.concat([input_ids, eos_tensor], axis=1) snake_case_ = ids_tensor([self.batch_size, self.seq_length], self.vocab_size) snake_case_ = self.config_cls( vocab_size=self.vocab_size, d_model=self.hidden_size, encoder_layers=self.num_hidden_layers, decoder_layers=self.num_hidden_layers, encoder_attention_heads=self.num_attention_heads, decoder_attention_heads=self.num_attention_heads, encoder_ffn_dim=self.intermediate_size, decoder_ffn_dim=self.intermediate_size, dropout=self.hidden_dropout_prob, attention_dropout=self.attention_probs_dropout_prob, max_position_embeddings=self.max_position_embeddings, eos_token_ids=[2], bos_token_id=self.bos_token_id, pad_token_id=self.pad_token_id, decoder_start_token_id=self.pad_token_id, **self.config_updates, ) snake_case_ = prepare_blenderbot_inputs_dict(lowerCAmelCase__, lowerCAmelCase__, lowerCAmelCase__) return config, inputs_dict def a_ ( self, lowerCAmelCase__, lowerCAmelCase__) -> Dict: snake_case_ = TFBlenderbotModel(config=lowerCAmelCase__).get_decoder() snake_case_ = inputs_dict['input_ids'] snake_case_ = input_ids[:1, :] snake_case_ = inputs_dict['attention_mask'][:1, :] snake_case_ = inputs_dict['head_mask'] snake_case_ = 1 # first forward pass snake_case_ = model(lowerCAmelCase__, attention_mask=lowerCAmelCase__, head_mask=lowerCAmelCase__, use_cache=lowerCAmelCase__) snake_case_ , snake_case_ = outputs.to_tuple() # create hypothetical next token and extent to next_input_ids snake_case_ = ids_tensor((self.batch_size, 3), config.vocab_size) snake_case_ = tf.cast(ids_tensor((self.batch_size, 3), 2), tf.inta) # append to next input_ids and snake_case_ = tf.concat([input_ids, next_tokens], axis=-1) snake_case_ = tf.concat([attention_mask, next_attn_mask], axis=-1) snake_case_ = model(lowerCAmelCase__, attention_mask=lowerCAmelCase__)[0] snake_case_ = model(lowerCAmelCase__, attention_mask=lowerCAmelCase__, past_key_values=lowerCAmelCase__)[0] self.parent.assertEqual(next_tokens.shape[1], output_from_past.shape[1]) # select random slice snake_case_ = int(ids_tensor((1,), output_from_past.shape[-1])) snake_case_ = output_from_no_past[:, -3:, random_slice_idx] snake_case_ = output_from_past[:, :, random_slice_idx] # test that outputs are equal for slice tf.debugging.assert_near(lowerCAmelCase__, lowerCAmelCase__, rtol=1e-3) def UpperCAmelCase ( UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase=None , UpperCAmelCase=None , ) -> Optional[Any]: if attention_mask is None: snake_case_ = tf.cast(tf.math.not_equal(UpperCAmelCase , config.pad_token_id ) , tf.inta ) if decoder_attention_mask is None: snake_case_ = tf.concat( [ tf.ones(decoder_input_ids[:, :1].shape , dtype=tf.inta ), tf.cast(tf.math.not_equal(decoder_input_ids[:, 1:] , config.pad_token_id ) , tf.inta ), ] , axis=-1 , ) if head_mask is None: snake_case_ = tf.ones((config.encoder_layers, config.encoder_attention_heads) ) if decoder_head_mask is None: snake_case_ = tf.ones((config.decoder_layers, config.decoder_attention_heads) ) if cross_attn_head_mask is None: snake_case_ = tf.ones((config.decoder_layers, config.decoder_attention_heads) ) return { "input_ids": input_ids, "decoder_input_ids": decoder_input_ids, "attention_mask": attention_mask, "decoder_attention_mask": decoder_attention_mask, "head_mask": head_mask, "decoder_head_mask": decoder_head_mask, "cross_attn_head_mask": cross_attn_head_mask, } @require_tf class UpperCamelCase ( lowerCAmelCase__ , lowerCAmelCase__ , unittest.TestCase ): SCREAMING_SNAKE_CASE_ = (TFBlenderbotForConditionalGeneration, TFBlenderbotModel) if is_tf_available() else () SCREAMING_SNAKE_CASE_ = (TFBlenderbotForConditionalGeneration,) if is_tf_available() else () SCREAMING_SNAKE_CASE_ = ( { "conversational": TFBlenderbotForConditionalGeneration, "feature-extraction": TFBlenderbotModel, "summarization": TFBlenderbotForConditionalGeneration, "text2text-generation": TFBlenderbotForConditionalGeneration, "translation": TFBlenderbotForConditionalGeneration, } if is_tf_available() else {} ) SCREAMING_SNAKE_CASE_ = True SCREAMING_SNAKE_CASE_ = False SCREAMING_SNAKE_CASE_ = False def a_ ( self) -> Union[str, Any]: snake_case_ = TFBlenderbotModelTester(self) snake_case_ = ConfigTester(self, config_class=lowerCAmelCase__) def a_ ( self) -> Dict: self.config_tester.run_common_tests() def a_ ( self) -> Tuple: snake_case_ = self.model_tester.prepare_config_and_inputs_for_common() self.model_tester.check_decoder_model_past_large_inputs(*lowerCAmelCase__) @require_tokenizers @require_tf class UpperCamelCase ( unittest.TestCase ): SCREAMING_SNAKE_CASE_ = ["My friends are cool but they eat too many carbs."] SCREAMING_SNAKE_CASE_ = "facebook/blenderbot-400M-distill" @cached_property def a_ ( self) -> Union[str, Any]: return BlenderbotTokenizer.from_pretrained(self.model_name) @cached_property def a_ ( self) -> Union[str, Any]: snake_case_ = TFAutoModelForSeqaSeqLM.from_pretrained(self.model_name) return model @slow def a_ ( self) -> Dict: snake_case_ = self.tokenizer(self.src_text, return_tensors='tf') snake_case_ = self.model.generate( model_inputs.input_ids, ) snake_case_ = self.tokenizer.batch_decode(generated_ids.numpy(), skip_special_tokens=lowerCAmelCase__)[0] assert ( generated_words == " That's unfortunate. Are they trying to lose weight or are they just trying to be healthier?" )

69

"""simple docstring""" from collections import defaultdict def lowercase__ ( snake_case_ :str , snake_case_ :str ): __UpperCAmelCase = first_str.lower().strip() __UpperCAmelCase = second_str.lower().strip() # Remove whitespace __UpperCAmelCase = first_str.replace(''' ''' , '''''' ) __UpperCAmelCase = second_str.replace(''' ''' , '''''' ) # Strings of different lengths are not anagrams if len(snake_case_ ) != len(snake_case_ ): return False # Default values for count should be 0 __UpperCAmelCase = defaultdict(snake_case_ ) # For each character in input strings, # increment count in the corresponding for i in range(len(snake_case_ ) ): count[first_str[i]] += 1 count[second_str[i]] -= 1 return all(_count == 0 for _count in count.values() ) if __name__ == "__main__": from doctest import testmod testmod() _lowercase : List[Any] = input('Enter the first string ').strip() _lowercase : Tuple = input('Enter the second string ').strip() _lowercase : str = check_anagrams(input_a, input_b) print(f"""{input_a} and {input_b} are {"" if status else "not "}anagrams.""")

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"""simple docstring""" import os import pytest import yaml from datasets.features.features import Features, Value from datasets.info import DatasetInfo, DatasetInfosDict @pytest.mark.parametrize( 'files' , [ ['full:README.md', 'dataset_infos.json'], ['empty:README.md', 'dataset_infos.json'], ['dataset_infos.json'], ['full:README.md'], ] , ) def lowercase__ ( __snake_case : Tuple , __snake_case : Any ): '''simple docstring''' UpperCAmelCase_ : Union[str, Any] = tmp_path_factory.mktemp('dset_infos_dir' ) if "full:README.md" in files: with open(dataset_infos_dir / 'README.md' , 'w' ) as f: f.write('---\ndataset_info:\n dataset_size: 42\n---' ) if "empty:README.md" in files: with open(dataset_infos_dir / 'README.md' , 'w' ) as f: f.write('' ) # we want to support dataset_infos.json for backward compatibility if "dataset_infos.json" in files: with open(dataset_infos_dir / 'dataset_infos.json' , 'w' ) as f: f.write('{\"default\": {\"dataset_size\": 42}}' ) UpperCAmelCase_ : List[str] = DatasetInfosDict.from_directory(a_ ) assert dataset_infos assert dataset_infos["default"].dataset_size == 42 @pytest.mark.parametrize( 'dataset_info' , [ DatasetInfo(), DatasetInfo( description='foo' , features=Features({'a': Value('int32' )} ) , builder_name='builder' , config_name='config' , version='1.0.0' , splits=[{'name': 'train'}] , download_size=42 , ), ] , ) def lowercase__ ( __snake_case : Union[str, Any] , __snake_case : DatasetInfo ): '''simple docstring''' UpperCAmelCase_ : Tuple = str(a_ ) dataset_info.write_to_directory(a_ ) UpperCAmelCase_ : Any = DatasetInfo.from_directory(a_ ) assert dataset_info == reloaded assert os.path.exists(os.path.join(a_ , 'dataset_info.json' ) ) def lowercase__ ( ): '''simple docstring''' UpperCAmelCase_ : Optional[int] = DatasetInfo( description='foo' , citation='bar' , homepage='https://foo.bar' , license='CC0' , features=Features({'a': Value('int32' )} ) , post_processed={} , supervised_keys=() , task_templates=[] , builder_name='builder' , config_name='config' , version='1.0.0' , splits=[{'name': 'train', 'num_examples': 42}] , download_checksums={} , download_size=1_337 , post_processing_size=442 , dataset_size=1_234 , size_in_bytes=1_337 + 442 + 1_234 , ) UpperCAmelCase_ : Tuple = dataset_info._to_yaml_dict() assert sorted(a_ ) == sorted(DatasetInfo._INCLUDED_INFO_IN_YAML ) for key in DatasetInfo._INCLUDED_INFO_IN_YAML: assert key in dataset_info_yaml_dict assert isinstance(dataset_info_yaml_dict[key] , (list, dict, int, str) ) UpperCAmelCase_ : List[Any] = yaml.safe_dump(a_ ) UpperCAmelCase_ : Optional[int] = yaml.safe_load(a_ ) assert dataset_info_yaml_dict == reloaded def lowercase__ ( ): '''simple docstring''' UpperCAmelCase_ : str = DatasetInfo() UpperCAmelCase_ : List[str] = dataset_info._to_yaml_dict() assert dataset_info_yaml_dict == {} @pytest.mark.parametrize( 'dataset_infos_dict' , [ DatasetInfosDict(), DatasetInfosDict({'default': DatasetInfo()} ), DatasetInfosDict({'my_config_name': DatasetInfo()} ), DatasetInfosDict( { 'default': DatasetInfo( description='foo' , features=Features({'a': Value('int32' )} ) , builder_name='builder' , config_name='config' , version='1.0.0' , splits=[{'name': 'train'}] , download_size=42 , ) } ), DatasetInfosDict( { 'v1': DatasetInfo(dataset_size=42 ), 'v2': DatasetInfo(dataset_size=1_337 ), } ), ] , ) def lowercase__ ( __snake_case : str , __snake_case : DatasetInfosDict ): '''simple docstring''' UpperCAmelCase_ : Union[str, Any] = str(a_ ) dataset_infos_dict.write_to_directory(a_ ) UpperCAmelCase_ : Union[str, Any] = DatasetInfosDict.from_directory(a_ ) # the config_name of the dataset_infos_dict take over the attribute for config_name, dataset_info in dataset_infos_dict.items(): UpperCAmelCase_ : Optional[int] = config_name # the yaml representation doesn't include fields like description or citation # so we just test that we can recover what we can from the yaml UpperCAmelCase_ : List[str] = DatasetInfo._from_yaml_dict(dataset_info._to_yaml_dict() ) assert dataset_infos_dict == reloaded if dataset_infos_dict: assert os.path.exists(os.path.join(a_ , 'README.md' ) )

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from collections import OrderedDict from typing import TYPE_CHECKING, Any, Mapping, Optional from packaging import version from ...configuration_utils import PretrainedConfig from ...onnx import OnnxConfig from ...onnx.utils import compute_effective_axis_dimension from ...utils import logging if TYPE_CHECKING: from ...processing_utils import ProcessorMixin from ...utils import TensorType __UpperCAmelCase = logging.get_logger(__name__) __UpperCAmelCase = { 'microsoft/layoutlmv3-base': 'https://huggingface.co/microsoft/layoutlmv3-base/resolve/main/config.json', } class lowerCamelCase (_snake_case ): '''simple docstring''' _snake_case : Dict = '''layoutlmv3''' def __init__( self , _UpperCamelCase=5_0_2_6_5 , _UpperCamelCase=7_6_8 , _UpperCamelCase=1_2 , _UpperCamelCase=1_2 , _UpperCamelCase=3_0_7_2 , _UpperCamelCase="gelu" , _UpperCamelCase=0.1 , _UpperCamelCase=0.1 , _UpperCamelCase=5_1_2 , _UpperCamelCase=2 , _UpperCamelCase=0.02 , _UpperCamelCase=1E-5 , _UpperCamelCase=1 , _UpperCamelCase=0 , _UpperCamelCase=2 , _UpperCamelCase=1_0_2_4 , _UpperCamelCase=1_2_8 , _UpperCamelCase=1_2_8 , _UpperCamelCase=True , _UpperCamelCase=3_2 , _UpperCamelCase=1_2_8 , _UpperCamelCase=6_4 , _UpperCamelCase=2_5_6 , _UpperCamelCase=True , _UpperCamelCase=True , _UpperCamelCase=True , _UpperCamelCase=2_2_4 , _UpperCamelCase=3 , _UpperCamelCase=1_6 , _UpperCamelCase=None , **_UpperCamelCase , ) -> Optional[Any]: super().__init__( vocab_size=_UpperCamelCase , hidden_size=_UpperCamelCase , num_hidden_layers=_UpperCamelCase , num_attention_heads=_UpperCamelCase , intermediate_size=_UpperCamelCase , hidden_act=_UpperCamelCase , hidden_dropout_prob=_UpperCamelCase , attention_probs_dropout_prob=_UpperCamelCase , max_position_embeddings=_UpperCamelCase , type_vocab_size=_UpperCamelCase , initializer_range=_UpperCamelCase , layer_norm_eps=_UpperCamelCase , pad_token_id=_UpperCamelCase , bos_token_id=_UpperCamelCase , eos_token_id=_UpperCamelCase , **_UpperCamelCase , ) UpperCAmelCase_ : str = max_ad_position_embeddings UpperCAmelCase_ : Union[str, Any] = coordinate_size UpperCAmelCase_ : Union[str, Any] = shape_size UpperCAmelCase_ : str = has_relative_attention_bias UpperCAmelCase_ : Tuple = rel_pos_bins UpperCAmelCase_ : Dict = max_rel_pos UpperCAmelCase_ : Any = has_spatial_attention_bias UpperCAmelCase_ : Optional[Any] = rel_ad_pos_bins UpperCAmelCase_ : List[str] = max_rel_ad_pos UpperCAmelCase_ : List[str] = text_embed UpperCAmelCase_ : Dict = visual_embed UpperCAmelCase_ : Optional[int] = input_size UpperCAmelCase_ : List[Any] = num_channels UpperCAmelCase_ : List[Any] = patch_size UpperCAmelCase_ : Union[str, Any] = classifier_dropout class lowerCamelCase (_snake_case ): '''simple docstring''' _snake_case : Tuple = version.parse('''1.12''' ) @property def __UpperCAmelCase ( self ) -> Mapping[str, Mapping[int, str]]: # The order of inputs is different for question answering and sequence classification if self.task in ["question-answering", "sequence-classification"]: return OrderedDict( [ ('input_ids', {0: 'batch', 1: 'sequence'}), ('attention_mask', {0: 'batch', 1: 'sequence'}), ('bbox', {0: 'batch', 1: 'sequence'}), ('pixel_values', {0: 'batch', 1: 'num_channels', 2: 'height', 3: 'width'}), ] ) else: return OrderedDict( [ ('input_ids', {0: 'batch', 1: 'sequence'}), ('bbox', {0: 'batch', 1: 'sequence'}), ('attention_mask', {0: 'batch', 1: 'sequence'}), ('pixel_values', {0: 'batch', 1: 'num_channels'}), ] ) @property def __UpperCAmelCase ( self ) -> float: return 1E-5 @property def __UpperCAmelCase ( self ) -> int: return 1_2 def __UpperCAmelCase ( self , _UpperCamelCase , _UpperCamelCase = -1 , _UpperCamelCase = -1 , _UpperCamelCase = False , _UpperCamelCase = None , _UpperCamelCase = 3 , _UpperCamelCase = 4_0 , _UpperCamelCase = 4_0 , ) -> Mapping[str, Any]: setattr(processor.image_processor , 'apply_ocr' , _UpperCamelCase ) # If dynamic axis (-1) we forward with a fixed dimension of 2 samples to avoid optimizations made by ONNX UpperCAmelCase_ : Optional[int] = compute_effective_axis_dimension( _UpperCamelCase , fixed_dimension=OnnxConfig.default_fixed_batch , num_token_to_add=0 ) # If dynamic axis (-1) we forward with a fixed dimension of 8 tokens to avoid optimizations made by ONNX UpperCAmelCase_ : Any = processor.tokenizer.num_special_tokens_to_add(_UpperCamelCase ) UpperCAmelCase_ : Any = compute_effective_axis_dimension( _UpperCamelCase , fixed_dimension=OnnxConfig.default_fixed_sequence , num_token_to_add=_UpperCamelCase ) # Generate dummy inputs according to compute batch and sequence UpperCAmelCase_ : Tuple = [[' '.join([processor.tokenizer.unk_token] ) * seq_length]] * batch_size # Generate dummy bounding boxes UpperCAmelCase_ : List[str] = [[[4_8, 8_4, 7_3, 1_2_8]]] * batch_size # If dynamic axis (-1) we forward with a fixed dimension of 2 samples to avoid optimizations made by ONNX # batch_size = compute_effective_axis_dimension(batch_size, fixed_dimension=OnnxConfig.default_fixed_batch) UpperCAmelCase_ : str = self._generate_dummy_images(_UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase ) UpperCAmelCase_ : List[str] = dict( processor( _UpperCamelCase , text=_UpperCamelCase , boxes=_UpperCamelCase , return_tensors=_UpperCamelCase , ) ) return inputs

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def A ( _lowercase , _lowercase ): SCREAMING_SNAKE_CASE : list[list[str]] = [[] for _ in range(_lowercase )] SCREAMING_SNAKE_CASE : Union[str, Any] = key - 1 if key <= 0: raise ValueError('''Height of grid can\'t be 0 or negative''' ) if key == 1 or len(_lowercase ) <= key: return input_string for position, character in enumerate(_lowercase ): SCREAMING_SNAKE_CASE : List[Any] = position % (lowest * 2) # puts it in bounds SCREAMING_SNAKE_CASE : List[str] = min(_lowercase , lowest * 2 - num ) # creates zigzag pattern temp_grid[num].append(_lowercase ) SCREAMING_SNAKE_CASE : int = [''''''.join(_lowercase ) for row in temp_grid] SCREAMING_SNAKE_CASE : Any = ''''''.join(_lowercase ) return output_string def A ( _lowercase , _lowercase ): SCREAMING_SNAKE_CASE : Optional[int] = [] SCREAMING_SNAKE_CASE : Optional[Any] = key - 1 if key <= 0: raise ValueError('''Height of grid can\'t be 0 or negative''' ) if key == 1: return input_string SCREAMING_SNAKE_CASE : list[list[str]] = [[] for _ in range(_lowercase )] # generates template for position in range(len(_lowercase ) ): SCREAMING_SNAKE_CASE : int = position % (lowest * 2) # puts it in bounds SCREAMING_SNAKE_CASE : List[str] = min(_lowercase , lowest * 2 - num ) # creates zigzag pattern temp_grid[num].append('''*''' ) SCREAMING_SNAKE_CASE : List[Any] = 0 for row in temp_grid: # fills in the characters SCREAMING_SNAKE_CASE : Optional[Any] = input_string[counter : counter + len(_lowercase )] grid.append(list(_lowercase ) ) counter += len(_lowercase ) SCREAMING_SNAKE_CASE : List[Any] = '''''' # reads as zigzag for position in range(len(_lowercase ) ): SCREAMING_SNAKE_CASE : List[str] = position % (lowest * 2) # puts it in bounds SCREAMING_SNAKE_CASE : List[Any] = min(_lowercase , lowest * 2 - num ) # creates zigzag pattern output_string += grid[num][0] grid[num].pop(0 ) return output_string def A ( _lowercase ): SCREAMING_SNAKE_CASE : Dict = {} for key_guess in range(1 , len(_lowercase ) ): # tries every key SCREAMING_SNAKE_CASE : Tuple = decrypt(_lowercase , _lowercase ) return results if __name__ == "__main__": import doctest doctest.testmod()

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import math def A ( _lowercase ): return math.sqrt(_lowercase ) * math.sqrt(_lowercase ) == num def A ( _lowercase ): SCREAMING_SNAKE_CASE : Dict = 0 SCREAMING_SNAKE_CASE : Tuple = n while left <= right: SCREAMING_SNAKE_CASE : Union[str, Any] = (left + right) // 2 if mid**2 == n: return True elif mid**2 > n: SCREAMING_SNAKE_CASE : Optional[Any] = mid - 1 else: SCREAMING_SNAKE_CASE : Optional[int] = mid + 1 return False if __name__ == "__main__": import doctest doctest.testmod()

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"""simple docstring""" from abc import ABC, abstractmethod from argparse import ArgumentParser class UpperCamelCase ( snake_case ): """simple docstring""" @staticmethod @abstractmethod def lowerCamelCase__ ( UpperCAmelCase_ ): raise NotImplementedError() @abstractmethod def lowerCamelCase__ ( self ): raise NotImplementedError()

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"""simple docstring""" from __future__ import annotations from typing import TypedDict class UpperCamelCase ( snake_case ): """simple docstring""" SCREAMING_SNAKE_CASE_ : str SCREAMING_SNAKE_CASE_ : int def __SCREAMING_SNAKE_CASE ( __UpperCAmelCase ): if not isinstance(__UpperCAmelCase , __UpperCAmelCase ): raise TypeError("""The parameter s type must be str.""" ) return [s[i:] + s[:i] for i in range(len(__UpperCAmelCase ) )] def __SCREAMING_SNAKE_CASE ( __UpperCAmelCase ): if not isinstance(__UpperCAmelCase , __UpperCAmelCase ): raise TypeError("""The parameter s type must be str.""" ) if not s: raise ValueError("""The parameter s must not be empty.""" ) _lowercase : Tuple = all_rotations(__UpperCAmelCase ) rotations.sort() # sort the list of rotations in alphabetically order # make a string composed of the last char of each rotation _lowercase : BWTTransformDict = { "bwt_string": "".join([word[-1] for word in rotations] ), "idx_original_string": rotations.index(__UpperCAmelCase ), } return response def __SCREAMING_SNAKE_CASE ( __UpperCAmelCase , __UpperCAmelCase ): if not isinstance(__UpperCAmelCase , __UpperCAmelCase ): raise TypeError("""The parameter bwt_string type must be str.""" ) if not bwt_string: raise ValueError("""The parameter bwt_string must not be empty.""" ) try: _lowercase : Optional[Any] = int(__UpperCAmelCase ) except ValueError: raise TypeError( """The parameter idx_original_string type must be int or passive""" """ of cast to int.""" ) if idx_original_string < 0: raise ValueError("""The parameter idx_original_string must not be lower than 0.""" ) if idx_original_string >= len(__UpperCAmelCase ): raise ValueError( """The parameter idx_original_string must be lower than""" """ len(bwt_string).""" ) _lowercase : int = [""""""] * len(__UpperCAmelCase ) for _ in range(len(__UpperCAmelCase ) ): for i in range(len(__UpperCAmelCase ) ): _lowercase : Union[str, Any] = bwt_string[i] + ordered_rotations[i] ordered_rotations.sort() return ordered_rotations[idx_original_string] if __name__ == "__main__": UpperCAmelCase: Optional[int] = """Provide a string that I will generate its BWT transform: """ UpperCAmelCase: int = input(entry_msg).strip() UpperCAmelCase: List[str] = bwt_transform(s) print( F'Burrows Wheeler transform for string \'{s}\' results ' F'in \'{result["bwt_string"]}\'' ) UpperCAmelCase: Union[str, Any] = reverse_bwt(result["""bwt_string"""], result["""idx_original_string"""]) print( F'Reversing Burrows Wheeler transform for entry \'{result["bwt_string"]}\' ' F'we get original string \'{original_string}\'' )

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'''simple docstring''' from __future__ import annotations import unittest from transformers import is_tf_available from transformers.testing_utils import require_tf, slow from ...test_configuration_common import ConfigTester from ...test_modeling_tf_common import TFModelTesterMixin, ids_tensor, random_attention_mask from ...test_pipeline_mixin import PipelineTesterMixin if is_tf_available(): import numpy import tensorflow as tf from transformers import ( TF_DPR_CONTEXT_ENCODER_PRETRAINED_MODEL_ARCHIVE_LIST, TF_DPR_QUESTION_ENCODER_PRETRAINED_MODEL_ARCHIVE_LIST, TF_DPR_READER_PRETRAINED_MODEL_ARCHIVE_LIST, BertConfig, DPRConfig, TFDPRContextEncoder, TFDPRQuestionEncoder, TFDPRReader, ) class a__ : def __init__( self , _UpperCamelCase , _UpperCamelCase=13 , _UpperCamelCase=7 , _UpperCamelCase=True , _UpperCamelCase=True , _UpperCamelCase=True , _UpperCamelCase=True , _UpperCamelCase=99 , _UpperCamelCase=32 , _UpperCamelCase=2 , _UpperCamelCase=4 , _UpperCamelCase=37 , _UpperCamelCase="gelu" , _UpperCamelCase=0.1 , _UpperCamelCase=0.1 , _UpperCamelCase=512 , _UpperCamelCase=16 , _UpperCamelCase=2 , _UpperCamelCase=0.0_2 , _UpperCamelCase=3 , _UpperCamelCase=4 , _UpperCamelCase=None , _UpperCamelCase=0 , ): """simple docstring""" _lowercase : Dict = parent _lowercase : str = batch_size _lowercase : int = seq_length _lowercase : Any = is_training _lowercase : Any = use_input_mask _lowercase : List[Any] = use_token_type_ids _lowercase : str = use_labels _lowercase : int = vocab_size _lowercase : Dict = hidden_size _lowercase : Dict = num_hidden_layers _lowercase : Optional[Any] = num_attention_heads _lowercase : Optional[Any] = intermediate_size _lowercase : Optional[int] = hidden_act _lowercase : Tuple = hidden_dropout_prob _lowercase : Optional[Any] = attention_probs_dropout_prob _lowercase : List[Any] = max_position_embeddings _lowercase : Optional[int] = type_vocab_size _lowercase : Optional[int] = type_sequence_label_size _lowercase : Dict = initializer_range _lowercase : List[str] = num_labels _lowercase : List[Any] = num_choices _lowercase : Optional[int] = scope _lowercase : Optional[Any] = projection_dim def _lowerCamelCase ( self ): """simple docstring""" _lowercase : Dict = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size ) _lowercase : Any = None if self.use_input_mask: # follow test_modeling_tf_ctrl.py _lowercase : int = random_attention_mask([self.batch_size, self.seq_length] ) _lowercase : List[str] = None if self.use_token_type_ids: _lowercase : str = ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size ) _lowercase : Optional[int] = None _lowercase : Any = None _lowercase : int = None if self.use_labels: _lowercase : Tuple = ids_tensor([self.batch_size] , self.type_sequence_label_size ) _lowercase : List[str] = ids_tensor([self.batch_size, self.seq_length] , self.num_labels ) _lowercase : List[Any] = ids_tensor([self.batch_size] , self.num_choices ) _lowercase : List[Any] = BertConfig( vocab_size=self.vocab_size , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , max_position_embeddings=self.max_position_embeddings , type_vocab_size=self.type_vocab_size , is_decoder=A_ , initializer_range=self.initializer_range , ) _lowercase : Any = DPRConfig(projection_dim=self.projection_dim , **config.to_dict() ) return config, input_ids, token_type_ids, input_mask, sequence_labels, token_labels, choice_labels def _lowerCamelCase ( self , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase ): """simple docstring""" _lowercase : Tuple = TFDPRContextEncoder(config=A_ ) _lowercase : str = model(A_ , attention_mask=A_ , token_type_ids=A_ ) _lowercase : Tuple = model(A_ , token_type_ids=A_ ) _lowercase : Any = model(A_ ) self.parent.assertEqual(result.pooler_output.shape , (self.batch_size, self.projection_dim or self.hidden_size) ) def _lowerCamelCase ( self , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase ): """simple docstring""" _lowercase : Optional[int] = TFDPRQuestionEncoder(config=A_ ) _lowercase : str = model(A_ , attention_mask=A_ , token_type_ids=A_ ) _lowercase : Any = model(A_ , token_type_ids=A_ ) _lowercase : str = model(A_ ) self.parent.assertEqual(result.pooler_output.shape , (self.batch_size, self.projection_dim or self.hidden_size) ) def _lowerCamelCase ( self , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase , _UpperCamelCase ): """simple docstring""" _lowercase : Optional[Any] = TFDPRReader(config=A_ ) _lowercase : int = model(A_ , attention_mask=A_ ) self.parent.assertEqual(result.start_logits.shape , (self.batch_size, self.seq_length) ) self.parent.assertEqual(result.end_logits.shape , (self.batch_size, self.seq_length) ) self.parent.assertEqual(result.relevance_logits.shape , (self.batch_size,) ) def _lowerCamelCase ( self ): """simple docstring""" _lowercase : List[Any] = self.prepare_config_and_inputs() ( ( _lowercase ) , ( _lowercase ) , ( _lowercase ) , ( _lowercase ) , ( _lowercase ) , ( _lowercase ) , ( _lowercase ) , ) : str = config_and_inputs _lowercase : str = {"input_ids": input_ids} return config, inputs_dict @require_tf class a__ ( lowerCamelCase_ , lowerCamelCase_ , unittest.TestCase ): _SCREAMING_SNAKE_CASE : List[Any] = ( ( TFDPRContextEncoder, TFDPRQuestionEncoder, TFDPRReader, ) if is_tf_available() else () ) _SCREAMING_SNAKE_CASE : Optional[int] = {'feature-extraction': TFDPRQuestionEncoder} if is_tf_available() else {} _SCREAMING_SNAKE_CASE : List[str] = False _SCREAMING_SNAKE_CASE : Optional[int] = False _SCREAMING_SNAKE_CASE : int = False _SCREAMING_SNAKE_CASE : List[Any] = False _SCREAMING_SNAKE_CASE : Any = False def _lowerCamelCase ( self ): """simple docstring""" _lowercase : Dict = TFDPRModelTester(self ) _lowercase : List[Any] = ConfigTester(self , config_class=A_ , hidden_size=37 ) def _lowerCamelCase ( self ): """simple docstring""" self.config_tester.run_common_tests() def _lowerCamelCase ( self ): """simple docstring""" _lowercase : Tuple = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_dpr_context_encoder(*A_ ) def _lowerCamelCase ( self ): """simple docstring""" _lowercase : Optional[int] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_dpr_question_encoder(*A_ ) def _lowerCamelCase ( self ): """simple docstring""" _lowercase : List[Any] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_dpr_reader(*A_ ) @slow def _lowerCamelCase ( self ): """simple docstring""" for model_name in TF_DPR_CONTEXT_ENCODER_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: _lowercase : int = TFDPRContextEncoder.from_pretrained(A_ ) self.assertIsNotNone(A_ ) for model_name in TF_DPR_CONTEXT_ENCODER_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: _lowercase : List[str] = TFDPRContextEncoder.from_pretrained(A_ ) self.assertIsNotNone(A_ ) for model_name in TF_DPR_QUESTION_ENCODER_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: _lowercase : Union[str, Any] = TFDPRQuestionEncoder.from_pretrained(A_ ) self.assertIsNotNone(A_ ) for model_name in TF_DPR_READER_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: _lowercase : str = TFDPRReader.from_pretrained(A_ ) self.assertIsNotNone(A_ ) @require_tf class a__ ( unittest.TestCase ): @slow def _lowerCamelCase ( self ): """simple docstring""" _lowercase : List[Any] = TFDPRQuestionEncoder.from_pretrained("facebook/dpr-question_encoder-single-nq-base" ) _lowercase : Any = tf.constant( [[101, 7592, 1010, 2003, 2026, 3899, 10140, 1029, 102]] ) # [CLS] hello, is my dog cute? [SEP] _lowercase : str = model(A_ )[0] # embedding shape = (1, 768) # compare the actual values for a slice. _lowercase : str = tf.constant( [ [ 0.0_3_2_3_6_2_5_3, 0.1_2_7_5_3_3_3_5, 0.1_6_8_1_8_5_0_9, 0.0_0_2_7_9_7_8_6, 0.3_8_9_6_9_3_3, 0.2_4_2_6_4_9_4_5, 0.2_1_7_8_9_7_1, -0.0_2_3_3_5_2_2_7, -0.0_8_4_8_1_9_5_9, -0.1_4_3_2_4_1_1_7, ] ] ) self.assertTrue(numpy.allclose(output[:, :10].numpy() , expected_slice.numpy() , atol=1E-4 ) )

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import os from shutil import copyfile from typing import List, Optional, Tuple from ...tokenization_utils import AddedToken from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import is_sentencepiece_available, logging if is_sentencepiece_available(): from .tokenization_fnet import FNetTokenizer else: lowerCamelCase : List[Any] = None lowerCamelCase : int = logging.get_logger(__name__) lowerCamelCase : Optional[int] = {"vocab_file": "spiece.model", "tokenizer_file": "tokenizer.json"} lowerCamelCase : Optional[int] = { "vocab_file": { "google/fnet-base": "https://huggingface.co/google/fnet-base/resolve/main/spiece.model", "google/fnet-large": "https://huggingface.co/google/fnet-large/resolve/main/spiece.model", }, "tokenizer_file": { "google/fnet-base": "https://huggingface.co/google/fnet-base/resolve/main/tokenizer.json", "google/fnet-large": "https://huggingface.co/google/fnet-large/resolve/main/tokenizer.json", }, } lowerCamelCase : List[Any] = { "google/fnet-base": 512, "google/fnet-large": 512, } lowerCamelCase : Any = "▁" class A( UpperCamelCase ): '''simple docstring''' UpperCamelCase = VOCAB_FILES_NAMES UpperCamelCase = PRETRAINED_VOCAB_FILES_MAP UpperCamelCase = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES UpperCamelCase = ['''input_ids''', '''token_type_ids'''] UpperCamelCase = FNetTokenizer def __init__( self : Optional[int] , A_ : Any=None , A_ : int=None , A_ : int=False , A_ : Optional[int]=True , A_ : List[Any]=True , A_ : Tuple="<unk>" , A_ : Optional[int]="[SEP]" , A_ : List[Any]="<pad>" , A_ : Optional[int]="[CLS]" , A_ : Optional[Any]="[MASK]" , **A_ : Dict , ) -> List[str]: """simple docstring""" lowerCamelCase_ = ( AddedToken(A_ , lstrip=A_ , rstrip=A_ , normalized=A_ ) if isinstance(A_ , A_ ) else mask_token ) super().__init__( A_ , tokenizer_file=A_ , do_lower_case=A_ , remove_space=A_ , keep_accents=A_ , unk_token=A_ , sep_token=A_ , pad_token=A_ , cls_token=A_ , mask_token=A_ , **A_ , ) lowerCamelCase_ = do_lower_case lowerCamelCase_ = remove_space lowerCamelCase_ = keep_accents lowerCamelCase_ = vocab_file lowerCamelCase_ = False if not self.vocab_file else True def a__ ( self : List[Any] , A_ : List[int] , A_ : Optional[List[int]] = None ) -> List[int]: """simple docstring""" lowerCamelCase_ = [self.sep_token_id] lowerCamelCase_ = [self.cls_token_id] if token_ids_a is None: return cls + token_ids_a + sep return cls + token_ids_a + sep + token_ids_a + sep def a__ ( self : Tuple , A_ : List[int] , A_ : Optional[List[int]] = None ) -> List[int]: """simple docstring""" lowerCamelCase_ = [self.sep_token_id] lowerCamelCase_ = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) * [0] return len(cls + token_ids_a + sep ) * [0] + len(token_ids_a + sep ) * [1] def a__ ( self : Dict , A_ : str , A_ : Optional[str] = None ) -> Tuple[str]: """simple docstring""" if not os.path.isdir(A_ ): logger.error(f"""Vocabulary path ({save_directory}) should be a directory""" ) return lowerCamelCase_ = os.path.join( A_ , (filename_prefix + '-' if filename_prefix else '') + VOCAB_FILES_NAMES['vocab_file'] ) if os.path.abspath(self.vocab_file ) != os.path.abspath(A_ ): copyfile(self.vocab_file , A_ ) return (out_vocab_file,)

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def lowerCAmelCase_ ( ) -> int: '''simple docstring''' return [ a * b * (1_000 - a - b) for a in range(1, 999 ) for b in range(__A, 999 ) if (a * a + b * b == (1_000 - a - b) ** 2) ][0] if __name__ == "__main__": print(f'''{solution() = }''')

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import json from typing import List, Optional, Tuple from tokenizers import pre_tokenizers, processors from ...tokenization_utils_base import AddedToken, BatchEncoding from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_bart import BartTokenizer UpperCamelCase__ = logging.get_logger(__name__) UpperCamelCase__ = {'vocab_file': 'vocab.json', 'merges_file': 'merges.txt', 'tokenizer_file': 'tokenizer.json'} # See all BART models at https://huggingface.co/models?filter=bart UpperCamelCase__ = { 'vocab_file': { 'facebook/bart-base': 'https://huggingface.co/facebook/bart-base/resolve/main/vocab.json', 'facebook/bart-large': 'https://huggingface.co/facebook/bart-large/resolve/main/vocab.json', 'facebook/bart-large-mnli': 'https://huggingface.co/facebook/bart-large-mnli/resolve/main/vocab.json', 'facebook/bart-large-cnn': 'https://huggingface.co/facebook/bart-large-cnn/resolve/main/vocab.json', 'facebook/bart-large-xsum': 'https://huggingface.co/facebook/bart-large-xsum/resolve/main/vocab.json', 'yjernite/bart_eli5': 'https://huggingface.co/yjernite/bart_eli5/resolve/main/vocab.json', }, 'merges_file': { 'facebook/bart-base': 'https://huggingface.co/facebook/bart-base/resolve/main/merges.txt', 'facebook/bart-large': 'https://huggingface.co/facebook/bart-large/resolve/main/merges.txt', 'facebook/bart-large-mnli': 'https://huggingface.co/facebook/bart-large-mnli/resolve/main/merges.txt', 'facebook/bart-large-cnn': 'https://huggingface.co/facebook/bart-large-cnn/resolve/main/merges.txt', 'facebook/bart-large-xsum': 'https://huggingface.co/facebook/bart-large-xsum/resolve/main/merges.txt', 'yjernite/bart_eli5': 'https://huggingface.co/yjernite/bart_eli5/resolve/main/merges.txt', }, 'tokenizer_file': { 'facebook/bart-base': 'https://huggingface.co/facebook/bart-base/resolve/main/tokenizer.json', 'facebook/bart-large': 'https://huggingface.co/facebook/bart-large/resolve/main/tokenizer.json', 'facebook/bart-large-mnli': 'https://huggingface.co/facebook/bart-large-mnli/resolve/main/tokenizer.json', 'facebook/bart-large-cnn': 'https://huggingface.co/facebook/bart-large-cnn/resolve/main/tokenizer.json', 'facebook/bart-large-xsum': 'https://huggingface.co/facebook/bart-large-xsum/resolve/main/tokenizer.json', 'yjernite/bart_eli5': 'https://huggingface.co/yjernite/bart_eli5/resolve/main/tokenizer.json', }, } UpperCamelCase__ = { 'facebook/bart-base': 1_0_2_4, 'facebook/bart-large': 1_0_2_4, 'facebook/bart-large-mnli': 1_0_2_4, 'facebook/bart-large-cnn': 1_0_2_4, 'facebook/bart-large-xsum': 1_0_2_4, 'yjernite/bart_eli5': 1_0_2_4, } class A ( UpperCAmelCase_ ): __UpperCAmelCase : List[str] = VOCAB_FILES_NAMES __UpperCAmelCase : int = PRETRAINED_VOCAB_FILES_MAP __UpperCAmelCase : int = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES __UpperCAmelCase : str = ['input_ids', 'attention_mask'] __UpperCAmelCase : str = BartTokenizer def __init__(self : Tuple , __UpperCAmelCase : int=None , __UpperCAmelCase : Optional[int]=None , __UpperCAmelCase : int=None , __UpperCAmelCase : str="replace" , __UpperCAmelCase : List[str]="<s>" , __UpperCAmelCase : Tuple="</s>" , __UpperCAmelCase : List[Any]="</s>" , __UpperCAmelCase : Tuple="<s>" , __UpperCAmelCase : List[str]="<unk>" , __UpperCAmelCase : Optional[int]="<pad>" , __UpperCAmelCase : List[Any]="<mask>" , __UpperCAmelCase : Any=False , __UpperCAmelCase : str=True , **__UpperCAmelCase : Tuple , ) -> Any: """simple docstring""" super().__init__( __UpperCAmelCase , __UpperCAmelCase , tokenizer_file=__UpperCAmelCase , errors=__UpperCAmelCase , bos_token=__UpperCAmelCase , eos_token=__UpperCAmelCase , sep_token=__UpperCAmelCase , cls_token=__UpperCAmelCase , unk_token=__UpperCAmelCase , pad_token=__UpperCAmelCase , mask_token=__UpperCAmelCase , add_prefix_space=__UpperCAmelCase , trim_offsets=__UpperCAmelCase , **__UpperCAmelCase , ) UpperCAmelCase__ = json.loads(self.backend_tokenizer.pre_tokenizer.__getstate__() ) if pre_tok_state.get("add_prefix_space" , __UpperCAmelCase ) != add_prefix_space: UpperCAmelCase__ = getattr(__UpperCAmelCase , pre_tok_state.pop("type" ) ) UpperCAmelCase__ = add_prefix_space UpperCAmelCase__ = pre_tok_class(**__UpperCAmelCase ) UpperCAmelCase__ = add_prefix_space # the pre_tokenizer is already updated in the GPT2TokenizerFast `__init__` UpperCAmelCase__ = "post_processor" UpperCAmelCase__ = getattr(self.backend_tokenizer , __UpperCAmelCase , __UpperCAmelCase ) if tokenizer_component_instance: UpperCAmelCase__ = json.loads(tokenizer_component_instance.__getstate__() ) # The lists 'sep' and 'cls' must be cased in tuples for the object `post_processor_class` if "sep" in state: UpperCAmelCase__ = tuple(state["sep"] ) if "cls" in state: UpperCAmelCase__ = tuple(state["cls"] ) UpperCAmelCase__ = False if state.get("add_prefix_space" , __UpperCAmelCase ) != add_prefix_space: UpperCAmelCase__ = add_prefix_space UpperCAmelCase__ = True if state.get("trim_offsets" , __UpperCAmelCase ) != trim_offsets: UpperCAmelCase__ = trim_offsets UpperCAmelCase__ = True if changes_to_apply: UpperCAmelCase__ = getattr(__UpperCAmelCase , state.pop("type" ) ) UpperCAmelCase__ = component_class(**__UpperCAmelCase ) setattr(self.backend_tokenizer , __UpperCAmelCase , __UpperCAmelCase ) @property def lowercase_ (self : Tuple ) -> str: """simple docstring""" if self._mask_token is None: if self.verbose: logger.error("Using mask_token, but it is not set yet." ) return None return str(self._mask_token ) @mask_token.setter def lowercase_ (self : Optional[int] , __UpperCAmelCase : Union[str, Any] ) -> Tuple: """simple docstring""" UpperCAmelCase__ = AddedToken(__UpperCAmelCase , lstrip=__UpperCAmelCase , rstrip=__UpperCAmelCase ) if isinstance(__UpperCAmelCase , __UpperCAmelCase ) else value UpperCAmelCase__ = value def lowercase_ (self : List[str] , *__UpperCAmelCase : str , **__UpperCAmelCase : List[str] ) -> BatchEncoding: """simple docstring""" UpperCAmelCase__ = kwargs.get("is_split_into_words" , __UpperCAmelCase ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f"""You need to instantiate {self.__class__.__name__} with add_prefix_space=True """ "to use it with pretokenized inputs." ) return super()._batch_encode_plus(*__UpperCAmelCase , **__UpperCAmelCase ) def lowercase_ (self : List[Any] , *__UpperCAmelCase : Optional[Any] , **__UpperCAmelCase : Optional[Any] ) -> BatchEncoding: """simple docstring""" UpperCAmelCase__ = kwargs.get("is_split_into_words" , __UpperCAmelCase ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f"""You need to instantiate {self.__class__.__name__} with add_prefix_space=True """ "to use it with pretokenized inputs." ) return super()._encode_plus(*__UpperCAmelCase , **__UpperCAmelCase ) def lowercase_ (self : Any , __UpperCAmelCase : str , __UpperCAmelCase : Optional[str] = None ) -> Tuple[str]: """simple docstring""" UpperCAmelCase__ = self._tokenizer.model.save(__UpperCAmelCase , name=__UpperCAmelCase ) return tuple(__UpperCAmelCase ) def lowercase_ (self : Optional[Any] , __UpperCAmelCase : int , __UpperCAmelCase : Dict=None ) -> Optional[int]: """simple docstring""" UpperCAmelCase__ = [self.bos_token_id] + token_ids_a + [self.eos_token_id] if token_ids_a is None: return output return output + [self.eos_token_id] + token_ids_a + [self.eos_token_id] def lowercase_ (self : Union[str, Any] , __UpperCAmelCase : List[int] , __UpperCAmelCase : Optional[List[int]] = None ) -> List[int]: """simple docstring""" UpperCAmelCase__ = [self.sep_token_id] UpperCAmelCase__ = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) * [0] return len(cls + token_ids_a + sep + sep + token_ids_a + sep ) * [0]

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from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_torch_available, is_vision_available, ) __a = { 'configuration_mobilevit': ['MOBILEVIT_PRETRAINED_CONFIG_ARCHIVE_MAP', 'MobileViTConfig', 'MobileViTOnnxConfig'], } try: if not is_vision_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: __a = ['MobileViTFeatureExtractor'] __a = ['MobileViTImageProcessor'] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: __a = [ 'MOBILEVIT_PRETRAINED_MODEL_ARCHIVE_LIST', 'MobileViTForImageClassification', 'MobileViTForSemanticSegmentation', 'MobileViTModel', 'MobileViTPreTrainedModel', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: __a = [ 'TF_MOBILEVIT_PRETRAINED_MODEL_ARCHIVE_LIST', 'TFMobileViTForImageClassification', 'TFMobileViTForSemanticSegmentation', 'TFMobileViTModel', 'TFMobileViTPreTrainedModel', ] if TYPE_CHECKING: from .configuration_mobilevit import MOBILEVIT_PRETRAINED_CONFIG_ARCHIVE_MAP, MobileViTConfig, MobileViTOnnxConfig try: if not is_vision_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .feature_extraction_mobilevit import MobileViTFeatureExtractor from .image_processing_mobilevit import MobileViTImageProcessor try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_mobilevit import ( MOBILEVIT_PRETRAINED_MODEL_ARCHIVE_LIST, MobileViTForImageClassification, MobileViTForSemanticSegmentation, MobileViTModel, MobileViTPreTrainedModel, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_mobilevit import ( TF_MOBILEVIT_PRETRAINED_MODEL_ARCHIVE_LIST, TFMobileViTForImageClassification, TFMobileViTForSemanticSegmentation, TFMobileViTModel, TFMobileViTPreTrainedModel, ) else: import sys __a = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)

30

from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available lowerCamelCase_ = {'''configuration_vit_msn''': ['''VIT_MSN_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''ViTMSNConfig''']} try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCamelCase_ = [ '''VIT_MSN_PRETRAINED_MODEL_ARCHIVE_LIST''', '''ViTMSNModel''', '''ViTMSNForImageClassification''', '''ViTMSNPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_vit_msn import VIT_MSN_PRETRAINED_CONFIG_ARCHIVE_MAP, ViTMSNConfig try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_vit_msn import ( VIT_MSN_PRETRAINED_MODEL_ARCHIVE_LIST, ViTMSNForImageClassification, ViTMSNModel, ViTMSNPreTrainedModel, ) else: import sys lowerCamelCase_ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)

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"""simple docstring""" import os import shutil from pathlib import Path from typing import Optional, Union import numpy as np from huggingface_hub import hf_hub_download from ..utils import ONNX_EXTERNAL_WEIGHTS_NAME, ONNX_WEIGHTS_NAME, is_onnx_available, logging if is_onnx_available(): import onnxruntime as ort SCREAMING_SNAKE_CASE : str = logging.get_logger(__name__) SCREAMING_SNAKE_CASE : Union[str, Any] = { '''tensor(bool)''': np.bool_, '''tensor(int8)''': np.inta, '''tensor(uint8)''': np.uinta, '''tensor(int16)''': np.intaa, '''tensor(uint16)''': np.uintaa, '''tensor(int32)''': np.intaa, '''tensor(uint32)''': np.uintaa, '''tensor(int64)''': np.intaa, '''tensor(uint64)''': np.uintaa, '''tensor(float16)''': np.floataa, '''tensor(float)''': np.floataa, '''tensor(double)''': np.floataa, } class __lowerCamelCase : def __init__(self , lowerCamelCase=None , **lowerCamelCase ): '''simple docstring''' logger.info("""`diffusers.OnnxRuntimeModel` is experimental and might change in the future.""" ) _lowerCAmelCase = model _lowerCAmelCase = kwargs.get("""model_save_dir""" , lowerCamelCase ) _lowerCAmelCase = kwargs.get("""latest_model_name""" , lowerCamelCase ) def __call__(self , **lowerCamelCase ): '''simple docstring''' _lowerCAmelCase = {k: np.array(lowerCamelCase ) for k, v in kwargs.items()} return self.model.run(lowerCamelCase , lowerCamelCase ) @staticmethod def A__ (lowerCamelCase , lowerCamelCase=None , lowerCamelCase=None ): '''simple docstring''' if provider is None: logger.info("""No onnxruntime provider specified, using CPUExecutionProvider""" ) _lowerCAmelCase = """CPUExecutionProvider""" return ort.InferenceSession(lowerCamelCase , providers=[provider] , sess_options=lowerCamelCase ) def A__ (self , lowerCamelCase , lowerCamelCase = None , **lowerCamelCase ): '''simple docstring''' _lowerCAmelCase = file_name if file_name is not None else ONNX_WEIGHTS_NAME _lowerCAmelCase = self.model_save_dir.joinpath(self.latest_model_name ) _lowerCAmelCase = Path(lowerCamelCase ).joinpath(lowerCamelCase ) try: shutil.copyfile(lowerCamelCase , lowerCamelCase ) except shutil.SameFileError: pass # copy external weights (for models >2GB) _lowerCAmelCase = self.model_save_dir.joinpath(lowerCamelCase ) if src_path.exists(): _lowerCAmelCase = Path(lowerCamelCase ).joinpath(lowerCamelCase ) try: shutil.copyfile(lowerCamelCase , lowerCamelCase ) except shutil.SameFileError: pass def A__ (self , lowerCamelCase , **lowerCamelCase , ): '''simple docstring''' if os.path.isfile(lowerCamelCase ): logger.error(f"""Provided path ({save_directory}) should be a directory, not a file""" ) return os.makedirs(lowerCamelCase , exist_ok=lowerCamelCase ) # saving model weights/files self._save_pretrained(lowerCamelCase , **lowerCamelCase ) @classmethod def A__ (cls , lowerCamelCase , lowerCamelCase = None , lowerCamelCase = None , lowerCamelCase = False , lowerCamelCase = None , lowerCamelCase = None , lowerCamelCase = None , lowerCamelCase = None , **lowerCamelCase , ): '''simple docstring''' _lowerCAmelCase = file_name if file_name is not None else ONNX_WEIGHTS_NAME # load model from local directory if os.path.isdir(lowerCamelCase ): _lowerCAmelCase = OnnxRuntimeModel.load_model( os.path.join(lowerCamelCase , lowerCamelCase ) , provider=lowerCamelCase , sess_options=lowerCamelCase ) _lowerCAmelCase = Path(lowerCamelCase ) # load model from hub else: # download model _lowerCAmelCase = hf_hub_download( repo_id=lowerCamelCase , filename=lowerCamelCase , use_auth_token=lowerCamelCase , revision=lowerCamelCase , cache_dir=lowerCamelCase , force_download=lowerCamelCase , ) _lowerCAmelCase = Path(lowerCamelCase ).parent _lowerCAmelCase = Path(lowerCamelCase ).name _lowerCAmelCase = OnnxRuntimeModel.load_model(lowerCamelCase , provider=lowerCamelCase , sess_options=lowerCamelCase ) return cls(model=lowerCamelCase , **lowerCamelCase ) @classmethod def A__ (cls , lowerCamelCase , lowerCamelCase = True , lowerCamelCase = None , lowerCamelCase = None , **lowerCamelCase , ): '''simple docstring''' _lowerCAmelCase = None if len(str(lowerCamelCase ).split("""@""" ) ) == 2: _lowerCAmelCase , _lowerCAmelCase = model_id.split("""@""" ) return cls._from_pretrained( model_id=lowerCamelCase , revision=lowerCamelCase , cache_dir=lowerCamelCase , force_download=lowerCamelCase , use_auth_token=lowerCamelCase , **lowerCamelCase , )

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"""simple docstring""" from functools import reduce SCREAMING_SNAKE_CASE : int = ( '''73167176531330624919225119674426574742355349194934''' '''96983520312774506326239578318016984801869478851843''' '''85861560789112949495459501737958331952853208805511''' '''12540698747158523863050715693290963295227443043557''' '''66896648950445244523161731856403098711121722383113''' '''62229893423380308135336276614282806444486645238749''' '''30358907296290491560440772390713810515859307960866''' '''70172427121883998797908792274921901699720888093776''' '''65727333001053367881220235421809751254540594752243''' '''52584907711670556013604839586446706324415722155397''' '''53697817977846174064955149290862569321978468622482''' '''83972241375657056057490261407972968652414535100474''' '''82166370484403199890008895243450658541227588666881''' '''16427171479924442928230863465674813919123162824586''' '''17866458359124566529476545682848912883142607690042''' '''24219022671055626321111109370544217506941658960408''' '''07198403850962455444362981230987879927244284909188''' '''84580156166097919133875499200524063689912560717606''' '''05886116467109405077541002256983155200055935729725''' '''71636269561882670428252483600823257530420752963450''' ) def __UpperCAmelCase ( snake_case_ : str = N ) -> int: """simple docstring""" return max( # mypy cannot properly interpret reduce int(reduce(lambda snake_case_ , snake_case_ : str(int(snake_case_ ) * int(snake_case_ ) ) , n[i : i + 13] ) ) for i in range(len(snake_case_ ) - 12 ) ) if __name__ == "__main__": print(F'{solution() = }')

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from ...processing_utils import ProcessorMixin from ...tokenization_utils_base import BatchEncoding class lowercase_ ( __SCREAMING_SNAKE_CASE ): A__ : Optional[Any] = """ClapFeatureExtractor""" A__ : Union[str, Any] = ("""RobertaTokenizer""", """RobertaTokenizerFast""") def __init__( self , __UpperCamelCase , __UpperCamelCase ): """simple docstring""" super().__init__(__UpperCamelCase , __UpperCamelCase ) def __call__( self , __UpperCamelCase=None , __UpperCamelCase=None , __UpperCamelCase=None , **__UpperCamelCase ): """simple docstring""" UpperCamelCase_ = kwargs.pop("""sampling_rate""" , __UpperCamelCase ) if text is None and audios is None: raise ValueError("""You have to specify either text or audios. Both cannot be none.""" ) if text is not None: UpperCamelCase_ = self.tokenizer(__UpperCamelCase , return_tensors=__UpperCamelCase , **__UpperCamelCase ) if audios is not None: UpperCamelCase_ = self.feature_extractor( __UpperCamelCase , sampling_rate=__UpperCamelCase , return_tensors=__UpperCamelCase , **__UpperCamelCase ) if text is not None and audios is not None: UpperCamelCase_ = audio_features.input_features return encoding elif text is not None: return encoding else: return BatchEncoding(data=dict(**__UpperCamelCase ) , tensor_type=__UpperCamelCase ) def lowerCamelCase_ ( self , *__UpperCamelCase , **__UpperCamelCase ): """simple docstring""" return self.tokenizer.batch_decode(*__UpperCamelCase , **__UpperCamelCase ) def lowerCamelCase_ ( self , *__UpperCamelCase , **__UpperCamelCase ): """simple docstring""" return self.tokenizer.decode(*__UpperCamelCase , **__UpperCamelCase ) @property def lowerCamelCase_ ( self ): """simple docstring""" UpperCamelCase_ = self.tokenizer.model_input_names UpperCamelCase_ = self.feature_extractor.model_input_names return list(dict.fromkeys(tokenizer_input_names + feature_extractor_input_names ) )

122

_A = [0, 2, 4, 6, 8] _A = [1, 3, 5, 7, 9] def lowerCamelCase__ ( a__ : int , a__ : int , a__ : list[int] , a__ : int ) -> int: if remaining_length == 0: if digits[0] == 0 or digits[-1] == 0: return 0 for i in range(length // 2 - 1 , -1 , -1 ): remainder += digits[i] + digits[length - i - 1] if remainder % 2 == 0: return 0 remainder //= 10 return 1 if remaining_length == 1: if remainder % 2 == 0: return 0 UpperCamelCase_ = 0 for digit in range(10 ): UpperCamelCase_ = digit result += reversible_numbers( 0 , (remainder + 2 * digit) // 10 , a__ , a__ ) return result UpperCamelCase_ = 0 for digita in range(10 ): UpperCamelCase_ = digita if (remainder + digita) % 2 == 0: UpperCamelCase_ = ODD_DIGITS else: UpperCamelCase_ = EVEN_DIGITS for digita in other_parity_digits: UpperCamelCase_ = digita result += reversible_numbers( remaining_length - 2 , (remainder + digita + digita) // 10 , a__ , a__ , ) return result def lowerCamelCase__ ( a__ : int = 9 ) -> int: UpperCamelCase_ = 0 for length in range(1 , max_power + 1 ): result += reversible_numbers(a__ , 0 , [0] * length , a__ ) return result if __name__ == "__main__": print(F'''{solution() = }''')

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"""simple docstring""" from __future__ import annotations import inspect import unittest import numpy as np from transformers import DeiTConfig from transformers.testing_utils import require_tf, require_vision, slow from transformers.utils import cached_property, is_tf_available, is_vision_available from ...test_configuration_common import ConfigTester from ...test_modeling_tf_common import TFModelTesterMixin, floats_tensor, ids_tensor from ...test_pipeline_mixin import PipelineTesterMixin if is_tf_available(): import tensorflow as tf from transformers import ( TFDeiTForImageClassification, TFDeiTForImageClassificationWithTeacher, TFDeiTForMaskedImageModeling, TFDeiTModel, ) from transformers.models.deit.modeling_tf_deit import TF_DEIT_PRETRAINED_MODEL_ARCHIVE_LIST if is_vision_available(): from PIL import Image from transformers import DeiTImageProcessor class _SCREAMING_SNAKE_CASE : def __init__( self , __A , __A=13 , __A=30 , __A=2 , __A=3 , __A=True , __A=True , __A=32 , __A=2 , __A=4 , __A=37 , __A="gelu" , __A=0.1 , __A=0.1 , __A=10 , __A=0.0_2 , __A=3 , __A=None , __A=2 , ) -> int: lowerCAmelCase_ :List[Any] = parent lowerCAmelCase_ :Any = batch_size lowerCAmelCase_ :int = image_size lowerCAmelCase_ :Tuple = patch_size lowerCAmelCase_ :Union[str, Any] = num_channels lowerCAmelCase_ :Union[str, Any] = is_training lowerCAmelCase_ :Union[str, Any] = use_labels lowerCAmelCase_ :Any = hidden_size lowerCAmelCase_ :Optional[int] = num_hidden_layers lowerCAmelCase_ :Union[str, Any] = num_attention_heads lowerCAmelCase_ :Any = intermediate_size lowerCAmelCase_ :Dict = hidden_act lowerCAmelCase_ :Tuple = hidden_dropout_prob lowerCAmelCase_ :Tuple = attention_probs_dropout_prob lowerCAmelCase_ :Dict = type_sequence_label_size lowerCAmelCase_ :Any = initializer_range lowerCAmelCase_ :Tuple = scope lowerCAmelCase_ :Union[str, Any] = encoder_stride # in DeiT, the seq length equals the number of patches + 2 (we add 2 for the [CLS] and distilation tokens) lowerCAmelCase_ :List[Any] = (image_size // patch_size) ** 2 lowerCAmelCase_ :List[str] = num_patches + 2 def __lowerCAmelCase ( self ) -> Dict: lowerCAmelCase_ :Optional[Any] = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] ) lowerCAmelCase_ :Optional[int] = None if self.use_labels: lowerCAmelCase_ :Optional[int] = ids_tensor([self.batch_size] , self.type_sequence_label_size ) lowerCAmelCase_ :Dict = self.get_config() return config, pixel_values, labels def __lowerCAmelCase ( self ) -> Optional[Any]: return DeiTConfig( image_size=self.image_size , patch_size=self.patch_size , num_channels=self.num_channels , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , is_decoder=__A , initializer_range=self.initializer_range , encoder_stride=self.encoder_stride , ) def __lowerCAmelCase ( self , __A , __A , __A ) -> List[str]: lowerCAmelCase_ :List[Any] = TFDeiTModel(config=__A ) lowerCAmelCase_ :str = model(__A ) self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) ) def __lowerCAmelCase ( self , __A , __A , __A ) -> Optional[Any]: lowerCAmelCase_ :List[str] = TFDeiTForMaskedImageModeling(config=__A ) lowerCAmelCase_ :Optional[int] = model(__A ) self.parent.assertEqual( result.reconstruction.shape , (self.batch_size, self.num_channels, self.image_size, self.image_size) ) # test greyscale images lowerCAmelCase_ :Any = 1 lowerCAmelCase_ :Union[str, Any] = TFDeiTForMaskedImageModeling(__A ) lowerCAmelCase_ :int = floats_tensor([self.batch_size, 1, self.image_size, self.image_size] ) lowerCAmelCase_ :Optional[Any] = model(__A ) self.parent.assertEqual(result.reconstruction.shape , (self.batch_size, 1, self.image_size, self.image_size) ) def __lowerCAmelCase ( self , __A , __A , __A ) -> str: lowerCAmelCase_ :str = self.type_sequence_label_size lowerCAmelCase_ :Optional[Any] = TFDeiTForImageClassification(__A ) lowerCAmelCase_ :Dict = model(__A , labels=__A ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size) ) # test greyscale images lowerCAmelCase_ :int = 1 lowerCAmelCase_ :List[Any] = TFDeiTForImageClassification(__A ) lowerCAmelCase_ :Dict = floats_tensor([self.batch_size, 1, self.image_size, self.image_size] ) lowerCAmelCase_ :int = model(__A , labels=__A ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size) ) def __lowerCAmelCase ( self ) -> Optional[int]: lowerCAmelCase_ :str = self.prepare_config_and_inputs() lowerCAmelCase_ , lowerCAmelCase_ , lowerCAmelCase_ :List[Any] = config_and_inputs lowerCAmelCase_ :Dict = {"""pixel_values""": pixel_values} return config, inputs_dict @require_tf class _SCREAMING_SNAKE_CASE ( A__ , A__ , unittest.TestCase ): UpperCAmelCase_ :Dict = ( ( TFDeiTModel, TFDeiTForImageClassification, TFDeiTForImageClassificationWithTeacher, TFDeiTForMaskedImageModeling, ) if is_tf_available() else () ) UpperCAmelCase_ :int = ( { "feature-extraction": TFDeiTModel, "image-classification": (TFDeiTForImageClassification, TFDeiTForImageClassificationWithTeacher), } if is_tf_available() else {} ) UpperCAmelCase_ :Union[str, Any] = False UpperCAmelCase_ :str = False UpperCAmelCase_ :Union[str, Any] = False UpperCAmelCase_ :List[str] = False def __lowerCAmelCase ( self ) -> Tuple: lowerCAmelCase_ :Optional[int] = TFDeiTModelTester(self ) lowerCAmelCase_ :Any = ConfigTester(self , config_class=__A , has_text_modality=__A , hidden_size=37 ) def __lowerCAmelCase ( self ) -> Optional[Any]: self.config_tester.run_common_tests() @unittest.skip(reason="""DeiT does not use inputs_embeds""" ) def __lowerCAmelCase ( self ) -> List[Any]: pass def __lowerCAmelCase ( self ) -> str: lowerCAmelCase_ , lowerCAmelCase_ :Tuple = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: lowerCAmelCase_ :List[str] = model_class(__A ) self.assertIsInstance(model.get_input_embeddings() , (tf.keras.layers.Layer) ) lowerCAmelCase_ :int = model.get_output_embeddings() self.assertTrue(x is None or isinstance(__A , tf.keras.layers.Dense ) ) def __lowerCAmelCase ( self ) -> List[Any]: lowerCAmelCase_ , lowerCAmelCase_ :List[Any] = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: lowerCAmelCase_ :Optional[int] = model_class(__A ) lowerCAmelCase_ :str = inspect.signature(model.call ) # signature.parameters is an OrderedDict => so arg_names order is deterministic lowerCAmelCase_ :Any = [*signature.parameters.keys()] lowerCAmelCase_ :List[str] = ["""pixel_values"""] self.assertListEqual(arg_names[:1] , __A ) def __lowerCAmelCase ( self ) -> int: lowerCAmelCase_ :Optional[int] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(*__A ) def __lowerCAmelCase ( self ) -> Optional[Any]: lowerCAmelCase_ :Tuple = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_masked_image_modeling(*__A ) def __lowerCAmelCase ( self ) -> Optional[Any]: lowerCAmelCase_ :Union[str, Any] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_image_classification(*__A ) def __lowerCAmelCase ( self , __A , __A , __A=False ) -> int: lowerCAmelCase_ :List[str] = super()._prepare_for_class(__A , __A , return_labels=__A ) if return_labels: if "labels" in inputs_dict and "labels" not in inspect.signature(model_class.call ).parameters: del inputs_dict["labels"] return inputs_dict @slow def __lowerCAmelCase ( self ) -> List[str]: for model_name in TF_DEIT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: lowerCAmelCase_ :List[Any] = TFDeiTModel.from_pretrained(__A ) self.assertIsNotNone(__A ) def _snake_case ( ) -> Optional[int]: '''simple docstring''' lowerCAmelCase_ :List[str] = Image.open("""./tests/fixtures/tests_samples/COCO/000000039769.png""" ) return image @require_tf @require_vision class _SCREAMING_SNAKE_CASE ( unittest.TestCase ): @cached_property def __lowerCAmelCase ( self ) -> Tuple: return ( DeiTImageProcessor.from_pretrained("""facebook/deit-base-distilled-patch16-224""" ) if is_vision_available() else None ) @slow def __lowerCAmelCase ( self ) -> Any: lowerCAmelCase_ :Tuple = TFDeiTForImageClassificationWithTeacher.from_pretrained("""facebook/deit-base-distilled-patch16-224""" ) lowerCAmelCase_ :List[str] = self.default_image_processor lowerCAmelCase_ :int = prepare_img() lowerCAmelCase_ :Tuple = image_processor(images=__A , return_tensors="""tf""" ) # forward pass lowerCAmelCase_ :Tuple = model(**__A ) # verify the logits lowerCAmelCase_ :str = tf.TensorShape((1, 1000) ) self.assertEqual(outputs.logits.shape , __A ) lowerCAmelCase_ :Any = tf.constant([-1.0_2_6_6, 0.1_9_1_2, -1.2_8_6_1] ) self.assertTrue(np.allclose(outputs.logits[0, :3] , __A , atol=1E-4 ) )

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"""simple docstring""" from .imports import is_tqdm_available if is_tqdm_available(): from tqdm.auto import tqdm as _tqdm from ..state import PartialState def _snake_case ( lowercase__ : bool = True , *lowercase__ : Optional[int] , **lowercase__ : str ) -> Optional[Any]: '''simple docstring''' if not is_tqdm_available(): raise ImportError("""Accelerate's `tqdm` module requires `tqdm` to be installed. Please run `pip install tqdm`.""" ) lowerCAmelCase_ :Tuple = False if main_process_only: lowerCAmelCase_ :Dict = PartialState().local_process_index == 0 return _tqdm(*lowercase__ , **lowercase__ , disable=lowercase__ )

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"""simple docstring""" from __future__ import annotations def lowerCamelCase_ (UpperCamelCase__ : list[int] ): if not nums: return 0 _UpperCAmelCase : int = nums[0] _UpperCAmelCase : Union[str, Any] = 0 for num in nums[1:]: _UpperCAmelCase , _UpperCAmelCase : Any = ( max_excluding + num, max(UpperCamelCase__ , UpperCamelCase__ ), ) return max(UpperCamelCase__ , UpperCamelCase__ ) if __name__ == "__main__": import doctest doctest.testmod()

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"""simple docstring""" from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_flax_available, is_tf_available, is_tokenizers_available, is_torch_available, ) _lowerCAmelCase :List[Any] = {'configuration_opt': ['OPT_PRETRAINED_CONFIG_ARCHIVE_MAP', 'OPTConfig']} try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: _lowerCAmelCase :Any = [ 'OPT_PRETRAINED_MODEL_ARCHIVE_LIST', 'OPTForCausalLM', 'OPTModel', 'OPTPreTrainedModel', 'OPTForSequenceClassification', 'OPTForQuestionAnswering', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: _lowerCAmelCase :Optional[int] = ['TFOPTForCausalLM', 'TFOPTModel', 'TFOPTPreTrainedModel'] try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: _lowerCAmelCase :Any = [ 'FlaxOPTForCausalLM', 'FlaxOPTModel', 'FlaxOPTPreTrainedModel', ] if TYPE_CHECKING: from .configuration_opt import OPT_PRETRAINED_CONFIG_ARCHIVE_MAP, OPTConfig try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_opt import ( OPT_PRETRAINED_MODEL_ARCHIVE_LIST, OPTForCausalLM, OPTForQuestionAnswering, OPTForSequenceClassification, OPTModel, OPTPreTrainedModel, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_opt import TFOPTForCausalLM, TFOPTModel, TFOPTPreTrainedModel try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_flax_opt import FlaxOPTForCausalLM, FlaxOPTModel, FlaxOPTPreTrainedModel else: import sys _lowerCAmelCase :int = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)

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class _SCREAMING_SNAKE_CASE : def __init__( self , lowercase ) -> None: lowerCamelCase_ = size lowerCamelCase_ = [0] * size lowerCamelCase_ = [0] * size @staticmethod def SCREAMING_SNAKE_CASE_( lowercase ) -> int: return index | (index + 1) @staticmethod def SCREAMING_SNAKE_CASE_( lowercase ) -> int: return (index & (index + 1)) - 1 def SCREAMING_SNAKE_CASE_( self , lowercase , lowercase ) -> None: lowerCamelCase_ = value while index < self.size: lowerCamelCase_ = self.get_prev(lowercase ) + 1 if current_left_border == index: lowerCamelCase_ = value else: lowerCamelCase_ = max(lowercase , lowercase , lowercase ) lowerCamelCase_ = self.get_next(lowercase ) def SCREAMING_SNAKE_CASE_( self , lowercase , lowercase ) -> int: right -= 1 # Because of right is exclusive lowerCamelCase_ = 0 while left <= right: lowerCamelCase_ = self.get_prev(lowercase ) if left <= current_left: lowerCamelCase_ = max(lowercase , self.tree[right] ) lowerCamelCase_ = current_left else: lowerCamelCase_ = max(lowercase , self.arr[right] ) right -= 1 return result if __name__ == "__main__": import doctest doctest.testmod()

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from __future__ import annotations def lowerCamelCase_ ( lowerCamelCase__ , lowerCamelCase__ ): lowerCamelCase_ = get_failure_array(lowerCamelCase__ ) # 2) Step through text searching for pattern lowerCamelCase_ , lowerCamelCase_ = 0, 0 # index into text, pattern while i < len(lowerCamelCase__ ): if pattern[j] == text[i]: if j == (len(lowerCamelCase__ ) - 1): return True j += 1 # if this is a prefix in our pattern # just go back far enough to continue elif j > 0: lowerCamelCase_ = failure[j - 1] continue i += 1 return False def lowerCamelCase_ ( lowerCamelCase__ ): lowerCamelCase_ = [0] lowerCamelCase_ = 0 lowerCamelCase_ = 1 while j < len(lowerCamelCase__ ): if pattern[i] == pattern[j]: i += 1 elif i > 0: lowerCamelCase_ = failure[i - 1] continue j += 1 failure.append(lowerCamelCase__ ) return failure if __name__ == "__main__": # Test 1) __A ='''abc1abc12''' __A ='''alskfjaldsabc1abc1abc12k23adsfabcabc''' __A ='''alskfjaldsk23adsfabcabc''' assert kmp(pattern, texta) and not kmp(pattern, texta) # Test 2) __A ='''ABABX''' __A ='''ABABZABABYABABX''' assert kmp(pattern, text) # Test 3) __A ='''AAAB''' __A ='''ABAAAAAB''' assert kmp(pattern, text) # Test 4) __A ='''abcdabcy''' __A ='''abcxabcdabxabcdabcdabcy''' assert kmp(pattern, text) # Test 5) __A ='''aabaabaaa''' assert get_failure_array(pattern) == [0, 1, 0, 1, 2, 3, 4, 5, 2]

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from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_torch_available __UpperCamelCase : Tuple = { 'configuration_ctrl': ['CTRL_PRETRAINED_CONFIG_ARCHIVE_MAP', 'CTRLConfig'], 'tokenization_ctrl': ['CTRLTokenizer'], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: __UpperCamelCase : List[Any] = [ 'CTRL_PRETRAINED_MODEL_ARCHIVE_LIST', 'CTRLForSequenceClassification', 'CTRLLMHeadModel', 'CTRLModel', 'CTRLPreTrainedModel', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: __UpperCamelCase : Any = [ 'TF_CTRL_PRETRAINED_MODEL_ARCHIVE_LIST', 'TFCTRLForSequenceClassification', 'TFCTRLLMHeadModel', 'TFCTRLModel', 'TFCTRLPreTrainedModel', ] if TYPE_CHECKING: from .configuration_ctrl import CTRL_PRETRAINED_CONFIG_ARCHIVE_MAP, CTRLConfig from .tokenization_ctrl import CTRLTokenizer try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_ctrl import ( CTRL_PRETRAINED_MODEL_ARCHIVE_LIST, CTRLForSequenceClassification, CTRLLMHeadModel, CTRLModel, CTRLPreTrainedModel, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_ctrl import ( TF_CTRL_PRETRAINED_MODEL_ARCHIVE_LIST, TFCTRLForSequenceClassification, TFCTRLLMHeadModel, TFCTRLModel, TFCTRLPreTrainedModel, ) else: import sys __UpperCamelCase : Dict = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)

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import os import tempfile import unittest from pathlib import Path from transformers import AutoConfig, is_tf_available from transformers.testing_utils import require_tf if is_tf_available(): import tensorflow as tf from transformers import TensorFlowBenchmark, TensorFlowBenchmarkArguments @require_tf class lowercase__ ( unittest.TestCase): def __A ( self : str , UpperCamelCase__ : int ): '''simple docstring''' for model_result in results.values(): for batch_size, sequence_length in zip(model_result['''bs'''] , model_result['''ss'''] ): SCREAMING_SNAKE_CASE : Union[str, Any] = model_result['''result'''][batch_size][sequence_length] self.assertIsNotNone(UpperCamelCase__ ) def __A ( self : Optional[Any] ): '''simple docstring''' SCREAMING_SNAKE_CASE : List[Any] = '''sshleifer/tiny-gpt2''' SCREAMING_SNAKE_CASE : List[Any] = TensorFlowBenchmarkArguments( models=[MODEL_ID] , training=UpperCamelCase__ , inference=UpperCamelCase__ , sequence_lengths=[8] , batch_sizes=[1] , eager_mode=UpperCamelCase__ , multi_process=UpperCamelCase__ , ) SCREAMING_SNAKE_CASE : str = TensorFlowBenchmark(UpperCamelCase__ ) SCREAMING_SNAKE_CASE : List[Any] = benchmark.run() self.check_results_dict_not_empty(results.time_inference_result ) self.check_results_dict_not_empty(results.memory_inference_result ) def __A ( self : List[str] ): '''simple docstring''' SCREAMING_SNAKE_CASE : str = '''sgugger/tiny-distilbert-classification''' SCREAMING_SNAKE_CASE : Union[str, Any] = TensorFlowBenchmarkArguments( models=[MODEL_ID] , training=UpperCamelCase__ , inference=UpperCamelCase__ , sequence_lengths=[8] , batch_sizes=[1] , multi_process=UpperCamelCase__ , only_pretrain_model=UpperCamelCase__ , ) SCREAMING_SNAKE_CASE : List[str] = TensorFlowBenchmark(UpperCamelCase__ ) SCREAMING_SNAKE_CASE : Optional[Any] = benchmark.run() self.check_results_dict_not_empty(results.time_inference_result ) self.check_results_dict_not_empty(results.memory_inference_result ) def __A ( self : Any ): '''simple docstring''' SCREAMING_SNAKE_CASE : Union[str, Any] = '''sshleifer/tiny-gpt2''' SCREAMING_SNAKE_CASE : int = TensorFlowBenchmarkArguments( models=[MODEL_ID] , training=UpperCamelCase__ , inference=UpperCamelCase__ , sequence_lengths=[8] , batch_sizes=[1] , multi_process=UpperCamelCase__ , ) SCREAMING_SNAKE_CASE : Union[str, Any] = TensorFlowBenchmark(UpperCamelCase__ ) SCREAMING_SNAKE_CASE : int = benchmark.run() self.check_results_dict_not_empty(results.time_inference_result ) self.check_results_dict_not_empty(results.memory_inference_result ) def __A ( self : Optional[Any] ): '''simple docstring''' SCREAMING_SNAKE_CASE : Optional[int] = '''sshleifer/tiny-gpt2''' SCREAMING_SNAKE_CASE : int = AutoConfig.from_pretrained(UpperCamelCase__ ) SCREAMING_SNAKE_CASE : Optional[int] = TensorFlowBenchmarkArguments( models=[MODEL_ID] , training=UpperCamelCase__ , inference=UpperCamelCase__ , sequence_lengths=[8] , batch_sizes=[1] , eager_mode=UpperCamelCase__ , multi_process=UpperCamelCase__ , ) SCREAMING_SNAKE_CASE : str = TensorFlowBenchmark(UpperCamelCase__ , [config] ) SCREAMING_SNAKE_CASE : Optional[int] = benchmark.run() self.check_results_dict_not_empty(results.time_inference_result ) self.check_results_dict_not_empty(results.memory_inference_result ) def __A ( self : int ): '''simple docstring''' SCREAMING_SNAKE_CASE : Dict = '''sshleifer/tiny-gpt2''' SCREAMING_SNAKE_CASE : Optional[int] = AutoConfig.from_pretrained(UpperCamelCase__ ) SCREAMING_SNAKE_CASE : Optional[Any] = TensorFlowBenchmarkArguments( models=[MODEL_ID] , training=UpperCamelCase__ , inference=UpperCamelCase__ , sequence_lengths=[8] , batch_sizes=[1] , multi_process=UpperCamelCase__ , ) SCREAMING_SNAKE_CASE : List[str] = TensorFlowBenchmark(UpperCamelCase__ , [config] ) SCREAMING_SNAKE_CASE : int = benchmark.run() self.check_results_dict_not_empty(results.time_inference_result ) self.check_results_dict_not_empty(results.memory_inference_result ) def __A ( self : List[Any] ): '''simple docstring''' SCREAMING_SNAKE_CASE : str = '''sshleifer/tiny-gpt2''' SCREAMING_SNAKE_CASE : int = TensorFlowBenchmarkArguments( models=[MODEL_ID] , training=UpperCamelCase__ , inference=UpperCamelCase__ , sequence_lengths=[8] , batch_sizes=[1] , multi_process=UpperCamelCase__ , ) SCREAMING_SNAKE_CASE : Optional[int] = TensorFlowBenchmark(UpperCamelCase__ ) SCREAMING_SNAKE_CASE : Tuple = benchmark.run() self.check_results_dict_not_empty(results.time_train_result ) self.check_results_dict_not_empty(results.memory_train_result ) def __A ( self : Optional[Any] ): '''simple docstring''' SCREAMING_SNAKE_CASE : List[str] = '''sshleifer/tiny-gpt2''' SCREAMING_SNAKE_CASE : int = AutoConfig.from_pretrained(UpperCamelCase__ ) SCREAMING_SNAKE_CASE : Tuple = TensorFlowBenchmarkArguments( models=[MODEL_ID] , training=UpperCamelCase__ , inference=UpperCamelCase__ , sequence_lengths=[8] , batch_sizes=[1] , multi_process=UpperCamelCase__ , ) SCREAMING_SNAKE_CASE : Dict = TensorFlowBenchmark(UpperCamelCase__ , [config] ) SCREAMING_SNAKE_CASE : str = benchmark.run() self.check_results_dict_not_empty(results.time_train_result ) self.check_results_dict_not_empty(results.memory_train_result ) def __A ( self : Optional[int] ): '''simple docstring''' SCREAMING_SNAKE_CASE : List[str] = '''patrickvonplaten/t5-tiny-random''' SCREAMING_SNAKE_CASE : Union[str, Any] = AutoConfig.from_pretrained(UpperCamelCase__ ) SCREAMING_SNAKE_CASE : Union[str, Any] = TensorFlowBenchmarkArguments( models=[MODEL_ID] , training=UpperCamelCase__ , inference=UpperCamelCase__ , sequence_lengths=[8] , batch_sizes=[1] , multi_process=UpperCamelCase__ , ) SCREAMING_SNAKE_CASE : Dict = TensorFlowBenchmark(UpperCamelCase__ , configs=[config] ) SCREAMING_SNAKE_CASE : Dict = benchmark.run() self.check_results_dict_not_empty(results.time_inference_result ) self.check_results_dict_not_empty(results.memory_inference_result ) @unittest.skipIf(is_tf_available() and len(tf.config.list_physical_devices('''GPU''' ) ) == 0 , '''Cannot do xla on CPU.''' ) def __A ( self : Optional[int] ): '''simple docstring''' SCREAMING_SNAKE_CASE : Optional[Any] = '''sshleifer/tiny-gpt2''' SCREAMING_SNAKE_CASE : Tuple = TensorFlowBenchmarkArguments( models=[MODEL_ID] , training=UpperCamelCase__ , inference=UpperCamelCase__ , sequence_lengths=[8] , batch_sizes=[1] , use_xla=UpperCamelCase__ , multi_process=UpperCamelCase__ , ) SCREAMING_SNAKE_CASE : Any = TensorFlowBenchmark(UpperCamelCase__ ) SCREAMING_SNAKE_CASE : List[Any] = benchmark.run() self.check_results_dict_not_empty(results.time_inference_result ) self.check_results_dict_not_empty(results.memory_inference_result ) def __A ( self : List[str] ): '''simple docstring''' SCREAMING_SNAKE_CASE : Optional[int] = '''sshleifer/tiny-gpt2''' with tempfile.TemporaryDirectory() as tmp_dir: SCREAMING_SNAKE_CASE : Tuple = TensorFlowBenchmarkArguments( models=[MODEL_ID] , inference=UpperCamelCase__ , save_to_csv=UpperCamelCase__ , sequence_lengths=[8] , batch_sizes=[1] , inference_time_csv_file=os.path.join(UpperCamelCase__ , '''inf_time.csv''' ) , inference_memory_csv_file=os.path.join(UpperCamelCase__ , '''inf_mem.csv''' ) , env_info_csv_file=os.path.join(UpperCamelCase__ , '''env.csv''' ) , multi_process=UpperCamelCase__ , ) SCREAMING_SNAKE_CASE : Optional[Any] = TensorFlowBenchmark(UpperCamelCase__ ) benchmark.run() self.assertTrue(Path(os.path.join(UpperCamelCase__ , '''inf_time.csv''' ) ).exists() ) self.assertTrue(Path(os.path.join(UpperCamelCase__ , '''inf_mem.csv''' ) ).exists() ) self.assertTrue(Path(os.path.join(UpperCamelCase__ , '''env.csv''' ) ).exists() ) def __A ( self : int ): '''simple docstring''' SCREAMING_SNAKE_CASE : Any = '''sshleifer/tiny-gpt2''' def _check_summary_is_not_empty(UpperCamelCase__ : Dict ): self.assertTrue(hasattr(UpperCamelCase__ , '''sequential''' ) ) self.assertTrue(hasattr(UpperCamelCase__ , '''cumulative''' ) ) self.assertTrue(hasattr(UpperCamelCase__ , '''current''' ) ) self.assertTrue(hasattr(UpperCamelCase__ , '''total''' ) ) with tempfile.TemporaryDirectory() as tmp_dir: SCREAMING_SNAKE_CASE : List[str] = TensorFlowBenchmarkArguments( models=[MODEL_ID] , inference=UpperCamelCase__ , sequence_lengths=[8] , batch_sizes=[1] , log_filename=os.path.join(UpperCamelCase__ , '''log.txt''' ) , log_print=UpperCamelCase__ , trace_memory_line_by_line=UpperCamelCase__ , eager_mode=UpperCamelCase__ , multi_process=UpperCamelCase__ , ) SCREAMING_SNAKE_CASE : List[Any] = TensorFlowBenchmark(UpperCamelCase__ ) SCREAMING_SNAKE_CASE : Dict = benchmark.run() _check_summary_is_not_empty(result.inference_summary ) self.assertTrue(Path(os.path.join(UpperCamelCase__ , '''log.txt''' ) ).exists() )

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import argparse import math import traceback import dateutil.parser as date_parser import requests def UpperCAmelCase ( _lowerCamelCase ): A : Union[str, Any] = {} A : Union[str, Any] = job["started_at"] A : Tuple = job["completed_at"] A : List[Any] = date_parser.parse(_lowerCamelCase ) A : str = date_parser.parse(_lowerCamelCase ) A : str = round((end_datetime - start_datetime).total_seconds() / 60.0 ) A : int = start A : Tuple = end A : Dict = duration_in_min return job_info def UpperCAmelCase ( _lowerCamelCase , _lowerCamelCase=None ): A : Any = None if token is not None: A : str = {"Accept": "application/vnd.github+json", "Authorization": f"""Bearer {token}"""} A : Union[str, Any] = f"""https://api.github.com/repos/huggingface/transformers/actions/runs/{workflow_run_id}/jobs?per_page=100""" A : Optional[int] = requests.get(_lowerCamelCase , headers=_lowerCamelCase ).json() A : Any = {} try: job_time.update({job["name"]: extract_time_from_single_job(_lowerCamelCase ) for job in result["jobs"]} ) A : List[Any] = math.ceil((result["total_count"] - 100) / 100 ) for i in range(_lowerCamelCase ): A : str = requests.get(url + f"""&page={i + 2}""" , headers=_lowerCamelCase ).json() job_time.update({job["name"]: extract_time_from_single_job(_lowerCamelCase ) for job in result["jobs"]} ) return job_time except Exception: print(f"""Unknown error, could not fetch links:\n{traceback.format_exc()}""" ) return {} if __name__ == "__main__": __SCREAMING_SNAKE_CASE = argparse.ArgumentParser() # Required parameters parser.add_argument("""--workflow_run_id""", type=str, required=True, help="""A GitHub Actions workflow run id.""") __SCREAMING_SNAKE_CASE = parser.parse_args() __SCREAMING_SNAKE_CASE = get_job_time(args.workflow_run_id) __SCREAMING_SNAKE_CASE = dict(sorted(job_time.items(), key=lambda item: item[1]["duration"], reverse=True)) for k, v in job_time.items(): print(F"""{k}: {v['duration']}""")

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import numpy as np import torch import torch.nn as nn from transformers import CLIPConfig, CLIPVisionModelWithProjection, PreTrainedModel from ...utils import logging __SCREAMING_SNAKE_CASE = logging.get_logger(__name__) class lowerCamelCase_ ( _A ): '''simple docstring''' a__ = CLIPConfig a__ = ["CLIPEncoderLayer"] def __init__( self : Optional[Any] , __lowerCamelCase : CLIPConfig ) -> Tuple: super().__init__(__lowerCamelCase ) A : List[Any] = CLIPVisionModelWithProjection(config.vision_config ) A : List[str] = nn.Linear(config.vision_config.projection_dim , 1 ) A : Optional[Any] = nn.Linear(config.vision_config.projection_dim , 1 ) @torch.no_grad() def SCREAMING_SNAKE_CASE__ ( self : str , __lowerCamelCase : Union[str, Any] , __lowerCamelCase : Dict , __lowerCamelCase : Union[str, Any]=0.5 , __lowerCamelCase : Dict=0.5 ) -> Optional[int]: A : List[str] = self.vision_model(__lowerCamelCase )[0] A : Dict = self.p_head(__lowerCamelCase ) A : Dict = nsfw_detected.flatten() A : Any = nsfw_detected > p_threshold A : Optional[int] = nsfw_detected.tolist() if any(__lowerCamelCase ): logger.warning( "Potential NSFW content was detected in one or more images. A black image will be returned instead." " Try again with a different prompt and/or seed." ) for idx, nsfw_detected_ in enumerate(__lowerCamelCase ): if nsfw_detected_: A : List[str] = np.zeros(images[idx].shape ) A : List[str] = self.w_head(__lowerCamelCase ) A : str = watermark_detected.flatten() A : List[Any] = watermark_detected > w_threshold A : List[Any] = watermark_detected.tolist() if any(__lowerCamelCase ): logger.warning( "Potential watermarked content was detected in one or more images. A black image will be returned instead." " Try again with a different prompt and/or seed." ) for idx, watermark_detected_ in enumerate(__lowerCamelCase ): if watermark_detected_: A : List[str] = np.zeros(images[idx].shape ) return images, nsfw_detected, watermark_detected

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import os import re import shutil import sys import tempfile import unittest import black _a = os.path.abspath(os.path.dirname(os.path.dirname(os.path.dirname(__file__)))) sys.path.append(os.path.join(git_repo_path, '''utils''')) import check_copies # noqa: E402 # This is the reference code that will be used in the tests. # If BertLMPredictionHead is changed in modeling_bert.py, this code needs to be manually updated. _a = ''' def __init__(self, config): super().__init__() self.transform = BertPredictionHeadTransform(config) # The output weights are the same as the input embeddings, but there is # an output-only bias for each token. self.decoder = nn.Linear(config.hidden_size, config.vocab_size, bias=False) self.bias = nn.Parameter(torch.zeros(config.vocab_size)) # Need a link between the two variables so that the bias is correctly resized with `resize_token_embeddings` self.decoder.bias = self.bias def forward(self, hidden_states): hidden_states = self.transform(hidden_states) hidden_states = self.decoder(hidden_states) return hidden_states ''' class A_ ( unittest.TestCase ): def UpperCAmelCase ( self : Optional[int] ) -> str: __lowerCAmelCase: List[str] = tempfile.mkdtemp() os.makedirs(os.path.join(self.transformer_dir , 'models/bert/' ) ) __lowerCAmelCase: Optional[Any] = self.transformer_dir shutil.copy( os.path.join(UpperCAmelCase , 'src/transformers/models/bert/modeling_bert.py' ) , os.path.join(self.transformer_dir , 'models/bert/modeling_bert.py' ) , ) def UpperCAmelCase ( self : Optional[Any] ) -> Any: __lowerCAmelCase: List[str] = 'src/transformers' shutil.rmtree(self.transformer_dir ) def UpperCAmelCase ( self : List[Any] , UpperCAmelCase : Optional[Any] , UpperCAmelCase : Optional[Any] , UpperCAmelCase : List[Any] , UpperCAmelCase : Dict=None ) -> Union[str, Any]: __lowerCAmelCase: str = comment + F'''\nclass {class_name}(nn.Module):\n''' + class_code if overwrite_result is not None: __lowerCAmelCase: str = comment + F'''\nclass {class_name}(nn.Module):\n''' + overwrite_result __lowerCAmelCase: Union[str, Any] = black.Mode(target_versions={black.TargetVersion.PYaa} , line_length=1_1_9 ) __lowerCAmelCase: Optional[int] = black.format_str(UpperCAmelCase , mode=UpperCAmelCase ) __lowerCAmelCase: Union[str, Any] = os.path.join(self.transformer_dir , 'new_code.py' ) with open(UpperCAmelCase , 'w' , newline='\n' ) as f: f.write(UpperCAmelCase ) if overwrite_result is None: self.assertTrue(len(check_copies.is_copy_consistent(UpperCAmelCase ) ) == 0 ) else: check_copies.is_copy_consistent(f.name , overwrite=UpperCAmelCase ) with open(UpperCAmelCase , 'r' ) as f: self.assertTrue(f.read() , UpperCAmelCase ) def UpperCAmelCase ( self : Union[str, Any] ) -> List[Any]: __lowerCAmelCase: List[Any] = check_copies.find_code_in_transformers('models.bert.modeling_bert.BertLMPredictionHead' ) self.assertEqual(UpperCAmelCase , UpperCAmelCase ) def UpperCAmelCase ( self : List[Any] ) -> Optional[int]: # Base copy consistency self.check_copy_consistency( '# Copied from transformers.models.bert.modeling_bert.BertLMPredictionHead' , 'BertLMPredictionHead' , REFERENCE_CODE + '\n' , ) # With no empty line at the end self.check_copy_consistency( '# Copied from transformers.models.bert.modeling_bert.BertLMPredictionHead' , 'BertLMPredictionHead' , UpperCAmelCase , ) # Copy consistency with rename self.check_copy_consistency( '# Copied from transformers.models.bert.modeling_bert.BertLMPredictionHead with Bert->TestModel' , 'TestModelLMPredictionHead' , re.sub('Bert' , 'TestModel' , UpperCAmelCase ) , ) # Copy consistency with a really long name __lowerCAmelCase: Any = 'TestModelWithAReallyLongNameBecauseSomePeopleLikeThatForSomeReason' self.check_copy_consistency( F'''# Copied from transformers.models.bert.modeling_bert.BertLMPredictionHead with Bert->{long_class_name}''' , F'''{long_class_name}LMPredictionHead''' , re.sub('Bert' , UpperCAmelCase , UpperCAmelCase ) , ) # Copy consistency with overwrite self.check_copy_consistency( '# Copied from transformers.models.bert.modeling_bert.BertLMPredictionHead with Bert->TestModel' , 'TestModelLMPredictionHead' , UpperCAmelCase , overwrite_result=re.sub('Bert' , 'TestModel' , UpperCAmelCase ) , ) def UpperCAmelCase ( self : Any ) -> int: __lowerCAmelCase: str = check_copies.LOCALIZED_READMES['README_zh-hans.md'] __lowerCAmelCase: Dict = ( '1. **[ALBERT](https://huggingface.co/transformers/model_doc/albert.html)** (from Google Research and the' ' Toyota Technological Institute at Chicago) released with the paper [ALBERT: A Lite BERT for' ' Self-supervised Learning of Language Representations](https://arxiv.org/abs/1909.11942), by Zhenzhong' ' Lan, Mingda Chen, Sebastian Goodman, Kevin Gimpel, Piyush Sharma, Radu Soricut.\n1.' ' **[DistilBERT](https://huggingface.co/transformers/model_doc/distilbert.html)** (from HuggingFace),' ' released together with the paper [DistilBERT, a distilled version of BERT: smaller, faster, cheaper and' ' lighter](https://arxiv.org/abs/1910.01108) by Victor Sanh, Lysandre Debut and Thomas Wolf. The same' ' method has been applied to compress GPT2 into' ' [DistilGPT2](https://github.com/huggingface/transformers/tree/main/examples/distillation), RoBERTa into' ' [DistilRoBERTa](https://github.com/huggingface/transformers/tree/main/examples/distillation),' ' Multilingual BERT into' ' [DistilmBERT](https://github.com/huggingface/transformers/tree/main/examples/distillation) and a German' ' version of DistilBERT.\n1. **[ELECTRA](https://huggingface.co/transformers/model_doc/electra.html)**' ' (from Google Research/Stanford University) released with the paper [ELECTRA: Pre-training text encoders' ' as discriminators rather than generators](https://arxiv.org/abs/2003.10555) by Kevin Clark, Minh-Thang' ' Luong, Quoc V. Le, Christopher D. Manning.' ) __lowerCAmelCase: List[str] = ( '1. **[ALBERT](https://huggingface.co/transformers/model_doc/albert.html)** (来自 Google Research and the' ' Toyota Technological Institute at Chicago) 伴随论文 [ALBERT: A Lite BERT for Self-supervised Learning of' ' Language Representations](https://arxiv.org/abs/1909.11942), 由 Zhenzhong Lan, Mingda Chen, Sebastian' ' Goodman, Kevin Gimpel, Piyush Sharma, Radu Soricut 发布。\n' ) __lowerCAmelCase: Union[str, Any] = ( '1. **[ALBERT](https://huggingface.co/transformers/model_doc/albert.html)** (来自 Google Research and the' ' Toyota Technological Institute at Chicago) 伴随论文 [ALBERT: A Lite BERT for Self-supervised Learning of' ' Language Representations](https://arxiv.org/abs/1909.11942), 由 Zhenzhong Lan, Mingda Chen, Sebastian' ' Goodman, Kevin Gimpel, Piyush Sharma, Radu Soricut 发布。\n1.' ' **[DistilBERT](https://huggingface.co/transformers/model_doc/distilbert.html)** (来自 HuggingFace) 伴随论文' ' [DistilBERT, a distilled version of BERT: smaller, faster, cheaper and' ' lighter](https://arxiv.org/abs/1910.01108) 由 Victor Sanh, Lysandre Debut and Thomas Wolf 发布。 The same' ' method has been applied to compress GPT2 into' ' [DistilGPT2](https://github.com/huggingface/transformers/tree/main/examples/distillation), RoBERTa into' ' [DistilRoBERTa](https://github.com/huggingface/transformers/tree/main/examples/distillation),' ' Multilingual BERT into' ' [DistilmBERT](https://github.com/huggingface/transformers/tree/main/examples/distillation) and a German' ' version of DistilBERT.\n1. **[ELECTRA](https://huggingface.co/transformers/model_doc/electra.html)** (来自' ' Google Research/Stanford University) 伴随论文 [ELECTRA: Pre-training text encoders as discriminators rather' ' than generators](https://arxiv.org/abs/2003.10555) 由 Kevin Clark, Minh-Thang Luong, Quoc V. Le,' ' Christopher D. Manning 发布。\n' ) __lowerCAmelCase , __lowerCAmelCase: Tuple = check_copies.convert_to_localized_md( UpperCAmelCase , UpperCAmelCase , localized_readme['format_model_list'] ) self.assertFalse(UpperCAmelCase ) self.assertEqual(UpperCAmelCase , UpperCAmelCase ) __lowerCAmelCase , __lowerCAmelCase: List[str] = check_copies.convert_to_localized_md( UpperCAmelCase , UpperCAmelCase , localized_readme['format_model_list'] ) # Check whether the number of models is equal to README.md after conversion. self.assertTrue(UpperCAmelCase ) __lowerCAmelCase: Any = ( '1. **[ALBERT](https://huggingface.co/transformers/model_doc/albert.html)** (from Google Research and the' ' Toyota Technological Institute at Chicago) released with the paper [ALBERT: A Lite BERT for' ' Self-supervised Learning of Language Representations](https://arxiv.org/abs/1909.11942), by Zhenzhong' ' Lan, Mingda Chen, Sebastian Goodman, Kevin Gimpel, Piyush Sharma, Radu Soricut.' ) __lowerCAmelCase: Any = ( '1. **[ALBERT](https://huggingface.co/transformers/main/model_doc/albert.html)** (来自 Google Research and' ' the Toyota Technological Institute at Chicago) 伴随论文 [ALBERT: A Lite BERT for Self-supervised Learning of' ' Language Representations](https://arxiv.org/abs/1909.11942), 由 Zhenzhong Lan, Mingda Chen, Sebastian' ' Goodman, Kevin Gimpel, Piyush Sharma, Radu Soricut 发布。\n' ) __lowerCAmelCase: Dict = ( '1. **[ALBERT](https://huggingface.co/transformers/model_doc/albert.html)** (来自 Google Research and the' ' Toyota Technological Institute at Chicago) 伴随论文 [ALBERT: A Lite BERT for Self-supervised Learning of' ' Language Representations](https://arxiv.org/abs/1909.11942), 由 Zhenzhong Lan, Mingda Chen, Sebastian' ' Goodman, Kevin Gimpel, Piyush Sharma, Radu Soricut 发布。\n' ) __lowerCAmelCase , __lowerCAmelCase: str = check_copies.convert_to_localized_md( UpperCAmelCase , UpperCAmelCase , localized_readme['format_model_list'] ) # Check if the model link is synchronized. self.assertEqual(UpperCAmelCase , UpperCAmelCase )

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import os from datetime import datetime as dt from github import Github _a = [ '''good first issue''', '''feature request''', '''wip''', ] def _a ( ) -> List[Any]: """simple docstring""" __lowerCAmelCase: Dict = Github(os.environ['GITHUB_TOKEN'] ) __lowerCAmelCase: Tuple = g.get_repo('huggingface/accelerate' ) __lowerCAmelCase: str = repo.get_issues(state='open' ) for issue in open_issues: __lowerCAmelCase: Optional[int] = sorted([comment for comment in issue.get_comments()] , key=lambda SCREAMING_SNAKE_CASE : i.created_at , reverse=SCREAMING_SNAKE_CASE ) __lowerCAmelCase: Dict = comments[0] if len(SCREAMING_SNAKE_CASE ) > 0 else None __lowerCAmelCase: Tuple = dt.utcnow() __lowerCAmelCase: Optional[int] = (current_time - issue.updated_at).days __lowerCAmelCase: str = (current_time - issue.created_at).days if ( last_comment is not None and last_comment.user.login == "github-actions[bot]" and days_since_updated > 7 and days_since_creation >= 30 and not any(label.name.lower() in LABELS_TO_EXEMPT for label in issue.get_labels() ) ): # Close issue since it has been 7 days of inactivity since bot mention. issue.edit(state='closed' ) elif ( days_since_updated > 23 and days_since_creation >= 30 and not any(label.name.lower() in LABELS_TO_EXEMPT for label in issue.get_labels() ) ): # Add stale comment issue.create_comment( 'This issue has been automatically marked as stale because it has not had ' 'recent activity. If you think this still needs to be addressed ' 'please comment on this thread.\n\nPlease note that issues that do not follow the ' '[contributing guidelines](https://github.com/huggingface/accelerate/blob/main/CONTRIBUTING.md) ' 'are likely to be ignored.' ) if __name__ == "__main__": main()

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'''simple docstring''' # Copyright 2022 The HuggingFace Team. All rights reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import argparse import os import platform import numpy as np import psutil import torch from accelerate import __version__ as version from accelerate.commands.config import default_config_file, load_config_from_file from ..utils import is_npu_available, is_xpu_available def lowerCamelCase ( lowerCAmelCase : Optional[int]=None ): """simple docstring""" if subparsers is not None: __magic_name__ : Tuple = subparsers.add_parser('env' ) else: __magic_name__ : Union[str, Any] = argparse.ArgumentParser('Accelerate env command' ) parser.add_argument( '--config_file' , default=lowerCAmelCase , help='The config file to use for the default values in the launching script.' ) if subparsers is not None: parser.set_defaults(func=lowerCAmelCase ) return parser def lowerCamelCase ( lowerCAmelCase : List[Any] ): """simple docstring""" __magic_name__ : Union[str, Any] = torch.__version__ __magic_name__ : str = torch.cuda.is_available() __magic_name__ : Dict = is_xpu_available() __magic_name__ : Optional[Any] = is_npu_available() __magic_name__ : List[Any] = 'Not found' # Get the default from the config file. if args.config_file is not None or os.path.isfile(lowerCAmelCase ): __magic_name__ : Dict = load_config_from_file(args.config_file ).to_dict() __magic_name__ : List[Any] = { '`Accelerate` version': version, 'Platform': platform.platform(), 'Python version': platform.python_version(), 'Numpy version': np.__version__, 'PyTorch version (GPU?)': f'{pt_version} ({pt_cuda_available})', 'PyTorch XPU available': str(lowerCAmelCase ), 'PyTorch NPU available': str(lowerCAmelCase ), 'System RAM': f'{psutil.virtual_memory().total / 1024 ** 3:.2f} GB', } if pt_cuda_available: __magic_name__ : List[Any] = torch.cuda.get_device_name() print('\nCopy-and-paste the text below in your GitHub issue\n' ) print('\n'.join([f'- {prop}: {val}' for prop, val in info.items()] ) ) print('- `Accelerate` default config:' if args.config_file is None else '- `Accelerate` config passed:' ) __magic_name__ : Any = ( '\n'.join([f'\t- {prop}: {val}' for prop, val in accelerate_config.items()] ) if isinstance(lowerCAmelCase , lowerCAmelCase ) else f'\t{accelerate_config}' ) print(lowerCAmelCase ) __magic_name__ : str = accelerate_config return info def lowerCamelCase ( ): """simple docstring""" __magic_name__ : Optional[int] = env_command_parser() __magic_name__ : Tuple = parser.parse_args() env_command(lowerCAmelCase ) return 0 if __name__ == "__main__": raise SystemExit(main())

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'''simple docstring''' # tests directory-specific settings - this file is run automatically # by pytest before any tests are run import doctest import sys import warnings from os.path import abspath, dirname, join import _pytest from transformers.testing_utils import HfDoctestModule, HfDocTestParser # allow having multiple repository checkouts and not needing to remember to rerun # 'pip install -e .[dev]' when switching between checkouts and running tests. lowerCAmelCase :Optional[int] = abspath(join(dirname(__file__), '''src''')) sys.path.insert(1, git_repo_path) # silence FutureWarning warnings in tests since often we can't act on them until # they become normal warnings - i.e. the tests still need to test the current functionality warnings.simplefilter(action='''ignore''', category=FutureWarning) def lowerCamelCase ( lowerCAmelCase : Tuple ): """simple docstring""" config.addinivalue_line( 'markers' , 'is_pt_tf_cross_test: mark test to run only when PT and TF interactions are tested' ) config.addinivalue_line( 'markers' , 'is_pt_flax_cross_test: mark test to run only when PT and FLAX interactions are tested' ) config.addinivalue_line('markers' , 'is_pipeline_test: mark test to run only when pipelines are tested' ) config.addinivalue_line('markers' , 'is_staging_test: mark test to run only in the staging environment' ) config.addinivalue_line('markers' , 'accelerate_tests: mark test that require accelerate' ) config.addinivalue_line('markers' , 'tool_tests: mark the tool tests that are run on their specific schedule' ) def lowerCamelCase ( lowerCAmelCase : Any ): """simple docstring""" from transformers.testing_utils import pytest_addoption_shared pytest_addoption_shared(lowerCAmelCase ) def lowerCamelCase ( lowerCAmelCase : Dict ): """simple docstring""" from transformers.testing_utils import pytest_terminal_summary_main __magic_name__ : Tuple = terminalreporter.config.getoption('--make-reports' ) if make_reports: pytest_terminal_summary_main(lowerCAmelCase , id=lowerCAmelCase ) def lowerCamelCase ( lowerCAmelCase : List[Any] , lowerCAmelCase : Tuple ): """simple docstring""" if exitstatus == 5: __magic_name__ : Any = 0 # Doctest custom flag to ignore output. lowerCAmelCase :List[str] = doctest.register_optionflag('''IGNORE_RESULT''') lowerCAmelCase :Union[str, Any] = doctest.OutputChecker class _lowerCamelCase ( lowercase__ ): '''simple docstring''' def __lowerCAmelCase ( self : List[str] , _A : Tuple , _A : Tuple , _A : str ) -> int: if IGNORE_RESULT & optionflags: return True return OutputChecker.check_output(self , _A , _A , _A ) lowerCAmelCase :Optional[Any] = CustomOutputChecker lowerCAmelCase :int = HfDoctestModule lowerCAmelCase :Any = HfDocTestParser

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from __future__ import annotations import queue class UpperCamelCase_ : '''simple docstring''' def __init__( self : str , UpperCAmelCase__ : str) ->Tuple: '''simple docstring''' A__ = data A__ = None A__ = None def SCREAMING_SNAKE_CASE ( ) -> TreeNode: """simple docstring""" print('''\n********Press N to stop entering at any point of time********\n''' ) A__ = input('''Enter the value of the root node: ''' ).strip().lower() A__ = queue.Queue() A__ = TreeNode(int(lowercase_ ) ) q.put(lowercase_ ) while not q.empty(): A__ = q.get() A__ = f"""Enter the left node of {node_found.data}: """ A__ = input(lowercase_ ).strip().lower() or '''n''' if check == "n": return tree_node A__ = TreeNode(int(lowercase_ ) ) A__ = left_node q.put(lowercase_ ) A__ = f"""Enter the right node of {node_found.data}: """ A__ = input(lowercase_ ).strip().lower() or '''n''' if check == "n": return tree_node A__ = TreeNode(int(lowercase_ ) ) A__ = right_node q.put(lowercase_ ) raise def SCREAMING_SNAKE_CASE ( lowercase_ ) -> None: """simple docstring""" if not isinstance(lowercase_ , lowercase_ ) or not node: return print(node.data , end=''',''' ) pre_order(node.left ) pre_order(node.right ) def SCREAMING_SNAKE_CASE ( lowercase_ ) -> None: """simple docstring""" if not isinstance(lowercase_ , lowercase_ ) or not node: return in_order(node.left ) print(node.data , end=''',''' ) in_order(node.right ) def SCREAMING_SNAKE_CASE ( lowercase_ ) -> None: """simple docstring""" if not isinstance(lowercase_ , lowercase_ ) or not node: return post_order(node.left ) post_order(node.right ) print(node.data , end=''',''' ) def SCREAMING_SNAKE_CASE ( lowercase_ ) -> None: """simple docstring""" if not isinstance(lowercase_ , lowercase_ ) or not node: return A__ = queue.Queue() q.put(lowercase_ ) while not q.empty(): A__ = q.get() print(node_dequeued.data , end=''',''' ) if node_dequeued.left: q.put(node_dequeued.left ) if node_dequeued.right: q.put(node_dequeued.right ) def SCREAMING_SNAKE_CASE ( lowercase_ ) -> None: """simple docstring""" if not isinstance(lowercase_ , lowercase_ ) or not node: return A__ = queue.Queue() q.put(lowercase_ ) while not q.empty(): A__ = [] while not q.empty(): A__ = q.get() print(node_dequeued.data , end=''',''' ) if node_dequeued.left: list_.append(node_dequeued.left ) if node_dequeued.right: list_.append(node_dequeued.right ) print() for node in list_: q.put(lowercase_ ) def SCREAMING_SNAKE_CASE ( lowercase_ ) -> None: """simple docstring""" if not isinstance(lowercase_ , lowercase_ ) or not node: return A__ = [] A__ = node while n or stack: while n: # start from root node, find its left child print(n.data , end=''',''' ) stack.append(lowercase_ ) A__ = n.left # end of while means current node doesn't have left child A__ = stack.pop() # start to traverse its right child A__ = n.right def SCREAMING_SNAKE_CASE ( lowercase_ ) -> None: """simple docstring""" if not isinstance(lowercase_ , lowercase_ ) or not node: return A__ = [] A__ = node while n or stack: while n: stack.append(lowercase_ ) A__ = n.left A__ = stack.pop() print(n.data , end=''',''' ) A__ = n.right def SCREAMING_SNAKE_CASE ( lowercase_ ) -> None: """simple docstring""" if not isinstance(lowercase_ , lowercase_ ) or not node: return A__ , A__ = [], [] A__ = node stacka.append(lowercase_ ) while stacka: # to find the reversed order of post order, store it in stack2 A__ = stacka.pop() if n.left: stacka.append(n.left ) if n.right: stacka.append(n.right ) stacka.append(lowercase_ ) while stacka: # pop up from stack2 will be the post order print(stacka.pop().data , end=''',''' ) def SCREAMING_SNAKE_CASE ( lowercase_ = "" , lowercase_=50 , lowercase_="*" ) -> str: """simple docstring""" if not s: return "\n" + width * char A__ , A__ = divmod(width - len(lowercase_ ) - 2 , 2 ) return f"""{left * char} {s} {(left + extra) * char}""" if __name__ == "__main__": import doctest doctest.testmod() print(prompt("""Binary Tree Traversals""")) _lowerCamelCase : TreeNode = build_tree() print(prompt("""Pre Order Traversal""")) pre_order(node) print(prompt() + """\n""") print(prompt("""In Order Traversal""")) in_order(node) print(prompt() + """\n""") print(prompt("""Post Order Traversal""")) post_order(node) print(prompt() + """\n""") print(prompt("""Level Order Traversal""")) level_order(node) print(prompt() + """\n""") print(prompt("""Actual Level Order Traversal""")) level_order_actual(node) print("""*""" * 50 + """\n""") print(prompt("""Pre Order Traversal - Iteration Version""")) pre_order_iter(node) print(prompt() + """\n""") print(prompt("""In Order Traversal - Iteration Version""")) in_order_iter(node) print(prompt() + """\n""") print(prompt("""Post Order Traversal - Iteration Version""")) post_order_iter(node) print(prompt())

14

'''simple docstring''' import re import tempfile from pathlib import Path import pytest import yaml from datasets.utils.readme import ReadMe # @pytest.fixture # def example_yaml_structure(): __a = yaml.safe_load( '\\nname: ""\nallow_empty: false\nallow_empty_text: true\nsubsections:\n - name: "Dataset Card for X" # First-level markdown heading\n allow_empty: false\n allow_empty_text: true\n subsections:\n - name: "Table of Contents"\n allow_empty: false\n allow_empty_text: false\n subsections: null\n - name: "Dataset Description"\n allow_empty: false\n allow_empty_text: false\n subsections:\n - name: "Dataset Summary"\n allow_empty: false\n allow_empty_text: false\n subsections: null\n - name: "Supported Tasks and Leaderboards"\n allow_empty: true\n allow_empty_text: true\n subsections: null\n - name: Languages\n allow_empty: false\n allow_empty_text: true\n subsections: null\n' ) __a = { 'name': 'root', 'text': '', 'is_empty_text': True, 'subsections': [ { 'name': 'Dataset Card for My Dataset', 'text': '', 'is_empty_text': True, 'subsections': [ {'name': 'Table of Contents', 'text': 'Some text here.', 'is_empty_text': False, 'subsections': []}, { 'name': 'Dataset Description', 'text': 'Some text here.', 'is_empty_text': False, 'subsections': [ { 'name': 'Dataset Summary', 'text': 'Some text here.', 'is_empty_text': False, 'subsections': [], }, { 'name': 'Supported Tasks and Leaderboards', 'text': '', 'is_empty_text': True, 'subsections': [], }, {'name': 'Languages', 'text': 'Language Text', 'is_empty_text': False, 'subsections': []}, ], }, ], } ], } __a = '\\n---\nlanguage:\n- zh\n- en\n---\n\n# Dataset Card for My Dataset\n## Table of Contents\nSome text here.\n## Dataset Description\nSome text here.\n### Dataset Summary\nSome text here.\n### Supported Tasks and Leaderboards\n### Languages\nLanguage Text\n' __a = '\\n---\nlanguage:\n- zh\n- en\n---\n\n# Dataset Card for My Dataset\n## Table of Contents\nSome text here.\n## Dataset Description\nSome text here.\n### Dataset Summary\nSome text here.\n#### Extra Ignored Subsection\n### Supported Tasks and Leaderboards\n### Languages\nLanguage Text\n' __a = { 'name': 'root', 'text': '', 'is_empty_text': True, 'subsections': [ { 'name': 'Dataset Card for My Dataset', 'text': '', 'is_empty_text': True, 'subsections': [ {'name': 'Table of Contents', 'text': 'Some text here.', 'is_empty_text': False, 'subsections': []}, { 'name': 'Dataset Description', 'text': 'Some text here.', 'is_empty_text': False, 'subsections': [ { 'name': 'Dataset Summary', 'text': 'Some text here.', 'is_empty_text': False, 'subsections': [ { 'name': 'Extra Ignored Subsection', 'text': '', 'is_empty_text': True, 'subsections': [], } ], }, { 'name': 'Supported Tasks and Leaderboards', 'text': '', 'is_empty_text': True, 'subsections': [], }, {'name': 'Languages', 'text': 'Language Text', 'is_empty_text': False, 'subsections': []}, ], }, ], } ], } __a = '\\n---\n---\n# Dataset Card for My Dataset\n## Table of Contents\nSome text here.\n## Dataset Description\nSome text here.\n### Dataset Summary\nSome text here.\n### Supported Tasks and Leaderboards\n### Languages\nLanguage Text\n' __a = ( 'The following issues were found for the README at `{path}`:\n-\tEmpty YAML markers are present in the README.' ) __a = '\\n# Dataset Card for My Dataset\n## Table of Contents\nSome text here.\n## Dataset Description\nSome text here.\n### Dataset Summary\nSome text here.\n### Supported Tasks and Leaderboards\n### Languages\nLanguage Text\n' __a = ( 'The following issues were found for the README at `{path}`:\n-\tNo YAML markers are present in the README.' ) __a = '\\n---\n# Dataset Card for My Dataset\n## Table of Contents\nSome text here.\n## Dataset Description\nSome text here.\n### Dataset Summary\nSome text here.\n### Supported Tasks and Leaderboards\n### Languages\nLanguage Text\n' __a = 'The following issues were found for the README at `{path}`:\n-\tOnly the start of YAML tags present in the README.' __a = '\\n---\nlanguage:\n- zh\n- en\n---\n\n# Dataset Card for My Dataset\n## Table of Contents\nSome text here.\n## Dataset Description\nSome text here.\n### Dataset Summary\n### Supported Tasks and Leaderboards\n### Languages\nLanguage Text\n' __a = 'The following issues were found for the README at `{path}`:\n-\tExpected some content in section `Dataset Summary` but it is empty.\n-\tExpected some text in section `Dataset Summary` but it is empty (text in subsections are ignored).' __a = '\\n---\nlanguage:\n- zh\n- en\n---\n\n# Dataset Card for My Dataset\n' __a = 'The following issues were found for the README at `{path}`:\n-\tExpected some content in section `Dataset Card for My Dataset` but it is empty.\n-\tSection `Dataset Card for My Dataset` expected the following subsections: `Table of Contents`, `Dataset Description`. Found \'None\'.' __a = '\\n---\nlanguage:\n- zh\n- en\n---\n\n# Dataset Card for My Dataset\n## Table of Contents\nSome text here.\n## Dataset Description\nSome text here.\n### Dataset Summary\nSome text here.\n### Languages\nLanguage Text\n' __a = 'The following issues were found for the README at `{path}`:\n-\tSection `Dataset Description` is missing subsection: `Supported Tasks and Leaderboards`.' __a = '\\n---\nlanguage:\n- zh\n- en\n---\n\n# Dataset Card for My Dataset\n## Table of Contents\nSome text here.\n## Dataset Description\nSome text here.\n### Dataset Summary\nSome text here.\n### Supported Tasks and Leaderboards\n### Languages\n' __a = 'The following issues were found for the README at `{path}`:\n-\tExpected some content in section `Languages` but it is empty.' __a = '\\n---\nlanguage:\n- zh\n- en\n---\n\n## Table of Contents\nSome text here.\n## Dataset Description\nSome text here.\n### Dataset Summary\nSome text here.\n### Supported Tasks and Leaderboards\n### Languages\nLanguage Text\n' __a = 'The following issues were found for the README at `{path}`:\n-\tThe README has no first-level headings. One heading is expected. Skipping further validation for this README.' __a = '\\n---\nlanguage:\n- zh\n- en\n---\n\n# Dataset Card for My Dataset\n## Table of Contents\nSome text here.\n## Dataset Description\nSome text here.\n### Dataset Summary\nSome text here.\n### Supported Tasks and Leaderboards\n### Languages\nLanguage Text\n# Dataset Card My Dataset\n' __a = 'The following issues were found for the README at `{path}`:\n-\tThe README has several first-level headings: `Dataset Card for My Dataset`, `Dataset Card My Dataset`. Only one heading is expected. Skipping further validation for this README.' __a = '\\n---\nlanguage:\n- zh\n- en\n---\n\n# Dataset Card My Dataset\n## Table of Contents\nSome text here.\n## Dataset Description\nSome text here.\n### Dataset Summary\nSome text here.\n### Supported Tasks and Leaderboards\n### Languages\nLanguage Text\n' __a = 'The following issues were found for the README at `{path}`:\n-\tNo first-level heading starting with `Dataset Card for` found in README. Skipping further validation for this README.' __a = '' __a = 'The following issues were found for the README at `{path}`:\n-\tThe README has no first-level headings. One heading is expected. Skipping further validation for this README.\n-\tNo YAML markers are present in the README.' __a = '\\n---\nlanguage:\n- zh\n- en\n---\n\n# Dataset Card for My Dataset\n# Dataset Card for My Dataset\n## Table of Contents\nSome text here.\n## Dataset Description\nSome text here.\n### Dataset Summary\nSome text here.\n### Supported Tasks and Leaderboards\n### Languages\nLanguage Text\n' __a = 'The following issues were found while parsing the README at `{path}`:\n-\tMultiple sections with the same heading `Dataset Card for My Dataset` have been found. Please keep only one of these sections.' @pytest.mark.parametrize( "readme_md, expected_dict", [ (README_CORRECT, CORRECT_DICT), (README_CORRECT_FOUR_LEVEL, CORRECT_DICT_FOUR_LEVEL), ], ) def __UpperCAmelCase ( a_: Any, a_: Any ): assert ReadMe.from_string(a_, a_ ).to_dict() == expected_dict @pytest.mark.parametrize( "readme_md, expected_error", [ (README_NO_YAML, EXPECTED_ERROR_README_NO_YAML), (README_EMPTY_YAML, EXPECTED_ERROR_README_EMPTY_YAML), (README_INCORRECT_YAML, EXPECTED_ERROR_README_INCORRECT_YAML), (README_EMPTY, EXPECTED_ERROR_README_EMPTY), (README_NONE_SUBSECTION, EXPECTED_ERROR_README_NONE_SUBSECTION), (README_MISSING_FIRST_LEVEL, EXPECTED_ERROR_README_MISSING_FIRST_LEVEL), (README_MISSING_SUBSECTION, EXPECTED_ERROR_README_MISSING_SUBSECTION), (README_MISSING_TEXT, EXPECTED_ERROR_README_MISSING_TEXT), (README_WRONG_FIRST_LEVEL, EXPECTED_ERROR_README_WRONG_FIRST_LEVEL), (README_MULTIPLE_WRONG_FIRST_LEVEL, EXPECTED_ERROR_README_MULTIPLE_WRONG_FIRST_LEVEL), (README_MISSING_CONTENT, EXPECTED_ERROR_README_MISSING_CONTENT), ], ) def __UpperCAmelCase ( a_: Optional[int], a_: int ): with pytest.raises(a_, match=re.escape(expected_error.format(path="root" ) ) ): _UpperCAmelCase : Union[str, Any] = ReadMe.from_string(a_, a_ ) readme.validate() @pytest.mark.parametrize( "readme_md, expected_error", [ (README_MULTIPLE_SAME_HEADING_1, EXPECTED_ERROR_README_MULTIPLE_SAME_HEADING_1), ], ) def __UpperCAmelCase ( a_: str, a_: Optional[Any] ): with pytest.raises(a_, match=re.escape(expected_error.format(path="root" ) ) ): ReadMe.from_string(a_, a_ ) @pytest.mark.parametrize( "readme_md,", [ (README_MULTIPLE_SAME_HEADING_1), ], ) def __UpperCAmelCase ( a_: str ): ReadMe.from_string(a_, a_, suppress_parsing_errors=a_ ) @pytest.mark.parametrize( "readme_md, expected_dict", [ (README_CORRECT, CORRECT_DICT), (README_CORRECT_FOUR_LEVEL, CORRECT_DICT_FOUR_LEVEL), ], ) def __UpperCAmelCase ( a_: str, a_: Union[str, Any] ): with tempfile.TemporaryDirectory() as tmp_dir: _UpperCAmelCase : Optional[Any] = Path(a_ ) / "README.md" with open(a_, "w+" ) as readme_file: readme_file.write(a_ ) _UpperCAmelCase : Tuple = ReadMe.from_readme(a_, a_ ).to_dict() assert out["name"] == path assert out["text"] == "" assert out["is_empty_text"] assert out["subsections"] == expected_dict["subsections"] @pytest.mark.parametrize( "readme_md, expected_error", [ (README_NO_YAML, EXPECTED_ERROR_README_NO_YAML), (README_EMPTY_YAML, EXPECTED_ERROR_README_EMPTY_YAML), (README_INCORRECT_YAML, EXPECTED_ERROR_README_INCORRECT_YAML), (README_EMPTY, EXPECTED_ERROR_README_EMPTY), (README_NONE_SUBSECTION, EXPECTED_ERROR_README_NONE_SUBSECTION), (README_MISSING_FIRST_LEVEL, EXPECTED_ERROR_README_MISSING_FIRST_LEVEL), (README_MISSING_SUBSECTION, EXPECTED_ERROR_README_MISSING_SUBSECTION), (README_MISSING_TEXT, EXPECTED_ERROR_README_MISSING_TEXT), (README_WRONG_FIRST_LEVEL, EXPECTED_ERROR_README_WRONG_FIRST_LEVEL), (README_MULTIPLE_WRONG_FIRST_LEVEL, EXPECTED_ERROR_README_MULTIPLE_WRONG_FIRST_LEVEL), (README_MISSING_CONTENT, EXPECTED_ERROR_README_MISSING_CONTENT), ], ) def __UpperCAmelCase ( a_: List[Any], a_: str ): with tempfile.TemporaryDirectory() as tmp_dir: _UpperCAmelCase : Optional[Any] = Path(a_ ) / "README.md" with open(a_, "w+" ) as readme_file: readme_file.write(a_ ) _UpperCAmelCase : Any = expected_error.format(path=a_ ) with pytest.raises(a_, match=re.escape(a_ ) ): _UpperCAmelCase : str = ReadMe.from_readme(a_, a_ ) readme.validate() @pytest.mark.parametrize( "readme_md, expected_error", [ (README_MULTIPLE_SAME_HEADING_1, EXPECTED_ERROR_README_MULTIPLE_SAME_HEADING_1), ], ) def __UpperCAmelCase ( a_: Tuple, a_: Optional[int] ): with tempfile.TemporaryDirectory() as tmp_dir: _UpperCAmelCase : List[str] = Path(a_ ) / "README.md" with open(a_, "w+" ) as readme_file: readme_file.write(a_ ) _UpperCAmelCase : Any = expected_error.format(path=a_ ) with pytest.raises(a_, match=re.escape(a_ ) ): ReadMe.from_readme(a_, a_ ) @pytest.mark.parametrize( "readme_md,", [ (README_MULTIPLE_SAME_HEADING_1), ], ) def __UpperCAmelCase ( a_: Any ): with tempfile.TemporaryDirectory() as tmp_dir: _UpperCAmelCase : List[Any] = Path(a_ ) / "README.md" with open(a_, "w+" ) as readme_file: readme_file.write(a_ ) ReadMe.from_readme(a_, a_, suppress_parsing_errors=a_ )

145

0

from ...configuration_utils import PretrainedConfig from ...utils import logging lowerCamelCase_ = logging.get_logger(__name__) lowerCamelCase_ = {} class __A( __lowerCamelCase ): """simple docstring""" SCREAMING_SNAKE_CASE__ = """llama""" SCREAMING_SNAKE_CASE__ = ["""past_key_values"""] def __init__(self , SCREAMING_SNAKE_CASE_=3_20_00 , SCREAMING_SNAKE_CASE_=40_96 , SCREAMING_SNAKE_CASE_=1_10_08 , SCREAMING_SNAKE_CASE_=32 , SCREAMING_SNAKE_CASE_=32 , SCREAMING_SNAKE_CASE_=None , SCREAMING_SNAKE_CASE_="silu" , SCREAMING_SNAKE_CASE_=20_48 , SCREAMING_SNAKE_CASE_=0.02 , SCREAMING_SNAKE_CASE_=1E-6 , SCREAMING_SNAKE_CASE_=True , SCREAMING_SNAKE_CASE_=0 , SCREAMING_SNAKE_CASE_=1 , SCREAMING_SNAKE_CASE_=2 , SCREAMING_SNAKE_CASE_=1 , SCREAMING_SNAKE_CASE_=False , SCREAMING_SNAKE_CASE_=None , **SCREAMING_SNAKE_CASE_ , ): UpperCamelCase__ = vocab_size UpperCamelCase__ = max_position_embeddings UpperCamelCase__ = hidden_size UpperCamelCase__ = intermediate_size UpperCamelCase__ = num_hidden_layers UpperCamelCase__ = num_attention_heads # for backward compatibility if num_key_value_heads is None: UpperCamelCase__ = num_attention_heads UpperCamelCase__ = num_key_value_heads UpperCamelCase__ = hidden_act UpperCamelCase__ = initializer_range UpperCamelCase__ = rms_norm_eps UpperCamelCase__ = pretraining_tp UpperCamelCase__ = use_cache UpperCamelCase__ = rope_scaling self._rope_scaling_validation() super().__init__( pad_token_id=SCREAMING_SNAKE_CASE_ , bos_token_id=SCREAMING_SNAKE_CASE_ , eos_token_id=SCREAMING_SNAKE_CASE_ , tie_word_embeddings=SCREAMING_SNAKE_CASE_ , **SCREAMING_SNAKE_CASE_ , ) def UpperCAmelCase_ (self ): if self.rope_scaling is None: return if not isinstance(self.rope_scaling , SCREAMING_SNAKE_CASE_ ) or len(self.rope_scaling ) != 2: raise ValueError( """`rope_scaling` must be a dictionary with with two fields, `name` and `factor`, """ F"got {self.rope_scaling}" ) UpperCamelCase__ = self.rope_scaling.get("""type""" , SCREAMING_SNAKE_CASE_ ) UpperCamelCase__ = self.rope_scaling.get("""factor""" , SCREAMING_SNAKE_CASE_ ) if rope_scaling_type is None or rope_scaling_type not in ["linear", "dynamic"]: raise ValueError( F"`rope_scaling`'s name field must be one of ['linear', 'dynamic'], got {rope_scaling_type}" ) if rope_scaling_factor is None or not isinstance(SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ ) or rope_scaling_factor <= 1.0: raise ValueError(F"`rope_scaling`'s factor field must be an float > 1, got {rope_scaling_factor}" )

178

from pathlib import Path from typing import List from transformers import is_torch_available, is_vision_available from transformers.testing_utils import get_tests_dir, is_tool_test from transformers.tools.agent_types import AGENT_TYPE_MAPPING, AgentAudio, AgentImage, AgentText if is_torch_available(): import torch if is_vision_available(): from PIL import Image lowerCamelCase_ = ['''text''', '''image''', '''audio'''] def __magic_name__ ( __a : List[str] ): '''simple docstring''' UpperCamelCase__ = [] for input_type in input_types: if input_type == "text": inputs.append("""Text input""" ) elif input_type == "image": inputs.append( Image.open(Path(get_tests_dir("""fixtures/tests_samples/COCO""" ) ) / """000000039769.png""" ).resize((512, 512) ) ) elif input_type == "audio": inputs.append(torch.ones(3_000 ) ) elif isinstance(__a , __a ): inputs.append(create_inputs(__a ) ) else: raise ValueError(f"Invalid type requested: {input_type}" ) return inputs def __magic_name__ ( __a : List ): '''simple docstring''' UpperCamelCase__ = [] for output in outputs: if isinstance(__a , (str, AgentText) ): output_types.append("""text""" ) elif isinstance(__a , (Image.Image, AgentImage) ): output_types.append("""image""" ) elif isinstance(__a , (torch.Tensor, AgentAudio) ): output_types.append("""audio""" ) else: raise ValueError(f"Invalid output: {output}" ) return output_types @is_tool_test class __A: """simple docstring""" def UpperCAmelCase_ (self ): self.assertTrue(hasattr(self.tool , """inputs""" ) ) self.assertTrue(hasattr(self.tool , """outputs""" ) ) UpperCamelCase__ = self.tool.inputs for _input in inputs: if isinstance(_input , SCREAMING_SNAKE_CASE_ ): for __input in _input: self.assertTrue(__input in authorized_types ) else: self.assertTrue(_input in authorized_types ) UpperCamelCase__ = self.tool.outputs for _output in outputs: self.assertTrue(_output in authorized_types ) def UpperCAmelCase_ (self ): UpperCamelCase__ = create_inputs(self.tool.inputs ) UpperCamelCase__ = self.tool(*SCREAMING_SNAKE_CASE_ ) # There is a single output if len(self.tool.outputs ) == 1: UpperCamelCase__ = [outputs] self.assertListEqual(output_types(SCREAMING_SNAKE_CASE_ ) , self.tool.outputs ) def UpperCAmelCase_ (self ): self.assertTrue(hasattr(self.tool , """description""" ) ) self.assertTrue(hasattr(self.tool , """default_checkpoint""" ) ) self.assertTrue(self.tool.description.startswith("""This is a tool that""" ) ) def UpperCAmelCase_ (self ): UpperCamelCase__ = create_inputs(self.tool.inputs ) UpperCamelCase__ = self.tool(*SCREAMING_SNAKE_CASE_ ) if not isinstance(SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ ): UpperCamelCase__ = [outputs] self.assertEqual(len(SCREAMING_SNAKE_CASE_ ) , len(self.tool.outputs ) ) for output, output_type in zip(SCREAMING_SNAKE_CASE_ , self.tool.outputs ): UpperCamelCase__ = AGENT_TYPE_MAPPING[output_type] self.assertTrue(isinstance(SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ ) ) def UpperCAmelCase_ (self ): UpperCamelCase__ = create_inputs(self.tool.inputs ) UpperCamelCase__ = [] for _input, input_type in zip(SCREAMING_SNAKE_CASE_ , self.tool.inputs ): if isinstance(SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ ): _inputs.append([AGENT_TYPE_MAPPING[_input_type](_input ) for _input_type in input_type] ) else: _inputs.append(AGENT_TYPE_MAPPING[input_type](_input ) ) # Should not raise an error UpperCamelCase__ = self.tool(*SCREAMING_SNAKE_CASE_ ) if not isinstance(SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ ): UpperCamelCase__ = [outputs] self.assertEqual(len(SCREAMING_SNAKE_CASE_ ) , len(self.tool.outputs ) )

178

1

from abc import ABC, abstractmethod from argparse import ArgumentParser class __UpperCAmelCase ( lowerCamelCase__ ): @staticmethod @abstractmethod def __magic_name__ ( __A : ArgumentParser ): raise NotImplementedError() @abstractmethod def __magic_name__ ( self : int ): raise NotImplementedError()

336

import argparse import collections import json from pathlib import Path import requests import torch import yaml from huggingface_hub import hf_hub_download from PIL import Image from transformers import ( MobileViTImageProcessor, MobileViTVaConfig, MobileViTVaForImageClassification, MobileViTVaForSemanticSegmentation, ) from transformers.utils import logging logging.set_verbosity_info() _lowerCamelCase : Optional[int] = logging.get_logger(__name__) def a__ ( UpperCAmelCase : Union[str, Any] ) -> Optional[Any]: print('''Loading config file...''' ) def flatten_yaml_as_dict(UpperCAmelCase : Tuple , UpperCAmelCase : Any="" , UpperCAmelCase : Dict="." ): UpperCAmelCase : List[str] = [] for k, v in d.items(): UpperCAmelCase : List[Any] = parent_key + sep + k if parent_key else k if isinstance(UpperCAmelCase , collections.abc.MutableMapping ): items.extend(flatten_yaml_as_dict(UpperCAmelCase , UpperCAmelCase , sep=UpperCAmelCase ).items() ) else: items.append((new_key, v) ) return dict(UpperCAmelCase ) UpperCAmelCase : List[str] = argparse.Namespace() with open(UpperCAmelCase , '''r''' ) as yaml_file: try: UpperCAmelCase : List[str] = yaml.load(UpperCAmelCase , Loader=yaml.FullLoader ) UpperCAmelCase : Optional[int] = flatten_yaml_as_dict(UpperCAmelCase ) for k, v in flat_cfg.items(): setattr(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ) except yaml.YAMLError as exc: logger.error('''Error while loading config file: {}. Error message: {}'''.format(UpperCAmelCase , str(UpperCAmelCase ) ) ) return config def a__ ( UpperCAmelCase : List[str] , UpperCAmelCase : int ) -> List[Any]: UpperCAmelCase : int = MobileViTVaConfig() UpperCAmelCase : str = False # dataset if task_name.startswith('''imagenet1k_''' ): UpperCAmelCase : Any = 1_000 if int(task_name.strip().split('''_''' )[-1] ) == 384: UpperCAmelCase : Any = 384 else: UpperCAmelCase : Tuple = 256 UpperCAmelCase : int = '''imagenet-1k-id2label.json''' elif task_name.startswith('''imagenet21k_to_1k_''' ): UpperCAmelCase : Optional[Any] = 21_000 if int(task_name.strip().split('''_''' )[-1] ) == 384: UpperCAmelCase : str = 384 else: UpperCAmelCase : Dict = 256 UpperCAmelCase : List[Any] = '''imagenet-22k-id2label.json''' elif task_name.startswith('''ade20k_''' ): UpperCAmelCase : Optional[Any] = 151 UpperCAmelCase : Tuple = 512 UpperCAmelCase : Tuple = '''ade20k-id2label.json''' UpperCAmelCase : Tuple = True elif task_name.startswith('''voc_''' ): UpperCAmelCase : Dict = 21 UpperCAmelCase : str = 512 UpperCAmelCase : Union[str, Any] = '''pascal-voc-id2label.json''' UpperCAmelCase : Dict = True # orig_config UpperCAmelCase : List[Any] = load_orig_config_file(UpperCAmelCase ) assert getattr(UpperCAmelCase , '''model.classification.name''' , -1 ) == "mobilevit_v2", "Invalid model" UpperCAmelCase : Tuple = getattr(UpperCAmelCase , '''model.classification.mitv2.width_multiplier''' , 1.0 ) assert ( getattr(UpperCAmelCase , '''model.classification.mitv2.attn_norm_layer''' , -1 ) == "layer_norm_2d" ), "Norm layers other than layer_norm_2d is not supported" UpperCAmelCase : int = getattr(UpperCAmelCase , '''model.classification.activation.name''' , '''swish''' ) # config.image_size == getattr(orig_config, 'sampler.bs.crop_size_width', 256) if is_segmentation_model: UpperCAmelCase : str = getattr(UpperCAmelCase , '''model.segmentation.output_stride''' , 16 ) if "_deeplabv3" in task_name: UpperCAmelCase : int = getattr(UpperCAmelCase , '''model.segmentation.deeplabv3.aspp_rates''' , [12, 24, 36] ) UpperCAmelCase : Any = getattr(UpperCAmelCase , '''model.segmentation.deeplabv3.aspp_out_channels''' , 512 ) UpperCAmelCase : Optional[Any] = getattr(UpperCAmelCase , '''model.segmentation.deeplabv3.aspp_dropout''' , 0.1 ) # id2label UpperCAmelCase : Union[str, Any] = '''huggingface/label-files''' UpperCAmelCase : List[Any] = json.load(open(hf_hub_download(UpperCAmelCase , UpperCAmelCase , repo_type='''dataset''' ) , '''r''' ) ) UpperCAmelCase : Any = {int(UpperCAmelCase ): v for k, v in idalabel.items()} UpperCAmelCase : int = idalabel UpperCAmelCase : Optional[int] = {v: k for k, v in idalabel.items()} return config def a__ ( UpperCAmelCase : Dict , UpperCAmelCase : Union[str, Any] , UpperCAmelCase : Optional[int] ) -> List[str]: UpperCAmelCase : Union[str, Any] = dct.pop(UpperCAmelCase ) UpperCAmelCase : List[str] = val def a__ ( UpperCAmelCase : Union[str, Any] , UpperCAmelCase : int=False ) -> Union[str, Any]: if base_model: UpperCAmelCase : Dict = '''''' else: UpperCAmelCase : Dict = '''mobilevitv2.''' UpperCAmelCase : Optional[int] = [] for k in state_dict.keys(): if k[:8] == "encoder.": UpperCAmelCase : List[str] = k[8:] else: UpperCAmelCase : Dict = k if ".block." in k: UpperCAmelCase : List[Any] = k_new.replace('''.block.''' , '''.''' ) if ".conv." in k: UpperCAmelCase : Optional[int] = k_new.replace('''.conv.''' , '''.convolution.''' ) if ".norm." in k: UpperCAmelCase : List[str] = k_new.replace('''.norm.''' , '''.normalization.''' ) if "conv_1." in k: UpperCAmelCase : Union[str, Any] = k_new.replace('''conv_1.''' , f'''{model_prefix}conv_stem.''' ) for i in [1, 2]: if f'''layer_{i}.''' in k: UpperCAmelCase : Union[str, Any] = k_new.replace(f'''layer_{i}.''' , f'''{model_prefix}encoder.layer.{i-1}.layer.''' ) if ".exp_1x1." in k: UpperCAmelCase : Optional[Any] = k_new.replace('''.exp_1x1.''' , '''.expand_1x1.''' ) if ".red_1x1." in k: UpperCAmelCase : int = k_new.replace('''.red_1x1.''' , '''.reduce_1x1.''' ) for i in [3, 4, 5]: if f'''layer_{i}.0.''' in k: UpperCAmelCase : Any = k_new.replace(f'''layer_{i}.0.''' , f'''{model_prefix}encoder.layer.{i-1}.downsampling_layer.''' ) if f'''layer_{i}.1.local_rep.0.''' in k: UpperCAmelCase : str = k_new.replace(f'''layer_{i}.1.local_rep.0.''' , f'''{model_prefix}encoder.layer.{i-1}.conv_kxk.''' ) if f'''layer_{i}.1.local_rep.1.''' in k: UpperCAmelCase : int = k_new.replace(f'''layer_{i}.1.local_rep.1.''' , f'''{model_prefix}encoder.layer.{i-1}.conv_1x1.''' ) for i in [3, 4, 5]: if i == 3: UpperCAmelCase : Dict = [0, 1] elif i == 4: UpperCAmelCase : Dict = [0, 1, 2, 3] elif i == 5: UpperCAmelCase : int = [0, 1, 2] for j in j_in: if f'''layer_{i}.1.global_rep.{j}.''' in k: UpperCAmelCase : Optional[Any] = k_new.replace( f'''layer_{i}.1.global_rep.{j}.''' , f'''{model_prefix}encoder.layer.{i-1}.transformer.layer.{j}.''' ) if f'''layer_{i}.1.global_rep.{j+1}.''' in k: UpperCAmelCase : Any = k_new.replace( f'''layer_{i}.1.global_rep.{j+1}.''' , f'''{model_prefix}encoder.layer.{i-1}.layernorm.''' ) if f'''layer_{i}.1.conv_proj.''' in k: UpperCAmelCase : Union[str, Any] = k_new.replace(f'''layer_{i}.1.conv_proj.''' , f'''{model_prefix}encoder.layer.{i-1}.conv_projection.''' ) if "pre_norm_attn.0." in k: UpperCAmelCase : Optional[int] = k_new.replace('''pre_norm_attn.0.''' , '''layernorm_before.''' ) if "pre_norm_attn.1." in k: UpperCAmelCase : Optional[Any] = k_new.replace('''pre_norm_attn.1.''' , '''attention.''' ) if "pre_norm_ffn.0." in k: UpperCAmelCase : List[Any] = k_new.replace('''pre_norm_ffn.0.''' , '''layernorm_after.''' ) if "pre_norm_ffn.1." in k: UpperCAmelCase : List[Any] = k_new.replace('''pre_norm_ffn.1.''' , '''ffn.conv1.''' ) if "pre_norm_ffn.3." in k: UpperCAmelCase : Any = k_new.replace('''pre_norm_ffn.3.''' , '''ffn.conv2.''' ) if "classifier.1." in k: UpperCAmelCase : Optional[int] = k_new.replace('''classifier.1.''' , '''classifier.''' ) if "seg_head." in k: UpperCAmelCase : Union[str, Any] = k_new.replace('''seg_head.''' , '''segmentation_head.''' ) if ".aspp_layer." in k: UpperCAmelCase : Tuple = k_new.replace('''.aspp_layer.''' , '''.''' ) if ".aspp_pool." in k: UpperCAmelCase : Optional[int] = k_new.replace('''.aspp_pool.''' , '''.''' ) rename_keys.append((k, k_new) ) return rename_keys def a__ ( UpperCAmelCase : Union[str, Any] ) -> Any: UpperCAmelCase : str = [] for k in state_dict.keys(): if k.startswith('''seg_head.aux_head.''' ): keys_to_ignore.append(UpperCAmelCase ) for k in keys_to_ignore: state_dict.pop(UpperCAmelCase , UpperCAmelCase ) def a__ ( ) -> Union[str, Any]: UpperCAmelCase : int = '''http://images.cocodataset.org/val2017/000000039769.jpg''' # url = "https://cdn.britannica.com/86/141086-050-9D7C75EE/Gulfstream-G450-business-jet-passengers.jpg" UpperCAmelCase : List[str] = Image.open(requests.get(UpperCAmelCase , stream=UpperCAmelCase ).raw ) return im @torch.no_grad() def a__ ( UpperCAmelCase : int , UpperCAmelCase : int , UpperCAmelCase : Union[str, Any] , UpperCAmelCase : List[Any] ) -> Union[str, Any]: UpperCAmelCase : Union[str, Any] = get_mobilevitva_config(UpperCAmelCase , UpperCAmelCase ) # load original state_dict UpperCAmelCase : List[str] = torch.load(UpperCAmelCase , map_location='''cpu''' ) # load huggingface model if task_name.startswith('''ade20k_''' ) or task_name.startswith('''voc_''' ): UpperCAmelCase : str = MobileViTVaForSemanticSegmentation(UpperCAmelCase ).eval() UpperCAmelCase : str = False else: UpperCAmelCase : Union[str, Any] = MobileViTVaForImageClassification(UpperCAmelCase ).eval() UpperCAmelCase : Any = False # remove and rename some keys of load the original model UpperCAmelCase : Optional[Any] = checkpoint remove_unused_keys(UpperCAmelCase ) UpperCAmelCase : Optional[Any] = create_rename_keys(UpperCAmelCase , base_model=UpperCAmelCase ) for rename_key_src, rename_key_dest in rename_keys: rename_key(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ) # load modified state_dict model.load_state_dict(UpperCAmelCase ) # Check outputs on an image, prepared by MobileViTImageProcessor UpperCAmelCase : Dict = MobileViTImageProcessor(crop_size=config.image_size , size=config.image_size + 32 ) UpperCAmelCase : Any = image_processor(images=prepare_img() , return_tensors='''pt''' ) UpperCAmelCase : Union[str, Any] = model(**UpperCAmelCase ) # verify classification model if task_name.startswith('''imagenet''' ): UpperCAmelCase : Optional[Any] = outputs.logits UpperCAmelCase : int = logits.argmax(-1 ).item() print('''Predicted class:''' , model.config.idalabel[predicted_class_idx] ) if task_name.startswith('''imagenet1k_256''' ) and config.width_multiplier == 1.0: # expected_logits for base variant UpperCAmelCase : str = torch.tensor([-1.6_336E00, -7.3_204E-02, -5.1_883E-01] ) assert torch.allclose(logits[0, :3] , UpperCAmelCase , atol=1E-4 ) Path(UpperCAmelCase ).mkdir(exist_ok=UpperCAmelCase ) print(f'''Saving model {task_name} to {pytorch_dump_folder_path}''' ) model.save_pretrained(UpperCAmelCase ) print(f'''Saving image processor to {pytorch_dump_folder_path}''' ) image_processor.save_pretrained(UpperCAmelCase ) if __name__ == "__main__": _lowerCamelCase : str = argparse.ArgumentParser() # Required parameters parser.add_argument( "--task", default="imagenet1k_256", type=str, help=( "Name of the task for which the MobileViTV2 model you'd like to convert is trained on . " "\n Classification (ImageNet-1k)\n - MobileViTV2 (256x256) : imagenet1k_256\n - MobileViTV2 (Trained on 256x256 and Finetuned on 384x384) : imagenet1k_384\n - MobileViTV2 (Trained on ImageNet-21k and Finetuned on ImageNet-1k 256x256) :\n imagenet21k_to_1k_256\n - MobileViTV2 (Trained on ImageNet-21k, Finetuned on ImageNet-1k 256x256, and Finetuned on\n ImageNet-1k 384x384) : imagenet21k_to_1k_384\n Segmentation\n - ADE20K Dataset : ade20k_deeplabv3\n - Pascal VOC 2012 Dataset: voc_deeplabv3\n " ), choices=[ "imagenet1k_256", "imagenet1k_384", "imagenet21k_to_1k_256", "imagenet21k_to_1k_384", "ade20k_deeplabv3", "voc_deeplabv3", ], ) parser.add_argument( "--orig_checkpoint_path", required=True, type=str, help="Path to the original state dict (.pt file)." ) parser.add_argument("--orig_config_path", required=True, type=str, help="Path to the original config file.") parser.add_argument( "--pytorch_dump_folder_path", required=True, type=str, help="Path to the output PyTorch model directory." ) _lowerCamelCase : Optional[int] = parser.parse_args() convert_mobilevitva_checkpoint( args.task, args.orig_checkpoint_path, args.orig_config_path, args.pytorch_dump_folder_path )

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import copy import inspect import unittest import numpy as np from huggingface_hub import hf_hub_download from transformers import VideoMAEConfig from transformers.models.auto import get_values from transformers.testing_utils import require_torch, require_vision, slow, torch_device from transformers.utils import cached_property, is_torch_available, is_vision_available from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin, floats_tensor, ids_tensor from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from torch import nn from transformers import ( MODEL_FOR_VIDEO_CLASSIFICATION_MAPPING, VideoMAEForPreTraining, VideoMAEForVideoClassification, VideoMAEModel, ) from transformers.models.videomae.modeling_videomae import VIDEOMAE_PRETRAINED_MODEL_ARCHIVE_LIST if is_vision_available(): from transformers import VideoMAEImageProcessor class __UpperCAmelCase : def __init__( self : Union[str, Any], __A : int, __A : Union[str, Any]=1_3, __A : Optional[int]=1_0, __A : str=3, __A : int=2, __A : List[str]=2, __A : Tuple=2, __A : Dict=True, __A : Tuple=True, __A : List[Any]=3_2, __A : List[Any]=5, __A : str=4, __A : Dict=3_7, __A : int="gelu", __A : List[str]=0.1, __A : Any=0.1, __A : Any=1_0, __A : int=0.0_2, __A : Union[str, Any]=0.9, __A : Union[str, Any]=None, ): UpperCAmelCase : Tuple = parent UpperCAmelCase : str = batch_size UpperCAmelCase : str = image_size UpperCAmelCase : List[Any] = num_channels UpperCAmelCase : Optional[Any] = patch_size UpperCAmelCase : Tuple = tubelet_size UpperCAmelCase : int = num_frames UpperCAmelCase : str = is_training UpperCAmelCase : int = use_labels UpperCAmelCase : Any = hidden_size UpperCAmelCase : Any = num_hidden_layers UpperCAmelCase : Optional[int] = num_attention_heads UpperCAmelCase : Dict = intermediate_size UpperCAmelCase : Tuple = hidden_act UpperCAmelCase : Dict = hidden_dropout_prob UpperCAmelCase : Any = attention_probs_dropout_prob UpperCAmelCase : int = type_sequence_label_size UpperCAmelCase : Dict = initializer_range UpperCAmelCase : Union[str, Any] = mask_ratio UpperCAmelCase : List[Any] = scope # in VideoMAE, the number of tokens equals num_frames/tubelet_size * num_patches per frame UpperCAmelCase : str = (image_size // patch_size) ** 2 UpperCAmelCase : int = (num_frames // tubelet_size) * self.num_patches_per_frame # use this variable to define bool_masked_pos UpperCAmelCase : List[str] = int(mask_ratio * self.seq_length ) def __magic_name__ ( self : str ): UpperCAmelCase : Optional[int] = floats_tensor( [self.batch_size, self.num_frames, self.num_channels, self.image_size, self.image_size] ) UpperCAmelCase : Any = None if self.use_labels: UpperCAmelCase : str = ids_tensor([self.batch_size], self.type_sequence_label_size ) UpperCAmelCase : Any = self.get_config() return config, pixel_values, labels def __magic_name__ ( self : Any ): return VideoMAEConfig( image_size=self.image_size, patch_size=self.patch_size, num_channels=self.num_channels, num_frames=self.num_frames, tubelet_size=self.tubelet_size, hidden_size=self.hidden_size, num_hidden_layers=self.num_hidden_layers, num_attention_heads=self.num_attention_heads, intermediate_size=self.intermediate_size, hidden_act=self.hidden_act, hidden_dropout_prob=self.hidden_dropout_prob, attention_probs_dropout_prob=self.attention_probs_dropout_prob, is_decoder=__A, initializer_range=self.initializer_range, ) def __magic_name__ ( self : str, __A : Optional[int], __A : int, __A : List[Any] ): UpperCAmelCase : List[str] = VideoMAEModel(config=__A ) model.to(__A ) model.eval() UpperCAmelCase : List[Any] = model(__A ) self.parent.assertEqual(result.last_hidden_state.shape, (self.batch_size, self.seq_length, self.hidden_size) ) def __magic_name__ ( self : Optional[int], __A : int, __A : Dict, __A : str ): UpperCAmelCase : List[str] = VideoMAEForPreTraining(__A ) model.to(__A ) model.eval() # important: each video needs to have the same number of masked patches # hence we define a single mask, which we then repeat for each example in the batch UpperCAmelCase : str = torch.ones((self.num_masks,) ) UpperCAmelCase : Optional[Any] = torch.cat([mask, torch.zeros(self.seq_length - mask.size(0 ) )] ) UpperCAmelCase : Optional[int] = mask.expand(self.batch_size, -1 ).bool() UpperCAmelCase : str = model(__A, __A ) # model only returns predictions for masked patches UpperCAmelCase : Dict = mask.sum().item() UpperCAmelCase : Dict = 3 * self.tubelet_size * self.patch_size**2 self.parent.assertEqual(result.logits.shape, (self.batch_size, num_masked_patches, decoder_num_labels) ) def __magic_name__ ( self : List[str] ): UpperCAmelCase : Optional[int] = self.prepare_config_and_inputs() UpperCAmelCase , UpperCAmelCase , UpperCAmelCase : Optional[Any] = config_and_inputs UpperCAmelCase : int = {'''pixel_values''': pixel_values} return config, inputs_dict @require_torch class __UpperCAmelCase ( lowerCamelCase__ , lowerCamelCase__ , unittest.TestCase ): UpperCamelCase = ( (VideoMAEModel, VideoMAEForPreTraining, VideoMAEForVideoClassification) if is_torch_available() else () ) UpperCamelCase = ( {"""feature-extraction""": VideoMAEModel, """video-classification""": VideoMAEForVideoClassification} if is_torch_available() else {} ) UpperCamelCase = False UpperCamelCase = False UpperCamelCase = False UpperCamelCase = False def __magic_name__ ( self : Any ): UpperCAmelCase : str = VideoMAEModelTester(self ) UpperCAmelCase : Any = ConfigTester(self, config_class=__A, has_text_modality=__A, hidden_size=3_7 ) def __magic_name__ ( self : Tuple, __A : Tuple, __A : str, __A : Tuple=False ): UpperCAmelCase : Tuple = copy.deepcopy(__A ) if model_class == VideoMAEForPreTraining: # important: each video needs to have the same number of masked patches # hence we define a single mask, which we then repeat for each example in the batch UpperCAmelCase : Dict = torch.ones((self.model_tester.num_masks,) ) UpperCAmelCase : int = torch.cat([mask, torch.zeros(self.model_tester.seq_length - mask.size(0 ) )] ) UpperCAmelCase : Union[str, Any] = mask.expand(self.model_tester.batch_size, -1 ).bool() UpperCAmelCase : Dict = bool_masked_pos.to(__A ) if return_labels: if model_class in [ *get_values(__A ), ]: UpperCAmelCase : Union[str, Any] = torch.zeros( self.model_tester.batch_size, dtype=torch.long, device=__A ) return inputs_dict def __magic_name__ ( self : Any ): self.config_tester.run_common_tests() @unittest.skip(reason='''VideoMAE does not use inputs_embeds''' ) def __magic_name__ ( self : List[str] ): pass def __magic_name__ ( self : List[Any] ): UpperCAmelCase , UpperCAmelCase : int = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: UpperCAmelCase : List[Any] = model_class(__A ) self.assertIsInstance(model.get_input_embeddings(), (nn.Module) ) UpperCAmelCase : Tuple = model.get_output_embeddings() self.assertTrue(x is None or isinstance(__A, nn.Linear ) ) def __magic_name__ ( self : List[Any] ): UpperCAmelCase , UpperCAmelCase : Tuple = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: UpperCAmelCase : Optional[Any] = model_class(__A ) UpperCAmelCase : Tuple = inspect.signature(model.forward ) # signature.parameters is an OrderedDict => so arg_names order is deterministic UpperCAmelCase : List[str] = [*signature.parameters.keys()] UpperCAmelCase : Tuple = ['''pixel_values'''] self.assertListEqual(arg_names[:1], __A ) def __magic_name__ ( self : Any ): UpperCAmelCase : Any = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(*__A ) def __magic_name__ ( self : Optional[int] ): UpperCAmelCase : Union[str, Any] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_pretraining(*__A ) @slow def __magic_name__ ( self : str ): for model_name in VIDEOMAE_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: UpperCAmelCase : Tuple = VideoMAEModel.from_pretrained(__A ) self.assertIsNotNone(__A ) def __magic_name__ ( self : Optional[Any] ): if not self.has_attentions: pass else: UpperCAmelCase , UpperCAmelCase : int = self.model_tester.prepare_config_and_inputs_for_common() UpperCAmelCase : Optional[Any] = True for model_class in self.all_model_classes: UpperCAmelCase : Union[str, Any] = self.model_tester.seq_length - self.model_tester.num_masks UpperCAmelCase : str = ( num_visible_patches if model_class == VideoMAEForPreTraining else self.model_tester.seq_length ) UpperCAmelCase : Any = True UpperCAmelCase : Tuple = False UpperCAmelCase : Union[str, Any] = True UpperCAmelCase : Optional[Any] = model_class(__A ) model.to(__A ) model.eval() with torch.no_grad(): UpperCAmelCase : Tuple = model(**self._prepare_for_class(__A, __A ) ) UpperCAmelCase : int = outputs.attentions self.assertEqual(len(__A ), self.model_tester.num_hidden_layers ) # check that output_attentions also work using config del inputs_dict["output_attentions"] UpperCAmelCase : int = True UpperCAmelCase : str = model_class(__A ) model.to(__A ) model.eval() with torch.no_grad(): UpperCAmelCase : Optional[Any] = model(**self._prepare_for_class(__A, __A ) ) UpperCAmelCase : Any = outputs.attentions self.assertEqual(len(__A ), self.model_tester.num_hidden_layers ) self.assertListEqual( list(attentions[0].shape[-3:] ), [self.model_tester.num_attention_heads, seq_len, seq_len], ) UpperCAmelCase : Any = len(__A ) # Check attention is always last and order is fine UpperCAmelCase : int = True UpperCAmelCase : Union[str, Any] = True UpperCAmelCase : List[Any] = model_class(__A ) model.to(__A ) model.eval() with torch.no_grad(): UpperCAmelCase : str = model(**self._prepare_for_class(__A, __A ) ) self.assertEqual(out_len + 1, len(__A ) ) UpperCAmelCase : Dict = outputs.attentions self.assertEqual(len(__A ), self.model_tester.num_hidden_layers ) self.assertListEqual( list(self_attentions[0].shape[-3:] ), [self.model_tester.num_attention_heads, seq_len, seq_len], ) def __magic_name__ ( self : Dict ): def check_hidden_states_output(__A : Any, __A : Optional[int], __A : List[str] ): UpperCAmelCase : List[Any] = model_class(__A ) model.to(__A ) model.eval() with torch.no_grad(): UpperCAmelCase : Optional[int] = model(**self._prepare_for_class(__A, __A ) ) UpperCAmelCase : List[Any] = outputs.hidden_states UpperCAmelCase : Dict = self.model_tester.num_hidden_layers + 1 self.assertEqual(len(__A ), __A ) UpperCAmelCase : Optional[int] = self.model_tester.seq_length - self.model_tester.num_masks UpperCAmelCase : Optional[Any] = num_visible_patches if model_class == VideoMAEForPreTraining else self.model_tester.seq_length self.assertListEqual( list(hidden_states[0].shape[-2:] ), [seq_length, self.model_tester.hidden_size], ) UpperCAmelCase , UpperCAmelCase : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: UpperCAmelCase : Any = True check_hidden_states_output(__A, __A, __A ) # check that output_hidden_states also work using config del inputs_dict["output_hidden_states"] UpperCAmelCase : Optional[Any] = True check_hidden_states_output(__A, __A, __A ) @unittest.skip('''Will be fixed soon by reducing the size of the model used for common tests.''' ) def __magic_name__ ( self : str ): pass def a__ ( ) -> Dict: UpperCAmelCase : Any = hf_hub_download( repo_id='''hf-internal-testing/spaghetti-video''' , filename='''eating_spaghetti.npy''' , repo_type='''dataset''' ) UpperCAmelCase : int = np.load(UpperCAmelCase ) return list(UpperCAmelCase ) @require_torch @require_vision class __UpperCAmelCase ( unittest.TestCase ): @cached_property def __magic_name__ ( self : List[Any] ): # logits were tested with a different mean and std, so we use the same here return ( VideoMAEImageProcessor(image_mean=[0.5, 0.5, 0.5], image_std=[0.5, 0.5, 0.5] ) if is_vision_available() else None ) @slow def __magic_name__ ( self : str ): UpperCAmelCase : Dict = VideoMAEForVideoClassification.from_pretrained('''MCG-NJU/videomae-base-finetuned-kinetics''' ).to( __A ) UpperCAmelCase : Any = self.default_image_processor UpperCAmelCase : int = prepare_video() UpperCAmelCase : str = image_processor(__A, return_tensors='''pt''' ).to(__A ) # forward pass with torch.no_grad(): UpperCAmelCase : Dict = model(**__A ) # verify the logits UpperCAmelCase : Optional[Any] = torch.Size((1, 4_0_0) ) self.assertEqual(outputs.logits.shape, __A ) UpperCAmelCase : Dict = torch.tensor([0.3_6_6_9, -0.0_6_8_8, -0.2_4_2_1] ).to(__A ) self.assertTrue(torch.allclose(outputs.logits[0, :3], __A, atol=1E-4 ) ) @slow def __magic_name__ ( self : str ): UpperCAmelCase : Dict = VideoMAEForPreTraining.from_pretrained('''MCG-NJU/videomae-base-short''' ).to(__A ) UpperCAmelCase : Optional[Any] = self.default_image_processor UpperCAmelCase : List[Any] = prepare_video() UpperCAmelCase : List[str] = image_processor(__A, return_tensors='''pt''' ).to(__A ) # add boolean mask, indicating which patches to mask UpperCAmelCase : str = hf_hub_download(repo_id='''hf-internal-testing/bool-masked-pos''', filename='''bool_masked_pos.pt''' ) UpperCAmelCase : List[Any] = torch.load(__A ) # forward pass with torch.no_grad(): UpperCAmelCase : Dict = model(**__A ) # verify the logits UpperCAmelCase : List[str] = torch.Size([1, 1_4_0_8, 1_5_3_6] ) UpperCAmelCase : Tuple = torch.tensor( [[0.7_9_9_4, 0.9_6_1_2, 0.8_5_0_8], [0.7_4_0_1, 0.8_9_5_8, 0.8_3_0_2], [0.5_8_6_2, 0.7_4_6_8, 0.7_3_2_5]], device=__A ) self.assertEqual(outputs.logits.shape, __A ) self.assertTrue(torch.allclose(outputs.logits[0, :3, :3], __A, atol=1E-4 ) ) # verify the loss (`config.norm_pix_loss` = `True`) UpperCAmelCase : Union[str, Any] = torch.tensor([0.5_1_4_2], device=__A ) self.assertTrue(torch.allclose(outputs.loss, __A, atol=1E-4 ) ) # verify the loss (`config.norm_pix_loss` = `False`) UpperCAmelCase : Union[str, Any] = VideoMAEForPreTraining.from_pretrained('''MCG-NJU/videomae-base-short''', norm_pix_loss=__A ).to( __A ) with torch.no_grad(): UpperCAmelCase : str = model(**__A ) UpperCAmelCase : List[Any] = torch.tensor(torch.tensor([0.6_4_6_9] ), device=__A ) self.assertTrue(torch.allclose(outputs.loss, __A, atol=1E-4 ) )

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import coval # From: git+https://github.com/ns-moosavi/coval.git # noqa: F401 from coval.conll import reader, util from coval.eval import evaluator import datasets _lowerCamelCase : int = datasets.logging.get_logger(__name__) _lowerCamelCase : Any = "\\n@InProceedings{moosavi2019minimum,\n author = { Nafise Sadat Moosavi, Leo Born, Massimo Poesio and Michael Strube},\n title = {Using Automatically Extracted Minimum Spans to Disentangle Coreference Evaluation from Boundary Detection},\n year = {2019},\n booktitle = {Proceedings of the 57th Annual Meeting of\n the Association for Computational Linguistics (Volume 1: Long Papers)},\n publisher = {Association for Computational Linguistics},\n address = {Florence, Italy},\n}\n\n@inproceedings{10.3115/1072399.1072405,\nauthor = {Vilain, Marc and Burger, John and Aberdeen, John and Connolly, Dennis and Hirschman, Lynette},\ntitle = {A Model-Theoretic Coreference Scoring Scheme},\nyear = {1995},\nisbn = {1558604022},\npublisher = {Association for Computational Linguistics},\naddress = {USA},\nurl = {https://doi.org/10.3115/1072399.1072405},\ndoi = {10.3115/1072399.1072405},\nbooktitle = {Proceedings of the 6th Conference on Message Understanding},\npages = {45–52},\nnumpages = {8},\nlocation = {Columbia, Maryland},\nseries = {MUC6 ’95}\n}\n\n@INPROCEEDINGS{Bagga98algorithmsfor,\n author = {Amit Bagga and Breck Baldwin},\n title = {Algorithms for Scoring Coreference Chains},\n booktitle = {In The First International Conference on Language Resources and Evaluation Workshop on Linguistics Coreference},\n year = {1998},\n pages = {563--566}\n}\n\n@INPROCEEDINGS{Luo05oncoreference,\n author = {Xiaoqiang Luo},\n title = {On coreference resolution performance metrics},\n booktitle = {In Proc. of HLT/EMNLP},\n year = {2005},\n pages = {25--32},\n publisher = {URL}\n}\n\n@inproceedings{moosavi-strube-2016-coreference,\n title = \"Which Coreference Evaluation Metric Do You Trust? A Proposal for a Link-based Entity Aware Metric\",\n author = \"Moosavi, Nafise Sadat and\n Strube, Michael\",\n booktitle = \"Proceedings of the 54th Annual Meeting of the Association for Computational Linguistics (Volume 1: Long Papers)\",\n month = aug,\n year = \"2016\",\n address = \"Berlin, Germany\",\n publisher = \"Association for Computational Linguistics\",\n url = \"https://www.aclweb.org/anthology/P16-1060\",\n doi = \"10.18653/v1/P16-1060\",\n pages = \"632--642\",\n}\n\n" _lowerCamelCase : Tuple = "\\nCoVal is a coreference evaluation tool for the CoNLL and ARRAU datasets which\nimplements of the common evaluation metrics including MUC [Vilain et al, 1995],\nB-cubed [Bagga and Baldwin, 1998], CEAFe [Luo et al., 2005],\nLEA [Moosavi and Strube, 2016] and the averaged CoNLL score\n(the average of the F1 values of MUC, B-cubed and CEAFe)\n[Denis and Baldridge, 2009a; Pradhan et al., 2011].\n\nThis wrapper of CoVal currently only work with CoNLL line format:\nThe CoNLL format has one word per line with all the annotation for this word in column separated by spaces:\nColumn Type Description\n1 Document ID This is a variation on the document filename\n2 Part number Some files are divided into multiple parts numbered as 000, 001, 002, ... etc.\n3 Word number\n4 Word itself This is the token as segmented/tokenized in the Treebank. Initially the *_skel file contain the placeholder [WORD] which gets replaced by the actual token from the Treebank which is part of the OntoNotes release.\n5 Part-of-Speech\n6 Parse bit This is the bracketed structure broken before the first open parenthesis in the parse, and the word/part-of-speech leaf replaced with a *. The full parse can be created by substituting the asterix with the \"([pos] [word])\" string (or leaf) and concatenating the items in the rows of that column.\n7 Predicate lemma The predicate lemma is mentioned for the rows for which we have semantic role information. All other rows are marked with a \"-\"\n8 Predicate Frameset ID This is the PropBank frameset ID of the predicate in Column 7.\n9 Word sense This is the word sense of the word in Column 3.\n10 Speaker/Author This is the speaker or author name where available. Mostly in Broadcast Conversation and Web Log data.\n11 Named Entities These columns identifies the spans representing various named entities.\n12:N Predicate Arguments There is one column each of predicate argument structure information for the predicate mentioned in Column 7.\nN Coreference Coreference chain information encoded in a parenthesis structure.\nMore informations on the format can be found here (section \"*_conll File Format\"): http://www.conll.cemantix.org/2012/data.html\n\nDetails on the evaluation on CoNLL can be found here: https://github.com/ns-moosavi/coval/blob/master/conll/README.md\n\nCoVal code was written by @ns-moosavi.\nSome parts are borrowed from https://github.com/clarkkev/deep-coref/blob/master/evaluation.py\nThe test suite is taken from https://github.com/conll/reference-coreference-scorers/\nMention evaluation and the test suite are added by @andreasvc.\nParsing CoNLL files is developed by Leo Born.\n" _lowerCamelCase : List[str] = "\nCalculates coreference evaluation metrics.\nArgs:\n predictions: list of sentences. Each sentence is a list of word predictions to score in the CoNLL format.\n Each prediction is a word with its annotations as a string made of columns joined with spaces.\n Only columns 4, 5, 6 and the last column are used (word, POS, Pars and coreference annotation)\n See the details on the format in the description of the metric.\n references: list of sentences. Each sentence is a list of word reference to score in the CoNLL format.\n Each reference is a word with its annotations as a string made of columns joined with spaces.\n Only columns 4, 5, 6 and the last column are used (word, POS, Pars and coreference annotation)\n See the details on the format in the description of the metric.\n keep_singletons: After extracting all mentions of key or system files,\n mentions whose corresponding coreference chain is of size one,\n are considered as singletons. The default evaluation mode will include\n singletons in evaluations if they are included in the key or the system files.\n By setting 'keep_singletons=False', all singletons in the key and system files\n will be excluded from the evaluation.\n NP_only: Most of the recent coreference resolvers only resolve NP mentions and\n leave out the resolution of VPs. By setting the 'NP_only' option, the scorer will only evaluate the resolution of NPs.\n min_span: By setting 'min_span', the scorer reports the results based on automatically detected minimum spans.\n Minimum spans are determined using the MINA algorithm.\n\nReturns:\n 'mentions': mentions\n 'muc': MUC metric [Vilain et al, 1995]\n 'bcub': B-cubed [Bagga and Baldwin, 1998]\n 'ceafe': CEAFe [Luo et al., 2005]\n 'lea': LEA [Moosavi and Strube, 2016]\n 'conll_score': averaged CoNLL score (the average of the F1 values of MUC, B-cubed and CEAFe)\n\nExamples:\n\n >>> coval = datasets.load_metric('coval')\n >>> words = ['bc/cctv/00/cctv_0005 0 0 Thank VBP (TOP(S(VP* thank 01 1 Xu_li * (V*) * -',\n ... 'bc/cctv/00/cctv_0005 0 1 you PRP (NP*) - - - Xu_li * (ARG1*) (ARG0*) (116)',\n ... 'bc/cctv/00/cctv_0005 0 2 everyone NN (NP*) - - - Xu_li * (ARGM-DIS*) * (116)',\n ... 'bc/cctv/00/cctv_0005 0 3 for IN (PP* - - - Xu_li * (ARG2* * -',\n ... 'bc/cctv/00/cctv_0005 0 4 watching VBG (S(VP*)))) watch 01 1 Xu_li * *) (V*) -',\n ... 'bc/cctv/00/cctv_0005 0 5 . . *)) - - - Xu_li * * * -']\n >>> references = [words]\n >>> predictions = [words]\n >>> results = coval.compute(predictions=predictions, references=references)\n >>> print(results) # doctest:+ELLIPSIS\n {'mentions/recall': 1.0,[...] 'conll_score': 100.0}\n" def a__ ( UpperCAmelCase : int , UpperCAmelCase : str , UpperCAmelCase : Union[str, Any]=False , UpperCAmelCase : Optional[Any]=False , UpperCAmelCase : Optional[Any]=True , UpperCAmelCase : List[str]=False , UpperCAmelCase : List[str]="dummy_doc" ) -> Any: UpperCAmelCase : Dict = {doc: key_lines} UpperCAmelCase : Any = {doc: sys_lines} UpperCAmelCase : int = {} UpperCAmelCase : List[Any] = 0 UpperCAmelCase : Any = 0 UpperCAmelCase : Optional[int] = 0 UpperCAmelCase : Optional[Any] = 0 UpperCAmelCase : int = 0 UpperCAmelCase : List[str] = 0 UpperCAmelCase , UpperCAmelCase : Tuple = reader.get_doc_mentions(UpperCAmelCase , key_doc_lines[doc] , UpperCAmelCase ) key_singletons_num += singletons_num if NP_only or min_span: UpperCAmelCase : int = reader.set_annotated_parse_trees(UpperCAmelCase , key_doc_lines[doc] , UpperCAmelCase , UpperCAmelCase ) UpperCAmelCase , UpperCAmelCase : str = reader.get_doc_mentions(UpperCAmelCase , sys_doc_lines[doc] , UpperCAmelCase ) sys_singletons_num += singletons_num if NP_only or min_span: UpperCAmelCase : Tuple = reader.set_annotated_parse_trees(UpperCAmelCase , key_doc_lines[doc] , UpperCAmelCase , UpperCAmelCase ) if remove_nested: UpperCAmelCase , UpperCAmelCase : Tuple = reader.remove_nested_coref_mentions(UpperCAmelCase , UpperCAmelCase ) key_nested_coref_num += nested_mentions key_removed_nested_clusters += removed_clusters UpperCAmelCase , UpperCAmelCase : List[str] = reader.remove_nested_coref_mentions(UpperCAmelCase , UpperCAmelCase ) sys_nested_coref_num += nested_mentions sys_removed_nested_clusters += removed_clusters UpperCAmelCase : Union[str, Any] = reader.get_mention_assignments(UpperCAmelCase , UpperCAmelCase ) UpperCAmelCase : Optional[int] = reader.get_mention_assignments(UpperCAmelCase , UpperCAmelCase ) UpperCAmelCase : str = (key_clusters, sys_clusters, key_mention_sys_cluster, sys_mention_key_cluster) if remove_nested: logger.info( '''Number of removed nested coreferring mentions in the key ''' f'''annotation: {key_nested_coref_num}; and system annotation: {sys_nested_coref_num}''' ) logger.info( '''Number of resulting singleton clusters in the key ''' f'''annotation: {key_removed_nested_clusters}; and system annotation: {sys_removed_nested_clusters}''' ) if not keep_singletons: logger.info( f'''{key_singletons_num:d} and {sys_singletons_num:d} singletons are removed from the key and system ''' '''files, respectively''' ) return doc_coref_infos def a__ ( UpperCAmelCase : Tuple , UpperCAmelCase : Optional[Any] , UpperCAmelCase : Dict , UpperCAmelCase : List[str] , UpperCAmelCase : Tuple , UpperCAmelCase : int , UpperCAmelCase : Optional[Any] ) -> Union[str, Any]: UpperCAmelCase : Optional[int] = get_coref_infos(UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase , UpperCAmelCase ) UpperCAmelCase : Dict = {} UpperCAmelCase : Dict = 0 UpperCAmelCase : Tuple = 0 for name, metric in metrics: UpperCAmelCase , UpperCAmelCase , UpperCAmelCase : List[str] = evaluator.evaluate_documents(UpperCAmelCase , UpperCAmelCase , beta=1 ) if name in ["muc", "bcub", "ceafe"]: conll += fa conll_subparts_num += 1 output_scores.update({f'''{name}/recall''': recall, f'''{name}/precision''': precision, f'''{name}/f1''': fa} ) logger.info( name.ljust(10 ) , f'''Recall: {recall * 100:.2f}''' , f''' Precision: {precision * 100:.2f}''' , f''' F1: {fa * 100:.2f}''' , ) if conll_subparts_num == 3: UpperCAmelCase : Optional[int] = (conll / 3) * 100 logger.info(f'''CoNLL score: {conll:.2f}''' ) output_scores.update({'''conll_score''': conll} ) return output_scores def a__ ( UpperCAmelCase : Optional[int] ) -> List[str]: UpperCAmelCase : int = False for line in key_lines: if not line.startswith('''#''' ): if len(line.split() ) > 6: UpperCAmelCase : List[str] = line.split()[5] if not parse_col == "-": UpperCAmelCase : Optional[int] = True break else: break return has_gold_parse @datasets.utils.file_utils.add_start_docstrings(_DESCRIPTION , _KWARGS_DESCRIPTION ) class __UpperCAmelCase ( datasets.Metric ): def __magic_name__ ( self : Union[str, Any] ): return datasets.MetricInfo( description=_DESCRIPTION, citation=_CITATION, inputs_description=_KWARGS_DESCRIPTION, features=datasets.Features( { '''predictions''': datasets.Sequence(datasets.Value('''string''' ) ), '''references''': datasets.Sequence(datasets.Value('''string''' ) ), } ), codebase_urls=['''https://github.com/ns-moosavi/coval'''], reference_urls=[ '''https://github.com/ns-moosavi/coval''', '''https://www.aclweb.org/anthology/P16-1060''', '''http://www.conll.cemantix.org/2012/data.html''', ], ) def __magic_name__ ( self : str, __A : Any, __A : Dict, __A : List[str]=True, __A : Optional[Any]=False, __A : List[Any]=False, __A : Tuple=False ): UpperCAmelCase : Optional[Any] = [ ('''mentions''', evaluator.mentions), ('''muc''', evaluator.muc), ('''bcub''', evaluator.b_cubed), ('''ceafe''', evaluator.ceafe), ('''lea''', evaluator.lea), ] if min_span: UpperCAmelCase : List[Any] = util.check_gold_parse_annotation(__A ) if not has_gold_parse: raise NotImplementedError('''References should have gold parse annotation to use \'min_span\'.''' ) # util.parse_key_file(key_file) # key_file = key_file + ".parsed" UpperCAmelCase : Union[str, Any] = evaluate( key_lines=__A, sys_lines=__A, metrics=__A, NP_only=__A, remove_nested=__A, keep_singletons=__A, min_span=__A, ) return score

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import argparse import OmegaConf import torch from diffusers import DDIMScheduler, LDMPipeline, UNetLDMModel, VQModel def UpperCamelCase__ ( A__ , A__ , A__ ) -> Dict: snake_case__ : Union[str, Any] = OmegaConf.load(A__ ) snake_case__ : int = torch.load(A__ , map_location='cpu' )['model'] snake_case__ : Optional[int] = list(state_dict.keys() ) # extract state_dict for VQVAE snake_case__ : int = {} snake_case__ : Dict = 'first_stage_model.' for key in keys: if key.startswith(A__ ): snake_case__ : List[str] = state_dict[key] # extract state_dict for UNetLDM snake_case__ : Any = {} snake_case__ : str = 'model.diffusion_model.' for key in keys: if key.startswith(A__ ): snake_case__ : Optional[int] = state_dict[key] snake_case__ : Any = config.model.params.first_stage_config.params snake_case__ : Optional[int] = config.model.params.unet_config.params snake_case__ : Optional[int] = VQModel(**A__ ).eval() vqvae.load_state_dict(A__ ) snake_case__ : List[Any] = UNetLDMModel(**A__ ).eval() unet.load_state_dict(A__ ) snake_case__ : Optional[int] = DDIMScheduler( timesteps=config.model.params.timesteps , beta_schedule='scaled_linear' , beta_start=config.model.params.linear_start , beta_end=config.model.params.linear_end , clip_sample=A__ , ) snake_case__ : Any = LDMPipeline(A__ , A__ , A__ ) pipeline.save_pretrained(A__ ) if __name__ == "__main__": lowerCAmelCase__ : Any = argparse.ArgumentParser() parser.add_argument('''--checkpoint_path''', type=str, required=True) parser.add_argument('''--config_path''', type=str, required=True) parser.add_argument('''--output_path''', type=str, required=True) lowerCAmelCase__ : str = parser.parse_args() convert_ldm_original(args.checkpoint_path, args.config_path, args.output_path)

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from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_torch_available, is_vision_available, ) lowerCAmelCase__ : Optional[Any] = { '''configuration_mobilevit''': ['''MOBILEVIT_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''MobileViTConfig''', '''MobileViTOnnxConfig'''], } try: if not is_vision_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ : Dict = ['''MobileViTFeatureExtractor'''] lowerCAmelCase__ : Optional[int] = ['''MobileViTImageProcessor'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ : str = [ '''MOBILEVIT_PRETRAINED_MODEL_ARCHIVE_LIST''', '''MobileViTForImageClassification''', '''MobileViTForSemanticSegmentation''', '''MobileViTModel''', '''MobileViTPreTrainedModel''', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase__ : str = [ '''TF_MOBILEVIT_PRETRAINED_MODEL_ARCHIVE_LIST''', '''TFMobileViTForImageClassification''', '''TFMobileViTForSemanticSegmentation''', '''TFMobileViTModel''', '''TFMobileViTPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_mobilevit import MOBILEVIT_PRETRAINED_CONFIG_ARCHIVE_MAP, MobileViTConfig, MobileViTOnnxConfig try: if not is_vision_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .feature_extraction_mobilevit import MobileViTFeatureExtractor from .image_processing_mobilevit import MobileViTImageProcessor try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_mobilevit import ( MOBILEVIT_PRETRAINED_MODEL_ARCHIVE_LIST, MobileViTForImageClassification, MobileViTForSemanticSegmentation, MobileViTModel, MobileViTPreTrainedModel, ) try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_mobilevit import ( TF_MOBILEVIT_PRETRAINED_MODEL_ARCHIVE_LIST, TFMobileViTForImageClassification, TFMobileViTForSemanticSegmentation, TFMobileViTModel, TFMobileViTPreTrainedModel, ) else: import sys lowerCAmelCase__ : Any = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)

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"""simple docstring""" from __future__ import annotations import os from typing import Any import requests A__ : Any = """https://api.github.com""" # https://docs.github.com/en/free-pro-team@latest/rest/reference/users#get-the-authenticated-user A__ : Tuple = BASE_URL + """/user""" # https://github.com/settings/tokens A__ : Optional[Any] = os.environ.get('USER_TOKEN', '') def _snake_case ( lowerCamelCase__ : str ): lowerCamelCase_ : Dict ={ '''Authorization''': F"""token {auth_token}""", '''Accept''': '''application/vnd.github.v3+json''', } return requests.get(_snake_case , headers=_snake_case ).json() if __name__ == "__main__": # pragma: no cover if USER_TOKEN: for key, value in fetch_github_info(USER_TOKEN).items(): print(f'{key}: {value}') else: raise ValueError('\'USER_TOKEN\' field cannot be empty.')

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"""simple docstring""" import itertools from dataclasses import dataclass from typing import List, Optional import pyarrow as pa import pyarrow.parquet as pq import datasets from datasets.table import table_cast A__ : List[str] = datasets.utils.logging.get_logger(__name__) @dataclass class lowercase__ ( datasets.BuilderConfig ): _UpperCAmelCase :int = 10000 _UpperCAmelCase :Optional[List[str]] = None _UpperCAmelCase :Optional[datasets.Features] = None class lowercase__ ( datasets.ArrowBasedBuilder ): _UpperCAmelCase :Optional[int] = ParquetConfig def UpperCAmelCase__ ( self : Optional[int] ): return datasets.DatasetInfo(features=self.config.features ) def UpperCAmelCase__ ( self : List[Any] , snake_case__ : List[Any] ): if not self.config.data_files: raise ValueError(F"""At least one data file must be specified, but got data_files={self.config.data_files}""" ) lowerCamelCase_ : str =dl_manager.download_and_extract(self.config.data_files ) if isinstance(snake_case__ , (str, list, tuple) ): lowerCamelCase_ : Dict =data_files if isinstance(snake_case__ , snake_case__ ): lowerCamelCase_ : List[Any] =[files] # Use `dl_manager.iter_files` to skip hidden files in an extracted archive lowerCamelCase_ : Any =[dl_manager.iter_files(snake_case__ ) for file in files] return [datasets.SplitGenerator(name=datasets.Split.TRAIN , gen_kwargs={"files": files} )] lowerCamelCase_ : Optional[int] =[] for split_name, files in data_files.items(): if isinstance(snake_case__ , snake_case__ ): lowerCamelCase_ : Optional[int] =[files] # Use `dl_manager.iter_files` to skip hidden files in an extracted archive lowerCamelCase_ : int =[dl_manager.iter_files(snake_case__ ) for file in files] # Infer features is they are stoed in the arrow schema if self.info.features is None: for file in itertools.chain.from_iterable(snake_case__ ): with open(snake_case__ , "rb" ) as f: lowerCamelCase_ : List[Any] =datasets.Features.from_arrow_schema(pq.read_schema(snake_case__ ) ) break splits.append(datasets.SplitGenerator(name=snake_case__ , gen_kwargs={"files": files} ) ) return splits def UpperCAmelCase__ ( self : int , snake_case__ : pa.Table ): if self.info.features is not None: # more expensive cast to support nested features with keys in a different order # allows str <-> int/float or str to Audio for example lowerCamelCase_ : List[str] =table_cast(snake_case__ , self.info.features.arrow_schema ) return pa_table def UpperCAmelCase__ ( self : int , snake_case__ : Optional[Any] ): lowerCamelCase_ : Tuple =self.info.features.arrow_schema if self.info.features is not None else None if self.info.features is not None and self.config.columns is not None: if sorted(field.name for field in schema ) != sorted(self.config.columns ): raise ValueError( F"""Tried to load parquet data with columns '{self.config.columns}' with mismatching features '{self.info.features}'""" ) for file_idx, file in enumerate(itertools.chain.from_iterable(snake_case__ ) ): with open(snake_case__ , "rb" ) as f: lowerCamelCase_ : List[str] =pq.ParquetFile(snake_case__ ) try: for batch_idx, record_batch in enumerate( parquet_file.iter_batches(batch_size=self.config.batch_size , columns=self.config.columns ) ): lowerCamelCase_ : Union[str, Any] =pa.Table.from_batches([record_batch] ) # Uncomment for debugging (will print the Arrow table size and elements) # logger.warning(f"pa_table: {pa_table} num rows: {pa_table.num_rows}") # logger.warning('\n'.join(str(pa_table.slice(i, 1).to_pydict()) for i in range(pa_table.num_rows))) yield F"""{file_idx}_{batch_idx}""", self._cast_table(snake_case__ ) except ValueError as e: logger.error(F"""Failed to read file '{file}' with error {type(snake_case__ )}: {e}""" ) raise

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import os import shutil from pathlib import Path from typing import Optional, Union import numpy as np from huggingface_hub import hf_hub_download from ..utils import ONNX_EXTERNAL_WEIGHTS_NAME, ONNX_WEIGHTS_NAME, is_onnx_available, logging if is_onnx_available(): import onnxruntime as ort a__ = logging.get_logger(__name__) a__ = { """tensor(bool)""": np.bool_, """tensor(int8)""": np.inta, """tensor(uint8)""": np.uinta, """tensor(int16)""": np.intaa, """tensor(uint16)""": np.uintaa, """tensor(int32)""": np.intaa, """tensor(uint32)""": np.uintaa, """tensor(int64)""": np.intaa, """tensor(uint64)""": np.uintaa, """tensor(float16)""": np.floataa, """tensor(float)""": np.floataa, """tensor(double)""": np.floataa, } class snake_case : '''simple docstring''' def __init__( self : List[Any] , lowerCAmelCase : int=None , **lowerCAmelCase : str) -> List[Any]: """simple docstring""" logger.info("""`diffusers.OnnxRuntimeModel` is experimental and might change in the future.""") _snake_case : Union[str, Any] = model _snake_case : List[Any] = kwargs.get("""model_save_dir""" , lowerCAmelCase) _snake_case : int = kwargs.get("""latest_model_name""" , lowerCAmelCase) def __call__( self : str , **lowerCAmelCase : Any) -> Optional[int]: """simple docstring""" _snake_case : int = {k: np.array(lowerCAmelCase) for k, v in kwargs.items()} return self.model.run(lowerCAmelCase , lowerCAmelCase) @staticmethod def UpperCamelCase_ ( lowerCAmelCase : Union[str, Path] , lowerCAmelCase : Optional[Any]=None , lowerCAmelCase : Dict=None) -> List[str]: """simple docstring""" if provider is None: logger.info("""No onnxruntime provider specified, using CPUExecutionProvider""") _snake_case : Tuple = """CPUExecutionProvider""" return ort.InferenceSession(lowerCAmelCase , providers=[provider] , sess_options=lowerCAmelCase) def UpperCamelCase_ ( self : Any , lowerCAmelCase : Union[str, Path] , lowerCAmelCase : Optional[str] = None , **lowerCAmelCase : Union[str, Any]) -> List[str]: """simple docstring""" _snake_case : Tuple = file_name if file_name is not None else ONNX_WEIGHTS_NAME _snake_case : Tuple = self.model_save_dir.joinpath(self.latest_model_name) _snake_case : Dict = Path(lowerCAmelCase).joinpath(lowerCAmelCase) try: shutil.copyfile(lowerCAmelCase , lowerCAmelCase) except shutil.SameFileError: pass # copy external weights (for models >2GB) _snake_case : Dict = self.model_save_dir.joinpath(lowerCAmelCase) if src_path.exists(): _snake_case : Optional[int] = Path(lowerCAmelCase).joinpath(lowerCAmelCase) try: shutil.copyfile(lowerCAmelCase , lowerCAmelCase) except shutil.SameFileError: pass def UpperCamelCase_ ( self : int , lowerCAmelCase : Union[str, os.PathLike] , **lowerCAmelCase : Optional[int] , ) -> str: """simple docstring""" if os.path.isfile(lowerCAmelCase): logger.error(F'''Provided path ({save_directory}) should be a directory, not a file''') return os.makedirs(lowerCAmelCase , exist_ok=lowerCAmelCase) # saving model weights/files self._save_pretrained(lowerCAmelCase , **lowerCAmelCase) @classmethod def UpperCamelCase_ ( cls : List[Any] , lowerCAmelCase : Union[str, Path] , lowerCAmelCase : Optional[Union[bool, str, None]] = None , lowerCAmelCase : Optional[Union[str, None]] = None , lowerCAmelCase : bool = False , lowerCAmelCase : Optional[str] = None , lowerCAmelCase : Optional[str] = None , lowerCAmelCase : Optional[str] = None , lowerCAmelCase : Optional["ort.SessionOptions"] = None , **lowerCAmelCase : List[str] , ) -> List[str]: """simple docstring""" _snake_case : str = file_name if file_name is not None else ONNX_WEIGHTS_NAME # load model from local directory if os.path.isdir(lowerCAmelCase): _snake_case : Optional[Any] = OnnxRuntimeModel.load_model( os.path.join(lowerCAmelCase , lowerCAmelCase) , provider=lowerCAmelCase , sess_options=lowerCAmelCase) _snake_case : Optional[Any] = Path(lowerCAmelCase) # load model from hub else: # download model _snake_case : List[str] = hf_hub_download( repo_id=lowerCAmelCase , filename=lowerCAmelCase , use_auth_token=lowerCAmelCase , revision=lowerCAmelCase , cache_dir=lowerCAmelCase , force_download=lowerCAmelCase , ) _snake_case : str = Path(lowerCAmelCase).parent _snake_case : List[Any] = Path(lowerCAmelCase).name _snake_case : str = OnnxRuntimeModel.load_model(lowerCAmelCase , provider=lowerCAmelCase , sess_options=lowerCAmelCase) return cls(model=lowerCAmelCase , **lowerCAmelCase) @classmethod def UpperCamelCase_ ( cls : Dict , lowerCAmelCase : Union[str, Path] , lowerCAmelCase : bool = True , lowerCAmelCase : Optional[str] = None , lowerCAmelCase : Optional[str] = None , **lowerCAmelCase : str , ) -> List[Any]: """simple docstring""" _snake_case : Any = None if len(str(lowerCAmelCase).split("""@""")) == 2: _snake_case , _snake_case : Optional[Any] = model_id.split("""@""") return cls._from_pretrained( model_id=lowerCAmelCase , revision=lowerCAmelCase , cache_dir=lowerCAmelCase , force_download=lowerCAmelCase , use_auth_token=lowerCAmelCase , **lowerCAmelCase , )

317

from operator import delitem, getitem, setitem import pytest from data_structures.hashing.hash_map import HashMap def lowercase ( SCREAMING_SNAKE_CASE__ : Optional[int] ) -> int: return getitem, k def lowercase ( SCREAMING_SNAKE_CASE__ : Tuple , SCREAMING_SNAKE_CASE__ : Optional[int] ) -> str: return setitem, k, v def lowercase ( SCREAMING_SNAKE_CASE__ : Tuple ) -> Optional[Any]: return delitem, k def lowercase ( SCREAMING_SNAKE_CASE__ : Dict , SCREAMING_SNAKE_CASE__ : str , *SCREAMING_SNAKE_CASE__ : int ) -> Optional[int]: try: return fun(SCREAMING_SNAKE_CASE__ , *SCREAMING_SNAKE_CASE__ ), None except Exception as e: return None, e a__ = ( _set("""key_a""", """val_a"""), _set("""key_b""", """val_b"""), ) a__ = [ _set("""key_a""", """val_a"""), _set("""key_a""", """val_b"""), ] a__ = [ _set("""key_a""", """val_a"""), _set("""key_b""", """val_b"""), _del("""key_a"""), _del("""key_b"""), _set("""key_a""", """val_a"""), _del("""key_a"""), ] a__ = [ _get("""key_a"""), _del("""key_a"""), _set("""key_a""", """val_a"""), _del("""key_a"""), _del("""key_a"""), _get("""key_a"""), ] a__ = [ *[_set(x, x) for x in range(5)], # guaranteed upsize ] a__ = [ *[_set(x, x) for x in range(5)], # guaranteed upsize *[_del(x) for x in range(5)], _set("""key_a""", """val_b"""), ] @pytest.mark.parametrize( """operations""" , ( pytest.param(_add_items , id="""add items""" ), pytest.param(_overwrite_items , id="""overwrite items""" ), pytest.param(_delete_items , id="""delete items""" ), pytest.param(_access_absent_items , id="""access absent items""" ), pytest.param(_add_with_resize_up , id="""add with resize up""" ), pytest.param(_add_with_resize_down , id="""add with resize down""" ), ) , ) def lowercase ( SCREAMING_SNAKE_CASE__ : str ) -> Tuple: _snake_case : List[Any] = HashMap(initial_block_size=4 ) _snake_case : int = {} for _, (fun, *args) in enumerate(SCREAMING_SNAKE_CASE__ ): _snake_case , _snake_case : Tuple = _run_operation(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , *SCREAMING_SNAKE_CASE__ ) _snake_case , _snake_case : int = _run_operation(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , *SCREAMING_SNAKE_CASE__ ) assert my_res == py_res assert str(SCREAMING_SNAKE_CASE__ ) == str(SCREAMING_SNAKE_CASE__ ) assert set(SCREAMING_SNAKE_CASE__ ) == set(SCREAMING_SNAKE_CASE__ ) assert len(SCREAMING_SNAKE_CASE__ ) == len(SCREAMING_SNAKE_CASE__ ) assert set(my.items() ) == set(py.items() ) def lowercase ( ) -> Optional[int]: def is_public(SCREAMING_SNAKE_CASE__ : str ) -> bool: return not name.startswith("""_""" ) _snake_case : Tuple = {name for name in dir({} ) if is_public(SCREAMING_SNAKE_CASE__ )} _snake_case : Optional[Any] = {name for name in dir(HashMap() ) if is_public(SCREAMING_SNAKE_CASE__ )} assert dict_public_names > hash_public_names

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import unittest from transformers import LiltConfig, is_torch_available from transformers.testing_utils import require_torch, slow, torch_device from ...generation.test_utils import GenerationTesterMixin from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin, ids_tensor from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import ( LiltForQuestionAnswering, LiltForSequenceClassification, LiltForTokenClassification, LiltModel, ) from transformers.models.lilt.modeling_lilt import LILT_PRETRAINED_MODEL_ARCHIVE_LIST class __A : """simple docstring""" def __init__( self , lowerCamelCase__ , lowerCamelCase__=13 , lowerCamelCase__=7 , lowerCamelCase__=True , lowerCamelCase__=True , lowerCamelCase__=True , lowerCamelCase__=True , lowerCamelCase__=99 , lowerCamelCase__=24 , lowerCamelCase__=2 , lowerCamelCase__=6 , lowerCamelCase__=37 , lowerCamelCase__="gelu" , lowerCamelCase__=0.1 , lowerCamelCase__=0.1 , lowerCamelCase__=512 , lowerCamelCase__=16 , lowerCamelCase__=2 , lowerCamelCase__=0.02 , lowerCamelCase__=3 , lowerCamelCase__=None , lowerCamelCase__=1000 , ): """simple docstring""" __UpperCamelCase : int =parent __UpperCamelCase : List[str] =batch_size __UpperCamelCase : List[str] =seq_length __UpperCamelCase : str =is_training __UpperCamelCase : Union[str, Any] =use_input_mask __UpperCamelCase : Dict =use_token_type_ids __UpperCamelCase : int =use_labels __UpperCamelCase : Any =vocab_size __UpperCamelCase : List[Any] =hidden_size __UpperCamelCase : List[str] =num_hidden_layers __UpperCamelCase : Dict =num_attention_heads __UpperCamelCase : Union[str, Any] =intermediate_size __UpperCamelCase : int =hidden_act __UpperCamelCase : List[Any] =hidden_dropout_prob __UpperCamelCase : Dict =attention_probs_dropout_prob __UpperCamelCase : Union[str, Any] =max_position_embeddings __UpperCamelCase : str =type_vocab_size __UpperCamelCase : Dict =type_sequence_label_size __UpperCamelCase : Optional[Any] =initializer_range __UpperCamelCase : Any =num_labels __UpperCamelCase : List[Any] =scope __UpperCamelCase : Dict =range_bbox def __lowercase ( self ): """simple docstring""" __UpperCamelCase : str =ids_tensor([self.batch_size, self.seq_length] , self.vocab_size ) __UpperCamelCase : int =ids_tensor([self.batch_size, self.seq_length, 4] , self.range_bbox ) # Ensure that bbox is legal for i in range(bbox.shape[0] ): for j in range(bbox.shape[1] ): if bbox[i, j, 3] < bbox[i, j, 1]: __UpperCamelCase : List[Any] =bbox[i, j, 3] __UpperCamelCase : Any =bbox[i, j, 1] __UpperCamelCase : Union[str, Any] =t if bbox[i, j, 2] < bbox[i, j, 0]: __UpperCamelCase : str =bbox[i, j, 2] __UpperCamelCase : List[str] =bbox[i, j, 0] __UpperCamelCase : Optional[Any] =t __UpperCamelCase : str =None if self.use_input_mask: __UpperCamelCase : Any =ids_tensor([self.batch_size, self.seq_length] , vocab_size=2 ) __UpperCamelCase : List[str] =None if self.use_token_type_ids: __UpperCamelCase : int =ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size ) __UpperCamelCase : int =None __UpperCamelCase : Dict =None if self.use_labels: __UpperCamelCase : Tuple =ids_tensor([self.batch_size] , self.type_sequence_label_size ) __UpperCamelCase : List[Any] =ids_tensor([self.batch_size, self.seq_length] , self.num_labels ) __UpperCamelCase : Union[str, Any] =self.get_config() return config, input_ids, bbox, token_type_ids, input_mask, sequence_labels, token_labels def __lowercase ( self ): """simple docstring""" return LiltConfig( vocab_size=self.vocab_size , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , max_position_embeddings=self.max_position_embeddings , type_vocab_size=self.type_vocab_size , initializer_range=self.initializer_range , ) def __lowercase ( self , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , ): """simple docstring""" __UpperCamelCase : List[Any] =LiltModel(config=_a ) model.to(_a ) model.eval() __UpperCamelCase : Any =model(_a , bbox=_a , attention_mask=_a , token_type_ids=_a ) __UpperCamelCase : Optional[Any] =model(_a , bbox=_a , token_type_ids=_a ) __UpperCamelCase : List[Any] =model(_a , bbox=_a ) self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) ) self.parent.assertEqual(result.pooler_output.shape , (self.batch_size, self.hidden_size) ) def __lowercase ( self , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , ): """simple docstring""" __UpperCamelCase : str =self.num_labels __UpperCamelCase : str =LiltForTokenClassification(config=_a ) model.to(_a ) model.eval() __UpperCamelCase : Optional[int] =model( _a , bbox=_a , attention_mask=_a , token_type_ids=_a , labels=_a ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.seq_length, self.num_labels) ) def __lowercase ( self , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , ): """simple docstring""" __UpperCamelCase : int =LiltForQuestionAnswering(config=_a ) model.to(_a ) model.eval() __UpperCamelCase : List[Any] =model( _a , bbox=_a , attention_mask=_a , token_type_ids=_a , start_positions=_a , end_positions=_a , ) self.parent.assertEqual(result.start_logits.shape , (self.batch_size, self.seq_length) ) self.parent.assertEqual(result.end_logits.shape , (self.batch_size, self.seq_length) ) def __lowercase ( self ): """simple docstring""" __UpperCamelCase : List[str] =self.prepare_config_and_inputs() ( __UpperCamelCase ) : Union[str, Any] =config_and_inputs __UpperCamelCase : Tuple ={ 'input_ids': input_ids, 'bbox': bbox, 'token_type_ids': token_type_ids, 'attention_mask': input_mask, } return config, inputs_dict @require_torch class __A ( lowercase__ , lowercase__ , lowercase__ , unittest.TestCase ): """simple docstring""" UpperCamelCase__ : Tuple =( ( LiltModel, LiltForSequenceClassification, LiltForTokenClassification, LiltForQuestionAnswering, ) if is_torch_available() else () ) UpperCamelCase__ : Tuple =( { '''feature-extraction''': LiltModel, '''question-answering''': LiltForQuestionAnswering, '''text-classification''': LiltForSequenceClassification, '''token-classification''': LiltForTokenClassification, '''zero-shot''': LiltForSequenceClassification, } if is_torch_available() else {} ) UpperCamelCase__ : Tuple =False UpperCamelCase__ : Dict =False def __lowercase ( self , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ ): """simple docstring""" return True def __lowercase ( self ): """simple docstring""" __UpperCamelCase : Optional[Any] =LiltModelTester(self ) __UpperCamelCase : List[str] =ConfigTester(self , config_class=_a , hidden_size=37 ) def __lowercase ( self ): """simple docstring""" self.config_tester.run_common_tests() def __lowercase ( self ): """simple docstring""" __UpperCamelCase : str =self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(*_a ) def __lowercase ( self ): """simple docstring""" __UpperCamelCase : Optional[int] =self.model_tester.prepare_config_and_inputs() for type in ["absolute", "relative_key", "relative_key_query"]: __UpperCamelCase : Any =type self.model_tester.create_and_check_model(*_a ) def __lowercase ( self ): """simple docstring""" __UpperCamelCase : Optional[int] =self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_token_classification(*_a ) def __lowercase ( self ): """simple docstring""" __UpperCamelCase : Tuple =self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_question_answering(*_a ) @slow def __lowercase ( self ): """simple docstring""" for model_name in LILT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: __UpperCamelCase : Any =LiltModel.from_pretrained(_a ) self.assertIsNotNone(_a ) @require_torch @slow class __A ( unittest.TestCase ): """simple docstring""" def __lowercase ( self ): """simple docstring""" __UpperCamelCase : Optional[Any] =LiltModel.from_pretrained('SCUT-DLVCLab/lilt-roberta-en-base' ).to(_a ) __UpperCamelCase : Optional[int] =torch.tensor([[1, 2]] , device=_a ) __UpperCamelCase : Dict =torch.tensor([[[1, 2, 3, 4], [5, 6, 7, 8]]] , device=_a ) # forward pass with torch.no_grad(): __UpperCamelCase : List[Any] =model(input_ids=_a , bbox=_a ) __UpperCamelCase : Any =torch.Size([1, 2, 768] ) __UpperCamelCase : Any =torch.tensor( [[-0.0_653, 0.0_950, -0.0_061], [-0.0_545, 0.0_926, -0.0_324]] , device=_a , ) self.assertTrue(outputs.last_hidden_state.shape , _a ) self.assertTrue(torch.allclose(outputs.last_hidden_state[0, :, :3] , _a , atol=1E-3 ) )

355

from ...configuration_utils import PretrainedConfig from ...utils import logging A_ :Any = logging.get_logger(__name__) A_ :List[Any] = { '''edbeeching/decision-transformer-gym-hopper-medium''': ( '''https://huggingface.co/edbeeching/decision-transformer-gym-hopper-medium/resolve/main/config.json''' ), # See all DecisionTransformer models at https://huggingface.co/models?filter=decision_transformer } class __A ( a ): """simple docstring""" UpperCamelCase__ : Optional[Any] ="""decision_transformer""" UpperCamelCase__ : str =["""past_key_values"""] UpperCamelCase__ : Union[str, Any] ={ """max_position_embeddings""": """n_positions""", """num_attention_heads""": """n_head""", """num_hidden_layers""": """n_layer""", } def __init__( self , lowerCamelCase__=17 , lowerCamelCase__=4 , lowerCamelCase__=128 , lowerCamelCase__=4096 , lowerCamelCase__=True , lowerCamelCase__=1 , lowerCamelCase__=1024 , lowerCamelCase__=3 , lowerCamelCase__=1 , lowerCamelCase__=None , lowerCamelCase__="relu" , lowerCamelCase__=0.1 , lowerCamelCase__=0.1 , lowerCamelCase__=0.1 , lowerCamelCase__=1E-5 , lowerCamelCase__=0.02 , lowerCamelCase__=True , lowerCamelCase__=True , lowerCamelCase__=50256 , lowerCamelCase__=50256 , lowerCamelCase__=False , lowerCamelCase__=False , **lowerCamelCase__ , ): """simple docstring""" __UpperCamelCase : str =state_dim __UpperCamelCase : List[Any] =act_dim __UpperCamelCase : Any =hidden_size __UpperCamelCase : Union[str, Any] =max_ep_len __UpperCamelCase : Optional[int] =action_tanh __UpperCamelCase : Tuple =vocab_size __UpperCamelCase : Any =n_positions __UpperCamelCase : Optional[Any] =n_layer __UpperCamelCase : List[str] =n_head __UpperCamelCase : Union[str, Any] =n_inner __UpperCamelCase : List[Any] =activation_function __UpperCamelCase : Tuple =resid_pdrop __UpperCamelCase : List[str] =embd_pdrop __UpperCamelCase : Tuple =attn_pdrop __UpperCamelCase : Dict =layer_norm_epsilon __UpperCamelCase : Any =initializer_range __UpperCamelCase : Tuple =scale_attn_weights __UpperCamelCase : List[Any] =use_cache __UpperCamelCase : List[str] =scale_attn_by_inverse_layer_idx __UpperCamelCase : Any =reorder_and_upcast_attn __UpperCamelCase : Tuple =bos_token_id __UpperCamelCase : Optional[int] =eos_token_id super().__init__(bos_token_id=lowerCamelCase__ , eos_token_id=lowerCamelCase__ , **lowerCamelCase__ )

245

0

'''simple docstring''' from __future__ import annotations import inspect import unittest import numpy as np from transformers import DeiTConfig from transformers.testing_utils import require_tf, require_vision, slow from transformers.utils import cached_property, is_tf_available, is_vision_available from ...test_configuration_common import ConfigTester from ...test_modeling_tf_common import TFModelTesterMixin, floats_tensor, ids_tensor from ...test_pipeline_mixin import PipelineTesterMixin if is_tf_available(): import tensorflow as tf from transformers import ( TFDeiTForImageClassification, TFDeiTForImageClassificationWithTeacher, TFDeiTForMaskedImageModeling, TFDeiTModel, ) from transformers.models.deit.modeling_tf_deit import TF_DEIT_PRETRAINED_MODEL_ARCHIVE_LIST if is_vision_available(): from PIL import Image from transformers import DeiTImageProcessor class __A : def __init__(self : Any , __a : str , __a : List[str]=13 , __a : Optional[int]=30 , __a : Tuple=2 , __a : str=3 , __a : Tuple=True , __a : List[Any]=True , __a : Optional[int]=32 , __a : Optional[int]=2 , __a : int=4 , __a : Optional[Any]=37 , __a : Optional[Any]="gelu" , __a : Optional[Any]=0.1 , __a : int=0.1 , __a : int=10 , __a : Optional[int]=0.02 , __a : Dict=3 , __a : Optional[int]=None , __a : List[str]=2 , ): UpperCAmelCase_ = parent UpperCAmelCase_ = batch_size UpperCAmelCase_ = image_size UpperCAmelCase_ = patch_size UpperCAmelCase_ = num_channels UpperCAmelCase_ = is_training UpperCAmelCase_ = use_labels UpperCAmelCase_ = hidden_size UpperCAmelCase_ = num_hidden_layers UpperCAmelCase_ = num_attention_heads UpperCAmelCase_ = intermediate_size UpperCAmelCase_ = hidden_act UpperCAmelCase_ = hidden_dropout_prob UpperCAmelCase_ = attention_probs_dropout_prob UpperCAmelCase_ = type_sequence_label_size UpperCAmelCase_ = initializer_range UpperCAmelCase_ = scope UpperCAmelCase_ = encoder_stride # in DeiT, the seq length equals the number of patches + 2 (we add 2 for the [CLS] and distilation tokens) UpperCAmelCase_ = (image_size // patch_size) ** 2 UpperCAmelCase_ = num_patches + 2 def _lowercase (self : Optional[Any] ): UpperCAmelCase_ = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] ) UpperCAmelCase_ = None if self.use_labels: UpperCAmelCase_ = ids_tensor([self.batch_size] , self.type_sequence_label_size ) UpperCAmelCase_ = self.get_config() return config, pixel_values, labels def _lowercase (self : List[str] ): return DeiTConfig( image_size=self.image_size , patch_size=self.patch_size , num_channels=self.num_channels , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , is_decoder=__a , initializer_range=self.initializer_range , encoder_stride=self.encoder_stride , ) def _lowercase (self : Union[str, Any] , __a : str , __a : Any , __a : Dict ): UpperCAmelCase_ = TFDeiTModel(config=__a ) UpperCAmelCase_ = model(__a ) self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) ) def _lowercase (self : str , __a : Optional[int] , __a : List[str] , __a : Tuple ): UpperCAmelCase_ = TFDeiTForMaskedImageModeling(config=__a ) UpperCAmelCase_ = model(__a ) self.parent.assertEqual( result.reconstruction.shape , (self.batch_size, self.num_channels, self.image_size, self.image_size) ) # test greyscale images UpperCAmelCase_ = 1 UpperCAmelCase_ = TFDeiTForMaskedImageModeling(__a ) UpperCAmelCase_ = floats_tensor([self.batch_size, 1, self.image_size, self.image_size] ) UpperCAmelCase_ = model(__a ) self.parent.assertEqual(result.reconstruction.shape , (self.batch_size, 1, self.image_size, self.image_size) ) def _lowercase (self : List[Any] , __a : List[str] , __a : int , __a : int ): UpperCAmelCase_ = self.type_sequence_label_size UpperCAmelCase_ = TFDeiTForImageClassification(__a ) UpperCAmelCase_ = model(__a , labels=__a ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size) ) # test greyscale images UpperCAmelCase_ = 1 UpperCAmelCase_ = TFDeiTForImageClassification(__a ) UpperCAmelCase_ = floats_tensor([self.batch_size, 1, self.image_size, self.image_size] ) UpperCAmelCase_ = model(__a , labels=__a ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size) ) def _lowercase (self : Dict ): UpperCAmelCase_ = self.prepare_config_and_inputs() UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = config_and_inputs UpperCAmelCase_ = {"pixel_values": pixel_values} return config, inputs_dict @require_tf class __A ( UpperCamelCase__ , UpperCamelCase__ , unittest.TestCase ): a__ : Tuple = ( ( TFDeiTModel, TFDeiTForImageClassification, TFDeiTForImageClassificationWithTeacher, TFDeiTForMaskedImageModeling, ) if is_tf_available() else () ) a__ : Union[str, Any] = ( { """feature-extraction""": TFDeiTModel, """image-classification""": (TFDeiTForImageClassification, TFDeiTForImageClassificationWithTeacher), } if is_tf_available() else {} ) a__ : Tuple = False a__ : List[Any] = False a__ : Any = False a__ : Dict = False def _lowercase (self : List[Any] ): UpperCAmelCase_ = TFDeiTModelTester(self ) UpperCAmelCase_ = ConfigTester(self , config_class=__a , has_text_modality=__a , hidden_size=37 ) def _lowercase (self : Union[str, Any] ): self.config_tester.run_common_tests() @unittest.skip(reason="DeiT does not use inputs_embeds" ) def _lowercase (self : List[str] ): pass def _lowercase (self : List[Any] ): UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: UpperCAmelCase_ = model_class(__a ) self.assertIsInstance(model.get_input_embeddings() , (tf.keras.layers.Layer) ) UpperCAmelCase_ = model.get_output_embeddings() self.assertTrue(x is None or isinstance(__a , tf.keras.layers.Dense ) ) def _lowercase (self : Optional[Any] ): UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: UpperCAmelCase_ = model_class(__a ) UpperCAmelCase_ = inspect.signature(model.call ) # signature.parameters is an OrderedDict => so arg_names order is deterministic UpperCAmelCase_ = [*signature.parameters.keys()] UpperCAmelCase_ = ["pixel_values"] self.assertListEqual(arg_names[:1] , __a ) def _lowercase (self : Dict ): UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(*__a ) def _lowercase (self : Any ): UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_masked_image_modeling(*__a ) def _lowercase (self : Any ): UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_image_classification(*__a ) def _lowercase (self : Optional[Any] , __a : Tuple , __a : Tuple , __a : Union[str, Any]=False ): UpperCAmelCase_ = super()._prepare_for_class(__a , __a , return_labels=__a ) if return_labels: if "labels" in inputs_dict and "labels" not in inspect.signature(model_class.call ).parameters: del inputs_dict["labels"] return inputs_dict @slow def _lowercase (self : int ): for model_name in TF_DEIT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: UpperCAmelCase_ = TFDeiTModel.from_pretrained(__a ) self.assertIsNotNone(__a ) def lowerCAmelCase_ ( ) -> Dict: '''simple docstring''' UpperCAmelCase_ = Image.open("./tests/fixtures/tests_samples/COCO/000000039769.png" ) return image @require_tf @require_vision class __A ( unittest.TestCase ): @cached_property def _lowercase (self : Union[str, Any] ): return ( DeiTImageProcessor.from_pretrained("facebook/deit-base-distilled-patch16-224" ) if is_vision_available() else None ) @slow def _lowercase (self : Optional[Any] ): UpperCAmelCase_ = TFDeiTForImageClassificationWithTeacher.from_pretrained("facebook/deit-base-distilled-patch16-224" ) UpperCAmelCase_ = self.default_image_processor UpperCAmelCase_ = prepare_img() UpperCAmelCase_ = image_processor(images=__a , return_tensors="tf" ) # forward pass UpperCAmelCase_ = model(**__a ) # verify the logits UpperCAmelCase_ = tf.TensorShape((1, 1000) ) self.assertEqual(outputs.logits.shape , __a ) UpperCAmelCase_ = tf.constant([-1.02_66, 0.19_12, -1.28_61] ) self.assertTrue(np.allclose(outputs.logits[0, :3] , __a , atol=1E-4 ) )

1

'''simple docstring''' import os import shutil import tempfile from unittest import TestCase from unittest.mock import patch import numpy as np from datasets import Dataset from transformers.models.realm.configuration_realm import RealmConfig from transformers.models.realm.retrieval_realm import _REALM_BLOCK_RECORDS_FILENAME, RealmRetriever from transformers.models.realm.tokenization_realm import VOCAB_FILES_NAMES, RealmTokenizer class __A ( UpperCamelCase__ ): def _lowercase (self : Optional[Any] ): UpperCAmelCase_ = tempfile.mkdtemp() UpperCAmelCase_ = 5 # Realm tok UpperCAmelCase_ = [ "[UNK]", "[CLS]", "[SEP]", "[PAD]", "[MASK]", "test", "question", "this", "is", "the", "first", "second", "third", "fourth", "fifth", "record", "want", "##want", "##ed", "wa", "un", "runn", "##ing", ",", "low", "lowest", ] UpperCAmelCase_ = os.path.join(self.tmpdirname , "realm_tokenizer" ) os.makedirs(__a , exist_ok=__a ) UpperCAmelCase_ = os.path.join(__a , VOCAB_FILES_NAMES["vocab_file"] ) with open(self.vocab_file , "w" , encoding="utf-8" ) as vocab_writer: vocab_writer.write("".join([x + "\n" for x in vocab_tokens] ) ) UpperCAmelCase_ = os.path.join(self.tmpdirname , "realm_block_records" ) os.makedirs(__a , exist_ok=__a ) def _lowercase (self : Optional[Any] ): return RealmTokenizer.from_pretrained(os.path.join(self.tmpdirname , "realm_tokenizer" ) ) def _lowercase (self : Any ): shutil.rmtree(self.tmpdirname ) def _lowercase (self : List[Any] ): UpperCAmelCase_ = RealmConfig(num_block_records=self.num_block_records ) return config def _lowercase (self : List[str] ): UpperCAmelCase_ = Dataset.from_dict( { "id": ["0", "1"], "question": ["foo", "bar"], "answers": [["Foo", "Bar"], ["Bar"]], } ) return dataset def _lowercase (self : Any ): UpperCAmelCase_ = np.array( [ B"This is the first record", B"This is the second record", B"This is the third record", B"This is the fourth record", B"This is the fifth record", B"This is a longer longer longer record", ] , dtype=__a , ) return block_records def _lowercase (self : Union[str, Any] ): UpperCAmelCase_ = RealmRetriever( block_records=self.get_dummy_block_records() , tokenizer=self.get_tokenizer() , ) return retriever def _lowercase (self : int ): UpperCAmelCase_ = self.get_config() UpperCAmelCase_ = self.get_dummy_retriever() UpperCAmelCase_ = retriever.tokenizer UpperCAmelCase_ = np.array([0, 3] , dtype="long" ) UpperCAmelCase_ = tokenizer(["Test question"] ).input_ids UpperCAmelCase_ = tokenizer( ["the fourth"] , add_special_tokens=__a , return_token_type_ids=__a , return_attention_mask=__a , ).input_ids UpperCAmelCase_ = config.reader_seq_len UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = retriever( __a , __a , answer_ids=__a , max_length=__a , return_tensors="np" ) self.assertEqual(len(__a ) , 2 ) self.assertEqual(len(__a ) , 2 ) self.assertEqual(len(__a ) , 2 ) self.assertEqual(concat_inputs.input_ids.shape , (2, 10) ) self.assertEqual(concat_inputs.attention_mask.shape , (2, 10) ) self.assertEqual(concat_inputs.token_type_ids.shape , (2, 10) ) self.assertEqual(concat_inputs.special_tokens_mask.shape , (2, 10) ) self.assertEqual( tokenizer.convert_ids_to_tokens(concat_inputs.input_ids[0] ) , ["[CLS]", "test", "question", "[SEP]", "this", "is", "the", "first", "record", "[SEP]"] , ) self.assertEqual( tokenizer.convert_ids_to_tokens(concat_inputs.input_ids[1] ) , ["[CLS]", "test", "question", "[SEP]", "this", "is", "the", "fourth", "record", "[SEP]"] , ) def _lowercase (self : List[Any] ): UpperCAmelCase_ = self.get_config() UpperCAmelCase_ = self.get_dummy_retriever() UpperCAmelCase_ = retriever.tokenizer UpperCAmelCase_ = np.array([0, 3, 5] , dtype="long" ) UpperCAmelCase_ = tokenizer(["Test question"] ).input_ids UpperCAmelCase_ = tokenizer( ["the fourth", "longer longer"] , add_special_tokens=__a , return_token_type_ids=__a , return_attention_mask=__a , ).input_ids UpperCAmelCase_ = config.reader_seq_len UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = retriever( __a , __a , answer_ids=__a , max_length=__a , return_tensors="np" ) self.assertEqual([False, True, True] , __a ) self.assertEqual([[-1, -1, -1], [6, -1, -1], [6, 7, 8]] , __a ) self.assertEqual([[-1, -1, -1], [7, -1, -1], [7, 8, 9]] , __a ) def _lowercase (self : Optional[Any] ): UpperCAmelCase_ = self.get_dummy_retriever() retriever.save_pretrained(os.path.join(self.tmpdirname , "realm_block_records" ) ) # Test local path UpperCAmelCase_ = retriever.from_pretrained(os.path.join(self.tmpdirname , "realm_block_records" ) ) self.assertEqual(retriever.block_records[0] , B"This is the first record" ) # Test mocked remote path with patch("transformers.models.realm.retrieval_realm.hf_hub_download" ) as mock_hf_hub_download: UpperCAmelCase_ = os.path.join( os.path.join(self.tmpdirname , "realm_block_records" ) , _REALM_BLOCK_RECORDS_FILENAME ) UpperCAmelCase_ = RealmRetriever.from_pretrained("google/realm-cc-news-pretrained-openqa" ) self.assertEqual(retriever.block_records[0] , B"This is the first record" )

1

"""simple docstring""" import inspect import unittest from transformers import YolosConfig from transformers.testing_utils import require_torch, require_vision, slow, torch_device from transformers.utils import cached_property, is_torch_available, is_vision_available from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin, floats_tensor from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from torch import nn from transformers import YolosForObjectDetection, YolosModel from transformers.models.yolos.modeling_yolos import YOLOS_PRETRAINED_MODEL_ARCHIVE_LIST if is_vision_available(): from PIL import Image from transformers import AutoImageProcessor class lowerCamelCase__ : """simple docstring""" def __init__( self : Optional[int] , UpperCamelCase : List[str] , UpperCamelCase : Dict=13 , UpperCamelCase : Optional[int]=[30, 30] , UpperCamelCase : Optional[int]=2 , UpperCamelCase : Dict=3 , UpperCamelCase : int=True , UpperCamelCase : List[str]=True , UpperCamelCase : Union[str, Any]=32 , UpperCamelCase : str=5 , UpperCamelCase : List[str]=4 , UpperCamelCase : Any=37 , UpperCamelCase : List[Any]="gelu" , UpperCamelCase : Tuple=0.1 , UpperCamelCase : Any=0.1 , UpperCamelCase : int=10 , UpperCamelCase : Union[str, Any]=0.02 , UpperCamelCase : Dict=3 , UpperCamelCase : List[Any]=None , UpperCamelCase : str=8 , UpperCamelCase : List[str]=10 , ): '''simple docstring''' __UpperCAmelCase : List[str] = parent __UpperCAmelCase : Union[str, Any] = batch_size __UpperCAmelCase : Optional[int] = image_size __UpperCAmelCase : List[str] = patch_size __UpperCAmelCase : str = num_channels __UpperCAmelCase : Optional[int] = is_training __UpperCAmelCase : str = use_labels __UpperCAmelCase : Union[str, Any] = hidden_size __UpperCAmelCase : Optional[int] = num_hidden_layers __UpperCAmelCase : Any = num_attention_heads __UpperCAmelCase : int = intermediate_size __UpperCAmelCase : str = hidden_act __UpperCAmelCase : Optional[Any] = hidden_dropout_prob __UpperCAmelCase : int = attention_probs_dropout_prob __UpperCAmelCase : str = type_sequence_label_size __UpperCAmelCase : Any = initializer_range __UpperCAmelCase : List[str] = num_labels __UpperCAmelCase : List[str] = scope __UpperCAmelCase : int = n_targets __UpperCAmelCase : List[Any] = num_detection_tokens # we set the expected sequence length (which is used in several tests) # expected sequence length = num_patches + 1 (we add 1 for the [CLS] token) + num_detection_tokens __UpperCAmelCase : Optional[Any] = (image_size[1] // patch_size) * (image_size[0] // patch_size) __UpperCAmelCase : Union[str, Any] = num_patches + 1 + self.num_detection_tokens def lowerCamelCase__ ( self : Dict ): '''simple docstring''' __UpperCAmelCase : int = floats_tensor([self.batch_size, self.num_channels, self.image_size[0], self.image_size[1]] ) __UpperCAmelCase : Dict = None if self.use_labels: # labels is a list of Dict (each Dict being the labels for a given example in the batch) __UpperCAmelCase : int = [] for i in range(self.batch_size ): __UpperCAmelCase : List[Any] = {} __UpperCAmelCase : str = torch.randint( high=self.num_labels , size=(self.n_targets,) , device=_SCREAMING_SNAKE_CASE ) __UpperCAmelCase : Dict = torch.rand(self.n_targets , 4 , device=_SCREAMING_SNAKE_CASE ) labels.append(_SCREAMING_SNAKE_CASE ) __UpperCAmelCase : Optional[Any] = self.get_config() return config, pixel_values, labels def lowerCamelCase__ ( self : int ): '''simple docstring''' return YolosConfig( image_size=self.image_size , patch_size=self.patch_size , num_channels=self.num_channels , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , is_decoder=_SCREAMING_SNAKE_CASE , initializer_range=self.initializer_range , num_detection_tokens=self.num_detection_tokens , num_labels=self.num_labels , ) def lowerCamelCase__ ( self : int , UpperCamelCase : Any , UpperCamelCase : Optional[int] , UpperCamelCase : Tuple ): '''simple docstring''' __UpperCAmelCase : Dict = YolosModel(config=_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() __UpperCAmelCase : Dict = model(_SCREAMING_SNAKE_CASE ) self.parent.assertEqual( result.last_hidden_state.shape , (self.batch_size, self.expected_seq_len, self.hidden_size) ) def lowerCamelCase__ ( self : Union[str, Any] , UpperCamelCase : Optional[Any] , UpperCamelCase : Optional[Any] , UpperCamelCase : Dict ): '''simple docstring''' __UpperCAmelCase : Union[str, Any] = YolosForObjectDetection(_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() __UpperCAmelCase : int = model(pixel_values=_SCREAMING_SNAKE_CASE ) __UpperCAmelCase : List[Any] = model(_SCREAMING_SNAKE_CASE ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_detection_tokens, self.num_labels + 1) ) self.parent.assertEqual(result.pred_boxes.shape , (self.batch_size, self.num_detection_tokens, 4) ) __UpperCAmelCase : Tuple = model(pixel_values=_SCREAMING_SNAKE_CASE , labels=_SCREAMING_SNAKE_CASE ) self.parent.assertEqual(result.loss.shape , () ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_detection_tokens, self.num_labels + 1) ) self.parent.assertEqual(result.pred_boxes.shape , (self.batch_size, self.num_detection_tokens, 4) ) def lowerCamelCase__ ( self : Any ): '''simple docstring''' __UpperCAmelCase : List[str] = self.prepare_config_and_inputs() __UpperCAmelCase : Optional[Any] = config_and_inputs __UpperCAmelCase : Optional[Any] = {'''pixel_values''': pixel_values} return config, inputs_dict @require_torch class lowerCamelCase__ ( A , A , unittest.TestCase ): """simple docstring""" __a = (YolosModel, YolosForObjectDetection) if is_torch_available() else () __a = ( {"""feature-extraction""": YolosModel, """object-detection""": YolosForObjectDetection} if is_torch_available() else {} ) __a = False __a = False __a = False __a = False def lowerCamelCase__ ( self : List[Any] , UpperCamelCase : Dict , UpperCamelCase : Optional[Any] , UpperCamelCase : Optional[Any]=False ): '''simple docstring''' __UpperCAmelCase : str = super()._prepare_for_class(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , return_labels=_SCREAMING_SNAKE_CASE ) if return_labels: if model_class.__name__ == "YolosForObjectDetection": __UpperCAmelCase : List[Any] = [] for i in range(self.model_tester.batch_size ): __UpperCAmelCase : Union[str, Any] = {} __UpperCAmelCase : str = torch.ones( size=(self.model_tester.n_targets,) , device=_SCREAMING_SNAKE_CASE , dtype=torch.long ) __UpperCAmelCase : List[str] = torch.ones( self.model_tester.n_targets , 4 , device=_SCREAMING_SNAKE_CASE , dtype=torch.float ) labels.append(_SCREAMING_SNAKE_CASE ) __UpperCAmelCase : Tuple = labels return inputs_dict def lowerCamelCase__ ( self : str ): '''simple docstring''' __UpperCAmelCase : Optional[int] = YolosModelTester(self ) __UpperCAmelCase : Optional[int] = ConfigTester(self , config_class=_SCREAMING_SNAKE_CASE , has_text_modality=_SCREAMING_SNAKE_CASE , hidden_size=37 ) def lowerCamelCase__ ( self : Union[str, Any] ): '''simple docstring''' self.config_tester.run_common_tests() def lowerCamelCase__ ( self : str ): '''simple docstring''' pass def lowerCamelCase__ ( self : str ): '''simple docstring''' __UpperCAmelCase : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: __UpperCAmelCase : List[Any] = model_class(_SCREAMING_SNAKE_CASE ) self.assertIsInstance(model.get_input_embeddings() , (nn.Module) ) __UpperCAmelCase : List[Any] = model.get_output_embeddings() self.assertTrue(x is None or isinstance(_SCREAMING_SNAKE_CASE , nn.Linear ) ) def lowerCamelCase__ ( self : str ): '''simple docstring''' __UpperCAmelCase : List[Any] = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: __UpperCAmelCase : Dict = model_class(_SCREAMING_SNAKE_CASE ) __UpperCAmelCase : Dict = inspect.signature(model.forward ) # signature.parameters is an OrderedDict => so arg_names order is deterministic __UpperCAmelCase : Any = [*signature.parameters.keys()] __UpperCAmelCase : List[Any] = ['''pixel_values'''] self.assertListEqual(arg_names[:1] , _SCREAMING_SNAKE_CASE ) def lowerCamelCase__ ( self : Union[str, Any] ): '''simple docstring''' __UpperCAmelCase : Union[str, Any] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(*_SCREAMING_SNAKE_CASE ) def lowerCamelCase__ ( self : int ): '''simple docstring''' __UpperCAmelCase : Optional[int] = self.model_tester.prepare_config_and_inputs_for_common() __UpperCAmelCase : Any = True # in YOLOS, the seq_len is different __UpperCAmelCase : str = self.model_tester.expected_seq_len for model_class in self.all_model_classes: __UpperCAmelCase : Any = True __UpperCAmelCase : List[Any] = False __UpperCAmelCase : Any = True __UpperCAmelCase : Optional[int] = model_class(_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() with torch.no_grad(): __UpperCAmelCase : Dict = model(**self._prepare_for_class(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) ) __UpperCAmelCase : Dict = outputs.attentions self.assertEqual(len(_SCREAMING_SNAKE_CASE ) , self.model_tester.num_hidden_layers ) # check that output_attentions also work using config del inputs_dict["output_attentions"] __UpperCAmelCase : Any = True __UpperCAmelCase : List[str] = model_class(_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() with torch.no_grad(): __UpperCAmelCase : Any = model(**self._prepare_for_class(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) ) __UpperCAmelCase : str = outputs.attentions self.assertEqual(len(_SCREAMING_SNAKE_CASE ) , self.model_tester.num_hidden_layers ) self.assertListEqual( list(attentions[0].shape[-3:] ) , [self.model_tester.num_attention_heads, seq_len, seq_len] , ) __UpperCAmelCase : int = len(_SCREAMING_SNAKE_CASE ) # Check attention is always last and order is fine __UpperCAmelCase : Tuple = True __UpperCAmelCase : int = True __UpperCAmelCase : Union[str, Any] = model_class(_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() with torch.no_grad(): __UpperCAmelCase : Optional[int] = model(**self._prepare_for_class(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) ) __UpperCAmelCase : List[Any] = 1 self.assertEqual(out_len + added_hidden_states , len(_SCREAMING_SNAKE_CASE ) ) __UpperCAmelCase : str = outputs.attentions self.assertEqual(len(_SCREAMING_SNAKE_CASE ) , self.model_tester.num_hidden_layers ) self.assertListEqual( list(self_attentions[0].shape[-3:] ) , [self.model_tester.num_attention_heads, seq_len, seq_len] , ) def lowerCamelCase__ ( self : Optional[int] ): '''simple docstring''' def check_hidden_states_output(UpperCamelCase : Union[str, Any] , UpperCamelCase : int , UpperCamelCase : List[Any] ): __UpperCAmelCase : Dict = model_class(_SCREAMING_SNAKE_CASE ) model.to(_SCREAMING_SNAKE_CASE ) model.eval() with torch.no_grad(): __UpperCAmelCase : Optional[Any] = model(**self._prepare_for_class(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) ) __UpperCAmelCase : str = outputs.hidden_states __UpperCAmelCase : Union[str, Any] = getattr( self.model_tester , """expected_num_hidden_layers""" , self.model_tester.num_hidden_layers + 1 ) self.assertEqual(len(_SCREAMING_SNAKE_CASE ) , _SCREAMING_SNAKE_CASE ) # YOLOS has a different seq_length __UpperCAmelCase : Tuple = self.model_tester.expected_seq_len self.assertListEqual( list(hidden_states[0].shape[-2:] ) , [seq_length, self.model_tester.hidden_size] , ) __UpperCAmelCase : Tuple = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: __UpperCAmelCase : List[Any] = True check_hidden_states_output(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) # check that output_hidden_states also work using config del inputs_dict["output_hidden_states"] __UpperCAmelCase : Union[str, Any] = True check_hidden_states_output(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) def lowerCamelCase__ ( self : List[Any] ): '''simple docstring''' __UpperCAmelCase : int = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_object_detection(*_SCREAMING_SNAKE_CASE ) @slow def lowerCamelCase__ ( self : Union[str, Any] ): '''simple docstring''' for model_name in YOLOS_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: __UpperCAmelCase : Dict = YolosModel.from_pretrained(_SCREAMING_SNAKE_CASE ) self.assertIsNotNone(_SCREAMING_SNAKE_CASE ) def lowerCamelCase ( ) -> Optional[Any]: '''simple docstring''' __UpperCAmelCase : Union[str, Any] = Image.open("""./tests/fixtures/tests_samples/COCO/000000039769.png""" ) return image @require_torch @require_vision class lowerCamelCase__ ( unittest.TestCase ): """simple docstring""" @cached_property def lowerCamelCase__ ( self : Optional[Any] ): '''simple docstring''' return AutoImageProcessor.from_pretrained("""hustvl/yolos-small""" ) if is_vision_available() else None @slow def lowerCamelCase__ ( self : str ): '''simple docstring''' __UpperCAmelCase : Dict = YolosForObjectDetection.from_pretrained("""hustvl/yolos-small""" ).to(_SCREAMING_SNAKE_CASE ) __UpperCAmelCase : List[Any] = self.default_image_processor __UpperCAmelCase : Tuple = prepare_img() __UpperCAmelCase : str = image_processor(images=_SCREAMING_SNAKE_CASE , return_tensors="""pt""" ).to(_SCREAMING_SNAKE_CASE ) # forward pass with torch.no_grad(): __UpperCAmelCase : Optional[int] = model(inputs.pixel_values ) # verify outputs __UpperCAmelCase : int = torch.Size((1, 100, 92) ) self.assertEqual(outputs.logits.shape , _SCREAMING_SNAKE_CASE ) __UpperCAmelCase : List[Any] = torch.tensor( [[-24.0_248, -10.3_024, -14.8_290], [-42.0_392, -16.8_200, -27.4_334], [-27.2_743, -11.8_154, -18.7_148]] , device=_SCREAMING_SNAKE_CASE , ) __UpperCAmelCase : Optional[int] = torch.tensor( [[0.2559, 0.5455, 0.4706], [0.2989, 0.7279, 0.1875], [0.7732, 0.4017, 0.4462]] , device=_SCREAMING_SNAKE_CASE ) self.assertTrue(torch.allclose(outputs.logits[0, :3, :3] , _SCREAMING_SNAKE_CASE , atol=1e-4 ) ) self.assertTrue(torch.allclose(outputs.pred_boxes[0, :3, :3] , _SCREAMING_SNAKE_CASE , atol=1e-4 ) ) # verify postprocessing __UpperCAmelCase : List[str] = image_processor.post_process_object_detection( _SCREAMING_SNAKE_CASE , threshold=0.3 , target_sizes=[image.size[::-1]] )[0] __UpperCAmelCase : List[Any] = torch.tensor([0.9994, 0.9790, 0.9964, 0.9972, 0.9861] ).to(_SCREAMING_SNAKE_CASE ) __UpperCAmelCase : List[Any] = [75, 75, 17, 63, 17] __UpperCAmelCase : int = torch.tensor([335.0_609, 79.3_848, 375.4_216, 187.2_495] ).to(_SCREAMING_SNAKE_CASE ) self.assertEqual(len(results["""scores"""] ) , 5 ) self.assertTrue(torch.allclose(results["""scores"""] , _SCREAMING_SNAKE_CASE , atol=1e-4 ) ) self.assertSequenceEqual(results["""labels"""].tolist() , _SCREAMING_SNAKE_CASE ) self.assertTrue(torch.allclose(results["""boxes"""][0, :] , _SCREAMING_SNAKE_CASE ) )

371

"""simple docstring""" def lowerCamelCase ( _UpperCamelCase : str , _UpperCamelCase : Optional[int] ) -> Any: '''simple docstring''' __UpperCAmelCase : Optional[Any] = 0 while b > 0: if b & 1: res += a a += a b >>= 1 return res def lowerCamelCase ( _UpperCamelCase : str , _UpperCamelCase : Optional[int] , _UpperCamelCase : List[Any] ) -> str: '''simple docstring''' __UpperCAmelCase : Dict = 0 while b > 0: if b & 1: __UpperCAmelCase : int = ((res % c) + (a % c)) % c a += a b >>= 1 return res

320

0

'''simple docstring''' import numpy as np from cva import destroyAllWindows, imread, imshow, waitKey class A__ : def __init__( self : Tuple , _a : Any , _a : int , _a : int ) -> List[str]: '''simple docstring''' if dst_width < 0 or dst_height < 0: raise ValueError('Destination width/height should be > 0' ) _SCREAMING_SNAKE_CASE =img _SCREAMING_SNAKE_CASE =img.shape[1] _SCREAMING_SNAKE_CASE =img.shape[0] _SCREAMING_SNAKE_CASE =dst_width _SCREAMING_SNAKE_CASE =dst_height _SCREAMING_SNAKE_CASE =self.src_w / self.dst_w _SCREAMING_SNAKE_CASE =self.src_h / self.dst_h _SCREAMING_SNAKE_CASE =_SCREAMING_SNAKE_CASE =( np.ones((self.dst_h, self.dst_w, 3) , np.uinta ) * 255 ) def A ( self : Any ) -> Tuple: '''simple docstring''' for i in range(self.dst_h ): for j in range(self.dst_w ): _SCREAMING_SNAKE_CASE =self.img[self.get_y(_a )][self.get_x(_a )] def A ( self : int , _a : int ) -> int: '''simple docstring''' return int(self.ratio_x * x ) def A ( self : Dict , _a : int ) -> int: '''simple docstring''' return int(self.ratio_y * y ) if __name__ == "__main__": lowerCamelCase , lowerCamelCase : Optional[Any] = 8_0_0, 6_0_0 lowerCamelCase : str = imread("image_data/lena.jpg", 1) lowerCamelCase : Optional[int] = NearestNeighbour(im, dst_w, dst_h) n.process() imshow( f'''Image resized from: {im.shape[1]}x{im.shape[0]} to {dst_w}x{dst_h}''', n.output ) waitKey(0) destroyAllWindows()

47

'''simple docstring''' import unittest import numpy as np import requests from transformers.testing_utils import require_torch, require_vision from transformers.utils import is_torch_available, is_vision_available from ...test_image_processing_common import ImageProcessingSavingTestMixin, prepare_image_inputs if is_torch_available(): import torch from transformers.pytorch_utils import is_torch_greater_or_equal_than_1_11 else: lowerCamelCase : int = False if is_vision_available(): from PIL import Image from transformers import PixaStructImageProcessor class A__ ( unittest.TestCase ): def __init__( self : List[str] , _a : List[Any] , _a : List[str]=7 , _a : List[str]=3 , _a : Tuple=18 , _a : Tuple=30 , _a : str=400 , _a : Tuple=None , _a : Union[str, Any]=True , _a : List[str]=True , _a : Optional[int]=None , ) -> List[str]: '''simple docstring''' _SCREAMING_SNAKE_CASE =size if size is not None else {'height': 20, 'width': 20} _SCREAMING_SNAKE_CASE =parent _SCREAMING_SNAKE_CASE =batch_size _SCREAMING_SNAKE_CASE =num_channels _SCREAMING_SNAKE_CASE =image_size _SCREAMING_SNAKE_CASE =min_resolution _SCREAMING_SNAKE_CASE =max_resolution _SCREAMING_SNAKE_CASE =size _SCREAMING_SNAKE_CASE =do_normalize _SCREAMING_SNAKE_CASE =do_convert_rgb _SCREAMING_SNAKE_CASE =[512, 1024, 2048, 4096] _SCREAMING_SNAKE_CASE =patch_size if patch_size is not None else {'height': 16, 'width': 16} def A ( self : Any ) -> List[str]: '''simple docstring''' return {"do_normalize": self.do_normalize, "do_convert_rgb": self.do_convert_rgb} def A ( self : int ) -> str: '''simple docstring''' _SCREAMING_SNAKE_CASE ='https://huggingface.co/datasets/huggingface/documentation-images/resolve/main/transformers/tasks/australia.jpg' _SCREAMING_SNAKE_CASE =Image.open(requests.get(_a , stream=_a ).raw ).convert('RGB' ) return raw_image @unittest.skipIf( not is_torch_greater_or_equal_than_1_11 , reason='`Pix2StructImageProcessor` requires `torch>=1.11.0`.' , ) @require_torch @require_vision class A__ ( A__ , unittest.TestCase ): A__ = PixaStructImageProcessor if is_vision_available() else None def A ( self : Dict ) -> Tuple: '''simple docstring''' _SCREAMING_SNAKE_CASE =PixaStructImageProcessingTester(self ) @property def A ( self : Optional[Any] ) -> int: '''simple docstring''' return self.image_processor_tester.prepare_image_processor_dict() def A ( self : Any ) -> Tuple: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.image_processing_class(**self.image_processor_dict ) self.assertTrue(hasattr(_a , 'do_normalize' ) ) self.assertTrue(hasattr(_a , 'do_convert_rgb' ) ) def A ( self : Any ) -> List[str]: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.image_processor_tester.prepare_dummy_image() _SCREAMING_SNAKE_CASE =self.image_processing_class(**self.image_processor_dict ) _SCREAMING_SNAKE_CASE =2048 _SCREAMING_SNAKE_CASE =image_processor(_a , return_tensors='pt' , max_patches=_a ) self.assertTrue(torch.allclose(inputs.flattened_patches.mean() , torch.tensor(0.06_06 ) , atol=1e-3 , rtol=1e-3 ) ) def A ( self : Any ) -> Any: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.image_processing_class(**self.image_processor_dict ) # create random PIL images _SCREAMING_SNAKE_CASE =prepare_image_inputs(self.image_processor_tester , equal_resolution=_a ) for image in image_inputs: self.assertIsInstance(_a , Image.Image ) # Test not batched input _SCREAMING_SNAKE_CASE =( (self.image_processor_tester.patch_size['height'] * self.image_processor_tester.patch_size['width']) * self.image_processor_tester.num_channels ) + 2 for max_patch in self.image_processor_tester.max_patches: # Test not batched input _SCREAMING_SNAKE_CASE =image_processor( image_inputs[0] , return_tensors='pt' , max_patches=_a ).flattened_patches self.assertEqual( encoded_images.shape , (1, max_patch, expected_hidden_dim) , ) # Test batched _SCREAMING_SNAKE_CASE =image_processor( _a , return_tensors='pt' , max_patches=_a ).flattened_patches self.assertEqual( encoded_images.shape , (self.image_processor_tester.batch_size, max_patch, expected_hidden_dim) , ) def A ( self : List[str] ) -> Optional[Any]: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.image_processing_class(**self.image_processor_dict ) # create random PIL images _SCREAMING_SNAKE_CASE =prepare_image_inputs(self.image_processor_tester , equal_resolution=_a ) for image in image_inputs: self.assertIsInstance(_a , Image.Image ) # Test not batched input _SCREAMING_SNAKE_CASE =( (self.image_processor_tester.patch_size['height'] * self.image_processor_tester.patch_size['width']) * self.image_processor_tester.num_channels ) + 2 _SCREAMING_SNAKE_CASE =True for max_patch in self.image_processor_tester.max_patches: # Test not batched input with self.assertRaises(_a ): _SCREAMING_SNAKE_CASE =image_processor( image_inputs[0] , return_tensors='pt' , max_patches=_a ).flattened_patches _SCREAMING_SNAKE_CASE ='Hello' _SCREAMING_SNAKE_CASE =image_processor( image_inputs[0] , return_tensors='pt' , max_patches=_a , header_text=_a ).flattened_patches self.assertEqual( encoded_images.shape , (1, max_patch, expected_hidden_dim) , ) # Test batched _SCREAMING_SNAKE_CASE =image_processor( _a , return_tensors='pt' , max_patches=_a , header_text=_a ).flattened_patches self.assertEqual( encoded_images.shape , (self.image_processor_tester.batch_size, max_patch, expected_hidden_dim) , ) def A ( self : List[Any] ) -> Any: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.image_processing_class(**self.image_processor_dict ) # create random numpy tensors _SCREAMING_SNAKE_CASE =prepare_image_inputs(self.image_processor_tester , equal_resolution=_a , numpify=_a ) for image in image_inputs: self.assertIsInstance(_a , np.ndarray ) _SCREAMING_SNAKE_CASE =( (self.image_processor_tester.patch_size['height'] * self.image_processor_tester.patch_size['width']) * self.image_processor_tester.num_channels ) + 2 for max_patch in self.image_processor_tester.max_patches: # Test not batched input _SCREAMING_SNAKE_CASE =image_processor( image_inputs[0] , return_tensors='pt' , max_patches=_a ).flattened_patches self.assertEqual( encoded_images.shape , (1, max_patch, expected_hidden_dim) , ) # Test batched _SCREAMING_SNAKE_CASE =image_processor( _a , return_tensors='pt' , max_patches=_a ).flattened_patches self.assertEqual( encoded_images.shape , (self.image_processor_tester.batch_size, max_patch, expected_hidden_dim) , ) def A ( self : Union[str, Any] ) -> Tuple: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.image_processing_class(**self.image_processor_dict ) # create random PyTorch tensors _SCREAMING_SNAKE_CASE =prepare_image_inputs(self.image_processor_tester , equal_resolution=_a , torchify=_a ) for image in image_inputs: self.assertIsInstance(_a , torch.Tensor ) # Test not batched input _SCREAMING_SNAKE_CASE =( (self.image_processor_tester.patch_size['height'] * self.image_processor_tester.patch_size['width']) * self.image_processor_tester.num_channels ) + 2 for max_patch in self.image_processor_tester.max_patches: # Test not batched input _SCREAMING_SNAKE_CASE =image_processor( image_inputs[0] , return_tensors='pt' , max_patches=_a ).flattened_patches self.assertEqual( encoded_images.shape , (1, max_patch, expected_hidden_dim) , ) # Test batched _SCREAMING_SNAKE_CASE =image_processor( _a , return_tensors='pt' , max_patches=_a ).flattened_patches self.assertEqual( encoded_images.shape , (self.image_processor_tester.batch_size, max_patch, expected_hidden_dim) , ) @unittest.skipIf( not is_torch_greater_or_equal_than_1_11 , reason='`Pix2StructImageProcessor` requires `torch>=1.11.0`.' , ) @require_torch @require_vision class A__ ( A__ , unittest.TestCase ): A__ = PixaStructImageProcessor if is_vision_available() else None def A ( self : str ) -> Dict: '''simple docstring''' _SCREAMING_SNAKE_CASE =PixaStructImageProcessingTester(self , num_channels=4 ) _SCREAMING_SNAKE_CASE =3 @property def A ( self : List[str] ) -> Optional[Any]: '''simple docstring''' return self.image_processor_tester.prepare_image_processor_dict() def A ( self : List[str] ) -> Tuple: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.image_processing_class(**self.image_processor_dict ) self.assertTrue(hasattr(_a , 'do_normalize' ) ) self.assertTrue(hasattr(_a , 'do_convert_rgb' ) ) def A ( self : Dict ) -> int: '''simple docstring''' _SCREAMING_SNAKE_CASE =self.image_processing_class(**self.image_processor_dict ) # create random PIL images _SCREAMING_SNAKE_CASE =prepare_image_inputs(self.image_processor_tester , equal_resolution=_a ) for image in image_inputs: self.assertIsInstance(_a , Image.Image ) # Test not batched input _SCREAMING_SNAKE_CASE =( (self.image_processor_tester.patch_size['height'] * self.image_processor_tester.patch_size['width']) * (self.image_processor_tester.num_channels - 1) ) + 2 for max_patch in self.image_processor_tester.max_patches: # Test not batched input _SCREAMING_SNAKE_CASE =image_processor( image_inputs[0] , return_tensors='pt' , max_patches=_a ).flattened_patches self.assertEqual( encoded_images.shape , (1, max_patch, expected_hidden_dim) , ) # Test batched _SCREAMING_SNAKE_CASE =image_processor( _a , return_tensors='pt' , max_patches=_a ).flattened_patches self.assertEqual( encoded_images.shape , (self.image_processor_tester.batch_size, max_patch, expected_hidden_dim) , )

47

1

import logging import os import sys import warnings from dataclasses import dataclass, field from random import randint from typing import Optional import datasets import evaluate import numpy as np from datasets import DatasetDict, load_dataset import transformers from transformers import ( AutoConfig, AutoFeatureExtractor, AutoModelForAudioClassification, HfArgumentParser, Trainer, TrainingArguments, set_seed, ) from transformers.trainer_utils import get_last_checkpoint from transformers.utils import check_min_version, send_example_telemetry from transformers.utils.versions import require_version __snake_case :Tuple = logging.getLogger(__name__) # Will error if the minimal version of Transformers is not installed. Remove at your own risks. check_min_version('''4.31.0''') require_version('''datasets>=1.14.0''', '''To fix: pip install -r examples/pytorch/audio-classification/requirements.txt''') def __snake_case ( _UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = 16000 ): __a = int(round(sample_rate * max_length ) ) if len(_a ) <= sample_length: return wav __a = randint(0 , len(_a ) - sample_length - 1 ) return wav[random_offset : random_offset + sample_length] @dataclass class _A : UpperCamelCase__ : Optional[str] = field(default=SCREAMING_SNAKE_CASE__ ,metadata={'''help''': '''Name of a dataset from the datasets package'''} ) UpperCamelCase__ : Optional[str] = field( default=SCREAMING_SNAKE_CASE__ ,metadata={'''help''': '''The configuration name of the dataset to use (via the datasets library).'''} ) UpperCamelCase__ : Optional[str] = field( default=SCREAMING_SNAKE_CASE__ ,metadata={'''help''': '''A file containing the training audio paths and labels.'''} ) UpperCamelCase__ : Optional[str] = field( default=SCREAMING_SNAKE_CASE__ ,metadata={'''help''': '''A file containing the validation audio paths and labels.'''} ) UpperCamelCase__ : str = field( default='''train''' ,metadata={ '''help''': '''The name of the training data set split to use (via the datasets library). Defaults to \'train\'''' } ,) UpperCamelCase__ : str = field( default='''validation''' ,metadata={ '''help''': ( '''The name of the training data set split to use (via the datasets library). Defaults to \'validation\'''' ) } ,) UpperCamelCase__ : str = field( default='''audio''' ,metadata={'''help''': '''The name of the dataset column containing the audio data. Defaults to \'audio\''''} ,) UpperCamelCase__ : str = field( default='''label''' ,metadata={'''help''': '''The name of the dataset column containing the labels. Defaults to \'label\''''} ) UpperCamelCase__ : Optional[int] = field( default=SCREAMING_SNAKE_CASE__ ,metadata={ '''help''': ( '''For debugging purposes or quicker training, truncate the number of training examples to this ''' '''value if set.''' ) } ,) UpperCamelCase__ : Optional[int] = field( default=SCREAMING_SNAKE_CASE__ ,metadata={ '''help''': ( '''For debugging purposes or quicker training, truncate the number of evaluation examples to this ''' '''value if set.''' ) } ,) UpperCamelCase__ : float = field( default=20 ,metadata={'''help''': '''Audio clips will be randomly cut to this length during training if the value is set.'''} ,) @dataclass class _A : UpperCamelCase__ : str = field( default='''facebook/wav2vec2-base''' ,metadata={'''help''': '''Path to pretrained model or model identifier from huggingface.co/models'''} ,) UpperCamelCase__ : Optional[str] = field( default=SCREAMING_SNAKE_CASE__ ,metadata={'''help''': '''Pretrained config name or path if not the same as model_name'''} ) UpperCamelCase__ : Optional[str] = field( default=SCREAMING_SNAKE_CASE__ ,metadata={'''help''': '''Where do you want to store the pretrained models downloaded from the Hub'''} ) UpperCamelCase__ : str = field( default='''main''' ,metadata={'''help''': '''The specific model version to use (can be a branch name, tag name or commit id).'''} ,) UpperCamelCase__ : Optional[str] = field( default=SCREAMING_SNAKE_CASE__ ,metadata={'''help''': '''Name or path of preprocessor config.'''} ) UpperCamelCase__ : bool = field( default=SCREAMING_SNAKE_CASE__ ,metadata={'''help''': '''Whether to freeze the feature encoder layers of the model.'''} ) UpperCamelCase__ : bool = field( default=SCREAMING_SNAKE_CASE__ ,metadata={'''help''': '''Whether to generate an attention mask in the feature extractor.'''} ) UpperCamelCase__ : bool = field( default=SCREAMING_SNAKE_CASE__ ,metadata={ '''help''': ( '''Will use the token generated when running `huggingface-cli login` (necessary to use this script ''' '''with private models).''' ) } ,) UpperCamelCase__ : Optional[bool] = field( default=SCREAMING_SNAKE_CASE__ ,metadata={'''help''': '''Whether to freeze the feature extractor layers of the model.'''} ) UpperCamelCase__ : bool = field( default=SCREAMING_SNAKE_CASE__ ,metadata={'''help''': '''Will enable to load a pretrained model whose head dimensions are different.'''} ,) def _lowerCamelCase ( self : str): '''simple docstring''' if not self.freeze_feature_extractor and self.freeze_feature_encoder: warnings.warn( '''The argument `--freeze_feature_extractor` is deprecated and ''' '''will be removed in a future version. Use `--freeze_feature_encoder`''' '''instead. Setting `freeze_feature_encoder==True`.''' , _SCREAMING_SNAKE_CASE , ) if self.freeze_feature_extractor and not self.freeze_feature_encoder: raise ValueError( '''The argument `--freeze_feature_extractor` is deprecated and ''' '''should not be used in combination with `--freeze_feature_encoder`.''' '''Only make use of `--freeze_feature_encoder`.''') def __snake_case ( ): # See all possible arguments in src/transformers/training_args.py # or by passing the --help flag to this script. # We now keep distinct sets of args, for a cleaner separation of concerns. __a = HfArgumentParser((ModelArguments, DataTrainingArguments, TrainingArguments) ) if len(sys.argv ) == 2 and sys.argv[1].endswith('''.json''' ): # If we pass only one argument to the script and it's the path to a json file, # let's parse it to get our arguments. __a = parser.parse_json_file(json_file=os.path.abspath(sys.argv[1] ) ) else: __a = parser.parse_args_into_dataclasses() # Sending telemetry. Tracking the example usage helps us better allocate resources to maintain them. The # information sent is the one passed as arguments along with your Python/PyTorch versions. send_example_telemetry('''run_audio_classification''' , _a , _a ) # Setup logging logging.basicConfig( format='''%(asctime)s - %(levelname)s - %(name)s - %(message)s''' , datefmt='''%m/%d/%Y %H:%M:%S''' , handlers=[logging.StreamHandler(sys.stdout )] , ) if training_args.should_log: # The default of training_args.log_level is passive, so we set log level at info here to have that default. transformers.utils.logging.set_verbosity_info() __a = training_args.get_process_log_level() logger.setLevel(_a ) transformers.utils.logging.set_verbosity(_a ) transformers.utils.logging.enable_default_handler() transformers.utils.logging.enable_explicit_format() # Log on each process the small summary: logger.warning( f'Process rank: {training_args.local_rank}, device: {training_args.device}, n_gpu: {training_args.n_gpu} ' + f'distributed training: {bool(training_args.local_rank != -1 )}, 16-bits training: {training_args.fpaa}' ) logger.info(f'Training/evaluation parameters {training_args}' ) # Set seed before initializing model. set_seed(training_args.seed ) # Detecting last checkpoint. __a = None if os.path.isdir(training_args.output_dir ) and training_args.do_train and not training_args.overwrite_output_dir: __a = get_last_checkpoint(training_args.output_dir ) if last_checkpoint is None and len(os.listdir(training_args.output_dir ) ) > 0: raise ValueError( f'Output directory ({training_args.output_dir}) already exists and is not empty. ' '''Use --overwrite_output_dir to train from scratch.''' ) elif last_checkpoint is not None and training_args.resume_from_checkpoint is None: logger.info( f'Checkpoint detected, resuming training at {last_checkpoint}. To avoid this behavior, change ' '''the `--output_dir` or add `--overwrite_output_dir` to train from scratch.''' ) # Initialize our dataset and prepare it for the audio classification task. __a = DatasetDict() __a = load_dataset( data_args.dataset_name , data_args.dataset_config_name , split=data_args.train_split_name , use_auth_token=True if model_args.use_auth_token else None , ) __a = load_dataset( data_args.dataset_name , data_args.dataset_config_name , split=data_args.eval_split_name , use_auth_token=True if model_args.use_auth_token else None , ) if data_args.audio_column_name not in raw_datasets["train"].column_names: raise ValueError( f'--audio_column_name {data_args.audio_column_name} not found in dataset \'{data_args.dataset_name}\'. ' '''Make sure to set `--audio_column_name` to the correct audio column - one of ''' f'{", ".join(raw_datasets["train"].column_names )}.' ) if data_args.label_column_name not in raw_datasets["train"].column_names: raise ValueError( f'--label_column_name {data_args.label_column_name} not found in dataset \'{data_args.dataset_name}\'. ' '''Make sure to set `--label_column_name` to the correct text column - one of ''' f'{", ".join(raw_datasets["train"].column_names )}.' ) # Setting `return_attention_mask=True` is the way to get a correctly masked mean-pooling over # transformer outputs in the classifier, but it doesn't always lead to better accuracy __a = AutoFeatureExtractor.from_pretrained( model_args.feature_extractor_name or model_args.model_name_or_path , return_attention_mask=model_args.attention_mask , cache_dir=model_args.cache_dir , revision=model_args.model_revision , use_auth_token=True if model_args.use_auth_token else None , ) # `datasets` takes care of automatically loading and resampling the audio, # so we just need to set the correct target sampling rate. __a = raw_datasets.cast_column( data_args.audio_column_name , datasets.features.Audio(sampling_rate=feature_extractor.sampling_rate ) ) __a = feature_extractor.model_input_names[0] def train_transforms(_UpperCAmelCase ): __a = [] for audio in batch[data_args.audio_column_name]: __a = random_subsample( audio['''array'''] , max_length=data_args.max_length_seconds , sample_rate=feature_extractor.sampling_rate ) subsampled_wavs.append(_a ) __a = feature_extractor(_a , sampling_rate=feature_extractor.sampling_rate ) __a = {model_input_name: inputs.get(_a )} __a = list(batch[data_args.label_column_name] ) return output_batch def val_transforms(_UpperCAmelCase ): __a = [audio["array"] for audio in batch[data_args.audio_column_name]] __a = feature_extractor(_a , sampling_rate=feature_extractor.sampling_rate ) __a = {model_input_name: inputs.get(_a )} __a = list(batch[data_args.label_column_name] ) return output_batch # Prepare label mappings. # We'll include these in the model's config to get human readable labels in the Inference API. __a = raw_datasets["train"].features[data_args.label_column_name].names __a = {}, {} for i, label in enumerate(_a ): __a = str(_a ) __a = label # Load the accuracy metric from the datasets package __a = evaluate.load('''accuracy''' ) # Define our compute_metrics function. It takes an `EvalPrediction` object (a namedtuple with # `predictions` and `label_ids` fields) and has to return a dictionary string to float. def compute_metrics(_UpperCAmelCase ): __a = np.argmax(eval_pred.predictions , axis=1 ) return metric.compute(predictions=_a , references=eval_pred.label_ids ) __a = AutoConfig.from_pretrained( model_args.config_name or model_args.model_name_or_path , num_labels=len(_a ) , labelaid=_a , idalabel=_a , finetuning_task='''audio-classification''' , cache_dir=model_args.cache_dir , revision=model_args.model_revision , use_auth_token=True if model_args.use_auth_token else None , ) __a = AutoModelForAudioClassification.from_pretrained( model_args.model_name_or_path , from_tf=bool('''.ckpt''' in model_args.model_name_or_path ) , config=_a , cache_dir=model_args.cache_dir , revision=model_args.model_revision , use_auth_token=True if model_args.use_auth_token else None , ignore_mismatched_sizes=model_args.ignore_mismatched_sizes , ) # freeze the convolutional waveform encoder if model_args.freeze_feature_encoder: model.freeze_feature_encoder() if training_args.do_train: if data_args.max_train_samples is not None: __a = ( raw_datasets["train"].shuffle(seed=training_args.seed ).select(range(data_args.max_train_samples ) ) ) # Set the training transforms raw_datasets["train"].set_transform(_a , output_all_columns=_a ) if training_args.do_eval: if data_args.max_eval_samples is not None: __a = ( raw_datasets["eval"].shuffle(seed=training_args.seed ).select(range(data_args.max_eval_samples ) ) ) # Set the validation transforms raw_datasets["eval"].set_transform(_a , output_all_columns=_a ) # Initialize our trainer __a = Trainer( model=_a , args=_a , train_dataset=raw_datasets['''train'''] if training_args.do_train else None , eval_dataset=raw_datasets['''eval'''] if training_args.do_eval else None , compute_metrics=_a , tokenizer=_a , ) # Training if training_args.do_train: __a = None if training_args.resume_from_checkpoint is not None: __a = training_args.resume_from_checkpoint elif last_checkpoint is not None: __a = last_checkpoint __a = trainer.train(resume_from_checkpoint=_a ) trainer.save_model() trainer.log_metrics('''train''' , train_result.metrics ) trainer.save_metrics('''train''' , train_result.metrics ) trainer.save_state() # Evaluation if training_args.do_eval: __a = trainer.evaluate() trainer.log_metrics('''eval''' , _a ) trainer.save_metrics('''eval''' , _a ) # Write model card and (optionally) push to hub __a = { "finetuned_from": model_args.model_name_or_path, "tasks": "audio-classification", "dataset": data_args.dataset_name, "tags": ["audio-classification"], } if training_args.push_to_hub: trainer.push_to_hub(**_a ) else: trainer.create_model_card(**_a ) if __name__ == "__main__": main()

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import gc import random import unittest import numpy as np import torch from PIL import Image from diffusers import ( DDIMScheduler, KandinskyVaaImgaImgPipeline, KandinskyVaaPriorPipeline, UNetaDConditionModel, VQModel, ) from diffusers.utils import floats_tensor, load_image, load_numpy, slow, torch_device from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu from ..test_pipelines_common import PipelineTesterMixin, assert_mean_pixel_difference enable_full_determinism() class _A ( __UpperCAmelCase ,unittest.TestCase ): UpperCamelCase__ : str = KandinskyVaaImgaImgPipeline UpperCamelCase__ : Optional[Any] = ['''image_embeds''', '''negative_image_embeds''', '''image'''] UpperCamelCase__ : Dict = [ '''image_embeds''', '''negative_image_embeds''', '''image''', ] UpperCamelCase__ : Any = [ '''generator''', '''height''', '''width''', '''strength''', '''guidance_scale''', '''num_inference_steps''', '''return_dict''', '''guidance_scale''', '''num_images_per_prompt''', '''output_type''', '''return_dict''', ] UpperCamelCase__ : List[Any] = False @property def _lowerCamelCase ( self : Optional[int]): '''simple docstring''' return 32 @property def _lowerCamelCase ( self : List[str]): '''simple docstring''' return 32 @property def _lowerCamelCase ( self : List[Any]): '''simple docstring''' return self.time_input_dim @property def _lowerCamelCase ( self : int): '''simple docstring''' return self.time_input_dim * 4 @property def _lowerCamelCase ( self : Optional[Any]): '''simple docstring''' return 100 @property def _lowerCamelCase ( self : Any): '''simple docstring''' torch.manual_seed(0) __a = { '''in_channels''': 4, # Out channels is double in channels because predicts mean and variance '''out_channels''': 8, '''addition_embed_type''': '''image''', '''down_block_types''': ('''ResnetDownsampleBlock2D''', '''SimpleCrossAttnDownBlock2D'''), '''up_block_types''': ('''SimpleCrossAttnUpBlock2D''', '''ResnetUpsampleBlock2D'''), '''mid_block_type''': '''UNetMidBlock2DSimpleCrossAttn''', '''block_out_channels''': (self.block_out_channels_a, self.block_out_channels_a * 2), '''layers_per_block''': 1, '''encoder_hid_dim''': self.text_embedder_hidden_size, '''encoder_hid_dim_type''': '''image_proj''', '''cross_attention_dim''': self.cross_attention_dim, '''attention_head_dim''': 4, '''resnet_time_scale_shift''': '''scale_shift''', '''class_embed_type''': None, } __a = UNetaDConditionModel(**__SCREAMING_SNAKE_CASE) return model @property def _lowerCamelCase ( self : Tuple): '''simple docstring''' return { "block_out_channels": [32, 64], "down_block_types": ["DownEncoderBlock2D", "AttnDownEncoderBlock2D"], "in_channels": 3, "latent_channels": 4, "layers_per_block": 1, "norm_num_groups": 8, "norm_type": "spatial", "num_vq_embeddings": 12, "out_channels": 3, "up_block_types": [ "AttnUpDecoderBlock2D", "UpDecoderBlock2D", ], "vq_embed_dim": 4, } @property def _lowerCamelCase ( self : Optional[int]): '''simple docstring''' torch.manual_seed(0) __a = VQModel(**self.dummy_movq_kwargs) return model def _lowerCamelCase ( self : Optional[int]): '''simple docstring''' __a = self.dummy_unet __a = self.dummy_movq __a = { '''num_train_timesteps''': 1_000, '''beta_schedule''': '''linear''', '''beta_start''': 0.0_00_85, '''beta_end''': 0.0_12, '''clip_sample''': False, '''set_alpha_to_one''': False, '''steps_offset''': 0, '''prediction_type''': '''epsilon''', '''thresholding''': False, } __a = DDIMScheduler(**__SCREAMING_SNAKE_CASE) __a = { '''unet''': unet, '''scheduler''': scheduler, '''movq''': movq, } return components def _lowerCamelCase ( self : Union[str, Any] , __SCREAMING_SNAKE_CASE : Optional[Any] , __SCREAMING_SNAKE_CASE : Union[str, Any]=0): '''simple docstring''' __a = floats_tensor((1, self.text_embedder_hidden_size) , rng=random.Random(__SCREAMING_SNAKE_CASE)).to(__SCREAMING_SNAKE_CASE) __a = floats_tensor((1, self.text_embedder_hidden_size) , rng=random.Random(seed + 1)).to( __SCREAMING_SNAKE_CASE) # create init_image __a = floats_tensor((1, 3, 64, 64) , rng=random.Random(__SCREAMING_SNAKE_CASE)).to(__SCREAMING_SNAKE_CASE) __a = image.cpu().permute(0 , 2 , 3 , 1)[0] __a = Image.fromarray(np.uinta(__SCREAMING_SNAKE_CASE)).convert('''RGB''').resize((256, 256)) if str(__SCREAMING_SNAKE_CASE).startswith('''mps'''): __a = torch.manual_seed(__SCREAMING_SNAKE_CASE) else: __a = torch.Generator(device=__SCREAMING_SNAKE_CASE).manual_seed(__SCREAMING_SNAKE_CASE) __a = { '''image''': init_image, '''image_embeds''': image_embeds, '''negative_image_embeds''': negative_image_embeds, '''generator''': generator, '''height''': 64, '''width''': 64, '''num_inference_steps''': 10, '''guidance_scale''': 7.0, '''strength''': 0.2, '''output_type''': '''np''', } return inputs def _lowerCamelCase ( self : Dict): '''simple docstring''' __a = '''cpu''' __a = self.get_dummy_components() __a = self.pipeline_class(**__SCREAMING_SNAKE_CASE) __a = pipe.to(__SCREAMING_SNAKE_CASE) pipe.set_progress_bar_config(disable=__SCREAMING_SNAKE_CASE) __a = pipe(**self.get_dummy_inputs(__SCREAMING_SNAKE_CASE)) __a = output.images __a = pipe( **self.get_dummy_inputs(__SCREAMING_SNAKE_CASE) , return_dict=__SCREAMING_SNAKE_CASE , )[0] __a = image[0, -3:, -3:, -1] __a = image_from_tuple[0, -3:, -3:, -1] assert image.shape == (1, 64, 64, 3) __a = np.array( [0.6_19_97_78, 0.63_98_44_06, 0.46_14_57_85, 0.62_94_49_84, 0.5_62_22_15, 0.47_30_61_32, 0.47_44_14_56, 0.4_60_76_06, 0.48_71_92_63]) assert ( np.abs(image_slice.flatten() - expected_slice).max() < 1E-2 ), F' expected_slice {expected_slice}, but got {image_slice.flatten()}' assert ( np.abs(image_from_tuple_slice.flatten() - expected_slice).max() < 1E-2 ), F' expected_slice {expected_slice}, but got {image_from_tuple_slice.flatten()}' @slow @require_torch_gpu class _A ( unittest.TestCase ): def _lowerCamelCase ( self : Dict): '''simple docstring''' super().tearDown() gc.collect() torch.cuda.empty_cache() def _lowerCamelCase ( self : str): '''simple docstring''' __a = load_numpy( '''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main''' '''/kandinskyv22/kandinskyv22_img2img_frog.npy''') __a = load_image( '''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main''' '''/kandinsky/cat.png''') __a = '''A red cartoon frog, 4k''' __a = KandinskyVaaPriorPipeline.from_pretrained( '''kandinsky-community/kandinsky-2-2-prior''' , torch_dtype=torch.floataa) pipe_prior.to(__SCREAMING_SNAKE_CASE) __a = KandinskyVaaImgaImgPipeline.from_pretrained( '''kandinsky-community/kandinsky-2-2-decoder''' , torch_dtype=torch.floataa) __a = pipeline.to(__SCREAMING_SNAKE_CASE) pipeline.set_progress_bar_config(disable=__SCREAMING_SNAKE_CASE) __a = torch.Generator(device='''cpu''').manual_seed(0) __a , __a = pipe_prior( __SCREAMING_SNAKE_CASE , generator=__SCREAMING_SNAKE_CASE , num_inference_steps=5 , negative_prompt='''''' , ).to_tuple() __a = pipeline( image=__SCREAMING_SNAKE_CASE , image_embeds=__SCREAMING_SNAKE_CASE , negative_image_embeds=__SCREAMING_SNAKE_CASE , generator=__SCREAMING_SNAKE_CASE , num_inference_steps=100 , height=768 , width=768 , strength=0.2 , output_type='''np''' , ) __a = output.images[0] assert image.shape == (768, 768, 3) assert_mean_pixel_difference(__SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE)

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"""simple docstring""" from __future__ import annotations from dataclasses import dataclass @dataclass class UpperCAmelCase_ : snake_case__ = 42 snake_case__ = None snake_case__ = None def lowercase ( a__ : TreeNode | None ) -> bool: # Validation def is_valid_tree(a__ : TreeNode | None ) -> bool: if node is None: return True if not isinstance(a__ , a__ ): return False try: float(node.data ) except (TypeError, ValueError): return False return is_valid_tree(node.left ) and is_valid_tree(node.right ) if not is_valid_tree(a__ ): raise ValueError( '''Each node should be type of TreeNode and data should be float.''' ) def is_binary_search_tree_recursive_check( a__ : TreeNode | None , a__ : float , a__ : float ) -> bool: if node is None: return True return ( left_bound < node.data < right_bound and is_binary_search_tree_recursive_check(node.left , a__ , node.data ) and is_binary_search_tree_recursive_check( node.right , node.data , a__ ) ) return is_binary_search_tree_recursive_check(a__ , -float('''inf''' ) , float('''inf''' ) ) if __name__ == "__main__": import doctest doctest.testmod()

256

"""simple docstring""" import logging from dataclasses import dataclass, field from typing import Optional from seqaseq_trainer import arg_to_scheduler from transformers import TrainingArguments UpperCAmelCase = logging.getLogger(__name__) @dataclass class UpperCAmelCase_ ( _lowercase): snake_case__ = field( default=0.0 , metadata={'''help''': '''The label smoothing epsilon to apply (if not zero).'''}) snake_case__ = field(default=_lowercase , metadata={'''help''': '''Whether to SortishSamler or not.'''}) snake_case__ = field( default=_lowercase , metadata={'''help''': '''Whether to use generate to calculate generative metrics (ROUGE, BLEU).'''}) snake_case__ = field(default=_lowercase , metadata={'''help''': '''whether to use adafactor'''}) snake_case__ = field( default=_lowercase , metadata={'''help''': '''Encoder layer dropout probability. Goes into model.config.'''}) snake_case__ = field( default=_lowercase , metadata={'''help''': '''Decoder layer dropout probability. Goes into model.config.'''}) snake_case__ = field(default=_lowercase , metadata={'''help''': '''Dropout probability. Goes into model.config.'''}) snake_case__ = field( default=_lowercase , metadata={'''help''': '''Attention dropout probability. Goes into model.config.'''}) snake_case__ = field( default='''linear''' , metadata={'''help''': F'''Which lr scheduler to use. Selected in {sorted(arg_to_scheduler.keys())}'''} , )

256

1

"""simple docstring""" from typing import Optional from .. import Features, NamedSplit from ..packaged_modules.text.text import Text from ..utils.typing import NestedDataStructureLike, PathLike from .abc import AbstractDatasetReader class lowerCAmelCase_ ( lowerCAmelCase ): """simple docstring""" def __init__( self , lowerCAmelCase , lowerCAmelCase = None , lowerCAmelCase = None , lowerCAmelCase = None , lowerCAmelCase = False , lowerCAmelCase = False , lowerCAmelCase = None , **lowerCAmelCase , ): """simple docstring""" super().__init__( lowerCamelCase_ , split=lowerCamelCase_ , features=lowerCamelCase_ , cache_dir=lowerCamelCase_ , keep_in_memory=lowerCamelCase_ , streaming=lowerCamelCase_ , num_proc=lowerCamelCase_ , **lowerCamelCase_ , ) snake_case = path_or_paths if isinstance(lowerCamelCase_ , lowerCamelCase_ ) else {self.split: path_or_paths} snake_case = Text( cache_dir=lowerCamelCase_ , data_files=lowerCamelCase_ , features=lowerCamelCase_ , **lowerCamelCase_ , ) def snake_case ( self ): """simple docstring""" if self.streaming: snake_case = self.builder.as_streaming_dataset(split=self.split ) # Build regular (map-style) dataset else: snake_case = None snake_case = None snake_case = None snake_case = None self.builder.download_and_prepare( download_config=lowerCamelCase_ , download_mode=lowerCamelCase_ , verification_mode=lowerCamelCase_ , base_path=lowerCamelCase_ , num_proc=self.num_proc , ) snake_case = self.builder.as_dataset( split=self.split , verification_mode=lowerCamelCase_ , in_memory=self.keep_in_memory ) return dataset

361

"""simple docstring""" from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_torch_available SCREAMING_SNAKE_CASE__ = { "configuration_data2vec_audio": ["DATA2VEC_AUDIO_PRETRAINED_CONFIG_ARCHIVE_MAP", "Data2VecAudioConfig"], "configuration_data2vec_text": [ "DATA2VEC_TEXT_PRETRAINED_CONFIG_ARCHIVE_MAP", "Data2VecTextConfig", "Data2VecTextOnnxConfig", ], "configuration_data2vec_vision": [ "DATA2VEC_VISION_PRETRAINED_CONFIG_ARCHIVE_MAP", "Data2VecVisionConfig", "Data2VecVisionOnnxConfig", ], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: SCREAMING_SNAKE_CASE__ = [ "DATA2VEC_AUDIO_PRETRAINED_MODEL_ARCHIVE_LIST", "Data2VecAudioForAudioFrameClassification", "Data2VecAudioForCTC", "Data2VecAudioForSequenceClassification", "Data2VecAudioForXVector", "Data2VecAudioModel", "Data2VecAudioPreTrainedModel", ] SCREAMING_SNAKE_CASE__ = [ "DATA2VEC_TEXT_PRETRAINED_MODEL_ARCHIVE_LIST", "Data2VecTextForCausalLM", "Data2VecTextForMaskedLM", "Data2VecTextForMultipleChoice", "Data2VecTextForQuestionAnswering", "Data2VecTextForSequenceClassification", "Data2VecTextForTokenClassification", "Data2VecTextModel", "Data2VecTextPreTrainedModel", ] SCREAMING_SNAKE_CASE__ = [ "DATA2VEC_VISION_PRETRAINED_MODEL_ARCHIVE_LIST", "Data2VecVisionForImageClassification", "Data2VecVisionForMaskedImageModeling", "Data2VecVisionForSemanticSegmentation", "Data2VecVisionModel", "Data2VecVisionPreTrainedModel", ] if is_tf_available(): SCREAMING_SNAKE_CASE__ = [ "TFData2VecVisionForImageClassification", "TFData2VecVisionForSemanticSegmentation", "TFData2VecVisionModel", "TFData2VecVisionPreTrainedModel", ] if TYPE_CHECKING: from .configuration_dataavec_audio import DATA2VEC_AUDIO_PRETRAINED_CONFIG_ARCHIVE_MAP, DataaVecAudioConfig from .configuration_dataavec_text import ( DATA2VEC_TEXT_PRETRAINED_CONFIG_ARCHIVE_MAP, DataaVecTextConfig, DataaVecTextOnnxConfig, ) from .configuration_dataavec_vision import ( DATA2VEC_VISION_PRETRAINED_CONFIG_ARCHIVE_MAP, DataaVecVisionConfig, DataaVecVisionOnnxConfig, ) try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_dataavec_audio import ( DATA2VEC_AUDIO_PRETRAINED_MODEL_ARCHIVE_LIST, DataaVecAudioForAudioFrameClassification, DataaVecAudioForCTC, DataaVecAudioForSequenceClassification, DataaVecAudioForXVector, DataaVecAudioModel, DataaVecAudioPreTrainedModel, ) from .modeling_dataavec_text import ( DATA2VEC_TEXT_PRETRAINED_MODEL_ARCHIVE_LIST, DataaVecTextForCausalLM, DataaVecTextForMaskedLM, DataaVecTextForMultipleChoice, DataaVecTextForQuestionAnswering, DataaVecTextForSequenceClassification, DataaVecTextForTokenClassification, DataaVecTextModel, DataaVecTextPreTrainedModel, ) from .modeling_dataavec_vision import ( DATA2VEC_VISION_PRETRAINED_MODEL_ARCHIVE_LIST, DataaVecVisionForImageClassification, DataaVecVisionForMaskedImageModeling, DataaVecVisionForSemanticSegmentation, DataaVecVisionModel, DataaVecVisionPreTrainedModel, ) if is_tf_available(): from .modeling_tf_dataavec_vision import ( TFDataaVecVisionForImageClassification, TFDataaVecVisionForSemanticSegmentation, TFDataaVecVisionModel, TFDataaVecVisionPreTrainedModel, ) else: import sys SCREAMING_SNAKE_CASE__ = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)

149

0

from collections import deque from .hash_table import HashTable class __lowercase (_UpperCAmelCase ): def __init__( self , *A_ , **A_ ) ->int: '''simple docstring''' super().__init__(*A_ , **A_ ) def UpperCamelCase__ ( self , A_ , A_ ) ->Optional[int]: '''simple docstring''' __lowerCAmelCase : Dict = deque([] ) if self.values[key] is None else self.values[key] self.values[key].appendleft(A_ ) __lowerCAmelCase : int = self.values[key] def UpperCamelCase__ ( self ) ->Tuple: '''simple docstring''' return ( sum(self.charge_factor - len(A_ ) for slot in self.values ) / self.size_table * self.charge_factor ) def UpperCamelCase__ ( self , A_ , A_=None ) ->str: '''simple docstring''' if not ( len(self.values[key] ) == self.charge_factor and self.values.count(A_ ) == 0 ): return key return super()._collision_resolution(A_ , A_ )

275

def _lowercase ( lowercase__ = 2_0_0 ): __lowerCAmelCase : Union[str, Any] = [1, 2, 5, 1_0, 2_0, 5_0, 1_0_0, 2_0_0] __lowerCAmelCase : Dict = [0] * (pence + 1) __lowerCAmelCase : Optional[int] = 1 # base case: 1 way to make 0 pence for coin in coins: for i in range(lowercase__ , pence + 1 , 1 ): number_of_ways[i] += number_of_ways[i - coin] return number_of_ways[pence] if __name__ == "__main__": assert solution(200) == 7_3682

275

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from __future__ import annotations import os from typing import Any import requests UpperCamelCase__ : Any = """https://api.github.com""" # https://docs.github.com/en/free-pro-team@latest/rest/reference/users#get-the-authenticated-user UpperCamelCase__ : Union[str, Any] = BASE_URL + """/user""" # https://github.com/settings/tokens UpperCamelCase__ : Tuple = os.environ.get("""USER_TOKEN""", """""") def SCREAMING_SNAKE_CASE__ ( snake_case_ ) -> dict[Any, Any]: """simple docstring""" a = { '''Authorization''': f"""token {auth_token}""", '''Accept''': '''application/vnd.github.v3+json''', } return requests.get(snake_case_, headers=snake_case_ ).json() if __name__ == "__main__": # pragma: no cover if USER_TOKEN: for key, value in fetch_github_info(USER_TOKEN).items(): print(F"{key}: {value}") else: raise ValueError("""'USER_TOKEN' field cannot be empty.""")

371

from collections import OrderedDict from typing import Mapping from packaging import version from ...configuration_utils import PretrainedConfig from ...onnx import OnnxConfig from ...utils import logging UpperCamelCase__ : Union[str, Any] = logging.get_logger(__name__) UpperCamelCase__ : Union[str, Any] = { """hustvl/yolos-small""": """https://huggingface.co/hustvl/yolos-small/resolve/main/config.json""", # See all YOLOS models at https://huggingface.co/models?filter=yolos } class lowerCamelCase_ ( a_ ): SCREAMING_SNAKE_CASE_ = 'yolos' def __init__( self : Union[str, Any] ,__lowerCamelCase : int=7_68 ,__lowerCamelCase : Dict=12 ,__lowerCamelCase : Union[str, Any]=12 ,__lowerCamelCase : List[Any]=30_72 ,__lowerCamelCase : int="gelu" ,__lowerCamelCase : int=0.0 ,__lowerCamelCase : str=0.0 ,__lowerCamelCase : Optional[Any]=0.02 ,__lowerCamelCase : int=1e-12 ,__lowerCamelCase : Any=[5_12, 8_64] ,__lowerCamelCase : Tuple=16 ,__lowerCamelCase : int=3 ,__lowerCamelCase : Tuple=True ,__lowerCamelCase : Optional[int]=1_00 ,__lowerCamelCase : List[Any]=True ,__lowerCamelCase : List[str]=False ,__lowerCamelCase : int=1 ,__lowerCamelCase : List[Any]=5 ,__lowerCamelCase : Optional[int]=2 ,__lowerCamelCase : int=5 ,__lowerCamelCase : str=2 ,__lowerCamelCase : Tuple=0.1 ,**__lowerCamelCase : List[Any] ,): '''simple docstring''' super().__init__(**__lowerCamelCase ) a = hidden_size a = num_hidden_layers a = num_attention_heads a = intermediate_size a = hidden_act a = hidden_dropout_prob a = attention_probs_dropout_prob a = initializer_range a = layer_norm_eps a = image_size a = patch_size a = num_channels a = qkv_bias a = num_detection_tokens a = use_mid_position_embeddings a = auxiliary_loss # Hungarian matcher a = class_cost a = bbox_cost a = giou_cost # Loss coefficients a = bbox_loss_coefficient a = giou_loss_coefficient a = eos_coefficient class lowerCamelCase_ ( a_ ): SCREAMING_SNAKE_CASE_ = version.parse('1.11' ) @property def SCREAMING_SNAKE_CASE_ ( self : str ): '''simple docstring''' return OrderedDict( [ ('''pixel_values''', {0: '''batch''', 1: '''num_channels''', 2: '''height''', 3: '''width'''}), ] ) @property def SCREAMING_SNAKE_CASE_ ( self : Optional[Any] ): '''simple docstring''' return 1e-4 @property def SCREAMING_SNAKE_CASE_ ( self : str ): '''simple docstring''' return 12

330

0

import unittest import numpy as np import requests from transformers.testing_utils import require_torch, require_vision from transformers.utils import is_torch_available, is_vision_available from ...test_image_processing_common import ImageProcessingSavingTestMixin, prepare_image_inputs if is_torch_available(): import torch from transformers.pytorch_utils import is_torch_greater_or_equal_than_1_11 else: lowercase = False if is_vision_available(): from PIL import Image from transformers import PixaStructImageProcessor class UpperCamelCase_ ( unittest.TestCase ): '''simple docstring''' def __init__( self , a , a=7 , a=3 , a=18 , a=30 , a=4_00 , a=None , a=True , a=True , a=None , ) -> Union[str, Any]: snake_case_ = size if size is not None else {'height': 20, 'width': 20} snake_case_ = parent snake_case_ = batch_size snake_case_ = num_channels snake_case_ = image_size snake_case_ = min_resolution snake_case_ = max_resolution snake_case_ = size snake_case_ = do_normalize snake_case_ = do_convert_rgb snake_case_ = [5_12, 10_24, 20_48, 40_96] snake_case_ = patch_size if patch_size is not None else {'height': 16, 'width': 16} def _UpperCamelCase ( self ) -> str: return {"do_normalize": self.do_normalize, "do_convert_rgb": self.do_convert_rgb} def _UpperCamelCase ( self ) -> int: snake_case_ = 'https://huggingface.co/datasets/huggingface/documentation-images/resolve/main/transformers/tasks/australia.jpg' snake_case_ = Image.open(requests.get(a , stream=a ).raw ).convert('RGB' ) return raw_image @unittest.skipIf( not is_torch_greater_or_equal_than_1_11 , reason='''`Pix2StructImageProcessor` requires `torch>=1.11.0`.''' , ) @require_torch @require_vision class UpperCamelCase_ ( snake_case_ , unittest.TestCase ): '''simple docstring''' lowerCAmelCase = PixaStructImageProcessor if is_vision_available() else None def _UpperCamelCase ( self ) -> List[str]: snake_case_ = PixaStructImageProcessingTester(self ) @property def _UpperCamelCase ( self ) -> List[Any]: return self.image_processor_tester.prepare_image_processor_dict() def _UpperCamelCase ( self ) -> List[Any]: snake_case_ = self.image_processing_class(**self.image_processor_dict ) self.assertTrue(hasattr(a , 'do_normalize' ) ) self.assertTrue(hasattr(a , 'do_convert_rgb' ) ) def _UpperCamelCase ( self ) -> Optional[Any]: snake_case_ = self.image_processor_tester.prepare_dummy_image() snake_case_ = self.image_processing_class(**self.image_processor_dict ) snake_case_ = 20_48 snake_case_ = image_processor(a , return_tensors='pt' , max_patches=a ) self.assertTrue(torch.allclose(inputs.flattened_patches.mean() , torch.tensor(0.0_606 ) , atol=1E-3 , rtol=1E-3 ) ) def _UpperCamelCase ( self ) -> Tuple: # Initialize image_processor snake_case_ = self.image_processing_class(**self.image_processor_dict ) # create random PIL images snake_case_ = prepare_image_inputs(self.image_processor_tester , equal_resolution=a ) for image in image_inputs: self.assertIsInstance(a , Image.Image ) # Test not batched input snake_case_ = ( (self.image_processor_tester.patch_size['height'] * self.image_processor_tester.patch_size['width']) * self.image_processor_tester.num_channels ) + 2 for max_patch in self.image_processor_tester.max_patches: # Test not batched input snake_case_ = image_processor( image_inputs[0] , return_tensors='pt' , max_patches=a ).flattened_patches self.assertEqual( encoded_images.shape , (1, max_patch, expected_hidden_dim) , ) # Test batched snake_case_ = image_processor( a , return_tensors='pt' , max_patches=a ).flattened_patches self.assertEqual( encoded_images.shape , (self.image_processor_tester.batch_size, max_patch, expected_hidden_dim) , ) def _UpperCamelCase ( self ) -> Optional[int]: # Initialize image_processor snake_case_ = self.image_processing_class(**self.image_processor_dict ) # create random PIL images snake_case_ = prepare_image_inputs(self.image_processor_tester , equal_resolution=a ) for image in image_inputs: self.assertIsInstance(a , Image.Image ) # Test not batched input snake_case_ = ( (self.image_processor_tester.patch_size['height'] * self.image_processor_tester.patch_size['width']) * self.image_processor_tester.num_channels ) + 2 snake_case_ = True for max_patch in self.image_processor_tester.max_patches: # Test not batched input with self.assertRaises(a ): snake_case_ = image_processor( image_inputs[0] , return_tensors='pt' , max_patches=a ).flattened_patches snake_case_ = 'Hello' snake_case_ = image_processor( image_inputs[0] , return_tensors='pt' , max_patches=a , header_text=a ).flattened_patches self.assertEqual( encoded_images.shape , (1, max_patch, expected_hidden_dim) , ) # Test batched snake_case_ = image_processor( a , return_tensors='pt' , max_patches=a , header_text=a ).flattened_patches self.assertEqual( encoded_images.shape , (self.image_processor_tester.batch_size, max_patch, expected_hidden_dim) , ) def _UpperCamelCase ( self ) -> Dict: # Initialize image_processor snake_case_ = self.image_processing_class(**self.image_processor_dict ) # create random numpy tensors snake_case_ = prepare_image_inputs(self.image_processor_tester , equal_resolution=a , numpify=a ) for image in image_inputs: self.assertIsInstance(a , np.ndarray ) snake_case_ = ( (self.image_processor_tester.patch_size['height'] * self.image_processor_tester.patch_size['width']) * self.image_processor_tester.num_channels ) + 2 for max_patch in self.image_processor_tester.max_patches: # Test not batched input snake_case_ = image_processor( image_inputs[0] , return_tensors='pt' , max_patches=a ).flattened_patches self.assertEqual( encoded_images.shape , (1, max_patch, expected_hidden_dim) , ) # Test batched snake_case_ = image_processor( a , return_tensors='pt' , max_patches=a ).flattened_patches self.assertEqual( encoded_images.shape , (self.image_processor_tester.batch_size, max_patch, expected_hidden_dim) , ) def _UpperCamelCase ( self ) -> List[Any]: # Initialize image_processor snake_case_ = self.image_processing_class(**self.image_processor_dict ) # create random PyTorch tensors snake_case_ = prepare_image_inputs(self.image_processor_tester , equal_resolution=a , torchify=a ) for image in image_inputs: self.assertIsInstance(a , torch.Tensor ) # Test not batched input snake_case_ = ( (self.image_processor_tester.patch_size['height'] * self.image_processor_tester.patch_size['width']) * self.image_processor_tester.num_channels ) + 2 for max_patch in self.image_processor_tester.max_patches: # Test not batched input snake_case_ = image_processor( image_inputs[0] , return_tensors='pt' , max_patches=a ).flattened_patches self.assertEqual( encoded_images.shape , (1, max_patch, expected_hidden_dim) , ) # Test batched snake_case_ = image_processor( a , return_tensors='pt' , max_patches=a ).flattened_patches self.assertEqual( encoded_images.shape , (self.image_processor_tester.batch_size, max_patch, expected_hidden_dim) , ) @unittest.skipIf( not is_torch_greater_or_equal_than_1_11 , reason='''`Pix2StructImageProcessor` requires `torch>=1.11.0`.''' , ) @require_torch @require_vision class UpperCamelCase_ ( snake_case_ , unittest.TestCase ): '''simple docstring''' lowerCAmelCase = PixaStructImageProcessor if is_vision_available() else None def _UpperCamelCase ( self ) -> Any: snake_case_ = PixaStructImageProcessingTester(self , num_channels=4 ) snake_case_ = 3 @property def _UpperCamelCase ( self ) -> Any: return self.image_processor_tester.prepare_image_processor_dict() def _UpperCamelCase ( self ) -> Optional[int]: snake_case_ = self.image_processing_class(**self.image_processor_dict ) self.assertTrue(hasattr(a , 'do_normalize' ) ) self.assertTrue(hasattr(a , 'do_convert_rgb' ) ) def _UpperCamelCase ( self ) -> List[str]: # Initialize image_processor snake_case_ = self.image_processing_class(**self.image_processor_dict ) # create random PIL images snake_case_ = prepare_image_inputs(self.image_processor_tester , equal_resolution=a ) for image in image_inputs: self.assertIsInstance(a , Image.Image ) # Test not batched input snake_case_ = ( (self.image_processor_tester.patch_size['height'] * self.image_processor_tester.patch_size['width']) * (self.image_processor_tester.num_channels - 1) ) + 2 for max_patch in self.image_processor_tester.max_patches: # Test not batched input snake_case_ = image_processor( image_inputs[0] , return_tensors='pt' , max_patches=a ).flattened_patches self.assertEqual( encoded_images.shape , (1, max_patch, expected_hidden_dim) , ) # Test batched snake_case_ = image_processor( a , return_tensors='pt' , max_patches=a ).flattened_patches self.assertEqual( encoded_images.shape , (self.image_processor_tester.batch_size, max_patch, expected_hidden_dim) , )

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import numpy as np from sklearn.datasets import fetch_california_housing from sklearn.metrics import mean_absolute_error, mean_squared_error from sklearn.model_selection import train_test_split from xgboost import XGBRegressor def __UpperCAmelCase ( a_): return (data["data"], data["target"]) def __UpperCAmelCase ( a_ , a_ , a_): snake_case_ = XGBRegressor(verbosity=0 , random_state=42) xgb.fit(a_ , a_) # Predict target for test data snake_case_ = xgb.predict(a_) snake_case_ = predictions.reshape(len(a_) , 1) return predictions def __UpperCAmelCase ( ): snake_case_ = fetch_california_housing() snake_case_ , snake_case_ = data_handling(a_) snake_case_ , snake_case_ , snake_case_ , snake_case_ = train_test_split( a_ , a_ , test_size=0.25 , random_state=1) snake_case_ = xgboost(a_ , a_ , a_) # Error printing print(f'''Mean Absolute Error : {mean_absolute_error(a_ , a_)}''') print(f'''Mean Square Error : {mean_squared_error(a_ , a_)}''') if __name__ == "__main__": import doctest doctest.testmod(verbose=True) main()

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"""simple docstring""" import unittest from pathlib import Path from tempfile import NamedTemporaryFile, TemporaryDirectory from transformers import BertConfig, BertTokenizerFast, FeatureExtractionPipeline from transformers.convert_graph_to_onnx import ( convert, ensure_valid_input, generate_identified_filename, infer_shapes, quantize, ) from transformers.testing_utils import require_tf, require_tokenizers, require_torch, slow class __SCREAMING_SNAKE_CASE : '''simple docstring''' def snake_case ( self : int, lowerCamelCase : Optional[int], lowerCamelCase : Tuple, lowerCamelCase : Tuple )-> Union[str, Any]: return None class __SCREAMING_SNAKE_CASE : '''simple docstring''' def snake_case ( self : str, lowerCamelCase : List[str], lowerCamelCase : Tuple, lowerCamelCase : str, lowerCamelCase : Optional[int] )-> Union[str, Any]: return None class __SCREAMING_SNAKE_CASE ( unittest.TestCase ): '''simple docstring''' _a = [ # (model_name, model_kwargs) ('bert-base-cased', {}), ('gpt2', {'use_cache': False}), # We don't support exporting GPT2 past keys anymore ] @require_tf @slow def snake_case ( self : Any )-> Tuple: for model, model_kwargs in OnnxExportTestCase.MODEL_TO_TEST: self._test_export(UpperCAmelCase_, '''tf''', 12, **UpperCAmelCase_ ) @require_torch @slow def snake_case ( self : Optional[int] )-> Tuple: for model, model_kwargs in OnnxExportTestCase.MODEL_TO_TEST: self._test_export(UpperCAmelCase_, '''pt''', 12, **UpperCAmelCase_ ) @require_torch @slow def snake_case ( self : Optional[int] )-> List[str]: from transformers import BertModel lowerCamelCase__ : List[str] =["[UNK]", "[SEP]", "[CLS]", "[PAD]", "[MASK]", "some", "other", "words"] with NamedTemporaryFile(mode='''w+t''' ) as vocab_file: vocab_file.write('''\n'''.join(UpperCAmelCase_ ) ) vocab_file.flush() lowerCamelCase__ : Tuple =BertTokenizerFast(vocab_file.name ) with TemporaryDirectory() as bert_save_dir: lowerCamelCase__ : int =BertModel(BertConfig(vocab_size=len(UpperCAmelCase_ ) ) ) model.save_pretrained(UpperCAmelCase_ ) self._test_export(UpperCAmelCase_, '''pt''', 12, UpperCAmelCase_ ) @require_tf @slow def snake_case ( self : str )-> str: for model, model_kwargs in OnnxExportTestCase.MODEL_TO_TEST: lowerCamelCase__ : List[Any] =self._test_export(UpperCAmelCase_, '''tf''', 12, **UpperCAmelCase_ ) lowerCamelCase__ : str =quantize(Path(UpperCAmelCase_ ) ) # Ensure the actual quantized model is not bigger than the original one if quantized_path.stat().st_size >= Path(UpperCAmelCase_ ).stat().st_size: self.fail('''Quantized model is bigger than initial ONNX model''' ) @require_torch @slow def snake_case ( self : Union[str, Any] )-> List[str]: for model, model_kwargs in OnnxExportTestCase.MODEL_TO_TEST: lowerCamelCase__ : Optional[Any] =self._test_export(UpperCAmelCase_, '''pt''', 12, **UpperCAmelCase_ ) lowerCamelCase__ : Union[str, Any] =quantize(UpperCAmelCase_ ) # Ensure the actual quantized model is not bigger than the original one if quantized_path.stat().st_size >= Path(UpperCAmelCase_ ).stat().st_size: self.fail('''Quantized model is bigger than initial ONNX model''' ) def snake_case ( self : int, lowerCamelCase : Any, lowerCamelCase : Optional[int], lowerCamelCase : List[str], lowerCamelCase : List[str]=None, **lowerCamelCase : Dict )-> int: try: # Compute path with TemporaryDirectory() as tempdir: lowerCamelCase__ : Any =Path(UpperCAmelCase_ ).joinpath('''model.onnx''' ) # Remove folder if exists if path.parent.exists(): path.parent.rmdir() # Export convert(UpperCAmelCase_, UpperCAmelCase_, UpperCAmelCase_, UpperCAmelCase_, UpperCAmelCase_, **UpperCAmelCase_ ) return path except Exception as e: self.fail(UpperCAmelCase_ ) @require_torch @require_tokenizers @slow def snake_case ( self : Optional[int] )-> Union[str, Any]: from transformers import BertModel lowerCamelCase__ : List[Any] =BertModel(BertConfig.from_pretrained('''lysandre/tiny-bert-random''' ) ) lowerCamelCase__ : Dict =BertTokenizerFast.from_pretrained('''lysandre/tiny-bert-random''' ) self._test_infer_dynamic_axis(UpperCAmelCase_, UpperCAmelCase_, '''pt''' ) @require_tf @require_tokenizers @slow def snake_case ( self : str )-> List[Any]: from transformers import TFBertModel lowerCamelCase__ : Dict =TFBertModel(BertConfig.from_pretrained('''lysandre/tiny-bert-random''' ) ) lowerCamelCase__ : Union[str, Any] =BertTokenizerFast.from_pretrained('''lysandre/tiny-bert-random''' ) self._test_infer_dynamic_axis(UpperCAmelCase_, UpperCAmelCase_, '''tf''' ) def snake_case ( self : Union[str, Any], lowerCamelCase : str, lowerCamelCase : Tuple, lowerCamelCase : Tuple )-> List[Any]: lowerCamelCase__ : Optional[int] =FeatureExtractionPipeline(UpperCAmelCase_, UpperCAmelCase_ ) lowerCamelCase__ : Any =["input_ids", "token_type_ids", "attention_mask", "output_0", "output_1"] lowerCamelCase__ : Tuple =infer_shapes(UpperCAmelCase_, UpperCAmelCase_ ) # Assert all variables are present self.assertEqual(len(UpperCAmelCase_ ), len(UpperCAmelCase_ ) ) self.assertTrue(all(var_name in shapes for var_name in variable_names ) ) self.assertSequenceEqual(variable_names[:3], UpperCAmelCase_ ) self.assertSequenceEqual(variable_names[3:], UpperCAmelCase_ ) # Assert inputs are {0: batch, 1: sequence} for var_name in ["input_ids", "token_type_ids", "attention_mask"]: self.assertDictEqual(shapes[var_name], {0: '''batch''', 1: '''sequence'''} ) # Assert outputs are {0: batch, 1: sequence} and {0: batch} self.assertDictEqual(shapes['''output_0'''], {0: '''batch''', 1: '''sequence'''} ) self.assertDictEqual(shapes['''output_1'''], {0: '''batch'''} ) def snake_case ( self : Optional[Any] )-> List[str]: lowerCamelCase__ : Union[str, Any] =["input_ids", "attention_mask", "token_type_ids"] lowerCamelCase__ : Optional[Any] ={"input_ids": [1, 2, 3, 4], "attention_mask": [0, 0, 0, 0], "token_type_ids": [1, 1, 1, 1]} lowerCamelCase__ : int =ensure_valid_input(FuncContiguousArgs(), UpperCAmelCase_, UpperCAmelCase_ ) # Should have exactly the same number of args (all are valid) self.assertEqual(len(UpperCAmelCase_ ), 3 ) # Should have exactly the same input names self.assertEqual(set(UpperCAmelCase_ ), set(UpperCAmelCase_ ) ) # Parameter should be reordered according to their respective place in the function: # (input_ids, token_type_ids, attention_mask) self.assertEqual(UpperCAmelCase_, (tokens['''input_ids'''], tokens['''token_type_ids'''], tokens['''attention_mask''']) ) # Generated args are interleaved with another args (for instance parameter "past" in GPT2) lowerCamelCase__ : Any =ensure_valid_input(FuncNonContiguousArgs(), UpperCAmelCase_, UpperCAmelCase_ ) # Should have exactly the one arg (all before the one not provided "some_other_args") self.assertEqual(len(UpperCAmelCase_ ), 1 ) self.assertEqual(len(UpperCAmelCase_ ), 1 ) # Should have only "input_ids" self.assertEqual(inputs_args[0], tokens['''input_ids'''] ) self.assertEqual(ordered_input_names[0], '''input_ids''' ) def snake_case ( self : Dict )-> Any: lowerCamelCase__ : List[Any] =generate_identified_filename(Path('''/home/something/my_fake_model.onnx''' ), '''-test''' ) self.assertEqual('''/home/something/my_fake_model-test.onnx''', generated.as_posix() )

365

"""simple docstring""" import logging import os from typing import Dict, List, Optional, Union import torch import torch.nn as nn from accelerate.utils.imports import ( is_abit_bnb_available, is_abit_bnb_available, is_bnb_available, ) from ..big_modeling import dispatch_model, init_empty_weights from .dataclasses import BnbQuantizationConfig from .modeling import ( find_tied_parameters, get_balanced_memory, infer_auto_device_map, load_checkpoint_in_model, offload_weight, set_module_tensor_to_device, ) if is_bnb_available(): import bitsandbytes as bnb from copy import deepcopy _lowercase : Tuple = logging.getLogger(__name__) def snake_case__ ( __lowerCamelCase : torch.nn.Module , __lowerCamelCase : BnbQuantizationConfig , __lowerCamelCase : Union[str, os.PathLike] = None , __lowerCamelCase : Optional[Dict[str, Union[int, str, torch.device]]] = None , __lowerCamelCase : Optional[List[str]] = None , __lowerCamelCase : Optional[Dict[Union[int, str], Union[int, str]]] = None , __lowerCamelCase : Optional[Union[str, os.PathLike]] = None , __lowerCamelCase : bool = False , ): """simple docstring""" lowerCamelCase__ : str =bnb_quantization_config.load_in_abit lowerCamelCase__ : str =bnb_quantization_config.load_in_abit if load_in_abit and not is_abit_bnb_available(): raise ImportError( '''You have a version of `bitsandbytes` that is not compatible with 8bit quantization,''' ''' make sure you have the latest version of `bitsandbytes` installed.''' ) if load_in_abit and not is_abit_bnb_available(): raise ValueError( '''You have a version of `bitsandbytes` that is not compatible with 4bit quantization,''' '''make sure you have the latest version of `bitsandbytes` installed.''' ) lowerCamelCase__ : str =[] # custom device map if isinstance(__lowerCamelCase , __lowerCamelCase ) and len(device_map.keys() ) > 1: lowerCamelCase__ : Union[str, Any] =[key for key, value in device_map.items() if value in ['''disk''', '''cpu''']] # We keep some modules such as the lm_head in their original dtype for numerical stability reasons if bnb_quantization_config.skip_modules is None: lowerCamelCase__ : Any =get_keys_to_not_convert(__lowerCamelCase ) # add cpu modules to skip modules only for 4-bit modules if load_in_abit: bnb_quantization_config.skip_modules.extend(__lowerCamelCase ) lowerCamelCase__ : Tuple =bnb_quantization_config.skip_modules # We add the modules we want to keep in full precision if bnb_quantization_config.keep_in_fpaa_modules is None: lowerCamelCase__ : Optional[Any] =[] lowerCamelCase__ : List[Any] =bnb_quantization_config.keep_in_fpaa_modules modules_to_not_convert.extend(__lowerCamelCase ) # compatibility with peft lowerCamelCase__ : List[str] =load_in_abit lowerCamelCase__ : List[str] =load_in_abit lowerCamelCase__ : Union[str, Any] =get_parameter_device(__lowerCamelCase ) if model_device.type != "meta": # quantization of an already loaded model logger.warning( '''It is not recommended to quantize a loaded model. ''' '''The model should be instantiated under the `init_empty_weights` context manager.''' ) lowerCamelCase__ : str =replace_with_bnb_layers(__lowerCamelCase , __lowerCamelCase , modules_to_not_convert=__lowerCamelCase ) # convert param to the right dtype lowerCamelCase__ : Union[str, Any] =bnb_quantization_config.torch_dtype for name, param in model.state_dict().items(): if any(module_to_keep_in_fpaa in name for module_to_keep_in_fpaa in keep_in_fpaa_modules ): param.to(torch.floataa ) if param.dtype != torch.floataa: lowerCamelCase__ : Optional[int] =name.replace('''.weight''' , '''''' ).replace('''.bias''' , '''''' ) lowerCamelCase__ : Dict =getattr(__lowerCamelCase , __lowerCamelCase , __lowerCamelCase ) if param is not None: param.to(torch.floataa ) elif torch.is_floating_point(__lowerCamelCase ): param.to(__lowerCamelCase ) if model_device.type == "cuda": # move everything to cpu in the first place because we can't do quantization if the weights are already on cuda model.cuda(torch.cuda.current_device() ) torch.cuda.empty_cache() elif torch.cuda.is_available(): model.to(torch.cuda.current_device() ) else: raise RuntimeError('''No GPU found. A GPU is needed for quantization.''' ) logger.info( f'''The model device type is {model_device.type}. However, cuda is needed for quantization.''' '''We move the model to cuda.''' ) return model elif weights_location is None: raise RuntimeError( f'''`weights_location` needs to be the folder path containing the weights of the model, but we found {weights_location} ''' ) else: with init_empty_weights(): lowerCamelCase__ : Dict =replace_with_bnb_layers( __lowerCamelCase , __lowerCamelCase , modules_to_not_convert=__lowerCamelCase ) lowerCamelCase__ : Optional[int] =get_quantized_model_device_map( __lowerCamelCase , __lowerCamelCase , __lowerCamelCase , max_memory=__lowerCamelCase , no_split_module_classes=__lowerCamelCase , ) if offload_state_dict is None and device_map is not None and "disk" in device_map.values(): lowerCamelCase__ : List[str] =True lowerCamelCase__ : Dict =any(x in list(device_map.values() ) for x in ['''cpu''', '''disk'''] ) load_checkpoint_in_model( __lowerCamelCase , __lowerCamelCase , __lowerCamelCase , dtype=bnb_quantization_config.torch_dtype , offload_folder=__lowerCamelCase , offload_state_dict=__lowerCamelCase , keep_in_fpaa_modules=bnb_quantization_config.keep_in_fpaa_modules , offload_abit_bnb=load_in_abit and offload , ) return dispatch_model(__lowerCamelCase , device_map=__lowerCamelCase , offload_dir=__lowerCamelCase ) def snake_case__ ( __lowerCamelCase : Dict , __lowerCamelCase : Any , __lowerCamelCase : Optional[Any]=None , __lowerCamelCase : Tuple=None , __lowerCamelCase : Optional[int]=None ): """simple docstring""" if device_map is None: if torch.cuda.is_available(): lowerCamelCase__ : List[Any] ={'''''': torch.cuda.current_device()} else: raise RuntimeError('''No GPU found. A GPU is needed for quantization.''' ) logger.info('''The device_map was not initialized.''' '''Setting device_map to `{\'\':torch.cuda.current_device()}`.''' ) if isinstance(__lowerCamelCase , __lowerCamelCase ): if device_map not in ["auto", "balanced", "balanced_low_0", "sequential"]: raise ValueError( '''If passing a string for `device_map`, please choose \'auto\', \'balanced\', \'balanced_low_0\' or ''' '''\'sequential\'.''' ) lowerCamelCase__ : List[Any] ={} special_dtypes.update( { name: bnb_quantization_config.torch_dtype for name, _ in model.named_parameters() if any(m in name for m in bnb_quantization_config.skip_modules ) } ) special_dtypes.update( { name: torch.floataa for name, _ in model.named_parameters() if any(m in name for m in bnb_quantization_config.keep_in_fpaa_modules ) } ) lowerCamelCase__ : int ={} lowerCamelCase__ : Optional[int] =special_dtypes lowerCamelCase__ : List[str] =no_split_module_classes lowerCamelCase__ : Tuple =bnb_quantization_config.target_dtype # get max_memory for each device. if device_map != "sequential": lowerCamelCase__ : List[str] =get_balanced_memory( __lowerCamelCase , low_zero=(device_map == '''balanced_low_0''') , max_memory=__lowerCamelCase , **__lowerCamelCase , ) lowerCamelCase__ : str =max_memory lowerCamelCase__ : Any =infer_auto_device_map(__lowerCamelCase , **__lowerCamelCase ) if isinstance(__lowerCamelCase , __lowerCamelCase ): # check if don't have any quantized module on the cpu lowerCamelCase__ : List[str] =bnb_quantization_config.skip_modules + bnb_quantization_config.keep_in_fpaa_modules lowerCamelCase__ : List[str] ={ key: device_map[key] for key in device_map.keys() if key not in modules_not_to_convert } for device in ["cpu", "disk"]: if device in device_map_without_some_modules.values(): if bnb_quantization_config.load_in_abit: raise ValueError( ''' Some modules are dispatched on the CPU or the disk. Make sure you have enough GPU RAM to fit the quantized model. If you want to dispatch the model on the CPU or the disk while keeping these modules in `torch_dtype`, you need to pass a custom `device_map` to `load_and_quantize_model`. Check https://huggingface.co/docs/accelerate/main/en/usage_guides/quantization#offload-modules-to-cpu-and-disk for more details. ''' ) else: logger.info( '''Some modules are are offloaded to the CPU or the disk. Note that these modules will be converted to 8-bit''' ) del device_map_without_some_modules return device_map def snake_case__ ( __lowerCamelCase : List[Any] , __lowerCamelCase : Union[str, Any] , __lowerCamelCase : Union[str, Any]=None , __lowerCamelCase : str=None ): """simple docstring""" if modules_to_not_convert is None: lowerCamelCase__ : Dict =[] lowerCamelCase__ , lowerCamelCase__ : List[Any] =_replace_with_bnb_layers( __lowerCamelCase , __lowerCamelCase , __lowerCamelCase , __lowerCamelCase ) if not has_been_replaced: logger.warning( '''You are loading your model in 8bit or 4bit but no linear modules were found in your model.''' ''' this can happen for some architectures such as gpt2 that uses Conv1D instead of Linear layers.''' ''' Please double check your model architecture, or submit an issue on github if you think this is''' ''' a bug.''' ) return model def snake_case__ ( __lowerCamelCase : List[Any] , __lowerCamelCase : int , __lowerCamelCase : int=None , __lowerCamelCase : Optional[Any]=None , ): """simple docstring""" lowerCamelCase__ : Tuple =False for name, module in model.named_children(): if current_key_name is None: lowerCamelCase__ : Optional[Any] =[] current_key_name.append(__lowerCamelCase ) if isinstance(__lowerCamelCase , nn.Linear ) and name not in modules_to_not_convert: # Check if the current key is not in the `modules_to_not_convert` lowerCamelCase__ : Optional[Any] ='''.'''.join(__lowerCamelCase ) lowerCamelCase__ : Tuple =True for key in modules_to_not_convert: if ( (key in current_key_name_str) and (key + "." in current_key_name_str) ) or key == current_key_name_str: lowerCamelCase__ : Any =False break if proceed: # Load bnb module with empty weight and replace ``nn.Linear` module if bnb_quantization_config.load_in_abit: lowerCamelCase__ : List[str] =bnb.nn.LinearabitLt( module.in_features , module.out_features , module.bias is not None , has_fpaa_weights=__lowerCamelCase , threshold=bnb_quantization_config.llm_inta_threshold , ) elif bnb_quantization_config.load_in_abit: lowerCamelCase__ : str =bnb.nn.Linearabit( module.in_features , module.out_features , module.bias is not None , bnb_quantization_config.bnb_abit_compute_dtype , compress_statistics=bnb_quantization_config.bnb_abit_use_double_quant , quant_type=bnb_quantization_config.bnb_abit_quant_type , ) else: raise ValueError('''load_in_8bit and load_in_4bit can\'t be both False''' ) lowerCamelCase__ : Any =module.weight.data if module.bias is not None: lowerCamelCase__ : Any =module.bias.data bnb_module.requires_grad_(__lowerCamelCase ) setattr(__lowerCamelCase , __lowerCamelCase , __lowerCamelCase ) lowerCamelCase__ : str =True if len(list(module.children() ) ) > 0: lowerCamelCase__ , lowerCamelCase__ : Optional[int] =_replace_with_bnb_layers( __lowerCamelCase , __lowerCamelCase , __lowerCamelCase , __lowerCamelCase ) lowerCamelCase__ : Any =has_been_replaced | _has_been_replaced # Remove the last key for recursion current_key_name.pop(-1 ) return model, has_been_replaced def snake_case__ ( __lowerCamelCase : Union[str, Any] ): """simple docstring""" # Create a copy of the model with init_empty_weights(): lowerCamelCase__ : Optional[Any] =deepcopy(__lowerCamelCase ) # this has 0 cost since it is done inside `init_empty_weights` context manager` lowerCamelCase__ : Union[str, Any] =find_tied_parameters(__lowerCamelCase ) # For compatibility with Accelerate < 0.18 if isinstance(__lowerCamelCase , __lowerCamelCase ): lowerCamelCase__ : List[str] =sum(list(tied_params.values() ) , [] ) + list(tied_params.keys() ) else: lowerCamelCase__ : Any =sum(__lowerCamelCase , [] ) lowerCamelCase__ : Any =len(__lowerCamelCase ) > 0 # Check if it is a base model lowerCamelCase__ : Optional[Any] =False if hasattr(__lowerCamelCase , '''base_model_prefix''' ): lowerCamelCase__ : Dict =not hasattr(__lowerCamelCase , model.base_model_prefix ) # Ignore this for base models (BertModel, GPT2Model, etc.) if (not has_tied_params) and is_base_model: return [] # otherwise they have an attached head lowerCamelCase__ : List[str] =list(model.named_children() ) lowerCamelCase__ : Any =[list_modules[-1][0]] # add last module together with tied weights lowerCamelCase__ : Optional[Any] =set(__lowerCamelCase ) - set(__lowerCamelCase ) lowerCamelCase__ : List[str] =list(set(__lowerCamelCase ) ) + list(__lowerCamelCase ) # remove ".weight" from the keys lowerCamelCase__ : Optional[Any] =['''.weight''', '''.bias'''] lowerCamelCase__ : List[Any] =[] for name in list_untouched: for name_to_remove in names_to_remove: if name_to_remove in name: lowerCamelCase__ : Union[str, Any] =name.replace(__lowerCamelCase , '''''' ) filtered_module_names.append(__lowerCamelCase ) return filtered_module_names def snake_case__ ( __lowerCamelCase : Tuple ): """simple docstring""" for m in model.modules(): if isinstance(__lowerCamelCase , bnb.nn.Linearabit ): return True return False def snake_case__ ( __lowerCamelCase : nn.Module ): """simple docstring""" return next(parameter.parameters() ).device def snake_case__ ( __lowerCamelCase : List[str] , __lowerCamelCase : Tuple , __lowerCamelCase : Any , __lowerCamelCase : Any , __lowerCamelCase : Optional[int] , __lowerCamelCase : int , __lowerCamelCase : Optional[int] ): """simple docstring""" # if it is not quantized, we quantize and offload the quantized weights and the SCB stats if fpaa_statistics is None: set_module_tensor_to_device(__lowerCamelCase , __lowerCamelCase , 0 , dtype=__lowerCamelCase , value=__lowerCamelCase ) lowerCamelCase__ : Union[str, Any] =param_name lowerCamelCase__ : Dict =model if "." in tensor_name: lowerCamelCase__ : Optional[int] =tensor_name.split('''.''' ) for split in splits[:-1]: lowerCamelCase__ : Union[str, Any] =getattr(__lowerCamelCase , __lowerCamelCase ) if new_module is None: raise ValueError(f'''{module} has no attribute {split}.''' ) lowerCamelCase__ : Union[str, Any] =new_module lowerCamelCase__ : List[Any] =splits[-1] # offload weights lowerCamelCase__ : Optional[Any] =False offload_weight(module._parameters[tensor_name] , __lowerCamelCase , __lowerCamelCase , index=__lowerCamelCase ) if hasattr(module._parameters[tensor_name] , '''SCB''' ): offload_weight( module._parameters[tensor_name].SCB , param_name.replace('''weight''' , '''SCB''' ) , __lowerCamelCase , index=__lowerCamelCase , ) else: offload_weight(__lowerCamelCase , __lowerCamelCase , __lowerCamelCase , index=__lowerCamelCase ) offload_weight(__lowerCamelCase , param_name.replace('''weight''' , '''SCB''' ) , __lowerCamelCase , index=__lowerCamelCase ) set_module_tensor_to_device(__lowerCamelCase , __lowerCamelCase , '''meta''' , dtype=__lowerCamelCase , value=torch.empty(*param.size() ) )

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import string def A_ ( A__ ) -> None: for key in range(len(string.ascii_uppercase ) ): a__ : int = '' for symbol in message: if symbol in string.ascii_uppercase: a__ : List[Any] = string.ascii_uppercase.find(A__ ) a__ : str = num - key if num < 0: a__ : int = num + len(string.ascii_uppercase ) a__ : List[str] = translated + string.ascii_uppercase[num] else: a__ : Any = translated + symbol print(F'Decryption using Key #{key}: {translated}' ) def A_ ( ) -> None: a__ : str = input('Encrypted message: ' ) a__ : str = message.upper() decrypt(A__ ) if __name__ == "__main__": import doctest doctest.testmod() main()

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import argparse from pathlib import Path import torch from transformers import OPTConfig, OPTModel from transformers.utils import logging logging.set_verbosity_info() lowercase : Any = logging.get_logger(__name__) def A_ ( A__ ) -> List[str]: a__ : Union[str, Any] = torch.load(A__ , map_location='cpu' ) if "model" in sd.keys(): a__ : Tuple = torch.load(A__ , map_location='cpu' )['model'] # pop unnecessary weights a__ : Optional[Any] = [ 'decoder.version', 'decoder.output_projection.weight', ] for key in keys_to_delete: if key in sd: sd.pop(A__ ) a__ : Union[str, Any] = { 'decoder.project_in_dim.weight': 'decoder.project_in.weight', 'decoder.project_out_dim.weight': 'decoder.project_out.weight', 'decoder.layer_norm.weight': 'decoder.final_layer_norm.weight', 'decoder.layer_norm.bias': 'decoder.final_layer_norm.bias', } for old_key, new_key in keys_to_rename.items(): if old_key in sd: a__ : Any = sd.pop(A__ ) a__ : Optional[int] = list(sd.keys() ) for key in keys: if ".qkv_proj." in key: a__ : str = sd[key] # We split QKV in separate Q,K,V a__ : Union[str, Any] = key.replace('.qkv_proj.' , '.q_proj.' ) a__ : int = key.replace('.qkv_proj.' , '.k_proj.' ) a__ : Optional[int] = key.replace('.qkv_proj.' , '.v_proj.' ) a__ : List[Any] = value.shape[0] assert depth % 3 == 0 # `SequeuceParallelTransformerBlock` has QKV weight is separated in K,V,Q despite the naming: # https://cs.github.com/facebookresearch/metaseq/blob/51871bd73cd04c038f239ea2a26db1d7f6b37927/metaseq/modules/sequence_parallel_transformer_layer.py#L97 a__ , a__ , a__ : Any = torch.split(A__ , depth // 3 , dim=0 ) a__ : int = q a__ : List[Any] = k a__ : int = v del sd[key] return sd @torch.no_grad() def A_ ( A__ , A__ , A__=None ) -> Union[str, Any]: a__ : Union[str, Any] = load_checkpoint(A__ ) if config is not None: a__ : List[Any] = OPTConfig.from_pretrained(A__ ) else: a__ : int = OPTConfig() a__ : Optional[int] = OPTModel(A__ ).half().eval() model.load_state_dict(A__ ) # Check results Path(A__ ).mkdir(exist_ok=A__ ) model.save_pretrained(A__ ) if __name__ == "__main__": lowercase : str = argparse.ArgumentParser() # Required parameters parser.add_argument( """--fairseq_path""", type=str, help=( """path to fairseq checkpoint in correct format. You can find all checkpoints in the correct format here:""" """ https://huggingface.co/models?other=opt_metasq""" ), ) parser.add_argument("""--pytorch_dump_folder_path""", default=None, type=str, help="""Path to the output PyTorch model.""") parser.add_argument("""--hf_config""", default=None, type=str, help="""Define HF config.""") lowercase : Any = parser.parse_args() convert_opt_checkpoint(args.fairseq_path, args.pytorch_dump_folder_path, config=args.hf_config)

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"""simple docstring""" def a__ ( snake_case__ , snake_case__ , snake_case__ ) -> List[str]: if n == 0: return 1 elif n % 2 == 1: return (binary_exponentiation(snake_case__ , n - 1 , snake_case__ ) * a) % mod else: lowerCamelCase = binary_exponentiation(snake_case__ , n / 2 , snake_case__ ) return (b * b) % mod # a prime number lowerCAmelCase : Optional[int] = 701 lowerCAmelCase : Any = 10_0000_0000 lowerCAmelCase : Tuple = 10 # using binary exponentiation function, O(log(p)): print((a / b) % p == (a * binary_exponentiation(b, p - 2, p)) % p) print((a / b) % p == (a * b ** (p - 2)) % p)

351

"""simple docstring""" import logging import os from dataclasses import dataclass from typing import List, Optional, Union import tqdm from filelock import FileLock from transformers import ( BartTokenizer, BartTokenizerFast, DataProcessor, PreTrainedTokenizer, RobertaTokenizer, RobertaTokenizerFast, XLMRobertaTokenizer, is_tf_available, is_torch_available, ) lowerCAmelCase : List[str] = logging.getLogger(__name__) @dataclass(frozen=UpperCAmelCase__ ) class __magic_name__ : '''simple docstring''' __UpperCamelCase = 42 __UpperCamelCase = 42 __UpperCamelCase = None __UpperCamelCase = None __UpperCamelCase = None @dataclass(frozen=UpperCAmelCase__ ) class __magic_name__ : '''simple docstring''' __UpperCamelCase = 42 __UpperCamelCase = None __UpperCamelCase = None __UpperCamelCase = None __UpperCamelCase = None if is_torch_available(): import torch from torch.utils.data import Dataset class __magic_name__ ( UpperCAmelCase__ ): '''simple docstring''' __UpperCamelCase = 42 def __init__( self , _a , _a , _a , _a = None , _a=False , _a = False , ): """simple docstring""" lowerCamelCase = hans_processors[task]() lowerCamelCase = os.path.join( _a , """cached_{}_{}_{}_{}""".format( """dev""" if evaluate else """train""" , tokenizer.__class__.__name__ , str(_a ) , _a , ) , ) lowerCamelCase = processor.get_labels() if tokenizer.__class__ in ( RobertaTokenizer, RobertaTokenizerFast, XLMRobertaTokenizer, BartTokenizer, BartTokenizerFast, ): # HACK(label indices are swapped in RoBERTa pretrained model) lowerCamelCase , lowerCamelCase = label_list[2], label_list[1] lowerCamelCase = label_list # Make sure only the first process in distributed training processes the dataset, # and the others will use the cache. lowerCamelCase = cached_features_file + """.lock""" with FileLock(_a ): if os.path.exists(_a ) and not overwrite_cache: logger.info(f'Loading features from cached file {cached_features_file}' ) lowerCamelCase = torch.load(_a ) else: logger.info(f'Creating features from dataset file at {data_dir}' ) lowerCamelCase = ( processor.get_dev_examples(_a ) if evaluate else processor.get_train_examples(_a ) ) logger.info("""Training examples: %s""" , len(_a ) ) lowerCamelCase = hans_convert_examples_to_features(_a , _a , _a , _a ) logger.info("""Saving features into cached file %s""" , _a ) torch.save(self.features , _a ) def __len__( self ): """simple docstring""" return len(self.features ) def __getitem__( self , _a ): """simple docstring""" return self.features[i] def _lowerCAmelCase ( self ): """simple docstring""" return self.label_list if is_tf_available(): import tensorflow as tf class __magic_name__ : '''simple docstring''' __UpperCamelCase = 42 def __init__( self , _a , _a , _a , _a = 128 , _a=False , _a = False , ): """simple docstring""" lowerCamelCase = hans_processors[task]() lowerCamelCase = processor.get_labels() if tokenizer.__class__ in ( RobertaTokenizer, RobertaTokenizerFast, XLMRobertaTokenizer, BartTokenizer, BartTokenizerFast, ): # HACK(label indices are swapped in RoBERTa pretrained model) lowerCamelCase , lowerCamelCase = label_list[2], label_list[1] lowerCamelCase = label_list lowerCamelCase = processor.get_dev_examples(_a ) if evaluate else processor.get_train_examples(_a ) lowerCamelCase = hans_convert_examples_to_features(_a , _a , _a , _a ) def gen(): for ex_index, ex in tqdm.tqdm(enumerate(self.features ) , desc="""convert examples to features""" ): if ex_index % 10_000 == 0: logger.info("""Writing example %d of %d""" % (ex_index, len(_a )) ) yield ( { "example_id": 0, "input_ids": ex.input_ids, "attention_mask": ex.attention_mask, "token_type_ids": ex.token_type_ids, }, ex.label, ) lowerCamelCase = tf.data.Dataset.from_generator( _a , ( { """example_id""": tf.intaa, """input_ids""": tf.intaa, """attention_mask""": tf.intaa, """token_type_ids""": tf.intaa, }, tf.intaa, ) , ( { """example_id""": tf.TensorShape([] ), """input_ids""": tf.TensorShape([None, None] ), """attention_mask""": tf.TensorShape([None, None] ), """token_type_ids""": tf.TensorShape([None, None] ), }, tf.TensorShape([] ), ) , ) def _lowerCAmelCase ( self ): """simple docstring""" return self.dataset def __len__( self ): """simple docstring""" return len(self.features ) def __getitem__( self , _a ): """simple docstring""" return self.features[i] def _lowerCAmelCase ( self ): """simple docstring""" return self.label_list class __magic_name__ ( UpperCAmelCase__ ): '''simple docstring''' def _lowerCAmelCase ( self , _a ): """simple docstring""" return self._create_examples(self._read_tsv(os.path.join(_a , """heuristics_train_set.txt""" ) ) , """train""" ) def _lowerCAmelCase ( self , _a ): """simple docstring""" return self._create_examples(self._read_tsv(os.path.join(_a , """heuristics_evaluation_set.txt""" ) ) , """dev""" ) def _lowerCAmelCase ( self ): """simple docstring""" return ["contradiction", "entailment", "neutral"] def _lowerCAmelCase ( self , _a , _a ): """simple docstring""" lowerCamelCase = [] for i, line in enumerate(_a ): if i == 0: continue lowerCamelCase = """%s-%s""" % (set_type, line[0]) lowerCamelCase = line[5] lowerCamelCase = line[6] lowerCamelCase = line[7][2:] if line[7].startswith("""ex""" ) else line[7] lowerCamelCase = line[0] examples.append(InputExample(guid=_a , text_a=_a , text_b=_a , label=_a , pairID=_a ) ) return examples def a__ ( snake_case__ , snake_case__ , snake_case__ , snake_case__ , ) -> Tuple: lowerCamelCase = {label: i for i, label in enumerate(snake_case__ )} lowerCamelCase = [] for ex_index, example in tqdm.tqdm(enumerate(snake_case__ ) , desc="""convert examples to features""" ): if ex_index % 1_00_00 == 0: logger.info("""Writing example %d""" % (ex_index) ) lowerCamelCase = tokenizer( example.text_a , example.text_b , add_special_tokens=snake_case__ , max_length=snake_case__ , padding="""max_length""" , truncation=snake_case__ , return_overflowing_tokens=snake_case__ , ) lowerCamelCase = label_map[example.label] if example.label in label_map else 0 lowerCamelCase = int(example.pairID ) features.append(InputFeatures(**snake_case__ , label=snake_case__ , pairID=snake_case__ ) ) for i, example in enumerate(examples[:5] ): logger.info("""*** Example ***""" ) logger.info(F'guid: {example}' ) logger.info(F'features: {features[i]}' ) return features lowerCAmelCase : List[str] = { """hans""": 3, } lowerCAmelCase : str = { """hans""": HansProcessor, }

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import shutil import tempfile import unittest import numpy as np import pytest from transformers.testing_utils import require_vision from transformers.utils import is_vision_available if is_vision_available(): from PIL import Image from transformers import AutoProcessor, BlipaProcessor, BlipImageProcessor, GPTaTokenizer, PreTrainedTokenizerFast @require_vision class _SCREAMING_SNAKE_CASE ( unittest.TestCase ): def SCREAMING_SNAKE_CASE_( self ) -> int: lowerCamelCase_ = tempfile.mkdtemp() lowerCamelCase_ = BlipImageProcessor() lowerCamelCase_ = GPTaTokenizer.from_pretrained("hf-internal-testing/tiny-random-GPT2Model" ) lowerCamelCase_ = BlipaProcessor(lowercase , lowercase ) processor.save_pretrained(self.tmpdirname ) def SCREAMING_SNAKE_CASE_( self , **lowercase ) -> Union[str, Any]: return AutoProcessor.from_pretrained(self.tmpdirname , **lowercase ).tokenizer def SCREAMING_SNAKE_CASE_( self , **lowercase ) -> str: return AutoProcessor.from_pretrained(self.tmpdirname , **lowercase ).image_processor def SCREAMING_SNAKE_CASE_( self ) -> Optional[int]: shutil.rmtree(self.tmpdirname ) def SCREAMING_SNAKE_CASE_( self ) -> List[Any]: lowerCamelCase_ = [np.random.randint(255 , size=(3, 30, 400) , dtype=np.uinta )] lowerCamelCase_ = [Image.fromarray(np.moveaxis(lowercase , 0 , -1 ) ) for x in image_inputs] return image_inputs def SCREAMING_SNAKE_CASE_( self ) -> Optional[Any]: lowerCamelCase_ = BlipaProcessor(tokenizer=self.get_tokenizer() , image_processor=self.get_image_processor() ) processor.save_pretrained(self.tmpdirname ) lowerCamelCase_ = self.get_tokenizer(bos_token="(BOS)" , eos_token="(EOS)" ) lowerCamelCase_ = self.get_image_processor(do_normalize=lowercase , padding_value=1.0 ) lowerCamelCase_ = BlipaProcessor.from_pretrained( self.tmpdirname , bos_token="(BOS)" , eos_token="(EOS)" , do_normalize=lowercase , padding_value=1.0 ) self.assertEqual(processor.tokenizer.get_vocab() , tokenizer_add_kwargs.get_vocab() ) self.assertIsInstance(processor.tokenizer , lowercase ) self.assertEqual(processor.image_processor.to_json_string() , image_processor_add_kwargs.to_json_string() ) self.assertIsInstance(processor.image_processor , lowercase ) def SCREAMING_SNAKE_CASE_( self ) -> str: lowerCamelCase_ = self.get_image_processor() lowerCamelCase_ = self.get_tokenizer() lowerCamelCase_ = BlipaProcessor(tokenizer=lowercase , image_processor=lowercase ) lowerCamelCase_ = self.prepare_image_inputs() lowerCamelCase_ = image_processor(lowercase , return_tensors="np" ) lowerCamelCase_ = processor(images=lowercase , return_tensors="np" ) for key in input_feat_extract.keys(): self.assertAlmostEqual(input_feat_extract[key].sum() , input_processor[key].sum() , delta=1e-2 ) def SCREAMING_SNAKE_CASE_( self ) -> Optional[int]: lowerCamelCase_ = self.get_image_processor() lowerCamelCase_ = self.get_tokenizer() lowerCamelCase_ = BlipaProcessor(tokenizer=lowercase , image_processor=lowercase ) lowerCamelCase_ = "lower newer" lowerCamelCase_ = processor(text=lowercase ) lowerCamelCase_ = tokenizer(lowercase , return_token_type_ids=lowercase ) for key in encoded_tok.keys(): self.assertListEqual(encoded_tok[key] , encoded_processor[key] ) def SCREAMING_SNAKE_CASE_( self ) -> Optional[Any]: lowerCamelCase_ = self.get_image_processor() lowerCamelCase_ = self.get_tokenizer() lowerCamelCase_ = BlipaProcessor(tokenizer=lowercase , image_processor=lowercase ) lowerCamelCase_ = "lower newer" lowerCamelCase_ = self.prepare_image_inputs() lowerCamelCase_ = processor(text=lowercase , images=lowercase ) self.assertListEqual(list(inputs.keys() ) , ["pixel_values", "input_ids", "attention_mask"] ) # test if it raises when no input is passed with pytest.raises(lowercase ): processor() def SCREAMING_SNAKE_CASE_( self ) -> Tuple: lowerCamelCase_ = self.get_image_processor() lowerCamelCase_ = self.get_tokenizer() lowerCamelCase_ = BlipaProcessor(tokenizer=lowercase , image_processor=lowercase ) lowerCamelCase_ = [[1, 4, 5, 8, 1, 0, 8], [3, 4, 3, 1, 1, 8, 9]] lowerCamelCase_ = processor.batch_decode(lowercase ) lowerCamelCase_ = tokenizer.batch_decode(lowercase ) self.assertListEqual(lowercase , lowercase ) def SCREAMING_SNAKE_CASE_( self ) -> Optional[int]: lowerCamelCase_ = self.get_image_processor() lowerCamelCase_ = self.get_tokenizer() lowerCamelCase_ = BlipaProcessor(tokenizer=lowercase , image_processor=lowercase ) lowerCamelCase_ = "lower newer" lowerCamelCase_ = self.prepare_image_inputs() lowerCamelCase_ = processor(text=lowercase , images=lowercase ) # For now the processor supports only ['pixel_values', 'input_ids', 'attention_mask'] self.assertListEqual(list(inputs.keys() ) , ["pixel_values", "input_ids", "attention_mask"] )

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def lowerCAmelCase__(__snake_case ,__snake_case ) -> float: '''simple docstring''' if mass < 0: raise ValueError('''The mass of a body cannot be negative''' ) return 0.5 * mass * abs(__snake_case ) * abs(__snake_case ) if __name__ == "__main__": import doctest doctest.testmod(verbose=True)

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import json import os import shutil import tempfile import unittest import numpy as np import pytest from transformers import CLIPTokenizer, CLIPTokenizerFast from transformers.models.clip.tokenization_clip import VOCAB_FILES_NAMES from transformers.testing_utils import require_vision from transformers.utils import IMAGE_PROCESSOR_NAME, is_vision_available if is_vision_available(): from PIL import Image from transformers import CLIPImageProcessor, CLIPProcessor @require_vision class lowerCAmelCase_ ( unittest.TestCase ): '''simple docstring''' def UpperCamelCase__ ( self ): snake_case_ = tempfile.mkdtemp() # fmt: off snake_case_ = ['''l''', '''o''', '''w''', '''e''', '''r''', '''s''', '''t''', '''i''', '''d''', '''n''', '''lo''', '''l</w>''', '''w</w>''', '''r</w>''', '''t</w>''', '''low</w>''', '''er</w>''', '''lowest</w>''', '''newer</w>''', '''wider''', '''<unk>''', '''<|startoftext|>''', '''<|endoftext|>'''] # fmt: on snake_case_ = dict(zip(_UpperCAmelCase , range(len(_UpperCAmelCase ) ) ) ) snake_case_ = ['''#version: 0.2''', '''l o''', '''lo w</w>''', '''e r</w>''', ''''''] snake_case_ = {'''unk_token''': '''<unk>'''} snake_case_ = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['''vocab_file'''] ) snake_case_ = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['''merges_file'''] ) with open(self.vocab_file , '''w''' , encoding='''utf-8''' ) as fp: fp.write(json.dumps(_UpperCAmelCase ) + '''\n''' ) with open(self.merges_file , '''w''' , encoding='''utf-8''' ) as fp: fp.write('''\n'''.join(_UpperCAmelCase ) ) snake_case_ = { '''do_resize''': True, '''size''': 20, '''do_center_crop''': True, '''crop_size''': 18, '''do_normalize''': True, '''image_mean''': [0.48_145_466, 0.4_578_275, 0.40_821_073], '''image_std''': [0.26_862_954, 0.26_130_258, 0.27_577_711], } snake_case_ = os.path.join(self.tmpdirname , _UpperCAmelCase ) with open(self.image_processor_file , '''w''' , encoding='''utf-8''' ) as fp: json.dump(_UpperCAmelCase , _UpperCAmelCase ) def UpperCamelCase__ ( self , **_UpperCAmelCase ): return CLIPTokenizer.from_pretrained(self.tmpdirname , **_UpperCAmelCase ) def UpperCamelCase__ ( self , **_UpperCAmelCase ): return CLIPTokenizerFast.from_pretrained(self.tmpdirname , **_UpperCAmelCase ) def UpperCamelCase__ ( self , **_UpperCAmelCase ): return CLIPImageProcessor.from_pretrained(self.tmpdirname , **_UpperCAmelCase ) def UpperCamelCase__ ( self ): shutil.rmtree(self.tmpdirname ) def UpperCamelCase__ ( self ): snake_case_ = [np.random.randint(2_55 , size=(3, 30, 4_00) , dtype=np.uinta )] snake_case_ = [Image.fromarray(np.moveaxis(_UpperCAmelCase , 0 , -1 ) ) for x in image_inputs] return image_inputs def UpperCamelCase__ ( self ): snake_case_ = self.get_tokenizer() snake_case_ = self.get_rust_tokenizer() snake_case_ = self.get_image_processor() snake_case_ = CLIPProcessor(tokenizer=_UpperCAmelCase , image_processor=_UpperCAmelCase ) processor_slow.save_pretrained(self.tmpdirname ) snake_case_ = CLIPProcessor.from_pretrained(self.tmpdirname , use_fast=_UpperCAmelCase ) snake_case_ = CLIPProcessor(tokenizer=_UpperCAmelCase , image_processor=_UpperCAmelCase ) processor_fast.save_pretrained(self.tmpdirname ) snake_case_ = CLIPProcessor.from_pretrained(self.tmpdirname ) self.assertEqual(processor_slow.tokenizer.get_vocab() , tokenizer_slow.get_vocab() ) self.assertEqual(processor_fast.tokenizer.get_vocab() , tokenizer_fast.get_vocab() ) self.assertEqual(tokenizer_slow.get_vocab() , tokenizer_fast.get_vocab() ) self.assertIsInstance(processor_slow.tokenizer , _UpperCAmelCase ) self.assertIsInstance(processor_fast.tokenizer , _UpperCAmelCase ) self.assertEqual(processor_slow.image_processor.to_json_string() , image_processor.to_json_string() ) self.assertEqual(processor_fast.image_processor.to_json_string() , image_processor.to_json_string() ) self.assertIsInstance(processor_slow.image_processor , _UpperCAmelCase ) self.assertIsInstance(processor_fast.image_processor , _UpperCAmelCase ) def UpperCamelCase__ ( self ): snake_case_ = CLIPProcessor(tokenizer=self.get_tokenizer() , image_processor=self.get_image_processor() ) processor.save_pretrained(self.tmpdirname ) snake_case_ = self.get_tokenizer(bos_token='''(BOS)''' , eos_token='''(EOS)''' ) snake_case_ = self.get_image_processor(do_normalize=_UpperCAmelCase , padding_value=1.0 ) snake_case_ = CLIPProcessor.from_pretrained( self.tmpdirname , bos_token='''(BOS)''' , eos_token='''(EOS)''' , do_normalize=_UpperCAmelCase , padding_value=1.0 ) self.assertEqual(processor.tokenizer.get_vocab() , tokenizer_add_kwargs.get_vocab() ) self.assertIsInstance(processor.tokenizer , _UpperCAmelCase ) self.assertEqual(processor.image_processor.to_json_string() , image_processor_add_kwargs.to_json_string() ) self.assertIsInstance(processor.image_processor , _UpperCAmelCase ) def UpperCamelCase__ ( self ): snake_case_ = self.get_image_processor() snake_case_ = self.get_tokenizer() snake_case_ = CLIPProcessor(tokenizer=_UpperCAmelCase , image_processor=_UpperCAmelCase ) snake_case_ = self.prepare_image_inputs() snake_case_ = image_processor(_UpperCAmelCase , return_tensors='''np''' ) snake_case_ = processor(images=_UpperCAmelCase , return_tensors='''np''' ) for key in input_image_proc.keys(): self.assertAlmostEqual(input_image_proc[key].sum() , input_processor[key].sum() , delta=1E-2 ) def UpperCamelCase__ ( self ): snake_case_ = self.get_image_processor() snake_case_ = self.get_tokenizer() snake_case_ = CLIPProcessor(tokenizer=_UpperCAmelCase , image_processor=_UpperCAmelCase ) snake_case_ = '''lower newer''' snake_case_ = processor(text=_UpperCAmelCase ) snake_case_ = tokenizer(_UpperCAmelCase ) for key in encoded_tok.keys(): self.assertListEqual(encoded_tok[key] , encoded_processor[key] ) def UpperCamelCase__ ( self ): snake_case_ = self.get_image_processor() snake_case_ = self.get_tokenizer() snake_case_ = CLIPProcessor(tokenizer=_UpperCAmelCase , image_processor=_UpperCAmelCase ) snake_case_ = '''lower newer''' snake_case_ = self.prepare_image_inputs() snake_case_ = processor(text=_UpperCAmelCase , images=_UpperCAmelCase ) self.assertListEqual(list(inputs.keys() ) , ['''input_ids''', '''attention_mask''', '''pixel_values'''] ) # test if it raises when no input is passed with pytest.raises(_UpperCAmelCase ): processor() def UpperCamelCase__ ( self ): snake_case_ = self.get_image_processor() snake_case_ = self.get_tokenizer() snake_case_ = CLIPProcessor(tokenizer=_UpperCAmelCase , image_processor=_UpperCAmelCase ) snake_case_ = [[1, 4, 5, 8, 1, 0, 8], [3, 4, 3, 1, 1, 8, 9]] snake_case_ = processor.batch_decode(_UpperCAmelCase ) snake_case_ = tokenizer.batch_decode(_UpperCAmelCase ) self.assertListEqual(_UpperCAmelCase , _UpperCAmelCase ) def UpperCamelCase__ ( self ): snake_case_ = self.get_image_processor() snake_case_ = self.get_tokenizer() snake_case_ = CLIPProcessor(tokenizer=_UpperCAmelCase , image_processor=_UpperCAmelCase ) snake_case_ = '''lower newer''' snake_case_ = self.prepare_image_inputs() snake_case_ = processor(text=_UpperCAmelCase , images=_UpperCAmelCase ) self.assertListEqual(list(inputs.keys() ) , processor.model_input_names )

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import unittest from transformers import PegasusTokenizer, PegasusTokenizerFast from transformers.testing_utils import get_tests_dir, require_sentencepiece, require_tokenizers, require_torch, slow from transformers.utils import cached_property from ...test_tokenization_common import TokenizerTesterMixin UpperCAmelCase = get_tests_dir("""fixtures/test_sentencepiece_no_bos.model""") @require_sentencepiece @require_tokenizers class lowerCAmelCase_ ( lowerCamelCase__ , unittest.TestCase ): '''simple docstring''' __snake_case = PegasusTokenizer __snake_case = PegasusTokenizerFast __snake_case = True __snake_case = True def UpperCamelCase__ ( self ): super().setUp() # We have a SentencePiece fixture for testing snake_case_ = PegasusTokenizer(_UpperCAmelCase ) tokenizer.save_pretrained(self.tmpdirname ) @cached_property def UpperCamelCase__ ( self ): return PegasusTokenizer.from_pretrained('''google/pegasus-large''' ) def UpperCamelCase__ ( self , **_UpperCAmelCase ): return PegasusTokenizer.from_pretrained(self.tmpdirname , **_UpperCAmelCase ) def UpperCamelCase__ ( self , _UpperCAmelCase ): return ("This is a test", "This is a test") def UpperCamelCase__ ( self ): snake_case_ = '''</s>''' snake_case_ = 1 self.assertEqual(self.get_tokenizer()._convert_token_to_id(_UpperCAmelCase ) , _UpperCAmelCase ) self.assertEqual(self.get_tokenizer()._convert_id_to_token(_UpperCAmelCase ) , _UpperCAmelCase ) def UpperCamelCase__ ( self ): snake_case_ = list(self.get_tokenizer().get_vocab().keys() ) self.assertEqual(vocab_keys[0] , '''<pad>''' ) self.assertEqual(vocab_keys[1] , '''</s>''' ) self.assertEqual(vocab_keys[-1] , '''v''' ) self.assertEqual(len(_UpperCAmelCase ) , 11_03 ) def UpperCamelCase__ ( self ): self.assertEqual(self.get_tokenizer().vocab_size , 11_03 ) def UpperCamelCase__ ( self ): snake_case_ = self.rust_tokenizer_class.from_pretrained(self.tmpdirname ) snake_case_ = self.tokenizer_class.from_pretrained(self.tmpdirname ) snake_case_ = ( '''Let\'s see which <unk> is the better <unk_token_11> one <mask_1> It seems like this <mask_2> was important''' ''' </s> <pad> <pad> <pad>''' ) snake_case_ = rust_tokenizer([raw_input_str] , return_tensors=_UpperCAmelCase , add_special_tokens=_UpperCAmelCase ).input_ids[0] snake_case_ = py_tokenizer([raw_input_str] , return_tensors=_UpperCAmelCase , add_special_tokens=_UpperCAmelCase ).input_ids[0] self.assertListEqual(_UpperCAmelCase , _UpperCAmelCase ) def UpperCamelCase__ ( self ): snake_case_ = self._large_tokenizer # <mask_1> masks whole sentence while <mask_2> masks single word snake_case_ = '''<mask_1> To ensure a <mask_2> flow of bank resolutions.''' snake_case_ = [2, 4_13, 6_15, 1_14, 3, 19_71, 1_13, 16_79, 1_07_10, 1_07, 1] snake_case_ = tokenizer([raw_input_str] , return_tensors=_UpperCAmelCase ).input_ids[0] self.assertListEqual(_UpperCAmelCase , _UpperCAmelCase ) def UpperCamelCase__ ( self ): snake_case_ = self._large_tokenizer # The tracebacks for the following asserts are **better** without messages or self.assertEqual assert tokenizer.vocab_size == 9_61_03 assert tokenizer.pad_token_id == 0 assert tokenizer.eos_token_id == 1 assert tokenizer.offset == 1_03 assert tokenizer.unk_token_id == tokenizer.offset + 2 == 1_05 assert tokenizer.unk_token == "<unk>" assert tokenizer.model_max_length == 10_24 snake_case_ = '''To ensure a smooth flow of bank resolutions.''' snake_case_ = [4_13, 6_15, 1_14, 22_91, 19_71, 1_13, 16_79, 1_07_10, 1_07, 1] snake_case_ = tokenizer([raw_input_str] , return_tensors=_UpperCAmelCase ).input_ids[0] self.assertListEqual(_UpperCAmelCase , _UpperCAmelCase ) assert tokenizer.convert_ids_to_tokens([0, 1, 2, 3] ) == ["<pad>", "</s>", "<mask_1>", "<mask_2>"] @require_torch def UpperCamelCase__ ( self ): snake_case_ = ['''This is going to be way too long.''' * 1_50, '''short example'''] snake_case_ = ['''not super long but more than 5 tokens''', '''tiny'''] snake_case_ = self._large_tokenizer(_UpperCAmelCase , padding=_UpperCAmelCase , truncation=_UpperCAmelCase , return_tensors='''pt''' ) snake_case_ = self._large_tokenizer( text_target=_UpperCAmelCase , max_length=5 , padding=_UpperCAmelCase , truncation=_UpperCAmelCase , return_tensors='''pt''' ) assert batch.input_ids.shape == (2, 10_24) assert batch.attention_mask.shape == (2, 10_24) assert targets["input_ids"].shape == (2, 5) assert len(_UpperCAmelCase ) == 2 # input_ids, attention_mask. @slow def UpperCamelCase__ ( self ): # fmt: off snake_case_ = {'''input_ids''': [[3_89_79, 1_43, 1_84_85, 6_06, 1_30, 2_66_69, 8_76_86, 1_21, 5_41_89, 11_29, 1_11, 2_66_69, 8_76_86, 1_21, 91_14, 1_47_87, 1_21, 1_32_49, 1_58, 5_92, 9_56, 1_21, 1_46_21, 3_15_76, 1_43, 6_26_13, 1_08, 96_88, 9_30, 4_34_30, 1_15_62, 6_26_13, 3_04, 1_08, 1_14_43, 8_97, 1_08, 93_14, 1_74_15, 6_33_99, 1_08, 1_14_43, 76_14, 1_83_16, 1_18, 42_84, 71_48, 1_24_30, 1_43, 14_00, 2_57_03, 1_58, 1_11, 42_84, 71_48, 1_17_72, 1_43, 2_12_97, 10_64, 1_58, 1_22, 2_04, 35_06, 17_54, 11_33, 1_47_87, 15_81, 1_15, 3_32_24, 44_82, 1_11, 13_55, 1_10, 2_91_73, 3_17, 5_08_33, 1_08, 2_01_47, 9_46_65, 1_11, 7_71_98, 1_07, 1], [1_10, 6_26_13, 1_17, 6_38, 1_12, 11_33, 1_21, 2_00_98, 13_55, 7_90_50, 1_38_72, 1_35, 15_96, 5_35_41, 13_52, 1_41, 1_30_39, 55_42, 1_24, 3_02, 5_18, 1_11, 2_68, 29_56, 1_15, 1_49, 44_27, 1_07, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [1_39, 12_35, 27_99, 1_82_89, 1_77_80, 2_04, 1_09, 94_74, 12_96, 1_07, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]], '''attention_mask''': [[1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]]} # noqa: E501 # fmt: on self.tokenizer_integration_test_util( expected_encoding=_UpperCAmelCase , model_name='''google/bigbird-pegasus-large-arxiv''' , revision='''ba85d0851d708441f91440d509690f1ab6353415''' , ) @require_sentencepiece @require_tokenizers class lowerCAmelCase_ ( lowerCamelCase__ , unittest.TestCase ): '''simple docstring''' __snake_case = PegasusTokenizer __snake_case = PegasusTokenizerFast __snake_case = True __snake_case = True def UpperCamelCase__ ( self ): super().setUp() # We have a SentencePiece fixture for testing snake_case_ = PegasusTokenizer(_UpperCAmelCase , offset=0 , mask_token_sent=_UpperCAmelCase , mask_token='''[MASK]''' ) tokenizer.save_pretrained(self.tmpdirname ) @cached_property def UpperCamelCase__ ( self ): return PegasusTokenizer.from_pretrained('''google/bigbird-pegasus-large-arxiv''' ) def UpperCamelCase__ ( self , **_UpperCAmelCase ): return PegasusTokenizer.from_pretrained(self.tmpdirname , **_UpperCAmelCase ) def UpperCamelCase__ ( self , _UpperCAmelCase ): return ("This is a test", "This is a test") def UpperCamelCase__ ( self ): snake_case_ = self.rust_tokenizer_class.from_pretrained(self.tmpdirname ) snake_case_ = self.tokenizer_class.from_pretrained(self.tmpdirname ) snake_case_ = ( '''Let\'s see which <unk> is the better <unk_token> one [MASK] It seems like this [MASK] was important </s>''' ''' <pad> <pad> <pad>''' ) snake_case_ = rust_tokenizer([raw_input_str] , return_tensors=_UpperCAmelCase , add_special_tokens=_UpperCAmelCase ).input_ids[0] snake_case_ = py_tokenizer([raw_input_str] , return_tensors=_UpperCAmelCase , add_special_tokens=_UpperCAmelCase ).input_ids[0] self.assertListEqual(_UpperCAmelCase , _UpperCAmelCase ) @require_torch def UpperCamelCase__ ( self ): snake_case_ = ['''This is going to be way too long.''' * 10_00, '''short example'''] snake_case_ = ['''not super long but more than 5 tokens''', '''tiny'''] snake_case_ = self._large_tokenizer(_UpperCAmelCase , padding=_UpperCAmelCase , truncation=_UpperCAmelCase , return_tensors='''pt''' ) snake_case_ = self._large_tokenizer( text_target=_UpperCAmelCase , max_length=5 , padding=_UpperCAmelCase , truncation=_UpperCAmelCase , return_tensors='''pt''' ) assert batch.input_ids.shape == (2, 40_96) assert batch.attention_mask.shape == (2, 40_96) assert targets["input_ids"].shape == (2, 5) assert len(_UpperCAmelCase ) == 2 # input_ids, attention_mask. def UpperCamelCase__ ( self ): snake_case_ = ( '''This is an example string that is used to test the original TF implementation against the HF''' ''' implementation''' ) snake_case_ = self._large_tokenizer(_UpperCAmelCase ).input_ids self.assertListEqual( _UpperCAmelCase , [1_82, 1_17, 1_42, 5_87, 42_11, 1_20, 1_17, 2_63, 1_12, 8_04, 1_09, 8_56, 2_50_16, 31_37, 4_64, 1_09, 2_69_55, 31_37, 1] , )

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from torch import nn class a__ ( nn.Module ): """simple docstring""" def __init__( self : List[str] , UpperCAmelCase__ : Any , UpperCAmelCase__ : Union[str, Any] ) ->Optional[Any]: """simple docstring""" super().__init__() SCREAMING_SNAKE_CASE : List[Any] = class_size SCREAMING_SNAKE_CASE : Optional[int] = embed_size # self.mlp1 = nn.Linear(embed_size, embed_size) # self.mlp2 = (nn.Linear(embed_size, class_size)) SCREAMING_SNAKE_CASE : Dict = nn.Linear(UpperCAmelCase__ , UpperCAmelCase__ ) def _lowercase ( self : Dict , UpperCAmelCase__ : Dict ) ->Any: """simple docstring""" SCREAMING_SNAKE_CASE : Union[str, Any] = self.mlp(UpperCAmelCase__ ) return logits

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from collections import OrderedDict from typing import Any, List, Mapping, Optional from ... import PreTrainedTokenizer, TensorType, is_torch_available from ...configuration_utils import PretrainedConfig from ...onnx import OnnxConfigWithPast, PatchingSpec from ...utils import logging UpperCAmelCase__ : Optional[int] = logging.get_logger(__name__) UpperCAmelCase__ : int = { """EleutherAI/gpt-j-6B""": """https://huggingface.co/EleutherAI/gpt-j-6B/resolve/main/config.json""", # See all GPT-J models at https://huggingface.co/models?filter=gpt_j } class a__ ( UpperCAmelCase ): """simple docstring""" UpperCAmelCase__ : List[str] ="""gptj""" UpperCAmelCase__ : Any ={ """max_position_embeddings""": """n_positions""", """hidden_size""": """n_embd""", """num_attention_heads""": """n_head""", """num_hidden_layers""": """n_layer""", } def __init__( self : List[str] , UpperCAmelCase__ : int=5_0_4_0_0 , UpperCAmelCase__ : str=2_0_4_8 , UpperCAmelCase__ : str=4_0_9_6 , UpperCAmelCase__ : List[Any]=2_8 , UpperCAmelCase__ : Union[str, Any]=1_6 , UpperCAmelCase__ : str=6_4 , UpperCAmelCase__ : Union[str, Any]=None , UpperCAmelCase__ : List[Any]="gelu_new" , UpperCAmelCase__ : Union[str, Any]=0.0 , UpperCAmelCase__ : List[Any]=0.0 , UpperCAmelCase__ : int=0.0 , UpperCAmelCase__ : Optional[int]=1e-5 , UpperCAmelCase__ : Optional[Any]=0.02 , UpperCAmelCase__ : Tuple=True , UpperCAmelCase__ : str=5_0_2_5_6 , UpperCAmelCase__ : Dict=5_0_2_5_6 , UpperCAmelCase__ : int=False , **UpperCAmelCase__ : Dict , ) ->Optional[Any]: """simple docstring""" SCREAMING_SNAKE_CASE : List[str] = vocab_size SCREAMING_SNAKE_CASE : str = n_positions SCREAMING_SNAKE_CASE : int = n_embd SCREAMING_SNAKE_CASE : Any = n_layer SCREAMING_SNAKE_CASE : Optional[Any] = n_head SCREAMING_SNAKE_CASE : Union[str, Any] = n_inner SCREAMING_SNAKE_CASE : Dict = rotary_dim SCREAMING_SNAKE_CASE : Union[str, Any] = activation_function SCREAMING_SNAKE_CASE : Any = resid_pdrop SCREAMING_SNAKE_CASE : List[Any] = embd_pdrop SCREAMING_SNAKE_CASE : Tuple = attn_pdrop SCREAMING_SNAKE_CASE : Any = layer_norm_epsilon SCREAMING_SNAKE_CASE : Union[str, Any] = initializer_range SCREAMING_SNAKE_CASE : Any = use_cache SCREAMING_SNAKE_CASE : Any = bos_token_id SCREAMING_SNAKE_CASE : List[Any] = eos_token_id super().__init__( bos_token_id=UpperCAmelCase__ , eos_token_id=UpperCAmelCase__ , tie_word_embeddings=UpperCAmelCase__ , **UpperCAmelCase__ ) class a__ ( UpperCAmelCase ): """simple docstring""" def __init__( self : int , UpperCAmelCase__ : PretrainedConfig , UpperCAmelCase__ : str = "default" , UpperCAmelCase__ : List[PatchingSpec] = None , UpperCAmelCase__ : bool = False , ) ->Optional[int]: """simple docstring""" super().__init__(UpperCAmelCase__ , task=UpperCAmelCase__ , patching_specs=UpperCAmelCase__ , use_past=UpperCAmelCase__ ) if not getattr(self._config , """pad_token_id""" , UpperCAmelCase__ ): # TODO: how to do that better? SCREAMING_SNAKE_CASE : str = 0 @property def _lowercase ( self : Tuple ) ->Mapping[str, Mapping[int, str]]: """simple docstring""" SCREAMING_SNAKE_CASE : Any = OrderedDict({"""input_ids""": {0: """batch""", 1: """sequence"""}} ) if self.use_past: self.fill_with_past_key_values_(UpperCAmelCase__ , direction="""inputs""" ) SCREAMING_SNAKE_CASE : Optional[Any] = {0: """batch""", 1: """past_sequence + sequence"""} else: SCREAMING_SNAKE_CASE : List[str] = {0: """batch""", 1: """sequence"""} return common_inputs @property def _lowercase ( self : List[str] ) ->int: """simple docstring""" return self._config.n_layer @property def _lowercase ( self : Tuple ) ->int: """simple docstring""" return self._config.n_head def _lowercase ( self : str , UpperCAmelCase__ : PreTrainedTokenizer , UpperCAmelCase__ : int = -1 , UpperCAmelCase__ : int = -1 , UpperCAmelCase__ : bool = False , UpperCAmelCase__ : Optional[TensorType] = None , ) ->Mapping[str, Any]: """simple docstring""" SCREAMING_SNAKE_CASE : int = super(UpperCAmelCase__ , self ).generate_dummy_inputs( UpperCAmelCase__ , batch_size=UpperCAmelCase__ , seq_length=UpperCAmelCase__ , is_pair=UpperCAmelCase__ , framework=UpperCAmelCase__ ) # We need to order the input in the way they appears in the forward() SCREAMING_SNAKE_CASE : Tuple = OrderedDict({"""input_ids""": common_inputs["""input_ids"""]} ) # Need to add the past_keys if self.use_past: if not is_torch_available(): raise ValueError("""Cannot generate dummy past_keys inputs without PyTorch installed.""" ) else: import torch SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE : str = common_inputs["""input_ids"""].shape # Not using the same length for past_key_values SCREAMING_SNAKE_CASE : Dict = seqlen + 2 SCREAMING_SNAKE_CASE : Any = ( batch, self.num_attention_heads, past_key_values_length, self._config.hidden_size // self.num_attention_heads, ) SCREAMING_SNAKE_CASE : Optional[int] = [ (torch.zeros(UpperCAmelCase__ ), torch.zeros(UpperCAmelCase__ )) for _ in range(self.num_layers ) ] SCREAMING_SNAKE_CASE : Dict = common_inputs["""attention_mask"""] if self.use_past: SCREAMING_SNAKE_CASE : Optional[int] = ordered_inputs["""attention_mask"""].dtype SCREAMING_SNAKE_CASE : Union[str, Any] = torch.cat( [ordered_inputs["""attention_mask"""], torch.ones(UpperCAmelCase__ , UpperCAmelCase__ , dtype=UpperCAmelCase__ )] , dim=1 ) return ordered_inputs @property def _lowercase ( self : Dict ) ->int: """simple docstring""" return 1_3

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from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available lowerCAmelCase_ = {} try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase_ = ['''MLukeTokenizer'''] if TYPE_CHECKING: try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_mluke import MLukeTokenizer else: import sys lowerCAmelCase_ = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)

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from typing import TYPE_CHECKING from ...utils import ( OptionalDependencyNotAvailable, _LazyModule, is_flax_available, is_sentencepiece_available, is_tf_available, is_tokenizers_available, is_torch_available, ) lowerCAmelCase_ = {'''configuration_xglm''': ['''XGLM_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''XGLMConfig''']} try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase_ = ['''XGLMTokenizer'''] try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase_ = ['''XGLMTokenizerFast'''] try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase_ = [ '''XGLM_PRETRAINED_MODEL_ARCHIVE_LIST''', '''XGLMForCausalLM''', '''XGLMModel''', '''XGLMPreTrainedModel''', ] try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase_ = [ '''FlaxXGLMForCausalLM''', '''FlaxXGLMModel''', '''FlaxXGLMPreTrainedModel''', ] try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: lowerCAmelCase_ = [ '''TF_XGLM_PRETRAINED_MODEL_ARCHIVE_LIST''', '''TFXGLMForCausalLM''', '''TFXGLMModel''', '''TFXGLMPreTrainedModel''', ] if TYPE_CHECKING: from .configuration_xglm import XGLM_PRETRAINED_CONFIG_ARCHIVE_MAP, XGLMConfig try: if not is_sentencepiece_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_xglm import XGLMTokenizer try: if not is_tokenizers_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .tokenization_xglm_fast import XGLMTokenizerFast try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_xglm import XGLM_PRETRAINED_MODEL_ARCHIVE_LIST, XGLMForCausalLM, XGLMModel, XGLMPreTrainedModel try: if not is_flax_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_flax_xglm import FlaxXGLMForCausalLM, FlaxXGLMModel, FlaxXGLMPreTrainedModel try: if not is_tf_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_tf_xglm import ( TF_XGLM_PRETRAINED_MODEL_ARCHIVE_LIST, TFXGLMForCausalLM, TFXGLMModel, TFXGLMPreTrainedModel, ) else: import sys lowerCAmelCase_ = _LazyModule(__name__, globals()['''__file__'''], _import_structure)

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import itertools from dataclasses import dataclass from typing import List, Optional import pyarrow as pa import pyarrow.parquet as pq import datasets from datasets.table import table_cast UpperCamelCase__ = datasets.utils.logging.get_logger(__name__) @dataclass class A ( datasets.BuilderConfig ): __UpperCAmelCase : int = 1_00_00 __UpperCAmelCase : Optional[List[str]] = None __UpperCAmelCase : Optional[datasets.Features] = None class A ( datasets.ArrowBasedBuilder ): __UpperCAmelCase : List[Any] = ParquetConfig def lowercase_ (self : Optional[Any] ) -> Optional[Any]: """simple docstring""" return datasets.DatasetInfo(features=self.config.features ) def lowercase_ (self : Dict , __UpperCAmelCase : int ) -> Union[str, Any]: """simple docstring""" if not self.config.data_files: raise ValueError(f"""At least one data file must be specified, but got data_files={self.config.data_files}""" ) UpperCAmelCase__ = dl_manager.download_and_extract(self.config.data_files ) if isinstance(__UpperCAmelCase , (str, list, tuple) ): UpperCAmelCase__ = data_files if isinstance(__UpperCAmelCase , __UpperCAmelCase ): UpperCAmelCase__ = [files] # Use `dl_manager.iter_files` to skip hidden files in an extracted archive UpperCAmelCase__ = [dl_manager.iter_files(__UpperCAmelCase ) for file in files] return [datasets.SplitGenerator(name=datasets.Split.TRAIN , gen_kwargs={"files": files} )] UpperCAmelCase__ = [] for split_name, files in data_files.items(): if isinstance(__UpperCAmelCase , __UpperCAmelCase ): UpperCAmelCase__ = [files] # Use `dl_manager.iter_files` to skip hidden files in an extracted archive UpperCAmelCase__ = [dl_manager.iter_files(__UpperCAmelCase ) for file in files] # Infer features is they are stoed in the arrow schema if self.info.features is None: for file in itertools.chain.from_iterable(__UpperCAmelCase ): with open(__UpperCAmelCase , "rb" ) as f: UpperCAmelCase__ = datasets.Features.from_arrow_schema(pq.read_schema(__UpperCAmelCase ) ) break splits.append(datasets.SplitGenerator(name=__UpperCAmelCase , gen_kwargs={"files": files} ) ) return splits def lowercase_ (self : Union[str, Any] , __UpperCAmelCase : pa.Table ) -> pa.Table: """simple docstring""" if self.info.features is not None: # more expensive cast to support nested features with keys in a different order # allows str <-> int/float or str to Audio for example UpperCAmelCase__ = table_cast(__UpperCAmelCase , self.info.features.arrow_schema ) return pa_table def lowercase_ (self : Union[str, Any] , __UpperCAmelCase : Optional[Any] ) -> Union[str, Any]: """simple docstring""" UpperCAmelCase__ = self.info.features.arrow_schema if self.info.features is not None else None if self.info.features is not None and self.config.columns is not None: if sorted(field.name for field in schema ) != sorted(self.config.columns ): raise ValueError( f"""Tried to load parquet data with columns '{self.config.columns}' with mismatching features '{self.info.features}'""" ) for file_idx, file in enumerate(itertools.chain.from_iterable(__UpperCAmelCase ) ): with open(__UpperCAmelCase , "rb" ) as f: UpperCAmelCase__ = pq.ParquetFile(__UpperCAmelCase ) try: for batch_idx, record_batch in enumerate( parquet_file.iter_batches(batch_size=self.config.batch_size , columns=self.config.columns ) ): UpperCAmelCase__ = pa.Table.from_batches([record_batch] ) # Uncomment for debugging (will print the Arrow table size and elements) # logger.warning(f"pa_table: {pa_table} num rows: {pa_table.num_rows}") # logger.warning('\n'.join(str(pa_table.slice(i, 1).to_pydict()) for i in range(pa_table.num_rows))) yield f"""{file_idx}_{batch_idx}""", self._cast_table(__UpperCAmelCase ) except ValueError as e: logger.error(f"""Failed to read file '{file}' with error {type(__UpperCAmelCase )}: {e}""" ) raise

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"""simple docstring""" from collections import deque from math import floor from random import random from time import time class __lowerCamelCase : '''simple docstring''' def __init__( self ) -> Tuple: _a = {} def _UpperCAmelCase ( self , __UpperCAmelCase , __UpperCAmelCase , __UpperCAmelCase=1 ) -> int: if self.graph.get(__UpperCAmelCase ): if self.graph[u].count([w, v] ) == 0: self.graph[u].append([w, v] ) else: _a = [[w, v]] if not self.graph.get(__UpperCAmelCase ): _a = [] def _UpperCAmelCase ( self ) -> int: return list(self.graph ) def _UpperCAmelCase ( self , __UpperCAmelCase , __UpperCAmelCase ) -> List[str]: if self.graph.get(__UpperCAmelCase ): for _ in self.graph[u]: if _[1] == v: self.graph[u].remove(__UpperCAmelCase ) def _UpperCAmelCase ( self , __UpperCAmelCase=-2 , __UpperCAmelCase=-1 ) -> Optional[int]: if s == d: return [] _a = [] _a = [] if s == -2: _a = list(self.graph )[0] stack.append(__UpperCAmelCase ) visited.append(__UpperCAmelCase ) _a = s while True: # check if there is any non isolated nodes if len(self.graph[s] ) != 0: _a = s for node in self.graph[s]: if visited.count(node[1] ) < 1: if node[1] == d: visited.append(__UpperCAmelCase ) return visited else: stack.append(node[1] ) visited.append(node[1] ) _a = node[1] break # check if all the children are visited if s == ss: stack.pop() if len(__UpperCAmelCase ) != 0: _a = stack[len(__UpperCAmelCase ) - 1] else: _a = ss # check if se have reached the starting point if len(__UpperCAmelCase ) == 0: return visited def _UpperCAmelCase ( self , __UpperCAmelCase=-1 ) -> Tuple: if c == -1: _a = floor(random() * 10000 ) + 10 for i in range(__UpperCAmelCase ): # every vertex has max 100 edges for _ in range(floor(random() * 102 ) + 1 ): _a = floor(random() * c ) + 1 if n != i: self.add_pair(__UpperCAmelCase , __UpperCAmelCase , 1 ) def _UpperCAmelCase ( self , __UpperCAmelCase=-2 ) -> List[str]: _a = deque() _a = [] if s == -2: _a = list(self.graph )[0] d.append(__UpperCAmelCase ) visited.append(__UpperCAmelCase ) while d: _a = d.popleft() if len(self.graph[s] ) != 0: for node in self.graph[s]: if visited.count(node[1] ) < 1: d.append(node[1] ) visited.append(node[1] ) return visited def _UpperCAmelCase ( self , __UpperCAmelCase ) -> Tuple: _a = 0 for x in self.graph: for y in self.graph[x]: if y[1] == u: count += 1 return count def _UpperCAmelCase ( self , __UpperCAmelCase ) -> Dict: return len(self.graph[u] ) def _UpperCAmelCase ( self , __UpperCAmelCase=-2 ) -> Tuple: _a = [] _a = [] if s == -2: _a = list(self.graph )[0] stack.append(__UpperCAmelCase ) visited.append(__UpperCAmelCase ) _a = s _a = [] while True: # check if there is any non isolated nodes if len(self.graph[s] ) != 0: _a = s for node in self.graph[s]: if visited.count(node[1] ) < 1: stack.append(node[1] ) visited.append(node[1] ) _a = node[1] break # check if all the children are visited if s == ss: sorted_nodes.append(stack.pop() ) if len(__UpperCAmelCase ) != 0: _a = stack[len(__UpperCAmelCase ) - 1] else: _a = ss # check if se have reached the starting point if len(__UpperCAmelCase ) == 0: return sorted_nodes def _UpperCAmelCase ( self ) -> Optional[int]: _a = [] _a = [] _a = list(self.graph )[0] stack.append(__UpperCAmelCase ) visited.append(__UpperCAmelCase ) _a = -2 _a = [] _a = s _a = False _a = set() while True: # check if there is any non isolated nodes if len(self.graph[s] ) != 0: _a = s for node in self.graph[s]: if ( visited.count(node[1] ) > 0 and node[1] != parent and indirect_parents.count(node[1] ) > 0 and not on_the_way_back ): _a = len(__UpperCAmelCase ) - 1 while len_stack >= 0: if stack[len_stack] == node[1]: anticipating_nodes.add(node[1] ) break else: anticipating_nodes.add(stack[len_stack] ) len_stack -= 1 if visited.count(node[1] ) < 1: stack.append(node[1] ) visited.append(node[1] ) _a = node[1] break # check if all the children are visited if s == ss: stack.pop() _a = True if len(__UpperCAmelCase ) != 0: _a = stack[len(__UpperCAmelCase ) - 1] else: _a = False indirect_parents.append(__UpperCAmelCase ) _a = s _a = ss # check if se have reached the starting point if len(__UpperCAmelCase ) == 0: return list(__UpperCAmelCase ) def _UpperCAmelCase ( self ) -> Any: _a = [] _a = [] _a = list(self.graph )[0] stack.append(__UpperCAmelCase ) visited.append(__UpperCAmelCase ) _a = -2 _a = [] _a = s _a = False _a = set() while True: # check if there is any non isolated nodes if len(self.graph[s] ) != 0: _a = s for node in self.graph[s]: if ( visited.count(node[1] ) > 0 and node[1] != parent and indirect_parents.count(node[1] ) > 0 and not on_the_way_back ): _a = len(__UpperCAmelCase ) - 1 while len_stack_minus_one >= 0: if stack[len_stack_minus_one] == node[1]: anticipating_nodes.add(node[1] ) break else: return True if visited.count(node[1] ) < 1: stack.append(node[1] ) visited.append(node[1] ) _a = node[1] break # check if all the children are visited if s == ss: stack.pop() _a = True if len(__UpperCAmelCase ) != 0: _a = stack[len(__UpperCAmelCase ) - 1] else: _a = False indirect_parents.append(__UpperCAmelCase ) _a = s _a = ss # check if se have reached the starting point if len(__UpperCAmelCase ) == 0: return False def _UpperCAmelCase ( self , __UpperCAmelCase=-2 , __UpperCAmelCase=-1 ) -> Optional[int]: _a = time() self.dfs(__UpperCAmelCase , __UpperCAmelCase ) _a = time() return end - begin def _UpperCAmelCase ( self , __UpperCAmelCase=-2 ) -> Optional[Any]: _a = time() self.bfs(__UpperCAmelCase ) _a = time() return end - begin class __lowerCamelCase : '''simple docstring''' def __init__( self ) -> Optional[int]: _a = {} def _UpperCAmelCase ( self , __UpperCAmelCase , __UpperCAmelCase , __UpperCAmelCase=1 ) -> Dict: # check if the u exists if self.graph.get(__UpperCAmelCase ): # if there already is a edge if self.graph[u].count([w, v] ) == 0: self.graph[u].append([w, v] ) else: # if u does not exist _a = [[w, v]] # add the other way if self.graph.get(__UpperCAmelCase ): # if there already is a edge if self.graph[v].count([w, u] ) == 0: self.graph[v].append([w, u] ) else: # if u does not exist _a = [[w, u]] def _UpperCAmelCase ( self , __UpperCAmelCase , __UpperCAmelCase ) -> Tuple: if self.graph.get(__UpperCAmelCase ): for _ in self.graph[u]: if _[1] == v: self.graph[u].remove(__UpperCAmelCase ) # the other way round if self.graph.get(__UpperCAmelCase ): for _ in self.graph[v]: if _[1] == u: self.graph[v].remove(__UpperCAmelCase ) def _UpperCAmelCase ( self , __UpperCAmelCase=-2 , __UpperCAmelCase=-1 ) -> Dict: if s == d: return [] _a = [] _a = [] if s == -2: _a = list(self.graph )[0] stack.append(__UpperCAmelCase ) visited.append(__UpperCAmelCase ) _a = s while True: # check if there is any non isolated nodes if len(self.graph[s] ) != 0: _a = s for node in self.graph[s]: if visited.count(node[1] ) < 1: if node[1] == d: visited.append(__UpperCAmelCase ) return visited else: stack.append(node[1] ) visited.append(node[1] ) _a = node[1] break # check if all the children are visited if s == ss: stack.pop() if len(__UpperCAmelCase ) != 0: _a = stack[len(__UpperCAmelCase ) - 1] else: _a = ss # check if se have reached the starting point if len(__UpperCAmelCase ) == 0: return visited def _UpperCAmelCase ( self , __UpperCAmelCase=-1 ) -> Tuple: if c == -1: _a = floor(random() * 10000 ) + 10 for i in range(__UpperCAmelCase ): # every vertex has max 100 edges for _ in range(floor(random() * 102 ) + 1 ): _a = floor(random() * c ) + 1 if n != i: self.add_pair(__UpperCAmelCase , __UpperCAmelCase , 1 ) def _UpperCAmelCase ( self , __UpperCAmelCase=-2 ) -> List[Any]: _a = deque() _a = [] if s == -2: _a = list(self.graph )[0] d.append(__UpperCAmelCase ) visited.append(__UpperCAmelCase ) while d: _a = d.popleft() if len(self.graph[s] ) != 0: for node in self.graph[s]: if visited.count(node[1] ) < 1: d.append(node[1] ) visited.append(node[1] ) return visited def _UpperCAmelCase ( self , __UpperCAmelCase ) -> Dict: return len(self.graph[u] ) def _UpperCAmelCase ( self ) -> int: _a = [] _a = [] _a = list(self.graph )[0] stack.append(__UpperCAmelCase ) visited.append(__UpperCAmelCase ) _a = -2 _a = [] _a = s _a = False _a = set() while True: # check if there is any non isolated nodes if len(self.graph[s] ) != 0: _a = s for node in self.graph[s]: if ( visited.count(node[1] ) > 0 and node[1] != parent and indirect_parents.count(node[1] ) > 0 and not on_the_way_back ): _a = len(__UpperCAmelCase ) - 1 while len_stack >= 0: if stack[len_stack] == node[1]: anticipating_nodes.add(node[1] ) break else: anticipating_nodes.add(stack[len_stack] ) len_stack -= 1 if visited.count(node[1] ) < 1: stack.append(node[1] ) visited.append(node[1] ) _a = node[1] break # check if all the children are visited if s == ss: stack.pop() _a = True if len(__UpperCAmelCase ) != 0: _a = stack[len(__UpperCAmelCase ) - 1] else: _a = False indirect_parents.append(__UpperCAmelCase ) _a = s _a = ss # check if se have reached the starting point if len(__UpperCAmelCase ) == 0: return list(__UpperCAmelCase ) def _UpperCAmelCase ( self ) -> Optional[Any]: _a = [] _a = [] _a = list(self.graph )[0] stack.append(__UpperCAmelCase ) visited.append(__UpperCAmelCase ) _a = -2 _a = [] _a = s _a = False _a = set() while True: # check if there is any non isolated nodes if len(self.graph[s] ) != 0: _a = s for node in self.graph[s]: if ( visited.count(node[1] ) > 0 and node[1] != parent and indirect_parents.count(node[1] ) > 0 and not on_the_way_back ): _a = len(__UpperCAmelCase ) - 1 while len_stack_minus_one >= 0: if stack[len_stack_minus_one] == node[1]: anticipating_nodes.add(node[1] ) break else: return True if visited.count(node[1] ) < 1: stack.append(node[1] ) visited.append(node[1] ) _a = node[1] break # check if all the children are visited if s == ss: stack.pop() _a = True if len(__UpperCAmelCase ) != 0: _a = stack[len(__UpperCAmelCase ) - 1] else: _a = False indirect_parents.append(__UpperCAmelCase ) _a = s _a = ss # check if se have reached the starting point if len(__UpperCAmelCase ) == 0: return False def _UpperCAmelCase ( self ) -> Union[str, Any]: return list(self.graph ) def _UpperCAmelCase ( self , __UpperCAmelCase=-2 , __UpperCAmelCase=-1 ) -> Tuple: _a = time() self.dfs(__UpperCAmelCase , __UpperCAmelCase ) _a = time() return end - begin def _UpperCAmelCase ( self , __UpperCAmelCase=-2 ) -> Tuple: _a = time() self.bfs(__UpperCAmelCase ) _a = time() return end - begin

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"""simple docstring""" def _lowerCAmelCase ( lowerCAmelCase , lowerCAmelCase ): '''simple docstring''' UpperCAmelCase = len(_snake_case ) UpperCAmelCase = len(_snake_case ) UpperCAmelCase = [[False for _ in range(m + 1 )] for _ in range(n + 1 )] UpperCAmelCase = True for i in range(_snake_case ): for j in range(m + 1 ): if dp[i][j]: if j < m and a[i].upper() == b[j]: UpperCAmelCase = True if a[i].islower(): UpperCAmelCase = True return dp[n][m] if __name__ == "__main__": import doctest doctest.testmod()

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"""simple docstring""" from __future__ import annotations import math def _lowerCAmelCase ( lowerCAmelCase ): '''simple docstring''' if 1 < number < 4: # 2 and 3 are primes return True elif number < 2 or number % 2 == 0 or number % 3 == 0: # Negatives, 0, 1, all even numbers, all multiples of 3 are not primes return False # All primes number are in format of 6k +/- 1 for i in range(5 , int(math.sqrt(lowerCAmelCase ) + 1 ) , 6 ): if number % i == 0 or number % (i + 2) == 0: return False return True def _lowerCAmelCase ( lowerCAmelCase ): '''simple docstring''' UpperCAmelCase = str(lowerCAmelCase ) UpperCAmelCase = [n] for i in range(1 , len(lowerCAmelCase ) ): list_nums.append(int(str_num[i:] ) ) list_nums.append(int(str_num[:-i] ) ) return list_nums def _lowerCAmelCase ( lowerCAmelCase ): '''simple docstring''' if len(str(lowerCAmelCase ) ) > 3: if not is_prime(int(str(lowerCAmelCase )[-3:] ) ) or not is_prime(int(str(lowerCAmelCase )[:3] ) ): return False return True def _lowerCAmelCase ( lowerCAmelCase = 11 ): '''simple docstring''' UpperCAmelCase = [] UpperCAmelCase = 13 while len(lowerCAmelCase ) != count: if validate(lowerCAmelCase ): UpperCAmelCase = list_truncated_nums(lowerCAmelCase ) if all(is_prime(lowerCAmelCase ) for i in list_nums ): list_truncated_primes.append(lowerCAmelCase ) num += 2 return list_truncated_primes def _lowerCAmelCase ( ): '''simple docstring''' return sum(compute_truncated_primes(11 ) ) if __name__ == "__main__": print(F'{sum(compute_truncated_primes(1_1)) = }')

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"""simple docstring""" from __future__ import annotations def lowercase ( __snake_case : list , __snake_case : int | None = None , __snake_case : int | None = None ): if start is None: lowercase_ : Optional[Any] = 0 if end is None: lowercase_ : List[Any] = len(__snake_case ) - 1 if start >= end: return lowercase_ : str = (start + end) // 2 slowsort(__snake_case , __snake_case , __snake_case ) slowsort(__snake_case , mid + 1 , __snake_case ) if sequence[end] < sequence[mid]: lowercase_ , lowercase_ : Optional[int] = sequence[mid], sequence[end] slowsort(__snake_case , __snake_case , end - 1 ) if __name__ == "__main__": from doctest import testmod testmod()

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import argparse import json from dataclasses import dataclass, field from functools import partial from pathlib import Path from typing import Callable, Dict, List, Tuple import timm import torch import torch.nn as nn from classy_vision.models.regnet import RegNet, RegNetParams, RegNetYaagf, RegNetYaagf, RegNetYaaagf from huggingface_hub import cached_download, hf_hub_url from torch import Tensor from vissl.models.model_helpers import get_trunk_forward_outputs from transformers import AutoImageProcessor, RegNetConfig, RegNetForImageClassification, RegNetModel from transformers.utils import logging logging.set_verbosity_info() lowerCamelCase = logging.get_logger() @dataclass class _a : _a : nn.Module _a : List[nn.Module] = field(default_factory=_lowercase) _a : list = field(default_factory=_lowercase) def UpperCAmelCase__( self : Tuple , _SCREAMING_SNAKE_CASE : Dict , _SCREAMING_SNAKE_CASE : Tensor , _SCREAMING_SNAKE_CASE : Tensor )-> Any: lowerCAmelCase__ : str = len(list(m.modules() ) ) == 1 or isinstance(_SCREAMING_SNAKE_CASE , nn.Convad ) or isinstance(_SCREAMING_SNAKE_CASE , nn.BatchNormad ) if has_not_submodules: self.traced.append(_SCREAMING_SNAKE_CASE ) def __call__( self : Union[str, Any] , _SCREAMING_SNAKE_CASE : Tensor )-> str: for m in self.module.modules(): self.handles.append(m.register_forward_hook(self._forward_hook ) ) self.module(_SCREAMING_SNAKE_CASE ) [x.remove() for x in self.handles] return self @property def UpperCAmelCase__( self : Any )-> Union[str, Any]: # check the len of the state_dict keys to see if we have learnable params return list(filter(lambda _SCREAMING_SNAKE_CASE : len(list(x.state_dict().keys() ) ) > 0 , self.traced ) ) @dataclass class _a : _a : nn.Module _a : nn.Module _a : int = 1 _a : List = field(default_factory=_lowercase) _a : List = field(default_factory=_lowercase) _a : bool = True def __call__( self : Optional[Any] , _SCREAMING_SNAKE_CASE : Tensor )-> str: lowerCAmelCase__ : List[Any] = Tracker(self.dest )(_SCREAMING_SNAKE_CASE ).parametrized lowerCAmelCase__ : str = Tracker(self.src )(_SCREAMING_SNAKE_CASE ).parametrized lowerCAmelCase__ : List[str] = list(filter(lambda _SCREAMING_SNAKE_CASE : type(_SCREAMING_SNAKE_CASE ) not in self.src_skip , _SCREAMING_SNAKE_CASE ) ) lowerCAmelCase__ : str = list(filter(lambda _SCREAMING_SNAKE_CASE : type(_SCREAMING_SNAKE_CASE ) not in self.dest_skip , _SCREAMING_SNAKE_CASE ) ) if len(_SCREAMING_SNAKE_CASE ) != len(_SCREAMING_SNAKE_CASE ) and self.raise_if_mismatch: raise Exception( F'Numbers of operations are different. Source module has {len(_SCREAMING_SNAKE_CASE )} operations while' F' destination module has {len(_SCREAMING_SNAKE_CASE )}.' ) for dest_m, src_m in zip(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ): dest_m.load_state_dict(src_m.state_dict() ) if self.verbose == 1: print(F'Transfered from={src_m} to={dest_m}' ) class _a ( nn.Module): def __init__( self : List[Any] , _SCREAMING_SNAKE_CASE : nn.Module )-> Optional[int]: super().__init__() lowerCAmelCase__ : List[Tuple[str, nn.Module]] = [] # - get the stem feature_blocks.append(('''conv1''', model.stem) ) # - get all the feature blocks for k, v in model.trunk_output.named_children(): assert k.startswith('''block''' ), F'Unexpected layer name {k}' lowerCAmelCase__ : Optional[int] = len(_SCREAMING_SNAKE_CASE ) + 1 feature_blocks.append((F'res{block_index}', v) ) lowerCAmelCase__ : List[str] = nn.ModuleDict(_SCREAMING_SNAKE_CASE ) def UpperCAmelCase__( self : int , _SCREAMING_SNAKE_CASE : Tensor )-> List[str]: return get_trunk_forward_outputs( _SCREAMING_SNAKE_CASE , out_feat_keys=_SCREAMING_SNAKE_CASE , feature_blocks=self._feature_blocks , ) class _a ( _lowercase): def UpperCAmelCase__( self : Union[str, Any] , _SCREAMING_SNAKE_CASE : str )-> str: lowerCAmelCase__ : int = x.split('''-''' ) return x_split[0] + x_split[1] + "_" + "".join(x_split[2:] ) def __getitem__( self : Optional[Any] , _SCREAMING_SNAKE_CASE : str )-> Callable[[], Tuple[nn.Module, Dict]]: # default to timm! if x not in self: lowerCAmelCase__ : Optional[Any] = self.convert_name_to_timm(_SCREAMING_SNAKE_CASE ) lowerCAmelCase__ : List[str] = partial(lambda: (timm.create_model(_SCREAMING_SNAKE_CASE , pretrained=_SCREAMING_SNAKE_CASE ).eval(), None) ) else: lowerCAmelCase__ : Any = super().__getitem__(_SCREAMING_SNAKE_CASE ) return val class _a ( _lowercase): def __getitem__( self : Optional[Any] , _SCREAMING_SNAKE_CASE : str )-> Callable[[], nn.Module]: if "seer" in x and "in1k" not in x: lowerCAmelCase__ : int = RegNetModel else: lowerCAmelCase__ : List[str] = RegNetForImageClassification return val def lowerCamelCase_ ( _a , _a , _a ): """simple docstring""" for from_key, to_key in keys: lowerCAmelCase__ : Optional[Any] = from_state_dict[from_key].clone() print(f'Copied key={from_key} to={to_key}' ) return to_state_dict def lowerCamelCase_ ( _a , _a , _a , _a , _a , _a = True , ): """simple docstring""" print(f'Converting {name}...' ) with torch.no_grad(): lowerCAmelCase__ , lowerCAmelCase__ : int = from_model_func() lowerCAmelCase__ : Optional[Any] = our_model_func(_a ).eval() lowerCAmelCase__ : int = ModuleTransfer(src=_a , dest=_a , raise_if_mismatch=_a ) lowerCAmelCase__ : str = torch.randn((1, 3, 224, 224) ) module_transfer(_a ) if from_state_dict is not None: lowerCAmelCase__ : Any = [] # for seer - in1k finetuned we have to manually copy the head if "seer" in name and "in1k" in name: lowerCAmelCase__ : List[Any] = [('''0.clf.0.weight''', '''classifier.1.weight'''), ('''0.clf.0.bias''', '''classifier.1.bias''')] lowerCAmelCase__ : int = manually_copy_vissl_head(_a , our_model.state_dict() , _a ) our_model.load_state_dict(_a ) lowerCAmelCase__ : List[str] = our_model(_a , output_hidden_states=_a ) lowerCAmelCase__ : Dict = ( our_outputs.logits if isinstance(_a , _a ) else our_outputs.last_hidden_state ) lowerCAmelCase__ : Tuple = from_model(_a ) lowerCAmelCase__ : int = from_output[-1] if type(_a ) is list else from_output # now since I don't want to use any config files, vissl seer model doesn't actually have an head, so let's just check the last hidden state if "seer" in name and "in1k" in name: lowerCAmelCase__ : Optional[int] = our_outputs.hidden_states[-1] assert torch.allclose(_a , _a ), "The model logits don't match the original one." if push_to_hub: our_model.push_to_hub( repo_path_or_name=save_directory / name , commit_message='''Add model''' , use_temp_dir=_a , ) lowerCAmelCase__ : Optional[int] = 224 if '''seer''' not in name else 384 # we can use the convnext one lowerCAmelCase__ : int = AutoImageProcessor.from_pretrained('''facebook/convnext-base-224-22k-1k''' , size=_a ) image_processor.push_to_hub( repo_path_or_name=save_directory / name , commit_message='''Add image processor''' , use_temp_dir=_a , ) print(f'Pushed {name}' ) def lowerCamelCase_ ( _a , _a = None , _a = True ): """simple docstring""" lowerCAmelCase__ : str = '''imagenet-1k-id2label.json''' lowerCAmelCase__ : Dict = 1_000 lowerCAmelCase__ : Optional[int] = (1, num_labels) lowerCAmelCase__ : Optional[int] = '''huggingface/label-files''' lowerCAmelCase__ : Tuple = num_labels lowerCAmelCase__ : List[Any] = json.load(open(cached_download(hf_hub_url(_a , _a , repo_type='''dataset''' ) ) , '''r''' ) ) lowerCAmelCase__ : Dict = {int(_a ): v for k, v in idalabel.items()} lowerCAmelCase__ : List[Any] = idalabel lowerCAmelCase__ : Union[str, Any] = {v: k for k, v in idalabel.items()} lowerCAmelCase__ : Dict = partial(_a , num_labels=_a , idalabel=_a , labelaid=_a ) lowerCAmelCase__ : Tuple = { '''regnet-x-002''': ImageNetPreTrainedConfig( depths=[1, 1, 4, 7] , hidden_sizes=[24, 56, 152, 368] , groups_width=8 , layer_type='''x''' ), '''regnet-x-004''': ImageNetPreTrainedConfig( depths=[1, 2, 7, 12] , hidden_sizes=[32, 64, 160, 384] , groups_width=16 , layer_type='''x''' ), '''regnet-x-006''': ImageNetPreTrainedConfig( depths=[1, 3, 5, 7] , hidden_sizes=[48, 96, 240, 528] , groups_width=24 , layer_type='''x''' ), '''regnet-x-008''': ImageNetPreTrainedConfig( depths=[1, 3, 7, 5] , hidden_sizes=[64, 128, 288, 672] , groups_width=16 , layer_type='''x''' ), '''regnet-x-016''': ImageNetPreTrainedConfig( depths=[2, 4, 10, 2] , hidden_sizes=[72, 168, 408, 912] , groups_width=24 , layer_type='''x''' ), '''regnet-x-032''': ImageNetPreTrainedConfig( depths=[2, 6, 15, 2] , hidden_sizes=[96, 192, 432, 1_008] , groups_width=48 , layer_type='''x''' ), '''regnet-x-040''': ImageNetPreTrainedConfig( depths=[2, 5, 14, 2] , hidden_sizes=[80, 240, 560, 1_360] , groups_width=40 , layer_type='''x''' ), '''regnet-x-064''': ImageNetPreTrainedConfig( depths=[2, 4, 10, 1] , hidden_sizes=[168, 392, 784, 1_624] , groups_width=56 , layer_type='''x''' ), '''regnet-x-080''': ImageNetPreTrainedConfig( depths=[2, 5, 15, 1] , hidden_sizes=[80, 240, 720, 1_920] , groups_width=120 , layer_type='''x''' ), '''regnet-x-120''': ImageNetPreTrainedConfig( depths=[2, 5, 11, 1] , hidden_sizes=[224, 448, 896, 2_240] , groups_width=112 , layer_type='''x''' ), '''regnet-x-160''': ImageNetPreTrainedConfig( depths=[2, 6, 13, 1] , hidden_sizes=[256, 512, 896, 2_048] , groups_width=128 , layer_type='''x''' ), '''regnet-x-320''': ImageNetPreTrainedConfig( depths=[2, 7, 13, 1] , hidden_sizes=[336, 672, 1_344, 2_520] , groups_width=168 , layer_type='''x''' ), # y variant '''regnet-y-002''': ImageNetPreTrainedConfig(depths=[1, 1, 4, 7] , hidden_sizes=[24, 56, 152, 368] , groups_width=8 ), '''regnet-y-004''': ImageNetPreTrainedConfig( depths=[1, 3, 6, 6] , hidden_sizes=[48, 104, 208, 440] , groups_width=8 ), '''regnet-y-006''': ImageNetPreTrainedConfig( depths=[1, 3, 7, 4] , hidden_sizes=[48, 112, 256, 608] , groups_width=16 ), '''regnet-y-008''': ImageNetPreTrainedConfig( depths=[1, 3, 8, 2] , hidden_sizes=[64, 128, 320, 768] , groups_width=16 ), '''regnet-y-016''': ImageNetPreTrainedConfig( depths=[2, 6, 17, 2] , hidden_sizes=[48, 120, 336, 888] , groups_width=24 ), '''regnet-y-032''': ImageNetPreTrainedConfig( depths=[2, 5, 13, 1] , hidden_sizes=[72, 216, 576, 1_512] , groups_width=24 ), '''regnet-y-040''': ImageNetPreTrainedConfig( depths=[2, 6, 12, 2] , hidden_sizes=[128, 192, 512, 1_088] , groups_width=64 ), '''regnet-y-064''': ImageNetPreTrainedConfig( depths=[2, 7, 14, 2] , hidden_sizes=[144, 288, 576, 1_296] , groups_width=72 ), '''regnet-y-080''': ImageNetPreTrainedConfig( depths=[2, 4, 10, 1] , hidden_sizes=[168, 448, 896, 2_016] , groups_width=56 ), '''regnet-y-120''': ImageNetPreTrainedConfig( depths=[2, 5, 11, 1] , hidden_sizes=[224, 448, 896, 2_240] , groups_width=112 ), '''regnet-y-160''': ImageNetPreTrainedConfig( depths=[2, 4, 11, 1] , hidden_sizes=[224, 448, 1_232, 3_024] , groups_width=112 ), '''regnet-y-320''': ImageNetPreTrainedConfig( depths=[2, 5, 12, 1] , hidden_sizes=[232, 696, 1_392, 3_712] , groups_width=232 ), # models created by SEER -> https://arxiv.org/abs/2202.08360 '''regnet-y-320-seer''': RegNetConfig(depths=[2, 5, 12, 1] , hidden_sizes=[232, 696, 1_392, 3_712] , groups_width=232 ), '''regnet-y-640-seer''': RegNetConfig(depths=[2, 5, 12, 1] , hidden_sizes=[328, 984, 1_968, 4_920] , groups_width=328 ), '''regnet-y-1280-seer''': RegNetConfig( depths=[2, 7, 17, 1] , hidden_sizes=[528, 1_056, 2_904, 7_392] , groups_width=264 ), '''regnet-y-2560-seer''': RegNetConfig( depths=[3, 7, 16, 1] , hidden_sizes=[640, 1_696, 2_544, 5_088] , groups_width=640 ), '''regnet-y-10b-seer''': ImageNetPreTrainedConfig( depths=[2, 7, 17, 1] , hidden_sizes=[2_020, 4_040, 11_110, 28_280] , groups_width=1_010 ), # finetuned on imagenet '''regnet-y-320-seer-in1k''': ImageNetPreTrainedConfig( depths=[2, 5, 12, 1] , hidden_sizes=[232, 696, 1_392, 3_712] , groups_width=232 ), '''regnet-y-640-seer-in1k''': ImageNetPreTrainedConfig( depths=[2, 5, 12, 1] , hidden_sizes=[328, 984, 1_968, 4_920] , groups_width=328 ), '''regnet-y-1280-seer-in1k''': ImageNetPreTrainedConfig( depths=[2, 7, 17, 1] , hidden_sizes=[528, 1_056, 2_904, 7_392] , groups_width=264 ), '''regnet-y-2560-seer-in1k''': ImageNetPreTrainedConfig( depths=[3, 7, 16, 1] , hidden_sizes=[640, 1_696, 2_544, 5_088] , groups_width=640 ), '''regnet-y-10b-seer-in1k''': ImageNetPreTrainedConfig( depths=[2, 7, 17, 1] , hidden_sizes=[2_020, 4_040, 11_110, 28_280] , groups_width=1_010 ), } lowerCAmelCase__ : Optional[Any] = NameToOurModelFuncMap() lowerCAmelCase__ : Optional[Any] = NameToFromModelFuncMap() # add seer weights logic def load_using_classy_vision(_a , _a ) -> Tuple[nn.Module, Dict]: lowerCAmelCase__ : Tuple = torch.hub.load_state_dict_from_url(_a , model_dir=str(_a ) , map_location='''cpu''' ) lowerCAmelCase__ : int = model_func() # check if we have a head, if yes add it lowerCAmelCase__ : int = files['''classy_state_dict''']['''base_model''']['''model'''] lowerCAmelCase__ : Tuple = model_state_dict['''trunk'''] model.load_state_dict(_a ) return model.eval(), model_state_dict["heads"] # pretrained lowerCAmelCase__ : int = partial( _a , '''https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_regnet32d/seer_regnet32gf_model_iteration244000.torch''' , lambda: FakeRegNetVisslWrapper(RegNetYaagf() ) , ) lowerCAmelCase__ : Optional[int] = partial( _a , '''https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_regnet64/seer_regnet64gf_model_final_checkpoint_phase0.torch''' , lambda: FakeRegNetVisslWrapper(RegNetYaagf() ) , ) lowerCAmelCase__ : Optional[int] = partial( _a , '''https://dl.fbaipublicfiles.com/vissl/model_zoo/swav_ig1b_regnet128Gf_cnstant_bs32_node16_sinkhorn10_proto16k_syncBN64_warmup8k/model_final_checkpoint_phase0.torch''' , lambda: FakeRegNetVisslWrapper(RegNetYaaagf() ) , ) lowerCAmelCase__ : Tuple = partial( _a , '''https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_regnet10B/model_iteration124500_conso.torch''' , lambda: FakeRegNetVisslWrapper( RegNet(RegNetParams(depth=27 , group_width=1_010 , w_a=1_744 , w_a=6_20.83 , w_m=2.52 ) ) ) , ) # IN1K finetuned lowerCAmelCase__ : List[Any] = partial( _a , '''https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_finetuned/seer_regnet32_finetuned_in1k_model_final_checkpoint_phase78.torch''' , lambda: FakeRegNetVisslWrapper(RegNetYaagf() ) , ) lowerCAmelCase__ : Optional[int] = partial( _a , '''https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_finetuned/seer_regnet64_finetuned_in1k_model_final_checkpoint_phase78.torch''' , lambda: FakeRegNetVisslWrapper(RegNetYaagf() ) , ) lowerCAmelCase__ : Union[str, Any] = partial( _a , '''https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_finetuned/seer_regnet128_finetuned_in1k_model_final_checkpoint_phase78.torch''' , lambda: FakeRegNetVisslWrapper(RegNetYaaagf() ) , ) lowerCAmelCase__ : Union[str, Any] = partial( _a , '''https://dl.fbaipublicfiles.com/vissl/model_zoo/seer_finetuned/seer_10b_finetuned_in1k_model_phase28_conso.torch''' , lambda: FakeRegNetVisslWrapper( RegNet(RegNetParams(depth=27 , group_width=1_010 , w_a=1_744 , w_a=6_20.83 , w_m=2.52 ) ) ) , ) if model_name: convert_weight_and_push( _a , names_to_from_model_map[model_name] , names_to_ours_model_map[model_name] , names_to_config[model_name] , _a , _a , ) else: for model_name, config in names_to_config.items(): convert_weight_and_push( _a , names_to_from_model_map[model_name] , names_to_ours_model_map[model_name] , _a , _a , _a , ) return config, expected_shape if __name__ == "__main__": lowerCamelCase = argparse.ArgumentParser() # Required parameters parser.add_argument( '''--model_name''', default=None, type=str, help=( '''The name of the model you wish to convert, it must be one of the supported regnet* architecture,''' ''' currently: regnetx-*, regnety-*. If `None`, all of them will the converted.''' ), ) parser.add_argument( '''--pytorch_dump_folder_path''', default=None, type=Path, required=True, help='''Path to the output PyTorch model directory.''', ) parser.add_argument( '''--push_to_hub''', default=True, type=bool, required=False, help='''If True, push model and image processor to the hub.''', ) lowerCamelCase = parser.parse_args() lowerCamelCase = args.pytorch_dump_folder_path pytorch_dump_folder_path.mkdir(exist_ok=True, parents=True) convert_weights_and_push(pytorch_dump_folder_path, args.model_name, args.push_to_hub)

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'''simple docstring''' import unittest import numpy as np import torch from diffusers import ScoreSdeVePipeline, ScoreSdeVeScheduler, UNetaDModel from diffusers.utils.testing_utils import enable_full_determinism, require_torch, slow, torch_device enable_full_determinism() class SCREAMING_SNAKE_CASE__ ( unittest.TestCase): @property def UpperCAmelCase_ ( self )-> List[str]: '''simple docstring''' torch.manual_seed(0 ) UpperCamelCase = UNetaDModel( block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=3 , out_channels=3 , down_block_types=('DownBlock2D', 'AttnDownBlock2D') , up_block_types=('AttnUpBlock2D', 'UpBlock2D') , ) return model def UpperCAmelCase_ ( self )-> Tuple: '''simple docstring''' UpperCamelCase = self.dummy_uncond_unet UpperCamelCase = ScoreSdeVeScheduler() UpperCamelCase = ScoreSdeVePipeline(unet=A_ , scheduler=A_ ) sde_ve.to(A_ ) sde_ve.set_progress_bar_config(disable=A_ ) UpperCamelCase = torch.manual_seed(0 ) UpperCamelCase = sde_ve(num_inference_steps=2 , output_type='numpy' , generator=A_ ).images UpperCamelCase = torch.manual_seed(0 ) UpperCamelCase = sde_ve(num_inference_steps=2 , output_type='numpy' , generator=A_ , return_dict=A_ )[ 0 ] UpperCamelCase = image[0, -3:, -3:, -1] UpperCamelCase = image_from_tuple[0, -3:, -3:, -1] assert image.shape == (1, 32, 32, 3) UpperCamelCase = np.array([0.0, 1.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0, 0.0] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-2 assert np.abs(image_from_tuple_slice.flatten() - expected_slice ).max() < 1e-2 @slow @require_torch class SCREAMING_SNAKE_CASE__ ( unittest.TestCase): def UpperCAmelCase_ ( self )-> Tuple: '''simple docstring''' UpperCamelCase = 'google/ncsnpp-church-256' UpperCamelCase = UNetaDModel.from_pretrained(A_ ) UpperCamelCase = ScoreSdeVeScheduler.from_pretrained(A_ ) UpperCamelCase = ScoreSdeVePipeline(unet=A_ , scheduler=A_ ) sde_ve.to(A_ ) sde_ve.set_progress_bar_config(disable=A_ ) UpperCamelCase = torch.manual_seed(0 ) UpperCamelCase = sde_ve(num_inference_steps=10 , output_type='numpy' , generator=A_ ).images UpperCamelCase = image[0, -3:, -3:, -1] assert image.shape == (1, 256, 256, 3) UpperCamelCase = np.array([0.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 0.0, 0.0] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1e-2

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'''simple docstring''' from __future__ import annotations import time import numpy as np lowerCAmelCase : List[Any] = [8, 5, 9, 7] lowerCAmelCase : str = [ [2, 0, 1, 1], [0, 1, 2, 1], [4, 0, 0, 3], [0, 2, 1, 0], [1, 0, 3, 0], ] lowerCAmelCase : Tuple = [ [3, 2, 1, 4], [0, 2, 5, 2], [5, 1, 0, 5], [1, 5, 3, 0], [3, 0, 3, 3], ] class SCREAMING_SNAKE_CASE__ : def __init__( self , A_ , A_ , A_ , )-> None: '''simple docstring''' UpperCamelCase = claim_vector UpperCamelCase = allocated_resources_table UpperCamelCase = maximum_claim_table def UpperCAmelCase_ ( self )-> list[int]: '''simple docstring''' return [ sum(p_item[i] for p_item in self.__allocated_resources_table ) for i in range(len(self.__allocated_resources_table[0] ) ) ] def UpperCAmelCase_ ( self )-> list[int]: '''simple docstring''' return np.array(self.__claim_vector ) - np.array( self.__processes_resource_summation() ) def UpperCAmelCase_ ( self )-> list[list[int]]: '''simple docstring''' return [ list(np.array(self.__maximum_claim_table[i] ) - np.array(A_ ) ) for i, allocated_resource in enumerate(self.__allocated_resources_table ) ] def UpperCAmelCase_ ( self )-> dict[int, list[int]]: '''simple docstring''' return {self.__need().index(A_ ): i for i in self.__need()} def UpperCAmelCase_ ( self , **A_ )-> None: '''simple docstring''' UpperCamelCase = self.__need() UpperCamelCase = self.__allocated_resources_table UpperCamelCase = self.__available_resources() UpperCamelCase = self.__need_index_manager() for kw, val in kwargs.items(): if kw and val is True: self.__pretty_data() print('_' * 50 + '\n' ) while need_list: UpperCamelCase = False for each_need in need_list: UpperCamelCase = True for index, need in enumerate(A_ ): if need > available_resources[index]: UpperCamelCase = False break if execution: UpperCamelCase = True # get the original index of the process from ind_ctrl db for original_need_index, need_clone in need_index_manager.items(): if each_need == need_clone: UpperCamelCase = original_need_index print(F'''Process {process_number + 1} is executing.''' ) # remove the process run from stack need_list.remove(A_ ) # update available/freed resources stack UpperCamelCase = np.array(A_ ) + np.array( alloc_resources_table[process_number] ) print( 'Updated available resource stack for processes: ' + ' '.join([str(A_ ) for x in available_resources] ) ) break if safe: print('The process is in a safe state.\n' ) else: print('System in unsafe state. Aborting...\n' ) break def UpperCAmelCase_ ( self )-> Union[str, Any]: '''simple docstring''' print(' ' * 9 + 'Allocated Resource Table' ) for item in self.__allocated_resources_table: print( F'''P{self.__allocated_resources_table.index(A_ ) + 1}''' + ' '.join(F'''{it:>8}''' for it in item ) + '\n' ) print(' ' * 9 + 'System Resource Table' ) for item in self.__maximum_claim_table: print( F'''P{self.__maximum_claim_table.index(A_ ) + 1}''' + ' '.join(F'''{it:>8}''' for it in item ) + '\n' ) print( 'Current Usage by Active Processes: ' + ' '.join(str(A_ ) for x in self.__claim_vector ) ) print( 'Initial Available Resources: ' + ' '.join(str(A_ ) for x in self.__available_resources() ) ) time.sleep(1 ) if __name__ == "__main__": import doctest doctest.testmod()

251

1

"""simple docstring""" import os from typing import Optional import fsspec from fsspec.archive import AbstractArchiveFileSystem from fsspec.utils import DEFAULT_BLOCK_SIZE class lowerCAmelCase_ ( _lowercase ): '''simple docstring''' _lowerCamelCase: Dict = '''''' _lowerCamelCase: str = ( None # protocol passed in prefix to the url. ex: "gzip", for gzip://file.txt::http://foo.bar/file.txt.gz ) _lowerCamelCase: str = None # compression type in fsspec. ex: "gzip" _lowerCamelCase: str = None # extension of the filename to strip. ex: "".gz" to get file.txt from file.txt.gz def __init__( self : Union[str, Any] ,A_ : str = "" ,A_ : Optional[str] = None ,A_ : Optional[dict] = None ,**A_ : int ) -> Optional[int]: super().__init__(self ,**A_ ) # always open as "rb" since fsspec can then use the TextIOWrapper to make it work for "r" mode A = fsspec.open( A_ ,mode='rb' ,protocol=A_ ,compression=self.compression ,client_kwargs={ 'requote_redirect_url': False, # see https://github.com/huggingface/datasets/pull/5459 'trust_env': True, # Enable reading proxy env variables. **(target_options or {}).pop('client_kwargs' ,{} ), # To avoid issues if it was already passed. } ,**(target_options or {}) ,) A = os.path.basename(self.file.path.split('::' )[0] ) A = ( self.compressed_name[: self.compressed_name.rindex('.' )] if '.' in self.compressed_name else self.compressed_name ) A = None @classmethod def _SCREAMING_SNAKE_CASE ( cls : List[Any] ,A_ : Union[str, Any] ) -> Dict: # compressed file paths are always relative to the archive root return super()._strip_protocol(A_ ).lstrip('/' ) def _SCREAMING_SNAKE_CASE ( self : Tuple ) -> int: if self.dir_cache is None: A = {**self.file.fs.info(self.file.path ), 'name': self.uncompressed_name} A = {f['name']: f} def _SCREAMING_SNAKE_CASE ( self : Tuple ,A_ : str ) -> Dict: return self.file.open().read() def _SCREAMING_SNAKE_CASE ( self : Tuple ,A_ : str ,A_ : str = "rb" ,A_ : List[str]=None ,A_ : Optional[int]=True ,A_ : Dict=None ,**A_ : int ,) -> Tuple: A = self._strip_protocol(A_ ) if mode != "rb": raise ValueError(F'Tried to read with mode {mode} on file {self.file.path} opened with mode \'rb\'' ) return self.file.open() class lowerCAmelCase_ ( _lowercase ): '''simple docstring''' _lowerCamelCase: Any = '''bz2''' _lowerCamelCase: Tuple = '''bz2''' _lowerCamelCase: Tuple = '''.bz2''' class lowerCAmelCase_ ( _lowercase ): '''simple docstring''' _lowerCamelCase: Union[str, Any] = '''gzip''' _lowerCamelCase: str = '''gzip''' _lowerCamelCase: Dict = '''.gz''' class lowerCAmelCase_ ( _lowercase ): '''simple docstring''' _lowerCamelCase: Any = '''lz4''' _lowerCamelCase: Dict = '''lz4''' _lowerCamelCase: List[Any] = '''.lz4''' class lowerCAmelCase_ ( _lowercase ): '''simple docstring''' _lowerCamelCase: List[Any] = '''xz''' _lowerCamelCase: Tuple = '''xz''' _lowerCamelCase: List[str] = '''.xz''' class lowerCAmelCase_ ( _lowercase ): '''simple docstring''' _lowerCamelCase: Any = '''zstd''' _lowerCamelCase: int = '''zstd''' _lowerCamelCase: str = '''.zst''' def __init__( self : Optional[Any] ,A_ : str ,A_ : str = "rb" ,A_ : Optional[str] = None ,A_ : Optional[dict] = None ,A_ : int = DEFAULT_BLOCK_SIZE ,**A_ : int ,) -> int: super().__init__( fo=A_ ,mode=A_ ,target_protocol=A_ ,target_options=A_ ,block_size=A_ ,**A_ ,) # We need to wrap the zstd decompressor to avoid this error in fsspec==2021.7.0 and zstandard==0.15.2: # # File "/Users/user/.virtualenvs/hf-datasets/lib/python3.7/site-packages/fsspec/core.py", line 145, in open # out.close = close # AttributeError: 'zstd.ZstdDecompressionReader' object attribute 'close' is read-only # # see https://github.com/intake/filesystem_spec/issues/725 A = self.file.__enter__ class lowerCAmelCase_ : '''simple docstring''' def __init__( self : List[Any] ,A_ : int ) -> Any: A = file_ def __enter__( self : Union[str, Any] ) -> Tuple: self._file.__enter__() return self def __exit__( self : Dict ,*A_ : Dict ,**A_ : List[str] ) -> int: self._file.__exit__(*A_ ,**A_ ) def __iter__( self : Optional[int] ) -> Optional[int]: return iter(self._file ) def _SCREAMING_SNAKE_CASE ( self : Optional[int] ) -> Optional[int]: return next(self._file ) def __getattr__( self : Optional[Any] ,A_ : int ) -> List[Any]: return getattr(self._file ,A_ ) def fixed_enter(*A_ : List[Any] ,**A_ : List[str] ): return WrappedFile(_enter(*A_ ,**A_ ) ) A = fixed_enter

74

import os from datetime import datetime as dt from github import Github A__: int = [ '''good first issue''', '''good second issue''', '''good difficult issue''', '''enhancement''', '''new pipeline/model''', '''new scheduler''', '''wip''', ] def lowerCAmelCase_ ( ): UpperCamelCase__: Dict = Github(os.environ["GITHUB_TOKEN"]) UpperCamelCase__: Union[str, Any] = g.get_repo("huggingface/diffusers") UpperCamelCase__: str = repo.get_issues(state="open") for issue in open_issues: UpperCamelCase__: Union[str, Any] = sorted(issue.get_comments() ,key=lambda A_: i.created_at ,reverse=A_) UpperCamelCase__: Tuple = comments[0] if len(A_) > 0 else None if ( last_comment is not None and last_comment.user.login == "github-actions[bot]" and (dt.utcnow() - issue.updated_at).days > 7 and (dt.utcnow() - issue.created_at).days >= 30 and not any(label.name.lower() in LABELS_TO_EXEMPT for label in issue.get_labels()) ): # Closes the issue after 7 days of inactivity since the Stalebot notification. issue.edit(state="closed") elif ( "stale" in issue.get_labels() and last_comment is not None and last_comment.user.login != "github-actions[bot]" ): # Opens the issue if someone other than Stalebot commented. issue.edit(state="open") issue.remove_from_labels("stale") elif ( (dt.utcnow() - issue.updated_at).days > 23 and (dt.utcnow() - issue.created_at).days >= 30 and not any(label.name.lower() in LABELS_TO_EXEMPT for label in issue.get_labels()) ): # Post a Stalebot notification after 23 days of inactivity. issue.create_comment( "This issue has been automatically marked as stale because it has not had " "recent activity. If you think this still needs to be addressed " "please comment on this thread.\n\nPlease note that issues that do not follow the " "[contributing guidelines](https://github.com/huggingface/diffusers/blob/main/CONTRIBUTING.md) " "are likely to be ignored.") issue.add_to_labels("stale") if __name__ == "__main__": main()

149

0

import inspect import unittest from transformers import MobileViTConfig from transformers.testing_utils import require_torch, require_vision, slow, torch_device from transformers.utils import cached_property, is_torch_available, is_vision_available from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin, floats_tensor, ids_tensor from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from transformers import MobileViTForImageClassification, MobileViTForSemanticSegmentation, MobileViTModel from transformers.models.mobilevit.modeling_mobilevit import MOBILEVIT_PRETRAINED_MODEL_ARCHIVE_LIST if is_vision_available(): from PIL import Image from transformers import MobileViTImageProcessor class _A ( __lowercase ): def lowercase__ ( self : str ) -> Union[str, Any]: """simple docstring""" __snake_case : str = self.config_class(**self.inputs_dict ) self.parent.assertTrue(hasattr(__magic_name__ , """hidden_sizes""" ) ) self.parent.assertTrue(hasattr(__magic_name__ , """neck_hidden_sizes""" ) ) self.parent.assertTrue(hasattr(__magic_name__ , """num_attention_heads""" ) ) class _A : def __init__( self : List[Any] , __magic_name__ : Union[str, Any] , __magic_name__ : int=13 , __magic_name__ : List[str]=32 , __magic_name__ : Optional[int]=2 , __magic_name__ : List[str]=3 , __magic_name__ : Optional[int]=6_40 , __magic_name__ : Dict=4 , __magic_name__ : Tuple="silu" , __magic_name__ : Optional[int]=3 , __magic_name__ : Any=32 , __magic_name__ : Union[str, Any]=0.1 , __magic_name__ : Union[str, Any]=0.1 , __magic_name__ : int=0.1 , __magic_name__ : Optional[int]=0.02 , __magic_name__ : List[Any]=True , __magic_name__ : Any=True , __magic_name__ : str=10 , __magic_name__ : Tuple=None , ) -> Optional[int]: """simple docstring""" __snake_case : Dict = parent __snake_case : List[str] = batch_size __snake_case : Any = image_size __snake_case : List[Any] = patch_size __snake_case : Union[str, Any] = num_channels __snake_case : Dict = last_hidden_size __snake_case : Dict = num_attention_heads __snake_case : Any = hidden_act __snake_case : int = conv_kernel_size __snake_case : Tuple = output_stride __snake_case : str = hidden_dropout_prob __snake_case : List[Any] = attention_probs_dropout_prob __snake_case : Any = classifier_dropout_prob __snake_case : Any = use_labels __snake_case : str = is_training __snake_case : int = num_labels __snake_case : int = initializer_range __snake_case : int = scope def lowercase__ ( self : str ) -> Tuple: """simple docstring""" __snake_case : List[Any] = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] ) __snake_case : int = None __snake_case : Union[str, Any] = None if self.use_labels: __snake_case : Union[str, Any] = ids_tensor([self.batch_size] , self.num_labels ) __snake_case : Union[str, Any] = ids_tensor([self.batch_size, self.image_size, self.image_size] , self.num_labels ) __snake_case : Optional[Any] = self.get_config() return config, pixel_values, labels, pixel_labels def lowercase__ ( self : Dict ) -> int: """simple docstring""" return MobileViTConfig( image_size=self.image_size , patch_size=self.patch_size , num_channels=self.num_channels , num_attention_heads=self.num_attention_heads , hidden_act=self.hidden_act , conv_kernel_size=self.conv_kernel_size , output_stride=self.output_stride , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , classifier_dropout_prob=self.classifier_dropout_prob , initializer_range=self.initializer_range , ) def lowercase__ ( self : List[Any] , __magic_name__ : List[str] , __magic_name__ : List[Any] , __magic_name__ : List[str] , __magic_name__ : Optional[int] ) -> Union[str, Any]: """simple docstring""" __snake_case : int = MobileViTModel(config=__magic_name__ ) model.to(__magic_name__ ) model.eval() __snake_case : Optional[int] = model(__magic_name__ ) self.parent.assertEqual( result.last_hidden_state.shape , ( self.batch_size, self.last_hidden_size, self.image_size // self.output_stride, self.image_size // self.output_stride, ) , ) def lowercase__ ( self : int , __magic_name__ : List[str] , __magic_name__ : Optional[Any] , __magic_name__ : Optional[int] , __magic_name__ : Any ) -> Optional[int]: """simple docstring""" __snake_case : str = self.num_labels __snake_case : Optional[Any] = MobileViTForImageClassification(__magic_name__ ) model.to(__magic_name__ ) model.eval() __snake_case : Optional[int] = model(__magic_name__ , labels=__magic_name__ ) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_labels) ) def lowercase__ ( self : List[str] , __magic_name__ : Dict , __magic_name__ : Optional[Any] , __magic_name__ : Union[str, Any] , __magic_name__ : Optional[int] ) -> str: """simple docstring""" __snake_case : Tuple = self.num_labels __snake_case : str = MobileViTForSemanticSegmentation(__magic_name__ ) model.to(__magic_name__ ) model.eval() __snake_case : Any = model(__magic_name__ ) self.parent.assertEqual( result.logits.shape , ( self.batch_size, self.num_labels, self.image_size // self.output_stride, self.image_size // self.output_stride, ) , ) __snake_case : Tuple = model(__magic_name__ , labels=__magic_name__ ) self.parent.assertEqual( result.logits.shape , ( self.batch_size, self.num_labels, self.image_size // self.output_stride, self.image_size // self.output_stride, ) , ) def lowercase__ ( self : Tuple ) -> Optional[Any]: """simple docstring""" __snake_case : Any = self.prepare_config_and_inputs() __snake_case : List[str] = config_and_inputs __snake_case : List[Any] = {"""pixel_values""": pixel_values} return config, inputs_dict @require_torch class _A ( __lowercase , __lowercase , unittest.TestCase ): lowercase__: Dict = ( (MobileViTModel, MobileViTForImageClassification, MobileViTForSemanticSegmentation) if is_torch_available() else () ) lowercase__: Optional[int] = ( { '''feature-extraction''': MobileViTModel, '''image-classification''': MobileViTForImageClassification, '''image-segmentation''': MobileViTForSemanticSegmentation, } if is_torch_available() else {} ) lowercase__: Union[str, Any] = False lowercase__: Optional[int] = False lowercase__: int = False lowercase__: int = False def lowercase__ ( self : List[Any] ) -> List[str]: """simple docstring""" __snake_case : Dict = MobileViTModelTester(self ) __snake_case : Union[str, Any] = MobileViTConfigTester(self , config_class=__magic_name__ , has_text_modality=__magic_name__ ) def lowercase__ ( self : List[Any] ) -> Union[str, Any]: """simple docstring""" self.config_tester.run_common_tests() @unittest.skip(reason="""MobileViT does not use inputs_embeds""" ) def lowercase__ ( self : int ) -> List[str]: """simple docstring""" pass @unittest.skip(reason="""MobileViT does not support input and output embeddings""" ) def lowercase__ ( self : str ) -> Any: """simple docstring""" pass @unittest.skip(reason="""MobileViT does not output attentions""" ) def lowercase__ ( self : List[Any] ) -> Union[str, Any]: """simple docstring""" pass def lowercase__ ( self : Optional[Any] ) -> Optional[Any]: """simple docstring""" __snake_case : Tuple = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: __snake_case : List[str] = model_class(__magic_name__ ) __snake_case : Tuple = inspect.signature(model.forward ) # signature.parameters is an OrderedDict => so arg_names order is deterministic __snake_case : List[Any] = [*signature.parameters.keys()] __snake_case : Any = ["""pixel_values"""] self.assertListEqual(arg_names[:1] , __magic_name__ ) @unittest.skip("""Will be fixed soon by reducing the size of the model used for common tests.""" ) def lowercase__ ( self : Union[str, Any] ) -> List[Any]: """simple docstring""" pass def lowercase__ ( self : int ) -> Optional[int]: """simple docstring""" __snake_case : List[str] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(*__magic_name__ ) def lowercase__ ( self : Optional[int] ) -> Union[str, Any]: """simple docstring""" def check_hidden_states_output(__magic_name__ : Dict , __magic_name__ : Dict , __magic_name__ : Optional[int] ): __snake_case : Any = model_class(__magic_name__ ) model.to(__magic_name__ ) model.eval() with torch.no_grad(): __snake_case : Union[str, Any] = model(**self._prepare_for_class(__magic_name__ , __magic_name__ ) ) __snake_case : List[str] = outputs.hidden_states __snake_case : Union[str, Any] = 5 self.assertEqual(len(__magic_name__ ) , __magic_name__ ) # MobileViT's feature maps are of shape (batch_size, num_channels, height, width) # with the width and height being successively divided by 2. __snake_case : Union[str, Any] = 2 for i in range(len(__magic_name__ ) ): self.assertListEqual( list(hidden_states[i].shape[-2:] ) , [self.model_tester.image_size // divisor, self.model_tester.image_size // divisor] , ) divisor *= 2 self.assertEqual(self.model_tester.output_stride , divisor // 2 ) __snake_case : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: __snake_case : int = True check_hidden_states_output(__magic_name__ , __magic_name__ , __magic_name__ ) # check that output_hidden_states also work using config del inputs_dict["output_hidden_states"] __snake_case : Optional[int] = True check_hidden_states_output(__magic_name__ , __magic_name__ , __magic_name__ ) def lowercase__ ( self : Union[str, Any] ) -> Any: """simple docstring""" __snake_case : Union[str, Any] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_image_classification(*__magic_name__ ) def lowercase__ ( self : Optional[Any] ) -> Tuple: """simple docstring""" __snake_case : int = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_semantic_segmentation(*__magic_name__ ) @slow def lowercase__ ( self : Union[str, Any] ) -> List[Any]: """simple docstring""" for model_name in MOBILEVIT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: __snake_case : Optional[int] = MobileViTModel.from_pretrained(__magic_name__ ) self.assertIsNotNone(__magic_name__ ) def _a ( ) -> Any: """simple docstring""" __snake_case : List[Any] = Image.open("""./tests/fixtures/tests_samples/COCO/000000039769.png""" ) return image @require_torch @require_vision class _A ( unittest.TestCase ): @cached_property def lowercase__ ( self : Dict ) -> Any: """simple docstring""" return MobileViTImageProcessor.from_pretrained("""apple/mobilevit-xx-small""" ) if is_vision_available() else None @slow def lowercase__ ( self : Dict ) -> Any: """simple docstring""" __snake_case : int = MobileViTForImageClassification.from_pretrained("""apple/mobilevit-xx-small""" ).to(__magic_name__ ) __snake_case : Tuple = self.default_image_processor __snake_case : str = prepare_img() __snake_case : Optional[Any] = image_processor(images=__magic_name__ , return_tensors="""pt""" ).to(__magic_name__ ) # forward pass with torch.no_grad(): __snake_case : Any = model(**__magic_name__ ) # verify the logits __snake_case : str = torch.Size((1, 10_00) ) self.assertEqual(outputs.logits.shape , __magic_name__ ) __snake_case : Optional[int] = torch.tensor([-1.9364, -1.2327, -0.4653] ).to(__magic_name__ ) self.assertTrue(torch.allclose(outputs.logits[0, :3] , __magic_name__ , atol=1E-4 ) ) @slow def lowercase__ ( self : List[str] ) -> Dict: """simple docstring""" __snake_case : Dict = MobileViTForSemanticSegmentation.from_pretrained("""apple/deeplabv3-mobilevit-xx-small""" ) __snake_case : int = model.to(__magic_name__ ) __snake_case : Dict = MobileViTImageProcessor.from_pretrained("""apple/deeplabv3-mobilevit-xx-small""" ) __snake_case : Union[str, Any] = prepare_img() __snake_case : int = image_processor(images=__magic_name__ , return_tensors="""pt""" ).to(__magic_name__ ) # forward pass with torch.no_grad(): __snake_case : str = model(**__magic_name__ ) __snake_case : Optional[int] = outputs.logits # verify the logits __snake_case : Dict = torch.Size((1, 21, 32, 32) ) self.assertEqual(logits.shape , __magic_name__ ) __snake_case : Union[str, Any] = torch.tensor( [ [[6.9713, 6.9786, 7.2422], [7.2893, 7.2825, 7.4446], [7.6580, 7.8797, 7.9420]], [[-10.6869, -10.3250, -10.3471], [-10.4228, -9.9868, -9.7132], [-11.0405, -11.0221, -10.7318]], [[-3.3089, -2.8539, -2.6740], [-3.2706, -2.5621, -2.5108], [-3.2534, -2.6615, -2.6651]], ] , device=__magic_name__ , ) self.assertTrue(torch.allclose(logits[0, :3, :3, :3] , __magic_name__ , atol=1E-4 ) ) @slow def lowercase__ ( self : List[Any] ) -> Dict: """simple docstring""" __snake_case : int = MobileViTForSemanticSegmentation.from_pretrained("""apple/deeplabv3-mobilevit-xx-small""" ) __snake_case : Tuple = model.to(__magic_name__ ) __snake_case : Any = MobileViTImageProcessor.from_pretrained("""apple/deeplabv3-mobilevit-xx-small""" ) __snake_case : List[str] = prepare_img() __snake_case : List[str] = image_processor(images=__magic_name__ , return_tensors="""pt""" ).to(__magic_name__ ) # forward pass with torch.no_grad(): __snake_case : int = model(**__magic_name__ ) __snake_case : str = outputs.logits.detach().cpu() __snake_case : int = image_processor.post_process_semantic_segmentation(outputs=__magic_name__ , target_sizes=[(50, 60)] ) __snake_case : Tuple = torch.Size((50, 60) ) self.assertEqual(segmentation[0].shape , __magic_name__ ) __snake_case : str = image_processor.post_process_semantic_segmentation(outputs=__magic_name__ ) __snake_case : Tuple = torch.Size((32, 32) ) self.assertEqual(segmentation[0].shape , __magic_name__ )

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'''simple docstring''' def _a ( _lowerCamelCase ) -> Dict: """simple docstring""" __snake_case : str = 0 __snake_case : Optional[int] = len(_lowerCamelCase ) for i in range(n - 1 ): for j in range(i + 1 , _lowerCamelCase ): if arr[i] > arr[j]: num_inversions += 1 return num_inversions def _a ( _lowerCamelCase ) -> Tuple: """simple docstring""" if len(_lowerCamelCase ) <= 1: return arr, 0 __snake_case : Any = len(_lowerCamelCase ) // 2 __snake_case : List[str] = arr[0:mid] __snake_case : int = arr[mid:] __snake_case , __snake_case : List[Any] = count_inversions_recursive(_lowerCamelCase ) __snake_case , __snake_case : Tuple = count_inversions_recursive(_lowerCamelCase ) __snake_case , __snake_case : str = _count_cross_inversions(_lowerCamelCase , _lowerCamelCase ) __snake_case : str = inversion_p + inversions_q + cross_inversions return c, num_inversions def _a ( _lowerCamelCase , _lowerCamelCase ) -> int: """simple docstring""" __snake_case : Any = [] __snake_case : List[str] = 0 while i < len(_lowerCamelCase ) and j < len(_lowerCamelCase ): if p[i] > q[j]: # if P[1] > Q[j], then P[k] > Q[k] for all i < k <= len(P) # These are all inversions. The claim emerges from the # property that P is sorted. num_inversion += len(_lowerCamelCase ) - i r.append(q[j] ) j += 1 else: r.append(p[i] ) i += 1 if i < len(_lowerCamelCase ): r.extend(p[i:] ) else: r.extend(q[j:] ) return r, num_inversion def _a ( ) -> Optional[int]: """simple docstring""" __snake_case : Optional[Any] = [10, 2, 1, 5, 5, 2, 11] # this arr has 8 inversions: # (10, 2), (10, 1), (10, 5), (10, 5), (10, 2), (2, 1), (5, 2), (5, 2) __snake_case : Optional[Any] = count_inversions_bf(_lowerCamelCase ) __snake_case , __snake_case : Union[str, Any] = count_inversions_recursive(_lowerCamelCase ) assert num_inversions_bf == num_inversions_recursive == 8 print("""number of inversions = """ , _lowerCamelCase ) # testing an array with zero inversion (a sorted arr_1) arr_a.sort() __snake_case : Any = count_inversions_bf(_lowerCamelCase ) __snake_case , __snake_case : Union[str, Any] = count_inversions_recursive(_lowerCamelCase ) assert num_inversions_bf == num_inversions_recursive == 0 print("""number of inversions = """ , _lowerCamelCase ) # an empty list should also have zero inversions __snake_case : List[Any] = [] __snake_case : List[Any] = count_inversions_bf(_lowerCamelCase ) __snake_case , __snake_case : List[Any] = count_inversions_recursive(_lowerCamelCase ) assert num_inversions_bf == num_inversions_recursive == 0 print("""number of inversions = """ , _lowerCamelCase ) if __name__ == "__main__": main()

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from .glue import GlueDataset, GlueDataTrainingArguments from .language_modeling import ( LineByLineTextDataset, LineByLineWithRefDataset, LineByLineWithSOPTextDataset, TextDataset, TextDatasetForNextSentencePrediction, ) from .squad import SquadDataset, SquadDataTrainingArguments

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import uuid from typing import Any, Dict, List, Optional, Union from ..utils import add_end_docstrings, is_tf_available, is_torch_available, logging from .base import PIPELINE_INIT_ARGS, Pipeline if is_tf_available(): import tensorflow as tf if is_torch_available(): import torch a_ = logging.get_logger(__name__) class __lowerCAmelCase : def __init__( self , __UpperCAmelCase = None , __UpperCAmelCase = None , __UpperCAmelCase=None , __UpperCAmelCase=None ): '''simple docstring''' if not conversation_id: __lowerCamelCase = uuid.uuida() if past_user_inputs is None: __lowerCamelCase = [] if generated_responses is None: __lowerCamelCase = [] __lowerCamelCase = conversation_id __lowerCamelCase = past_user_inputs __lowerCamelCase = generated_responses __lowerCamelCase = text def __eq__( self , __UpperCAmelCase ): '''simple docstring''' if not isinstance(__UpperCAmelCase , __UpperCAmelCase ): return False if self.uuid == other.uuid: return True return ( self.new_user_input == other.new_user_input and self.past_user_inputs == other.past_user_inputs and self.generated_responses == other.generated_responses ) def lowerCamelCase ( self , __UpperCAmelCase , __UpperCAmelCase = False ): '''simple docstring''' if self.new_user_input: if overwrite: logger.warning( F"""User input added while unprocessed input was existing: \"{self.new_user_input}\" was overwritten """ F"""with: \"{text}\".""" ) __lowerCamelCase = text else: logger.warning( F"""User input added while unprocessed input was existing: \"{self.new_user_input}\" new input """ F"""ignored: \"{text}\". Set `overwrite` to True to overwrite unprocessed user input""" ) else: __lowerCamelCase = text def lowerCamelCase ( self ): '''simple docstring''' if self.new_user_input: self.past_user_inputs.append(self.new_user_input ) __lowerCamelCase = None def lowerCamelCase ( self , __UpperCAmelCase ): '''simple docstring''' self.generated_responses.append(__UpperCAmelCase ) def lowerCamelCase ( self ): '''simple docstring''' for user_input, generated_response in zip(self.past_user_inputs , self.generated_responses ): yield True, user_input yield False, generated_response if self.new_user_input: yield True, self.new_user_input def __repr__( self ): '''simple docstring''' __lowerCamelCase = F"""Conversation id: {self.uuid} \n""" for is_user, text in self.iter_texts(): __lowerCamelCase = '''user''' if is_user else '''bot''' output += F"""{name} >> {text} \n""" return output @add_end_docstrings( lowerCAmelCase__ , r""" min_length_for_response (`int`, *optional*, defaults to 32): The minimum length (in number of tokens) for a response. minimum_tokens (`int`, *optional*, defaults to 10): The minimum length of tokens to leave for a response. """ , ) class __lowerCAmelCase ( lowerCAmelCase__ ): def __init__( self , *__UpperCAmelCase , **__UpperCAmelCase ): '''simple docstring''' super().__init__(*__UpperCAmelCase , **__UpperCAmelCase ) if self.tokenizer.pad_token_id is None: __lowerCamelCase = self.tokenizer.eos_token def lowerCamelCase ( self , __UpperCAmelCase=None , __UpperCAmelCase=None , __UpperCAmelCase=None , **__UpperCAmelCase ): '''simple docstring''' __lowerCamelCase = {} __lowerCamelCase = {} __lowerCamelCase = {} if min_length_for_response is not None: __lowerCamelCase = min_length_for_response if minimum_tokens is not None: __lowerCamelCase = minimum_tokens if "max_length" in generate_kwargs: __lowerCamelCase = generate_kwargs['''max_length'''] # self.max_length = generate_kwargs.get("max_length", self.model.config.max_length) if clean_up_tokenization_spaces is not None: __lowerCamelCase = clean_up_tokenization_spaces if generate_kwargs: forward_params.update(__UpperCAmelCase ) return preprocess_params, forward_params, postprocess_params def __call__( self , __UpperCAmelCase , __UpperCAmelCase=0 , **__UpperCAmelCase ): '''simple docstring''' __lowerCamelCase = super().__call__(__UpperCAmelCase , num_workers=__UpperCAmelCase , **__UpperCAmelCase ) if isinstance(__UpperCAmelCase , __UpperCAmelCase ) and len(__UpperCAmelCase ) == 1: return outputs[0] return outputs def lowerCamelCase ( self , __UpperCAmelCase , __UpperCAmelCase=32 ): '''simple docstring''' if not isinstance(__UpperCAmelCase , __UpperCAmelCase ): raise ValueError('''ConversationalPipeline, expects Conversation as inputs''' ) if conversation.new_user_input is None: raise ValueError( F"""Conversation with UUID {type(conversation.uuid )} does not contain new user input to process. """ '''Add user inputs with the conversation\'s `add_user_input` method''' ) if hasattr(self.tokenizer , '''_build_conversation_input_ids''' ): __lowerCamelCase = self.tokenizer._build_conversation_input_ids(__UpperCAmelCase ) else: # If the tokenizer cannot handle conversations, we default to only the old version __lowerCamelCase = self._legacy_parse_and_tokenize(__UpperCAmelCase ) if self.framework == "pt": __lowerCamelCase = torch.LongTensor([input_ids] ) elif self.framework == "tf": __lowerCamelCase = tf.constant([input_ids] ) return {"input_ids": input_ids, "conversation": conversation} def lowerCamelCase ( self , __UpperCAmelCase , __UpperCAmelCase=10 , **__UpperCAmelCase ): '''simple docstring''' __lowerCamelCase = generate_kwargs.get('''max_length''' , self.model.config.max_length ) __lowerCamelCase = model_inputs['''input_ids'''].shape[1] if max_length - minimum_tokens < n: logger.warning(F"""Conversation input is to long ({n}), trimming it to ({max_length} - {minimum_tokens})""" ) __lowerCamelCase = max_length - minimum_tokens __lowerCamelCase = model_inputs['''input_ids'''][:, -trim:] if "attention_mask" in model_inputs: __lowerCamelCase = model_inputs['''attention_mask'''][:, -trim:] __lowerCamelCase = model_inputs.pop('''conversation''' ) __lowerCamelCase = max_length __lowerCamelCase = self.model.generate(**__UpperCAmelCase , **__UpperCAmelCase ) if self.model.config.is_encoder_decoder: __lowerCamelCase = 1 else: __lowerCamelCase = n return {"output_ids": output_ids[:, start_position:], "conversation": conversation} def lowerCamelCase ( self , __UpperCAmelCase , __UpperCAmelCase=True ): '''simple docstring''' __lowerCamelCase = model_outputs['''output_ids'''] __lowerCamelCase = self.tokenizer.decode( output_ids[0] , skip_special_tokens=__UpperCAmelCase , clean_up_tokenization_spaces=__UpperCAmelCase , ) __lowerCamelCase = model_outputs['''conversation'''] conversation.mark_processed() conversation.append_response(__UpperCAmelCase ) return conversation def lowerCamelCase ( self , __UpperCAmelCase ): '''simple docstring''' __lowerCamelCase = self.tokenizer.eos_token_id __lowerCamelCase = [] for is_user, text in conversation.iter_texts(): if eos_token_id is not None: input_ids.extend(self.tokenizer.encode(__UpperCAmelCase , add_special_tokens=__UpperCAmelCase ) + [eos_token_id] ) else: input_ids.extend(self.tokenizer.encode(__UpperCAmelCase , add_special_tokens=__UpperCAmelCase ) ) if len(__UpperCAmelCase ) > self.tokenizer.model_max_length: __lowerCamelCase = input_ids[-self.tokenizer.model_max_length :] return input_ids

330

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import itertools import random import unittest import numpy as np from transformers import WAV_2_VEC_2_PRETRAINED_MODEL_ARCHIVE_LIST, WavaVecaConfig, WavaVecaFeatureExtractor from transformers.testing_utils import require_torch, slow from ...test_sequence_feature_extraction_common import SequenceFeatureExtractionTestMixin UpperCAmelCase : str = random.Random() def _A ( SCREAMING_SNAKE_CASE : List[Any] , SCREAMING_SNAKE_CASE : int=1.0 , SCREAMING_SNAKE_CASE : Any=None , SCREAMING_SNAKE_CASE : Union[str, Any]=None ): """simple docstring""" if rng is None: a__ : int =global_rng a__ : List[Any] =[] for batch_idx in range(shape[0] ): values.append([] ) for _ in range(shape[1] ): values[-1].append(rng.random() * scale ) return values class __lowerCAmelCase ( unittest.TestCase): def __init__( self , lowerCAmelCase__ , lowerCAmelCase__=7 , lowerCAmelCase__=4_0_0 , lowerCAmelCase__=2_0_0_0 , lowerCAmelCase__=1 , lowerCAmelCase__=0.0 , lowerCAmelCase__=1_6_0_0_0 , lowerCAmelCase__=True , lowerCAmelCase__=True , ) -> Union[str, Any]: '''simple docstring''' a__ : Any =parent a__ : Any =batch_size a__ : Optional[int] =min_seq_length a__ : Optional[Any] =max_seq_length a__ : List[Any] =(self.max_seq_length - self.min_seq_length) // (self.batch_size - 1) a__ : List[Any] =feature_size a__ : Any =padding_value a__ : List[Any] =sampling_rate a__ : Tuple =return_attention_mask a__ : List[str] =do_normalize def _lowercase ( self ) -> Tuple: '''simple docstring''' return { "feature_size": self.feature_size, "padding_value": self.padding_value, "sampling_rate": self.sampling_rate, "return_attention_mask": self.return_attention_mask, "do_normalize": self.do_normalize, } def _lowercase ( self , lowerCAmelCase__=False , lowerCAmelCase__=False ) -> Dict: '''simple docstring''' def _flatten(lowerCAmelCase__ ): return list(itertools.chain(*lowerCAmelCase__ ) ) if equal_length: a__ : int =floats_list((self.batch_size, self.max_seq_length) ) else: # make sure that inputs increase in size a__ : Tuple =[ _flatten(floats_list((x, self.feature_size) ) ) for x in range(self.min_seq_length , self.max_seq_length , self.seq_length_diff ) ] if numpify: a__ : Optional[Any] =[np.asarray(lowerCAmelCase__ ) for x in speech_inputs] return speech_inputs class __lowerCAmelCase ( UpperCamelCase__ , unittest.TestCase): _lowercase : Optional[int] = WavaVecaFeatureExtractor def _lowercase ( self ) -> Optional[int]: '''simple docstring''' a__ : Union[str, Any] =WavaVecaFeatureExtractionTester(self ) def _lowercase ( self , lowerCAmelCase__ ) -> List[Any]: '''simple docstring''' self.assertTrue(np.all(np.mean(lowerCAmelCase__ , axis=0 ) < 1E-3 ) ) self.assertTrue(np.all(np.abs(np.var(lowerCAmelCase__ , axis=0 ) - 1 ) < 1E-3 ) ) def _lowercase ( self ) -> int: '''simple docstring''' a__ : Any =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() ) # create three inputs of length 800, 1000, and 1200 a__ : int =[floats_list((1, x) )[0] for x in range(8_0_0 , 1_4_0_0 , 2_0_0 )] a__ : Tuple =[np.asarray(lowerCAmelCase__ ) for speech_input in speech_inputs] # Test not batched input a__ : Any =feat_extract(speech_inputs[0] , return_tensors="np" ).input_values a__ : Dict =feat_extract(np_speech_inputs[0] , return_tensors="np" ).input_values self.assertTrue(np.allclose(lowerCAmelCase__ , lowerCAmelCase__ , atol=1E-3 ) ) # Test batched a__ : str =feat_extract(lowerCAmelCase__ , return_tensors="np" ).input_values a__ : Optional[Any] =feat_extract(lowerCAmelCase__ , return_tensors="np" ).input_values for enc_seq_a, enc_seq_a in zip(lowerCAmelCase__ , lowerCAmelCase__ ): self.assertTrue(np.allclose(lowerCAmelCase__ , lowerCAmelCase__ , atol=1E-3 ) ) # Test 2-D numpy arrays are batched. a__ : List[str] =[floats_list((1, x) )[0] for x in (8_0_0, 8_0_0, 8_0_0)] a__ : Tuple =np.asarray(lowerCAmelCase__ ) a__ : Optional[int] =feat_extract(lowerCAmelCase__ , return_tensors="np" ).input_values a__ : List[str] =feat_extract(lowerCAmelCase__ , return_tensors="np" ).input_values for enc_seq_a, enc_seq_a in zip(lowerCAmelCase__ , lowerCAmelCase__ ): self.assertTrue(np.allclose(lowerCAmelCase__ , lowerCAmelCase__ , atol=1E-3 ) ) def _lowercase ( self ) -> Dict: '''simple docstring''' a__ : Union[str, Any] =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() ) a__ : Optional[int] =[floats_list((1, x) )[0] for x in range(8_0_0 , 1_4_0_0 , 2_0_0 )] a__ : List[Any] =["longest", "max_length", "do_not_pad"] a__ : Optional[int] =[None, 1_6_0_0, None] for max_length, padding in zip(lowerCAmelCase__ , lowerCAmelCase__ ): a__ : Union[str, Any] =feat_extract(lowerCAmelCase__ , padding=lowerCAmelCase__ , max_length=lowerCAmelCase__ , return_tensors="np" ) a__ : Dict =processed.input_values self._check_zero_mean_unit_variance(input_values[0][:8_0_0] ) self.assertTrue(input_values[0][8_0_0:].sum() < 1E-6 ) self._check_zero_mean_unit_variance(input_values[1][:1_0_0_0] ) self.assertTrue(input_values[0][1_0_0_0:].sum() < 1E-6 ) self._check_zero_mean_unit_variance(input_values[2][:1_2_0_0] ) def _lowercase ( self ) -> List[Any]: '''simple docstring''' a__ : Tuple =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() ) a__ : List[str] =range(8_0_0 , 1_4_0_0 , 2_0_0 ) a__ : List[str] =[floats_list((1, x) )[0] for x in lengths] a__ : Tuple =["longest", "max_length", "do_not_pad"] a__ : Tuple =[None, 1_6_0_0, None] for max_length, padding in zip(lowerCAmelCase__ , lowerCAmelCase__ ): a__ : Optional[Any] =feat_extract(lowerCAmelCase__ , max_length=lowerCAmelCase__ , padding=lowerCAmelCase__ ) a__ : str =processed.input_values self._check_zero_mean_unit_variance(input_values[0][:8_0_0] ) self._check_zero_mean_unit_variance(input_values[1][:1_0_0_0] ) self._check_zero_mean_unit_variance(input_values[2][:1_2_0_0] ) def _lowercase ( self ) -> Dict: '''simple docstring''' a__ : Optional[int] =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() ) a__ : Union[str, Any] =[floats_list((1, x) )[0] for x in range(8_0_0 , 1_4_0_0 , 2_0_0 )] a__ : Any =feat_extract( lowerCAmelCase__ , truncation=lowerCAmelCase__ , max_length=1_0_0_0 , padding="max_length" , return_tensors="np" ) a__ : str =processed.input_values self._check_zero_mean_unit_variance(input_values[0, :8_0_0] ) self._check_zero_mean_unit_variance(input_values[1] ) self._check_zero_mean_unit_variance(input_values[2] ) def _lowercase ( self ) -> int: '''simple docstring''' a__ : List[Any] =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() ) a__ : List[Any] =[floats_list((1, x) )[0] for x in range(8_0_0 , 1_4_0_0 , 2_0_0 )] a__ : str =feat_extract( lowerCAmelCase__ , truncation=lowerCAmelCase__ , max_length=1_0_0_0 , padding="longest" , return_tensors="np" ) a__ : Optional[int] =processed.input_values self._check_zero_mean_unit_variance(input_values[0, :8_0_0] ) self._check_zero_mean_unit_variance(input_values[1, :1_0_0_0] ) self._check_zero_mean_unit_variance(input_values[2] ) # make sure that if max_length < longest -> then pad to max_length self.assertTrue(input_values.shape == (3, 1_0_0_0) ) a__ : Any =[floats_list((1, x) )[0] for x in range(8_0_0 , 1_4_0_0 , 2_0_0 )] a__ : Dict =feat_extract( lowerCAmelCase__ , truncation=lowerCAmelCase__ , max_length=2_0_0_0 , padding="longest" , return_tensors="np" ) a__ : Tuple =processed.input_values self._check_zero_mean_unit_variance(input_values[0, :8_0_0] ) self._check_zero_mean_unit_variance(input_values[1, :1_0_0_0] ) self._check_zero_mean_unit_variance(input_values[2] ) # make sure that if max_length > longest -> then pad to longest self.assertTrue(input_values.shape == (3, 1_2_0_0) ) @require_torch def _lowercase ( self ) -> Optional[int]: '''simple docstring''' import torch a__ : Dict =self.feature_extraction_class(**self.feat_extract_tester.prepare_feat_extract_dict() ) a__ : List[Any] =np.random.rand(1_0_0 ).astype(np.floataa ) a__ : Optional[int] =np_speech_inputs.tolist() for inputs in [py_speech_inputs, np_speech_inputs]: a__ : Any =feature_extractor.pad([{"input_values": inputs}] , return_tensors="np" ) self.assertTrue(np_processed.input_values.dtype == np.floataa ) a__ : List[Any] =feature_extractor.pad([{"input_values": inputs}] , return_tensors="pt" ) self.assertTrue(pt_processed.input_values.dtype == torch.floataa ) @slow @require_torch def _lowercase ( self ) -> Dict: '''simple docstring''' for model_id in WAV_2_VEC_2_PRETRAINED_MODEL_ARCHIVE_LIST: a__ : Optional[Any] =WavaVecaConfig.from_pretrained(lowerCAmelCase__ ) a__ : Any =WavaVecaFeatureExtractor.from_pretrained(lowerCAmelCase__ ) # only "layer" feature extraction norm should make use of # attention_mask self.assertEqual(feat_extract.return_attention_mask , config.feat_extract_norm == "layer" )

148

import unittest from transformers import ( MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING, TF_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING, TextClassificationPipeline, pipeline, ) from transformers.testing_utils import is_pipeline_test, nested_simplify, require_tf, require_torch, slow from .test_pipelines_common import ANY # These 2 model types require different inputs than those of the usual text models. UpperCAmelCase : List[Any] = {"""LayoutLMv2Config""", """LayoutLMv3Config"""} @is_pipeline_test class __lowerCAmelCase ( unittest.TestCase): _lowercase : str = MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING _lowercase : Tuple = TF_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING if model_mapping is not None: _lowercase : Dict = {config: model for config, model in model_mapping.items() if config.__name__ not in _TO_SKIP} if tf_model_mapping is not None: _lowercase : int = { config: model for config, model in tf_model_mapping.items() if config.__name__ not in _TO_SKIP } @require_torch def _lowercase ( self ) -> Tuple: '''simple docstring''' a__ : str =pipeline( task="text-classification" , model="hf-internal-testing/tiny-random-distilbert" , framework="pt" ) a__ : Any =text_classifier("This is great !" ) self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "LABEL_0", "score": 0.5_04}] ) a__ : Any =text_classifier("This is great !" , top_k=2 ) self.assertEqual( nested_simplify(lowerCAmelCase__ ) , [{"label": "LABEL_0", "score": 0.5_04}, {"label": "LABEL_1", "score": 0.4_96}] ) a__ : Tuple =text_classifier(["This is great !", "This is bad"] , top_k=2 ) self.assertEqual( nested_simplify(lowerCAmelCase__ ) , [ [{"label": "LABEL_0", "score": 0.5_04}, {"label": "LABEL_1", "score": 0.4_96}], [{"label": "LABEL_0", "score": 0.5_04}, {"label": "LABEL_1", "score": 0.4_96}], ] , ) a__ : List[Any] =text_classifier("This is great !" , top_k=1 ) self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "LABEL_0", "score": 0.5_04}] ) # Legacy behavior a__ : Any =text_classifier("This is great !" , return_all_scores=lowerCAmelCase__ ) self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "LABEL_0", "score": 0.5_04}] ) a__ : List[str] =text_classifier("This is great !" , return_all_scores=lowerCAmelCase__ ) self.assertEqual( nested_simplify(lowerCAmelCase__ ) , [[{"label": "LABEL_0", "score": 0.5_04}, {"label": "LABEL_1", "score": 0.4_96}]] ) a__ : Optional[int] =text_classifier(["This is great !", "Something else"] , return_all_scores=lowerCAmelCase__ ) self.assertEqual( nested_simplify(lowerCAmelCase__ ) , [ [{"label": "LABEL_0", "score": 0.5_04}, {"label": "LABEL_1", "score": 0.4_96}], [{"label": "LABEL_0", "score": 0.5_04}, {"label": "LABEL_1", "score": 0.4_96}], ] , ) a__ : int =text_classifier(["This is great !", "Something else"] , return_all_scores=lowerCAmelCase__ ) self.assertEqual( nested_simplify(lowerCAmelCase__ ) , [ {"label": "LABEL_0", "score": 0.5_04}, {"label": "LABEL_0", "score": 0.5_04}, ] , ) @require_torch def _lowercase ( self ) -> List[Any]: '''simple docstring''' import torch a__ : Dict =pipeline( task="text-classification" , model="hf-internal-testing/tiny-random-distilbert" , framework="pt" , device=torch.device("cpu" ) , ) a__ : Optional[Any] =text_classifier("This is great !" ) self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "LABEL_0", "score": 0.5_04}] ) @require_tf def _lowercase ( self ) -> Union[str, Any]: '''simple docstring''' a__ : Optional[int] =pipeline( task="text-classification" , model="hf-internal-testing/tiny-random-distilbert" , framework="tf" ) a__ : Optional[Any] =text_classifier("This is great !" ) self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "LABEL_0", "score": 0.5_04}] ) @slow @require_torch def _lowercase ( self ) -> str: '''simple docstring''' a__ : Union[str, Any] =pipeline("text-classification" ) a__ : Union[str, Any] =text_classifier("This is great !" ) self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "POSITIVE", "score": 1.0}] ) a__ : Optional[Any] =text_classifier("This is bad !" ) self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "NEGATIVE", "score": 1.0}] ) a__ : Dict =text_classifier("Birds are a type of animal" ) self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "POSITIVE", "score": 0.9_88}] ) @slow @require_tf def _lowercase ( self ) -> Optional[int]: '''simple docstring''' a__ : Tuple =pipeline("text-classification" , framework="tf" ) a__ : str =text_classifier("This is great !" ) self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "POSITIVE", "score": 1.0}] ) a__ : str =text_classifier("This is bad !" ) self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "NEGATIVE", "score": 1.0}] ) a__ : Dict =text_classifier("Birds are a type of animal" ) self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "POSITIVE", "score": 0.9_88}] ) def _lowercase ( self , lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ ) -> Optional[int]: '''simple docstring''' a__ : List[Any] =TextClassificationPipeline(model=lowerCAmelCase__ , tokenizer=lowerCAmelCase__ ) return text_classifier, ["HuggingFace is in", "This is another test"] def _lowercase ( self , lowerCAmelCase__ , lowerCAmelCase__ ) -> List[str]: '''simple docstring''' a__ : Tuple =text_classifier.model # Small inputs because BartTokenizer tiny has maximum position embeddings = 22 a__ : List[Any] ="HuggingFace is in" a__ : int =text_classifier(lowerCAmelCase__ ) self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": ANY(lowerCAmelCase__ ), "score": ANY(lowerCAmelCase__ )}] ) self.assertTrue(outputs[0]["label"] in model.config.idalabel.values() ) a__ : Optional[int] =["HuggingFace is in ", "Paris is in France"] a__ : Optional[Any] =text_classifier(lowerCAmelCase__ ) self.assertEqual( nested_simplify(lowerCAmelCase__ ) , [{"label": ANY(lowerCAmelCase__ ), "score": ANY(lowerCAmelCase__ )}, {"label": ANY(lowerCAmelCase__ ), "score": ANY(lowerCAmelCase__ )}] , ) self.assertTrue(outputs[0]["label"] in model.config.idalabel.values() ) self.assertTrue(outputs[1]["label"] in model.config.idalabel.values() ) # Forcing to get all results with `top_k=None` # This is NOT the legacy format a__ : Union[str, Any] =text_classifier(lowerCAmelCase__ , top_k=lowerCAmelCase__ ) a__ : Optional[Any] =len(model.config.idalabel.values() ) self.assertEqual( nested_simplify(lowerCAmelCase__ ) , [[{"label": ANY(lowerCAmelCase__ ), "score": ANY(lowerCAmelCase__ )}] * N, [{"label": ANY(lowerCAmelCase__ ), "score": ANY(lowerCAmelCase__ )}] * N] , ) a__ : List[str] ={"text": "HuggingFace is in ", "text_pair": "Paris is in France"} a__ : Optional[Any] =text_classifier(lowerCAmelCase__ ) self.assertEqual( nested_simplify(lowerCAmelCase__ ) , {"label": ANY(lowerCAmelCase__ ), "score": ANY(lowerCAmelCase__ )} , ) self.assertTrue(outputs["label"] in model.config.idalabel.values() ) # This might be used a text pair, but tokenizer + pipe interaction # makes it hard to understand that it's not using the pair properly # https://github.com/huggingface/transformers/issues/17305 # We disabled this usage instead as it was outputting wrong outputs. a__ : Any =[["HuggingFace is in ", "Paris is in France"]] with self.assertRaises(lowerCAmelCase__ ): text_classifier(lowerCAmelCase__ ) # This used to be valid for doing text pairs # We're keeping it working because of backward compatibility a__ : Optional[int] =text_classifier([[["HuggingFace is in ", "Paris is in France"]]] ) self.assertEqual( nested_simplify(lowerCAmelCase__ ) , [{"label": ANY(lowerCAmelCase__ ), "score": ANY(lowerCAmelCase__ )}] , ) self.assertTrue(outputs[0]["label"] in model.config.idalabel.values() )

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def __snake_case ( ): for n in range(1 , 1000000 ): yield n * (n + 1) // 2 def __snake_case ( _UpperCAmelCase ): __a = 1 __a = 2 while i * i <= n: __a = 0 while n % i == 0: n //= i multiplicity += 1 divisors_count *= multiplicity + 1 i += 1 if n > 1: divisors_count *= 2 return divisors_count def __snake_case ( ): return next(i for i in triangle_number_generator() if count_divisors(_UpperCAmelCase ) > 500 ) if __name__ == "__main__": print(solution())

49

'''simple docstring''' from typing import TYPE_CHECKING from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available __lowercase = { '''configuration_instructblip''': [ '''INSTRUCTBLIP_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''InstructBlipConfig''', '''InstructBlipQFormerConfig''', '''InstructBlipVisionConfig''', ], '''processing_instructblip''': ['''InstructBlipProcessor'''], } try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: __lowercase = [ '''INSTRUCTBLIP_PRETRAINED_MODEL_ARCHIVE_LIST''', '''InstructBlipQFormerModel''', '''InstructBlipPreTrainedModel''', '''InstructBlipForConditionalGeneration''', '''InstructBlipVisionModel''', ] if TYPE_CHECKING: from .configuration_instructblip import ( INSTRUCTBLIP_PRETRAINED_CONFIG_ARCHIVE_MAP, InstructBlipConfig, InstructBlipQFormerConfig, InstructBlipVisionConfig, ) from .processing_instructblip import InstructBlipProcessor try: if not is_torch_available(): raise OptionalDependencyNotAvailable() except OptionalDependencyNotAvailable: pass else: from .modeling_instructblip import ( INSTRUCTBLIP_PRETRAINED_MODEL_ARCHIVE_LIST, InstructBlipForConditionalGeneration, InstructBlipPreTrainedModel, InstructBlipQFormerModel, InstructBlipVisionModel, ) else: import sys __lowercase = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)

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"""simple docstring""" from typing import List import datasets from datasets.tasks import AudioClassification from ..folder_based_builder import folder_based_builder a_ = datasets.utils.logging.get_logger(__name__) class snake_case ( folder_based_builder.FolderBasedBuilderConfig): __UpperCamelCase = None __UpperCamelCase = None class snake_case ( folder_based_builder.FolderBasedBuilder): __UpperCamelCase = datasets.Audio() __UpperCamelCase = 'audio' __UpperCamelCase = AudioFolderConfig __UpperCamelCase = 42 # definition at the bottom of the script __UpperCamelCase = AudioClassification(audio_column='audio' , label_column='label') a_ = [ ".aiff", ".au", ".avr", ".caf", ".flac", ".htk", ".svx", ".mat4", ".mat5", ".mpc2k", ".ogg", ".paf", ".pvf", ".raw", ".rf64", ".sd2", ".sds", ".ircam", ".voc", ".w64", ".wav", ".nist", ".wavex", ".wve", ".xi", ".mp3", ".opus", ] a_ = AUDIO_EXTENSIONS

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"""simple docstring""" import argparse import re from pathlib import Path import requests import torch from PIL import Image from torchvision.transforms import CenterCrop, Compose, Normalize, Resize, ToTensor from transformers import ( EfficientFormerConfig, EfficientFormerForImageClassificationWithTeacher, EfficientFormerImageProcessor, ) from transformers.image_utils import IMAGENET_DEFAULT_MEAN, IMAGENET_DEFAULT_STD, PILImageResampling def a__ ( __lowercase , __lowercase ) -> Dict: _A = old_name if "patch_embed" in old_name: _A , _A , _A = old_name.split("." ) if layer == "0": _A = old_name.replace("0" , "convolution1" ) elif layer == "1": _A = old_name.replace("1" , "batchnorm_before" ) elif layer == "3": _A = old_name.replace("3" , "convolution2" ) else: _A = old_name.replace("4" , "batchnorm_after" ) if "network" in old_name and re.search(R"\d\.\d" , __lowercase ): _A = R"\b\d{2}\b" if bool(re.search(__lowercase , __lowercase ) ): _A = re.search(R"\d\.\d\d." , __lowercase ).group() else: _A = re.search(R"\d\.\d." , __lowercase ).group() if int(match[0] ) < 6: _A = old_name.replace(__lowercase , "" ) _A = trimmed_name.replace("network" , match[0] + ".meta4D_layers.blocks." + match[2:-1] ) _A = "intermediate_stages." + trimmed_name else: _A = old_name.replace(__lowercase , "" ) if int(match[2] ) < num_meta4D_last_stage: _A = trimmed_name.replace("network" , "meta4D_layers.blocks." + match[2] ) else: _A = str(int(match[2] ) - num_meta4D_last_stage ) _A = trimmed_name.replace("network" , "meta3D_layers.blocks." + layer_index ) if "norm1" in old_name: _A = trimmed_name.replace("norm1" , "layernorm1" ) elif "norm2" in old_name: _A = trimmed_name.replace("norm2" , "layernorm2" ) elif "fc1" in old_name: _A = trimmed_name.replace("fc1" , "linear_in" ) elif "fc2" in old_name: _A = trimmed_name.replace("fc2" , "linear_out" ) _A = "last_stage." + trimmed_name elif "network" in old_name and re.search(R".\d." , __lowercase ): _A = old_name.replace("network" , "intermediate_stages" ) if "fc" in new_name: _A = new_name.replace("fc" , "convolution" ) elif ("norm1" in new_name) and ("layernorm1" not in new_name): _A = new_name.replace("norm1" , "batchnorm_before" ) elif ("norm2" in new_name) and ("layernorm2" not in new_name): _A = new_name.replace("norm2" , "batchnorm_after" ) if "proj" in new_name: _A = new_name.replace("proj" , "projection" ) if "dist_head" in new_name: _A = new_name.replace("dist_head" , "distillation_classifier" ) elif "head" in new_name: _A = new_name.replace("head" , "classifier" ) elif "patch_embed" in new_name: _A = "efficientformer." + new_name elif new_name == "norm.weight" or new_name == "norm.bias": _A = new_name.replace("norm" , "layernorm" ) _A = "efficientformer." + new_name else: _A = "efficientformer.encoder." + new_name return new_name def a__ ( __lowercase , __lowercase ) -> List[str]: for key in checkpoint.copy().keys(): _A = checkpoint.pop(__lowercase ) _A = val return checkpoint def a__ ( ) -> Dict: _A = "http://images.cocodataset.org/val2017/000000039769.jpg" _A = Image.open(requests.get(__lowercase , stream=__lowercase ).raw ) return image def a__ ( __lowercase , __lowercase , __lowercase , __lowercase ) -> str: _A = torch.load(__lowercase , map_location="cpu" )["model"] _A = EfficientFormerConfig.from_json_file(__lowercase ) _A = EfficientFormerForImageClassificationWithTeacher(__lowercase ) _A = "_".join(checkpoint_path.split("/" )[-1].split("." )[0].split("_" )[:-1] ) _A = config.depths[-1] - config.num_metaad_blocks + 1 _A = convert_torch_checkpoint(__lowercase , __lowercase ) model.load_state_dict(__lowercase ) model.eval() _A = { "bilinear": PILImageResampling.BILINEAR, "bicubic": PILImageResampling.BICUBIC, "nearest": PILImageResampling.NEAREST, } # prepare image _A = prepare_img() _A = 256 _A = 224 _A = EfficientFormerImageProcessor( size={"shortest_edge": image_size} , crop_size={"height": crop_size, "width": crop_size} , resample=pillow_resamplings["bicubic"] , ) _A = processor(images=__lowercase , return_tensors="pt" ).pixel_values # original processing pipeline _A = Compose( [ Resize(__lowercase , interpolation=pillow_resamplings["bicubic"] ), CenterCrop(__lowercase ), ToTensor(), Normalize(__lowercase , __lowercase ), ] ) _A = image_transforms(__lowercase ).unsqueeze(0 ) assert torch.allclose(__lowercase , __lowercase ) _A = model(__lowercase ) _A = outputs.logits _A = (1, 1000) if "l1" in model_name: _A = torch.Tensor( [-0.1_312, 0.4_353, -1.0_499, -0.5_124, 0.4_183, -0.6_793, -1.3_777, -0.0_893, -0.7_358, -2.4_328] ) assert torch.allclose(logits[0, :10] , __lowercase , atol=1E-3 ) assert logits.shape == expected_shape elif "l3" in model_name: _A = torch.Tensor( [-1.3_150, -1.5_456, -1.2_556, -0.8_496, -0.7_127, -0.7_897, -0.9_728, -0.3_052, 0.3_751, -0.3_127] ) assert torch.allclose(logits[0, :10] , __lowercase , atol=1E-3 ) assert logits.shape == expected_shape elif "l7" in model_name: _A = torch.Tensor( [-1.0_283, -1.4_131, -0.5_644, -1.3_115, -0.5_785, -1.2_049, -0.7_528, 0.1_992, -0.3_822, -0.0_878] ) assert logits.shape == expected_shape else: raise ValueError( f"""Unknown model checkpoint: {checkpoint_path}. Supported version of efficientformer are l1, l3 and l7""" ) # Save Checkpoints Path(__lowercase ).mkdir(exist_ok=__lowercase ) model.save_pretrained(__lowercase ) print(f"""Checkpoint successfuly converted. Model saved at {pytorch_dump_path}""" ) processor.save_pretrained(__lowercase ) print(f"""Processor successfuly saved at {pytorch_dump_path}""" ) if push_to_hub: print("Pushing model to the hub..." ) model.push_to_hub( repo_id=f"""Bearnardd/{pytorch_dump_path}""" , commit_message="Add model" , use_temp_dir=__lowercase , ) processor.push_to_hub( repo_id=f"""Bearnardd/{pytorch_dump_path}""" , commit_message="Add image processor" , use_temp_dir=__lowercase , ) if __name__ == "__main__": a_ = argparse.ArgumentParser() # Required parameters parser.add_argument( "--pytorch_model_path", default=None, type=str, required=True, help="Path to EfficientFormer pytorch checkpoint.", ) parser.add_argument( "--config_file", default=None, type=str, required=True, help="The json file for EfficientFormer model config.", ) parser.add_argument( "--pytorch_dump_path", default=None, type=str, required=True, help="Path to the output PyTorch model." ) parser.add_argument("--push_to_hub", action="store_true", help="Push model and image processor to the hub") parser.add_argument( "--no-push_to_hub", dest="push_to_hub", action="store_false", help="Do not push model and image processor to the hub", ) parser.set_defaults(push_to_hub=True) a_ = parser.parse_args() convert_efficientformer_checkpoint( checkpoint_path=args.pytorch_model_path, efficientformer_config_file=args.config_file, pytorch_dump_path=args.pytorch_dump_path, push_to_hub=args.push_to_hub, )

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from collections.abc import Generator from math import sin def a_ ( _A ) -> bytes: """simple docstring""" if len(lowerCAmelCase__ ) != 32: raise ValueError('Input must be of length 32' ) snake_case__ = B'' for i in [3, 2, 1, 0]: little_endian += string_aa[8 * i : 8 * i + 8] return little_endian def a_ ( _A ) -> bytes: """simple docstring""" if i < 0: raise ValueError('Input must be non-negative' ) snake_case__ = format(lowerCAmelCase__ , '08x' )[-8:] snake_case__ = B'' for i in [3, 2, 1, 0]: little_endian_hex += hex_rep[2 * i : 2 * i + 2].encode('utf-8' ) return little_endian_hex def a_ ( _A ) -> bytes: """simple docstring""" snake_case__ = B'' for char in message: bit_string += format(lowerCAmelCase__ , '08b' ).encode('utf-8' ) snake_case__ = format(len(lowerCAmelCase__ ) , '064b' ).encode('utf-8' ) # Pad bit_string to a multiple of 512 chars bit_string += b"1" while len(lowerCAmelCase__ ) % 512 != 448: bit_string += b"0" bit_string += to_little_endian(start_len[32:] ) + to_little_endian(start_len[:32] ) return bit_string def a_ ( _A ) -> Generator[list[int], None, None]: """simple docstring""" if len(lowerCAmelCase__ ) % 512 != 0: raise ValueError('Input must have length that\'s a multiple of 512' ) for pos in range(0 , len(lowerCAmelCase__ ) , 512 ): snake_case__ = bit_string[pos : pos + 512] snake_case__ = [] for i in range(0 , 512 , 32 ): block_words.append(int(to_little_endian(block[i : i + 32] ) , 2 ) ) yield block_words def a_ ( _A ) -> int: """simple docstring""" if i < 0: raise ValueError('Input must be non-negative' ) snake_case__ = format(lowerCAmelCase__ , '032b' ) snake_case__ = '' for c in i_str: new_str += "1" if c == "0" else "0" return int(lowerCAmelCase__ , 2 ) def a_ ( _A , _A ) -> int: """simple docstring""" return (a + b) % 2**32 def a_ ( _A , _A ) -> int: """simple docstring""" if i < 0: raise ValueError('Input must be non-negative' ) if shift < 0: raise ValueError('Shift must be non-negative' ) return ((i << shift) ^ (i >> (32 - shift))) % 2**32 def a_ ( _A ) -> bytes: """simple docstring""" snake_case__ = preprocess(lowerCAmelCase__ ) snake_case__ = [int(2**32 * abs(sin(i + 1 ) ) ) for i in range(64 )] # Starting states snake_case__ = 0X67452301 snake_case__ = 0XEFCDAB89 snake_case__ = 0X98BADCFE snake_case__ = 0X10325476 snake_case__ = [ 7, 12, 17, 22, 7, 12, 17, 22, 7, 12, 17, 22, 7, 12, 17, 22, 5, 9, 14, 20, 5, 9, 14, 20, 5, 9, 14, 20, 5, 9, 14, 20, 4, 11, 16, 23, 4, 11, 16, 23, 4, 11, 16, 23, 4, 11, 16, 23, 6, 10, 15, 21, 6, 10, 15, 21, 6, 10, 15, 21, 6, 10, 15, 21, ] # Process bit string in chunks, each with 16 32-char words for block_words in get_block_words(lowerCAmelCase__ ): snake_case__ = aa snake_case__ = ba snake_case__ = ca snake_case__ = da # Hash current chunk for i in range(64 ): if i <= 15: # f = (b & c) | (not_32(b) & d) # Alternate definition for f snake_case__ = d ^ (b & (c ^ d)) snake_case__ = i elif i <= 31: # f = (d & b) | (not_32(d) & c) # Alternate definition for f snake_case__ = c ^ (d & (b ^ c)) snake_case__ = (5 * i + 1) % 16 elif i <= 47: snake_case__ = b ^ c ^ d snake_case__ = (3 * i + 5) % 16 else: snake_case__ = c ^ (b | not_aa(lowerCAmelCase__ )) snake_case__ = (7 * i) % 16 snake_case__ = (f + a + added_consts[i] + block_words[g]) % 2**32 snake_case__ = d snake_case__ = c snake_case__ = b snake_case__ = sum_aa(lowerCAmelCase__ , left_rotate_aa(lowerCAmelCase__ , shift_amounts[i] ) ) # Add hashed chunk to running total snake_case__ = sum_aa(lowerCAmelCase__ , lowerCAmelCase__ ) snake_case__ = sum_aa(lowerCAmelCase__ , lowerCAmelCase__ ) snake_case__ = sum_aa(lowerCAmelCase__ , lowerCAmelCase__ ) snake_case__ = sum_aa(lowerCAmelCase__ , lowerCAmelCase__ ) snake_case__ = reformat_hex(lowerCAmelCase__ ) + reformat_hex(lowerCAmelCase__ ) + reformat_hex(lowerCAmelCase__ ) + reformat_hex(lowerCAmelCase__ ) return digest if __name__ == "__main__": import doctest doctest.testmod()

307

'''simple docstring''' import json from typing import List, Optional, Tuple from tokenizers import pre_tokenizers, processors from ...tokenization_utils_base import AddedToken, BatchEncoding from ...tokenization_utils_fast import PreTrainedTokenizerFast from ...utils import logging from .tokenization_bart import BartTokenizer a_ : Dict = logging.get_logger(__name__) a_ : Optional[Any] = {"vocab_file": "vocab.json", "merges_file": "merges.txt", "tokenizer_file": "tokenizer.json"} # See all BART models at https://huggingface.co/models?filter=bart a_ : int = { "vocab_file": { "facebook/bart-base": "https://huggingface.co/facebook/bart-base/resolve/main/vocab.json", "facebook/bart-large": "https://huggingface.co/facebook/bart-large/resolve/main/vocab.json", "facebook/bart-large-mnli": "https://huggingface.co/facebook/bart-large-mnli/resolve/main/vocab.json", "facebook/bart-large-cnn": "https://huggingface.co/facebook/bart-large-cnn/resolve/main/vocab.json", "facebook/bart-large-xsum": "https://huggingface.co/facebook/bart-large-xsum/resolve/main/vocab.json", "yjernite/bart_eli5": "https://huggingface.co/yjernite/bart_eli5/resolve/main/vocab.json", }, "merges_file": { "facebook/bart-base": "https://huggingface.co/facebook/bart-base/resolve/main/merges.txt", "facebook/bart-large": "https://huggingface.co/facebook/bart-large/resolve/main/merges.txt", "facebook/bart-large-mnli": "https://huggingface.co/facebook/bart-large-mnli/resolve/main/merges.txt", "facebook/bart-large-cnn": "https://huggingface.co/facebook/bart-large-cnn/resolve/main/merges.txt", "facebook/bart-large-xsum": "https://huggingface.co/facebook/bart-large-xsum/resolve/main/merges.txt", "yjernite/bart_eli5": "https://huggingface.co/yjernite/bart_eli5/resolve/main/merges.txt", }, "tokenizer_file": { "facebook/bart-base": "https://huggingface.co/facebook/bart-base/resolve/main/tokenizer.json", "facebook/bart-large": "https://huggingface.co/facebook/bart-large/resolve/main/tokenizer.json", "facebook/bart-large-mnli": "https://huggingface.co/facebook/bart-large-mnli/resolve/main/tokenizer.json", "facebook/bart-large-cnn": "https://huggingface.co/facebook/bart-large-cnn/resolve/main/tokenizer.json", "facebook/bart-large-xsum": "https://huggingface.co/facebook/bart-large-xsum/resolve/main/tokenizer.json", "yjernite/bart_eli5": "https://huggingface.co/yjernite/bart_eli5/resolve/main/tokenizer.json", }, } a_ : int = { "facebook/bart-base": 1_0_2_4, "facebook/bart-large": 1_0_2_4, "facebook/bart-large-mnli": 1_0_2_4, "facebook/bart-large-cnn": 1_0_2_4, "facebook/bart-large-xsum": 1_0_2_4, "yjernite/bart_eli5": 1_0_2_4, } class a ( _SCREAMING_SNAKE_CASE ): _lowerCAmelCase = VOCAB_FILES_NAMES _lowerCAmelCase = PRETRAINED_VOCAB_FILES_MAP _lowerCAmelCase = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES _lowerCAmelCase = ["""input_ids""", """attention_mask"""] _lowerCAmelCase = BartTokenizer def __init__( self , __magic_name__=None , __magic_name__=None , __magic_name__=None , __magic_name__="replace" , __magic_name__="<s>" , __magic_name__="</s>" , __magic_name__="</s>" , __magic_name__="<s>" , __magic_name__="<unk>" , __magic_name__="<pad>" , __magic_name__="<mask>" , __magic_name__=False , __magic_name__=True , **__magic_name__ , ) -> List[Any]: super().__init__( __magic_name__ , __magic_name__ , tokenizer_file=__magic_name__ , errors=__magic_name__ , bos_token=__magic_name__ , eos_token=__magic_name__ , sep_token=__magic_name__ , cls_token=__magic_name__ , unk_token=__magic_name__ , pad_token=__magic_name__ , mask_token=__magic_name__ , add_prefix_space=__magic_name__ , trim_offsets=__magic_name__ , **__magic_name__ , ) _a = json.loads(self.backend_tokenizer.pre_tokenizer.__getstate__() ) if pre_tok_state.get('add_prefix_space' , __magic_name__ ) != add_prefix_space: _a = getattr(__magic_name__ , pre_tok_state.pop('type' ) ) _a = add_prefix_space _a = pre_tok_class(**__magic_name__ ) _a = add_prefix_space # the pre_tokenizer is already updated in the GPT2TokenizerFast `__init__` _a = 'post_processor' _a = getattr(self.backend_tokenizer , __magic_name__ , __magic_name__ ) if tokenizer_component_instance: _a = json.loads(tokenizer_component_instance.__getstate__() ) # The lists 'sep' and 'cls' must be cased in tuples for the object `post_processor_class` if "sep" in state: _a = tuple(state['sep'] ) if "cls" in state: _a = tuple(state['cls'] ) _a = False if state.get('add_prefix_space' , __magic_name__ ) != add_prefix_space: _a = add_prefix_space _a = True if state.get('trim_offsets' , __magic_name__ ) != trim_offsets: _a = trim_offsets _a = True if changes_to_apply: _a = getattr(__magic_name__ , state.pop('type' ) ) _a = component_class(**__magic_name__ ) setattr(self.backend_tokenizer , __magic_name__ , __magic_name__ ) @property def __UpperCAmelCase ( self ) -> str: if self._mask_token is None: if self.verbose: logger.error('Using mask_token, but it is not set yet.' ) return None return str(self._mask_token ) @mask_token.setter def __UpperCAmelCase ( self , __magic_name__ ) -> Union[str, Any]: _a = AddedToken(__magic_name__ , lstrip=__magic_name__ , rstrip=__magic_name__ ) if isinstance(__magic_name__ , __magic_name__ ) else value _a = value def __UpperCAmelCase ( self , *__magic_name__ , **__magic_name__ ) -> BatchEncoding: _a = kwargs.get('is_split_into_words' , __magic_name__ ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f'You need to instantiate {self.__class__.__name__} with add_prefix_space=True ' 'to use it with pretokenized inputs.' ) return super()._batch_encode_plus(*__magic_name__ , **__magic_name__ ) def __UpperCAmelCase ( self , *__magic_name__ , **__magic_name__ ) -> BatchEncoding: _a = kwargs.get('is_split_into_words' , __magic_name__ ) if is_split_into_words and not self.add_prefix_space: raise ValueError( f'You need to instantiate {self.__class__.__name__} with add_prefix_space=True ' 'to use it with pretokenized inputs.' ) return super()._encode_plus(*__magic_name__ , **__magic_name__ ) def __UpperCAmelCase ( self , __magic_name__ , __magic_name__ = None ) -> Tuple[str]: _a = self._tokenizer.model.save(__magic_name__ , name=__magic_name__ ) return tuple(__magic_name__ ) def __UpperCAmelCase ( self , __magic_name__ , __magic_name__=None ) -> Any: _a = [self.bos_token_id] + token_ids_a + [self.eos_token_id] if token_ids_a is None: return output return output + [self.eos_token_id] + token_ids_a + [self.eos_token_id] def __UpperCAmelCase ( self , __magic_name__ , __magic_name__ = None ) -> List[int]: _a = [self.sep_token_id] _a = [self.cls_token_id] if token_ids_a is None: return len(cls + token_ids_a + sep ) * [0] return len(cls + token_ids_a + sep + sep + token_ids_a + sep ) * [0]

168

0

from collections import Counter from timeit import timeit def lowercase( UpperCamelCase_ = "" , ) -> bool: '''simple docstring''' return sum(c % 2 for c in Counter(input_str.replace(""" """ , """""" ).lower() ).values() ) < 2 def lowercase( UpperCamelCase_ = "" ) -> bool: '''simple docstring''' if len(UpperCamelCase_ ) == 0: return True UpperCamelCase = input_str.replace(""" """ , """""" ).lower() # character_freq_dict: Stores the frequency of every character in the input string UpperCamelCase = {} for character in lower_case_input_str: UpperCamelCase = character_freq_dict.get(UpperCamelCase_ , 0 ) + 1 UpperCamelCase = 0 for character_count in character_freq_dict.values(): if character_count % 2: odd_char += 1 if odd_char > 1: return False return True def lowercase( UpperCamelCase_ = "" ) -> None: '''simple docstring''' print("""\nFor string = """ , UpperCamelCase_ , """:""" ) print( """> can_string_be_rearranged_as_palindrome_counter()""" , """\tans =""" , can_string_be_rearranged_as_palindrome_counter(UpperCamelCase_ ) , """\ttime =""" , timeit( """z.can_string_be_rearranged_as_palindrome_counter(z.check_str)""" , setup="""import __main__ as z""" , ) , """seconds""" , ) print( """> can_string_be_rearranged_as_palindrome()""" , """\tans =""" , can_string_be_rearranged_as_palindrome(UpperCamelCase_ ) , """\ttime =""" , timeit( """z.can_string_be_rearranged_as_palindrome(z.check_str)""" , setup="""import __main__ as z""" , ) , """seconds""" , ) if __name__ == "__main__": _SCREAMING_SNAKE_CASE = input( """Enter string to determine if it can be rearranged as a palindrome or not: """ ).strip() benchmark(check_str) _SCREAMING_SNAKE_CASE = can_string_be_rearranged_as_palindrome_counter(check_str) print(F'''{check_str} can {"" if status else "not "}be rearranged as a palindrome''')

165

import collections import os from typing import List, Optional, Tuple from transformers.utils import is_jieba_available, requires_backends if is_jieba_available(): import jieba from ...tokenization_utils import PreTrainedTokenizer from ...utils import logging _SCREAMING_SNAKE_CASE = logging.get_logger(__name__) _SCREAMING_SNAKE_CASE = {"""vocab_file""": """vocab.txt"""} _SCREAMING_SNAKE_CASE = { """vocab_file""": { """openbmb/cpm-ant-10b""": """https://huggingface.co/openbmb/cpm-ant-10b/blob/main/vocab.txt""", }, } _SCREAMING_SNAKE_CASE = { """openbmb/cpm-ant-10b""": 1_0_2_4, } def lowercase( UpperCamelCase_ ) -> Tuple: '''simple docstring''' UpperCamelCase = collections.OrderedDict() with open(UpperCamelCase_ , """r""" , encoding="""utf-8""" ) as reader: UpperCamelCase = reader.readlines() for index, token in enumerate(UpperCamelCase_ ): UpperCamelCase = token.rstrip("""\n""" ) UpperCamelCase = index return vocab class SCREAMING_SNAKE_CASE_ ( __lowerCAmelCase ): def __init__( self : Dict , lowerCamelCase_ : str , lowerCamelCase_ : Union[str, Any]="<unk>" , lowerCamelCase_ : Any=200 ): """simple docstring""" UpperCamelCase = vocab UpperCamelCase = unk_token UpperCamelCase = max_input_chars_per_word def lowerCamelCase_ ( self : Optional[Any] , lowerCamelCase_ : Union[str, Any] ): """simple docstring""" UpperCamelCase = list(lowerCamelCase_ ) if len(lowerCamelCase_ ) > self.max_input_chars_per_word: return [self.unk_token] UpperCamelCase = 0 UpperCamelCase = [] while start < len(lowerCamelCase_ ): UpperCamelCase = len(lowerCamelCase_ ) UpperCamelCase = None while start < end: UpperCamelCase = """""".join(chars[start:end] ) if substr in self.vocab: UpperCamelCase = substr break end -= 1 if cur_substr is None: sub_tokens.append(self.unk_token ) start += 1 else: sub_tokens.append(lowerCamelCase_ ) UpperCamelCase = end return sub_tokens class SCREAMING_SNAKE_CASE_ ( __lowerCAmelCase ): __lowerCAmelCase = VOCAB_FILES_NAMES __lowerCAmelCase = PRETRAINED_VOCAB_FILES_MAP __lowerCAmelCase = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES __lowerCAmelCase = ["""input_ids""", """attention_mask"""] __lowerCAmelCase = False def __init__( self : Tuple , lowerCamelCase_ : Any , lowerCamelCase_ : Optional[Any]="<d>" , lowerCamelCase_ : List[Any]="</d>" , lowerCamelCase_ : Optional[Any]="<s>" , lowerCamelCase_ : List[str]="</s>" , lowerCamelCase_ : int="<pad>" , lowerCamelCase_ : List[Any]="<unk>" , lowerCamelCase_ : Optional[Any]="</n>" , lowerCamelCase_ : Tuple="</_>" , lowerCamelCase_ : Any="left" , **lowerCamelCase_ : str , ): """simple docstring""" requires_backends(self , ["""jieba"""] ) super().__init__( bod_token=lowerCamelCase_ , eod_token=lowerCamelCase_ , bos_token=lowerCamelCase_ , eos_token=lowerCamelCase_ , pad_token=lowerCamelCase_ , unk_token=lowerCamelCase_ , line_token=lowerCamelCase_ , space_token=lowerCamelCase_ , padding_side=lowerCamelCase_ , **lowerCamelCase_ , ) UpperCamelCase = bod_token UpperCamelCase = eod_token UpperCamelCase = load_vocab(lowerCamelCase_ ) UpperCamelCase = self.encoder[space_token] UpperCamelCase = self.encoder[line_token] del self.encoder[space_token] del self.encoder[line_token] UpperCamelCase = collections.OrderedDict(sorted(self.encoder.items() , key=lambda lowerCamelCase_ : x[1] ) ) UpperCamelCase = {v: k for k, v in self.encoder.items()} UpperCamelCase = WordpieceTokenizer(vocab=self.encoder , unk_token=self.unk_token ) @property def lowerCamelCase_ ( self : List[str] ): """simple docstring""" return self.encoder[self.bod_token] @property def lowerCamelCase_ ( self : Optional[Any] ): """simple docstring""" return self.encoder[self.eod_token] @property def lowerCamelCase_ ( self : List[str] ): """simple docstring""" return self.encoder["\n"] @property def lowerCamelCase_ ( self : Dict ): """simple docstring""" return len(self.encoder ) def lowerCamelCase_ ( self : List[Any] ): """simple docstring""" return dict(self.encoder , **self.added_tokens_encoder ) def lowerCamelCase_ ( self : int , lowerCamelCase_ : Any ): """simple docstring""" UpperCamelCase = [] for x in jieba.cut(lowerCamelCase_ , cut_all=lowerCamelCase_ ): output_tokens.extend(self.wordpiece_tokenizer.tokenize(lowerCamelCase_ ) ) return output_tokens def lowerCamelCase_ ( self : str , lowerCamelCase_ : Tuple , **lowerCamelCase_ : Tuple ): """simple docstring""" UpperCamelCase = [i for i in token_ids if i >= 0] UpperCamelCase = [ x for x in token_ids if x != self.pad_token_id and x != self.eos_token_id and x != self.bos_token_id ] return super()._decode(lowerCamelCase_ , **lowerCamelCase_ ) def lowerCamelCase_ ( self : int , lowerCamelCase_ : int ): """simple docstring""" return token in self.encoder def lowerCamelCase_ ( self : List[Any] , lowerCamelCase_ : List[str] ): """simple docstring""" return "".join(lowerCamelCase_ ) def lowerCamelCase_ ( self : Optional[Any] , lowerCamelCase_ : List[Any] ): """simple docstring""" return self.encoder.get(lowerCamelCase_ , self.encoder.get(self.unk_token ) ) def lowerCamelCase_ ( self : List[str] , lowerCamelCase_ : Tuple ): """simple docstring""" return self.decoder.get(lowerCamelCase_ , self.unk_token ) def lowerCamelCase_ ( self : Tuple , lowerCamelCase_ : str , lowerCamelCase_ : Optional[str] = None ): """simple docstring""" if os.path.isdir(lowerCamelCase_ ): UpperCamelCase = os.path.join( lowerCamelCase_ , (filename_prefix + """-""" if filename_prefix else """""") + VOCAB_FILES_NAMES["""vocab_file"""] ) else: UpperCamelCase = (filename_prefix + """-""" if filename_prefix else """""") + save_directory UpperCamelCase = 0 if " " in self.encoder: UpperCamelCase = self.encoder[""" """] del self.encoder[" "] if "\n" in self.encoder: UpperCamelCase = self.encoder["""\n"""] del self.encoder["\n"] UpperCamelCase = collections.OrderedDict(sorted(self.encoder.items() , key=lambda lowerCamelCase_ : x[1] ) ) with open(lowerCamelCase_ , """w""" , encoding="""utf-8""" ) as writer: for token, token_index in self.encoder.items(): if index != token_index: logger.warning( f"""Saving vocabulary to {vocab_file}: vocabulary indices are not consecutive.""" """ Please check that the vocabulary is not corrupted!""" ) UpperCamelCase = token_index writer.write(token + """\n""" ) index += 1 return (vocab_file,) def lowerCamelCase_ ( self : Optional[int] , lowerCamelCase_ : List[int] , lowerCamelCase_ : List[int] = None ): """simple docstring""" if token_ids_a is None: return [self.bos_token_id] + token_ids_a return [self.bos_token_id] + token_ids_a + [self.bos_token_id] + token_ids_a def lowerCamelCase_ ( self : str , lowerCamelCase_ : List[int] , lowerCamelCase_ : Optional[List[int]] = None , lowerCamelCase_ : bool = False ): """simple docstring""" if already_has_special_tokens: return super().get_special_tokens_mask( token_ids_a=lowerCamelCase_ , token_ids_a=lowerCamelCase_ , already_has_special_tokens=lowerCamelCase_ ) if token_ids_a is not None: return [1] + ([0] * len(lowerCamelCase_ )) + [1] + ([0] * len(lowerCamelCase_ )) return [1] + ([0] * len(lowerCamelCase_ ))

165

1

'''simple docstring''' import gc import random import unittest import numpy as np import torch from transformers import ( CLIPImageProcessor, CLIPTextConfig, CLIPTextModelWithProjection, CLIPTokenizer, CLIPVisionConfig, CLIPVisionModelWithProjection, ) from diffusers import ( DiffusionPipeline, UnCLIPImageVariationPipeline, UnCLIPScheduler, UNetaDConditionModel, UNetaDModel, ) from diffusers.pipelines.unclip.text_proj import UnCLIPTextProjModel from diffusers.utils import floats_tensor, load_numpy, slow, torch_device from diffusers.utils.testing_utils import enable_full_determinism, load_image, require_torch_gpu, skip_mps from ..pipeline_params import IMAGE_VARIATION_BATCH_PARAMS, IMAGE_VARIATION_PARAMS from ..test_pipelines_common import PipelineTesterMixin, assert_mean_pixel_difference enable_full_determinism() class lowerCAmelCase__ ( a , unittest.TestCase ): """simple docstring""" lowerCAmelCase__ = UnCLIPImageVariationPipeline lowerCAmelCase__ = IMAGE_VARIATION_PARAMS - {"height", "width", "guidance_scale"} lowerCAmelCase__ = IMAGE_VARIATION_BATCH_PARAMS lowerCAmelCase__ = [ "generator", "return_dict", "decoder_num_inference_steps", "super_res_num_inference_steps", ] lowerCAmelCase__ = False @property def UpperCAmelCase__ ( self : Optional[int] ) -> Optional[int]: """simple docstring""" return 32 @property def UpperCAmelCase__ ( self : Union[str, Any] ) -> Union[str, Any]: """simple docstring""" return 32 @property def UpperCAmelCase__ ( self : Optional[Any] ) -> int: """simple docstring""" return self.time_input_dim @property def UpperCAmelCase__ ( self : List[str] ) -> Optional[Any]: """simple docstring""" return self.time_input_dim * 4 @property def UpperCAmelCase__ ( self : Any ) -> str: """simple docstring""" return 100 @property def UpperCAmelCase__ ( self : Tuple ) -> Dict: """simple docstring""" __SCREAMING_SNAKE_CASE = CLIPTokenizer.from_pretrained("""hf-internal-testing/tiny-random-clip""" ) return tokenizer @property def UpperCAmelCase__ ( self : List[str] ) -> Optional[int]: """simple docstring""" torch.manual_seed(0 ) __SCREAMING_SNAKE_CASE = CLIPTextConfig( bos_token_id=0 , eos_token_id=2 , hidden_size=self.text_embedder_hidden_size , projection_dim=self.text_embedder_hidden_size , intermediate_size=37 , layer_norm_eps=1E-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1_000 , ) return CLIPTextModelWithProjection(__SCREAMING_SNAKE_CASE ) @property def UpperCAmelCase__ ( self : Union[str, Any] ) -> Dict: """simple docstring""" torch.manual_seed(0 ) __SCREAMING_SNAKE_CASE = CLIPVisionConfig( hidden_size=self.text_embedder_hidden_size , projection_dim=self.text_embedder_hidden_size , num_hidden_layers=5 , num_attention_heads=4 , image_size=32 , intermediate_size=37 , patch_size=1 , ) return CLIPVisionModelWithProjection(__SCREAMING_SNAKE_CASE ) @property def UpperCAmelCase__ ( self : List[Any] ) -> Any: """simple docstring""" torch.manual_seed(0 ) __SCREAMING_SNAKE_CASE = { """clip_embeddings_dim""": self.text_embedder_hidden_size, """time_embed_dim""": self.time_embed_dim, """cross_attention_dim""": self.cross_attention_dim, } __SCREAMING_SNAKE_CASE = UnCLIPTextProjModel(**__SCREAMING_SNAKE_CASE ) return model @property def UpperCAmelCase__ ( self : List[Any] ) -> Optional[Any]: """simple docstring""" torch.manual_seed(0 ) __SCREAMING_SNAKE_CASE = { """sample_size""": 32, # RGB in channels """in_channels""": 3, # Out channels is double in channels because predicts mean and variance """out_channels""": 6, """down_block_types""": ("""ResnetDownsampleBlock2D""", """SimpleCrossAttnDownBlock2D"""), """up_block_types""": ("""SimpleCrossAttnUpBlock2D""", """ResnetUpsampleBlock2D"""), """mid_block_type""": """UNetMidBlock2DSimpleCrossAttn""", """block_out_channels""": (self.block_out_channels_a, self.block_out_channels_a * 2), """layers_per_block""": 1, """cross_attention_dim""": self.cross_attention_dim, """attention_head_dim""": 4, """resnet_time_scale_shift""": """scale_shift""", """class_embed_type""": """identity""", } __SCREAMING_SNAKE_CASE = UNetaDConditionModel(**__SCREAMING_SNAKE_CASE ) return model @property def UpperCAmelCase__ ( self : Optional[Any] ) -> Optional[int]: """simple docstring""" return { "sample_size": 64, "layers_per_block": 1, "down_block_types": ("ResnetDownsampleBlock2D", "ResnetDownsampleBlock2D"), "up_block_types": ("ResnetUpsampleBlock2D", "ResnetUpsampleBlock2D"), "block_out_channels": (self.block_out_channels_a, self.block_out_channels_a * 2), "in_channels": 6, "out_channels": 3, } @property def UpperCAmelCase__ ( self : str ) -> List[Any]: """simple docstring""" torch.manual_seed(0 ) __SCREAMING_SNAKE_CASE = UNetaDModel(**self.dummy_super_res_kwargs ) return model @property def UpperCAmelCase__ ( self : Any ) -> str: """simple docstring""" torch.manual_seed(1 ) __SCREAMING_SNAKE_CASE = UNetaDModel(**self.dummy_super_res_kwargs ) return model def UpperCAmelCase__ ( self : Any ) -> Any: """simple docstring""" __SCREAMING_SNAKE_CASE = self.dummy_decoder __SCREAMING_SNAKE_CASE = self.dummy_text_proj __SCREAMING_SNAKE_CASE = self.dummy_text_encoder __SCREAMING_SNAKE_CASE = self.dummy_tokenizer __SCREAMING_SNAKE_CASE = self.dummy_super_res_first __SCREAMING_SNAKE_CASE = self.dummy_super_res_last __SCREAMING_SNAKE_CASE = UnCLIPScheduler( variance_type="""learned_range""" , prediction_type="""epsilon""" , num_train_timesteps=1_000 , ) __SCREAMING_SNAKE_CASE = UnCLIPScheduler( variance_type="""fixed_small_log""" , prediction_type="""epsilon""" , num_train_timesteps=1_000 , ) __SCREAMING_SNAKE_CASE = CLIPImageProcessor(crop_size=32 , size=32 ) __SCREAMING_SNAKE_CASE = self.dummy_image_encoder return { "decoder": decoder, "text_encoder": text_encoder, "tokenizer": tokenizer, "text_proj": text_proj, "feature_extractor": feature_extractor, "image_encoder": image_encoder, "super_res_first": super_res_first, "super_res_last": super_res_last, "decoder_scheduler": decoder_scheduler, "super_res_scheduler": super_res_scheduler, } def UpperCAmelCase__ ( self : str , __SCREAMING_SNAKE_CASE : List[str] , __SCREAMING_SNAKE_CASE : List[Any]=0 , __SCREAMING_SNAKE_CASE : int=True ) -> str: """simple docstring""" __SCREAMING_SNAKE_CASE = floats_tensor((1, 3, 32, 32) , rng=random.Random(__SCREAMING_SNAKE_CASE ) ).to(__SCREAMING_SNAKE_CASE ) if str(__SCREAMING_SNAKE_CASE ).startswith("""mps""" ): __SCREAMING_SNAKE_CASE = torch.manual_seed(__SCREAMING_SNAKE_CASE ) else: __SCREAMING_SNAKE_CASE = torch.Generator(device=__SCREAMING_SNAKE_CASE ).manual_seed(__SCREAMING_SNAKE_CASE ) if pil_image: __SCREAMING_SNAKE_CASE = input_image * 0.5 + 0.5 __SCREAMING_SNAKE_CASE = input_image.clamp(0 , 1 ) __SCREAMING_SNAKE_CASE = input_image.cpu().permute(0 , 2 , 3 , 1 ).float().numpy() __SCREAMING_SNAKE_CASE = DiffusionPipeline.numpy_to_pil(__SCREAMING_SNAKE_CASE )[0] return { "image": input_image, "generator": generator, "decoder_num_inference_steps": 2, "super_res_num_inference_steps": 2, "output_type": "np", } def UpperCAmelCase__ ( self : List[Any] ) -> Any: """simple docstring""" __SCREAMING_SNAKE_CASE = """cpu""" __SCREAMING_SNAKE_CASE = self.get_dummy_components() __SCREAMING_SNAKE_CASE = self.pipeline_class(**__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = pipe.to(__SCREAMING_SNAKE_CASE ) pipe.set_progress_bar_config(disable=__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = self.get_dummy_inputs(__SCREAMING_SNAKE_CASE , pil_image=__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = pipe(**__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = output.images __SCREAMING_SNAKE_CASE = self.get_dummy_inputs(__SCREAMING_SNAKE_CASE , pil_image=__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = pipe( **__SCREAMING_SNAKE_CASE , return_dict=__SCREAMING_SNAKE_CASE , )[0] __SCREAMING_SNAKE_CASE = image[0, -3:, -3:, -1] __SCREAMING_SNAKE_CASE = image_from_tuple[0, -3:, -3:, -1] assert image.shape == (1, 64, 64, 3) __SCREAMING_SNAKE_CASE = np.array( [ 0.9997, 0.0002, 0.9997, 0.9997, 0.9969, 0.0023, 0.9997, 0.9969, 0.9970, ] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2 assert np.abs(image_from_tuple_slice.flatten() - expected_slice ).max() < 1E-2 def UpperCAmelCase__ ( self : str ) -> Any: """simple docstring""" __SCREAMING_SNAKE_CASE = """cpu""" __SCREAMING_SNAKE_CASE = self.get_dummy_components() __SCREAMING_SNAKE_CASE = self.pipeline_class(**__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = pipe.to(__SCREAMING_SNAKE_CASE ) pipe.set_progress_bar_config(disable=__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = self.get_dummy_inputs(__SCREAMING_SNAKE_CASE , pil_image=__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = pipe(**__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = output.images __SCREAMING_SNAKE_CASE = self.get_dummy_inputs(__SCREAMING_SNAKE_CASE , pil_image=__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = pipe( **__SCREAMING_SNAKE_CASE , return_dict=__SCREAMING_SNAKE_CASE , )[0] __SCREAMING_SNAKE_CASE = image[0, -3:, -3:, -1] __SCREAMING_SNAKE_CASE = image_from_tuple[0, -3:, -3:, -1] assert image.shape == (1, 64, 64, 3) __SCREAMING_SNAKE_CASE = np.array([0.9997, 0.0003, 0.9997, 0.9997, 0.9970, 0.0024, 0.9997, 0.9971, 0.9971] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2 assert np.abs(image_from_tuple_slice.flatten() - expected_slice ).max() < 1E-2 def UpperCAmelCase__ ( self : int ) -> Tuple: """simple docstring""" __SCREAMING_SNAKE_CASE = """cpu""" __SCREAMING_SNAKE_CASE = self.get_dummy_components() __SCREAMING_SNAKE_CASE = self.pipeline_class(**__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = pipe.to(__SCREAMING_SNAKE_CASE ) pipe.set_progress_bar_config(disable=__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = self.get_dummy_inputs(__SCREAMING_SNAKE_CASE , pil_image=__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = [ pipeline_inputs["""image"""], pipeline_inputs["""image"""], ] __SCREAMING_SNAKE_CASE = pipe(**__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = output.images __SCREAMING_SNAKE_CASE = self.get_dummy_inputs(__SCREAMING_SNAKE_CASE , pil_image=__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = [ tuple_pipeline_inputs["""image"""], tuple_pipeline_inputs["""image"""], ] __SCREAMING_SNAKE_CASE = pipe( **__SCREAMING_SNAKE_CASE , return_dict=__SCREAMING_SNAKE_CASE , )[0] __SCREAMING_SNAKE_CASE = image[0, -3:, -3:, -1] __SCREAMING_SNAKE_CASE = image_from_tuple[0, -3:, -3:, -1] assert image.shape == (2, 64, 64, 3) __SCREAMING_SNAKE_CASE = np.array( [ 0.9997, 0.9989, 0.0008, 0.0021, 0.9960, 0.0018, 0.0014, 0.0002, 0.9933, ] ) assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2 assert np.abs(image_from_tuple_slice.flatten() - expected_slice ).max() < 1E-2 def UpperCAmelCase__ ( self : Optional[int] ) -> Any: """simple docstring""" __SCREAMING_SNAKE_CASE = torch.device("""cpu""" ) class lowerCAmelCase__ : """simple docstring""" lowerCAmelCase__ = 1 __SCREAMING_SNAKE_CASE = self.get_dummy_components() __SCREAMING_SNAKE_CASE = self.pipeline_class(**__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = pipe.to(__SCREAMING_SNAKE_CASE ) pipe.set_progress_bar_config(disable=__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = torch.Generator(device=__SCREAMING_SNAKE_CASE ).manual_seed(0 ) __SCREAMING_SNAKE_CASE = pipe.decoder.dtype __SCREAMING_SNAKE_CASE = 1 __SCREAMING_SNAKE_CASE = ( batch_size, pipe.decoder.config.in_channels, pipe.decoder.config.sample_size, pipe.decoder.config.sample_size, ) __SCREAMING_SNAKE_CASE = pipe.prepare_latents( __SCREAMING_SNAKE_CASE , dtype=__SCREAMING_SNAKE_CASE , device=__SCREAMING_SNAKE_CASE , generator=__SCREAMING_SNAKE_CASE , latents=__SCREAMING_SNAKE_CASE , scheduler=DummyScheduler() ) __SCREAMING_SNAKE_CASE = ( batch_size, pipe.super_res_first.config.in_channels // 2, pipe.super_res_first.config.sample_size, pipe.super_res_first.config.sample_size, ) __SCREAMING_SNAKE_CASE = pipe.prepare_latents( __SCREAMING_SNAKE_CASE , dtype=__SCREAMING_SNAKE_CASE , device=__SCREAMING_SNAKE_CASE , generator=__SCREAMING_SNAKE_CASE , latents=__SCREAMING_SNAKE_CASE , scheduler=DummyScheduler() ) __SCREAMING_SNAKE_CASE = self.get_dummy_inputs(__SCREAMING_SNAKE_CASE , pil_image=__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = pipe( **__SCREAMING_SNAKE_CASE , decoder_latents=__SCREAMING_SNAKE_CASE , super_res_latents=__SCREAMING_SNAKE_CASE ).images __SCREAMING_SNAKE_CASE = self.get_dummy_inputs(__SCREAMING_SNAKE_CASE , pil_image=__SCREAMING_SNAKE_CASE ) # Don't pass image, instead pass embedding __SCREAMING_SNAKE_CASE = pipeline_inputs.pop("""image""" ) __SCREAMING_SNAKE_CASE = pipe.image_encoder(__SCREAMING_SNAKE_CASE ).image_embeds __SCREAMING_SNAKE_CASE = pipe( **__SCREAMING_SNAKE_CASE , decoder_latents=__SCREAMING_SNAKE_CASE , super_res_latents=__SCREAMING_SNAKE_CASE , image_embeddings=__SCREAMING_SNAKE_CASE , ).images # make sure passing text embeddings manually is identical assert np.abs(img_out_a - img_out_a ).max() < 1E-4 @skip_mps def UpperCAmelCase__ ( self : List[str] ) -> List[Any]: """simple docstring""" __SCREAMING_SNAKE_CASE = torch_device == """cpu""" # Check is relaxed because there is not a torch 2.0 sliced attention added kv processor __SCREAMING_SNAKE_CASE = 1E-2 self._test_attention_slicing_forward_pass( test_max_difference=__SCREAMING_SNAKE_CASE , expected_max_diff=__SCREAMING_SNAKE_CASE ) @skip_mps def UpperCAmelCase__ ( self : Optional[int] ) -> int: """simple docstring""" __SCREAMING_SNAKE_CASE = torch_device == """cpu""" __SCREAMING_SNAKE_CASE = True __SCREAMING_SNAKE_CASE = [ """decoder_num_inference_steps""", """super_res_num_inference_steps""", ] self._test_inference_batch_single_identical( test_max_difference=__SCREAMING_SNAKE_CASE , relax_max_difference=__SCREAMING_SNAKE_CASE , additional_params_copy_to_batched_inputs=__SCREAMING_SNAKE_CASE , ) def UpperCAmelCase__ ( self : Tuple ) -> Optional[int]: """simple docstring""" __SCREAMING_SNAKE_CASE = [ """decoder_num_inference_steps""", """super_res_num_inference_steps""", ] if torch_device == "mps": # TODO: MPS errors with larger batch sizes __SCREAMING_SNAKE_CASE = [2, 3] self._test_inference_batch_consistent( batch_sizes=__SCREAMING_SNAKE_CASE , additional_params_copy_to_batched_inputs=__SCREAMING_SNAKE_CASE , ) else: self._test_inference_batch_consistent( additional_params_copy_to_batched_inputs=__SCREAMING_SNAKE_CASE ) @skip_mps def UpperCAmelCase__ ( self : Any ) -> Tuple: """simple docstring""" return super().test_dict_tuple_outputs_equivalent() @skip_mps def UpperCAmelCase__ ( self : Tuple ) -> List[str]: """simple docstring""" return super().test_save_load_local() @skip_mps def UpperCAmelCase__ ( self : Dict ) -> List[Any]: """simple docstring""" return super().test_save_load_optional_components() @slow @require_torch_gpu class lowerCAmelCase__ ( unittest.TestCase ): """simple docstring""" def UpperCAmelCase__ ( self : Dict ) -> str: """simple docstring""" super().tearDown() gc.collect() torch.cuda.empty_cache() def UpperCAmelCase__ ( self : List[str] ) -> List[Any]: """simple docstring""" __SCREAMING_SNAKE_CASE = load_image( """https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/unclip/cat.png""" ) __SCREAMING_SNAKE_CASE = load_numpy( """https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main""" """/unclip/karlo_v1_alpha_cat_variation_fp16.npy""" ) __SCREAMING_SNAKE_CASE = UnCLIPImageVariationPipeline.from_pretrained( """kakaobrain/karlo-v1-alpha-image-variations""" , torch_dtype=torch.floataa ) __SCREAMING_SNAKE_CASE = pipeline.to(__SCREAMING_SNAKE_CASE ) pipeline.set_progress_bar_config(disable=__SCREAMING_SNAKE_CASE ) __SCREAMING_SNAKE_CASE = torch.Generator(device="""cpu""" ).manual_seed(0 ) __SCREAMING_SNAKE_CASE = pipeline( __SCREAMING_SNAKE_CASE , generator=__SCREAMING_SNAKE_CASE , output_type="""np""" , ) __SCREAMING_SNAKE_CASE = output.images[0] assert image.shape == (256, 256, 3) assert_mean_pixel_difference(__SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , 15 )

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'''simple docstring''' def a__ ( a__ , a__ ): """simple docstring""" _enforce_args(a__ , a__ ) if n == 0: return 0 __SCREAMING_SNAKE_CASE = float("""-inf""" ) for i in range(1 , n + 1 ): __SCREAMING_SNAKE_CASE = max( a__ , prices[i - 1] + naive_cut_rod_recursive(n - i , a__ ) ) return max_revue def a__ ( a__ , a__ ): """simple docstring""" _enforce_args(a__ , a__ ) __SCREAMING_SNAKE_CASE = [float("""-inf""" ) for _ in range(n + 1 )] return _top_down_cut_rod_recursive(a__ , a__ , a__ ) def a__ ( a__ , a__ , a__ ): """simple docstring""" if max_rev[n] >= 0: return max_rev[n] elif n == 0: return 0 else: __SCREAMING_SNAKE_CASE = float("""-inf""" ) for i in range(1 , n + 1 ): __SCREAMING_SNAKE_CASE = max( a__ , prices[i - 1] + _top_down_cut_rod_recursive(n - i , a__ , a__ ) , ) __SCREAMING_SNAKE_CASE = max_revenue return max_rev[n] def a__ ( a__ , a__ ): """simple docstring""" _enforce_args(a__ , a__ ) # length(max_rev) = n + 1, to accommodate for the revenue obtainable from a rod of # length 0. __SCREAMING_SNAKE_CASE = [float("""-inf""" ) for _ in range(n + 1 )] __SCREAMING_SNAKE_CASE = 0 for i in range(1 , n + 1 ): __SCREAMING_SNAKE_CASE = max_rev[i] for j in range(1 , i + 1 ): __SCREAMING_SNAKE_CASE = max(a__ , prices[j - 1] + max_rev[i - j] ) __SCREAMING_SNAKE_CASE = max_revenue_i return max_rev[n] def a__ ( a__ , a__ ): """simple docstring""" if n < 0: __SCREAMING_SNAKE_CASE = F'n must be greater than or equal to 0. Got n = {n}' raise ValueError(a__ ) if n > len(a__ ): __SCREAMING_SNAKE_CASE = ( """Each integral piece of rod must have a corresponding price. """ F'Got n = {n} but length of prices = {len(a__ )}' ) raise ValueError(a__ ) def a__ ( ): """simple docstring""" __SCREAMING_SNAKE_CASE = [6, 10, 12, 15, 20, 23] __SCREAMING_SNAKE_CASE = len(a__ ) # the best revenue comes from cutting the rod into 6 pieces, each # of length 1 resulting in a revenue of 6 * 6 = 36. __SCREAMING_SNAKE_CASE = 36 __SCREAMING_SNAKE_CASE = top_down_cut_rod(a__ , a__ ) __SCREAMING_SNAKE_CASE = bottom_up_cut_rod(a__ , a__ ) __SCREAMING_SNAKE_CASE = naive_cut_rod_recursive(a__ , a__ ) assert expected_max_revenue == max_rev_top_down assert max_rev_top_down == max_rev_bottom_up assert max_rev_bottom_up == max_rev_naive if __name__ == "__main__": main()

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def _A ( __magic_name__ ): if n_term == "": return [] lowercase__ = [] for temp in range(int(SCREAMING_SNAKE_CASE_ ) ): series.append(f'''1/{temp + 1}''' if series else "1" ) return series if __name__ == "__main__": _snake_case = input("""Enter the last number (nth term) of the Harmonic Series""") print("""Formula of Harmonic Series => 1+1/2+1/3 ..... 1/n""") print(harmonic_series(nth_term))

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def _A ( __magic_name__ , __magic_name__ , __magic_name__ , __magic_name__ ): if height >= 1: move_tower(height - 1 , __magic_name__ , __magic_name__ , __magic_name__ ) move_disk(__magic_name__ , __magic_name__ ) move_tower(height - 1 , __magic_name__ , __magic_name__ , __magic_name__ ) def _A ( __magic_name__ , __magic_name__ ): print("moving disk from" , __magic_name__ , "to" , __magic_name__ ) def _A ( ): lowercase__ = int(input("Height of hanoi: " ).strip() ) move_tower(__magic_name__ , "A" , "B" , "C" ) if __name__ == "__main__": main()

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"""simple docstring""" import unittest from transformers.testing_utils import CaptureStdout from transformers.tools.python_interpreter import evaluate def lowercase (_lowerCAmelCase ): return x + 2 class lowerCAmelCase_ ( unittest.TestCase ): '''simple docstring''' def A__ ( self ) -> Union[str, Any]: __lowerCAmelCase = '''x = 3''' __lowerCAmelCase = {} __lowerCAmelCase = evaluate(snake_case_ , {} , state=snake_case_ ) assert result == 3 self.assertDictEqual(snake_case_ , {"""x""": 3} ) __lowerCAmelCase = '''x = y''' __lowerCAmelCase = {'''y''': 5} __lowerCAmelCase = evaluate(snake_case_ , {} , state=snake_case_ ) # evaluate returns the value of the last assignment. assert result == 5 self.assertDictEqual(snake_case_ , {"""x""": 5, """y""": 5} ) def A__ ( self ) -> List[str]: __lowerCAmelCase = '''y = add_two(x)''' __lowerCAmelCase = {'''x''': 3} __lowerCAmelCase = evaluate(snake_case_ , {"""add_two""": add_two} , state=snake_case_ ) assert result == 5 self.assertDictEqual(snake_case_ , {"""x""": 3, """y""": 5} ) # Won't work without the tool with CaptureStdout() as out: __lowerCAmelCase = evaluate(snake_case_ , {} , state=snake_case_ ) assert result is None assert "tried to execute add_two" in out.out def A__ ( self ) -> Union[str, Any]: __lowerCAmelCase = '''x = 3''' __lowerCAmelCase = {} __lowerCAmelCase = evaluate(snake_case_ , {} , state=snake_case_ ) assert result == 3 self.assertDictEqual(snake_case_ , {"""x""": 3} ) def A__ ( self ) -> Any: __lowerCAmelCase = '''test_dict = {\'x\': x, \'y\': add_two(x)}''' __lowerCAmelCase = {'''x''': 3} __lowerCAmelCase = evaluate(snake_case_ , {"""add_two""": add_two} , state=snake_case_ ) self.assertDictEqual(snake_case_ , {"""x""": 3, """y""": 5} ) self.assertDictEqual(snake_case_ , {"""x""": 3, """test_dict""": {"""x""": 3, """y""": 5}} ) def A__ ( self ) -> str: __lowerCAmelCase = '''x = 3\ny = 5''' __lowerCAmelCase = {} __lowerCAmelCase = evaluate(snake_case_ , {} , state=snake_case_ ) # evaluate returns the value of the last assignment. assert result == 5 self.assertDictEqual(snake_case_ , {"""x""": 3, """y""": 5} ) def A__ ( self ) -> Dict: __lowerCAmelCase = '''text = f\'This is x: {x}.\'''' __lowerCAmelCase = {'''x''': 3} __lowerCAmelCase = evaluate(snake_case_ , {} , state=snake_case_ ) # evaluate returns the value of the last assignment. assert result == "This is x: 3." self.assertDictEqual(snake_case_ , {"""x""": 3, """text""": """This is x: 3."""} ) def A__ ( self ) -> Tuple: __lowerCAmelCase = '''if x <= 3:\n y = 2\nelse:\n y = 5''' __lowerCAmelCase = {'''x''': 3} __lowerCAmelCase = evaluate(snake_case_ , {} , state=snake_case_ ) # evaluate returns the value of the last assignment. assert result == 2 self.assertDictEqual(snake_case_ , {"""x""": 3, """y""": 2} ) __lowerCAmelCase = {'''x''': 8} __lowerCAmelCase = evaluate(snake_case_ , {} , state=snake_case_ ) # evaluate returns the value of the last assignment. assert result == 5 self.assertDictEqual(snake_case_ , {"""x""": 8, """y""": 5} ) def A__ ( self ) -> List[Any]: __lowerCAmelCase = '''test_list = [x, add_two(x)]''' __lowerCAmelCase = {'''x''': 3} __lowerCAmelCase = evaluate(snake_case_ , {"""add_two""": add_two} , state=snake_case_ ) self.assertListEqual(snake_case_ , [3, 5] ) self.assertDictEqual(snake_case_ , {"""x""": 3, """test_list""": [3, 5]} ) def A__ ( self ) -> Dict: __lowerCAmelCase = '''y = x''' __lowerCAmelCase = {'''x''': 3} __lowerCAmelCase = evaluate(snake_case_ , {} , state=snake_case_ ) assert result == 3 self.assertDictEqual(snake_case_ , {"""x""": 3, """y""": 3} ) def A__ ( self ) -> Union[str, Any]: __lowerCAmelCase = '''test_list = [x, add_two(x)]\ntest_list[1]''' __lowerCAmelCase = {'''x''': 3} __lowerCAmelCase = evaluate(snake_case_ , {"""add_two""": add_two} , state=snake_case_ ) assert result == 5 self.assertDictEqual(snake_case_ , {"""x""": 3, """test_list""": [3, 5]} ) __lowerCAmelCase = '''test_dict = {\'x\': x, \'y\': add_two(x)}\ntest_dict[\'y\']''' __lowerCAmelCase = {'''x''': 3} __lowerCAmelCase = evaluate(snake_case_ , {"""add_two""": add_two} , state=snake_case_ ) assert result == 5 self.assertDictEqual(snake_case_ , {"""x""": 3, """test_dict""": {"""x""": 3, """y""": 5}} ) def A__ ( self ) -> Optional[int]: __lowerCAmelCase = '''x = 0\nfor i in range(3):\n x = i''' __lowerCAmelCase = {} __lowerCAmelCase = evaluate(snake_case_ , {"""range""": range} , state=snake_case_ ) assert result == 2 self.assertDictEqual(snake_case_ , {"""x""": 2, """i""": 2} )

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import unittest from transformers import SPIECE_UNDERLINE from transformers.models.speechta import SpeechTaTokenizer from transformers.testing_utils import get_tests_dir, require_sentencepiece, require_tokenizers, slow from transformers.tokenization_utils import AddedToken from ...test_tokenization_common import TokenizerTesterMixin lowerCAmelCase_ = get_tests_dir('''fixtures/test_sentencepiece_bpe_char.model''') @require_sentencepiece @require_tokenizers class __lowerCAmelCase ( _a, unittest.TestCase ): lowerCamelCase_ : Optional[int] = SpeechTaTokenizer lowerCamelCase_ : int = False lowerCamelCase_ : Dict = True def lowerCamelCase (self ) -> Optional[Any]: '''simple docstring''' super().setUp() # We have a SentencePiece fixture for testing snake_case_ : Tuple = SpeechTaTokenizer(__magic_name__ ) snake_case_ : Any = AddedToken('''<mask>''' , lstrip=__magic_name__ , rstrip=__magic_name__ ) snake_case_ : int = mask_token tokenizer.add_special_tokens({'''mask_token''': mask_token} ) tokenizer.add_tokens(['''<ctc_blank>'''] ) tokenizer.save_pretrained(self.tmpdirname ) def lowerCamelCase (self , __magic_name__ ) -> Dict: '''simple docstring''' snake_case_ : Dict = '''this is a test''' snake_case_ : int = '''this is a test''' return input_text, output_text def lowerCamelCase (self , __magic_name__ , __magic_name__=False , __magic_name__=20 , __magic_name__=5 ) -> List[Any]: '''simple docstring''' snake_case_ , snake_case_ : int = self.get_input_output_texts(__magic_name__ ) snake_case_ : Optional[Any] = tokenizer.encode(__magic_name__ , add_special_tokens=__magic_name__ ) snake_case_ : Any = tokenizer.decode(__magic_name__ , clean_up_tokenization_spaces=__magic_name__ ) return text, ids def lowerCamelCase (self ) -> Optional[int]: '''simple docstring''' snake_case_ : List[str] = '''<pad>''' snake_case_ : Any = 1 self.assertEqual(self.get_tokenizer()._convert_token_to_id(__magic_name__ ) , __magic_name__ ) self.assertEqual(self.get_tokenizer()._convert_id_to_token(__magic_name__ ) , __magic_name__ ) def lowerCamelCase (self ) -> Any: '''simple docstring''' snake_case_ : Any = list(self.get_tokenizer().get_vocab().keys() ) self.assertEqual(vocab_keys[0] , '''<s>''' ) self.assertEqual(vocab_keys[1] , '''<pad>''' ) self.assertEqual(vocab_keys[-4] , '''œ''' ) self.assertEqual(vocab_keys[-2] , '''<mask>''' ) self.assertEqual(vocab_keys[-1] , '''<ctc_blank>''' ) self.assertEqual(len(__magic_name__ ) , 81 ) def lowerCamelCase (self ) -> Dict: '''simple docstring''' self.assertEqual(self.get_tokenizer().vocab_size , 79 ) def lowerCamelCase (self ) -> Tuple: '''simple docstring''' snake_case_ : int = self.get_tokenizers(do_lower_case=__magic_name__ ) for tokenizer in tokenizers: with self.subTest(F'''{tokenizer.__class__.__name__}''' ): snake_case_ : int = tokenizer.vocab_size snake_case_ : Optional[Any] = len(__magic_name__ ) self.assertNotEqual(__magic_name__ , 0 ) # We usually have added tokens from the start in tests because our vocab fixtures are # smaller than the original vocabs - let's not assert this # self.assertEqual(vocab_size, all_size) snake_case_ : List[Any] = ['''aaaaa bbbbbb''', '''cccccccccdddddddd'''] snake_case_ : List[Any] = tokenizer.add_tokens(__magic_name__ ) snake_case_ : Dict = tokenizer.vocab_size snake_case_ : Optional[Any] = len(__magic_name__ ) self.assertNotEqual(__magic_name__ , 0 ) self.assertEqual(__magic_name__ , __magic_name__ ) self.assertEqual(__magic_name__ , len(__magic_name__ ) ) self.assertEqual(__magic_name__ , all_size + len(__magic_name__ ) ) snake_case_ : Union[str, Any] = tokenizer.encode('''aaaaa bbbbbb low cccccccccdddddddd l''' , add_special_tokens=__magic_name__ ) self.assertGreaterEqual(len(__magic_name__ ) , 4 ) self.assertGreater(tokens[0] , tokenizer.vocab_size - 1 ) self.assertGreater(tokens[-3] , tokenizer.vocab_size - 1 ) snake_case_ : Union[str, Any] = {'''eos_token''': '''>>>>|||<||<<|<<''', '''pad_token''': '''<<<<<|||>|>>>>|>'''} snake_case_ : List[str] = tokenizer.add_special_tokens(__magic_name__ ) snake_case_ : Dict = tokenizer.vocab_size snake_case_ : Dict = len(__magic_name__ ) self.assertNotEqual(__magic_name__ , 0 ) self.assertEqual(__magic_name__ , __magic_name__ ) self.assertEqual(__magic_name__ , len(__magic_name__ ) ) self.assertEqual(__magic_name__ , all_size_a + len(__magic_name__ ) ) snake_case_ : Tuple = tokenizer.encode( '''>>>>|||<||<<|<< aaaaabbbbbb low cccccccccdddddddd <<<<<|||>|>>>>|> l''' , add_special_tokens=__magic_name__ ) self.assertGreaterEqual(len(__magic_name__ ) , 6 ) self.assertGreater(tokens[0] , tokenizer.vocab_size - 1 ) self.assertGreater(tokens[0] , tokens[1] ) self.assertGreater(tokens[-3] , tokenizer.vocab_size - 1 ) self.assertGreater(tokens[-3] , tokens[-4] ) self.assertEqual(tokens[0] , tokenizer.eos_token_id ) self.assertEqual(tokens[-3] , tokenizer.pad_token_id ) def lowerCamelCase (self ) -> Union[str, Any]: '''simple docstring''' pass def lowerCamelCase (self ) -> List[str]: '''simple docstring''' pass def lowerCamelCase (self ) -> int: '''simple docstring''' snake_case_ : Dict = self.get_tokenizer() snake_case_ : Optional[Any] = tokenizer.tokenize('''This is a test''' ) # fmt: off self.assertListEqual(__magic_name__ , [SPIECE_UNDERLINE, '''T''', '''h''', '''i''', '''s''', SPIECE_UNDERLINE, '''i''', '''s''', SPIECE_UNDERLINE, '''a''', SPIECE_UNDERLINE, '''t''', '''e''', '''s''', '''t'''] ) # fmt: on self.assertListEqual( tokenizer.convert_tokens_to_ids(__magic_name__ ) , [4, 32, 11, 10, 12, 4, 10, 12, 4, 7, 4, 6, 5, 12, 6] , ) snake_case_ : List[Any] = tokenizer.tokenize('''I was born in 92000, and this is falsé.''' ) self.assertListEqual( __magic_name__ , [SPIECE_UNDERLINE, '''I''', SPIECE_UNDERLINE, '''w''', '''a''', '''s''', SPIECE_UNDERLINE, '''b''', '''o''', '''r''', '''n''', SPIECE_UNDERLINE, '''i''', '''n''', SPIECE_UNDERLINE, '''92000''', ''',''', SPIECE_UNDERLINE, '''a''', '''n''', '''d''', SPIECE_UNDERLINE, '''t''', '''h''', '''i''', '''s''', SPIECE_UNDERLINE, '''i''', '''s''', SPIECE_UNDERLINE, '''f''', '''a''', '''l''', '''s''', '''é''', '''.'''] ) snake_case_ : List[str] = tokenizer.convert_tokens_to_ids(__magic_name__ ) # fmt: off self.assertListEqual(__magic_name__ , [4, 30, 4, 20, 7, 12, 4, 25, 8, 13, 9, 4, 10, 9, 4, 3, 23, 4, 7, 9, 14, 4, 6, 11, 10, 12, 4, 10, 12, 4, 19, 7, 15, 12, 73, 26] ) # fmt: on snake_case_ : int = tokenizer.convert_ids_to_tokens(__magic_name__ ) self.assertListEqual( __magic_name__ , [SPIECE_UNDERLINE, '''I''', SPIECE_UNDERLINE, '''w''', '''a''', '''s''', SPIECE_UNDERLINE, '''b''', '''o''', '''r''', '''n''', SPIECE_UNDERLINE, '''i''', '''n''', SPIECE_UNDERLINE, '''<unk>''', ''',''', SPIECE_UNDERLINE, '''a''', '''n''', '''d''', SPIECE_UNDERLINE, '''t''', '''h''', '''i''', '''s''', SPIECE_UNDERLINE, '''i''', '''s''', SPIECE_UNDERLINE, '''f''', '''a''', '''l''', '''s''', '''é''', '''.'''] ) @slow def lowerCamelCase (self ) -> Tuple: '''simple docstring''' snake_case_ : Tuple = [ '''Transformers (formerly known as pytorch-transformers and pytorch-pretrained-bert) provides ''' '''general-purpose architectures (BERT, GPT, RoBERTa, XLM, DistilBert, XLNet...) for Natural ''' '''Language Understanding (NLU) and Natural Language Generation (NLG) with over thirty-two pretrained ''' '''models in one hundred plus languages and deep interoperability between Jax, PyTorch and TensorFlow.''', '''BERT is designed to pre-train deep bidirectional representations from unlabeled text by jointly ''' '''conditioning on both left and right context in all layers.''', '''The quick brown fox jumps over the lazy dog.''', ] # fmt: off snake_case_ : List[Any] = { '''input_ids''': [ [4, 32, 13, 7, 9, 12, 19, 8, 13, 18, 5, 13, 12, 4, 64, 19, 8, 13, 18, 5, 13, 15, 22, 4, 28, 9, 8, 20, 9, 4, 7, 12, 4, 24, 22, 6, 8, 13, 17, 11, 39, 6, 13, 7, 9, 12, 19, 8, 13, 18, 5, 13, 12, 4, 7, 9, 14, 4, 24, 22, 6, 8, 13, 17, 11, 39, 24, 13, 5, 6, 13, 7, 10, 9, 5, 14, 39, 25, 5, 13, 6, 63, 4, 24, 13, 8, 27, 10, 14, 5, 12, 4, 21, 5, 9, 5, 13, 7, 15, 39, 24, 16, 13, 24, 8, 12, 5, 4, 7, 13, 17, 11, 10, 6, 5, 17, 6, 16, 13, 5, 12, 4, 64, 40, 47, 54, 32, 23, 4, 53, 49, 32, 23, 4, 54, 8, 40, 47, 54, 32, 7, 23, 4, 69, 52, 43, 23, 4, 51, 10, 12, 6, 10, 15, 40, 5, 13, 6, 23, 4, 69, 52, 48, 5, 6, 26, 26, 26, 63, 4, 19, 8, 13, 4, 48, 7, 6, 16, 13, 7, 15, 4, 52, 7, 9, 21, 16, 7, 21, 5, 4, 61, 9, 14, 5, 13, 12, 6, 7, 9, 14, 10, 9, 21, 4, 64, 48, 52, 61, 63, 4, 7, 9, 14, 4, 48, 7, 6, 16, 13, 7, 15, 4, 52, 7, 9, 21, 16, 7, 21, 5, 4, 53, 5, 9, 5, 13, 7, 6, 10, 8, 9, 4, 64, 48, 52, 53, 63, 4, 20, 10, 6, 11, 4, 8, 27, 5, 13, 4, 6, 11, 10, 13, 6, 22, 39, 6, 20, 8, 4, 24, 13, 5, 6, 13, 7, 10, 9, 5, 14, 4, 18, 8, 14, 5, 15, 12, 4, 10, 9, 4, 8, 9, 5, 4, 11, 16, 9, 14, 13, 5, 14, 4, 24, 15, 16, 12, 4, 15, 7, 9, 21, 16, 7, 21, 5, 12, 4, 7, 9, 14, 4, 14, 5, 5, 24, 4, 10, 9, 6, 5, 13, 8, 24, 5, 13, 7, 25, 10, 15, 10, 6, 22, 4, 25, 5, 6, 20, 5, 5, 9, 4, 58, 7, 37, 23, 4, 49, 22, 32, 8, 13, 17, 11, 4, 7, 9, 14, 4, 32, 5, 9, 12, 8, 13, 55, 15, 8, 20, 26, 2], [4, 40, 47, 54, 32, 4, 10, 12, 4, 14, 5, 12, 10, 21, 9, 5, 14, 4, 6, 8, 4, 24, 13, 5, 39, 6, 13, 7, 10, 9, 4, 14, 5, 5, 24, 4, 25, 10, 14, 10, 13, 5, 17, 6, 10, 8, 9, 7, 15, 4, 13, 5, 24, 13, 5, 12, 5, 9, 6, 7, 6, 10, 8, 9, 12, 4, 19, 13, 8, 18, 4, 16, 9, 15, 7, 25, 5, 15, 5, 14, 4, 6, 5, 37, 6, 4, 25, 22, 4, 46, 8, 10, 9, 6, 15, 22, 4, 17, 8, 9, 14, 10, 6, 10, 8, 9, 10, 9, 21, 4, 8, 9, 4, 25, 8, 6, 11, 4, 15, 5, 19, 6, 4, 7, 9, 14, 4, 13, 10, 21, 11, 6, 4, 17, 8, 9, 6, 5, 37, 6, 4, 10, 9, 4, 7, 15, 15, 4, 15, 7, 22, 5, 13, 12, 26, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [4, 32, 11, 5, 4, 45, 16, 10, 17, 28, 4, 25, 13, 8, 20, 9, 4, 19, 8, 37, 4, 46, 16, 18, 24, 12, 4, 8, 27, 5, 13, 4, 6, 11, 5, 4, 15, 7, 57, 22, 4, 14, 8, 21, 26, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], ], '''attention_mask''': [ [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], ] } # fmt: on self.tokenizer_integration_test_util( expected_encoding=__magic_name__ , model_name='''microsoft/speecht5_asr''' , revision='''c5ef64c71905caeccde0e4462ef3f9077224c524''' , sequences=__magic_name__ , )

279

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from .glue import GlueDataset, GlueDataTrainingArguments from .language_modeling import ( LineByLineTextDataset, LineByLineWithRefDataset, LineByLineWithSOPTextDataset, TextDataset, TextDatasetForNextSentencePrediction, ) from .squad import SquadDataset, SquadDataTrainingArguments

356

def _a ( SCREAMING_SNAKE_CASE : int ): """simple docstring""" UpperCamelCase__ : List[str] = generate_pascal_triangle(SCREAMING_SNAKE_CASE ) for row_idx in range(SCREAMING_SNAKE_CASE ): # Print left spaces for _ in range(num_rows - row_idx - 1 ): print(end=''' ''' ) # Print row values for col_idx in range(row_idx + 1 ): if col_idx != row_idx: print(triangle[row_idx][col_idx] , end=''' ''' ) else: print(triangle[row_idx][col_idx] , end='''''' ) print() def _a ( SCREAMING_SNAKE_CASE : int ): """simple docstring""" if not isinstance(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ): raise TypeError('''The input value of \'num_rows\' should be \'int\'''' ) if num_rows == 0: return [] elif num_rows < 0: raise ValueError( '''The input value of \'num_rows\' should be greater than or equal to 0''' ) UpperCamelCase__ : list[list[int]] = [] for current_row_idx in range(SCREAMING_SNAKE_CASE ): UpperCamelCase__ : str = populate_current_row(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) triangle.append(SCREAMING_SNAKE_CASE ) return triangle def _a ( SCREAMING_SNAKE_CASE : list[list[int]] , SCREAMING_SNAKE_CASE : int ): """simple docstring""" UpperCamelCase__ : List[Any] = [-1] * (current_row_idx + 1) # first and last elements of current row are equal to 1 UpperCamelCase__ , UpperCamelCase__ : Optional[int] = 1, 1 for current_col_idx in range(1 , SCREAMING_SNAKE_CASE ): calculate_current_element( SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) return current_row def _a ( SCREAMING_SNAKE_CASE : list[list[int]] , SCREAMING_SNAKE_CASE : list[int] , SCREAMING_SNAKE_CASE : int , SCREAMING_SNAKE_CASE : int , ): """simple docstring""" UpperCamelCase__ : Optional[Any] = triangle[current_row_idx - 1][current_col_idx - 1] UpperCamelCase__ : List[Any] = triangle[current_row_idx - 1][current_col_idx] UpperCamelCase__ : Tuple = above_to_left_elt + above_to_right_elt def _a ( SCREAMING_SNAKE_CASE : int ): """simple docstring""" if not isinstance(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ): raise TypeError('''The input value of \'num_rows\' should be \'int\'''' ) if num_rows == 0: return [] elif num_rows < 0: raise ValueError( '''The input value of \'num_rows\' should be greater than or equal to 0''' ) UpperCamelCase__ : list[list[int]] = [[1]] for row_index in range(1 , SCREAMING_SNAKE_CASE ): UpperCamelCase__ : Tuple = [0] + result[-1] + [0] UpperCamelCase__ : Any = row_index + 1 # Calculate the number of distinct elements in a row UpperCamelCase__ : str = sum(divmod(SCREAMING_SNAKE_CASE , 2 ) ) UpperCamelCase__ : Optional[int] = [ temp_row[i - 1] + temp_row[i] for i in range(1 , distinct_elements + 1 ) ] UpperCamelCase__ : int = row_first_half[: (row_index + 1) // 2] row_second_half.reverse() UpperCamelCase__ : List[Any] = row_first_half + row_second_half result.append(SCREAMING_SNAKE_CASE ) return result def _a ( ): """simple docstring""" from collections.abc import Callable from timeit import timeit def benchmark_a_function(SCREAMING_SNAKE_CASE : Callable , SCREAMING_SNAKE_CASE : int ) -> None: UpperCamelCase__ : Tuple = F"{func.__name__}({value})" UpperCamelCase__ : Dict = timeit(F"__main__.{call}" , setup='''import __main__''' ) # print(f"{call:38} = {func(value)} -- {timing:.4f} seconds") print(F"{call:38} -- {timing:.4f} seconds" ) for value in range(15 ): # (1, 7, 14): for func in (generate_pascal_triangle, generate_pascal_triangle_optimized): benchmark_a_function(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) print() if __name__ == "__main__": import doctest doctest.testmod() benchmark()

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'''simple docstring''' from ...configuration_utils import PretrainedConfig from ...utils import logging __a = logging.get_logger(__name__) __a = { "vinvino02/glpn-kitti": "https://huggingface.co/vinvino02/glpn-kitti/resolve/main/config.json", # See all GLPN models at https://huggingface.co/models?filter=glpn } class UpperCAmelCase_ ( _a ): """simple docstring""" lowercase = "glpn" def __init__( self : Optional[Any] , snake_case_ : List[str]=3 , snake_case_ : Dict=4 , snake_case_ : List[Any]=[2, 2, 2, 2] , snake_case_ : int=[8, 4, 2, 1] , snake_case_ : List[str]=[32, 64, 160, 256] , snake_case_ : Tuple=[7, 3, 3, 3] , snake_case_ : List[Any]=[4, 2, 2, 2] , snake_case_ : Tuple=[1, 2, 5, 8] , snake_case_ : List[str]=[4, 4, 4, 4] , snake_case_ : Optional[int]="gelu" , snake_case_ : Dict=0.0 , snake_case_ : Union[str, Any]=0.0 , snake_case_ : List[Any]=0.02 , snake_case_ : Tuple=0.1 , snake_case_ : Any=1E-6 , snake_case_ : Dict=64 , snake_case_ : Tuple=10 , snake_case_ : List[Any]=-1 , **snake_case_ : Optional[Any] , ): super().__init__(**snake_case_ ) snake_case__ : Optional[Any] = num_channels snake_case__ : Dict = num_encoder_blocks snake_case__ : Tuple = depths snake_case__ : Union[str, Any] = sr_ratios snake_case__ : Tuple = hidden_sizes snake_case__ : Optional[Any] = patch_sizes snake_case__ : int = strides snake_case__ : List[Any] = mlp_ratios snake_case__ : Optional[int] = num_attention_heads snake_case__ : Dict = hidden_act snake_case__ : int = hidden_dropout_prob snake_case__ : Optional[Any] = attention_probs_dropout_prob snake_case__ : str = initializer_range snake_case__ : List[str] = drop_path_rate snake_case__ : int = layer_norm_eps snake_case__ : Tuple = decoder_hidden_size snake_case__ : List[Any] = max_depth snake_case__ : Dict = head_in_index

35

from typing import Dict, List, Optional, Union import numpy as np from ...image_processing_utils import BaseImageProcessor, BatchFeature, get_size_dict from ...image_transforms import convert_to_rgb, normalize, rescale, resize, to_channel_dimension_format from ...image_utils import ( OPENAI_CLIP_MEAN, OPENAI_CLIP_STD, ChannelDimension, ImageInput, PILImageResampling, make_list_of_images, to_numpy_array, valid_images, ) from ...utils import TensorType, is_vision_available, logging if is_vision_available(): import PIL __snake_case : List[Any] = logging.get_logger(__name__) class A__(a_ ): """simple docstring""" _A : Optional[Any] = ['''pixel_values'''] def __init__( self , _lowercase = True , _lowercase = None , _lowercase = PILImageResampling.BICUBIC , _lowercase = True , _lowercase = 1 / 255 , _lowercase = True , _lowercase = None , _lowercase = None , _lowercase = True , **_lowercase , ) -> None: super().__init__(**_lowercase ) a_ : Optional[Any] = size if size is not None else {"""height""": 384, """width""": 384} a_ : List[str] = get_size_dict(_lowercase , default_to_square=_lowercase ) a_ : str = do_resize a_ : Optional[int] = size a_ : Dict = resample a_ : Optional[int] = do_rescale a_ : Dict = rescale_factor a_ : int = do_normalize a_ : str = image_mean if image_mean is not None else OPENAI_CLIP_MEAN a_ : Optional[int] = image_std if image_std is not None else OPENAI_CLIP_STD a_ : Any = do_convert_rgb def UpperCamelCase__ ( self , _lowercase , _lowercase , _lowercase = PILImageResampling.BICUBIC , _lowercase = None , **_lowercase , ) -> np.ndarray: a_ : Union[str, Any] = get_size_dict(_lowercase , default_to_square=_lowercase ) if "height" not in size or "width" not in size: raise ValueError(F'''The `size` dictionary must contain the keys `height` and `width`. Got {size.keys()}''' ) a_ : List[str] = (size["""height"""], size["""width"""]) return resize(_lowercase , size=_lowercase , resample=_lowercase , data_format=_lowercase , **_lowercase ) def UpperCamelCase__ ( self , _lowercase , _lowercase , _lowercase = None , **_lowercase , ) -> Optional[Any]: return rescale(_lowercase , scale=_lowercase , data_format=_lowercase , **_lowercase ) def UpperCamelCase__ ( self , _lowercase , _lowercase , _lowercase , _lowercase = None , **_lowercase , ) -> np.ndarray: return normalize(_lowercase , mean=_lowercase , std=_lowercase , data_format=_lowercase , **_lowercase ) def UpperCamelCase__ ( self , _lowercase , _lowercase = None , _lowercase = None , _lowercase = None , _lowercase = None , _lowercase = None , _lowercase = None , _lowercase = None , _lowercase = None , _lowercase = None , _lowercase = None , _lowercase = ChannelDimension.FIRST , **_lowercase , ) -> PIL.Image.Image: a_ : Optional[int] = do_resize if do_resize is not None else self.do_resize a_ : Any = resample if resample is not None else self.resample a_ : Dict = do_rescale if do_rescale is not None else self.do_rescale a_ : int = rescale_factor if rescale_factor is not None else self.rescale_factor a_ : List[str] = do_normalize if do_normalize is not None else self.do_normalize a_ : Optional[int] = image_mean if image_mean is not None else self.image_mean a_ : Optional[Any] = image_std if image_std is not None else self.image_std a_ : Any = do_convert_rgb if do_convert_rgb is not None else self.do_convert_rgb a_ : str = size if size is not None else self.size a_ : Tuple = get_size_dict(_lowercase , default_to_square=_lowercase ) a_ : Optional[int] = make_list_of_images(_lowercase ) if not valid_images(_lowercase ): raise ValueError( """Invalid image type. Must be of type PIL.Image.Image, numpy.ndarray, """ """torch.Tensor, tf.Tensor or jax.ndarray.""" ) if do_resize and size is None or resample is None: raise ValueError("""Size and resample must be specified if do_resize is True.""" ) if do_rescale and rescale_factor is None: raise ValueError("""Rescale factor must be specified if do_rescale is True.""" ) if do_normalize and (image_mean is None or image_std is None): raise ValueError("""Image mean and std must be specified if do_normalize is True.""" ) # PIL RGBA images are converted to RGB if do_convert_rgb: a_ : Optional[Any] = [convert_to_rgb(_lowercase ) for image in images] # All transformations expect numpy arrays. a_ : str = [to_numpy_array(_lowercase ) for image in images] if do_resize: a_ : Optional[int] = [self.resize(image=_lowercase , size=_lowercase , resample=_lowercase ) for image in images] if do_rescale: a_ : Union[str, Any] = [self.rescale(image=_lowercase , scale=_lowercase ) for image in images] if do_normalize: a_ : str = [self.normalize(image=_lowercase , mean=_lowercase , std=_lowercase ) for image in images] a_ : Optional[Any] = [to_channel_dimension_format(_lowercase , _lowercase ) for image in images] a_ : Optional[Any] = BatchFeature(data={"""pixel_values""": images} , tensor_type=_lowercase ) return encoded_outputs

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"""simple docstring""" import argparse import os from . import ( ALBERT_PRETRAINED_CONFIG_ARCHIVE_MAP, BART_PRETRAINED_MODEL_ARCHIVE_LIST, BERT_PRETRAINED_CONFIG_ARCHIVE_MAP, CAMEMBERT_PRETRAINED_CONFIG_ARCHIVE_MAP, CTRL_PRETRAINED_CONFIG_ARCHIVE_MAP, DISTILBERT_PRETRAINED_CONFIG_ARCHIVE_MAP, DPR_CONTEXT_ENCODER_PRETRAINED_MODEL_ARCHIVE_LIST, DPR_QUESTION_ENCODER_PRETRAINED_MODEL_ARCHIVE_LIST, DPR_READER_PRETRAINED_MODEL_ARCHIVE_LIST, ELECTRA_PRETRAINED_CONFIG_ARCHIVE_MAP, FLAUBERT_PRETRAINED_CONFIG_ARCHIVE_MAP, GPT2_PRETRAINED_CONFIG_ARCHIVE_MAP, LAYOUTLM_PRETRAINED_MODEL_ARCHIVE_LIST, LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP, OPENAI_GPT_PRETRAINED_CONFIG_ARCHIVE_MAP, ROBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP, T5_PRETRAINED_CONFIG_ARCHIVE_MAP, TRANSFO_XL_PRETRAINED_CONFIG_ARCHIVE_MAP, WAV_2_VEC_2_PRETRAINED_CONFIG_ARCHIVE_MAP, XLM_PRETRAINED_CONFIG_ARCHIVE_MAP, XLM_ROBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP, XLNET_PRETRAINED_CONFIG_ARCHIVE_MAP, AlbertConfig, BartConfig, BertConfig, CamembertConfig, CTRLConfig, DistilBertConfig, DPRConfig, ElectraConfig, FlaubertConfig, GPTaConfig, LayoutLMConfig, LxmertConfig, OpenAIGPTConfig, RobertaConfig, TaConfig, TFAlbertForPreTraining, TFBartForConditionalGeneration, TFBartForSequenceClassification, TFBertForPreTraining, TFBertForQuestionAnswering, TFBertForSequenceClassification, TFCamembertForMaskedLM, TFCTRLLMHeadModel, TFDistilBertForMaskedLM, TFDistilBertForQuestionAnswering, TFDPRContextEncoder, TFDPRQuestionEncoder, TFDPRReader, TFElectraForPreTraining, TFFlaubertWithLMHeadModel, TFGPTaLMHeadModel, TFLayoutLMForMaskedLM, TFLxmertForPreTraining, TFLxmertVisualFeatureEncoder, TFOpenAIGPTLMHeadModel, TFRobertaForCausalLM, TFRobertaForMaskedLM, TFRobertaForSequenceClassification, TFTaForConditionalGeneration, TFTransfoXLLMHeadModel, TFWavaVecaModel, TFXLMRobertaForMaskedLM, TFXLMWithLMHeadModel, TFXLNetLMHeadModel, TransfoXLConfig, WavaVecaConfig, WavaVecaModel, XLMConfig, XLMRobertaConfig, XLNetConfig, is_torch_available, load_pytorch_checkpoint_in_tfa_model, ) from .utils import CONFIG_NAME, WEIGHTS_NAME, cached_file, logging if is_torch_available(): import numpy as np import torch from . import ( AlbertForPreTraining, BartForConditionalGeneration, BertForPreTraining, BertForQuestionAnswering, BertForSequenceClassification, CamembertForMaskedLM, CTRLLMHeadModel, DistilBertForMaskedLM, DistilBertForQuestionAnswering, DPRContextEncoder, DPRQuestionEncoder, DPRReader, ElectraForPreTraining, FlaubertWithLMHeadModel, GPTaLMHeadModel, LayoutLMForMaskedLM, LxmertForPreTraining, LxmertVisualFeatureEncoder, OpenAIGPTLMHeadModel, RobertaForMaskedLM, RobertaForSequenceClassification, TaForConditionalGeneration, TransfoXLLMHeadModel, XLMRobertaForMaskedLM, XLMWithLMHeadModel, XLNetLMHeadModel, ) logging.set_verbosity_info() lowercase_ = { 'bart': ( BartConfig, TFBartForConditionalGeneration, TFBartForSequenceClassification, BartForConditionalGeneration, BART_PRETRAINED_MODEL_ARCHIVE_LIST, ), 'bert': ( BertConfig, TFBertForPreTraining, BertForPreTraining, BERT_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'bert-large-uncased-whole-word-masking-finetuned-squad': ( BertConfig, TFBertForQuestionAnswering, BertForQuestionAnswering, BERT_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'bert-large-cased-whole-word-masking-finetuned-squad': ( BertConfig, TFBertForQuestionAnswering, BertForQuestionAnswering, BERT_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'bert-base-cased-finetuned-mrpc': ( BertConfig, TFBertForSequenceClassification, BertForSequenceClassification, BERT_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'dpr': ( DPRConfig, TFDPRQuestionEncoder, TFDPRContextEncoder, TFDPRReader, DPRQuestionEncoder, DPRContextEncoder, DPRReader, DPR_CONTEXT_ENCODER_PRETRAINED_MODEL_ARCHIVE_LIST, DPR_QUESTION_ENCODER_PRETRAINED_MODEL_ARCHIVE_LIST, DPR_READER_PRETRAINED_MODEL_ARCHIVE_LIST, ), 'gpt2': ( GPTaConfig, TFGPTaLMHeadModel, GPTaLMHeadModel, GPT2_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'xlnet': ( XLNetConfig, TFXLNetLMHeadModel, XLNetLMHeadModel, XLNET_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'xlm': ( XLMConfig, TFXLMWithLMHeadModel, XLMWithLMHeadModel, XLM_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'xlm-roberta': ( XLMRobertaConfig, TFXLMRobertaForMaskedLM, XLMRobertaForMaskedLM, XLM_ROBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'transfo-xl': ( TransfoXLConfig, TFTransfoXLLMHeadModel, TransfoXLLMHeadModel, TRANSFO_XL_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'openai-gpt': ( OpenAIGPTConfig, TFOpenAIGPTLMHeadModel, OpenAIGPTLMHeadModel, OPENAI_GPT_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'roberta': ( RobertaConfig, TFRobertaForCausalLM, TFRobertaForMaskedLM, RobertaForMaskedLM, ROBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'layoutlm': ( LayoutLMConfig, TFLayoutLMForMaskedLM, LayoutLMForMaskedLM, LAYOUTLM_PRETRAINED_MODEL_ARCHIVE_LIST, ), 'roberta-large-mnli': ( RobertaConfig, TFRobertaForSequenceClassification, RobertaForSequenceClassification, ROBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'camembert': ( CamembertConfig, TFCamembertForMaskedLM, CamembertForMaskedLM, CAMEMBERT_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'flaubert': ( FlaubertConfig, TFFlaubertWithLMHeadModel, FlaubertWithLMHeadModel, FLAUBERT_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'distilbert': ( DistilBertConfig, TFDistilBertForMaskedLM, DistilBertForMaskedLM, DISTILBERT_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'distilbert-base-distilled-squad': ( DistilBertConfig, TFDistilBertForQuestionAnswering, DistilBertForQuestionAnswering, DISTILBERT_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'lxmert': ( LxmertConfig, TFLxmertForPreTraining, LxmertForPreTraining, LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'lxmert-visual-feature-encoder': ( LxmertConfig, TFLxmertVisualFeatureEncoder, LxmertVisualFeatureEncoder, LXMERT_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'ctrl': ( CTRLConfig, TFCTRLLMHeadModel, CTRLLMHeadModel, CTRL_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'albert': ( AlbertConfig, TFAlbertForPreTraining, AlbertForPreTraining, ALBERT_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 't5': ( TaConfig, TFTaForConditionalGeneration, TaForConditionalGeneration, T5_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'electra': ( ElectraConfig, TFElectraForPreTraining, ElectraForPreTraining, ELECTRA_PRETRAINED_CONFIG_ARCHIVE_MAP, ), 'wav2vec2': ( WavaVecaConfig, TFWavaVecaModel, WavaVecaModel, WAV_2_VEC_2_PRETRAINED_CONFIG_ARCHIVE_MAP, ), } def __UpperCamelCase (_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE=False , _SCREAMING_SNAKE_CASE=True ) -> Optional[int]: if model_type not in MODEL_CLASSES: raise ValueError(F"""Unrecognized model type, should be one of {list(MODEL_CLASSES.keys() )}.""" ) lowercase__ , lowercase__ , lowercase__ , lowercase__ = MODEL_CLASSES[model_type] # Initialise TF model if config_file in aws_config_map: lowercase__ = cached_file(UpperCAmelCase_ , UpperCAmelCase_ , force_download=not use_cached_models ) lowercase__ = config_class.from_json_file(UpperCAmelCase_ ) lowercase__ = True lowercase__ = True print(F"""Building TensorFlow model from configuration: {config}""" ) lowercase__ = model_class(UpperCAmelCase_ ) # Load weights from tf checkpoint if pytorch_checkpoint_path in aws_config_map.keys(): lowercase__ = cached_file( UpperCAmelCase_ , UpperCAmelCase_ , force_download=not use_cached_models ) # Load PyTorch checkpoint in tf2 model: lowercase__ = load_pytorch_checkpoint_in_tfa_model(UpperCAmelCase_ , UpperCAmelCase_ ) if compare_with_pt_model: lowercase__ = tf_model(tf_model.dummy_inputs , training=UpperCAmelCase_ ) # build the network lowercase__ = torch.load(UpperCAmelCase_ , map_location='cpu' ) lowercase__ = pt_model_class.from_pretrained( pretrained_model_name_or_path=UpperCAmelCase_ , config=UpperCAmelCase_ , state_dict=UpperCAmelCase_ ) with torch.no_grad(): lowercase__ = pt_model(**pt_model.dummy_inputs ) lowercase__ = pto[0].numpy() lowercase__ = tfo[0].numpy() lowercase__ = np.amax(np.abs(np_pt - np_tf ) ) print(F"""Max absolute difference between models outputs {diff}""" ) assert diff <= 2E-2, F"""Error, model absolute difference is >2e-2: {diff}""" # Save pytorch-model print(F"""Save TensorFlow model to {tf_dump_path}""" ) tf_model.save_weights(UpperCAmelCase_ , save_format='h5' ) def __UpperCamelCase (_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE=None , _SCREAMING_SNAKE_CASE=None , _SCREAMING_SNAKE_CASE=False , _SCREAMING_SNAKE_CASE=False , _SCREAMING_SNAKE_CASE=False , _SCREAMING_SNAKE_CASE=False , ) -> Union[str, Any]: if args_model_type is None: lowercase__ = list(MODEL_CLASSES.keys() ) else: lowercase__ = [args_model_type] for j, model_type in enumerate(UpperCAmelCase_ , start=1 ): print('=' * 100 ) print(F""" Converting model type {j}/{len(UpperCAmelCase_ )}: {model_type}""" ) print('=' * 100 ) if model_type not in MODEL_CLASSES: raise ValueError(F"""Unrecognized model type {model_type}, should be one of {list(MODEL_CLASSES.keys() )}.""" ) lowercase__ , lowercase__ , lowercase__ , lowercase__ , lowercase__ = MODEL_CLASSES[model_type] if model_shortcut_names_or_path is None: lowercase__ = list(aws_model_maps.keys() ) if config_shortcut_names_or_path is None: lowercase__ = model_shortcut_names_or_path for i, (model_shortcut_name, config_shortcut_name) in enumerate( zip(UpperCAmelCase_ , UpperCAmelCase_ ) , start=1 ): print('-' * 100 ) if "-squad" in model_shortcut_name or "-mrpc" in model_shortcut_name or "-mnli" in model_shortcut_name: if not only_convert_finetuned_models: print(F""" Skipping finetuned checkpoint {model_shortcut_name}""" ) continue lowercase__ = model_shortcut_name elif only_convert_finetuned_models: print(F""" Skipping not finetuned checkpoint {model_shortcut_name}""" ) continue print( F""" Converting checkpoint {i}/{len(UpperCAmelCase_ )}: {model_shortcut_name} - model_type {model_type}""" ) print('-' * 100 ) if config_shortcut_name in aws_config_map: lowercase__ = cached_file(UpperCAmelCase_ , UpperCAmelCase_ , force_download=not use_cached_models ) else: lowercase__ = config_shortcut_name if model_shortcut_name in aws_model_maps: lowercase__ = cached_file(UpperCAmelCase_ , UpperCAmelCase_ , force_download=not use_cached_models ) else: lowercase__ = model_shortcut_name if os.path.isfile(UpperCAmelCase_ ): lowercase__ = 'converted_model' convert_pt_checkpoint_to_tf( model_type=UpperCAmelCase_ , pytorch_checkpoint_path=UpperCAmelCase_ , config_file=UpperCAmelCase_ , tf_dump_path=os.path.join(UpperCAmelCase_ , model_shortcut_name + '-tf_model.h5' ) , compare_with_pt_model=UpperCAmelCase_ , ) if remove_cached_files: os.remove(UpperCAmelCase_ ) os.remove(UpperCAmelCase_ ) if __name__ == "__main__": lowercase_ = argparse.ArgumentParser() # Required parameters parser.add_argument( """--tf_dump_path""", default=None, type=str, required=True, help="""Path to the output Tensorflow dump file.""" ) parser.add_argument( """--model_type""", default=None, type=str, help=( f'''Model type selected in the list of {list(MODEL_CLASSES.keys())}. If not given, will download and ''' """convert all the models from AWS.""" ), ) parser.add_argument( """--pytorch_checkpoint_path""", default=None, type=str, help=( """Path to the PyTorch checkpoint path or shortcut name to download from AWS. """ """If not given, will download and convert all the checkpoints from AWS.""" ), ) parser.add_argument( """--config_file""", default=None, type=str, help=( """The config json file corresponding to the pre-trained model. \n""" """This specifies the model architecture. If not given and """ """--pytorch_checkpoint_path is not given or is a shortcut name """ """use the configuration associated to the shortcut name on the AWS""" ), ) parser.add_argument( """--compare_with_pt_model""", action="""store_true""", help="""Compare Tensorflow and PyTorch model predictions.""" ) parser.add_argument( """--use_cached_models""", action="""store_true""", help="""Use cached models if possible instead of updating to latest checkpoint versions.""", ) parser.add_argument( """--remove_cached_files""", action="""store_true""", help="""Remove pytorch models after conversion (save memory when converting in batches).""", ) parser.add_argument("""--only_convert_finetuned_models""", action="""store_true""", help="""Only convert finetuned models.""") lowercase_ = parser.parse_args() # if args.pytorch_checkpoint_path is not None: # convert_pt_checkpoint_to_tf(args.model_type.lower(), # args.pytorch_checkpoint_path, # args.config_file if args.config_file is not None else args.pytorch_checkpoint_path, # args.tf_dump_path, # compare_with_pt_model=args.compare_with_pt_model, # use_cached_models=args.use_cached_models) # else: convert_all_pt_checkpoints_to_tf( args.model_type.lower() if args.model_type is not None else None, args.tf_dump_path, model_shortcut_names_or_path=[args.pytorch_checkpoint_path] if args.pytorch_checkpoint_path is not None else None, config_shortcut_names_or_path=[args.config_file] if args.config_file is not None else None, compare_with_pt_model=args.compare_with_pt_model, use_cached_models=args.use_cached_models, remove_cached_files=args.remove_cached_files, only_convert_finetuned_models=args.only_convert_finetuned_models, )

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from collections.abc import Iterator, MutableMapping from dataclasses import dataclass from typing import Generic, TypeVar lowercase_ = TypeVar("""KEY""") lowercase_ = TypeVar("""VAL""") @dataclass(frozen=UpperCAmelCase , slots=UpperCAmelCase ) class SCREAMING_SNAKE_CASE (Generic[KEY, VAL] ): _UpperCamelCase : KEY _UpperCamelCase : VAL class SCREAMING_SNAKE_CASE (_Item ): def __init__( self : Optional[int] )-> None: """simple docstring""" super().__init__(a , a ) def __bool__( self : str )-> bool: """simple docstring""" return False lowercase_ = _DeletedItem() class SCREAMING_SNAKE_CASE (MutableMapping[KEY, VAL] ): def __init__( self : Tuple , a : int = 8 , a : float = 0.75 )-> None: """simple docstring""" lowercase__ = initial_block_size lowercase__ = [None] * initial_block_size assert 0.0 < capacity_factor < 1.0 lowercase__ = capacity_factor lowercase__ = 0 def SCREAMING_SNAKE_CASE_ ( self : Any , a : KEY )-> int: """simple docstring""" return hash(a ) % len(self._buckets ) def SCREAMING_SNAKE_CASE_ ( self : Optional[Any] , a : int )-> int: """simple docstring""" return (ind + 1) % len(self._buckets ) def SCREAMING_SNAKE_CASE_ ( self : Any , a : int , a : KEY , a : VAL )-> bool: """simple docstring""" lowercase__ = self._buckets[ind] if not stored: lowercase__ = _Item(a , a ) self._len += 1 return True elif stored.key == key: lowercase__ = _Item(a , a ) return True else: return False def SCREAMING_SNAKE_CASE_ ( self : str )-> bool: """simple docstring""" lowercase__ = len(self._buckets ) * self._capacity_factor return len(self ) >= int(a ) def SCREAMING_SNAKE_CASE_ ( self : Tuple )-> bool: """simple docstring""" if len(self._buckets ) <= self._initial_block_size: return False lowercase__ = len(self._buckets ) * self._capacity_factor / 2 return len(self ) < limit def SCREAMING_SNAKE_CASE_ ( self : List[str] , a : int )-> None: """simple docstring""" lowercase__ = self._buckets lowercase__ = [None] * new_size lowercase__ = 0 for item in old_buckets: if item: self._add_item(item.key , item.val ) def SCREAMING_SNAKE_CASE_ ( self : Optional[int] )-> None: """simple docstring""" self._resize(len(self._buckets ) * 2 ) def SCREAMING_SNAKE_CASE_ ( self : Optional[int] )-> None: """simple docstring""" self._resize(len(self._buckets ) // 2 ) def SCREAMING_SNAKE_CASE_ ( self : Any , a : KEY )-> Iterator[int]: """simple docstring""" lowercase__ = self._get_bucket_index(a ) for _ in range(len(self._buckets ) ): yield ind lowercase__ = self._get_next_ind(a ) def SCREAMING_SNAKE_CASE_ ( self : Tuple , a : KEY , a : VAL )-> None: """simple docstring""" for ind in self._iterate_buckets(a ): if self._try_set(a , a , a ): break def __setitem__( self : List[Any] , a : KEY , a : VAL )-> None: """simple docstring""" if self._is_full(): self._size_up() self._add_item(a , a ) def __delitem__( self : str , a : KEY )-> None: """simple docstring""" for ind in self._iterate_buckets(a ): lowercase__ = self._buckets[ind] if item is None: raise KeyError(a ) if item is _deleted: continue if item.key == key: lowercase__ = _deleted self._len -= 1 break if self._is_sparse(): self._size_down() def __getitem__( self : List[str] , a : KEY )-> VAL: """simple docstring""" for ind in self._iterate_buckets(a ): lowercase__ = self._buckets[ind] if item is None: break if item is _deleted: continue if item.key == key: return item.val raise KeyError(a ) def __len__( self : Tuple )-> int: """simple docstring""" return self._len def __iter__( self : int )-> Iterator[KEY]: """simple docstring""" yield from (item.key for item in self._buckets if item) def __repr__( self : Union[str, Any] )-> str: """simple docstring""" lowercase__ = ' ,'.join( f"""{item.key}: {item.val}""" for item in self._buckets if item ) return f"""HashMap({val_string})"""

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0

'''simple docstring''' import argparse import json from typing import List from ltp import LTP from transformers.models.bert.tokenization_bert import BertTokenizer def lowercase__( __UpperCamelCase: Tuple ): """simple docstring""" if ( (cp >= 0x4_e_0_0 and cp <= 0x9_f_f_f) or (cp >= 0x3_4_0_0 and cp <= 0x4_d_b_f) # or (cp >= 0x2_0_0_0_0 and cp <= 0x2_a_6_d_f) # or (cp >= 0x2_a_7_0_0 and cp <= 0x2_b_7_3_f) # or (cp >= 0x2_b_7_4_0 and cp <= 0x2_b_8_1_f) # or (cp >= 0x2_b_8_2_0 and cp <= 0x2_c_e_a_f) # or (cp >= 0xf_9_0_0 and cp <= 0xf_a_f_f) or (cp >= 0x2_f_8_0_0 and cp <= 0x2_f_a_1_f) # ): # return True return False def lowercase__( __UpperCamelCase: str ): """simple docstring""" for char in word: SCREAMING_SNAKE_CASE : Union[str, Any] = ord(__UpperCamelCase ) if not _is_chinese_char(__UpperCamelCase ): return 0 return 1 def lowercase__( __UpperCamelCase: List[str] ): """simple docstring""" SCREAMING_SNAKE_CASE : List[str] = set() for token in tokens: SCREAMING_SNAKE_CASE : Dict = len(__UpperCamelCase ) > 1 and is_chinese(__UpperCamelCase ) if chinese_word: word_set.add(__UpperCamelCase ) SCREAMING_SNAKE_CASE : str = list(__UpperCamelCase ) return word_list def lowercase__( __UpperCamelCase: List[str] ,__UpperCamelCase: set() ): """simple docstring""" if not chinese_word_set: return bert_tokens SCREAMING_SNAKE_CASE : Dict = max([len(__UpperCamelCase ) for w in chinese_word_set] ) SCREAMING_SNAKE_CASE : Any = bert_tokens SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE : Optional[Any] = 0, len(__UpperCamelCase ) while start < end: SCREAMING_SNAKE_CASE : int = True if is_chinese(bert_word[start] ): SCREAMING_SNAKE_CASE : Any = min(end - start ,__UpperCamelCase ) for i in range(__UpperCamelCase ,1 ,-1 ): SCREAMING_SNAKE_CASE : Tuple = ''.join(bert_word[start : start + i] ) if whole_word in chinese_word_set: for j in range(start + 1 ,start + i ): SCREAMING_SNAKE_CASE : Union[str, Any] = '##' + bert_word[j] SCREAMING_SNAKE_CASE : Optional[int] = start + i SCREAMING_SNAKE_CASE : Tuple = False break if single_word: start += 1 return bert_word def lowercase__( __UpperCamelCase: List[str] ,__UpperCamelCase: LTP ,__UpperCamelCase: BertTokenizer ): """simple docstring""" SCREAMING_SNAKE_CASE : int = [] for i in range(0 ,len(__UpperCamelCase ) ,1_00 ): SCREAMING_SNAKE_CASE : Optional[int] = ltp_tokenizer.pipeline(lines[i : i + 1_00] ,tasks=['cws'] ).cws SCREAMING_SNAKE_CASE : Union[str, Any] = [get_chinese_word(__UpperCamelCase ) for r in res] ltp_res.extend(__UpperCamelCase ) assert len(__UpperCamelCase ) == len(__UpperCamelCase ) SCREAMING_SNAKE_CASE : int = [] for i in range(0 ,len(__UpperCamelCase ) ,1_00 ): SCREAMING_SNAKE_CASE : List[Any] = bert_tokenizer(lines[i : i + 1_00] ,add_special_tokens=__UpperCamelCase ,truncation=__UpperCamelCase ,max_length=5_12 ) bert_res.extend(res['input_ids'] ) assert len(__UpperCamelCase ) == len(__UpperCamelCase ) SCREAMING_SNAKE_CASE : Dict = [] for input_ids, chinese_word in zip(__UpperCamelCase ,__UpperCamelCase ): SCREAMING_SNAKE_CASE : Any = [] for id in input_ids: SCREAMING_SNAKE_CASE : Tuple = bert_tokenizer._convert_id_to_token(__UpperCamelCase ) input_tokens.append(__UpperCamelCase ) SCREAMING_SNAKE_CASE : Dict = add_sub_symbol(__UpperCamelCase ,__UpperCamelCase ) SCREAMING_SNAKE_CASE : List[str] = [] # We only save pos of chinese subwords start with ##, which mean is part of a whole word. for i, token in enumerate(__UpperCamelCase ): if token[:2] == "##": SCREAMING_SNAKE_CASE : str = token[2:] # save chinese tokens' pos if len(__UpperCamelCase ) == 1 and _is_chinese_char(ord(__UpperCamelCase ) ): ref_id.append(__UpperCamelCase ) ref_ids.append(__UpperCamelCase ) assert len(__UpperCamelCase ) == len(__UpperCamelCase ) return ref_ids def lowercase__( __UpperCamelCase: str ): """simple docstring""" with open(args.file_name ,'r' ,encoding='utf-8' ) as f: SCREAMING_SNAKE_CASE : int = f.readlines() SCREAMING_SNAKE_CASE : Tuple = [line.strip() for line in data if len(__UpperCamelCase ) > 0 and not line.isspace()] # avoid delimiter like '\u2029' SCREAMING_SNAKE_CASE : Union[str, Any] = LTP(args.ltp ) # faster in GPU device SCREAMING_SNAKE_CASE : Union[str, Any] = BertTokenizer.from_pretrained(args.bert ) SCREAMING_SNAKE_CASE : List[str] = prepare_ref(__UpperCamelCase ,__UpperCamelCase ,__UpperCamelCase ) with open(args.save_path ,'w' ,encoding='utf-8' ) as f: SCREAMING_SNAKE_CASE : Optional[Any] = [json.dumps(__UpperCamelCase ) + '\n' for ref in ref_ids] f.writelines(__UpperCamelCase ) if __name__ == "__main__": UpperCamelCase_ = argparse.ArgumentParser(description="prepare_chinese_ref") parser.add_argument( "--file_name", required=False, type=str, default="./resources/chinese-demo.txt", help="file need process, same as training data in lm", ) parser.add_argument( "--ltp", required=False, type=str, default="./resources/ltp", help="resources for LTP tokenizer, usually a path", ) parser.add_argument( "--bert", required=False, type=str, default="./resources/robert", help="resources for Bert tokenizer", ) parser.add_argument( "--save_path", required=False, type=str, default="./resources/ref.txt", help="path to save res", ) UpperCamelCase_ = parser.parse_args() main(args)

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'''simple docstring''' import math from enum import Enum from typing import Optional, Union from torch.optim import Optimizer from torch.optim.lr_scheduler import LambdaLR from .utils import logging UpperCamelCase_ = logging.get_logger(__name__) class _a ( SCREAMING_SNAKE_CASE ): '''simple docstring''' A : Union[str, Any] = '''linear''' A : int = '''cosine''' A : Optional[Any] = '''cosine_with_restarts''' A : Optional[int] = '''polynomial''' A : str = '''constant''' A : Union[str, Any] = '''constant_with_warmup''' A : Optional[Any] = '''piecewise_constant''' def lowercase__( __UpperCamelCase: Optimizer ,__UpperCamelCase: int = -1 ): """simple docstring""" return LambdaLR(__UpperCamelCase ,lambda __UpperCamelCase : 1 ,last_epoch=__UpperCamelCase ) def lowercase__( __UpperCamelCase: Optimizer ,__UpperCamelCase: int ,__UpperCamelCase: int = -1 ): """simple docstring""" def lr_lambda(__UpperCamelCase: int ): if current_step < num_warmup_steps: return float(__UpperCamelCase ) / float(max(1.0 ,__UpperCamelCase ) ) return 1.0 return LambdaLR(__UpperCamelCase ,__UpperCamelCase ,last_epoch=__UpperCamelCase ) def lowercase__( __UpperCamelCase: Optimizer ,__UpperCamelCase: str ,__UpperCamelCase: int = -1 ): """simple docstring""" SCREAMING_SNAKE_CASE : Dict = {} SCREAMING_SNAKE_CASE : Optional[Any] = step_rules.split(',' ) for rule_str in rule_list[:-1]: SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE : Optional[int] = rule_str.split(':' ) SCREAMING_SNAKE_CASE : int = int(__UpperCamelCase ) SCREAMING_SNAKE_CASE : Any = float(__UpperCamelCase ) SCREAMING_SNAKE_CASE : List[str] = value SCREAMING_SNAKE_CASE : Any = float(rule_list[-1] ) def create_rules_function(__UpperCamelCase: Union[str, Any] ,__UpperCamelCase: Optional[Any] ): def rule_func(__UpperCamelCase: int ) -> float: SCREAMING_SNAKE_CASE : Union[str, Any] = sorted(rules_dict.keys() ) for i, sorted_step in enumerate(__UpperCamelCase ): if steps < sorted_step: return rules_dict[sorted_steps[i]] return last_lr_multiple return rule_func SCREAMING_SNAKE_CASE : Any = create_rules_function(__UpperCamelCase ,__UpperCamelCase ) return LambdaLR(__UpperCamelCase ,__UpperCamelCase ,last_epoch=__UpperCamelCase ) def lowercase__( __UpperCamelCase: int ,__UpperCamelCase: List[Any] ,__UpperCamelCase: Dict ,__UpperCamelCase: int=-1 ): """simple docstring""" def lr_lambda(__UpperCamelCase: int ): if current_step < num_warmup_steps: return float(__UpperCamelCase ) / float(max(1 ,__UpperCamelCase ) ) return max( 0.0 ,float(num_training_steps - current_step ) / float(max(1 ,num_training_steps - num_warmup_steps ) ) ) return LambdaLR(__UpperCamelCase ,__UpperCamelCase ,__UpperCamelCase ) def lowercase__( __UpperCamelCase: Optimizer ,__UpperCamelCase: int ,__UpperCamelCase: int ,__UpperCamelCase: float = 0.5 ,__UpperCamelCase: int = -1 ): """simple docstring""" def lr_lambda(__UpperCamelCase: Any ): if current_step < num_warmup_steps: return float(__UpperCamelCase ) / float(max(1 ,__UpperCamelCase ) ) SCREAMING_SNAKE_CASE : str = float(current_step - num_warmup_steps ) / float(max(1 ,num_training_steps - num_warmup_steps ) ) return max(0.0 ,0.5 * (1.0 + math.cos(math.pi * float(__UpperCamelCase ) * 2.0 * progress )) ) return LambdaLR(__UpperCamelCase ,__UpperCamelCase ,__UpperCamelCase ) def lowercase__( __UpperCamelCase: Optimizer ,__UpperCamelCase: int ,__UpperCamelCase: int ,__UpperCamelCase: int = 1 ,__UpperCamelCase: int = -1 ): """simple docstring""" def lr_lambda(__UpperCamelCase: Dict ): if current_step < num_warmup_steps: return float(__UpperCamelCase ) / float(max(1 ,__UpperCamelCase ) ) SCREAMING_SNAKE_CASE : int = float(current_step - num_warmup_steps ) / float(max(1 ,num_training_steps - num_warmup_steps ) ) if progress >= 1.0: return 0.0 return max(0.0 ,0.5 * (1.0 + math.cos(math.pi * ((float(__UpperCamelCase ) * progress) % 1.0) )) ) return LambdaLR(__UpperCamelCase ,__UpperCamelCase ,__UpperCamelCase ) def lowercase__( __UpperCamelCase: Optional[int] ,__UpperCamelCase: Any ,__UpperCamelCase: Optional[int] ,__UpperCamelCase: Optional[Any]=1e-7 ,__UpperCamelCase: Dict=1.0 ,__UpperCamelCase: Optional[Any]=-1 ): """simple docstring""" SCREAMING_SNAKE_CASE : Dict = optimizer.defaults['lr'] if not (lr_init > lr_end): raise ValueError(f"lr_end ({lr_end}) must be be smaller than initial lr ({lr_init})" ) def lr_lambda(__UpperCamelCase: int ): if current_step < num_warmup_steps: return float(__UpperCamelCase ) / float(max(1 ,__UpperCamelCase ) ) elif current_step > num_training_steps: return lr_end / lr_init # as LambdaLR multiplies by lr_init else: SCREAMING_SNAKE_CASE : List[str] = lr_init - lr_end SCREAMING_SNAKE_CASE : Optional[Any] = num_training_steps - num_warmup_steps SCREAMING_SNAKE_CASE : Union[str, Any] = 1 - (current_step - num_warmup_steps) / decay_steps SCREAMING_SNAKE_CASE : str = lr_range * pct_remaining**power + lr_end return decay / lr_init # as LambdaLR multiplies by lr_init return LambdaLR(__UpperCamelCase ,__UpperCamelCase ,__UpperCamelCase ) UpperCamelCase_ = { SchedulerType.LINEAR: get_linear_schedule_with_warmup, SchedulerType.COSINE: get_cosine_schedule_with_warmup, SchedulerType.COSINE_WITH_RESTARTS: get_cosine_with_hard_restarts_schedule_with_warmup, SchedulerType.POLYNOMIAL: get_polynomial_decay_schedule_with_warmup, SchedulerType.CONSTANT: get_constant_schedule, SchedulerType.CONSTANT_WITH_WARMUP: get_constant_schedule_with_warmup, SchedulerType.PIECEWISE_CONSTANT: get_piecewise_constant_schedule, } def lowercase__( __UpperCamelCase: Union[str, SchedulerType] ,__UpperCamelCase: Optimizer ,__UpperCamelCase: Optional[str] = None ,__UpperCamelCase: Optional[int] = None ,__UpperCamelCase: Optional[int] = None ,__UpperCamelCase: int = 1 ,__UpperCamelCase: float = 1.0 ,__UpperCamelCase: int = -1 ,): """simple docstring""" SCREAMING_SNAKE_CASE : Union[str, Any] = SchedulerType(__UpperCamelCase ) SCREAMING_SNAKE_CASE : str = TYPE_TO_SCHEDULER_FUNCTION[name] if name == SchedulerType.CONSTANT: return schedule_func(__UpperCamelCase ,last_epoch=__UpperCamelCase ) if name == SchedulerType.PIECEWISE_CONSTANT: return schedule_func(__UpperCamelCase ,step_rules=__UpperCamelCase ,last_epoch=__UpperCamelCase ) # All other schedulers require `num_warmup_steps` if num_warmup_steps is None: raise ValueError(f"{name} requires `num_warmup_steps`, please provide that argument." ) if name == SchedulerType.CONSTANT_WITH_WARMUP: return schedule_func(__UpperCamelCase ,num_warmup_steps=__UpperCamelCase ,last_epoch=__UpperCamelCase ) # All other schedulers require `num_training_steps` if num_training_steps is None: raise ValueError(f"{name} requires `num_training_steps`, please provide that argument." ) if name == SchedulerType.COSINE_WITH_RESTARTS: return schedule_func( __UpperCamelCase ,num_warmup_steps=__UpperCamelCase ,num_training_steps=__UpperCamelCase ,num_cycles=__UpperCamelCase ,last_epoch=__UpperCamelCase ,) if name == SchedulerType.POLYNOMIAL: return schedule_func( __UpperCamelCase ,num_warmup_steps=__UpperCamelCase ,num_training_steps=__UpperCamelCase ,power=__UpperCamelCase ,last_epoch=__UpperCamelCase ,) return schedule_func( __UpperCamelCase ,num_warmup_steps=__UpperCamelCase ,num_training_steps=__UpperCamelCase ,last_epoch=__UpperCamelCase )

251

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"""simple docstring""" from sklearn.metrics import fa_score, matthews_corrcoef import datasets from .record_evaluation import evaluate as evaluate_record __A : List[Any] = "\\n@article{wang2019superglue,\n title={SuperGLUE: A Stickier Benchmark for General-Purpose Language Understanding Systems},\n author={Wang, Alex and Pruksachatkun, Yada and Nangia, Nikita and Singh, Amanpreet and Michael, Julian and Hill, Felix and Levy, Omer and Bowman, Samuel R},\n journal={arXiv preprint arXiv:1905.00537},\n year={2019}\n}\n" __A : Union[str, Any] = "\\nSuperGLUE (https://super.gluebenchmark.com/) is a new benchmark styled after\nGLUE with a new set of more difficult language understanding tasks, improved\nresources, and a new public leaderboard.\n" __A : Optional[Any] = "\nCompute SuperGLUE evaluation metric associated to each SuperGLUE dataset.\nArgs:\n predictions: list of predictions to score. Depending on the SuperGlUE subset:\n - for 'record': list of question-answer dictionaries with the following keys:\n - 'idx': index of the question as specified by the dataset\n - 'prediction_text': the predicted answer text\n - for 'multirc': list of question-answer dictionaries with the following keys:\n - 'idx': index of the question-answer pair as specified by the dataset\n - 'prediction': the predicted answer label\n - otherwise: list of predicted labels\n references: list of reference labels. Depending on the SuperGLUE subset:\n - for 'record': list of question-answers dictionaries with the following keys:\n - 'idx': index of the question as specified by the dataset\n - 'answers': list of possible answers\n - otherwise: list of reference labels\nReturns: depending on the SuperGLUE subset:\n - for 'record':\n - 'exact_match': Exact match between answer and gold answer\n - 'f1': F1 score\n - for 'multirc':\n - 'exact_match': Exact match between answer and gold answer\n - 'f1_m': Per-question macro-F1 score\n - 'f1_a': Average F1 score over all answers\n - for 'axb':\n 'matthews_correlation': Matthew Correlation\n - for 'cb':\n - 'accuracy': Accuracy\n - 'f1': F1 score\n - for all others:\n - 'accuracy': Accuracy\nExamples:\n\n >>> super_glue_metric = datasets.load_metric('super_glue', 'copa') # any of [\"copa\", \"rte\", \"wic\", \"wsc\", \"wsc.fixed\", \"boolq\", \"axg\"]\n >>> predictions = [0, 1]\n >>> references = [0, 1]\n >>> results = super_glue_metric.compute(predictions=predictions, references=references)\n >>> print(results)\n {'accuracy': 1.0}\n\n >>> super_glue_metric = datasets.load_metric('super_glue', 'cb')\n >>> predictions = [0, 1]\n >>> references = [0, 1]\n >>> results = super_glue_metric.compute(predictions=predictions, references=references)\n >>> print(results)\n {'accuracy': 1.0, 'f1': 1.0}\n\n >>> super_glue_metric = datasets.load_metric('super_glue', 'record')\n >>> predictions = [{'idx': {'passage': 0, 'query': 0}, 'prediction_text': 'answer'}]\n >>> references = [{'idx': {'passage': 0, 'query': 0}, 'answers': ['answer', 'another_answer']}]\n >>> results = super_glue_metric.compute(predictions=predictions, references=references)\n >>> print(results)\n {'exact_match': 1.0, 'f1': 1.0}\n\n >>> super_glue_metric = datasets.load_metric('super_glue', 'multirc')\n >>> predictions = [{'idx': {'answer': 0, 'paragraph': 0, 'question': 0}, 'prediction': 0}, {'idx': {'answer': 1, 'paragraph': 2, 'question': 3}, 'prediction': 1}]\n >>> references = [0, 1]\n >>> results = super_glue_metric.compute(predictions=predictions, references=references)\n >>> print(results)\n {'exact_match': 1.0, 'f1_m': 1.0, 'f1_a': 1.0}\n\n >>> super_glue_metric = datasets.load_metric('super_glue', 'axb')\n >>> references = [0, 1]\n >>> predictions = [0, 1]\n >>> results = super_glue_metric.compute(predictions=predictions, references=references)\n >>> print(results)\n {'matthews_correlation': 1.0}\n" def lowercase ( _SCREAMING_SNAKE_CASE : Dict , _SCREAMING_SNAKE_CASE : Optional[int] ) -> Tuple: '''simple docstring''' return float((preds == labels).mean() ) def lowercase ( _SCREAMING_SNAKE_CASE : Union[str, Any] , _SCREAMING_SNAKE_CASE : Union[str, Any] , _SCREAMING_SNAKE_CASE : List[Any]="binary" ) -> Optional[int]: '''simple docstring''' _UpperCAmelCase = simple_accuracy(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) _UpperCAmelCase = float(fa_score(y_true=_SCREAMING_SNAKE_CASE , y_pred=_SCREAMING_SNAKE_CASE , average=_SCREAMING_SNAKE_CASE ) ) return { "accuracy": acc, "f1": fa, } def lowercase ( _SCREAMING_SNAKE_CASE : str , _SCREAMING_SNAKE_CASE : Tuple ) -> Dict: '''simple docstring''' _UpperCAmelCase = {} for id_pred, label in zip(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ): _UpperCAmelCase = f'{id_pred["idx"]["paragraph"]}-{id_pred["idx"]["question"]}' _UpperCAmelCase = id_pred['''prediction'''] if question_id in question_map: question_map[question_id].append((pred, label) ) else: _UpperCAmelCase = [(pred, label)] _UpperCAmelCase , _UpperCAmelCase = [], [] for question, preds_labels in question_map.items(): _UpperCAmelCase , _UpperCAmelCase = zip(*_SCREAMING_SNAKE_CASE ) _UpperCAmelCase = fa_score(y_true=_SCREAMING_SNAKE_CASE , y_pred=_SCREAMING_SNAKE_CASE , average='''macro''' ) fas.append(_SCREAMING_SNAKE_CASE ) _UpperCAmelCase = int(sum(pred == label for pred, label in preds_labels ) == len(_SCREAMING_SNAKE_CASE ) ) ems.append(_SCREAMING_SNAKE_CASE ) _UpperCAmelCase = float(sum(_SCREAMING_SNAKE_CASE ) / len(_SCREAMING_SNAKE_CASE ) ) _UpperCAmelCase = sum(_SCREAMING_SNAKE_CASE ) / len(_SCREAMING_SNAKE_CASE ) _UpperCAmelCase = float(fa_score(y_true=_SCREAMING_SNAKE_CASE , y_pred=[id_pred['''prediction'''] for id_pred in ids_preds] ) ) return {"exact_match": em, "f1_m": fa_m, "f1_a": fa_a} @datasets.utils.file_utils.add_start_docstrings(_DESCRIPTION , _KWARGS_DESCRIPTION) class _a ( datasets.Metric): """simple docstring""" def lowercase__ ( self : Optional[int] )->Tuple: if self.config_name not in [ "boolq", "cb", "copa", "multirc", "record", "rte", "wic", "wsc", "wsc.fixed", "axb", "axg", ]: raise KeyError( '''You should supply a configuration name selected in ''' '''["boolq", "cb", "copa", "multirc", "record", "rte", "wic", "wsc", "wsc.fixed", "axb", "axg",]''' ) return datasets.MetricInfo( description=_DESCRIPTION , citation=_CITATION , inputs_description=_KWARGS_DESCRIPTION , features=datasets.Features(self._get_feature_types() ) , codebase_urls=[] , reference_urls=[] , format='''numpy''' if not self.config_name == '''record''' and not self.config_name == '''multirc''' else None , ) def lowercase__ ( self : Any )->List[str]: if self.config_name == "record": return { "predictions": { "idx": { "passage": datasets.Value('''int64''' ), "query": datasets.Value('''int64''' ), }, "prediction_text": datasets.Value('''string''' ), }, "references": { "idx": { "passage": datasets.Value('''int64''' ), "query": datasets.Value('''int64''' ), }, "answers": datasets.Sequence(datasets.Value('''string''' ) ), }, } elif self.config_name == "multirc": return { "predictions": { "idx": { "answer": datasets.Value('''int64''' ), "paragraph": datasets.Value('''int64''' ), "question": datasets.Value('''int64''' ), }, "prediction": datasets.Value('''int64''' ), }, "references": datasets.Value('''int64''' ), } else: return { "predictions": datasets.Value('''int64''' ), "references": datasets.Value('''int64''' ), } def lowercase__ ( self : List[Any] , __UpperCamelCase : Dict , __UpperCamelCase : Optional[Any] )->Dict: if self.config_name == "axb": return {"matthews_correlation": matthews_corrcoef(__UpperCamelCase , __UpperCamelCase )} elif self.config_name == "cb": return acc_and_fa(__UpperCamelCase , __UpperCamelCase , fa_avg='''macro''' ) elif self.config_name == "record": _UpperCAmelCase = [ { '''qas''': [ {'''id''': ref['''idx''']['''query'''], '''answers''': [{'''text''': ans} for ans in ref['''answers''']]} for ref in references ] } ] _UpperCAmelCase = {pred['''idx''']['''query''']: pred['''prediction_text'''] for pred in predictions} return evaluate_record(__UpperCamelCase , __UpperCamelCase )[0] elif self.config_name == "multirc": return evaluate_multirc(__UpperCamelCase , __UpperCamelCase ) elif self.config_name in ["copa", "rte", "wic", "wsc", "wsc.fixed", "boolq", "axg"]: return {"accuracy": simple_accuracy(__UpperCamelCase , __UpperCamelCase )} else: raise KeyError( '''You should supply a configuration name selected in ''' '''["boolq", "cb", "copa", "multirc", "record", "rte", "wic", "wsc", "wsc.fixed", "axb", "axg",]''' )

352

"""simple docstring""" def lowercase ( _SCREAMING_SNAKE_CASE : int ): '''simple docstring''' if a < 0: raise ValueError('''Input value must be a positive integer''' ) elif isinstance(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ): raise TypeError('''Input value must be a \'int\' type''' ) return bin(_SCREAMING_SNAKE_CASE ).count('''1''' ) if __name__ == "__main__": import doctest doctest.testmod()

326

0

import torch from diffusers import KDPMaDiscreteScheduler from diffusers.utils import torch_device from .test_schedulers import SchedulerCommonTest class __snake_case ( UpperCAmelCase_ ): __lowerCamelCase : int = (KDPMaDiscreteScheduler,) __lowerCamelCase : Optional[Any] = 10 def UpperCAmelCase__ ( self , **snake_case__ ) -> Tuple: '''simple docstring''' UpperCAmelCase : Tuple ={ "num_train_timesteps": 1100, "beta_start": 0.0001, "beta_end": 0.02, "beta_schedule": "linear", } config.update(**lowerCAmelCase__ ) return config def UpperCAmelCase__ ( self ) -> Tuple: '''simple docstring''' for timesteps in [10, 50, 100, 1000]: self.check_over_configs(num_train_timesteps=lowerCAmelCase__ ) def UpperCAmelCase__ ( self ) -> Dict: '''simple docstring''' for beta_start, beta_end in zip([0.0_0001, 0.0001, 0.001] , [0.0002, 0.002, 0.02] ): self.check_over_configs(beta_start=lowerCAmelCase__ , beta_end=lowerCAmelCase__ ) def UpperCAmelCase__ ( self ) -> Union[str, Any]: '''simple docstring''' for schedule in ["linear", "scaled_linear"]: self.check_over_configs(beta_schedule=lowerCAmelCase__ ) def UpperCAmelCase__ ( self ) -> str: '''simple docstring''' for prediction_type in ["epsilon", "v_prediction"]: self.check_over_configs(prediction_type=lowerCAmelCase__ ) def UpperCAmelCase__ ( self ) -> Optional[int]: '''simple docstring''' UpperCAmelCase : int =self.scheduler_classes[0] UpperCAmelCase : Optional[int] =self.get_scheduler_config(prediction_type='''v_prediction''' ) UpperCAmelCase : Optional[int] =scheduler_class(**lowerCAmelCase__ ) scheduler.set_timesteps(self.num_inference_steps ) UpperCAmelCase : Any =self.dummy_model() UpperCAmelCase : int =self.dummy_sample_deter * scheduler.init_noise_sigma UpperCAmelCase : Optional[int] =sample.to(lowerCAmelCase__ ) for i, t in enumerate(scheduler.timesteps ): UpperCAmelCase : Tuple =scheduler.scale_model_input(lowerCAmelCase__ , lowerCAmelCase__ ) UpperCAmelCase : Union[str, Any] =model(lowerCAmelCase__ , lowerCAmelCase__ ) UpperCAmelCase : Optional[Any] =scheduler.step(lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ ) UpperCAmelCase : Tuple =output.prev_sample UpperCAmelCase : Tuple =torch.sum(torch.abs(lowerCAmelCase__ ) ) UpperCAmelCase : Union[str, Any] =torch.mean(torch.abs(lowerCAmelCase__ ) ) if torch_device in ["cpu", "mps"]: assert abs(result_sum.item() - 4.69_34e-07 ) < 1e-2 assert abs(result_mean.item() - 6.11_12e-10 ) < 1e-3 else: # CUDA assert abs(result_sum.item() - 4.6_93_42_86_50_17_09_72e-07 ) < 1e-2 assert abs(result_mean.item() - 0.0002 ) < 1e-3 def UpperCAmelCase__ ( self ) -> int: '''simple docstring''' if torch_device == "mps": return UpperCAmelCase : List[str] =self.scheduler_classes[0] UpperCAmelCase : Dict =self.get_scheduler_config() UpperCAmelCase : Any =scheduler_class(**lowerCAmelCase__ ) scheduler.set_timesteps(self.num_inference_steps ) UpperCAmelCase : Dict =self.dummy_model() UpperCAmelCase : str =self.dummy_sample_deter * scheduler.init_noise_sigma UpperCAmelCase : Any =sample.to(lowerCAmelCase__ ) for i, t in enumerate(scheduler.timesteps ): UpperCAmelCase : Union[str, Any] =scheduler.scale_model_input(lowerCAmelCase__ , lowerCAmelCase__ ) UpperCAmelCase : Tuple =model(lowerCAmelCase__ , lowerCAmelCase__ ) UpperCAmelCase : Optional[Any] =scheduler.step(lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ ) UpperCAmelCase : Tuple =output.prev_sample UpperCAmelCase : List[Any] =torch.sum(torch.abs(lowerCAmelCase__ ) ) UpperCAmelCase : str =torch.mean(torch.abs(lowerCAmelCase__ ) ) if torch_device in ["cpu", "mps"]: assert abs(result_sum.item() - 20.4125 ) < 1e-2 assert abs(result_mean.item() - 0.0266 ) < 1e-3 else: # CUDA assert abs(result_sum.item() - 20.4125 ) < 1e-2 assert abs(result_mean.item() - 0.0266 ) < 1e-3 def UpperCAmelCase__ ( self ) -> Dict: '''simple docstring''' if torch_device == "mps": return UpperCAmelCase : List[str] =self.scheduler_classes[0] UpperCAmelCase : Optional[Any] =self.get_scheduler_config() UpperCAmelCase : List[Any] =scheduler_class(**lowerCAmelCase__ ) scheduler.set_timesteps(self.num_inference_steps , device=lowerCAmelCase__ ) UpperCAmelCase : Optional[int] =self.dummy_model() UpperCAmelCase : Dict =self.dummy_sample_deter.to(lowerCAmelCase__ ) * scheduler.init_noise_sigma for t in scheduler.timesteps: UpperCAmelCase : Tuple =scheduler.scale_model_input(lowerCAmelCase__ , lowerCAmelCase__ ) UpperCAmelCase : str =model(lowerCAmelCase__ , lowerCAmelCase__ ) UpperCAmelCase : Union[str, Any] =scheduler.step(lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ ) UpperCAmelCase : Any =output.prev_sample UpperCAmelCase : List[Any] =torch.sum(torch.abs(lowerCAmelCase__ ) ) UpperCAmelCase : Dict =torch.mean(torch.abs(lowerCAmelCase__ ) ) if str(lowerCAmelCase__ ).startswith('''cpu''' ): # The following sum varies between 148 and 156 on mps. Why? assert abs(result_sum.item() - 20.4125 ) < 1e-2 assert abs(result_mean.item() - 0.0266 ) < 1e-3 else: # CUDA assert abs(result_sum.item() - 20.4125 ) < 1e-2 assert abs(result_mean.item() - 0.0266 ) < 1e-3

348

import inspect import unittest from transformers import ViTConfig from transformers.testing_utils import ( require_accelerate, require_torch, require_torch_gpu, require_vision, slow, torch_device, ) from transformers.utils import cached_property, is_torch_available, is_vision_available from ...test_configuration_common import ConfigTester from ...test_modeling_common import ModelTesterMixin, floats_tensor, ids_tensor from ...test_pipeline_mixin import PipelineTesterMixin if is_torch_available(): import torch from torch import nn from transformers import ViTForImageClassification, ViTForMaskedImageModeling, ViTModel from transformers.models.vit.modeling_vit import VIT_PRETRAINED_MODEL_ARCHIVE_LIST if is_vision_available(): from PIL import Image from transformers import ViTImageProcessor class __lowercase : """simple docstring""" def __init__( self : Any , lowerCAmelCase__ : Union[str, Any] , lowerCAmelCase__ : Any=13 , lowerCAmelCase__ : Tuple=30 , lowerCAmelCase__ : List[str]=2 , lowerCAmelCase__ : int=3 , lowerCAmelCase__ : Optional[int]=True , lowerCAmelCase__ : List[str]=True , lowerCAmelCase__ : str=32 , lowerCAmelCase__ : Any=5 , lowerCAmelCase__ : str=4 , lowerCAmelCase__ : int=37 , lowerCAmelCase__ : Optional[Any]="gelu" , lowerCAmelCase__ : Optional[int]=0.1 , lowerCAmelCase__ : Dict=0.1 , lowerCAmelCase__ : Tuple=10 , lowerCAmelCase__ : Optional[Any]=0.02 , lowerCAmelCase__ : List[str]=None , lowerCAmelCase__ : Union[str, Any]=2 , ): SCREAMING_SNAKE_CASE_: str = parent SCREAMING_SNAKE_CASE_: Optional[Any] = batch_size SCREAMING_SNAKE_CASE_: str = image_size SCREAMING_SNAKE_CASE_: Tuple = patch_size SCREAMING_SNAKE_CASE_: int = num_channels SCREAMING_SNAKE_CASE_: List[str] = is_training SCREAMING_SNAKE_CASE_: str = use_labels SCREAMING_SNAKE_CASE_: int = hidden_size SCREAMING_SNAKE_CASE_: List[Any] = num_hidden_layers SCREAMING_SNAKE_CASE_: Union[str, Any] = num_attention_heads SCREAMING_SNAKE_CASE_: Any = intermediate_size SCREAMING_SNAKE_CASE_: str = hidden_act SCREAMING_SNAKE_CASE_: str = hidden_dropout_prob SCREAMING_SNAKE_CASE_: List[str] = attention_probs_dropout_prob SCREAMING_SNAKE_CASE_: int = type_sequence_label_size SCREAMING_SNAKE_CASE_: Dict = initializer_range SCREAMING_SNAKE_CASE_: Dict = scope SCREAMING_SNAKE_CASE_: Dict = encoder_stride # in ViT, the seq length equals the number of patches + 1 (we add 1 for the [CLS] token) SCREAMING_SNAKE_CASE_: List[Any] = (image_size // patch_size) ** 2 SCREAMING_SNAKE_CASE_: Dict = num_patches + 1 def _SCREAMING_SNAKE_CASE ( self : Union[str, Any]): SCREAMING_SNAKE_CASE_: Optional[int] = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size]) SCREAMING_SNAKE_CASE_: str = None if self.use_labels: SCREAMING_SNAKE_CASE_: Union[str, Any] = ids_tensor([self.batch_size] , self.type_sequence_label_size) SCREAMING_SNAKE_CASE_: Optional[Any] = self.get_config() return config, pixel_values, labels def _SCREAMING_SNAKE_CASE ( self : Optional[int]): return ViTConfig( image_size=self.image_size , patch_size=self.patch_size , num_channels=self.num_channels , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , is_decoder=lowerCAmelCase__ , initializer_range=self.initializer_range , encoder_stride=self.encoder_stride , ) def _SCREAMING_SNAKE_CASE ( self : Optional[Any] , lowerCAmelCase__ : int , lowerCAmelCase__ : int , lowerCAmelCase__ : Tuple): SCREAMING_SNAKE_CASE_: Union[str, Any] = ViTModel(config=lowerCAmelCase__) model.to(lowerCAmelCase__) model.eval() SCREAMING_SNAKE_CASE_: Optional[int] = model(lowerCAmelCase__) self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size)) def _SCREAMING_SNAKE_CASE ( self : Union[str, Any] , lowerCAmelCase__ : Optional[Any] , lowerCAmelCase__ : Tuple , lowerCAmelCase__ : Dict): SCREAMING_SNAKE_CASE_: Optional[int] = ViTForMaskedImageModeling(config=lowerCAmelCase__) model.to(lowerCAmelCase__) model.eval() SCREAMING_SNAKE_CASE_: str = model(lowerCAmelCase__) self.parent.assertEqual( result.reconstruction.shape , (self.batch_size, self.num_channels, self.image_size, self.image_size)) # test greyscale images SCREAMING_SNAKE_CASE_: Dict = 1 SCREAMING_SNAKE_CASE_: List[str] = ViTForMaskedImageModeling(lowerCAmelCase__) model.to(lowerCAmelCase__) model.eval() SCREAMING_SNAKE_CASE_: List[str] = floats_tensor([self.batch_size, 1, self.image_size, self.image_size]) SCREAMING_SNAKE_CASE_: str = model(lowerCAmelCase__) self.parent.assertEqual(result.reconstruction.shape , (self.batch_size, 1, self.image_size, self.image_size)) def _SCREAMING_SNAKE_CASE ( self : Any , lowerCAmelCase__ : List[str] , lowerCAmelCase__ : List[str] , lowerCAmelCase__ : Union[str, Any]): SCREAMING_SNAKE_CASE_: Tuple = self.type_sequence_label_size SCREAMING_SNAKE_CASE_: List[str] = ViTForImageClassification(lowerCAmelCase__) model.to(lowerCAmelCase__) model.eval() SCREAMING_SNAKE_CASE_: Any = model(lowerCAmelCase__ , labels=lowerCAmelCase__) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size)) # test greyscale images SCREAMING_SNAKE_CASE_: Union[str, Any] = 1 SCREAMING_SNAKE_CASE_: List[str] = ViTForImageClassification(lowerCAmelCase__) model.to(lowerCAmelCase__) model.eval() SCREAMING_SNAKE_CASE_: Union[str, Any] = floats_tensor([self.batch_size, 1, self.image_size, self.image_size]) SCREAMING_SNAKE_CASE_: Dict = model(lowerCAmelCase__) self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size)) def _SCREAMING_SNAKE_CASE ( self : List[Any]): SCREAMING_SNAKE_CASE_: Union[str, Any] = self.prepare_config_and_inputs() ( ( SCREAMING_SNAKE_CASE_ ) , ( SCREAMING_SNAKE_CASE_ ) , ( SCREAMING_SNAKE_CASE_ ) , ): List[str] = config_and_inputs SCREAMING_SNAKE_CASE_: Optional[Any] = {"pixel_values": pixel_values} return config, inputs_dict @require_torch class __lowercase ( UpperCAmelCase_ , UpperCAmelCase_ , unittest.TestCase ): """simple docstring""" _UpperCAmelCase : List[Any] = ( ( ViTModel, ViTForImageClassification, ViTForMaskedImageModeling, ) if is_torch_available() else () ) _UpperCAmelCase : Tuple = ( {'''feature-extraction''': ViTModel, '''image-classification''': ViTForImageClassification} if is_torch_available() else {} ) _UpperCAmelCase : List[str] = True _UpperCAmelCase : List[Any] = False _UpperCAmelCase : Optional[Any] = False _UpperCAmelCase : Tuple = False def _SCREAMING_SNAKE_CASE ( self : Optional[int]): SCREAMING_SNAKE_CASE_: List[str] = ViTModelTester(self) SCREAMING_SNAKE_CASE_: Union[str, Any] = ConfigTester(self , config_class=lowerCAmelCase__ , has_text_modality=lowerCAmelCase__ , hidden_size=37) def _SCREAMING_SNAKE_CASE ( self : Any): self.config_tester.run_common_tests() @unittest.skip(reason="ViT does not use inputs_embeds") def _SCREAMING_SNAKE_CASE ( self : str): pass def _SCREAMING_SNAKE_CASE ( self : str): SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_: Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: SCREAMING_SNAKE_CASE_: Dict = model_class(lowerCAmelCase__) self.assertIsInstance(model.get_input_embeddings() , (nn.Module)) SCREAMING_SNAKE_CASE_: List[Any] = model.get_output_embeddings() self.assertTrue(x is None or isinstance(lowerCAmelCase__ , nn.Linear)) def _SCREAMING_SNAKE_CASE ( self : Optional[int]): SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_: Optional[Any] = self.model_tester.prepare_config_and_inputs_for_common() for model_class in self.all_model_classes: SCREAMING_SNAKE_CASE_: List[Any] = model_class(lowerCAmelCase__) SCREAMING_SNAKE_CASE_: int = inspect.signature(model.forward) # signature.parameters is an OrderedDict => so arg_names order is deterministic SCREAMING_SNAKE_CASE_: Optional[Any] = [*signature.parameters.keys()] SCREAMING_SNAKE_CASE_: Optional[int] = ["pixel_values"] self.assertListEqual(arg_names[:1] , lowerCAmelCase__) def _SCREAMING_SNAKE_CASE ( self : Union[str, Any]): SCREAMING_SNAKE_CASE_: Tuple = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_model(*lowerCAmelCase__) def _SCREAMING_SNAKE_CASE ( self : Optional[Any]): SCREAMING_SNAKE_CASE_: Union[str, Any] = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_masked_image_modeling(*lowerCAmelCase__) def _SCREAMING_SNAKE_CASE ( self : List[str]): SCREAMING_SNAKE_CASE_: int = self.model_tester.prepare_config_and_inputs() self.model_tester.create_and_check_for_image_classification(*lowerCAmelCase__) @slow def _SCREAMING_SNAKE_CASE ( self : int): for model_name in VIT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: SCREAMING_SNAKE_CASE_: Union[str, Any] = ViTModel.from_pretrained(lowerCAmelCase__) self.assertIsNotNone(lowerCAmelCase__) def A_ ( ): SCREAMING_SNAKE_CASE_: List[Any] = Image.open("./tests/fixtures/tests_samples/COCO/000000039769.png" ) return image @require_torch @require_vision class __lowercase ( unittest.TestCase ): """simple docstring""" @cached_property def _SCREAMING_SNAKE_CASE ( self : int): return ViTImageProcessor.from_pretrained("google/vit-base-patch16-224") if is_vision_available() else None @slow def _SCREAMING_SNAKE_CASE ( self : Union[str, Any]): SCREAMING_SNAKE_CASE_: int = ViTForImageClassification.from_pretrained("google/vit-base-patch16-224").to(lowerCAmelCase__) SCREAMING_SNAKE_CASE_: Optional[Any] = self.default_image_processor SCREAMING_SNAKE_CASE_: str = prepare_img() SCREAMING_SNAKE_CASE_: Optional[Any] = image_processor(images=lowerCAmelCase__ , return_tensors="pt").to(lowerCAmelCase__) # forward pass with torch.no_grad(): SCREAMING_SNAKE_CASE_: Optional[int] = model(**lowerCAmelCase__) # verify the logits SCREAMING_SNAKE_CASE_: Any = torch.Size((1, 1000)) self.assertEqual(outputs.logits.shape , lowerCAmelCase__) SCREAMING_SNAKE_CASE_: List[Any] = torch.tensor([-0.2744, 0.8215, -0.0836]).to(lowerCAmelCase__) self.assertTrue(torch.allclose(outputs.logits[0, :3] , lowerCAmelCase__ , atol=1E-4)) @slow def _SCREAMING_SNAKE_CASE ( self : List[Any]): # ViT models have an `interpolate_pos_encoding` argument in their forward method, # allowing to interpolate the pre-trained position embeddings in order to use # the model on higher resolutions. The DINO model by Facebook AI leverages this # to visualize self-attention on higher resolution images. SCREAMING_SNAKE_CASE_: str = ViTModel.from_pretrained("facebook/dino-vits8").to(lowerCAmelCase__) SCREAMING_SNAKE_CASE_: List[Any] = ViTImageProcessor.from_pretrained("facebook/dino-vits8" , size=480) SCREAMING_SNAKE_CASE_: List[Any] = prepare_img() SCREAMING_SNAKE_CASE_: List[Any] = image_processor(images=lowerCAmelCase__ , return_tensors="pt") SCREAMING_SNAKE_CASE_: int = inputs.pixel_values.to(lowerCAmelCase__) # forward pass with torch.no_grad(): SCREAMING_SNAKE_CASE_: Optional[int] = model(lowerCAmelCase__ , interpolate_pos_encoding=lowerCAmelCase__) # verify the logits SCREAMING_SNAKE_CASE_: Tuple = torch.Size((1, 3601, 384)) self.assertEqual(outputs.last_hidden_state.shape , lowerCAmelCase__) SCREAMING_SNAKE_CASE_: Union[str, Any] = torch.tensor( [[4.2340, 4.3906, -6.6692], [4.5463, 1.8928, -6.7257], [4.4429, 0.8496, -5.8585]]).to(lowerCAmelCase__) self.assertTrue(torch.allclose(outputs.last_hidden_state[0, :3, :3] , lowerCAmelCase__ , atol=1E-4)) @slow @require_accelerate @require_torch_gpu def _SCREAMING_SNAKE_CASE ( self : int): SCREAMING_SNAKE_CASE_: Dict = ViTModel.from_pretrained("facebook/dino-vits8" , torch_dtype=torch.floataa , device_map="auto") SCREAMING_SNAKE_CASE_: int = self.default_image_processor SCREAMING_SNAKE_CASE_: Union[str, Any] = prepare_img() SCREAMING_SNAKE_CASE_: Dict = image_processor(images=lowerCAmelCase__ , return_tensors="pt") SCREAMING_SNAKE_CASE_: str = inputs.pixel_values.to(lowerCAmelCase__) # forward pass to make sure inference works in fp16 with torch.no_grad(): SCREAMING_SNAKE_CASE_: str = model(lowerCAmelCase__)

13

0

import json import os import shutil import tempfile import unittest import numpy as np import pytest from transformers import CLIPTokenizer, CLIPTokenizerFast from transformers.models.clip.tokenization_clip import VOCAB_FILES_NAMES from transformers.testing_utils import require_vision from transformers.utils import IMAGE_PROCESSOR_NAME, is_vision_available if is_vision_available(): from PIL import Image from transformers import CLIPImageProcessor, CLIPProcessor @require_vision class __lowerCAmelCase ( unittest.TestCase ): def lowercase_ ( self ) -> Any: '''simple docstring''' __lowerCamelCase = tempfile.mkdtemp() # fmt: off __lowerCamelCase = ['l', 'o', 'w', 'e', 'r', 's', 't', 'i', 'd', 'n', 'lo', 'l</w>', 'w</w>', 'r</w>', 't</w>', 'low</w>', 'er</w>', 'lowest</w>', 'newer</w>', 'wider', '<unk>', '<|startoftext|>', '<|endoftext|>'] # fmt: on __lowerCamelCase = dict(zip(lowerCamelCase__ , range(len(lowerCamelCase__ ) ) ) ) __lowerCamelCase = ['#version: 0.2', 'l o', 'lo w</w>', 'e r</w>', ''] __lowerCamelCase = {'unk_token': '<unk>'} __lowerCamelCase = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['vocab_file'] ) __lowerCamelCase = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['merges_file'] ) with open(self.vocab_file , 'w' , encoding='utf-8' ) as fp: fp.write(json.dumps(lowerCamelCase__ ) + '\n' ) with open(self.merges_file , 'w' , encoding='utf-8' ) as fp: fp.write('\n'.join(lowerCamelCase__ ) ) __lowerCamelCase = { 'do_resize': True, 'size': 20, 'do_center_crop': True, 'crop_size': 18, 'do_normalize': True, 'image_mean': [0.48_14_54_66, 0.4_57_82_75, 0.40_82_10_73], 'image_std': [0.26_86_29_54, 0.26_13_02_58, 0.27_57_77_11], } __lowerCamelCase = os.path.join(self.tmpdirname , lowerCamelCase__ ) with open(self.image_processor_file , 'w' , encoding='utf-8' ) as fp: json.dump(lowerCamelCase__ , lowerCamelCase__ ) def lowercase_ ( self , **lowerCamelCase__ ) -> Tuple: '''simple docstring''' return CLIPTokenizer.from_pretrained(self.tmpdirname , **lowerCamelCase__ ) def lowercase_ ( self , **lowerCamelCase__ ) -> Union[str, Any]: '''simple docstring''' return CLIPTokenizerFast.from_pretrained(self.tmpdirname , **lowerCamelCase__ ) def lowercase_ ( self , **lowerCamelCase__ ) -> Tuple: '''simple docstring''' return CLIPImageProcessor.from_pretrained(self.tmpdirname , **lowerCamelCase__ ) def lowercase_ ( self ) -> int: '''simple docstring''' shutil.rmtree(self.tmpdirname ) def lowercase_ ( self ) -> Tuple: '''simple docstring''' __lowerCamelCase = [np.random.randint(255 , size=(3, 30, 400) , dtype=np.uinta )] __lowerCamelCase = [Image.fromarray(np.moveaxis(lowerCamelCase__ , 0 , -1 ) ) for x in image_inputs] return image_inputs def lowercase_ ( self ) -> int: '''simple docstring''' __lowerCamelCase = self.get_tokenizer() __lowerCamelCase = self.get_rust_tokenizer() __lowerCamelCase = self.get_image_processor() __lowerCamelCase = CLIPProcessor(tokenizer=lowerCamelCase__ , image_processor=lowerCamelCase__ ) processor_slow.save_pretrained(self.tmpdirname ) __lowerCamelCase = CLIPProcessor.from_pretrained(self.tmpdirname , use_fast=lowerCamelCase__ ) __lowerCamelCase = CLIPProcessor(tokenizer=lowerCamelCase__ , image_processor=lowerCamelCase__ ) processor_fast.save_pretrained(self.tmpdirname ) __lowerCamelCase = CLIPProcessor.from_pretrained(self.tmpdirname ) self.assertEqual(processor_slow.tokenizer.get_vocab() , tokenizer_slow.get_vocab() ) self.assertEqual(processor_fast.tokenizer.get_vocab() , tokenizer_fast.get_vocab() ) self.assertEqual(tokenizer_slow.get_vocab() , tokenizer_fast.get_vocab() ) self.assertIsInstance(processor_slow.tokenizer , lowerCamelCase__ ) self.assertIsInstance(processor_fast.tokenizer , lowerCamelCase__ ) self.assertEqual(processor_slow.image_processor.to_json_string() , image_processor.to_json_string() ) self.assertEqual(processor_fast.image_processor.to_json_string() , image_processor.to_json_string() ) self.assertIsInstance(processor_slow.image_processor , lowerCamelCase__ ) self.assertIsInstance(processor_fast.image_processor , lowerCamelCase__ ) def lowercase_ ( self ) -> int: '''simple docstring''' __lowerCamelCase = CLIPProcessor(tokenizer=self.get_tokenizer() , image_processor=self.get_image_processor() ) processor.save_pretrained(self.tmpdirname ) __lowerCamelCase = self.get_tokenizer(bos_token='(BOS)' , eos_token='(EOS)' ) __lowerCamelCase = self.get_image_processor(do_normalize=lowerCamelCase__ , padding_value=1.0 ) __lowerCamelCase = CLIPProcessor.from_pretrained( self.tmpdirname , bos_token='(BOS)' , eos_token='(EOS)' , do_normalize=lowerCamelCase__ , padding_value=1.0 ) self.assertEqual(processor.tokenizer.get_vocab() , tokenizer_add_kwargs.get_vocab() ) self.assertIsInstance(processor.tokenizer , lowerCamelCase__ ) self.assertEqual(processor.image_processor.to_json_string() , image_processor_add_kwargs.to_json_string() ) self.assertIsInstance(processor.image_processor , lowerCamelCase__ ) def lowercase_ ( self ) -> Optional[Any]: '''simple docstring''' __lowerCamelCase = self.get_image_processor() __lowerCamelCase = self.get_tokenizer() __lowerCamelCase = CLIPProcessor(tokenizer=lowerCamelCase__ , image_processor=lowerCamelCase__ ) __lowerCamelCase = self.prepare_image_inputs() __lowerCamelCase = image_processor(lowerCamelCase__ , return_tensors='np' ) __lowerCamelCase = processor(images=lowerCamelCase__ , return_tensors='np' ) for key in input_image_proc.keys(): self.assertAlmostEqual(input_image_proc[key].sum() , input_processor[key].sum() , delta=1e-2 ) def lowercase_ ( self ) -> Any: '''simple docstring''' __lowerCamelCase = self.get_image_processor() __lowerCamelCase = self.get_tokenizer() __lowerCamelCase = CLIPProcessor(tokenizer=lowerCamelCase__ , image_processor=lowerCamelCase__ ) __lowerCamelCase = 'lower newer' __lowerCamelCase = processor(text=lowerCamelCase__ ) __lowerCamelCase = tokenizer(lowerCamelCase__ ) for key in encoded_tok.keys(): self.assertListEqual(encoded_tok[key] , encoded_processor[key] ) def lowercase_ ( self ) -> List[str]: '''simple docstring''' __lowerCamelCase = self.get_image_processor() __lowerCamelCase = self.get_tokenizer() __lowerCamelCase = CLIPProcessor(tokenizer=lowerCamelCase__ , image_processor=lowerCamelCase__ ) __lowerCamelCase = 'lower newer' __lowerCamelCase = self.prepare_image_inputs() __lowerCamelCase = processor(text=lowerCamelCase__ , images=lowerCamelCase__ ) self.assertListEqual(list(inputs.keys() ) , ['input_ids', 'attention_mask', 'pixel_values'] ) # test if it raises when no input is passed with pytest.raises(lowerCamelCase__ ): processor() def lowercase_ ( self ) -> Any: '''simple docstring''' __lowerCamelCase = self.get_image_processor() __lowerCamelCase = self.get_tokenizer() __lowerCamelCase = CLIPProcessor(tokenizer=lowerCamelCase__ , image_processor=lowerCamelCase__ ) __lowerCamelCase = [[1, 4, 5, 8, 1, 0, 8], [3, 4, 3, 1, 1, 8, 9]] __lowerCamelCase = processor.batch_decode(lowerCamelCase__ ) __lowerCamelCase = tokenizer.batch_decode(lowerCamelCase__ ) self.assertListEqual(lowerCamelCase__ , lowerCamelCase__ ) def lowercase_ ( self ) -> Union[str, Any]: '''simple docstring''' __lowerCamelCase = self.get_image_processor() __lowerCamelCase = self.get_tokenizer() __lowerCamelCase = CLIPProcessor(tokenizer=lowerCamelCase__ , image_processor=lowerCamelCase__ ) __lowerCamelCase = 'lower newer' __lowerCamelCase = self.prepare_image_inputs() __lowerCamelCase = processor(text=lowerCamelCase__ , images=lowerCamelCase__ ) self.assertListEqual(list(inputs.keys() ) , processor.model_input_names )

371

from ..utils import DummyObject, requires_backends class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> Any: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> int: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> str: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> Union[str, Any]: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> Union[str, Any]: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> Union[str, Any]: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> Optional[Any]: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> List[str]: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> Union[str, Any]: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> Any: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> Any: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> Dict: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> Dict: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> Tuple: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> Dict: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> Optional[Any]: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> Optional[int]: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> str: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> Dict: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> Union[str, Any]: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> Tuple: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> Dict: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> Any: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> Dict: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> List[Any]: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> Optional[int]: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> List[Any]: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> Any: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> str: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> int: '''simple docstring''' requires_backends(self , ['sentencepiece'] ) class __lowerCAmelCase ( metaclass=__magic_name__ ): """simple docstring""" snake_case_ = ['''sentencepiece'''] def __init__( self , *lowerCamelCase__ , **lowerCamelCase__ ) -> int: '''simple docstring''' requires_backends(self , ['sentencepiece'] )

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"""simple docstring""" import itertools import math def UpperCamelCase__ ( lowercase__ : int ): if 1 < number < 4: # 2 and 3 are primes return True elif number < 2 or number % 2 == 0 or number % 3 == 0: # Negatives, 0, 1, all even numbers, all multiples of 3 are not primes return False # All primes number are in format of 6k +/- 1 for i in range(5 , int(math.sqrt(lowercase__ ) + 1 ) , 6 ): if number % i == 0 or number % (i + 2) == 0: return False return True def UpperCamelCase__ ( ): snake_case : Optional[int] = 2 while True: if is_prime(lowercase__ ): yield num num += 1 def UpperCamelCase__ ( lowercase__ : int = 1_0001 ): return next(itertools.islice(prime_generator() , nth - 1 , lowercase__ ) ) if __name__ == "__main__": print(f'{solution() = }')

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"""simple docstring""" from typing import Dict, List, Optional, Union import numpy as np from ...image_processing_utils import BaseImageProcessor, BatchFeature, get_size_dict from ...image_transforms import ( center_crop, convert_to_rgb, get_resize_output_image_size, normalize, rescale, resize, to_channel_dimension_format, ) from ...image_utils import ( OPENAI_CLIP_MEAN, OPENAI_CLIP_STD, ChannelDimension, ImageInput, PILImageResampling, make_list_of_images, to_numpy_array, valid_images, ) from ...utils import TensorType, is_vision_available, logging __A = logging.get_logger(__name__) if is_vision_available(): import PIL class lowerCamelCase__ ( lowerCamelCase_ ): a__ : Union[str, Any] = ["""pixel_values"""] def __init__( self , SCREAMING_SNAKE_CASE = True , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = PILImageResampling.BICUBIC , SCREAMING_SNAKE_CASE = True , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = True , SCREAMING_SNAKE_CASE = 1 / 255 , SCREAMING_SNAKE_CASE = True , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = True , **SCREAMING_SNAKE_CASE , ): """simple docstring""" super().__init__(**SCREAMING_SNAKE_CASE ) snake_case : int = size if size is not None else {"shortest_edge": 224} snake_case : int = get_size_dict(SCREAMING_SNAKE_CASE , default_to_square=SCREAMING_SNAKE_CASE ) snake_case : List[str] = crop_size if crop_size is not None else {"height": 224, "width": 224} snake_case : Tuple = get_size_dict(SCREAMING_SNAKE_CASE , default_to_square=SCREAMING_SNAKE_CASE , param_name="crop_size" ) snake_case : Dict = do_resize snake_case : Optional[int] = size snake_case : int = resample snake_case : Union[str, Any] = do_center_crop snake_case : Dict = crop_size snake_case : Dict = do_rescale snake_case : Any = rescale_factor snake_case : Tuple = do_normalize snake_case : int = image_mean if image_mean is not None else OPENAI_CLIP_MEAN snake_case : Tuple = image_std if image_std is not None else OPENAI_CLIP_STD snake_case : Tuple = do_convert_rgb def lowerCamelCase_ ( self , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE = PILImageResampling.BICUBIC , SCREAMING_SNAKE_CASE = None , **SCREAMING_SNAKE_CASE , ): """simple docstring""" snake_case : List[Any] = get_size_dict(SCREAMING_SNAKE_CASE , default_to_square=SCREAMING_SNAKE_CASE ) if "shortest_edge" not in size: raise ValueError(F'''The `size` parameter must contain the key `shortest_edge`. Got {size.keys()}''' ) snake_case : Dict = get_resize_output_image_size(SCREAMING_SNAKE_CASE , size=size["shortest_edge"] , default_to_square=SCREAMING_SNAKE_CASE ) return resize(SCREAMING_SNAKE_CASE , size=SCREAMING_SNAKE_CASE , resample=SCREAMING_SNAKE_CASE , data_format=SCREAMING_SNAKE_CASE , **SCREAMING_SNAKE_CASE ) def lowerCamelCase_ ( self , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE = None , **SCREAMING_SNAKE_CASE , ): """simple docstring""" snake_case : Tuple = get_size_dict(SCREAMING_SNAKE_CASE ) if "height" not in size or "width" not in size: raise ValueError(F'''The `size` parameter must contain the keys (height, width). Got {size.keys()}''' ) return center_crop(SCREAMING_SNAKE_CASE , size=(size["height"], size["width"]) , data_format=SCREAMING_SNAKE_CASE , **SCREAMING_SNAKE_CASE ) def lowerCamelCase_ ( self , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE = None , **SCREAMING_SNAKE_CASE , ): """simple docstring""" return rescale(SCREAMING_SNAKE_CASE , scale=SCREAMING_SNAKE_CASE , data_format=SCREAMING_SNAKE_CASE , **SCREAMING_SNAKE_CASE ) def lowerCamelCase_ ( self , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE = None , **SCREAMING_SNAKE_CASE , ): """simple docstring""" return normalize(SCREAMING_SNAKE_CASE , mean=SCREAMING_SNAKE_CASE , std=SCREAMING_SNAKE_CASE , data_format=SCREAMING_SNAKE_CASE , **SCREAMING_SNAKE_CASE ) def lowerCamelCase_ ( self , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = None , SCREAMING_SNAKE_CASE = ChannelDimension.FIRST , **SCREAMING_SNAKE_CASE , ): """simple docstring""" snake_case : int = do_resize if do_resize is not None else self.do_resize snake_case : List[str] = size if size is not None else self.size snake_case : Dict = get_size_dict(SCREAMING_SNAKE_CASE , param_name="size" , default_to_square=SCREAMING_SNAKE_CASE ) snake_case : Optional[Any] = resample if resample is not None else self.resample snake_case : List[Any] = do_center_crop if do_center_crop is not None else self.do_center_crop snake_case : Optional[int] = crop_size if crop_size is not None else self.crop_size snake_case : Union[str, Any] = get_size_dict(SCREAMING_SNAKE_CASE , param_name="crop_size" , default_to_square=SCREAMING_SNAKE_CASE ) snake_case : Union[str, Any] = do_rescale if do_rescale is not None else self.do_rescale snake_case : Union[str, Any] = rescale_factor if rescale_factor is not None else self.rescale_factor snake_case : Union[str, Any] = do_normalize if do_normalize is not None else self.do_normalize snake_case : List[str] = image_mean if image_mean is not None else self.image_mean snake_case : Optional[int] = image_std if image_std is not None else self.image_std snake_case : Optional[Any] = do_convert_rgb if do_convert_rgb is not None else self.do_convert_rgb snake_case : List[Any] = make_list_of_images(SCREAMING_SNAKE_CASE ) if not valid_images(SCREAMING_SNAKE_CASE ): raise ValueError( "Invalid image type. Must be of type PIL.Image.Image, numpy.ndarray, " "torch.Tensor, tf.Tensor or jax.ndarray." ) if do_resize and size is None: raise ValueError("Size must be specified if do_resize is True." ) if do_center_crop and crop_size is None: raise ValueError("Crop size must be specified if do_center_crop is True." ) if do_rescale and rescale_factor is None: raise ValueError("Rescale factor must be specified if do_rescale is True." ) if do_normalize and (image_mean is None or image_std is None): raise ValueError("Image mean and std must be specified if do_normalize is True." ) # PIL RGBA images are converted to RGB if do_convert_rgb: snake_case : Optional[int] = [convert_to_rgb(SCREAMING_SNAKE_CASE ) for image in images] # All transformations expect numpy arrays. snake_case : List[str] = [to_numpy_array(SCREAMING_SNAKE_CASE ) for image in images] if do_resize: snake_case : Optional[Any] = [self.resize(image=SCREAMING_SNAKE_CASE , size=SCREAMING_SNAKE_CASE , resample=SCREAMING_SNAKE_CASE ) for image in images] if do_center_crop: snake_case : int = [self.center_crop(image=SCREAMING_SNAKE_CASE , size=SCREAMING_SNAKE_CASE ) for image in images] if do_rescale: snake_case : str = [self.rescale(image=SCREAMING_SNAKE_CASE , scale=SCREAMING_SNAKE_CASE ) for image in images] if do_normalize: snake_case : Optional[int] = [self.normalize(image=SCREAMING_SNAKE_CASE , mean=SCREAMING_SNAKE_CASE , std=SCREAMING_SNAKE_CASE ) for image in images] snake_case : Optional[int] = [to_channel_dimension_format(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ) for image in images] snake_case : Tuple = {"pixel_values": images} return BatchFeature(data=SCREAMING_SNAKE_CASE , tensor_type=SCREAMING_SNAKE_CASE )

148

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"""simple docstring""" import gc import threading import time import psutil import torch class lowerCAmelCase : '''simple docstring''' def __init__( self ) -> Optional[int]: SCREAMING_SNAKE_CASE = psutil.Process() SCREAMING_SNAKE_CASE = False def __A ( self ) -> List[Any]: SCREAMING_SNAKE_CASE = -1 while True: SCREAMING_SNAKE_CASE = max(self.process.memory_info().rss , self.cpu_memory_peak ) # can't sleep or will not catch the peak right (this comment is here on purpose) if not self.peak_monitoring: break def __A ( self ) -> Any: SCREAMING_SNAKE_CASE = True SCREAMING_SNAKE_CASE = threading.Thread(target=self.peak_monitor ) SCREAMING_SNAKE_CASE = True self.thread.start() def __A ( self ) -> Tuple: SCREAMING_SNAKE_CASE = False self.thread.join() return self.cpu_memory_peak __UpperCamelCase = PeakCPUMemory() def lowercase () -> Optional[int]: # Time SCREAMING_SNAKE_CASE = {'time': time.time()} gc.collect() torch.cuda.empty_cache() # CPU mem SCREAMING_SNAKE_CASE = psutil.Process().memory_info().rss cpu_peak_tracker.start() # GPU mem for i in range(torch.cuda.device_count() ): SCREAMING_SNAKE_CASE = torch.cuda.memory_allocated(SCREAMING_SNAKE_CASE_ ) torch.cuda.reset_peak_memory_stats() return measures def lowercase (SCREAMING_SNAKE_CASE_ : Union[str, Any] ) -> Union[str, Any]: # Time SCREAMING_SNAKE_CASE = {'time': time.time() - start_measures['time']} gc.collect() torch.cuda.empty_cache() # CPU mem SCREAMING_SNAKE_CASE = (psutil.Process().memory_info().rss - start_measures['cpu']) / 2**20 SCREAMING_SNAKE_CASE = (cpu_peak_tracker.stop() - start_measures['cpu']) / 2**20 # GPU mem for i in range(torch.cuda.device_count() ): SCREAMING_SNAKE_CASE = (torch.cuda.memory_allocated(SCREAMING_SNAKE_CASE_ ) - start_measures[str(SCREAMING_SNAKE_CASE_ )]) / 2**20 SCREAMING_SNAKE_CASE = (torch.cuda.max_memory_allocated(SCREAMING_SNAKE_CASE_ ) - start_measures[str(SCREAMING_SNAKE_CASE_ )]) / 2**20 return measures def lowercase (SCREAMING_SNAKE_CASE_ : Any , SCREAMING_SNAKE_CASE_ : Union[str, Any] ) -> int: print(F'{description}:' ) print(F'- Time: {measures["time"]:.2f}s' ) for i in range(torch.cuda.device_count() ): print(F'- GPU {i} allocated: {measures[str(SCREAMING_SNAKE_CASE_ )]:.2f}MiB' ) SCREAMING_SNAKE_CASE = measures[F'{i}-peak'] print(F'- GPU {i} peak: {peak:.2f}MiB' ) print(F'- CPU RAM allocated: {measures["cpu"]:.2f}MiB' ) print(F'- CPU RAM peak: {measures["cpu-peak"]:.2f}MiB' )

356

"""simple docstring""" from __future__ import annotations import unittest from transformers import XGLMConfig, XGLMTokenizer, is_tf_available from transformers.testing_utils import require_tf, slow from ...test_configuration_common import ConfigTester from ...test_modeling_tf_common import TFModelTesterMixin, floats_tensor, ids_tensor, random_attention_mask from ...test_pipeline_mixin import PipelineTesterMixin if is_tf_available(): import tensorflow as tf from transformers.models.xglm.modeling_tf_xglm import ( TF_XGLM_PRETRAINED_MODEL_ARCHIVE_LIST, TFXGLMForCausalLM, TFXGLMModel, ) @require_tf class lowerCAmelCase : '''simple docstring''' SCREAMING_SNAKE_CASE_ : int = XGLMConfig SCREAMING_SNAKE_CASE_ : List[str] = {} SCREAMING_SNAKE_CASE_ : Optional[Any] = """gelu""" def __init__( self , lowerCAmelCase__ , lowerCAmelCase__=14 , lowerCAmelCase__=7 , lowerCAmelCase__=True , lowerCAmelCase__=True , lowerCAmelCase__=True , lowerCAmelCase__=99 , lowerCAmelCase__=32 , lowerCAmelCase__=2 , lowerCAmelCase__=4 , lowerCAmelCase__=37 , lowerCAmelCase__="gelu" , lowerCAmelCase__=0.1 , lowerCAmelCase__=0.1 , lowerCAmelCase__=512 , lowerCAmelCase__=0.02 , ) -> str: SCREAMING_SNAKE_CASE = parent SCREAMING_SNAKE_CASE = batch_size SCREAMING_SNAKE_CASE = seq_length SCREAMING_SNAKE_CASE = is_training SCREAMING_SNAKE_CASE = use_input_mask SCREAMING_SNAKE_CASE = use_labels SCREAMING_SNAKE_CASE = vocab_size SCREAMING_SNAKE_CASE = d_model SCREAMING_SNAKE_CASE = num_hidden_layers SCREAMING_SNAKE_CASE = num_attention_heads SCREAMING_SNAKE_CASE = ffn_dim SCREAMING_SNAKE_CASE = activation_function SCREAMING_SNAKE_CASE = activation_dropout SCREAMING_SNAKE_CASE = attention_dropout SCREAMING_SNAKE_CASE = max_position_embeddings SCREAMING_SNAKE_CASE = initializer_range SCREAMING_SNAKE_CASE = None SCREAMING_SNAKE_CASE = 0 SCREAMING_SNAKE_CASE = 2 SCREAMING_SNAKE_CASE = 1 def __A ( self ) -> Optional[int]: return XGLMConfig.from_pretrained('facebook/xglm-564M' ) def __A ( self ) -> List[str]: SCREAMING_SNAKE_CASE = tf.clip_by_value( ids_tensor([self.batch_size, self.seq_length] , self.vocab_size ) , clip_value_min=0 , clip_value_max=3 ) SCREAMING_SNAKE_CASE = None if self.use_input_mask: SCREAMING_SNAKE_CASE = random_attention_mask([self.batch_size, self.seq_length] ) SCREAMING_SNAKE_CASE = self.get_config() SCREAMING_SNAKE_CASE = floats_tensor([self.num_hidden_layers, self.num_attention_heads] , 2 ) return ( config, input_ids, input_mask, head_mask, ) def __A ( self ) -> int: return XGLMConfig( vocab_size=self.vocab_size , d_model=self.hidden_size , num_layers=self.num_hidden_layers , attention_heads=self.num_attention_heads , ffn_dim=self.ffn_dim , activation_function=self.activation_function , activation_dropout=self.activation_dropout , attention_dropout=self.attention_dropout , max_position_embeddings=self.max_position_embeddings , initializer_range=self.initializer_range , use_cache=lowerCAmelCase__ , bos_token_id=self.bos_token_id , eos_token_id=self.eos_token_id , pad_token_id=self.pad_token_id , return_dict=lowerCAmelCase__ , ) def __A ( self ) -> List[Any]: SCREAMING_SNAKE_CASE = self.prepare_config_and_inputs() ( ( SCREAMING_SNAKE_CASE ) , ( SCREAMING_SNAKE_CASE ) , ( SCREAMING_SNAKE_CASE ) , ( SCREAMING_SNAKE_CASE ) , ) = config_and_inputs SCREAMING_SNAKE_CASE = { 'input_ids': input_ids, 'head_mask': head_mask, } return config, inputs_dict @require_tf class lowerCAmelCase ( lowerCamelCase_ , lowerCamelCase_ , unittest.TestCase ): '''simple docstring''' SCREAMING_SNAKE_CASE_ : List[str] = (TFXGLMModel, TFXGLMForCausalLM) if is_tf_available() else () SCREAMING_SNAKE_CASE_ : List[str] = (TFXGLMForCausalLM,) if is_tf_available() else () SCREAMING_SNAKE_CASE_ : int = ( {"""feature-extraction""": TFXGLMModel, """text-generation""": TFXGLMForCausalLM} if is_tf_available() else {} ) SCREAMING_SNAKE_CASE_ : Optional[int] = False SCREAMING_SNAKE_CASE_ : List[Any] = False SCREAMING_SNAKE_CASE_ : Tuple = False def __A ( self ) -> Optional[Any]: SCREAMING_SNAKE_CASE = TFXGLMModelTester(self ) SCREAMING_SNAKE_CASE = ConfigTester(self , config_class=lowerCAmelCase__ , n_embd=37 ) def __A ( self ) -> Optional[int]: self.config_tester.run_common_tests() @slow def __A ( self ) -> Tuple: for model_name in TF_XGLM_PRETRAINED_MODEL_ARCHIVE_LIST[:1]: SCREAMING_SNAKE_CASE = TFXGLMModel.from_pretrained(lowerCAmelCase__ ) self.assertIsNotNone(lowerCAmelCase__ ) @unittest.skip(reason='Currently, model embeddings are going to undergo a major refactor.' ) def __A ( self ) -> Tuple: super().test_resize_token_embeddings() @require_tf class lowerCAmelCase ( unittest.TestCase ): '''simple docstring''' @slow def __A ( self , lowerCAmelCase__=True ) -> Optional[Any]: SCREAMING_SNAKE_CASE = TFXGLMForCausalLM.from_pretrained('facebook/xglm-564M' ) SCREAMING_SNAKE_CASE = tf.convert_to_tensor([[2, 268, 9_865]] , dtype=tf.intaa ) # The dog # </s> The dog is a very friendly dog. He is very affectionate and loves to play with other # fmt: off SCREAMING_SNAKE_CASE = [2, 268, 9_865, 67, 11, 1_988, 57_252, 9_865, 5, 984, 67, 1_988, 213_838, 1_658, 53, 70_446, 33, 6_657, 278, 1_581] # fmt: on SCREAMING_SNAKE_CASE = model.generate(lowerCAmelCase__ , do_sample=lowerCAmelCase__ , num_beams=1 ) if verify_outputs: self.assertListEqual(output_ids[0].numpy().tolist() , lowerCAmelCase__ ) @slow def __A ( self ) -> List[str]: SCREAMING_SNAKE_CASE = XGLMTokenizer.from_pretrained('facebook/xglm-564M' ) SCREAMING_SNAKE_CASE = TFXGLMForCausalLM.from_pretrained('facebook/xglm-564M' ) tf.random.set_seed(0 ) SCREAMING_SNAKE_CASE = tokenizer('Today is a nice day and' , return_tensors='tf' ) SCREAMING_SNAKE_CASE = tokenized.input_ids # forces the generation to happen on CPU, to avoid GPU-related quirks (and assure same output regardless of the available devices) with tf.device(':/CPU:0' ): SCREAMING_SNAKE_CASE = model.generate(lowerCAmelCase__ , do_sample=lowerCAmelCase__ , seed=[7, 0] ) SCREAMING_SNAKE_CASE = tokenizer.decode(output_ids[0] , skip_special_tokens=lowerCAmelCase__ ) SCREAMING_SNAKE_CASE = ( 'Today is a nice day and warm evening here over Southern Alberta!! Today when they closed schools due' ) self.assertEqual(lowerCAmelCase__ , lowerCAmelCase__ ) @slow def __A ( self ) -> Optional[int]: SCREAMING_SNAKE_CASE = TFXGLMForCausalLM.from_pretrained('facebook/xglm-564M' ) SCREAMING_SNAKE_CASE = XGLMTokenizer.from_pretrained('facebook/xglm-564M' ) SCREAMING_SNAKE_CASE = 'left' # use different length sentences to test batching SCREAMING_SNAKE_CASE = [ 'This is an extremelly long sentence that only exists to test the ability of the model to cope with ' 'left-padding, such as in batched generation. The output for the sequence below should be the same ' 'regardless of whether left padding is applied or not. When', 'Hello, my dog is a little', ] SCREAMING_SNAKE_CASE = tokenizer(lowerCAmelCase__ , return_tensors='tf' , padding=lowerCAmelCase__ ) SCREAMING_SNAKE_CASE = inputs['input_ids'] SCREAMING_SNAKE_CASE = model.generate(input_ids=lowerCAmelCase__ , attention_mask=inputs['attention_mask'] , max_new_tokens=12 ) SCREAMING_SNAKE_CASE = tokenizer(sentences[0] , return_tensors='tf' ).input_ids SCREAMING_SNAKE_CASE = model.generate(input_ids=lowerCAmelCase__ , max_new_tokens=12 ) SCREAMING_SNAKE_CASE = tokenizer(sentences[1] , return_tensors='tf' ).input_ids SCREAMING_SNAKE_CASE = model.generate(input_ids=lowerCAmelCase__ , max_new_tokens=12 ) SCREAMING_SNAKE_CASE = tokenizer.batch_decode(lowerCAmelCase__ , skip_special_tokens=lowerCAmelCase__ ) SCREAMING_SNAKE_CASE = tokenizer.decode(output_non_padded[0] , skip_special_tokens=lowerCAmelCase__ ) SCREAMING_SNAKE_CASE = tokenizer.decode(output_padded[0] , skip_special_tokens=lowerCAmelCase__ ) SCREAMING_SNAKE_CASE = [ 'This is an extremelly long sentence that only exists to test the ability of the model to cope with ' 'left-padding, such as in batched generation. The output for the sequence below should be the same ' 'regardless of whether left padding is applied or not. When left padding is applied, the sequence will be ' 'a single', 'Hello, my dog is a little bit of a shy one, but he is very friendly', ] self.assertListEqual(lowerCAmelCase__ , lowerCAmelCase__ ) self.assertListEqual(lowerCAmelCase__ , [non_padded_sentence, padded_sentence] )

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