code stringlengths 87 55.2k | code_codestyle int64 0 349 | style_context stringlengths 135 49.1k | style_context_codestyle int64 0 349 | label int64 0 1 |
|---|---|---|---|---|
"""simple docstring"""
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : List[str] = int(__lowerCamelCase )
if n_element < 1:
UpperCAmelCase_ : List[Any] = ValueError("a should be a positive number" )
raise my_error
UpperCAmelCase_ : List[Any] = [1]
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : Optional[int] = (0, 0, 0)
UpperCAmelCase_ : Dict = 1
while index < n_element:
while hamming_list[i] * 2 <= hamming_list[-1]:
i += 1
while hamming_list[j] * 3 <= hamming_list[-1]:
j += 1
while hamming_list[k] * 5 <= hamming_list[-1]:
k += 1
hamming_list.append(
min(hamming_list[i] * 2, hamming_list[j] * 3, hamming_list[k] * 5 ) )
index += 1
return hamming_list
if __name__ == "__main__":
_a = input('Enter the last number (nth term) of the Hamming Number Series: ')
print('Formula of Hamming Number Series => 2^i * 3^j * 5^k')
_a = hamming(int(n))
print('-----------------------------------------------------')
print(f"""The list with nth numbers is: {hamming_numbers}""")
print('-----------------------------------------------------')
| 61 |
"""simple docstring"""
from __future__ import annotations
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
if (voltage, current, resistance).count(0 ) != 1:
raise ValueError("One and only one argument must be 0" )
if resistance < 0:
raise ValueError("Resistance cannot be negative" )
if voltage == 0:
return {"voltage": float(current * resistance )}
elif current == 0:
return {"current": voltage / resistance}
elif resistance == 0:
return {"resistance": voltage / current}
else:
raise ValueError("Exactly one argument must be 0" )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 61 | 1 |
"""simple docstring"""
import argparse
import json
import os
import tensorstore as ts
import torch
from flax import serialization
from flax.traverse_util import flatten_dict, unflatten_dict
from tensorflow.io import gfile
from transformers.modeling_utils import dtype_byte_size
from transformers.models.switch_transformers.convert_switch_transformers_original_flax_checkpoint_to_pytorch import (
rename_keys,
)
from transformers.utils import WEIGHTS_INDEX_NAME, WEIGHTS_NAME
from transformers.utils.hub import convert_file_size_to_int
def __a ( __lowerCamelCase, __lowerCamelCase ):
if flax_key_tuple[-1] == "kernel" and flax_tensor.ndim == 3:
# expert layer
UpperCAmelCase_ : Any = flax_key_tuple[:-1] + ("weight",)
UpperCAmelCase_ : Optional[int] = torch.permute(__lowerCamelCase, (0, 2, 1) )
elif flax_key_tuple[-1] == "kernel" and ".".join(__lowerCamelCase ):
# linear layer
UpperCAmelCase_ : Any = flax_key_tuple[:-1] + ("weight",)
UpperCAmelCase_ : Any = flax_tensor.T
elif flax_key_tuple[-1] in ["scale", "embedding"]:
UpperCAmelCase_ : List[str] = flax_key_tuple[:-1] + ("weight",)
return flax_key_tuple, flax_tensor
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
if "metadata" in layer:
UpperCAmelCase_ : List[Any] = layer.split("metadata" )
UpperCAmelCase_ : List[str] = "".join(split_layer[0] )[:-1]
UpperCAmelCase_ : Dict = [tuple(("metadata" + split_layer[1]).split("/" ) )]
elif "kvstore" in layer:
UpperCAmelCase_ : int = layer.split("kvstore" )
UpperCAmelCase_ : str = "".join(split_layer[0] )[:-1]
UpperCAmelCase_ : str = [tuple(("kvstore" + split_layer[1]).split("/" ) )]
else:
UpperCAmelCase_ : Any = layer.split("/" )
UpperCAmelCase_ : Union[str, Any] = "/".join(split_layer[:-1] )
UpperCAmelCase_ : int = (split_layer[-1],)
if "kvstore/path" in layer:
UpperCAmelCase_ : Any = f"""{switch_checkpoint_path}/{checkpoint_info[layer]}"""
elif "kvstore/driver" in layer:
UpperCAmelCase_ : Dict = "file"
else:
UpperCAmelCase_ : List[str] = checkpoint_info[layer]
return curr_real_layer_name, split_layer, content
def __a ( __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : Union[str, Any] = rename_keys(__lowerCamelCase )
UpperCAmelCase_ : Dict = {}
for k, v in current_block.items():
UpperCAmelCase_ : Tuple = v
UpperCAmelCase_ : Any = new_current_block
torch.save(__lowerCamelCase, __lowerCamelCase )
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = WEIGHTS_NAME ):
UpperCAmelCase_ : Optional[Any] = convert_file_size_to_int(__lowerCamelCase )
UpperCAmelCase_ : Tuple = []
UpperCAmelCase_ : List[Any] = {}
UpperCAmelCase_ : List[Any] = 0
UpperCAmelCase_ : List[Any] = 0
os.makedirs(__lowerCamelCase, exist_ok=__lowerCamelCase )
with gfile.GFile(switch_checkpoint_path + "/checkpoint", "rb" ) as fp:
UpperCAmelCase_ : List[str] = serialization.msgpack_restore(fp.read() )["optimizer"]["target"]
UpperCAmelCase_ : Any = flatten_dict(__lowerCamelCase, sep="/" )
UpperCAmelCase_ : List[str] = {}
for layer in checkpoint_info.keys():
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : Any = get_key_and_tensorstore_dict(
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase )
if curr_real_layer_name in all_layers:
UpperCAmelCase_ : Union[str, Any] = content
else:
UpperCAmelCase_ : Tuple = {split_layer[-1]: content}
for key in all_layers.keys():
# open tensorstore file
UpperCAmelCase_ : Any = ts.open(unflatten_dict(all_layers[key] ) ).result().read().result()
UpperCAmelCase_ : Dict = torch.tensor(__lowerCamelCase )
UpperCAmelCase_ : int = raw_weights.numel() * dtype_byte_size(raw_weights.dtype )
# use the renaming pattern from the small conversion scripts
UpperCAmelCase_ , UpperCAmelCase_ : List[Any] = rename_base_flax_keys(tuple(key.split("/" ) ), __lowerCamelCase )
UpperCAmelCase_ : Optional[int] = "/".join(__lowerCamelCase )
# If this weight is going to tip up over the maximal size, we split.
if current_block_size + weight_size > max_shard_size:
UpperCAmelCase_ : Tuple = os.path.join(
__lowerCamelCase, weights_name.replace(".bin", f"""-{len(__lowerCamelCase )+1:05d}-of-???.bin""" ) )
rename_and_save_block(__lowerCamelCase, __lowerCamelCase )
sharded_state_dicts.append(current_block.keys() )
del current_block
UpperCAmelCase_ : List[Any] = {}
UpperCAmelCase_ : Dict = 0
UpperCAmelCase_ : Union[str, Any] = raw_weights.to(getattr(__lowerCamelCase, __lowerCamelCase ) )
current_block_size += weight_size
total_size += weight_size
# Add the last block
UpperCAmelCase_ : Optional[Any] = os.path.join(__lowerCamelCase, weights_name.replace(".bin", f"""-{len(__lowerCamelCase )+1:05d}-of-???.bin""" ) )
rename_and_save_block(__lowerCamelCase, __lowerCamelCase )
sharded_state_dicts.append(current_block.keys() )
# If we only have one shard, we return it
if len(__lowerCamelCase ) == 1:
return {weights_name: sharded_state_dicts[0]}, None
# Otherwise, let's build the index
UpperCAmelCase_ : List[str] = {}
UpperCAmelCase_ : Any = {}
for idx, shard in enumerate(__lowerCamelCase ):
UpperCAmelCase_ : List[str] = weights_name.replace(
".bin", f"""-{idx+1:05d}-of-{len(__lowerCamelCase ):05d}.bin""" ) # len(sharded_state_dicts):05d}
UpperCAmelCase_ : Optional[int] = os.path.join(__lowerCamelCase, weights_name.replace(".bin", f"""-{idx+1:05d}-of-???.bin""" ) )
os.rename(__lowerCamelCase, os.path.join(__lowerCamelCase, __lowerCamelCase ) )
UpperCAmelCase_ : Union[str, Any] = shard
for key in shard:
UpperCAmelCase_ : int = shard_file
# Add the metadata
UpperCAmelCase_ : List[str] = {"total_size": total_size}
UpperCAmelCase_ : str = {"metadata": metadata, "weight_map": weight_map}
with open(os.path.join(__lowerCamelCase, __lowerCamelCase ), "w", encoding="utf-8" ) as f:
UpperCAmelCase_ : List[Any] = json.dumps(__lowerCamelCase, indent=2, sort_keys=__lowerCamelCase ) + "\n"
f.write(__lowerCamelCase )
return metadata, index
if __name__ == "__main__":
_a = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
'--switch_t5x_checkpoint_path',
default='/mnt/disks/disk_switch/original_checkpoints/switch-xxl-128/checkpoint_634600',
type=str,
required=False,
help='Path to a directory containing a folder per layer. Follows the original Google format.',
)
parser.add_argument('--max_shard_size', default='10GB', required=False, help='Max shard size')
parser.add_argument('--dtype', default='bfloat16', type=str, required=False, help='dtype of the saved model')
parser.add_argument(
'--pytorch_dump_folder_path',
default='/mnt/disks/disk_switch/original_checkpoints/switch-xxl-128-converted',
type=str,
required=False,
help='Path to the output pytorch model.',
)
_a = parser.parse_args()
shard_on_the_fly(
args.switch_tax_checkpoint_path,
args.pytorch_dump_folder_path,
args.max_shard_size,
args.dtype,
)
def __a ( ):
from transformers import SwitchTransformersConfig, SwitchTransformersForConditionalGeneration, TaTokenizer
UpperCAmelCase_ : Optional[Any] = SwitchTransformersConfig.from_pretrained("google/switch-base-8" )
config.save_pretrained("/home/arthur_huggingface_co/transformers/switch_converted" )
UpperCAmelCase_ : Any = SwitchTransformersForConditionalGeneration.from_pretrained(
"/home/arthur_huggingface_co/transformers/switch_converted", device_map="auto" )
UpperCAmelCase_ : Union[str, Any] = TaTokenizer.from_pretrained("t5-small" )
UpperCAmelCase_ : Union[str, Any] = "A <extra_id_0> walks into a bar a orders a <extra_id_1> with <extra_id_2> pinch of <extra_id_3>."
UpperCAmelCase_ : Tuple = tokenizer(__lowerCamelCase, return_tensors="pt" ).input_ids
UpperCAmelCase_ : List[Any] = model.generate(__lowerCamelCase, decoder_start_token_id=0 )
print(tokenizer.decode(out[0] ) )
| 61 |
"""simple docstring"""
import argparse
from collections import defaultdict
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : int = f"""{file}_{class_name}_{test_name}"""
done_test[_id] += 1
with open(__lowerCamelCase, "r" ) as f:
UpperCAmelCase_ : List[Any] = f.readlines()
UpperCAmelCase_ : int = f"""class {class_name}("""
UpperCAmelCase_ : Optional[Any] = f"""{4 * " "}def {test_name}("""
UpperCAmelCase_ : Optional[Any] = f"""{8 * " "}{correct_line.split()[0]}"""
UpperCAmelCase_ : Tuple = f"""{16 * " "}{correct_line.split()[0]}"""
UpperCAmelCase_ : int = False
UpperCAmelCase_ : Union[str, Any] = False
UpperCAmelCase_ : str = False
UpperCAmelCase_ : Optional[Any] = False
UpperCAmelCase_ : List[str] = 0
UpperCAmelCase_ : Optional[int] = 0
UpperCAmelCase_ : int = []
for line in lines:
if line.startswith(__lowerCamelCase ):
UpperCAmelCase_ : Tuple = True
elif in_class and line.startswith(__lowerCamelCase ):
UpperCAmelCase_ : Optional[int] = True
elif in_class and in_func and (line.startswith(__lowerCamelCase ) or line.startswith(__lowerCamelCase )):
UpperCAmelCase_ : Any = len(line.split(correct_line.split()[0] )[0] )
count += 1
if count == done_test[_id]:
UpperCAmelCase_ : Union[str, Any] = True
if in_class and in_func and in_line:
if ")" not in line:
continue
else:
UpperCAmelCase_ : Any = True
if in_class and in_func and in_line and insert_line:
new_lines.append(f"""{spaces * " "}{correct_line}""" )
UpperCAmelCase_ : int = False
else:
new_lines.append(__lowerCamelCase )
with open(__lowerCamelCase, "w" ) as f:
for line in new_lines:
f.write(__lowerCamelCase )
def __a ( __lowerCamelCase, __lowerCamelCase=None ):
if fail is not None:
with open(__lowerCamelCase, "r" ) as f:
UpperCAmelCase_ : Tuple = {l.strip() for l in f.readlines()}
else:
UpperCAmelCase_ : str = None
with open(__lowerCamelCase, "r" ) as f:
UpperCAmelCase_ : Optional[int] = f.readlines()
UpperCAmelCase_ : Any = defaultdict(__lowerCamelCase )
for line in correct_lines:
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : Any = line.split(";" )
if test_failures is None or "::".join([file, class_name, test_name] ) in test_failures:
overwrite_file(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
parser.add_argument('--correct_filename', help='filename of tests with expected result')
parser.add_argument('--fail_filename', help='filename of test failures', type=str, default=None)
_a = parser.parse_args()
main(args.correct_filename, args.fail_filename)
| 61 | 1 |
"""simple docstring"""
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,
BertTokenizerFast,
BlipImageProcessor,
GPTaTokenizer,
InstructBlipProcessor,
PreTrainedTokenizerFast,
)
@require_vision
class A_ (unittest.TestCase ):
'''simple docstring'''
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = tempfile.mkdtemp()
UpperCAmelCase_ : Optional[int] = BlipImageProcessor()
UpperCAmelCase_ : Optional[Any] = GPTaTokenizer.from_pretrained("hf-internal-testing/tiny-random-GPT2Model" )
UpperCAmelCase_ : List[Any] = BertTokenizerFast.from_pretrained("hf-internal-testing/tiny-random-bert" )
UpperCAmelCase_ : Tuple = InstructBlipProcessor(lowercase_ , lowercase_ , lowercase_ )
processor.save_pretrained(self.tmpdirname )
def UpperCamelCase__ ( self , **lowercase_ ):
"""simple docstring"""
return AutoProcessor.from_pretrained(self.tmpdirname , **lowercase_ ).tokenizer
def UpperCamelCase__ ( self , **lowercase_ ):
"""simple docstring"""
return AutoProcessor.from_pretrained(self.tmpdirname , **lowercase_ ).image_processor
def UpperCamelCase__ ( self , **lowercase_ ):
"""simple docstring"""
return AutoProcessor.from_pretrained(self.tmpdirname , **lowercase_ ).qformer_tokenizer
def UpperCamelCase__ ( self ):
"""simple docstring"""
shutil.rmtree(self.tmpdirname )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Dict = [np.random.randint(255 , size=(3, 30, 400) , dtype=np.uinta )]
UpperCAmelCase_ : int = [Image.fromarray(np.moveaxis(lowercase_ , 0 , -1 ) ) for x in image_inputs]
return image_inputs
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = InstructBlipProcessor(
tokenizer=self.get_tokenizer() , image_processor=self.get_image_processor() , qformer_tokenizer=self.get_qformer_tokenizer() , )
processor.save_pretrained(self.tmpdirname )
UpperCAmelCase_ : Optional[int] = self.get_tokenizer(bos_token="(BOS)" , eos_token="(EOS)" )
UpperCAmelCase_ : Any = self.get_image_processor(do_normalize=lowercase_ , padding_value=1.0 )
UpperCAmelCase_ : List[str] = InstructBlipProcessor.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_ )
self.assertIsInstance(processor.qformer_tokenizer , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = self.get_image_processor()
UpperCAmelCase_ : Optional[int] = self.get_tokenizer()
UpperCAmelCase_ : Optional[int] = self.get_qformer_tokenizer()
UpperCAmelCase_ : Optional[int] = InstructBlipProcessor(
tokenizer=lowercase_ , image_processor=lowercase_ , qformer_tokenizer=lowercase_ )
UpperCAmelCase_ : List[str] = self.prepare_image_inputs()
UpperCAmelCase_ : List[str] = image_processor(lowercase_ , return_tensors="np" )
UpperCAmelCase_ : List[Any] = 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 UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[Any] = self.get_image_processor()
UpperCAmelCase_ : List[Any] = self.get_tokenizer()
UpperCAmelCase_ : Union[str, Any] = self.get_qformer_tokenizer()
UpperCAmelCase_ : int = InstructBlipProcessor(
tokenizer=lowercase_ , image_processor=lowercase_ , qformer_tokenizer=lowercase_ )
UpperCAmelCase_ : str = "lower newer"
UpperCAmelCase_ : Dict = processor(text=lowercase_ )
UpperCAmelCase_ : List[str] = tokenizer(lowercase_ , return_token_type_ids=lowercase_ )
UpperCAmelCase_ : Dict = qformer_tokenizer(lowercase_ , return_token_type_ids=lowercase_ )
for key in encoded_tokens.keys():
self.assertListEqual(encoded_tokens[key] , encoded_processor[key] )
for key in encoded_tokens_qformer.keys():
self.assertListEqual(encoded_tokens_qformer[key] , encoded_processor["qformer_" + key] )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : int = self.get_image_processor()
UpperCAmelCase_ : Optional[Any] = self.get_tokenizer()
UpperCAmelCase_ : int = self.get_qformer_tokenizer()
UpperCAmelCase_ : Dict = InstructBlipProcessor(
tokenizer=lowercase_ , image_processor=lowercase_ , qformer_tokenizer=lowercase_ )
UpperCAmelCase_ : List[str] = "lower newer"
UpperCAmelCase_ : List[str] = self.prepare_image_inputs()
UpperCAmelCase_ : Dict = processor(text=lowercase_ , images=lowercase_ )
self.assertListEqual(
list(inputs.keys() ) , ["input_ids", "attention_mask", "qformer_input_ids", "qformer_attention_mask", "pixel_values"] , )
# test if it raises when no input is passed
with pytest.raises(lowercase_ ):
processor()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = self.get_image_processor()
UpperCAmelCase_ : Optional[Any] = self.get_tokenizer()
UpperCAmelCase_ : Dict = self.get_qformer_tokenizer()
UpperCAmelCase_ : Union[str, Any] = InstructBlipProcessor(
tokenizer=lowercase_ , image_processor=lowercase_ , qformer_tokenizer=lowercase_ )
UpperCAmelCase_ : Optional[Any] = [[1, 4, 5, 8, 1, 0, 8], [3, 4, 3, 1, 1, 8, 9]]
UpperCAmelCase_ : List[Any] = processor.batch_decode(lowercase_ )
UpperCAmelCase_ : Tuple = tokenizer.batch_decode(lowercase_ )
self.assertListEqual(lowercase_ , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = self.get_image_processor()
UpperCAmelCase_ : Optional[Any] = self.get_tokenizer()
UpperCAmelCase_ : List[Any] = self.get_qformer_tokenizer()
UpperCAmelCase_ : Tuple = InstructBlipProcessor(
tokenizer=lowercase_ , image_processor=lowercase_ , qformer_tokenizer=lowercase_ )
UpperCAmelCase_ : Dict = "lower newer"
UpperCAmelCase_ : Optional[Any] = self.prepare_image_inputs()
UpperCAmelCase_ : Any = processor(text=lowercase_ , images=lowercase_ )
self.assertListEqual(
list(inputs.keys() ) , ["input_ids", "attention_mask", "qformer_input_ids", "qformer_attention_mask", "pixel_values"] , )
| 61 |
"""simple docstring"""
from diffusers.utils.testing_utils import require_onnxruntime
@require_onnxruntime
class A_ :
'''simple docstring'''
pass
| 61 | 1 |
"""simple docstring"""
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 A_ (unittest.TestCase ):
'''simple docstring'''
def UpperCamelCase__ ( self , lowercase_ ):
"""simple docstring"""
for model_result in results.values():
for batch_size, sequence_length in zip(model_result["bs"] , model_result["ss"] ):
UpperCAmelCase_ : Optional[Any] = model_result["result"][batch_size][sequence_length]
self.assertIsNotNone(lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[Any] = "sshleifer/tiny-gpt2"
UpperCAmelCase_ : Optional[int] = TensorFlowBenchmarkArguments(
models=[MODEL_ID] , training=lowercase_ , inference=lowercase_ , sequence_lengths=[8] , batch_sizes=[1] , eager_mode=lowercase_ , multi_process=lowercase_ , )
UpperCAmelCase_ : Dict = TensorFlowBenchmark(lowercase_ )
UpperCAmelCase_ : int = benchmark.run()
self.check_results_dict_not_empty(results.time_inference_result )
self.check_results_dict_not_empty(results.memory_inference_result )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : str = "sgugger/tiny-distilbert-classification"
UpperCAmelCase_ : List[Any] = TensorFlowBenchmarkArguments(
models=[MODEL_ID] , training=lowercase_ , inference=lowercase_ , sequence_lengths=[8] , batch_sizes=[1] , multi_process=lowercase_ , only_pretrain_model=lowercase_ , )
UpperCAmelCase_ : Tuple = TensorFlowBenchmark(lowercase_ )
UpperCAmelCase_ : 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 UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Any = "sshleifer/tiny-gpt2"
UpperCAmelCase_ : Tuple = TensorFlowBenchmarkArguments(
models=[MODEL_ID] , training=lowercase_ , inference=lowercase_ , sequence_lengths=[8] , batch_sizes=[1] , multi_process=lowercase_ , )
UpperCAmelCase_ : Tuple = TensorFlowBenchmark(lowercase_ )
UpperCAmelCase_ : 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 UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : str = "sshleifer/tiny-gpt2"
UpperCAmelCase_ : Dict = AutoConfig.from_pretrained(lowercase_ )
UpperCAmelCase_ : str = TensorFlowBenchmarkArguments(
models=[MODEL_ID] , training=lowercase_ , inference=lowercase_ , sequence_lengths=[8] , batch_sizes=[1] , eager_mode=lowercase_ , multi_process=lowercase_ , )
UpperCAmelCase_ : Any = TensorFlowBenchmark(lowercase_ , [config] )
UpperCAmelCase_ : List[str] = benchmark.run()
self.check_results_dict_not_empty(results.time_inference_result )
self.check_results_dict_not_empty(results.memory_inference_result )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Union[str, Any] = "sshleifer/tiny-gpt2"
UpperCAmelCase_ : Any = AutoConfig.from_pretrained(lowercase_ )
UpperCAmelCase_ : Union[str, Any] = TensorFlowBenchmarkArguments(
models=[MODEL_ID] , training=lowercase_ , inference=lowercase_ , sequence_lengths=[8] , batch_sizes=[1] , multi_process=lowercase_ , )
UpperCAmelCase_ : Optional[int] = TensorFlowBenchmark(lowercase_ , [config] )
UpperCAmelCase_ : Union[str, Any] = benchmark.run()
self.check_results_dict_not_empty(results.time_inference_result )
self.check_results_dict_not_empty(results.memory_inference_result )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : int = "sshleifer/tiny-gpt2"
UpperCAmelCase_ : List[str] = TensorFlowBenchmarkArguments(
models=[MODEL_ID] , training=lowercase_ , inference=lowercase_ , sequence_lengths=[8] , batch_sizes=[1] , multi_process=lowercase_ , )
UpperCAmelCase_ : Dict = TensorFlowBenchmark(lowercase_ )
UpperCAmelCase_ : Dict = benchmark.run()
self.check_results_dict_not_empty(results.time_train_result )
self.check_results_dict_not_empty(results.memory_train_result )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = "sshleifer/tiny-gpt2"
UpperCAmelCase_ : Optional[int] = AutoConfig.from_pretrained(lowercase_ )
UpperCAmelCase_ : List[str] = TensorFlowBenchmarkArguments(
models=[MODEL_ID] , training=lowercase_ , inference=lowercase_ , sequence_lengths=[8] , batch_sizes=[1] , multi_process=lowercase_ , )
UpperCAmelCase_ : Tuple = TensorFlowBenchmark(lowercase_ , [config] )
UpperCAmelCase_ : Union[str, Any] = benchmark.run()
self.check_results_dict_not_empty(results.time_train_result )
self.check_results_dict_not_empty(results.memory_train_result )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Any = "patrickvonplaten/t5-tiny-random"
UpperCAmelCase_ : int = AutoConfig.from_pretrained(lowercase_ )
UpperCAmelCase_ : Union[str, Any] = TensorFlowBenchmarkArguments(
models=[MODEL_ID] , training=lowercase_ , inference=lowercase_ , sequence_lengths=[8] , batch_sizes=[1] , multi_process=lowercase_ , )
UpperCAmelCase_ : Dict = TensorFlowBenchmark(lowercase_ , configs=[config] )
UpperCAmelCase_ : Any = 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 UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Dict = "sshleifer/tiny-gpt2"
UpperCAmelCase_ : str = TensorFlowBenchmarkArguments(
models=[MODEL_ID] , training=lowercase_ , inference=lowercase_ , sequence_lengths=[8] , batch_sizes=[1] , use_xla=lowercase_ , multi_process=lowercase_ , )
UpperCAmelCase_ : Dict = TensorFlowBenchmark(lowercase_ )
UpperCAmelCase_ : Tuple = benchmark.run()
self.check_results_dict_not_empty(results.time_inference_result )
self.check_results_dict_not_empty(results.memory_inference_result )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : int = "sshleifer/tiny-gpt2"
with tempfile.TemporaryDirectory() as tmp_dir:
UpperCAmelCase_ : List[Any] = TensorFlowBenchmarkArguments(
models=[MODEL_ID] , inference=lowercase_ , save_to_csv=lowercase_ , sequence_lengths=[8] , batch_sizes=[1] , inference_time_csv_file=os.path.join(lowercase_ , "inf_time.csv" ) , inference_memory_csv_file=os.path.join(lowercase_ , "inf_mem.csv" ) , env_info_csv_file=os.path.join(lowercase_ , "env.csv" ) , multi_process=lowercase_ , )
UpperCAmelCase_ : Union[str, Any] = TensorFlowBenchmark(lowercase_ )
benchmark.run()
self.assertTrue(Path(os.path.join(lowercase_ , "inf_time.csv" ) ).exists() )
self.assertTrue(Path(os.path.join(lowercase_ , "inf_mem.csv" ) ).exists() )
self.assertTrue(Path(os.path.join(lowercase_ , "env.csv" ) ).exists() )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Dict = "sshleifer/tiny-gpt2"
def _check_summary_is_not_empty(lowercase_ ):
self.assertTrue(hasattr(lowercase_ , "sequential" ) )
self.assertTrue(hasattr(lowercase_ , "cumulative" ) )
self.assertTrue(hasattr(lowercase_ , "current" ) )
self.assertTrue(hasattr(lowercase_ , "total" ) )
with tempfile.TemporaryDirectory() as tmp_dir:
UpperCAmelCase_ : str = TensorFlowBenchmarkArguments(
models=[MODEL_ID] , inference=lowercase_ , sequence_lengths=[8] , batch_sizes=[1] , log_filename=os.path.join(lowercase_ , "log.txt" ) , log_print=lowercase_ , trace_memory_line_by_line=lowercase_ , eager_mode=lowercase_ , multi_process=lowercase_ , )
UpperCAmelCase_ : Tuple = TensorFlowBenchmark(lowercase_ )
UpperCAmelCase_ : Optional[int] = benchmark.run()
_check_summary_is_not_empty(result.inference_summary )
self.assertTrue(Path(os.path.join(lowercase_ , "log.txt" ) ).exists() )
| 61 |
"""simple docstring"""
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
return round(float(moles / volume ) * nfactor )
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
return round(float((moles * 0.0821 * temperature) / (volume) ) )
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
return round(float((moles * 0.0821 * temperature) / (pressure) ) )
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
return round(float((pressure * volume) / (0.0821 * moles) ) )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 61 | 1 |
"""simple docstring"""
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ , UpperCAmelCase_ : Optional[Any] = len(__lowerCamelCase ), len(grid[0] )
if (
min(__lowerCamelCase, __lowerCamelCase ) < 0
or row == row_length
or col == col_length
or (row, col) in visit
or grid[row][col] == 1
):
return 0
if row == row_length - 1 and col == col_length - 1:
return 1
visit.add((row, col) )
UpperCAmelCase_ : Dict = 0
count += depth_first_search(__lowerCamelCase, row + 1, __lowerCamelCase, __lowerCamelCase )
count += depth_first_search(__lowerCamelCase, row - 1, __lowerCamelCase, __lowerCamelCase )
count += depth_first_search(__lowerCamelCase, __lowerCamelCase, col + 1, __lowerCamelCase )
count += depth_first_search(__lowerCamelCase, __lowerCamelCase, col - 1, __lowerCamelCase )
visit.remove((row, col) )
return count
if __name__ == "__main__":
import doctest
doctest.testmod()
| 61 |
"""simple docstring"""
import os
_a = {'I': 1, 'V': 5, 'X': 10, 'L': 50, 'C': 100, 'D': 500, 'M': 1_000}
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : Union[str, Any] = 0
UpperCAmelCase_ : List[str] = 0
while index < len(__lowerCamelCase ) - 1:
UpperCAmelCase_ : Tuple = SYMBOLS[numerals[index]]
UpperCAmelCase_ : List[str] = SYMBOLS[numerals[index + 1]]
if current_value < next_value:
total_value -= current_value
else:
total_value += current_value
index += 1
total_value += SYMBOLS[numerals[index]]
return total_value
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : List[str] = ""
UpperCAmelCase_ : Any = num // 1000
numerals += m_count * "M"
num %= 1000
UpperCAmelCase_ : Any = num // 100
if c_count == 9:
numerals += "CM"
c_count -= 9
elif c_count == 4:
numerals += "CD"
c_count -= 4
if c_count >= 5:
numerals += "D"
c_count -= 5
numerals += c_count * "C"
num %= 100
UpperCAmelCase_ : str = num // 10
if x_count == 9:
numerals += "XC"
x_count -= 9
elif x_count == 4:
numerals += "XL"
x_count -= 4
if x_count >= 5:
numerals += "L"
x_count -= 5
numerals += x_count * "X"
num %= 10
if num == 9:
numerals += "IX"
num -= 9
elif num == 4:
numerals += "IV"
num -= 4
if num >= 5:
numerals += "V"
num -= 5
numerals += num * "I"
return numerals
def __a ( __lowerCamelCase = "/p089_roman.txt" ):
UpperCAmelCase_ : int = 0
with open(os.path.dirname(__lowerCamelCase ) + roman_numerals_filename ) as filea:
UpperCAmelCase_ : Optional[Any] = filea.readlines()
for line in lines:
UpperCAmelCase_ : Tuple = line.strip()
UpperCAmelCase_ : Optional[Any] = parse_roman_numerals(__lowerCamelCase )
UpperCAmelCase_ : Tuple = generate_roman_numerals(__lowerCamelCase )
savings += len(__lowerCamelCase ) - len(__lowerCamelCase )
return savings
if __name__ == "__main__":
print(f"""{solution() = }""")
| 61 | 1 |
"""simple docstring"""
import argparse
import json
import os
import fairseq
import torch
from fairseq.data import Dictionary
from transformers import (
HubertConfig,
HubertForCTC,
HubertModel,
WavaVecaCTCTokenizer,
WavaVecaFeatureExtractor,
WavaVecaProcessor,
logging,
)
logging.set_verbosity_info()
_a = logging.get_logger(__name__)
_a = {
'post_extract_proj': 'feature_projection.projection',
'encoder.pos_conv.0': 'encoder.pos_conv_embed.conv',
'self_attn.k_proj': 'encoder.layers.*.attention.k_proj',
'self_attn.v_proj': 'encoder.layers.*.attention.v_proj',
'self_attn.q_proj': 'encoder.layers.*.attention.q_proj',
'self_attn.out_proj': 'encoder.layers.*.attention.out_proj',
'self_attn_layer_norm': 'encoder.layers.*.layer_norm',
'fc1': 'encoder.layers.*.feed_forward.intermediate_dense',
'fc2': 'encoder.layers.*.feed_forward.output_dense',
'final_layer_norm': 'encoder.layers.*.final_layer_norm',
'encoder.layer_norm': 'encoder.layer_norm',
'w2v_model.layer_norm': 'feature_projection.layer_norm',
'w2v_encoder.proj': 'lm_head',
'mask_emb': 'masked_spec_embed',
}
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
for attribute in key.split("." ):
UpperCAmelCase_ : List[str] = getattr(__lowerCamelCase, __lowerCamelCase )
if weight_type is not None:
UpperCAmelCase_ : List[str] = getattr(__lowerCamelCase, __lowerCamelCase ).shape
else:
UpperCAmelCase_ : Optional[Any] = hf_pointer.shape
assert hf_shape == value.shape, (
f"""Shape of hf {key + "." + weight_type if weight_type is not None else ""} is {hf_shape}, but should be"""
f""" {value.shape} for {full_name}"""
)
if weight_type == "weight":
UpperCAmelCase_ : List[str] = value
elif weight_type == "weight_g":
UpperCAmelCase_ : List[str] = value
elif weight_type == "weight_v":
UpperCAmelCase_ : int = value
elif weight_type == "bias":
UpperCAmelCase_ : int = value
else:
UpperCAmelCase_ : Optional[int] = value
logger.info(f"""{key + "." + weight_type if weight_type is not None else ""} was initialized from {full_name}.""" )
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : str = []
UpperCAmelCase_ : int = fairseq_model.state_dict()
UpperCAmelCase_ : int = hf_model.hubert.feature_extractor if is_finetuned else hf_model.feature_extractor
for name, value in fairseq_dict.items():
UpperCAmelCase_ : int = False
if "conv_layers" in name:
load_conv_layer(
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, hf_model.config.feat_extract_norm == "group", )
UpperCAmelCase_ : int = True
else:
for key, mapped_key in MAPPING.items():
UpperCAmelCase_ : List[str] = "hubert." + mapped_key if (is_finetuned and mapped_key != "lm_head") else mapped_key
if key in name or (key.split("w2v_model." )[-1] == name.split("." )[0] and not is_finetuned):
UpperCAmelCase_ : Union[str, Any] = True
if "*" in mapped_key:
UpperCAmelCase_ : Tuple = name.split(__lowerCamelCase )[0].split("." )[-2]
UpperCAmelCase_ : List[Any] = mapped_key.replace("*", __lowerCamelCase )
if "weight_g" in name:
UpperCAmelCase_ : Optional[Any] = "weight_g"
elif "weight_v" in name:
UpperCAmelCase_ : int = "weight_v"
elif "weight" in name:
UpperCAmelCase_ : List[Any] = "weight"
elif "bias" in name:
UpperCAmelCase_ : Union[str, Any] = "bias"
else:
UpperCAmelCase_ : Optional[int] = None
set_recursively(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase )
continue
if not is_used:
unused_weights.append(__lowerCamelCase )
logger.warning(f"""Unused weights: {unused_weights}""" )
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : Optional[Any] = full_name.split("conv_layers." )[-1]
UpperCAmelCase_ : Tuple = name.split("." )
UpperCAmelCase_ : int = int(items[0] )
UpperCAmelCase_ : Optional[int] = int(items[1] )
if type_id == 0:
if "bias" in name:
assert value.shape == feature_extractor.conv_layers[layer_id].conv.bias.data.shape, (
f"""{full_name} has size {value.shape}, but"""
f""" {feature_extractor.conv_layers[layer_id].conv.bias.data.shape} was found."""
)
UpperCAmelCase_ : int = value
logger.info(f"""Feat extract conv layer {layer_id} was initialized from {full_name}.""" )
elif "weight" in name:
assert value.shape == feature_extractor.conv_layers[layer_id].conv.weight.data.shape, (
f"""{full_name} has size {value.shape}, but"""
f""" {feature_extractor.conv_layers[layer_id].conv.weight.data.shape} was found."""
)
UpperCAmelCase_ : Optional[Any] = value
logger.info(f"""Feat extract conv layer {layer_id} was initialized from {full_name}.""" )
elif (type_id == 2 and not use_group_norm) or (type_id == 2 and layer_id == 0 and use_group_norm):
if "bias" in name:
assert value.shape == feature_extractor.conv_layers[layer_id].layer_norm.bias.data.shape, (
f"""{full_name} has size {value.shape}, but {feature_extractor[layer_id].layer_norm.bias.data.shape} was"""
" found."
)
UpperCAmelCase_ : Optional[int] = value
logger.info(f"""Feat extract layer norm weight of layer {layer_id} was initialized from {full_name}.""" )
elif "weight" in name:
assert value.shape == feature_extractor.conv_layers[layer_id].layer_norm.weight.data.shape, (
f"""{full_name} has size {value.shape}, but"""
f""" {feature_extractor[layer_id].layer_norm.weight.data.shape} was found."""
)
UpperCAmelCase_ : Any = value
logger.info(f"""Feat extract layer norm weight of layer {layer_id} was initialized from {full_name}.""" )
else:
unused_weights.append(__lowerCamelCase )
@torch.no_grad()
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase=None, __lowerCamelCase=None, __lowerCamelCase=True ):
if config_path is not None:
UpperCAmelCase_ : Any = HubertConfig.from_pretrained(__lowerCamelCase )
else:
UpperCAmelCase_ : Dict = HubertConfig()
if is_finetuned:
if dict_path:
UpperCAmelCase_ : str = Dictionary.load(__lowerCamelCase )
# important change bos & pad token id since CTC symbol is <pad> and
# not <s> as in fairseq
UpperCAmelCase_ : str = target_dict.pad_index
UpperCAmelCase_ : int = target_dict.bos_index
UpperCAmelCase_ : List[str] = target_dict.eos_index
UpperCAmelCase_ : Optional[Any] = len(target_dict.symbols )
UpperCAmelCase_ : int = os.path.join(__lowerCamelCase, "vocab.json" )
if not os.path.isdir(__lowerCamelCase ):
logger.error("--pytorch_dump_folder_path ({}) should be a directory".format(__lowerCamelCase ) )
return
os.makedirs(__lowerCamelCase, exist_ok=__lowerCamelCase )
with open(__lowerCamelCase, "w", encoding="utf-8" ) as vocab_handle:
json.dump(target_dict.indices, __lowerCamelCase )
UpperCAmelCase_ : List[Any] = WavaVecaCTCTokenizer(
__lowerCamelCase, unk_token=target_dict.unk_word, pad_token=target_dict.pad_word, bos_token=target_dict.bos_word, eos_token=target_dict.eos_word, word_delimiter_token="|", do_lower_case=__lowerCamelCase, )
UpperCAmelCase_ : int = True if config.feat_extract_norm == "layer" else False
UpperCAmelCase_ : Dict = WavaVecaFeatureExtractor(
feature_size=1, sampling_rate=1_6000, padding_value=0, do_normalize=__lowerCamelCase, return_attention_mask=__lowerCamelCase, )
UpperCAmelCase_ : Tuple = WavaVecaProcessor(feature_extractor=__lowerCamelCase, tokenizer=__lowerCamelCase )
processor.save_pretrained(__lowerCamelCase )
UpperCAmelCase_ : List[Any] = HubertForCTC(__lowerCamelCase )
else:
UpperCAmelCase_ : str = HubertModel(__lowerCamelCase )
if is_finetuned:
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : Tuple = fairseq.checkpoint_utils.load_model_ensemble_and_task(
[checkpoint_path], arg_overrides={"data": "/".join(dict_path.split("/" )[:-1] )} )
else:
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : str = fairseq.checkpoint_utils.load_model_ensemble_and_task([checkpoint_path] )
UpperCAmelCase_ : int = model[0].eval()
recursively_load_weights(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase )
hf_wavavec.save_pretrained(__lowerCamelCase )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
parser.add_argument('--pytorch_dump_folder_path', default=None, type=str, help='Path to the output PyTorch model.')
parser.add_argument('--checkpoint_path', default=None, type=str, help='Path to fairseq checkpoint')
parser.add_argument('--dict_path', default=None, type=str, help='Path to dict of fine-tuned model')
parser.add_argument('--config_path', default=None, type=str, help='Path to hf config.json of model to convert')
parser.add_argument(
'--not_finetuned', action='store_true', help='Whether the model to convert is a fine-tuned model or not'
)
_a = parser.parse_args()
convert_hubert_checkpoint(
args.checkpoint_path, args.pytorch_dump_folder_path, args.config_path, args.dict_path, not args.not_finetuned
)
| 61 |
"""simple docstring"""
from unittest import TestCase
from datasets import Dataset
from minhash_deduplication import deduplicate_dataset, make_duplicate_clusters
def __a ( ):
UpperCAmelCase_ : List[Any] = {
"repo_name": ["test_repo1", "test_repo2", "test_repo3"],
"path": ["test_1.py", "test_2.py", "unit_test.py"],
"content": ["a " * 20, "a " * 30, "b " * 7],
}
UpperCAmelCase_ : Optional[int] = Dataset.from_dict(__lowerCamelCase )
return dataset
class A_ (lowercase__ ):
'''simple docstring'''
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Union[str, Any] = get_dataset()
UpperCAmelCase_ : Any = make_duplicate_clusters(lowercase_ , 0.85 )
self.assertEqual(len(duplicate_clusters[0] ) , 2 )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = get_dataset()
UpperCAmelCase_ , UpperCAmelCase_ : List[str] = deduplicate_dataset(lowercase_ )
self.assertEqual(len(lowercase_ ) , 2 )
print(lowercase_ )
self.assertEqual(duplicate_clusters[0][0]["copies"] , 2 )
self.assertEqual(duplicate_clusters[0][0]["is_extreme"] , lowercase_ )
| 61 | 1 |
"""simple docstring"""
from collections import defaultdict
from math import gcd
def __a ( __lowerCamelCase = 150_0000 ):
UpperCAmelCase_ : defaultdict = defaultdict(__lowerCamelCase )
UpperCAmelCase_ : List[str] = 2
while 2 * euclid_m * (euclid_m + 1) <= limit:
for euclid_n in range((euclid_m % 2) + 1, __lowerCamelCase, 2 ):
if gcd(__lowerCamelCase, __lowerCamelCase ) > 1:
continue
UpperCAmelCase_ : str = 2 * euclid_m * (euclid_m + euclid_n)
for perimeter in range(__lowerCamelCase, limit + 1, __lowerCamelCase ):
frequencies[perimeter] += 1
euclid_m += 1
return sum(1 for frequency in frequencies.values() if frequency == 1 )
if __name__ == "__main__":
print(f"""{solution() = }""")
| 61 |
"""simple docstring"""
from collections import namedtuple
_a = namedtuple('from_to', 'from_ to')
_a = {
'cubicmeter': from_to(1, 1),
'litre': from_to(0.001, 1_000),
'kilolitre': from_to(1, 1),
'gallon': from_to(0.0_0454, 264.172),
'cubicyard': from_to(0.7_6455, 1.3_0795),
'cubicfoot': from_to(0.028, 35.3147),
'cup': from_to(0.0_0023_6588, 4226.75),
}
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
if from_type not in METRIC_CONVERSION:
raise ValueError(
f"""Invalid 'from_type' value: {from_type!r} Supported values are:\n"""
+ ", ".join(__lowerCamelCase ) )
if to_type not in METRIC_CONVERSION:
raise ValueError(
f"""Invalid 'to_type' value: {to_type!r}. Supported values are:\n"""
+ ", ".join(__lowerCamelCase ) )
return value * METRIC_CONVERSION[from_type].from_ * METRIC_CONVERSION[to_type].to
if __name__ == "__main__":
import doctest
doctest.testmod()
| 61 | 1 |
"""simple docstring"""
import argparse
import os
import re
import packaging.version
_a = 'examples/'
_a = {
'examples': (re.compile(R'^check_min_version\("[^"]+"\)\s*$', re.MULTILINE), 'check_min_version("VERSION")\n'),
'init': (re.compile(R'^__version__\s+=\s+"([^"]+)"\s*$', re.MULTILINE), '__version__ = "VERSION"\n'),
'setup': (re.compile(R'^(\s*)version\s*=\s*"[^"]+",', re.MULTILINE), R'\1version="VERSION",'),
'doc': (re.compile(R'^(\s*)release\s*=\s*"[^"]+"$', re.MULTILINE), 'release = "VERSION"\n'),
}
_a = {
'init': 'src/diffusers/__init__.py',
'setup': 'setup.py',
}
_a = 'README.md'
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
with open(__lowerCamelCase, "r", encoding="utf-8", newline="\n" ) as f:
UpperCAmelCase_ : str = f.read()
UpperCAmelCase_ , UpperCAmelCase_ : List[str] = REPLACE_PATTERNS[pattern]
UpperCAmelCase_ : Optional[Any] = replace.replace("VERSION", __lowerCamelCase )
UpperCAmelCase_ : Union[str, Any] = re_pattern.sub(__lowerCamelCase, __lowerCamelCase )
with open(__lowerCamelCase, "w", encoding="utf-8", newline="\n" ) as f:
f.write(__lowerCamelCase )
def __a ( __lowerCamelCase ):
for folder, directories, fnames in os.walk(__lowerCamelCase ):
# Removing some of the folders with non-actively maintained examples from the walk
if "research_projects" in directories:
directories.remove("research_projects" )
if "legacy" in directories:
directories.remove("legacy" )
for fname in fnames:
if fname.endswith(".py" ):
update_version_in_file(os.path.join(__lowerCamelCase, __lowerCamelCase ), __lowerCamelCase, pattern="examples" )
def __a ( __lowerCamelCase, __lowerCamelCase=False ):
for pattern, fname in REPLACE_FILES.items():
update_version_in_file(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase )
if not patch:
update_version_in_examples(__lowerCamelCase )
def __a ( ):
UpperCAmelCase_ : Tuple = "🤗 Transformers currently provides the following architectures"
UpperCAmelCase_ : Tuple = "1. Want to contribute a new model?"
with open(__lowerCamelCase, "r", encoding="utf-8", newline="\n" ) as f:
UpperCAmelCase_ : Dict = f.readlines()
# Find the start of the list.
UpperCAmelCase_ : List[str] = 0
while not lines[start_index].startswith(_start_prompt ):
start_index += 1
start_index += 1
UpperCAmelCase_ : Dict = start_index
# Update the lines in the model list.
while not lines[index].startswith(_end_prompt ):
if lines[index].startswith("1." ):
UpperCAmelCase_ : Any = lines[index].replace(
"https://huggingface.co/docs/diffusers/main/model_doc", "https://huggingface.co/docs/diffusers/model_doc", )
index += 1
with open(__lowerCamelCase, "w", encoding="utf-8", newline="\n" ) as f:
f.writelines(__lowerCamelCase )
def __a ( ):
with open(REPLACE_FILES["init"], "r" ) as f:
UpperCAmelCase_ : Dict = f.read()
UpperCAmelCase_ : Union[str, Any] = REPLACE_PATTERNS["init"][0].search(__lowerCamelCase ).groups()[0]
return packaging.version.parse(__lowerCamelCase )
def __a ( __lowerCamelCase=False ):
UpperCAmelCase_ : int = get_version()
if patch and default_version.is_devrelease:
raise ValueError("Can't create a patch version from the dev branch, checkout a released version!" )
if default_version.is_devrelease:
UpperCAmelCase_ : int = default_version.base_version
elif patch:
UpperCAmelCase_ : str = f"""{default_version.major}.{default_version.minor}.{default_version.micro + 1}"""
else:
UpperCAmelCase_ : Optional[Any] = f"""{default_version.major}.{default_version.minor + 1}.0"""
# Now let's ask nicely if that's the right one.
UpperCAmelCase_ : Union[str, Any] = input(f"""Which version are you releasing? [{default_version}]""" )
if len(__lowerCamelCase ) == 0:
UpperCAmelCase_ : Union[str, Any] = default_version
print(f"""Updating version to {version}.""" )
global_version_update(__lowerCamelCase, patch=__lowerCamelCase )
def __a ( ):
UpperCAmelCase_ : Optional[int] = get_version()
UpperCAmelCase_ : Dict = f"""{current_version.major}.{current_version.minor + 1}.0.dev0"""
UpperCAmelCase_ : List[Any] = current_version.base_version
# Check with the user we got that right.
UpperCAmelCase_ : int = input(f"""Which version are we developing now? [{dev_version}]""" )
if len(__lowerCamelCase ) == 0:
UpperCAmelCase_ : Union[str, Any] = dev_version
print(f"""Updating version to {version}.""" )
global_version_update(__lowerCamelCase )
# print("Cleaning main README, don't forget to run `make fix-copies`.")
# clean_main_ref_in_model_list()
if __name__ == "__main__":
_a = argparse.ArgumentParser()
parser.add_argument('--post_release', action='store_true', help='Whether this is pre or post release.')
parser.add_argument('--patch', action='store_true', help='Whether or not this is a patch release.')
_a = parser.parse_args()
if not args.post_release:
pre_release_work(patch=args.patch)
elif args.patch:
print('Nothing to do after a patch :-)')
else:
post_release_work()
| 61 |
"""simple docstring"""
from __future__ import annotations
def __a ( __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ , UpperCAmelCase_ : str = set(__lowerCamelCase ), [start]
while stack:
UpperCAmelCase_ : Any = stack.pop()
explored.add(__lowerCamelCase )
# Differences from BFS:
# 1) pop last element instead of first one
# 2) add adjacent elements to stack without exploring them
for adj in reversed(graph[v] ):
if adj not in explored:
stack.append(__lowerCamelCase )
return explored
_a = {
'A': ['B', 'C', 'D'],
'B': ['A', 'D', 'E'],
'C': ['A', 'F'],
'D': ['B', 'D'],
'E': ['B', 'F'],
'F': ['C', 'E', 'G'],
'G': ['F'],
}
if __name__ == "__main__":
import doctest
doctest.testmod()
print(depth_first_search(G, 'A'))
| 61 | 1 |
"""simple docstring"""
import unittest
from transformers import MODEL_FOR_VISUAL_QUESTION_ANSWERING_MAPPING, is_vision_available
from transformers.pipelines import 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_ :
'''simple docstring'''
@staticmethod
def UpperCamelCase__ ( *lowercase_ , **lowercase_ ):
"""simple docstring"""
pass
@is_pipeline_test
@require_torch
@require_vision
class A_ (unittest.TestCase ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : List[Any] = MODEL_FOR_VISUAL_QUESTION_ANSWERING_MAPPING
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Dict = pipeline("visual-question-answering" , model="hf-internal-testing/tiny-vilt-random-vqa" )
UpperCAmelCase_ : List[str] = [
{
"image": Image.open("./tests/fixtures/tests_samples/COCO/000000039769.png" ),
"question": "How many cats are there?",
},
{
"image": "./tests/fixtures/tests_samples/COCO/000000039769.png",
"question": "How many cats are there?",
},
]
return vqa_pipeline, examples
def UpperCamelCase__ ( self , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : int = vqa_pipeline(lowercase_ , top_k=1 )
self.assertEqual(
lowercase_ , [
[{"score": ANY(lowercase_ ), "answer": ANY(lowercase_ )}],
[{"score": ANY(lowercase_ ), "answer": ANY(lowercase_ )}],
] , )
@require_torch
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = pipeline("visual-question-answering" , model="hf-internal-testing/tiny-vilt-random-vqa" )
UpperCAmelCase_ : Optional[int] = "./tests/fixtures/tests_samples/COCO/000000039769.png"
UpperCAmelCase_ : Any = "How many cats are there?"
UpperCAmelCase_ : List[str] = vqa_pipeline(image=lowercase_ , question="How many cats are there?" , top_k=2 )
self.assertEqual(
lowercase_ , [{"score": ANY(lowercase_ ), "answer": ANY(lowercase_ )}, {"score": ANY(lowercase_ ), "answer": ANY(lowercase_ )}] )
UpperCAmelCase_ : str = vqa_pipeline({"image": image, "question": question} , top_k=2 )
self.assertEqual(
lowercase_ , [{"score": ANY(lowercase_ ), "answer": ANY(lowercase_ )}, {"score": ANY(lowercase_ ), "answer": ANY(lowercase_ )}] )
@slow
@require_torch
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Any = pipeline("visual-question-answering" , model="dandelin/vilt-b32-finetuned-vqa" )
UpperCAmelCase_ : str = "./tests/fixtures/tests_samples/COCO/000000039769.png"
UpperCAmelCase_ : List[Any] = "How many cats are there?"
UpperCAmelCase_ : str = vqa_pipeline(image=lowercase_ , question=lowercase_ , top_k=2 )
self.assertEqual(
nested_simplify(lowercase_ , decimals=4 ) , [{"score": 0.87_99, "answer": "2"}, {"score": 0.2_96, "answer": "1"}] )
UpperCAmelCase_ : Tuple = vqa_pipeline({"image": image, "question": question} , top_k=2 )
self.assertEqual(
nested_simplify(lowercase_ , decimals=4 ) , [{"score": 0.87_99, "answer": "2"}, {"score": 0.2_96, "answer": "1"}] )
UpperCAmelCase_ : int = vqa_pipeline(
[{"image": image, "question": question}, {"image": image, "question": question}] , top_k=2 )
self.assertEqual(
nested_simplify(lowercase_ , decimals=4 ) , [[{"score": 0.87_99, "answer": "2"}, {"score": 0.2_96, "answer": "1"}]] * 2 , )
@require_tf
@unittest.skip("Visual question answering not implemented in TF" )
def UpperCamelCase__ ( self ):
"""simple docstring"""
pass
| 61 |
"""simple docstring"""
def __a ( __lowerCamelCase = 3, __lowerCamelCase = 7, __lowerCamelCase = 100_0000 ):
UpperCAmelCase_ : Dict = 0
UpperCAmelCase_ : List[Any] = 1
for current_denominator in range(1, limit + 1 ):
UpperCAmelCase_ : Dict = current_denominator * numerator // denominator
if current_denominator % denominator == 0:
current_numerator -= 1
if current_numerator * max_denominator > current_denominator * max_numerator:
UpperCAmelCase_ : List[Any] = current_numerator
UpperCAmelCase_ : Optional[int] = current_denominator
return max_numerator
if __name__ == "__main__":
print(solution(numerator=3, denominator=7, limit=1_000_000))
| 61 | 1 |
"""simple docstring"""
from ...utils import (
OptionalDependencyNotAvailable,
is_torch_available,
is_transformers_available,
is_transformers_version,
)
try:
if not (is_transformers_available() and is_torch_available() and is_transformers_version('>=', '4.25.0')):
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
from ...utils.dummy_torch_and_transformers_objects import UnCLIPImageVariationPipeline, UnCLIPPipeline
else:
from .pipeline_unclip import UnCLIPPipeline
from .pipeline_unclip_image_variation import UnCLIPImageVariationPipeline
from .text_proj import UnCLIPTextProjModel
| 61 |
"""simple docstring"""
import argparse
import os
import re
# All paths are set with the intent you should run this script from the root of the repo with the command
# python utils/check_dummies.py
_a = 'src/diffusers'
# Matches is_xxx_available()
_a = re.compile(R'is\_([a-z_]*)_available\(\)')
# Matches from xxx import bla
_a = re.compile(R'\s+from\s+\S*\s+import\s+([^\(\s].*)\n')
_a = '\n{0} = None\n'
_a = '\nclass {0}(metaclass=DummyObject):\n _backends = {1}\n\n def __init__(self, *args, **kwargs):\n requires_backends(self, {1})\n\n @classmethod\n def from_config(cls, *args, **kwargs):\n requires_backends(cls, {1})\n\n @classmethod\n def from_pretrained(cls, *args, **kwargs):\n requires_backends(cls, {1})\n'
_a = '\ndef {0}(*args, **kwargs):\n requires_backends({0}, {1})\n'
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : int = _re_backend.findall(__lowerCamelCase )
if len(__lowerCamelCase ) == 0:
return None
return "_and_".join(__lowerCamelCase )
def __a ( ):
with open(os.path.join(__lowerCamelCase, "__init__.py" ), "r", encoding="utf-8", newline="\n" ) as f:
UpperCAmelCase_ : Optional[int] = f.readlines()
# Get to the point we do the actual imports for type checking
UpperCAmelCase_ : Union[str, Any] = 0
UpperCAmelCase_ : Optional[int] = {}
# Go through the end of the file
while line_index < len(__lowerCamelCase ):
# If the line contains is_backend_available, we grab all objects associated with the `else` block
UpperCAmelCase_ : Union[str, Any] = find_backend(lines[line_index] )
if backend is not None:
while not lines[line_index].startswith("else:" ):
line_index += 1
line_index += 1
UpperCAmelCase_ : List[str] = []
# Until we unindent, add backend objects to the list
while line_index < len(__lowerCamelCase ) and len(lines[line_index] ) > 1:
UpperCAmelCase_ : Union[str, Any] = lines[line_index]
UpperCAmelCase_ : Optional[Any] = _re_single_line_import.search(__lowerCamelCase )
if single_line_import_search is not None:
objects.extend(single_line_import_search.groups()[0].split(", " ) )
elif line.startswith(" " * 8 ):
objects.append(line[8:-2] )
line_index += 1
if len(__lowerCamelCase ) > 0:
UpperCAmelCase_ : Optional[int] = objects
else:
line_index += 1
return backend_specific_objects
def __a ( __lowerCamelCase, __lowerCamelCase ):
if name.isupper():
return DUMMY_CONSTANT.format(__lowerCamelCase )
elif name.islower():
return DUMMY_FUNCTION.format(__lowerCamelCase, __lowerCamelCase )
else:
return DUMMY_CLASS.format(__lowerCamelCase, __lowerCamelCase )
def __a ( __lowerCamelCase=None ):
if backend_specific_objects is None:
UpperCAmelCase_ : Tuple = read_init()
# For special correspondence backend to module name as used in the function requires_modulename
UpperCAmelCase_ : str = {}
for backend, objects in backend_specific_objects.items():
UpperCAmelCase_ : int = "[" + ", ".join(f"""\"{b}\"""" for b in backend.split("_and_" ) ) + "]"
UpperCAmelCase_ : Dict = "# This file is autogenerated by the command `make fix-copies`, do not edit.\n"
dummy_file += "from ..utils import DummyObject, requires_backends\n\n"
dummy_file += "\n".join([create_dummy_object(__lowerCamelCase, __lowerCamelCase ) for o in objects] )
UpperCAmelCase_ : int = dummy_file
return dummy_files
def __a ( __lowerCamelCase=False ):
UpperCAmelCase_ : Optional[Any] = create_dummy_files()
# For special correspondence backend to shortcut as used in utils/dummy_xxx_objects.py
UpperCAmelCase_ : Union[str, Any] = {"torch": "pt"}
# Locate actual dummy modules and read their content.
UpperCAmelCase_ : List[str] = os.path.join(__lowerCamelCase, "utils" )
UpperCAmelCase_ : Optional[int] = {
backend: os.path.join(__lowerCamelCase, f"""dummy_{short_names.get(__lowerCamelCase, __lowerCamelCase )}_objects.py""" )
for backend in dummy_files.keys()
}
UpperCAmelCase_ : Any = {}
for backend, file_path in dummy_file_paths.items():
if os.path.isfile(__lowerCamelCase ):
with open(__lowerCamelCase, "r", encoding="utf-8", newline="\n" ) as f:
UpperCAmelCase_ : Optional[int] = f.read()
else:
UpperCAmelCase_ : Any = ""
for backend in dummy_files.keys():
if dummy_files[backend] != actual_dummies[backend]:
if overwrite:
print(
f"""Updating diffusers.utils.dummy_{short_names.get(__lowerCamelCase, __lowerCamelCase )}_objects.py as the main """
"__init__ has new objects." )
with open(dummy_file_paths[backend], "w", encoding="utf-8", newline="\n" ) as f:
f.write(dummy_files[backend] )
else:
raise ValueError(
"The main __init__ has objects that are not present in "
f"""diffusers.utils.dummy_{short_names.get(__lowerCamelCase, __lowerCamelCase )}_objects.py. Run `make fix-copies` """
"to fix this." )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
parser.add_argument('--fix_and_overwrite', action='store_true', help='Whether to fix inconsistencies.')
_a = parser.parse_args()
check_dummies(args.fix_and_overwrite)
| 61 | 1 |
"""simple docstring"""
import heapq as hq
import math
from collections.abc import Iterator
class A_ :
'''simple docstring'''
def __init__( self , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Optional[int] = str(id_ )
UpperCAmelCase_ : List[str] = None
UpperCAmelCase_ : List[str] = None
UpperCAmelCase_ : List[Any] = []
UpperCAmelCase_ : Union[str, Any] = {} # {vertex:distance}
def __lt__( self , lowercase_ ):
"""simple docstring"""
return self.key < other.key
def __repr__( self ):
"""simple docstring"""
return self.id
def UpperCamelCase__ ( self , lowercase_ ):
"""simple docstring"""
self.neighbors.append(lowercase_ )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : List[Any] = weight
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
# add the neighbors:
graph[a - 1].add_neighbor(graph[b - 1] )
graph[b - 1].add_neighbor(graph[a - 1] )
# add the edges:
graph[a - 1].add_edge(graph[b - 1], __lowerCamelCase )
graph[b - 1].add_edge(graph[a - 1], __lowerCamelCase )
def __a ( __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : int = []
for u in graph:
UpperCAmelCase_ : str = math.inf
UpperCAmelCase_ : Tuple = None
UpperCAmelCase_ : List[str] = 0
UpperCAmelCase_ : Any = graph[:]
while q:
UpperCAmelCase_ : List[Any] = min(__lowerCamelCase )
q.remove(__lowerCamelCase )
for v in u.neighbors:
if (v in q) and (u.edges[v.id] < v.key):
UpperCAmelCase_ : int = u
UpperCAmelCase_ : int = u.edges[v.id]
for i in range(1, len(__lowerCamelCase ) ):
a.append((int(graph[i].id ) + 1, int(graph[i].pi.id ) + 1) )
return a
def __a ( __lowerCamelCase, __lowerCamelCase ):
for u in graph:
UpperCAmelCase_ : Dict = math.inf
UpperCAmelCase_ : Optional[Any] = None
UpperCAmelCase_ : Optional[Any] = 0
UpperCAmelCase_ : Tuple = list(__lowerCamelCase )
hq.heapify(__lowerCamelCase )
while h:
UpperCAmelCase_ : str = hq.heappop(__lowerCamelCase )
for v in u.neighbors:
if (v in h) and (u.edges[v.id] < v.key):
UpperCAmelCase_ : Dict = u
UpperCAmelCase_ : str = u.edges[v.id]
hq.heapify(__lowerCamelCase )
for i in range(1, len(__lowerCamelCase ) ):
yield (int(graph[i].id ) + 1, int(graph[i].pi.id ) + 1)
def __a ( ):
pass
if __name__ == "__main__":
import doctest
doctest.testmod()
| 61 |
"""simple docstring"""
import torch
from diffusers import DDIMParallelScheduler
from .test_schedulers import SchedulerCommonTest
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Optional[int] = (DDIMParallelScheduler,)
SCREAMING_SNAKE_CASE__ : Optional[Any] = (("""eta""", 0.0), ("""num_inference_steps""", 50))
def UpperCamelCase__ ( self , **lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : int = {
"num_train_timesteps": 1000,
"beta_start": 0.00_01,
"beta_end": 0.02,
"beta_schedule": "linear",
"clip_sample": True,
}
config.update(**lowercase_ )
return config
def UpperCamelCase__ ( self , **lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Dict = self.scheduler_classes[0]
UpperCAmelCase_ : Union[str, Any] = self.get_scheduler_config(**lowercase_ )
UpperCAmelCase_ : int = scheduler_class(**lowercase_ )
UpperCAmelCase_ , UpperCAmelCase_ : str = 10, 0.0
UpperCAmelCase_ : Optional[int] = self.dummy_model()
UpperCAmelCase_ : str = self.dummy_sample_deter
scheduler.set_timesteps(lowercase_ )
for t in scheduler.timesteps:
UpperCAmelCase_ : Dict = model(lowercase_ , lowercase_ )
UpperCAmelCase_ : Dict = scheduler.step(lowercase_ , lowercase_ , lowercase_ , lowercase_ ).prev_sample
return sample
def UpperCamelCase__ ( self ):
"""simple docstring"""
for timesteps in [100, 500, 1000]:
self.check_over_configs(num_train_timesteps=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for steps_offset in [0, 1]:
self.check_over_configs(steps_offset=lowercase_ )
UpperCAmelCase_ : str = self.scheduler_classes[0]
UpperCAmelCase_ : List[str] = self.get_scheduler_config(steps_offset=1 )
UpperCAmelCase_ : List[str] = scheduler_class(**lowercase_ )
scheduler.set_timesteps(5 )
assert torch.equal(scheduler.timesteps , torch.LongTensor([801, 601, 401, 201, 1] ) )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for beta_start, beta_end in zip([0.00_01, 0.0_01, 0.01, 0.1] , [0.0_02, 0.02, 0.2, 2] ):
self.check_over_configs(beta_start=lowercase_ , beta_end=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for schedule in ["linear", "squaredcos_cap_v2"]:
self.check_over_configs(beta_schedule=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for prediction_type in ["epsilon", "v_prediction"]:
self.check_over_configs(prediction_type=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for clip_sample in [True, False]:
self.check_over_configs(clip_sample=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for timestep_spacing in ["trailing", "leading"]:
self.check_over_configs(timestep_spacing=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for rescale_betas_zero_snr in [True, False]:
self.check_over_configs(rescale_betas_zero_snr=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
self.check_over_configs(thresholding=lowercase_ )
for threshold in [0.5, 1.0, 2.0]:
for prediction_type in ["epsilon", "v_prediction"]:
self.check_over_configs(
thresholding=lowercase_ , prediction_type=lowercase_ , sample_max_value=lowercase_ , )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for t in [1, 10, 49]:
self.check_over_forward(time_step=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for t, num_inference_steps in zip([1, 10, 50] , [10, 50, 500] ):
self.check_over_forward(time_step=lowercase_ , num_inference_steps=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for t, eta in zip([1, 10, 49] , [0.0, 0.5, 1.0] ):
self.check_over_forward(time_step=lowercase_ , eta=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Union[str, Any] = self.scheduler_classes[0]
UpperCAmelCase_ : List[str] = self.get_scheduler_config()
UpperCAmelCase_ : List[str] = scheduler_class(**lowercase_ )
assert torch.sum(torch.abs(scheduler._get_variance(0 , 0 ) - 0.0 ) ) < 1E-5
assert torch.sum(torch.abs(scheduler._get_variance(420 , 400 ) - 0.1_47_71 ) ) < 1E-5
assert torch.sum(torch.abs(scheduler._get_variance(980 , 960 ) - 0.3_24_60 ) ) < 1E-5
assert torch.sum(torch.abs(scheduler._get_variance(0 , 0 ) - 0.0 ) ) < 1E-5
assert torch.sum(torch.abs(scheduler._get_variance(487 , 486 ) - 0.0_09_79 ) ) < 1E-5
assert torch.sum(torch.abs(scheduler._get_variance(999 , 998 ) - 0.02 ) ) < 1E-5
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = self.scheduler_classes[0]
UpperCAmelCase_ : Optional[int] = self.get_scheduler_config()
UpperCAmelCase_ : List[str] = scheduler_class(**lowercase_ )
UpperCAmelCase_ , UpperCAmelCase_ : Tuple = 10, 0.0
scheduler.set_timesteps(lowercase_ )
UpperCAmelCase_ : Union[str, Any] = self.dummy_model()
UpperCAmelCase_ : List[str] = self.dummy_sample_deter
UpperCAmelCase_ : Any = self.dummy_sample_deter + 0.1
UpperCAmelCase_ : int = self.dummy_sample_deter - 0.1
UpperCAmelCase_ : List[Any] = samplea.shape[0]
UpperCAmelCase_ : int = torch.stack([samplea, samplea, samplea] , dim=0 )
UpperCAmelCase_ : int = torch.arange(lowercase_ )[0:3, None].repeat(1 , lowercase_ )
UpperCAmelCase_ : int = model(samples.flatten(0 , 1 ) , timesteps.flatten(0 , 1 ) )
UpperCAmelCase_ : Optional[Any] = scheduler.batch_step_no_noise(lowercase_ , timesteps.flatten(0 , 1 ) , samples.flatten(0 , 1 ) , lowercase_ )
UpperCAmelCase_ : List[Any] = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : str = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 11_47.79_04 ) < 1E-2
assert abs(result_mean.item() - 0.49_82 ) < 1E-3
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = self.full_loop()
UpperCAmelCase_ : int = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : List[str] = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 1_72.00_67 ) < 1E-2
assert abs(result_mean.item() - 0.22_39_67 ) < 1E-3
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = self.full_loop(prediction_type="v_prediction" )
UpperCAmelCase_ : str = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : Dict = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 52.53_02 ) < 1E-2
assert abs(result_mean.item() - 0.06_84 ) < 1E-3
def UpperCamelCase__ ( self ):
"""simple docstring"""
# We specify different beta, so that the first alpha is 0.99
UpperCAmelCase_ : List[str] = self.full_loop(set_alpha_to_one=lowercase_ , beta_start=0.01 )
UpperCAmelCase_ : Dict = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : Tuple = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 1_49.82_95 ) < 1E-2
assert abs(result_mean.item() - 0.19_51 ) < 1E-3
def UpperCamelCase__ ( self ):
"""simple docstring"""
# We specify different beta, so that the first alpha is 0.99
UpperCAmelCase_ : int = self.full_loop(set_alpha_to_one=lowercase_ , beta_start=0.01 )
UpperCAmelCase_ : List[Any] = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : Dict = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 1_49.07_84 ) < 1E-2
assert abs(result_mean.item() - 0.19_41 ) < 1E-3
| 61 | 1 |
"""simple docstring"""
import gc
import unittest
import numpy as np
import torch
from transformers import CLIPTextConfig, CLIPTextModelWithProjection, CLIPTokenizer
from diffusers import HeunDiscreteScheduler, PriorTransformer, ShapEPipeline
from diffusers.pipelines.shap_e import ShapERenderer
from diffusers.utils import load_numpy, slow
from diffusers.utils.testing_utils import require_torch_gpu, torch_device
from ..test_pipelines_common import PipelineTesterMixin, assert_mean_pixel_difference
class A_ (lowercase__ ,unittest.TestCase ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Any = ShapEPipeline
SCREAMING_SNAKE_CASE__ : Any = ["""prompt"""]
SCREAMING_SNAKE_CASE__ : str = ["""prompt"""]
SCREAMING_SNAKE_CASE__ : List[str] = [
"""num_images_per_prompt""",
"""num_inference_steps""",
"""generator""",
"""latents""",
"""guidance_scale""",
"""frame_size""",
"""output_type""",
"""return_dict""",
]
SCREAMING_SNAKE_CASE__ : int = False
@property
def UpperCamelCase__ ( self ):
"""simple docstring"""
return 32
@property
def UpperCamelCase__ ( self ):
"""simple docstring"""
return 32
@property
def UpperCamelCase__ ( self ):
"""simple docstring"""
return self.time_input_dim * 4
@property
def UpperCamelCase__ ( self ):
"""simple docstring"""
return 8
@property
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[int] = CLIPTokenizer.from_pretrained("hf-internal-testing/tiny-random-clip" )
return tokenizer
@property
def UpperCamelCase__ ( self ):
"""simple docstring"""
torch.manual_seed(0 )
UpperCAmelCase_ : List[Any] = 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-0_5 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1000 , )
return CLIPTextModelWithProjection(lowercase_ )
@property
def UpperCamelCase__ ( self ):
"""simple docstring"""
torch.manual_seed(0 )
UpperCAmelCase_ : List[Any] = {
"num_attention_heads": 2,
"attention_head_dim": 16,
"embedding_dim": self.time_input_dim,
"num_embeddings": 32,
"embedding_proj_dim": self.text_embedder_hidden_size,
"time_embed_dim": self.time_embed_dim,
"num_layers": 1,
"clip_embed_dim": self.time_input_dim * 2,
"additional_embeddings": 0,
"time_embed_act_fn": "gelu",
"norm_in_type": "layer",
"encoder_hid_proj_type": None,
"added_emb_type": None,
}
UpperCAmelCase_ : str = PriorTransformer(**lowercase_ )
return model
@property
def UpperCamelCase__ ( self ):
"""simple docstring"""
torch.manual_seed(0 )
UpperCAmelCase_ : Any = {
"param_shapes": (
(self.renderer_dim, 93),
(self.renderer_dim, 8),
(self.renderer_dim, 8),
(self.renderer_dim, 8),
),
"d_latent": self.time_input_dim,
"d_hidden": self.renderer_dim,
"n_output": 12,
"background": (
0.1,
0.1,
0.1,
),
}
UpperCAmelCase_ : Dict = ShapERenderer(**lowercase_ )
return model
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Any = self.dummy_prior
UpperCAmelCase_ : Optional[int] = self.dummy_text_encoder
UpperCAmelCase_ : Optional[Any] = self.dummy_tokenizer
UpperCAmelCase_ : List[Any] = self.dummy_renderer
UpperCAmelCase_ : List[Any] = HeunDiscreteScheduler(
beta_schedule="exp" , num_train_timesteps=1024 , prediction_type="sample" , use_karras_sigmas=lowercase_ , clip_sample=lowercase_ , clip_sample_range=1.0 , )
UpperCAmelCase_ : Any = {
"prior": prior,
"text_encoder": text_encoder,
"tokenizer": tokenizer,
"renderer": renderer,
"scheduler": scheduler,
}
return components
def UpperCamelCase__ ( self , lowercase_ , lowercase_=0 ):
"""simple docstring"""
if str(lowercase_ ).startswith("mps" ):
UpperCAmelCase_ : Optional[int] = torch.manual_seed(lowercase_ )
else:
UpperCAmelCase_ : str = torch.Generator(device=lowercase_ ).manual_seed(lowercase_ )
UpperCAmelCase_ : List[Any] = {
"prompt": "horse",
"generator": generator,
"num_inference_steps": 1,
"frame_size": 32,
"output_type": "np",
}
return inputs
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = "cpu"
UpperCAmelCase_ : List[str] = self.get_dummy_components()
UpperCAmelCase_ : List[Any] = self.pipeline_class(**lowercase_ )
UpperCAmelCase_ : Union[str, Any] = pipe.to(lowercase_ )
pipe.set_progress_bar_config(disable=lowercase_ )
UpperCAmelCase_ : Union[str, Any] = pipe(**self.get_dummy_inputs(lowercase_ ) )
UpperCAmelCase_ : Any = output.images[0]
UpperCAmelCase_ : Any = image[0, -3:, -3:, -1]
assert image.shape == (20, 32, 32, 3)
UpperCAmelCase_ : Tuple = np.array(
[
0.00_03_92_16,
0.00_03_92_16,
0.00_03_92_16,
0.00_03_92_16,
0.00_03_92_16,
0.00_03_92_16,
0.00_03_92_16,
0.00_03_92_16,
0.00_03_92_16,
] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2
def UpperCamelCase__ ( self ):
"""simple docstring"""
# NOTE: Larger batch sizes cause this test to timeout, only test on smaller batches
self._test_inference_batch_consistent(batch_sizes=[1, 2] )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[int] = torch_device == "cpu"
UpperCAmelCase_ : List[str] = True
self._test_inference_batch_single_identical(
batch_size=2 , test_max_difference=lowercase_ , relax_max_difference=lowercase_ , )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = self.get_dummy_components()
UpperCAmelCase_ : List[Any] = self.pipeline_class(**lowercase_ )
UpperCAmelCase_ : Any = pipe.to(lowercase_ )
pipe.set_progress_bar_config(disable=lowercase_ )
UpperCAmelCase_ : Optional[int] = 1
UpperCAmelCase_ : Tuple = 2
UpperCAmelCase_ : Tuple = self.get_dummy_inputs(lowercase_ )
for key in inputs.keys():
if key in self.batch_params:
UpperCAmelCase_ : Tuple = batch_size * [inputs[key]]
UpperCAmelCase_ : Optional[Any] = pipe(**lowercase_ , num_images_per_prompt=lowercase_ )[0]
assert images.shape[0] == batch_size * num_images_per_prompt
@slow
@require_torch_gpu
class A_ (unittest.TestCase ):
'''simple docstring'''
def UpperCamelCase__ ( self ):
"""simple docstring"""
# clean up the VRAM after each test
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : int = load_numpy(
"https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main"
"/shap_e/test_shap_e_np_out.npy" )
UpperCAmelCase_ : Optional[int] = ShapEPipeline.from_pretrained("openai/shap-e" )
UpperCAmelCase_ : Optional[Any] = pipe.to(lowercase_ )
pipe.set_progress_bar_config(disable=lowercase_ )
UpperCAmelCase_ : Union[str, Any] = torch.Generator(device=lowercase_ ).manual_seed(0 )
UpperCAmelCase_ : Any = pipe(
"a shark" , generator=lowercase_ , guidance_scale=15.0 , num_inference_steps=64 , frame_size=64 , output_type="np" , ).images[0]
assert images.shape == (20, 64, 64, 3)
assert_mean_pixel_difference(lowercase_ , lowercase_ )
| 61 |
"""simple docstring"""
import inspect
import unittest
import numpy as np
from transformers import ViTConfig, is_flax_available
from transformers.testing_utils import require_flax, slow
from ...test_configuration_common import ConfigTester
from ...test_modeling_flax_common import FlaxModelTesterMixin, floats_tensor
if is_flax_available():
import jax
from transformers.models.vit.modeling_flax_vit import FlaxViTForImageClassification, FlaxViTModel
class A_ (unittest.TestCase ):
'''simple docstring'''
def __init__( self , lowercase_ , lowercase_=13 , lowercase_=30 , lowercase_=2 , lowercase_=3 , lowercase_=True , lowercase_=True , lowercase_=32 , lowercase_=5 , lowercase_=4 , lowercase_=37 , lowercase_="gelu" , lowercase_=0.1 , lowercase_=0.1 , lowercase_=10 , lowercase_=0.02 , ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = parent
UpperCAmelCase_ : List[str] = batch_size
UpperCAmelCase_ : Union[str, Any] = image_size
UpperCAmelCase_ : List[str] = patch_size
UpperCAmelCase_ : Union[str, Any] = num_channels
UpperCAmelCase_ : Optional[int] = is_training
UpperCAmelCase_ : Dict = use_labels
UpperCAmelCase_ : Any = hidden_size
UpperCAmelCase_ : Optional[Any] = num_hidden_layers
UpperCAmelCase_ : Optional[Any] = num_attention_heads
UpperCAmelCase_ : Dict = intermediate_size
UpperCAmelCase_ : Optional[Any] = hidden_act
UpperCAmelCase_ : Optional[Any] = hidden_dropout_prob
UpperCAmelCase_ : Tuple = attention_probs_dropout_prob
UpperCAmelCase_ : Dict = type_sequence_label_size
UpperCAmelCase_ : Optional[Any] = initializer_range
# in ViT, the seq length equals the number of patches + 1 (we add 1 for the [CLS] token)
UpperCAmelCase_ : Any = (image_size // patch_size) ** 2
UpperCAmelCase_ : List[str] = num_patches + 1
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] )
UpperCAmelCase_ : Dict = 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=lowercase_ , initializer_range=self.initializer_range , )
return config, pixel_values
def UpperCamelCase__ ( self , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = FlaxViTModel(config=lowercase_ )
UpperCAmelCase_ : int = model(lowercase_ )
# expected sequence length = num_patches + 1 (we add 1 for the [CLS] token)
UpperCAmelCase_ : Optional[Any] = (self.image_size, self.image_size)
UpperCAmelCase_ : List[Any] = (self.patch_size, self.patch_size)
UpperCAmelCase_ : str = (image_size[1] // patch_size[1]) * (image_size[0] // patch_size[0])
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, num_patches + 1, self.hidden_size) )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = self.type_sequence_label_size
UpperCAmelCase_ : Tuple = FlaxViTForImageClassification(config=lowercase_ )
UpperCAmelCase_ : str = model(lowercase_ )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size) )
# test greyscale images
UpperCAmelCase_ : Any = 1
UpperCAmelCase_ : Optional[int] = FlaxViTForImageClassification(lowercase_ )
UpperCAmelCase_ : List[Any] = floats_tensor([self.batch_size, 1, self.image_size, self.image_size] )
UpperCAmelCase_ : List[Any] = model(lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[Any] = self.prepare_config_and_inputs()
(
(
UpperCAmelCase_
) , (
UpperCAmelCase_
) ,
) : Tuple = config_and_inputs
UpperCAmelCase_ : Union[str, Any] = {"pixel_values": pixel_values}
return config, inputs_dict
@require_flax
class A_ (lowercase__ ,unittest.TestCase ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Any = (FlaxViTModel, FlaxViTForImageClassification) if is_flax_available() else ()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[Any] = FlaxViTModelTester(self )
UpperCAmelCase_ : Dict = ConfigTester(self , config_class=lowercase_ , has_text_modality=lowercase_ , hidden_size=37 )
def UpperCamelCase__ ( self ):
"""simple docstring"""
self.config_tester.run_common_tests()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[Any] = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_image_classification(*lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : List[str] = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
UpperCAmelCase_ : Optional[Any] = model_class(lowercase_ )
UpperCAmelCase_ : Optional[int] = inspect.signature(model.__call__ )
# signature.parameters is an OrderedDict => so arg_names order is deterministic
UpperCAmelCase_ : List[str] = [*signature.parameters.keys()]
UpperCAmelCase_ : List[str] = ["pixel_values"]
self.assertListEqual(arg_names[:1] , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Tuple = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
with self.subTest(model_class.__name__ ):
UpperCAmelCase_ : Union[str, Any] = self._prepare_for_class(lowercase_ , lowercase_ )
UpperCAmelCase_ : Tuple = model_class(lowercase_ )
@jax.jit
def model_jitted(lowercase_ , **lowercase_ ):
return model(pixel_values=lowercase_ , **lowercase_ )
with self.subTest("JIT Enabled" ):
UpperCAmelCase_ : Union[str, Any] = model_jitted(**lowercase_ ).to_tuple()
with self.subTest("JIT Disabled" ):
with jax.disable_jit():
UpperCAmelCase_ : Tuple = model_jitted(**lowercase_ ).to_tuple()
self.assertEqual(len(lowercase_ ) , len(lowercase_ ) )
for jitted_output, output in zip(lowercase_ , lowercase_ ):
self.assertEqual(jitted_output.shape , output.shape )
@slow
def UpperCamelCase__ ( self ):
"""simple docstring"""
for model_class_name in self.all_model_classes:
UpperCAmelCase_ : Union[str, Any] = model_class_name.from_pretrained("google/vit-base-patch16-224" )
UpperCAmelCase_ : List[str] = model(np.ones((1, 3, 224, 224) ) )
self.assertIsNotNone(lowercase_ )
| 61 | 1 |
"""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_roberta import RobertaTokenizer
_a = logging.get_logger(__name__)
_a = {'vocab_file': 'vocab.json', 'merges_file': 'merges.txt', 'tokenizer_file': 'tokenizer.json'}
_a = {
'vocab_file': {
'roberta-base': 'https://huggingface.co/roberta-base/resolve/main/vocab.json',
'roberta-large': 'https://huggingface.co/roberta-large/resolve/main/vocab.json',
'roberta-large-mnli': 'https://huggingface.co/roberta-large-mnli/resolve/main/vocab.json',
'distilroberta-base': 'https://huggingface.co/distilroberta-base/resolve/main/vocab.json',
'roberta-base-openai-detector': 'https://huggingface.co/roberta-base-openai-detector/resolve/main/vocab.json',
'roberta-large-openai-detector': (
'https://huggingface.co/roberta-large-openai-detector/resolve/main/vocab.json'
),
},
'merges_file': {
'roberta-base': 'https://huggingface.co/roberta-base/resolve/main/merges.txt',
'roberta-large': 'https://huggingface.co/roberta-large/resolve/main/merges.txt',
'roberta-large-mnli': 'https://huggingface.co/roberta-large-mnli/resolve/main/merges.txt',
'distilroberta-base': 'https://huggingface.co/distilroberta-base/resolve/main/merges.txt',
'roberta-base-openai-detector': 'https://huggingface.co/roberta-base-openai-detector/resolve/main/merges.txt',
'roberta-large-openai-detector': (
'https://huggingface.co/roberta-large-openai-detector/resolve/main/merges.txt'
),
},
'tokenizer_file': {
'roberta-base': 'https://huggingface.co/roberta-base/resolve/main/tokenizer.json',
'roberta-large': 'https://huggingface.co/roberta-large/resolve/main/tokenizer.json',
'roberta-large-mnli': 'https://huggingface.co/roberta-large-mnli/resolve/main/tokenizer.json',
'distilroberta-base': 'https://huggingface.co/distilroberta-base/resolve/main/tokenizer.json',
'roberta-base-openai-detector': (
'https://huggingface.co/roberta-base-openai-detector/resolve/main/tokenizer.json'
),
'roberta-large-openai-detector': (
'https://huggingface.co/roberta-large-openai-detector/resolve/main/tokenizer.json'
),
},
}
_a = {
'roberta-base': 512,
'roberta-large': 512,
'roberta-large-mnli': 512,
'distilroberta-base': 512,
'roberta-base-openai-detector': 512,
'roberta-large-openai-detector': 512,
}
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : List[Any] = VOCAB_FILES_NAMES
SCREAMING_SNAKE_CASE__ : Dict = PRETRAINED_VOCAB_FILES_MAP
SCREAMING_SNAKE_CASE__ : List[Any] = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
SCREAMING_SNAKE_CASE__ : Any = ["""input_ids""", """attention_mask"""]
SCREAMING_SNAKE_CASE__ : Optional[Any] = RobertaTokenizer
def __init__( self , lowercase_=None , lowercase_=None , lowercase_=None , lowercase_="replace" , lowercase_="<s>" , lowercase_="</s>" , lowercase_="</s>" , lowercase_="<s>" , lowercase_="<unk>" , lowercase_="<pad>" , lowercase_="<mask>" , lowercase_=False , lowercase_=True , **lowercase_ , ):
"""simple docstring"""
super().__init__(
lowercase_ , lowercase_ , tokenizer_file=lowercase_ , errors=lowercase_ , bos_token=lowercase_ , eos_token=lowercase_ , sep_token=lowercase_ , cls_token=lowercase_ , unk_token=lowercase_ , pad_token=lowercase_ , mask_token=lowercase_ , add_prefix_space=lowercase_ , trim_offsets=lowercase_ , **lowercase_ , )
UpperCAmelCase_ : Optional[int] = json.loads(self.backend_tokenizer.pre_tokenizer.__getstate__() )
if pre_tok_state.get("add_prefix_space" , lowercase_ ) != add_prefix_space:
UpperCAmelCase_ : Union[str, Any] = getattr(lowercase_ , pre_tok_state.pop("type" ) )
UpperCAmelCase_ : Any = add_prefix_space
UpperCAmelCase_ : Tuple = pre_tok_class(**lowercase_ )
UpperCAmelCase_ : List[Any] = add_prefix_space
UpperCAmelCase_ : List[Any] = "post_processor"
UpperCAmelCase_ : Union[str, Any] = getattr(self.backend_tokenizer , lowercase_ , lowercase_ )
if tokenizer_component_instance:
UpperCAmelCase_ : str = 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_ : Any = tuple(state["sep"] )
if "cls" in state:
UpperCAmelCase_ : Optional[int] = tuple(state["cls"] )
UpperCAmelCase_ : List[Any] = False
if state.get("add_prefix_space" , lowercase_ ) != add_prefix_space:
UpperCAmelCase_ : int = add_prefix_space
UpperCAmelCase_ : Optional[int] = True
if state.get("trim_offsets" , lowercase_ ) != trim_offsets:
UpperCAmelCase_ : List[str] = trim_offsets
UpperCAmelCase_ : List[str] = True
if changes_to_apply:
UpperCAmelCase_ : Optional[Any] = getattr(lowercase_ , state.pop("type" ) )
UpperCAmelCase_ : Any = component_class(**lowercase_ )
setattr(self.backend_tokenizer , lowercase_ , lowercase_ )
@property
def UpperCamelCase__ ( self ):
"""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 UpperCamelCase__ ( self , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : int = AddedToken(lowercase_ , lstrip=lowercase_ , rstrip=lowercase_ ) if isinstance(lowercase_ , lowercase_ ) else value
UpperCAmelCase_ : Optional[Any] = value
def UpperCamelCase__ ( self , *lowercase_ , **lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Any = kwargs.get("is_split_into_words" , lowercase_ )
assert self.add_prefix_space or not is_split_into_words, (
F"""You need to instantiate {self.__class__.__name__} with add_prefix_space=True """
"to use it with pretokenized inputs."
)
return super()._batch_encode_plus(*lowercase_ , **lowercase_ )
def UpperCamelCase__ ( self , *lowercase_ , **lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : int = kwargs.get("is_split_into_words" , lowercase_ )
assert self.add_prefix_space or not is_split_into_words, (
F"""You need to instantiate {self.__class__.__name__} with add_prefix_space=True """
"to use it with pretokenized inputs."
)
return super()._encode_plus(*lowercase_ , **lowercase_ )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ = None ):
"""simple docstring"""
UpperCAmelCase_ : Union[str, Any] = self._tokenizer.model.save(lowercase_ , name=lowercase_ )
return tuple(lowercase_ )
def UpperCamelCase__ ( self , lowercase_ , lowercase_=None ):
"""simple docstring"""
UpperCAmelCase_ : Dict = [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 , lowercase_ , lowercase_ = None ):
"""simple docstring"""
UpperCAmelCase_ : Union[str, Any] = [self.sep_token_id]
UpperCAmelCase_ : 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 + sep + token_ids_a + sep ) * [0]
| 61 |
"""simple docstring"""
from ...utils import is_torch_available, is_transformers_available
if is_transformers_available() and is_torch_available():
from .pipeline_vq_diffusion import LearnedClassifierFreeSamplingEmbeddings, VQDiffusionPipeline
| 61 | 1 |
"""simple docstring"""
import warnings
from ...utils import logging
from .image_processing_clip import CLIPImageProcessor
_a = logging.get_logger(__name__)
class A_ (lowercase__ ):
'''simple docstring'''
def __init__( self , *lowercase_ , **lowercase_ ):
"""simple docstring"""
warnings.warn(
"The class CLIPFeatureExtractor is deprecated and will be removed in version 5 of Transformers. Please"
" use CLIPImageProcessor instead." , lowercase_ , )
super().__init__(*lowercase_ , **lowercase_ )
| 61 |
"""simple docstring"""
from __future__ import annotations
import math
def __a ( __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : Any = u
for i in range(1, __lowerCamelCase ):
UpperCAmelCase_ : int = temp * (u - i)
return temp
def __a ( ):
UpperCAmelCase_ : str = int(input("enter the numbers of values: " ) )
UpperCAmelCase_ : list[list[float]] = []
for _ in range(__lowerCamelCase ):
y.append([] )
for i in range(__lowerCamelCase ):
for j in range(__lowerCamelCase ):
y[i].append(__lowerCamelCase )
UpperCAmelCase_ : Tuple = 0
print("enter the values of parameters in a list: " )
UpperCAmelCase_ : Union[str, Any] = list(map(__lowerCamelCase, input().split() ) )
print("enter the values of corresponding parameters: " )
for i in range(__lowerCamelCase ):
UpperCAmelCase_ : int = float(input() )
UpperCAmelCase_ : Tuple = int(input("enter the value to interpolate: " ) )
UpperCAmelCase_ : Tuple = (value - x[0]) / (x[1] - x[0])
# for calculating forward difference table
for i in range(1, __lowerCamelCase ):
for j in range(n - i ):
UpperCAmelCase_ : Union[str, Any] = y[j + 1][i - 1] - y[j][i - 1]
UpperCAmelCase_ : Optional[int] = y[0][0]
for i in range(1, __lowerCamelCase ):
summ += (ucal(__lowerCamelCase, __lowerCamelCase ) * y[0][i]) / math.factorial(__lowerCamelCase )
print(f"""the value at {value} is {summ}""" )
if __name__ == "__main__":
main()
| 61 | 1 |
"""simple docstring"""
import os
import string
import sys
_a = 1 << 8
_a = {
'tab': ord('\t'),
'newline': ord('\r'),
'esc': 27,
'up': 65 + ARROW_KEY_FLAG,
'down': 66 + ARROW_KEY_FLAG,
'right': 67 + ARROW_KEY_FLAG,
'left': 68 + ARROW_KEY_FLAG,
'mod_int': 91,
'undefined': sys.maxsize,
'interrupt': 3,
'insert': 50,
'delete': 51,
'pg_up': 53,
'pg_down': 54,
}
_a = KEYMAP['up']
_a = KEYMAP['left']
if sys.platform == "win32":
_a = []
_a = {
B'\xe0H': KEYMAP['up'] - ARROW_KEY_FLAG,
B'\x00H': KEYMAP['up'] - ARROW_KEY_FLAG,
B'\xe0P': KEYMAP['down'] - ARROW_KEY_FLAG,
B'\x00P': KEYMAP['down'] - ARROW_KEY_FLAG,
B'\xe0M': KEYMAP['right'] - ARROW_KEY_FLAG,
B'\x00M': KEYMAP['right'] - ARROW_KEY_FLAG,
B'\xe0K': KEYMAP['left'] - ARROW_KEY_FLAG,
B'\x00K': KEYMAP['left'] - ARROW_KEY_FLAG,
}
for i in range(10):
_a = ord(str(i))
def __a ( ):
if os.name == "nt":
import msvcrt
UpperCAmelCase_ : Optional[Any] = "mbcs"
# Flush the keyboard buffer
while msvcrt.kbhit():
msvcrt.getch()
if len(__lowerCamelCase ) == 0:
# Read the keystroke
UpperCAmelCase_ : Any = msvcrt.getch()
# If it is a prefix char, get second part
if ch in (b"\x00", b"\xe0"):
UpperCAmelCase_ : List[str] = ch + msvcrt.getch()
# Translate actual Win chars to bullet char types
try:
UpperCAmelCase_ : Optional[int] = chr(WIN_KEYMAP[cha] )
WIN_CH_BUFFER.append(chr(KEYMAP["mod_int"] ) )
WIN_CH_BUFFER.append(__lowerCamelCase )
if ord(__lowerCamelCase ) in (
KEYMAP["insert"] - 1 << 9,
KEYMAP["delete"] - 1 << 9,
KEYMAP["pg_up"] - 1 << 9,
KEYMAP["pg_down"] - 1 << 9,
):
WIN_CH_BUFFER.append(chr(126 ) )
UpperCAmelCase_ : Dict = chr(KEYMAP["esc"] )
except KeyError:
UpperCAmelCase_ : List[Any] = cha[1]
else:
UpperCAmelCase_ : Dict = ch.decode(__lowerCamelCase )
else:
UpperCAmelCase_ : Optional[Any] = WIN_CH_BUFFER.pop(0 )
elif os.name == "posix":
import termios
import tty
UpperCAmelCase_ : Dict = sys.stdin.fileno()
UpperCAmelCase_ : Union[str, Any] = termios.tcgetattr(__lowerCamelCase )
try:
tty.setraw(__lowerCamelCase )
UpperCAmelCase_ : str = sys.stdin.read(1 )
finally:
termios.tcsetattr(__lowerCamelCase, termios.TCSADRAIN, __lowerCamelCase )
return ch
def __a ( ):
UpperCAmelCase_ : Union[str, Any] = get_raw_chars()
if ord(__lowerCamelCase ) in [KEYMAP["interrupt"], KEYMAP["newline"]]:
return char
elif ord(__lowerCamelCase ) == KEYMAP["esc"]:
UpperCAmelCase_ : Tuple = get_raw_chars()
if ord(__lowerCamelCase ) == KEYMAP["mod_int"]:
UpperCAmelCase_ : Tuple = get_raw_chars()
if ord(__lowerCamelCase ) >= KEYMAP["arrow_begin"] - ARROW_KEY_FLAG and ord(__lowerCamelCase ) <= KEYMAP["arrow_end"] - ARROW_KEY_FLAG:
return chr(ord(__lowerCamelCase ) + ARROW_KEY_FLAG )
else:
return KEYMAP["undefined"]
else:
return get_raw_chars()
else:
if char in string.printable:
return char
else:
return KEYMAP["undefined"]
| 61 |
"""simple docstring"""
import argparse
import json
import pickle
from pathlib import Path
import requests
import torch
from huggingface_hub import hf_hub_download
from PIL import Image
from transformers import MaskFormerConfig, MaskFormerForInstanceSegmentation, MaskFormerImageProcessor, SwinConfig
from transformers.utils import logging
logging.set_verbosity_info()
_a = logging.get_logger(__name__)
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : Optional[Any] = SwinConfig.from_pretrained(
"microsoft/swin-tiny-patch4-window7-224", out_features=["stage1", "stage2", "stage3", "stage4"] )
UpperCAmelCase_ : Dict = MaskFormerConfig(backbone_config=__lowerCamelCase )
UpperCAmelCase_ : int = "huggingface/label-files"
if "ade20k-full" in model_name:
# this should be ok
UpperCAmelCase_ : Dict = 847
UpperCAmelCase_ : str = "maskformer-ade20k-full-id2label.json"
elif "ade" in model_name:
# this should be ok
UpperCAmelCase_ : Tuple = 150
UpperCAmelCase_ : int = "ade20k-id2label.json"
elif "coco-stuff" in model_name:
# this should be ok
UpperCAmelCase_ : str = 171
UpperCAmelCase_ : Optional[int] = "maskformer-coco-stuff-id2label.json"
elif "coco" in model_name:
# TODO
UpperCAmelCase_ : int = 133
UpperCAmelCase_ : Tuple = "coco-panoptic-id2label.json"
elif "cityscapes" in model_name:
# this should be ok
UpperCAmelCase_ : List[Any] = 19
UpperCAmelCase_ : Optional[int] = "cityscapes-id2label.json"
elif "vistas" in model_name:
# this should be ok
UpperCAmelCase_ : Any = 65
UpperCAmelCase_ : Union[str, Any] = "mapillary-vistas-id2label.json"
UpperCAmelCase_ : Any = json.load(open(hf_hub_download(__lowerCamelCase, __lowerCamelCase, repo_type="dataset" ), "r" ) )
UpperCAmelCase_ : int = {int(__lowerCamelCase ): v for k, v in idalabel.items()}
return config
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : Dict = []
# stem
# fmt: off
rename_keys.append(("backbone.patch_embed.proj.weight", "model.pixel_level_module.encoder.model.embeddings.patch_embeddings.projection.weight") )
rename_keys.append(("backbone.patch_embed.proj.bias", "model.pixel_level_module.encoder.model.embeddings.patch_embeddings.projection.bias") )
rename_keys.append(("backbone.patch_embed.norm.weight", "model.pixel_level_module.encoder.model.embeddings.norm.weight") )
rename_keys.append(("backbone.patch_embed.norm.bias", "model.pixel_level_module.encoder.model.embeddings.norm.bias") )
# stages
for i in range(len(config.backbone_config.depths ) ):
for j in range(config.backbone_config.depths[i] ):
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.norm1.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.layernorm_before.weight""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.norm1.bias""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.layernorm_before.bias""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.attn.relative_position_bias_table""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.attention.self.relative_position_bias_table""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.attn.relative_position_index""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.attention.self.relative_position_index""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.attn.proj.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.attention.output.dense.weight""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.attn.proj.bias""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.attention.output.dense.bias""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.norm2.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.layernorm_after.weight""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.norm2.bias""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.layernorm_after.bias""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.mlp.fc1.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.intermediate.dense.weight""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.mlp.fc1.bias""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.intermediate.dense.bias""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.mlp.fc2.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.output.dense.weight""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.mlp.fc2.bias""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.output.dense.bias""") )
if i < 3:
rename_keys.append((f"""backbone.layers.{i}.downsample.reduction.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.downsample.reduction.weight""") )
rename_keys.append((f"""backbone.layers.{i}.downsample.norm.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.downsample.norm.weight""") )
rename_keys.append((f"""backbone.layers.{i}.downsample.norm.bias""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.downsample.norm.bias""") )
rename_keys.append((f"""backbone.norm{i}.weight""", f"""model.pixel_level_module.encoder.hidden_states_norms.{i}.weight""") )
rename_keys.append((f"""backbone.norm{i}.bias""", f"""model.pixel_level_module.encoder.hidden_states_norms.{i}.bias""") )
# FPN
rename_keys.append(("sem_seg_head.layer_4.weight", "model.pixel_level_module.decoder.fpn.stem.0.weight") )
rename_keys.append(("sem_seg_head.layer_4.norm.weight", "model.pixel_level_module.decoder.fpn.stem.1.weight") )
rename_keys.append(("sem_seg_head.layer_4.norm.bias", "model.pixel_level_module.decoder.fpn.stem.1.bias") )
for source_index, target_index in zip(range(3, 0, -1 ), range(0, 3 ) ):
rename_keys.append((f"""sem_seg_head.adapter_{source_index}.weight""", f"""model.pixel_level_module.decoder.fpn.layers.{target_index}.proj.0.weight""") )
rename_keys.append((f"""sem_seg_head.adapter_{source_index}.norm.weight""", f"""model.pixel_level_module.decoder.fpn.layers.{target_index}.proj.1.weight""") )
rename_keys.append((f"""sem_seg_head.adapter_{source_index}.norm.bias""", f"""model.pixel_level_module.decoder.fpn.layers.{target_index}.proj.1.bias""") )
rename_keys.append((f"""sem_seg_head.layer_{source_index}.weight""", f"""model.pixel_level_module.decoder.fpn.layers.{target_index}.block.0.weight""") )
rename_keys.append((f"""sem_seg_head.layer_{source_index}.norm.weight""", f"""model.pixel_level_module.decoder.fpn.layers.{target_index}.block.1.weight""") )
rename_keys.append((f"""sem_seg_head.layer_{source_index}.norm.bias""", f"""model.pixel_level_module.decoder.fpn.layers.{target_index}.block.1.bias""") )
rename_keys.append(("sem_seg_head.mask_features.weight", "model.pixel_level_module.decoder.mask_projection.weight") )
rename_keys.append(("sem_seg_head.mask_features.bias", "model.pixel_level_module.decoder.mask_projection.bias") )
# Transformer decoder
for idx in range(config.decoder_config.decoder_layers ):
# self-attention out projection
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.self_attn.out_proj.weight""", f"""model.transformer_module.decoder.layers.{idx}.self_attn.out_proj.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.self_attn.out_proj.bias""", f"""model.transformer_module.decoder.layers.{idx}.self_attn.out_proj.bias""") )
# cross-attention out projection
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.multihead_attn.out_proj.weight""", f"""model.transformer_module.decoder.layers.{idx}.encoder_attn.out_proj.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.multihead_attn.out_proj.bias""", f"""model.transformer_module.decoder.layers.{idx}.encoder_attn.out_proj.bias""") )
# MLP 1
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.linear1.weight""", f"""model.transformer_module.decoder.layers.{idx}.fc1.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.linear1.bias""", f"""model.transformer_module.decoder.layers.{idx}.fc1.bias""") )
# MLP 2
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.linear2.weight""", f"""model.transformer_module.decoder.layers.{idx}.fc2.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.linear2.bias""", f"""model.transformer_module.decoder.layers.{idx}.fc2.bias""") )
# layernorm 1 (self-attention layernorm)
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.norm1.weight""", f"""model.transformer_module.decoder.layers.{idx}.self_attn_layer_norm.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.norm1.bias""", f"""model.transformer_module.decoder.layers.{idx}.self_attn_layer_norm.bias""") )
# layernorm 2 (cross-attention layernorm)
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.norm2.weight""", f"""model.transformer_module.decoder.layers.{idx}.encoder_attn_layer_norm.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.norm2.bias""", f"""model.transformer_module.decoder.layers.{idx}.encoder_attn_layer_norm.bias""") )
# layernorm 3 (final layernorm)
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.norm3.weight""", f"""model.transformer_module.decoder.layers.{idx}.final_layer_norm.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.norm3.bias""", f"""model.transformer_module.decoder.layers.{idx}.final_layer_norm.bias""") )
rename_keys.append(("sem_seg_head.predictor.transformer.decoder.norm.weight", "model.transformer_module.decoder.layernorm.weight") )
rename_keys.append(("sem_seg_head.predictor.transformer.decoder.norm.bias", "model.transformer_module.decoder.layernorm.bias") )
# heads on top
rename_keys.append(("sem_seg_head.predictor.query_embed.weight", "model.transformer_module.queries_embedder.weight") )
rename_keys.append(("sem_seg_head.predictor.input_proj.weight", "model.transformer_module.input_projection.weight") )
rename_keys.append(("sem_seg_head.predictor.input_proj.bias", "model.transformer_module.input_projection.bias") )
rename_keys.append(("sem_seg_head.predictor.class_embed.weight", "class_predictor.weight") )
rename_keys.append(("sem_seg_head.predictor.class_embed.bias", "class_predictor.bias") )
for i in range(3 ):
rename_keys.append((f"""sem_seg_head.predictor.mask_embed.layers.{i}.weight""", f"""mask_embedder.{i}.0.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.mask_embed.layers.{i}.bias""", f"""mask_embedder.{i}.0.bias""") )
# fmt: on
return rename_keys
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : Union[str, Any] = dct.pop(__lowerCamelCase )
UpperCAmelCase_ : str = val
def __a ( __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : int = [int(backbone_config.embed_dim * 2**i ) for i in range(len(backbone_config.depths ) )]
for i in range(len(backbone_config.depths ) ):
UpperCAmelCase_ : List[Any] = num_features[i]
for j in range(backbone_config.depths[i] ):
# fmt: off
# read in weights + bias of input projection layer (in original implementation, this is a single matrix + bias)
UpperCAmelCase_ : Tuple = state_dict.pop(f"""backbone.layers.{i}.blocks.{j}.attn.qkv.weight""" )
UpperCAmelCase_ : Optional[int] = state_dict.pop(f"""backbone.layers.{i}.blocks.{j}.attn.qkv.bias""" )
# next, add query, keys and values (in that order) to the state dict
UpperCAmelCase_ : Tuple = in_proj_weight[:dim, :]
UpperCAmelCase_ : List[Any] = in_proj_bias[: dim]
UpperCAmelCase_ : Any = in_proj_weight[
dim : dim * 2, :
]
UpperCAmelCase_ : Optional[int] = in_proj_bias[
dim : dim * 2
]
UpperCAmelCase_ : Tuple = in_proj_weight[
-dim :, :
]
UpperCAmelCase_ : Tuple = in_proj_bias[-dim :]
# fmt: on
def __a ( __lowerCamelCase, __lowerCamelCase ):
# fmt: off
UpperCAmelCase_ : Dict = config.decoder_config.hidden_size
for idx in range(config.decoder_config.decoder_layers ):
# read in weights + bias of self-attention input projection layer (in the original implementation, this is a single matrix + bias)
UpperCAmelCase_ : int = state_dict.pop(f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.self_attn.in_proj_weight""" )
UpperCAmelCase_ : int = state_dict.pop(f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.self_attn.in_proj_bias""" )
# next, add query, keys and values (in that order) to the state dict
UpperCAmelCase_ : Any = in_proj_weight[: hidden_size, :]
UpperCAmelCase_ : int = in_proj_bias[:config.hidden_size]
UpperCAmelCase_ : Any = in_proj_weight[hidden_size : hidden_size * 2, :]
UpperCAmelCase_ : List[Any] = in_proj_bias[hidden_size : hidden_size * 2]
UpperCAmelCase_ : Dict = in_proj_weight[-hidden_size :, :]
UpperCAmelCase_ : List[Any] = in_proj_bias[-hidden_size :]
# read in weights + bias of cross-attention input projection layer (in the original implementation, this is a single matrix + bias)
UpperCAmelCase_ : str = state_dict.pop(f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.multihead_attn.in_proj_weight""" )
UpperCAmelCase_ : Dict = state_dict.pop(f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.multihead_attn.in_proj_bias""" )
# next, add query, keys and values (in that order) to the state dict
UpperCAmelCase_ : str = in_proj_weight[: hidden_size, :]
UpperCAmelCase_ : Tuple = in_proj_bias[:config.hidden_size]
UpperCAmelCase_ : int = in_proj_weight[hidden_size : hidden_size * 2, :]
UpperCAmelCase_ : List[str] = in_proj_bias[hidden_size : hidden_size * 2]
UpperCAmelCase_ : List[Any] = in_proj_weight[-hidden_size :, :]
UpperCAmelCase_ : Optional[Any] = in_proj_bias[-hidden_size :]
# fmt: on
def __a ( ):
UpperCAmelCase_ : List[Any] = "http://images.cocodataset.org/val2017/000000039769.jpg"
UpperCAmelCase_ : Tuple = Image.open(requests.get(__lowerCamelCase, stream=__lowerCamelCase ).raw )
return im
@torch.no_grad()
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = False ):
UpperCAmelCase_ : List[str] = get_maskformer_config(__lowerCamelCase )
# load original state_dict
with open(__lowerCamelCase, "rb" ) as f:
UpperCAmelCase_ : Union[str, Any] = pickle.load(__lowerCamelCase )
UpperCAmelCase_ : str = data["model"]
# for name, param in state_dict.items():
# print(name, param.shape)
# rename keys
UpperCAmelCase_ : int = create_rename_keys(__lowerCamelCase )
for src, dest in rename_keys:
rename_key(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase )
read_in_swin_q_k_v(__lowerCamelCase, config.backbone_config )
read_in_decoder_q_k_v(__lowerCamelCase, __lowerCamelCase )
# update to torch tensors
for key, value in state_dict.items():
UpperCAmelCase_ : Optional[int] = torch.from_numpy(__lowerCamelCase )
# load 🤗 model
UpperCAmelCase_ : Dict = MaskFormerForInstanceSegmentation(__lowerCamelCase )
model.eval()
for name, param in model.named_parameters():
print(__lowerCamelCase, param.shape )
UpperCAmelCase_ , UpperCAmelCase_ : str = model.load_state_dict(__lowerCamelCase, strict=__lowerCamelCase )
assert missing_keys == [
"model.pixel_level_module.encoder.model.layernorm.weight",
"model.pixel_level_module.encoder.model.layernorm.bias",
]
assert len(__lowerCamelCase ) == 0, f"""Unexpected keys: {unexpected_keys}"""
# verify results
UpperCAmelCase_ : Optional[int] = prepare_img()
if "vistas" in model_name:
UpperCAmelCase_ : List[str] = 65
elif "cityscapes" in model_name:
UpperCAmelCase_ : Tuple = 6_5535
else:
UpperCAmelCase_ : Dict = 255
UpperCAmelCase_ : Optional[Any] = True if "ade" in model_name else False
UpperCAmelCase_ : Dict = MaskFormerImageProcessor(ignore_index=__lowerCamelCase, reduce_labels=__lowerCamelCase )
UpperCAmelCase_ : Union[str, Any] = image_processor(__lowerCamelCase, return_tensors="pt" )
UpperCAmelCase_ : Dict = model(**__lowerCamelCase )
print("Logits:", outputs.class_queries_logits[0, :3, :3] )
if model_name == "maskformer-swin-tiny-ade":
UpperCAmelCase_ : Any = torch.tensor(
[[3.6353, -4.4770, -2.6065], [0.5081, -4.2394, -3.5343], [2.1909, -5.0353, -1.9323]] )
assert torch.allclose(outputs.class_queries_logits[0, :3, :3], __lowerCamelCase, atol=1E-4 )
print("Looks ok!" )
if pytorch_dump_folder_path is not None:
print(f"""Saving model and image processor to {pytorch_dump_folder_path}""" )
Path(__lowerCamelCase ).mkdir(exist_ok=__lowerCamelCase )
model.save_pretrained(__lowerCamelCase )
image_processor.save_pretrained(__lowerCamelCase )
if push_to_hub:
print("Pushing model and image processor to the hub..." )
model.push_to_hub(f"""nielsr/{model_name}""" )
image_processor.push_to_hub(f"""nielsr/{model_name}""" )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
'--model_name',
default='maskformer-swin-tiny-ade',
type=str,
help=('Name of the MaskFormer model you\'d like to convert',),
)
parser.add_argument(
'--checkpoint_path',
default='/Users/nielsrogge/Documents/MaskFormer_checkpoints/MaskFormer-Swin-tiny-ADE20k/model.pkl',
type=str,
help='Path to the original state dict (.pth file).',
)
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.'
)
_a = parser.parse_args()
convert_maskformer_checkpoint(
args.model_name, args.checkpoint_path, args.pytorch_dump_folder_path, args.push_to_hub
)
| 61 | 1 |
"""simple docstring"""
def __a ( __lowerCamelCase ):
UpperCAmelCase_ , UpperCAmelCase_ : Tuple = [], []
while len(__lowerCamelCase ) > 1:
UpperCAmelCase_ , UpperCAmelCase_ : int = min(__lowerCamelCase ), max(__lowerCamelCase )
start.append(__lowerCamelCase )
end.append(__lowerCamelCase )
collection.remove(__lowerCamelCase )
collection.remove(__lowerCamelCase )
end.reverse()
return start + collection + end
if __name__ == "__main__":
_a = input('Enter numbers separated by a comma:\n').strip()
_a = [int(item) for item in user_input.split(',')]
print(*merge_sort(unsorted), sep=',')
| 61 |
"""simple docstring"""
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : List[str] = int(__lowerCamelCase )
if n_element < 1:
UpperCAmelCase_ : List[Any] = ValueError("a should be a positive number" )
raise my_error
UpperCAmelCase_ : List[Any] = [1]
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : Optional[int] = (0, 0, 0)
UpperCAmelCase_ : Dict = 1
while index < n_element:
while hamming_list[i] * 2 <= hamming_list[-1]:
i += 1
while hamming_list[j] * 3 <= hamming_list[-1]:
j += 1
while hamming_list[k] * 5 <= hamming_list[-1]:
k += 1
hamming_list.append(
min(hamming_list[i] * 2, hamming_list[j] * 3, hamming_list[k] * 5 ) )
index += 1
return hamming_list
if __name__ == "__main__":
_a = input('Enter the last number (nth term) of the Hamming Number Series: ')
print('Formula of Hamming Number Series => 2^i * 3^j * 5^k')
_a = hamming(int(n))
print('-----------------------------------------------------')
print(f"""The list with nth numbers is: {hamming_numbers}""")
print('-----------------------------------------------------')
| 61 | 1 |
"""simple docstring"""
import tempfile
import torch
from diffusers import PNDMScheduler
from .test_schedulers import SchedulerCommonTest
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Union[str, Any] = (PNDMScheduler,)
SCREAMING_SNAKE_CASE__ : Tuple = (("""num_inference_steps""", 50),)
def UpperCamelCase__ ( self , **lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : str = {
"num_train_timesteps": 1000,
"beta_start": 0.00_01,
"beta_end": 0.02,
"beta_schedule": "linear",
}
config.update(**lowercase_ )
return config
def UpperCamelCase__ ( self , lowercase_=0 , **lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : List[Any] = dict(self.forward_default_kwargs )
UpperCAmelCase_ : str = kwargs.pop("num_inference_steps" , lowercase_ )
UpperCAmelCase_ : Optional[Any] = self.dummy_sample
UpperCAmelCase_ : Dict = 0.1 * sample
UpperCAmelCase_ : Optional[Any] = [residual + 0.2, residual + 0.15, residual + 0.1, residual + 0.05]
for scheduler_class in self.scheduler_classes:
UpperCAmelCase_ : List[Any] = self.get_scheduler_config(**lowercase_ )
UpperCAmelCase_ : Union[str, Any] = scheduler_class(**lowercase_ )
scheduler.set_timesteps(lowercase_ )
# copy over dummy past residuals
UpperCAmelCase_ : List[Any] = dummy_past_residuals[:]
with tempfile.TemporaryDirectory() as tmpdirname:
scheduler.save_config(lowercase_ )
UpperCAmelCase_ : List[str] = scheduler_class.from_pretrained(lowercase_ )
new_scheduler.set_timesteps(lowercase_ )
# copy over dummy past residuals
UpperCAmelCase_ : Union[str, Any] = dummy_past_residuals[:]
UpperCAmelCase_ : Optional[Any] = scheduler.step_prk(lowercase_ , lowercase_ , lowercase_ , **lowercase_ ).prev_sample
UpperCAmelCase_ : Dict = new_scheduler.step_prk(lowercase_ , lowercase_ , lowercase_ , **lowercase_ ).prev_sample
assert torch.sum(torch.abs(output - new_output ) ) < 1E-5, "Scheduler outputs are not identical"
UpperCAmelCase_ : List[str] = scheduler.step_plms(lowercase_ , lowercase_ , lowercase_ , **lowercase_ ).prev_sample
UpperCAmelCase_ : Dict = new_scheduler.step_plms(lowercase_ , lowercase_ , lowercase_ , **lowercase_ ).prev_sample
assert torch.sum(torch.abs(output - new_output ) ) < 1E-5, "Scheduler outputs are not identical"
def UpperCamelCase__ ( self ):
"""simple docstring"""
pass
def UpperCamelCase__ ( self , lowercase_=0 , **lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : str = dict(self.forward_default_kwargs )
UpperCAmelCase_ : Optional[Any] = kwargs.pop("num_inference_steps" , lowercase_ )
UpperCAmelCase_ : Any = self.dummy_sample
UpperCAmelCase_ : Union[str, Any] = 0.1 * sample
UpperCAmelCase_ : Any = [residual + 0.2, residual + 0.15, residual + 0.1, residual + 0.05]
for scheduler_class in self.scheduler_classes:
UpperCAmelCase_ : Union[str, Any] = self.get_scheduler_config()
UpperCAmelCase_ : List[str] = scheduler_class(**lowercase_ )
scheduler.set_timesteps(lowercase_ )
# copy over dummy past residuals (must be after setting timesteps)
UpperCAmelCase_ : Optional[Any] = dummy_past_residuals[:]
with tempfile.TemporaryDirectory() as tmpdirname:
scheduler.save_config(lowercase_ )
UpperCAmelCase_ : List[Any] = scheduler_class.from_pretrained(lowercase_ )
# copy over dummy past residuals
new_scheduler.set_timesteps(lowercase_ )
# copy over dummy past residual (must be after setting timesteps)
UpperCAmelCase_ : List[str] = dummy_past_residuals[:]
UpperCAmelCase_ : Union[str, Any] = scheduler.step_prk(lowercase_ , lowercase_ , lowercase_ , **lowercase_ ).prev_sample
UpperCAmelCase_ : List[str] = new_scheduler.step_prk(lowercase_ , lowercase_ , lowercase_ , **lowercase_ ).prev_sample
assert torch.sum(torch.abs(output - new_output ) ) < 1E-5, "Scheduler outputs are not identical"
UpperCAmelCase_ : List[Any] = scheduler.step_plms(lowercase_ , lowercase_ , lowercase_ , **lowercase_ ).prev_sample
UpperCAmelCase_ : str = new_scheduler.step_plms(lowercase_ , lowercase_ , lowercase_ , **lowercase_ ).prev_sample
assert torch.sum(torch.abs(output - new_output ) ) < 1E-5, "Scheduler outputs are not identical"
def UpperCamelCase__ ( self , **lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = self.scheduler_classes[0]
UpperCAmelCase_ : List[str] = self.get_scheduler_config(**lowercase_ )
UpperCAmelCase_ : int = scheduler_class(**lowercase_ )
UpperCAmelCase_ : Any = 10
UpperCAmelCase_ : Tuple = self.dummy_model()
UpperCAmelCase_ : str = self.dummy_sample_deter
scheduler.set_timesteps(lowercase_ )
for i, t in enumerate(scheduler.prk_timesteps ):
UpperCAmelCase_ : List[str] = model(lowercase_ , lowercase_ )
UpperCAmelCase_ : Optional[int] = scheduler.step_prk(lowercase_ , lowercase_ , lowercase_ ).prev_sample
for i, t in enumerate(scheduler.plms_timesteps ):
UpperCAmelCase_ : str = model(lowercase_ , lowercase_ )
UpperCAmelCase_ : Dict = scheduler.step_plms(lowercase_ , lowercase_ , lowercase_ ).prev_sample
return sample
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = dict(self.forward_default_kwargs )
UpperCAmelCase_ : Union[str, Any] = kwargs.pop("num_inference_steps" , lowercase_ )
for scheduler_class in self.scheduler_classes:
UpperCAmelCase_ : int = self.get_scheduler_config()
UpperCAmelCase_ : List[Any] = scheduler_class(**lowercase_ )
UpperCAmelCase_ : List[str] = self.dummy_sample
UpperCAmelCase_ : List[Any] = 0.1 * sample
if num_inference_steps is not None and hasattr(lowercase_ , "set_timesteps" ):
scheduler.set_timesteps(lowercase_ )
elif num_inference_steps is not None and not hasattr(lowercase_ , "set_timesteps" ):
UpperCAmelCase_ : Tuple = num_inference_steps
# copy over dummy past residuals (must be done after set_timesteps)
UpperCAmelCase_ : Any = [residual + 0.2, residual + 0.15, residual + 0.1, residual + 0.05]
UpperCAmelCase_ : List[Any] = dummy_past_residuals[:]
UpperCAmelCase_ : Dict = scheduler.step_prk(lowercase_ , 0 , lowercase_ , **lowercase_ ).prev_sample
UpperCAmelCase_ : Dict = scheduler.step_prk(lowercase_ , 1 , lowercase_ , **lowercase_ ).prev_sample
self.assertEqual(output_a.shape , sample.shape )
self.assertEqual(output_a.shape , output_a.shape )
UpperCAmelCase_ : Optional[Any] = scheduler.step_plms(lowercase_ , 0 , lowercase_ , **lowercase_ ).prev_sample
UpperCAmelCase_ : Union[str, Any] = scheduler.step_plms(lowercase_ , 1 , lowercase_ , **lowercase_ ).prev_sample
self.assertEqual(output_a.shape , sample.shape )
self.assertEqual(output_a.shape , output_a.shape )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for timesteps in [100, 1000]:
self.check_over_configs(num_train_timesteps=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for steps_offset in [0, 1]:
self.check_over_configs(steps_offset=lowercase_ )
UpperCAmelCase_ : Optional[int] = self.scheduler_classes[0]
UpperCAmelCase_ : Optional[int] = self.get_scheduler_config(steps_offset=1 )
UpperCAmelCase_ : List[str] = scheduler_class(**lowercase_ )
scheduler.set_timesteps(10 )
assert torch.equal(
scheduler.timesteps , torch.LongTensor(
[901, 851, 851, 801, 801, 751, 751, 701, 701, 651, 651, 601, 601, 501, 401, 301, 201, 101, 1] ) , )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for beta_start, beta_end in zip([0.00_01, 0.0_01] , [0.0_02, 0.02] ):
self.check_over_configs(beta_start=lowercase_ , beta_end=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for schedule in ["linear", "squaredcos_cap_v2"]:
self.check_over_configs(beta_schedule=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for prediction_type in ["epsilon", "v_prediction"]:
self.check_over_configs(prediction_type=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for t in [1, 5, 10]:
self.check_over_forward(time_step=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for t, num_inference_steps in zip([1, 5, 10] , [10, 50, 100] ):
self.check_over_forward(num_inference_steps=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
# earlier version of set_timesteps() caused an error indexing alpha's with inference steps as power of 3
UpperCAmelCase_ : Tuple = 27
for scheduler_class in self.scheduler_classes:
UpperCAmelCase_ : Optional[Any] = self.dummy_sample
UpperCAmelCase_ : Optional[int] = 0.1 * sample
UpperCAmelCase_ : List[str] = self.get_scheduler_config()
UpperCAmelCase_ : Union[str, Any] = scheduler_class(**lowercase_ )
scheduler.set_timesteps(lowercase_ )
# before power of 3 fix, would error on first step, so we only need to do two
for i, t in enumerate(scheduler.prk_timesteps[:2] ):
UpperCAmelCase_ : List[str] = scheduler.step_prk(lowercase_ , lowercase_ , lowercase_ ).prev_sample
def UpperCamelCase__ ( self ):
"""simple docstring"""
with self.assertRaises(lowercase_ ):
UpperCAmelCase_ : Any = self.scheduler_classes[0]
UpperCAmelCase_ : Dict = self.get_scheduler_config()
UpperCAmelCase_ : List[Any] = scheduler_class(**lowercase_ )
scheduler.step_plms(self.dummy_sample , 1 , self.dummy_sample ).prev_sample
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = self.full_loop()
UpperCAmelCase_ : List[str] = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : str = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 1_98.13_18 ) < 1E-2
assert abs(result_mean.item() - 0.25_80 ) < 1E-3
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : str = self.full_loop(prediction_type="v_prediction" )
UpperCAmelCase_ : Any = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : Union[str, Any] = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 67.39_86 ) < 1E-2
assert abs(result_mean.item() - 0.08_78 ) < 1E-3
def UpperCamelCase__ ( self ):
"""simple docstring"""
# We specify different beta, so that the first alpha is 0.99
UpperCAmelCase_ : Dict = self.full_loop(set_alpha_to_one=lowercase_ , beta_start=0.01 )
UpperCAmelCase_ : Union[str, Any] = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : int = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 2_30.03_99 ) < 1E-2
assert abs(result_mean.item() - 0.29_95 ) < 1E-3
def UpperCamelCase__ ( self ):
"""simple docstring"""
# We specify different beta, so that the first alpha is 0.99
UpperCAmelCase_ : Optional[int] = self.full_loop(set_alpha_to_one=lowercase_ , beta_start=0.01 )
UpperCAmelCase_ : Dict = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : str = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 1_86.94_82 ) < 1E-2
assert abs(result_mean.item() - 0.24_34 ) < 1E-3
| 61 |
"""simple docstring"""
from math import cos, sin, sqrt, tau
from audio_filters.iir_filter import IIRFilter
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ) ):
UpperCAmelCase_ : int = tau * frequency / samplerate
UpperCAmelCase_ : List[str] = sin(__lowerCamelCase )
UpperCAmelCase_ : int = cos(__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = _sin / (2 * q_factor)
UpperCAmelCase_ : int = (1 - _cos) / 2
UpperCAmelCase_ : Optional[Any] = 1 - _cos
UpperCAmelCase_ : int = 1 + alpha
UpperCAmelCase_ : Dict = -2 * _cos
UpperCAmelCase_ : Tuple = 1 - alpha
UpperCAmelCase_ : Dict = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ) ):
UpperCAmelCase_ : Dict = tau * frequency / samplerate
UpperCAmelCase_ : Tuple = sin(__lowerCamelCase )
UpperCAmelCase_ : Any = cos(__lowerCamelCase )
UpperCAmelCase_ : List[str] = _sin / (2 * q_factor)
UpperCAmelCase_ : List[Any] = (1 + _cos) / 2
UpperCAmelCase_ : Optional[int] = -1 - _cos
UpperCAmelCase_ : Union[str, Any] = 1 + alpha
UpperCAmelCase_ : Optional[int] = -2 * _cos
UpperCAmelCase_ : Tuple = 1 - alpha
UpperCAmelCase_ : List[str] = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ) ):
UpperCAmelCase_ : Union[str, Any] = tau * frequency / samplerate
UpperCAmelCase_ : str = sin(__lowerCamelCase )
UpperCAmelCase_ : Tuple = cos(__lowerCamelCase )
UpperCAmelCase_ : List[Any] = _sin / (2 * q_factor)
UpperCAmelCase_ : Any = _sin / 2
UpperCAmelCase_ : Union[str, Any] = 0
UpperCAmelCase_ : Tuple = -ba
UpperCAmelCase_ : Optional[Any] = 1 + alpha
UpperCAmelCase_ : Dict = -2 * _cos
UpperCAmelCase_ : Optional[int] = 1 - alpha
UpperCAmelCase_ : List[str] = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ) ):
UpperCAmelCase_ : Any = tau * frequency / samplerate
UpperCAmelCase_ : Any = sin(__lowerCamelCase )
UpperCAmelCase_ : Optional[int] = cos(__lowerCamelCase )
UpperCAmelCase_ : str = _sin / (2 * q_factor)
UpperCAmelCase_ : List[str] = 1 - alpha
UpperCAmelCase_ : str = -2 * _cos
UpperCAmelCase_ : Any = 1 + alpha
UpperCAmelCase_ : Tuple = IIRFilter(2 )
filt.set_coefficients([ba, ba, ba], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ), ):
UpperCAmelCase_ : Dict = tau * frequency / samplerate
UpperCAmelCase_ : Union[str, Any] = sin(__lowerCamelCase )
UpperCAmelCase_ : int = cos(__lowerCamelCase )
UpperCAmelCase_ : Optional[int] = _sin / (2 * q_factor)
UpperCAmelCase_ : List[str] = 10 ** (gain_db / 40)
UpperCAmelCase_ : List[Any] = 1 + alpha * big_a
UpperCAmelCase_ : Tuple = -2 * _cos
UpperCAmelCase_ : Tuple = 1 - alpha * big_a
UpperCAmelCase_ : str = 1 + alpha / big_a
UpperCAmelCase_ : List[str] = -2 * _cos
UpperCAmelCase_ : List[str] = 1 - alpha / big_a
UpperCAmelCase_ : Tuple = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ), ):
UpperCAmelCase_ : str = tau * frequency / samplerate
UpperCAmelCase_ : int = sin(__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = cos(__lowerCamelCase )
UpperCAmelCase_ : Tuple = _sin / (2 * q_factor)
UpperCAmelCase_ : List[Any] = 10 ** (gain_db / 40)
UpperCAmelCase_ : Tuple = (big_a + 1) - (big_a - 1) * _cos
UpperCAmelCase_ : int = (big_a + 1) + (big_a - 1) * _cos
UpperCAmelCase_ : Optional[Any] = (big_a - 1) - (big_a + 1) * _cos
UpperCAmelCase_ : Optional[int] = (big_a - 1) + (big_a + 1) * _cos
UpperCAmelCase_ : Dict = 2 * sqrt(__lowerCamelCase ) * alpha
UpperCAmelCase_ : List[str] = big_a * (pmc + aaa)
UpperCAmelCase_ : int = 2 * big_a * mpc
UpperCAmelCase_ : int = big_a * (pmc - aaa)
UpperCAmelCase_ : Dict = ppmc + aaa
UpperCAmelCase_ : Any = -2 * pmpc
UpperCAmelCase_ : List[str] = ppmc - aaa
UpperCAmelCase_ : List[Any] = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ), ):
UpperCAmelCase_ : int = tau * frequency / samplerate
UpperCAmelCase_ : Optional[Any] = sin(__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = cos(__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = _sin / (2 * q_factor)
UpperCAmelCase_ : Tuple = 10 ** (gain_db / 40)
UpperCAmelCase_ : Tuple = (big_a + 1) - (big_a - 1) * _cos
UpperCAmelCase_ : Optional[Any] = (big_a + 1) + (big_a - 1) * _cos
UpperCAmelCase_ : List[Any] = (big_a - 1) - (big_a + 1) * _cos
UpperCAmelCase_ : Any = (big_a - 1) + (big_a + 1) * _cos
UpperCAmelCase_ : Dict = 2 * sqrt(__lowerCamelCase ) * alpha
UpperCAmelCase_ : Any = big_a * (ppmc + aaa)
UpperCAmelCase_ : Union[str, Any] = -2 * big_a * pmpc
UpperCAmelCase_ : Dict = big_a * (ppmc - aaa)
UpperCAmelCase_ : Optional[int] = pmc + aaa
UpperCAmelCase_ : Union[str, Any] = 2 * mpc
UpperCAmelCase_ : int = pmc - aaa
UpperCAmelCase_ : Union[str, Any] = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
| 61 | 1 |
"""simple docstring"""
from typing import TYPE_CHECKING
from ...utils import _LazyModule
_a = {'tokenization_bertweet': ['BertweetTokenizer']}
if TYPE_CHECKING:
from .tokenization_bertweet import BertweetTokenizer
else:
import sys
_a = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)
| 61 |
"""simple docstring"""
import argparse
import io
import requests
import torch
from omegaconf import OmegaConf
from diffusers import AutoencoderKL
from diffusers.pipelines.stable_diffusion.convert_from_ckpt import (
assign_to_checkpoint,
conv_attn_to_linear,
create_vae_diffusers_config,
renew_vae_attention_paths,
renew_vae_resnet_paths,
)
def __a ( __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : str = checkpoint
UpperCAmelCase_ : int = {}
UpperCAmelCase_ : Optional[int] = vae_state_dict["encoder.conv_in.weight"]
UpperCAmelCase_ : List[str] = vae_state_dict["encoder.conv_in.bias"]
UpperCAmelCase_ : Optional[Any] = vae_state_dict["encoder.conv_out.weight"]
UpperCAmelCase_ : Optional[int] = vae_state_dict["encoder.conv_out.bias"]
UpperCAmelCase_ : List[Any] = vae_state_dict["encoder.norm_out.weight"]
UpperCAmelCase_ : Union[str, Any] = vae_state_dict["encoder.norm_out.bias"]
UpperCAmelCase_ : Any = vae_state_dict["decoder.conv_in.weight"]
UpperCAmelCase_ : int = vae_state_dict["decoder.conv_in.bias"]
UpperCAmelCase_ : Any = vae_state_dict["decoder.conv_out.weight"]
UpperCAmelCase_ : Tuple = vae_state_dict["decoder.conv_out.bias"]
UpperCAmelCase_ : List[Any] = vae_state_dict["decoder.norm_out.weight"]
UpperCAmelCase_ : Tuple = vae_state_dict["decoder.norm_out.bias"]
UpperCAmelCase_ : str = vae_state_dict["quant_conv.weight"]
UpperCAmelCase_ : Optional[Any] = vae_state_dict["quant_conv.bias"]
UpperCAmelCase_ : List[str] = vae_state_dict["post_quant_conv.weight"]
UpperCAmelCase_ : List[Any] = vae_state_dict["post_quant_conv.bias"]
# Retrieves the keys for the encoder down blocks only
UpperCAmelCase_ : Optional[Any] = len({".".join(layer.split("." )[:3] ) for layer in vae_state_dict if "encoder.down" in layer} )
UpperCAmelCase_ : Optional[Any] = {
layer_id: [key for key in vae_state_dict if f"""down.{layer_id}""" in key] for layer_id in range(__lowerCamelCase )
}
# Retrieves the keys for the decoder up blocks only
UpperCAmelCase_ : Dict = len({".".join(layer.split("." )[:3] ) for layer in vae_state_dict if "decoder.up" in layer} )
UpperCAmelCase_ : Optional[int] = {
layer_id: [key for key in vae_state_dict if f"""up.{layer_id}""" in key] for layer_id in range(__lowerCamelCase )
}
for i in range(__lowerCamelCase ):
UpperCAmelCase_ : Any = [key for key in down_blocks[i] if f"""down.{i}""" in key and f"""down.{i}.downsample""" not in key]
if f"""encoder.down.{i}.downsample.conv.weight""" in vae_state_dict:
UpperCAmelCase_ : Dict = vae_state_dict.pop(
f"""encoder.down.{i}.downsample.conv.weight""" )
UpperCAmelCase_ : Dict = vae_state_dict.pop(
f"""encoder.down.{i}.downsample.conv.bias""" )
UpperCAmelCase_ : List[str] = renew_vae_resnet_paths(__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = {"old": f"""down.{i}.block""", "new": f"""down_blocks.{i}.resnets"""}
assign_to_checkpoint(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, additional_replacements=[meta_path], config=__lowerCamelCase )
UpperCAmelCase_ : List[Any] = [key for key in vae_state_dict if "encoder.mid.block" in key]
UpperCAmelCase_ : Tuple = 2
for i in range(1, num_mid_res_blocks + 1 ):
UpperCAmelCase_ : str = [key for key in mid_resnets if f"""encoder.mid.block_{i}""" in key]
UpperCAmelCase_ : List[Any] = renew_vae_resnet_paths(__lowerCamelCase )
UpperCAmelCase_ : Optional[int] = {"old": f"""mid.block_{i}""", "new": f"""mid_block.resnets.{i - 1}"""}
assign_to_checkpoint(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, additional_replacements=[meta_path], config=__lowerCamelCase )
UpperCAmelCase_ : Optional[int] = [key for key in vae_state_dict if "encoder.mid.attn" in key]
UpperCAmelCase_ : Union[str, Any] = renew_vae_attention_paths(__lowerCamelCase )
UpperCAmelCase_ : int = {"old": "mid.attn_1", "new": "mid_block.attentions.0"}
assign_to_checkpoint(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, additional_replacements=[meta_path], config=__lowerCamelCase )
conv_attn_to_linear(__lowerCamelCase )
for i in range(__lowerCamelCase ):
UpperCAmelCase_ : Optional[Any] = num_up_blocks - 1 - i
UpperCAmelCase_ : Any = [
key for key in up_blocks[block_id] if f"""up.{block_id}""" in key and f"""up.{block_id}.upsample""" not in key
]
if f"""decoder.up.{block_id}.upsample.conv.weight""" in vae_state_dict:
UpperCAmelCase_ : str = vae_state_dict[
f"""decoder.up.{block_id}.upsample.conv.weight"""
]
UpperCAmelCase_ : Optional[Any] = vae_state_dict[
f"""decoder.up.{block_id}.upsample.conv.bias"""
]
UpperCAmelCase_ : Dict = renew_vae_resnet_paths(__lowerCamelCase )
UpperCAmelCase_ : List[str] = {"old": f"""up.{block_id}.block""", "new": f"""up_blocks.{i}.resnets"""}
assign_to_checkpoint(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, additional_replacements=[meta_path], config=__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = [key for key in vae_state_dict if "decoder.mid.block" in key]
UpperCAmelCase_ : List[Any] = 2
for i in range(1, num_mid_res_blocks + 1 ):
UpperCAmelCase_ : str = [key for key in mid_resnets if f"""decoder.mid.block_{i}""" in key]
UpperCAmelCase_ : Tuple = renew_vae_resnet_paths(__lowerCamelCase )
UpperCAmelCase_ : Tuple = {"old": f"""mid.block_{i}""", "new": f"""mid_block.resnets.{i - 1}"""}
assign_to_checkpoint(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, additional_replacements=[meta_path], config=__lowerCamelCase )
UpperCAmelCase_ : Optional[int] = [key for key in vae_state_dict if "decoder.mid.attn" in key]
UpperCAmelCase_ : Any = renew_vae_attention_paths(__lowerCamelCase )
UpperCAmelCase_ : Union[str, Any] = {"old": "mid.attn_1", "new": "mid_block.attentions.0"}
assign_to_checkpoint(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, additional_replacements=[meta_path], config=__lowerCamelCase )
conv_attn_to_linear(__lowerCamelCase )
return new_checkpoint
def __a ( __lowerCamelCase, __lowerCamelCase, ):
# Only support V1
UpperCAmelCase_ : List[str] = requests.get(
" https://raw.githubusercontent.com/CompVis/stable-diffusion/main/configs/stable-diffusion/v1-inference.yaml" )
UpperCAmelCase_ : List[Any] = io.BytesIO(r.content )
UpperCAmelCase_ : Any = OmegaConf.load(__lowerCamelCase )
UpperCAmelCase_ : Union[str, Any] = 512
UpperCAmelCase_ : Optional[Any] = "cuda" if torch.cuda.is_available() else "cpu"
if checkpoint_path.endswith("safetensors" ):
from safetensors import safe_open
UpperCAmelCase_ : int = {}
with safe_open(__lowerCamelCase, framework="pt", device="cpu" ) as f:
for key in f.keys():
UpperCAmelCase_ : Tuple = f.get_tensor(__lowerCamelCase )
else:
UpperCAmelCase_ : Any = torch.load(__lowerCamelCase, map_location=__lowerCamelCase )["state_dict"]
# Convert the VAE model.
UpperCAmelCase_ : Dict = create_vae_diffusers_config(__lowerCamelCase, image_size=__lowerCamelCase )
UpperCAmelCase_ : Union[str, Any] = custom_convert_ldm_vae_checkpoint(__lowerCamelCase, __lowerCamelCase )
UpperCAmelCase_ : int = AutoencoderKL(**__lowerCamelCase )
vae.load_state_dict(__lowerCamelCase )
vae.save_pretrained(__lowerCamelCase )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
parser.add_argument('--vae_pt_path', default=None, type=str, required=True, help='Path to the VAE.pt to convert.')
parser.add_argument('--dump_path', default=None, type=str, required=True, help='Path to the VAE.pt to convert.')
_a = parser.parse_args()
vae_pt_to_vae_diffuser(args.vae_pt_path, args.dump_path)
| 61 | 1 |
"""simple docstring"""
import gc
import tempfile
import unittest
import numpy as np
import torch
from diffusers import VersatileDiffusionPipeline
from diffusers.utils.testing_utils import load_image, nightly, require_torch_gpu, torch_device
_a = False
class A_ (unittest.TestCase ):
'''simple docstring'''
pass
@nightly
@require_torch_gpu
class A_ (unittest.TestCase ):
'''simple docstring'''
def UpperCamelCase__ ( self ):
"""simple docstring"""
# clean up the VRAM after each test
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = VersatileDiffusionPipeline.from_pretrained("shi-labs/versatile-diffusion" , torch_dtype=torch.floataa )
pipe.to(lowercase_ )
pipe.set_progress_bar_config(disable=lowercase_ )
UpperCAmelCase_ : List[str] = load_image(
"https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/versatile_diffusion/benz.jpg" )
UpperCAmelCase_ : List[str] = torch.manual_seed(0 )
UpperCAmelCase_ : int = pipe.dual_guided(
prompt="first prompt" , image=lowercase_ , text_to_image_strength=0.75 , generator=lowercase_ , guidance_scale=7.5 , num_inference_steps=2 , output_type="numpy" , ).images
with tempfile.TemporaryDirectory() as tmpdirname:
pipe.save_pretrained(lowercase_ )
UpperCAmelCase_ : Tuple = VersatileDiffusionPipeline.from_pretrained(lowercase_ , torch_dtype=torch.floataa )
pipe.to(lowercase_ )
pipe.set_progress_bar_config(disable=lowercase_ )
UpperCAmelCase_ : Optional[int] = generator.manual_seed(0 )
UpperCAmelCase_ : List[Any] = pipe.dual_guided(
prompt="first prompt" , image=lowercase_ , text_to_image_strength=0.75 , generator=lowercase_ , guidance_scale=7.5 , num_inference_steps=2 , output_type="numpy" , ).images
assert np.abs(image - new_image ).sum() < 1E-5, "Models don't have the same forward pass"
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = VersatileDiffusionPipeline.from_pretrained("shi-labs/versatile-diffusion" , torch_dtype=torch.floataa )
pipe.to(lowercase_ )
pipe.set_progress_bar_config(disable=lowercase_ )
UpperCAmelCase_ : Union[str, Any] = "cyberpunk 2077"
UpperCAmelCase_ : Optional[Any] = load_image(
"https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/versatile_diffusion/benz.jpg" )
UpperCAmelCase_ : List[Any] = torch.manual_seed(0 )
UpperCAmelCase_ : Tuple = pipe.dual_guided(
prompt=lowercase_ , image=lowercase_ , text_to_image_strength=0.75 , generator=lowercase_ , guidance_scale=7.5 , num_inference_steps=50 , output_type="numpy" , ).images
UpperCAmelCase_ : Union[str, Any] = image[0, 253:256, 253:256, -1]
assert image.shape == (1, 512, 512, 3)
UpperCAmelCase_ : Optional[Any] = np.array([0.14_48, 0.16_19, 0.17_41, 0.10_86, 0.11_47, 0.11_28, 0.11_99, 0.11_65, 0.10_01] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-1
UpperCAmelCase_ : Any = "A painting of a squirrel eating a burger "
UpperCAmelCase_ : Dict = torch.manual_seed(0 )
UpperCAmelCase_ : Tuple = pipe.text_to_image(
prompt=lowercase_ , generator=lowercase_ , guidance_scale=7.5 , num_inference_steps=50 , output_type="numpy" ).images
UpperCAmelCase_ : List[str] = image[0, 253:256, 253:256, -1]
assert image.shape == (1, 512, 512, 3)
UpperCAmelCase_ : int = np.array([0.33_67, 0.31_69, 0.26_56, 0.38_70, 0.47_90, 0.37_96, 0.40_09, 0.48_78, 0.47_78] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-1
UpperCAmelCase_ : Optional[Any] = pipe.image_variation(lowercase_ , generator=lowercase_ , output_type="numpy" ).images
UpperCAmelCase_ : Tuple = image[0, 253:256, 253:256, -1]
assert image.shape == (1, 512, 512, 3)
UpperCAmelCase_ : Union[str, Any] = np.array([0.30_76, 0.31_23, 0.32_84, 0.37_82, 0.37_70, 0.38_94, 0.42_97, 0.43_31, 0.44_56] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-1
| 61 |
"""simple docstring"""
import unittest
import numpy as np
import timeout_decorator # noqa
from transformers import BlenderbotSmallConfig, is_flax_available
from transformers.testing_utils import require_flax, slow
from ...generation.test_flax_utils import FlaxGenerationTesterMixin
from ...test_modeling_flax_common import FlaxModelTesterMixin, ids_tensor
if is_flax_available():
import os
# The slow tests are often failing with OOM error on GPU
# This makes JAX allocate exactly what is needed on demand, and deallocate memory that is no longer needed
# but will be slower as stated here https://jax.readthedocs.io/en/latest/gpu_memory_allocation.html
_a = 'platform'
import jax
import jax.numpy as jnp
from transformers.models.blenderbot_small.modeling_flax_blenderbot_small import (
FlaxBlenderbotSmallForConditionalGeneration,
FlaxBlenderbotSmallModel,
shift_tokens_right,
)
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase=None, __lowerCamelCase=None, __lowerCamelCase=None, __lowerCamelCase=None, __lowerCamelCase=None, __lowerCamelCase=None, ):
if attention_mask is None:
UpperCAmelCase_ : Union[str, Any] = np.where(input_ids != config.pad_token_id, 1, 0 )
if decoder_attention_mask is None:
UpperCAmelCase_ : Optional[int] = np.where(decoder_input_ids != config.pad_token_id, 1, 0 )
if head_mask is None:
UpperCAmelCase_ : int = np.ones((config.encoder_layers, config.encoder_attention_heads) )
if decoder_head_mask is None:
UpperCAmelCase_ : Union[str, Any] = np.ones((config.decoder_layers, config.decoder_attention_heads) )
if cross_attn_head_mask is None:
UpperCAmelCase_ : List[Any] = np.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": attention_mask,
}
class A_ :
'''simple docstring'''
def __init__( self , lowercase_ , lowercase_=13 , lowercase_=7 , lowercase_=True , lowercase_=False , lowercase_=99 , lowercase_=16 , lowercase_=2 , lowercase_=4 , lowercase_=4 , lowercase_="gelu" , lowercase_=0.1 , lowercase_=0.1 , lowercase_=32 , lowercase_=2 , lowercase_=1 , lowercase_=0 , lowercase_=0.02 , ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = parent
UpperCAmelCase_ : Tuple = batch_size
UpperCAmelCase_ : str = seq_length
UpperCAmelCase_ : Dict = is_training
UpperCAmelCase_ : List[Any] = use_labels
UpperCAmelCase_ : Optional[int] = vocab_size
UpperCAmelCase_ : int = hidden_size
UpperCAmelCase_ : Optional[Any] = num_hidden_layers
UpperCAmelCase_ : Dict = num_attention_heads
UpperCAmelCase_ : List[str] = intermediate_size
UpperCAmelCase_ : Optional[int] = hidden_act
UpperCAmelCase_ : str = hidden_dropout_prob
UpperCAmelCase_ : int = attention_probs_dropout_prob
UpperCAmelCase_ : Optional[Any] = max_position_embeddings
UpperCAmelCase_ : str = eos_token_id
UpperCAmelCase_ : str = pad_token_id
UpperCAmelCase_ : str = bos_token_id
UpperCAmelCase_ : List[Any] = initializer_range
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = np.clip(ids_tensor([self.batch_size, self.seq_length - 1] , self.vocab_size ) , 3 , self.vocab_size )
UpperCAmelCase_ : Any = np.concatenate((input_ids, 2 * np.ones((self.batch_size, 1) , dtype=np.intaa )) , -1 )
UpperCAmelCase_ : str = shift_tokens_right(lowercase_ , 1 , 2 )
UpperCAmelCase_ : str = BlenderbotSmallConfig(
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_id=self.eos_token_id , bos_token_id=self.bos_token_id , pad_token_id=self.pad_token_id , initializer_range=self.initializer_range , use_cache=lowercase_ , )
UpperCAmelCase_ : Optional[int] = prepare_blenderbot_inputs_dict(lowercase_ , lowercase_ , lowercase_ )
return config, inputs_dict
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Optional[int] = self.prepare_config_and_inputs()
return config, inputs_dict
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = 20
UpperCAmelCase_ : int = model_class_name(lowercase_ )
UpperCAmelCase_ : Optional[int] = model.encode(inputs_dict["input_ids"] )
UpperCAmelCase_ , UpperCAmelCase_ : Any = (
inputs_dict["decoder_input_ids"],
inputs_dict["decoder_attention_mask"],
)
UpperCAmelCase_ : Any = model.init_cache(decoder_input_ids.shape[0] , lowercase_ , lowercase_ )
UpperCAmelCase_ : Tuple = jnp.ones((decoder_input_ids.shape[0], max_decoder_length) , dtype="i4" )
UpperCAmelCase_ : Union[str, Any] = jnp.broadcast_to(
jnp.arange(decoder_input_ids.shape[-1] - 1 )[None, :] , (decoder_input_ids.shape[0], decoder_input_ids.shape[-1] - 1) , )
UpperCAmelCase_ : int = model.decode(
decoder_input_ids[:, :-1] , lowercase_ , decoder_attention_mask=lowercase_ , past_key_values=lowercase_ , decoder_position_ids=lowercase_ , )
UpperCAmelCase_ : int = jnp.array(decoder_input_ids.shape[0] * [[decoder_input_ids.shape[-1] - 1]] , dtype="i4" )
UpperCAmelCase_ : Dict = model.decode(
decoder_input_ids[:, -1:] , lowercase_ , decoder_attention_mask=lowercase_ , past_key_values=outputs_cache.past_key_values , decoder_position_ids=lowercase_ , )
UpperCAmelCase_ : Optional[Any] = model.decode(lowercase_ , lowercase_ )
UpperCAmelCase_ : Tuple = np.max(np.abs((outputs_cache_next[0][:, -1, :5] - outputs[0][:, -1, :5]) ) )
self.parent.assertTrue(diff < 1E-3 , msg=F"""Max diff is {diff}""" )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = 20
UpperCAmelCase_ : Any = model_class_name(lowercase_ )
UpperCAmelCase_ : Tuple = model.encode(inputs_dict["input_ids"] )
UpperCAmelCase_ , UpperCAmelCase_ : List[Any] = (
inputs_dict["decoder_input_ids"],
inputs_dict["decoder_attention_mask"],
)
UpperCAmelCase_ : Optional[Any] = jnp.concatenate(
[
decoder_attention_mask,
jnp.zeros((decoder_attention_mask.shape[0], max_decoder_length - decoder_attention_mask.shape[1]) ),
] , axis=-1 , )
UpperCAmelCase_ : int = model.init_cache(decoder_input_ids.shape[0] , lowercase_ , lowercase_ )
UpperCAmelCase_ : List[str] = jnp.broadcast_to(
jnp.arange(decoder_input_ids.shape[-1] - 1 )[None, :] , (decoder_input_ids.shape[0], decoder_input_ids.shape[-1] - 1) , )
UpperCAmelCase_ : List[str] = model.decode(
decoder_input_ids[:, :-1] , lowercase_ , decoder_attention_mask=lowercase_ , past_key_values=lowercase_ , decoder_position_ids=lowercase_ , )
UpperCAmelCase_ : Any = jnp.array(decoder_input_ids.shape[0] * [[decoder_input_ids.shape[-1] - 1]] , dtype="i4" )
UpperCAmelCase_ : Dict = model.decode(
decoder_input_ids[:, -1:] , lowercase_ , past_key_values=outputs_cache.past_key_values , decoder_attention_mask=lowercase_ , decoder_position_ids=lowercase_ , )
UpperCAmelCase_ : Dict = model.decode(lowercase_ , lowercase_ , decoder_attention_mask=lowercase_ )
UpperCAmelCase_ : Optional[Any] = np.max(np.abs((outputs_cache_next[0][:, -1, :5] - outputs[0][:, -1, :5]) ) )
self.parent.assertTrue(diff < 1E-3 , msg=F"""Max diff is {diff}""" )
@require_flax
class A_ (unittest.TestCase ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Tuple = 99
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = np.array(
[
[71, 82, 18, 33, 46, 91, 2],
[68, 34, 26, 58, 30, 82, 2],
[5, 97, 17, 39, 94, 40, 2],
[76, 83, 94, 25, 70, 78, 2],
[87, 59, 41, 35, 48, 66, 2],
[55, 13, 16, 58, 5, 2, 1], # note padding
[64, 27, 31, 51, 12, 75, 2],
[52, 64, 86, 17, 83, 39, 2],
[48, 61, 9, 24, 71, 82, 2],
[26, 1, 60, 48, 22, 13, 2],
[21, 5, 62, 28, 14, 76, 2],
[45, 98, 37, 86, 59, 48, 2],
[70, 70, 50, 9, 28, 0, 2],
] , dtype=np.intaa , )
UpperCAmelCase_ : Any = input_ids.shape[0]
UpperCAmelCase_ : Dict = BlenderbotSmallConfig(
vocab_size=self.vocab_size , d_model=24 , encoder_layers=2 , decoder_layers=2 , encoder_attention_heads=2 , decoder_attention_heads=2 , encoder_ffn_dim=32 , decoder_ffn_dim=32 , max_position_embeddings=48 , eos_token_id=2 , pad_token_id=1 , bos_token_id=0 , )
return config, input_ids, batch_size
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : Tuple = self._get_config_and_data()
UpperCAmelCase_ : List[str] = FlaxBlenderbotSmallForConditionalGeneration(lowercase_ )
UpperCAmelCase_ : Optional[int] = lm_model(input_ids=lowercase_ )
UpperCAmelCase_ : Optional[int] = (batch_size, input_ids.shape[1], config.vocab_size)
self.assertEqual(outputs["logits"].shape , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = BlenderbotSmallConfig(
vocab_size=self.vocab_size , d_model=14 , encoder_layers=2 , decoder_layers=2 , encoder_attention_heads=2 , decoder_attention_heads=2 , encoder_ffn_dim=8 , decoder_ffn_dim=8 , max_position_embeddings=48 , )
UpperCAmelCase_ : Optional[int] = FlaxBlenderbotSmallForConditionalGeneration(lowercase_ )
UpperCAmelCase_ : str = np.array([[71, 82, 18, 33, 46, 91, 2], [68, 34, 26, 58, 30, 2, 1]] , dtype=np.intaa )
UpperCAmelCase_ : str = np.array([[82, 71, 82, 18, 2], [58, 68, 2, 1, 1]] , dtype=np.intaa )
UpperCAmelCase_ : Tuple = lm_model(input_ids=lowercase_ , decoder_input_ids=lowercase_ )
UpperCAmelCase_ : Tuple = (*summary.shape, config.vocab_size)
self.assertEqual(outputs["logits"].shape , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[Any] = np.array([[71, 82, 18, 33, 2, 1, 1], [68, 34, 26, 58, 30, 82, 2]] , dtype=np.intaa )
UpperCAmelCase_ : Dict = shift_tokens_right(lowercase_ , 1 , 2 )
UpperCAmelCase_ : Tuple = np.equal(lowercase_ , 1 ).astype(np.floataa ).sum()
UpperCAmelCase_ : Optional[Any] = np.equal(lowercase_ , 1 ).astype(np.floataa ).sum()
self.assertEqual(shifted.shape , input_ids.shape )
self.assertEqual(lowercase_ , n_pad_before - 1 )
self.assertTrue(np.equal(shifted[:, 0] , 2 ).all() )
@require_flax
class A_ (lowercase__ ,unittest.TestCase ,lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : str = True
SCREAMING_SNAKE_CASE__ : Union[str, Any] = (
(
FlaxBlenderbotSmallModel,
FlaxBlenderbotSmallForConditionalGeneration,
)
if is_flax_available()
else ()
)
SCREAMING_SNAKE_CASE__ : List[Any] = (FlaxBlenderbotSmallForConditionalGeneration,) if is_flax_available() else ()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Dict = FlaxBlenderbotSmallModelTester(self )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Tuple = self.model_tester.prepare_config_and_inputs()
for model_class in self.all_model_classes:
self.model_tester.check_use_cache_forward(lowercase_ , lowercase_ , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Optional[Any] = self.model_tester.prepare_config_and_inputs()
for model_class in self.all_model_classes:
self.model_tester.check_use_cache_forward_with_attn_mask(lowercase_ , lowercase_ , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Any = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
with self.subTest(model_class.__name__ ):
UpperCAmelCase_ : List[Any] = self._prepare_for_class(lowercase_ , lowercase_ )
UpperCAmelCase_ : Dict = model_class(lowercase_ )
@jax.jit
def encode_jitted(lowercase_ , lowercase_=None , **lowercase_ ):
return model.encode(input_ids=lowercase_ , attention_mask=lowercase_ )
with self.subTest("JIT Enabled" ):
UpperCAmelCase_ : List[Any] = encode_jitted(**lowercase_ ).to_tuple()
with self.subTest("JIT Disabled" ):
with jax.disable_jit():
UpperCAmelCase_ : Optional[Any] = encode_jitted(**lowercase_ ).to_tuple()
self.assertEqual(len(lowercase_ ) , len(lowercase_ ) )
for jitted_output, output in zip(lowercase_ , lowercase_ ):
self.assertEqual(jitted_output.shape , output.shape )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
with self.subTest(model_class.__name__ ):
UpperCAmelCase_ : Optional[int] = model_class(lowercase_ )
UpperCAmelCase_ : Tuple = model.encode(inputs_dict["input_ids"] , inputs_dict["attention_mask"] )
UpperCAmelCase_ : int = {
"decoder_input_ids": inputs_dict["decoder_input_ids"],
"decoder_attention_mask": inputs_dict["decoder_attention_mask"],
"encoder_outputs": encoder_outputs,
}
@jax.jit
def decode_jitted(lowercase_ , lowercase_ , lowercase_ ):
return model.decode(
decoder_input_ids=lowercase_ , decoder_attention_mask=lowercase_ , encoder_outputs=lowercase_ , )
with self.subTest("JIT Enabled" ):
UpperCAmelCase_ : str = decode_jitted(**lowercase_ ).to_tuple()
with self.subTest("JIT Disabled" ):
with jax.disable_jit():
UpperCAmelCase_ : List[Any] = decode_jitted(**lowercase_ ).to_tuple()
self.assertEqual(len(lowercase_ ) , len(lowercase_ ) )
for jitted_output, output in zip(lowercase_ , lowercase_ ):
self.assertEqual(jitted_output.shape , output.shape )
@slow
def UpperCamelCase__ ( self ):
"""simple docstring"""
for model_class_name in self.all_model_classes:
UpperCAmelCase_ : Optional[Any] = model_class_name.from_pretrained("facebook/blenderbot_small-90M" )
# FlaxBlenderbotForSequenceClassification expects eos token in input_ids
UpperCAmelCase_ : List[str] = np.ones((1, 1) ) * model.config.eos_token_id
UpperCAmelCase_ : Optional[int] = model(lowercase_ )
self.assertIsNotNone(lowercase_ )
| 61 | 1 |
"""simple docstring"""
class A_ :
'''simple docstring'''
def __init__( self , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : int = set_counts
UpperCAmelCase_ : Optional[Any] = max(lowercase_ )
UpperCAmelCase_ : str = len(lowercase_ )
UpperCAmelCase_ : str = [1] * num_sets
UpperCAmelCase_ : Optional[Any] = list(range(lowercase_ ) )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : List[Any] = self.get_parent(lowercase_ )
UpperCAmelCase_ : List[Any] = self.get_parent(lowercase_ )
if src_parent == dst_parent:
return False
if self.ranks[dst_parent] >= self.ranks[src_parent]:
self.set_counts[dst_parent] += self.set_counts[src_parent]
UpperCAmelCase_ : Optional[Any] = 0
UpperCAmelCase_ : List[Any] = dst_parent
if self.ranks[dst_parent] == self.ranks[src_parent]:
self.ranks[dst_parent] += 1
UpperCAmelCase_ : List[Any] = self.set_counts[dst_parent]
else:
self.set_counts[src_parent] += self.set_counts[dst_parent]
UpperCAmelCase_ : List[str] = 0
UpperCAmelCase_ : List[Any] = src_parent
UpperCAmelCase_ : Union[str, Any] = self.set_counts[src_parent]
UpperCAmelCase_ : Tuple = max(self.max_set , lowercase_ )
return True
def UpperCamelCase__ ( self , lowercase_ ):
"""simple docstring"""
if self.parents[disj_set] == disj_set:
return disj_set
UpperCAmelCase_ : List[str] = self.get_parent(self.parents[disj_set] )
return self.parents[disj_set]
| 61 |
"""simple docstring"""
import inspect
import unittest
import warnings
from transformers import DeiTConfig
from transformers.models.auto import get_values
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 (
MODEL_FOR_IMAGE_CLASSIFICATION_MAPPING,
MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING,
MODEL_MAPPING,
DeiTForImageClassification,
DeiTForImageClassificationWithTeacher,
DeiTForMaskedImageModeling,
DeiTModel,
)
from transformers.models.deit.modeling_deit import DEIT_PRETRAINED_MODEL_ARCHIVE_LIST
if is_vision_available():
from PIL import Image
from transformers import DeiTImageProcessor
class A_ :
'''simple docstring'''
def __init__( self , lowercase_ , lowercase_=13 , lowercase_=30 , lowercase_=2 , lowercase_=3 , lowercase_=True , lowercase_=True , lowercase_=32 , lowercase_=5 , lowercase_=4 , lowercase_=37 , lowercase_="gelu" , lowercase_=0.1 , lowercase_=0.1 , lowercase_=10 , lowercase_=0.02 , lowercase_=3 , lowercase_=None , lowercase_=2 , ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = parent
UpperCAmelCase_ : int = batch_size
UpperCAmelCase_ : int = image_size
UpperCAmelCase_ : List[Any] = patch_size
UpperCAmelCase_ : Any = num_channels
UpperCAmelCase_ : Optional[int] = is_training
UpperCAmelCase_ : Union[str, Any] = use_labels
UpperCAmelCase_ : Union[str, Any] = hidden_size
UpperCAmelCase_ : str = num_hidden_layers
UpperCAmelCase_ : List[str] = num_attention_heads
UpperCAmelCase_ : str = intermediate_size
UpperCAmelCase_ : str = hidden_act
UpperCAmelCase_ : List[Any] = hidden_dropout_prob
UpperCAmelCase_ : Union[str, Any] = attention_probs_dropout_prob
UpperCAmelCase_ : str = type_sequence_label_size
UpperCAmelCase_ : str = initializer_range
UpperCAmelCase_ : Union[str, Any] = scope
UpperCAmelCase_ : str = encoder_stride
# in DeiT, the seq length equals the number of patches + 2 (we add 2 for the [CLS] and distilation tokens)
UpperCAmelCase_ : int = (image_size // patch_size) ** 2
UpperCAmelCase_ : Optional[Any] = num_patches + 2
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Any = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] )
UpperCAmelCase_ : Tuple = None
if self.use_labels:
UpperCAmelCase_ : Any = ids_tensor([self.batch_size] , self.type_sequence_label_size )
UpperCAmelCase_ : Union[str, Any] = self.get_config()
return config, pixel_values, labels
def UpperCamelCase__ ( self ):
"""simple docstring"""
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=lowercase_ , initializer_range=self.initializer_range , encoder_stride=self.encoder_stride , )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Optional[int] = DeiTModel(config=lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : List[Any] = model(lowercase_ )
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Optional[int] = DeiTForMaskedImageModeling(config=lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : List[Any] = model(lowercase_ )
self.parent.assertEqual(
result.reconstruction.shape , (self.batch_size, self.num_channels, self.image_size, self.image_size) )
# test greyscale images
UpperCAmelCase_ : List[str] = 1
UpperCAmelCase_ : Optional[Any] = DeiTForMaskedImageModeling(lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : Dict = floats_tensor([self.batch_size, 1, self.image_size, self.image_size] )
UpperCAmelCase_ : Optional[int] = model(lowercase_ )
self.parent.assertEqual(result.reconstruction.shape , (self.batch_size, 1, self.image_size, self.image_size) )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = self.type_sequence_label_size
UpperCAmelCase_ : Union[str, Any] = DeiTForImageClassification(lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : List[str] = model(lowercase_ , labels=lowercase_ )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size) )
# test greyscale images
UpperCAmelCase_ : Union[str, Any] = 1
UpperCAmelCase_ : Optional[int] = DeiTForImageClassification(lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : Dict = floats_tensor([self.batch_size, 1, self.image_size, self.image_size] )
UpperCAmelCase_ : List[Any] = model(lowercase_ , labels=lowercase_ )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size) )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = self.prepare_config_and_inputs()
(
(
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) ,
) : Dict = config_and_inputs
UpperCAmelCase_ : Optional[int] = {"pixel_values": pixel_values}
return config, inputs_dict
@require_torch
class A_ (lowercase__ ,lowercase__ ,unittest.TestCase ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Any = (
(
DeiTModel,
DeiTForImageClassification,
DeiTForImageClassificationWithTeacher,
DeiTForMaskedImageModeling,
)
if is_torch_available()
else ()
)
SCREAMING_SNAKE_CASE__ : Tuple = (
{
"""feature-extraction""": DeiTModel,
"""image-classification""": (DeiTForImageClassification, DeiTForImageClassificationWithTeacher),
}
if is_torch_available()
else {}
)
SCREAMING_SNAKE_CASE__ : List[Any] = False
SCREAMING_SNAKE_CASE__ : Optional[Any] = False
SCREAMING_SNAKE_CASE__ : List[str] = False
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Any = DeiTModelTester(self )
UpperCAmelCase_ : Optional[int] = ConfigTester(self , config_class=lowercase_ , has_text_modality=lowercase_ , hidden_size=37 )
def UpperCamelCase__ ( self ):
"""simple docstring"""
self.config_tester.run_common_tests()
@unittest.skip(reason="DeiT does not use inputs_embeds" )
def UpperCamelCase__ ( self ):
"""simple docstring"""
pass
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Any = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
UpperCAmelCase_ : List[Any] = model_class(lowercase_ )
self.assertIsInstance(model.get_input_embeddings() , (nn.Module) )
UpperCAmelCase_ : Any = model.get_output_embeddings()
self.assertTrue(x is None or isinstance(lowercase_ , nn.Linear ) )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Dict = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
UpperCAmelCase_ : Dict = model_class(lowercase_ )
UpperCAmelCase_ : Optional[Any] = inspect.signature(model.forward )
# signature.parameters is an OrderedDict => so arg_names order is deterministic
UpperCAmelCase_ : str = [*signature.parameters.keys()]
UpperCAmelCase_ : Optional[int] = ["pixel_values"]
self.assertListEqual(arg_names[:1] , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : int = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Dict = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_masked_image_modeling(*lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[int] = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_image_classification(*lowercase_ )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_=False ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = super()._prepare_for_class(lowercase_ , lowercase_ , return_labels=lowercase_ )
if return_labels:
if model_class.__name__ == "DeiTForImageClassificationWithTeacher":
del inputs_dict["labels"]
return inputs_dict
def UpperCamelCase__ ( self ):
"""simple docstring"""
if not self.model_tester.is_training:
return
UpperCAmelCase_ , UpperCAmelCase_ : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common()
UpperCAmelCase_ : Union[str, Any] = True
for model_class in self.all_model_classes:
# DeiTForImageClassificationWithTeacher supports inference-only
if (
model_class in get_values(lowercase_ )
or model_class.__name__ == "DeiTForImageClassificationWithTeacher"
):
continue
UpperCAmelCase_ : Optional[int] = model_class(lowercase_ )
model.to(lowercase_ )
model.train()
UpperCAmelCase_ : List[Any] = self._prepare_for_class(lowercase_ , lowercase_ , return_labels=lowercase_ )
UpperCAmelCase_ : Dict = model(**lowercase_ ).loss
loss.backward()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : int = self.model_tester.prepare_config_and_inputs_for_common()
if not self.model_tester.is_training:
return
UpperCAmelCase_ : Dict = False
UpperCAmelCase_ : Optional[int] = True
for model_class in self.all_model_classes:
if model_class in get_values(lowercase_ ) or not model_class.supports_gradient_checkpointing:
continue
# DeiTForImageClassificationWithTeacher supports inference-only
if model_class.__name__ == "DeiTForImageClassificationWithTeacher":
continue
UpperCAmelCase_ : List[str] = model_class(lowercase_ )
model.gradient_checkpointing_enable()
model.to(lowercase_ )
model.train()
UpperCAmelCase_ : Optional[int] = self._prepare_for_class(lowercase_ , lowercase_ , return_labels=lowercase_ )
UpperCAmelCase_ : Any = model(**lowercase_ ).loss
loss.backward()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Tuple = self.model_tester.prepare_config_and_inputs_for_common()
UpperCAmelCase_ : Dict = [
{"title": "multi_label_classification", "num_labels": 2, "dtype": torch.float},
{"title": "single_label_classification", "num_labels": 1, "dtype": torch.long},
{"title": "regression", "num_labels": 1, "dtype": torch.float},
]
for model_class in self.all_model_classes:
if (
model_class
not in [
*get_values(lowercase_ ),
*get_values(lowercase_ ),
]
or model_class.__name__ == "DeiTForImageClassificationWithTeacher"
):
continue
for problem_type in problem_types:
with self.subTest(msg=F"""Testing {model_class} with {problem_type["title"]}""" ):
UpperCAmelCase_ : str = problem_type["title"]
UpperCAmelCase_ : List[Any] = problem_type["num_labels"]
UpperCAmelCase_ : Union[str, Any] = model_class(lowercase_ )
model.to(lowercase_ )
model.train()
UpperCAmelCase_ : int = self._prepare_for_class(lowercase_ , lowercase_ , return_labels=lowercase_ )
if problem_type["num_labels"] > 1:
UpperCAmelCase_ : List[Any] = inputs["labels"].unsqueeze(1 ).repeat(1 , problem_type["num_labels"] )
UpperCAmelCase_ : Tuple = inputs["labels"].to(problem_type["dtype"] )
# This tests that we do not trigger the warning form PyTorch "Using a target size that is different
# to the input size. This will likely lead to incorrect results due to broadcasting. Please ensure
# they have the same size." which is a symptom something in wrong for the regression problem.
# See https://github.com/huggingface/transformers/issues/11780
with warnings.catch_warnings(record=lowercase_ ) as warning_list:
UpperCAmelCase_ : List[str] = model(**lowercase_ ).loss
for w in warning_list:
if "Using a target size that is different to the input size" in str(w.message ):
raise ValueError(
F"""Something is going wrong in the regression problem: intercepted {w.message}""" )
loss.backward()
@slow
def UpperCamelCase__ ( self ):
"""simple docstring"""
for model_name in DEIT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
UpperCAmelCase_ : Union[str, Any] = DeiTModel.from_pretrained(lowercase_ )
self.assertIsNotNone(lowercase_ )
def __a ( ):
UpperCAmelCase_ : Any = Image.open("./tests/fixtures/tests_samples/COCO/000000039769.png" )
return image
@require_torch
@require_vision
class A_ (unittest.TestCase ):
'''simple docstring'''
@cached_property
def UpperCamelCase__ ( self ):
"""simple docstring"""
return (
DeiTImageProcessor.from_pretrained("facebook/deit-base-distilled-patch16-224" )
if is_vision_available()
else None
)
@slow
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = DeiTForImageClassificationWithTeacher.from_pretrained("facebook/deit-base-distilled-patch16-224" ).to(
lowercase_ )
UpperCAmelCase_ : List[str] = self.default_image_processor
UpperCAmelCase_ : List[str] = prepare_img()
UpperCAmelCase_ : int = image_processor(images=lowercase_ , return_tensors="pt" ).to(lowercase_ )
# forward pass
with torch.no_grad():
UpperCAmelCase_ : Dict = model(**lowercase_ )
# verify the logits
UpperCAmelCase_ : List[str] = torch.Size((1, 1000) )
self.assertEqual(outputs.logits.shape , lowercase_ )
UpperCAmelCase_ : str = torch.tensor([-1.02_66, 0.19_12, -1.28_61] ).to(lowercase_ )
self.assertTrue(torch.allclose(outputs.logits[0, :3] , lowercase_ , atol=1E-4 ) )
@slow
@require_accelerate
@require_torch_gpu
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = DeiTModel.from_pretrained(
"facebook/deit-base-distilled-patch16-224" , torch_dtype=torch.floataa , device_map="auto" )
UpperCAmelCase_ : str = self.default_image_processor
UpperCAmelCase_ : Union[str, Any] = prepare_img()
UpperCAmelCase_ : List[Any] = image_processor(images=lowercase_ , return_tensors="pt" )
UpperCAmelCase_ : List[str] = inputs.pixel_values.to(lowercase_ )
# forward pass to make sure inference works in fp16
with torch.no_grad():
UpperCAmelCase_ : int = model(lowercase_ )
| 61 | 1 |
"""simple docstring"""
def __a ( __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : Tuple = len(__lowerCamelCase )
UpperCAmelCase_ : Union[str, Any] = []
for i in range(len(__lowerCamelCase ) - pat_len + 1 ):
UpperCAmelCase_ : Tuple = True
for j in range(__lowerCamelCase ):
if s[i + j] != pattern[j]:
UpperCAmelCase_ : List[str] = False
break
if match_found:
position.append(__lowerCamelCase )
return position
if __name__ == "__main__":
assert naive_pattern_search('ABCDEFG', 'DE') == [3]
print(naive_pattern_search('ABAAABCDBBABCDDEBCABC', 'ABC'))
| 61 |
"""simple docstring"""
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:
_a = None
_a = logging.get_logger(__name__)
_a = {'vocab_file': 'spiece.model', 'tokenizer_file': 'tokenizer.json'}
_a = {
'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',
},
}
_a = {
'google/fnet-base': 512,
'google/fnet-large': 512,
}
_a = '▁'
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : List[str] = VOCAB_FILES_NAMES
SCREAMING_SNAKE_CASE__ : Tuple = PRETRAINED_VOCAB_FILES_MAP
SCREAMING_SNAKE_CASE__ : Any = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
SCREAMING_SNAKE_CASE__ : Union[str, Any] = ["""input_ids""", """token_type_ids"""]
SCREAMING_SNAKE_CASE__ : Tuple = FNetTokenizer
def __init__( self , lowercase_=None , lowercase_=None , lowercase_=False , lowercase_=True , lowercase_=True , lowercase_="<unk>" , lowercase_="[SEP]" , lowercase_="<pad>" , lowercase_="[CLS]" , lowercase_="[MASK]" , **lowercase_ , ):
"""simple docstring"""
# Mask token behave like a normal word, i.e. include the space before it and
# is included in the raw text, there should be a match in a non-normalized sentence.
UpperCAmelCase_ : int = (
AddedToken(lowercase_ , lstrip=lowercase_ , rstrip=lowercase_ , normalized=lowercase_ )
if isinstance(lowercase_ , lowercase_ )
else mask_token
)
super().__init__(
lowercase_ , tokenizer_file=lowercase_ , do_lower_case=lowercase_ , remove_space=lowercase_ , keep_accents=lowercase_ , unk_token=lowercase_ , sep_token=lowercase_ , pad_token=lowercase_ , cls_token=lowercase_ , mask_token=lowercase_ , **lowercase_ , )
UpperCAmelCase_ : Any = do_lower_case
UpperCAmelCase_ : Tuple = remove_space
UpperCAmelCase_ : str = keep_accents
UpperCAmelCase_ : Any = vocab_file
UpperCAmelCase_ : List[Any] = False if not self.vocab_file else True
def UpperCamelCase__ ( self , lowercase_ , lowercase_ = None ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = [self.sep_token_id]
UpperCAmelCase_ : Any = [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 UpperCamelCase__ ( self , lowercase_ , lowercase_ = None ):
"""simple docstring"""
UpperCAmelCase_ : Any = [self.sep_token_id]
UpperCAmelCase_ : 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 UpperCamelCase__ ( self , lowercase_ , lowercase_ = None ):
"""simple docstring"""
if not os.path.isdir(lowercase_ ):
logger.error(F"""Vocabulary path ({save_directory}) should be a directory""" )
return
UpperCAmelCase_ : List[str] = os.path.join(
lowercase_ , (filename_prefix + "-" if filename_prefix else "") + VOCAB_FILES_NAMES["vocab_file"] )
if os.path.abspath(self.vocab_file ) != os.path.abspath(lowercase_ ):
copyfile(self.vocab_file , lowercase_ )
return (out_vocab_file,)
| 61 | 1 |
"""simple docstring"""
from ...utils import is_torch_available, is_transformers_available
if is_transformers_available() and is_torch_available():
from .pipeline_vq_diffusion import LearnedClassifierFreeSamplingEmbeddings, VQDiffusionPipeline
| 61 |
"""simple docstring"""
from collections import OrderedDict
from typing import Mapping
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfig
_a = {
'albert-base-v1': 'https://huggingface.co/albert-base-v1/resolve/main/config.json',
'albert-large-v1': 'https://huggingface.co/albert-large-v1/resolve/main/config.json',
'albert-xlarge-v1': 'https://huggingface.co/albert-xlarge-v1/resolve/main/config.json',
'albert-xxlarge-v1': 'https://huggingface.co/albert-xxlarge-v1/resolve/main/config.json',
'albert-base-v2': 'https://huggingface.co/albert-base-v2/resolve/main/config.json',
'albert-large-v2': 'https://huggingface.co/albert-large-v2/resolve/main/config.json',
'albert-xlarge-v2': 'https://huggingface.co/albert-xlarge-v2/resolve/main/config.json',
'albert-xxlarge-v2': 'https://huggingface.co/albert-xxlarge-v2/resolve/main/config.json',
}
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Optional[Any] = """albert"""
def __init__( self , lowercase_=3_0000 , lowercase_=128 , lowercase_=4096 , lowercase_=12 , lowercase_=1 , lowercase_=64 , lowercase_=1_6384 , lowercase_=1 , lowercase_="gelu_new" , lowercase_=0 , lowercase_=0 , lowercase_=512 , lowercase_=2 , lowercase_=0.02 , lowercase_=1E-1_2 , lowercase_=0.1 , lowercase_="absolute" , lowercase_=0 , lowercase_=2 , lowercase_=3 , **lowercase_ , ):
"""simple docstring"""
super().__init__(pad_token_id=lowercase_ , bos_token_id=lowercase_ , eos_token_id=lowercase_ , **lowercase_ )
UpperCAmelCase_ : int = vocab_size
UpperCAmelCase_ : Optional[int] = embedding_size
UpperCAmelCase_ : List[str] = hidden_size
UpperCAmelCase_ : Optional[int] = num_hidden_layers
UpperCAmelCase_ : Union[str, Any] = num_hidden_groups
UpperCAmelCase_ : Dict = num_attention_heads
UpperCAmelCase_ : Any = inner_group_num
UpperCAmelCase_ : Union[str, Any] = hidden_act
UpperCAmelCase_ : Union[str, Any] = intermediate_size
UpperCAmelCase_ : List[str] = hidden_dropout_prob
UpperCAmelCase_ : Union[str, Any] = attention_probs_dropout_prob
UpperCAmelCase_ : Optional[Any] = max_position_embeddings
UpperCAmelCase_ : Any = type_vocab_size
UpperCAmelCase_ : List[str] = initializer_range
UpperCAmelCase_ : Optional[int] = layer_norm_eps
UpperCAmelCase_ : List[Any] = classifier_dropout_prob
UpperCAmelCase_ : Tuple = position_embedding_type
class A_ (lowercase__ ):
'''simple docstring'''
@property
def UpperCamelCase__ ( self ):
"""simple docstring"""
if self.task == "multiple-choice":
UpperCAmelCase_ : int = {0: "batch", 1: "choice", 2: "sequence"}
else:
UpperCAmelCase_ : Optional[Any] = {0: "batch", 1: "sequence"}
return OrderedDict(
[
("input_ids", dynamic_axis),
("attention_mask", dynamic_axis),
("token_type_ids", dynamic_axis),
] )
| 61 | 1 |
"""simple docstring"""
import warnings
from ...processing_utils import ProcessorMixin
from ...tokenization_utils_base import BatchEncoding
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Optional[int] = ["""image_processor""", """tokenizer"""]
SCREAMING_SNAKE_CASE__ : Union[str, Any] = """CLIPImageProcessor"""
SCREAMING_SNAKE_CASE__ : str = ("""CLIPTokenizer""", """CLIPTokenizerFast""")
def __init__( self , lowercase_=None , lowercase_=None , **lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Dict = None
if "feature_extractor" in kwargs:
warnings.warn(
"The `feature_extractor` argument is deprecated and will be removed in v5, use `image_processor`"
" instead." , lowercase_ , )
UpperCAmelCase_ : int = kwargs.pop("feature_extractor" )
UpperCAmelCase_ : Tuple = 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`." )
super().__init__(lowercase_ , lowercase_ )
def __call__( self , lowercase_=None , lowercase_=None , lowercase_=None , **lowercase_ ):
"""simple docstring"""
if text is None and images is None:
raise ValueError("You have to specify either text or images. Both cannot be none." )
if text is not None:
UpperCAmelCase_ : Tuple = self.tokenizer(lowercase_ , return_tensors=lowercase_ , **lowercase_ )
if images is not None:
UpperCAmelCase_ : Optional[int] = self.image_processor(lowercase_ , return_tensors=lowercase_ , **lowercase_ )
if text is not None and images is not None:
UpperCAmelCase_ : str = image_features.pixel_values
return encoding
elif text is not None:
return encoding
else:
return BatchEncoding(data=dict(**lowercase_ ) , tensor_type=lowercase_ )
def UpperCamelCase__ ( self , *lowercase_ , **lowercase_ ):
"""simple docstring"""
return self.tokenizer.batch_decode(*lowercase_ , **lowercase_ )
def UpperCamelCase__ ( self , *lowercase_ , **lowercase_ ):
"""simple docstring"""
return self.tokenizer.decode(*lowercase_ , **lowercase_ )
@property
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : str = self.tokenizer.model_input_names
UpperCAmelCase_ : str = self.image_processor.model_input_names
return list(dict.fromkeys(tokenizer_input_names + image_processor_input_names ) )
@property
def UpperCamelCase__ ( self ):
"""simple docstring"""
warnings.warn(
"`feature_extractor_class` is deprecated and will be removed in v5. Use `image_processor_class` instead." , lowercase_ , )
return self.image_processor_class
@property
def UpperCamelCase__ ( self ):
"""simple docstring"""
warnings.warn(
"`feature_extractor` is deprecated and will be removed in v5. Use `image_processor` instead." , lowercase_ , )
return self.image_processor
| 61 |
"""simple docstring"""
from __future__ import annotations
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
if (voltage, current, resistance).count(0 ) != 1:
raise ValueError("One and only one argument must be 0" )
if resistance < 0:
raise ValueError("Resistance cannot be negative" )
if voltage == 0:
return {"voltage": float(current * resistance )}
elif current == 0:
return {"current": voltage / resistance}
elif resistance == 0:
return {"resistance": voltage / current}
else:
raise ValueError("Exactly one argument must be 0" )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 61 | 1 |
"""simple docstring"""
import copy
import os
from typing import TYPE_CHECKING, List, Union
if TYPE_CHECKING:
pass
from ...configuration_utils import PretrainedConfig
from ...utils import logging
_a = logging.get_logger(__name__)
_a = {
'kakaobrain/align-base': 'https://huggingface.co/kakaobrain/align-base/resolve/main/config.json',
}
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Dict = """align_text_model"""
def __init__( self , lowercase_=3_0522 , lowercase_=768 , lowercase_=12 , lowercase_=12 , lowercase_=3072 , lowercase_="gelu" , lowercase_=0.1 , lowercase_=0.1 , lowercase_=512 , lowercase_=2 , lowercase_=0.02 , lowercase_=1E-1_2 , lowercase_=0 , lowercase_="absolute" , lowercase_=True , **lowercase_ , ):
"""simple docstring"""
super().__init__(**lowercase_ )
UpperCAmelCase_ : int = vocab_size
UpperCAmelCase_ : Tuple = hidden_size
UpperCAmelCase_ : Optional[int] = num_hidden_layers
UpperCAmelCase_ : List[str] = num_attention_heads
UpperCAmelCase_ : str = hidden_act
UpperCAmelCase_ : Tuple = intermediate_size
UpperCAmelCase_ : Any = hidden_dropout_prob
UpperCAmelCase_ : int = attention_probs_dropout_prob
UpperCAmelCase_ : Union[str, Any] = max_position_embeddings
UpperCAmelCase_ : str = type_vocab_size
UpperCAmelCase_ : Dict = initializer_range
UpperCAmelCase_ : int = layer_norm_eps
UpperCAmelCase_ : Tuple = position_embedding_type
UpperCAmelCase_ : Dict = use_cache
UpperCAmelCase_ : Optional[int] = pad_token_id
@classmethod
def UpperCamelCase__ ( cls , lowercase_ , **lowercase_ ):
"""simple docstring"""
cls._set_token_in_kwargs(lowercase_ )
UpperCAmelCase_ , UpperCAmelCase_ : int = cls.get_config_dict(lowercase_ , **lowercase_ )
# get the text config dict if we are loading from AlignConfig
if config_dict.get("model_type" ) == "align":
UpperCAmelCase_ : Union[str, Any] = config_dict["text_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(lowercase_ , **lowercase_ )
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : int = """align_vision_model"""
def __init__( self , lowercase_ = 3 , lowercase_ = 600 , lowercase_ = 2.0 , lowercase_ = 3.1 , lowercase_ = 8 , lowercase_ = [3, 3, 5, 3, 5, 5, 3] , lowercase_ = [32, 16, 24, 40, 80, 112, 192] , lowercase_ = [16, 24, 40, 80, 112, 192, 320] , lowercase_ = [] , lowercase_ = [1, 2, 2, 2, 1, 2, 1] , lowercase_ = [1, 2, 2, 3, 3, 4, 1] , lowercase_ = [1, 6, 6, 6, 6, 6, 6] , lowercase_ = 0.25 , lowercase_ = "swish" , lowercase_ = 2560 , lowercase_ = "mean" , lowercase_ = 0.02 , lowercase_ = 0.0_01 , lowercase_ = 0.99 , lowercase_ = 0.2 , **lowercase_ , ):
"""simple docstring"""
super().__init__(**lowercase_ )
UpperCAmelCase_ : List[str] = num_channels
UpperCAmelCase_ : Optional[Any] = image_size
UpperCAmelCase_ : Any = width_coefficient
UpperCAmelCase_ : Dict = depth_coefficient
UpperCAmelCase_ : Union[str, Any] = depth_divisor
UpperCAmelCase_ : int = kernel_sizes
UpperCAmelCase_ : Dict = in_channels
UpperCAmelCase_ : Tuple = out_channels
UpperCAmelCase_ : Optional[int] = depthwise_padding
UpperCAmelCase_ : Dict = strides
UpperCAmelCase_ : Tuple = num_block_repeats
UpperCAmelCase_ : Tuple = expand_ratios
UpperCAmelCase_ : Dict = squeeze_expansion_ratio
UpperCAmelCase_ : Union[str, Any] = hidden_act
UpperCAmelCase_ : Optional[Any] = hidden_dim
UpperCAmelCase_ : List[Any] = pooling_type
UpperCAmelCase_ : Union[str, Any] = initializer_range
UpperCAmelCase_ : str = batch_norm_eps
UpperCAmelCase_ : List[str] = batch_norm_momentum
UpperCAmelCase_ : Any = drop_connect_rate
UpperCAmelCase_ : str = sum(lowercase_ ) * 4
@classmethod
def UpperCamelCase__ ( cls , lowercase_ , **lowercase_ ):
"""simple docstring"""
cls._set_token_in_kwargs(lowercase_ )
UpperCAmelCase_ , UpperCAmelCase_ : List[str] = cls.get_config_dict(lowercase_ , **lowercase_ )
# get the vision config dict if we are loading from AlignConfig
if config_dict.get("model_type" ) == "align":
UpperCAmelCase_ : Any = 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(lowercase_ , **lowercase_ )
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : int = """align"""
SCREAMING_SNAKE_CASE__ : str = True
def __init__( self , lowercase_=None , lowercase_=None , lowercase_=640 , lowercase_=1.0 , lowercase_=0.02 , **lowercase_ , ):
"""simple docstring"""
super().__init__(**lowercase_ )
if text_config is None:
UpperCAmelCase_ : Union[str, Any] = {}
logger.info("text_config is None. Initializing the AlignTextConfig with default values." )
if vision_config is None:
UpperCAmelCase_ : Tuple = {}
logger.info("vision_config is None. Initializing the AlignVisionConfig with default values." )
UpperCAmelCase_ : Tuple = AlignTextConfig(**lowercase_ )
UpperCAmelCase_ : str = AlignVisionConfig(**lowercase_ )
UpperCAmelCase_ : List[Any] = projection_dim
UpperCAmelCase_ : Union[str, Any] = temperature_init_value
UpperCAmelCase_ : Union[str, Any] = initializer_range
@classmethod
def UpperCamelCase__ ( cls , lowercase_ , lowercase_ , **lowercase_ ):
"""simple docstring"""
return cls(text_config=text_config.to_dict() , vision_config=vision_config.to_dict() , **lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : int = copy.deepcopy(self.__dict__ )
UpperCAmelCase_ : Dict = self.text_config.to_dict()
UpperCAmelCase_ : str = self.vision_config.to_dict()
UpperCAmelCase_ : Optional[Any] = self.__class__.model_type
return output
| 61 |
"""simple docstring"""
import argparse
from collections import defaultdict
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : int = f"""{file}_{class_name}_{test_name}"""
done_test[_id] += 1
with open(__lowerCamelCase, "r" ) as f:
UpperCAmelCase_ : List[Any] = f.readlines()
UpperCAmelCase_ : int = f"""class {class_name}("""
UpperCAmelCase_ : Optional[Any] = f"""{4 * " "}def {test_name}("""
UpperCAmelCase_ : Optional[Any] = f"""{8 * " "}{correct_line.split()[0]}"""
UpperCAmelCase_ : Tuple = f"""{16 * " "}{correct_line.split()[0]}"""
UpperCAmelCase_ : int = False
UpperCAmelCase_ : Union[str, Any] = False
UpperCAmelCase_ : str = False
UpperCAmelCase_ : Optional[Any] = False
UpperCAmelCase_ : List[str] = 0
UpperCAmelCase_ : Optional[int] = 0
UpperCAmelCase_ : int = []
for line in lines:
if line.startswith(__lowerCamelCase ):
UpperCAmelCase_ : Tuple = True
elif in_class and line.startswith(__lowerCamelCase ):
UpperCAmelCase_ : Optional[int] = True
elif in_class and in_func and (line.startswith(__lowerCamelCase ) or line.startswith(__lowerCamelCase )):
UpperCAmelCase_ : Any = len(line.split(correct_line.split()[0] )[0] )
count += 1
if count == done_test[_id]:
UpperCAmelCase_ : Union[str, Any] = True
if in_class and in_func and in_line:
if ")" not in line:
continue
else:
UpperCAmelCase_ : Any = True
if in_class and in_func and in_line and insert_line:
new_lines.append(f"""{spaces * " "}{correct_line}""" )
UpperCAmelCase_ : int = False
else:
new_lines.append(__lowerCamelCase )
with open(__lowerCamelCase, "w" ) as f:
for line in new_lines:
f.write(__lowerCamelCase )
def __a ( __lowerCamelCase, __lowerCamelCase=None ):
if fail is not None:
with open(__lowerCamelCase, "r" ) as f:
UpperCAmelCase_ : Tuple = {l.strip() for l in f.readlines()}
else:
UpperCAmelCase_ : str = None
with open(__lowerCamelCase, "r" ) as f:
UpperCAmelCase_ : Optional[int] = f.readlines()
UpperCAmelCase_ : Any = defaultdict(__lowerCamelCase )
for line in correct_lines:
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : Any = line.split(";" )
if test_failures is None or "::".join([file, class_name, test_name] ) in test_failures:
overwrite_file(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
parser.add_argument('--correct_filename', help='filename of tests with expected result')
parser.add_argument('--fail_filename', help='filename of test failures', type=str, default=None)
_a = parser.parse_args()
main(args.correct_filename, args.fail_filename)
| 61 | 1 |
"""simple docstring"""
from typing import Callable, Optional, Union
from ...configuration_utils import PretrainedConfig
from ...utils import logging
_a = logging.get_logger(__name__)
_a = {
'microsoft/xprophetnet-large-wiki100-cased': (
'https://huggingface.co/microsoft/xprophetnet-large-wiki100-cased/resolve/main/config.json'
),
}
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Dict = """xlm-prophetnet"""
SCREAMING_SNAKE_CASE__ : str = ["""past_key_values"""]
SCREAMING_SNAKE_CASE__ : Dict = {
"""num_attention_heads""": """num_encoder_attention_heads""",
}
def __init__( self , lowercase_ = 0.1 , lowercase_ = "gelu" , lowercase_ = 3_0522 , lowercase_ = 1024 , lowercase_ = 4096 , lowercase_ = 12 , lowercase_ = 16 , lowercase_ = 4096 , lowercase_ = 12 , lowercase_ = 16 , lowercase_ = 0.1 , lowercase_ = 0.1 , lowercase_ = 512 , lowercase_ = 0.02 , lowercase_ = True , lowercase_ = True , lowercase_ = 0 , lowercase_ = 2 , lowercase_ = 32 , lowercase_ = 128 , lowercase_ = False , lowercase_ = 0.0 , lowercase_ = True , lowercase_ = 0 , lowercase_ = 1 , lowercase_ = 2 , **lowercase_ , ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = vocab_size
UpperCAmelCase_ : Tuple = hidden_size
UpperCAmelCase_ : Any = encoder_ffn_dim
UpperCAmelCase_ : Union[str, Any] = num_encoder_layers
UpperCAmelCase_ : Union[str, Any] = num_encoder_attention_heads
UpperCAmelCase_ : List[str] = decoder_ffn_dim
UpperCAmelCase_ : List[Any] = num_decoder_layers
UpperCAmelCase_ : List[str] = num_decoder_attention_heads
UpperCAmelCase_ : List[Any] = max_position_embeddings
UpperCAmelCase_ : List[Any] = init_std # Normal(0, this parameter)
UpperCAmelCase_ : Tuple = activation_function
# parameters for xlmprophetnet
UpperCAmelCase_ : List[str] = ngram
UpperCAmelCase_ : Any = num_buckets
UpperCAmelCase_ : List[str] = relative_max_distance
UpperCAmelCase_ : Tuple = disable_ngram_loss
UpperCAmelCase_ : Union[str, Any] = eps
# 3 Types of Dropout
UpperCAmelCase_ : Union[str, Any] = attention_dropout
UpperCAmelCase_ : Union[str, Any] = activation_dropout
UpperCAmelCase_ : List[Any] = dropout
UpperCAmelCase_ : Dict = use_cache
super().__init__(
pad_token_id=lowercase_ , bos_token_id=lowercase_ , eos_token_id=lowercase_ , is_encoder_decoder=lowercase_ , add_cross_attention=lowercase_ , decoder_start_token_id=lowercase_ , **lowercase_ , )
@property
def UpperCamelCase__ ( self ):
"""simple docstring"""
return self.num_encoder_layers + self.num_decoder_layers
@num_hidden_layers.setter
def UpperCamelCase__ ( self , lowercase_ ):
"""simple docstring"""
raise NotImplementedError(
"This model does not support the setting of `num_hidden_layers`. Please set `num_encoder_layers` and"
" `num_decoder_layers`." )
| 61 |
"""simple docstring"""
from diffusers.utils.testing_utils import require_onnxruntime
@require_onnxruntime
class A_ :
'''simple docstring'''
pass
| 61 | 1 |
"""simple docstring"""
from string import ascii_uppercase
_a = {str(ord(c) - 55): c for c in ascii_uppercase}
def __a ( __lowerCamelCase, __lowerCamelCase ):
if isinstance(__lowerCamelCase, __lowerCamelCase ):
raise TypeError("int() can't convert non-string with explicit base" )
if num < 0:
raise ValueError("parameter must be positive int" )
if isinstance(__lowerCamelCase, __lowerCamelCase ):
raise TypeError("'str' object cannot be interpreted as an integer" )
if isinstance(__lowerCamelCase, __lowerCamelCase ):
raise TypeError("'float' object cannot be interpreted as an integer" )
if base in (0, 1):
raise ValueError("base must be >= 2" )
if base > 36:
raise ValueError("base must be <= 36" )
UpperCAmelCase_ : Optional[Any] = ""
UpperCAmelCase_ : int = 0
UpperCAmelCase_ : str = 0
while div != 1:
UpperCAmelCase_ , UpperCAmelCase_ : str = divmod(__lowerCamelCase, __lowerCamelCase )
if base >= 11 and 9 < mod < 36:
UpperCAmelCase_ : Tuple = ALPHABET_VALUES[str(__lowerCamelCase )]
else:
UpperCAmelCase_ : int = str(__lowerCamelCase )
new_value += actual_value
UpperCAmelCase_ : Any = num // base
UpperCAmelCase_ : Optional[int] = div
if div == 0:
return str(new_value[::-1] )
elif div == 1:
new_value += str(__lowerCamelCase )
return str(new_value[::-1] )
return new_value[::-1]
if __name__ == "__main__":
import doctest
doctest.testmod()
for base in range(2, 37):
for num in range(1_000):
assert int(decimal_to_any(num, base), base) == num, (
num,
base,
decimal_to_any(num, base),
int(decimal_to_any(num, base), base),
)
| 61 |
"""simple docstring"""
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
return round(float(moles / volume ) * nfactor )
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
return round(float((moles * 0.0821 * temperature) / (volume) ) )
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
return round(float((moles * 0.0821 * temperature) / (pressure) ) )
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
return round(float((pressure * volume) / (0.0821 * moles) ) )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 61 | 1 |
"""simple docstring"""
from ...configuration_utils import PretrainedConfig
from ...utils import logging
_a = logging.get_logger(__name__)
_a = {
'tiiuae/falcon-40b': 'https://huggingface.co/tiiuae/falcon-40b/resolve/main/config.json',
'tiiuae/falcon-7b': 'https://huggingface.co/tiiuae/falcon-7b/resolve/main/config.json',
}
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : int = """falcon"""
SCREAMING_SNAKE_CASE__ : Optional[int] = ["""past_key_values"""]
def __init__( self , lowercase_=6_5024 , lowercase_=4544 , lowercase_=32 , lowercase_=71 , lowercase_=1E-5 , lowercase_=0.02 , lowercase_=True , lowercase_=0.0 , lowercase_=0.0 , lowercase_=None , lowercase_=False , lowercase_=False , lowercase_=True , lowercase_=True , lowercase_=False , lowercase_=11 , lowercase_=11 , **lowercase_ , ):
"""simple docstring"""
UpperCAmelCase_ : str = vocab_size
# Backward compatibility with n_embed kwarg
UpperCAmelCase_ : Dict = kwargs.pop("n_embed" , lowercase_ )
UpperCAmelCase_ : Any = hidden_size if n_embed is None else n_embed
UpperCAmelCase_ : Union[str, Any] = num_hidden_layers
UpperCAmelCase_ : List[Any] = num_attention_heads
UpperCAmelCase_ : str = layer_norm_epsilon
UpperCAmelCase_ : int = initializer_range
UpperCAmelCase_ : List[str] = use_cache
UpperCAmelCase_ : List[Any] = hidden_dropout
UpperCAmelCase_ : List[Any] = attention_dropout
UpperCAmelCase_ : List[Any] = bos_token_id
UpperCAmelCase_ : Tuple = eos_token_id
UpperCAmelCase_ : List[str] = num_attention_heads if num_kv_heads is None else num_kv_heads
UpperCAmelCase_ : Any = alibi
UpperCAmelCase_ : Tuple = new_decoder_architecture
UpperCAmelCase_ : Union[str, Any] = multi_query # Ignored when new_decoder_architecture is True
UpperCAmelCase_ : List[str] = parallel_attn
UpperCAmelCase_ : int = bias
super().__init__(bos_token_id=lowercase_ , eos_token_id=lowercase_ , **lowercase_ )
@property
def UpperCamelCase__ ( self ):
"""simple docstring"""
return self.hidden_size // self.num_attention_heads
@property
def UpperCamelCase__ ( self ):
"""simple docstring"""
return not self.alibi
| 61 |
"""simple docstring"""
import os
_a = {'I': 1, 'V': 5, 'X': 10, 'L': 50, 'C': 100, 'D': 500, 'M': 1_000}
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : Union[str, Any] = 0
UpperCAmelCase_ : List[str] = 0
while index < len(__lowerCamelCase ) - 1:
UpperCAmelCase_ : Tuple = SYMBOLS[numerals[index]]
UpperCAmelCase_ : List[str] = SYMBOLS[numerals[index + 1]]
if current_value < next_value:
total_value -= current_value
else:
total_value += current_value
index += 1
total_value += SYMBOLS[numerals[index]]
return total_value
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : List[str] = ""
UpperCAmelCase_ : Any = num // 1000
numerals += m_count * "M"
num %= 1000
UpperCAmelCase_ : Any = num // 100
if c_count == 9:
numerals += "CM"
c_count -= 9
elif c_count == 4:
numerals += "CD"
c_count -= 4
if c_count >= 5:
numerals += "D"
c_count -= 5
numerals += c_count * "C"
num %= 100
UpperCAmelCase_ : str = num // 10
if x_count == 9:
numerals += "XC"
x_count -= 9
elif x_count == 4:
numerals += "XL"
x_count -= 4
if x_count >= 5:
numerals += "L"
x_count -= 5
numerals += x_count * "X"
num %= 10
if num == 9:
numerals += "IX"
num -= 9
elif num == 4:
numerals += "IV"
num -= 4
if num >= 5:
numerals += "V"
num -= 5
numerals += num * "I"
return numerals
def __a ( __lowerCamelCase = "/p089_roman.txt" ):
UpperCAmelCase_ : int = 0
with open(os.path.dirname(__lowerCamelCase ) + roman_numerals_filename ) as filea:
UpperCAmelCase_ : Optional[Any] = filea.readlines()
for line in lines:
UpperCAmelCase_ : Tuple = line.strip()
UpperCAmelCase_ : Optional[Any] = parse_roman_numerals(__lowerCamelCase )
UpperCAmelCase_ : Tuple = generate_roman_numerals(__lowerCamelCase )
savings += len(__lowerCamelCase ) - len(__lowerCamelCase )
return savings
if __name__ == "__main__":
print(f"""{solution() = }""")
| 61 | 1 |
"""simple docstring"""
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
_a = logging.get_logger(__name__)
_a = {
'facebook/deit-base-distilled-patch16-224': (
'https://huggingface.co/facebook/deit-base-patch16-224/resolve/main/config.json'
),
# See all DeiT models at https://huggingface.co/models?filter=deit
}
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Any = """deit"""
def __init__( self , lowercase_=768 , lowercase_=12 , lowercase_=12 , lowercase_=3072 , lowercase_="gelu" , lowercase_=0.0 , lowercase_=0.0 , lowercase_=0.02 , lowercase_=1E-1_2 , lowercase_=224 , lowercase_=16 , lowercase_=3 , lowercase_=True , lowercase_=16 , **lowercase_ , ):
"""simple docstring"""
super().__init__(**lowercase_ )
UpperCAmelCase_ : int = hidden_size
UpperCAmelCase_ : Dict = num_hidden_layers
UpperCAmelCase_ : int = num_attention_heads
UpperCAmelCase_ : List[str] = intermediate_size
UpperCAmelCase_ : int = hidden_act
UpperCAmelCase_ : List[Any] = hidden_dropout_prob
UpperCAmelCase_ : List[Any] = attention_probs_dropout_prob
UpperCAmelCase_ : int = initializer_range
UpperCAmelCase_ : Dict = layer_norm_eps
UpperCAmelCase_ : int = image_size
UpperCAmelCase_ : int = patch_size
UpperCAmelCase_ : List[str] = num_channels
UpperCAmelCase_ : Optional[int] = qkv_bias
UpperCAmelCase_ : Optional[int] = encoder_stride
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Tuple = version.parse("""1.11""" )
@property
def UpperCamelCase__ ( self ):
"""simple docstring"""
return OrderedDict(
[
("pixel_values", {0: "batch", 1: "num_channels", 2: "height", 3: "width"}),
] )
@property
def UpperCamelCase__ ( self ):
"""simple docstring"""
return 1E-4
| 61 |
"""simple docstring"""
from unittest import TestCase
from datasets import Dataset
from minhash_deduplication import deduplicate_dataset, make_duplicate_clusters
def __a ( ):
UpperCAmelCase_ : List[Any] = {
"repo_name": ["test_repo1", "test_repo2", "test_repo3"],
"path": ["test_1.py", "test_2.py", "unit_test.py"],
"content": ["a " * 20, "a " * 30, "b " * 7],
}
UpperCAmelCase_ : Optional[int] = Dataset.from_dict(__lowerCamelCase )
return dataset
class A_ (lowercase__ ):
'''simple docstring'''
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Union[str, Any] = get_dataset()
UpperCAmelCase_ : Any = make_duplicate_clusters(lowercase_ , 0.85 )
self.assertEqual(len(duplicate_clusters[0] ) , 2 )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = get_dataset()
UpperCAmelCase_ , UpperCAmelCase_ : List[str] = deduplicate_dataset(lowercase_ )
self.assertEqual(len(lowercase_ ) , 2 )
print(lowercase_ )
self.assertEqual(duplicate_clusters[0][0]["copies"] , 2 )
self.assertEqual(duplicate_clusters[0][0]["is_extreme"] , lowercase_ )
| 61 | 1 |
"""simple docstring"""
from typing import TYPE_CHECKING
from ...file_utils import _LazyModule, is_tokenizers_available, is_torch_available, is_vision_available
from ...utils import OptionalDependencyNotAvailable
_a = {'configuration_dpt': ['DPT_PRETRAINED_CONFIG_ARCHIVE_MAP', 'DPTConfig']}
try:
if not is_vision_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = ['DPTFeatureExtractor']
_a = ['DPTImageProcessor']
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = [
'DPT_PRETRAINED_MODEL_ARCHIVE_LIST',
'DPTForDepthEstimation',
'DPTForSemanticSegmentation',
'DPTModel',
'DPTPreTrainedModel',
]
if TYPE_CHECKING:
from .configuration_dpt import DPT_PRETRAINED_CONFIG_ARCHIVE_MAP, DPTConfig
try:
if not is_vision_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .feature_extraction_dpt import DPTFeatureExtractor
from .image_processing_dpt import DPTImageProcessor
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_dpt import (
DPT_PRETRAINED_MODEL_ARCHIVE_LIST,
DPTForDepthEstimation,
DPTForSemanticSegmentation,
DPTModel,
DPTPreTrainedModel,
)
else:
import sys
_a = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)
| 61 |
"""simple docstring"""
from collections import namedtuple
_a = namedtuple('from_to', 'from_ to')
_a = {
'cubicmeter': from_to(1, 1),
'litre': from_to(0.001, 1_000),
'kilolitre': from_to(1, 1),
'gallon': from_to(0.0_0454, 264.172),
'cubicyard': from_to(0.7_6455, 1.3_0795),
'cubicfoot': from_to(0.028, 35.3147),
'cup': from_to(0.0_0023_6588, 4226.75),
}
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
if from_type not in METRIC_CONVERSION:
raise ValueError(
f"""Invalid 'from_type' value: {from_type!r} Supported values are:\n"""
+ ", ".join(__lowerCamelCase ) )
if to_type not in METRIC_CONVERSION:
raise ValueError(
f"""Invalid 'to_type' value: {to_type!r}. Supported values are:\n"""
+ ", ".join(__lowerCamelCase ) )
return value * METRIC_CONVERSION[from_type].from_ * METRIC_CONVERSION[to_type].to
if __name__ == "__main__":
import doctest
doctest.testmod()
| 61 | 1 |
"""simple docstring"""
import argparse
from collections import OrderedDict
from pathlib import Path
import torch
from transformers import (
VisualBertConfig,
VisualBertForMultipleChoice,
VisualBertForPreTraining,
VisualBertForQuestionAnswering,
VisualBertForVisualReasoning,
)
from transformers.utils import logging
logging.set_verbosity_info()
_a = logging.get_logger(__name__)
_a = [
('bert.bert', 'visual_bert'),
('bert.cls', 'cls'),
('bert.classifier', 'cls'),
('token_type_embeddings_visual', 'visual_token_type_embeddings'),
('position_embeddings_visual', 'visual_position_embeddings'),
('projection', 'visual_projection'),
]
_a = [
'nlvr2_coco_pre_trained.th',
'nlvr2_fine_tuned.th',
'nlvr2_pre_trained.th',
'vcr_coco_pre_train.th',
'vcr_fine_tune.th',
'vcr_pre_train.th',
'vqa_coco_pre_trained.th',
'vqa_fine_tuned.th',
'vqa_pre_trained.th',
]
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : List[str] = torch.load(__lowerCamelCase, map_location="cpu" )
return sd
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase=rename_keys_prefix ):
UpperCAmelCase_ : List[str] = OrderedDict()
UpperCAmelCase_ : List[Any] = torch.arange(config.max_position_embeddings ).expand((1, -1) )
# detector_d = OrderedDict()
for key in d:
if "detector" in key:
# detector_d[key.replace('detector.','')] = d[key]
continue
UpperCAmelCase_ : Dict = key
for name_pair in rename_keys_prefix:
UpperCAmelCase_ : Union[str, Any] = new_key.replace(name_pair[0], name_pair[1] )
UpperCAmelCase_ : Optional[int] = d[key]
if key == "bert.cls.predictions.decoder.weight":
# Old bert code didn't have `decoder.bias`, but was added separately
UpperCAmelCase_ : Dict = new_d["cls.predictions.bias"]
return new_d
@torch.no_grad()
def __a ( __lowerCamelCase, __lowerCamelCase ):
assert (
checkpoint_path.split("/" )[-1] in ACCEPTABLE_CHECKPOINTS
), f"""The checkpoint provided must be in {ACCEPTABLE_CHECKPOINTS}."""
# Get Config
if "pre" in checkpoint_path:
UpperCAmelCase_ : List[str] = "pretraining"
if "vcr" in checkpoint_path:
UpperCAmelCase_ : Optional[int] = {"visual_embedding_dim": 512}
elif "vqa_advanced" in checkpoint_path:
UpperCAmelCase_ : Optional[Any] = {"visual_embedding_dim": 2048}
elif "vqa" in checkpoint_path:
UpperCAmelCase_ : Tuple = {"visual_embedding_dim": 2048}
elif "nlvr" in checkpoint_path:
UpperCAmelCase_ : List[str] = {"visual_embedding_dim": 1024}
else:
raise NotImplementedError(f"""No implementation found for `{checkpoint_path}`.""" )
else:
if "vcr" in checkpoint_path:
UpperCAmelCase_ : int = {"visual_embedding_dim": 512}
UpperCAmelCase_ : List[Any] = "multichoice"
elif "vqa_advanced" in checkpoint_path:
UpperCAmelCase_ : Dict = {"visual_embedding_dim": 2048}
UpperCAmelCase_ : List[str] = "vqa_advanced"
elif "vqa" in checkpoint_path:
UpperCAmelCase_ : List[Any] = {"visual_embedding_dim": 2048, "num_labels": 3129}
UpperCAmelCase_ : Dict = "vqa"
elif "nlvr" in checkpoint_path:
UpperCAmelCase_ : Any = {
"visual_embedding_dim": 1024,
"num_labels": 2,
}
UpperCAmelCase_ : List[Any] = "nlvr"
UpperCAmelCase_ : int = VisualBertConfig(**__lowerCamelCase )
# Load State Dict
UpperCAmelCase_ : List[Any] = load_state_dict(__lowerCamelCase )
UpperCAmelCase_ : Any = get_new_dict(__lowerCamelCase, __lowerCamelCase )
if model_type == "pretraining":
UpperCAmelCase_ : Optional[int] = VisualBertForPreTraining(__lowerCamelCase )
elif model_type == "vqa":
UpperCAmelCase_ : List[Any] = VisualBertForQuestionAnswering(__lowerCamelCase )
elif model_type == "nlvr":
UpperCAmelCase_ : Optional[int] = VisualBertForVisualReasoning(__lowerCamelCase )
elif model_type == "multichoice":
UpperCAmelCase_ : Union[str, Any] = VisualBertForMultipleChoice(__lowerCamelCase )
model.load_state_dict(__lowerCamelCase )
# Save Checkpoints
Path(__lowerCamelCase ).mkdir(exist_ok=__lowerCamelCase )
model.save_pretrained(__lowerCamelCase )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
# Required parameters
parser.add_argument('orig_checkpoint_path', type=str, help='A path to .th on local filesystem.')
parser.add_argument('pytorch_dump_folder_path', type=str, help='Path to the output PyTorch model.')
_a = parser.parse_args()
convert_visual_bert_checkpoint(args.orig_checkpoint_path, args.pytorch_dump_folder_path)
| 61 |
"""simple docstring"""
from __future__ import annotations
def __a ( __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ , UpperCAmelCase_ : str = set(__lowerCamelCase ), [start]
while stack:
UpperCAmelCase_ : Any = stack.pop()
explored.add(__lowerCamelCase )
# Differences from BFS:
# 1) pop last element instead of first one
# 2) add adjacent elements to stack without exploring them
for adj in reversed(graph[v] ):
if adj not in explored:
stack.append(__lowerCamelCase )
return explored
_a = {
'A': ['B', 'C', 'D'],
'B': ['A', 'D', 'E'],
'C': ['A', 'F'],
'D': ['B', 'D'],
'E': ['B', 'F'],
'F': ['C', 'E', 'G'],
'G': ['F'],
}
if __name__ == "__main__":
import doctest
doctest.testmod()
print(depth_first_search(G, 'A'))
| 61 | 1 |
"""simple docstring"""
import argparse
import os
import re
# All paths are set with the intent you should run this script from the root of the repo with the command
# python utils/check_dummies.py
_a = 'src/diffusers'
# Matches is_xxx_available()
_a = re.compile(R'is\_([a-z_]*)_available\(\)')
# Matches from xxx import bla
_a = re.compile(R'\s+from\s+\S*\s+import\s+([^\(\s].*)\n')
_a = '\n{0} = None\n'
_a = '\nclass {0}(metaclass=DummyObject):\n _backends = {1}\n\n def __init__(self, *args, **kwargs):\n requires_backends(self, {1})\n\n @classmethod\n def from_config(cls, *args, **kwargs):\n requires_backends(cls, {1})\n\n @classmethod\n def from_pretrained(cls, *args, **kwargs):\n requires_backends(cls, {1})\n'
_a = '\ndef {0}(*args, **kwargs):\n requires_backends({0}, {1})\n'
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : int = _re_backend.findall(__lowerCamelCase )
if len(__lowerCamelCase ) == 0:
return None
return "_and_".join(__lowerCamelCase )
def __a ( ):
with open(os.path.join(__lowerCamelCase, "__init__.py" ), "r", encoding="utf-8", newline="\n" ) as f:
UpperCAmelCase_ : Optional[int] = f.readlines()
# Get to the point we do the actual imports for type checking
UpperCAmelCase_ : Union[str, Any] = 0
UpperCAmelCase_ : Optional[int] = {}
# Go through the end of the file
while line_index < len(__lowerCamelCase ):
# If the line contains is_backend_available, we grab all objects associated with the `else` block
UpperCAmelCase_ : Union[str, Any] = find_backend(lines[line_index] )
if backend is not None:
while not lines[line_index].startswith("else:" ):
line_index += 1
line_index += 1
UpperCAmelCase_ : List[str] = []
# Until we unindent, add backend objects to the list
while line_index < len(__lowerCamelCase ) and len(lines[line_index] ) > 1:
UpperCAmelCase_ : Union[str, Any] = lines[line_index]
UpperCAmelCase_ : Optional[Any] = _re_single_line_import.search(__lowerCamelCase )
if single_line_import_search is not None:
objects.extend(single_line_import_search.groups()[0].split(", " ) )
elif line.startswith(" " * 8 ):
objects.append(line[8:-2] )
line_index += 1
if len(__lowerCamelCase ) > 0:
UpperCAmelCase_ : Optional[int] = objects
else:
line_index += 1
return backend_specific_objects
def __a ( __lowerCamelCase, __lowerCamelCase ):
if name.isupper():
return DUMMY_CONSTANT.format(__lowerCamelCase )
elif name.islower():
return DUMMY_FUNCTION.format(__lowerCamelCase, __lowerCamelCase )
else:
return DUMMY_CLASS.format(__lowerCamelCase, __lowerCamelCase )
def __a ( __lowerCamelCase=None ):
if backend_specific_objects is None:
UpperCAmelCase_ : Tuple = read_init()
# For special correspondence backend to module name as used in the function requires_modulename
UpperCAmelCase_ : str = {}
for backend, objects in backend_specific_objects.items():
UpperCAmelCase_ : int = "[" + ", ".join(f"""\"{b}\"""" for b in backend.split("_and_" ) ) + "]"
UpperCAmelCase_ : Dict = "# This file is autogenerated by the command `make fix-copies`, do not edit.\n"
dummy_file += "from ..utils import DummyObject, requires_backends\n\n"
dummy_file += "\n".join([create_dummy_object(__lowerCamelCase, __lowerCamelCase ) for o in objects] )
UpperCAmelCase_ : int = dummy_file
return dummy_files
def __a ( __lowerCamelCase=False ):
UpperCAmelCase_ : Optional[Any] = create_dummy_files()
# For special correspondence backend to shortcut as used in utils/dummy_xxx_objects.py
UpperCAmelCase_ : Union[str, Any] = {"torch": "pt"}
# Locate actual dummy modules and read their content.
UpperCAmelCase_ : List[str] = os.path.join(__lowerCamelCase, "utils" )
UpperCAmelCase_ : Optional[int] = {
backend: os.path.join(__lowerCamelCase, f"""dummy_{short_names.get(__lowerCamelCase, __lowerCamelCase )}_objects.py""" )
for backend in dummy_files.keys()
}
UpperCAmelCase_ : Any = {}
for backend, file_path in dummy_file_paths.items():
if os.path.isfile(__lowerCamelCase ):
with open(__lowerCamelCase, "r", encoding="utf-8", newline="\n" ) as f:
UpperCAmelCase_ : Optional[int] = f.read()
else:
UpperCAmelCase_ : Any = ""
for backend in dummy_files.keys():
if dummy_files[backend] != actual_dummies[backend]:
if overwrite:
print(
f"""Updating diffusers.utils.dummy_{short_names.get(__lowerCamelCase, __lowerCamelCase )}_objects.py as the main """
"__init__ has new objects." )
with open(dummy_file_paths[backend], "w", encoding="utf-8", newline="\n" ) as f:
f.write(dummy_files[backend] )
else:
raise ValueError(
"The main __init__ has objects that are not present in "
f"""diffusers.utils.dummy_{short_names.get(__lowerCamelCase, __lowerCamelCase )}_objects.py. Run `make fix-copies` """
"to fix this." )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
parser.add_argument('--fix_and_overwrite', action='store_true', help='Whether to fix inconsistencies.')
_a = parser.parse_args()
check_dummies(args.fix_and_overwrite)
| 61 |
"""simple docstring"""
def __a ( __lowerCamelCase = 3, __lowerCamelCase = 7, __lowerCamelCase = 100_0000 ):
UpperCAmelCase_ : Dict = 0
UpperCAmelCase_ : List[Any] = 1
for current_denominator in range(1, limit + 1 ):
UpperCAmelCase_ : Dict = current_denominator * numerator // denominator
if current_denominator % denominator == 0:
current_numerator -= 1
if current_numerator * max_denominator > current_denominator * max_numerator:
UpperCAmelCase_ : List[Any] = current_numerator
UpperCAmelCase_ : Optional[int] = current_denominator
return max_numerator
if __name__ == "__main__":
print(solution(numerator=3, denominator=7, limit=1_000_000))
| 61 | 1 |
"""simple docstring"""
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
_a = {
'configuration_convbert': ['CONVBERT_PRETRAINED_CONFIG_ARCHIVE_MAP', 'ConvBertConfig', 'ConvBertOnnxConfig'],
'tokenization_convbert': ['ConvBertTokenizer'],
}
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = ['ConvBertTokenizerFast']
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = [
'CONVBERT_PRETRAINED_MODEL_ARCHIVE_LIST',
'ConvBertForMaskedLM',
'ConvBertForMultipleChoice',
'ConvBertForQuestionAnswering',
'ConvBertForSequenceClassification',
'ConvBertForTokenClassification',
'ConvBertLayer',
'ConvBertModel',
'ConvBertPreTrainedModel',
'load_tf_weights_in_convbert',
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = [
'TF_CONVBERT_PRETRAINED_MODEL_ARCHIVE_LIST',
'TFConvBertForMaskedLM',
'TFConvBertForMultipleChoice',
'TFConvBertForQuestionAnswering',
'TFConvBertForSequenceClassification',
'TFConvBertForTokenClassification',
'TFConvBertLayer',
'TFConvBertModel',
'TFConvBertPreTrainedModel',
]
if TYPE_CHECKING:
from .configuration_convbert import CONVBERT_PRETRAINED_CONFIG_ARCHIVE_MAP, ConvBertConfig, ConvBertOnnxConfig
from .tokenization_convbert import ConvBertTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_convbert_fast import ConvBertTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_convbert import (
CONVBERT_PRETRAINED_MODEL_ARCHIVE_LIST,
ConvBertForMaskedLM,
ConvBertForMultipleChoice,
ConvBertForQuestionAnswering,
ConvBertForSequenceClassification,
ConvBertForTokenClassification,
ConvBertLayer,
ConvBertModel,
ConvBertPreTrainedModel,
load_tf_weights_in_convbert,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_convbert import (
TF_CONVBERT_PRETRAINED_MODEL_ARCHIVE_LIST,
TFConvBertForMaskedLM,
TFConvBertForMultipleChoice,
TFConvBertForQuestionAnswering,
TFConvBertForSequenceClassification,
TFConvBertForTokenClassification,
TFConvBertLayer,
TFConvBertModel,
TFConvBertPreTrainedModel,
)
else:
import sys
_a = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)
| 61 |
"""simple docstring"""
import argparse
import os
import re
# All paths are set with the intent you should run this script from the root of the repo with the command
# python utils/check_dummies.py
_a = 'src/diffusers'
# Matches is_xxx_available()
_a = re.compile(R'is\_([a-z_]*)_available\(\)')
# Matches from xxx import bla
_a = re.compile(R'\s+from\s+\S*\s+import\s+([^\(\s].*)\n')
_a = '\n{0} = None\n'
_a = '\nclass {0}(metaclass=DummyObject):\n _backends = {1}\n\n def __init__(self, *args, **kwargs):\n requires_backends(self, {1})\n\n @classmethod\n def from_config(cls, *args, **kwargs):\n requires_backends(cls, {1})\n\n @classmethod\n def from_pretrained(cls, *args, **kwargs):\n requires_backends(cls, {1})\n'
_a = '\ndef {0}(*args, **kwargs):\n requires_backends({0}, {1})\n'
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : int = _re_backend.findall(__lowerCamelCase )
if len(__lowerCamelCase ) == 0:
return None
return "_and_".join(__lowerCamelCase )
def __a ( ):
with open(os.path.join(__lowerCamelCase, "__init__.py" ), "r", encoding="utf-8", newline="\n" ) as f:
UpperCAmelCase_ : Optional[int] = f.readlines()
# Get to the point we do the actual imports for type checking
UpperCAmelCase_ : Union[str, Any] = 0
UpperCAmelCase_ : Optional[int] = {}
# Go through the end of the file
while line_index < len(__lowerCamelCase ):
# If the line contains is_backend_available, we grab all objects associated with the `else` block
UpperCAmelCase_ : Union[str, Any] = find_backend(lines[line_index] )
if backend is not None:
while not lines[line_index].startswith("else:" ):
line_index += 1
line_index += 1
UpperCAmelCase_ : List[str] = []
# Until we unindent, add backend objects to the list
while line_index < len(__lowerCamelCase ) and len(lines[line_index] ) > 1:
UpperCAmelCase_ : Union[str, Any] = lines[line_index]
UpperCAmelCase_ : Optional[Any] = _re_single_line_import.search(__lowerCamelCase )
if single_line_import_search is not None:
objects.extend(single_line_import_search.groups()[0].split(", " ) )
elif line.startswith(" " * 8 ):
objects.append(line[8:-2] )
line_index += 1
if len(__lowerCamelCase ) > 0:
UpperCAmelCase_ : Optional[int] = objects
else:
line_index += 1
return backend_specific_objects
def __a ( __lowerCamelCase, __lowerCamelCase ):
if name.isupper():
return DUMMY_CONSTANT.format(__lowerCamelCase )
elif name.islower():
return DUMMY_FUNCTION.format(__lowerCamelCase, __lowerCamelCase )
else:
return DUMMY_CLASS.format(__lowerCamelCase, __lowerCamelCase )
def __a ( __lowerCamelCase=None ):
if backend_specific_objects is None:
UpperCAmelCase_ : Tuple = read_init()
# For special correspondence backend to module name as used in the function requires_modulename
UpperCAmelCase_ : str = {}
for backend, objects in backend_specific_objects.items():
UpperCAmelCase_ : int = "[" + ", ".join(f"""\"{b}\"""" for b in backend.split("_and_" ) ) + "]"
UpperCAmelCase_ : Dict = "# This file is autogenerated by the command `make fix-copies`, do not edit.\n"
dummy_file += "from ..utils import DummyObject, requires_backends\n\n"
dummy_file += "\n".join([create_dummy_object(__lowerCamelCase, __lowerCamelCase ) for o in objects] )
UpperCAmelCase_ : int = dummy_file
return dummy_files
def __a ( __lowerCamelCase=False ):
UpperCAmelCase_ : Optional[Any] = create_dummy_files()
# For special correspondence backend to shortcut as used in utils/dummy_xxx_objects.py
UpperCAmelCase_ : Union[str, Any] = {"torch": "pt"}
# Locate actual dummy modules and read their content.
UpperCAmelCase_ : List[str] = os.path.join(__lowerCamelCase, "utils" )
UpperCAmelCase_ : Optional[int] = {
backend: os.path.join(__lowerCamelCase, f"""dummy_{short_names.get(__lowerCamelCase, __lowerCamelCase )}_objects.py""" )
for backend in dummy_files.keys()
}
UpperCAmelCase_ : Any = {}
for backend, file_path in dummy_file_paths.items():
if os.path.isfile(__lowerCamelCase ):
with open(__lowerCamelCase, "r", encoding="utf-8", newline="\n" ) as f:
UpperCAmelCase_ : Optional[int] = f.read()
else:
UpperCAmelCase_ : Any = ""
for backend in dummy_files.keys():
if dummy_files[backend] != actual_dummies[backend]:
if overwrite:
print(
f"""Updating diffusers.utils.dummy_{short_names.get(__lowerCamelCase, __lowerCamelCase )}_objects.py as the main """
"__init__ has new objects." )
with open(dummy_file_paths[backend], "w", encoding="utf-8", newline="\n" ) as f:
f.write(dummy_files[backend] )
else:
raise ValueError(
"The main __init__ has objects that are not present in "
f"""diffusers.utils.dummy_{short_names.get(__lowerCamelCase, __lowerCamelCase )}_objects.py. Run `make fix-copies` """
"to fix this." )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
parser.add_argument('--fix_and_overwrite', action='store_true', help='Whether to fix inconsistencies.')
_a = parser.parse_args()
check_dummies(args.fix_and_overwrite)
| 61 | 1 |
"""simple docstring"""
from __future__ import annotations
class A_ :
'''simple docstring'''
def __init__( self , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : str = data
UpperCAmelCase_ : Node | None = None
UpperCAmelCase_ : Node | None = None
def __a ( __lowerCamelCase ): # In Order traversal of the tree
if tree:
display(tree.left )
print(tree.data )
display(tree.right )
def __a ( __lowerCamelCase ):
return 1 + max(depth_of_tree(tree.left ), depth_of_tree(tree.right ) ) if tree else 0
def __a ( __lowerCamelCase ):
if not tree:
return True
if tree.left and tree.right:
return is_full_binary_tree(tree.left ) and is_full_binary_tree(tree.right )
else:
return not tree.left and not tree.right
def __a ( ): # Main function for testing.
UpperCAmelCase_ : List[str] = Node(1 )
UpperCAmelCase_ : List[str] = Node(2 )
UpperCAmelCase_ : Optional[int] = Node(3 )
UpperCAmelCase_ : Optional[Any] = Node(4 )
UpperCAmelCase_ : List[str] = Node(5 )
UpperCAmelCase_ : str = Node(6 )
UpperCAmelCase_ : Union[str, Any] = Node(7 )
UpperCAmelCase_ : List[Any] = Node(8 )
UpperCAmelCase_ : Any = Node(9 )
print(is_full_binary_tree(__lowerCamelCase ) )
print(depth_of_tree(__lowerCamelCase ) )
print("Tree is: " )
display(__lowerCamelCase )
if __name__ == "__main__":
main()
| 61 |
"""simple docstring"""
import torch
from diffusers import DDIMParallelScheduler
from .test_schedulers import SchedulerCommonTest
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Optional[int] = (DDIMParallelScheduler,)
SCREAMING_SNAKE_CASE__ : Optional[Any] = (("""eta""", 0.0), ("""num_inference_steps""", 50))
def UpperCamelCase__ ( self , **lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : int = {
"num_train_timesteps": 1000,
"beta_start": 0.00_01,
"beta_end": 0.02,
"beta_schedule": "linear",
"clip_sample": True,
}
config.update(**lowercase_ )
return config
def UpperCamelCase__ ( self , **lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Dict = self.scheduler_classes[0]
UpperCAmelCase_ : Union[str, Any] = self.get_scheduler_config(**lowercase_ )
UpperCAmelCase_ : int = scheduler_class(**lowercase_ )
UpperCAmelCase_ , UpperCAmelCase_ : str = 10, 0.0
UpperCAmelCase_ : Optional[int] = self.dummy_model()
UpperCAmelCase_ : str = self.dummy_sample_deter
scheduler.set_timesteps(lowercase_ )
for t in scheduler.timesteps:
UpperCAmelCase_ : Dict = model(lowercase_ , lowercase_ )
UpperCAmelCase_ : Dict = scheduler.step(lowercase_ , lowercase_ , lowercase_ , lowercase_ ).prev_sample
return sample
def UpperCamelCase__ ( self ):
"""simple docstring"""
for timesteps in [100, 500, 1000]:
self.check_over_configs(num_train_timesteps=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for steps_offset in [0, 1]:
self.check_over_configs(steps_offset=lowercase_ )
UpperCAmelCase_ : str = self.scheduler_classes[0]
UpperCAmelCase_ : List[str] = self.get_scheduler_config(steps_offset=1 )
UpperCAmelCase_ : List[str] = scheduler_class(**lowercase_ )
scheduler.set_timesteps(5 )
assert torch.equal(scheduler.timesteps , torch.LongTensor([801, 601, 401, 201, 1] ) )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for beta_start, beta_end in zip([0.00_01, 0.0_01, 0.01, 0.1] , [0.0_02, 0.02, 0.2, 2] ):
self.check_over_configs(beta_start=lowercase_ , beta_end=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for schedule in ["linear", "squaredcos_cap_v2"]:
self.check_over_configs(beta_schedule=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for prediction_type in ["epsilon", "v_prediction"]:
self.check_over_configs(prediction_type=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for clip_sample in [True, False]:
self.check_over_configs(clip_sample=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for timestep_spacing in ["trailing", "leading"]:
self.check_over_configs(timestep_spacing=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for rescale_betas_zero_snr in [True, False]:
self.check_over_configs(rescale_betas_zero_snr=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
self.check_over_configs(thresholding=lowercase_ )
for threshold in [0.5, 1.0, 2.0]:
for prediction_type in ["epsilon", "v_prediction"]:
self.check_over_configs(
thresholding=lowercase_ , prediction_type=lowercase_ , sample_max_value=lowercase_ , )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for t in [1, 10, 49]:
self.check_over_forward(time_step=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for t, num_inference_steps in zip([1, 10, 50] , [10, 50, 500] ):
self.check_over_forward(time_step=lowercase_ , num_inference_steps=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for t, eta in zip([1, 10, 49] , [0.0, 0.5, 1.0] ):
self.check_over_forward(time_step=lowercase_ , eta=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Union[str, Any] = self.scheduler_classes[0]
UpperCAmelCase_ : List[str] = self.get_scheduler_config()
UpperCAmelCase_ : List[str] = scheduler_class(**lowercase_ )
assert torch.sum(torch.abs(scheduler._get_variance(0 , 0 ) - 0.0 ) ) < 1E-5
assert torch.sum(torch.abs(scheduler._get_variance(420 , 400 ) - 0.1_47_71 ) ) < 1E-5
assert torch.sum(torch.abs(scheduler._get_variance(980 , 960 ) - 0.3_24_60 ) ) < 1E-5
assert torch.sum(torch.abs(scheduler._get_variance(0 , 0 ) - 0.0 ) ) < 1E-5
assert torch.sum(torch.abs(scheduler._get_variance(487 , 486 ) - 0.0_09_79 ) ) < 1E-5
assert torch.sum(torch.abs(scheduler._get_variance(999 , 998 ) - 0.02 ) ) < 1E-5
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = self.scheduler_classes[0]
UpperCAmelCase_ : Optional[int] = self.get_scheduler_config()
UpperCAmelCase_ : List[str] = scheduler_class(**lowercase_ )
UpperCAmelCase_ , UpperCAmelCase_ : Tuple = 10, 0.0
scheduler.set_timesteps(lowercase_ )
UpperCAmelCase_ : Union[str, Any] = self.dummy_model()
UpperCAmelCase_ : List[str] = self.dummy_sample_deter
UpperCAmelCase_ : Any = self.dummy_sample_deter + 0.1
UpperCAmelCase_ : int = self.dummy_sample_deter - 0.1
UpperCAmelCase_ : List[Any] = samplea.shape[0]
UpperCAmelCase_ : int = torch.stack([samplea, samplea, samplea] , dim=0 )
UpperCAmelCase_ : int = torch.arange(lowercase_ )[0:3, None].repeat(1 , lowercase_ )
UpperCAmelCase_ : int = model(samples.flatten(0 , 1 ) , timesteps.flatten(0 , 1 ) )
UpperCAmelCase_ : Optional[Any] = scheduler.batch_step_no_noise(lowercase_ , timesteps.flatten(0 , 1 ) , samples.flatten(0 , 1 ) , lowercase_ )
UpperCAmelCase_ : List[Any] = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : str = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 11_47.79_04 ) < 1E-2
assert abs(result_mean.item() - 0.49_82 ) < 1E-3
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = self.full_loop()
UpperCAmelCase_ : int = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : List[str] = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 1_72.00_67 ) < 1E-2
assert abs(result_mean.item() - 0.22_39_67 ) < 1E-3
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = self.full_loop(prediction_type="v_prediction" )
UpperCAmelCase_ : str = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : Dict = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 52.53_02 ) < 1E-2
assert abs(result_mean.item() - 0.06_84 ) < 1E-3
def UpperCamelCase__ ( self ):
"""simple docstring"""
# We specify different beta, so that the first alpha is 0.99
UpperCAmelCase_ : List[str] = self.full_loop(set_alpha_to_one=lowercase_ , beta_start=0.01 )
UpperCAmelCase_ : Dict = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : Tuple = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 1_49.82_95 ) < 1E-2
assert abs(result_mean.item() - 0.19_51 ) < 1E-3
def UpperCamelCase__ ( self ):
"""simple docstring"""
# We specify different beta, so that the first alpha is 0.99
UpperCAmelCase_ : int = self.full_loop(set_alpha_to_one=lowercase_ , beta_start=0.01 )
UpperCAmelCase_ : List[Any] = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : Dict = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 1_49.07_84 ) < 1E-2
assert abs(result_mean.item() - 0.19_41 ) < 1E-3
| 61 | 1 |
"""simple docstring"""
from itertools import product
def __a ( __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : Dict = sides_number
UpperCAmelCase_ : Optional[Any] = max_face_number * dice_number
UpperCAmelCase_ : Optional[Any] = [0] * (max_total + 1)
UpperCAmelCase_ : List[str] = 1
UpperCAmelCase_ : int = range(__lowerCamelCase, max_face_number + 1 )
for dice_numbers in product(__lowerCamelCase, repeat=__lowerCamelCase ):
UpperCAmelCase_ : Union[str, Any] = sum(__lowerCamelCase )
totals_frequencies[total] += 1
return totals_frequencies
def __a ( ):
UpperCAmelCase_ : Optional[Any] = total_frequency_distribution(
sides_number=4, dice_number=9 )
UpperCAmelCase_ : Union[str, Any] = total_frequency_distribution(
sides_number=6, dice_number=6 )
UpperCAmelCase_ : List[Any] = 0
UpperCAmelCase_ : Dict = 9
UpperCAmelCase_ : Tuple = 4 * 9
UpperCAmelCase_ : int = 6
for peter_total in range(__lowerCamelCase, max_peter_total + 1 ):
peter_wins_count += peter_totals_frequencies[peter_total] * sum(
colin_totals_frequencies[min_colin_total:peter_total] )
UpperCAmelCase_ : List[Any] = (4**9) * (6**6)
UpperCAmelCase_ : List[str] = peter_wins_count / total_games_number
UpperCAmelCase_ : Any = round(__lowerCamelCase, ndigits=7 )
return rounded_peter_win_probability
if __name__ == "__main__":
print(f"""{solution() = }""")
| 61 |
"""simple docstring"""
import inspect
import unittest
import numpy as np
from transformers import ViTConfig, is_flax_available
from transformers.testing_utils import require_flax, slow
from ...test_configuration_common import ConfigTester
from ...test_modeling_flax_common import FlaxModelTesterMixin, floats_tensor
if is_flax_available():
import jax
from transformers.models.vit.modeling_flax_vit import FlaxViTForImageClassification, FlaxViTModel
class A_ (unittest.TestCase ):
'''simple docstring'''
def __init__( self , lowercase_ , lowercase_=13 , lowercase_=30 , lowercase_=2 , lowercase_=3 , lowercase_=True , lowercase_=True , lowercase_=32 , lowercase_=5 , lowercase_=4 , lowercase_=37 , lowercase_="gelu" , lowercase_=0.1 , lowercase_=0.1 , lowercase_=10 , lowercase_=0.02 , ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = parent
UpperCAmelCase_ : List[str] = batch_size
UpperCAmelCase_ : Union[str, Any] = image_size
UpperCAmelCase_ : List[str] = patch_size
UpperCAmelCase_ : Union[str, Any] = num_channels
UpperCAmelCase_ : Optional[int] = is_training
UpperCAmelCase_ : Dict = use_labels
UpperCAmelCase_ : Any = hidden_size
UpperCAmelCase_ : Optional[Any] = num_hidden_layers
UpperCAmelCase_ : Optional[Any] = num_attention_heads
UpperCAmelCase_ : Dict = intermediate_size
UpperCAmelCase_ : Optional[Any] = hidden_act
UpperCAmelCase_ : Optional[Any] = hidden_dropout_prob
UpperCAmelCase_ : Tuple = attention_probs_dropout_prob
UpperCAmelCase_ : Dict = type_sequence_label_size
UpperCAmelCase_ : Optional[Any] = initializer_range
# in ViT, the seq length equals the number of patches + 1 (we add 1 for the [CLS] token)
UpperCAmelCase_ : Any = (image_size // patch_size) ** 2
UpperCAmelCase_ : List[str] = num_patches + 1
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] )
UpperCAmelCase_ : Dict = 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=lowercase_ , initializer_range=self.initializer_range , )
return config, pixel_values
def UpperCamelCase__ ( self , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = FlaxViTModel(config=lowercase_ )
UpperCAmelCase_ : int = model(lowercase_ )
# expected sequence length = num_patches + 1 (we add 1 for the [CLS] token)
UpperCAmelCase_ : Optional[Any] = (self.image_size, self.image_size)
UpperCAmelCase_ : List[Any] = (self.patch_size, self.patch_size)
UpperCAmelCase_ : str = (image_size[1] // patch_size[1]) * (image_size[0] // patch_size[0])
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, num_patches + 1, self.hidden_size) )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = self.type_sequence_label_size
UpperCAmelCase_ : Tuple = FlaxViTForImageClassification(config=lowercase_ )
UpperCAmelCase_ : str = model(lowercase_ )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size) )
# test greyscale images
UpperCAmelCase_ : Any = 1
UpperCAmelCase_ : Optional[int] = FlaxViTForImageClassification(lowercase_ )
UpperCAmelCase_ : List[Any] = floats_tensor([self.batch_size, 1, self.image_size, self.image_size] )
UpperCAmelCase_ : List[Any] = model(lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[Any] = self.prepare_config_and_inputs()
(
(
UpperCAmelCase_
) , (
UpperCAmelCase_
) ,
) : Tuple = config_and_inputs
UpperCAmelCase_ : Union[str, Any] = {"pixel_values": pixel_values}
return config, inputs_dict
@require_flax
class A_ (lowercase__ ,unittest.TestCase ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Any = (FlaxViTModel, FlaxViTForImageClassification) if is_flax_available() else ()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[Any] = FlaxViTModelTester(self )
UpperCAmelCase_ : Dict = ConfigTester(self , config_class=lowercase_ , has_text_modality=lowercase_ , hidden_size=37 )
def UpperCamelCase__ ( self ):
"""simple docstring"""
self.config_tester.run_common_tests()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[Any] = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_image_classification(*lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : List[str] = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
UpperCAmelCase_ : Optional[Any] = model_class(lowercase_ )
UpperCAmelCase_ : Optional[int] = inspect.signature(model.__call__ )
# signature.parameters is an OrderedDict => so arg_names order is deterministic
UpperCAmelCase_ : List[str] = [*signature.parameters.keys()]
UpperCAmelCase_ : List[str] = ["pixel_values"]
self.assertListEqual(arg_names[:1] , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Tuple = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
with self.subTest(model_class.__name__ ):
UpperCAmelCase_ : Union[str, Any] = self._prepare_for_class(lowercase_ , lowercase_ )
UpperCAmelCase_ : Tuple = model_class(lowercase_ )
@jax.jit
def model_jitted(lowercase_ , **lowercase_ ):
return model(pixel_values=lowercase_ , **lowercase_ )
with self.subTest("JIT Enabled" ):
UpperCAmelCase_ : Union[str, Any] = model_jitted(**lowercase_ ).to_tuple()
with self.subTest("JIT Disabled" ):
with jax.disable_jit():
UpperCAmelCase_ : Tuple = model_jitted(**lowercase_ ).to_tuple()
self.assertEqual(len(lowercase_ ) , len(lowercase_ ) )
for jitted_output, output in zip(lowercase_ , lowercase_ ):
self.assertEqual(jitted_output.shape , output.shape )
@slow
def UpperCamelCase__ ( self ):
"""simple docstring"""
for model_class_name in self.all_model_classes:
UpperCAmelCase_ : Union[str, Any] = model_class_name.from_pretrained("google/vit-base-patch16-224" )
UpperCAmelCase_ : List[str] = model(np.ones((1, 3, 224, 224) ) )
self.assertIsNotNone(lowercase_ )
| 61 | 1 |
"""simple docstring"""
def __a ( __lowerCamelCase = 100_0000 ):
UpperCAmelCase_ : int = 1
UpperCAmelCase_ : Tuple = 1
UpperCAmelCase_ : Any = {1: 1}
for inputa in range(2, __lowerCamelCase ):
UpperCAmelCase_ : Any = 0
UpperCAmelCase_ : List[Any] = inputa
while True:
if number in counters:
counter += counters[number]
break
if number % 2 == 0:
number //= 2
counter += 1
else:
UpperCAmelCase_ : Union[str, Any] = (3 * number) + 1
counter += 1
if inputa not in counters:
UpperCAmelCase_ : str = counter
if counter > pre_counter:
UpperCAmelCase_ : str = inputa
UpperCAmelCase_ : str = counter
return largest_number
if __name__ == "__main__":
print(solution(int(input().strip())))
| 61 |
"""simple docstring"""
from ...utils import is_torch_available, is_transformers_available
if is_transformers_available() and is_torch_available():
from .pipeline_vq_diffusion import LearnedClassifierFreeSamplingEmbeddings, VQDiffusionPipeline
| 61 | 1 |
"""simple docstring"""
from dataclasses import dataclass, field
from typing import Tuple
from ..utils import cached_property, is_tf_available, logging, requires_backends
from .benchmark_args_utils import BenchmarkArguments
if is_tf_available():
import tensorflow as tf
_a = logging.get_logger(__name__)
@dataclass
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : List[Any] = [
"""no_inference""",
"""no_cuda""",
"""no_tpu""",
"""no_speed""",
"""no_memory""",
"""no_env_print""",
"""no_multi_process""",
]
def __init__( self , **lowercase_ ):
"""simple docstring"""
for deprecated_arg in self.deprecated_args:
if deprecated_arg in kwargs:
UpperCAmelCase_ : Tuple = deprecated_arg[3:]
UpperCAmelCase_ : Any = not kwargs.pop(lowercase_ )
logger.warning(
F"""{deprecated_arg} is depreciated. Please use --no-{positive_arg} or"""
F""" {positive_arg}={kwargs[positive_arg]}""" )
UpperCAmelCase_ : List[Any] = kwargs.pop("tpu_name" , self.tpu_name )
UpperCAmelCase_ : Dict = kwargs.pop("device_idx" , self.device_idx )
UpperCAmelCase_ : Optional[int] = kwargs.pop("eager_mode" , self.eager_mode )
UpperCAmelCase_ : str = kwargs.pop("use_xla" , self.use_xla )
super().__init__(**lowercase_ )
SCREAMING_SNAKE_CASE__ : str = field(
default=lowercase__ ,metadata={"""help""": """Name of TPU"""} ,)
SCREAMING_SNAKE_CASE__ : int = field(
default=0 ,metadata={"""help""": """CPU / GPU device index. Defaults to 0."""} ,)
SCREAMING_SNAKE_CASE__ : bool = field(default=lowercase__ ,metadata={"""help""": """Benchmark models in eager model."""} )
SCREAMING_SNAKE_CASE__ : bool = field(
default=lowercase__ ,metadata={
"""help""": """Benchmark models using XLA JIT compilation. Note that `eager_model` has to be set to `False`."""
} ,)
@cached_property
def UpperCamelCase__ ( self ):
"""simple docstring"""
requires_backends(self , ["tf"] )
UpperCAmelCase_ : Optional[int] = None
if self.tpu:
try:
if self.tpu_name:
UpperCAmelCase_ : Optional[int] = tf.distribute.cluster_resolver.TPUClusterResolver(self.tpu_name )
else:
UpperCAmelCase_ : str = tf.distribute.cluster_resolver.TPUClusterResolver()
except ValueError:
UpperCAmelCase_ : Dict = None
return tpu
@cached_property
def UpperCamelCase__ ( self ):
"""simple docstring"""
requires_backends(self , ["tf"] )
if self.is_tpu:
tf.config.experimental_connect_to_cluster(self._setup_tpu )
tf.tpu.experimental.initialize_tpu_system(self._setup_tpu )
UpperCAmelCase_ : List[Any] = tf.distribute.TPUStrategy(self._setup_tpu )
else:
# currently no multi gpu is allowed
if self.is_gpu:
# TODO: Currently only single GPU is supported
tf.config.set_visible_devices(self.gpu_list[self.device_idx] , "GPU" )
UpperCAmelCase_ : str = tf.distribute.OneDeviceStrategy(device=F"""/gpu:{self.device_idx}""" )
else:
tf.config.set_visible_devices([] , "GPU" ) # disable GPU
UpperCAmelCase_ : Union[str, Any] = tf.distribute.OneDeviceStrategy(device=F"""/cpu:{self.device_idx}""" )
return strategy
@property
def UpperCamelCase__ ( self ):
"""simple docstring"""
requires_backends(self , ["tf"] )
return self._setup_tpu is not None
@property
def UpperCamelCase__ ( self ):
"""simple docstring"""
requires_backends(self , ["tf"] )
return self._setup_strategy
@property
def UpperCamelCase__ ( self ):
"""simple docstring"""
requires_backends(self , ["tf"] )
return tf.config.list_physical_devices("GPU" )
@property
def UpperCamelCase__ ( self ):
"""simple docstring"""
requires_backends(self , ["tf"] )
if self.cuda:
return len(self.gpu_list )
return 0
@property
def UpperCamelCase__ ( self ):
"""simple docstring"""
return self.n_gpu > 0
| 61 |
"""simple docstring"""
from __future__ import annotations
import math
def __a ( __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : Any = u
for i in range(1, __lowerCamelCase ):
UpperCAmelCase_ : int = temp * (u - i)
return temp
def __a ( ):
UpperCAmelCase_ : str = int(input("enter the numbers of values: " ) )
UpperCAmelCase_ : list[list[float]] = []
for _ in range(__lowerCamelCase ):
y.append([] )
for i in range(__lowerCamelCase ):
for j in range(__lowerCamelCase ):
y[i].append(__lowerCamelCase )
UpperCAmelCase_ : Tuple = 0
print("enter the values of parameters in a list: " )
UpperCAmelCase_ : Union[str, Any] = list(map(__lowerCamelCase, input().split() ) )
print("enter the values of corresponding parameters: " )
for i in range(__lowerCamelCase ):
UpperCAmelCase_ : int = float(input() )
UpperCAmelCase_ : Tuple = int(input("enter the value to interpolate: " ) )
UpperCAmelCase_ : Tuple = (value - x[0]) / (x[1] - x[0])
# for calculating forward difference table
for i in range(1, __lowerCamelCase ):
for j in range(n - i ):
UpperCAmelCase_ : Union[str, Any] = y[j + 1][i - 1] - y[j][i - 1]
UpperCAmelCase_ : Optional[int] = y[0][0]
for i in range(1, __lowerCamelCase ):
summ += (ucal(__lowerCamelCase, __lowerCamelCase ) * y[0][i]) / math.factorial(__lowerCamelCase )
print(f"""the value at {value} is {summ}""" )
if __name__ == "__main__":
main()
| 61 | 1 |
"""simple docstring"""
from math import cos, sin, sqrt, tau
from audio_filters.iir_filter import IIRFilter
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ) ):
UpperCAmelCase_ : int = tau * frequency / samplerate
UpperCAmelCase_ : List[str] = sin(__lowerCamelCase )
UpperCAmelCase_ : int = cos(__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = _sin / (2 * q_factor)
UpperCAmelCase_ : int = (1 - _cos) / 2
UpperCAmelCase_ : Optional[Any] = 1 - _cos
UpperCAmelCase_ : int = 1 + alpha
UpperCAmelCase_ : Dict = -2 * _cos
UpperCAmelCase_ : Tuple = 1 - alpha
UpperCAmelCase_ : Dict = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ) ):
UpperCAmelCase_ : Dict = tau * frequency / samplerate
UpperCAmelCase_ : Tuple = sin(__lowerCamelCase )
UpperCAmelCase_ : Any = cos(__lowerCamelCase )
UpperCAmelCase_ : List[str] = _sin / (2 * q_factor)
UpperCAmelCase_ : List[Any] = (1 + _cos) / 2
UpperCAmelCase_ : Optional[int] = -1 - _cos
UpperCAmelCase_ : Union[str, Any] = 1 + alpha
UpperCAmelCase_ : Optional[int] = -2 * _cos
UpperCAmelCase_ : Tuple = 1 - alpha
UpperCAmelCase_ : List[str] = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ) ):
UpperCAmelCase_ : Union[str, Any] = tau * frequency / samplerate
UpperCAmelCase_ : str = sin(__lowerCamelCase )
UpperCAmelCase_ : Tuple = cos(__lowerCamelCase )
UpperCAmelCase_ : List[Any] = _sin / (2 * q_factor)
UpperCAmelCase_ : Any = _sin / 2
UpperCAmelCase_ : Union[str, Any] = 0
UpperCAmelCase_ : Tuple = -ba
UpperCAmelCase_ : Optional[Any] = 1 + alpha
UpperCAmelCase_ : Dict = -2 * _cos
UpperCAmelCase_ : Optional[int] = 1 - alpha
UpperCAmelCase_ : List[str] = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ) ):
UpperCAmelCase_ : Any = tau * frequency / samplerate
UpperCAmelCase_ : Any = sin(__lowerCamelCase )
UpperCAmelCase_ : Optional[int] = cos(__lowerCamelCase )
UpperCAmelCase_ : str = _sin / (2 * q_factor)
UpperCAmelCase_ : List[str] = 1 - alpha
UpperCAmelCase_ : str = -2 * _cos
UpperCAmelCase_ : Any = 1 + alpha
UpperCAmelCase_ : Tuple = IIRFilter(2 )
filt.set_coefficients([ba, ba, ba], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ), ):
UpperCAmelCase_ : Dict = tau * frequency / samplerate
UpperCAmelCase_ : Union[str, Any] = sin(__lowerCamelCase )
UpperCAmelCase_ : int = cos(__lowerCamelCase )
UpperCAmelCase_ : Optional[int] = _sin / (2 * q_factor)
UpperCAmelCase_ : List[str] = 10 ** (gain_db / 40)
UpperCAmelCase_ : List[Any] = 1 + alpha * big_a
UpperCAmelCase_ : Tuple = -2 * _cos
UpperCAmelCase_ : Tuple = 1 - alpha * big_a
UpperCAmelCase_ : str = 1 + alpha / big_a
UpperCAmelCase_ : List[str] = -2 * _cos
UpperCAmelCase_ : List[str] = 1 - alpha / big_a
UpperCAmelCase_ : Tuple = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ), ):
UpperCAmelCase_ : str = tau * frequency / samplerate
UpperCAmelCase_ : int = sin(__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = cos(__lowerCamelCase )
UpperCAmelCase_ : Tuple = _sin / (2 * q_factor)
UpperCAmelCase_ : List[Any] = 10 ** (gain_db / 40)
UpperCAmelCase_ : Tuple = (big_a + 1) - (big_a - 1) * _cos
UpperCAmelCase_ : int = (big_a + 1) + (big_a - 1) * _cos
UpperCAmelCase_ : Optional[Any] = (big_a - 1) - (big_a + 1) * _cos
UpperCAmelCase_ : Optional[int] = (big_a - 1) + (big_a + 1) * _cos
UpperCAmelCase_ : Dict = 2 * sqrt(__lowerCamelCase ) * alpha
UpperCAmelCase_ : List[str] = big_a * (pmc + aaa)
UpperCAmelCase_ : int = 2 * big_a * mpc
UpperCAmelCase_ : int = big_a * (pmc - aaa)
UpperCAmelCase_ : Dict = ppmc + aaa
UpperCAmelCase_ : Any = -2 * pmpc
UpperCAmelCase_ : List[str] = ppmc - aaa
UpperCAmelCase_ : List[Any] = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ), ):
UpperCAmelCase_ : int = tau * frequency / samplerate
UpperCAmelCase_ : Optional[Any] = sin(__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = cos(__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = _sin / (2 * q_factor)
UpperCAmelCase_ : Tuple = 10 ** (gain_db / 40)
UpperCAmelCase_ : Tuple = (big_a + 1) - (big_a - 1) * _cos
UpperCAmelCase_ : Optional[Any] = (big_a + 1) + (big_a - 1) * _cos
UpperCAmelCase_ : List[Any] = (big_a - 1) - (big_a + 1) * _cos
UpperCAmelCase_ : Any = (big_a - 1) + (big_a + 1) * _cos
UpperCAmelCase_ : Dict = 2 * sqrt(__lowerCamelCase ) * alpha
UpperCAmelCase_ : Any = big_a * (ppmc + aaa)
UpperCAmelCase_ : Union[str, Any] = -2 * big_a * pmpc
UpperCAmelCase_ : Dict = big_a * (ppmc - aaa)
UpperCAmelCase_ : Optional[int] = pmc + aaa
UpperCAmelCase_ : Union[str, Any] = 2 * mpc
UpperCAmelCase_ : int = pmc - aaa
UpperCAmelCase_ : Union[str, Any] = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
| 61 |
"""simple docstring"""
import argparse
import json
import pickle
from pathlib import Path
import requests
import torch
from huggingface_hub import hf_hub_download
from PIL import Image
from transformers import MaskFormerConfig, MaskFormerForInstanceSegmentation, MaskFormerImageProcessor, SwinConfig
from transformers.utils import logging
logging.set_verbosity_info()
_a = logging.get_logger(__name__)
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : Optional[Any] = SwinConfig.from_pretrained(
"microsoft/swin-tiny-patch4-window7-224", out_features=["stage1", "stage2", "stage3", "stage4"] )
UpperCAmelCase_ : Dict = MaskFormerConfig(backbone_config=__lowerCamelCase )
UpperCAmelCase_ : int = "huggingface/label-files"
if "ade20k-full" in model_name:
# this should be ok
UpperCAmelCase_ : Dict = 847
UpperCAmelCase_ : str = "maskformer-ade20k-full-id2label.json"
elif "ade" in model_name:
# this should be ok
UpperCAmelCase_ : Tuple = 150
UpperCAmelCase_ : int = "ade20k-id2label.json"
elif "coco-stuff" in model_name:
# this should be ok
UpperCAmelCase_ : str = 171
UpperCAmelCase_ : Optional[int] = "maskformer-coco-stuff-id2label.json"
elif "coco" in model_name:
# TODO
UpperCAmelCase_ : int = 133
UpperCAmelCase_ : Tuple = "coco-panoptic-id2label.json"
elif "cityscapes" in model_name:
# this should be ok
UpperCAmelCase_ : List[Any] = 19
UpperCAmelCase_ : Optional[int] = "cityscapes-id2label.json"
elif "vistas" in model_name:
# this should be ok
UpperCAmelCase_ : Any = 65
UpperCAmelCase_ : Union[str, Any] = "mapillary-vistas-id2label.json"
UpperCAmelCase_ : Any = json.load(open(hf_hub_download(__lowerCamelCase, __lowerCamelCase, repo_type="dataset" ), "r" ) )
UpperCAmelCase_ : int = {int(__lowerCamelCase ): v for k, v in idalabel.items()}
return config
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : Dict = []
# stem
# fmt: off
rename_keys.append(("backbone.patch_embed.proj.weight", "model.pixel_level_module.encoder.model.embeddings.patch_embeddings.projection.weight") )
rename_keys.append(("backbone.patch_embed.proj.bias", "model.pixel_level_module.encoder.model.embeddings.patch_embeddings.projection.bias") )
rename_keys.append(("backbone.patch_embed.norm.weight", "model.pixel_level_module.encoder.model.embeddings.norm.weight") )
rename_keys.append(("backbone.patch_embed.norm.bias", "model.pixel_level_module.encoder.model.embeddings.norm.bias") )
# stages
for i in range(len(config.backbone_config.depths ) ):
for j in range(config.backbone_config.depths[i] ):
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.norm1.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.layernorm_before.weight""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.norm1.bias""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.layernorm_before.bias""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.attn.relative_position_bias_table""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.attention.self.relative_position_bias_table""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.attn.relative_position_index""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.attention.self.relative_position_index""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.attn.proj.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.attention.output.dense.weight""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.attn.proj.bias""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.attention.output.dense.bias""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.norm2.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.layernorm_after.weight""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.norm2.bias""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.layernorm_after.bias""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.mlp.fc1.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.intermediate.dense.weight""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.mlp.fc1.bias""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.intermediate.dense.bias""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.mlp.fc2.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.output.dense.weight""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.mlp.fc2.bias""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.output.dense.bias""") )
if i < 3:
rename_keys.append((f"""backbone.layers.{i}.downsample.reduction.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.downsample.reduction.weight""") )
rename_keys.append((f"""backbone.layers.{i}.downsample.norm.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.downsample.norm.weight""") )
rename_keys.append((f"""backbone.layers.{i}.downsample.norm.bias""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.downsample.norm.bias""") )
rename_keys.append((f"""backbone.norm{i}.weight""", f"""model.pixel_level_module.encoder.hidden_states_norms.{i}.weight""") )
rename_keys.append((f"""backbone.norm{i}.bias""", f"""model.pixel_level_module.encoder.hidden_states_norms.{i}.bias""") )
# FPN
rename_keys.append(("sem_seg_head.layer_4.weight", "model.pixel_level_module.decoder.fpn.stem.0.weight") )
rename_keys.append(("sem_seg_head.layer_4.norm.weight", "model.pixel_level_module.decoder.fpn.stem.1.weight") )
rename_keys.append(("sem_seg_head.layer_4.norm.bias", "model.pixel_level_module.decoder.fpn.stem.1.bias") )
for source_index, target_index in zip(range(3, 0, -1 ), range(0, 3 ) ):
rename_keys.append((f"""sem_seg_head.adapter_{source_index}.weight""", f"""model.pixel_level_module.decoder.fpn.layers.{target_index}.proj.0.weight""") )
rename_keys.append((f"""sem_seg_head.adapter_{source_index}.norm.weight""", f"""model.pixel_level_module.decoder.fpn.layers.{target_index}.proj.1.weight""") )
rename_keys.append((f"""sem_seg_head.adapter_{source_index}.norm.bias""", f"""model.pixel_level_module.decoder.fpn.layers.{target_index}.proj.1.bias""") )
rename_keys.append((f"""sem_seg_head.layer_{source_index}.weight""", f"""model.pixel_level_module.decoder.fpn.layers.{target_index}.block.0.weight""") )
rename_keys.append((f"""sem_seg_head.layer_{source_index}.norm.weight""", f"""model.pixel_level_module.decoder.fpn.layers.{target_index}.block.1.weight""") )
rename_keys.append((f"""sem_seg_head.layer_{source_index}.norm.bias""", f"""model.pixel_level_module.decoder.fpn.layers.{target_index}.block.1.bias""") )
rename_keys.append(("sem_seg_head.mask_features.weight", "model.pixel_level_module.decoder.mask_projection.weight") )
rename_keys.append(("sem_seg_head.mask_features.bias", "model.pixel_level_module.decoder.mask_projection.bias") )
# Transformer decoder
for idx in range(config.decoder_config.decoder_layers ):
# self-attention out projection
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.self_attn.out_proj.weight""", f"""model.transformer_module.decoder.layers.{idx}.self_attn.out_proj.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.self_attn.out_proj.bias""", f"""model.transformer_module.decoder.layers.{idx}.self_attn.out_proj.bias""") )
# cross-attention out projection
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.multihead_attn.out_proj.weight""", f"""model.transformer_module.decoder.layers.{idx}.encoder_attn.out_proj.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.multihead_attn.out_proj.bias""", f"""model.transformer_module.decoder.layers.{idx}.encoder_attn.out_proj.bias""") )
# MLP 1
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.linear1.weight""", f"""model.transformer_module.decoder.layers.{idx}.fc1.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.linear1.bias""", f"""model.transformer_module.decoder.layers.{idx}.fc1.bias""") )
# MLP 2
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.linear2.weight""", f"""model.transformer_module.decoder.layers.{idx}.fc2.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.linear2.bias""", f"""model.transformer_module.decoder.layers.{idx}.fc2.bias""") )
# layernorm 1 (self-attention layernorm)
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.norm1.weight""", f"""model.transformer_module.decoder.layers.{idx}.self_attn_layer_norm.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.norm1.bias""", f"""model.transformer_module.decoder.layers.{idx}.self_attn_layer_norm.bias""") )
# layernorm 2 (cross-attention layernorm)
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.norm2.weight""", f"""model.transformer_module.decoder.layers.{idx}.encoder_attn_layer_norm.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.norm2.bias""", f"""model.transformer_module.decoder.layers.{idx}.encoder_attn_layer_norm.bias""") )
# layernorm 3 (final layernorm)
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.norm3.weight""", f"""model.transformer_module.decoder.layers.{idx}.final_layer_norm.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.norm3.bias""", f"""model.transformer_module.decoder.layers.{idx}.final_layer_norm.bias""") )
rename_keys.append(("sem_seg_head.predictor.transformer.decoder.norm.weight", "model.transformer_module.decoder.layernorm.weight") )
rename_keys.append(("sem_seg_head.predictor.transformer.decoder.norm.bias", "model.transformer_module.decoder.layernorm.bias") )
# heads on top
rename_keys.append(("sem_seg_head.predictor.query_embed.weight", "model.transformer_module.queries_embedder.weight") )
rename_keys.append(("sem_seg_head.predictor.input_proj.weight", "model.transformer_module.input_projection.weight") )
rename_keys.append(("sem_seg_head.predictor.input_proj.bias", "model.transformer_module.input_projection.bias") )
rename_keys.append(("sem_seg_head.predictor.class_embed.weight", "class_predictor.weight") )
rename_keys.append(("sem_seg_head.predictor.class_embed.bias", "class_predictor.bias") )
for i in range(3 ):
rename_keys.append((f"""sem_seg_head.predictor.mask_embed.layers.{i}.weight""", f"""mask_embedder.{i}.0.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.mask_embed.layers.{i}.bias""", f"""mask_embedder.{i}.0.bias""") )
# fmt: on
return rename_keys
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : Union[str, Any] = dct.pop(__lowerCamelCase )
UpperCAmelCase_ : str = val
def __a ( __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : int = [int(backbone_config.embed_dim * 2**i ) for i in range(len(backbone_config.depths ) )]
for i in range(len(backbone_config.depths ) ):
UpperCAmelCase_ : List[Any] = num_features[i]
for j in range(backbone_config.depths[i] ):
# fmt: off
# read in weights + bias of input projection layer (in original implementation, this is a single matrix + bias)
UpperCAmelCase_ : Tuple = state_dict.pop(f"""backbone.layers.{i}.blocks.{j}.attn.qkv.weight""" )
UpperCAmelCase_ : Optional[int] = state_dict.pop(f"""backbone.layers.{i}.blocks.{j}.attn.qkv.bias""" )
# next, add query, keys and values (in that order) to the state dict
UpperCAmelCase_ : Tuple = in_proj_weight[:dim, :]
UpperCAmelCase_ : List[Any] = in_proj_bias[: dim]
UpperCAmelCase_ : Any = in_proj_weight[
dim : dim * 2, :
]
UpperCAmelCase_ : Optional[int] = in_proj_bias[
dim : dim * 2
]
UpperCAmelCase_ : Tuple = in_proj_weight[
-dim :, :
]
UpperCAmelCase_ : Tuple = in_proj_bias[-dim :]
# fmt: on
def __a ( __lowerCamelCase, __lowerCamelCase ):
# fmt: off
UpperCAmelCase_ : Dict = config.decoder_config.hidden_size
for idx in range(config.decoder_config.decoder_layers ):
# read in weights + bias of self-attention input projection layer (in the original implementation, this is a single matrix + bias)
UpperCAmelCase_ : int = state_dict.pop(f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.self_attn.in_proj_weight""" )
UpperCAmelCase_ : int = state_dict.pop(f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.self_attn.in_proj_bias""" )
# next, add query, keys and values (in that order) to the state dict
UpperCAmelCase_ : Any = in_proj_weight[: hidden_size, :]
UpperCAmelCase_ : int = in_proj_bias[:config.hidden_size]
UpperCAmelCase_ : Any = in_proj_weight[hidden_size : hidden_size * 2, :]
UpperCAmelCase_ : List[Any] = in_proj_bias[hidden_size : hidden_size * 2]
UpperCAmelCase_ : Dict = in_proj_weight[-hidden_size :, :]
UpperCAmelCase_ : List[Any] = in_proj_bias[-hidden_size :]
# read in weights + bias of cross-attention input projection layer (in the original implementation, this is a single matrix + bias)
UpperCAmelCase_ : str = state_dict.pop(f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.multihead_attn.in_proj_weight""" )
UpperCAmelCase_ : Dict = state_dict.pop(f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.multihead_attn.in_proj_bias""" )
# next, add query, keys and values (in that order) to the state dict
UpperCAmelCase_ : str = in_proj_weight[: hidden_size, :]
UpperCAmelCase_ : Tuple = in_proj_bias[:config.hidden_size]
UpperCAmelCase_ : int = in_proj_weight[hidden_size : hidden_size * 2, :]
UpperCAmelCase_ : List[str] = in_proj_bias[hidden_size : hidden_size * 2]
UpperCAmelCase_ : List[Any] = in_proj_weight[-hidden_size :, :]
UpperCAmelCase_ : Optional[Any] = in_proj_bias[-hidden_size :]
# fmt: on
def __a ( ):
UpperCAmelCase_ : List[Any] = "http://images.cocodataset.org/val2017/000000039769.jpg"
UpperCAmelCase_ : Tuple = Image.open(requests.get(__lowerCamelCase, stream=__lowerCamelCase ).raw )
return im
@torch.no_grad()
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = False ):
UpperCAmelCase_ : List[str] = get_maskformer_config(__lowerCamelCase )
# load original state_dict
with open(__lowerCamelCase, "rb" ) as f:
UpperCAmelCase_ : Union[str, Any] = pickle.load(__lowerCamelCase )
UpperCAmelCase_ : str = data["model"]
# for name, param in state_dict.items():
# print(name, param.shape)
# rename keys
UpperCAmelCase_ : int = create_rename_keys(__lowerCamelCase )
for src, dest in rename_keys:
rename_key(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase )
read_in_swin_q_k_v(__lowerCamelCase, config.backbone_config )
read_in_decoder_q_k_v(__lowerCamelCase, __lowerCamelCase )
# update to torch tensors
for key, value in state_dict.items():
UpperCAmelCase_ : Optional[int] = torch.from_numpy(__lowerCamelCase )
# load 🤗 model
UpperCAmelCase_ : Dict = MaskFormerForInstanceSegmentation(__lowerCamelCase )
model.eval()
for name, param in model.named_parameters():
print(__lowerCamelCase, param.shape )
UpperCAmelCase_ , UpperCAmelCase_ : str = model.load_state_dict(__lowerCamelCase, strict=__lowerCamelCase )
assert missing_keys == [
"model.pixel_level_module.encoder.model.layernorm.weight",
"model.pixel_level_module.encoder.model.layernorm.bias",
]
assert len(__lowerCamelCase ) == 0, f"""Unexpected keys: {unexpected_keys}"""
# verify results
UpperCAmelCase_ : Optional[int] = prepare_img()
if "vistas" in model_name:
UpperCAmelCase_ : List[str] = 65
elif "cityscapes" in model_name:
UpperCAmelCase_ : Tuple = 6_5535
else:
UpperCAmelCase_ : Dict = 255
UpperCAmelCase_ : Optional[Any] = True if "ade" in model_name else False
UpperCAmelCase_ : Dict = MaskFormerImageProcessor(ignore_index=__lowerCamelCase, reduce_labels=__lowerCamelCase )
UpperCAmelCase_ : Union[str, Any] = image_processor(__lowerCamelCase, return_tensors="pt" )
UpperCAmelCase_ : Dict = model(**__lowerCamelCase )
print("Logits:", outputs.class_queries_logits[0, :3, :3] )
if model_name == "maskformer-swin-tiny-ade":
UpperCAmelCase_ : Any = torch.tensor(
[[3.6353, -4.4770, -2.6065], [0.5081, -4.2394, -3.5343], [2.1909, -5.0353, -1.9323]] )
assert torch.allclose(outputs.class_queries_logits[0, :3, :3], __lowerCamelCase, atol=1E-4 )
print("Looks ok!" )
if pytorch_dump_folder_path is not None:
print(f"""Saving model and image processor to {pytorch_dump_folder_path}""" )
Path(__lowerCamelCase ).mkdir(exist_ok=__lowerCamelCase )
model.save_pretrained(__lowerCamelCase )
image_processor.save_pretrained(__lowerCamelCase )
if push_to_hub:
print("Pushing model and image processor to the hub..." )
model.push_to_hub(f"""nielsr/{model_name}""" )
image_processor.push_to_hub(f"""nielsr/{model_name}""" )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
'--model_name',
default='maskformer-swin-tiny-ade',
type=str,
help=('Name of the MaskFormer model you\'d like to convert',),
)
parser.add_argument(
'--checkpoint_path',
default='/Users/nielsrogge/Documents/MaskFormer_checkpoints/MaskFormer-Swin-tiny-ADE20k/model.pkl',
type=str,
help='Path to the original state dict (.pth file).',
)
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.'
)
_a = parser.parse_args()
convert_maskformer_checkpoint(
args.model_name, args.checkpoint_path, args.pytorch_dump_folder_path, args.push_to_hub
)
| 61 | 1 |
"""simple docstring"""
#
# This a `torch.distributed` diagnostics script that checks that all GPUs in the cluster (one or
# many nodes) can talk to each other via nccl and allocate gpu memory.
#
# To run first adjust the number of processes and nodes:
#
# python -m torch.distributed.run --nproc_per_node 2 --nnodes 1 torch-distributed-gpu-test.py
#
# You may need to add --master_addr $MASTER_ADDR --master_port $MASTER_PORT if using a custom addr:port
#
# You can also use the rdzv API: --rdzv_endpoint $MASTER_ADDR:$MASTER_PORT --rdzv_backend c10d
#
# use torch.distributed.launch instead of torch.distributed.run for torch < 1.9
#
# If you get a hanging in `barrier` calls you have some network issues, you may try to debug this with:
#
# NCCL_DEBUG=INFO python -m torch.distributed.run --nproc_per_node 2 --nnodes 1 torch-distributed-gpu-test.py
#
# which should tell you what's going on behind the scenes.
#
#
# This script can be run via `srun` in the SLURM environment as well. Here is a SLURM script that
# runs on 2 nodes of 4 gpus per node:
#
# #SBATCH --job-name=test-nodes # name
# #SBATCH --nodes=2 # nodes
# #SBATCH --ntasks-per-node=1 # crucial - only 1 task per dist per node!
# #SBATCH --cpus-per-task=10 # number of cores per tasks
# #SBATCH --gres=gpu:4 # number of gpus
# #SBATCH --time 0:05:00 # maximum execution time (HH:MM:SS)
# #SBATCH --output=%x-%j.out # output file name
#
# GPUS_PER_NODE=4
# MASTER_ADDR=$(scontrol show hostnames $SLURM_JOB_NODELIST | head -n 1)
# MASTER_PORT=6000
#
# srun --jobid $SLURM_JOBID bash -c 'python -m torch.distributed.run \
# --nproc_per_node $GPUS_PER_NODE --nnodes $SLURM_NNODES --node_rank $SLURM_PROCID \
# --master_addr $MASTER_ADDR --master_port $MASTER_PORT \
# torch-distributed-gpu-test.py'
#
import fcntl
import os
import socket
import torch
import torch.distributed as dist
def __a ( *__lowerCamelCase ):
with open(__lowerCamelCase, "r" ) as fh:
fcntl.flock(__lowerCamelCase, fcntl.LOCK_EX )
try:
print(*__lowerCamelCase )
finally:
fcntl.flock(__lowerCamelCase, fcntl.LOCK_UN )
_a = int(os.environ['LOCAL_RANK'])
torch.cuda.set_device(local_rank)
_a = torch.device('cuda', local_rank)
_a = socket.gethostname()
_a = f"""[{hostname}-{local_rank}]"""
try:
# test distributed
dist.init_process_group('nccl')
dist.all_reduce(torch.ones(1).to(device), op=dist.ReduceOp.SUM)
dist.barrier()
# test cuda is available and can allocate memory
torch.cuda.is_available()
torch.ones(1).cuda(local_rank)
# global rank
_a = dist.get_rank()
_a = dist.get_world_size()
printflock(f"""{gpu} is OK (global rank: {rank}/{world_size})""")
dist.barrier()
if rank == 0:
printflock(f"""pt={torch.__version__}, cuda={torch.version.cuda}, nccl={torch.cuda.nccl.version()}""")
except Exception:
printflock(f"""{gpu} is broken""")
raise
| 61 |
"""simple docstring"""
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : List[str] = int(__lowerCamelCase )
if n_element < 1:
UpperCAmelCase_ : List[Any] = ValueError("a should be a positive number" )
raise my_error
UpperCAmelCase_ : List[Any] = [1]
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : Optional[int] = (0, 0, 0)
UpperCAmelCase_ : Dict = 1
while index < n_element:
while hamming_list[i] * 2 <= hamming_list[-1]:
i += 1
while hamming_list[j] * 3 <= hamming_list[-1]:
j += 1
while hamming_list[k] * 5 <= hamming_list[-1]:
k += 1
hamming_list.append(
min(hamming_list[i] * 2, hamming_list[j] * 3, hamming_list[k] * 5 ) )
index += 1
return hamming_list
if __name__ == "__main__":
_a = input('Enter the last number (nth term) of the Hamming Number Series: ')
print('Formula of Hamming Number Series => 2^i * 3^j * 5^k')
_a = hamming(int(n))
print('-----------------------------------------------------')
print(f"""The list with nth numbers is: {hamming_numbers}""")
print('-----------------------------------------------------')
| 61 | 1 |
"""simple docstring"""
from . import __version__
# Backward compatibility imports, to make sure all those objects can be found in file_utils
from .utils import (
CLOUDFRONT_DISTRIB_PREFIX,
CONFIG_NAME,
DISABLE_TELEMETRY,
DUMMY_INPUTS,
DUMMY_MASK,
ENV_VARS_TRUE_AND_AUTO_VALUES,
ENV_VARS_TRUE_VALUES,
FEATURE_EXTRACTOR_NAME,
FLAX_WEIGHTS_NAME,
HF_MODULES_CACHE,
HUGGINGFACE_CO_PREFIX,
HUGGINGFACE_CO_RESOLVE_ENDPOINT,
MODEL_CARD_NAME,
MULTIPLE_CHOICE_DUMMY_INPUTS,
PYTORCH_PRETRAINED_BERT_CACHE,
PYTORCH_TRANSFORMERS_CACHE,
S3_BUCKET_PREFIX,
SENTENCEPIECE_UNDERLINE,
SPIECE_UNDERLINE,
TF2_WEIGHTS_NAME,
TF_WEIGHTS_NAME,
TORCH_FX_REQUIRED_VERSION,
TRANSFORMERS_CACHE,
TRANSFORMERS_DYNAMIC_MODULE_NAME,
USE_JAX,
USE_TF,
USE_TORCH,
WEIGHTS_INDEX_NAME,
WEIGHTS_NAME,
ContextManagers,
DummyObject,
EntryNotFoundError,
ExplicitEnum,
ModelOutput,
PaddingStrategy,
PushToHubMixin,
RepositoryNotFoundError,
RevisionNotFoundError,
TensorType,
_LazyModule,
add_code_sample_docstrings,
add_end_docstrings,
add_start_docstrings,
add_start_docstrings_to_model_forward,
cached_property,
copy_func,
default_cache_path,
define_sagemaker_information,
get_cached_models,
get_file_from_repo,
get_full_repo_name,
get_torch_version,
has_file,
http_user_agent,
is_apex_available,
is_bsa_available,
is_coloredlogs_available,
is_datasets_available,
is_detectrona_available,
is_faiss_available,
is_flax_available,
is_ftfy_available,
is_in_notebook,
is_ipex_available,
is_librosa_available,
is_offline_mode,
is_onnx_available,
is_pandas_available,
is_phonemizer_available,
is_protobuf_available,
is_psutil_available,
is_pyanvml_available,
is_pyctcdecode_available,
is_pytesseract_available,
is_pytorch_quantization_available,
is_rjieba_available,
is_sagemaker_dp_enabled,
is_sagemaker_mp_enabled,
is_scipy_available,
is_sentencepiece_available,
is_seqio_available,
is_sklearn_available,
is_soundfile_availble,
is_spacy_available,
is_speech_available,
is_tensor,
is_tensorflow_probability_available,
is_tfaonnx_available,
is_tf_available,
is_timm_available,
is_tokenizers_available,
is_torch_available,
is_torch_bfaa_available,
is_torch_cuda_available,
is_torch_fx_available,
is_torch_fx_proxy,
is_torch_mps_available,
is_torch_tfaa_available,
is_torch_tpu_available,
is_torchaudio_available,
is_training_run_on_sagemaker,
is_vision_available,
replace_return_docstrings,
requires_backends,
to_numpy,
to_py_obj,
torch_only_method,
)
| 61 |
"""simple docstring"""
from math import cos, sin, sqrt, tau
from audio_filters.iir_filter import IIRFilter
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ) ):
UpperCAmelCase_ : int = tau * frequency / samplerate
UpperCAmelCase_ : List[str] = sin(__lowerCamelCase )
UpperCAmelCase_ : int = cos(__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = _sin / (2 * q_factor)
UpperCAmelCase_ : int = (1 - _cos) / 2
UpperCAmelCase_ : Optional[Any] = 1 - _cos
UpperCAmelCase_ : int = 1 + alpha
UpperCAmelCase_ : Dict = -2 * _cos
UpperCAmelCase_ : Tuple = 1 - alpha
UpperCAmelCase_ : Dict = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ) ):
UpperCAmelCase_ : Dict = tau * frequency / samplerate
UpperCAmelCase_ : Tuple = sin(__lowerCamelCase )
UpperCAmelCase_ : Any = cos(__lowerCamelCase )
UpperCAmelCase_ : List[str] = _sin / (2 * q_factor)
UpperCAmelCase_ : List[Any] = (1 + _cos) / 2
UpperCAmelCase_ : Optional[int] = -1 - _cos
UpperCAmelCase_ : Union[str, Any] = 1 + alpha
UpperCAmelCase_ : Optional[int] = -2 * _cos
UpperCAmelCase_ : Tuple = 1 - alpha
UpperCAmelCase_ : List[str] = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ) ):
UpperCAmelCase_ : Union[str, Any] = tau * frequency / samplerate
UpperCAmelCase_ : str = sin(__lowerCamelCase )
UpperCAmelCase_ : Tuple = cos(__lowerCamelCase )
UpperCAmelCase_ : List[Any] = _sin / (2 * q_factor)
UpperCAmelCase_ : Any = _sin / 2
UpperCAmelCase_ : Union[str, Any] = 0
UpperCAmelCase_ : Tuple = -ba
UpperCAmelCase_ : Optional[Any] = 1 + alpha
UpperCAmelCase_ : Dict = -2 * _cos
UpperCAmelCase_ : Optional[int] = 1 - alpha
UpperCAmelCase_ : List[str] = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ) ):
UpperCAmelCase_ : Any = tau * frequency / samplerate
UpperCAmelCase_ : Any = sin(__lowerCamelCase )
UpperCAmelCase_ : Optional[int] = cos(__lowerCamelCase )
UpperCAmelCase_ : str = _sin / (2 * q_factor)
UpperCAmelCase_ : List[str] = 1 - alpha
UpperCAmelCase_ : str = -2 * _cos
UpperCAmelCase_ : Any = 1 + alpha
UpperCAmelCase_ : Tuple = IIRFilter(2 )
filt.set_coefficients([ba, ba, ba], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ), ):
UpperCAmelCase_ : Dict = tau * frequency / samplerate
UpperCAmelCase_ : Union[str, Any] = sin(__lowerCamelCase )
UpperCAmelCase_ : int = cos(__lowerCamelCase )
UpperCAmelCase_ : Optional[int] = _sin / (2 * q_factor)
UpperCAmelCase_ : List[str] = 10 ** (gain_db / 40)
UpperCAmelCase_ : List[Any] = 1 + alpha * big_a
UpperCAmelCase_ : Tuple = -2 * _cos
UpperCAmelCase_ : Tuple = 1 - alpha * big_a
UpperCAmelCase_ : str = 1 + alpha / big_a
UpperCAmelCase_ : List[str] = -2 * _cos
UpperCAmelCase_ : List[str] = 1 - alpha / big_a
UpperCAmelCase_ : Tuple = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ), ):
UpperCAmelCase_ : str = tau * frequency / samplerate
UpperCAmelCase_ : int = sin(__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = cos(__lowerCamelCase )
UpperCAmelCase_ : Tuple = _sin / (2 * q_factor)
UpperCAmelCase_ : List[Any] = 10 ** (gain_db / 40)
UpperCAmelCase_ : Tuple = (big_a + 1) - (big_a - 1) * _cos
UpperCAmelCase_ : int = (big_a + 1) + (big_a - 1) * _cos
UpperCAmelCase_ : Optional[Any] = (big_a - 1) - (big_a + 1) * _cos
UpperCAmelCase_ : Optional[int] = (big_a - 1) + (big_a + 1) * _cos
UpperCAmelCase_ : Dict = 2 * sqrt(__lowerCamelCase ) * alpha
UpperCAmelCase_ : List[str] = big_a * (pmc + aaa)
UpperCAmelCase_ : int = 2 * big_a * mpc
UpperCAmelCase_ : int = big_a * (pmc - aaa)
UpperCAmelCase_ : Dict = ppmc + aaa
UpperCAmelCase_ : Any = -2 * pmpc
UpperCAmelCase_ : List[str] = ppmc - aaa
UpperCAmelCase_ : List[Any] = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ), ):
UpperCAmelCase_ : int = tau * frequency / samplerate
UpperCAmelCase_ : Optional[Any] = sin(__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = cos(__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = _sin / (2 * q_factor)
UpperCAmelCase_ : Tuple = 10 ** (gain_db / 40)
UpperCAmelCase_ : Tuple = (big_a + 1) - (big_a - 1) * _cos
UpperCAmelCase_ : Optional[Any] = (big_a + 1) + (big_a - 1) * _cos
UpperCAmelCase_ : List[Any] = (big_a - 1) - (big_a + 1) * _cos
UpperCAmelCase_ : Any = (big_a - 1) + (big_a + 1) * _cos
UpperCAmelCase_ : Dict = 2 * sqrt(__lowerCamelCase ) * alpha
UpperCAmelCase_ : Any = big_a * (ppmc + aaa)
UpperCAmelCase_ : Union[str, Any] = -2 * big_a * pmpc
UpperCAmelCase_ : Dict = big_a * (ppmc - aaa)
UpperCAmelCase_ : Optional[int] = pmc + aaa
UpperCAmelCase_ : Union[str, Any] = 2 * mpc
UpperCAmelCase_ : int = pmc - aaa
UpperCAmelCase_ : Union[str, Any] = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
| 61 | 1 |
"""simple docstring"""
import numpy as np
import torch
from torch.utils.data import Dataset
from utils import logger
class A_ (lowercase__ ):
'''simple docstring'''
def __init__( self , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = params
UpperCAmelCase_ : int = np.array(lowercase_ )
UpperCAmelCase_ : Union[str, Any] = np.array([len(lowercase_ ) for t in data] )
self.check()
self.remove_long_sequences()
self.remove_empty_sequences()
self.remove_unknown_sequences()
self.check()
self.print_statistics()
def __getitem__( self , lowercase_ ):
"""simple docstring"""
return (self.token_ids[index], self.lengths[index])
def __len__( self ):
"""simple docstring"""
return len(self.lengths )
def UpperCamelCase__ ( self ):
"""simple docstring"""
assert len(self.token_ids ) == len(self.lengths )
assert all(self.lengths[i] == len(self.token_ids[i] ) for i in range(len(self.lengths ) ) )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = self.params.max_model_input_size
UpperCAmelCase_ : str = self.lengths > max_len
logger.info(F"""Splitting {sum(lowercase_ )} too long sequences.""" )
def divide_chunks(lowercase_ , lowercase_ ):
return [l[i : i + n] for i in range(0 , len(lowercase_ ) , lowercase_ )]
UpperCAmelCase_ : Union[str, Any] = []
UpperCAmelCase_ : List[Any] = []
if self.params.mlm:
UpperCAmelCase_ , UpperCAmelCase_ : str = self.params.special_tok_ids["cls_token"], self.params.special_tok_ids["sep_token"]
else:
UpperCAmelCase_ , UpperCAmelCase_ : int = self.params.special_tok_ids["bos_token"], self.params.special_tok_ids["eos_token"]
for seq_, len_ in zip(self.token_ids , self.lengths ):
assert (seq_[0] == cls_id) and (seq_[-1] == sep_id), seq_
if len_ <= max_len:
new_tok_ids.append(seq_ )
new_lengths.append(len_ )
else:
UpperCAmelCase_ : Optional[int] = []
for sub_s in divide_chunks(seq_ , max_len - 2 ):
if sub_s[0] != cls_id:
UpperCAmelCase_ : str = np.insert(lowercase_ , 0 , lowercase_ )
if sub_s[-1] != sep_id:
UpperCAmelCase_ : List[str] = np.insert(lowercase_ , len(lowercase_ ) , lowercase_ )
assert len(lowercase_ ) <= max_len
assert (sub_s[0] == cls_id) and (sub_s[-1] == sep_id), sub_s
sub_seqs.append(lowercase_ )
new_tok_ids.extend(lowercase_ )
new_lengths.extend([len(lowercase_ ) for l in sub_seqs] )
UpperCAmelCase_ : List[str] = np.array(lowercase_ )
UpperCAmelCase_ : List[str] = np.array(lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = len(self )
UpperCAmelCase_ : Tuple = self.lengths > 11
UpperCAmelCase_ : Any = self.token_ids[indices]
UpperCAmelCase_ : List[Any] = self.lengths[indices]
UpperCAmelCase_ : List[Any] = len(self )
logger.info(F"""Remove {init_size - new_size} too short (<=11 tokens) sequences.""" )
def UpperCamelCase__ ( self ):
"""simple docstring"""
if "unk_token" not in self.params.special_tok_ids:
return
else:
UpperCAmelCase_ : List[str] = self.params.special_tok_ids["unk_token"]
UpperCAmelCase_ : Optional[Any] = len(self )
UpperCAmelCase_ : List[str] = np.array([np.count_nonzero(a == unk_token_id ) for a in self.token_ids] )
UpperCAmelCase_ : List[Any] = (unk_occs / self.lengths) < 0.5
UpperCAmelCase_ : Tuple = self.token_ids[indices]
UpperCAmelCase_ : str = self.lengths[indices]
UpperCAmelCase_ : int = len(self )
logger.info(F"""Remove {init_size - new_size} sequences with a high level of unknown tokens (50%).""" )
def UpperCamelCase__ ( self ):
"""simple docstring"""
if not self.params.is_master:
return
logger.info(F"""{len(self )} sequences""" )
# data_len = sum(self.lengths)
# nb_unique_tokens = len(Counter(list(chain(*self.token_ids))))
# logger.info(f'{data_len} tokens ({nb_unique_tokens} unique)')
# unk_idx = self.params.special_tok_ids['unk_token']
# nb_unknown = sum([(t==unk_idx).sum() for t in self.token_ids])
# logger.info(f'{nb_unknown} unknown tokens (covering {100*nb_unknown/data_len:.2f}% of the data)')
def UpperCamelCase__ ( self , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Optional[int] = [t[0] for t in batch]
UpperCAmelCase_ : Tuple = [t[1] for t in batch]
assert len(lowercase_ ) == len(lowercase_ )
# Max for paddings
UpperCAmelCase_ : int = max(lowercase_ )
# Pad token ids
if self.params.mlm:
UpperCAmelCase_ : Optional[Any] = self.params.special_tok_ids["pad_token"]
else:
UpperCAmelCase_ : int = self.params.special_tok_ids["unk_token"]
UpperCAmelCase_ : int = [list(t.astype(lowercase_ ) ) + [pad_idx] * (max_seq_len_ - len(lowercase_ )) for t in token_ids]
assert len(tk_ ) == len(lowercase_ )
assert all(len(lowercase_ ) == max_seq_len_ for t in tk_ )
UpperCAmelCase_ : List[Any] = torch.tensor(tk_ ) # (bs, max_seq_len_)
UpperCAmelCase_ : str = torch.tensor(lowercase_ ) # (bs)
return tk_t, lg_t
| 61 |
"""simple docstring"""
import argparse
import io
import requests
import torch
from omegaconf import OmegaConf
from diffusers import AutoencoderKL
from diffusers.pipelines.stable_diffusion.convert_from_ckpt import (
assign_to_checkpoint,
conv_attn_to_linear,
create_vae_diffusers_config,
renew_vae_attention_paths,
renew_vae_resnet_paths,
)
def __a ( __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : str = checkpoint
UpperCAmelCase_ : int = {}
UpperCAmelCase_ : Optional[int] = vae_state_dict["encoder.conv_in.weight"]
UpperCAmelCase_ : List[str] = vae_state_dict["encoder.conv_in.bias"]
UpperCAmelCase_ : Optional[Any] = vae_state_dict["encoder.conv_out.weight"]
UpperCAmelCase_ : Optional[int] = vae_state_dict["encoder.conv_out.bias"]
UpperCAmelCase_ : List[Any] = vae_state_dict["encoder.norm_out.weight"]
UpperCAmelCase_ : Union[str, Any] = vae_state_dict["encoder.norm_out.bias"]
UpperCAmelCase_ : Any = vae_state_dict["decoder.conv_in.weight"]
UpperCAmelCase_ : int = vae_state_dict["decoder.conv_in.bias"]
UpperCAmelCase_ : Any = vae_state_dict["decoder.conv_out.weight"]
UpperCAmelCase_ : Tuple = vae_state_dict["decoder.conv_out.bias"]
UpperCAmelCase_ : List[Any] = vae_state_dict["decoder.norm_out.weight"]
UpperCAmelCase_ : Tuple = vae_state_dict["decoder.norm_out.bias"]
UpperCAmelCase_ : str = vae_state_dict["quant_conv.weight"]
UpperCAmelCase_ : Optional[Any] = vae_state_dict["quant_conv.bias"]
UpperCAmelCase_ : List[str] = vae_state_dict["post_quant_conv.weight"]
UpperCAmelCase_ : List[Any] = vae_state_dict["post_quant_conv.bias"]
# Retrieves the keys for the encoder down blocks only
UpperCAmelCase_ : Optional[Any] = len({".".join(layer.split("." )[:3] ) for layer in vae_state_dict if "encoder.down" in layer} )
UpperCAmelCase_ : Optional[Any] = {
layer_id: [key for key in vae_state_dict if f"""down.{layer_id}""" in key] for layer_id in range(__lowerCamelCase )
}
# Retrieves the keys for the decoder up blocks only
UpperCAmelCase_ : Dict = len({".".join(layer.split("." )[:3] ) for layer in vae_state_dict if "decoder.up" in layer} )
UpperCAmelCase_ : Optional[int] = {
layer_id: [key for key in vae_state_dict if f"""up.{layer_id}""" in key] for layer_id in range(__lowerCamelCase )
}
for i in range(__lowerCamelCase ):
UpperCAmelCase_ : Any = [key for key in down_blocks[i] if f"""down.{i}""" in key and f"""down.{i}.downsample""" not in key]
if f"""encoder.down.{i}.downsample.conv.weight""" in vae_state_dict:
UpperCAmelCase_ : Dict = vae_state_dict.pop(
f"""encoder.down.{i}.downsample.conv.weight""" )
UpperCAmelCase_ : Dict = vae_state_dict.pop(
f"""encoder.down.{i}.downsample.conv.bias""" )
UpperCAmelCase_ : List[str] = renew_vae_resnet_paths(__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = {"old": f"""down.{i}.block""", "new": f"""down_blocks.{i}.resnets"""}
assign_to_checkpoint(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, additional_replacements=[meta_path], config=__lowerCamelCase )
UpperCAmelCase_ : List[Any] = [key for key in vae_state_dict if "encoder.mid.block" in key]
UpperCAmelCase_ : Tuple = 2
for i in range(1, num_mid_res_blocks + 1 ):
UpperCAmelCase_ : str = [key for key in mid_resnets if f"""encoder.mid.block_{i}""" in key]
UpperCAmelCase_ : List[Any] = renew_vae_resnet_paths(__lowerCamelCase )
UpperCAmelCase_ : Optional[int] = {"old": f"""mid.block_{i}""", "new": f"""mid_block.resnets.{i - 1}"""}
assign_to_checkpoint(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, additional_replacements=[meta_path], config=__lowerCamelCase )
UpperCAmelCase_ : Optional[int] = [key for key in vae_state_dict if "encoder.mid.attn" in key]
UpperCAmelCase_ : Union[str, Any] = renew_vae_attention_paths(__lowerCamelCase )
UpperCAmelCase_ : int = {"old": "mid.attn_1", "new": "mid_block.attentions.0"}
assign_to_checkpoint(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, additional_replacements=[meta_path], config=__lowerCamelCase )
conv_attn_to_linear(__lowerCamelCase )
for i in range(__lowerCamelCase ):
UpperCAmelCase_ : Optional[Any] = num_up_blocks - 1 - i
UpperCAmelCase_ : Any = [
key for key in up_blocks[block_id] if f"""up.{block_id}""" in key and f"""up.{block_id}.upsample""" not in key
]
if f"""decoder.up.{block_id}.upsample.conv.weight""" in vae_state_dict:
UpperCAmelCase_ : str = vae_state_dict[
f"""decoder.up.{block_id}.upsample.conv.weight"""
]
UpperCAmelCase_ : Optional[Any] = vae_state_dict[
f"""decoder.up.{block_id}.upsample.conv.bias"""
]
UpperCAmelCase_ : Dict = renew_vae_resnet_paths(__lowerCamelCase )
UpperCAmelCase_ : List[str] = {"old": f"""up.{block_id}.block""", "new": f"""up_blocks.{i}.resnets"""}
assign_to_checkpoint(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, additional_replacements=[meta_path], config=__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = [key for key in vae_state_dict if "decoder.mid.block" in key]
UpperCAmelCase_ : List[Any] = 2
for i in range(1, num_mid_res_blocks + 1 ):
UpperCAmelCase_ : str = [key for key in mid_resnets if f"""decoder.mid.block_{i}""" in key]
UpperCAmelCase_ : Tuple = renew_vae_resnet_paths(__lowerCamelCase )
UpperCAmelCase_ : Tuple = {"old": f"""mid.block_{i}""", "new": f"""mid_block.resnets.{i - 1}"""}
assign_to_checkpoint(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, additional_replacements=[meta_path], config=__lowerCamelCase )
UpperCAmelCase_ : Optional[int] = [key for key in vae_state_dict if "decoder.mid.attn" in key]
UpperCAmelCase_ : Any = renew_vae_attention_paths(__lowerCamelCase )
UpperCAmelCase_ : Union[str, Any] = {"old": "mid.attn_1", "new": "mid_block.attentions.0"}
assign_to_checkpoint(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, additional_replacements=[meta_path], config=__lowerCamelCase )
conv_attn_to_linear(__lowerCamelCase )
return new_checkpoint
def __a ( __lowerCamelCase, __lowerCamelCase, ):
# Only support V1
UpperCAmelCase_ : List[str] = requests.get(
" https://raw.githubusercontent.com/CompVis/stable-diffusion/main/configs/stable-diffusion/v1-inference.yaml" )
UpperCAmelCase_ : List[Any] = io.BytesIO(r.content )
UpperCAmelCase_ : Any = OmegaConf.load(__lowerCamelCase )
UpperCAmelCase_ : Union[str, Any] = 512
UpperCAmelCase_ : Optional[Any] = "cuda" if torch.cuda.is_available() else "cpu"
if checkpoint_path.endswith("safetensors" ):
from safetensors import safe_open
UpperCAmelCase_ : int = {}
with safe_open(__lowerCamelCase, framework="pt", device="cpu" ) as f:
for key in f.keys():
UpperCAmelCase_ : Tuple = f.get_tensor(__lowerCamelCase )
else:
UpperCAmelCase_ : Any = torch.load(__lowerCamelCase, map_location=__lowerCamelCase )["state_dict"]
# Convert the VAE model.
UpperCAmelCase_ : Dict = create_vae_diffusers_config(__lowerCamelCase, image_size=__lowerCamelCase )
UpperCAmelCase_ : Union[str, Any] = custom_convert_ldm_vae_checkpoint(__lowerCamelCase, __lowerCamelCase )
UpperCAmelCase_ : int = AutoencoderKL(**__lowerCamelCase )
vae.load_state_dict(__lowerCamelCase )
vae.save_pretrained(__lowerCamelCase )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
parser.add_argument('--vae_pt_path', default=None, type=str, required=True, help='Path to the VAE.pt to convert.')
parser.add_argument('--dump_path', default=None, type=str, required=True, help='Path to the VAE.pt to convert.')
_a = parser.parse_args()
vae_pt_to_vae_diffuser(args.vae_pt_path, args.dump_path)
| 61 | 1 |
"""simple docstring"""
from ...configuration_utils import PretrainedConfig
from ...utils import logging
_a = logging.get_logger(__name__)
_a = {
'microsoft/cvt-13': 'https://huggingface.co/microsoft/cvt-13/resolve/main/config.json',
# See all Cvt models at https://huggingface.co/models?filter=cvt
}
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : int = """cvt"""
def __init__( self , lowercase_=3 , lowercase_=[7, 3, 3] , lowercase_=[4, 2, 2] , lowercase_=[2, 1, 1] , lowercase_=[64, 192, 384] , lowercase_=[1, 3, 6] , lowercase_=[1, 2, 10] , lowercase_=[4.0, 4.0, 4.0] , lowercase_=[0.0, 0.0, 0.0] , lowercase_=[0.0, 0.0, 0.0] , lowercase_=[0.0, 0.0, 0.1] , lowercase_=[True, True, True] , lowercase_=[False, False, True] , lowercase_=["dw_bn", "dw_bn", "dw_bn"] , lowercase_=[3, 3, 3] , lowercase_=[1, 1, 1] , lowercase_=[2, 2, 2] , lowercase_=[1, 1, 1] , lowercase_=[1, 1, 1] , lowercase_=0.02 , lowercase_=1E-1_2 , **lowercase_ , ):
"""simple docstring"""
super().__init__(**lowercase_ )
UpperCAmelCase_ : Tuple = num_channels
UpperCAmelCase_ : int = patch_sizes
UpperCAmelCase_ : Dict = patch_stride
UpperCAmelCase_ : Union[str, Any] = patch_padding
UpperCAmelCase_ : Optional[int] = embed_dim
UpperCAmelCase_ : Tuple = num_heads
UpperCAmelCase_ : Tuple = depth
UpperCAmelCase_ : Optional[Any] = mlp_ratio
UpperCAmelCase_ : List[Any] = attention_drop_rate
UpperCAmelCase_ : str = drop_rate
UpperCAmelCase_ : Any = drop_path_rate
UpperCAmelCase_ : Union[str, Any] = qkv_bias
UpperCAmelCase_ : Union[str, Any] = cls_token
UpperCAmelCase_ : Any = qkv_projection_method
UpperCAmelCase_ : Optional[Any] = kernel_qkv
UpperCAmelCase_ : int = padding_kv
UpperCAmelCase_ : List[Any] = stride_kv
UpperCAmelCase_ : Tuple = padding_q
UpperCAmelCase_ : int = stride_q
UpperCAmelCase_ : Any = initializer_range
UpperCAmelCase_ : Union[str, Any] = layer_norm_eps
| 61 |
"""simple docstring"""
import unittest
import numpy as np
import timeout_decorator # noqa
from transformers import BlenderbotSmallConfig, is_flax_available
from transformers.testing_utils import require_flax, slow
from ...generation.test_flax_utils import FlaxGenerationTesterMixin
from ...test_modeling_flax_common import FlaxModelTesterMixin, ids_tensor
if is_flax_available():
import os
# The slow tests are often failing with OOM error on GPU
# This makes JAX allocate exactly what is needed on demand, and deallocate memory that is no longer needed
# but will be slower as stated here https://jax.readthedocs.io/en/latest/gpu_memory_allocation.html
_a = 'platform'
import jax
import jax.numpy as jnp
from transformers.models.blenderbot_small.modeling_flax_blenderbot_small import (
FlaxBlenderbotSmallForConditionalGeneration,
FlaxBlenderbotSmallModel,
shift_tokens_right,
)
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase=None, __lowerCamelCase=None, __lowerCamelCase=None, __lowerCamelCase=None, __lowerCamelCase=None, __lowerCamelCase=None, ):
if attention_mask is None:
UpperCAmelCase_ : Union[str, Any] = np.where(input_ids != config.pad_token_id, 1, 0 )
if decoder_attention_mask is None:
UpperCAmelCase_ : Optional[int] = np.where(decoder_input_ids != config.pad_token_id, 1, 0 )
if head_mask is None:
UpperCAmelCase_ : int = np.ones((config.encoder_layers, config.encoder_attention_heads) )
if decoder_head_mask is None:
UpperCAmelCase_ : Union[str, Any] = np.ones((config.decoder_layers, config.decoder_attention_heads) )
if cross_attn_head_mask is None:
UpperCAmelCase_ : List[Any] = np.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": attention_mask,
}
class A_ :
'''simple docstring'''
def __init__( self , lowercase_ , lowercase_=13 , lowercase_=7 , lowercase_=True , lowercase_=False , lowercase_=99 , lowercase_=16 , lowercase_=2 , lowercase_=4 , lowercase_=4 , lowercase_="gelu" , lowercase_=0.1 , lowercase_=0.1 , lowercase_=32 , lowercase_=2 , lowercase_=1 , lowercase_=0 , lowercase_=0.02 , ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = parent
UpperCAmelCase_ : Tuple = batch_size
UpperCAmelCase_ : str = seq_length
UpperCAmelCase_ : Dict = is_training
UpperCAmelCase_ : List[Any] = use_labels
UpperCAmelCase_ : Optional[int] = vocab_size
UpperCAmelCase_ : int = hidden_size
UpperCAmelCase_ : Optional[Any] = num_hidden_layers
UpperCAmelCase_ : Dict = num_attention_heads
UpperCAmelCase_ : List[str] = intermediate_size
UpperCAmelCase_ : Optional[int] = hidden_act
UpperCAmelCase_ : str = hidden_dropout_prob
UpperCAmelCase_ : int = attention_probs_dropout_prob
UpperCAmelCase_ : Optional[Any] = max_position_embeddings
UpperCAmelCase_ : str = eos_token_id
UpperCAmelCase_ : str = pad_token_id
UpperCAmelCase_ : str = bos_token_id
UpperCAmelCase_ : List[Any] = initializer_range
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = np.clip(ids_tensor([self.batch_size, self.seq_length - 1] , self.vocab_size ) , 3 , self.vocab_size )
UpperCAmelCase_ : Any = np.concatenate((input_ids, 2 * np.ones((self.batch_size, 1) , dtype=np.intaa )) , -1 )
UpperCAmelCase_ : str = shift_tokens_right(lowercase_ , 1 , 2 )
UpperCAmelCase_ : str = BlenderbotSmallConfig(
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_id=self.eos_token_id , bos_token_id=self.bos_token_id , pad_token_id=self.pad_token_id , initializer_range=self.initializer_range , use_cache=lowercase_ , )
UpperCAmelCase_ : Optional[int] = prepare_blenderbot_inputs_dict(lowercase_ , lowercase_ , lowercase_ )
return config, inputs_dict
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Optional[int] = self.prepare_config_and_inputs()
return config, inputs_dict
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = 20
UpperCAmelCase_ : int = model_class_name(lowercase_ )
UpperCAmelCase_ : Optional[int] = model.encode(inputs_dict["input_ids"] )
UpperCAmelCase_ , UpperCAmelCase_ : Any = (
inputs_dict["decoder_input_ids"],
inputs_dict["decoder_attention_mask"],
)
UpperCAmelCase_ : Any = model.init_cache(decoder_input_ids.shape[0] , lowercase_ , lowercase_ )
UpperCAmelCase_ : Tuple = jnp.ones((decoder_input_ids.shape[0], max_decoder_length) , dtype="i4" )
UpperCAmelCase_ : Union[str, Any] = jnp.broadcast_to(
jnp.arange(decoder_input_ids.shape[-1] - 1 )[None, :] , (decoder_input_ids.shape[0], decoder_input_ids.shape[-1] - 1) , )
UpperCAmelCase_ : int = model.decode(
decoder_input_ids[:, :-1] , lowercase_ , decoder_attention_mask=lowercase_ , past_key_values=lowercase_ , decoder_position_ids=lowercase_ , )
UpperCAmelCase_ : int = jnp.array(decoder_input_ids.shape[0] * [[decoder_input_ids.shape[-1] - 1]] , dtype="i4" )
UpperCAmelCase_ : Dict = model.decode(
decoder_input_ids[:, -1:] , lowercase_ , decoder_attention_mask=lowercase_ , past_key_values=outputs_cache.past_key_values , decoder_position_ids=lowercase_ , )
UpperCAmelCase_ : Optional[Any] = model.decode(lowercase_ , lowercase_ )
UpperCAmelCase_ : Tuple = np.max(np.abs((outputs_cache_next[0][:, -1, :5] - outputs[0][:, -1, :5]) ) )
self.parent.assertTrue(diff < 1E-3 , msg=F"""Max diff is {diff}""" )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = 20
UpperCAmelCase_ : Any = model_class_name(lowercase_ )
UpperCAmelCase_ : Tuple = model.encode(inputs_dict["input_ids"] )
UpperCAmelCase_ , UpperCAmelCase_ : List[Any] = (
inputs_dict["decoder_input_ids"],
inputs_dict["decoder_attention_mask"],
)
UpperCAmelCase_ : Optional[Any] = jnp.concatenate(
[
decoder_attention_mask,
jnp.zeros((decoder_attention_mask.shape[0], max_decoder_length - decoder_attention_mask.shape[1]) ),
] , axis=-1 , )
UpperCAmelCase_ : int = model.init_cache(decoder_input_ids.shape[0] , lowercase_ , lowercase_ )
UpperCAmelCase_ : List[str] = jnp.broadcast_to(
jnp.arange(decoder_input_ids.shape[-1] - 1 )[None, :] , (decoder_input_ids.shape[0], decoder_input_ids.shape[-1] - 1) , )
UpperCAmelCase_ : List[str] = model.decode(
decoder_input_ids[:, :-1] , lowercase_ , decoder_attention_mask=lowercase_ , past_key_values=lowercase_ , decoder_position_ids=lowercase_ , )
UpperCAmelCase_ : Any = jnp.array(decoder_input_ids.shape[0] * [[decoder_input_ids.shape[-1] - 1]] , dtype="i4" )
UpperCAmelCase_ : Dict = model.decode(
decoder_input_ids[:, -1:] , lowercase_ , past_key_values=outputs_cache.past_key_values , decoder_attention_mask=lowercase_ , decoder_position_ids=lowercase_ , )
UpperCAmelCase_ : Dict = model.decode(lowercase_ , lowercase_ , decoder_attention_mask=lowercase_ )
UpperCAmelCase_ : Optional[Any] = np.max(np.abs((outputs_cache_next[0][:, -1, :5] - outputs[0][:, -1, :5]) ) )
self.parent.assertTrue(diff < 1E-3 , msg=F"""Max diff is {diff}""" )
@require_flax
class A_ (unittest.TestCase ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Tuple = 99
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = np.array(
[
[71, 82, 18, 33, 46, 91, 2],
[68, 34, 26, 58, 30, 82, 2],
[5, 97, 17, 39, 94, 40, 2],
[76, 83, 94, 25, 70, 78, 2],
[87, 59, 41, 35, 48, 66, 2],
[55, 13, 16, 58, 5, 2, 1], # note padding
[64, 27, 31, 51, 12, 75, 2],
[52, 64, 86, 17, 83, 39, 2],
[48, 61, 9, 24, 71, 82, 2],
[26, 1, 60, 48, 22, 13, 2],
[21, 5, 62, 28, 14, 76, 2],
[45, 98, 37, 86, 59, 48, 2],
[70, 70, 50, 9, 28, 0, 2],
] , dtype=np.intaa , )
UpperCAmelCase_ : Any = input_ids.shape[0]
UpperCAmelCase_ : Dict = BlenderbotSmallConfig(
vocab_size=self.vocab_size , d_model=24 , encoder_layers=2 , decoder_layers=2 , encoder_attention_heads=2 , decoder_attention_heads=2 , encoder_ffn_dim=32 , decoder_ffn_dim=32 , max_position_embeddings=48 , eos_token_id=2 , pad_token_id=1 , bos_token_id=0 , )
return config, input_ids, batch_size
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : Tuple = self._get_config_and_data()
UpperCAmelCase_ : List[str] = FlaxBlenderbotSmallForConditionalGeneration(lowercase_ )
UpperCAmelCase_ : Optional[int] = lm_model(input_ids=lowercase_ )
UpperCAmelCase_ : Optional[int] = (batch_size, input_ids.shape[1], config.vocab_size)
self.assertEqual(outputs["logits"].shape , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = BlenderbotSmallConfig(
vocab_size=self.vocab_size , d_model=14 , encoder_layers=2 , decoder_layers=2 , encoder_attention_heads=2 , decoder_attention_heads=2 , encoder_ffn_dim=8 , decoder_ffn_dim=8 , max_position_embeddings=48 , )
UpperCAmelCase_ : Optional[int] = FlaxBlenderbotSmallForConditionalGeneration(lowercase_ )
UpperCAmelCase_ : str = np.array([[71, 82, 18, 33, 46, 91, 2], [68, 34, 26, 58, 30, 2, 1]] , dtype=np.intaa )
UpperCAmelCase_ : str = np.array([[82, 71, 82, 18, 2], [58, 68, 2, 1, 1]] , dtype=np.intaa )
UpperCAmelCase_ : Tuple = lm_model(input_ids=lowercase_ , decoder_input_ids=lowercase_ )
UpperCAmelCase_ : Tuple = (*summary.shape, config.vocab_size)
self.assertEqual(outputs["logits"].shape , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[Any] = np.array([[71, 82, 18, 33, 2, 1, 1], [68, 34, 26, 58, 30, 82, 2]] , dtype=np.intaa )
UpperCAmelCase_ : Dict = shift_tokens_right(lowercase_ , 1 , 2 )
UpperCAmelCase_ : Tuple = np.equal(lowercase_ , 1 ).astype(np.floataa ).sum()
UpperCAmelCase_ : Optional[Any] = np.equal(lowercase_ , 1 ).astype(np.floataa ).sum()
self.assertEqual(shifted.shape , input_ids.shape )
self.assertEqual(lowercase_ , n_pad_before - 1 )
self.assertTrue(np.equal(shifted[:, 0] , 2 ).all() )
@require_flax
class A_ (lowercase__ ,unittest.TestCase ,lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : str = True
SCREAMING_SNAKE_CASE__ : Union[str, Any] = (
(
FlaxBlenderbotSmallModel,
FlaxBlenderbotSmallForConditionalGeneration,
)
if is_flax_available()
else ()
)
SCREAMING_SNAKE_CASE__ : List[Any] = (FlaxBlenderbotSmallForConditionalGeneration,) if is_flax_available() else ()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Dict = FlaxBlenderbotSmallModelTester(self )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Tuple = self.model_tester.prepare_config_and_inputs()
for model_class in self.all_model_classes:
self.model_tester.check_use_cache_forward(lowercase_ , lowercase_ , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Optional[Any] = self.model_tester.prepare_config_and_inputs()
for model_class in self.all_model_classes:
self.model_tester.check_use_cache_forward_with_attn_mask(lowercase_ , lowercase_ , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Any = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
with self.subTest(model_class.__name__ ):
UpperCAmelCase_ : List[Any] = self._prepare_for_class(lowercase_ , lowercase_ )
UpperCAmelCase_ : Dict = model_class(lowercase_ )
@jax.jit
def encode_jitted(lowercase_ , lowercase_=None , **lowercase_ ):
return model.encode(input_ids=lowercase_ , attention_mask=lowercase_ )
with self.subTest("JIT Enabled" ):
UpperCAmelCase_ : List[Any] = encode_jitted(**lowercase_ ).to_tuple()
with self.subTest("JIT Disabled" ):
with jax.disable_jit():
UpperCAmelCase_ : Optional[Any] = encode_jitted(**lowercase_ ).to_tuple()
self.assertEqual(len(lowercase_ ) , len(lowercase_ ) )
for jitted_output, output in zip(lowercase_ , lowercase_ ):
self.assertEqual(jitted_output.shape , output.shape )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
with self.subTest(model_class.__name__ ):
UpperCAmelCase_ : Optional[int] = model_class(lowercase_ )
UpperCAmelCase_ : Tuple = model.encode(inputs_dict["input_ids"] , inputs_dict["attention_mask"] )
UpperCAmelCase_ : int = {
"decoder_input_ids": inputs_dict["decoder_input_ids"],
"decoder_attention_mask": inputs_dict["decoder_attention_mask"],
"encoder_outputs": encoder_outputs,
}
@jax.jit
def decode_jitted(lowercase_ , lowercase_ , lowercase_ ):
return model.decode(
decoder_input_ids=lowercase_ , decoder_attention_mask=lowercase_ , encoder_outputs=lowercase_ , )
with self.subTest("JIT Enabled" ):
UpperCAmelCase_ : str = decode_jitted(**lowercase_ ).to_tuple()
with self.subTest("JIT Disabled" ):
with jax.disable_jit():
UpperCAmelCase_ : List[Any] = decode_jitted(**lowercase_ ).to_tuple()
self.assertEqual(len(lowercase_ ) , len(lowercase_ ) )
for jitted_output, output in zip(lowercase_ , lowercase_ ):
self.assertEqual(jitted_output.shape , output.shape )
@slow
def UpperCamelCase__ ( self ):
"""simple docstring"""
for model_class_name in self.all_model_classes:
UpperCAmelCase_ : Optional[Any] = model_class_name.from_pretrained("facebook/blenderbot_small-90M" )
# FlaxBlenderbotForSequenceClassification expects eos token in input_ids
UpperCAmelCase_ : List[str] = np.ones((1, 1) ) * model.config.eos_token_id
UpperCAmelCase_ : Optional[int] = model(lowercase_ )
self.assertIsNotNone(lowercase_ )
| 61 | 1 |
"""simple docstring"""
import logging
import os
from dataclasses import dataclass, field
from typing import Dict, Optional
import numpy as np
from utils_multiple_choice import MultipleChoiceDataset, Split, processors
import transformers
from transformers import (
AutoConfig,
AutoModelForMultipleChoice,
AutoTokenizer,
DataCollatorWithPadding,
EvalPrediction,
HfArgumentParser,
Trainer,
TrainingArguments,
set_seed,
)
from transformers.trainer_utils import is_main_process
_a = logging.getLogger(__name__)
def __a ( __lowerCamelCase, __lowerCamelCase ):
return (preds == labels).mean()
@dataclass
class A_ :
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : str = field(
metadata={"""help""": """Path to pretrained model or model identifier from huggingface.co/models"""} )
SCREAMING_SNAKE_CASE__ : Optional[str] = field(
default=lowercase__ ,metadata={"""help""": """Pretrained config name or path if not the same as model_name"""} )
SCREAMING_SNAKE_CASE__ : Optional[str] = field(
default=lowercase__ ,metadata={"""help""": """Pretrained tokenizer name or path if not the same as model_name"""} )
SCREAMING_SNAKE_CASE__ : Optional[str] = field(
default=lowercase__ ,metadata={"""help""": """Where do you want to store the pretrained models downloaded from huggingface.co"""} ,)
@dataclass
class A_ :
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : str = field(metadata={"""help""": """The name of the task to train on: """ + """, """.join(processors.keys() )} )
SCREAMING_SNAKE_CASE__ : str = field(metadata={"""help""": """Should contain the data files for the task."""} )
SCREAMING_SNAKE_CASE__ : int = field(
default=128 ,metadata={
"""help""": (
"""The maximum total input sequence length after tokenization. Sequences longer """
"""than this will be truncated, sequences shorter will be padded."""
)
} ,)
SCREAMING_SNAKE_CASE__ : bool = field(
default=lowercase__ ,metadata={"""help""": """Overwrite the cached training and evaluation sets"""} )
def __a ( ):
# 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.
UpperCAmelCase_ : int = HfArgumentParser((ModelArguments, DataTrainingArguments, TrainingArguments) )
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : str = parser.parse_args_into_dataclasses()
if (
os.path.exists(training_args.output_dir )
and os.listdir(training_args.output_dir )
and training_args.do_train
and not training_args.overwrite_output_dir
):
raise ValueError(
f"""Output directory ({training_args.output_dir}) already exists and is not empty. Use"""
" --overwrite_output_dir to overcome." )
# Setup logging
logging.basicConfig(
format="%(asctime)s - %(levelname)s - %(name)s - %(message)s", datefmt="%m/%d/%Y %H:%M:%S", level=logging.INFO if training_args.local_rank in [-1, 0] else logging.WARN, )
logger.warning(
"Process rank: %s, device: %s, n_gpu: %s, distributed training: %s, 16-bits training: %s", training_args.local_rank, training_args.device, training_args.n_gpu, bool(training_args.local_rank != -1 ), training_args.fpaa, )
# Set the verbosity to info of the Transformers logger (on main process only):
if is_main_process(training_args.local_rank ):
transformers.utils.logging.set_verbosity_info()
transformers.utils.logging.enable_default_handler()
transformers.utils.logging.enable_explicit_format()
logger.info("Training/evaluation parameters %s", __lowerCamelCase )
# Set seed
set_seed(training_args.seed )
try:
UpperCAmelCase_ : Optional[int] = processors[data_args.task_name]()
UpperCAmelCase_ : str = processor.get_labels()
UpperCAmelCase_ : str = len(__lowerCamelCase )
except KeyError:
raise ValueError("Task not found: %s" % (data_args.task_name) )
# Load pretrained model and tokenizer
#
# Distributed training:
# The .from_pretrained methods guarantee that only one local process can concurrently
# download model & vocab.
UpperCAmelCase_ : Optional[int] = AutoConfig.from_pretrained(
model_args.config_name if model_args.config_name else model_args.model_name_or_path, num_labels=__lowerCamelCase, finetuning_task=data_args.task_name, cache_dir=model_args.cache_dir, )
UpperCAmelCase_ : List[str] = AutoTokenizer.from_pretrained(
model_args.tokenizer_name if model_args.tokenizer_name else model_args.model_name_or_path, cache_dir=model_args.cache_dir, )
UpperCAmelCase_ : Optional[int] = AutoModelForMultipleChoice.from_pretrained(
model_args.model_name_or_path, from_tf=bool(".ckpt" in model_args.model_name_or_path ), config=__lowerCamelCase, cache_dir=model_args.cache_dir, )
# Get datasets
UpperCAmelCase_ : Dict = (
MultipleChoiceDataset(
data_dir=data_args.data_dir, tokenizer=__lowerCamelCase, task=data_args.task_name, max_seq_length=data_args.max_seq_length, overwrite_cache=data_args.overwrite_cache, mode=Split.train, )
if training_args.do_train
else None
)
UpperCAmelCase_ : List[str] = (
MultipleChoiceDataset(
data_dir=data_args.data_dir, tokenizer=__lowerCamelCase, task=data_args.task_name, max_seq_length=data_args.max_seq_length, overwrite_cache=data_args.overwrite_cache, mode=Split.dev, )
if training_args.do_eval
else None
)
def compute_metrics(__lowerCamelCase ) -> Dict:
UpperCAmelCase_ : int = np.argmax(p.predictions, axis=1 )
return {"acc": simple_accuracy(__lowerCamelCase, p.label_ids )}
# Data collator
UpperCAmelCase_ : List[Any] = DataCollatorWithPadding(__lowerCamelCase, pad_to_multiple_of=8 ) if training_args.fpaa else None
# Initialize our Trainer
UpperCAmelCase_ : Any = Trainer(
model=__lowerCamelCase, args=__lowerCamelCase, train_dataset=__lowerCamelCase, eval_dataset=__lowerCamelCase, compute_metrics=__lowerCamelCase, data_collator=__lowerCamelCase, )
# Training
if training_args.do_train:
trainer.train(
model_path=model_args.model_name_or_path if os.path.isdir(model_args.model_name_or_path ) else None )
trainer.save_model()
# For convenience, we also re-save the tokenizer to the same directory,
# so that you can share your model easily on huggingface.co/models =)
if trainer.is_world_master():
tokenizer.save_pretrained(training_args.output_dir )
# Evaluation
UpperCAmelCase_ : Tuple = {}
if training_args.do_eval:
logger.info("*** Evaluate ***" )
UpperCAmelCase_ : List[Any] = trainer.evaluate()
UpperCAmelCase_ : int = os.path.join(training_args.output_dir, "eval_results.txt" )
if trainer.is_world_master():
with open(__lowerCamelCase, "w" ) as writer:
logger.info("***** Eval results *****" )
for key, value in result.items():
logger.info(" %s = %s", __lowerCamelCase, __lowerCamelCase )
writer.write("%s = %s\n" % (key, value) )
results.update(__lowerCamelCase )
return results
def __a ( __lowerCamelCase ):
# For xla_spawn (TPUs)
main()
if __name__ == "__main__":
main()
| 61 |
"""simple docstring"""
import inspect
import unittest
import warnings
from transformers import DeiTConfig
from transformers.models.auto import get_values
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 (
MODEL_FOR_IMAGE_CLASSIFICATION_MAPPING,
MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING,
MODEL_MAPPING,
DeiTForImageClassification,
DeiTForImageClassificationWithTeacher,
DeiTForMaskedImageModeling,
DeiTModel,
)
from transformers.models.deit.modeling_deit import DEIT_PRETRAINED_MODEL_ARCHIVE_LIST
if is_vision_available():
from PIL import Image
from transformers import DeiTImageProcessor
class A_ :
'''simple docstring'''
def __init__( self , lowercase_ , lowercase_=13 , lowercase_=30 , lowercase_=2 , lowercase_=3 , lowercase_=True , lowercase_=True , lowercase_=32 , lowercase_=5 , lowercase_=4 , lowercase_=37 , lowercase_="gelu" , lowercase_=0.1 , lowercase_=0.1 , lowercase_=10 , lowercase_=0.02 , lowercase_=3 , lowercase_=None , lowercase_=2 , ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = parent
UpperCAmelCase_ : int = batch_size
UpperCAmelCase_ : int = image_size
UpperCAmelCase_ : List[Any] = patch_size
UpperCAmelCase_ : Any = num_channels
UpperCAmelCase_ : Optional[int] = is_training
UpperCAmelCase_ : Union[str, Any] = use_labels
UpperCAmelCase_ : Union[str, Any] = hidden_size
UpperCAmelCase_ : str = num_hidden_layers
UpperCAmelCase_ : List[str] = num_attention_heads
UpperCAmelCase_ : str = intermediate_size
UpperCAmelCase_ : str = hidden_act
UpperCAmelCase_ : List[Any] = hidden_dropout_prob
UpperCAmelCase_ : Union[str, Any] = attention_probs_dropout_prob
UpperCAmelCase_ : str = type_sequence_label_size
UpperCAmelCase_ : str = initializer_range
UpperCAmelCase_ : Union[str, Any] = scope
UpperCAmelCase_ : str = encoder_stride
# in DeiT, the seq length equals the number of patches + 2 (we add 2 for the [CLS] and distilation tokens)
UpperCAmelCase_ : int = (image_size // patch_size) ** 2
UpperCAmelCase_ : Optional[Any] = num_patches + 2
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Any = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] )
UpperCAmelCase_ : Tuple = None
if self.use_labels:
UpperCAmelCase_ : Any = ids_tensor([self.batch_size] , self.type_sequence_label_size )
UpperCAmelCase_ : Union[str, Any] = self.get_config()
return config, pixel_values, labels
def UpperCamelCase__ ( self ):
"""simple docstring"""
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=lowercase_ , initializer_range=self.initializer_range , encoder_stride=self.encoder_stride , )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Optional[int] = DeiTModel(config=lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : List[Any] = model(lowercase_ )
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Optional[int] = DeiTForMaskedImageModeling(config=lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : List[Any] = model(lowercase_ )
self.parent.assertEqual(
result.reconstruction.shape , (self.batch_size, self.num_channels, self.image_size, self.image_size) )
# test greyscale images
UpperCAmelCase_ : List[str] = 1
UpperCAmelCase_ : Optional[Any] = DeiTForMaskedImageModeling(lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : Dict = floats_tensor([self.batch_size, 1, self.image_size, self.image_size] )
UpperCAmelCase_ : Optional[int] = model(lowercase_ )
self.parent.assertEqual(result.reconstruction.shape , (self.batch_size, 1, self.image_size, self.image_size) )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = self.type_sequence_label_size
UpperCAmelCase_ : Union[str, Any] = DeiTForImageClassification(lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : List[str] = model(lowercase_ , labels=lowercase_ )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size) )
# test greyscale images
UpperCAmelCase_ : Union[str, Any] = 1
UpperCAmelCase_ : Optional[int] = DeiTForImageClassification(lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : Dict = floats_tensor([self.batch_size, 1, self.image_size, self.image_size] )
UpperCAmelCase_ : List[Any] = model(lowercase_ , labels=lowercase_ )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size) )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = self.prepare_config_and_inputs()
(
(
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) ,
) : Dict = config_and_inputs
UpperCAmelCase_ : Optional[int] = {"pixel_values": pixel_values}
return config, inputs_dict
@require_torch
class A_ (lowercase__ ,lowercase__ ,unittest.TestCase ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Any = (
(
DeiTModel,
DeiTForImageClassification,
DeiTForImageClassificationWithTeacher,
DeiTForMaskedImageModeling,
)
if is_torch_available()
else ()
)
SCREAMING_SNAKE_CASE__ : Tuple = (
{
"""feature-extraction""": DeiTModel,
"""image-classification""": (DeiTForImageClassification, DeiTForImageClassificationWithTeacher),
}
if is_torch_available()
else {}
)
SCREAMING_SNAKE_CASE__ : List[Any] = False
SCREAMING_SNAKE_CASE__ : Optional[Any] = False
SCREAMING_SNAKE_CASE__ : List[str] = False
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Any = DeiTModelTester(self )
UpperCAmelCase_ : Optional[int] = ConfigTester(self , config_class=lowercase_ , has_text_modality=lowercase_ , hidden_size=37 )
def UpperCamelCase__ ( self ):
"""simple docstring"""
self.config_tester.run_common_tests()
@unittest.skip(reason="DeiT does not use inputs_embeds" )
def UpperCamelCase__ ( self ):
"""simple docstring"""
pass
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Any = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
UpperCAmelCase_ : List[Any] = model_class(lowercase_ )
self.assertIsInstance(model.get_input_embeddings() , (nn.Module) )
UpperCAmelCase_ : Any = model.get_output_embeddings()
self.assertTrue(x is None or isinstance(lowercase_ , nn.Linear ) )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Dict = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
UpperCAmelCase_ : Dict = model_class(lowercase_ )
UpperCAmelCase_ : Optional[Any] = inspect.signature(model.forward )
# signature.parameters is an OrderedDict => so arg_names order is deterministic
UpperCAmelCase_ : str = [*signature.parameters.keys()]
UpperCAmelCase_ : Optional[int] = ["pixel_values"]
self.assertListEqual(arg_names[:1] , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : int = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Dict = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_masked_image_modeling(*lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[int] = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_image_classification(*lowercase_ )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_=False ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = super()._prepare_for_class(lowercase_ , lowercase_ , return_labels=lowercase_ )
if return_labels:
if model_class.__name__ == "DeiTForImageClassificationWithTeacher":
del inputs_dict["labels"]
return inputs_dict
def UpperCamelCase__ ( self ):
"""simple docstring"""
if not self.model_tester.is_training:
return
UpperCAmelCase_ , UpperCAmelCase_ : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common()
UpperCAmelCase_ : Union[str, Any] = True
for model_class in self.all_model_classes:
# DeiTForImageClassificationWithTeacher supports inference-only
if (
model_class in get_values(lowercase_ )
or model_class.__name__ == "DeiTForImageClassificationWithTeacher"
):
continue
UpperCAmelCase_ : Optional[int] = model_class(lowercase_ )
model.to(lowercase_ )
model.train()
UpperCAmelCase_ : List[Any] = self._prepare_for_class(lowercase_ , lowercase_ , return_labels=lowercase_ )
UpperCAmelCase_ : Dict = model(**lowercase_ ).loss
loss.backward()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : int = self.model_tester.prepare_config_and_inputs_for_common()
if not self.model_tester.is_training:
return
UpperCAmelCase_ : Dict = False
UpperCAmelCase_ : Optional[int] = True
for model_class in self.all_model_classes:
if model_class in get_values(lowercase_ ) or not model_class.supports_gradient_checkpointing:
continue
# DeiTForImageClassificationWithTeacher supports inference-only
if model_class.__name__ == "DeiTForImageClassificationWithTeacher":
continue
UpperCAmelCase_ : List[str] = model_class(lowercase_ )
model.gradient_checkpointing_enable()
model.to(lowercase_ )
model.train()
UpperCAmelCase_ : Optional[int] = self._prepare_for_class(lowercase_ , lowercase_ , return_labels=lowercase_ )
UpperCAmelCase_ : Any = model(**lowercase_ ).loss
loss.backward()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Tuple = self.model_tester.prepare_config_and_inputs_for_common()
UpperCAmelCase_ : Dict = [
{"title": "multi_label_classification", "num_labels": 2, "dtype": torch.float},
{"title": "single_label_classification", "num_labels": 1, "dtype": torch.long},
{"title": "regression", "num_labels": 1, "dtype": torch.float},
]
for model_class in self.all_model_classes:
if (
model_class
not in [
*get_values(lowercase_ ),
*get_values(lowercase_ ),
]
or model_class.__name__ == "DeiTForImageClassificationWithTeacher"
):
continue
for problem_type in problem_types:
with self.subTest(msg=F"""Testing {model_class} with {problem_type["title"]}""" ):
UpperCAmelCase_ : str = problem_type["title"]
UpperCAmelCase_ : List[Any] = problem_type["num_labels"]
UpperCAmelCase_ : Union[str, Any] = model_class(lowercase_ )
model.to(lowercase_ )
model.train()
UpperCAmelCase_ : int = self._prepare_for_class(lowercase_ , lowercase_ , return_labels=lowercase_ )
if problem_type["num_labels"] > 1:
UpperCAmelCase_ : List[Any] = inputs["labels"].unsqueeze(1 ).repeat(1 , problem_type["num_labels"] )
UpperCAmelCase_ : Tuple = inputs["labels"].to(problem_type["dtype"] )
# This tests that we do not trigger the warning form PyTorch "Using a target size that is different
# to the input size. This will likely lead to incorrect results due to broadcasting. Please ensure
# they have the same size." which is a symptom something in wrong for the regression problem.
# See https://github.com/huggingface/transformers/issues/11780
with warnings.catch_warnings(record=lowercase_ ) as warning_list:
UpperCAmelCase_ : List[str] = model(**lowercase_ ).loss
for w in warning_list:
if "Using a target size that is different to the input size" in str(w.message ):
raise ValueError(
F"""Something is going wrong in the regression problem: intercepted {w.message}""" )
loss.backward()
@slow
def UpperCamelCase__ ( self ):
"""simple docstring"""
for model_name in DEIT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
UpperCAmelCase_ : Union[str, Any] = DeiTModel.from_pretrained(lowercase_ )
self.assertIsNotNone(lowercase_ )
def __a ( ):
UpperCAmelCase_ : Any = Image.open("./tests/fixtures/tests_samples/COCO/000000039769.png" )
return image
@require_torch
@require_vision
class A_ (unittest.TestCase ):
'''simple docstring'''
@cached_property
def UpperCamelCase__ ( self ):
"""simple docstring"""
return (
DeiTImageProcessor.from_pretrained("facebook/deit-base-distilled-patch16-224" )
if is_vision_available()
else None
)
@slow
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = DeiTForImageClassificationWithTeacher.from_pretrained("facebook/deit-base-distilled-patch16-224" ).to(
lowercase_ )
UpperCAmelCase_ : List[str] = self.default_image_processor
UpperCAmelCase_ : List[str] = prepare_img()
UpperCAmelCase_ : int = image_processor(images=lowercase_ , return_tensors="pt" ).to(lowercase_ )
# forward pass
with torch.no_grad():
UpperCAmelCase_ : Dict = model(**lowercase_ )
# verify the logits
UpperCAmelCase_ : List[str] = torch.Size((1, 1000) )
self.assertEqual(outputs.logits.shape , lowercase_ )
UpperCAmelCase_ : str = torch.tensor([-1.02_66, 0.19_12, -1.28_61] ).to(lowercase_ )
self.assertTrue(torch.allclose(outputs.logits[0, :3] , lowercase_ , atol=1E-4 ) )
@slow
@require_accelerate
@require_torch_gpu
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = DeiTModel.from_pretrained(
"facebook/deit-base-distilled-patch16-224" , torch_dtype=torch.floataa , device_map="auto" )
UpperCAmelCase_ : str = self.default_image_processor
UpperCAmelCase_ : Union[str, Any] = prepare_img()
UpperCAmelCase_ : List[Any] = image_processor(images=lowercase_ , return_tensors="pt" )
UpperCAmelCase_ : List[str] = inputs.pixel_values.to(lowercase_ )
# forward pass to make sure inference works in fp16
with torch.no_grad():
UpperCAmelCase_ : int = model(lowercase_ )
| 61 | 1 |
"""simple docstring"""
from typing import List, Optional, Union
import torch
from ...models import UNetaDConditionModel, VQModel
from ...pipelines import DiffusionPipeline
from ...pipelines.pipeline_utils import ImagePipelineOutput
from ...schedulers import DDPMScheduler
from ...utils import (
is_accelerate_available,
is_accelerate_version,
logging,
randn_tensor,
replace_example_docstring,
)
_a = logging.get_logger(__name__) # pylint: disable=invalid-name
_a = '\n Examples:\n ```py\n >>> from diffusers import KandinskyV22Pipeline, KandinskyV22PriorPipeline\n >>> import torch\n\n >>> pipe_prior = KandinskyV22PriorPipeline.from_pretrained("kandinsky-community/kandinsky-2-2-prior")\n >>> pipe_prior.to("cuda")\n >>> prompt = "red cat, 4k photo"\n >>> out = pipe_prior(prompt)\n >>> image_emb = out.image_embeds\n >>> zero_image_emb = out.negative_image_embeds\n >>> pipe = KandinskyV22Pipeline.from_pretrained("kandinsky-community/kandinsky-2-2-decoder")\n >>> pipe.to("cuda")\n >>> image = pipe(\n ... image_embeds=image_emb,\n ... negative_image_embeds=zero_image_emb,\n ... height=768,\n ... width=768,\n ... num_inference_steps=50,\n ... ).images\n >>> image[0].save("cat.png")\n ```\n'
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase=8 ):
UpperCAmelCase_ : Union[str, Any] = height // scale_factor**2
if height % scale_factor**2 != 0:
new_height += 1
UpperCAmelCase_ : Tuple = width // scale_factor**2
if width % scale_factor**2 != 0:
new_width += 1
return new_height * scale_factor, new_width * scale_factor
class A_ (lowercase__ ):
'''simple docstring'''
def __init__( self , lowercase_ , lowercase_ , lowercase_ , ):
"""simple docstring"""
super().__init__()
self.register_modules(
unet=lowercase_ , scheduler=lowercase_ , movq=lowercase_ , )
UpperCAmelCase_ : Union[str, Any] = 2 ** (len(self.movq.config.block_out_channels ) - 1)
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
if latents is None:
UpperCAmelCase_ : List[Any] = randn_tensor(lowercase_ , generator=lowercase_ , device=lowercase_ , dtype=lowercase_ )
else:
if latents.shape != shape:
raise ValueError(F"""Unexpected latents shape, got {latents.shape}, expected {shape}""" )
UpperCAmelCase_ : int = latents.to(lowercase_ )
UpperCAmelCase_ : List[Any] = latents * scheduler.init_noise_sigma
return latents
def UpperCamelCase__ ( self , lowercase_=0 ):
"""simple docstring"""
if is_accelerate_available():
from accelerate import cpu_offload
else:
raise ImportError("Please install accelerate via `pip install accelerate`" )
UpperCAmelCase_ : Dict = torch.device(F"""cuda:{gpu_id}""" )
UpperCAmelCase_ : Optional[Any] = [
self.unet,
self.movq,
]
for cpu_offloaded_model in models:
if cpu_offloaded_model is not None:
cpu_offload(lowercase_ , lowercase_ )
def UpperCamelCase__ ( self , lowercase_=0 ):
"""simple docstring"""
if is_accelerate_available() and is_accelerate_version(">=" , "0.17.0.dev0" ):
from accelerate import cpu_offload_with_hook
else:
raise ImportError("`enable_model_cpu_offload` requires `accelerate v0.17.0` or higher." )
UpperCAmelCase_ : Tuple = torch.device(F"""cuda:{gpu_id}""" )
if self.device.type != "cpu":
self.to("cpu" , silence_dtype_warnings=lowercase_ )
torch.cuda.empty_cache() # otherwise we don't see the memory savings (but they probably exist)
UpperCAmelCase_ : Union[str, Any] = None
for cpu_offloaded_model in [self.unet, self.movq]:
UpperCAmelCase_ , UpperCAmelCase_ : int = cpu_offload_with_hook(lowercase_ , lowercase_ , prev_module_hook=lowercase_ )
# We'll offload the last model manually.
UpperCAmelCase_ : Dict = hook
@property
# Copied from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion.StableDiffusionPipeline._execution_device
def UpperCamelCase__ ( self ):
"""simple docstring"""
if not hasattr(self.unet , "_hf_hook" ):
return self.device
for module in self.unet.modules():
if (
hasattr(lowercase_ , "_hf_hook" )
and hasattr(module._hf_hook , "execution_device" )
and module._hf_hook.execution_device is not None
):
return torch.device(module._hf_hook.execution_device )
return self.device
@torch.no_grad()
@replace_example_docstring(lowercase_ )
def __call__( self , lowercase_ , lowercase_ , lowercase_ = 512 , lowercase_ = 512 , lowercase_ = 100 , lowercase_ = 4.0 , lowercase_ = 1 , lowercase_ = None , lowercase_ = None , lowercase_ = "pil" , lowercase_ = True , ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = self._execution_device
UpperCAmelCase_ : Dict = guidance_scale > 1.0
if isinstance(lowercase_ , lowercase_ ):
UpperCAmelCase_ : Optional[int] = torch.cat(lowercase_ , dim=0 )
UpperCAmelCase_ : List[str] = image_embeds.shape[0] * num_images_per_prompt
if isinstance(lowercase_ , lowercase_ ):
UpperCAmelCase_ : Any = torch.cat(lowercase_ , dim=0 )
if do_classifier_free_guidance:
UpperCAmelCase_ : Optional[Any] = image_embeds.repeat_interleave(lowercase_ , dim=0 )
UpperCAmelCase_ : Tuple = negative_image_embeds.repeat_interleave(lowercase_ , dim=0 )
UpperCAmelCase_ : Union[str, Any] = torch.cat([negative_image_embeds, image_embeds] , dim=0 ).to(dtype=self.unet.dtype , device=lowercase_ )
self.scheduler.set_timesteps(lowercase_ , device=lowercase_ )
UpperCAmelCase_ : Any = self.scheduler.timesteps
UpperCAmelCase_ : List[Any] = self.unet.config.in_channels
UpperCAmelCase_ , UpperCAmelCase_ : Optional[Any] = downscale_height_and_width(lowercase_ , lowercase_ , self.movq_scale_factor )
# create initial latent
UpperCAmelCase_ : str = self.prepare_latents(
(batch_size, num_channels_latents, height, width) , image_embeds.dtype , lowercase_ , lowercase_ , lowercase_ , self.scheduler , )
for i, t in enumerate(self.progress_bar(lowercase_ ) ):
# expand the latents if we are doing classifier free guidance
UpperCAmelCase_ : Union[str, Any] = torch.cat([latents] * 2 ) if do_classifier_free_guidance else latents
UpperCAmelCase_ : Union[str, Any] = {"image_embeds": image_embeds}
UpperCAmelCase_ : Optional[Any] = self.unet(
sample=lowercase_ , timestep=lowercase_ , encoder_hidden_states=lowercase_ , added_cond_kwargs=lowercase_ , return_dict=lowercase_ , )[0]
if do_classifier_free_guidance:
UpperCAmelCase_ , UpperCAmelCase_ : Dict = noise_pred.split(latents.shape[1] , dim=1 )
UpperCAmelCase_ , UpperCAmelCase_ : Optional[Any] = noise_pred.chunk(2 )
UpperCAmelCase_ , UpperCAmelCase_ : List[str] = variance_pred.chunk(2 )
UpperCAmelCase_ : Union[str, Any] = noise_pred_uncond + guidance_scale * (noise_pred_text - noise_pred_uncond)
UpperCAmelCase_ : Union[str, Any] = torch.cat([noise_pred, variance_pred_text] , dim=1 )
if not (
hasattr(self.scheduler.config , "variance_type" )
and self.scheduler.config.variance_type in ["learned", "learned_range"]
):
UpperCAmelCase_ , UpperCAmelCase_ : Optional[Any] = noise_pred.split(latents.shape[1] , dim=1 )
# compute the previous noisy sample x_t -> x_t-1
UpperCAmelCase_ : Dict = self.scheduler.step(
lowercase_ , lowercase_ , lowercase_ , generator=lowercase_ , )[0]
# post-processing
UpperCAmelCase_ : Optional[Any] = self.movq.decode(lowercase_ , force_not_quantize=lowercase_ )["sample"]
if output_type not in ["pt", "np", "pil"]:
raise ValueError(F"""Only the output types `pt`, `pil` and `np` are supported not output_type={output_type}""" )
if output_type in ["np", "pil"]:
UpperCAmelCase_ : Any = image * 0.5 + 0.5
UpperCAmelCase_ : Tuple = image.clamp(0 , 1 )
UpperCAmelCase_ : int = image.cpu().permute(0 , 2 , 3 , 1 ).float().numpy()
if output_type == "pil":
UpperCAmelCase_ : Tuple = self.numpy_to_pil(lowercase_ )
if not return_dict:
return (image,)
return ImagePipelineOutput(images=lowercase_ )
| 61 |
"""simple docstring"""
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:
_a = None
_a = logging.get_logger(__name__)
_a = {'vocab_file': 'spiece.model', 'tokenizer_file': 'tokenizer.json'}
_a = {
'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',
},
}
_a = {
'google/fnet-base': 512,
'google/fnet-large': 512,
}
_a = '▁'
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : List[str] = VOCAB_FILES_NAMES
SCREAMING_SNAKE_CASE__ : Tuple = PRETRAINED_VOCAB_FILES_MAP
SCREAMING_SNAKE_CASE__ : Any = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
SCREAMING_SNAKE_CASE__ : Union[str, Any] = ["""input_ids""", """token_type_ids"""]
SCREAMING_SNAKE_CASE__ : Tuple = FNetTokenizer
def __init__( self , lowercase_=None , lowercase_=None , lowercase_=False , lowercase_=True , lowercase_=True , lowercase_="<unk>" , lowercase_="[SEP]" , lowercase_="<pad>" , lowercase_="[CLS]" , lowercase_="[MASK]" , **lowercase_ , ):
"""simple docstring"""
# Mask token behave like a normal word, i.e. include the space before it and
# is included in the raw text, there should be a match in a non-normalized sentence.
UpperCAmelCase_ : int = (
AddedToken(lowercase_ , lstrip=lowercase_ , rstrip=lowercase_ , normalized=lowercase_ )
if isinstance(lowercase_ , lowercase_ )
else mask_token
)
super().__init__(
lowercase_ , tokenizer_file=lowercase_ , do_lower_case=lowercase_ , remove_space=lowercase_ , keep_accents=lowercase_ , unk_token=lowercase_ , sep_token=lowercase_ , pad_token=lowercase_ , cls_token=lowercase_ , mask_token=lowercase_ , **lowercase_ , )
UpperCAmelCase_ : Any = do_lower_case
UpperCAmelCase_ : Tuple = remove_space
UpperCAmelCase_ : str = keep_accents
UpperCAmelCase_ : Any = vocab_file
UpperCAmelCase_ : List[Any] = False if not self.vocab_file else True
def UpperCamelCase__ ( self , lowercase_ , lowercase_ = None ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = [self.sep_token_id]
UpperCAmelCase_ : Any = [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 UpperCamelCase__ ( self , lowercase_ , lowercase_ = None ):
"""simple docstring"""
UpperCAmelCase_ : Any = [self.sep_token_id]
UpperCAmelCase_ : 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 UpperCamelCase__ ( self , lowercase_ , lowercase_ = None ):
"""simple docstring"""
if not os.path.isdir(lowercase_ ):
logger.error(F"""Vocabulary path ({save_directory}) should be a directory""" )
return
UpperCAmelCase_ : List[str] = os.path.join(
lowercase_ , (filename_prefix + "-" if filename_prefix else "") + VOCAB_FILES_NAMES["vocab_file"] )
if os.path.abspath(self.vocab_file ) != os.path.abspath(lowercase_ ):
copyfile(self.vocab_file , lowercase_ )
return (out_vocab_file,)
| 61 | 1 |
"""simple docstring"""
from .testing import (
are_the_same_tensors,
execute_subprocess_async,
require_bnb,
require_cpu,
require_cuda,
require_huggingface_suite,
require_mps,
require_multi_gpu,
require_multi_xpu,
require_safetensors,
require_single_gpu,
require_single_xpu,
require_torch_min_version,
require_tpu,
require_xpu,
skip,
slow,
)
from .training import RegressionDataset, RegressionModel, RegressionModelaXPU
from .scripts import test_script, test_sync, test_ops # isort: skip
| 61 |
"""simple docstring"""
from collections import OrderedDict
from typing import Mapping
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfig
_a = {
'albert-base-v1': 'https://huggingface.co/albert-base-v1/resolve/main/config.json',
'albert-large-v1': 'https://huggingface.co/albert-large-v1/resolve/main/config.json',
'albert-xlarge-v1': 'https://huggingface.co/albert-xlarge-v1/resolve/main/config.json',
'albert-xxlarge-v1': 'https://huggingface.co/albert-xxlarge-v1/resolve/main/config.json',
'albert-base-v2': 'https://huggingface.co/albert-base-v2/resolve/main/config.json',
'albert-large-v2': 'https://huggingface.co/albert-large-v2/resolve/main/config.json',
'albert-xlarge-v2': 'https://huggingface.co/albert-xlarge-v2/resolve/main/config.json',
'albert-xxlarge-v2': 'https://huggingface.co/albert-xxlarge-v2/resolve/main/config.json',
}
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Optional[Any] = """albert"""
def __init__( self , lowercase_=3_0000 , lowercase_=128 , lowercase_=4096 , lowercase_=12 , lowercase_=1 , lowercase_=64 , lowercase_=1_6384 , lowercase_=1 , lowercase_="gelu_new" , lowercase_=0 , lowercase_=0 , lowercase_=512 , lowercase_=2 , lowercase_=0.02 , lowercase_=1E-1_2 , lowercase_=0.1 , lowercase_="absolute" , lowercase_=0 , lowercase_=2 , lowercase_=3 , **lowercase_ , ):
"""simple docstring"""
super().__init__(pad_token_id=lowercase_ , bos_token_id=lowercase_ , eos_token_id=lowercase_ , **lowercase_ )
UpperCAmelCase_ : int = vocab_size
UpperCAmelCase_ : Optional[int] = embedding_size
UpperCAmelCase_ : List[str] = hidden_size
UpperCAmelCase_ : Optional[int] = num_hidden_layers
UpperCAmelCase_ : Union[str, Any] = num_hidden_groups
UpperCAmelCase_ : Dict = num_attention_heads
UpperCAmelCase_ : Any = inner_group_num
UpperCAmelCase_ : Union[str, Any] = hidden_act
UpperCAmelCase_ : Union[str, Any] = intermediate_size
UpperCAmelCase_ : List[str] = hidden_dropout_prob
UpperCAmelCase_ : Union[str, Any] = attention_probs_dropout_prob
UpperCAmelCase_ : Optional[Any] = max_position_embeddings
UpperCAmelCase_ : Any = type_vocab_size
UpperCAmelCase_ : List[str] = initializer_range
UpperCAmelCase_ : Optional[int] = layer_norm_eps
UpperCAmelCase_ : List[Any] = classifier_dropout_prob
UpperCAmelCase_ : Tuple = position_embedding_type
class A_ (lowercase__ ):
'''simple docstring'''
@property
def UpperCamelCase__ ( self ):
"""simple docstring"""
if self.task == "multiple-choice":
UpperCAmelCase_ : int = {0: "batch", 1: "choice", 2: "sequence"}
else:
UpperCAmelCase_ : Optional[Any] = {0: "batch", 1: "sequence"}
return OrderedDict(
[
("input_ids", dynamic_axis),
("attention_mask", dynamic_axis),
("token_type_ids", dynamic_axis),
] )
| 61 | 1 |
"""simple docstring"""
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : Any = abs(__lowerCamelCase )
UpperCAmelCase_ : int = 0
while n > 0:
res += n % 10
n //= 10
return res
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : Optional[Any] = abs(__lowerCamelCase )
return n if n < 10 else n % 10 + sum_of_digits(n // 10 )
def __a ( __lowerCamelCase ):
return sum(int(__lowerCamelCase ) for c in str(abs(__lowerCamelCase ) ) )
def __a ( ):
from collections.abc import Callable
from timeit import timeit
def benchmark_a_function(__lowerCamelCase, __lowerCamelCase ) -> None:
UpperCAmelCase_ : Any = f"""{func.__name__}({value})"""
UpperCAmelCase_ : int = timeit(f"""__main__.{call}""", setup="import __main__" )
print(f"""{call:56} = {func(__lowerCamelCase )} -- {timing:.4f} seconds""" )
for value in (26_2144, 1125_8999_0684_2624, 126_7650_6002_2822_9401_4967_0320_5376):
for func in (sum_of_digits, sum_of_digits_recursion, sum_of_digits_compact):
benchmark_a_function(__lowerCamelCase, __lowerCamelCase )
print()
if __name__ == "__main__":
import doctest
doctest.testmod()
benchmark()
| 61 |
"""simple docstring"""
from __future__ import annotations
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
if (voltage, current, resistance).count(0 ) != 1:
raise ValueError("One and only one argument must be 0" )
if resistance < 0:
raise ValueError("Resistance cannot be negative" )
if voltage == 0:
return {"voltage": float(current * resistance )}
elif current == 0:
return {"current": voltage / resistance}
elif resistance == 0:
return {"resistance": voltage / current}
else:
raise ValueError("Exactly one argument must be 0" )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 61 | 1 |
"""simple docstring"""
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
return round(float(moles / volume ) * nfactor )
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
return round(float((moles * 0.0821 * temperature) / (volume) ) )
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
return round(float((moles * 0.0821 * temperature) / (pressure) ) )
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
return round(float((pressure * volume) / (0.0821 * moles) ) )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 61 |
"""simple docstring"""
import argparse
from collections import defaultdict
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : int = f"""{file}_{class_name}_{test_name}"""
done_test[_id] += 1
with open(__lowerCamelCase, "r" ) as f:
UpperCAmelCase_ : List[Any] = f.readlines()
UpperCAmelCase_ : int = f"""class {class_name}("""
UpperCAmelCase_ : Optional[Any] = f"""{4 * " "}def {test_name}("""
UpperCAmelCase_ : Optional[Any] = f"""{8 * " "}{correct_line.split()[0]}"""
UpperCAmelCase_ : Tuple = f"""{16 * " "}{correct_line.split()[0]}"""
UpperCAmelCase_ : int = False
UpperCAmelCase_ : Union[str, Any] = False
UpperCAmelCase_ : str = False
UpperCAmelCase_ : Optional[Any] = False
UpperCAmelCase_ : List[str] = 0
UpperCAmelCase_ : Optional[int] = 0
UpperCAmelCase_ : int = []
for line in lines:
if line.startswith(__lowerCamelCase ):
UpperCAmelCase_ : Tuple = True
elif in_class and line.startswith(__lowerCamelCase ):
UpperCAmelCase_ : Optional[int] = True
elif in_class and in_func and (line.startswith(__lowerCamelCase ) or line.startswith(__lowerCamelCase )):
UpperCAmelCase_ : Any = len(line.split(correct_line.split()[0] )[0] )
count += 1
if count == done_test[_id]:
UpperCAmelCase_ : Union[str, Any] = True
if in_class and in_func and in_line:
if ")" not in line:
continue
else:
UpperCAmelCase_ : Any = True
if in_class and in_func and in_line and insert_line:
new_lines.append(f"""{spaces * " "}{correct_line}""" )
UpperCAmelCase_ : int = False
else:
new_lines.append(__lowerCamelCase )
with open(__lowerCamelCase, "w" ) as f:
for line in new_lines:
f.write(__lowerCamelCase )
def __a ( __lowerCamelCase, __lowerCamelCase=None ):
if fail is not None:
with open(__lowerCamelCase, "r" ) as f:
UpperCAmelCase_ : Tuple = {l.strip() for l in f.readlines()}
else:
UpperCAmelCase_ : str = None
with open(__lowerCamelCase, "r" ) as f:
UpperCAmelCase_ : Optional[int] = f.readlines()
UpperCAmelCase_ : Any = defaultdict(__lowerCamelCase )
for line in correct_lines:
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : Any = line.split(";" )
if test_failures is None or "::".join([file, class_name, test_name] ) in test_failures:
overwrite_file(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
parser.add_argument('--correct_filename', help='filename of tests with expected result')
parser.add_argument('--fail_filename', help='filename of test failures', type=str, default=None)
_a = parser.parse_args()
main(args.correct_filename, args.fail_filename)
| 61 | 1 |
"""simple docstring"""
import argparse
import os
import torch
from transformers import FlavaImageCodebook, FlavaImageCodebookConfig
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : int = s.rsplit(__lowerCamelCase, __lowerCamelCase )
return new.join(__lowerCamelCase )
def __a ( __lowerCamelCase ):
# encoder.embeddings are double copied in original FLAVA
return sum(param.float().sum() if "encoder.embeddings" not in key else 0 for key, param in state_dict.items() )
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : Optional[int] = {}
UpperCAmelCase_ : List[str] = ["group_1", "group_2", "group_3", "group_4"]
for key, value in state_dict.items():
for group_key in group_keys:
if group_key in key:
UpperCAmelCase_ : Tuple = key.replace(f"""{group_key}.""", f"""{group_key}.group.""" )
if "res_path" in key:
UpperCAmelCase_ : Optional[Any] = key.replace("res_path.", "res_path.path." )
if key.endswith(".w" ):
UpperCAmelCase_ : Any = rreplace(__lowerCamelCase, ".w", ".weight", 1 )
if key.endswith(".b" ):
UpperCAmelCase_ : Optional[Any] = rreplace(__lowerCamelCase, ".b", ".bias", 1 )
UpperCAmelCase_ : Optional[Any] = value.float()
return upgrade
@torch.no_grad()
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase=None, __lowerCamelCase=True ):
from dall_e import Encoder
UpperCAmelCase_ : Any = Encoder()
if os.path.exists(__lowerCamelCase ):
UpperCAmelCase_ : str = torch.load(__lowerCamelCase )
else:
UpperCAmelCase_ : List[str] = torch.hub.load_state_dict_from_url(__lowerCamelCase )
if isinstance(__lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : Any = ckpt.state_dict()
encoder.load_state_dict(__lowerCamelCase )
if config_path is not None:
UpperCAmelCase_ : int = FlavaImageCodebookConfig.from_pretrained(__lowerCamelCase )
else:
UpperCAmelCase_ : List[Any] = FlavaImageCodebookConfig()
UpperCAmelCase_ : str = FlavaImageCodebook(__lowerCamelCase ).eval()
UpperCAmelCase_ : Dict = encoder.state_dict()
UpperCAmelCase_ : List[str] = upgrade_state_dict(__lowerCamelCase )
hf_model.load_state_dict(__lowerCamelCase )
UpperCAmelCase_ : List[str] = hf_model.state_dict()
UpperCAmelCase_ : List[Any] = count_parameters(__lowerCamelCase )
UpperCAmelCase_ : List[Any] = count_parameters(__lowerCamelCase )
assert torch.allclose(__lowerCamelCase, __lowerCamelCase, atol=1E-3 )
if save_checkpoint:
hf_model.save_pretrained(__lowerCamelCase )
else:
return hf_state_dict
if __name__ == "__main__":
_a = argparse.ArgumentParser()
parser.add_argument('--pytorch_dump_folder_path', default=None, type=str, help='Path to the output PyTorch model.')
parser.add_argument('--checkpoint_path', default=None, type=str, help='Path to flava checkpoint')
parser.add_argument('--config_path', default=None, type=str, help='Path to hf config.json of model to convert')
_a = parser.parse_args()
convert_dalle_checkpoint(args.checkpoint_path, args.pytorch_dump_folder_path, args.config_path)
| 61 |
"""simple docstring"""
from diffusers.utils.testing_utils import require_onnxruntime
@require_onnxruntime
class A_ :
'''simple docstring'''
pass
| 61 | 1 |
"""simple docstring"""
import unittest
from transformers import is_torch_available
from transformers.testing_utils import require_torch
if is_torch_available():
import torch
from transformers.generation import DisjunctiveConstraint
@require_torch
class A_ (unittest.TestCase ):
'''simple docstring'''
def UpperCamelCase__ ( self ):
"""simple docstring"""
# For consistency across different places the DisjunctiveConstraint is called,
# dc.token_ids is a list of integers. It is also initialized only by integers.
UpperCAmelCase_ : Union[str, Any] = [[1, 2, 4], [1, 2, 3, 4]]
UpperCAmelCase_ : Optional[Any] = DisjunctiveConstraint(lowercase_ )
self.assertTrue(isinstance(dc.token_ids , lowercase_ ) )
with self.assertRaises(lowercase_ ):
DisjunctiveConstraint(torch.LongTensor([[1, 2, 4], [1, 2, 3]] ) )
with self.assertRaises(lowercase_ ):
DisjunctiveConstraint([torch.LongTensor([1, 2, 4] ), torch.LongTensor([1, 2, 3, 4, 5] )] )
def UpperCamelCase__ ( self ):
"""simple docstring"""
# We can't have constraints that are complete subsets of another. This leads to a preverse
# interpretation of "constraint fulfillment": does generating [1,2,3] fulfill the constraint?
# It would mean that it generated [1,2] which fulfills it, but it's in the middle of potentially
# fulfilling [1,2,3,4]. If we believe that [1,2,3] does fulfill the constraint, then the algorithm
# will necessarily never reach [1,2,3,4], giving users a false sense of control (better to just not allow it).
UpperCAmelCase_ : Optional[Any] = [[1, 2], [1, 2, 3, 4]]
with self.assertRaises(lowercase_ ):
DisjunctiveConstraint(lowercase_ ) # fails here
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : int = [[1, 2, 3], [1, 2, 4]]
UpperCAmelCase_ : Any = DisjunctiveConstraint(lowercase_ )
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : List[str] = dc.update(1 )
UpperCAmelCase_ : Optional[int] = stepped is True and completed is False and reset is False
self.assertTrue(lowercase_ )
self.assertTrue(not dc.completed )
self.assertTrue(dc.current_seq == [1] )
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : int = dc.update(2 )
UpperCAmelCase_ : Any = stepped is True and completed is False and reset is False
self.assertTrue(lowercase_ )
self.assertTrue(not dc.completed )
self.assertTrue(dc.current_seq == [1, 2] )
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : Union[str, Any] = dc.update(3 )
UpperCAmelCase_ : Dict = stepped is True and completed is True and reset is False
self.assertTrue(lowercase_ )
self.assertTrue(dc.completed ) # Completed!
self.assertTrue(dc.current_seq == [1, 2, 3] )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Union[str, Any] = [[1, 2, 3], [1, 2, 4, 5], [1, 2, 5]]
UpperCAmelCase_ : str = DisjunctiveConstraint(lowercase_ )
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : Optional[Any] = dc.update(1 )
self.assertTrue(not dc.completed )
self.assertTrue(dc.current_seq == [1] )
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : Dict = dc.update(2 )
self.assertTrue(not dc.completed )
self.assertTrue(dc.current_seq == [1, 2] )
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : Dict = dc.update(4 )
self.assertTrue(not dc.completed )
self.assertTrue(dc.current_seq == [1, 2, 4] )
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : Optional[int] = dc.update(5 )
self.assertTrue(dc.completed ) # Completed!
self.assertTrue(dc.current_seq == [1, 2, 4, 5] )
dc.reset()
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : Optional[int] = dc.update(1 )
self.assertTrue(not dc.completed )
self.assertTrue(dc.remaining() == 3 )
self.assertTrue(dc.current_seq == [1] )
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : Optional[int] = dc.update(2 )
self.assertTrue(not dc.completed )
self.assertTrue(dc.remaining() == 2 )
self.assertTrue(dc.current_seq == [1, 2] )
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : int = dc.update(5 )
self.assertTrue(dc.completed ) # Completed!
self.assertTrue(dc.remaining() == 0 )
self.assertTrue(dc.current_seq == [1, 2, 5] )
| 61 |
"""simple docstring"""
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
return round(float(moles / volume ) * nfactor )
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
return round(float((moles * 0.0821 * temperature) / (volume) ) )
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
return round(float((moles * 0.0821 * temperature) / (pressure) ) )
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
return round(float((pressure * volume) / (0.0821 * moles) ) )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 61 | 1 |
"""simple docstring"""
import logging
from transformers import PretrainedConfig
_a = logging.getLogger(__name__)
_a = {
'bertabs-finetuned-cnndm': 'https://huggingface.co/remi/bertabs-finetuned-cnndm-extractive-abstractive-summarization/resolve/main/config.json',
}
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Union[str, Any] = """bertabs"""
def __init__( self , lowercase_=3_0522 , lowercase_=512 , lowercase_=6 , lowercase_=512 , lowercase_=8 , lowercase_=512 , lowercase_=0.2 , lowercase_=6 , lowercase_=768 , lowercase_=8 , lowercase_=2048 , lowercase_=0.2 , **lowercase_ , ):
"""simple docstring"""
super().__init__(**lowercase_ )
UpperCAmelCase_ : List[Any] = vocab_size
UpperCAmelCase_ : List[Any] = max_pos
UpperCAmelCase_ : int = enc_layers
UpperCAmelCase_ : str = enc_hidden_size
UpperCAmelCase_ : str = enc_heads
UpperCAmelCase_ : Dict = enc_ff_size
UpperCAmelCase_ : Tuple = enc_dropout
UpperCAmelCase_ : List[str] = dec_layers
UpperCAmelCase_ : Dict = dec_hidden_size
UpperCAmelCase_ : str = dec_heads
UpperCAmelCase_ : Union[str, Any] = dec_ff_size
UpperCAmelCase_ : Optional[int] = dec_dropout
| 61 |
"""simple docstring"""
import os
_a = {'I': 1, 'V': 5, 'X': 10, 'L': 50, 'C': 100, 'D': 500, 'M': 1_000}
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : Union[str, Any] = 0
UpperCAmelCase_ : List[str] = 0
while index < len(__lowerCamelCase ) - 1:
UpperCAmelCase_ : Tuple = SYMBOLS[numerals[index]]
UpperCAmelCase_ : List[str] = SYMBOLS[numerals[index + 1]]
if current_value < next_value:
total_value -= current_value
else:
total_value += current_value
index += 1
total_value += SYMBOLS[numerals[index]]
return total_value
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : List[str] = ""
UpperCAmelCase_ : Any = num // 1000
numerals += m_count * "M"
num %= 1000
UpperCAmelCase_ : Any = num // 100
if c_count == 9:
numerals += "CM"
c_count -= 9
elif c_count == 4:
numerals += "CD"
c_count -= 4
if c_count >= 5:
numerals += "D"
c_count -= 5
numerals += c_count * "C"
num %= 100
UpperCAmelCase_ : str = num // 10
if x_count == 9:
numerals += "XC"
x_count -= 9
elif x_count == 4:
numerals += "XL"
x_count -= 4
if x_count >= 5:
numerals += "L"
x_count -= 5
numerals += x_count * "X"
num %= 10
if num == 9:
numerals += "IX"
num -= 9
elif num == 4:
numerals += "IV"
num -= 4
if num >= 5:
numerals += "V"
num -= 5
numerals += num * "I"
return numerals
def __a ( __lowerCamelCase = "/p089_roman.txt" ):
UpperCAmelCase_ : int = 0
with open(os.path.dirname(__lowerCamelCase ) + roman_numerals_filename ) as filea:
UpperCAmelCase_ : Optional[Any] = filea.readlines()
for line in lines:
UpperCAmelCase_ : Tuple = line.strip()
UpperCAmelCase_ : Optional[Any] = parse_roman_numerals(__lowerCamelCase )
UpperCAmelCase_ : Tuple = generate_roman_numerals(__lowerCamelCase )
savings += len(__lowerCamelCase ) - len(__lowerCamelCase )
return savings
if __name__ == "__main__":
print(f"""{solution() = }""")
| 61 | 1 |
"""simple docstring"""
import argparse
import os
import shutil
import torch
from emmental.modules import MagnitudeBinarizer, ThresholdBinarizer, TopKBinarizer
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : Union[str, Any] = args.pruning_method
UpperCAmelCase_ : int = args.threshold
UpperCAmelCase_ : Optional[int] = args.model_name_or_path.rstrip("/" )
UpperCAmelCase_ : List[str] = args.target_model_path
print(f"""Load fine-pruned model from {model_name_or_path}""" )
UpperCAmelCase_ : Tuple = torch.load(os.path.join(__lowerCamelCase, "pytorch_model.bin" ) )
UpperCAmelCase_ : Tuple = {}
for name, tensor in model.items():
if "embeddings" in name or "LayerNorm" in name or "pooler" in name:
UpperCAmelCase_ : Optional[Any] = tensor
print(f"""Copied layer {name}""" )
elif "classifier" in name or "qa_output" in name:
UpperCAmelCase_ : Optional[Any] = tensor
print(f"""Copied layer {name}""" )
elif "bias" in name:
UpperCAmelCase_ : Optional[int] = tensor
print(f"""Copied layer {name}""" )
else:
if pruning_method == "magnitude":
UpperCAmelCase_ : str = MagnitudeBinarizer.apply(inputs=__lowerCamelCase, threshold=__lowerCamelCase )
UpperCAmelCase_ : Optional[int] = tensor * mask
print(f"""Pruned layer {name}""" )
elif pruning_method == "topK":
if "mask_scores" in name:
continue
UpperCAmelCase_ : Optional[Any] = name[:-6]
UpperCAmelCase_ : int = model[f"""{prefix_}mask_scores"""]
UpperCAmelCase_ : List[Any] = TopKBinarizer.apply(__lowerCamelCase, __lowerCamelCase )
UpperCAmelCase_ : int = tensor * mask
print(f"""Pruned layer {name}""" )
elif pruning_method == "sigmoied_threshold":
if "mask_scores" in name:
continue
UpperCAmelCase_ : Tuple = name[:-6]
UpperCAmelCase_ : Optional[Any] = model[f"""{prefix_}mask_scores"""]
UpperCAmelCase_ : Any = ThresholdBinarizer.apply(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase )
UpperCAmelCase_ : Tuple = tensor * mask
print(f"""Pruned layer {name}""" )
elif pruning_method == "l0":
if "mask_scores" in name:
continue
UpperCAmelCase_ : Optional[int] = name[:-6]
UpperCAmelCase_ : List[str] = model[f"""{prefix_}mask_scores"""]
UpperCAmelCase_ , UpperCAmelCase_ : int = -0.1, 1.1
UpperCAmelCase_ : str = torch.sigmoid(__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = s * (r - l) + l
UpperCAmelCase_ : Any = s_bar.clamp(min=0.0, max=1.0 )
UpperCAmelCase_ : Optional[Any] = tensor * mask
print(f"""Pruned layer {name}""" )
else:
raise ValueError("Unknown pruning method" )
if target_model_path is None:
UpperCAmelCase_ : int = os.path.join(
os.path.dirname(__lowerCamelCase ), f"""bertarized_{os.path.basename(__lowerCamelCase )}""" )
if not os.path.isdir(__lowerCamelCase ):
shutil.copytree(__lowerCamelCase, __lowerCamelCase )
print(f"""\nCreated folder {target_model_path}""" )
torch.save(__lowerCamelCase, os.path.join(__lowerCamelCase, "pytorch_model.bin" ) )
print("\nPruned model saved! See you later!" )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
parser.add_argument(
'--pruning_method',
choices=['l0', 'magnitude', 'topK', 'sigmoied_threshold'],
type=str,
required=True,
help=(
'Pruning Method (l0 = L0 regularization, magnitude = Magnitude pruning, topK = Movement pruning,'
' sigmoied_threshold = Soft movement pruning)'
),
)
parser.add_argument(
'--threshold',
type=float,
required=False,
help=(
'For `magnitude` and `topK`, it is the level of remaining weights (in %) in the fine-pruned model.'
'For `sigmoied_threshold`, it is the threshold \tau against which the (sigmoied) scores are compared.'
'Not needed for `l0`'
),
)
parser.add_argument(
'--model_name_or_path',
type=str,
required=True,
help='Folder containing the model that was previously fine-pruned',
)
parser.add_argument(
'--target_model_path',
default=None,
type=str,
required=False,
help='Folder containing the model that was previously fine-pruned',
)
_a = parser.parse_args()
main(args)
| 61 |
"""simple docstring"""
from unittest import TestCase
from datasets import Dataset
from minhash_deduplication import deduplicate_dataset, make_duplicate_clusters
def __a ( ):
UpperCAmelCase_ : List[Any] = {
"repo_name": ["test_repo1", "test_repo2", "test_repo3"],
"path": ["test_1.py", "test_2.py", "unit_test.py"],
"content": ["a " * 20, "a " * 30, "b " * 7],
}
UpperCAmelCase_ : Optional[int] = Dataset.from_dict(__lowerCamelCase )
return dataset
class A_ (lowercase__ ):
'''simple docstring'''
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Union[str, Any] = get_dataset()
UpperCAmelCase_ : Any = make_duplicate_clusters(lowercase_ , 0.85 )
self.assertEqual(len(duplicate_clusters[0] ) , 2 )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = get_dataset()
UpperCAmelCase_ , UpperCAmelCase_ : List[str] = deduplicate_dataset(lowercase_ )
self.assertEqual(len(lowercase_ ) , 2 )
print(lowercase_ )
self.assertEqual(duplicate_clusters[0][0]["copies"] , 2 )
self.assertEqual(duplicate_clusters[0][0]["is_extreme"] , lowercase_ )
| 61 | 1 |
"""simple docstring"""
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
def update_area_of_max_square(__lowerCamelCase, __lowerCamelCase ) -> int:
# BASE CASE
if row >= rows or col >= cols:
return 0
UpperCAmelCase_ : Dict = update_area_of_max_square(__lowerCamelCase, col + 1 )
UpperCAmelCase_ : List[str] = update_area_of_max_square(row + 1, col + 1 )
UpperCAmelCase_ : Union[str, Any] = update_area_of_max_square(row + 1, __lowerCamelCase )
if mat[row][col]:
UpperCAmelCase_ : List[str] = 1 + min([right, diagonal, down] )
UpperCAmelCase_ : Tuple = max(largest_square_area[0], __lowerCamelCase )
return sub_problem_sol
else:
return 0
UpperCAmelCase_ : Union[str, Any] = [0]
update_area_of_max_square(0, 0 )
return largest_square_area[0]
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
def update_area_of_max_square_using_dp_array(
__lowerCamelCase, __lowerCamelCase, __lowerCamelCase ) -> int:
if row >= rows or col >= cols:
return 0
if dp_array[row][col] != -1:
return dp_array[row][col]
UpperCAmelCase_ : Union[str, Any] = update_area_of_max_square_using_dp_array(__lowerCamelCase, col + 1, __lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = update_area_of_max_square_using_dp_array(row + 1, col + 1, __lowerCamelCase )
UpperCAmelCase_ : List[Any] = update_area_of_max_square_using_dp_array(row + 1, __lowerCamelCase, __lowerCamelCase )
if mat[row][col]:
UpperCAmelCase_ : Dict = 1 + min([right, diagonal, down] )
UpperCAmelCase_ : Dict = max(largest_square_area[0], __lowerCamelCase )
UpperCAmelCase_ : Union[str, Any] = sub_problem_sol
return sub_problem_sol
else:
return 0
UpperCAmelCase_ : Tuple = [0]
UpperCAmelCase_ : str = [[-1] * cols for _ in range(__lowerCamelCase )]
update_area_of_max_square_using_dp_array(0, 0, __lowerCamelCase )
return largest_square_area[0]
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : Optional[int] = [[0] * (cols + 1) for _ in range(rows + 1 )]
UpperCAmelCase_ : Dict = 0
for row in range(rows - 1, -1, -1 ):
for col in range(cols - 1, -1, -1 ):
UpperCAmelCase_ : List[str] = dp_array[row][col + 1]
UpperCAmelCase_ : Tuple = dp_array[row + 1][col + 1]
UpperCAmelCase_ : Tuple = dp_array[row + 1][col]
if mat[row][col] == 1:
UpperCAmelCase_ : Tuple = 1 + min(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase )
UpperCAmelCase_ : Any = max(dp_array[row][col], __lowerCamelCase )
else:
UpperCAmelCase_ : int = 0
return largest_square_area
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : Optional[Any] = [0] * (cols + 1)
UpperCAmelCase_ : int = [0] * (cols + 1)
UpperCAmelCase_ : List[Any] = 0
for row in range(rows - 1, -1, -1 ):
for col in range(cols - 1, -1, -1 ):
UpperCAmelCase_ : str = current_row[col + 1]
UpperCAmelCase_ : str = next_row[col + 1]
UpperCAmelCase_ : int = next_row[col]
if mat[row][col] == 1:
UpperCAmelCase_ : Any = 1 + min(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase )
UpperCAmelCase_ : List[str] = max(current_row[col], __lowerCamelCase )
else:
UpperCAmelCase_ : Tuple = 0
UpperCAmelCase_ : Dict = current_row
return largest_square_area
if __name__ == "__main__":
import doctest
doctest.testmod()
print(largest_square_area_in_matrix_bottom_up(2, 2, [[1, 1], [1, 1]]))
| 61 |
"""simple docstring"""
from collections import namedtuple
_a = namedtuple('from_to', 'from_ to')
_a = {
'cubicmeter': from_to(1, 1),
'litre': from_to(0.001, 1_000),
'kilolitre': from_to(1, 1),
'gallon': from_to(0.0_0454, 264.172),
'cubicyard': from_to(0.7_6455, 1.3_0795),
'cubicfoot': from_to(0.028, 35.3147),
'cup': from_to(0.0_0023_6588, 4226.75),
}
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
if from_type not in METRIC_CONVERSION:
raise ValueError(
f"""Invalid 'from_type' value: {from_type!r} Supported values are:\n"""
+ ", ".join(__lowerCamelCase ) )
if to_type not in METRIC_CONVERSION:
raise ValueError(
f"""Invalid 'to_type' value: {to_type!r}. Supported values are:\n"""
+ ", ".join(__lowerCamelCase ) )
return value * METRIC_CONVERSION[from_type].from_ * METRIC_CONVERSION[to_type].to
if __name__ == "__main__":
import doctest
doctest.testmod()
| 61 | 1 |
"""simple docstring"""
import dataclasses
import json
import sys
import types
from argparse import ArgumentDefaultsHelpFormatter, ArgumentParser, ArgumentTypeError
from copy import copy
from enum import Enum
from inspect import isclass
from pathlib import Path
from typing import Any, Callable, Dict, Iterable, List, Literal, NewType, Optional, Tuple, Union, get_type_hints
import yaml
_a = NewType('DataClass', Any)
_a = NewType('DataClassType', Any)
def __a ( __lowerCamelCase ):
if isinstance(__lowerCamelCase, __lowerCamelCase ):
return v
if v.lower() in ("yes", "true", "t", "y", "1"):
return True
elif v.lower() in ("no", "false", "f", "n", "0"):
return False
else:
raise ArgumentTypeError(
f"""Truthy value expected: got {v} but expected one of yes/no, true/false, t/f, y/n, 1/0 (case insensitive).""" )
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : int = {str(__lowerCamelCase ): choice for choice in choices}
return lambda __lowerCamelCase : str_to_choice.get(__lowerCamelCase, __lowerCamelCase )
def __a ( *,
__lowerCamelCase = None, __lowerCamelCase = None, __lowerCamelCase = dataclasses.MISSING, __lowerCamelCase = dataclasses.MISSING, __lowerCamelCase = None, **__lowerCamelCase, ):
if metadata is None:
# Important, don't use as default param in function signature because dict is mutable and shared across function calls
UpperCAmelCase_ : Optional[Any] = {}
if aliases is not None:
UpperCAmelCase_ : List[str] = aliases
if help is not None:
UpperCAmelCase_ : List[Any] = help
return dataclasses.field(metadata=__lowerCamelCase, default=__lowerCamelCase, default_factory=__lowerCamelCase, **__lowerCamelCase )
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Iterable[DataClassType]
def __init__( self , lowercase_ , **lowercase_ ):
"""simple docstring"""
# To make the default appear when using --help
if "formatter_class" not in kwargs:
UpperCAmelCase_ : int = ArgumentDefaultsHelpFormatter
super().__init__(**lowercase_ )
if dataclasses.is_dataclass(lowercase_ ):
UpperCAmelCase_ : Tuple = [dataclass_types]
UpperCAmelCase_ : Optional[Any] = list(lowercase_ )
for dtype in self.dataclass_types:
self._add_dataclass_arguments(lowercase_ )
@staticmethod
def UpperCamelCase__ ( lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Any = F"""--{field.name}"""
UpperCAmelCase_ : int = field.metadata.copy()
# field.metadata is not used at all by Data Classes,
# it is provided as a third-party extension mechanism.
if isinstance(field.type , lowercase_ ):
raise RuntimeError(
"Unresolved type detected, which should have been done with the help of "
"`typing.get_type_hints` method by default" )
UpperCAmelCase_ : Union[str, Any] = kwargs.pop("aliases" , [] )
if isinstance(lowercase_ , lowercase_ ):
UpperCAmelCase_ : Any = [aliases]
UpperCAmelCase_ : Optional[Any] = getattr(field.type , "__origin__" , field.type )
if origin_type is Union or (hasattr(lowercase_ , "UnionType" ) and isinstance(lowercase_ , types.UnionType )):
if str not in field.type.__args__ and (
len(field.type.__args__ ) != 2 or type(lowercase_ ) not in field.type.__args__
):
raise ValueError(
"Only `Union[X, NoneType]` (i.e., `Optional[X]`) is allowed for `Union` because"
" the argument parser only supports one type per argument."
F""" Problem encountered in field '{field.name}'.""" )
if type(lowercase_ ) not in field.type.__args__:
# filter `str` in Union
UpperCAmelCase_ : str = field.type.__args__[0] if field.type.__args__[1] == str else field.type.__args__[1]
UpperCAmelCase_ : Dict = getattr(field.type , "__origin__" , field.type )
elif bool not in field.type.__args__:
# filter `NoneType` in Union (except for `Union[bool, NoneType]`)
UpperCAmelCase_ : str = (
field.type.__args__[0] if isinstance(lowercase_ , field.type.__args__[1] ) else field.type.__args__[1]
)
UpperCAmelCase_ : List[str] = getattr(field.type , "__origin__" , field.type )
# A variable to store kwargs for a boolean field, if needed
# so that we can init a `no_*` complement argument (see below)
UpperCAmelCase_ : List[Any] = {}
if origin_type is Literal or (isinstance(field.type , lowercase_ ) and issubclass(field.type , lowercase_ )):
if origin_type is Literal:
UpperCAmelCase_ : List[Any] = field.type.__args__
else:
UpperCAmelCase_ : Union[str, Any] = [x.value for x in field.type]
UpperCAmelCase_ : Optional[Any] = make_choice_type_function(kwargs["choices"] )
if field.default is not dataclasses.MISSING:
UpperCAmelCase_ : str = field.default
else:
UpperCAmelCase_ : str = True
elif field.type is bool or field.type == Optional[bool]:
# Copy the currect kwargs to use to instantiate a `no_*` complement argument below.
# We do not initialize it here because the `no_*` alternative must be instantiated after the real argument
UpperCAmelCase_ : int = copy(lowercase_ )
# Hack because type=bool in argparse does not behave as we want.
UpperCAmelCase_ : Union[str, Any] = string_to_bool
if field.type is bool or (field.default is not None and field.default is not dataclasses.MISSING):
# Default value is False if we have no default when of type bool.
UpperCAmelCase_ : Union[str, Any] = False if field.default is dataclasses.MISSING else field.default
# This is the value that will get picked if we don't include --field_name in any way
UpperCAmelCase_ : Optional[int] = default
# This tells argparse we accept 0 or 1 value after --field_name
UpperCAmelCase_ : int = "?"
# This is the value that will get picked if we do --field_name (without value)
UpperCAmelCase_ : Tuple = True
elif isclass(lowercase_ ) and issubclass(lowercase_ , lowercase_ ):
UpperCAmelCase_ : List[str] = field.type.__args__[0]
UpperCAmelCase_ : str = "+"
if field.default_factory is not dataclasses.MISSING:
UpperCAmelCase_ : List[str] = field.default_factory()
elif field.default is dataclasses.MISSING:
UpperCAmelCase_ : Optional[Any] = True
else:
UpperCAmelCase_ : Tuple = field.type
if field.default is not dataclasses.MISSING:
UpperCAmelCase_ : Optional[int] = field.default
elif field.default_factory is not dataclasses.MISSING:
UpperCAmelCase_ : Any = field.default_factory()
else:
UpperCAmelCase_ : List[Any] = True
parser.add_argument(lowercase_ , *lowercase_ , **lowercase_ )
# Add a complement `no_*` argument for a boolean field AFTER the initial field has already been added.
# Order is important for arguments with the same destination!
# We use a copy of earlier kwargs because the original kwargs have changed a lot before reaching down
# here and we do not need those changes/additional keys.
if field.default is True and (field.type is bool or field.type == Optional[bool]):
UpperCAmelCase_ : Any = False
parser.add_argument(F"""--no_{field.name}""" , action="store_false" , dest=field.name , **lowercase_ )
def UpperCamelCase__ ( self , lowercase_ ):
"""simple docstring"""
if hasattr(lowercase_ , "_argument_group_name" ):
UpperCAmelCase_ : int = self.add_argument_group(dtype._argument_group_name )
else:
UpperCAmelCase_ : int = self
try:
UpperCAmelCase_ : Dict[str, type] = get_type_hints(lowercase_ )
except NameError:
raise RuntimeError(
F"""Type resolution failed for {dtype}. Try declaring the class in global scope or """
"removing line of `from __future__ import annotations` which opts in Postponed "
"Evaluation of Annotations (PEP 563)" )
except TypeError as ex:
# Remove this block when we drop Python 3.9 support
if sys.version_info[:2] < (3, 10) and "unsupported operand type(s) for |" in str(lowercase_ ):
UpperCAmelCase_ : Dict = ".".join(map(lowercase_ , sys.version_info[:3] ) )
raise RuntimeError(
F"""Type resolution failed for {dtype} on Python {python_version}. Try removing """
"line of `from __future__ import annotations` which opts in union types as "
"`X | Y` (PEP 604) via Postponed Evaluation of Annotations (PEP 563). To "
"support Python versions that lower than 3.10, you need to use "
"`typing.Union[X, Y]` instead of `X | Y` and `typing.Optional[X]` instead of "
"`X | None`." ) from ex
raise
for field in dataclasses.fields(lowercase_ ):
if not field.init:
continue
UpperCAmelCase_ : Optional[Any] = type_hints[field.name]
self._parse_dataclass_field(lowercase_ , lowercase_ )
def UpperCamelCase__ ( self , lowercase_=None , lowercase_=False , lowercase_=True , lowercase_=None , lowercase_=None , ):
"""simple docstring"""
if args_file_flag or args_filename or (look_for_args_file and len(sys.argv )):
UpperCAmelCase_ : int = []
if args_filename:
args_files.append(Path(lowercase_ ) )
elif look_for_args_file and len(sys.argv ):
args_files.append(Path(sys.argv[0] ).with_suffix(".args" ) )
# args files specified via command line flag should overwrite default args files so we add them last
if args_file_flag:
# Create special parser just to extract the args_file_flag values
UpperCAmelCase_ : str = ArgumentParser()
args_file_parser.add_argument(lowercase_ , type=lowercase_ , action="append" )
# Use only remaining args for further parsing (remove the args_file_flag)
UpperCAmelCase_ , UpperCAmelCase_ : Union[str, Any] = args_file_parser.parse_known_args(args=lowercase_ )
UpperCAmelCase_ : List[str] = vars(lowercase_ ).get(args_file_flag.lstrip("-" ) , lowercase_ )
if cmd_args_file_paths:
args_files.extend([Path(lowercase_ ) for p in cmd_args_file_paths] )
UpperCAmelCase_ : int = []
for args_file in args_files:
if args_file.exists():
file_args += args_file.read_text().split()
# in case of duplicate arguments the last one has precedence
# args specified via the command line should overwrite args from files, so we add them last
UpperCAmelCase_ : Optional[Any] = file_args + args if args is not None else file_args + sys.argv[1:]
UpperCAmelCase_ , UpperCAmelCase_ : Union[str, Any] = self.parse_known_args(args=lowercase_ )
UpperCAmelCase_ : Union[str, Any] = []
for dtype in self.dataclass_types:
UpperCAmelCase_ : List[Any] = {f.name for f in dataclasses.fields(lowercase_ ) if f.init}
UpperCAmelCase_ : List[str] = {k: v for k, v in vars(lowercase_ ).items() if k in keys}
for k in keys:
delattr(lowercase_ , lowercase_ )
UpperCAmelCase_ : Dict = dtype(**lowercase_ )
outputs.append(lowercase_ )
if len(namespace.__dict__ ) > 0:
# additional namespace.
outputs.append(lowercase_ )
if return_remaining_strings:
return (*outputs, remaining_args)
else:
if remaining_args:
raise ValueError(F"""Some specified arguments are not used by the HfArgumentParser: {remaining_args}""" )
return (*outputs,)
def UpperCamelCase__ ( self , lowercase_ , lowercase_ = False ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = set(args.keys() )
UpperCAmelCase_ : Tuple = []
for dtype in self.dataclass_types:
UpperCAmelCase_ : Optional[int] = {f.name for f in dataclasses.fields(lowercase_ ) if f.init}
UpperCAmelCase_ : Optional[int] = {k: v for k, v in args.items() if k in keys}
unused_keys.difference_update(inputs.keys() )
UpperCAmelCase_ : int = dtype(**lowercase_ )
outputs.append(lowercase_ )
if not allow_extra_keys and unused_keys:
raise ValueError(F"""Some keys are not used by the HfArgumentParser: {sorted(lowercase_ )}""" )
return tuple(lowercase_ )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ = False ):
"""simple docstring"""
with open(Path(lowercase_ ) , encoding="utf-8" ) as open_json_file:
UpperCAmelCase_ : Tuple = json.loads(open_json_file.read() )
UpperCAmelCase_ : Optional[int] = self.parse_dict(lowercase_ , allow_extra_keys=lowercase_ )
return tuple(lowercase_ )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ = False ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = self.parse_dict(yaml.safe_load(Path(lowercase_ ).read_text() ) , allow_extra_keys=lowercase_ )
return tuple(lowercase_ )
| 61 |
"""simple docstring"""
from __future__ import annotations
def __a ( __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ , UpperCAmelCase_ : str = set(__lowerCamelCase ), [start]
while stack:
UpperCAmelCase_ : Any = stack.pop()
explored.add(__lowerCamelCase )
# Differences from BFS:
# 1) pop last element instead of first one
# 2) add adjacent elements to stack without exploring them
for adj in reversed(graph[v] ):
if adj not in explored:
stack.append(__lowerCamelCase )
return explored
_a = {
'A': ['B', 'C', 'D'],
'B': ['A', 'D', 'E'],
'C': ['A', 'F'],
'D': ['B', 'D'],
'E': ['B', 'F'],
'F': ['C', 'E', 'G'],
'G': ['F'],
}
if __name__ == "__main__":
import doctest
doctest.testmod()
print(depth_first_search(G, 'A'))
| 61 | 1 |
"""simple docstring"""
from ...configuration_utils import PretrainedConfig
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : List[str] = """bert-generation"""
def __init__( self , lowercase_=5_0358 , lowercase_=1024 , lowercase_=24 , lowercase_=16 , lowercase_=4096 , lowercase_="gelu" , lowercase_=0.1 , lowercase_=0.1 , lowercase_=512 , lowercase_=0.02 , lowercase_=1E-1_2 , lowercase_=0 , lowercase_=2 , lowercase_=1 , lowercase_="absolute" , lowercase_=True , **lowercase_ , ):
"""simple docstring"""
super().__init__(pad_token_id=lowercase_ , bos_token_id=lowercase_ , eos_token_id=lowercase_ , **lowercase_ )
UpperCAmelCase_ : Tuple = vocab_size
UpperCAmelCase_ : Dict = hidden_size
UpperCAmelCase_ : Optional[Any] = num_hidden_layers
UpperCAmelCase_ : str = num_attention_heads
UpperCAmelCase_ : Tuple = hidden_act
UpperCAmelCase_ : Tuple = intermediate_size
UpperCAmelCase_ : List[str] = hidden_dropout_prob
UpperCAmelCase_ : int = attention_probs_dropout_prob
UpperCAmelCase_ : int = max_position_embeddings
UpperCAmelCase_ : Union[str, Any] = initializer_range
UpperCAmelCase_ : Union[str, Any] = layer_norm_eps
UpperCAmelCase_ : Optional[Any] = position_embedding_type
UpperCAmelCase_ : Any = use_cache
| 61 |
"""simple docstring"""
def __a ( __lowerCamelCase = 3, __lowerCamelCase = 7, __lowerCamelCase = 100_0000 ):
UpperCAmelCase_ : Dict = 0
UpperCAmelCase_ : List[Any] = 1
for current_denominator in range(1, limit + 1 ):
UpperCAmelCase_ : Dict = current_denominator * numerator // denominator
if current_denominator % denominator == 0:
current_numerator -= 1
if current_numerator * max_denominator > current_denominator * max_numerator:
UpperCAmelCase_ : List[Any] = current_numerator
UpperCAmelCase_ : Optional[int] = current_denominator
return max_numerator
if __name__ == "__main__":
print(solution(numerator=3, denominator=7, limit=1_000_000))
| 61 | 1 |
"""simple docstring"""
import numpy as np
import datasets
_a = '\nCompute the Mahalanobis Distance\n\nMahalonobis distance is the distance between a point and a distribution.\nAnd not between two distinct points. It is effectively a multivariate equivalent of the Euclidean distance.\nIt was introduced by Prof. P. C. Mahalanobis in 1936\nand has been used in various statistical applications ever since\n[source: https://www.machinelearningplus.com/statistics/mahalanobis-distance/]\n'
_a = '\\n@article{de2000mahalanobis,\n title={The mahalanobis distance},\n author={De Maesschalck, Roy and Jouan-Rimbaud, Delphine and Massart, D{\'e}sir{\'e} L},\n journal={Chemometrics and intelligent laboratory systems},\n volume={50},\n number={1},\n pages={1--18},\n year={2000},\n publisher={Elsevier}\n}\n'
_a = '\nArgs:\n X: List of datapoints to be compared with the `reference_distribution`.\n reference_distribution: List of datapoints from the reference distribution we want to compare to.\nReturns:\n mahalanobis: The Mahalonobis distance for each datapoint in `X`.\nExamples:\n\n >>> mahalanobis_metric = datasets.load_metric("mahalanobis")\n >>> results = mahalanobis_metric.compute(reference_distribution=[[0, 1], [1, 0]], X=[[0, 1]])\n >>> print(results)\n {\'mahalanobis\': array([0.5])}\n'
@datasets.utils.file_utils.add_start_docstrings(_DESCRIPTION ,_KWARGS_DESCRIPTION )
class A_ (datasets.Metric ):
'''simple docstring'''
def UpperCamelCase__ ( self ):
"""simple docstring"""
return datasets.MetricInfo(
description=_DESCRIPTION , citation=_CITATION , inputs_description=_KWARGS_DESCRIPTION , features=datasets.Features(
{
"X": datasets.Sequence(datasets.Value("float" , id="sequence" ) , id="X" ),
} ) , )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ ):
"""simple docstring"""
# convert to numpy arrays
UpperCAmelCase_ : Union[str, Any] = np.array(lowercase_ )
UpperCAmelCase_ : Any = np.array(lowercase_ )
# Assert that arrays are 2D
if len(X.shape ) != 2:
raise ValueError("Expected `X` to be a 2D vector" )
if len(reference_distribution.shape ) != 2:
raise ValueError("Expected `reference_distribution` to be a 2D vector" )
if reference_distribution.shape[0] < 2:
raise ValueError(
"Expected `reference_distribution` to be a 2D vector with more than one element in the first dimension" )
# Get mahalanobis distance for each prediction
UpperCAmelCase_ : Tuple = X - np.mean(lowercase_ )
UpperCAmelCase_ : List[Any] = np.cov(reference_distribution.T )
try:
UpperCAmelCase_ : Optional[int] = np.linalg.inv(lowercase_ )
except np.linalg.LinAlgError:
UpperCAmelCase_ : Optional[Any] = np.linalg.pinv(lowercase_ )
UpperCAmelCase_ : Optional[int] = np.dot(lowercase_ , lowercase_ )
UpperCAmelCase_ : List[str] = np.dot(lowercase_ , X_minus_mu.T ).diagonal()
return {"mahalanobis": mahal_dist}
| 61 |
"""simple docstring"""
import argparse
import os
import re
# All paths are set with the intent you should run this script from the root of the repo with the command
# python utils/check_dummies.py
_a = 'src/diffusers'
# Matches is_xxx_available()
_a = re.compile(R'is\_([a-z_]*)_available\(\)')
# Matches from xxx import bla
_a = re.compile(R'\s+from\s+\S*\s+import\s+([^\(\s].*)\n')
_a = '\n{0} = None\n'
_a = '\nclass {0}(metaclass=DummyObject):\n _backends = {1}\n\n def __init__(self, *args, **kwargs):\n requires_backends(self, {1})\n\n @classmethod\n def from_config(cls, *args, **kwargs):\n requires_backends(cls, {1})\n\n @classmethod\n def from_pretrained(cls, *args, **kwargs):\n requires_backends(cls, {1})\n'
_a = '\ndef {0}(*args, **kwargs):\n requires_backends({0}, {1})\n'
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : int = _re_backend.findall(__lowerCamelCase )
if len(__lowerCamelCase ) == 0:
return None
return "_and_".join(__lowerCamelCase )
def __a ( ):
with open(os.path.join(__lowerCamelCase, "__init__.py" ), "r", encoding="utf-8", newline="\n" ) as f:
UpperCAmelCase_ : Optional[int] = f.readlines()
# Get to the point we do the actual imports for type checking
UpperCAmelCase_ : Union[str, Any] = 0
UpperCAmelCase_ : Optional[int] = {}
# Go through the end of the file
while line_index < len(__lowerCamelCase ):
# If the line contains is_backend_available, we grab all objects associated with the `else` block
UpperCAmelCase_ : Union[str, Any] = find_backend(lines[line_index] )
if backend is not None:
while not lines[line_index].startswith("else:" ):
line_index += 1
line_index += 1
UpperCAmelCase_ : List[str] = []
# Until we unindent, add backend objects to the list
while line_index < len(__lowerCamelCase ) and len(lines[line_index] ) > 1:
UpperCAmelCase_ : Union[str, Any] = lines[line_index]
UpperCAmelCase_ : Optional[Any] = _re_single_line_import.search(__lowerCamelCase )
if single_line_import_search is not None:
objects.extend(single_line_import_search.groups()[0].split(", " ) )
elif line.startswith(" " * 8 ):
objects.append(line[8:-2] )
line_index += 1
if len(__lowerCamelCase ) > 0:
UpperCAmelCase_ : Optional[int] = objects
else:
line_index += 1
return backend_specific_objects
def __a ( __lowerCamelCase, __lowerCamelCase ):
if name.isupper():
return DUMMY_CONSTANT.format(__lowerCamelCase )
elif name.islower():
return DUMMY_FUNCTION.format(__lowerCamelCase, __lowerCamelCase )
else:
return DUMMY_CLASS.format(__lowerCamelCase, __lowerCamelCase )
def __a ( __lowerCamelCase=None ):
if backend_specific_objects is None:
UpperCAmelCase_ : Tuple = read_init()
# For special correspondence backend to module name as used in the function requires_modulename
UpperCAmelCase_ : str = {}
for backend, objects in backend_specific_objects.items():
UpperCAmelCase_ : int = "[" + ", ".join(f"""\"{b}\"""" for b in backend.split("_and_" ) ) + "]"
UpperCAmelCase_ : Dict = "# This file is autogenerated by the command `make fix-copies`, do not edit.\n"
dummy_file += "from ..utils import DummyObject, requires_backends\n\n"
dummy_file += "\n".join([create_dummy_object(__lowerCamelCase, __lowerCamelCase ) for o in objects] )
UpperCAmelCase_ : int = dummy_file
return dummy_files
def __a ( __lowerCamelCase=False ):
UpperCAmelCase_ : Optional[Any] = create_dummy_files()
# For special correspondence backend to shortcut as used in utils/dummy_xxx_objects.py
UpperCAmelCase_ : Union[str, Any] = {"torch": "pt"}
# Locate actual dummy modules and read their content.
UpperCAmelCase_ : List[str] = os.path.join(__lowerCamelCase, "utils" )
UpperCAmelCase_ : Optional[int] = {
backend: os.path.join(__lowerCamelCase, f"""dummy_{short_names.get(__lowerCamelCase, __lowerCamelCase )}_objects.py""" )
for backend in dummy_files.keys()
}
UpperCAmelCase_ : Any = {}
for backend, file_path in dummy_file_paths.items():
if os.path.isfile(__lowerCamelCase ):
with open(__lowerCamelCase, "r", encoding="utf-8", newline="\n" ) as f:
UpperCAmelCase_ : Optional[int] = f.read()
else:
UpperCAmelCase_ : Any = ""
for backend in dummy_files.keys():
if dummy_files[backend] != actual_dummies[backend]:
if overwrite:
print(
f"""Updating diffusers.utils.dummy_{short_names.get(__lowerCamelCase, __lowerCamelCase )}_objects.py as the main """
"__init__ has new objects." )
with open(dummy_file_paths[backend], "w", encoding="utf-8", newline="\n" ) as f:
f.write(dummy_files[backend] )
else:
raise ValueError(
"The main __init__ has objects that are not present in "
f"""diffusers.utils.dummy_{short_names.get(__lowerCamelCase, __lowerCamelCase )}_objects.py. Run `make fix-copies` """
"to fix this." )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
parser.add_argument('--fix_and_overwrite', action='store_true', help='Whether to fix inconsistencies.')
_a = parser.parse_args()
check_dummies(args.fix_and_overwrite)
| 61 | 1 |
"""simple docstring"""
import unittest
from transformers import MraConfig, is_torch_available
from transformers.testing_utils import require_torch, slow, torch_device
from ...test_configuration_common import ConfigTester
from ...test_modeling_common import ModelTesterMixin, floats_tensor, ids_tensor, random_attention_mask
if is_torch_available():
import torch
from transformers import (
MraForMaskedLM,
MraForMultipleChoice,
MraForQuestionAnswering,
MraForSequenceClassification,
MraForTokenClassification,
MraModel,
)
from transformers.models.mra.modeling_mra import MRA_PRETRAINED_MODEL_ARCHIVE_LIST
class A_ :
'''simple docstring'''
def __init__( self , lowercase_ , lowercase_=2 , lowercase_=8 , lowercase_=True , lowercase_=True , lowercase_=True , lowercase_=True , lowercase_=99 , lowercase_=16 , lowercase_=5 , lowercase_=2 , lowercase_=36 , lowercase_="gelu" , lowercase_=0.0 , lowercase_=0.0 , lowercase_=512 , lowercase_=16 , lowercase_=2 , lowercase_=0.02 , lowercase_=3 , lowercase_=4 , lowercase_=None , ):
"""simple docstring"""
UpperCAmelCase_ : int = parent
UpperCAmelCase_ : Optional[Any] = batch_size
UpperCAmelCase_ : Any = seq_length
UpperCAmelCase_ : Optional[int] = is_training
UpperCAmelCase_ : int = use_input_mask
UpperCAmelCase_ : Optional[Any] = use_token_type_ids
UpperCAmelCase_ : Dict = use_labels
UpperCAmelCase_ : Union[str, Any] = vocab_size
UpperCAmelCase_ : Union[str, Any] = hidden_size
UpperCAmelCase_ : List[Any] = num_hidden_layers
UpperCAmelCase_ : Optional[int] = num_attention_heads
UpperCAmelCase_ : Dict = intermediate_size
UpperCAmelCase_ : List[Any] = hidden_act
UpperCAmelCase_ : int = hidden_dropout_prob
UpperCAmelCase_ : List[str] = attention_probs_dropout_prob
UpperCAmelCase_ : Any = max_position_embeddings
UpperCAmelCase_ : int = type_vocab_size
UpperCAmelCase_ : int = type_sequence_label_size
UpperCAmelCase_ : Tuple = initializer_range
UpperCAmelCase_ : Tuple = num_labels
UpperCAmelCase_ : List[str] = num_choices
UpperCAmelCase_ : Any = scope
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[int] = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size )
UpperCAmelCase_ : Tuple = None
if self.use_input_mask:
UpperCAmelCase_ : List[str] = random_attention_mask([self.batch_size, self.seq_length] )
UpperCAmelCase_ : Any = None
if self.use_token_type_ids:
UpperCAmelCase_ : Tuple = ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size )
UpperCAmelCase_ : Optional[Any] = None
UpperCAmelCase_ : Optional[int] = None
UpperCAmelCase_ : Optional[Any] = None
if self.use_labels:
UpperCAmelCase_ : int = ids_tensor([self.batch_size] , self.type_sequence_label_size )
UpperCAmelCase_ : Optional[int] = ids_tensor([self.batch_size, self.seq_length] , self.num_labels )
UpperCAmelCase_ : str = ids_tensor([self.batch_size] , self.num_choices )
UpperCAmelCase_ : int = self.get_config()
return config, input_ids, token_type_ids, input_mask, sequence_labels, token_labels, choice_labels
def UpperCamelCase__ ( self ):
"""simple docstring"""
return MraConfig(
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=lowercase_ , initializer_range=self.initializer_range , )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : int = self.get_config()
UpperCAmelCase_ : List[Any] = 300
return config
def UpperCamelCase__ ( self ):
"""simple docstring"""
(
(
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) ,
) : Union[str, Any] = self.prepare_config_and_inputs()
UpperCAmelCase_ : str = True
UpperCAmelCase_ : Union[str, Any] = floats_tensor([self.batch_size, self.seq_length, self.hidden_size] )
UpperCAmelCase_ : Dict = ids_tensor([self.batch_size, self.seq_length] , vocab_size=2 )
return (
config,
input_ids,
token_type_ids,
input_mask,
sequence_labels,
token_labels,
choice_labels,
encoder_hidden_states,
encoder_attention_mask,
)
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = MraModel(config=lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : Tuple = model(lowercase_ , attention_mask=lowercase_ , token_type_ids=lowercase_ )
UpperCAmelCase_ : Optional[int] = model(lowercase_ , token_type_ids=lowercase_ )
UpperCAmelCase_ : Tuple = model(lowercase_ )
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ , ):
"""simple docstring"""
UpperCAmelCase_ : Any = True
UpperCAmelCase_ : Union[str, Any] = MraModel(lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : List[str] = model(
lowercase_ , attention_mask=lowercase_ , token_type_ids=lowercase_ , encoder_hidden_states=lowercase_ , encoder_attention_mask=lowercase_ , )
UpperCAmelCase_ : Union[str, Any] = model(
lowercase_ , attention_mask=lowercase_ , token_type_ids=lowercase_ , encoder_hidden_states=lowercase_ , )
UpperCAmelCase_ : Dict = model(lowercase_ , attention_mask=lowercase_ , token_type_ids=lowercase_ )
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : str = MraForMaskedLM(config=lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : List[str] = model(lowercase_ , attention_mask=lowercase_ , token_type_ids=lowercase_ , labels=lowercase_ )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.seq_length, self.vocab_size) )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Dict = MraForQuestionAnswering(config=lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : int = model(
lowercase_ , attention_mask=lowercase_ , token_type_ids=lowercase_ , start_positions=lowercase_ , end_positions=lowercase_ , )
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 UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Dict = self.num_labels
UpperCAmelCase_ : Dict = MraForSequenceClassification(lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : List[Any] = model(lowercase_ , attention_mask=lowercase_ , token_type_ids=lowercase_ , labels=lowercase_ )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_labels) )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : str = self.num_labels
UpperCAmelCase_ : int = MraForTokenClassification(config=lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : List[Any] = model(lowercase_ , attention_mask=lowercase_ , token_type_ids=lowercase_ , labels=lowercase_ )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.seq_length, self.num_labels) )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Dict = self.num_choices
UpperCAmelCase_ : List[Any] = MraForMultipleChoice(config=lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : Optional[int] = input_ids.unsqueeze(1 ).expand(-1 , self.num_choices , -1 ).contiguous()
UpperCAmelCase_ : Union[str, Any] = token_type_ids.unsqueeze(1 ).expand(-1 , self.num_choices , -1 ).contiguous()
UpperCAmelCase_ : Optional[int] = input_mask.unsqueeze(1 ).expand(-1 , self.num_choices , -1 ).contiguous()
UpperCAmelCase_ : int = model(
lowercase_ , attention_mask=lowercase_ , token_type_ids=lowercase_ , labels=lowercase_ , )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_choices) )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Union[str, Any] = self.prepare_config_and_inputs()
(
(
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) ,
) : Optional[Any] = config_and_inputs
UpperCAmelCase_ : List[str] = {"input_ids": input_ids, "token_type_ids": token_type_ids, "attention_mask": input_mask}
return config, inputs_dict
@require_torch
class A_ (lowercase__ ,unittest.TestCase ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Tuple = (
(
MraModel,
MraForMaskedLM,
MraForMultipleChoice,
MraForQuestionAnswering,
MraForSequenceClassification,
MraForTokenClassification,
)
if is_torch_available()
else ()
)
SCREAMING_SNAKE_CASE__ : Optional[int] = False
SCREAMING_SNAKE_CASE__ : Optional[int] = False
SCREAMING_SNAKE_CASE__ : List[str] = False
SCREAMING_SNAKE_CASE__ : Tuple = False
SCREAMING_SNAKE_CASE__ : Dict = ()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = MraModelTester(self )
UpperCAmelCase_ : Tuple = ConfigTester(self , config_class=lowercase_ , hidden_size=37 )
def UpperCamelCase__ ( self ):
"""simple docstring"""
self.config_tester.run_common_tests()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Dict = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Any = self.model_tester.prepare_config_and_inputs()
for type in ["absolute", "relative_key", "relative_key_query"]:
UpperCAmelCase_ : Tuple = type
self.model_tester.create_and_check_model(*lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Dict = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_masked_lm(*lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : str = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_multiple_choice(*lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : str = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_question_answering(*lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_sequence_classification(*lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_token_classification(*lowercase_ )
@slow
def UpperCamelCase__ ( self ):
"""simple docstring"""
for model_name in MRA_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
UpperCAmelCase_ : Optional[int] = MraModel.from_pretrained(lowercase_ )
self.assertIsNotNone(lowercase_ )
@unittest.skip(reason="MRA does not output attentions" )
def UpperCamelCase__ ( self ):
"""simple docstring"""
return
@require_torch
class A_ (unittest.TestCase ):
'''simple docstring'''
@slow
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Any = MraModel.from_pretrained("uw-madison/mra-base-512-4" )
UpperCAmelCase_ : List[str] = torch.arange(256 ).unsqueeze(0 )
with torch.no_grad():
UpperCAmelCase_ : Optional[Any] = model(lowercase_ )[0]
UpperCAmelCase_ : str = torch.Size((1, 256, 768) )
self.assertEqual(output.shape , lowercase_ )
UpperCAmelCase_ : Optional[Any] = torch.tensor(
[[[-0.01_40, 0.08_30, -0.03_81], [0.15_46, 0.14_02, 0.02_20], [0.11_62, 0.08_51, 0.01_65]]] )
self.assertTrue(torch.allclose(output[:, :3, :3] , lowercase_ , atol=1E-4 ) )
@slow
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = MraForMaskedLM.from_pretrained("uw-madison/mra-base-512-4" )
UpperCAmelCase_ : Optional[int] = torch.arange(256 ).unsqueeze(0 )
with torch.no_grad():
UpperCAmelCase_ : Dict = model(lowercase_ )[0]
UpperCAmelCase_ : Dict = 5_0265
UpperCAmelCase_ : str = torch.Size((1, 256, vocab_size) )
self.assertEqual(output.shape , lowercase_ )
UpperCAmelCase_ : Optional[int] = torch.tensor(
[[[9.25_95, -3.60_38, 11.88_19], [9.38_69, -3.26_93, 11.09_56], [11.85_24, -3.49_38, 13.12_10]]] )
self.assertTrue(torch.allclose(output[:, :3, :3] , lowercase_ , atol=1E-4 ) )
@slow
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Dict = MraForMaskedLM.from_pretrained("uw-madison/mra-base-4096-8-d3" )
UpperCAmelCase_ : List[Any] = torch.arange(4096 ).unsqueeze(0 )
with torch.no_grad():
UpperCAmelCase_ : str = model(lowercase_ )[0]
UpperCAmelCase_ : List[str] = 5_0265
UpperCAmelCase_ : Tuple = torch.Size((1, 4096, vocab_size) )
self.assertEqual(output.shape , lowercase_ )
UpperCAmelCase_ : Optional[int] = torch.tensor(
[[[5.47_89, -2.35_64, 7.50_64], [7.90_67, -1.33_69, 9.96_68], [9.07_12, -1.81_06, 7.03_80]]] )
self.assertTrue(torch.allclose(output[:, :3, :3] , lowercase_ , atol=1E-4 ) )
| 61 |
"""simple docstring"""
import torch
from diffusers import DDIMParallelScheduler
from .test_schedulers import SchedulerCommonTest
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Optional[int] = (DDIMParallelScheduler,)
SCREAMING_SNAKE_CASE__ : Optional[Any] = (("""eta""", 0.0), ("""num_inference_steps""", 50))
def UpperCamelCase__ ( self , **lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : int = {
"num_train_timesteps": 1000,
"beta_start": 0.00_01,
"beta_end": 0.02,
"beta_schedule": "linear",
"clip_sample": True,
}
config.update(**lowercase_ )
return config
def UpperCamelCase__ ( self , **lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Dict = self.scheduler_classes[0]
UpperCAmelCase_ : Union[str, Any] = self.get_scheduler_config(**lowercase_ )
UpperCAmelCase_ : int = scheduler_class(**lowercase_ )
UpperCAmelCase_ , UpperCAmelCase_ : str = 10, 0.0
UpperCAmelCase_ : Optional[int] = self.dummy_model()
UpperCAmelCase_ : str = self.dummy_sample_deter
scheduler.set_timesteps(lowercase_ )
for t in scheduler.timesteps:
UpperCAmelCase_ : Dict = model(lowercase_ , lowercase_ )
UpperCAmelCase_ : Dict = scheduler.step(lowercase_ , lowercase_ , lowercase_ , lowercase_ ).prev_sample
return sample
def UpperCamelCase__ ( self ):
"""simple docstring"""
for timesteps in [100, 500, 1000]:
self.check_over_configs(num_train_timesteps=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for steps_offset in [0, 1]:
self.check_over_configs(steps_offset=lowercase_ )
UpperCAmelCase_ : str = self.scheduler_classes[0]
UpperCAmelCase_ : List[str] = self.get_scheduler_config(steps_offset=1 )
UpperCAmelCase_ : List[str] = scheduler_class(**lowercase_ )
scheduler.set_timesteps(5 )
assert torch.equal(scheduler.timesteps , torch.LongTensor([801, 601, 401, 201, 1] ) )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for beta_start, beta_end in zip([0.00_01, 0.0_01, 0.01, 0.1] , [0.0_02, 0.02, 0.2, 2] ):
self.check_over_configs(beta_start=lowercase_ , beta_end=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for schedule in ["linear", "squaredcos_cap_v2"]:
self.check_over_configs(beta_schedule=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for prediction_type in ["epsilon", "v_prediction"]:
self.check_over_configs(prediction_type=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for clip_sample in [True, False]:
self.check_over_configs(clip_sample=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for timestep_spacing in ["trailing", "leading"]:
self.check_over_configs(timestep_spacing=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for rescale_betas_zero_snr in [True, False]:
self.check_over_configs(rescale_betas_zero_snr=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
self.check_over_configs(thresholding=lowercase_ )
for threshold in [0.5, 1.0, 2.0]:
for prediction_type in ["epsilon", "v_prediction"]:
self.check_over_configs(
thresholding=lowercase_ , prediction_type=lowercase_ , sample_max_value=lowercase_ , )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for t in [1, 10, 49]:
self.check_over_forward(time_step=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for t, num_inference_steps in zip([1, 10, 50] , [10, 50, 500] ):
self.check_over_forward(time_step=lowercase_ , num_inference_steps=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for t, eta in zip([1, 10, 49] , [0.0, 0.5, 1.0] ):
self.check_over_forward(time_step=lowercase_ , eta=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Union[str, Any] = self.scheduler_classes[0]
UpperCAmelCase_ : List[str] = self.get_scheduler_config()
UpperCAmelCase_ : List[str] = scheduler_class(**lowercase_ )
assert torch.sum(torch.abs(scheduler._get_variance(0 , 0 ) - 0.0 ) ) < 1E-5
assert torch.sum(torch.abs(scheduler._get_variance(420 , 400 ) - 0.1_47_71 ) ) < 1E-5
assert torch.sum(torch.abs(scheduler._get_variance(980 , 960 ) - 0.3_24_60 ) ) < 1E-5
assert torch.sum(torch.abs(scheduler._get_variance(0 , 0 ) - 0.0 ) ) < 1E-5
assert torch.sum(torch.abs(scheduler._get_variance(487 , 486 ) - 0.0_09_79 ) ) < 1E-5
assert torch.sum(torch.abs(scheduler._get_variance(999 , 998 ) - 0.02 ) ) < 1E-5
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = self.scheduler_classes[0]
UpperCAmelCase_ : Optional[int] = self.get_scheduler_config()
UpperCAmelCase_ : List[str] = scheduler_class(**lowercase_ )
UpperCAmelCase_ , UpperCAmelCase_ : Tuple = 10, 0.0
scheduler.set_timesteps(lowercase_ )
UpperCAmelCase_ : Union[str, Any] = self.dummy_model()
UpperCAmelCase_ : List[str] = self.dummy_sample_deter
UpperCAmelCase_ : Any = self.dummy_sample_deter + 0.1
UpperCAmelCase_ : int = self.dummy_sample_deter - 0.1
UpperCAmelCase_ : List[Any] = samplea.shape[0]
UpperCAmelCase_ : int = torch.stack([samplea, samplea, samplea] , dim=0 )
UpperCAmelCase_ : int = torch.arange(lowercase_ )[0:3, None].repeat(1 , lowercase_ )
UpperCAmelCase_ : int = model(samples.flatten(0 , 1 ) , timesteps.flatten(0 , 1 ) )
UpperCAmelCase_ : Optional[Any] = scheduler.batch_step_no_noise(lowercase_ , timesteps.flatten(0 , 1 ) , samples.flatten(0 , 1 ) , lowercase_ )
UpperCAmelCase_ : List[Any] = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : str = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 11_47.79_04 ) < 1E-2
assert abs(result_mean.item() - 0.49_82 ) < 1E-3
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = self.full_loop()
UpperCAmelCase_ : int = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : List[str] = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 1_72.00_67 ) < 1E-2
assert abs(result_mean.item() - 0.22_39_67 ) < 1E-3
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = self.full_loop(prediction_type="v_prediction" )
UpperCAmelCase_ : str = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : Dict = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 52.53_02 ) < 1E-2
assert abs(result_mean.item() - 0.06_84 ) < 1E-3
def UpperCamelCase__ ( self ):
"""simple docstring"""
# We specify different beta, so that the first alpha is 0.99
UpperCAmelCase_ : List[str] = self.full_loop(set_alpha_to_one=lowercase_ , beta_start=0.01 )
UpperCAmelCase_ : Dict = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : Tuple = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 1_49.82_95 ) < 1E-2
assert abs(result_mean.item() - 0.19_51 ) < 1E-3
def UpperCamelCase__ ( self ):
"""simple docstring"""
# We specify different beta, so that the first alpha is 0.99
UpperCAmelCase_ : int = self.full_loop(set_alpha_to_one=lowercase_ , beta_start=0.01 )
UpperCAmelCase_ : List[Any] = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : Dict = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 1_49.07_84 ) < 1E-2
assert abs(result_mean.item() - 0.19_41 ) < 1E-3
| 61 | 1 |
"""simple docstring"""
import os
# All paths are set with the intent you should run this script from the root of the repo with the command
# python utils/check_doctest_list.py
_a = '.'
if __name__ == "__main__":
_a = os.path.join(REPO_PATH, 'utils/documentation_tests.txt')
_a = []
_a = []
with open(doctest_file_path) as fp:
for line in fp:
_a = line.strip()
_a = os.path.join(REPO_PATH, line)
if not (os.path.isfile(path) or os.path.isdir(path)):
non_existent_paths.append(line)
all_paths.append(path)
if len(non_existent_paths) > 0:
_a = '\n'.join(non_existent_paths)
raise ValueError(f"""`utils/documentation_tests.txt` contains non-existent paths:\n{non_existent_paths}""")
if all_paths != sorted(all_paths):
raise ValueError('Files in `utils/documentation_tests.txt` are not in alphabetical order.')
| 61 |
"""simple docstring"""
import inspect
import unittest
import numpy as np
from transformers import ViTConfig, is_flax_available
from transformers.testing_utils import require_flax, slow
from ...test_configuration_common import ConfigTester
from ...test_modeling_flax_common import FlaxModelTesterMixin, floats_tensor
if is_flax_available():
import jax
from transformers.models.vit.modeling_flax_vit import FlaxViTForImageClassification, FlaxViTModel
class A_ (unittest.TestCase ):
'''simple docstring'''
def __init__( self , lowercase_ , lowercase_=13 , lowercase_=30 , lowercase_=2 , lowercase_=3 , lowercase_=True , lowercase_=True , lowercase_=32 , lowercase_=5 , lowercase_=4 , lowercase_=37 , lowercase_="gelu" , lowercase_=0.1 , lowercase_=0.1 , lowercase_=10 , lowercase_=0.02 , ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = parent
UpperCAmelCase_ : List[str] = batch_size
UpperCAmelCase_ : Union[str, Any] = image_size
UpperCAmelCase_ : List[str] = patch_size
UpperCAmelCase_ : Union[str, Any] = num_channels
UpperCAmelCase_ : Optional[int] = is_training
UpperCAmelCase_ : Dict = use_labels
UpperCAmelCase_ : Any = hidden_size
UpperCAmelCase_ : Optional[Any] = num_hidden_layers
UpperCAmelCase_ : Optional[Any] = num_attention_heads
UpperCAmelCase_ : Dict = intermediate_size
UpperCAmelCase_ : Optional[Any] = hidden_act
UpperCAmelCase_ : Optional[Any] = hidden_dropout_prob
UpperCAmelCase_ : Tuple = attention_probs_dropout_prob
UpperCAmelCase_ : Dict = type_sequence_label_size
UpperCAmelCase_ : Optional[Any] = initializer_range
# in ViT, the seq length equals the number of patches + 1 (we add 1 for the [CLS] token)
UpperCAmelCase_ : Any = (image_size // patch_size) ** 2
UpperCAmelCase_ : List[str] = num_patches + 1
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] )
UpperCAmelCase_ : Dict = 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=lowercase_ , initializer_range=self.initializer_range , )
return config, pixel_values
def UpperCamelCase__ ( self , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = FlaxViTModel(config=lowercase_ )
UpperCAmelCase_ : int = model(lowercase_ )
# expected sequence length = num_patches + 1 (we add 1 for the [CLS] token)
UpperCAmelCase_ : Optional[Any] = (self.image_size, self.image_size)
UpperCAmelCase_ : List[Any] = (self.patch_size, self.patch_size)
UpperCAmelCase_ : str = (image_size[1] // patch_size[1]) * (image_size[0] // patch_size[0])
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, num_patches + 1, self.hidden_size) )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = self.type_sequence_label_size
UpperCAmelCase_ : Tuple = FlaxViTForImageClassification(config=lowercase_ )
UpperCAmelCase_ : str = model(lowercase_ )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size) )
# test greyscale images
UpperCAmelCase_ : Any = 1
UpperCAmelCase_ : Optional[int] = FlaxViTForImageClassification(lowercase_ )
UpperCAmelCase_ : List[Any] = floats_tensor([self.batch_size, 1, self.image_size, self.image_size] )
UpperCAmelCase_ : List[Any] = model(lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[Any] = self.prepare_config_and_inputs()
(
(
UpperCAmelCase_
) , (
UpperCAmelCase_
) ,
) : Tuple = config_and_inputs
UpperCAmelCase_ : Union[str, Any] = {"pixel_values": pixel_values}
return config, inputs_dict
@require_flax
class A_ (lowercase__ ,unittest.TestCase ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Any = (FlaxViTModel, FlaxViTForImageClassification) if is_flax_available() else ()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[Any] = FlaxViTModelTester(self )
UpperCAmelCase_ : Dict = ConfigTester(self , config_class=lowercase_ , has_text_modality=lowercase_ , hidden_size=37 )
def UpperCamelCase__ ( self ):
"""simple docstring"""
self.config_tester.run_common_tests()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[Any] = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_image_classification(*lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : List[str] = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
UpperCAmelCase_ : Optional[Any] = model_class(lowercase_ )
UpperCAmelCase_ : Optional[int] = inspect.signature(model.__call__ )
# signature.parameters is an OrderedDict => so arg_names order is deterministic
UpperCAmelCase_ : List[str] = [*signature.parameters.keys()]
UpperCAmelCase_ : List[str] = ["pixel_values"]
self.assertListEqual(arg_names[:1] , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Tuple = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
with self.subTest(model_class.__name__ ):
UpperCAmelCase_ : Union[str, Any] = self._prepare_for_class(lowercase_ , lowercase_ )
UpperCAmelCase_ : Tuple = model_class(lowercase_ )
@jax.jit
def model_jitted(lowercase_ , **lowercase_ ):
return model(pixel_values=lowercase_ , **lowercase_ )
with self.subTest("JIT Enabled" ):
UpperCAmelCase_ : Union[str, Any] = model_jitted(**lowercase_ ).to_tuple()
with self.subTest("JIT Disabled" ):
with jax.disable_jit():
UpperCAmelCase_ : Tuple = model_jitted(**lowercase_ ).to_tuple()
self.assertEqual(len(lowercase_ ) , len(lowercase_ ) )
for jitted_output, output in zip(lowercase_ , lowercase_ ):
self.assertEqual(jitted_output.shape , output.shape )
@slow
def UpperCamelCase__ ( self ):
"""simple docstring"""
for model_class_name in self.all_model_classes:
UpperCAmelCase_ : Union[str, Any] = model_class_name.from_pretrained("google/vit-base-patch16-224" )
UpperCAmelCase_ : List[str] = model(np.ones((1, 3, 224, 224) ) )
self.assertIsNotNone(lowercase_ )
| 61 | 1 |
"""simple docstring"""
from __future__ import annotations
def __a ( __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ , UpperCAmelCase_ : str = set(__lowerCamelCase ), [start]
while stack:
UpperCAmelCase_ : Any = stack.pop()
explored.add(__lowerCamelCase )
# Differences from BFS:
# 1) pop last element instead of first one
# 2) add adjacent elements to stack without exploring them
for adj in reversed(graph[v] ):
if adj not in explored:
stack.append(__lowerCamelCase )
return explored
_a = {
'A': ['B', 'C', 'D'],
'B': ['A', 'D', 'E'],
'C': ['A', 'F'],
'D': ['B', 'D'],
'E': ['B', 'F'],
'F': ['C', 'E', 'G'],
'G': ['F'],
}
if __name__ == "__main__":
import doctest
doctest.testmod()
print(depth_first_search(G, 'A'))
| 61 |
"""simple docstring"""
from ...utils import is_torch_available, is_transformers_available
if is_transformers_available() and is_torch_available():
from .pipeline_vq_diffusion import LearnedClassifierFreeSamplingEmbeddings, VQDiffusionPipeline
| 61 | 1 |
"""simple docstring"""
from __future__ import annotations
def __a ( __lowerCamelCase, __lowerCamelCase = None, __lowerCamelCase = None ):
if start is None:
UpperCAmelCase_ : Optional[Any] = 0
if end is None:
UpperCAmelCase_ : Union[str, Any] = len(__lowerCamelCase ) - 1
if start >= end:
return
UpperCAmelCase_ : Any = (start + end) // 2
slowsort(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase )
slowsort(__lowerCamelCase, mid + 1, __lowerCamelCase )
if sequence[end] < sequence[mid]:
UpperCAmelCase_ , UpperCAmelCase_ : List[Any] = sequence[mid], sequence[end]
slowsort(__lowerCamelCase, __lowerCamelCase, end - 1 )
if __name__ == "__main__":
from doctest import testmod
testmod()
| 61 |
"""simple docstring"""
from __future__ import annotations
import math
def __a ( __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : Any = u
for i in range(1, __lowerCamelCase ):
UpperCAmelCase_ : int = temp * (u - i)
return temp
def __a ( ):
UpperCAmelCase_ : str = int(input("enter the numbers of values: " ) )
UpperCAmelCase_ : list[list[float]] = []
for _ in range(__lowerCamelCase ):
y.append([] )
for i in range(__lowerCamelCase ):
for j in range(__lowerCamelCase ):
y[i].append(__lowerCamelCase )
UpperCAmelCase_ : Tuple = 0
print("enter the values of parameters in a list: " )
UpperCAmelCase_ : Union[str, Any] = list(map(__lowerCamelCase, input().split() ) )
print("enter the values of corresponding parameters: " )
for i in range(__lowerCamelCase ):
UpperCAmelCase_ : int = float(input() )
UpperCAmelCase_ : Tuple = int(input("enter the value to interpolate: " ) )
UpperCAmelCase_ : Tuple = (value - x[0]) / (x[1] - x[0])
# for calculating forward difference table
for i in range(1, __lowerCamelCase ):
for j in range(n - i ):
UpperCAmelCase_ : Union[str, Any] = y[j + 1][i - 1] - y[j][i - 1]
UpperCAmelCase_ : Optional[int] = y[0][0]
for i in range(1, __lowerCamelCase ):
summ += (ucal(__lowerCamelCase, __lowerCamelCase ) * y[0][i]) / math.factorial(__lowerCamelCase )
print(f"""the value at {value} is {summ}""" )
if __name__ == "__main__":
main()
| 61 | 1 |
"""simple docstring"""
from typing import Dict, Optional, Union
import numpy as np
from ...image_processing_utils import BaseImageProcessor, BatchFeature, get_size_dict
from ...image_transforms import flip_channel_order, resize, to_channel_dimension_format, to_pil_image
from ...image_utils import (
ChannelDimension,
ImageInput,
PILImageResampling,
make_list_of_images,
to_numpy_array,
valid_images,
)
from ...utils import TensorType, is_pytesseract_available, is_vision_available, logging, requires_backends
if is_vision_available():
import PIL
# soft dependency
if is_pytesseract_available():
import pytesseract
_a = logging.get_logger(__name__)
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
return [
int(1000 * (box[0] / width) ),
int(1000 * (box[1] / height) ),
int(1000 * (box[2] / width) ),
int(1000 * (box[3] / height) ),
]
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = None ):
UpperCAmelCase_ : List[Any] = tesseract_config if tesseract_config is not None else ""
# apply OCR
UpperCAmelCase_ : List[Any] = to_pil_image(__lowerCamelCase )
UpperCAmelCase_ , UpperCAmelCase_ : Optional[int] = pil_image.size
UpperCAmelCase_ : Optional[int] = pytesseract.image_to_data(__lowerCamelCase, lang=__lowerCamelCase, output_type="dict", config=__lowerCamelCase )
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : List[Any] = data["text"], data["left"], data["top"], data["width"], data["height"]
# filter empty words and corresponding coordinates
UpperCAmelCase_ : List[str] = [idx for idx, word in enumerate(__lowerCamelCase ) if not word.strip()]
UpperCAmelCase_ : Dict = [word for idx, word in enumerate(__lowerCamelCase ) if idx not in irrelevant_indices]
UpperCAmelCase_ : List[Any] = [coord for idx, coord in enumerate(__lowerCamelCase ) if idx not in irrelevant_indices]
UpperCAmelCase_ : List[str] = [coord for idx, coord in enumerate(__lowerCamelCase ) if idx not in irrelevant_indices]
UpperCAmelCase_ : Any = [coord for idx, coord in enumerate(__lowerCamelCase ) if idx not in irrelevant_indices]
UpperCAmelCase_ : Tuple = [coord for idx, coord in enumerate(__lowerCamelCase ) if idx not in irrelevant_indices]
# turn coordinates into (left, top, left+width, top+height) format
UpperCAmelCase_ : Dict = []
for x, y, w, h in zip(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : Union[str, Any] = [x, y, x + w, y + h]
actual_boxes.append(__lowerCamelCase )
# finally, normalize the bounding boxes
UpperCAmelCase_ : int = []
for box in actual_boxes:
normalized_boxes.append(normalize_box(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase ) )
assert len(__lowerCamelCase ) == len(__lowerCamelCase ), "Not as many words as there are bounding boxes"
return words, normalized_boxes
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : List[str] = ["""pixel_values"""]
def __init__( self , lowercase_ = True , lowercase_ = None , lowercase_ = PILImageResampling.BILINEAR , lowercase_ = True , lowercase_ = None , lowercase_ = "" , **lowercase_ , ):
"""simple docstring"""
super().__init__(**lowercase_ )
UpperCAmelCase_ : Tuple = size if size is not None else {"height": 224, "width": 224}
UpperCAmelCase_ : Optional[Any] = get_size_dict(lowercase_ )
UpperCAmelCase_ : Any = do_resize
UpperCAmelCase_ : Optional[Any] = size
UpperCAmelCase_ : str = resample
UpperCAmelCase_ : Optional[int] = apply_ocr
UpperCAmelCase_ : List[str] = ocr_lang
UpperCAmelCase_ : Optional[Any] = tesseract_config
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ = PILImageResampling.BILINEAR , lowercase_ = None , **lowercase_ , ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = get_size_dict(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()}""" )
UpperCAmelCase_ : Optional[Any] = (size["height"], size["width"])
return resize(lowercase_ , size=lowercase_ , resample=lowercase_ , data_format=lowercase_ , **lowercase_ )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ = None , lowercase_ = None , lowercase_ = None , lowercase_ = None , lowercase_ = None , lowercase_ = None , lowercase_ = None , lowercase_ = ChannelDimension.FIRST , **lowercase_ , ):
"""simple docstring"""
UpperCAmelCase_ : str = do_resize if do_resize is not None else self.do_resize
UpperCAmelCase_ : Optional[int] = size if size is not None else self.size
UpperCAmelCase_ : Union[str, Any] = get_size_dict(lowercase_ )
UpperCAmelCase_ : List[Any] = resample if resample is not None else self.resample
UpperCAmelCase_ : int = apply_ocr if apply_ocr is not None else self.apply_ocr
UpperCAmelCase_ : Any = ocr_lang if ocr_lang is not None else self.ocr_lang
UpperCAmelCase_ : Union[str, Any] = tesseract_config if tesseract_config is not None else self.tesseract_config
UpperCAmelCase_ : Union[str, Any] = 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:
raise ValueError("Size must be specified if do_resize is True." )
# All transformations expect numpy arrays.
UpperCAmelCase_ : Any = [to_numpy_array(lowercase_ ) for image in images]
if apply_ocr:
requires_backends(self , "pytesseract" )
UpperCAmelCase_ : Any = []
UpperCAmelCase_ : List[str] = []
for image in images:
UpperCAmelCase_ , UpperCAmelCase_ : Optional[Any] = apply_tesseract(lowercase_ , lowercase_ , lowercase_ )
words_batch.append(lowercase_ )
boxes_batch.append(lowercase_ )
if do_resize:
UpperCAmelCase_ : Dict = [self.resize(image=lowercase_ , size=lowercase_ , resample=lowercase_ ) for image in images]
# flip color channels from RGB to BGR (as Detectron2 requires this)
UpperCAmelCase_ : Dict = [flip_channel_order(lowercase_ ) for image in images]
UpperCAmelCase_ : Any = [to_channel_dimension_format(lowercase_ , lowercase_ ) for image in images]
UpperCAmelCase_ : Any = BatchFeature(data={"pixel_values": images} , tensor_type=lowercase_ )
if apply_ocr:
UpperCAmelCase_ : str = words_batch
UpperCAmelCase_ : List[Any] = boxes_batch
return data
| 61 |
"""simple docstring"""
import argparse
import json
import pickle
from pathlib import Path
import requests
import torch
from huggingface_hub import hf_hub_download
from PIL import Image
from transformers import MaskFormerConfig, MaskFormerForInstanceSegmentation, MaskFormerImageProcessor, SwinConfig
from transformers.utils import logging
logging.set_verbosity_info()
_a = logging.get_logger(__name__)
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : Optional[Any] = SwinConfig.from_pretrained(
"microsoft/swin-tiny-patch4-window7-224", out_features=["stage1", "stage2", "stage3", "stage4"] )
UpperCAmelCase_ : Dict = MaskFormerConfig(backbone_config=__lowerCamelCase )
UpperCAmelCase_ : int = "huggingface/label-files"
if "ade20k-full" in model_name:
# this should be ok
UpperCAmelCase_ : Dict = 847
UpperCAmelCase_ : str = "maskformer-ade20k-full-id2label.json"
elif "ade" in model_name:
# this should be ok
UpperCAmelCase_ : Tuple = 150
UpperCAmelCase_ : int = "ade20k-id2label.json"
elif "coco-stuff" in model_name:
# this should be ok
UpperCAmelCase_ : str = 171
UpperCAmelCase_ : Optional[int] = "maskformer-coco-stuff-id2label.json"
elif "coco" in model_name:
# TODO
UpperCAmelCase_ : int = 133
UpperCAmelCase_ : Tuple = "coco-panoptic-id2label.json"
elif "cityscapes" in model_name:
# this should be ok
UpperCAmelCase_ : List[Any] = 19
UpperCAmelCase_ : Optional[int] = "cityscapes-id2label.json"
elif "vistas" in model_name:
# this should be ok
UpperCAmelCase_ : Any = 65
UpperCAmelCase_ : Union[str, Any] = "mapillary-vistas-id2label.json"
UpperCAmelCase_ : Any = json.load(open(hf_hub_download(__lowerCamelCase, __lowerCamelCase, repo_type="dataset" ), "r" ) )
UpperCAmelCase_ : int = {int(__lowerCamelCase ): v for k, v in idalabel.items()}
return config
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : Dict = []
# stem
# fmt: off
rename_keys.append(("backbone.patch_embed.proj.weight", "model.pixel_level_module.encoder.model.embeddings.patch_embeddings.projection.weight") )
rename_keys.append(("backbone.patch_embed.proj.bias", "model.pixel_level_module.encoder.model.embeddings.patch_embeddings.projection.bias") )
rename_keys.append(("backbone.patch_embed.norm.weight", "model.pixel_level_module.encoder.model.embeddings.norm.weight") )
rename_keys.append(("backbone.patch_embed.norm.bias", "model.pixel_level_module.encoder.model.embeddings.norm.bias") )
# stages
for i in range(len(config.backbone_config.depths ) ):
for j in range(config.backbone_config.depths[i] ):
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.norm1.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.layernorm_before.weight""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.norm1.bias""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.layernorm_before.bias""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.attn.relative_position_bias_table""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.attention.self.relative_position_bias_table""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.attn.relative_position_index""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.attention.self.relative_position_index""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.attn.proj.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.attention.output.dense.weight""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.attn.proj.bias""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.attention.output.dense.bias""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.norm2.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.layernorm_after.weight""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.norm2.bias""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.layernorm_after.bias""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.mlp.fc1.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.intermediate.dense.weight""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.mlp.fc1.bias""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.intermediate.dense.bias""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.mlp.fc2.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.output.dense.weight""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.mlp.fc2.bias""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.output.dense.bias""") )
if i < 3:
rename_keys.append((f"""backbone.layers.{i}.downsample.reduction.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.downsample.reduction.weight""") )
rename_keys.append((f"""backbone.layers.{i}.downsample.norm.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.downsample.norm.weight""") )
rename_keys.append((f"""backbone.layers.{i}.downsample.norm.bias""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.downsample.norm.bias""") )
rename_keys.append((f"""backbone.norm{i}.weight""", f"""model.pixel_level_module.encoder.hidden_states_norms.{i}.weight""") )
rename_keys.append((f"""backbone.norm{i}.bias""", f"""model.pixel_level_module.encoder.hidden_states_norms.{i}.bias""") )
# FPN
rename_keys.append(("sem_seg_head.layer_4.weight", "model.pixel_level_module.decoder.fpn.stem.0.weight") )
rename_keys.append(("sem_seg_head.layer_4.norm.weight", "model.pixel_level_module.decoder.fpn.stem.1.weight") )
rename_keys.append(("sem_seg_head.layer_4.norm.bias", "model.pixel_level_module.decoder.fpn.stem.1.bias") )
for source_index, target_index in zip(range(3, 0, -1 ), range(0, 3 ) ):
rename_keys.append((f"""sem_seg_head.adapter_{source_index}.weight""", f"""model.pixel_level_module.decoder.fpn.layers.{target_index}.proj.0.weight""") )
rename_keys.append((f"""sem_seg_head.adapter_{source_index}.norm.weight""", f"""model.pixel_level_module.decoder.fpn.layers.{target_index}.proj.1.weight""") )
rename_keys.append((f"""sem_seg_head.adapter_{source_index}.norm.bias""", f"""model.pixel_level_module.decoder.fpn.layers.{target_index}.proj.1.bias""") )
rename_keys.append((f"""sem_seg_head.layer_{source_index}.weight""", f"""model.pixel_level_module.decoder.fpn.layers.{target_index}.block.0.weight""") )
rename_keys.append((f"""sem_seg_head.layer_{source_index}.norm.weight""", f"""model.pixel_level_module.decoder.fpn.layers.{target_index}.block.1.weight""") )
rename_keys.append((f"""sem_seg_head.layer_{source_index}.norm.bias""", f"""model.pixel_level_module.decoder.fpn.layers.{target_index}.block.1.bias""") )
rename_keys.append(("sem_seg_head.mask_features.weight", "model.pixel_level_module.decoder.mask_projection.weight") )
rename_keys.append(("sem_seg_head.mask_features.bias", "model.pixel_level_module.decoder.mask_projection.bias") )
# Transformer decoder
for idx in range(config.decoder_config.decoder_layers ):
# self-attention out projection
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.self_attn.out_proj.weight""", f"""model.transformer_module.decoder.layers.{idx}.self_attn.out_proj.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.self_attn.out_proj.bias""", f"""model.transformer_module.decoder.layers.{idx}.self_attn.out_proj.bias""") )
# cross-attention out projection
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.multihead_attn.out_proj.weight""", f"""model.transformer_module.decoder.layers.{idx}.encoder_attn.out_proj.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.multihead_attn.out_proj.bias""", f"""model.transformer_module.decoder.layers.{idx}.encoder_attn.out_proj.bias""") )
# MLP 1
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.linear1.weight""", f"""model.transformer_module.decoder.layers.{idx}.fc1.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.linear1.bias""", f"""model.transformer_module.decoder.layers.{idx}.fc1.bias""") )
# MLP 2
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.linear2.weight""", f"""model.transformer_module.decoder.layers.{idx}.fc2.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.linear2.bias""", f"""model.transformer_module.decoder.layers.{idx}.fc2.bias""") )
# layernorm 1 (self-attention layernorm)
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.norm1.weight""", f"""model.transformer_module.decoder.layers.{idx}.self_attn_layer_norm.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.norm1.bias""", f"""model.transformer_module.decoder.layers.{idx}.self_attn_layer_norm.bias""") )
# layernorm 2 (cross-attention layernorm)
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.norm2.weight""", f"""model.transformer_module.decoder.layers.{idx}.encoder_attn_layer_norm.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.norm2.bias""", f"""model.transformer_module.decoder.layers.{idx}.encoder_attn_layer_norm.bias""") )
# layernorm 3 (final layernorm)
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.norm3.weight""", f"""model.transformer_module.decoder.layers.{idx}.final_layer_norm.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.norm3.bias""", f"""model.transformer_module.decoder.layers.{idx}.final_layer_norm.bias""") )
rename_keys.append(("sem_seg_head.predictor.transformer.decoder.norm.weight", "model.transformer_module.decoder.layernorm.weight") )
rename_keys.append(("sem_seg_head.predictor.transformer.decoder.norm.bias", "model.transformer_module.decoder.layernorm.bias") )
# heads on top
rename_keys.append(("sem_seg_head.predictor.query_embed.weight", "model.transformer_module.queries_embedder.weight") )
rename_keys.append(("sem_seg_head.predictor.input_proj.weight", "model.transformer_module.input_projection.weight") )
rename_keys.append(("sem_seg_head.predictor.input_proj.bias", "model.transformer_module.input_projection.bias") )
rename_keys.append(("sem_seg_head.predictor.class_embed.weight", "class_predictor.weight") )
rename_keys.append(("sem_seg_head.predictor.class_embed.bias", "class_predictor.bias") )
for i in range(3 ):
rename_keys.append((f"""sem_seg_head.predictor.mask_embed.layers.{i}.weight""", f"""mask_embedder.{i}.0.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.mask_embed.layers.{i}.bias""", f"""mask_embedder.{i}.0.bias""") )
# fmt: on
return rename_keys
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : Union[str, Any] = dct.pop(__lowerCamelCase )
UpperCAmelCase_ : str = val
def __a ( __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : int = [int(backbone_config.embed_dim * 2**i ) for i in range(len(backbone_config.depths ) )]
for i in range(len(backbone_config.depths ) ):
UpperCAmelCase_ : List[Any] = num_features[i]
for j in range(backbone_config.depths[i] ):
# fmt: off
# read in weights + bias of input projection layer (in original implementation, this is a single matrix + bias)
UpperCAmelCase_ : Tuple = state_dict.pop(f"""backbone.layers.{i}.blocks.{j}.attn.qkv.weight""" )
UpperCAmelCase_ : Optional[int] = state_dict.pop(f"""backbone.layers.{i}.blocks.{j}.attn.qkv.bias""" )
# next, add query, keys and values (in that order) to the state dict
UpperCAmelCase_ : Tuple = in_proj_weight[:dim, :]
UpperCAmelCase_ : List[Any] = in_proj_bias[: dim]
UpperCAmelCase_ : Any = in_proj_weight[
dim : dim * 2, :
]
UpperCAmelCase_ : Optional[int] = in_proj_bias[
dim : dim * 2
]
UpperCAmelCase_ : Tuple = in_proj_weight[
-dim :, :
]
UpperCAmelCase_ : Tuple = in_proj_bias[-dim :]
# fmt: on
def __a ( __lowerCamelCase, __lowerCamelCase ):
# fmt: off
UpperCAmelCase_ : Dict = config.decoder_config.hidden_size
for idx in range(config.decoder_config.decoder_layers ):
# read in weights + bias of self-attention input projection layer (in the original implementation, this is a single matrix + bias)
UpperCAmelCase_ : int = state_dict.pop(f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.self_attn.in_proj_weight""" )
UpperCAmelCase_ : int = state_dict.pop(f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.self_attn.in_proj_bias""" )
# next, add query, keys and values (in that order) to the state dict
UpperCAmelCase_ : Any = in_proj_weight[: hidden_size, :]
UpperCAmelCase_ : int = in_proj_bias[:config.hidden_size]
UpperCAmelCase_ : Any = in_proj_weight[hidden_size : hidden_size * 2, :]
UpperCAmelCase_ : List[Any] = in_proj_bias[hidden_size : hidden_size * 2]
UpperCAmelCase_ : Dict = in_proj_weight[-hidden_size :, :]
UpperCAmelCase_ : List[Any] = in_proj_bias[-hidden_size :]
# read in weights + bias of cross-attention input projection layer (in the original implementation, this is a single matrix + bias)
UpperCAmelCase_ : str = state_dict.pop(f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.multihead_attn.in_proj_weight""" )
UpperCAmelCase_ : Dict = state_dict.pop(f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.multihead_attn.in_proj_bias""" )
# next, add query, keys and values (in that order) to the state dict
UpperCAmelCase_ : str = in_proj_weight[: hidden_size, :]
UpperCAmelCase_ : Tuple = in_proj_bias[:config.hidden_size]
UpperCAmelCase_ : int = in_proj_weight[hidden_size : hidden_size * 2, :]
UpperCAmelCase_ : List[str] = in_proj_bias[hidden_size : hidden_size * 2]
UpperCAmelCase_ : List[Any] = in_proj_weight[-hidden_size :, :]
UpperCAmelCase_ : Optional[Any] = in_proj_bias[-hidden_size :]
# fmt: on
def __a ( ):
UpperCAmelCase_ : List[Any] = "http://images.cocodataset.org/val2017/000000039769.jpg"
UpperCAmelCase_ : Tuple = Image.open(requests.get(__lowerCamelCase, stream=__lowerCamelCase ).raw )
return im
@torch.no_grad()
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = False ):
UpperCAmelCase_ : List[str] = get_maskformer_config(__lowerCamelCase )
# load original state_dict
with open(__lowerCamelCase, "rb" ) as f:
UpperCAmelCase_ : Union[str, Any] = pickle.load(__lowerCamelCase )
UpperCAmelCase_ : str = data["model"]
# for name, param in state_dict.items():
# print(name, param.shape)
# rename keys
UpperCAmelCase_ : int = create_rename_keys(__lowerCamelCase )
for src, dest in rename_keys:
rename_key(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase )
read_in_swin_q_k_v(__lowerCamelCase, config.backbone_config )
read_in_decoder_q_k_v(__lowerCamelCase, __lowerCamelCase )
# update to torch tensors
for key, value in state_dict.items():
UpperCAmelCase_ : Optional[int] = torch.from_numpy(__lowerCamelCase )
# load 🤗 model
UpperCAmelCase_ : Dict = MaskFormerForInstanceSegmentation(__lowerCamelCase )
model.eval()
for name, param in model.named_parameters():
print(__lowerCamelCase, param.shape )
UpperCAmelCase_ , UpperCAmelCase_ : str = model.load_state_dict(__lowerCamelCase, strict=__lowerCamelCase )
assert missing_keys == [
"model.pixel_level_module.encoder.model.layernorm.weight",
"model.pixel_level_module.encoder.model.layernorm.bias",
]
assert len(__lowerCamelCase ) == 0, f"""Unexpected keys: {unexpected_keys}"""
# verify results
UpperCAmelCase_ : Optional[int] = prepare_img()
if "vistas" in model_name:
UpperCAmelCase_ : List[str] = 65
elif "cityscapes" in model_name:
UpperCAmelCase_ : Tuple = 6_5535
else:
UpperCAmelCase_ : Dict = 255
UpperCAmelCase_ : Optional[Any] = True if "ade" in model_name else False
UpperCAmelCase_ : Dict = MaskFormerImageProcessor(ignore_index=__lowerCamelCase, reduce_labels=__lowerCamelCase )
UpperCAmelCase_ : Union[str, Any] = image_processor(__lowerCamelCase, return_tensors="pt" )
UpperCAmelCase_ : Dict = model(**__lowerCamelCase )
print("Logits:", outputs.class_queries_logits[0, :3, :3] )
if model_name == "maskformer-swin-tiny-ade":
UpperCAmelCase_ : Any = torch.tensor(
[[3.6353, -4.4770, -2.6065], [0.5081, -4.2394, -3.5343], [2.1909, -5.0353, -1.9323]] )
assert torch.allclose(outputs.class_queries_logits[0, :3, :3], __lowerCamelCase, atol=1E-4 )
print("Looks ok!" )
if pytorch_dump_folder_path is not None:
print(f"""Saving model and image processor to {pytorch_dump_folder_path}""" )
Path(__lowerCamelCase ).mkdir(exist_ok=__lowerCamelCase )
model.save_pretrained(__lowerCamelCase )
image_processor.save_pretrained(__lowerCamelCase )
if push_to_hub:
print("Pushing model and image processor to the hub..." )
model.push_to_hub(f"""nielsr/{model_name}""" )
image_processor.push_to_hub(f"""nielsr/{model_name}""" )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
'--model_name',
default='maskformer-swin-tiny-ade',
type=str,
help=('Name of the MaskFormer model you\'d like to convert',),
)
parser.add_argument(
'--checkpoint_path',
default='/Users/nielsrogge/Documents/MaskFormer_checkpoints/MaskFormer-Swin-tiny-ADE20k/model.pkl',
type=str,
help='Path to the original state dict (.pth file).',
)
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.'
)
_a = parser.parse_args()
convert_maskformer_checkpoint(
args.model_name, args.checkpoint_path, args.pytorch_dump_folder_path, args.push_to_hub
)
| 61 | 1 |
"""simple docstring"""
from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available
_a = {}
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
_a = ['MLukeTokenizer']
if TYPE_CHECKING:
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_mluke import MLukeTokenizer
else:
import sys
_a = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)
| 61 |
"""simple docstring"""
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : List[str] = int(__lowerCamelCase )
if n_element < 1:
UpperCAmelCase_ : List[Any] = ValueError("a should be a positive number" )
raise my_error
UpperCAmelCase_ : List[Any] = [1]
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : Optional[int] = (0, 0, 0)
UpperCAmelCase_ : Dict = 1
while index < n_element:
while hamming_list[i] * 2 <= hamming_list[-1]:
i += 1
while hamming_list[j] * 3 <= hamming_list[-1]:
j += 1
while hamming_list[k] * 5 <= hamming_list[-1]:
k += 1
hamming_list.append(
min(hamming_list[i] * 2, hamming_list[j] * 3, hamming_list[k] * 5 ) )
index += 1
return hamming_list
if __name__ == "__main__":
_a = input('Enter the last number (nth term) of the Hamming Number Series: ')
print('Formula of Hamming Number Series => 2^i * 3^j * 5^k')
_a = hamming(int(n))
print('-----------------------------------------------------')
print(f"""The list with nth numbers is: {hamming_numbers}""")
print('-----------------------------------------------------')
| 61 | 1 |
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,
)
if is_sentencepiece_available():
from ..ta.tokenization_ta import TaTokenizer
else:
from ...utils.dummy_sentencepiece_objects import TaTokenizer
UpperCAmelCase__ = TaTokenizer
if is_tokenizers_available():
from ..ta.tokenization_ta_fast import TaTokenizerFast
else:
from ...utils.dummy_tokenizers_objects import TaTokenizerFast
UpperCAmelCase__ = TaTokenizerFast
UpperCAmelCase__ = {"configuration_mt5": ["MT5Config", "MT5OnnxConfig"]}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase__ = [
"MT5EncoderModel",
"MT5ForConditionalGeneration",
"MT5ForQuestionAnswering",
"MT5Model",
"MT5PreTrainedModel",
"MT5Stack",
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase__ = ["TFMT5EncoderModel", "TFMT5ForConditionalGeneration", "TFMT5Model"]
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase__ = ["FlaxMT5EncoderModel", "FlaxMT5ForConditionalGeneration", "FlaxMT5Model"]
if TYPE_CHECKING:
from .configuration_mta import MTaConfig, MTaOnnxConfig
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_mta import (
MTaEncoderModel,
MTaForConditionalGeneration,
MTaForQuestionAnswering,
MTaModel,
MTaPreTrainedModel,
MTaStack,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_mta import TFMTaEncoderModel, TFMTaForConditionalGeneration, TFMTaModel
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_mta import FlaxMTaEncoderModel, FlaxMTaForConditionalGeneration, FlaxMTaModel
else:
import sys
UpperCAmelCase__ = _LazyModule(
__name__,
globals()["__file__"],
_import_structure,
extra_objects={"MT5Tokenizer": MTaTokenizer, "MT5TokenizerFast": MTaTokenizerFast},
module_spec=__spec__,
)
| 0 |
"""simple docstring"""
from math import cos, sin, sqrt, tau
from audio_filters.iir_filter import IIRFilter
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ) ):
UpperCAmelCase_ : int = tau * frequency / samplerate
UpperCAmelCase_ : List[str] = sin(__lowerCamelCase )
UpperCAmelCase_ : int = cos(__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = _sin / (2 * q_factor)
UpperCAmelCase_ : int = (1 - _cos) / 2
UpperCAmelCase_ : Optional[Any] = 1 - _cos
UpperCAmelCase_ : int = 1 + alpha
UpperCAmelCase_ : Dict = -2 * _cos
UpperCAmelCase_ : Tuple = 1 - alpha
UpperCAmelCase_ : Dict = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ) ):
UpperCAmelCase_ : Dict = tau * frequency / samplerate
UpperCAmelCase_ : Tuple = sin(__lowerCamelCase )
UpperCAmelCase_ : Any = cos(__lowerCamelCase )
UpperCAmelCase_ : List[str] = _sin / (2 * q_factor)
UpperCAmelCase_ : List[Any] = (1 + _cos) / 2
UpperCAmelCase_ : Optional[int] = -1 - _cos
UpperCAmelCase_ : Union[str, Any] = 1 + alpha
UpperCAmelCase_ : Optional[int] = -2 * _cos
UpperCAmelCase_ : Tuple = 1 - alpha
UpperCAmelCase_ : List[str] = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ) ):
UpperCAmelCase_ : Union[str, Any] = tau * frequency / samplerate
UpperCAmelCase_ : str = sin(__lowerCamelCase )
UpperCAmelCase_ : Tuple = cos(__lowerCamelCase )
UpperCAmelCase_ : List[Any] = _sin / (2 * q_factor)
UpperCAmelCase_ : Any = _sin / 2
UpperCAmelCase_ : Union[str, Any] = 0
UpperCAmelCase_ : Tuple = -ba
UpperCAmelCase_ : Optional[Any] = 1 + alpha
UpperCAmelCase_ : Dict = -2 * _cos
UpperCAmelCase_ : Optional[int] = 1 - alpha
UpperCAmelCase_ : List[str] = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ) ):
UpperCAmelCase_ : Any = tau * frequency / samplerate
UpperCAmelCase_ : Any = sin(__lowerCamelCase )
UpperCAmelCase_ : Optional[int] = cos(__lowerCamelCase )
UpperCAmelCase_ : str = _sin / (2 * q_factor)
UpperCAmelCase_ : List[str] = 1 - alpha
UpperCAmelCase_ : str = -2 * _cos
UpperCAmelCase_ : Any = 1 + alpha
UpperCAmelCase_ : Tuple = IIRFilter(2 )
filt.set_coefficients([ba, ba, ba], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ), ):
UpperCAmelCase_ : Dict = tau * frequency / samplerate
UpperCAmelCase_ : Union[str, Any] = sin(__lowerCamelCase )
UpperCAmelCase_ : int = cos(__lowerCamelCase )
UpperCAmelCase_ : Optional[int] = _sin / (2 * q_factor)
UpperCAmelCase_ : List[str] = 10 ** (gain_db / 40)
UpperCAmelCase_ : List[Any] = 1 + alpha * big_a
UpperCAmelCase_ : Tuple = -2 * _cos
UpperCAmelCase_ : Tuple = 1 - alpha * big_a
UpperCAmelCase_ : str = 1 + alpha / big_a
UpperCAmelCase_ : List[str] = -2 * _cos
UpperCAmelCase_ : List[str] = 1 - alpha / big_a
UpperCAmelCase_ : Tuple = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ), ):
UpperCAmelCase_ : str = tau * frequency / samplerate
UpperCAmelCase_ : int = sin(__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = cos(__lowerCamelCase )
UpperCAmelCase_ : Tuple = _sin / (2 * q_factor)
UpperCAmelCase_ : List[Any] = 10 ** (gain_db / 40)
UpperCAmelCase_ : Tuple = (big_a + 1) - (big_a - 1) * _cos
UpperCAmelCase_ : int = (big_a + 1) + (big_a - 1) * _cos
UpperCAmelCase_ : Optional[Any] = (big_a - 1) - (big_a + 1) * _cos
UpperCAmelCase_ : Optional[int] = (big_a - 1) + (big_a + 1) * _cos
UpperCAmelCase_ : Dict = 2 * sqrt(__lowerCamelCase ) * alpha
UpperCAmelCase_ : List[str] = big_a * (pmc + aaa)
UpperCAmelCase_ : int = 2 * big_a * mpc
UpperCAmelCase_ : int = big_a * (pmc - aaa)
UpperCAmelCase_ : Dict = ppmc + aaa
UpperCAmelCase_ : Any = -2 * pmpc
UpperCAmelCase_ : List[str] = ppmc - aaa
UpperCAmelCase_ : List[Any] = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ), ):
UpperCAmelCase_ : int = tau * frequency / samplerate
UpperCAmelCase_ : Optional[Any] = sin(__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = cos(__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = _sin / (2 * q_factor)
UpperCAmelCase_ : Tuple = 10 ** (gain_db / 40)
UpperCAmelCase_ : Tuple = (big_a + 1) - (big_a - 1) * _cos
UpperCAmelCase_ : Optional[Any] = (big_a + 1) + (big_a - 1) * _cos
UpperCAmelCase_ : List[Any] = (big_a - 1) - (big_a + 1) * _cos
UpperCAmelCase_ : Any = (big_a - 1) + (big_a + 1) * _cos
UpperCAmelCase_ : Dict = 2 * sqrt(__lowerCamelCase ) * alpha
UpperCAmelCase_ : Any = big_a * (ppmc + aaa)
UpperCAmelCase_ : Union[str, Any] = -2 * big_a * pmpc
UpperCAmelCase_ : Dict = big_a * (ppmc - aaa)
UpperCAmelCase_ : Optional[int] = pmc + aaa
UpperCAmelCase_ : Union[str, Any] = 2 * mpc
UpperCAmelCase_ : int = pmc - aaa
UpperCAmelCase_ : Union[str, Any] = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
| 61 | 0 |
'''simple docstring'''
import json
import os
import unittest
from transformers.models.gptsan_japanese.tokenization_gptsan_japanese import (
VOCAB_FILES_NAMES,
GPTSanJapaneseTokenizer,
)
from transformers.testing_utils import require_tokenizers, slow
from ...test_tokenization_common import TokenizerTesterMixin
@require_tokenizers
class __A ( UpperCamelCase__ , unittest.TestCase ):
a__ : List[Any] = GPTSanJapaneseTokenizer
a__ : Optional[Any] = False
a__ : List[str] = {"""do_clean_text""": False, """add_prefix_space""": False}
def _lowercase (self : Union[str, Any] ):
super().setUp()
# fmt: off
UpperCAmelCase_ = ["こん", "こんに", "にちは", "ばんは", "世界,㔺界", "、", "。", "<BR>", "<SP>", "<TAB>", "<URL>", "<EMAIL>", "<TEL>", "<DATE>", "<PRICE>", "<BLOCK>", "<KIGOU>", "<U2000U2BFF>", "<|emoji1|>", "<unk>", "<|bagoftoken|>", "<|endoftext|>"]
# fmt: on
UpperCAmelCase_ = {"emoji": {"\ud83d\ude00": "<|emoji1|>"}, "emoji_inv": {"<|emoji1|>": "\ud83d\ude00"}} # 😀
UpperCAmelCase_ = {"unk_token": "<unk>"}
UpperCAmelCase_ = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES["vocab_file"] )
UpperCAmelCase_ = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES["emoji_file"] )
with open(self.vocab_file , "w" , encoding="utf-8" ) as vocab_writer:
vocab_writer.write("".join([x + "\n" for x in vocab_tokens] ) )
with open(self.emoji_file , "w" ) as emoji_writer:
emoji_writer.write(json.dumps(__a ) )
def _lowercase (self : List[Any] , **__a : str ):
kwargs.update(self.special_tokens_map )
return GPTSanJapaneseTokenizer.from_pretrained(self.tmpdirname , **__a )
def _lowercase (self : str , __a : Tuple ):
UpperCAmelCase_ = "こんにちは、世界。 \nこんばんは、㔺界。😀"
UpperCAmelCase_ = "こんにちは、世界。 \nこんばんは、世界。😀"
return input_text, output_text
def _lowercase (self : str , __a : List[Any] ):
UpperCAmelCase_ , UpperCAmelCase_ = self.get_input_output_texts(__a )
UpperCAmelCase_ = tokenizer.encode(__a , add_special_tokens=__a )
UpperCAmelCase_ = tokenizer.decode(__a , clean_up_tokenization_spaces=__a )
return text, ids
def _lowercase (self : str ):
pass # TODO add if relevant
def _lowercase (self : str ):
pass # TODO add if relevant
def _lowercase (self : List[Any] ):
pass # TODO add if relevant
def _lowercase (self : Any ):
UpperCAmelCase_ = self.get_tokenizer()
# Testing tokenization
UpperCAmelCase_ = "こんにちは、世界。 こんばんは、㔺界。"
UpperCAmelCase_ = ["こん", "にちは", "、", "世界", "。", "<SP>", "こん", "ばんは", "、", "㔺界", "。"]
UpperCAmelCase_ = tokenizer.tokenize(__a )
self.assertListEqual(__a , __a )
# Testing conversion to ids without special tokens
UpperCAmelCase_ = [0, 2, 5, 4, 6, 8, 0, 3, 5, 4, 6]
UpperCAmelCase_ = tokenizer.convert_tokens_to_ids(__a )
self.assertListEqual(__a , __a )
# Testing conversion to ids with special tokens
UpperCAmelCase_ = tokens + [tokenizer.unk_token]
UpperCAmelCase_ = [0, 2, 5, 4, 6, 8, 0, 3, 5, 4, 6, 19]
UpperCAmelCase_ = tokenizer.convert_tokens_to_ids(__a )
self.assertListEqual(__a , __a )
def _lowercase (self : Tuple ):
UpperCAmelCase_ = self.get_tokenizer()
# Testing tokenization
UpperCAmelCase_ = "こんにちは、<|bagoftoken|>世界。こんばんは、<|bagoftoken|>㔺界。"
UpperCAmelCase_ = "こんにちは、、、、世界。こんばんは、、、、世界。"
UpperCAmelCase_ = tokenizer.encode(__a )
UpperCAmelCase_ = tokenizer.decode(__a )
self.assertEqual(__a , __a )
@slow
def _lowercase (self : Optional[Any] ):
UpperCAmelCase_ = self.tokenizer_class.from_pretrained("Tanrei/GPTSAN-japanese" )
# Testing tokenization
UpperCAmelCase_ = "こんにちは、世界。"
UpperCAmelCase_ = "こんばんは、㔺界。😀"
UpperCAmelCase_ = "こんにちは、世界。こんばんは、世界。😀"
UpperCAmelCase_ = tokenizer.encode(prefix_text + input_text )
UpperCAmelCase_ = tokenizer.encode("" , prefix_text=prefix_text + input_text )
UpperCAmelCase_ = tokenizer.encode(__a , prefix_text=__a )
UpperCAmelCase_ = tokenizer.decode(__a )
UpperCAmelCase_ = tokenizer.decode(__a )
UpperCAmelCase_ = tokenizer.decode(__a )
self.assertEqual(__a , __a )
self.assertEqual(__a , __a )
self.assertEqual(__a , __a )
@slow
def _lowercase (self : Optional[Any] ):
UpperCAmelCase_ = self.tokenizer_class.from_pretrained("Tanrei/GPTSAN-japanese" )
# Testing tokenization
UpperCAmelCase_ = "こんにちは、世界。"
UpperCAmelCase_ = "こんばんは、㔺界。😀"
UpperCAmelCase_ = len(tokenizer.encode(__a ) ) - 2
UpperCAmelCase_ = len(tokenizer.encode(__a ) ) - 2
UpperCAmelCase_ = [1] + [0] * (len_prefix + len_text + 1)
UpperCAmelCase_ = [1] * (len_prefix + len_text + 1) + [0]
UpperCAmelCase_ = [1] + [1] * (len_prefix) + [0] * (len_text + 1)
UpperCAmelCase_ = tokenizer(prefix_text + input_text ).token_type_ids
UpperCAmelCase_ = tokenizer("" , prefix_text=prefix_text + input_text ).token_type_ids
UpperCAmelCase_ = tokenizer(__a , prefix_text=__a ).token_type_ids
self.assertListEqual(__a , __a )
self.assertListEqual(__a , __a )
self.assertListEqual(__a , __a )
@slow
def _lowercase (self : Optional[int] ):
UpperCAmelCase_ = self.tokenizer_class.from_pretrained("Tanrei/GPTSAN-japanese" )
UpperCAmelCase_ = tokenizer.encode("あンいワ" )
UpperCAmelCase_ = tokenizer.encode("" , prefix_text="あンいワ" )
UpperCAmelCase_ = tokenizer.encode("いワ" , prefix_text="あン" )
self.assertEqual(tokenizer.decode(__a ) , tokenizer.decode(__a ) )
self.assertEqual(tokenizer.decode(__a ) , tokenizer.decode(__a ) )
self.assertNotEqual(__a , __a )
self.assertNotEqual(__a , __a )
self.assertEqual(x_token_a[1] , x_token_a[-1] ) # SEG token
self.assertEqual(x_token_a[1] , x_token_a[3] ) # SEG token
@slow
def _lowercase (self : int ):
UpperCAmelCase_ = self.tokenizer_class.from_pretrained("Tanrei/GPTSAN-japanese" )
UpperCAmelCase_ = [["武田信玄", "は、"], ["織田信長", "の配下の、"]]
UpperCAmelCase_ = tokenizer(__a , padding=__a )
UpperCAmelCase_ = tokenizer.batch_encode_plus(__a , padding=__a )
# fmt: off
UpperCAmelCase_ = [[35993, 8640, 25948, 35998, 30647, 35675, 35999, 35999], [35993, 10382, 9868, 35998, 30646, 9459, 30646, 35675]]
UpperCAmelCase_ = [[1, 1, 1, 0, 0, 0, 0, 0], [1, 1, 1, 0, 0, 0, 0, 0]]
UpperCAmelCase_ = [[1, 1, 1, 1, 1, 1, 0, 0], [1, 1, 1, 1, 1, 1, 1, 1]]
# fmt: on
self.assertListEqual(x_token.input_ids , __a )
self.assertListEqual(x_token.token_type_ids , __a )
self.assertListEqual(x_token.attention_mask , __a )
self.assertListEqual(x_token_a.input_ids , __a )
self.assertListEqual(x_token_a.token_type_ids , __a )
self.assertListEqual(x_token_a.attention_mask , __a )
def _lowercase (self : List[Any] ):
# Intentionally convert some words to accommodate character fluctuations unique to Japanese
pass
def _lowercase (self : List[str] ):
# tokenizer has no padding token
pass
| 1 |
"""simple docstring"""
import argparse
import io
import requests
import torch
from omegaconf import OmegaConf
from diffusers import AutoencoderKL
from diffusers.pipelines.stable_diffusion.convert_from_ckpt import (
assign_to_checkpoint,
conv_attn_to_linear,
create_vae_diffusers_config,
renew_vae_attention_paths,
renew_vae_resnet_paths,
)
def __a ( __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : str = checkpoint
UpperCAmelCase_ : int = {}
UpperCAmelCase_ : Optional[int] = vae_state_dict["encoder.conv_in.weight"]
UpperCAmelCase_ : List[str] = vae_state_dict["encoder.conv_in.bias"]
UpperCAmelCase_ : Optional[Any] = vae_state_dict["encoder.conv_out.weight"]
UpperCAmelCase_ : Optional[int] = vae_state_dict["encoder.conv_out.bias"]
UpperCAmelCase_ : List[Any] = vae_state_dict["encoder.norm_out.weight"]
UpperCAmelCase_ : Union[str, Any] = vae_state_dict["encoder.norm_out.bias"]
UpperCAmelCase_ : Any = vae_state_dict["decoder.conv_in.weight"]
UpperCAmelCase_ : int = vae_state_dict["decoder.conv_in.bias"]
UpperCAmelCase_ : Any = vae_state_dict["decoder.conv_out.weight"]
UpperCAmelCase_ : Tuple = vae_state_dict["decoder.conv_out.bias"]
UpperCAmelCase_ : List[Any] = vae_state_dict["decoder.norm_out.weight"]
UpperCAmelCase_ : Tuple = vae_state_dict["decoder.norm_out.bias"]
UpperCAmelCase_ : str = vae_state_dict["quant_conv.weight"]
UpperCAmelCase_ : Optional[Any] = vae_state_dict["quant_conv.bias"]
UpperCAmelCase_ : List[str] = vae_state_dict["post_quant_conv.weight"]
UpperCAmelCase_ : List[Any] = vae_state_dict["post_quant_conv.bias"]
# Retrieves the keys for the encoder down blocks only
UpperCAmelCase_ : Optional[Any] = len({".".join(layer.split("." )[:3] ) for layer in vae_state_dict if "encoder.down" in layer} )
UpperCAmelCase_ : Optional[Any] = {
layer_id: [key for key in vae_state_dict if f"""down.{layer_id}""" in key] for layer_id in range(__lowerCamelCase )
}
# Retrieves the keys for the decoder up blocks only
UpperCAmelCase_ : Dict = len({".".join(layer.split("." )[:3] ) for layer in vae_state_dict if "decoder.up" in layer} )
UpperCAmelCase_ : Optional[int] = {
layer_id: [key for key in vae_state_dict if f"""up.{layer_id}""" in key] for layer_id in range(__lowerCamelCase )
}
for i in range(__lowerCamelCase ):
UpperCAmelCase_ : Any = [key for key in down_blocks[i] if f"""down.{i}""" in key and f"""down.{i}.downsample""" not in key]
if f"""encoder.down.{i}.downsample.conv.weight""" in vae_state_dict:
UpperCAmelCase_ : Dict = vae_state_dict.pop(
f"""encoder.down.{i}.downsample.conv.weight""" )
UpperCAmelCase_ : Dict = vae_state_dict.pop(
f"""encoder.down.{i}.downsample.conv.bias""" )
UpperCAmelCase_ : List[str] = renew_vae_resnet_paths(__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = {"old": f"""down.{i}.block""", "new": f"""down_blocks.{i}.resnets"""}
assign_to_checkpoint(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, additional_replacements=[meta_path], config=__lowerCamelCase )
UpperCAmelCase_ : List[Any] = [key for key in vae_state_dict if "encoder.mid.block" in key]
UpperCAmelCase_ : Tuple = 2
for i in range(1, num_mid_res_blocks + 1 ):
UpperCAmelCase_ : str = [key for key in mid_resnets if f"""encoder.mid.block_{i}""" in key]
UpperCAmelCase_ : List[Any] = renew_vae_resnet_paths(__lowerCamelCase )
UpperCAmelCase_ : Optional[int] = {"old": f"""mid.block_{i}""", "new": f"""mid_block.resnets.{i - 1}"""}
assign_to_checkpoint(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, additional_replacements=[meta_path], config=__lowerCamelCase )
UpperCAmelCase_ : Optional[int] = [key for key in vae_state_dict if "encoder.mid.attn" in key]
UpperCAmelCase_ : Union[str, Any] = renew_vae_attention_paths(__lowerCamelCase )
UpperCAmelCase_ : int = {"old": "mid.attn_1", "new": "mid_block.attentions.0"}
assign_to_checkpoint(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, additional_replacements=[meta_path], config=__lowerCamelCase )
conv_attn_to_linear(__lowerCamelCase )
for i in range(__lowerCamelCase ):
UpperCAmelCase_ : Optional[Any] = num_up_blocks - 1 - i
UpperCAmelCase_ : Any = [
key for key in up_blocks[block_id] if f"""up.{block_id}""" in key and f"""up.{block_id}.upsample""" not in key
]
if f"""decoder.up.{block_id}.upsample.conv.weight""" in vae_state_dict:
UpperCAmelCase_ : str = vae_state_dict[
f"""decoder.up.{block_id}.upsample.conv.weight"""
]
UpperCAmelCase_ : Optional[Any] = vae_state_dict[
f"""decoder.up.{block_id}.upsample.conv.bias"""
]
UpperCAmelCase_ : Dict = renew_vae_resnet_paths(__lowerCamelCase )
UpperCAmelCase_ : List[str] = {"old": f"""up.{block_id}.block""", "new": f"""up_blocks.{i}.resnets"""}
assign_to_checkpoint(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, additional_replacements=[meta_path], config=__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = [key for key in vae_state_dict if "decoder.mid.block" in key]
UpperCAmelCase_ : List[Any] = 2
for i in range(1, num_mid_res_blocks + 1 ):
UpperCAmelCase_ : str = [key for key in mid_resnets if f"""decoder.mid.block_{i}""" in key]
UpperCAmelCase_ : Tuple = renew_vae_resnet_paths(__lowerCamelCase )
UpperCAmelCase_ : Tuple = {"old": f"""mid.block_{i}""", "new": f"""mid_block.resnets.{i - 1}"""}
assign_to_checkpoint(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, additional_replacements=[meta_path], config=__lowerCamelCase )
UpperCAmelCase_ : Optional[int] = [key for key in vae_state_dict if "decoder.mid.attn" in key]
UpperCAmelCase_ : Any = renew_vae_attention_paths(__lowerCamelCase )
UpperCAmelCase_ : Union[str, Any] = {"old": "mid.attn_1", "new": "mid_block.attentions.0"}
assign_to_checkpoint(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, additional_replacements=[meta_path], config=__lowerCamelCase )
conv_attn_to_linear(__lowerCamelCase )
return new_checkpoint
def __a ( __lowerCamelCase, __lowerCamelCase, ):
# Only support V1
UpperCAmelCase_ : List[str] = requests.get(
" https://raw.githubusercontent.com/CompVis/stable-diffusion/main/configs/stable-diffusion/v1-inference.yaml" )
UpperCAmelCase_ : List[Any] = io.BytesIO(r.content )
UpperCAmelCase_ : Any = OmegaConf.load(__lowerCamelCase )
UpperCAmelCase_ : Union[str, Any] = 512
UpperCAmelCase_ : Optional[Any] = "cuda" if torch.cuda.is_available() else "cpu"
if checkpoint_path.endswith("safetensors" ):
from safetensors import safe_open
UpperCAmelCase_ : int = {}
with safe_open(__lowerCamelCase, framework="pt", device="cpu" ) as f:
for key in f.keys():
UpperCAmelCase_ : Tuple = f.get_tensor(__lowerCamelCase )
else:
UpperCAmelCase_ : Any = torch.load(__lowerCamelCase, map_location=__lowerCamelCase )["state_dict"]
# Convert the VAE model.
UpperCAmelCase_ : Dict = create_vae_diffusers_config(__lowerCamelCase, image_size=__lowerCamelCase )
UpperCAmelCase_ : Union[str, Any] = custom_convert_ldm_vae_checkpoint(__lowerCamelCase, __lowerCamelCase )
UpperCAmelCase_ : int = AutoencoderKL(**__lowerCamelCase )
vae.load_state_dict(__lowerCamelCase )
vae.save_pretrained(__lowerCamelCase )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
parser.add_argument('--vae_pt_path', default=None, type=str, required=True, help='Path to the VAE.pt to convert.')
parser.add_argument('--dump_path', default=None, type=str, required=True, help='Path to the VAE.pt to convert.')
_a = parser.parse_args()
vae_pt_to_vae_diffuser(args.vae_pt_path, args.dump_path)
| 61 | 0 |
'''simple docstring'''
import bza
import gzip
import lzma
import os
import shutil
import struct
import tarfile
import warnings
import zipfile
from abc import ABC, abstractmethod
from pathlib import Path
from typing import Dict, List, Optional, Type, Union
from .. import config
from .filelock import FileLock
from .logging import get_logger
lowerCamelCase : Tuple = get_logger(__name__)
class __lowerCAmelCase :
'''simple docstring'''
def __init__(self : Tuple , UpperCamelCase : Optional[str] = None ):
'''simple docstring'''
lowercase__ = (
os.path.join(UpperCamelCase , config.EXTRACTED_DATASETS_DIR ) if cache_dir else config.EXTRACTED_DATASETS_PATH
)
lowercase__ = Extractor
def UpperCamelCase__ (self : Union[str, Any] , UpperCamelCase : str ):
'''simple docstring'''
from .file_utils import hash_url_to_filename
# Path where we extract compressed archives
# We extract in the cache dir, and get the extracted path name by hashing the original path"
lowercase__ = os.path.abspath(UpperCamelCase )
return os.path.join(self.extract_dir , hash_url_to_filename(UpperCamelCase ) )
def UpperCamelCase__ (self : List[str] , UpperCamelCase : str , UpperCamelCase : bool ):
'''simple docstring'''
return force_extract or (
not os.path.isfile(UpperCamelCase ) and not (os.path.isdir(UpperCamelCase ) and os.listdir(UpperCamelCase ))
)
def UpperCamelCase__ (self : Dict , UpperCamelCase : str , UpperCamelCase : bool = False ):
'''simple docstring'''
lowercase__ = self.extractor.infer_extractor_format(UpperCamelCase )
if not extractor_format:
return input_path
lowercase__ = self._get_output_path(UpperCamelCase )
if self._do_extract(UpperCamelCase , UpperCamelCase ):
self.extractor.extract(UpperCamelCase , UpperCamelCase , UpperCamelCase )
return output_path
class __lowerCAmelCase (lowercase_ ):
'''simple docstring'''
@classmethod
@abstractmethod
def UpperCamelCase__ (cls : Any , UpperCamelCase : Union[Path, str] , **UpperCamelCase : Optional[Any] ):
'''simple docstring'''
...
@staticmethod
@abstractmethod
def UpperCamelCase__ (UpperCamelCase : Union[Path, str] , UpperCamelCase : Union[Path, str] ):
'''simple docstring'''
...
class __lowerCAmelCase (lowercase_ , lowercase_ ):
'''simple docstring'''
lowerCAmelCase__ : List[bytes] = []
@staticmethod
def UpperCamelCase__ (UpperCamelCase : Union[Path, str] , UpperCamelCase : int ):
'''simple docstring'''
with open(UpperCamelCase , '''rb''' ) as f:
return f.read(UpperCamelCase )
@classmethod
def UpperCamelCase__ (cls : int , UpperCamelCase : Union[Path, str] , UpperCamelCase : bytes = b"" ):
'''simple docstring'''
if not magic_number:
lowercase__ = max(len(UpperCamelCase ) for cls_magic_number in cls.magic_numbers )
try:
lowercase__ = cls.read_magic_number(UpperCamelCase , UpperCamelCase )
except OSError:
return False
return any(magic_number.startswith(UpperCamelCase ) for cls_magic_number in cls.magic_numbers )
class __lowerCAmelCase (lowercase_ ):
'''simple docstring'''
@classmethod
def UpperCamelCase__ (cls : Optional[int] , UpperCamelCase : Union[Path, str] , **UpperCamelCase : List[Any] ):
'''simple docstring'''
return tarfile.is_tarfile(UpperCamelCase )
@staticmethod
def UpperCamelCase__ (UpperCamelCase : List[str] , UpperCamelCase : Optional[int] ):
'''simple docstring'''
def resolved(UpperCamelCase : str ) -> str:
return os.path.realpath(os.path.abspath(UpperCamelCase ) )
def badpath(UpperCamelCase : str , UpperCamelCase : str ) -> bool:
# joinpath will ignore base if path is absolute
return not resolved(os.path.join(UpperCamelCase , UpperCamelCase ) ).startswith(UpperCamelCase )
def badlink(UpperCamelCase : int , UpperCamelCase : str ) -> bool:
# Links are interpreted relative to the directory containing the link
lowercase__ = resolved(os.path.join(UpperCamelCase , os.path.dirname(info.name ) ) )
return badpath(info.linkname , base=UpperCamelCase )
lowercase__ = resolved(UpperCamelCase )
for finfo in members:
if badpath(finfo.name , UpperCamelCase ):
logger.error(f"Extraction of {finfo.name} is blocked (illegal path)" )
elif finfo.issym() and badlink(UpperCamelCase , UpperCamelCase ):
logger.error(f"Extraction of {finfo.name} is blocked: Symlink to {finfo.linkname}" )
elif finfo.islnk() and badlink(UpperCamelCase , UpperCamelCase ):
logger.error(f"Extraction of {finfo.name} is blocked: Hard link to {finfo.linkname}" )
else:
yield finfo
@staticmethod
def UpperCamelCase__ (UpperCamelCase : Union[Path, str] , UpperCamelCase : Union[Path, str] ):
'''simple docstring'''
os.makedirs(UpperCamelCase , exist_ok=UpperCamelCase )
lowercase__ = tarfile.open(UpperCamelCase )
tar_file.extractall(UpperCamelCase , members=TarExtractor.safemembers(UpperCamelCase , UpperCamelCase ) )
tar_file.close()
class __lowerCAmelCase (lowercase_ ):
'''simple docstring'''
lowerCAmelCase__ : Union[str, Any] = [B"""\x1F\x8B"""]
@staticmethod
def UpperCamelCase__ (UpperCamelCase : Union[Path, str] , UpperCamelCase : Union[Path, str] ):
'''simple docstring'''
with gzip.open(UpperCamelCase , '''rb''' ) as gzip_file:
with open(UpperCamelCase , '''wb''' ) as extracted_file:
shutil.copyfileobj(UpperCamelCase , UpperCamelCase )
class __lowerCAmelCase (lowercase_ ):
'''simple docstring'''
lowerCAmelCase__ : Optional[int] = [
B"""PK\x03\x04""",
B"""PK\x05\x06""", # empty archive
B"""PK\x07\x08""", # spanned archive
]
@classmethod
def UpperCamelCase__ (cls : Tuple , UpperCamelCase : Union[Path, str] , UpperCamelCase : bytes = b"" ):
'''simple docstring'''
if super().is_extractable(UpperCamelCase , magic_number=UpperCamelCase ):
return True
try:
# Alternative version of zipfile.is_zipfile that has less false positives, but misses executable zip archives.
# From: https://github.com/python/cpython/pull/5053
from zipfile import (
_CD_SIGNATURE,
_ECD_DISK_NUMBER,
_ECD_DISK_START,
_ECD_ENTRIES_TOTAL,
_ECD_OFFSET,
_ECD_SIZE,
_EndRecData,
sizeCentralDir,
stringCentralDir,
structCentralDir,
)
with open(UpperCamelCase , '''rb''' ) as fp:
lowercase__ = _EndRecData(UpperCamelCase )
if endrec:
if endrec[_ECD_ENTRIES_TOTAL] == 0 and endrec[_ECD_SIZE] == 0 and endrec[_ECD_OFFSET] == 0:
return True # Empty zipfiles are still zipfiles
elif endrec[_ECD_DISK_NUMBER] == endrec[_ECD_DISK_START]:
fp.seek(endrec[_ECD_OFFSET] ) # Central directory is on the same disk
if fp.tell() == endrec[_ECD_OFFSET] and endrec[_ECD_SIZE] >= sizeCentralDir:
lowercase__ = fp.read(UpperCamelCase ) # CD is where we expect it to be
if len(UpperCamelCase ) == sizeCentralDir:
lowercase__ = struct.unpack(UpperCamelCase , UpperCamelCase ) # CD is the right size
if centdir[_CD_SIGNATURE] == stringCentralDir:
return True # First central directory entry has correct magic number
return False
except Exception: # catch all errors in case future python versions change the zipfile internals
return False
@staticmethod
def UpperCamelCase__ (UpperCamelCase : Union[Path, str] , UpperCamelCase : Union[Path, str] ):
'''simple docstring'''
os.makedirs(UpperCamelCase , exist_ok=UpperCamelCase )
with zipfile.ZipFile(UpperCamelCase , '''r''' ) as zip_file:
zip_file.extractall(UpperCamelCase )
zip_file.close()
class __lowerCAmelCase (lowercase_ ):
'''simple docstring'''
lowerCAmelCase__ : Dict = [B"""\xFD\x37\x7A\x58\x5A\x00"""]
@staticmethod
def UpperCamelCase__ (UpperCamelCase : Union[Path, str] , UpperCamelCase : Union[Path, str] ):
'''simple docstring'''
with lzma.open(UpperCamelCase ) as compressed_file:
with open(UpperCamelCase , '''wb''' ) as extracted_file:
shutil.copyfileobj(UpperCamelCase , UpperCamelCase )
class __lowerCAmelCase (lowercase_ ):
'''simple docstring'''
lowerCAmelCase__ : Dict = [B"""Rar!\x1a\x07\x00""", B"""Rar!\x1a\x07\x01\x00"""] # RAR_ID # RAR5_ID
@staticmethod
def UpperCamelCase__ (UpperCamelCase : Union[Path, str] , UpperCamelCase : Union[Path, str] ):
'''simple docstring'''
if not config.RARFILE_AVAILABLE:
raise ImportError('''Please pip install rarfile''' )
import rarfile
os.makedirs(UpperCamelCase , exist_ok=UpperCamelCase )
lowercase__ = rarfile.RarFile(UpperCamelCase )
rf.extractall(UpperCamelCase )
rf.close()
class __lowerCAmelCase (lowercase_ ):
'''simple docstring'''
lowerCAmelCase__ : List[str] = [B"""\x28\xb5\x2F\xFD"""]
@staticmethod
def UpperCamelCase__ (UpperCamelCase : Union[Path, str] , UpperCamelCase : Union[Path, str] ):
'''simple docstring'''
if not config.ZSTANDARD_AVAILABLE:
raise ImportError('''Please pip install zstandard''' )
import zstandard as zstd
lowercase__ = zstd.ZstdDecompressor()
with open(UpperCamelCase , '''rb''' ) as ifh, open(UpperCamelCase , '''wb''' ) as ofh:
dctx.copy_stream(UpperCamelCase , UpperCamelCase )
class __lowerCAmelCase (lowercase_ ):
'''simple docstring'''
lowerCAmelCase__ : List[str] = [B"""\x42\x5A\x68"""]
@staticmethod
def UpperCamelCase__ (UpperCamelCase : Union[Path, str] , UpperCamelCase : Union[Path, str] ):
'''simple docstring'''
with bza.open(UpperCamelCase , '''rb''' ) as compressed_file:
with open(UpperCamelCase , '''wb''' ) as extracted_file:
shutil.copyfileobj(UpperCamelCase , UpperCamelCase )
class __lowerCAmelCase (lowercase_ ):
'''simple docstring'''
lowerCAmelCase__ : List[str] = [B"""\x37\x7A\xBC\xAF\x27\x1C"""]
@staticmethod
def UpperCamelCase__ (UpperCamelCase : Union[Path, str] , UpperCamelCase : Union[Path, str] ):
'''simple docstring'''
if not config.PY7ZR_AVAILABLE:
raise ImportError('''Please pip install py7zr''' )
import pyazr
os.makedirs(UpperCamelCase , exist_ok=UpperCamelCase )
with pyazr.SevenZipFile(UpperCamelCase , '''r''' ) as archive:
archive.extractall(UpperCamelCase )
class __lowerCAmelCase (lowercase_ ):
'''simple docstring'''
lowerCAmelCase__ : List[Any] = [B"""\x04\x22\x4D\x18"""]
@staticmethod
def UpperCamelCase__ (UpperCamelCase : Union[Path, str] , UpperCamelCase : Union[Path, str] ):
'''simple docstring'''
if not config.LZ4_AVAILABLE:
raise ImportError('''Please pip install lz4''' )
import lza.frame
with lza.frame.open(UpperCamelCase , '''rb''' ) as compressed_file:
with open(UpperCamelCase , '''wb''' ) as extracted_file:
shutil.copyfileobj(UpperCamelCase , UpperCamelCase )
class __lowerCAmelCase :
'''simple docstring'''
lowerCAmelCase__ : Dict[str, Type[BaseExtractor]] = {
"tar": TarExtractor,
"gzip": GzipExtractor,
"zip": ZipExtractor,
"xz": XzExtractor,
"rar": RarExtractor,
"zstd": ZstdExtractor,
"bz2": BzipaExtractor,
"7z": SevenZipExtractor, # <Added version="2.4.0"/>
"lz4": LzaExtractor, # <Added version="2.4.0"/>
}
@classmethod
def UpperCamelCase__ (cls : Optional[Any] ):
'''simple docstring'''
return max(
len(UpperCamelCase )
for extractor in cls.extractors.values()
if issubclass(UpperCamelCase , UpperCamelCase )
for extractor_magic_number in extractor.magic_numbers )
@staticmethod
def UpperCamelCase__ (UpperCamelCase : Union[Path, str] , UpperCamelCase : int ):
'''simple docstring'''
try:
return MagicNumberBaseExtractor.read_magic_number(UpperCamelCase , magic_number_length=UpperCamelCase )
except OSError:
return b""
@classmethod
def UpperCamelCase__ (cls : Any , UpperCamelCase : Union[Path, str] , UpperCamelCase : bool = False ):
'''simple docstring'''
warnings.warn(
'''Method \'is_extractable\' was deprecated in version 2.4.0 and will be removed in 3.0.0. '''
'''Use \'infer_extractor_format\' instead.''' , category=UpperCamelCase , )
lowercase__ = cls.infer_extractor_format(UpperCamelCase )
if extractor_format:
return True if not return_extractor else (True, cls.extractors[extractor_format])
return False if not return_extractor else (False, None)
@classmethod
def UpperCamelCase__ (cls : int , UpperCamelCase : Union[Path, str] ): # <Added version="2.4.0"/>
'''simple docstring'''
lowercase__ = cls._get_magic_number_max_length()
lowercase__ = cls._read_magic_number(UpperCamelCase , UpperCamelCase )
for extractor_format, extractor in cls.extractors.items():
if extractor.is_extractable(UpperCamelCase , magic_number=UpperCamelCase ):
return extractor_format
@classmethod
def UpperCamelCase__ (cls : Optional[Any] , UpperCamelCase : Union[Path, str] , UpperCamelCase : Union[Path, str] , UpperCamelCase : Optional[str] = None , UpperCamelCase : Optional[BaseExtractor] = "deprecated" , ):
'''simple docstring'''
os.makedirs(os.path.dirname(UpperCamelCase ) , exist_ok=UpperCamelCase )
# Prevent parallel extractions
lowercase__ = str(Path(UpperCamelCase ).with_suffix('''.lock''' ) )
with FileLock(UpperCamelCase ):
shutil.rmtree(UpperCamelCase , ignore_errors=UpperCamelCase )
if extractor_format or extractor != "deprecated":
if extractor != "deprecated" or not isinstance(UpperCamelCase , UpperCamelCase ): # passed as positional arg
warnings.warn(
'''Parameter \'extractor\' was deprecated in version 2.4.0 and will be removed in 3.0.0. '''
'''Use \'extractor_format\' instead.''' , category=UpperCamelCase , )
lowercase__ = extractor if extractor != '''deprecated''' else extractor_format
else:
lowercase__ = cls.extractors[extractor_format]
return extractor.extract(UpperCamelCase , UpperCamelCase )
else:
warnings.warn(
'''Parameter \'extractor_format\' was made required in version 2.4.0 and not passing it will raise an '''
'''exception in 3.0.0.''' , category=UpperCamelCase , )
for extractor in cls.extractors.values():
if extractor.is_extractable(UpperCamelCase ):
return extractor.extract(UpperCamelCase , UpperCamelCase )
| 2 |
"""simple docstring"""
import unittest
import numpy as np
import timeout_decorator # noqa
from transformers import BlenderbotSmallConfig, is_flax_available
from transformers.testing_utils import require_flax, slow
from ...generation.test_flax_utils import FlaxGenerationTesterMixin
from ...test_modeling_flax_common import FlaxModelTesterMixin, ids_tensor
if is_flax_available():
import os
# The slow tests are often failing with OOM error on GPU
# This makes JAX allocate exactly what is needed on demand, and deallocate memory that is no longer needed
# but will be slower as stated here https://jax.readthedocs.io/en/latest/gpu_memory_allocation.html
_a = 'platform'
import jax
import jax.numpy as jnp
from transformers.models.blenderbot_small.modeling_flax_blenderbot_small import (
FlaxBlenderbotSmallForConditionalGeneration,
FlaxBlenderbotSmallModel,
shift_tokens_right,
)
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase=None, __lowerCamelCase=None, __lowerCamelCase=None, __lowerCamelCase=None, __lowerCamelCase=None, __lowerCamelCase=None, ):
if attention_mask is None:
UpperCAmelCase_ : Union[str, Any] = np.where(input_ids != config.pad_token_id, 1, 0 )
if decoder_attention_mask is None:
UpperCAmelCase_ : Optional[int] = np.where(decoder_input_ids != config.pad_token_id, 1, 0 )
if head_mask is None:
UpperCAmelCase_ : int = np.ones((config.encoder_layers, config.encoder_attention_heads) )
if decoder_head_mask is None:
UpperCAmelCase_ : Union[str, Any] = np.ones((config.decoder_layers, config.decoder_attention_heads) )
if cross_attn_head_mask is None:
UpperCAmelCase_ : List[Any] = np.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": attention_mask,
}
class A_ :
'''simple docstring'''
def __init__( self , lowercase_ , lowercase_=13 , lowercase_=7 , lowercase_=True , lowercase_=False , lowercase_=99 , lowercase_=16 , lowercase_=2 , lowercase_=4 , lowercase_=4 , lowercase_="gelu" , lowercase_=0.1 , lowercase_=0.1 , lowercase_=32 , lowercase_=2 , lowercase_=1 , lowercase_=0 , lowercase_=0.02 , ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = parent
UpperCAmelCase_ : Tuple = batch_size
UpperCAmelCase_ : str = seq_length
UpperCAmelCase_ : Dict = is_training
UpperCAmelCase_ : List[Any] = use_labels
UpperCAmelCase_ : Optional[int] = vocab_size
UpperCAmelCase_ : int = hidden_size
UpperCAmelCase_ : Optional[Any] = num_hidden_layers
UpperCAmelCase_ : Dict = num_attention_heads
UpperCAmelCase_ : List[str] = intermediate_size
UpperCAmelCase_ : Optional[int] = hidden_act
UpperCAmelCase_ : str = hidden_dropout_prob
UpperCAmelCase_ : int = attention_probs_dropout_prob
UpperCAmelCase_ : Optional[Any] = max_position_embeddings
UpperCAmelCase_ : str = eos_token_id
UpperCAmelCase_ : str = pad_token_id
UpperCAmelCase_ : str = bos_token_id
UpperCAmelCase_ : List[Any] = initializer_range
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = np.clip(ids_tensor([self.batch_size, self.seq_length - 1] , self.vocab_size ) , 3 , self.vocab_size )
UpperCAmelCase_ : Any = np.concatenate((input_ids, 2 * np.ones((self.batch_size, 1) , dtype=np.intaa )) , -1 )
UpperCAmelCase_ : str = shift_tokens_right(lowercase_ , 1 , 2 )
UpperCAmelCase_ : str = BlenderbotSmallConfig(
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_id=self.eos_token_id , bos_token_id=self.bos_token_id , pad_token_id=self.pad_token_id , initializer_range=self.initializer_range , use_cache=lowercase_ , )
UpperCAmelCase_ : Optional[int] = prepare_blenderbot_inputs_dict(lowercase_ , lowercase_ , lowercase_ )
return config, inputs_dict
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Optional[int] = self.prepare_config_and_inputs()
return config, inputs_dict
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = 20
UpperCAmelCase_ : int = model_class_name(lowercase_ )
UpperCAmelCase_ : Optional[int] = model.encode(inputs_dict["input_ids"] )
UpperCAmelCase_ , UpperCAmelCase_ : Any = (
inputs_dict["decoder_input_ids"],
inputs_dict["decoder_attention_mask"],
)
UpperCAmelCase_ : Any = model.init_cache(decoder_input_ids.shape[0] , lowercase_ , lowercase_ )
UpperCAmelCase_ : Tuple = jnp.ones((decoder_input_ids.shape[0], max_decoder_length) , dtype="i4" )
UpperCAmelCase_ : Union[str, Any] = jnp.broadcast_to(
jnp.arange(decoder_input_ids.shape[-1] - 1 )[None, :] , (decoder_input_ids.shape[0], decoder_input_ids.shape[-1] - 1) , )
UpperCAmelCase_ : int = model.decode(
decoder_input_ids[:, :-1] , lowercase_ , decoder_attention_mask=lowercase_ , past_key_values=lowercase_ , decoder_position_ids=lowercase_ , )
UpperCAmelCase_ : int = jnp.array(decoder_input_ids.shape[0] * [[decoder_input_ids.shape[-1] - 1]] , dtype="i4" )
UpperCAmelCase_ : Dict = model.decode(
decoder_input_ids[:, -1:] , lowercase_ , decoder_attention_mask=lowercase_ , past_key_values=outputs_cache.past_key_values , decoder_position_ids=lowercase_ , )
UpperCAmelCase_ : Optional[Any] = model.decode(lowercase_ , lowercase_ )
UpperCAmelCase_ : Tuple = np.max(np.abs((outputs_cache_next[0][:, -1, :5] - outputs[0][:, -1, :5]) ) )
self.parent.assertTrue(diff < 1E-3 , msg=F"""Max diff is {diff}""" )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = 20
UpperCAmelCase_ : Any = model_class_name(lowercase_ )
UpperCAmelCase_ : Tuple = model.encode(inputs_dict["input_ids"] )
UpperCAmelCase_ , UpperCAmelCase_ : List[Any] = (
inputs_dict["decoder_input_ids"],
inputs_dict["decoder_attention_mask"],
)
UpperCAmelCase_ : Optional[Any] = jnp.concatenate(
[
decoder_attention_mask,
jnp.zeros((decoder_attention_mask.shape[0], max_decoder_length - decoder_attention_mask.shape[1]) ),
] , axis=-1 , )
UpperCAmelCase_ : int = model.init_cache(decoder_input_ids.shape[0] , lowercase_ , lowercase_ )
UpperCAmelCase_ : List[str] = jnp.broadcast_to(
jnp.arange(decoder_input_ids.shape[-1] - 1 )[None, :] , (decoder_input_ids.shape[0], decoder_input_ids.shape[-1] - 1) , )
UpperCAmelCase_ : List[str] = model.decode(
decoder_input_ids[:, :-1] , lowercase_ , decoder_attention_mask=lowercase_ , past_key_values=lowercase_ , decoder_position_ids=lowercase_ , )
UpperCAmelCase_ : Any = jnp.array(decoder_input_ids.shape[0] * [[decoder_input_ids.shape[-1] - 1]] , dtype="i4" )
UpperCAmelCase_ : Dict = model.decode(
decoder_input_ids[:, -1:] , lowercase_ , past_key_values=outputs_cache.past_key_values , decoder_attention_mask=lowercase_ , decoder_position_ids=lowercase_ , )
UpperCAmelCase_ : Dict = model.decode(lowercase_ , lowercase_ , decoder_attention_mask=lowercase_ )
UpperCAmelCase_ : Optional[Any] = np.max(np.abs((outputs_cache_next[0][:, -1, :5] - outputs[0][:, -1, :5]) ) )
self.parent.assertTrue(diff < 1E-3 , msg=F"""Max diff is {diff}""" )
@require_flax
class A_ (unittest.TestCase ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Tuple = 99
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = np.array(
[
[71, 82, 18, 33, 46, 91, 2],
[68, 34, 26, 58, 30, 82, 2],
[5, 97, 17, 39, 94, 40, 2],
[76, 83, 94, 25, 70, 78, 2],
[87, 59, 41, 35, 48, 66, 2],
[55, 13, 16, 58, 5, 2, 1], # note padding
[64, 27, 31, 51, 12, 75, 2],
[52, 64, 86, 17, 83, 39, 2],
[48, 61, 9, 24, 71, 82, 2],
[26, 1, 60, 48, 22, 13, 2],
[21, 5, 62, 28, 14, 76, 2],
[45, 98, 37, 86, 59, 48, 2],
[70, 70, 50, 9, 28, 0, 2],
] , dtype=np.intaa , )
UpperCAmelCase_ : Any = input_ids.shape[0]
UpperCAmelCase_ : Dict = BlenderbotSmallConfig(
vocab_size=self.vocab_size , d_model=24 , encoder_layers=2 , decoder_layers=2 , encoder_attention_heads=2 , decoder_attention_heads=2 , encoder_ffn_dim=32 , decoder_ffn_dim=32 , max_position_embeddings=48 , eos_token_id=2 , pad_token_id=1 , bos_token_id=0 , )
return config, input_ids, batch_size
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : Tuple = self._get_config_and_data()
UpperCAmelCase_ : List[str] = FlaxBlenderbotSmallForConditionalGeneration(lowercase_ )
UpperCAmelCase_ : Optional[int] = lm_model(input_ids=lowercase_ )
UpperCAmelCase_ : Optional[int] = (batch_size, input_ids.shape[1], config.vocab_size)
self.assertEqual(outputs["logits"].shape , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = BlenderbotSmallConfig(
vocab_size=self.vocab_size , d_model=14 , encoder_layers=2 , decoder_layers=2 , encoder_attention_heads=2 , decoder_attention_heads=2 , encoder_ffn_dim=8 , decoder_ffn_dim=8 , max_position_embeddings=48 , )
UpperCAmelCase_ : Optional[int] = FlaxBlenderbotSmallForConditionalGeneration(lowercase_ )
UpperCAmelCase_ : str = np.array([[71, 82, 18, 33, 46, 91, 2], [68, 34, 26, 58, 30, 2, 1]] , dtype=np.intaa )
UpperCAmelCase_ : str = np.array([[82, 71, 82, 18, 2], [58, 68, 2, 1, 1]] , dtype=np.intaa )
UpperCAmelCase_ : Tuple = lm_model(input_ids=lowercase_ , decoder_input_ids=lowercase_ )
UpperCAmelCase_ : Tuple = (*summary.shape, config.vocab_size)
self.assertEqual(outputs["logits"].shape , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[Any] = np.array([[71, 82, 18, 33, 2, 1, 1], [68, 34, 26, 58, 30, 82, 2]] , dtype=np.intaa )
UpperCAmelCase_ : Dict = shift_tokens_right(lowercase_ , 1 , 2 )
UpperCAmelCase_ : Tuple = np.equal(lowercase_ , 1 ).astype(np.floataa ).sum()
UpperCAmelCase_ : Optional[Any] = np.equal(lowercase_ , 1 ).astype(np.floataa ).sum()
self.assertEqual(shifted.shape , input_ids.shape )
self.assertEqual(lowercase_ , n_pad_before - 1 )
self.assertTrue(np.equal(shifted[:, 0] , 2 ).all() )
@require_flax
class A_ (lowercase__ ,unittest.TestCase ,lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : str = True
SCREAMING_SNAKE_CASE__ : Union[str, Any] = (
(
FlaxBlenderbotSmallModel,
FlaxBlenderbotSmallForConditionalGeneration,
)
if is_flax_available()
else ()
)
SCREAMING_SNAKE_CASE__ : List[Any] = (FlaxBlenderbotSmallForConditionalGeneration,) if is_flax_available() else ()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Dict = FlaxBlenderbotSmallModelTester(self )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Tuple = self.model_tester.prepare_config_and_inputs()
for model_class in self.all_model_classes:
self.model_tester.check_use_cache_forward(lowercase_ , lowercase_ , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Optional[Any] = self.model_tester.prepare_config_and_inputs()
for model_class in self.all_model_classes:
self.model_tester.check_use_cache_forward_with_attn_mask(lowercase_ , lowercase_ , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Any = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
with self.subTest(model_class.__name__ ):
UpperCAmelCase_ : List[Any] = self._prepare_for_class(lowercase_ , lowercase_ )
UpperCAmelCase_ : Dict = model_class(lowercase_ )
@jax.jit
def encode_jitted(lowercase_ , lowercase_=None , **lowercase_ ):
return model.encode(input_ids=lowercase_ , attention_mask=lowercase_ )
with self.subTest("JIT Enabled" ):
UpperCAmelCase_ : List[Any] = encode_jitted(**lowercase_ ).to_tuple()
with self.subTest("JIT Disabled" ):
with jax.disable_jit():
UpperCAmelCase_ : Optional[Any] = encode_jitted(**lowercase_ ).to_tuple()
self.assertEqual(len(lowercase_ ) , len(lowercase_ ) )
for jitted_output, output in zip(lowercase_ , lowercase_ ):
self.assertEqual(jitted_output.shape , output.shape )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
with self.subTest(model_class.__name__ ):
UpperCAmelCase_ : Optional[int] = model_class(lowercase_ )
UpperCAmelCase_ : Tuple = model.encode(inputs_dict["input_ids"] , inputs_dict["attention_mask"] )
UpperCAmelCase_ : int = {
"decoder_input_ids": inputs_dict["decoder_input_ids"],
"decoder_attention_mask": inputs_dict["decoder_attention_mask"],
"encoder_outputs": encoder_outputs,
}
@jax.jit
def decode_jitted(lowercase_ , lowercase_ , lowercase_ ):
return model.decode(
decoder_input_ids=lowercase_ , decoder_attention_mask=lowercase_ , encoder_outputs=lowercase_ , )
with self.subTest("JIT Enabled" ):
UpperCAmelCase_ : str = decode_jitted(**lowercase_ ).to_tuple()
with self.subTest("JIT Disabled" ):
with jax.disable_jit():
UpperCAmelCase_ : List[Any] = decode_jitted(**lowercase_ ).to_tuple()
self.assertEqual(len(lowercase_ ) , len(lowercase_ ) )
for jitted_output, output in zip(lowercase_ , lowercase_ ):
self.assertEqual(jitted_output.shape , output.shape )
@slow
def UpperCamelCase__ ( self ):
"""simple docstring"""
for model_class_name in self.all_model_classes:
UpperCAmelCase_ : Optional[Any] = model_class_name.from_pretrained("facebook/blenderbot_small-90M" )
# FlaxBlenderbotForSequenceClassification expects eos token in input_ids
UpperCAmelCase_ : List[str] = np.ones((1, 1) ) * model.config.eos_token_id
UpperCAmelCase_ : Optional[int] = model(lowercase_ )
self.assertIsNotNone(lowercase_ )
| 61 | 0 |
'''simple docstring'''
from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_tokenizers_available, is_torch_available
lowercase : Any = {
'configuration_squeezebert': [
'SQUEEZEBERT_PRETRAINED_CONFIG_ARCHIVE_MAP',
'SqueezeBertConfig',
'SqueezeBertOnnxConfig',
],
'tokenization_squeezebert': ['SqueezeBertTokenizer'],
}
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
lowercase : Any = ['SqueezeBertTokenizerFast']
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
lowercase : Optional[Any] = [
'SQUEEZEBERT_PRETRAINED_MODEL_ARCHIVE_LIST',
'SqueezeBertForMaskedLM',
'SqueezeBertForMultipleChoice',
'SqueezeBertForQuestionAnswering',
'SqueezeBertForSequenceClassification',
'SqueezeBertForTokenClassification',
'SqueezeBertModel',
'SqueezeBertModule',
'SqueezeBertPreTrainedModel',
]
if TYPE_CHECKING:
from .configuration_squeezebert import (
SQUEEZEBERT_PRETRAINED_CONFIG_ARCHIVE_MAP,
SqueezeBertConfig,
SqueezeBertOnnxConfig,
)
from .tokenization_squeezebert import SqueezeBertTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_squeezebert_fast import SqueezeBertTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_squeezebert import (
SQUEEZEBERT_PRETRAINED_MODEL_ARCHIVE_LIST,
SqueezeBertForMaskedLM,
SqueezeBertForMultipleChoice,
SqueezeBertForQuestionAnswering,
SqueezeBertForSequenceClassification,
SqueezeBertForTokenClassification,
SqueezeBertModel,
SqueezeBertModule,
SqueezeBertPreTrainedModel,
)
else:
import sys
lowercase : Union[str, Any] = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)
| 3 |
"""simple docstring"""
import inspect
import unittest
import warnings
from transformers import DeiTConfig
from transformers.models.auto import get_values
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 (
MODEL_FOR_IMAGE_CLASSIFICATION_MAPPING,
MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING,
MODEL_MAPPING,
DeiTForImageClassification,
DeiTForImageClassificationWithTeacher,
DeiTForMaskedImageModeling,
DeiTModel,
)
from transformers.models.deit.modeling_deit import DEIT_PRETRAINED_MODEL_ARCHIVE_LIST
if is_vision_available():
from PIL import Image
from transformers import DeiTImageProcessor
class A_ :
'''simple docstring'''
def __init__( self , lowercase_ , lowercase_=13 , lowercase_=30 , lowercase_=2 , lowercase_=3 , lowercase_=True , lowercase_=True , lowercase_=32 , lowercase_=5 , lowercase_=4 , lowercase_=37 , lowercase_="gelu" , lowercase_=0.1 , lowercase_=0.1 , lowercase_=10 , lowercase_=0.02 , lowercase_=3 , lowercase_=None , lowercase_=2 , ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = parent
UpperCAmelCase_ : int = batch_size
UpperCAmelCase_ : int = image_size
UpperCAmelCase_ : List[Any] = patch_size
UpperCAmelCase_ : Any = num_channels
UpperCAmelCase_ : Optional[int] = is_training
UpperCAmelCase_ : Union[str, Any] = use_labels
UpperCAmelCase_ : Union[str, Any] = hidden_size
UpperCAmelCase_ : str = num_hidden_layers
UpperCAmelCase_ : List[str] = num_attention_heads
UpperCAmelCase_ : str = intermediate_size
UpperCAmelCase_ : str = hidden_act
UpperCAmelCase_ : List[Any] = hidden_dropout_prob
UpperCAmelCase_ : Union[str, Any] = attention_probs_dropout_prob
UpperCAmelCase_ : str = type_sequence_label_size
UpperCAmelCase_ : str = initializer_range
UpperCAmelCase_ : Union[str, Any] = scope
UpperCAmelCase_ : str = encoder_stride
# in DeiT, the seq length equals the number of patches + 2 (we add 2 for the [CLS] and distilation tokens)
UpperCAmelCase_ : int = (image_size // patch_size) ** 2
UpperCAmelCase_ : Optional[Any] = num_patches + 2
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Any = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] )
UpperCAmelCase_ : Tuple = None
if self.use_labels:
UpperCAmelCase_ : Any = ids_tensor([self.batch_size] , self.type_sequence_label_size )
UpperCAmelCase_ : Union[str, Any] = self.get_config()
return config, pixel_values, labels
def UpperCamelCase__ ( self ):
"""simple docstring"""
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=lowercase_ , initializer_range=self.initializer_range , encoder_stride=self.encoder_stride , )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Optional[int] = DeiTModel(config=lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : List[Any] = model(lowercase_ )
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Optional[int] = DeiTForMaskedImageModeling(config=lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : List[Any] = model(lowercase_ )
self.parent.assertEqual(
result.reconstruction.shape , (self.batch_size, self.num_channels, self.image_size, self.image_size) )
# test greyscale images
UpperCAmelCase_ : List[str] = 1
UpperCAmelCase_ : Optional[Any] = DeiTForMaskedImageModeling(lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : Dict = floats_tensor([self.batch_size, 1, self.image_size, self.image_size] )
UpperCAmelCase_ : Optional[int] = model(lowercase_ )
self.parent.assertEqual(result.reconstruction.shape , (self.batch_size, 1, self.image_size, self.image_size) )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = self.type_sequence_label_size
UpperCAmelCase_ : Union[str, Any] = DeiTForImageClassification(lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : List[str] = model(lowercase_ , labels=lowercase_ )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size) )
# test greyscale images
UpperCAmelCase_ : Union[str, Any] = 1
UpperCAmelCase_ : Optional[int] = DeiTForImageClassification(lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : Dict = floats_tensor([self.batch_size, 1, self.image_size, self.image_size] )
UpperCAmelCase_ : List[Any] = model(lowercase_ , labels=lowercase_ )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size) )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = self.prepare_config_and_inputs()
(
(
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) ,
) : Dict = config_and_inputs
UpperCAmelCase_ : Optional[int] = {"pixel_values": pixel_values}
return config, inputs_dict
@require_torch
class A_ (lowercase__ ,lowercase__ ,unittest.TestCase ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Any = (
(
DeiTModel,
DeiTForImageClassification,
DeiTForImageClassificationWithTeacher,
DeiTForMaskedImageModeling,
)
if is_torch_available()
else ()
)
SCREAMING_SNAKE_CASE__ : Tuple = (
{
"""feature-extraction""": DeiTModel,
"""image-classification""": (DeiTForImageClassification, DeiTForImageClassificationWithTeacher),
}
if is_torch_available()
else {}
)
SCREAMING_SNAKE_CASE__ : List[Any] = False
SCREAMING_SNAKE_CASE__ : Optional[Any] = False
SCREAMING_SNAKE_CASE__ : List[str] = False
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Any = DeiTModelTester(self )
UpperCAmelCase_ : Optional[int] = ConfigTester(self , config_class=lowercase_ , has_text_modality=lowercase_ , hidden_size=37 )
def UpperCamelCase__ ( self ):
"""simple docstring"""
self.config_tester.run_common_tests()
@unittest.skip(reason="DeiT does not use inputs_embeds" )
def UpperCamelCase__ ( self ):
"""simple docstring"""
pass
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Any = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
UpperCAmelCase_ : List[Any] = model_class(lowercase_ )
self.assertIsInstance(model.get_input_embeddings() , (nn.Module) )
UpperCAmelCase_ : Any = model.get_output_embeddings()
self.assertTrue(x is None or isinstance(lowercase_ , nn.Linear ) )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Dict = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
UpperCAmelCase_ : Dict = model_class(lowercase_ )
UpperCAmelCase_ : Optional[Any] = inspect.signature(model.forward )
# signature.parameters is an OrderedDict => so arg_names order is deterministic
UpperCAmelCase_ : str = [*signature.parameters.keys()]
UpperCAmelCase_ : Optional[int] = ["pixel_values"]
self.assertListEqual(arg_names[:1] , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : int = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Dict = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_masked_image_modeling(*lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[int] = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_image_classification(*lowercase_ )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_=False ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = super()._prepare_for_class(lowercase_ , lowercase_ , return_labels=lowercase_ )
if return_labels:
if model_class.__name__ == "DeiTForImageClassificationWithTeacher":
del inputs_dict["labels"]
return inputs_dict
def UpperCamelCase__ ( self ):
"""simple docstring"""
if not self.model_tester.is_training:
return
UpperCAmelCase_ , UpperCAmelCase_ : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common()
UpperCAmelCase_ : Union[str, Any] = True
for model_class in self.all_model_classes:
# DeiTForImageClassificationWithTeacher supports inference-only
if (
model_class in get_values(lowercase_ )
or model_class.__name__ == "DeiTForImageClassificationWithTeacher"
):
continue
UpperCAmelCase_ : Optional[int] = model_class(lowercase_ )
model.to(lowercase_ )
model.train()
UpperCAmelCase_ : List[Any] = self._prepare_for_class(lowercase_ , lowercase_ , return_labels=lowercase_ )
UpperCAmelCase_ : Dict = model(**lowercase_ ).loss
loss.backward()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : int = self.model_tester.prepare_config_and_inputs_for_common()
if not self.model_tester.is_training:
return
UpperCAmelCase_ : Dict = False
UpperCAmelCase_ : Optional[int] = True
for model_class in self.all_model_classes:
if model_class in get_values(lowercase_ ) or not model_class.supports_gradient_checkpointing:
continue
# DeiTForImageClassificationWithTeacher supports inference-only
if model_class.__name__ == "DeiTForImageClassificationWithTeacher":
continue
UpperCAmelCase_ : List[str] = model_class(lowercase_ )
model.gradient_checkpointing_enable()
model.to(lowercase_ )
model.train()
UpperCAmelCase_ : Optional[int] = self._prepare_for_class(lowercase_ , lowercase_ , return_labels=lowercase_ )
UpperCAmelCase_ : Any = model(**lowercase_ ).loss
loss.backward()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Tuple = self.model_tester.prepare_config_and_inputs_for_common()
UpperCAmelCase_ : Dict = [
{"title": "multi_label_classification", "num_labels": 2, "dtype": torch.float},
{"title": "single_label_classification", "num_labels": 1, "dtype": torch.long},
{"title": "regression", "num_labels": 1, "dtype": torch.float},
]
for model_class in self.all_model_classes:
if (
model_class
not in [
*get_values(lowercase_ ),
*get_values(lowercase_ ),
]
or model_class.__name__ == "DeiTForImageClassificationWithTeacher"
):
continue
for problem_type in problem_types:
with self.subTest(msg=F"""Testing {model_class} with {problem_type["title"]}""" ):
UpperCAmelCase_ : str = problem_type["title"]
UpperCAmelCase_ : List[Any] = problem_type["num_labels"]
UpperCAmelCase_ : Union[str, Any] = model_class(lowercase_ )
model.to(lowercase_ )
model.train()
UpperCAmelCase_ : int = self._prepare_for_class(lowercase_ , lowercase_ , return_labels=lowercase_ )
if problem_type["num_labels"] > 1:
UpperCAmelCase_ : List[Any] = inputs["labels"].unsqueeze(1 ).repeat(1 , problem_type["num_labels"] )
UpperCAmelCase_ : Tuple = inputs["labels"].to(problem_type["dtype"] )
# This tests that we do not trigger the warning form PyTorch "Using a target size that is different
# to the input size. This will likely lead to incorrect results due to broadcasting. Please ensure
# they have the same size." which is a symptom something in wrong for the regression problem.
# See https://github.com/huggingface/transformers/issues/11780
with warnings.catch_warnings(record=lowercase_ ) as warning_list:
UpperCAmelCase_ : List[str] = model(**lowercase_ ).loss
for w in warning_list:
if "Using a target size that is different to the input size" in str(w.message ):
raise ValueError(
F"""Something is going wrong in the regression problem: intercepted {w.message}""" )
loss.backward()
@slow
def UpperCamelCase__ ( self ):
"""simple docstring"""
for model_name in DEIT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
UpperCAmelCase_ : Union[str, Any] = DeiTModel.from_pretrained(lowercase_ )
self.assertIsNotNone(lowercase_ )
def __a ( ):
UpperCAmelCase_ : Any = Image.open("./tests/fixtures/tests_samples/COCO/000000039769.png" )
return image
@require_torch
@require_vision
class A_ (unittest.TestCase ):
'''simple docstring'''
@cached_property
def UpperCamelCase__ ( self ):
"""simple docstring"""
return (
DeiTImageProcessor.from_pretrained("facebook/deit-base-distilled-patch16-224" )
if is_vision_available()
else None
)
@slow
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = DeiTForImageClassificationWithTeacher.from_pretrained("facebook/deit-base-distilled-patch16-224" ).to(
lowercase_ )
UpperCAmelCase_ : List[str] = self.default_image_processor
UpperCAmelCase_ : List[str] = prepare_img()
UpperCAmelCase_ : int = image_processor(images=lowercase_ , return_tensors="pt" ).to(lowercase_ )
# forward pass
with torch.no_grad():
UpperCAmelCase_ : Dict = model(**lowercase_ )
# verify the logits
UpperCAmelCase_ : List[str] = torch.Size((1, 1000) )
self.assertEqual(outputs.logits.shape , lowercase_ )
UpperCAmelCase_ : str = torch.tensor([-1.02_66, 0.19_12, -1.28_61] ).to(lowercase_ )
self.assertTrue(torch.allclose(outputs.logits[0, :3] , lowercase_ , atol=1E-4 ) )
@slow
@require_accelerate
@require_torch_gpu
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = DeiTModel.from_pretrained(
"facebook/deit-base-distilled-patch16-224" , torch_dtype=torch.floataa , device_map="auto" )
UpperCAmelCase_ : str = self.default_image_processor
UpperCAmelCase_ : Union[str, Any] = prepare_img()
UpperCAmelCase_ : List[Any] = image_processor(images=lowercase_ , return_tensors="pt" )
UpperCAmelCase_ : List[str] = inputs.pixel_values.to(lowercase_ )
# forward pass to make sure inference works in fp16
with torch.no_grad():
UpperCAmelCase_ : int = model(lowercase_ )
| 61 | 0 |
'''simple docstring'''
class UpperCAmelCase_ :
def __init__( self : List[str] , UpperCAmelCase__ : list[int] ) -> None:
lowerCAmelCase = len(UpperCAmelCase__ )
lowerCAmelCase = [0] * len_array
if len_array > 0:
lowerCAmelCase = array[0]
for i in range(1 , UpperCAmelCase__ ):
lowerCAmelCase = self.prefix_sum[i - 1] + array[i]
def __UpperCAmelCase ( self : Optional[Any] , UpperCAmelCase__ : int , UpperCAmelCase__ : int ) -> int:
if start == 0:
return self.prefix_sum[end]
return self.prefix_sum[end] - self.prefix_sum[start - 1]
def __UpperCAmelCase ( self : int , UpperCAmelCase__ : int ) -> bool:
lowerCAmelCase = {0}
for sum_item in self.prefix_sum:
if sum_item - target_sum in sums:
return True
sums.add(UpperCAmelCase__ )
return False
if __name__ == "__main__":
import doctest
doctest.testmod()
| 4 |
"""simple docstring"""
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:
_a = None
_a = logging.get_logger(__name__)
_a = {'vocab_file': 'spiece.model', 'tokenizer_file': 'tokenizer.json'}
_a = {
'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',
},
}
_a = {
'google/fnet-base': 512,
'google/fnet-large': 512,
}
_a = '▁'
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : List[str] = VOCAB_FILES_NAMES
SCREAMING_SNAKE_CASE__ : Tuple = PRETRAINED_VOCAB_FILES_MAP
SCREAMING_SNAKE_CASE__ : Any = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
SCREAMING_SNAKE_CASE__ : Union[str, Any] = ["""input_ids""", """token_type_ids"""]
SCREAMING_SNAKE_CASE__ : Tuple = FNetTokenizer
def __init__( self , lowercase_=None , lowercase_=None , lowercase_=False , lowercase_=True , lowercase_=True , lowercase_="<unk>" , lowercase_="[SEP]" , lowercase_="<pad>" , lowercase_="[CLS]" , lowercase_="[MASK]" , **lowercase_ , ):
"""simple docstring"""
# Mask token behave like a normal word, i.e. include the space before it and
# is included in the raw text, there should be a match in a non-normalized sentence.
UpperCAmelCase_ : int = (
AddedToken(lowercase_ , lstrip=lowercase_ , rstrip=lowercase_ , normalized=lowercase_ )
if isinstance(lowercase_ , lowercase_ )
else mask_token
)
super().__init__(
lowercase_ , tokenizer_file=lowercase_ , do_lower_case=lowercase_ , remove_space=lowercase_ , keep_accents=lowercase_ , unk_token=lowercase_ , sep_token=lowercase_ , pad_token=lowercase_ , cls_token=lowercase_ , mask_token=lowercase_ , **lowercase_ , )
UpperCAmelCase_ : Any = do_lower_case
UpperCAmelCase_ : Tuple = remove_space
UpperCAmelCase_ : str = keep_accents
UpperCAmelCase_ : Any = vocab_file
UpperCAmelCase_ : List[Any] = False if not self.vocab_file else True
def UpperCamelCase__ ( self , lowercase_ , lowercase_ = None ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = [self.sep_token_id]
UpperCAmelCase_ : Any = [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 UpperCamelCase__ ( self , lowercase_ , lowercase_ = None ):
"""simple docstring"""
UpperCAmelCase_ : Any = [self.sep_token_id]
UpperCAmelCase_ : 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 UpperCamelCase__ ( self , lowercase_ , lowercase_ = None ):
"""simple docstring"""
if not os.path.isdir(lowercase_ ):
logger.error(F"""Vocabulary path ({save_directory}) should be a directory""" )
return
UpperCAmelCase_ : List[str] = os.path.join(
lowercase_ , (filename_prefix + "-" if filename_prefix else "") + VOCAB_FILES_NAMES["vocab_file"] )
if os.path.abspath(self.vocab_file ) != os.path.abspath(lowercase_ ):
copyfile(self.vocab_file , lowercase_ )
return (out_vocab_file,)
| 61 | 0 |
from math import factorial
UpperCAmelCase__ = {str(digit): factorial(digit) for digit in range(10)}
def UpperCAmelCase_ ( __snake_case ) -> int:
"""simple docstring"""
if not isinstance(__snake_case , __snake_case ):
raise TypeError('''Parameter number must be int''' )
if number < 0:
raise ValueError('''Parameter number must be greater than or equal to 0''' )
# Converts number in string to iterate on its digits and adds its factorial.
return sum(DIGIT_FACTORIAL[digit] for digit in str(__snake_case ) )
def UpperCAmelCase_ ( __snake_case = 60 , __snake_case = 1000000 ) -> int:
"""simple docstring"""
if not isinstance(__snake_case , __snake_case ) or not isinstance(__snake_case , __snake_case ):
raise TypeError('''Parameters chain_length and number_limit must be int''' )
if chain_length <= 0 or number_limit <= 0:
raise ValueError(
'''Parameters chain_length and number_limit must be greater than 0''' )
# the counter for the chains with the exact desired length
_lowercase =0
# the cached sizes of the previous chains
_lowercase ={}
for start_chain_element in range(1 , __snake_case ):
# The temporary set will contain the elements of the chain
_lowercase =set()
_lowercase =0
# Stop computing the chain when you find a cached size, a repeating item or the
# length is greater then the desired one.
_lowercase =start_chain_element
while (
chain_element not in chain_sets_lengths
and chain_element not in chain_set
and chain_set_length <= chain_length
):
chain_set.add(__snake_case )
chain_set_length += 1
_lowercase =digit_factorial_sum(__snake_case )
if chain_element in chain_sets_lengths:
chain_set_length += chain_sets_lengths[chain_element]
_lowercase =chain_set_length
# If chain contains the exact amount of elements increase the counter
if chain_set_length == chain_length:
chains_counter += 1
return chains_counter
if __name__ == "__main__":
import doctest
doctest.testmod()
print(f'''{solution()}''')
| 5 |
"""simple docstring"""
from collections import OrderedDict
from typing import Mapping
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfig
_a = {
'albert-base-v1': 'https://huggingface.co/albert-base-v1/resolve/main/config.json',
'albert-large-v1': 'https://huggingface.co/albert-large-v1/resolve/main/config.json',
'albert-xlarge-v1': 'https://huggingface.co/albert-xlarge-v1/resolve/main/config.json',
'albert-xxlarge-v1': 'https://huggingface.co/albert-xxlarge-v1/resolve/main/config.json',
'albert-base-v2': 'https://huggingface.co/albert-base-v2/resolve/main/config.json',
'albert-large-v2': 'https://huggingface.co/albert-large-v2/resolve/main/config.json',
'albert-xlarge-v2': 'https://huggingface.co/albert-xlarge-v2/resolve/main/config.json',
'albert-xxlarge-v2': 'https://huggingface.co/albert-xxlarge-v2/resolve/main/config.json',
}
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Optional[Any] = """albert"""
def __init__( self , lowercase_=3_0000 , lowercase_=128 , lowercase_=4096 , lowercase_=12 , lowercase_=1 , lowercase_=64 , lowercase_=1_6384 , lowercase_=1 , lowercase_="gelu_new" , lowercase_=0 , lowercase_=0 , lowercase_=512 , lowercase_=2 , lowercase_=0.02 , lowercase_=1E-1_2 , lowercase_=0.1 , lowercase_="absolute" , lowercase_=0 , lowercase_=2 , lowercase_=3 , **lowercase_ , ):
"""simple docstring"""
super().__init__(pad_token_id=lowercase_ , bos_token_id=lowercase_ , eos_token_id=lowercase_ , **lowercase_ )
UpperCAmelCase_ : int = vocab_size
UpperCAmelCase_ : Optional[int] = embedding_size
UpperCAmelCase_ : List[str] = hidden_size
UpperCAmelCase_ : Optional[int] = num_hidden_layers
UpperCAmelCase_ : Union[str, Any] = num_hidden_groups
UpperCAmelCase_ : Dict = num_attention_heads
UpperCAmelCase_ : Any = inner_group_num
UpperCAmelCase_ : Union[str, Any] = hidden_act
UpperCAmelCase_ : Union[str, Any] = intermediate_size
UpperCAmelCase_ : List[str] = hidden_dropout_prob
UpperCAmelCase_ : Union[str, Any] = attention_probs_dropout_prob
UpperCAmelCase_ : Optional[Any] = max_position_embeddings
UpperCAmelCase_ : Any = type_vocab_size
UpperCAmelCase_ : List[str] = initializer_range
UpperCAmelCase_ : Optional[int] = layer_norm_eps
UpperCAmelCase_ : List[Any] = classifier_dropout_prob
UpperCAmelCase_ : Tuple = position_embedding_type
class A_ (lowercase__ ):
'''simple docstring'''
@property
def UpperCamelCase__ ( self ):
"""simple docstring"""
if self.task == "multiple-choice":
UpperCAmelCase_ : int = {0: "batch", 1: "choice", 2: "sequence"}
else:
UpperCAmelCase_ : Optional[Any] = {0: "batch", 1: "sequence"}
return OrderedDict(
[
("input_ids", dynamic_axis),
("attention_mask", dynamic_axis),
("token_type_ids", dynamic_axis),
] )
| 61 | 0 |
import collections
from typing import List, Optional, Union
from ...tokenization_utils_base import BatchEncoding
from ...utils import TensorType, add_end_docstrings, add_start_docstrings, logging
from ..bert.tokenization_bert_fast import BertTokenizerFast
from .tokenization_dpr import DPRContextEncoderTokenizer, DPRQuestionEncoderTokenizer, DPRReaderTokenizer
A : List[Any] = logging.get_logger(__name__)
A : int = {'vocab_file': 'vocab.txt', 'tokenizer_file': 'tokenizer.json'}
A : Dict = {
'vocab_file': {
'facebook/dpr-ctx_encoder-single-nq-base': (
'https://huggingface.co/facebook/dpr-ctx_encoder-single-nq-base/resolve/main/vocab.txt'
),
'facebook/dpr-ctx_encoder-multiset-base': (
'https://huggingface.co/facebook/dpr-ctx_encoder-multiset-base/resolve/main/vocab.txt'
),
},
'tokenizer_file': {
'facebook/dpr-ctx_encoder-single-nq-base': (
'https://huggingface.co/facebook/dpr-ctx_encoder-single-nq-base/resolve/main/tokenizer.json'
),
'facebook/dpr-ctx_encoder-multiset-base': (
'https://huggingface.co/facebook/dpr-ctx_encoder-multiset-base/resolve/main/tokenizer.json'
),
},
}
A : Any = {
'vocab_file': {
'facebook/dpr-question_encoder-single-nq-base': (
'https://huggingface.co/facebook/dpr-question_encoder-single-nq-base/resolve/main/vocab.txt'
),
'facebook/dpr-question_encoder-multiset-base': (
'https://huggingface.co/facebook/dpr-question_encoder-multiset-base/resolve/main/vocab.txt'
),
},
'tokenizer_file': {
'facebook/dpr-question_encoder-single-nq-base': (
'https://huggingface.co/facebook/dpr-question_encoder-single-nq-base/resolve/main/tokenizer.json'
),
'facebook/dpr-question_encoder-multiset-base': (
'https://huggingface.co/facebook/dpr-question_encoder-multiset-base/resolve/main/tokenizer.json'
),
},
}
A : Tuple = {
'vocab_file': {
'facebook/dpr-reader-single-nq-base': (
'https://huggingface.co/facebook/dpr-reader-single-nq-base/resolve/main/vocab.txt'
),
'facebook/dpr-reader-multiset-base': (
'https://huggingface.co/facebook/dpr-reader-multiset-base/resolve/main/vocab.txt'
),
},
'tokenizer_file': {
'facebook/dpr-reader-single-nq-base': (
'https://huggingface.co/facebook/dpr-reader-single-nq-base/resolve/main/tokenizer.json'
),
'facebook/dpr-reader-multiset-base': (
'https://huggingface.co/facebook/dpr-reader-multiset-base/resolve/main/tokenizer.json'
),
},
}
A : Optional[Any] = {
'facebook/dpr-ctx_encoder-single-nq-base': 5_1_2,
'facebook/dpr-ctx_encoder-multiset-base': 5_1_2,
}
A : Tuple = {
'facebook/dpr-question_encoder-single-nq-base': 5_1_2,
'facebook/dpr-question_encoder-multiset-base': 5_1_2,
}
A : List[Any] = {
'facebook/dpr-reader-single-nq-base': 5_1_2,
'facebook/dpr-reader-multiset-base': 5_1_2,
}
A : Optional[int] = {
'facebook/dpr-ctx_encoder-single-nq-base': {'do_lower_case': True},
'facebook/dpr-ctx_encoder-multiset-base': {'do_lower_case': True},
}
A : str = {
'facebook/dpr-question_encoder-single-nq-base': {'do_lower_case': True},
'facebook/dpr-question_encoder-multiset-base': {'do_lower_case': True},
}
A : Union[str, Any] = {
'facebook/dpr-reader-single-nq-base': {'do_lower_case': True},
'facebook/dpr-reader-multiset-base': {'do_lower_case': True},
}
class __A( a ):
snake_case_ = VOCAB_FILES_NAMES
snake_case_ = CONTEXT_ENCODER_PRETRAINED_VOCAB_FILES_MAP
snake_case_ = CONTEXT_ENCODER_PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
snake_case_ = CONTEXT_ENCODER_PRETRAINED_INIT_CONFIGURATION
snake_case_ = DPRContextEncoderTokenizer
class __A( a ):
snake_case_ = VOCAB_FILES_NAMES
snake_case_ = QUESTION_ENCODER_PRETRAINED_VOCAB_FILES_MAP
snake_case_ = QUESTION_ENCODER_PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
snake_case_ = QUESTION_ENCODER_PRETRAINED_INIT_CONFIGURATION
snake_case_ = DPRQuestionEncoderTokenizer
A : Optional[Any] = collections.namedtuple(
'DPRSpanPrediction', ['span_score', 'relevance_score', 'doc_id', 'start_index', 'end_index', 'text']
)
A : Optional[Any] = collections.namedtuple('DPRReaderOutput', ['start_logits', 'end_logits', 'relevance_logits'])
A : Tuple = R'\n Return a dictionary with the token ids of the input strings and other information to give to `.decode_best_spans`.\n It converts the strings of a question and different passages (title and text) in a sequence of IDs (integers),\n using the tokenizer and vocabulary. The resulting `input_ids` is a matrix of size `(n_passages, sequence_length)`\n with the format:\n\n [CLS] <question token ids> [SEP] <titles ids> [SEP] <texts ids>\n\n Args:\n questions (`str` or `List[str]`):\n The questions to be encoded. You can specify one question for many passages. In this case, the question\n will be duplicated like `[questions] * n_passages`. Otherwise you have to specify as many questions as in\n `titles` or `texts`.\n titles (`str` or `List[str]`):\n The passages titles to be encoded. This can be a string or a list of strings if there are several passages.\n texts (`str` or `List[str]`):\n The passages texts to be encoded. This can be a string or a list of strings if there are several passages.\n padding (`bool`, `str` or [`~utils.PaddingStrategy`], *optional*, defaults to `False`):\n Activates and controls padding. Accepts the following values:\n\n - `True` or `\'longest\'`: Pad to the longest sequence in the batch (or no padding if only a single sequence\n if provided).\n - `\'max_length\'`: Pad to a maximum length specified with the argument `max_length` or to the maximum\n acceptable input length for the model if that argument is not provided.\n - `False` or `\'do_not_pad\'` (default): No padding (i.e., can output a batch with sequences of different\n lengths).\n truncation (`bool`, `str` or [`~tokenization_utils_base.TruncationStrategy`], *optional*, defaults to `False`):\n Activates and controls truncation. Accepts the following values:\n\n - `True` or `\'longest_first\'`: Truncate to a maximum length specified with the argument `max_length` or to\n the maximum acceptable input length for the model if that argument is not provided. This will truncate\n token by token, removing a token from the longest sequence in the pair if a pair of sequences (or a batch\n of pairs) is provided.\n - `\'only_first\'`: Truncate to a maximum length specified with the argument `max_length` or to the maximum\n acceptable input length for the model if that argument is not provided. This will only truncate the first\n sequence of a pair if a pair of sequences (or a batch of pairs) is provided.\n - `\'only_second\'`: Truncate to a maximum length specified with the argument `max_length` or to the maximum\n acceptable input length for the model if that argument is not provided. This will only truncate the\n second sequence of a pair if a pair of sequences (or a batch of pairs) is provided.\n - `False` or `\'do_not_truncate\'` (default): No truncation (i.e., can output batch with sequence lengths\n greater than the model maximum admissible input size).\n max_length (`int`, *optional*):\n Controls the maximum length to use by one of the truncation/padding parameters.\n\n If left unset or set to `None`, this will use the predefined model maximum length if a maximum length\n is required by one of the truncation/padding parameters. If the model has no specific maximum input\n length (like XLNet) truncation/padding to a maximum length will be deactivated.\n return_tensors (`str` or [`~utils.TensorType`], *optional*):\n If set, will return tensors instead of list of python integers. Acceptable values are:\n\n - `\'tf\'`: Return TensorFlow `tf.constant` objects.\n - `\'pt\'`: Return PyTorch `torch.Tensor` objects.\n - `\'np\'`: Return Numpy `np.ndarray` objects.\n return_attention_mask (`bool`, *optional*):\n Whether or not to return the attention mask. If not set, will return the attention mask according to the\n specific tokenizer\'s default, defined by the `return_outputs` attribute.\n\n [What are attention masks?](../glossary#attention-mask)\n\n Return:\n `Dict[str, List[List[int]]]`: A dictionary with the following keys:\n\n - `input_ids`: List of token ids to be fed to a model.\n - `attention_mask`: List of indices specifying which tokens should be attended to by the model.\n '
@add_start_docstrings(a )
class __A:
def __call__( self , _snake_case , _snake_case = None , _snake_case = None , _snake_case = False , _snake_case = False , _snake_case = None , _snake_case = None , _snake_case = None , **_snake_case , ) -> BatchEncoding:
'''simple docstring'''
if titles is None and texts is None:
return super().__call__(
_snake_case , padding=_snake_case , truncation=_snake_case , max_length=_snake_case , return_tensors=_snake_case , return_attention_mask=_snake_case , **_snake_case , )
elif titles is None or texts is None:
__a = titles if texts is None else texts
return super().__call__(
_snake_case , _snake_case , padding=_snake_case , truncation=_snake_case , max_length=_snake_case , return_tensors=_snake_case , return_attention_mask=_snake_case , **_snake_case , )
__a = titles if not isinstance(_snake_case , _snake_case ) else [titles]
__a = texts if not isinstance(_snake_case , _snake_case ) else [texts]
__a = len(_snake_case )
__a = questions if not isinstance(_snake_case , _snake_case ) else [questions] * n_passages
assert len(_snake_case ) == len(
_snake_case ), F"""There should be as many titles than texts but got {len(_snake_case )} titles and {len(_snake_case )} texts."""
__a = super().__call__(_snake_case , _snake_case , padding=_snake_case , truncation=_snake_case )['''input_ids''']
__a = super().__call__(_snake_case , add_special_tokens=_snake_case , padding=_snake_case , truncation=_snake_case )['''input_ids''']
__a = {
'''input_ids''': [
(encoded_question_and_title + encoded_text)[:max_length]
if max_length is not None and truncation
else encoded_question_and_title + encoded_text
for encoded_question_and_title, encoded_text in zip(_snake_case , _snake_case )
]
}
if return_attention_mask is not False:
__a = []
for input_ids in encoded_inputs["input_ids"]:
attention_mask.append([int(input_id != self.pad_token_id ) for input_id in input_ids] )
__a = attention_mask
return self.pad(_snake_case , padding=_snake_case , max_length=_snake_case , return_tensors=_snake_case )
def SCREAMING_SNAKE_CASE_ ( self , _snake_case , _snake_case , _snake_case = 16 , _snake_case = 64 , _snake_case = 4 , ) -> List[DPRSpanPrediction]:
'''simple docstring'''
__a = reader_input['''input_ids''']
__a , __a , __a = reader_output[:3]
__a = len(_snake_case )
__a = sorted(range(_snake_case ) , reverse=_snake_case , key=relevance_logits.__getitem__ )
__a = []
for doc_id in sorted_docs:
__a = list(input_ids[doc_id] )
# assuming question & title information is at the beginning of the sequence
__a = sequence_ids.index(self.sep_token_id , 2 ) + 1 # second sep id
if sequence_ids[-1] == self.pad_token_id:
__a = sequence_ids.index(self.pad_token_id )
else:
__a = len(_snake_case )
__a = self._get_best_spans(
start_logits=start_logits[doc_id][passage_offset:sequence_len] , end_logits=end_logits[doc_id][passage_offset:sequence_len] , max_answer_length=_snake_case , top_spans=_snake_case , )
for start_index, end_index in best_spans:
start_index += passage_offset
end_index += passage_offset
nbest_spans_predictions.append(
DPRSpanPrediction(
span_score=start_logits[doc_id][start_index] + end_logits[doc_id][end_index] , relevance_score=relevance_logits[doc_id] , doc_id=_snake_case , start_index=_snake_case , end_index=_snake_case , text=self.decode(sequence_ids[start_index : end_index + 1] ) , ) )
if len(_snake_case ) >= num_spans:
break
return nbest_spans_predictions[:num_spans]
def SCREAMING_SNAKE_CASE_ ( self , _snake_case , _snake_case , _snake_case , _snake_case , ) -> List[DPRSpanPrediction]:
'''simple docstring'''
__a = []
for start_index, start_score in enumerate(_snake_case ):
for answer_length, end_score in enumerate(end_logits[start_index : start_index + max_answer_length] ):
scores.append(((start_index, start_index + answer_length), start_score + end_score) )
__a = sorted(_snake_case , key=lambda _snake_case : x[1] , reverse=_snake_case )
__a = []
for (start_index, end_index), score in scores:
assert start_index <= end_index, F"""Wrong span indices: [{start_index}:{end_index}]"""
__a = end_index - start_index + 1
assert length <= max_answer_length, F"""Span is too long: {length} > {max_answer_length}"""
if any(
start_index <= prev_start_index <= prev_end_index <= end_index
or prev_start_index <= start_index <= end_index <= prev_end_index
for (prev_start_index, prev_end_index) in chosen_span_intervals ):
continue
chosen_span_intervals.append((start_index, end_index) )
if len(_snake_case ) == top_spans:
break
return chosen_span_intervals
@add_end_docstrings(a )
class __A( a , a ):
snake_case_ = VOCAB_FILES_NAMES
snake_case_ = READER_PRETRAINED_VOCAB_FILES_MAP
snake_case_ = READER_PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
snake_case_ = READER_PRETRAINED_INIT_CONFIGURATION
snake_case_ = ['''input_ids''', '''attention_mask''']
snake_case_ = DPRReaderTokenizer | 6 |
"""simple docstring"""
from __future__ import annotations
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
if (voltage, current, resistance).count(0 ) != 1:
raise ValueError("One and only one argument must be 0" )
if resistance < 0:
raise ValueError("Resistance cannot be negative" )
if voltage == 0:
return {"voltage": float(current * resistance )}
elif current == 0:
return {"current": voltage / resistance}
elif resistance == 0:
return {"resistance": voltage / current}
else:
raise ValueError("Exactly one argument must be 0" )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 61 | 0 |
import gc
import random
import unittest
import numpy as np
import torch
from transformers import CLIPTextConfig, CLIPTextModel, CLIPTextModelWithProjection, CLIPTokenizer
from diffusers import (
AutoencoderKL,
DiffusionPipeline,
EulerDiscreteScheduler,
StableDiffusionXLImgaImgPipeline,
UNetaDConditionModel,
)
from diffusers.utils import floats_tensor, slow, torch_device
from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu
from ..pipeline_params import (
IMAGE_TO_IMAGE_IMAGE_PARAMS,
TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS,
TEXT_GUIDED_IMAGE_VARIATION_PARAMS,
)
from ..test_pipelines_common import PipelineLatentTesterMixin, PipelineTesterMixin
enable_full_determinism()
class A ( _UpperCAmelCase , _UpperCAmelCase , unittest.TestCase ):
"""simple docstring"""
lowerCamelCase = StableDiffusionXLImgaImgPipeline
lowerCamelCase = TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {'height', 'width'}
lowerCamelCase = PipelineTesterMixin.required_optional_params - {'latents'}
lowerCamelCase = TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS
lowerCamelCase = IMAGE_TO_IMAGE_IMAGE_PARAMS
lowerCamelCase = IMAGE_TO_IMAGE_IMAGE_PARAMS
def snake_case__ ( self : Union[str, Any] )-> Optional[Any]:
'''simple docstring'''
torch.manual_seed(0 )
A__ = UNetaDConditionModel(
block_out_channels=(3_2, 6_4),layers_per_block=2,sample_size=3_2,in_channels=4,out_channels=4,down_block_types=('DownBlock2D', 'CrossAttnDownBlock2D'),up_block_types=('CrossAttnUpBlock2D', 'UpBlock2D'),attention_head_dim=(2, 4),use_linear_projection=lowercase_,addition_embed_type='text_time',addition_time_embed_dim=8,transformer_layers_per_block=(1, 2),projection_class_embeddings_input_dim=8_0,cross_attention_dim=6_4,)
A__ = EulerDiscreteScheduler(
beta_start=0.00_085,beta_end=0.012,steps_offset=1,beta_schedule='scaled_linear',timestep_spacing='leading',)
torch.manual_seed(0 )
A__ = AutoencoderKL(
block_out_channels=[3_2, 6_4],in_channels=3,out_channels=3,down_block_types=['DownEncoderBlock2D', 'DownEncoderBlock2D'],up_block_types=['UpDecoderBlock2D', 'UpDecoderBlock2D'],latent_channels=4,sample_size=1_2_8,)
torch.manual_seed(0 )
A__ = CLIPTextConfig(
bos_token_id=0,eos_token_id=2,hidden_size=3_2,intermediate_size=3_7,layer_norm_eps=1E-05,num_attention_heads=4,num_hidden_layers=5,pad_token_id=1,vocab_size=1_0_0_0,hidden_act='gelu',projection_dim=3_2,)
A__ = CLIPTextModel(lowercase_ )
A__ = CLIPTokenizer.from_pretrained('hf-internal-testing/tiny-random-clip',local_files_only=lowercase_ )
A__ = CLIPTextModelWithProjection(lowercase_ )
A__ = CLIPTokenizer.from_pretrained('hf-internal-testing/tiny-random-clip',local_files_only=lowercase_ )
A__ = {
'unet': unet,
'scheduler': scheduler,
'vae': vae,
'text_encoder': text_encoder,
'tokenizer': tokenizer,
'text_encoder_2': text_encoder_a,
'tokenizer_2': tokenizer_a,
# "safety_checker": None,
# "feature_extractor": None,
}
return components
def snake_case__ ( self : List[str],lowercase_ : Optional[Any],lowercase_ : str=0 )-> Optional[int]:
'''simple docstring'''
A__ = floats_tensor((1, 3, 3_2, 3_2),rng=random.Random(lowercase_ ) ).to(lowercase_ )
A__ = image / 2 + 0.5
if str(lowercase_ ).startswith('mps' ):
A__ = torch.manual_seed(lowercase_ )
else:
A__ = torch.Generator(device=lowercase_ ).manual_seed(lowercase_ )
A__ = {
'prompt': 'A painting of a squirrel eating a burger',
'image': image,
'generator': generator,
'num_inference_steps': 2,
'guidance_scale': 5.0,
'output_type': 'numpy',
'strength': 0.75,
}
return inputs
def snake_case__ ( self : Union[str, Any] )-> str:
'''simple docstring'''
A__ = 'cpu' # ensure determinism for the device-dependent torch.Generator
A__ = self.get_dummy_components()
A__ = StableDiffusionXLImgaImgPipeline(**lowercase_ )
A__ = sd_pipe.to(lowercase_ )
sd_pipe.set_progress_bar_config(disable=lowercase_ )
A__ = self.get_dummy_inputs(lowercase_ )
A__ = sd_pipe(**lowercase_ ).images
A__ = image[0, -3:, -3:, -1]
assert image.shape == (1, 3_2, 3_2, 3)
A__ = np.array([0.4_656, 0.4_840, 0.4_439, 0.6_698, 0.5_574, 0.4_524, 0.5_799, 0.5_943, 0.5_165] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-2
def snake_case__ ( self : List[Any] )-> str:
'''simple docstring'''
super().test_attention_slicing_forward_pass(expected_max_diff=3E-3 )
def snake_case__ ( self : Tuple )-> Dict:
'''simple docstring'''
super().test_inference_batch_single_identical(expected_max_diff=3E-3 )
def snake_case__ ( self : int )-> Tuple:
'''simple docstring'''
pass
def snake_case__ ( self : List[str] )-> Tuple:
'''simple docstring'''
A__ = self.get_dummy_components()
A__ = StableDiffusionXLImgaImgPipeline(**lowercase_ )
A__ = sd_pipe.to(lowercase_ )
A__ = sd_pipe.to(lowercase_ )
sd_pipe.set_progress_bar_config(disable=lowercase_ )
# forward without prompt embeds
A__ = self.get_dummy_inputs(lowercase_ )
A__ = 3 * ['this is a negative prompt']
A__ = negative_prompt
A__ = 3 * [inputs['prompt']]
A__ = sd_pipe(**lowercase_ )
A__ = output.images[0, -3:, -3:, -1]
# forward with prompt embeds
A__ = self.get_dummy_inputs(lowercase_ )
A__ = 3 * ['this is a negative prompt']
A__ = 3 * [inputs.pop('prompt' )]
(
(
A__
) , (
A__
) , (
A__
) , (
A__
) ,
) = sd_pipe.encode_prompt(lowercase_,negative_prompt=lowercase_ )
A__ = sd_pipe(
**lowercase_,prompt_embeds=lowercase_,negative_prompt_embeds=lowercase_,pooled_prompt_embeds=lowercase_,negative_pooled_prompt_embeds=lowercase_,)
A__ = output.images[0, -3:, -3:, -1]
# make sure that it's equal
assert np.abs(image_slice_a.flatten() - image_slice_a.flatten() ).max() < 1E-4
@slow
@require_torch_gpu
class A ( unittest.TestCase ):
"""simple docstring"""
def snake_case__ ( self : Union[str, Any] )-> List[Any]:
'''simple docstring'''
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def snake_case__ ( self : Optional[Any],lowercase_ : Union[str, Any],lowercase_ : Any="cpu",lowercase_ : str=torch.floataa,lowercase_ : str=0 )-> List[str]:
'''simple docstring'''
A__ = torch.Generator(device=lowercase_ ).manual_seed(lowercase_ )
A__ = np.random.RandomState(lowercase_ ).standard_normal((1, 4, 6_4, 6_4) )
A__ = torch.from_numpy(lowercase_ ).to(device=lowercase_,dtype=lowercase_ )
A__ = {
'prompt': 'a photograph of an astronaut riding a horse',
'latents': latents,
'generator': generator,
'num_inference_steps': 3,
'guidance_scale': 7.5,
'output_type': 'numpy',
}
return inputs
def snake_case__ ( self : List[Any] )-> Dict:
'''simple docstring'''
A__ = DiffusionPipeline.from_pretrained('stabilityai/stable-diffusion-2-base' )
pipe.to(lowercase_ )
pipe.set_progress_bar_config(disable=lowercase_ )
A__ = self.get_inputs(lowercase_ )
A__ = pipe(**lowercase_ ).images
A__ = image[0, -3:, -3:, -1].flatten()
assert image.shape == (1, 5_1_2, 5_1_2, 3)
A__ = np.array([0.49_493, 0.47_896, 0.40_798, 0.54_214, 0.53_212, 0.48_202, 0.47_656, 0.46_329, 0.48_506] )
assert np.abs(image_slice - expected_slice ).max() < 7E-3
| 7 |
"""simple docstring"""
import argparse
from collections import defaultdict
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : int = f"""{file}_{class_name}_{test_name}"""
done_test[_id] += 1
with open(__lowerCamelCase, "r" ) as f:
UpperCAmelCase_ : List[Any] = f.readlines()
UpperCAmelCase_ : int = f"""class {class_name}("""
UpperCAmelCase_ : Optional[Any] = f"""{4 * " "}def {test_name}("""
UpperCAmelCase_ : Optional[Any] = f"""{8 * " "}{correct_line.split()[0]}"""
UpperCAmelCase_ : Tuple = f"""{16 * " "}{correct_line.split()[0]}"""
UpperCAmelCase_ : int = False
UpperCAmelCase_ : Union[str, Any] = False
UpperCAmelCase_ : str = False
UpperCAmelCase_ : Optional[Any] = False
UpperCAmelCase_ : List[str] = 0
UpperCAmelCase_ : Optional[int] = 0
UpperCAmelCase_ : int = []
for line in lines:
if line.startswith(__lowerCamelCase ):
UpperCAmelCase_ : Tuple = True
elif in_class and line.startswith(__lowerCamelCase ):
UpperCAmelCase_ : Optional[int] = True
elif in_class and in_func and (line.startswith(__lowerCamelCase ) or line.startswith(__lowerCamelCase )):
UpperCAmelCase_ : Any = len(line.split(correct_line.split()[0] )[0] )
count += 1
if count == done_test[_id]:
UpperCAmelCase_ : Union[str, Any] = True
if in_class and in_func and in_line:
if ")" not in line:
continue
else:
UpperCAmelCase_ : Any = True
if in_class and in_func and in_line and insert_line:
new_lines.append(f"""{spaces * " "}{correct_line}""" )
UpperCAmelCase_ : int = False
else:
new_lines.append(__lowerCamelCase )
with open(__lowerCamelCase, "w" ) as f:
for line in new_lines:
f.write(__lowerCamelCase )
def __a ( __lowerCamelCase, __lowerCamelCase=None ):
if fail is not None:
with open(__lowerCamelCase, "r" ) as f:
UpperCAmelCase_ : Tuple = {l.strip() for l in f.readlines()}
else:
UpperCAmelCase_ : str = None
with open(__lowerCamelCase, "r" ) as f:
UpperCAmelCase_ : Optional[int] = f.readlines()
UpperCAmelCase_ : Any = defaultdict(__lowerCamelCase )
for line in correct_lines:
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : Any = line.split(";" )
if test_failures is None or "::".join([file, class_name, test_name] ) in test_failures:
overwrite_file(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
parser.add_argument('--correct_filename', help='filename of tests with expected result')
parser.add_argument('--fail_filename', help='filename of test failures', type=str, default=None)
_a = parser.parse_args()
main(args.correct_filename, args.fail_filename)
| 61 | 0 |
import pytest
lowerCAmelCase_ = '''__dummy_dataset1__'''
lowerCAmelCase_ = '''
import json
import os
import datasets
REPO_URL = "https://huggingface.co/datasets/albertvillanova/tests-raw-jsonl/resolve/main/"
URLS = {"train": REPO_URL + "wikiann-bn-train.jsonl", "validation": REPO_URL + "wikiann-bn-validation.jsonl"}
class __DummyDataset1__(datasets.GeneratorBasedBuilder):
def _info(self):
features = datasets.Features(
{
"tokens": datasets.Sequence(datasets.Value("string")),
"ner_tags": datasets.Sequence(
datasets.features.ClassLabel(
names=[
"O",
"B-PER",
"I-PER",
"B-ORG",
"I-ORG",
"B-LOC",
"I-LOC",
]
)
),
"langs": datasets.Sequence(datasets.Value("string")),
"spans": datasets.Sequence(datasets.Value("string")),
}
)
return datasets.DatasetInfo(features=features)
def _split_generators(self, dl_manager):
dl_path = dl_manager.download(URLS)
return [
datasets.SplitGenerator(datasets.Split.TRAIN, gen_kwargs={"filepath": dl_path["train"]}),
datasets.SplitGenerator(datasets.Split.VALIDATION, gen_kwargs={"filepath": dl_path["validation"]}),
]
def _generate_examples(self, filepath):
with open(filepath, "r", encoding="utf-8") as f:
for i, line in enumerate(f):
yield i, json.loads(line)
'''
@pytest.fixture
def __SCREAMING_SNAKE_CASE ():
return DATASET_LOADING_SCRIPT_NAME
@pytest.fixture
def __SCREAMING_SNAKE_CASE ():
return DATASET_LOADING_SCRIPT_CODE
@pytest.fixture
def __SCREAMING_SNAKE_CASE (SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ):
snake_case_ = dataset_loading_script_name
snake_case_ = tmp_path / '''datasets''' / script_name
script_dir.mkdir(parents=SCREAMING_SNAKE_CASE__ )
snake_case_ = script_dir / F'''{script_name}.py'''
with open(SCREAMING_SNAKE_CASE__ , '''w''' ) as f:
f.write(SCREAMING_SNAKE_CASE__ )
return str(SCREAMING_SNAKE_CASE__ ) | 8 |
"""simple docstring"""
from diffusers.utils.testing_utils import require_onnxruntime
@require_onnxruntime
class A_ :
'''simple docstring'''
pass
| 61 | 0 |
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_tf_available,
is_torch_available,
)
__lowerCAmelCase : Any ={
'configuration_vision_encoder_decoder': ['VisionEncoderDecoderConfig', 'VisionEncoderDecoderOnnxConfig']
}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
__lowerCAmelCase : Union[str, Any] =['VisionEncoderDecoderModel']
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
__lowerCAmelCase : List[Any] =['TFVisionEncoderDecoderModel']
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
__lowerCAmelCase : Tuple =['FlaxVisionEncoderDecoderModel']
if TYPE_CHECKING:
from .configuration_vision_encoder_decoder import VisionEncoderDecoderConfig, VisionEncoderDecoderOnnxConfig
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_vision_encoder_decoder import VisionEncoderDecoderModel
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_vision_encoder_decoder import TFVisionEncoderDecoderModel
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_vision_encoder_decoder import FlaxVisionEncoderDecoderModel
else:
import sys
__lowerCAmelCase : Dict =_LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)
| 9 |
"""simple docstring"""
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
return round(float(moles / volume ) * nfactor )
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
return round(float((moles * 0.0821 * temperature) / (volume) ) )
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
return round(float((moles * 0.0821 * temperature) / (pressure) ) )
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
return round(float((pressure * volume) / (0.0821 * moles) ) )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 61 | 0 |
import argparse
import json
import os
import pickle
import shutil
import numpy as np
import torch
from distiller import Distiller
from lm_seqs_dataset import LmSeqsDataset
from transformers import (
BertConfig,
BertForMaskedLM,
BertTokenizer,
DistilBertConfig,
DistilBertForMaskedLM,
DistilBertTokenizer,
GPTaConfig,
GPTaLMHeadModel,
GPTaTokenizer,
RobertaConfig,
RobertaForMaskedLM,
RobertaTokenizer,
)
from utils import git_log, init_gpu_params, logger, set_seed
__A = {
"distilbert": (DistilBertConfig, DistilBertForMaskedLM, DistilBertTokenizer),
"roberta": (RobertaConfig, RobertaForMaskedLM, RobertaTokenizer),
"bert": (BertConfig, BertForMaskedLM, BertTokenizer),
"gpt2": (GPTaConfig, GPTaLMHeadModel, GPTaTokenizer),
}
def lowerCAmelCase_ ( __a ) -> Tuple:
"""simple docstring"""
assert (args.mlm and args.alpha_mlm > 0.0) or (not args.mlm and args.alpha_mlm == 0.0)
assert (args.alpha_mlm > 0.0 and args.alpha_clm == 0.0) or (args.alpha_mlm == 0.0 and args.alpha_clm > 0.0)
if args.mlm:
assert os.path.isfile(args.token_counts )
assert (args.student_type in ["roberta", "distilbert"]) and (args.teacher_type in ["roberta", "bert"])
else:
assert (args.student_type in ["gpt2"]) and (args.teacher_type in ["gpt2"])
assert args.teacher_type == args.student_type or (
args.student_type == "distilbert" and args.teacher_type == "bert"
)
assert os.path.isfile(args.student_config )
if args.student_pretrained_weights is not None:
assert os.path.isfile(args.student_pretrained_weights )
if args.freeze_token_type_embds:
assert args.student_type in ["roberta"]
assert args.alpha_ce >= 0.0
assert args.alpha_mlm >= 0.0
assert args.alpha_clm >= 0.0
assert args.alpha_mse >= 0.0
assert args.alpha_cos >= 0.0
assert args.alpha_ce + args.alpha_mlm + args.alpha_clm + args.alpha_mse + args.alpha_cos > 0.0
def lowerCAmelCase_ ( __a , __a ) -> List[str]:
"""simple docstring"""
if args.student_type == "roberta":
lowerCamelCase__: int =False
elif args.student_type == "gpt2":
lowerCamelCase__: Optional[int] =False
def lowerCAmelCase_ ( __a , __a ) -> Tuple:
"""simple docstring"""
if args.student_type == "roberta":
lowerCamelCase__: str =False
def lowerCAmelCase_ ( ) -> int:
"""simple docstring"""
lowerCamelCase__: int =argparse.ArgumentParser(description="Training" )
parser.add_argument("--force" , action="store_true" , help="Overwrite dump_path if it already exists." )
parser.add_argument(
"--dump_path" , type=__a , required=__a , help="The output directory (log, checkpoints, parameters, etc.)" )
parser.add_argument(
"--data_file" , type=__a , required=__a , help="The binarized file (tokenized + tokens_to_ids) and grouped by sequence." , )
parser.add_argument(
"--student_type" , type=__a , choices=["distilbert", "roberta", "gpt2"] , required=__a , help="The student type (DistilBERT, RoBERTa)." , )
parser.add_argument("--student_config" , type=__a , required=__a , help="Path to the student configuration." )
parser.add_argument(
"--student_pretrained_weights" , default=__a , type=__a , help="Load student initialization checkpoint." )
parser.add_argument(
"--teacher_type" , choices=["bert", "roberta", "gpt2"] , required=__a , help="Teacher type (BERT, RoBERTa)." )
parser.add_argument("--teacher_name" , type=__a , required=__a , help="The teacher model." )
parser.add_argument("--temperature" , default=2.0 , type=__a , help="Temperature for the softmax temperature." )
parser.add_argument(
"--alpha_ce" , default=0.5 , type=__a , help="Linear weight for the distillation loss. Must be >=0." )
parser.add_argument(
"--alpha_mlm" , default=0.0 , type=__a , help="Linear weight for the MLM loss. Must be >=0. Should be used in conjunction with `mlm` flag." , )
parser.add_argument("--alpha_clm" , default=0.5 , type=__a , help="Linear weight for the CLM loss. Must be >=0." )
parser.add_argument("--alpha_mse" , default=0.0 , type=__a , help="Linear weight of the MSE loss. Must be >=0." )
parser.add_argument(
"--alpha_cos" , default=0.0 , type=__a , help="Linear weight of the cosine embedding loss. Must be >=0." )
parser.add_argument(
"--mlm" , action="store_true" , help="The LM step: MLM or CLM. If `mlm` is True, the MLM is used over CLM." )
parser.add_argument(
"--mlm_mask_prop" , default=0.1_5 , type=__a , help="Proportion of tokens for which we need to make a prediction." , )
parser.add_argument("--word_mask" , default=0.8 , type=__a , help="Proportion of tokens to mask out." )
parser.add_argument("--word_keep" , default=0.1 , type=__a , help="Proportion of tokens to keep." )
parser.add_argument("--word_rand" , default=0.1 , type=__a , help="Proportion of tokens to randomly replace." )
parser.add_argument(
"--mlm_smoothing" , default=0.7 , type=__a , help="Smoothing parameter to emphasize more rare tokens (see XLM, similar to word2vec)." , )
parser.add_argument("--token_counts" , type=__a , help="The token counts in the data_file for MLM." )
parser.add_argument(
"--restrict_ce_to_mask" , action="store_true" , help="If true, compute the distillation loss only the [MLM] prediction distribution." , )
parser.add_argument(
"--freeze_pos_embs" , action="store_true" , help="Freeze positional embeddings during distillation. For student_type in ['roberta', 'gpt2'] only." , )
parser.add_argument(
"--freeze_token_type_embds" , action="store_true" , help="Freeze token type embeddings during distillation if existent. For student_type in ['roberta'] only." , )
parser.add_argument("--n_epoch" , type=__a , default=3 , help="Number of pass on the whole dataset." )
parser.add_argument("--batch_size" , type=__a , default=5 , help="Batch size (for each process)." )
parser.add_argument(
"--group_by_size" , action="store_false" , help="If true, group sequences that have similar length into the same batch. Default is true." , )
parser.add_argument(
"--gradient_accumulation_steps" , type=__a , default=50 , help="Gradient accumulation for larger training batches." , )
parser.add_argument("--warmup_prop" , default=0.0_5 , type=__a , help="Linear warmup proportion." )
parser.add_argument("--weight_decay" , default=0.0 , type=__a , help="Weight decay if we apply some." )
parser.add_argument("--learning_rate" , default=5e-4 , type=__a , help="The initial learning rate for Adam." )
parser.add_argument("--adam_epsilon" , default=1e-6 , type=__a , help="Epsilon for Adam optimizer." )
parser.add_argument("--max_grad_norm" , default=5.0 , type=__a , help="Max gradient norm." )
parser.add_argument("--initializer_range" , default=0.0_2 , type=__a , help="Random initialization range." )
parser.add_argument(
"--fp16" , action="store_true" , help="Whether to use 16-bit (mixed) precision (through NVIDIA apex) instead of 32-bit" , )
parser.add_argument(
"--fp16_opt_level" , type=__a , default="O1" , help=(
"For fp16: Apex AMP optimization level selected in ['O0', 'O1', 'O2', and 'O3']."
"See details at https://nvidia.github.io/apex/amp.html"
) , )
parser.add_argument("--n_gpu" , type=__a , default=1 , help="Number of GPUs in the node." )
parser.add_argument("--local_rank" , type=__a , default=-1 , help="Distributed training - Local rank" )
parser.add_argument("--seed" , type=__a , default=56 , help="Random seed" )
parser.add_argument("--log_interval" , type=__a , default=500 , help="Tensorboard logging interval." )
parser.add_argument("--checkpoint_interval" , type=__a , default=4000 , help="Checkpoint interval." )
lowerCamelCase__: int =parser.parse_args()
sanity_checks(__a )
# ARGS #
init_gpu_params(__a )
set_seed(__a )
if args.is_master:
if os.path.exists(args.dump_path ):
if not args.force:
raise ValueError(
F"""Serialization dir {args.dump_path} already exists, but you have not precised wheter to overwrite"""
" itUse `--force` if you want to overwrite it" )
else:
shutil.rmtree(args.dump_path )
if not os.path.exists(args.dump_path ):
os.makedirs(args.dump_path )
logger.info(F"""Experiment will be dumped and logged in {args.dump_path}""" )
# SAVE PARAMS #
logger.info(F"""Param: {args}""" )
with open(os.path.join(args.dump_path , "parameters.json" ) , "w" ) as f:
json.dump(vars(__a ) , __a , indent=4 )
git_log(args.dump_path )
lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__: int =MODEL_CLASSES[args.student_type]
lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__: Tuple =MODEL_CLASSES[args.teacher_type]
# TOKENIZER #
lowerCamelCase__: Tuple =teacher_tokenizer_class.from_pretrained(args.teacher_name )
lowerCamelCase__: int ={}
for tok_name, tok_symbol in tokenizer.special_tokens_map.items():
lowerCamelCase__: str =tokenizer.all_special_tokens.index(__a )
lowerCamelCase__: Optional[int] =tokenizer.all_special_ids[idx]
logger.info(F"""Special tokens {special_tok_ids}""" )
lowerCamelCase__: Tuple =special_tok_ids
lowerCamelCase__: List[Any] =tokenizer.max_model_input_sizes[args.teacher_name]
# DATA LOADER #
logger.info(F"""Loading data from {args.data_file}""" )
with open(args.data_file , "rb" ) as fp:
lowerCamelCase__: int =pickle.load(__a )
if args.mlm:
logger.info(F"""Loading token counts from {args.token_counts} (already pre-computed)""" )
with open(args.token_counts , "rb" ) as fp:
lowerCamelCase__: Union[str, Any] =pickle.load(__a )
lowerCamelCase__: List[Any] =np.maximum(__a , 1 ) ** -args.mlm_smoothing
for idx in special_tok_ids.values():
lowerCamelCase__: Optional[Any] =0.0 # do not predict special tokens
lowerCamelCase__: Optional[Any] =torch.from_numpy(__a )
else:
lowerCamelCase__: int =None
lowerCamelCase__: Tuple =LmSeqsDataset(params=__a , data=__a )
logger.info("Data loader created." )
# STUDENT #
logger.info(F"""Loading student config from {args.student_config}""" )
lowerCamelCase__: Optional[Any] =student_config_class.from_pretrained(args.student_config )
lowerCamelCase__: Any =True
if args.student_pretrained_weights is not None:
logger.info(F"""Loading pretrained weights from {args.student_pretrained_weights}""" )
lowerCamelCase__: Optional[Any] =student_model_class.from_pretrained(args.student_pretrained_weights , config=__a )
else:
lowerCamelCase__: int =student_model_class(__a )
if args.n_gpu > 0:
student.to(F"""cuda:{args.local_rank}""" )
logger.info("Student loaded." )
# TEACHER #
lowerCamelCase__: Tuple =teacher_model_class.from_pretrained(args.teacher_name , output_hidden_states=__a )
if args.n_gpu > 0:
teacher.to(F"""cuda:{args.local_rank}""" )
logger.info(F"""Teacher loaded from {args.teacher_name}.""" )
# FREEZING #
if args.freeze_pos_embs:
freeze_pos_embeddings(__a , __a )
if args.freeze_token_type_embds:
freeze_token_type_embeddings(__a , __a )
# SANITY CHECKS #
assert student.config.vocab_size == teacher.config.vocab_size
assert student.config.hidden_size == teacher.config.hidden_size
assert student.config.max_position_embeddings == teacher.config.max_position_embeddings
if args.mlm:
assert token_probs.size(0 ) == stu_architecture_config.vocab_size
# DISTILLER #
torch.cuda.empty_cache()
lowerCamelCase__: List[Any] =Distiller(
params=__a , dataset=__a , token_probs=__a , student=__a , teacher=__a )
distiller.train()
logger.info("Let's go get some drinks." )
if __name__ == "__main__":
main()
| 10 |
"""simple docstring"""
import os
_a = {'I': 1, 'V': 5, 'X': 10, 'L': 50, 'C': 100, 'D': 500, 'M': 1_000}
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : Union[str, Any] = 0
UpperCAmelCase_ : List[str] = 0
while index < len(__lowerCamelCase ) - 1:
UpperCAmelCase_ : Tuple = SYMBOLS[numerals[index]]
UpperCAmelCase_ : List[str] = SYMBOLS[numerals[index + 1]]
if current_value < next_value:
total_value -= current_value
else:
total_value += current_value
index += 1
total_value += SYMBOLS[numerals[index]]
return total_value
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : List[str] = ""
UpperCAmelCase_ : Any = num // 1000
numerals += m_count * "M"
num %= 1000
UpperCAmelCase_ : Any = num // 100
if c_count == 9:
numerals += "CM"
c_count -= 9
elif c_count == 4:
numerals += "CD"
c_count -= 4
if c_count >= 5:
numerals += "D"
c_count -= 5
numerals += c_count * "C"
num %= 100
UpperCAmelCase_ : str = num // 10
if x_count == 9:
numerals += "XC"
x_count -= 9
elif x_count == 4:
numerals += "XL"
x_count -= 4
if x_count >= 5:
numerals += "L"
x_count -= 5
numerals += x_count * "X"
num %= 10
if num == 9:
numerals += "IX"
num -= 9
elif num == 4:
numerals += "IV"
num -= 4
if num >= 5:
numerals += "V"
num -= 5
numerals += num * "I"
return numerals
def __a ( __lowerCamelCase = "/p089_roman.txt" ):
UpperCAmelCase_ : int = 0
with open(os.path.dirname(__lowerCamelCase ) + roman_numerals_filename ) as filea:
UpperCAmelCase_ : Optional[Any] = filea.readlines()
for line in lines:
UpperCAmelCase_ : Tuple = line.strip()
UpperCAmelCase_ : Optional[Any] = parse_roman_numerals(__lowerCamelCase )
UpperCAmelCase_ : Tuple = generate_roman_numerals(__lowerCamelCase )
savings += len(__lowerCamelCase ) - len(__lowerCamelCase )
return savings
if __name__ == "__main__":
print(f"""{solution() = }""")
| 61 | 0 |
import unittest
from transformers import is_torch_available
from transformers.testing_utils import require_sentencepiece, require_tokenizers, require_torch, slow
if is_torch_available():
import torch
from transformers import XLMRobertaModel
@require_sentencepiece
@require_tokenizers
@require_torch
class lowerCAmelCase__ ( unittest.TestCase):
'''simple docstring'''
@slow
def _lowerCamelCase ( self) -> Union[str, Any]:
_A : List[str] = XLMRobertaModel.from_pretrained("xlm-roberta-base")
_A : str = torch.tensor([[0, 5_8_1, 1_0_2_6_9, 8_3, 9_9_9_4_2, 1_3_6, 6_0_7_4_2, 2_3, 7_0, 8_0_5_8_3, 1_8_2_7_6, 2]])
# The dog is cute and lives in the garden house
_A : List[Any] = torch.Size((1, 1_2, 7_6_8)) # batch_size, sequence_length, embedding_vector_dim
_A : List[Any] = torch.tensor(
[[-0.0_1_0_1, 0.1_2_1_8, -0.0_8_0_3, 0.0_8_0_1, 0.1_3_2_7, 0.0_7_7_6, -0.1_2_1_5, 0.2_3_8_3, 0.3_3_3_8, 0.3_1_0_6, 0.0_3_0_0, 0.0_2_5_2]])
# xlmr = torch.hub.load('pytorch/fairseq', 'xlmr.base')
# xlmr.eval()
# expected_output_values_last_dim = xlmr.extract_features(input_ids[0])[:, :, -1]
with torch.no_grad():
_A : List[Any] = model(__lowerCamelCase)["last_hidden_state"].detach()
self.assertEqual(output.shape , __lowerCamelCase)
# compare the actual values for a slice of last dim
self.assertTrue(torch.allclose(output[:, :, -1] , __lowerCamelCase , atol=1e-3))
@slow
def _lowerCamelCase ( self) -> List[Any]:
_A : Dict = XLMRobertaModel.from_pretrained("xlm-roberta-large")
_A : int = torch.tensor([[0, 5_8_1, 1_0_2_6_9, 8_3, 9_9_9_4_2, 1_3_6, 6_0_7_4_2, 2_3, 7_0, 8_0_5_8_3, 1_8_2_7_6, 2]])
# The dog is cute and lives in the garden house
_A : List[Any] = torch.Size((1, 1_2, 1_0_2_4)) # batch_size, sequence_length, embedding_vector_dim
_A : str = torch.tensor(
[[-0.0_6_9_9, -0.0_3_1_8, 0.0_7_0_5, -0.1_2_4_1, 0.0_9_9_9, -0.0_5_2_0, 0.1_0_0_4, -0.1_8_3_8, -0.4_7_0_4, 0.1_4_3_7, 0.0_8_2_1, 0.0_1_2_6]])
# xlmr = torch.hub.load('pytorch/fairseq', 'xlmr.large')
# xlmr.eval()
# expected_output_values_last_dim = xlmr.extract_features(input_ids[0])[:, :, -1]
with torch.no_grad():
_A : int = model(__lowerCamelCase)["last_hidden_state"].detach()
self.assertEqual(output.shape , __lowerCamelCase)
# compare the actual values for a slice of last dim
self.assertTrue(torch.allclose(output[:, :, -1] , __lowerCamelCase , atol=1e-3))
| 11 |
"""simple docstring"""
from unittest import TestCase
from datasets import Dataset
from minhash_deduplication import deduplicate_dataset, make_duplicate_clusters
def __a ( ):
UpperCAmelCase_ : List[Any] = {
"repo_name": ["test_repo1", "test_repo2", "test_repo3"],
"path": ["test_1.py", "test_2.py", "unit_test.py"],
"content": ["a " * 20, "a " * 30, "b " * 7],
}
UpperCAmelCase_ : Optional[int] = Dataset.from_dict(__lowerCamelCase )
return dataset
class A_ (lowercase__ ):
'''simple docstring'''
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Union[str, Any] = get_dataset()
UpperCAmelCase_ : Any = make_duplicate_clusters(lowercase_ , 0.85 )
self.assertEqual(len(duplicate_clusters[0] ) , 2 )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = get_dataset()
UpperCAmelCase_ , UpperCAmelCase_ : List[str] = deduplicate_dataset(lowercase_ )
self.assertEqual(len(lowercase_ ) , 2 )
print(lowercase_ )
self.assertEqual(duplicate_clusters[0][0]["copies"] , 2 )
self.assertEqual(duplicate_clusters[0][0]["is_extreme"] , lowercase_ )
| 61 | 0 |
UpperCAmelCase_ = 'ABCDEFGHIJKLMNOPQRSTUVWXYZ'
def lowerCamelCase__ ( ):
'''simple docstring'''
__lowerCamelCase = input("""Enter message: """ )
__lowerCamelCase = input("""Enter key [alphanumeric]: """ )
__lowerCamelCase = input("""Encrypt/Decrypt [e/d]: """ )
if mode.lower().startswith("""e""" ):
__lowerCamelCase = """encrypt"""
__lowerCamelCase = encrypt_message(A__ , A__ )
elif mode.lower().startswith("""d""" ):
__lowerCamelCase = """decrypt"""
__lowerCamelCase = decrypt_message(A__ , A__ )
print(f'\n{mode.title()}ed message:' )
print(A__ )
def lowerCamelCase__ ( A__ : str , A__ : str ):
'''simple docstring'''
return translate_message(A__ , A__ , """encrypt""" )
def lowerCamelCase__ ( A__ : str , A__ : str ):
'''simple docstring'''
return translate_message(A__ , A__ , """decrypt""" )
def lowerCamelCase__ ( A__ : str , A__ : str , A__ : str ):
'''simple docstring'''
__lowerCamelCase = []
__lowerCamelCase = 0
__lowerCamelCase = key.upper()
for symbol in message:
__lowerCamelCase = LETTERS.find(symbol.upper() )
if num != -1:
if mode == "encrypt":
num += LETTERS.find(key[key_index] )
elif mode == "decrypt":
num -= LETTERS.find(key[key_index] )
num %= len(A__ )
if symbol.isupper():
translated.append(LETTERS[num] )
elif symbol.islower():
translated.append(LETTERS[num].lower() )
key_index += 1
if key_index == len(A__ ):
__lowerCamelCase = 0
else:
translated.append(A__ )
return "".join(A__ )
if __name__ == "__main__":
main()
| 12 |
"""simple docstring"""
from collections import namedtuple
_a = namedtuple('from_to', 'from_ to')
_a = {
'cubicmeter': from_to(1, 1),
'litre': from_to(0.001, 1_000),
'kilolitre': from_to(1, 1),
'gallon': from_to(0.0_0454, 264.172),
'cubicyard': from_to(0.7_6455, 1.3_0795),
'cubicfoot': from_to(0.028, 35.3147),
'cup': from_to(0.0_0023_6588, 4226.75),
}
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
if from_type not in METRIC_CONVERSION:
raise ValueError(
f"""Invalid 'from_type' value: {from_type!r} Supported values are:\n"""
+ ", ".join(__lowerCamelCase ) )
if to_type not in METRIC_CONVERSION:
raise ValueError(
f"""Invalid 'to_type' value: {to_type!r}. Supported values are:\n"""
+ ", ".join(__lowerCamelCase ) )
return value * METRIC_CONVERSION[from_type].from_ * METRIC_CONVERSION[to_type].to
if __name__ == "__main__":
import doctest
doctest.testmod()
| 61 | 0 |
import os
import tempfile
import unittest
from transformers import FlaubertConfig, is_torch_available
from transformers.testing_utils import require_torch, require_torch_gpu, 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 (
FlaubertForMultipleChoice,
FlaubertForQuestionAnswering,
FlaubertForQuestionAnsweringSimple,
FlaubertForSequenceClassification,
FlaubertForTokenClassification,
FlaubertModel,
FlaubertWithLMHeadModel,
)
from transformers.models.flaubert.modeling_flaubert import FLAUBERT_PRETRAINED_MODEL_ARCHIVE_LIST
class __lowercase ( UpperCAmelCase_ ):
"""simple docstring"""
def __init__( self : Tuple , lowerCAmelCase__ : Optional[Any] , lowerCAmelCase__ : List[Any]=13 , lowerCAmelCase__ : Optional[int]=7 , lowerCAmelCase__ : int=True , lowerCAmelCase__ : str=True , lowerCAmelCase__ : Optional[int]=True , lowerCAmelCase__ : Dict=True , lowerCAmelCase__ : int=True , lowerCAmelCase__ : Union[str, Any]=False , lowerCAmelCase__ : Optional[int]=False , lowerCAmelCase__ : List[Any]=False , lowerCAmelCase__ : int=2 , lowerCAmelCase__ : Dict=99 , lowerCAmelCase__ : Union[str, Any]=0 , lowerCAmelCase__ : Union[str, Any]=32 , lowerCAmelCase__ : str=5 , lowerCAmelCase__ : Optional[int]=4 , lowerCAmelCase__ : Dict=0.1 , lowerCAmelCase__ : List[str]=0.1 , lowerCAmelCase__ : Dict=512 , lowerCAmelCase__ : List[str]=12 , lowerCAmelCase__ : Any=2 , lowerCAmelCase__ : Tuple=0.02 , lowerCAmelCase__ : List[str]=3 , lowerCAmelCase__ : List[Any]=4 , lowerCAmelCase__ : str="last" , lowerCAmelCase__ : Optional[Any]=None , lowerCAmelCase__ : Union[str, Any]=None , ):
SCREAMING_SNAKE_CASE_: Optional[int] = parent
SCREAMING_SNAKE_CASE_: str = batch_size
SCREAMING_SNAKE_CASE_: Optional[int] = seq_length
SCREAMING_SNAKE_CASE_: List[Any] = is_training
SCREAMING_SNAKE_CASE_: int = use_input_lengths
SCREAMING_SNAKE_CASE_: Any = use_token_type_ids
SCREAMING_SNAKE_CASE_: List[Any] = use_labels
SCREAMING_SNAKE_CASE_: Optional[int] = gelu_activation
SCREAMING_SNAKE_CASE_: Tuple = sinusoidal_embeddings
SCREAMING_SNAKE_CASE_: List[str] = causal
SCREAMING_SNAKE_CASE_: int = asm
SCREAMING_SNAKE_CASE_: Optional[int] = n_langs
SCREAMING_SNAKE_CASE_: str = vocab_size
SCREAMING_SNAKE_CASE_: List[Any] = n_special
SCREAMING_SNAKE_CASE_: str = hidden_size
SCREAMING_SNAKE_CASE_: Optional[int] = num_hidden_layers
SCREAMING_SNAKE_CASE_: Optional[Any] = num_attention_heads
SCREAMING_SNAKE_CASE_: Union[str, Any] = hidden_dropout_prob
SCREAMING_SNAKE_CASE_: int = attention_probs_dropout_prob
SCREAMING_SNAKE_CASE_: List[str] = max_position_embeddings
SCREAMING_SNAKE_CASE_: Optional[Any] = type_vocab_size
SCREAMING_SNAKE_CASE_: Union[str, Any] = type_sequence_label_size
SCREAMING_SNAKE_CASE_: Tuple = initializer_range
SCREAMING_SNAKE_CASE_: Optional[int] = num_labels
SCREAMING_SNAKE_CASE_: Tuple = num_choices
SCREAMING_SNAKE_CASE_: Any = summary_type
SCREAMING_SNAKE_CASE_: Any = use_proj
SCREAMING_SNAKE_CASE_: List[str] = scope
def _SCREAMING_SNAKE_CASE ( self : Union[str, Any]):
SCREAMING_SNAKE_CASE_: int = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size)
SCREAMING_SNAKE_CASE_: List[str] = random_attention_mask([self.batch_size, self.seq_length])
SCREAMING_SNAKE_CASE_: Tuple = None
if self.use_input_lengths:
SCREAMING_SNAKE_CASE_: Optional[int] = (
ids_tensor([self.batch_size] , vocab_size=2) + self.seq_length - 2
) # small variation of seq_length
SCREAMING_SNAKE_CASE_: Union[str, Any] = None
if self.use_token_type_ids:
SCREAMING_SNAKE_CASE_: int = ids_tensor([self.batch_size, self.seq_length] , self.n_langs)
SCREAMING_SNAKE_CASE_: List[str] = None
SCREAMING_SNAKE_CASE_: Optional[int] = None
SCREAMING_SNAKE_CASE_: Optional[Any] = None
if self.use_labels:
SCREAMING_SNAKE_CASE_: int = ids_tensor([self.batch_size] , self.type_sequence_label_size)
SCREAMING_SNAKE_CASE_: Tuple = ids_tensor([self.batch_size, self.seq_length] , self.num_labels)
SCREAMING_SNAKE_CASE_: Tuple = ids_tensor([self.batch_size] , 2).float()
SCREAMING_SNAKE_CASE_: Dict = ids_tensor([self.batch_size] , self.num_choices)
SCREAMING_SNAKE_CASE_: str = self.get_config()
return (
config,
input_ids,
token_type_ids,
input_lengths,
sequence_labels,
token_labels,
is_impossible_labels,
choice_labels,
input_mask,
)
def _SCREAMING_SNAKE_CASE ( self : int):
return FlaubertConfig(
vocab_size=self.vocab_size , n_special=self.n_special , emb_dim=self.hidden_size , n_layers=self.num_hidden_layers , n_heads=self.num_attention_heads , dropout=self.hidden_dropout_prob , attention_dropout=self.attention_probs_dropout_prob , gelu_activation=self.gelu_activation , sinusoidal_embeddings=self.sinusoidal_embeddings , asm=self.asm , causal=self.causal , n_langs=self.n_langs , max_position_embeddings=self.max_position_embeddings , initializer_range=self.initializer_range , summary_type=self.summary_type , use_proj=self.use_proj , )
def _SCREAMING_SNAKE_CASE ( self : int , lowerCAmelCase__ : Optional[int] , lowerCAmelCase__ : str , lowerCAmelCase__ : Optional[Any] , lowerCAmelCase__ : List[str] , lowerCAmelCase__ : str , lowerCAmelCase__ : List[str] , lowerCAmelCase__ : Union[str, Any] , lowerCAmelCase__ : int , lowerCAmelCase__ : int , ):
SCREAMING_SNAKE_CASE_: Optional[Any] = FlaubertModel(config=lowerCAmelCase__)
model.to(lowerCAmelCase__)
model.eval()
SCREAMING_SNAKE_CASE_: Dict = model(lowerCAmelCase__ , lengths=lowerCAmelCase__ , langs=lowerCAmelCase__)
SCREAMING_SNAKE_CASE_: int = model(lowerCAmelCase__ , langs=lowerCAmelCase__)
SCREAMING_SNAKE_CASE_: Optional[Any] = model(lowerCAmelCase__)
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size))
def _SCREAMING_SNAKE_CASE ( self : Dict , lowerCAmelCase__ : str , lowerCAmelCase__ : Any , lowerCAmelCase__ : List[Any] , lowerCAmelCase__ : Tuple , lowerCAmelCase__ : Any , lowerCAmelCase__ : Union[str, Any] , lowerCAmelCase__ : int , lowerCAmelCase__ : Dict , lowerCAmelCase__ : List[str] , ):
SCREAMING_SNAKE_CASE_: str = FlaubertWithLMHeadModel(lowerCAmelCase__)
model.to(lowerCAmelCase__)
model.eval()
SCREAMING_SNAKE_CASE_: Optional[Any] = model(lowerCAmelCase__ , token_type_ids=lowerCAmelCase__ , labels=lowerCAmelCase__)
self.parent.assertEqual(result.loss.shape , ())
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.seq_length, self.vocab_size))
def _SCREAMING_SNAKE_CASE ( self : Optional[Any] , lowerCAmelCase__ : Optional[int] , lowerCAmelCase__ : Dict , lowerCAmelCase__ : List[Any] , lowerCAmelCase__ : Optional[int] , lowerCAmelCase__ : List[Any] , lowerCAmelCase__ : Union[str, Any] , lowerCAmelCase__ : Optional[int] , lowerCAmelCase__ : List[str] , lowerCAmelCase__ : str , ):
SCREAMING_SNAKE_CASE_: List[str] = FlaubertForQuestionAnsweringSimple(lowerCAmelCase__)
model.to(lowerCAmelCase__)
model.eval()
SCREAMING_SNAKE_CASE_: int = model(lowerCAmelCase__)
SCREAMING_SNAKE_CASE_: Union[str, Any] = model(lowerCAmelCase__ , start_positions=lowerCAmelCase__ , end_positions=lowerCAmelCase__)
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 _SCREAMING_SNAKE_CASE ( self : int , lowerCAmelCase__ : int , lowerCAmelCase__ : Tuple , lowerCAmelCase__ : int , lowerCAmelCase__ : Tuple , lowerCAmelCase__ : Union[str, Any] , lowerCAmelCase__ : Union[str, Any] , lowerCAmelCase__ : List[Any] , lowerCAmelCase__ : Optional[Any] , lowerCAmelCase__ : str , ):
SCREAMING_SNAKE_CASE_: str = FlaubertForQuestionAnswering(lowerCAmelCase__)
model.to(lowerCAmelCase__)
model.eval()
SCREAMING_SNAKE_CASE_: Dict = model(lowerCAmelCase__)
SCREAMING_SNAKE_CASE_: Optional[Any] = model(
lowerCAmelCase__ , start_positions=lowerCAmelCase__ , end_positions=lowerCAmelCase__ , cls_index=lowerCAmelCase__ , is_impossible=lowerCAmelCase__ , p_mask=lowerCAmelCase__ , )
SCREAMING_SNAKE_CASE_: List[Any] = model(
lowerCAmelCase__ , start_positions=lowerCAmelCase__ , end_positions=lowerCAmelCase__ , cls_index=lowerCAmelCase__ , is_impossible=lowerCAmelCase__ , )
((SCREAMING_SNAKE_CASE_) , ): Union[str, Any] = result_with_labels.to_tuple()
SCREAMING_SNAKE_CASE_: str = model(lowerCAmelCase__ , start_positions=lowerCAmelCase__ , end_positions=lowerCAmelCase__)
((SCREAMING_SNAKE_CASE_) , ): Optional[int] = result_with_labels.to_tuple()
self.parent.assertEqual(result_with_labels.loss.shape , ())
self.parent.assertEqual(result.start_top_log_probs.shape , (self.batch_size, model.config.start_n_top))
self.parent.assertEqual(result.start_top_index.shape , (self.batch_size, model.config.start_n_top))
self.parent.assertEqual(
result.end_top_log_probs.shape , (self.batch_size, model.config.start_n_top * model.config.end_n_top))
self.parent.assertEqual(
result.end_top_index.shape , (self.batch_size, model.config.start_n_top * model.config.end_n_top))
self.parent.assertEqual(result.cls_logits.shape , (self.batch_size,))
def _SCREAMING_SNAKE_CASE ( self : str , lowerCAmelCase__ : List[Any] , lowerCAmelCase__ : Tuple , lowerCAmelCase__ : Union[str, Any] , lowerCAmelCase__ : Any , lowerCAmelCase__ : Tuple , lowerCAmelCase__ : int , lowerCAmelCase__ : List[Any] , lowerCAmelCase__ : List[str] , lowerCAmelCase__ : Any , ):
SCREAMING_SNAKE_CASE_: Any = FlaubertForSequenceClassification(lowerCAmelCase__)
model.to(lowerCAmelCase__)
model.eval()
SCREAMING_SNAKE_CASE_: List[Any] = model(lowerCAmelCase__)
SCREAMING_SNAKE_CASE_: str = model(lowerCAmelCase__ , labels=lowerCAmelCase__)
self.parent.assertEqual(result.loss.shape , ())
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size))
def _SCREAMING_SNAKE_CASE ( self : Optional[int] , lowerCAmelCase__ : str , lowerCAmelCase__ : Dict , lowerCAmelCase__ : str , lowerCAmelCase__ : Union[str, Any] , lowerCAmelCase__ : int , lowerCAmelCase__ : Optional[Any] , lowerCAmelCase__ : Optional[int] , lowerCAmelCase__ : Any , lowerCAmelCase__ : Dict , ):
SCREAMING_SNAKE_CASE_: List[str] = self.num_labels
SCREAMING_SNAKE_CASE_: Dict = FlaubertForTokenClassification(lowerCAmelCase__)
model.to(lowerCAmelCase__)
model.eval()
SCREAMING_SNAKE_CASE_: Tuple = model(lowerCAmelCase__ , attention_mask=lowerCAmelCase__ , labels=lowerCAmelCase__)
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.seq_length, self.num_labels))
def _SCREAMING_SNAKE_CASE ( self : Union[str, Any] , lowerCAmelCase__ : Dict , lowerCAmelCase__ : Tuple , lowerCAmelCase__ : int , lowerCAmelCase__ : Dict , lowerCAmelCase__ : List[Any] , lowerCAmelCase__ : Any , lowerCAmelCase__ : Any , lowerCAmelCase__ : Any , lowerCAmelCase__ : Optional[int] , ):
SCREAMING_SNAKE_CASE_: Union[str, Any] = self.num_choices
SCREAMING_SNAKE_CASE_: List[str] = FlaubertForMultipleChoice(config=lowerCAmelCase__)
model.to(lowerCAmelCase__)
model.eval()
SCREAMING_SNAKE_CASE_: int = input_ids.unsqueeze(1).expand(-1 , self.num_choices , -1).contiguous()
SCREAMING_SNAKE_CASE_: List[Any] = token_type_ids.unsqueeze(1).expand(-1 , self.num_choices , -1).contiguous()
SCREAMING_SNAKE_CASE_: List[Any] = input_mask.unsqueeze(1).expand(-1 , self.num_choices , -1).contiguous()
SCREAMING_SNAKE_CASE_: Dict = model(
lowerCAmelCase__ , attention_mask=lowerCAmelCase__ , token_type_ids=lowerCAmelCase__ , labels=lowerCAmelCase__ , )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_choices))
def _SCREAMING_SNAKE_CASE ( self : Dict):
SCREAMING_SNAKE_CASE_: Union[str, Any] = self.prepare_config_and_inputs()
(
(
SCREAMING_SNAKE_CASE_
) , (
SCREAMING_SNAKE_CASE_
) , (
SCREAMING_SNAKE_CASE_
) , (
SCREAMING_SNAKE_CASE_
) , (
SCREAMING_SNAKE_CASE_
) , (
SCREAMING_SNAKE_CASE_
) , (
SCREAMING_SNAKE_CASE_
) , (
SCREAMING_SNAKE_CASE_
) , (
SCREAMING_SNAKE_CASE_
) ,
): Union[str, Any] = config_and_inputs
SCREAMING_SNAKE_CASE_: Any = {
"input_ids": input_ids,
"token_type_ids": token_type_ids,
"lengths": input_lengths,
"attention_mask": input_mask,
}
return config, inputs_dict
@require_torch
class __lowercase ( UpperCAmelCase_ , UpperCAmelCase_ , unittest.TestCase ):
"""simple docstring"""
_UpperCAmelCase : Dict = (
(
FlaubertModel,
FlaubertWithLMHeadModel,
FlaubertForQuestionAnswering,
FlaubertForQuestionAnsweringSimple,
FlaubertForSequenceClassification,
FlaubertForTokenClassification,
FlaubertForMultipleChoice,
)
if is_torch_available()
else ()
)
_UpperCAmelCase : List[str] = (
{
'''feature-extraction''': FlaubertModel,
'''fill-mask''': FlaubertWithLMHeadModel,
'''question-answering''': FlaubertForQuestionAnsweringSimple,
'''text-classification''': FlaubertForSequenceClassification,
'''token-classification''': FlaubertForTokenClassification,
'''zero-shot''': FlaubertForSequenceClassification,
}
if is_torch_available()
else {}
)
def _SCREAMING_SNAKE_CASE ( self : str , lowerCAmelCase__ : Tuple , lowerCAmelCase__ : Union[str, Any] , lowerCAmelCase__ : Any , lowerCAmelCase__ : str , lowerCAmelCase__ : str):
if (
pipeline_test_casse_name == "QAPipelineTests"
and tokenizer_name is not None
and not tokenizer_name.endswith("Fast")
):
# `QAPipelineTests` fails for a few models when the slower tokenizer are used.
# (The slower tokenizers were never used for pipeline tests before the pipeline testing rework)
# TODO: check (and possibly fix) the `QAPipelineTests` with slower tokenizer
return True
return False
def _SCREAMING_SNAKE_CASE ( self : Optional[int] , lowerCAmelCase__ : Union[str, Any] , lowerCAmelCase__ : Optional[Any] , lowerCAmelCase__ : List[Any]=False):
SCREAMING_SNAKE_CASE_: str = super()._prepare_for_class(lowerCAmelCase__ , lowerCAmelCase__ , return_labels=lowerCAmelCase__)
if return_labels:
if model_class.__name__ == "FlaubertForQuestionAnswering":
SCREAMING_SNAKE_CASE_: List[str] = torch.zeros(
self.model_tester.batch_size , dtype=torch.long , device=lowerCAmelCase__)
SCREAMING_SNAKE_CASE_: str = torch.zeros(
self.model_tester.batch_size , dtype=torch.long , device=lowerCAmelCase__)
return inputs_dict
def _SCREAMING_SNAKE_CASE ( self : Union[str, Any]):
SCREAMING_SNAKE_CASE_: Tuple = FlaubertModelTester(self)
SCREAMING_SNAKE_CASE_: List[str] = ConfigTester(self , config_class=lowerCAmelCase__ , emb_dim=37)
def _SCREAMING_SNAKE_CASE ( self : Optional[int]):
self.config_tester.run_common_tests()
def _SCREAMING_SNAKE_CASE ( self : List[str]):
SCREAMING_SNAKE_CASE_: Dict = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_flaubert_model(*lowerCAmelCase__)
def _SCREAMING_SNAKE_CASE ( self : Union[str, Any]):
SCREAMING_SNAKE_CASE_: str = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_flaubert_lm_head(*lowerCAmelCase__)
def _SCREAMING_SNAKE_CASE ( self : Optional[int]):
SCREAMING_SNAKE_CASE_: int = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_flaubert_simple_qa(*lowerCAmelCase__)
def _SCREAMING_SNAKE_CASE ( self : str):
SCREAMING_SNAKE_CASE_: Optional[Any] = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_flaubert_qa(*lowerCAmelCase__)
def _SCREAMING_SNAKE_CASE ( self : Dict):
SCREAMING_SNAKE_CASE_: Dict = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_flaubert_sequence_classif(*lowerCAmelCase__)
def _SCREAMING_SNAKE_CASE ( self : Union[str, Any]):
SCREAMING_SNAKE_CASE_: str = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_flaubert_token_classif(*lowerCAmelCase__)
def _SCREAMING_SNAKE_CASE ( self : Any):
SCREAMING_SNAKE_CASE_: Any = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_flaubert_multiple_choice(*lowerCAmelCase__)
@slow
def _SCREAMING_SNAKE_CASE ( self : Optional[int]):
for model_name in FLAUBERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
SCREAMING_SNAKE_CASE_: Any = FlaubertModel.from_pretrained(lowerCAmelCase__)
self.assertIsNotNone(lowerCAmelCase__)
@slow
@require_torch_gpu
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:
# FlauBertForMultipleChoice behaves incorrectly in JIT environments.
if model_class == FlaubertForMultipleChoice:
return
SCREAMING_SNAKE_CASE_: int = True
SCREAMING_SNAKE_CASE_: Optional[int] = model_class(config=lowerCAmelCase__)
SCREAMING_SNAKE_CASE_: Optional[int] = self._prepare_for_class(lowerCAmelCase__ , lowerCAmelCase__)
SCREAMING_SNAKE_CASE_: int = torch.jit.trace(
lowerCAmelCase__ , (inputs_dict["input_ids"].to("cpu"), inputs_dict["attention_mask"].to("cpu")))
with tempfile.TemporaryDirectory() as tmp:
torch.jit.save(lowerCAmelCase__ , os.path.join(lowerCAmelCase__ , "traced_model.pt"))
SCREAMING_SNAKE_CASE_: List[str] = torch.jit.load(os.path.join(lowerCAmelCase__ , "traced_model.pt") , map_location=lowerCAmelCase__)
loaded(inputs_dict["input_ids"].to(lowerCAmelCase__) , inputs_dict["attention_mask"].to(lowerCAmelCase__))
@require_torch
class __lowercase ( unittest.TestCase ):
"""simple docstring"""
@slow
def _SCREAMING_SNAKE_CASE ( self : int):
SCREAMING_SNAKE_CASE_: Union[str, Any] = FlaubertModel.from_pretrained("flaubert/flaubert_base_cased")
SCREAMING_SNAKE_CASE_: List[Any] = torch.tensor([[0, 345, 232, 328, 740, 140, 1695, 69, 6078, 1588, 2]])
with torch.no_grad():
SCREAMING_SNAKE_CASE_: int = model(lowerCAmelCase__)[0]
SCREAMING_SNAKE_CASE_: List[Any] = torch.Size((1, 11, 768))
self.assertEqual(output.shape , lowerCAmelCase__)
SCREAMING_SNAKE_CASE_: int = torch.tensor(
[[[-2.6251, -1.4298, -0.0227], [-2.8510, -1.6387, 0.2258], [-2.8114, -1.1832, -0.3066]]])
self.assertTrue(torch.allclose(output[:, :3, :3] , lowerCAmelCase__ , atol=1E-4))
| 13 |
"""simple docstring"""
from __future__ import annotations
def __a ( __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ , UpperCAmelCase_ : str = set(__lowerCamelCase ), [start]
while stack:
UpperCAmelCase_ : Any = stack.pop()
explored.add(__lowerCamelCase )
# Differences from BFS:
# 1) pop last element instead of first one
# 2) add adjacent elements to stack without exploring them
for adj in reversed(graph[v] ):
if adj not in explored:
stack.append(__lowerCamelCase )
return explored
_a = {
'A': ['B', 'C', 'D'],
'B': ['A', 'D', 'E'],
'C': ['A', 'F'],
'D': ['B', 'D'],
'E': ['B', 'F'],
'F': ['C', 'E', 'G'],
'G': ['F'],
}
if __name__ == "__main__":
import doctest
doctest.testmod()
print(depth_first_search(G, 'A'))
| 61 | 0 |
import os
import unicodedata
from shutil import copyfile
from typing import Any, Dict, List, Optional, Tuple
import sentencepiece as spm
from ...tokenization_utils import AddedToken, PreTrainedTokenizer
from ...utils import logging
_lowerCamelCase : Optional[Any] = logging.get_logger(__name__)
_lowerCamelCase : Optional[int] = {"""vocab_file""": """spiece.model"""}
_lowerCamelCase : Any = {
"""vocab_file""": {
"""albert-base-v1""": """https://huggingface.co/albert-base-v1/resolve/main/spiece.model""",
"""albert-large-v1""": """https://huggingface.co/albert-large-v1/resolve/main/spiece.model""",
"""albert-xlarge-v1""": """https://huggingface.co/albert-xlarge-v1/resolve/main/spiece.model""",
"""albert-xxlarge-v1""": """https://huggingface.co/albert-xxlarge-v1/resolve/main/spiece.model""",
"""albert-base-v2""": """https://huggingface.co/albert-base-v2/resolve/main/spiece.model""",
"""albert-large-v2""": """https://huggingface.co/albert-large-v2/resolve/main/spiece.model""",
"""albert-xlarge-v2""": """https://huggingface.co/albert-xlarge-v2/resolve/main/spiece.model""",
"""albert-xxlarge-v2""": """https://huggingface.co/albert-xxlarge-v2/resolve/main/spiece.model""",
}
}
_lowerCamelCase : Any = {
"""albert-base-v1""": 512,
"""albert-large-v1""": 512,
"""albert-xlarge-v1""": 512,
"""albert-xxlarge-v1""": 512,
"""albert-base-v2""": 512,
"""albert-large-v2""": 512,
"""albert-xlarge-v2""": 512,
"""albert-xxlarge-v2""": 512,
}
_lowerCamelCase : Optional[int] = """▁"""
class UpperCamelCase_ ( UpperCAmelCase__ ):
'''simple docstring'''
UpperCAmelCase__ = VOCAB_FILES_NAMES
UpperCAmelCase__ = PRETRAINED_VOCAB_FILES_MAP
UpperCAmelCase__ = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
def __init__( self : Optional[int] , UpperCAmelCase__ : List[str] , UpperCAmelCase__ : Any=True , UpperCAmelCase__ : Optional[Any]=True , UpperCAmelCase__ : Union[str, Any]=False , UpperCAmelCase__ : Dict="[CLS]" , UpperCAmelCase__ : int="[SEP]" , UpperCAmelCase__ : int="<unk>" , UpperCAmelCase__ : Tuple="[SEP]" , UpperCAmelCase__ : List[str]="<pad>" , UpperCAmelCase__ : List[str]="[CLS]" , UpperCAmelCase__ : Union[str, Any]="[MASK]" , UpperCAmelCase__ : Optional[Dict[str, Any]] = None , **UpperCAmelCase__ : Any , ) ->None:
'''simple docstring'''
A__ = (
AddedToken(UpperCAmelCase__ , lstrip=UpperCAmelCase__ , rstrip=UpperCAmelCase__ , normalized=UpperCAmelCase__)
if isinstance(UpperCAmelCase__ , UpperCAmelCase__)
else mask_token
)
A__ = {} if sp_model_kwargs is None else sp_model_kwargs
super().__init__(
do_lower_case=UpperCAmelCase__ , remove_space=UpperCAmelCase__ , keep_accents=UpperCAmelCase__ , bos_token=UpperCAmelCase__ , eos_token=UpperCAmelCase__ , unk_token=UpperCAmelCase__ , sep_token=UpperCAmelCase__ , pad_token=UpperCAmelCase__ , cls_token=UpperCAmelCase__ , mask_token=UpperCAmelCase__ , sp_model_kwargs=self.sp_model_kwargs , **UpperCAmelCase__ , )
A__ = do_lower_case
A__ = remove_space
A__ = keep_accents
A__ = vocab_file
A__ = spm.SentencePieceProcessor(**self.sp_model_kwargs)
self.sp_model.Load(UpperCAmelCase__)
@property
def SCREAMING_SNAKE_CASE ( self : Tuple) ->Optional[int]:
'''simple docstring'''
return len(self.sp_model)
def SCREAMING_SNAKE_CASE ( self : int) ->Optional[Any]:
'''simple docstring'''
A__ = {self.convert_ids_to_tokens(UpperCAmelCase__): i for i in range(self.vocab_size)}
vocab.update(self.added_tokens_encoder)
return vocab
def __getstate__( self : Optional[int]) ->Dict:
'''simple docstring'''
A__ = self.__dict__.copy()
A__ = None
return state
def __setstate__( self : List[Any] , UpperCAmelCase__ : List[Any]) ->int:
'''simple docstring'''
A__ = d
# for backward compatibility
if not hasattr(self , '''sp_model_kwargs'''):
A__ = {}
A__ = spm.SentencePieceProcessor(**self.sp_model_kwargs)
self.sp_model.Load(self.vocab_file)
def SCREAMING_SNAKE_CASE ( self : Tuple , UpperCAmelCase__ : int) ->int:
'''simple docstring'''
if self.remove_space:
A__ = ''' '''.join(inputs.strip().split())
else:
A__ = inputs
A__ = outputs.replace('''``''' , '''"''').replace('''\'\'''' , '''"''')
if not self.keep_accents:
A__ = unicodedata.normalize('''NFKD''' , UpperCAmelCase__)
A__ = ''''''.join([c for c in outputs if not unicodedata.combining(UpperCAmelCase__)])
if self.do_lower_case:
A__ = outputs.lower()
return outputs
def SCREAMING_SNAKE_CASE ( self : List[str] , UpperCAmelCase__ : str) ->List[str]:
'''simple docstring'''
A__ = self.preprocess_text(UpperCAmelCase__)
A__ = self.sp_model.encode(UpperCAmelCase__ , out_type=UpperCAmelCase__)
A__ = []
for piece in pieces:
if len(UpperCAmelCase__) > 1 and piece[-1] == str(''',''') and piece[-2].isdigit():
A__ = self.sp_model.EncodeAsPieces(piece[:-1].replace(UpperCAmelCase__ , ''''''))
if piece[0] != SPIECE_UNDERLINE and cur_pieces[0][0] == SPIECE_UNDERLINE:
if len(cur_pieces[0]) == 1:
A__ = cur_pieces[1:]
else:
A__ = cur_pieces[0][1:]
cur_pieces.append(piece[-1])
new_pieces.extend(UpperCAmelCase__)
else:
new_pieces.append(UpperCAmelCase__)
return new_pieces
def SCREAMING_SNAKE_CASE ( self : Optional[int] , UpperCAmelCase__ : int) ->str:
'''simple docstring'''
return self.sp_model.PieceToId(UpperCAmelCase__)
def SCREAMING_SNAKE_CASE ( self : List[Any] , UpperCAmelCase__ : Optional[Any]) ->int:
'''simple docstring'''
return self.sp_model.IdToPiece(UpperCAmelCase__)
def SCREAMING_SNAKE_CASE ( self : Dict , UpperCAmelCase__ : Dict) ->List[Any]:
'''simple docstring'''
A__ = []
A__ = ''''''
A__ = False
for token in tokens:
# make sure that special tokens are not decoded using sentencepiece model
if token in self.all_special_tokens:
if not prev_is_special:
out_string += " "
out_string += self.sp_model.decode(UpperCAmelCase__) + token
A__ = True
A__ = []
else:
current_sub_tokens.append(UpperCAmelCase__)
A__ = False
out_string += self.sp_model.decode(UpperCAmelCase__)
return out_string.strip()
def SCREAMING_SNAKE_CASE ( self : Dict , UpperCAmelCase__ : List[int] , UpperCAmelCase__ : Optional[List[int]] = None) ->List[int]:
'''simple docstring'''
A__ = [self.sep_token_id]
A__ = [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 SCREAMING_SNAKE_CASE ( self : int , UpperCAmelCase__ : List[int] , UpperCAmelCase__ : Optional[List[int]] = None , UpperCAmelCase__ : bool = False) ->List[int]:
'''simple docstring'''
if already_has_special_tokens:
return super().get_special_tokens_mask(
token_ids_a=UpperCAmelCase__ , token_ids_a=UpperCAmelCase__ , already_has_special_tokens=UpperCAmelCase__)
if token_ids_a is not None:
return [1] + ([0] * len(UpperCAmelCase__)) + [1] + ([0] * len(UpperCAmelCase__)) + [1]
return [1] + ([0] * len(UpperCAmelCase__)) + [1]
def SCREAMING_SNAKE_CASE ( self : Optional[Any] , UpperCAmelCase__ : List[int] , UpperCAmelCase__ : Optional[List[int]] = None) ->List[int]:
'''simple docstring'''
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) * [0] + len(token_ids_a + sep) * [1]
def SCREAMING_SNAKE_CASE ( self : Optional[Any] , UpperCAmelCase__ : str , UpperCAmelCase__ : Optional[str] = None) ->Tuple[str]:
'''simple docstring'''
if not os.path.isdir(UpperCAmelCase__):
logger.error(f"""Vocabulary path ({save_directory}) should be a directory""")
return
A__ = 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__) and os.path.isfile(self.vocab_file):
copyfile(self.vocab_file , UpperCAmelCase__)
elif not os.path.isfile(self.vocab_file):
with open(UpperCAmelCase__ , '''wb''') as fi:
A__ = self.sp_model.serialized_model_proto()
fi.write(UpperCAmelCase__)
return (out_vocab_file,)
| 14 |
"""simple docstring"""
def __a ( __lowerCamelCase = 3, __lowerCamelCase = 7, __lowerCamelCase = 100_0000 ):
UpperCAmelCase_ : Dict = 0
UpperCAmelCase_ : List[Any] = 1
for current_denominator in range(1, limit + 1 ):
UpperCAmelCase_ : Dict = current_denominator * numerator // denominator
if current_denominator % denominator == 0:
current_numerator -= 1
if current_numerator * max_denominator > current_denominator * max_numerator:
UpperCAmelCase_ : List[Any] = current_numerator
UpperCAmelCase_ : Optional[int] = current_denominator
return max_numerator
if __name__ == "__main__":
print(solution(numerator=3, denominator=7, limit=1_000_000))
| 61 | 0 |
from __future__ import annotations
import copy
import inspect
import unittest
import numpy as np
from transformers import is_tf_available, is_vision_available
from transformers.models.auto import get_values
from transformers.testing_utils import require_tf, slow
from transformers.utils import cached_property
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 import (
TF_LAYOUTLMV3_PRETRAINED_MODEL_ARCHIVE_LIST,
TF_MODEL_FOR_MULTIPLE_CHOICE_MAPPING,
TF_MODEL_FOR_QUESTION_ANSWERING_MAPPING,
TF_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING,
TF_MODEL_FOR_TOKEN_CLASSIFICATION_MAPPING,
LayoutLMvaConfig,
TFLayoutLMvaForQuestionAnswering,
TFLayoutLMvaForSequenceClassification,
TFLayoutLMvaForTokenClassification,
TFLayoutLMvaModel,
)
if is_vision_available():
from PIL import Image
from transformers import LayoutLMvaImageProcessor
class UpperCAmelCase :
'''simple docstring'''
def __init__( self : List[Any] ,A : Optional[Any] ,A : Optional[Any]=2 ,A : Dict=3 ,A : Union[str, Any]=4 ,A : str=2 ,A : Any=7 ,A : List[str]=True ,A : List[str]=True ,A : Optional[Any]=True ,A : Optional[Any]=True ,A : Optional[Any]=99 ,A : str=36 ,A : Optional[Any]=2 ,A : List[str]=4 ,A : Optional[Any]=37 ,A : int="gelu" ,A : int=0.1 ,A : str=0.1 ,A : str=5_12 ,A : str=16 ,A : Tuple=2 ,A : Dict=0.02 ,A : str=6 ,A : Optional[Any]=6 ,A : Tuple=3 ,A : Optional[int]=4 ,A : int=None ,A : Dict=10_00 ,):
__A = parent
__A = batch_size
__A = num_channels
__A = image_size
__A = patch_size
__A = is_training
__A = use_input_mask
__A = use_token_type_ids
__A = use_labels
__A = vocab_size
__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 = max_position_embeddings
__A = type_vocab_size
__A = type_sequence_label_size
__A = initializer_range
__A = coordinate_size
__A = shape_size
__A = num_labels
__A = num_choices
__A = scope
__A = range_bbox
# LayoutLMv3's sequence length equals the number of text tokens + number of patches + 1 (we add 1 for the CLS token)
__A = text_seq_length
__A = (image_size // patch_size) ** 2 + 1
__A = self.text_seq_length + self.image_seq_length
def UpperCamelCase_ ( self : Dict ):
__A = ids_tensor([self.batch_size, self.text_seq_length] ,self.vocab_size )
__A = ids_tensor([self.batch_size, self.text_seq_length, 4] ,self.range_bbox )
__A = bbox.numpy()
# 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]:
__A = bbox[i, j, 3]
__A = bbox[i, j, 1]
__A = tmp_coordinate
if bbox[i, j, 2] < bbox[i, j, 0]:
__A = bbox[i, j, 2]
__A = bbox[i, j, 0]
__A = tmp_coordinate
__A = tf.constant(A )
__A = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] )
__A = None
if self.use_input_mask:
__A = random_attention_mask([self.batch_size, self.text_seq_length] )
__A = None
if self.use_token_type_ids:
__A = ids_tensor([self.batch_size, self.text_seq_length] ,self.type_vocab_size )
__A = None
__A = None
if self.use_labels:
__A = ids_tensor([self.batch_size] ,self.type_sequence_label_size )
__A = ids_tensor([self.batch_size, self.text_seq_length] ,self.num_labels )
__A = LayoutLMvaConfig(
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 ,coordinate_size=self.coordinate_size ,shape_size=self.shape_size ,input_size=self.image_size ,patch_size=self.patch_size ,)
return config, input_ids, bbox, pixel_values, token_type_ids, input_mask, sequence_labels, token_labels
def UpperCamelCase_ ( self : Any ,A : Optional[Any] ,A : List[str] ,A : Optional[Any] ,A : Any ,A : Optional[int] ,A : Union[str, Any] ):
__A = TFLayoutLMvaModel(config=A )
# text + image
__A = model(A ,pixel_values=A ,training=A )
__A = model(
A ,bbox=A ,pixel_values=A ,attention_mask=A ,token_type_ids=A ,training=A ,)
__A = model(A ,bbox=A ,pixel_values=A ,training=A )
self.parent.assertEqual(result.last_hidden_state.shape ,(self.batch_size, self.seq_length, self.hidden_size) )
# text only
__A = model(A ,training=A )
self.parent.assertEqual(
result.last_hidden_state.shape ,(self.batch_size, self.text_seq_length, self.hidden_size) )
# image only
__A = model({"pixel_values": pixel_values} ,training=A )
self.parent.assertEqual(
result.last_hidden_state.shape ,(self.batch_size, self.image_seq_length, self.hidden_size) )
def UpperCamelCase_ ( self : Union[str, Any] ,A : Tuple ,A : List[Any] ,A : Tuple ,A : List[str] ,A : Tuple ,A : Union[str, Any] ,A : Tuple ):
__A = self.num_labels
__A = TFLayoutLMvaForSequenceClassification(config=A )
__A = model(
A ,bbox=A ,pixel_values=A ,attention_mask=A ,token_type_ids=A ,labels=A ,training=A ,)
self.parent.assertEqual(result.logits.shape ,(self.batch_size, self.num_labels) )
def UpperCamelCase_ ( self : int ,A : Dict ,A : str ,A : Tuple ,A : Optional[Any] ,A : int ,A : Any ,A : Any ):
__A = self.num_labels
__A = TFLayoutLMvaForTokenClassification(config=A )
__A = model(
A ,bbox=A ,pixel_values=A ,attention_mask=A ,token_type_ids=A ,labels=A ,training=A ,)
self.parent.assertEqual(result.logits.shape ,(self.batch_size, self.text_seq_length, self.num_labels) )
def UpperCamelCase_ ( self : Union[str, Any] ,A : int ,A : Tuple ,A : Optional[Any] ,A : List[Any] ,A : List[Any] ,A : str ,A : Tuple ):
__A = 2
__A = TFLayoutLMvaForQuestionAnswering(config=A )
__A = model(
A ,bbox=A ,pixel_values=A ,attention_mask=A ,token_type_ids=A ,start_positions=A ,end_positions=A ,training=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 UpperCamelCase_ ( self : int ):
__A = self.prepare_config_and_inputs()
((__A) , (__A) , (__A) , (__A) , (__A) , (__A) , (__A) , (__A)) = config_and_inputs
__A = {
"input_ids": input_ids,
"bbox": bbox,
"pixel_values": pixel_values,
"token_type_ids": token_type_ids,
"attention_mask": input_mask,
}
return config, inputs_dict
@require_tf
class UpperCAmelCase ( __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , unittest.TestCase ):
'''simple docstring'''
snake_case_ = (
(
TFLayoutLMvaModel,
TFLayoutLMvaForQuestionAnswering,
TFLayoutLMvaForSequenceClassification,
TFLayoutLMvaForTokenClassification,
)
if is_tf_available()
else ()
)
snake_case_ = (
{"document-question-answering": TFLayoutLMvaForQuestionAnswering, "feature-extraction": TFLayoutLMvaModel}
if is_tf_available()
else {}
)
snake_case_ = False
snake_case_ = False
snake_case_ = False
def UpperCamelCase_ ( self : int ,A : Optional[Any] ,A : List[str] ,A : Optional[int] ,A : str ,A : Tuple ):
return True
def UpperCamelCase_ ( self : Tuple ,A : int ,A : List[Any] ,A : str=False ):
__A = copy.deepcopy(A )
if model_class in get_values(A ):
__A = {
k: tf.tile(tf.expand_dims(A ,1 ) ,(1, self.model_tester.num_choices) + (1,) * (v.ndim - 1) )
if isinstance(A ,tf.Tensor ) and v.ndim > 0
else v
for k, v in inputs_dict.items()
}
if return_labels:
if model_class in get_values(A ):
__A = tf.ones(self.model_tester.batch_size ,dtype=tf.intaa )
elif model_class in get_values(A ):
__A = tf.zeros(self.model_tester.batch_size ,dtype=tf.intaa )
__A = tf.zeros(self.model_tester.batch_size ,dtype=tf.intaa )
elif model_class in get_values(A ):
__A = tf.zeros(self.model_tester.batch_size ,dtype=tf.intaa )
elif model_class in get_values(A ):
__A = tf.zeros(
(self.model_tester.batch_size, self.model_tester.text_seq_length) ,dtype=tf.intaa )
return inputs_dict
def UpperCamelCase_ ( self : str ):
__A = TFLayoutLMvaModelTester(self )
__A = ConfigTester(self ,config_class=A ,hidden_size=37 )
def UpperCamelCase_ ( self : Union[str, Any] ):
self.config_tester.run_common_tests()
def UpperCamelCase_ ( self : Tuple ):
__A , __A = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
__A = model_class(A )
if getattr(A ,"hf_compute_loss" ,A ):
# The number of elements in the loss should be the same as the number of elements in the label
__A = self._prepare_for_class(inputs_dict.copy() ,A ,return_labels=A )
__A = prepared_for_class[
sorted(prepared_for_class.keys() - inputs_dict.keys() ,reverse=A )[0]
]
__A = added_label.shape.as_list()[:1]
# Test that model correctly compute the loss with kwargs
__A = self._prepare_for_class(inputs_dict.copy() ,A ,return_labels=A )
__A = prepared_for_class.pop("input_ids" )
__A = model(A ,**A )[0]
self.assertTrue(loss.shape.as_list() == expected_loss_size or loss.shape.as_list() == [1] )
# Test that model correctly compute the loss when we mask some positions
__A = self._prepare_for_class(inputs_dict.copy() ,A ,return_labels=A )
__A = prepared_for_class.pop("input_ids" )
if "labels" in prepared_for_class:
__A = prepared_for_class["labels"].numpy()
if len(labels.shape ) > 1 and labels.shape[1] != 1:
__A = -1_00
__A = tf.convert_to_tensor(A )
__A = model(A ,**A )[0]
self.assertTrue(loss.shape.as_list() == expected_loss_size or loss.shape.as_list() == [1] )
self.assertTrue(not np.any(np.isnan(loss.numpy() ) ) )
# Test that model correctly compute the loss with a dict
__A = self._prepare_for_class(inputs_dict.copy() ,A ,return_labels=A )
__A = model(A )[0]
self.assertTrue(loss.shape.as_list() == expected_loss_size or loss.shape.as_list() == [1] )
# Test that model correctly compute the loss with a tuple
__A = self._prepare_for_class(inputs_dict.copy() ,A ,return_labels=A )
# Get keys that were added with the _prepare_for_class function
__A = prepared_for_class.keys() - inputs_dict.keys()
__A = inspect.signature(model.call ).parameters
__A = list(signature.keys() )
# Create a dictionary holding the location of the tensors in the tuple
__A = {0: "input_ids"}
for label_key in label_keys:
__A = signature_names.index(A )
__A = label_key
__A = sorted(tuple_index_mapping.items() )
# Initialize a list with their default values, update the values and convert to a tuple
__A = []
for name in signature_names:
if name != "kwargs":
list_input.append(signature[name].default )
for index, value in sorted_tuple_index_mapping:
__A = prepared_for_class[value]
__A = tuple(A )
# Send to model
__A = model(tuple_input[:-1] )[0]
self.assertTrue(loss.shape.as_list() == expected_loss_size or loss.shape.as_list() == [1] )
def UpperCamelCase_ ( self : Tuple ):
(
(
__A
) , (
__A
) , (
__A
) , (
__A
) , (
__A
) , (
__A
) , (
__A
) , (
__A
) ,
) = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(A ,A ,A ,A ,A ,A )
def UpperCamelCase_ ( self : List[Any] ):
(
(
__A
) , (
__A
) , (
__A
) , (
__A
) , (
__A
) , (
__A
) , (
__A
) , (
__A
) ,
) = self.model_tester.prepare_config_and_inputs()
for type in ["absolute", "relative_key", "relative_key_query"]:
__A = type
self.model_tester.create_and_check_model(A ,A ,A ,A ,A ,A )
def UpperCamelCase_ ( self : int ):
(
(
__A
) , (
__A
) , (
__A
) , (
__A
) , (
__A
) , (
__A
) , (
__A
) , (
__A
) ,
) = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_sequence_classification(
A ,A ,A ,A ,A ,A ,A )
def UpperCamelCase_ ( self : Dict ):
(
(
__A
) , (
__A
) , (
__A
) , (
__A
) , (
__A
) , (
__A
) , (
__A
) , (
__A
) ,
) = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_token_classification(
A ,A ,A ,A ,A ,A ,A )
def UpperCamelCase_ ( self : List[Any] ):
(
(
__A
) , (
__A
) , (
__A
) , (
__A
) , (
__A
) , (
__A
) , (
__A
) , (
__A
) ,
) = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_question_answering(
A ,A ,A ,A ,A ,A ,A )
@slow
def UpperCamelCase_ ( self : str ):
for model_name in TF_LAYOUTLMV3_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
__A = TFLayoutLMvaModel.from_pretrained(A )
self.assertIsNotNone(A )
def UpperCAmelCase ( ) -> Any:
"""simple docstring"""
__A = Image.open("./tests/fixtures/tests_samples/COCO/000000039769.png" )
return image
@require_tf
class UpperCAmelCase ( unittest.TestCase ):
'''simple docstring'''
@cached_property
def UpperCamelCase_ ( self : Dict ):
return LayoutLMvaImageProcessor(apply_ocr=A ) if is_vision_available() else None
@slow
def UpperCamelCase_ ( self : str ):
__A = TFLayoutLMvaModel.from_pretrained("microsoft/layoutlmv3-base" )
__A = self.default_image_processor
__A = prepare_img()
__A = image_processor(images=A ,return_tensors="tf" ).pixel_values
__A = tf.constant([[1, 2]] )
__A = tf.expand_dims(tf.constant([[1, 2, 3, 4], [5, 6, 7, 8]] ) ,axis=0 )
# forward pass
__A = model(input_ids=A ,bbox=A ,pixel_values=A ,training=A )
# verify the logits
__A = (1, 1_99, 7_68)
self.assertEqual(outputs.last_hidden_state.shape ,A )
__A = tf.constant(
[[-0.05_29, 0.36_18, 0.16_32], [-0.15_87, -0.16_67, -0.04_00], [-0.15_57, -0.16_71, -0.05_05]] )
self.assertTrue(np.allclose(outputs.last_hidden_state[0, :3, :3] ,A ,atol=1E-4 ) )
| 15 |
"""simple docstring"""
import argparse
import os
import re
# All paths are set with the intent you should run this script from the root of the repo with the command
# python utils/check_dummies.py
_a = 'src/diffusers'
# Matches is_xxx_available()
_a = re.compile(R'is\_([a-z_]*)_available\(\)')
# Matches from xxx import bla
_a = re.compile(R'\s+from\s+\S*\s+import\s+([^\(\s].*)\n')
_a = '\n{0} = None\n'
_a = '\nclass {0}(metaclass=DummyObject):\n _backends = {1}\n\n def __init__(self, *args, **kwargs):\n requires_backends(self, {1})\n\n @classmethod\n def from_config(cls, *args, **kwargs):\n requires_backends(cls, {1})\n\n @classmethod\n def from_pretrained(cls, *args, **kwargs):\n requires_backends(cls, {1})\n'
_a = '\ndef {0}(*args, **kwargs):\n requires_backends({0}, {1})\n'
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : int = _re_backend.findall(__lowerCamelCase )
if len(__lowerCamelCase ) == 0:
return None
return "_and_".join(__lowerCamelCase )
def __a ( ):
with open(os.path.join(__lowerCamelCase, "__init__.py" ), "r", encoding="utf-8", newline="\n" ) as f:
UpperCAmelCase_ : Optional[int] = f.readlines()
# Get to the point we do the actual imports for type checking
UpperCAmelCase_ : Union[str, Any] = 0
UpperCAmelCase_ : Optional[int] = {}
# Go through the end of the file
while line_index < len(__lowerCamelCase ):
# If the line contains is_backend_available, we grab all objects associated with the `else` block
UpperCAmelCase_ : Union[str, Any] = find_backend(lines[line_index] )
if backend is not None:
while not lines[line_index].startswith("else:" ):
line_index += 1
line_index += 1
UpperCAmelCase_ : List[str] = []
# Until we unindent, add backend objects to the list
while line_index < len(__lowerCamelCase ) and len(lines[line_index] ) > 1:
UpperCAmelCase_ : Union[str, Any] = lines[line_index]
UpperCAmelCase_ : Optional[Any] = _re_single_line_import.search(__lowerCamelCase )
if single_line_import_search is not None:
objects.extend(single_line_import_search.groups()[0].split(", " ) )
elif line.startswith(" " * 8 ):
objects.append(line[8:-2] )
line_index += 1
if len(__lowerCamelCase ) > 0:
UpperCAmelCase_ : Optional[int] = objects
else:
line_index += 1
return backend_specific_objects
def __a ( __lowerCamelCase, __lowerCamelCase ):
if name.isupper():
return DUMMY_CONSTANT.format(__lowerCamelCase )
elif name.islower():
return DUMMY_FUNCTION.format(__lowerCamelCase, __lowerCamelCase )
else:
return DUMMY_CLASS.format(__lowerCamelCase, __lowerCamelCase )
def __a ( __lowerCamelCase=None ):
if backend_specific_objects is None:
UpperCAmelCase_ : Tuple = read_init()
# For special correspondence backend to module name as used in the function requires_modulename
UpperCAmelCase_ : str = {}
for backend, objects in backend_specific_objects.items():
UpperCAmelCase_ : int = "[" + ", ".join(f"""\"{b}\"""" for b in backend.split("_and_" ) ) + "]"
UpperCAmelCase_ : Dict = "# This file is autogenerated by the command `make fix-copies`, do not edit.\n"
dummy_file += "from ..utils import DummyObject, requires_backends\n\n"
dummy_file += "\n".join([create_dummy_object(__lowerCamelCase, __lowerCamelCase ) for o in objects] )
UpperCAmelCase_ : int = dummy_file
return dummy_files
def __a ( __lowerCamelCase=False ):
UpperCAmelCase_ : Optional[Any] = create_dummy_files()
# For special correspondence backend to shortcut as used in utils/dummy_xxx_objects.py
UpperCAmelCase_ : Union[str, Any] = {"torch": "pt"}
# Locate actual dummy modules and read their content.
UpperCAmelCase_ : List[str] = os.path.join(__lowerCamelCase, "utils" )
UpperCAmelCase_ : Optional[int] = {
backend: os.path.join(__lowerCamelCase, f"""dummy_{short_names.get(__lowerCamelCase, __lowerCamelCase )}_objects.py""" )
for backend in dummy_files.keys()
}
UpperCAmelCase_ : Any = {}
for backend, file_path in dummy_file_paths.items():
if os.path.isfile(__lowerCamelCase ):
with open(__lowerCamelCase, "r", encoding="utf-8", newline="\n" ) as f:
UpperCAmelCase_ : Optional[int] = f.read()
else:
UpperCAmelCase_ : Any = ""
for backend in dummy_files.keys():
if dummy_files[backend] != actual_dummies[backend]:
if overwrite:
print(
f"""Updating diffusers.utils.dummy_{short_names.get(__lowerCamelCase, __lowerCamelCase )}_objects.py as the main """
"__init__ has new objects." )
with open(dummy_file_paths[backend], "w", encoding="utf-8", newline="\n" ) as f:
f.write(dummy_files[backend] )
else:
raise ValueError(
"The main __init__ has objects that are not present in "
f"""diffusers.utils.dummy_{short_names.get(__lowerCamelCase, __lowerCamelCase )}_objects.py. Run `make fix-copies` """
"to fix this." )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
parser.add_argument('--fix_and_overwrite', action='store_true', help='Whether to fix inconsistencies.')
_a = parser.parse_args()
check_dummies(args.fix_and_overwrite)
| 61 | 0 |
"""simple docstring"""
import dataclasses
import json
import warnings
from dataclasses import dataclass, field
from time import time
from typing import List
from ..utils import logging
lowerCAmelCase_ = logging.get_logger(__name__)
def __UpperCAmelCase ( __lowerCamelCase=None , __lowerCamelCase=None ) -> Union[str, Any]:
return field(default_factory=lambda: default , metadata=__lowerCamelCase )
@dataclass
class __A :
'''simple docstring'''
lowerCAmelCase : List[str] = list_field(
default=[] ,metadata={
"help": (
"Model checkpoints to be provided to the AutoModel classes. Leave blank to benchmark the base version"
" of all available models"
)
} ,)
lowerCAmelCase : List[int] = list_field(
default=[8] ,metadata={"help": "List of batch sizes for which memory and time performance will be evaluated"} )
lowerCAmelCase : List[int] = list_field(
default=[8, 3_2, 1_2_8, 5_1_2] ,metadata={"help": "List of sequence lengths for which memory and time performance will be evaluated"} ,)
lowerCAmelCase : bool = field(
default=A_ ,metadata={"help": "Whether to benchmark inference of model. Inference can be disabled via --no-inference."} ,)
lowerCAmelCase : bool = field(
default=A_ ,metadata={"help": "Whether to run on available cuda devices. Cuda can be disabled via --no-cuda."} ,)
lowerCAmelCase : bool = field(
default=A_ ,metadata={"help": "Whether to run on available tpu devices. TPU can be disabled via --no-tpu."} )
lowerCAmelCase : bool = field(default=A_ ,metadata={"help": "Use FP16 to accelerate inference."} )
lowerCAmelCase : bool = field(default=A_ ,metadata={"help": "Benchmark training of model"} )
lowerCAmelCase : bool = field(default=A_ ,metadata={"help": "Verbose memory tracing"} )
lowerCAmelCase : bool = field(
default=A_ ,metadata={"help": "Whether to perform speed measurements. Speed measurements can be disabled via --no-speed."} ,)
lowerCAmelCase : bool = field(
default=A_ ,metadata={
"help": "Whether to perform memory measurements. Memory measurements can be disabled via --no-memory"
} ,)
lowerCAmelCase : bool = field(default=A_ ,metadata={"help": "Trace memory line by line"} )
lowerCAmelCase : bool = field(default=A_ ,metadata={"help": "Save result to a CSV file"} )
lowerCAmelCase : bool = field(default=A_ ,metadata={"help": "Save all print statements in a log file"} )
lowerCAmelCase : bool = field(default=A_ ,metadata={"help": "Whether to print environment information"} )
lowerCAmelCase : bool = field(
default=A_ ,metadata={
"help": (
"Whether to use multiprocessing for memory and speed measurement. It is highly recommended to use"
" multiprocessing for accurate CPU and GPU memory measurements. This option should only be disabled"
" for debugging / testing and on TPU."
)
} ,)
lowerCAmelCase : str = field(
default=F"inference_time_{round(time() )}.csv" ,metadata={"help": "CSV filename used if saving time results to csv."} ,)
lowerCAmelCase : str = field(
default=F"inference_memory_{round(time() )}.csv" ,metadata={"help": "CSV filename used if saving memory results to csv."} ,)
lowerCAmelCase : str = field(
default=F"train_time_{round(time() )}.csv" ,metadata={"help": "CSV filename used if saving time results to csv for training."} ,)
lowerCAmelCase : str = field(
default=F"train_memory_{round(time() )}.csv" ,metadata={"help": "CSV filename used if saving memory results to csv for training."} ,)
lowerCAmelCase : str = field(
default=F"env_info_{round(time() )}.csv" ,metadata={"help": "CSV filename used if saving environment information."} ,)
lowerCAmelCase : str = field(
default=F"log_{round(time() )}.csv" ,metadata={"help": "Log filename used if print statements are saved in log."} ,)
lowerCAmelCase : int = field(default=3 ,metadata={"help": "Times an experiment will be run."} )
lowerCAmelCase : bool = field(
default=A_ ,metadata={
"help": (
"Instead of loading the model as defined in `config.architectures` if exists, just load the pretrain"
" model weights."
)
} ,)
def UpperCAmelCase ( self : Dict ) -> int:
"""simple docstring"""
warnings.warn(
f"""The class {self.__class__} is deprecated. Hugging Face Benchmarking utils"""
''' are deprecated in general and it is advised to use external Benchmarking libraries '''
''' to benchmark Transformer models.''' ,_snake_case ,)
def UpperCAmelCase ( self : Dict ) -> str:
"""simple docstring"""
return json.dumps(dataclasses.asdict(self ) ,indent=2 )
@property
def UpperCAmelCase ( self : int ) -> List[str]:
"""simple docstring"""
if len(self.models ) <= 0:
raise ValueError(
'''Please make sure you provide at least one model name / model identifier, *e.g.* `--models'''
''' bert-base-cased` or `args.models = [\'bert-base-cased\'].''' )
return self.models
@property
def UpperCAmelCase ( self : Optional[int] ) -> str:
"""simple docstring"""
if not self.multi_process:
return False
elif self.is_tpu:
logger.info('''Multiprocessing is currently not possible on TPU.''' )
return False
else:
return True
| 16 |
"""simple docstring"""
import torch
from diffusers import DDIMParallelScheduler
from .test_schedulers import SchedulerCommonTest
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Optional[int] = (DDIMParallelScheduler,)
SCREAMING_SNAKE_CASE__ : Optional[Any] = (("""eta""", 0.0), ("""num_inference_steps""", 50))
def UpperCamelCase__ ( self , **lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : int = {
"num_train_timesteps": 1000,
"beta_start": 0.00_01,
"beta_end": 0.02,
"beta_schedule": "linear",
"clip_sample": True,
}
config.update(**lowercase_ )
return config
def UpperCamelCase__ ( self , **lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Dict = self.scheduler_classes[0]
UpperCAmelCase_ : Union[str, Any] = self.get_scheduler_config(**lowercase_ )
UpperCAmelCase_ : int = scheduler_class(**lowercase_ )
UpperCAmelCase_ , UpperCAmelCase_ : str = 10, 0.0
UpperCAmelCase_ : Optional[int] = self.dummy_model()
UpperCAmelCase_ : str = self.dummy_sample_deter
scheduler.set_timesteps(lowercase_ )
for t in scheduler.timesteps:
UpperCAmelCase_ : Dict = model(lowercase_ , lowercase_ )
UpperCAmelCase_ : Dict = scheduler.step(lowercase_ , lowercase_ , lowercase_ , lowercase_ ).prev_sample
return sample
def UpperCamelCase__ ( self ):
"""simple docstring"""
for timesteps in [100, 500, 1000]:
self.check_over_configs(num_train_timesteps=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for steps_offset in [0, 1]:
self.check_over_configs(steps_offset=lowercase_ )
UpperCAmelCase_ : str = self.scheduler_classes[0]
UpperCAmelCase_ : List[str] = self.get_scheduler_config(steps_offset=1 )
UpperCAmelCase_ : List[str] = scheduler_class(**lowercase_ )
scheduler.set_timesteps(5 )
assert torch.equal(scheduler.timesteps , torch.LongTensor([801, 601, 401, 201, 1] ) )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for beta_start, beta_end in zip([0.00_01, 0.0_01, 0.01, 0.1] , [0.0_02, 0.02, 0.2, 2] ):
self.check_over_configs(beta_start=lowercase_ , beta_end=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for schedule in ["linear", "squaredcos_cap_v2"]:
self.check_over_configs(beta_schedule=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for prediction_type in ["epsilon", "v_prediction"]:
self.check_over_configs(prediction_type=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for clip_sample in [True, False]:
self.check_over_configs(clip_sample=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for timestep_spacing in ["trailing", "leading"]:
self.check_over_configs(timestep_spacing=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for rescale_betas_zero_snr in [True, False]:
self.check_over_configs(rescale_betas_zero_snr=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
self.check_over_configs(thresholding=lowercase_ )
for threshold in [0.5, 1.0, 2.0]:
for prediction_type in ["epsilon", "v_prediction"]:
self.check_over_configs(
thresholding=lowercase_ , prediction_type=lowercase_ , sample_max_value=lowercase_ , )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for t in [1, 10, 49]:
self.check_over_forward(time_step=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for t, num_inference_steps in zip([1, 10, 50] , [10, 50, 500] ):
self.check_over_forward(time_step=lowercase_ , num_inference_steps=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for t, eta in zip([1, 10, 49] , [0.0, 0.5, 1.0] ):
self.check_over_forward(time_step=lowercase_ , eta=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Union[str, Any] = self.scheduler_classes[0]
UpperCAmelCase_ : List[str] = self.get_scheduler_config()
UpperCAmelCase_ : List[str] = scheduler_class(**lowercase_ )
assert torch.sum(torch.abs(scheduler._get_variance(0 , 0 ) - 0.0 ) ) < 1E-5
assert torch.sum(torch.abs(scheduler._get_variance(420 , 400 ) - 0.1_47_71 ) ) < 1E-5
assert torch.sum(torch.abs(scheduler._get_variance(980 , 960 ) - 0.3_24_60 ) ) < 1E-5
assert torch.sum(torch.abs(scheduler._get_variance(0 , 0 ) - 0.0 ) ) < 1E-5
assert torch.sum(torch.abs(scheduler._get_variance(487 , 486 ) - 0.0_09_79 ) ) < 1E-5
assert torch.sum(torch.abs(scheduler._get_variance(999 , 998 ) - 0.02 ) ) < 1E-5
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = self.scheduler_classes[0]
UpperCAmelCase_ : Optional[int] = self.get_scheduler_config()
UpperCAmelCase_ : List[str] = scheduler_class(**lowercase_ )
UpperCAmelCase_ , UpperCAmelCase_ : Tuple = 10, 0.0
scheduler.set_timesteps(lowercase_ )
UpperCAmelCase_ : Union[str, Any] = self.dummy_model()
UpperCAmelCase_ : List[str] = self.dummy_sample_deter
UpperCAmelCase_ : Any = self.dummy_sample_deter + 0.1
UpperCAmelCase_ : int = self.dummy_sample_deter - 0.1
UpperCAmelCase_ : List[Any] = samplea.shape[0]
UpperCAmelCase_ : int = torch.stack([samplea, samplea, samplea] , dim=0 )
UpperCAmelCase_ : int = torch.arange(lowercase_ )[0:3, None].repeat(1 , lowercase_ )
UpperCAmelCase_ : int = model(samples.flatten(0 , 1 ) , timesteps.flatten(0 , 1 ) )
UpperCAmelCase_ : Optional[Any] = scheduler.batch_step_no_noise(lowercase_ , timesteps.flatten(0 , 1 ) , samples.flatten(0 , 1 ) , lowercase_ )
UpperCAmelCase_ : List[Any] = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : str = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 11_47.79_04 ) < 1E-2
assert abs(result_mean.item() - 0.49_82 ) < 1E-3
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = self.full_loop()
UpperCAmelCase_ : int = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : List[str] = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 1_72.00_67 ) < 1E-2
assert abs(result_mean.item() - 0.22_39_67 ) < 1E-3
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = self.full_loop(prediction_type="v_prediction" )
UpperCAmelCase_ : str = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : Dict = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 52.53_02 ) < 1E-2
assert abs(result_mean.item() - 0.06_84 ) < 1E-3
def UpperCamelCase__ ( self ):
"""simple docstring"""
# We specify different beta, so that the first alpha is 0.99
UpperCAmelCase_ : List[str] = self.full_loop(set_alpha_to_one=lowercase_ , beta_start=0.01 )
UpperCAmelCase_ : Dict = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : Tuple = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 1_49.82_95 ) < 1E-2
assert abs(result_mean.item() - 0.19_51 ) < 1E-3
def UpperCamelCase__ ( self ):
"""simple docstring"""
# We specify different beta, so that the first alpha is 0.99
UpperCAmelCase_ : int = self.full_loop(set_alpha_to_one=lowercase_ , beta_start=0.01 )
UpperCAmelCase_ : List[Any] = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : Dict = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 1_49.07_84 ) < 1E-2
assert abs(result_mean.item() - 0.19_41 ) < 1E-3
| 61 | 0 |
"""simple docstring"""
import warnings
from typing import Dict
import numpy as np
from ..utils import ExplicitEnum, add_end_docstrings, is_tf_available, is_torch_available
from .base import PIPELINE_INIT_ARGS, GenericTensor, Pipeline
if is_tf_available():
from ..models.auto.modeling_tf_auto import TF_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING
if is_torch_available():
from ..models.auto.modeling_auto import MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING
def _A ( UpperCamelCase_ : str) -> Union[str, Any]:
'''simple docstring'''
return 1.0 / (1.0 + np.exp(-_outputs))
def _A ( UpperCamelCase_ : Tuple) -> Optional[Any]:
'''simple docstring'''
__lowercase = np.max(_outputs, axis=-1, keepdims=UpperCamelCase_)
__lowercase = np.exp(_outputs - maxes)
return shifted_exp / shifted_exp.sum(axis=-1, keepdims=UpperCamelCase_)
class _lowerCAmelCase ( lowercase ):
"""simple docstring"""
__UpperCAmelCase : List[str] = "sigmoid"
__UpperCAmelCase : int = "softmax"
__UpperCAmelCase : Tuple = "none"
@add_end_docstrings(
lowercase ,R"\n return_all_scores (`bool`, *optional*, defaults to `False`):\n Whether to return all prediction scores or just the one of the predicted class.\n function_to_apply (`str`, *optional*, defaults to `\"default\"`):\n The function to apply to the model outputs in order to retrieve the scores. Accepts four different values:\n\n - `\"default\"`: if the model has a single label, will apply the sigmoid function on the output. If the model\n has several labels, will apply the softmax function on the output.\n - `\"sigmoid\"`: Applies the sigmoid function on the output.\n - `\"softmax\"`: Applies the softmax function on the output.\n - `\"none\"`: Does not apply any function on the output.\n " ,)
class _lowerCAmelCase ( lowercase ):
"""simple docstring"""
__UpperCAmelCase : Optional[Any] = False
__UpperCAmelCase : int = ClassificationFunction.NONE
def __init__( self : int, **UpperCAmelCase__ : Union[str, Any] ):
super().__init__(**UpperCAmelCase__ )
self.check_model_type(
TF_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING
if self.framework == "tf"
else MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING )
def _lowercase ( self : List[str], UpperCAmelCase__ : str=None, UpperCAmelCase__ : Dict=None, UpperCAmelCase__ : Optional[Any]="", **UpperCAmelCase__ : List[Any] ):
# Using "" as default argument because we're going to use `top_k=None` in user code to declare
# "No top_k"
__lowercase = tokenizer_kwargs
__lowercase = {}
if hasattr(self.model.config, "return_all_scores" ) and return_all_scores is None:
__lowercase = self.model.config.return_all_scores
if isinstance(UpperCAmelCase__, UpperCAmelCase__ ) or top_k is None:
__lowercase = top_k
__lowercase = False
elif return_all_scores is not None:
warnings.warn(
"`return_all_scores` is now deprecated, if want a similar functionality use `top_k=None` instead of"
" `return_all_scores=True` or `top_k=1` instead of `return_all_scores=False`.", UpperCAmelCase__, )
if return_all_scores:
__lowercase = None
else:
__lowercase = 1
if isinstance(UpperCAmelCase__, UpperCAmelCase__ ):
__lowercase = ClassificationFunction[function_to_apply.upper()]
if function_to_apply is not None:
__lowercase = function_to_apply
return preprocess_params, {}, postprocess_params
def __call__( self : Union[str, Any], *UpperCAmelCase__ : List[Any], **UpperCAmelCase__ : List[str] ):
__lowercase = super().__call__(*UpperCAmelCase__, **UpperCAmelCase__ )
# TODO try and retrieve it in a nicer way from _sanitize_parameters.
__lowercase = "top_k" not in kwargs
if isinstance(args[0], UpperCAmelCase__ ) and _legacy:
# This pipeline is odd, and return a list when single item is run
return [result]
else:
return result
def _lowercase ( self : List[str], UpperCAmelCase__ : str, **UpperCAmelCase__ : Union[str, Any] ):
__lowercase = self.framework
if isinstance(UpperCAmelCase__, UpperCAmelCase__ ):
return self.tokenizer(**UpperCAmelCase__, return_tensors=UpperCAmelCase__, **UpperCAmelCase__ )
elif isinstance(UpperCAmelCase__, UpperCAmelCase__ ) and len(UpperCAmelCase__ ) == 1 and isinstance(inputs[0], UpperCAmelCase__ ) and len(inputs[0] ) == 2:
# It used to be valid to use a list of list of list for text pairs, keeping this path for BC
return self.tokenizer(
text=inputs[0][0], text_pair=inputs[0][1], return_tensors=UpperCAmelCase__, **UpperCAmelCase__ )
elif isinstance(UpperCAmelCase__, UpperCAmelCase__ ):
# This is likely an invalid usage of the pipeline attempting to pass text pairs.
raise ValueError(
"The pipeline received invalid inputs, if you are trying to send text pairs, you can try to send a"
" dictionary `{\"text\": \"My text\", \"text_pair\": \"My pair\"}` in order to send a text pair." )
return self.tokenizer(UpperCAmelCase__, return_tensors=UpperCAmelCase__, **UpperCAmelCase__ )
def _lowercase ( self : List[Any], UpperCAmelCase__ : List[str] ):
return self.model(**UpperCAmelCase__ )
def _lowercase ( self : Optional[int], UpperCAmelCase__ : Optional[Any], UpperCAmelCase__ : List[str]=None, UpperCAmelCase__ : List[str]=1, UpperCAmelCase__ : Dict=True ):
# `_legacy` is used to determine if we're running the naked pipeline and in backward
# compatibility mode, or if running the pipeline with `pipeline(..., top_k=1)` we're running
# the more natural result containing the list.
# Default value before `set_parameters`
if function_to_apply is None:
if self.model.config.problem_type == "multi_label_classification" or self.model.config.num_labels == 1:
__lowercase = ClassificationFunction.SIGMOID
elif self.model.config.problem_type == "single_label_classification" or self.model.config.num_labels > 1:
__lowercase = ClassificationFunction.SOFTMAX
elif hasattr(self.model.config, "function_to_apply" ) and function_to_apply is None:
__lowercase = self.model.config.function_to_apply
else:
__lowercase = ClassificationFunction.NONE
__lowercase = model_outputs["logits"][0]
__lowercase = outputs.numpy()
if function_to_apply == ClassificationFunction.SIGMOID:
__lowercase = sigmoid(UpperCAmelCase__ )
elif function_to_apply == ClassificationFunction.SOFTMAX:
__lowercase = softmax(UpperCAmelCase__ )
elif function_to_apply == ClassificationFunction.NONE:
__lowercase = outputs
else:
raise ValueError(F"""Unrecognized `function_to_apply` argument: {function_to_apply}""" )
if top_k == 1 and _legacy:
return {"label": self.model.config.idalabel[scores.argmax().item()], "score": scores.max().item()}
__lowercase = [
{"label": self.model.config.idalabel[i], "score": score.item()} for i, score in enumerate(UpperCAmelCase__ )
]
if not _legacy:
dict_scores.sort(key=lambda UpperCAmelCase__ : x["score"], reverse=UpperCAmelCase__ )
if top_k is not None:
__lowercase = dict_scores[:top_k]
return dict_scores
| 17 |
"""simple docstring"""
import inspect
import unittest
import numpy as np
from transformers import ViTConfig, is_flax_available
from transformers.testing_utils import require_flax, slow
from ...test_configuration_common import ConfigTester
from ...test_modeling_flax_common import FlaxModelTesterMixin, floats_tensor
if is_flax_available():
import jax
from transformers.models.vit.modeling_flax_vit import FlaxViTForImageClassification, FlaxViTModel
class A_ (unittest.TestCase ):
'''simple docstring'''
def __init__( self , lowercase_ , lowercase_=13 , lowercase_=30 , lowercase_=2 , lowercase_=3 , lowercase_=True , lowercase_=True , lowercase_=32 , lowercase_=5 , lowercase_=4 , lowercase_=37 , lowercase_="gelu" , lowercase_=0.1 , lowercase_=0.1 , lowercase_=10 , lowercase_=0.02 , ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = parent
UpperCAmelCase_ : List[str] = batch_size
UpperCAmelCase_ : Union[str, Any] = image_size
UpperCAmelCase_ : List[str] = patch_size
UpperCAmelCase_ : Union[str, Any] = num_channels
UpperCAmelCase_ : Optional[int] = is_training
UpperCAmelCase_ : Dict = use_labels
UpperCAmelCase_ : Any = hidden_size
UpperCAmelCase_ : Optional[Any] = num_hidden_layers
UpperCAmelCase_ : Optional[Any] = num_attention_heads
UpperCAmelCase_ : Dict = intermediate_size
UpperCAmelCase_ : Optional[Any] = hidden_act
UpperCAmelCase_ : Optional[Any] = hidden_dropout_prob
UpperCAmelCase_ : Tuple = attention_probs_dropout_prob
UpperCAmelCase_ : Dict = type_sequence_label_size
UpperCAmelCase_ : Optional[Any] = initializer_range
# in ViT, the seq length equals the number of patches + 1 (we add 1 for the [CLS] token)
UpperCAmelCase_ : Any = (image_size // patch_size) ** 2
UpperCAmelCase_ : List[str] = num_patches + 1
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] )
UpperCAmelCase_ : Dict = 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=lowercase_ , initializer_range=self.initializer_range , )
return config, pixel_values
def UpperCamelCase__ ( self , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = FlaxViTModel(config=lowercase_ )
UpperCAmelCase_ : int = model(lowercase_ )
# expected sequence length = num_patches + 1 (we add 1 for the [CLS] token)
UpperCAmelCase_ : Optional[Any] = (self.image_size, self.image_size)
UpperCAmelCase_ : List[Any] = (self.patch_size, self.patch_size)
UpperCAmelCase_ : str = (image_size[1] // patch_size[1]) * (image_size[0] // patch_size[0])
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, num_patches + 1, self.hidden_size) )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = self.type_sequence_label_size
UpperCAmelCase_ : Tuple = FlaxViTForImageClassification(config=lowercase_ )
UpperCAmelCase_ : str = model(lowercase_ )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size) )
# test greyscale images
UpperCAmelCase_ : Any = 1
UpperCAmelCase_ : Optional[int] = FlaxViTForImageClassification(lowercase_ )
UpperCAmelCase_ : List[Any] = floats_tensor([self.batch_size, 1, self.image_size, self.image_size] )
UpperCAmelCase_ : List[Any] = model(lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[Any] = self.prepare_config_and_inputs()
(
(
UpperCAmelCase_
) , (
UpperCAmelCase_
) ,
) : Tuple = config_and_inputs
UpperCAmelCase_ : Union[str, Any] = {"pixel_values": pixel_values}
return config, inputs_dict
@require_flax
class A_ (lowercase__ ,unittest.TestCase ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Any = (FlaxViTModel, FlaxViTForImageClassification) if is_flax_available() else ()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[Any] = FlaxViTModelTester(self )
UpperCAmelCase_ : Dict = ConfigTester(self , config_class=lowercase_ , has_text_modality=lowercase_ , hidden_size=37 )
def UpperCamelCase__ ( self ):
"""simple docstring"""
self.config_tester.run_common_tests()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[Any] = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_image_classification(*lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : List[str] = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
UpperCAmelCase_ : Optional[Any] = model_class(lowercase_ )
UpperCAmelCase_ : Optional[int] = inspect.signature(model.__call__ )
# signature.parameters is an OrderedDict => so arg_names order is deterministic
UpperCAmelCase_ : List[str] = [*signature.parameters.keys()]
UpperCAmelCase_ : List[str] = ["pixel_values"]
self.assertListEqual(arg_names[:1] , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Tuple = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
with self.subTest(model_class.__name__ ):
UpperCAmelCase_ : Union[str, Any] = self._prepare_for_class(lowercase_ , lowercase_ )
UpperCAmelCase_ : Tuple = model_class(lowercase_ )
@jax.jit
def model_jitted(lowercase_ , **lowercase_ ):
return model(pixel_values=lowercase_ , **lowercase_ )
with self.subTest("JIT Enabled" ):
UpperCAmelCase_ : Union[str, Any] = model_jitted(**lowercase_ ).to_tuple()
with self.subTest("JIT Disabled" ):
with jax.disable_jit():
UpperCAmelCase_ : Tuple = model_jitted(**lowercase_ ).to_tuple()
self.assertEqual(len(lowercase_ ) , len(lowercase_ ) )
for jitted_output, output in zip(lowercase_ , lowercase_ ):
self.assertEqual(jitted_output.shape , output.shape )
@slow
def UpperCamelCase__ ( self ):
"""simple docstring"""
for model_class_name in self.all_model_classes:
UpperCAmelCase_ : Union[str, Any] = model_class_name.from_pretrained("google/vit-base-patch16-224" )
UpperCAmelCase_ : List[str] = model(np.ones((1, 3, 224, 224) ) )
self.assertIsNotNone(lowercase_ )
| 61 | 0 |
from __future__ import annotations
import inspect
import unittest
from transformers import ViTConfig
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 TFViTForImageClassification, TFViTModel
if is_vision_available():
from PIL import Image
from transformers import ViTImageProcessor
class a__ :
def __init__( self : Any,_A : Union[str, Any],_A : Tuple=13,_A : List[str]=30,_A : List[Any]=2,_A : Optional[int]=3,_A : str=True,_A : Optional[Any]=True,_A : Optional[int]=32,_A : int=2,_A : List[Any]=4,_A : str=37,_A : Optional[Any]="gelu",_A : List[str]=0.1,_A : Dict=0.1,_A : int=10,_A : List[Any]=0.02,_A : int=3,_A : Optional[Any]=None,):
"""simple docstring"""
SCREAMING_SNAKE_CASE_ : int = parent
SCREAMING_SNAKE_CASE_ : str = batch_size
SCREAMING_SNAKE_CASE_ : Any = image_size
SCREAMING_SNAKE_CASE_ : Optional[int] = patch_size
SCREAMING_SNAKE_CASE_ : Optional[int] = num_channels
SCREAMING_SNAKE_CASE_ : Any = is_training
SCREAMING_SNAKE_CASE_ : Optional[Any] = use_labels
SCREAMING_SNAKE_CASE_ : str = hidden_size
SCREAMING_SNAKE_CASE_ : Optional[Any] = num_hidden_layers
SCREAMING_SNAKE_CASE_ : Tuple = num_attention_heads
SCREAMING_SNAKE_CASE_ : List[Any] = intermediate_size
SCREAMING_SNAKE_CASE_ : Dict = hidden_act
SCREAMING_SNAKE_CASE_ : Optional[int] = hidden_dropout_prob
SCREAMING_SNAKE_CASE_ : str = attention_probs_dropout_prob
SCREAMING_SNAKE_CASE_ : Optional[int] = type_sequence_label_size
SCREAMING_SNAKE_CASE_ : str = initializer_range
SCREAMING_SNAKE_CASE_ : Optional[int] = scope
# in ViT, the seq length equals the number of patches + 1 (we add 1 for the [CLS] token)
SCREAMING_SNAKE_CASE_ : str = (image_size // patch_size) ** 2
SCREAMING_SNAKE_CASE_ : int = num_patches + 1
def __UpperCamelCase ( self : List[str] ):
"""simple docstring"""
SCREAMING_SNAKE_CASE_ : Optional[Any] = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] )
SCREAMING_SNAKE_CASE_ : Tuple = 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 __UpperCamelCase ( self : Tuple ):
"""simple docstring"""
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=_A,initializer_range=self.initializer_range,)
def __UpperCamelCase ( self : Union[str, Any],_A : Optional[int],_A : List[Any],_A : Union[str, Any] ):
"""simple docstring"""
SCREAMING_SNAKE_CASE_ : Optional[int] = TFViTModel(config=_A )
SCREAMING_SNAKE_CASE_ : List[Any] = model(_A,training=_A )
self.parent.assertEqual(result.last_hidden_state.shape,(self.batch_size, self.seq_length, self.hidden_size) )
# Test with an image with different size than the one specified in config.
SCREAMING_SNAKE_CASE_ : List[Any] = self.image_size // 2
SCREAMING_SNAKE_CASE_ : Tuple = pixel_values[:, :, :image_size, :image_size]
SCREAMING_SNAKE_CASE_ : Optional[int] = model(_A,interpolate_pos_encoding=_A,training=_A )
SCREAMING_SNAKE_CASE_ : Optional[int] = (image_size // self.patch_size) ** 2 + 1
self.parent.assertEqual(result.last_hidden_state.shape,(self.batch_size, seq_length, self.hidden_size) )
def __UpperCamelCase ( self : Optional[Any],_A : str,_A : Optional[int],_A : List[Any] ):
"""simple docstring"""
SCREAMING_SNAKE_CASE_ : Optional[int] = self.type_sequence_label_size
SCREAMING_SNAKE_CASE_ : List[str] = TFViTForImageClassification(_A )
SCREAMING_SNAKE_CASE_ : List[str] = model(_A,labels=_A,training=_A )
self.parent.assertEqual(result.logits.shape,(self.batch_size, self.type_sequence_label_size) )
# Test with an image with different size than the one specified in config.
SCREAMING_SNAKE_CASE_ : List[str] = self.image_size // 2
SCREAMING_SNAKE_CASE_ : Tuple = pixel_values[:, :, :image_size, :image_size]
SCREAMING_SNAKE_CASE_ : Optional[Any] = model(_A,interpolate_pos_encoding=_A,training=_A )
self.parent.assertEqual(result.logits.shape,(self.batch_size, self.type_sequence_label_size) )
# test greyscale images
SCREAMING_SNAKE_CASE_ : List[str] = 1
SCREAMING_SNAKE_CASE_ : List[Any] = TFViTForImageClassification(_A )
SCREAMING_SNAKE_CASE_ : Tuple = floats_tensor([self.batch_size, 1, self.image_size, self.image_size] )
SCREAMING_SNAKE_CASE_ : Any = model(_A )
self.parent.assertEqual(result.logits.shape,(self.batch_size, self.type_sequence_label_size) )
def __UpperCamelCase ( self : Optional[int] ):
"""simple docstring"""
SCREAMING_SNAKE_CASE_ : Optional[int] = self.prepare_config_and_inputs()
SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ : List[str] = config_and_inputs
SCREAMING_SNAKE_CASE_ : int = {"pixel_values": pixel_values}
return config, inputs_dict
@require_tf
class a__ ( A__ , A__ , unittest.TestCase ):
A = (TFViTModel, TFViTForImageClassification) if is_tf_available() else ()
A = (
{'feature-extraction': TFViTModel, 'image-classification': TFViTForImageClassification}
if is_tf_available()
else {}
)
A = False
A = False
A = False
def __UpperCamelCase ( self : Optional[int] ):
"""simple docstring"""
SCREAMING_SNAKE_CASE_ : Optional[Any] = TFViTModelTester(self )
SCREAMING_SNAKE_CASE_ : Tuple = ConfigTester(self,config_class=_A,has_text_modality=_A,hidden_size=37 )
def __UpperCamelCase ( self : Optional[int] ):
"""simple docstring"""
self.config_tester.run_common_tests()
@unittest.skip(reason="ViT does not use inputs_embeds" )
def __UpperCamelCase ( self : Dict ):
"""simple docstring"""
pass
@unittest.skip(reason="ViT does not use inputs_embeds" )
def __UpperCamelCase ( self : int ):
"""simple docstring"""
pass
def __UpperCamelCase ( self : List[str] ):
"""simple docstring"""
SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ : Optional[int] = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
SCREAMING_SNAKE_CASE_ : Union[str, Any] = model_class(_A )
self.assertIsInstance(model.get_input_embeddings(),(tf.keras.layers.Layer) )
SCREAMING_SNAKE_CASE_ : int = model.get_output_embeddings()
self.assertTrue(x is None or isinstance(_A,tf.keras.layers.Layer ) )
def __UpperCamelCase ( self : Any ):
"""simple docstring"""
SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ : Dict = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
SCREAMING_SNAKE_CASE_ : Tuple = model_class(_A )
SCREAMING_SNAKE_CASE_ : Optional[int] = inspect.signature(model.call )
# signature.parameters is an OrderedDict => so arg_names order is deterministic
SCREAMING_SNAKE_CASE_ : Optional[Any] = [*signature.parameters.keys()]
SCREAMING_SNAKE_CASE_ : Union[str, Any] = ["pixel_values"]
self.assertListEqual(arg_names[:1],_A )
def __UpperCamelCase ( self : List[str] ):
"""simple docstring"""
SCREAMING_SNAKE_CASE_ : List[str] = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*_A )
def __UpperCamelCase ( self : str ):
"""simple docstring"""
SCREAMING_SNAKE_CASE_ : int = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_image_classification(*_A )
@slow
def __UpperCamelCase ( self : List[Any] ):
"""simple docstring"""
SCREAMING_SNAKE_CASE_ : List[Any] = TFViTModel.from_pretrained("google/vit-base-patch16-224" )
self.assertIsNotNone(_A )
def _snake_case ( ):
"""simple docstring"""
SCREAMING_SNAKE_CASE_ : str = Image.open("./tests/fixtures/tests_samples/COCO/000000039769.png" )
return image
@require_tf
@require_vision
class a__ ( unittest.TestCase ):
@cached_property
def __UpperCamelCase ( self : Union[str, Any] ):
"""simple docstring"""
return ViTImageProcessor.from_pretrained("google/vit-base-patch16-224" ) if is_vision_available() else None
@slow
def __UpperCamelCase ( self : Any ):
"""simple docstring"""
SCREAMING_SNAKE_CASE_ : str = TFViTForImageClassification.from_pretrained("google/vit-base-patch16-224" )
SCREAMING_SNAKE_CASE_ : Optional[Any] = self.default_image_processor
SCREAMING_SNAKE_CASE_ : Tuple = prepare_img()
SCREAMING_SNAKE_CASE_ : Dict = image_processor(images=_A,return_tensors="tf" )
# forward pass
SCREAMING_SNAKE_CASE_ : Dict = model(**_A )
# verify the logits
SCREAMING_SNAKE_CASE_ : int = tf.TensorShape((1, 1000) )
self.assertEqual(outputs.logits.shape,_A )
SCREAMING_SNAKE_CASE_ : int = tf.constant([-0.2744, 0.8215, -0.0836] )
tf.debugging.assert_near(outputs.logits[0, :3],_A,atol=1E-4 )
| 18 |
"""simple docstring"""
from ...utils import is_torch_available, is_transformers_available
if is_transformers_available() and is_torch_available():
from .pipeline_vq_diffusion import LearnedClassifierFreeSamplingEmbeddings, VQDiffusionPipeline
| 61 | 0 |
import pytest
import datasets.config
from datasets.utils.info_utils import is_small_dataset
@pytest.mark.parametrize("dataset_size" , [None, 4_0_0 * 2**2_0, 6_0_0 * 2**2_0] )
@pytest.mark.parametrize("input_in_memory_max_size" , ["default", 0, 1_0_0 * 2**2_0, 9_0_0 * 2**2_0] )
def lowerCamelCase_ ( lowerCamelCase__ , lowerCamelCase__ , lowerCamelCase__ ):
if input_in_memory_max_size != "default":
monkeypatch.setattr(datasets.config , "IN_MEMORY_MAX_SIZE" , lowerCamelCase__ )
lowerCamelCase_ = datasets.config.IN_MEMORY_MAX_SIZE
if input_in_memory_max_size == "default":
assert in_memory_max_size == 0
else:
assert in_memory_max_size == input_in_memory_max_size
if dataset_size and in_memory_max_size:
lowerCamelCase_ = dataset_size < in_memory_max_size
else:
lowerCamelCase_ = False
lowerCamelCase_ = is_small_dataset(lowerCamelCase__ )
assert result == expected
| 19 |
"""simple docstring"""
from __future__ import annotations
import math
def __a ( __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : Any = u
for i in range(1, __lowerCamelCase ):
UpperCAmelCase_ : int = temp * (u - i)
return temp
def __a ( ):
UpperCAmelCase_ : str = int(input("enter the numbers of values: " ) )
UpperCAmelCase_ : list[list[float]] = []
for _ in range(__lowerCamelCase ):
y.append([] )
for i in range(__lowerCamelCase ):
for j in range(__lowerCamelCase ):
y[i].append(__lowerCamelCase )
UpperCAmelCase_ : Tuple = 0
print("enter the values of parameters in a list: " )
UpperCAmelCase_ : Union[str, Any] = list(map(__lowerCamelCase, input().split() ) )
print("enter the values of corresponding parameters: " )
for i in range(__lowerCamelCase ):
UpperCAmelCase_ : int = float(input() )
UpperCAmelCase_ : Tuple = int(input("enter the value to interpolate: " ) )
UpperCAmelCase_ : Tuple = (value - x[0]) / (x[1] - x[0])
# for calculating forward difference table
for i in range(1, __lowerCamelCase ):
for j in range(n - i ):
UpperCAmelCase_ : Union[str, Any] = y[j + 1][i - 1] - y[j][i - 1]
UpperCAmelCase_ : Optional[int] = y[0][0]
for i in range(1, __lowerCamelCase ):
summ += (ucal(__lowerCamelCase, __lowerCamelCase ) * y[0][i]) / math.factorial(__lowerCamelCase )
print(f"""the value at {value} is {summ}""" )
if __name__ == "__main__":
main()
| 61 | 0 |
import json
import os
import shutil
import tempfile
import unittest
import numpy as np
from transformers import BertTokenizerFast
from transformers.models.bert.tokenization_bert import VOCAB_FILES_NAMES, BertTokenizer
from transformers.testing_utils import require_tokenizers, require_vision
from transformers.utils import IMAGE_PROCESSOR_NAME, is_vision_available
if is_vision_available():
from PIL import Image
from transformers import VisionTextDualEncoderProcessor, ViTImageProcessor
@require_tokenizers
@require_vision
class __snake_case ( unittest.TestCase ):
def _SCREAMING_SNAKE_CASE ( self ):
'''simple docstring'''
lowercase : List[Any] = tempfile.mkdtemp()
# fmt: off
lowercase : int = ["""[UNK]""", """[CLS]""", """[SEP]""", """[PAD]""", """[MASK]""", """want""", """##want""", """##ed""", """wa""", """un""", """runn""", """##ing""", """,""", """low""", """lowest"""]
# fmt: on
lowercase : List[Any] = 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] ) )
lowercase : Dict = {
"""do_resize""": True,
"""size""": {"""height""": 18, """width""": 18},
"""do_normalize""": True,
"""image_mean""": [0.5, 0.5, 0.5],
"""image_std""": [0.5, 0.5, 0.5],
}
lowercase : Dict = os.path.join(self.tmpdirname ,snake_case )
with open(self.image_processor_file ,"""w""" ,encoding="""utf-8""" ) as fp:
json.dump(snake_case ,snake_case )
def _SCREAMING_SNAKE_CASE ( self ,**snake_case ):
'''simple docstring'''
return BertTokenizer.from_pretrained(self.tmpdirname ,**snake_case )
def _SCREAMING_SNAKE_CASE ( self ,**snake_case ):
'''simple docstring'''
return ViTImageProcessor.from_pretrained(self.tmpdirname ,**snake_case )
def _SCREAMING_SNAKE_CASE ( self ):
'''simple docstring'''
shutil.rmtree(self.tmpdirname )
def _SCREAMING_SNAKE_CASE ( self ):
'''simple docstring'''
lowercase : Union[str, Any] = [np.random.randint(255 ,size=(3, 30, 400) ,dtype=np.uinta )]
lowercase : Optional[Any] = [Image.fromarray(np.moveaxis(snake_case ,0 ,-1 ) ) for x in image_inputs]
return image_inputs
def _SCREAMING_SNAKE_CASE ( self ):
'''simple docstring'''
lowercase : Optional[Any] = self.get_tokenizer()
lowercase : Optional[int] = self.get_image_processor()
lowercase : Any = VisionTextDualEncoderProcessor(tokenizer=snake_case ,image_processor=snake_case )
processor.save_pretrained(self.tmpdirname )
lowercase : Optional[int] = VisionTextDualEncoderProcessor.from_pretrained(self.tmpdirname )
self.assertEqual(processor.tokenizer.get_vocab() ,tokenizer.get_vocab() )
self.assertIsInstance(processor.tokenizer ,(BertTokenizer, BertTokenizerFast) )
self.assertEqual(processor.image_processor.to_json_string() ,image_processor.to_json_string() )
self.assertIsInstance(processor.image_processor ,snake_case )
def _SCREAMING_SNAKE_CASE ( self ):
'''simple docstring'''
lowercase : Optional[int] = VisionTextDualEncoderProcessor(
tokenizer=self.get_tokenizer() ,image_processor=self.get_image_processor() )
processor.save_pretrained(self.tmpdirname )
lowercase : Tuple = self.get_tokenizer(bos_token="""(BOS)""" ,eos_token="""(EOS)""" )
lowercase : Tuple = self.get_image_processor(do_normalize=snake_case ,padding_value=1.0 )
lowercase : Dict = VisionTextDualEncoderProcessor.from_pretrained(
self.tmpdirname ,bos_token="""(BOS)""" ,eos_token="""(EOS)""" ,do_normalize=snake_case ,padding_value=1.0 )
self.assertEqual(processor.tokenizer.get_vocab() ,tokenizer_add_kwargs.get_vocab() )
self.assertIsInstance(processor.tokenizer ,(BertTokenizer, BertTokenizerFast) )
self.assertEqual(processor.image_processor.to_json_string() ,image_processor_add_kwargs.to_json_string() )
self.assertIsInstance(processor.image_processor ,snake_case )
def _SCREAMING_SNAKE_CASE ( self ):
'''simple docstring'''
lowercase : Optional[Any] = self.get_image_processor()
lowercase : List[str] = self.get_tokenizer()
lowercase : Union[str, Any] = VisionTextDualEncoderProcessor(tokenizer=snake_case ,image_processor=snake_case )
lowercase : Optional[int] = self.prepare_image_inputs()
lowercase : int = image_processor(snake_case ,return_tensors="""np""" )
lowercase : Dict = processor(images=snake_case ,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 ):
'''simple docstring'''
lowercase : int = self.get_image_processor()
lowercase : str = self.get_tokenizer()
lowercase : str = VisionTextDualEncoderProcessor(tokenizer=snake_case ,image_processor=snake_case )
lowercase : int = """lower newer"""
lowercase : Tuple = processor(text=snake_case )
lowercase : Optional[int] = tokenizer(snake_case )
for key in encoded_tok.keys():
self.assertListEqual(encoded_tok[key] ,encoded_processor[key] )
def _SCREAMING_SNAKE_CASE ( self ):
'''simple docstring'''
lowercase : str = self.get_image_processor()
lowercase : int = self.get_tokenizer()
lowercase : List[str] = VisionTextDualEncoderProcessor(tokenizer=snake_case ,image_processor=snake_case )
lowercase : str = """lower newer"""
lowercase : Tuple = self.prepare_image_inputs()
lowercase : Optional[int] = processor(text=snake_case ,images=snake_case )
self.assertListEqual(list(inputs.keys() ) ,["""input_ids""", """token_type_ids""", """attention_mask""", """pixel_values"""] )
# test if it raises when no input is passed
with self.assertRaises(snake_case ):
processor()
def _SCREAMING_SNAKE_CASE ( self ):
'''simple docstring'''
lowercase : Optional[int] = self.get_image_processor()
lowercase : Optional[int] = self.get_tokenizer()
lowercase : Union[str, Any] = VisionTextDualEncoderProcessor(tokenizer=snake_case ,image_processor=snake_case )
lowercase : Optional[int] = [[1, 4, 5, 8, 1, 0, 8], [3, 4, 3, 1, 1, 8, 9]]
lowercase : List[str] = processor.batch_decode(snake_case )
lowercase : str = tokenizer.batch_decode(snake_case )
self.assertListEqual(snake_case ,snake_case )
def _SCREAMING_SNAKE_CASE ( self ):
'''simple docstring'''
lowercase : Any = self.get_image_processor()
lowercase : Optional[Any] = self.get_tokenizer()
lowercase : Any = VisionTextDualEncoderProcessor(tokenizer=snake_case ,image_processor=snake_case )
lowercase : int = """lower newer"""
lowercase : int = self.prepare_image_inputs()
lowercase : Optional[int] = processor(text=snake_case ,images=snake_case )
self.assertListEqual(list(inputs.keys() ) ,processor.model_input_names )
| 20 |
"""simple docstring"""
import argparse
import json
import pickle
from pathlib import Path
import requests
import torch
from huggingface_hub import hf_hub_download
from PIL import Image
from transformers import MaskFormerConfig, MaskFormerForInstanceSegmentation, MaskFormerImageProcessor, SwinConfig
from transformers.utils import logging
logging.set_verbosity_info()
_a = logging.get_logger(__name__)
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : Optional[Any] = SwinConfig.from_pretrained(
"microsoft/swin-tiny-patch4-window7-224", out_features=["stage1", "stage2", "stage3", "stage4"] )
UpperCAmelCase_ : Dict = MaskFormerConfig(backbone_config=__lowerCamelCase )
UpperCAmelCase_ : int = "huggingface/label-files"
if "ade20k-full" in model_name:
# this should be ok
UpperCAmelCase_ : Dict = 847
UpperCAmelCase_ : str = "maskformer-ade20k-full-id2label.json"
elif "ade" in model_name:
# this should be ok
UpperCAmelCase_ : Tuple = 150
UpperCAmelCase_ : int = "ade20k-id2label.json"
elif "coco-stuff" in model_name:
# this should be ok
UpperCAmelCase_ : str = 171
UpperCAmelCase_ : Optional[int] = "maskformer-coco-stuff-id2label.json"
elif "coco" in model_name:
# TODO
UpperCAmelCase_ : int = 133
UpperCAmelCase_ : Tuple = "coco-panoptic-id2label.json"
elif "cityscapes" in model_name:
# this should be ok
UpperCAmelCase_ : List[Any] = 19
UpperCAmelCase_ : Optional[int] = "cityscapes-id2label.json"
elif "vistas" in model_name:
# this should be ok
UpperCAmelCase_ : Any = 65
UpperCAmelCase_ : Union[str, Any] = "mapillary-vistas-id2label.json"
UpperCAmelCase_ : Any = json.load(open(hf_hub_download(__lowerCamelCase, __lowerCamelCase, repo_type="dataset" ), "r" ) )
UpperCAmelCase_ : int = {int(__lowerCamelCase ): v for k, v in idalabel.items()}
return config
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : Dict = []
# stem
# fmt: off
rename_keys.append(("backbone.patch_embed.proj.weight", "model.pixel_level_module.encoder.model.embeddings.patch_embeddings.projection.weight") )
rename_keys.append(("backbone.patch_embed.proj.bias", "model.pixel_level_module.encoder.model.embeddings.patch_embeddings.projection.bias") )
rename_keys.append(("backbone.patch_embed.norm.weight", "model.pixel_level_module.encoder.model.embeddings.norm.weight") )
rename_keys.append(("backbone.patch_embed.norm.bias", "model.pixel_level_module.encoder.model.embeddings.norm.bias") )
# stages
for i in range(len(config.backbone_config.depths ) ):
for j in range(config.backbone_config.depths[i] ):
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.norm1.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.layernorm_before.weight""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.norm1.bias""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.layernorm_before.bias""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.attn.relative_position_bias_table""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.attention.self.relative_position_bias_table""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.attn.relative_position_index""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.attention.self.relative_position_index""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.attn.proj.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.attention.output.dense.weight""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.attn.proj.bias""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.attention.output.dense.bias""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.norm2.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.layernorm_after.weight""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.norm2.bias""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.layernorm_after.bias""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.mlp.fc1.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.intermediate.dense.weight""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.mlp.fc1.bias""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.intermediate.dense.bias""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.mlp.fc2.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.output.dense.weight""") )
rename_keys.append((f"""backbone.layers.{i}.blocks.{j}.mlp.fc2.bias""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.blocks.{j}.output.dense.bias""") )
if i < 3:
rename_keys.append((f"""backbone.layers.{i}.downsample.reduction.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.downsample.reduction.weight""") )
rename_keys.append((f"""backbone.layers.{i}.downsample.norm.weight""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.downsample.norm.weight""") )
rename_keys.append((f"""backbone.layers.{i}.downsample.norm.bias""", f"""model.pixel_level_module.encoder.model.encoder.layers.{i}.downsample.norm.bias""") )
rename_keys.append((f"""backbone.norm{i}.weight""", f"""model.pixel_level_module.encoder.hidden_states_norms.{i}.weight""") )
rename_keys.append((f"""backbone.norm{i}.bias""", f"""model.pixel_level_module.encoder.hidden_states_norms.{i}.bias""") )
# FPN
rename_keys.append(("sem_seg_head.layer_4.weight", "model.pixel_level_module.decoder.fpn.stem.0.weight") )
rename_keys.append(("sem_seg_head.layer_4.norm.weight", "model.pixel_level_module.decoder.fpn.stem.1.weight") )
rename_keys.append(("sem_seg_head.layer_4.norm.bias", "model.pixel_level_module.decoder.fpn.stem.1.bias") )
for source_index, target_index in zip(range(3, 0, -1 ), range(0, 3 ) ):
rename_keys.append((f"""sem_seg_head.adapter_{source_index}.weight""", f"""model.pixel_level_module.decoder.fpn.layers.{target_index}.proj.0.weight""") )
rename_keys.append((f"""sem_seg_head.adapter_{source_index}.norm.weight""", f"""model.pixel_level_module.decoder.fpn.layers.{target_index}.proj.1.weight""") )
rename_keys.append((f"""sem_seg_head.adapter_{source_index}.norm.bias""", f"""model.pixel_level_module.decoder.fpn.layers.{target_index}.proj.1.bias""") )
rename_keys.append((f"""sem_seg_head.layer_{source_index}.weight""", f"""model.pixel_level_module.decoder.fpn.layers.{target_index}.block.0.weight""") )
rename_keys.append((f"""sem_seg_head.layer_{source_index}.norm.weight""", f"""model.pixel_level_module.decoder.fpn.layers.{target_index}.block.1.weight""") )
rename_keys.append((f"""sem_seg_head.layer_{source_index}.norm.bias""", f"""model.pixel_level_module.decoder.fpn.layers.{target_index}.block.1.bias""") )
rename_keys.append(("sem_seg_head.mask_features.weight", "model.pixel_level_module.decoder.mask_projection.weight") )
rename_keys.append(("sem_seg_head.mask_features.bias", "model.pixel_level_module.decoder.mask_projection.bias") )
# Transformer decoder
for idx in range(config.decoder_config.decoder_layers ):
# self-attention out projection
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.self_attn.out_proj.weight""", f"""model.transformer_module.decoder.layers.{idx}.self_attn.out_proj.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.self_attn.out_proj.bias""", f"""model.transformer_module.decoder.layers.{idx}.self_attn.out_proj.bias""") )
# cross-attention out projection
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.multihead_attn.out_proj.weight""", f"""model.transformer_module.decoder.layers.{idx}.encoder_attn.out_proj.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.multihead_attn.out_proj.bias""", f"""model.transformer_module.decoder.layers.{idx}.encoder_attn.out_proj.bias""") )
# MLP 1
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.linear1.weight""", f"""model.transformer_module.decoder.layers.{idx}.fc1.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.linear1.bias""", f"""model.transformer_module.decoder.layers.{idx}.fc1.bias""") )
# MLP 2
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.linear2.weight""", f"""model.transformer_module.decoder.layers.{idx}.fc2.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.linear2.bias""", f"""model.transformer_module.decoder.layers.{idx}.fc2.bias""") )
# layernorm 1 (self-attention layernorm)
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.norm1.weight""", f"""model.transformer_module.decoder.layers.{idx}.self_attn_layer_norm.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.norm1.bias""", f"""model.transformer_module.decoder.layers.{idx}.self_attn_layer_norm.bias""") )
# layernorm 2 (cross-attention layernorm)
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.norm2.weight""", f"""model.transformer_module.decoder.layers.{idx}.encoder_attn_layer_norm.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.norm2.bias""", f"""model.transformer_module.decoder.layers.{idx}.encoder_attn_layer_norm.bias""") )
# layernorm 3 (final layernorm)
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.norm3.weight""", f"""model.transformer_module.decoder.layers.{idx}.final_layer_norm.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.norm3.bias""", f"""model.transformer_module.decoder.layers.{idx}.final_layer_norm.bias""") )
rename_keys.append(("sem_seg_head.predictor.transformer.decoder.norm.weight", "model.transformer_module.decoder.layernorm.weight") )
rename_keys.append(("sem_seg_head.predictor.transformer.decoder.norm.bias", "model.transformer_module.decoder.layernorm.bias") )
# heads on top
rename_keys.append(("sem_seg_head.predictor.query_embed.weight", "model.transformer_module.queries_embedder.weight") )
rename_keys.append(("sem_seg_head.predictor.input_proj.weight", "model.transformer_module.input_projection.weight") )
rename_keys.append(("sem_seg_head.predictor.input_proj.bias", "model.transformer_module.input_projection.bias") )
rename_keys.append(("sem_seg_head.predictor.class_embed.weight", "class_predictor.weight") )
rename_keys.append(("sem_seg_head.predictor.class_embed.bias", "class_predictor.bias") )
for i in range(3 ):
rename_keys.append((f"""sem_seg_head.predictor.mask_embed.layers.{i}.weight""", f"""mask_embedder.{i}.0.weight""") )
rename_keys.append((f"""sem_seg_head.predictor.mask_embed.layers.{i}.bias""", f"""mask_embedder.{i}.0.bias""") )
# fmt: on
return rename_keys
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : Union[str, Any] = dct.pop(__lowerCamelCase )
UpperCAmelCase_ : str = val
def __a ( __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : int = [int(backbone_config.embed_dim * 2**i ) for i in range(len(backbone_config.depths ) )]
for i in range(len(backbone_config.depths ) ):
UpperCAmelCase_ : List[Any] = num_features[i]
for j in range(backbone_config.depths[i] ):
# fmt: off
# read in weights + bias of input projection layer (in original implementation, this is a single matrix + bias)
UpperCAmelCase_ : Tuple = state_dict.pop(f"""backbone.layers.{i}.blocks.{j}.attn.qkv.weight""" )
UpperCAmelCase_ : Optional[int] = state_dict.pop(f"""backbone.layers.{i}.blocks.{j}.attn.qkv.bias""" )
# next, add query, keys and values (in that order) to the state dict
UpperCAmelCase_ : Tuple = in_proj_weight[:dim, :]
UpperCAmelCase_ : List[Any] = in_proj_bias[: dim]
UpperCAmelCase_ : Any = in_proj_weight[
dim : dim * 2, :
]
UpperCAmelCase_ : Optional[int] = in_proj_bias[
dim : dim * 2
]
UpperCAmelCase_ : Tuple = in_proj_weight[
-dim :, :
]
UpperCAmelCase_ : Tuple = in_proj_bias[-dim :]
# fmt: on
def __a ( __lowerCamelCase, __lowerCamelCase ):
# fmt: off
UpperCAmelCase_ : Dict = config.decoder_config.hidden_size
for idx in range(config.decoder_config.decoder_layers ):
# read in weights + bias of self-attention input projection layer (in the original implementation, this is a single matrix + bias)
UpperCAmelCase_ : int = state_dict.pop(f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.self_attn.in_proj_weight""" )
UpperCAmelCase_ : int = state_dict.pop(f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.self_attn.in_proj_bias""" )
# next, add query, keys and values (in that order) to the state dict
UpperCAmelCase_ : Any = in_proj_weight[: hidden_size, :]
UpperCAmelCase_ : int = in_proj_bias[:config.hidden_size]
UpperCAmelCase_ : Any = in_proj_weight[hidden_size : hidden_size * 2, :]
UpperCAmelCase_ : List[Any] = in_proj_bias[hidden_size : hidden_size * 2]
UpperCAmelCase_ : Dict = in_proj_weight[-hidden_size :, :]
UpperCAmelCase_ : List[Any] = in_proj_bias[-hidden_size :]
# read in weights + bias of cross-attention input projection layer (in the original implementation, this is a single matrix + bias)
UpperCAmelCase_ : str = state_dict.pop(f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.multihead_attn.in_proj_weight""" )
UpperCAmelCase_ : Dict = state_dict.pop(f"""sem_seg_head.predictor.transformer.decoder.layers.{idx}.multihead_attn.in_proj_bias""" )
# next, add query, keys and values (in that order) to the state dict
UpperCAmelCase_ : str = in_proj_weight[: hidden_size, :]
UpperCAmelCase_ : Tuple = in_proj_bias[:config.hidden_size]
UpperCAmelCase_ : int = in_proj_weight[hidden_size : hidden_size * 2, :]
UpperCAmelCase_ : List[str] = in_proj_bias[hidden_size : hidden_size * 2]
UpperCAmelCase_ : List[Any] = in_proj_weight[-hidden_size :, :]
UpperCAmelCase_ : Optional[Any] = in_proj_bias[-hidden_size :]
# fmt: on
def __a ( ):
UpperCAmelCase_ : List[Any] = "http://images.cocodataset.org/val2017/000000039769.jpg"
UpperCAmelCase_ : Tuple = Image.open(requests.get(__lowerCamelCase, stream=__lowerCamelCase ).raw )
return im
@torch.no_grad()
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = False ):
UpperCAmelCase_ : List[str] = get_maskformer_config(__lowerCamelCase )
# load original state_dict
with open(__lowerCamelCase, "rb" ) as f:
UpperCAmelCase_ : Union[str, Any] = pickle.load(__lowerCamelCase )
UpperCAmelCase_ : str = data["model"]
# for name, param in state_dict.items():
# print(name, param.shape)
# rename keys
UpperCAmelCase_ : int = create_rename_keys(__lowerCamelCase )
for src, dest in rename_keys:
rename_key(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase )
read_in_swin_q_k_v(__lowerCamelCase, config.backbone_config )
read_in_decoder_q_k_v(__lowerCamelCase, __lowerCamelCase )
# update to torch tensors
for key, value in state_dict.items():
UpperCAmelCase_ : Optional[int] = torch.from_numpy(__lowerCamelCase )
# load 🤗 model
UpperCAmelCase_ : Dict = MaskFormerForInstanceSegmentation(__lowerCamelCase )
model.eval()
for name, param in model.named_parameters():
print(__lowerCamelCase, param.shape )
UpperCAmelCase_ , UpperCAmelCase_ : str = model.load_state_dict(__lowerCamelCase, strict=__lowerCamelCase )
assert missing_keys == [
"model.pixel_level_module.encoder.model.layernorm.weight",
"model.pixel_level_module.encoder.model.layernorm.bias",
]
assert len(__lowerCamelCase ) == 0, f"""Unexpected keys: {unexpected_keys}"""
# verify results
UpperCAmelCase_ : Optional[int] = prepare_img()
if "vistas" in model_name:
UpperCAmelCase_ : List[str] = 65
elif "cityscapes" in model_name:
UpperCAmelCase_ : Tuple = 6_5535
else:
UpperCAmelCase_ : Dict = 255
UpperCAmelCase_ : Optional[Any] = True if "ade" in model_name else False
UpperCAmelCase_ : Dict = MaskFormerImageProcessor(ignore_index=__lowerCamelCase, reduce_labels=__lowerCamelCase )
UpperCAmelCase_ : Union[str, Any] = image_processor(__lowerCamelCase, return_tensors="pt" )
UpperCAmelCase_ : Dict = model(**__lowerCamelCase )
print("Logits:", outputs.class_queries_logits[0, :3, :3] )
if model_name == "maskformer-swin-tiny-ade":
UpperCAmelCase_ : Any = torch.tensor(
[[3.6353, -4.4770, -2.6065], [0.5081, -4.2394, -3.5343], [2.1909, -5.0353, -1.9323]] )
assert torch.allclose(outputs.class_queries_logits[0, :3, :3], __lowerCamelCase, atol=1E-4 )
print("Looks ok!" )
if pytorch_dump_folder_path is not None:
print(f"""Saving model and image processor to {pytorch_dump_folder_path}""" )
Path(__lowerCamelCase ).mkdir(exist_ok=__lowerCamelCase )
model.save_pretrained(__lowerCamelCase )
image_processor.save_pretrained(__lowerCamelCase )
if push_to_hub:
print("Pushing model and image processor to the hub..." )
model.push_to_hub(f"""nielsr/{model_name}""" )
image_processor.push_to_hub(f"""nielsr/{model_name}""" )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
'--model_name',
default='maskformer-swin-tiny-ade',
type=str,
help=('Name of the MaskFormer model you\'d like to convert',),
)
parser.add_argument(
'--checkpoint_path',
default='/Users/nielsrogge/Documents/MaskFormer_checkpoints/MaskFormer-Swin-tiny-ADE20k/model.pkl',
type=str,
help='Path to the original state dict (.pth file).',
)
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.'
)
_a = parser.parse_args()
convert_maskformer_checkpoint(
args.model_name, args.checkpoint_path, args.pytorch_dump_folder_path, args.push_to_hub
)
| 61 | 0 |
# Copyright 2023 The HuggingFace Inc. 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.
from ..models.whisper import WhisperForConditionalGeneration, WhisperProcessor
from .base import PipelineTool
class _lowerCamelCase( _a ):
lowercase_ : int = """openai/whisper-base"""
lowercase_ : Union[str, Any] = (
"""This is a tool that transcribes an audio into text. It takes an input named `audio` and returns the """
"""transcribed text."""
)
lowercase_ : Any = """transcriber"""
lowercase_ : List[Any] = WhisperProcessor
lowercase_ : List[str] = WhisperForConditionalGeneration
lowercase_ : Any = ["""audio"""]
lowercase_ : Union[str, Any] = ["""text"""]
def UpperCamelCase ( self, lowerCamelCase) -> Tuple:
"""simple docstring"""
return self.pre_processor(lowerCamelCase, return_tensors='pt').input_features
def UpperCamelCase ( self, lowerCamelCase) -> List[str]:
"""simple docstring"""
return self.model.generate(inputs=lowerCamelCase)
def UpperCamelCase ( self, lowerCamelCase) -> Optional[Any]:
"""simple docstring"""
return self.pre_processor.batch_decode(lowerCamelCase, skip_special_tokens=lowerCamelCase)[0]
| 21 |
"""simple docstring"""
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : List[str] = int(__lowerCamelCase )
if n_element < 1:
UpperCAmelCase_ : List[Any] = ValueError("a should be a positive number" )
raise my_error
UpperCAmelCase_ : List[Any] = [1]
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : Optional[int] = (0, 0, 0)
UpperCAmelCase_ : Dict = 1
while index < n_element:
while hamming_list[i] * 2 <= hamming_list[-1]:
i += 1
while hamming_list[j] * 3 <= hamming_list[-1]:
j += 1
while hamming_list[k] * 5 <= hamming_list[-1]:
k += 1
hamming_list.append(
min(hamming_list[i] * 2, hamming_list[j] * 3, hamming_list[k] * 5 ) )
index += 1
return hamming_list
if __name__ == "__main__":
_a = input('Enter the last number (nth term) of the Hamming Number Series: ')
print('Formula of Hamming Number Series => 2^i * 3^j * 5^k')
_a = hamming(int(n))
print('-----------------------------------------------------')
print(f"""The list with nth numbers is: {hamming_numbers}""")
print('-----------------------------------------------------')
| 61 | 0 |
'''simple docstring'''
import json
import os
from typing import Optional, Tuple
from ...tokenization_utils import PreTrainedTokenizer
from ...utils import logging
__SCREAMING_SNAKE_CASE :int = logging.get_logger(__name__)
__SCREAMING_SNAKE_CASE :Optional[Any] = {'''vocab_file''': '''vocab.json'''}
__SCREAMING_SNAKE_CASE :Tuple = {
'''vocab_file''': {
'''mgp-str''': '''https://huggingface.co/alibaba-damo/mgp-str-base/blob/main/vocab.json''',
}
}
__SCREAMING_SNAKE_CASE :List[str] = {'''mgp-str''': 27}
class A_ ( lowerCAmelCase_ ):
_lowerCamelCase : Any = VOCAB_FILES_NAMES
_lowerCamelCase : int = PRETRAINED_VOCAB_FILES_MAP
_lowerCamelCase : str = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
def __init__( self : int , snake_case_ : List[str] , snake_case_ : List[Any]="[GO]" , snake_case_ : Optional[Any]="[GO]" , snake_case_ : Union[str, Any]="[s]" , snake_case_ : Any="[GO]" , **snake_case_ : Dict ):
super().__init__(
unk_token=snake_case_ , bos_token=snake_case_ , eos_token=snake_case_ , pad_token=snake_case_ , **snake_case_ , )
with open(snake_case_ , encoding="utf-8" ) as vocab_handle:
_UpperCAmelCase = json.load(snake_case_ )
_UpperCAmelCase = {v: k for k, v in self.vocab.items()}
@property
def lowercase ( self : str ):
return len(self.vocab )
def lowercase ( self : int ):
return dict(self.vocab , **self.added_tokens_encoder )
def lowercase ( self : Optional[Any] , snake_case_ : int ):
_UpperCAmelCase = []
for s in text:
char_tokens.extend(snake_case_ )
return char_tokens
def lowercase ( self : Union[str, Any] , snake_case_ : Union[str, Any] ):
return self.vocab.get(snake_case_ , self.vocab.get(self.unk_token ) )
def lowercase ( self : int , snake_case_ : int ):
return self.decoder.get(snake_case_ )
def lowercase ( self : int , snake_case_ : str , snake_case_ : Optional[str] = None ):
if not os.path.isdir(snake_case_ ):
logger.error("Vocabulary path ({}) should be a directory".format(snake_case_ ) )
return
_UpperCAmelCase = os.path.join(
snake_case_ , (filename_prefix + "-" if filename_prefix else "") + VOCAB_FILES_NAMES["vocab_file"] )
with open(snake_case_ , "w" , encoding="utf-8" ) as f:
f.write(json.dumps(self.vocab , indent=2 , sort_keys=snake_case_ , ensure_ascii=snake_case_ ) + "\n" )
return (vocab_file,)
| 22 |
"""simple docstring"""
from math import cos, sin, sqrt, tau
from audio_filters.iir_filter import IIRFilter
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ) ):
UpperCAmelCase_ : int = tau * frequency / samplerate
UpperCAmelCase_ : List[str] = sin(__lowerCamelCase )
UpperCAmelCase_ : int = cos(__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = _sin / (2 * q_factor)
UpperCAmelCase_ : int = (1 - _cos) / 2
UpperCAmelCase_ : Optional[Any] = 1 - _cos
UpperCAmelCase_ : int = 1 + alpha
UpperCAmelCase_ : Dict = -2 * _cos
UpperCAmelCase_ : Tuple = 1 - alpha
UpperCAmelCase_ : Dict = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ) ):
UpperCAmelCase_ : Dict = tau * frequency / samplerate
UpperCAmelCase_ : Tuple = sin(__lowerCamelCase )
UpperCAmelCase_ : Any = cos(__lowerCamelCase )
UpperCAmelCase_ : List[str] = _sin / (2 * q_factor)
UpperCAmelCase_ : List[Any] = (1 + _cos) / 2
UpperCAmelCase_ : Optional[int] = -1 - _cos
UpperCAmelCase_ : Union[str, Any] = 1 + alpha
UpperCAmelCase_ : Optional[int] = -2 * _cos
UpperCAmelCase_ : Tuple = 1 - alpha
UpperCAmelCase_ : List[str] = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ) ):
UpperCAmelCase_ : Union[str, Any] = tau * frequency / samplerate
UpperCAmelCase_ : str = sin(__lowerCamelCase )
UpperCAmelCase_ : Tuple = cos(__lowerCamelCase )
UpperCAmelCase_ : List[Any] = _sin / (2 * q_factor)
UpperCAmelCase_ : Any = _sin / 2
UpperCAmelCase_ : Union[str, Any] = 0
UpperCAmelCase_ : Tuple = -ba
UpperCAmelCase_ : Optional[Any] = 1 + alpha
UpperCAmelCase_ : Dict = -2 * _cos
UpperCAmelCase_ : Optional[int] = 1 - alpha
UpperCAmelCase_ : List[str] = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ) ):
UpperCAmelCase_ : Any = tau * frequency / samplerate
UpperCAmelCase_ : Any = sin(__lowerCamelCase )
UpperCAmelCase_ : Optional[int] = cos(__lowerCamelCase )
UpperCAmelCase_ : str = _sin / (2 * q_factor)
UpperCAmelCase_ : List[str] = 1 - alpha
UpperCAmelCase_ : str = -2 * _cos
UpperCAmelCase_ : Any = 1 + alpha
UpperCAmelCase_ : Tuple = IIRFilter(2 )
filt.set_coefficients([ba, ba, ba], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ), ):
UpperCAmelCase_ : Dict = tau * frequency / samplerate
UpperCAmelCase_ : Union[str, Any] = sin(__lowerCamelCase )
UpperCAmelCase_ : int = cos(__lowerCamelCase )
UpperCAmelCase_ : Optional[int] = _sin / (2 * q_factor)
UpperCAmelCase_ : List[str] = 10 ** (gain_db / 40)
UpperCAmelCase_ : List[Any] = 1 + alpha * big_a
UpperCAmelCase_ : Tuple = -2 * _cos
UpperCAmelCase_ : Tuple = 1 - alpha * big_a
UpperCAmelCase_ : str = 1 + alpha / big_a
UpperCAmelCase_ : List[str] = -2 * _cos
UpperCAmelCase_ : List[str] = 1 - alpha / big_a
UpperCAmelCase_ : Tuple = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ), ):
UpperCAmelCase_ : str = tau * frequency / samplerate
UpperCAmelCase_ : int = sin(__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = cos(__lowerCamelCase )
UpperCAmelCase_ : Tuple = _sin / (2 * q_factor)
UpperCAmelCase_ : List[Any] = 10 ** (gain_db / 40)
UpperCAmelCase_ : Tuple = (big_a + 1) - (big_a - 1) * _cos
UpperCAmelCase_ : int = (big_a + 1) + (big_a - 1) * _cos
UpperCAmelCase_ : Optional[Any] = (big_a - 1) - (big_a + 1) * _cos
UpperCAmelCase_ : Optional[int] = (big_a - 1) + (big_a + 1) * _cos
UpperCAmelCase_ : Dict = 2 * sqrt(__lowerCamelCase ) * alpha
UpperCAmelCase_ : List[str] = big_a * (pmc + aaa)
UpperCAmelCase_ : int = 2 * big_a * mpc
UpperCAmelCase_ : int = big_a * (pmc - aaa)
UpperCAmelCase_ : Dict = ppmc + aaa
UpperCAmelCase_ : Any = -2 * pmpc
UpperCAmelCase_ : List[str] = ppmc - aaa
UpperCAmelCase_ : List[Any] = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase = 1 / sqrt(2 ), ):
UpperCAmelCase_ : int = tau * frequency / samplerate
UpperCAmelCase_ : Optional[Any] = sin(__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = cos(__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = _sin / (2 * q_factor)
UpperCAmelCase_ : Tuple = 10 ** (gain_db / 40)
UpperCAmelCase_ : Tuple = (big_a + 1) - (big_a - 1) * _cos
UpperCAmelCase_ : Optional[Any] = (big_a + 1) + (big_a - 1) * _cos
UpperCAmelCase_ : List[Any] = (big_a - 1) - (big_a + 1) * _cos
UpperCAmelCase_ : Any = (big_a - 1) + (big_a + 1) * _cos
UpperCAmelCase_ : Dict = 2 * sqrt(__lowerCamelCase ) * alpha
UpperCAmelCase_ : Any = big_a * (ppmc + aaa)
UpperCAmelCase_ : Union[str, Any] = -2 * big_a * pmpc
UpperCAmelCase_ : Dict = big_a * (ppmc - aaa)
UpperCAmelCase_ : Optional[int] = pmc + aaa
UpperCAmelCase_ : Union[str, Any] = 2 * mpc
UpperCAmelCase_ : int = pmc - aaa
UpperCAmelCase_ : Union[str, Any] = IIRFilter(2 )
filt.set_coefficients([aa, aa, aa], [ba, ba, ba] )
return filt
| 61 | 0 |
'''simple docstring'''
def snake_case_ ( _lowerCAmelCase : list[int] , _lowerCAmelCase : str ) -> list[int]:
UpperCAmelCase : Optional[Any] = int(_lowerCAmelCase )
# Initialize Result
UpperCAmelCase : List[Any] = []
# Traverse through all denomination
for denomination in reversed(_lowerCAmelCase ):
# Find denominations
while int(_lowerCAmelCase ) >= int(_lowerCAmelCase ):
total_value -= int(_lowerCAmelCase )
answer.append(_lowerCAmelCase ) # Append the "answers" array
return answer
# Driver Code
if __name__ == "__main__":
UpperCamelCase__: int = []
UpperCamelCase__: Optional[Any] = "0"
if (
input("Do you want to enter your denominations ? (yY/n): ").strip().lower()
== "y"
):
UpperCamelCase__: int = int(input("Enter the number of denominations you want to add: ").strip())
for i in range(0, n):
denominations.append(int(input(F"Denomination {i}: ").strip()))
UpperCamelCase__: int = input("Enter the change you want to make in Indian Currency: ").strip()
else:
# All denominations of Indian Currency if user does not enter
UpperCamelCase__: Any = [1, 2, 5, 10, 20, 50, 100, 500, 2000]
UpperCamelCase__: Any = input("Enter the change you want to make: ").strip()
if int(value) == 0 or int(value) < 0:
print("The total value cannot be zero or negative.")
else:
print(F"Following is minimal change for {value}: ")
UpperCamelCase__: Union[str, Any] = find_minimum_change(denominations, value)
# Print result
for i in range(len(answer)):
print(answer[i], end=" ")
| 23 |
"""simple docstring"""
import argparse
import io
import requests
import torch
from omegaconf import OmegaConf
from diffusers import AutoencoderKL
from diffusers.pipelines.stable_diffusion.convert_from_ckpt import (
assign_to_checkpoint,
conv_attn_to_linear,
create_vae_diffusers_config,
renew_vae_attention_paths,
renew_vae_resnet_paths,
)
def __a ( __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : str = checkpoint
UpperCAmelCase_ : int = {}
UpperCAmelCase_ : Optional[int] = vae_state_dict["encoder.conv_in.weight"]
UpperCAmelCase_ : List[str] = vae_state_dict["encoder.conv_in.bias"]
UpperCAmelCase_ : Optional[Any] = vae_state_dict["encoder.conv_out.weight"]
UpperCAmelCase_ : Optional[int] = vae_state_dict["encoder.conv_out.bias"]
UpperCAmelCase_ : List[Any] = vae_state_dict["encoder.norm_out.weight"]
UpperCAmelCase_ : Union[str, Any] = vae_state_dict["encoder.norm_out.bias"]
UpperCAmelCase_ : Any = vae_state_dict["decoder.conv_in.weight"]
UpperCAmelCase_ : int = vae_state_dict["decoder.conv_in.bias"]
UpperCAmelCase_ : Any = vae_state_dict["decoder.conv_out.weight"]
UpperCAmelCase_ : Tuple = vae_state_dict["decoder.conv_out.bias"]
UpperCAmelCase_ : List[Any] = vae_state_dict["decoder.norm_out.weight"]
UpperCAmelCase_ : Tuple = vae_state_dict["decoder.norm_out.bias"]
UpperCAmelCase_ : str = vae_state_dict["quant_conv.weight"]
UpperCAmelCase_ : Optional[Any] = vae_state_dict["quant_conv.bias"]
UpperCAmelCase_ : List[str] = vae_state_dict["post_quant_conv.weight"]
UpperCAmelCase_ : List[Any] = vae_state_dict["post_quant_conv.bias"]
# Retrieves the keys for the encoder down blocks only
UpperCAmelCase_ : Optional[Any] = len({".".join(layer.split("." )[:3] ) for layer in vae_state_dict if "encoder.down" in layer} )
UpperCAmelCase_ : Optional[Any] = {
layer_id: [key for key in vae_state_dict if f"""down.{layer_id}""" in key] for layer_id in range(__lowerCamelCase )
}
# Retrieves the keys for the decoder up blocks only
UpperCAmelCase_ : Dict = len({".".join(layer.split("." )[:3] ) for layer in vae_state_dict if "decoder.up" in layer} )
UpperCAmelCase_ : Optional[int] = {
layer_id: [key for key in vae_state_dict if f"""up.{layer_id}""" in key] for layer_id in range(__lowerCamelCase )
}
for i in range(__lowerCamelCase ):
UpperCAmelCase_ : Any = [key for key in down_blocks[i] if f"""down.{i}""" in key and f"""down.{i}.downsample""" not in key]
if f"""encoder.down.{i}.downsample.conv.weight""" in vae_state_dict:
UpperCAmelCase_ : Dict = vae_state_dict.pop(
f"""encoder.down.{i}.downsample.conv.weight""" )
UpperCAmelCase_ : Dict = vae_state_dict.pop(
f"""encoder.down.{i}.downsample.conv.bias""" )
UpperCAmelCase_ : List[str] = renew_vae_resnet_paths(__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = {"old": f"""down.{i}.block""", "new": f"""down_blocks.{i}.resnets"""}
assign_to_checkpoint(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, additional_replacements=[meta_path], config=__lowerCamelCase )
UpperCAmelCase_ : List[Any] = [key for key in vae_state_dict if "encoder.mid.block" in key]
UpperCAmelCase_ : Tuple = 2
for i in range(1, num_mid_res_blocks + 1 ):
UpperCAmelCase_ : str = [key for key in mid_resnets if f"""encoder.mid.block_{i}""" in key]
UpperCAmelCase_ : List[Any] = renew_vae_resnet_paths(__lowerCamelCase )
UpperCAmelCase_ : Optional[int] = {"old": f"""mid.block_{i}""", "new": f"""mid_block.resnets.{i - 1}"""}
assign_to_checkpoint(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, additional_replacements=[meta_path], config=__lowerCamelCase )
UpperCAmelCase_ : Optional[int] = [key for key in vae_state_dict if "encoder.mid.attn" in key]
UpperCAmelCase_ : Union[str, Any] = renew_vae_attention_paths(__lowerCamelCase )
UpperCAmelCase_ : int = {"old": "mid.attn_1", "new": "mid_block.attentions.0"}
assign_to_checkpoint(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, additional_replacements=[meta_path], config=__lowerCamelCase )
conv_attn_to_linear(__lowerCamelCase )
for i in range(__lowerCamelCase ):
UpperCAmelCase_ : Optional[Any] = num_up_blocks - 1 - i
UpperCAmelCase_ : Any = [
key for key in up_blocks[block_id] if f"""up.{block_id}""" in key and f"""up.{block_id}.upsample""" not in key
]
if f"""decoder.up.{block_id}.upsample.conv.weight""" in vae_state_dict:
UpperCAmelCase_ : str = vae_state_dict[
f"""decoder.up.{block_id}.upsample.conv.weight"""
]
UpperCAmelCase_ : Optional[Any] = vae_state_dict[
f"""decoder.up.{block_id}.upsample.conv.bias"""
]
UpperCAmelCase_ : Dict = renew_vae_resnet_paths(__lowerCamelCase )
UpperCAmelCase_ : List[str] = {"old": f"""up.{block_id}.block""", "new": f"""up_blocks.{i}.resnets"""}
assign_to_checkpoint(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, additional_replacements=[meta_path], config=__lowerCamelCase )
UpperCAmelCase_ : Optional[Any] = [key for key in vae_state_dict if "decoder.mid.block" in key]
UpperCAmelCase_ : List[Any] = 2
for i in range(1, num_mid_res_blocks + 1 ):
UpperCAmelCase_ : str = [key for key in mid_resnets if f"""decoder.mid.block_{i}""" in key]
UpperCAmelCase_ : Tuple = renew_vae_resnet_paths(__lowerCamelCase )
UpperCAmelCase_ : Tuple = {"old": f"""mid.block_{i}""", "new": f"""mid_block.resnets.{i - 1}"""}
assign_to_checkpoint(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, additional_replacements=[meta_path], config=__lowerCamelCase )
UpperCAmelCase_ : Optional[int] = [key for key in vae_state_dict if "decoder.mid.attn" in key]
UpperCAmelCase_ : Any = renew_vae_attention_paths(__lowerCamelCase )
UpperCAmelCase_ : Union[str, Any] = {"old": "mid.attn_1", "new": "mid_block.attentions.0"}
assign_to_checkpoint(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, additional_replacements=[meta_path], config=__lowerCamelCase )
conv_attn_to_linear(__lowerCamelCase )
return new_checkpoint
def __a ( __lowerCamelCase, __lowerCamelCase, ):
# Only support V1
UpperCAmelCase_ : List[str] = requests.get(
" https://raw.githubusercontent.com/CompVis/stable-diffusion/main/configs/stable-diffusion/v1-inference.yaml" )
UpperCAmelCase_ : List[Any] = io.BytesIO(r.content )
UpperCAmelCase_ : Any = OmegaConf.load(__lowerCamelCase )
UpperCAmelCase_ : Union[str, Any] = 512
UpperCAmelCase_ : Optional[Any] = "cuda" if torch.cuda.is_available() else "cpu"
if checkpoint_path.endswith("safetensors" ):
from safetensors import safe_open
UpperCAmelCase_ : int = {}
with safe_open(__lowerCamelCase, framework="pt", device="cpu" ) as f:
for key in f.keys():
UpperCAmelCase_ : Tuple = f.get_tensor(__lowerCamelCase )
else:
UpperCAmelCase_ : Any = torch.load(__lowerCamelCase, map_location=__lowerCamelCase )["state_dict"]
# Convert the VAE model.
UpperCAmelCase_ : Dict = create_vae_diffusers_config(__lowerCamelCase, image_size=__lowerCamelCase )
UpperCAmelCase_ : Union[str, Any] = custom_convert_ldm_vae_checkpoint(__lowerCamelCase, __lowerCamelCase )
UpperCAmelCase_ : int = AutoencoderKL(**__lowerCamelCase )
vae.load_state_dict(__lowerCamelCase )
vae.save_pretrained(__lowerCamelCase )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
parser.add_argument('--vae_pt_path', default=None, type=str, required=True, help='Path to the VAE.pt to convert.')
parser.add_argument('--dump_path', default=None, type=str, required=True, help='Path to the VAE.pt to convert.')
_a = parser.parse_args()
vae_pt_to_vae_diffuser(args.vae_pt_path, args.dump_path)
| 61 | 0 |
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_camembert import CamembertTokenizer
else:
snake_case_ = None
snake_case_ = logging.get_logger(__name__)
snake_case_ = {'vocab_file': 'sentencepiece.bpe.model', 'tokenizer_file': 'tokenizer.json'}
snake_case_ = {
'vocab_file': {
'camembert-base': 'https://huggingface.co/camembert-base/resolve/main/sentencepiece.bpe.model',
},
'tokenizer_file': {
'camembert-base': 'https://huggingface.co/camembert-base/resolve/main/tokenizer.json',
},
}
snake_case_ = {
'camembert-base': 512,
}
snake_case_ = '▁'
class SCREAMING_SNAKE_CASE__ ( _UpperCAmelCase ):
A_ : str = VOCAB_FILES_NAMES
A_ : List[Any] = PRETRAINED_VOCAB_FILES_MAP
A_ : Any = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
A_ : Optional[int] = ['input_ids', 'attention_mask']
A_ : Union[str, Any] = CamembertTokenizer
def __init__(self : List[Any] , a__ : Tuple=None , a__ : Dict=None , a__ : List[str]="<s>" , a__ : Union[str, Any]="</s>" , a__ : Union[str, Any]="</s>" , a__ : int="<s>" , a__ : Optional[Any]="<unk>" , a__ : Optional[int]="<pad>" , a__ : Optional[Any]="<mask>" , a__ : Optional[Any]=["<s>NOTUSED", "</s>NOTUSED"] , **a__ : Any , ):
"""simple docstring"""
__snake_case = AddedToken(a__ , lstrip=a__ , rstrip=a__ ) if isinstance(a__ , a__ ) else mask_token
super().__init__(
a__ , tokenizer_file=a__ , bos_token=a__ , eos_token=a__ , sep_token=a__ , cls_token=a__ , unk_token=a__ , pad_token=a__ , mask_token=a__ , additional_special_tokens=a__ , **a__ , )
__snake_case = vocab_file
__snake_case = False if not self.vocab_file else True
def a (self : Optional[int] , a__ : List[int] , a__ : Optional[List[int]] = None ):
"""simple docstring"""
if token_ids_a is None:
return [self.cls_token_id] + token_ids_a + [self.sep_token_id]
__snake_case = [self.cls_token_id]
__snake_case = [self.sep_token_id]
return cls + token_ids_a + sep + sep + token_ids_a + sep
def a (self : Dict , a__ : List[int] , a__ : Optional[List[int]] = None ):
"""simple docstring"""
__snake_case = [self.sep_token_id]
__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 a (self : str , a__ : str , a__ : 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(a__ ):
logger.error(f"""Vocabulary path ({save_directory}) should be a directory""" )
return
__snake_case = 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,)
| 24 |
"""simple docstring"""
import unittest
import numpy as np
import timeout_decorator # noqa
from transformers import BlenderbotSmallConfig, is_flax_available
from transformers.testing_utils import require_flax, slow
from ...generation.test_flax_utils import FlaxGenerationTesterMixin
from ...test_modeling_flax_common import FlaxModelTesterMixin, ids_tensor
if is_flax_available():
import os
# The slow tests are often failing with OOM error on GPU
# This makes JAX allocate exactly what is needed on demand, and deallocate memory that is no longer needed
# but will be slower as stated here https://jax.readthedocs.io/en/latest/gpu_memory_allocation.html
_a = 'platform'
import jax
import jax.numpy as jnp
from transformers.models.blenderbot_small.modeling_flax_blenderbot_small import (
FlaxBlenderbotSmallForConditionalGeneration,
FlaxBlenderbotSmallModel,
shift_tokens_right,
)
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase=None, __lowerCamelCase=None, __lowerCamelCase=None, __lowerCamelCase=None, __lowerCamelCase=None, __lowerCamelCase=None, ):
if attention_mask is None:
UpperCAmelCase_ : Union[str, Any] = np.where(input_ids != config.pad_token_id, 1, 0 )
if decoder_attention_mask is None:
UpperCAmelCase_ : Optional[int] = np.where(decoder_input_ids != config.pad_token_id, 1, 0 )
if head_mask is None:
UpperCAmelCase_ : int = np.ones((config.encoder_layers, config.encoder_attention_heads) )
if decoder_head_mask is None:
UpperCAmelCase_ : Union[str, Any] = np.ones((config.decoder_layers, config.decoder_attention_heads) )
if cross_attn_head_mask is None:
UpperCAmelCase_ : List[Any] = np.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": attention_mask,
}
class A_ :
'''simple docstring'''
def __init__( self , lowercase_ , lowercase_=13 , lowercase_=7 , lowercase_=True , lowercase_=False , lowercase_=99 , lowercase_=16 , lowercase_=2 , lowercase_=4 , lowercase_=4 , lowercase_="gelu" , lowercase_=0.1 , lowercase_=0.1 , lowercase_=32 , lowercase_=2 , lowercase_=1 , lowercase_=0 , lowercase_=0.02 , ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = parent
UpperCAmelCase_ : Tuple = batch_size
UpperCAmelCase_ : str = seq_length
UpperCAmelCase_ : Dict = is_training
UpperCAmelCase_ : List[Any] = use_labels
UpperCAmelCase_ : Optional[int] = vocab_size
UpperCAmelCase_ : int = hidden_size
UpperCAmelCase_ : Optional[Any] = num_hidden_layers
UpperCAmelCase_ : Dict = num_attention_heads
UpperCAmelCase_ : List[str] = intermediate_size
UpperCAmelCase_ : Optional[int] = hidden_act
UpperCAmelCase_ : str = hidden_dropout_prob
UpperCAmelCase_ : int = attention_probs_dropout_prob
UpperCAmelCase_ : Optional[Any] = max_position_embeddings
UpperCAmelCase_ : str = eos_token_id
UpperCAmelCase_ : str = pad_token_id
UpperCAmelCase_ : str = bos_token_id
UpperCAmelCase_ : List[Any] = initializer_range
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = np.clip(ids_tensor([self.batch_size, self.seq_length - 1] , self.vocab_size ) , 3 , self.vocab_size )
UpperCAmelCase_ : Any = np.concatenate((input_ids, 2 * np.ones((self.batch_size, 1) , dtype=np.intaa )) , -1 )
UpperCAmelCase_ : str = shift_tokens_right(lowercase_ , 1 , 2 )
UpperCAmelCase_ : str = BlenderbotSmallConfig(
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_id=self.eos_token_id , bos_token_id=self.bos_token_id , pad_token_id=self.pad_token_id , initializer_range=self.initializer_range , use_cache=lowercase_ , )
UpperCAmelCase_ : Optional[int] = prepare_blenderbot_inputs_dict(lowercase_ , lowercase_ , lowercase_ )
return config, inputs_dict
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Optional[int] = self.prepare_config_and_inputs()
return config, inputs_dict
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = 20
UpperCAmelCase_ : int = model_class_name(lowercase_ )
UpperCAmelCase_ : Optional[int] = model.encode(inputs_dict["input_ids"] )
UpperCAmelCase_ , UpperCAmelCase_ : Any = (
inputs_dict["decoder_input_ids"],
inputs_dict["decoder_attention_mask"],
)
UpperCAmelCase_ : Any = model.init_cache(decoder_input_ids.shape[0] , lowercase_ , lowercase_ )
UpperCAmelCase_ : Tuple = jnp.ones((decoder_input_ids.shape[0], max_decoder_length) , dtype="i4" )
UpperCAmelCase_ : Union[str, Any] = jnp.broadcast_to(
jnp.arange(decoder_input_ids.shape[-1] - 1 )[None, :] , (decoder_input_ids.shape[0], decoder_input_ids.shape[-1] - 1) , )
UpperCAmelCase_ : int = model.decode(
decoder_input_ids[:, :-1] , lowercase_ , decoder_attention_mask=lowercase_ , past_key_values=lowercase_ , decoder_position_ids=lowercase_ , )
UpperCAmelCase_ : int = jnp.array(decoder_input_ids.shape[0] * [[decoder_input_ids.shape[-1] - 1]] , dtype="i4" )
UpperCAmelCase_ : Dict = model.decode(
decoder_input_ids[:, -1:] , lowercase_ , decoder_attention_mask=lowercase_ , past_key_values=outputs_cache.past_key_values , decoder_position_ids=lowercase_ , )
UpperCAmelCase_ : Optional[Any] = model.decode(lowercase_ , lowercase_ )
UpperCAmelCase_ : Tuple = np.max(np.abs((outputs_cache_next[0][:, -1, :5] - outputs[0][:, -1, :5]) ) )
self.parent.assertTrue(diff < 1E-3 , msg=F"""Max diff is {diff}""" )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = 20
UpperCAmelCase_ : Any = model_class_name(lowercase_ )
UpperCAmelCase_ : Tuple = model.encode(inputs_dict["input_ids"] )
UpperCAmelCase_ , UpperCAmelCase_ : List[Any] = (
inputs_dict["decoder_input_ids"],
inputs_dict["decoder_attention_mask"],
)
UpperCAmelCase_ : Optional[Any] = jnp.concatenate(
[
decoder_attention_mask,
jnp.zeros((decoder_attention_mask.shape[0], max_decoder_length - decoder_attention_mask.shape[1]) ),
] , axis=-1 , )
UpperCAmelCase_ : int = model.init_cache(decoder_input_ids.shape[0] , lowercase_ , lowercase_ )
UpperCAmelCase_ : List[str] = jnp.broadcast_to(
jnp.arange(decoder_input_ids.shape[-1] - 1 )[None, :] , (decoder_input_ids.shape[0], decoder_input_ids.shape[-1] - 1) , )
UpperCAmelCase_ : List[str] = model.decode(
decoder_input_ids[:, :-1] , lowercase_ , decoder_attention_mask=lowercase_ , past_key_values=lowercase_ , decoder_position_ids=lowercase_ , )
UpperCAmelCase_ : Any = jnp.array(decoder_input_ids.shape[0] * [[decoder_input_ids.shape[-1] - 1]] , dtype="i4" )
UpperCAmelCase_ : Dict = model.decode(
decoder_input_ids[:, -1:] , lowercase_ , past_key_values=outputs_cache.past_key_values , decoder_attention_mask=lowercase_ , decoder_position_ids=lowercase_ , )
UpperCAmelCase_ : Dict = model.decode(lowercase_ , lowercase_ , decoder_attention_mask=lowercase_ )
UpperCAmelCase_ : Optional[Any] = np.max(np.abs((outputs_cache_next[0][:, -1, :5] - outputs[0][:, -1, :5]) ) )
self.parent.assertTrue(diff < 1E-3 , msg=F"""Max diff is {diff}""" )
@require_flax
class A_ (unittest.TestCase ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Tuple = 99
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = np.array(
[
[71, 82, 18, 33, 46, 91, 2],
[68, 34, 26, 58, 30, 82, 2],
[5, 97, 17, 39, 94, 40, 2],
[76, 83, 94, 25, 70, 78, 2],
[87, 59, 41, 35, 48, 66, 2],
[55, 13, 16, 58, 5, 2, 1], # note padding
[64, 27, 31, 51, 12, 75, 2],
[52, 64, 86, 17, 83, 39, 2],
[48, 61, 9, 24, 71, 82, 2],
[26, 1, 60, 48, 22, 13, 2],
[21, 5, 62, 28, 14, 76, 2],
[45, 98, 37, 86, 59, 48, 2],
[70, 70, 50, 9, 28, 0, 2],
] , dtype=np.intaa , )
UpperCAmelCase_ : Any = input_ids.shape[0]
UpperCAmelCase_ : Dict = BlenderbotSmallConfig(
vocab_size=self.vocab_size , d_model=24 , encoder_layers=2 , decoder_layers=2 , encoder_attention_heads=2 , decoder_attention_heads=2 , encoder_ffn_dim=32 , decoder_ffn_dim=32 , max_position_embeddings=48 , eos_token_id=2 , pad_token_id=1 , bos_token_id=0 , )
return config, input_ids, batch_size
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : Tuple = self._get_config_and_data()
UpperCAmelCase_ : List[str] = FlaxBlenderbotSmallForConditionalGeneration(lowercase_ )
UpperCAmelCase_ : Optional[int] = lm_model(input_ids=lowercase_ )
UpperCAmelCase_ : Optional[int] = (batch_size, input_ids.shape[1], config.vocab_size)
self.assertEqual(outputs["logits"].shape , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = BlenderbotSmallConfig(
vocab_size=self.vocab_size , d_model=14 , encoder_layers=2 , decoder_layers=2 , encoder_attention_heads=2 , decoder_attention_heads=2 , encoder_ffn_dim=8 , decoder_ffn_dim=8 , max_position_embeddings=48 , )
UpperCAmelCase_ : Optional[int] = FlaxBlenderbotSmallForConditionalGeneration(lowercase_ )
UpperCAmelCase_ : str = np.array([[71, 82, 18, 33, 46, 91, 2], [68, 34, 26, 58, 30, 2, 1]] , dtype=np.intaa )
UpperCAmelCase_ : str = np.array([[82, 71, 82, 18, 2], [58, 68, 2, 1, 1]] , dtype=np.intaa )
UpperCAmelCase_ : Tuple = lm_model(input_ids=lowercase_ , decoder_input_ids=lowercase_ )
UpperCAmelCase_ : Tuple = (*summary.shape, config.vocab_size)
self.assertEqual(outputs["logits"].shape , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[Any] = np.array([[71, 82, 18, 33, 2, 1, 1], [68, 34, 26, 58, 30, 82, 2]] , dtype=np.intaa )
UpperCAmelCase_ : Dict = shift_tokens_right(lowercase_ , 1 , 2 )
UpperCAmelCase_ : Tuple = np.equal(lowercase_ , 1 ).astype(np.floataa ).sum()
UpperCAmelCase_ : Optional[Any] = np.equal(lowercase_ , 1 ).astype(np.floataa ).sum()
self.assertEqual(shifted.shape , input_ids.shape )
self.assertEqual(lowercase_ , n_pad_before - 1 )
self.assertTrue(np.equal(shifted[:, 0] , 2 ).all() )
@require_flax
class A_ (lowercase__ ,unittest.TestCase ,lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : str = True
SCREAMING_SNAKE_CASE__ : Union[str, Any] = (
(
FlaxBlenderbotSmallModel,
FlaxBlenderbotSmallForConditionalGeneration,
)
if is_flax_available()
else ()
)
SCREAMING_SNAKE_CASE__ : List[Any] = (FlaxBlenderbotSmallForConditionalGeneration,) if is_flax_available() else ()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Dict = FlaxBlenderbotSmallModelTester(self )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Tuple = self.model_tester.prepare_config_and_inputs()
for model_class in self.all_model_classes:
self.model_tester.check_use_cache_forward(lowercase_ , lowercase_ , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Optional[Any] = self.model_tester.prepare_config_and_inputs()
for model_class in self.all_model_classes:
self.model_tester.check_use_cache_forward_with_attn_mask(lowercase_ , lowercase_ , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Any = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
with self.subTest(model_class.__name__ ):
UpperCAmelCase_ : List[Any] = self._prepare_for_class(lowercase_ , lowercase_ )
UpperCAmelCase_ : Dict = model_class(lowercase_ )
@jax.jit
def encode_jitted(lowercase_ , lowercase_=None , **lowercase_ ):
return model.encode(input_ids=lowercase_ , attention_mask=lowercase_ )
with self.subTest("JIT Enabled" ):
UpperCAmelCase_ : List[Any] = encode_jitted(**lowercase_ ).to_tuple()
with self.subTest("JIT Disabled" ):
with jax.disable_jit():
UpperCAmelCase_ : Optional[Any] = encode_jitted(**lowercase_ ).to_tuple()
self.assertEqual(len(lowercase_ ) , len(lowercase_ ) )
for jitted_output, output in zip(lowercase_ , lowercase_ ):
self.assertEqual(jitted_output.shape , output.shape )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
with self.subTest(model_class.__name__ ):
UpperCAmelCase_ : Optional[int] = model_class(lowercase_ )
UpperCAmelCase_ : Tuple = model.encode(inputs_dict["input_ids"] , inputs_dict["attention_mask"] )
UpperCAmelCase_ : int = {
"decoder_input_ids": inputs_dict["decoder_input_ids"],
"decoder_attention_mask": inputs_dict["decoder_attention_mask"],
"encoder_outputs": encoder_outputs,
}
@jax.jit
def decode_jitted(lowercase_ , lowercase_ , lowercase_ ):
return model.decode(
decoder_input_ids=lowercase_ , decoder_attention_mask=lowercase_ , encoder_outputs=lowercase_ , )
with self.subTest("JIT Enabled" ):
UpperCAmelCase_ : str = decode_jitted(**lowercase_ ).to_tuple()
with self.subTest("JIT Disabled" ):
with jax.disable_jit():
UpperCAmelCase_ : List[Any] = decode_jitted(**lowercase_ ).to_tuple()
self.assertEqual(len(lowercase_ ) , len(lowercase_ ) )
for jitted_output, output in zip(lowercase_ , lowercase_ ):
self.assertEqual(jitted_output.shape , output.shape )
@slow
def UpperCamelCase__ ( self ):
"""simple docstring"""
for model_class_name in self.all_model_classes:
UpperCAmelCase_ : Optional[Any] = model_class_name.from_pretrained("facebook/blenderbot_small-90M" )
# FlaxBlenderbotForSequenceClassification expects eos token in input_ids
UpperCAmelCase_ : List[str] = np.ones((1, 1) ) * model.config.eos_token_id
UpperCAmelCase_ : Optional[int] = model(lowercase_ )
self.assertIsNotNone(lowercase_ )
| 61 | 0 |
"""simple docstring"""
from __future__ import annotations
class lowerCAmelCase_ :
"""simple docstring"""
def __init__(self , SCREAMING_SNAKE_CASE__ ) -> None:
"""simple docstring"""
SCREAMING_SNAKE_CASE__ : int = order
# a_{0} ... a_{k}
SCREAMING_SNAKE_CASE__ : Dict = [1.0] + [0.0] * order
# b_{0} ... b_{k}
SCREAMING_SNAKE_CASE__ : Tuple = [1.0] + [0.0] * order
# x[n-1] ... x[n-k]
SCREAMING_SNAKE_CASE__ : Tuple = [0.0] * self.order
# y[n-1] ... y[n-k]
SCREAMING_SNAKE_CASE__ : List[Any] = [0.0] * self.order
def __magic_name__ (self , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ) -> None:
"""simple docstring"""
if len(SCREAMING_SNAKE_CASE__ ) < self.order:
SCREAMING_SNAKE_CASE__ : Union[str, Any] = [1.0, *a_coeffs]
if len(SCREAMING_SNAKE_CASE__ ) != self.order + 1:
SCREAMING_SNAKE_CASE__ : List[str] = (
F'''Expected a_coeffs to have {self.order + 1} elements '''
F'''for {self.order}-order filter, got {len(SCREAMING_SNAKE_CASE__ )}'''
)
raise ValueError(SCREAMING_SNAKE_CASE__ )
if len(SCREAMING_SNAKE_CASE__ ) != self.order + 1:
SCREAMING_SNAKE_CASE__ : int = (
F'''Expected b_coeffs to have {self.order + 1} elements '''
F'''for {self.order}-order filter, got {len(SCREAMING_SNAKE_CASE__ )}'''
)
raise ValueError(SCREAMING_SNAKE_CASE__ )
SCREAMING_SNAKE_CASE__ : Union[str, Any] = a_coeffs
SCREAMING_SNAKE_CASE__ : List[str] = b_coeffs
def __magic_name__ (self , SCREAMING_SNAKE_CASE__ ) -> float:
"""simple docstring"""
SCREAMING_SNAKE_CASE__ : Union[str, Any] = 0.0
# Start at index 1 and do index 0 at the end.
for i in range(1 , self.order + 1 ):
result += (
self.b_coeffs[i] * self.input_history[i - 1]
- self.a_coeffs[i] * self.output_history[i - 1]
)
SCREAMING_SNAKE_CASE__ : Tuple = (result + self.b_coeffs[0] * sample) / self.a_coeffs[0]
SCREAMING_SNAKE_CASE__ : Optional[Any] = self.input_history[:-1]
SCREAMING_SNAKE_CASE__ : Union[str, Any] = self.output_history[:-1]
SCREAMING_SNAKE_CASE__ : Optional[int] = sample
SCREAMING_SNAKE_CASE__ : int = result
return result
| 25 |
"""simple docstring"""
import inspect
import unittest
import warnings
from transformers import DeiTConfig
from transformers.models.auto import get_values
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 (
MODEL_FOR_IMAGE_CLASSIFICATION_MAPPING,
MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING,
MODEL_MAPPING,
DeiTForImageClassification,
DeiTForImageClassificationWithTeacher,
DeiTForMaskedImageModeling,
DeiTModel,
)
from transformers.models.deit.modeling_deit import DEIT_PRETRAINED_MODEL_ARCHIVE_LIST
if is_vision_available():
from PIL import Image
from transformers import DeiTImageProcessor
class A_ :
'''simple docstring'''
def __init__( self , lowercase_ , lowercase_=13 , lowercase_=30 , lowercase_=2 , lowercase_=3 , lowercase_=True , lowercase_=True , lowercase_=32 , lowercase_=5 , lowercase_=4 , lowercase_=37 , lowercase_="gelu" , lowercase_=0.1 , lowercase_=0.1 , lowercase_=10 , lowercase_=0.02 , lowercase_=3 , lowercase_=None , lowercase_=2 , ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = parent
UpperCAmelCase_ : int = batch_size
UpperCAmelCase_ : int = image_size
UpperCAmelCase_ : List[Any] = patch_size
UpperCAmelCase_ : Any = num_channels
UpperCAmelCase_ : Optional[int] = is_training
UpperCAmelCase_ : Union[str, Any] = use_labels
UpperCAmelCase_ : Union[str, Any] = hidden_size
UpperCAmelCase_ : str = num_hidden_layers
UpperCAmelCase_ : List[str] = num_attention_heads
UpperCAmelCase_ : str = intermediate_size
UpperCAmelCase_ : str = hidden_act
UpperCAmelCase_ : List[Any] = hidden_dropout_prob
UpperCAmelCase_ : Union[str, Any] = attention_probs_dropout_prob
UpperCAmelCase_ : str = type_sequence_label_size
UpperCAmelCase_ : str = initializer_range
UpperCAmelCase_ : Union[str, Any] = scope
UpperCAmelCase_ : str = encoder_stride
# in DeiT, the seq length equals the number of patches + 2 (we add 2 for the [CLS] and distilation tokens)
UpperCAmelCase_ : int = (image_size // patch_size) ** 2
UpperCAmelCase_ : Optional[Any] = num_patches + 2
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Any = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] )
UpperCAmelCase_ : Tuple = None
if self.use_labels:
UpperCAmelCase_ : Any = ids_tensor([self.batch_size] , self.type_sequence_label_size )
UpperCAmelCase_ : Union[str, Any] = self.get_config()
return config, pixel_values, labels
def UpperCamelCase__ ( self ):
"""simple docstring"""
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=lowercase_ , initializer_range=self.initializer_range , encoder_stride=self.encoder_stride , )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Optional[int] = DeiTModel(config=lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : List[Any] = model(lowercase_ )
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Optional[int] = DeiTForMaskedImageModeling(config=lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : List[Any] = model(lowercase_ )
self.parent.assertEqual(
result.reconstruction.shape , (self.batch_size, self.num_channels, self.image_size, self.image_size) )
# test greyscale images
UpperCAmelCase_ : List[str] = 1
UpperCAmelCase_ : Optional[Any] = DeiTForMaskedImageModeling(lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : Dict = floats_tensor([self.batch_size, 1, self.image_size, self.image_size] )
UpperCAmelCase_ : Optional[int] = model(lowercase_ )
self.parent.assertEqual(result.reconstruction.shape , (self.batch_size, 1, self.image_size, self.image_size) )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = self.type_sequence_label_size
UpperCAmelCase_ : Union[str, Any] = DeiTForImageClassification(lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : List[str] = model(lowercase_ , labels=lowercase_ )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size) )
# test greyscale images
UpperCAmelCase_ : Union[str, Any] = 1
UpperCAmelCase_ : Optional[int] = DeiTForImageClassification(lowercase_ )
model.to(lowercase_ )
model.eval()
UpperCAmelCase_ : Dict = floats_tensor([self.batch_size, 1, self.image_size, self.image_size] )
UpperCAmelCase_ : List[Any] = model(lowercase_ , labels=lowercase_ )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size) )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = self.prepare_config_and_inputs()
(
(
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) ,
) : Dict = config_and_inputs
UpperCAmelCase_ : Optional[int] = {"pixel_values": pixel_values}
return config, inputs_dict
@require_torch
class A_ (lowercase__ ,lowercase__ ,unittest.TestCase ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Any = (
(
DeiTModel,
DeiTForImageClassification,
DeiTForImageClassificationWithTeacher,
DeiTForMaskedImageModeling,
)
if is_torch_available()
else ()
)
SCREAMING_SNAKE_CASE__ : Tuple = (
{
"""feature-extraction""": DeiTModel,
"""image-classification""": (DeiTForImageClassification, DeiTForImageClassificationWithTeacher),
}
if is_torch_available()
else {}
)
SCREAMING_SNAKE_CASE__ : List[Any] = False
SCREAMING_SNAKE_CASE__ : Optional[Any] = False
SCREAMING_SNAKE_CASE__ : List[str] = False
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Any = DeiTModelTester(self )
UpperCAmelCase_ : Optional[int] = ConfigTester(self , config_class=lowercase_ , has_text_modality=lowercase_ , hidden_size=37 )
def UpperCamelCase__ ( self ):
"""simple docstring"""
self.config_tester.run_common_tests()
@unittest.skip(reason="DeiT does not use inputs_embeds" )
def UpperCamelCase__ ( self ):
"""simple docstring"""
pass
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Any = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
UpperCAmelCase_ : List[Any] = model_class(lowercase_ )
self.assertIsInstance(model.get_input_embeddings() , (nn.Module) )
UpperCAmelCase_ : Any = model.get_output_embeddings()
self.assertTrue(x is None or isinstance(lowercase_ , nn.Linear ) )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Dict = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
UpperCAmelCase_ : Dict = model_class(lowercase_ )
UpperCAmelCase_ : Optional[Any] = inspect.signature(model.forward )
# signature.parameters is an OrderedDict => so arg_names order is deterministic
UpperCAmelCase_ : str = [*signature.parameters.keys()]
UpperCAmelCase_ : Optional[int] = ["pixel_values"]
self.assertListEqual(arg_names[:1] , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : int = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Dict = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_masked_image_modeling(*lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[int] = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_image_classification(*lowercase_ )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ , lowercase_=False ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = super()._prepare_for_class(lowercase_ , lowercase_ , return_labels=lowercase_ )
if return_labels:
if model_class.__name__ == "DeiTForImageClassificationWithTeacher":
del inputs_dict["labels"]
return inputs_dict
def UpperCamelCase__ ( self ):
"""simple docstring"""
if not self.model_tester.is_training:
return
UpperCAmelCase_ , UpperCAmelCase_ : Union[str, Any] = self.model_tester.prepare_config_and_inputs_for_common()
UpperCAmelCase_ : Union[str, Any] = True
for model_class in self.all_model_classes:
# DeiTForImageClassificationWithTeacher supports inference-only
if (
model_class in get_values(lowercase_ )
or model_class.__name__ == "DeiTForImageClassificationWithTeacher"
):
continue
UpperCAmelCase_ : Optional[int] = model_class(lowercase_ )
model.to(lowercase_ )
model.train()
UpperCAmelCase_ : List[Any] = self._prepare_for_class(lowercase_ , lowercase_ , return_labels=lowercase_ )
UpperCAmelCase_ : Dict = model(**lowercase_ ).loss
loss.backward()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : int = self.model_tester.prepare_config_and_inputs_for_common()
if not self.model_tester.is_training:
return
UpperCAmelCase_ : Dict = False
UpperCAmelCase_ : Optional[int] = True
for model_class in self.all_model_classes:
if model_class in get_values(lowercase_ ) or not model_class.supports_gradient_checkpointing:
continue
# DeiTForImageClassificationWithTeacher supports inference-only
if model_class.__name__ == "DeiTForImageClassificationWithTeacher":
continue
UpperCAmelCase_ : List[str] = model_class(lowercase_ )
model.gradient_checkpointing_enable()
model.to(lowercase_ )
model.train()
UpperCAmelCase_ : Optional[int] = self._prepare_for_class(lowercase_ , lowercase_ , return_labels=lowercase_ )
UpperCAmelCase_ : Any = model(**lowercase_ ).loss
loss.backward()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Tuple = self.model_tester.prepare_config_and_inputs_for_common()
UpperCAmelCase_ : Dict = [
{"title": "multi_label_classification", "num_labels": 2, "dtype": torch.float},
{"title": "single_label_classification", "num_labels": 1, "dtype": torch.long},
{"title": "regression", "num_labels": 1, "dtype": torch.float},
]
for model_class in self.all_model_classes:
if (
model_class
not in [
*get_values(lowercase_ ),
*get_values(lowercase_ ),
]
or model_class.__name__ == "DeiTForImageClassificationWithTeacher"
):
continue
for problem_type in problem_types:
with self.subTest(msg=F"""Testing {model_class} with {problem_type["title"]}""" ):
UpperCAmelCase_ : str = problem_type["title"]
UpperCAmelCase_ : List[Any] = problem_type["num_labels"]
UpperCAmelCase_ : Union[str, Any] = model_class(lowercase_ )
model.to(lowercase_ )
model.train()
UpperCAmelCase_ : int = self._prepare_for_class(lowercase_ , lowercase_ , return_labels=lowercase_ )
if problem_type["num_labels"] > 1:
UpperCAmelCase_ : List[Any] = inputs["labels"].unsqueeze(1 ).repeat(1 , problem_type["num_labels"] )
UpperCAmelCase_ : Tuple = inputs["labels"].to(problem_type["dtype"] )
# This tests that we do not trigger the warning form PyTorch "Using a target size that is different
# to the input size. This will likely lead to incorrect results due to broadcasting. Please ensure
# they have the same size." which is a symptom something in wrong for the regression problem.
# See https://github.com/huggingface/transformers/issues/11780
with warnings.catch_warnings(record=lowercase_ ) as warning_list:
UpperCAmelCase_ : List[str] = model(**lowercase_ ).loss
for w in warning_list:
if "Using a target size that is different to the input size" in str(w.message ):
raise ValueError(
F"""Something is going wrong in the regression problem: intercepted {w.message}""" )
loss.backward()
@slow
def UpperCamelCase__ ( self ):
"""simple docstring"""
for model_name in DEIT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
UpperCAmelCase_ : Union[str, Any] = DeiTModel.from_pretrained(lowercase_ )
self.assertIsNotNone(lowercase_ )
def __a ( ):
UpperCAmelCase_ : Any = Image.open("./tests/fixtures/tests_samples/COCO/000000039769.png" )
return image
@require_torch
@require_vision
class A_ (unittest.TestCase ):
'''simple docstring'''
@cached_property
def UpperCamelCase__ ( self ):
"""simple docstring"""
return (
DeiTImageProcessor.from_pretrained("facebook/deit-base-distilled-patch16-224" )
if is_vision_available()
else None
)
@slow
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = DeiTForImageClassificationWithTeacher.from_pretrained("facebook/deit-base-distilled-patch16-224" ).to(
lowercase_ )
UpperCAmelCase_ : List[str] = self.default_image_processor
UpperCAmelCase_ : List[str] = prepare_img()
UpperCAmelCase_ : int = image_processor(images=lowercase_ , return_tensors="pt" ).to(lowercase_ )
# forward pass
with torch.no_grad():
UpperCAmelCase_ : Dict = model(**lowercase_ )
# verify the logits
UpperCAmelCase_ : List[str] = torch.Size((1, 1000) )
self.assertEqual(outputs.logits.shape , lowercase_ )
UpperCAmelCase_ : str = torch.tensor([-1.02_66, 0.19_12, -1.28_61] ).to(lowercase_ )
self.assertTrue(torch.allclose(outputs.logits[0, :3] , lowercase_ , atol=1E-4 ) )
@slow
@require_accelerate
@require_torch_gpu
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = DeiTModel.from_pretrained(
"facebook/deit-base-distilled-patch16-224" , torch_dtype=torch.floataa , device_map="auto" )
UpperCAmelCase_ : str = self.default_image_processor
UpperCAmelCase_ : Union[str, Any] = prepare_img()
UpperCAmelCase_ : List[Any] = image_processor(images=lowercase_ , return_tensors="pt" )
UpperCAmelCase_ : List[str] = inputs.pixel_values.to(lowercase_ )
# forward pass to make sure inference works in fp16
with torch.no_grad():
UpperCAmelCase_ : int = model(lowercase_ )
| 61 | 0 |
from collections import defaultdict
from pathlib import Path
import pandas as pd
from rouge_cli import calculate_rouge_path
from utils import calculate_rouge
_snake_case = [
"Prosecutor: \"No videos were used in the crash investigation\" German papers say they saw a cell phone video of the"
" final seconds on board Flight 9525. The Germanwings co-pilot says he had a \"previous episode of severe"
" depression\" German airline confirms it knew of Andreas Lubitz's depression years before he took control.",
"The Palestinian Authority officially becomes the 123rd member of the International Criminal Court. The formal"
" accession was marked with a ceremony at The Hague, in the Netherlands. The Palestinians signed the ICC's"
" founding Rome Statute in January. Israel and the United States opposed the Palestinians' efforts to join the"
" body.",
"Amnesty International releases its annual report on the death penalty. The report catalogs the use of"
" state-sanctioned killing as a punitive measure across the globe. At least 607 people were executed around the"
" world in 2014, compared to 778 in 2013. The U.S. remains one of the worst offenders for imposing capital"
" punishment.",
]
_snake_case = [
"Marseille prosecutor says \"so far no videos were used in the crash investigation\" despite media reports ."
" Journalists at Bild and Paris Match are \"very confident\" the video clip is real, an editor says . Andreas Lubitz"
" had informed his Lufthansa training school of an episode of severe depression, airline says .",
"Membership gives the ICC jurisdiction over alleged crimes committed in Palestinian territories since last June ."
" Israel and the United States opposed the move, which could open the door to war crimes investigations against"
" Israelis .",
"Amnesty's annual death penalty report catalogs encouraging signs, but setbacks in numbers of those sentenced to"
" death . Organization claims that governments around the world are using the threat of terrorism to advance"
" executions . The number of executions worldwide has gone down by almost 22% compared with 2013, but death"
" sentences up by 28% .",
]
def lowerCAmelCase_ ( ):
_A : int = calculate_rouge(snake_case_,snake_case_,bootstrap_aggregation=snake_case_,rouge_keys=["""rouge2""", """rougeL"""] )
assert isinstance(snake_case_,snake_case_ )
_A : List[str] = calculate_rouge(snake_case_,snake_case_,bootstrap_aggregation=snake_case_,rouge_keys=["""rouge2"""] )
assert (
pd.DataFrame(no_aggregation["""rouge2"""] ).fmeasure.mean()
== pd.DataFrame(no_aggregation_just_ra["""rouge2"""] ).fmeasure.mean()
)
def lowerCAmelCase_ ( ):
_A : Any = """rougeLsum"""
_A : List[str] = calculate_rouge(snake_case_,snake_case_,newline_sep=snake_case_,rouge_keys=[k] )[k]
_A : List[Any] = calculate_rouge(snake_case_,snake_case_,newline_sep=snake_case_,rouge_keys=[k] )[k]
assert score > score_no_sep
def lowerCAmelCase_ ( ):
_A : Dict = ["""rouge1""", """rouge2""", """rougeL"""]
_A : Dict = calculate_rouge(snake_case_,snake_case_,newline_sep=snake_case_,rouge_keys=snake_case_ )
_A : List[Any] = calculate_rouge(snake_case_,snake_case_,newline_sep=snake_case_,rouge_keys=snake_case_ )
assert score_sep == score_no_sep
def lowerCAmelCase_ ( ):
_A : Union[str, Any] = [
"""Her older sister, Margot Frank, died in 1945, a month earlier than previously thought.""",
"""Marseille prosecutor says \"so far no videos were used in the crash investigation\" despite media reports .""",
]
_A : int = [
"""Margot Frank, died in 1945, a month earlier than previously thought.""",
"""Prosecutor: \"No videos were used in the crash investigation\" German papers say they saw a cell phone video of"""
""" the final seconds on board Flight 9525.""",
]
assert calculate_rouge(snake_case_,snake_case_,newline_sep=snake_case_ ) == calculate_rouge(snake_case_,snake_case_,newline_sep=snake_case_ )
def lowerCAmelCase_ ( ):
_A : int = [
"""\" \"a person who has such a video needs to immediately give it to the investigators,\" prosecutor says .<n> \"it is a very disturbing scene,\" editor-in-chief of bild online tells \"erin burnett: outfront\" """
]
_A : Any = [
""" Marseille prosecutor says \"so far no videos were used in the crash investigation\" despite media reports . Journalists at Bild and Paris Match are \"very confident\" the video clip is real, an editor says . Andreas Lubitz had informed his Lufthansa training school of an episode of severe depression, airline says ."""
]
_A : Dict = calculate_rouge(snake_case_,snake_case_,rouge_keys=["""rougeLsum"""],newline_sep=snake_case_ )["""rougeLsum"""]
_A : List[str] = calculate_rouge(snake_case_,snake_case_,rouge_keys=["""rougeLsum"""] )["""rougeLsum"""]
assert new_score > prev_score
def lowerCAmelCase_ ( ):
_A : int = Path("""examples/seq2seq/test_data/wmt_en_ro""" )
_A : Optional[Any] = calculate_rouge_path(data_dir.joinpath("""test.source""" ),data_dir.joinpath("""test.target""" ) )
assert isinstance(snake_case_,snake_case_ )
_A : Dict = calculate_rouge_path(
data_dir.joinpath("""test.source""" ),data_dir.joinpath("""test.target""" ),bootstrap_aggregation=snake_case_ )
assert isinstance(snake_case_,snake_case_ )
| 26 |
"""simple docstring"""
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:
_a = None
_a = logging.get_logger(__name__)
_a = {'vocab_file': 'spiece.model', 'tokenizer_file': 'tokenizer.json'}
_a = {
'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',
},
}
_a = {
'google/fnet-base': 512,
'google/fnet-large': 512,
}
_a = '▁'
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : List[str] = VOCAB_FILES_NAMES
SCREAMING_SNAKE_CASE__ : Tuple = PRETRAINED_VOCAB_FILES_MAP
SCREAMING_SNAKE_CASE__ : Any = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
SCREAMING_SNAKE_CASE__ : Union[str, Any] = ["""input_ids""", """token_type_ids"""]
SCREAMING_SNAKE_CASE__ : Tuple = FNetTokenizer
def __init__( self , lowercase_=None , lowercase_=None , lowercase_=False , lowercase_=True , lowercase_=True , lowercase_="<unk>" , lowercase_="[SEP]" , lowercase_="<pad>" , lowercase_="[CLS]" , lowercase_="[MASK]" , **lowercase_ , ):
"""simple docstring"""
# Mask token behave like a normal word, i.e. include the space before it and
# is included in the raw text, there should be a match in a non-normalized sentence.
UpperCAmelCase_ : int = (
AddedToken(lowercase_ , lstrip=lowercase_ , rstrip=lowercase_ , normalized=lowercase_ )
if isinstance(lowercase_ , lowercase_ )
else mask_token
)
super().__init__(
lowercase_ , tokenizer_file=lowercase_ , do_lower_case=lowercase_ , remove_space=lowercase_ , keep_accents=lowercase_ , unk_token=lowercase_ , sep_token=lowercase_ , pad_token=lowercase_ , cls_token=lowercase_ , mask_token=lowercase_ , **lowercase_ , )
UpperCAmelCase_ : Any = do_lower_case
UpperCAmelCase_ : Tuple = remove_space
UpperCAmelCase_ : str = keep_accents
UpperCAmelCase_ : Any = vocab_file
UpperCAmelCase_ : List[Any] = False if not self.vocab_file else True
def UpperCamelCase__ ( self , lowercase_ , lowercase_ = None ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = [self.sep_token_id]
UpperCAmelCase_ : Any = [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 UpperCamelCase__ ( self , lowercase_ , lowercase_ = None ):
"""simple docstring"""
UpperCAmelCase_ : Any = [self.sep_token_id]
UpperCAmelCase_ : 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 UpperCamelCase__ ( self , lowercase_ , lowercase_ = None ):
"""simple docstring"""
if not os.path.isdir(lowercase_ ):
logger.error(F"""Vocabulary path ({save_directory}) should be a directory""" )
return
UpperCAmelCase_ : List[str] = os.path.join(
lowercase_ , (filename_prefix + "-" if filename_prefix else "") + VOCAB_FILES_NAMES["vocab_file"] )
if os.path.abspath(self.vocab_file ) != os.path.abspath(lowercase_ ):
copyfile(self.vocab_file , lowercase_ )
return (out_vocab_file,)
| 61 | 0 |
'''simple docstring'''
import unittest
from transformers import MraConfig, is_torch_available
from transformers.testing_utils import require_torch, slow, torch_device
from ...test_configuration_common import ConfigTester
from ...test_modeling_common import ModelTesterMixin, floats_tensor, ids_tensor, random_attention_mask
if is_torch_available():
import torch
from transformers import (
MraForMaskedLM,
MraForMultipleChoice,
MraForQuestionAnswering,
MraForSequenceClassification,
MraForTokenClassification,
MraModel,
)
from transformers.models.mra.modeling_mra import MRA_PRETRAINED_MODEL_ARCHIVE_LIST
class __UpperCamelCase :
def __init__( self , __a , __a=2 , __a=8 , __a=True , __a=True , __a=True , __a=True , __a=99 , __a=16 , __a=5 , __a=2 , __a=36 , __a="gelu" , __a=0.0 , __a=0.0 , __a=512 , __a=16 , __a=2 , __a=0.02 , __a=3 , __a=4 , __a=None , ):
'''simple docstring'''
__a : Optional[int] = parent
__a : Tuple = batch_size
__a : Optional[Any] = seq_length
__a : Dict = is_training
__a : str = use_input_mask
__a : Dict = use_token_type_ids
__a : Any = use_labels
__a : Optional[int] = vocab_size
__a : Optional[Any] = hidden_size
__a : Tuple = num_hidden_layers
__a : Any = num_attention_heads
__a : Dict = intermediate_size
__a : Dict = hidden_act
__a : List[str] = hidden_dropout_prob
__a : Any = attention_probs_dropout_prob
__a : Optional[int] = max_position_embeddings
__a : Dict = type_vocab_size
__a : List[str] = type_sequence_label_size
__a : Union[str, Any] = initializer_range
__a : Any = num_labels
__a : int = num_choices
__a : Tuple = scope
def __UpperCAmelCase ( self ):
'''simple docstring'''
__a : List[Any] = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size )
__a : Union[str, Any] = None
if self.use_input_mask:
__a : int = random_attention_mask([self.batch_size, self.seq_length] )
__a : str = None
if self.use_token_type_ids:
__a : int = ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size )
__a : int = None
__a : Optional[Any] = None
__a : Optional[int] = None
if self.use_labels:
__a : str = ids_tensor([self.batch_size] , self.type_sequence_label_size )
__a : Any = ids_tensor([self.batch_size, self.seq_length] , self.num_labels )
__a : Optional[int] = ids_tensor([self.batch_size] , self.num_choices )
__a : Tuple = self.get_config()
return config, input_ids, token_type_ids, input_mask, sequence_labels, token_labels, choice_labels
def __UpperCAmelCase ( self ):
'''simple docstring'''
return MraConfig(
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 , )
def __UpperCAmelCase ( self ):
'''simple docstring'''
__a : List[str] = self.get_config()
__a : Dict = 300
return config
def __UpperCAmelCase ( self ):
'''simple docstring'''
(
(
__a
) , (
__a
) , (
__a
) , (
__a
) , (
__a
) , (
__a
) , (
__a
) ,
) : Any = self.prepare_config_and_inputs()
__a : Dict = True
__a : str = floats_tensor([self.batch_size, self.seq_length, self.hidden_size] )
__a : Union[str, Any] = ids_tensor([self.batch_size, self.seq_length] , vocab_size=2 )
return (
config,
input_ids,
token_type_ids,
input_mask,
sequence_labels,
token_labels,
choice_labels,
encoder_hidden_states,
encoder_attention_mask,
)
def __UpperCAmelCase ( self , __a , __a , __a , __a , __a , __a , __a ):
'''simple docstring'''
__a : List[Any] = MraModel(config=__a )
model.to(__a )
model.eval()
__a : Optional[Any] = model(__a , attention_mask=__a , token_type_ids=__a )
__a : int = model(__a , token_type_ids=__a )
__a : List[Any] = model(__a )
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) )
def __UpperCAmelCase ( self , __a , __a , __a , __a , __a , __a , __a , __a , __a , ):
'''simple docstring'''
__a : str = True
__a : Union[str, Any] = MraModel(__a )
model.to(__a )
model.eval()
__a : Optional[Any] = model(
__a , attention_mask=__a , token_type_ids=__a , encoder_hidden_states=__a , encoder_attention_mask=__a , )
__a : Union[str, Any] = model(
__a , attention_mask=__a , token_type_ids=__a , encoder_hidden_states=__a , )
__a : Optional[int] = model(__a , attention_mask=__a , token_type_ids=__a )
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size) )
def __UpperCAmelCase ( self , __a , __a , __a , __a , __a , __a , __a ):
'''simple docstring'''
__a : int = MraForMaskedLM(config=__a )
model.to(__a )
model.eval()
__a : Union[str, Any] = model(__a , attention_mask=__a , token_type_ids=__a , labels=__a )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.seq_length, self.vocab_size) )
def __UpperCAmelCase ( self , __a , __a , __a , __a , __a , __a , __a ):
'''simple docstring'''
__a : Tuple = MraForQuestionAnswering(config=__a )
model.to(__a )
model.eval()
__a : List[str] = model(
__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 __UpperCAmelCase ( self , __a , __a , __a , __a , __a , __a , __a ):
'''simple docstring'''
__a : Dict = self.num_labels
__a : Optional[Any] = MraForSequenceClassification(__a )
model.to(__a )
model.eval()
__a : Any = model(__a , attention_mask=__a , token_type_ids=__a , labels=__a )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_labels) )
def __UpperCAmelCase ( self , __a , __a , __a , __a , __a , __a , __a ):
'''simple docstring'''
__a : Optional[int] = self.num_labels
__a : Union[str, Any] = MraForTokenClassification(config=__a )
model.to(__a )
model.eval()
__a : Optional[int] = model(__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 __UpperCAmelCase ( self , __a , __a , __a , __a , __a , __a , __a ):
'''simple docstring'''
__a : Dict = self.num_choices
__a : str = MraForMultipleChoice(config=__a )
model.to(__a )
model.eval()
__a : Union[str, Any] = input_ids.unsqueeze(1 ).expand(-1 , self.num_choices , -1 ).contiguous()
__a : Tuple = token_type_ids.unsqueeze(1 ).expand(-1 , self.num_choices , -1 ).contiguous()
__a : Union[str, Any] = input_mask.unsqueeze(1 ).expand(-1 , self.num_choices , -1 ).contiguous()
__a : Dict = model(
__a , attention_mask=__a , token_type_ids=__a , labels=__a , )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_choices) )
def __UpperCAmelCase ( self ):
'''simple docstring'''
__a : List[str] = self.prepare_config_and_inputs()
(
(
__a
) , (
__a
) , (
__a
) , (
__a
) , (
__a
) , (
__a
) , (
__a
) ,
) : Dict = config_and_inputs
__a : int = {'input_ids': input_ids, 'token_type_ids': token_type_ids, 'attention_mask': input_mask}
return config, inputs_dict
@require_torch
class __UpperCamelCase ( lowerCAmelCase_ , unittest.TestCase ):
A_ = (
(
MraModel,
MraForMaskedLM,
MraForMultipleChoice,
MraForQuestionAnswering,
MraForSequenceClassification,
MraForTokenClassification,
)
if is_torch_available()
else ()
)
A_ = False
A_ = False
A_ = False
A_ = False
A_ = ()
def __UpperCAmelCase ( self ):
'''simple docstring'''
__a : str = MraModelTester(self )
__a : Tuple = ConfigTester(self , config_class=__a , hidden_size=37 )
def __UpperCAmelCase ( self ):
'''simple docstring'''
self.config_tester.run_common_tests()
def __UpperCAmelCase ( self ):
'''simple docstring'''
__a : int = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*__a )
def __UpperCAmelCase ( self ):
'''simple docstring'''
__a : Optional[Any] = self.model_tester.prepare_config_and_inputs()
for type in ["absolute", "relative_key", "relative_key_query"]:
__a : List[str] = type
self.model_tester.create_and_check_model(*__a )
def __UpperCAmelCase ( self ):
'''simple docstring'''
__a : Dict = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_masked_lm(*__a )
def __UpperCAmelCase ( self ):
'''simple docstring'''
__a : Dict = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_multiple_choice(*__a )
def __UpperCAmelCase ( self ):
'''simple docstring'''
__a : Optional[Any] = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_question_answering(*__a )
def __UpperCAmelCase ( self ):
'''simple docstring'''
__a : Optional[Any] = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_sequence_classification(*__a )
def __UpperCAmelCase ( self ):
'''simple docstring'''
__a : str = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_token_classification(*__a )
@slow
def __UpperCAmelCase ( self ):
'''simple docstring'''
for model_name in MRA_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
__a : int = MraModel.from_pretrained(__a )
self.assertIsNotNone(__a )
@unittest.skip(reason='MRA does not output attentions' )
def __UpperCAmelCase ( self ):
'''simple docstring'''
return
@require_torch
class __UpperCamelCase ( unittest.TestCase ):
@slow
def __UpperCAmelCase ( self ):
'''simple docstring'''
__a : Tuple = MraModel.from_pretrained('uw-madison/mra-base-512-4' )
__a : List[Any] = torch.arange(256 ).unsqueeze(0 )
with torch.no_grad():
__a : str = model(__a )[0]
__a : int = torch.Size((1, 256, 768) )
self.assertEqual(output.shape , __a )
__a : Any = torch.tensor(
[[[-0.0140, 0.0830, -0.0381], [0.1546, 0.1402, 0.0220], [0.1162, 0.0851, 0.0165]]] )
self.assertTrue(torch.allclose(output[:, :3, :3] , __a , atol=1E-4 ) )
@slow
def __UpperCAmelCase ( self ):
'''simple docstring'''
__a : Tuple = MraForMaskedLM.from_pretrained('uw-madison/mra-base-512-4' )
__a : Union[str, Any] = torch.arange(256 ).unsqueeze(0 )
with torch.no_grad():
__a : int = model(__a )[0]
__a : Any = 5_0265
__a : Dict = torch.Size((1, 256, vocab_size) )
self.assertEqual(output.shape , __a )
__a : List[str] = torch.tensor(
[[[9.2595, -3.6038, 11.8819], [9.3869, -3.2693, 11.0956], [11.8524, -3.4938, 13.1210]]] )
self.assertTrue(torch.allclose(output[:, :3, :3] , __a , atol=1E-4 ) )
@slow
def __UpperCAmelCase ( self ):
'''simple docstring'''
__a : int = MraForMaskedLM.from_pretrained('uw-madison/mra-base-4096-8-d3' )
__a : int = torch.arange(4096 ).unsqueeze(0 )
with torch.no_grad():
__a : Union[str, Any] = model(__a )[0]
__a : Dict = 5_0265
__a : Tuple = torch.Size((1, 4096, vocab_size) )
self.assertEqual(output.shape , __a )
__a : List[Any] = torch.tensor(
[[[5.4789, -2.3564, 7.5064], [7.9067, -1.3369, 9.9668], [9.0712, -1.8106, 7.0380]]] )
self.assertTrue(torch.allclose(output[:, :3, :3] , __a , atol=1E-4 ) )
| 27 |
"""simple docstring"""
from collections import OrderedDict
from typing import Mapping
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfig
_a = {
'albert-base-v1': 'https://huggingface.co/albert-base-v1/resolve/main/config.json',
'albert-large-v1': 'https://huggingface.co/albert-large-v1/resolve/main/config.json',
'albert-xlarge-v1': 'https://huggingface.co/albert-xlarge-v1/resolve/main/config.json',
'albert-xxlarge-v1': 'https://huggingface.co/albert-xxlarge-v1/resolve/main/config.json',
'albert-base-v2': 'https://huggingface.co/albert-base-v2/resolve/main/config.json',
'albert-large-v2': 'https://huggingface.co/albert-large-v2/resolve/main/config.json',
'albert-xlarge-v2': 'https://huggingface.co/albert-xlarge-v2/resolve/main/config.json',
'albert-xxlarge-v2': 'https://huggingface.co/albert-xxlarge-v2/resolve/main/config.json',
}
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Optional[Any] = """albert"""
def __init__( self , lowercase_=3_0000 , lowercase_=128 , lowercase_=4096 , lowercase_=12 , lowercase_=1 , lowercase_=64 , lowercase_=1_6384 , lowercase_=1 , lowercase_="gelu_new" , lowercase_=0 , lowercase_=0 , lowercase_=512 , lowercase_=2 , lowercase_=0.02 , lowercase_=1E-1_2 , lowercase_=0.1 , lowercase_="absolute" , lowercase_=0 , lowercase_=2 , lowercase_=3 , **lowercase_ , ):
"""simple docstring"""
super().__init__(pad_token_id=lowercase_ , bos_token_id=lowercase_ , eos_token_id=lowercase_ , **lowercase_ )
UpperCAmelCase_ : int = vocab_size
UpperCAmelCase_ : Optional[int] = embedding_size
UpperCAmelCase_ : List[str] = hidden_size
UpperCAmelCase_ : Optional[int] = num_hidden_layers
UpperCAmelCase_ : Union[str, Any] = num_hidden_groups
UpperCAmelCase_ : Dict = num_attention_heads
UpperCAmelCase_ : Any = inner_group_num
UpperCAmelCase_ : Union[str, Any] = hidden_act
UpperCAmelCase_ : Union[str, Any] = intermediate_size
UpperCAmelCase_ : List[str] = hidden_dropout_prob
UpperCAmelCase_ : Union[str, Any] = attention_probs_dropout_prob
UpperCAmelCase_ : Optional[Any] = max_position_embeddings
UpperCAmelCase_ : Any = type_vocab_size
UpperCAmelCase_ : List[str] = initializer_range
UpperCAmelCase_ : Optional[int] = layer_norm_eps
UpperCAmelCase_ : List[Any] = classifier_dropout_prob
UpperCAmelCase_ : Tuple = position_embedding_type
class A_ (lowercase__ ):
'''simple docstring'''
@property
def UpperCamelCase__ ( self ):
"""simple docstring"""
if self.task == "multiple-choice":
UpperCAmelCase_ : int = {0: "batch", 1: "choice", 2: "sequence"}
else:
UpperCAmelCase_ : Optional[Any] = {0: "batch", 1: "sequence"}
return OrderedDict(
[
("input_ids", dynamic_axis),
("attention_mask", dynamic_axis),
("token_type_ids", dynamic_axis),
] )
| 61 | 0 |
'''simple docstring'''
from __future__ import annotations
_lowerCamelCase : str = [True] * 100_0001
_lowerCamelCase : str = 2
while i * i <= 100_0000:
if seive[i]:
for j in range(i * i, 100_0001, i):
_lowerCamelCase : Optional[int] = False
i += 1
def __lowerCamelCase ( A__ ) -> bool:
"""simple docstring"""
return seive[n]
def __lowerCamelCase ( A__ ) -> bool:
"""simple docstring"""
return any(digit in '02468' for digit in str(A__ ) )
def __lowerCamelCase ( A__ = 1_000_000 ) -> list[int]:
"""simple docstring"""
UpperCamelCase = [2] # result already includes the number 2.
for num in range(3 , limit + 1 , 2 ):
if is_prime(A__ ) and not contains_an_even_digit(A__ ):
UpperCamelCase = str(A__ )
UpperCamelCase = [int(str_num[j:] + str_num[:j] ) for j in range(len(A__ ) )]
if all(is_prime(A__ ) for i in list_nums ):
result.append(A__ )
return result
def __lowerCamelCase ( ) -> int:
"""simple docstring"""
return len(find_circular_primes() )
if __name__ == "__main__":
print(f'''{len(find_circular_primes()) = }''')
| 28 |
"""simple docstring"""
from __future__ import annotations
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
if (voltage, current, resistance).count(0 ) != 1:
raise ValueError("One and only one argument must be 0" )
if resistance < 0:
raise ValueError("Resistance cannot be negative" )
if voltage == 0:
return {"voltage": float(current * resistance )}
elif current == 0:
return {"current": voltage / resistance}
elif resistance == 0:
return {"resistance": voltage / current}
else:
raise ValueError("Exactly one argument must be 0" )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 61 | 0 |
import glob
import os
import random
from string import ascii_lowercase, digits
import cva
import numpy as np
# Parrameters
__UpperCAmelCase = (720, 1280) # Height, Width
__UpperCAmelCase = (0.4, 0.6) # if height or width lower than this scale, drop it.
__UpperCAmelCase = 1 / 100
__UpperCAmelCase = ''
__UpperCAmelCase = ''
__UpperCAmelCase = ''
__UpperCAmelCase = 250
def lowercase__ ( ):
'''simple docstring'''
UpperCAmelCase_ , UpperCAmelCase_ : Tuple = get_dataset(__snake_case , __snake_case )
for index in range(__snake_case ):
UpperCAmelCase_ : Optional[int] = random.sample(range(len(__snake_case ) ) , 4 )
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : List[str] = update_image_and_anno(
__snake_case , __snake_case , __snake_case , __snake_case , __snake_case , filter_scale=__snake_case , )
# Get random string code: '7b7ad245cdff75241935e4dd860f3bad'
UpperCAmelCase_ : Optional[Any] = random_chars(32 )
UpperCAmelCase_ : Optional[int] = path.split(os.sep )[-1].rsplit('.' , 1 )[0]
UpperCAmelCase_ : Optional[int] = F"{OUTPUT_DIR}/{file_name}_MOSAIC_{letter_code}"
cva.imwrite(F"{file_root}.jpg" , __snake_case , [cva.IMWRITE_JPEG_QUALITY, 85] )
print(F"Succeeded {index+1}/{NUMBER_IMAGES} with {file_name}" )
UpperCAmelCase_ : Optional[Any] = []
for anno in new_annos:
UpperCAmelCase_ : str = anno[3] - anno[1]
UpperCAmelCase_ : Any = anno[4] - anno[2]
UpperCAmelCase_ : Any = anno[1] + width / 2
UpperCAmelCase_ : Dict = anno[2] + height / 2
UpperCAmelCase_ : Union[str, Any] = F"{anno[0]} {x_center} {y_center} {width} {height}"
annos_list.append(__snake_case )
with open(F"{file_root}.txt" , 'w' ) as outfile:
outfile.write('\n'.join(line for line in annos_list ) )
def lowercase__ ( __snake_case : str , __snake_case : str ):
'''simple docstring'''
UpperCAmelCase_ : Union[str, Any] = []
UpperCAmelCase_ : Dict = []
for label_file in glob.glob(os.path.join(__snake_case , '*.txt' ) ):
UpperCAmelCase_ : Union[str, Any] = label_file.split(os.sep )[-1].rsplit('.' , 1 )[0]
with open(__snake_case ) as in_file:
UpperCAmelCase_ : str = in_file.readlines()
UpperCAmelCase_ : Optional[int] = os.path.join(__snake_case , F"{label_name}.jpg" )
UpperCAmelCase_ : List[Any] = []
for obj_list in obj_lists:
UpperCAmelCase_ : str = obj_list.rstrip('\n' ).split(' ' )
UpperCAmelCase_ : str = float(obj[1] ) - float(obj[3] ) / 2
UpperCAmelCase_ : Optional[Any] = float(obj[2] ) - float(obj[4] ) / 2
UpperCAmelCase_ : Any = float(obj[1] ) + float(obj[3] ) / 2
UpperCAmelCase_ : Dict = float(obj[2] ) + float(obj[4] ) / 2
boxes.append([int(obj[0] ), xmin, ymin, xmax, ymax] )
if not boxes:
continue
img_paths.append(__snake_case )
labels.append(__snake_case )
return img_paths, labels
def lowercase__ ( __snake_case : list , __snake_case : list , __snake_case : list[int] , __snake_case : tuple[int, int] , __snake_case : tuple[float, float] , __snake_case : float = 0.0 , ):
'''simple docstring'''
UpperCAmelCase_ : Tuple = np.zeros([output_size[0], output_size[1], 3] , dtype=np.uinta )
UpperCAmelCase_ : List[Any] = scale_range[0] + random.random() * (scale_range[1] - scale_range[0])
UpperCAmelCase_ : List[str] = scale_range[0] + random.random() * (scale_range[1] - scale_range[0])
UpperCAmelCase_ : Any = int(scale_x * output_size[1] )
UpperCAmelCase_ : List[str] = int(scale_y * output_size[0] )
UpperCAmelCase_ : Any = []
UpperCAmelCase_ : Tuple = []
for i, index in enumerate(__snake_case ):
UpperCAmelCase_ : Any = all_img_list[index]
path_list.append(__snake_case )
UpperCAmelCase_ : Optional[Any] = all_annos[index]
UpperCAmelCase_ : Tuple = cva.imread(__snake_case )
if i == 0: # top-left
UpperCAmelCase_ : Any = cva.resize(__snake_case , (divid_point_x, divid_point_y) )
UpperCAmelCase_ : str = img
for bbox in img_annos:
UpperCAmelCase_ : Optional[int] = bbox[1] * scale_x
UpperCAmelCase_ : str = bbox[2] * scale_y
UpperCAmelCase_ : Dict = bbox[3] * scale_x
UpperCAmelCase_ : Optional[int] = bbox[4] * scale_y
new_anno.append([bbox[0], xmin, ymin, xmax, ymax] )
elif i == 1: # top-right
UpperCAmelCase_ : Optional[int] = cva.resize(__snake_case , (output_size[1] - divid_point_x, divid_point_y) )
UpperCAmelCase_ : Dict = img
for bbox in img_annos:
UpperCAmelCase_ : Any = scale_x + bbox[1] * (1 - scale_x)
UpperCAmelCase_ : Dict = bbox[2] * scale_y
UpperCAmelCase_ : Dict = scale_x + bbox[3] * (1 - scale_x)
UpperCAmelCase_ : Any = bbox[4] * scale_y
new_anno.append([bbox[0], xmin, ymin, xmax, ymax] )
elif i == 2: # bottom-left
UpperCAmelCase_ : Dict = cva.resize(__snake_case , (divid_point_x, output_size[0] - divid_point_y) )
UpperCAmelCase_ : Union[str, Any] = img
for bbox in img_annos:
UpperCAmelCase_ : str = bbox[1] * scale_x
UpperCAmelCase_ : Union[str, Any] = scale_y + bbox[2] * (1 - scale_y)
UpperCAmelCase_ : str = bbox[3] * scale_x
UpperCAmelCase_ : Optional[Any] = scale_y + bbox[4] * (1 - scale_y)
new_anno.append([bbox[0], xmin, ymin, xmax, ymax] )
else: # bottom-right
UpperCAmelCase_ : Optional[Any] = cva.resize(
__snake_case , (output_size[1] - divid_point_x, output_size[0] - divid_point_y) )
UpperCAmelCase_ : List[Any] = img
for bbox in img_annos:
UpperCAmelCase_ : List[str] = scale_x + bbox[1] * (1 - scale_x)
UpperCAmelCase_ : int = scale_y + bbox[2] * (1 - scale_y)
UpperCAmelCase_ : str = scale_x + bbox[3] * (1 - scale_x)
UpperCAmelCase_ : Tuple = scale_y + bbox[4] * (1 - scale_y)
new_anno.append([bbox[0], xmin, ymin, xmax, ymax] )
# Remove bounding box small than scale of filter
if filter_scale > 0:
UpperCAmelCase_ : int = [
anno
for anno in new_anno
if filter_scale < (anno[3] - anno[1]) and filter_scale < (anno[4] - anno[2])
]
return output_img, new_anno, path_list[0]
def lowercase__ ( __snake_case : int ):
'''simple docstring'''
assert number_char > 1, "The number of character should greater than 1"
UpperCAmelCase_ : int = ascii_lowercase + digits
return "".join(random.choice(__snake_case ) for _ in range(__snake_case ) )
if __name__ == "__main__":
main()
print('DONE ✅')
| 29 |
"""simple docstring"""
import argparse
from collections import defaultdict
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ : int = f"""{file}_{class_name}_{test_name}"""
done_test[_id] += 1
with open(__lowerCamelCase, "r" ) as f:
UpperCAmelCase_ : List[Any] = f.readlines()
UpperCAmelCase_ : int = f"""class {class_name}("""
UpperCAmelCase_ : Optional[Any] = f"""{4 * " "}def {test_name}("""
UpperCAmelCase_ : Optional[Any] = f"""{8 * " "}{correct_line.split()[0]}"""
UpperCAmelCase_ : Tuple = f"""{16 * " "}{correct_line.split()[0]}"""
UpperCAmelCase_ : int = False
UpperCAmelCase_ : Union[str, Any] = False
UpperCAmelCase_ : str = False
UpperCAmelCase_ : Optional[Any] = False
UpperCAmelCase_ : List[str] = 0
UpperCAmelCase_ : Optional[int] = 0
UpperCAmelCase_ : int = []
for line in lines:
if line.startswith(__lowerCamelCase ):
UpperCAmelCase_ : Tuple = True
elif in_class and line.startswith(__lowerCamelCase ):
UpperCAmelCase_ : Optional[int] = True
elif in_class and in_func and (line.startswith(__lowerCamelCase ) or line.startswith(__lowerCamelCase )):
UpperCAmelCase_ : Any = len(line.split(correct_line.split()[0] )[0] )
count += 1
if count == done_test[_id]:
UpperCAmelCase_ : Union[str, Any] = True
if in_class and in_func and in_line:
if ")" not in line:
continue
else:
UpperCAmelCase_ : Any = True
if in_class and in_func and in_line and insert_line:
new_lines.append(f"""{spaces * " "}{correct_line}""" )
UpperCAmelCase_ : int = False
else:
new_lines.append(__lowerCamelCase )
with open(__lowerCamelCase, "w" ) as f:
for line in new_lines:
f.write(__lowerCamelCase )
def __a ( __lowerCamelCase, __lowerCamelCase=None ):
if fail is not None:
with open(__lowerCamelCase, "r" ) as f:
UpperCAmelCase_ : Tuple = {l.strip() for l in f.readlines()}
else:
UpperCAmelCase_ : str = None
with open(__lowerCamelCase, "r" ) as f:
UpperCAmelCase_ : Optional[int] = f.readlines()
UpperCAmelCase_ : Any = defaultdict(__lowerCamelCase )
for line in correct_lines:
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ : Any = line.split(";" )
if test_failures is None or "::".join([file, class_name, test_name] ) in test_failures:
overwrite_file(__lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase, __lowerCamelCase )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
parser.add_argument('--correct_filename', help='filename of tests with expected result')
parser.add_argument('--fail_filename', help='filename of test failures', type=str, default=None)
_a = parser.parse_args()
main(args.correct_filename, args.fail_filename)
| 61 | 0 |
import argparse
from transformers import CLIPImageProcessor, CLIPVisionModelWithProjection
from diffusers import UnCLIPImageVariationPipeline, UnCLIPPipeline
if __name__ == "__main__":
__a = argparse.ArgumentParser()
parser.add_argument('--dump_path', default=None, type=str, required=True, help='Path to the output model.')
parser.add_argument(
'--txt2img_unclip',
default='kakaobrain/karlo-v1-alpha',
type=str,
required=False,
help='The pretrained txt2img unclip.',
)
__a = parser.parse_args()
__a = UnCLIPPipeline.from_pretrained(args.txtaimg_unclip)
__a = CLIPImageProcessor()
__a = CLIPVisionModelWithProjection.from_pretrained('openai/clip-vit-large-patch14')
__a = UnCLIPImageVariationPipeline(
decoder=txtaimg.decoder,
text_encoder=txtaimg.text_encoder,
tokenizer=txtaimg.tokenizer,
text_proj=txtaimg.text_proj,
feature_extractor=feature_extractor,
image_encoder=image_encoder,
super_res_first=txtaimg.super_res_first,
super_res_last=txtaimg.super_res_last,
decoder_scheduler=txtaimg.decoder_scheduler,
super_res_scheduler=txtaimg.super_res_scheduler,
)
imgaimg.save_pretrained(args.dump_path)
| 30 |
"""simple docstring"""
from diffusers.utils.testing_utils import require_onnxruntime
@require_onnxruntime
class A_ :
'''simple docstring'''
pass
| 61 | 0 |
'''simple docstring'''
import unittest
from transformers import is_flax_available
from transformers.testing_utils import require_flax, require_sentencepiece, require_tokenizers, require_torch, slow
if is_flax_available():
import optax
from flax.training.common_utils import onehot
from transformers import AutoTokenizer, FlaxMTaForConditionalGeneration
from transformers.models.ta.modeling_flax_ta import shift_tokens_right
@require_torch
@require_sentencepiece
@require_tokenizers
@require_flax
class lowerCamelCase_ (unittest.TestCase ):
'''simple docstring'''
@slow
def _A ( self : Any ):
_UpperCAmelCase : List[str] = FlaxMTaForConditionalGeneration.from_pretrained("google/mt5-small" )
_UpperCAmelCase : Any = AutoTokenizer.from_pretrained("google/mt5-small" )
_UpperCAmelCase : Any = tokenizer("Hello there" , return_tensors="np" ).input_ids
_UpperCAmelCase : Union[str, Any] = tokenizer("Hi I am" , return_tensors="np" ).input_ids
_UpperCAmelCase : List[str] = shift_tokens_right(A , model.config.pad_token_id , model.config.decoder_start_token_id )
_UpperCAmelCase : Tuple = model(A , decoder_input_ids=A ).logits
_UpperCAmelCase : Optional[int] = optax.softmax_cross_entropy(A , onehot(A , logits.shape[-1] ) ).mean()
_UpperCAmelCase : str = -(labels.shape[-1] * loss.item())
_UpperCAmelCase : str = -84.9_127
self.assertTrue(abs(mtf_score - EXPECTED_SCORE ) < 1E-4 )
| 31 |
"""simple docstring"""
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
return round(float(moles / volume ) * nfactor )
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
return round(float((moles * 0.0821 * temperature) / (volume) ) )
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
return round(float((moles * 0.0821 * temperature) / (pressure) ) )
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
return round(float((pressure * volume) / (0.0821 * moles) ) )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 61 | 0 |
import warnings
from ...utils import logging
from .image_processing_chinese_clip import ChineseCLIPImageProcessor
UpperCAmelCase_ : Dict = logging.get_logger(__name__)
class SCREAMING_SNAKE_CASE__ ( lowercase__ ):
def __init__( self : Optional[int] , *SCREAMING_SNAKE_CASE__ : Tuple , **SCREAMING_SNAKE_CASE__ : int ) -> None:
warnings.warn(
'The class ChineseCLIPFeatureExtractor is deprecated and will be removed in version 5 of Transformers.'
' Please use ChineseCLIPImageProcessor instead.' , SCREAMING_SNAKE_CASE__ , )
super().__init__(*SCREAMING_SNAKE_CASE__ , **SCREAMING_SNAKE_CASE__ )
| 32 |
"""simple docstring"""
import os
_a = {'I': 1, 'V': 5, 'X': 10, 'L': 50, 'C': 100, 'D': 500, 'M': 1_000}
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : Union[str, Any] = 0
UpperCAmelCase_ : List[str] = 0
while index < len(__lowerCamelCase ) - 1:
UpperCAmelCase_ : Tuple = SYMBOLS[numerals[index]]
UpperCAmelCase_ : List[str] = SYMBOLS[numerals[index + 1]]
if current_value < next_value:
total_value -= current_value
else:
total_value += current_value
index += 1
total_value += SYMBOLS[numerals[index]]
return total_value
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : List[str] = ""
UpperCAmelCase_ : Any = num // 1000
numerals += m_count * "M"
num %= 1000
UpperCAmelCase_ : Any = num // 100
if c_count == 9:
numerals += "CM"
c_count -= 9
elif c_count == 4:
numerals += "CD"
c_count -= 4
if c_count >= 5:
numerals += "D"
c_count -= 5
numerals += c_count * "C"
num %= 100
UpperCAmelCase_ : str = num // 10
if x_count == 9:
numerals += "XC"
x_count -= 9
elif x_count == 4:
numerals += "XL"
x_count -= 4
if x_count >= 5:
numerals += "L"
x_count -= 5
numerals += x_count * "X"
num %= 10
if num == 9:
numerals += "IX"
num -= 9
elif num == 4:
numerals += "IV"
num -= 4
if num >= 5:
numerals += "V"
num -= 5
numerals += num * "I"
return numerals
def __a ( __lowerCamelCase = "/p089_roman.txt" ):
UpperCAmelCase_ : int = 0
with open(os.path.dirname(__lowerCamelCase ) + roman_numerals_filename ) as filea:
UpperCAmelCase_ : Optional[Any] = filea.readlines()
for line in lines:
UpperCAmelCase_ : Tuple = line.strip()
UpperCAmelCase_ : Optional[Any] = parse_roman_numerals(__lowerCamelCase )
UpperCAmelCase_ : Tuple = generate_roman_numerals(__lowerCamelCase )
savings += len(__lowerCamelCase ) - len(__lowerCamelCase )
return savings
if __name__ == "__main__":
print(f"""{solution() = }""")
| 61 | 0 |
"""simple docstring"""
import json
import logging
import os
import re
import sys
from dataclasses import dataclass, field
from typing import Any, Dict, List, Optional, Union
import datasets
import numpy as np
import torch
import torchaudio
from packaging import version
from torch import nn
import transformers
from transformers import (
HfArgumentParser,
Trainer,
TrainingArguments,
WavaVecaCTCTokenizer,
WavaVecaFeatureExtractor,
WavaVecaForCTC,
WavaVecaProcessor,
is_apex_available,
set_seed,
)
from transformers.trainer_utils import get_last_checkpoint, is_main_process
if is_apex_available():
from apex import amp
if version.parse(version.parse(torch.__version__).base_version) >= version.parse('''1.6'''):
__A : List[str] = True
from torch.cuda.amp import autocast
__A : Any = logging.getLogger(__name__)
def lowercase ( __snake_case : Any=None , __snake_case : Union[str, Any]=None ):
return field(default_factory=lambda: default , metadata=__snake_case )
@dataclass
class _UpperCAmelCase :
SCREAMING_SNAKE_CASE_ : str = field(
metadata={"help": "Path to pretrained model or model identifier from huggingface.co/models"} )
SCREAMING_SNAKE_CASE_ : Optional[str] = field(
default=_A , metadata={"help": "Where do you want to store the pretrained models downloaded from huggingface.co"} , )
SCREAMING_SNAKE_CASE_ : Optional[bool] = field(
default=_A , metadata={"help": "Whether to freeze the feature extractor layers of the model."} )
SCREAMING_SNAKE_CASE_ : Optional[float] = field(
default=0.1 , metadata={"help": "The dropout ratio for the attention probabilities."} )
SCREAMING_SNAKE_CASE_ : Optional[float] = field(
default=0.1 , metadata={"help": "The dropout ratio for activations inside the fully connected layer."} )
SCREAMING_SNAKE_CASE_ : Optional[float] = field(
default=0.1 , metadata={
"help": "The dropout probabilitiy for all fully connected layers in the embeddings, encoder, and pooler."
} , )
SCREAMING_SNAKE_CASE_ : Optional[float] = field(
default=0.1 , metadata={"help": "The dropout probabilitiy for all 1D convolutional layers in feature extractor."} , )
SCREAMING_SNAKE_CASE_ : Optional[float] = field(
default=0.05 , metadata={
"help": (
"Propability of each feature vector along the time axis to be chosen as the start of the vector"
"span to be masked. Approximately ``mask_time_prob * sequence_length // mask_time_length`` feature"
"vectors will be masked along the time axis. This is only relevant if ``apply_spec_augment is True``."
)
} , )
SCREAMING_SNAKE_CASE_ : Optional[float] = field(default=0.0 , metadata={"help": "The LayerDrop probability."} )
@dataclass
class _UpperCAmelCase :
SCREAMING_SNAKE_CASE_ : Optional[str] = field(
default=_A , metadata={"help": "The configuration name of the dataset to use (via the datasets library)."} )
SCREAMING_SNAKE_CASE_ : Optional[str] = field(
default="train+validation" , metadata={
"help": "The name of the training data set split to use (via the datasets library). Defaults to 'train'"
} , )
SCREAMING_SNAKE_CASE_ : bool = field(
default=_A , metadata={"help": "Overwrite the cached preprocessed datasets or not."} )
SCREAMING_SNAKE_CASE_ : Optional[int] = field(
default=_A , metadata={"help": "The number of processes to use for the preprocessing."} , )
SCREAMING_SNAKE_CASE_ : Optional[int] = field(
default=_A , metadata={
"help": (
"For debugging purposes or quicker training, truncate the number of training examples to this "
"value if set."
)
} , )
SCREAMING_SNAKE_CASE_ : Optional[int] = field(
default=_A , metadata={
"help": (
"For debugging purposes or quicker training, truncate the number of validation examples to this "
"value if set."
)
} , )
SCREAMING_SNAKE_CASE_ : List[str] = list_field(
default=[",", "?", ".", "!", "-", ";", ":", "\"\"", "%", "'", "\"", "�"] , metadata={"help": "A list of characters to remove from the transcripts."} , )
@dataclass
class _UpperCAmelCase :
SCREAMING_SNAKE_CASE_ : WavaVecaProcessor
SCREAMING_SNAKE_CASE_ : Union[bool, str] = True
SCREAMING_SNAKE_CASE_ : Optional[int] = None
SCREAMING_SNAKE_CASE_ : Optional[int] = None
SCREAMING_SNAKE_CASE_ : Optional[int] = None
SCREAMING_SNAKE_CASE_ : Optional[int] = None
def __call__( self : Optional[int] , A : List[Dict[str, Union[List[int], torch.Tensor]]] ) -> Dict[str, torch.Tensor]:
# split inputs and labels since they have to be of different lenghts and need
# different padding methods
lowercase_ : List[Any] = [{'''input_values''': feature['''input_values''']} for feature in features]
lowercase_ : Optional[int] = [{'''input_ids''': feature['''labels''']} for feature in features]
lowercase_ : Tuple = self.processor.pad(
A , padding=self.padding , max_length=self.max_length , pad_to_multiple_of=self.pad_to_multiple_of , return_tensors='''pt''' , )
lowercase_ : Any = self.processor.pad(
labels=A , padding=self.padding , max_length=self.max_length_labels , pad_to_multiple_of=self.pad_to_multiple_of_labels , return_tensors='''pt''' , )
# replace padding with -100 to ignore loss correctly
lowercase_ : Tuple = labels_batch['''input_ids'''].masked_fill(labels_batch.attention_mask.ne(1 ) , -1_00 )
lowercase_ : List[Any] = labels
return batch
class _UpperCAmelCase ( _A ):
def A ( self : Optional[int] , A : nn.Module , A : Dict[str, Union[torch.Tensor, Any]] ) -> torch.Tensor:
model.train()
lowercase_ : Dict = self._prepare_inputs(A )
if self.use_amp:
with autocast():
lowercase_ : Union[str, Any] = self.compute_loss(A , A )
else:
lowercase_ : List[str] = self.compute_loss(A , A )
if self.args.n_gpu > 1:
if model.module.config.ctc_loss_reduction == "mean":
lowercase_ : Tuple = loss.mean()
elif model.module.config.ctc_loss_reduction == "sum":
lowercase_ : Optional[int] = loss.sum() / (inputs['''labels'''] >= 0).sum()
else:
raise ValueError(F'''{model.config.ctc_loss_reduction} is not valid. Choose one of [\'mean\', \'sum\']''' )
if self.args.gradient_accumulation_steps > 1:
lowercase_ : Union[str, Any] = loss / self.args.gradient_accumulation_steps
if self.use_amp:
self.scaler.scale(A ).backward()
elif self.use_apex:
with amp.scale_loss(A , self.optimizer ) as scaled_loss:
scaled_loss.backward()
elif self.deepspeed:
self.deepspeed.backward(A )
else:
loss.backward()
return loss.detach()
def lowercase ( ):
# 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.
lowercase_ : List[str] = 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.
lowercase_ , lowercase_ , lowercase_ : Optional[int] = parser.parse_json_file(json_file=os.path.abspath(sys.argv[1] ) )
else:
lowercase_ , lowercase_ , lowercase_ : Any = parser.parse_args_into_dataclasses()
# Detecting last checkpoint.
lowercase_ : Tuple = None
if os.path.isdir(training_args.output_dir ) and training_args.do_train and not training_args.overwrite_output_dir:
lowercase_ : Tuple = 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 overcome.''' )
elif last_checkpoint is not 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.''' )
# 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 )] , )
logger.setLevel(logging.INFO if is_main_process(training_args.local_rank ) else logging.WARN )
# 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}''' )
# Set the verbosity to info of the Transformers logger (on main process only):
if is_main_process(training_args.local_rank ):
transformers.utils.logging.set_verbosity_info()
logger.info('''Training/evaluation parameters %s''' , __snake_case )
# Set seed before initializing model.
set_seed(training_args.seed )
# Get the datasets:
lowercase_ : Tuple = datasets.load_dataset(
'''common_voice''' , data_args.dataset_config_name , split=data_args.train_split_name )
lowercase_ : Tuple = datasets.load_dataset('''common_voice''' , data_args.dataset_config_name , split='''test''' )
# Create and save tokenizer
lowercase_ : Optional[Any] = F'''[{''.join(data_args.chars_to_ignore )}]'''
def remove_special_characters(__snake_case : Dict ):
lowercase_ : Optional[int] = re.sub(__snake_case , '''''' , batch['''sentence'''] ).lower() + ''' '''
return batch
lowercase_ : Optional[Any] = train_dataset.map(__snake_case , remove_columns=['''sentence'''] )
lowercase_ : Union[str, Any] = eval_dataset.map(__snake_case , remove_columns=['''sentence'''] )
def extract_all_chars(__snake_case : Optional[int] ):
lowercase_ : str = ''' '''.join(batch['''text'''] )
lowercase_ : Optional[int] = list(set(__snake_case ) )
return {"vocab": [vocab], "all_text": [all_text]}
lowercase_ : int = train_dataset.map(
__snake_case , batched=__snake_case , batch_size=-1 , keep_in_memory=__snake_case , remove_columns=train_dataset.column_names , )
lowercase_ : Any = train_dataset.map(
__snake_case , batched=__snake_case , batch_size=-1 , keep_in_memory=__snake_case , remove_columns=eval_dataset.column_names , )
lowercase_ : int = list(set(vocab_train['''vocab'''][0] ) | set(vocab_test['''vocab'''][0] ) )
lowercase_ : Optional[int] = {v: k for k, v in enumerate(__snake_case )}
lowercase_ : List[Any] = vocab_dict[''' ''']
del vocab_dict[" "]
lowercase_ : int = len(__snake_case )
lowercase_ : Tuple = len(__snake_case )
with open('''vocab.json''' , '''w''' ) as vocab_file:
json.dump(__snake_case , __snake_case )
# Load pretrained model and tokenizer
#
# Distributed training:
# The .from_pretrained methods guarantee that only one local process can concurrently
# download model & vocab.
lowercase_ : Any = WavaVecaCTCTokenizer(
'''vocab.json''' , unk_token='''[UNK]''' , pad_token='''[PAD]''' , word_delimiter_token='''|''' , )
lowercase_ : int = WavaVecaFeatureExtractor(
feature_size=1 , sampling_rate=1_6_0_0_0 , padding_value=0.0 , do_normalize=__snake_case , return_attention_mask=__snake_case )
lowercase_ : str = WavaVecaProcessor(feature_extractor=__snake_case , tokenizer=__snake_case )
lowercase_ : Any = WavaVecaForCTC.from_pretrained(
model_args.model_name_or_path , cache_dir=model_args.cache_dir , activation_dropout=model_args.activation_dropout , attention_dropout=model_args.attention_dropout , hidden_dropout=model_args.hidden_dropout , feat_proj_dropout=model_args.feat_proj_dropout , mask_time_prob=model_args.mask_time_prob , gradient_checkpointing=training_args.gradient_checkpointing , layerdrop=model_args.layerdrop , ctc_loss_reduction='''mean''' , pad_token_id=processor.tokenizer.pad_token_id , vocab_size=len(processor.tokenizer ) , )
if data_args.max_train_samples is not None:
lowercase_ : int = min(len(__snake_case ) , data_args.max_train_samples )
lowercase_ : List[Any] = train_dataset.select(range(__snake_case ) )
if data_args.max_val_samples is not None:
lowercase_ : int = eval_dataset.select(range(data_args.max_val_samples ) )
lowercase_ : Tuple = torchaudio.transforms.Resample(4_8_0_0_0 , 1_6_0_0_0 )
# Preprocessing the datasets.
# We need to read the aduio files as arrays and tokenize the targets.
def speech_file_to_array_fn(__snake_case : List[str] ):
lowercase_ , lowercase_ : List[Any] = torchaudio.load(batch['''path'''] )
lowercase_ : Any = resampler(__snake_case ).squeeze().numpy()
lowercase_ : Any = 1_6_0_0_0
lowercase_ : Any = batch['''text''']
return batch
lowercase_ : List[str] = train_dataset.map(
__snake_case , remove_columns=train_dataset.column_names , num_proc=data_args.preprocessing_num_workers , )
lowercase_ : List[str] = eval_dataset.map(
__snake_case , remove_columns=eval_dataset.column_names , num_proc=data_args.preprocessing_num_workers , )
def prepare_dataset(__snake_case : int ):
# check that all files have the correct sampling rate
assert (
len(set(batch['''sampling_rate'''] ) ) == 1
), F'''Make sure all inputs have the same sampling rate of {processor.feature_extractor.sampling_rate}.'''
lowercase_ : str = processor(
audio=batch['''speech'''] , text=batch['''target_text'''] , sampling_rate=batch['''sampling_rate'''][0] )
batch.update(__snake_case )
return batch
lowercase_ : str = train_dataset.map(
__snake_case , remove_columns=train_dataset.column_names , batch_size=training_args.per_device_train_batch_size , batched=__snake_case , num_proc=data_args.preprocessing_num_workers , )
lowercase_ : Any = eval_dataset.map(
__snake_case , remove_columns=eval_dataset.column_names , batch_size=training_args.per_device_train_batch_size , batched=__snake_case , num_proc=data_args.preprocessing_num_workers , )
# Metric
lowercase_ : Any = datasets.load_metric('''wer''' )
def compute_metrics(__snake_case : Tuple ):
lowercase_ : str = pred.predictions
lowercase_ : Optional[Any] = np.argmax(__snake_case , axis=-1 )
lowercase_ : int = processor.tokenizer.pad_token_id
lowercase_ : List[Any] = processor.batch_decode(__snake_case )
# we do not want to group tokens when computing the metrics
lowercase_ : Union[str, Any] = processor.batch_decode(pred.label_ids , group_tokens=__snake_case )
lowercase_ : List[str] = wer_metric.compute(predictions=__snake_case , references=__snake_case )
return {"wer": wer}
if model_args.freeze_feature_extractor:
model.freeze_feature_extractor()
# Data collator
lowercase_ : int = DataCollatorCTCWithPadding(processor=__snake_case , padding=__snake_case )
# Initialize our Trainer
lowercase_ : Any = CTCTrainer(
model=__snake_case , data_collator=__snake_case , args=__snake_case , compute_metrics=__snake_case , train_dataset=train_dataset if training_args.do_train else None , eval_dataset=eval_dataset if training_args.do_eval else None , tokenizer=processor.feature_extractor , )
# Training
if training_args.do_train:
if last_checkpoint is not None:
lowercase_ : List[str] = last_checkpoint
elif os.path.isdir(model_args.model_name_or_path ):
lowercase_ : List[str] = model_args.model_name_or_path
else:
lowercase_ : Tuple = None
# Save the feature_extractor and the tokenizer
if is_main_process(training_args.local_rank ):
processor.save_pretrained(training_args.output_dir )
lowercase_ : Tuple = trainer.train(resume_from_checkpoint=__snake_case )
trainer.save_model()
lowercase_ : List[str] = train_result.metrics
lowercase_ : Optional[int] = (
data_args.max_train_samples if data_args.max_train_samples is not None else len(__snake_case )
)
lowercase_ : Union[str, Any] = min(__snake_case , len(__snake_case ) )
trainer.log_metrics('''train''' , __snake_case )
trainer.save_metrics('''train''' , __snake_case )
trainer.save_state()
# Evaluation
lowercase_ : int = {}
if training_args.do_eval:
logger.info('''*** Evaluate ***''' )
lowercase_ : Tuple = trainer.evaluate()
lowercase_ : Tuple = data_args.max_val_samples if data_args.max_val_samples is not None else len(__snake_case )
lowercase_ : List[str] = min(__snake_case , len(__snake_case ) )
trainer.log_metrics('''eval''' , __snake_case )
trainer.save_metrics('''eval''' , __snake_case )
return results
if __name__ == "__main__":
main()
| 33 |
"""simple docstring"""
from unittest import TestCase
from datasets import Dataset
from minhash_deduplication import deduplicate_dataset, make_duplicate_clusters
def __a ( ):
UpperCAmelCase_ : List[Any] = {
"repo_name": ["test_repo1", "test_repo2", "test_repo3"],
"path": ["test_1.py", "test_2.py", "unit_test.py"],
"content": ["a " * 20, "a " * 30, "b " * 7],
}
UpperCAmelCase_ : Optional[int] = Dataset.from_dict(__lowerCamelCase )
return dataset
class A_ (lowercase__ ):
'''simple docstring'''
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Union[str, Any] = get_dataset()
UpperCAmelCase_ : Any = make_duplicate_clusters(lowercase_ , 0.85 )
self.assertEqual(len(duplicate_clusters[0] ) , 2 )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = get_dataset()
UpperCAmelCase_ , UpperCAmelCase_ : List[str] = deduplicate_dataset(lowercase_ )
self.assertEqual(len(lowercase_ ) , 2 )
print(lowercase_ )
self.assertEqual(duplicate_clusters[0][0]["copies"] , 2 )
self.assertEqual(duplicate_clusters[0][0]["is_extreme"] , lowercase_ )
| 61 | 0 |
'''simple docstring'''
def snake_case_ (_a : list ):
def merge(_a : list , _a : list ) -> list:
def _merge():
while left and right:
yield (left if left[0] <= right[0] else right).pop(0 )
yield from left
yield from right
return list(_merge() )
if len(_a ) <= 1:
return collection
UpperCAmelCase = len(_a ) // 2
return merge(merge_sort(collection[:mid] ) , merge_sort(collection[mid:] ) )
if __name__ == "__main__":
import doctest
doctest.testmod()
A =input('Enter numbers separated by a comma:\n').strip()
A =[int(item) for item in user_input.split(',')]
print(*merge_sort(unsorted), sep=',')
| 34 |
"""simple docstring"""
from collections import namedtuple
_a = namedtuple('from_to', 'from_ to')
_a = {
'cubicmeter': from_to(1, 1),
'litre': from_to(0.001, 1_000),
'kilolitre': from_to(1, 1),
'gallon': from_to(0.0_0454, 264.172),
'cubicyard': from_to(0.7_6455, 1.3_0795),
'cubicfoot': from_to(0.028, 35.3147),
'cup': from_to(0.0_0023_6588, 4226.75),
}
def __a ( __lowerCamelCase, __lowerCamelCase, __lowerCamelCase ):
if from_type not in METRIC_CONVERSION:
raise ValueError(
f"""Invalid 'from_type' value: {from_type!r} Supported values are:\n"""
+ ", ".join(__lowerCamelCase ) )
if to_type not in METRIC_CONVERSION:
raise ValueError(
f"""Invalid 'to_type' value: {to_type!r}. Supported values are:\n"""
+ ", ".join(__lowerCamelCase ) )
return value * METRIC_CONVERSION[from_type].from_ * METRIC_CONVERSION[to_type].to
if __name__ == "__main__":
import doctest
doctest.testmod()
| 61 | 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 |
"""simple docstring"""
from __future__ import annotations
def __a ( __lowerCamelCase, __lowerCamelCase ):
UpperCAmelCase_ , UpperCAmelCase_ : str = set(__lowerCamelCase ), [start]
while stack:
UpperCAmelCase_ : Any = stack.pop()
explored.add(__lowerCamelCase )
# Differences from BFS:
# 1) pop last element instead of first one
# 2) add adjacent elements to stack without exploring them
for adj in reversed(graph[v] ):
if adj not in explored:
stack.append(__lowerCamelCase )
return explored
_a = {
'A': ['B', 'C', 'D'],
'B': ['A', 'D', 'E'],
'C': ['A', 'F'],
'D': ['B', 'D'],
'E': ['B', 'F'],
'F': ['C', 'E', 'G'],
'G': ['F'],
}
if __name__ == "__main__":
import doctest
doctest.testmod()
print(depth_first_search(G, 'A'))
| 61 | 0 |
from math import pow
def A ( _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , _lowerCamelCase , ):
'''simple docstring'''
if current_sum == needed_sum:
# If the sum of the powers is equal to needed_sum, then we have a solution.
solutions_count += 1
return current_sum, solutions_count
_lowerCAmelCase : Any = int(pow(_lowerCamelCase , _lowerCamelCase ) )
if current_sum + i_to_n <= needed_sum:
# If the sum of the powers is less than needed_sum, then continue adding powers.
current_sum += i_to_n
_lowerCAmelCase , _lowerCAmelCase : Any = backtrack(
_lowerCamelCase , _lowerCamelCase , current_number + 1 , _lowerCamelCase , _lowerCamelCase )
current_sum -= i_to_n
if i_to_n < needed_sum:
# If the power of i is less than needed_sum, then try with the next power.
_lowerCAmelCase , _lowerCAmelCase : List[Any] = backtrack(
_lowerCamelCase , _lowerCamelCase , current_number + 1 , _lowerCamelCase , _lowerCamelCase )
return current_sum, solutions_count
def A ( _lowerCamelCase , _lowerCamelCase ):
'''simple docstring'''
if not (1 <= needed_sum <= 1_000 and 2 <= power <= 10):
raise ValueError(
"Invalid input\n"
"needed_sum must be between 1 and 1000, power between 2 and 10." )
return backtrack(_lowerCamelCase , _lowerCamelCase , 1 , 0 , 0 )[1] # Return the solutions_count
if __name__ == "__main__":
import doctest
doctest.testmod()
| 36 |
"""simple docstring"""
def __a ( __lowerCamelCase = 3, __lowerCamelCase = 7, __lowerCamelCase = 100_0000 ):
UpperCAmelCase_ : Dict = 0
UpperCAmelCase_ : List[Any] = 1
for current_denominator in range(1, limit + 1 ):
UpperCAmelCase_ : Dict = current_denominator * numerator // denominator
if current_denominator % denominator == 0:
current_numerator -= 1
if current_numerator * max_denominator > current_denominator * max_numerator:
UpperCAmelCase_ : List[Any] = current_numerator
UpperCAmelCase_ : Optional[int] = current_denominator
return max_numerator
if __name__ == "__main__":
print(solution(numerator=3, denominator=7, limit=1_000_000))
| 61 | 0 |
'''simple docstring'''
def _SCREAMING_SNAKE_CASE ( UpperCamelCase ):
"""simple docstring"""
if num < 0:
return False
lowerCAmelCase__ : int = num
lowerCAmelCase__ : int = 0
while num > 0:
lowerCAmelCase__ : Union[str, Any] = rev_num * 10 + (num % 10)
num //= 10
return num_copy == rev_num
if __name__ == "__main__":
import doctest
doctest.testmod()
| 37 |
"""simple docstring"""
import argparse
import os
import re
# All paths are set with the intent you should run this script from the root of the repo with the command
# python utils/check_dummies.py
_a = 'src/diffusers'
# Matches is_xxx_available()
_a = re.compile(R'is\_([a-z_]*)_available\(\)')
# Matches from xxx import bla
_a = re.compile(R'\s+from\s+\S*\s+import\s+([^\(\s].*)\n')
_a = '\n{0} = None\n'
_a = '\nclass {0}(metaclass=DummyObject):\n _backends = {1}\n\n def __init__(self, *args, **kwargs):\n requires_backends(self, {1})\n\n @classmethod\n def from_config(cls, *args, **kwargs):\n requires_backends(cls, {1})\n\n @classmethod\n def from_pretrained(cls, *args, **kwargs):\n requires_backends(cls, {1})\n'
_a = '\ndef {0}(*args, **kwargs):\n requires_backends({0}, {1})\n'
def __a ( __lowerCamelCase ):
UpperCAmelCase_ : int = _re_backend.findall(__lowerCamelCase )
if len(__lowerCamelCase ) == 0:
return None
return "_and_".join(__lowerCamelCase )
def __a ( ):
with open(os.path.join(__lowerCamelCase, "__init__.py" ), "r", encoding="utf-8", newline="\n" ) as f:
UpperCAmelCase_ : Optional[int] = f.readlines()
# Get to the point we do the actual imports for type checking
UpperCAmelCase_ : Union[str, Any] = 0
UpperCAmelCase_ : Optional[int] = {}
# Go through the end of the file
while line_index < len(__lowerCamelCase ):
# If the line contains is_backend_available, we grab all objects associated with the `else` block
UpperCAmelCase_ : Union[str, Any] = find_backend(lines[line_index] )
if backend is not None:
while not lines[line_index].startswith("else:" ):
line_index += 1
line_index += 1
UpperCAmelCase_ : List[str] = []
# Until we unindent, add backend objects to the list
while line_index < len(__lowerCamelCase ) and len(lines[line_index] ) > 1:
UpperCAmelCase_ : Union[str, Any] = lines[line_index]
UpperCAmelCase_ : Optional[Any] = _re_single_line_import.search(__lowerCamelCase )
if single_line_import_search is not None:
objects.extend(single_line_import_search.groups()[0].split(", " ) )
elif line.startswith(" " * 8 ):
objects.append(line[8:-2] )
line_index += 1
if len(__lowerCamelCase ) > 0:
UpperCAmelCase_ : Optional[int] = objects
else:
line_index += 1
return backend_specific_objects
def __a ( __lowerCamelCase, __lowerCamelCase ):
if name.isupper():
return DUMMY_CONSTANT.format(__lowerCamelCase )
elif name.islower():
return DUMMY_FUNCTION.format(__lowerCamelCase, __lowerCamelCase )
else:
return DUMMY_CLASS.format(__lowerCamelCase, __lowerCamelCase )
def __a ( __lowerCamelCase=None ):
if backend_specific_objects is None:
UpperCAmelCase_ : Tuple = read_init()
# For special correspondence backend to module name as used in the function requires_modulename
UpperCAmelCase_ : str = {}
for backend, objects in backend_specific_objects.items():
UpperCAmelCase_ : int = "[" + ", ".join(f"""\"{b}\"""" for b in backend.split("_and_" ) ) + "]"
UpperCAmelCase_ : Dict = "# This file is autogenerated by the command `make fix-copies`, do not edit.\n"
dummy_file += "from ..utils import DummyObject, requires_backends\n\n"
dummy_file += "\n".join([create_dummy_object(__lowerCamelCase, __lowerCamelCase ) for o in objects] )
UpperCAmelCase_ : int = dummy_file
return dummy_files
def __a ( __lowerCamelCase=False ):
UpperCAmelCase_ : Optional[Any] = create_dummy_files()
# For special correspondence backend to shortcut as used in utils/dummy_xxx_objects.py
UpperCAmelCase_ : Union[str, Any] = {"torch": "pt"}
# Locate actual dummy modules and read their content.
UpperCAmelCase_ : List[str] = os.path.join(__lowerCamelCase, "utils" )
UpperCAmelCase_ : Optional[int] = {
backend: os.path.join(__lowerCamelCase, f"""dummy_{short_names.get(__lowerCamelCase, __lowerCamelCase )}_objects.py""" )
for backend in dummy_files.keys()
}
UpperCAmelCase_ : Any = {}
for backend, file_path in dummy_file_paths.items():
if os.path.isfile(__lowerCamelCase ):
with open(__lowerCamelCase, "r", encoding="utf-8", newline="\n" ) as f:
UpperCAmelCase_ : Optional[int] = f.read()
else:
UpperCAmelCase_ : Any = ""
for backend in dummy_files.keys():
if dummy_files[backend] != actual_dummies[backend]:
if overwrite:
print(
f"""Updating diffusers.utils.dummy_{short_names.get(__lowerCamelCase, __lowerCamelCase )}_objects.py as the main """
"__init__ has new objects." )
with open(dummy_file_paths[backend], "w", encoding="utf-8", newline="\n" ) as f:
f.write(dummy_files[backend] )
else:
raise ValueError(
"The main __init__ has objects that are not present in "
f"""diffusers.utils.dummy_{short_names.get(__lowerCamelCase, __lowerCamelCase )}_objects.py. Run `make fix-copies` """
"to fix this." )
if __name__ == "__main__":
_a = argparse.ArgumentParser()
parser.add_argument('--fix_and_overwrite', action='store_true', help='Whether to fix inconsistencies.')
_a = parser.parse_args()
check_dummies(args.fix_and_overwrite)
| 61 | 0 |
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
UpperCAmelCase_ : Optional[int] = 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 SCREAMING_SNAKE_CASE_ ( __magic_name__ : np.ndarray , __magic_name__ : float , __magic_name__ : int = 1_6000 ) -> Tuple:
"""simple docstring"""
UpperCamelCase :int = int(round(sample_rate * max_length ) )
if len(__magic_name__ ) <= sample_length:
return wav
UpperCamelCase :List[Any] = randint(0 , len(__magic_name__ ) - sample_length - 1 )
return wav[random_offset : random_offset + sample_length]
@dataclass
class _SCREAMING_SNAKE_CASE :
snake_case__ : Optional[str] = field(default=_a , metadata={"""help""": """Name of a dataset from the datasets package"""} )
snake_case__ : Optional[str] = field(
default=_a , metadata={"""help""": """The configuration name of the dataset to use (via the datasets library)."""} )
snake_case__ : Optional[str] = field(
default=_a , metadata={"""help""": """A file containing the training audio paths and labels."""} )
snake_case__ : Optional[str] = field(
default=_a , metadata={"""help""": """A file containing the validation audio paths and labels."""} )
snake_case__ : str = field(
default="""train""" , metadata={
"""help""": """The name of the training data set split to use (via the datasets library). Defaults to 'train'"""
} , )
snake_case__ : str = field(
default="""validation""" , metadata={
"""help""": (
"""The name of the training data set split to use (via the datasets library). Defaults to 'validation'"""
)
} , )
snake_case__ : str = field(
default="""audio""" , metadata={"""help""": """The name of the dataset column containing the audio data. Defaults to 'audio'"""} , )
snake_case__ : str = field(
default="""label""" , metadata={"""help""": """The name of the dataset column containing the labels. Defaults to 'label'"""} )
snake_case__ : Optional[int] = field(
default=_a , metadata={
"""help""": (
"""For debugging purposes or quicker training, truncate the number of training examples to this """
"""value if set."""
)
} , )
snake_case__ : Optional[int] = field(
default=_a , metadata={
"""help""": (
"""For debugging purposes or quicker training, truncate the number of evaluation examples to this """
"""value if set."""
)
} , )
snake_case__ : float = field(
default=2_0 , metadata={"""help""": """Audio clips will be randomly cut to this length during training if the value is set."""} , )
@dataclass
class _SCREAMING_SNAKE_CASE :
snake_case__ : str = field(
default="""facebook/wav2vec2-base""" , metadata={"""help""": """Path to pretrained model or model identifier from huggingface.co/models"""} , )
snake_case__ : Optional[str] = field(
default=_a , metadata={"""help""": """Pretrained config name or path if not the same as model_name"""} )
snake_case__ : Optional[str] = field(
default=_a , metadata={"""help""": """Where do you want to store the pretrained models downloaded from the Hub"""} )
snake_case__ : str = field(
default="""main""" , metadata={"""help""": """The specific model version to use (can be a branch name, tag name or commit id)."""} , )
snake_case__ : Optional[str] = field(
default=_a , metadata={"""help""": """Name or path of preprocessor config."""} )
snake_case__ : bool = field(
default=_a , metadata={"""help""": """Whether to freeze the feature encoder layers of the model."""} )
snake_case__ : bool = field(
default=_a , metadata={"""help""": """Whether to generate an attention mask in the feature extractor."""} )
snake_case__ : bool = field(
default=_a , metadata={
"""help""": (
"""Will use the token generated when running `huggingface-cli login` (necessary to use this script """
"""with private models)."""
)
} , )
snake_case__ : Optional[bool] = field(
default=_a , metadata={"""help""": """Whether to freeze the feature extractor layers of the model."""} )
snake_case__ : bool = field(
default=_a , metadata={"""help""": """Will enable to load a pretrained model whose head dimensions are different."""} , )
def _A ( self : List[str] ):
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`.""" , __lowerCamelCase , )
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 SCREAMING_SNAKE_CASE_ ( ) -> Tuple:
"""simple docstring"""
UpperCamelCase :Dict = 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.
UpperCamelCase , UpperCamelCase , UpperCamelCase :List[str] = parser.parse_json_file(json_file=os.path.abspath(sys.argv[1] ) )
else:
UpperCamelCase , UpperCamelCase , UpperCamelCase :Tuple = 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""" , __magic_name__ , __magic_name__ )
# 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()
UpperCamelCase :Any = training_args.get_process_log_level()
logger.setLevel(__magic_name__ )
transformers.utils.logging.set_verbosity(__magic_name__ )
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.
UpperCamelCase :Any = None
if os.path.isdir(training_args.output_dir ) and training_args.do_train and not training_args.overwrite_output_dir:
UpperCamelCase :Dict = 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.
UpperCamelCase :List[str] = DatasetDict()
UpperCamelCase :Dict = 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 , )
UpperCamelCase :Optional[Any] = 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
UpperCamelCase :List[str] = 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.
UpperCamelCase :Tuple = raw_datasets.cast_column(
data_args.audio_column_name , datasets.features.Audio(sampling_rate=feature_extractor.sampling_rate ) )
UpperCamelCase :Dict = feature_extractor.model_input_names[0]
def train_transforms(__magic_name__ : str ):
UpperCamelCase :List[Any] = []
for audio in batch[data_args.audio_column_name]:
UpperCamelCase :int = random_subsample(
audio["""array"""] , max_length=data_args.max_length_seconds , sample_rate=feature_extractor.sampling_rate )
subsampled_wavs.append(__magic_name__ )
UpperCamelCase :str = feature_extractor(__magic_name__ , sampling_rate=feature_extractor.sampling_rate )
UpperCamelCase :Dict = {model_input_name: inputs.get(__magic_name__ )}
UpperCamelCase :List[str] = list(batch[data_args.label_column_name] )
return output_batch
def val_transforms(__magic_name__ : Tuple ):
UpperCamelCase :Tuple = [audio["""array"""] for audio in batch[data_args.audio_column_name]]
UpperCamelCase :Dict = feature_extractor(__magic_name__ , sampling_rate=feature_extractor.sampling_rate )
UpperCamelCase :Tuple = {model_input_name: inputs.get(__magic_name__ )}
UpperCamelCase :Union[str, Any] = 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.
UpperCamelCase :str = raw_datasets["""train"""].features[data_args.label_column_name].names
UpperCamelCase , UpperCamelCase :Optional[int] = {}, {}
for i, label in enumerate(__magic_name__ ):
UpperCamelCase :Optional[int] = str(__magic_name__ )
UpperCamelCase :Dict = label
# Load the accuracy metric from the datasets package
UpperCamelCase :int = 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(__magic_name__ : Optional[Any] ):
UpperCamelCase :Union[str, Any] = np.argmax(eval_pred.predictions , axis=1 )
return metric.compute(predictions=__magic_name__ , references=eval_pred.label_ids )
UpperCamelCase :Optional[int] = AutoConfig.from_pretrained(
model_args.config_name or model_args.model_name_or_path , num_labels=len(__magic_name__ ) , labelaid=__magic_name__ , idalabel=__magic_name__ , 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 , )
UpperCamelCase :str = AutoModelForAudioClassification.from_pretrained(
model_args.model_name_or_path , from_tf=bool(""".ckpt""" in model_args.model_name_or_path ) , config=__magic_name__ , 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:
UpperCamelCase :Optional[int] = (
raw_datasets["""train"""].shuffle(seed=training_args.seed ).select(range(data_args.max_train_samples ) )
)
# Set the training transforms
raw_datasets["train"].set_transform(__magic_name__ , output_all_columns=__magic_name__ )
if training_args.do_eval:
if data_args.max_eval_samples is not None:
UpperCamelCase :str = (
raw_datasets["""eval"""].shuffle(seed=training_args.seed ).select(range(data_args.max_eval_samples ) )
)
# Set the validation transforms
raw_datasets["eval"].set_transform(__magic_name__ , output_all_columns=__magic_name__ )
# Initialize our trainer
UpperCamelCase :str = Trainer(
model=__magic_name__ , args=__magic_name__ , 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=__magic_name__ , tokenizer=__magic_name__ , )
# Training
if training_args.do_train:
UpperCamelCase :int = None
if training_args.resume_from_checkpoint is not None:
UpperCamelCase :List[Any] = training_args.resume_from_checkpoint
elif last_checkpoint is not None:
UpperCamelCase :List[Any] = last_checkpoint
UpperCamelCase :Optional[Any] = trainer.train(resume_from_checkpoint=__magic_name__ )
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:
UpperCamelCase :str = trainer.evaluate()
trainer.log_metrics("""eval""" , __magic_name__ )
trainer.save_metrics("""eval""" , __magic_name__ )
# Write model card and (optionally) push to hub
UpperCamelCase :Tuple = {
"""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(**__magic_name__ )
else:
trainer.create_model_card(**__magic_name__ )
if __name__ == "__main__":
main()
| 38 |
"""simple docstring"""
import torch
from diffusers import DDIMParallelScheduler
from .test_schedulers import SchedulerCommonTest
class A_ (lowercase__ ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Optional[int] = (DDIMParallelScheduler,)
SCREAMING_SNAKE_CASE__ : Optional[Any] = (("""eta""", 0.0), ("""num_inference_steps""", 50))
def UpperCamelCase__ ( self , **lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : int = {
"num_train_timesteps": 1000,
"beta_start": 0.00_01,
"beta_end": 0.02,
"beta_schedule": "linear",
"clip_sample": True,
}
config.update(**lowercase_ )
return config
def UpperCamelCase__ ( self , **lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Dict = self.scheduler_classes[0]
UpperCAmelCase_ : Union[str, Any] = self.get_scheduler_config(**lowercase_ )
UpperCAmelCase_ : int = scheduler_class(**lowercase_ )
UpperCAmelCase_ , UpperCAmelCase_ : str = 10, 0.0
UpperCAmelCase_ : Optional[int] = self.dummy_model()
UpperCAmelCase_ : str = self.dummy_sample_deter
scheduler.set_timesteps(lowercase_ )
for t in scheduler.timesteps:
UpperCAmelCase_ : Dict = model(lowercase_ , lowercase_ )
UpperCAmelCase_ : Dict = scheduler.step(lowercase_ , lowercase_ , lowercase_ , lowercase_ ).prev_sample
return sample
def UpperCamelCase__ ( self ):
"""simple docstring"""
for timesteps in [100, 500, 1000]:
self.check_over_configs(num_train_timesteps=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for steps_offset in [0, 1]:
self.check_over_configs(steps_offset=lowercase_ )
UpperCAmelCase_ : str = self.scheduler_classes[0]
UpperCAmelCase_ : List[str] = self.get_scheduler_config(steps_offset=1 )
UpperCAmelCase_ : List[str] = scheduler_class(**lowercase_ )
scheduler.set_timesteps(5 )
assert torch.equal(scheduler.timesteps , torch.LongTensor([801, 601, 401, 201, 1] ) )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for beta_start, beta_end in zip([0.00_01, 0.0_01, 0.01, 0.1] , [0.0_02, 0.02, 0.2, 2] ):
self.check_over_configs(beta_start=lowercase_ , beta_end=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for schedule in ["linear", "squaredcos_cap_v2"]:
self.check_over_configs(beta_schedule=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for prediction_type in ["epsilon", "v_prediction"]:
self.check_over_configs(prediction_type=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for clip_sample in [True, False]:
self.check_over_configs(clip_sample=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for timestep_spacing in ["trailing", "leading"]:
self.check_over_configs(timestep_spacing=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for rescale_betas_zero_snr in [True, False]:
self.check_over_configs(rescale_betas_zero_snr=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
self.check_over_configs(thresholding=lowercase_ )
for threshold in [0.5, 1.0, 2.0]:
for prediction_type in ["epsilon", "v_prediction"]:
self.check_over_configs(
thresholding=lowercase_ , prediction_type=lowercase_ , sample_max_value=lowercase_ , )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for t in [1, 10, 49]:
self.check_over_forward(time_step=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for t, num_inference_steps in zip([1, 10, 50] , [10, 50, 500] ):
self.check_over_forward(time_step=lowercase_ , num_inference_steps=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
for t, eta in zip([1, 10, 49] , [0.0, 0.5, 1.0] ):
self.check_over_forward(time_step=lowercase_ , eta=lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Union[str, Any] = self.scheduler_classes[0]
UpperCAmelCase_ : List[str] = self.get_scheduler_config()
UpperCAmelCase_ : List[str] = scheduler_class(**lowercase_ )
assert torch.sum(torch.abs(scheduler._get_variance(0 , 0 ) - 0.0 ) ) < 1E-5
assert torch.sum(torch.abs(scheduler._get_variance(420 , 400 ) - 0.1_47_71 ) ) < 1E-5
assert torch.sum(torch.abs(scheduler._get_variance(980 , 960 ) - 0.3_24_60 ) ) < 1E-5
assert torch.sum(torch.abs(scheduler._get_variance(0 , 0 ) - 0.0 ) ) < 1E-5
assert torch.sum(torch.abs(scheduler._get_variance(487 , 486 ) - 0.0_09_79 ) ) < 1E-5
assert torch.sum(torch.abs(scheduler._get_variance(999 , 998 ) - 0.02 ) ) < 1E-5
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = self.scheduler_classes[0]
UpperCAmelCase_ : Optional[int] = self.get_scheduler_config()
UpperCAmelCase_ : List[str] = scheduler_class(**lowercase_ )
UpperCAmelCase_ , UpperCAmelCase_ : Tuple = 10, 0.0
scheduler.set_timesteps(lowercase_ )
UpperCAmelCase_ : Union[str, Any] = self.dummy_model()
UpperCAmelCase_ : List[str] = self.dummy_sample_deter
UpperCAmelCase_ : Any = self.dummy_sample_deter + 0.1
UpperCAmelCase_ : int = self.dummy_sample_deter - 0.1
UpperCAmelCase_ : List[Any] = samplea.shape[0]
UpperCAmelCase_ : int = torch.stack([samplea, samplea, samplea] , dim=0 )
UpperCAmelCase_ : int = torch.arange(lowercase_ )[0:3, None].repeat(1 , lowercase_ )
UpperCAmelCase_ : int = model(samples.flatten(0 , 1 ) , timesteps.flatten(0 , 1 ) )
UpperCAmelCase_ : Optional[Any] = scheduler.batch_step_no_noise(lowercase_ , timesteps.flatten(0 , 1 ) , samples.flatten(0 , 1 ) , lowercase_ )
UpperCAmelCase_ : List[Any] = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : str = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 11_47.79_04 ) < 1E-2
assert abs(result_mean.item() - 0.49_82 ) < 1E-3
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = self.full_loop()
UpperCAmelCase_ : int = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : List[str] = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 1_72.00_67 ) < 1E-2
assert abs(result_mean.item() - 0.22_39_67 ) < 1E-3
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = self.full_loop(prediction_type="v_prediction" )
UpperCAmelCase_ : str = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : Dict = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 52.53_02 ) < 1E-2
assert abs(result_mean.item() - 0.06_84 ) < 1E-3
def UpperCamelCase__ ( self ):
"""simple docstring"""
# We specify different beta, so that the first alpha is 0.99
UpperCAmelCase_ : List[str] = self.full_loop(set_alpha_to_one=lowercase_ , beta_start=0.01 )
UpperCAmelCase_ : Dict = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : Tuple = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 1_49.82_95 ) < 1E-2
assert abs(result_mean.item() - 0.19_51 ) < 1E-3
def UpperCamelCase__ ( self ):
"""simple docstring"""
# We specify different beta, so that the first alpha is 0.99
UpperCAmelCase_ : int = self.full_loop(set_alpha_to_one=lowercase_ , beta_start=0.01 )
UpperCAmelCase_ : List[Any] = torch.sum(torch.abs(lowercase_ ) )
UpperCAmelCase_ : Dict = torch.mean(torch.abs(lowercase_ ) )
assert abs(result_sum.item() - 1_49.07_84 ) < 1E-2
assert abs(result_mean.item() - 0.19_41 ) < 1E-3
| 61 | 0 |
import unittest
import numpy as np
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
if is_vision_available():
from PIL import Image
from transformers import LevitImageProcessor
class __lowerCamelCase ( unittest.TestCase):
"""simple docstring"""
def __init__( self , UpperCAmelCase , UpperCAmelCase=7 , UpperCAmelCase=3 , UpperCAmelCase=18 , UpperCAmelCase=30 , UpperCAmelCase=400 , UpperCAmelCase=True , UpperCAmelCase=None , UpperCAmelCase=True , UpperCAmelCase=None , UpperCAmelCase=True , UpperCAmelCase=[0.5, 0.5, 0.5] , UpperCAmelCase=[0.5, 0.5, 0.5] , ):
"""simple docstring"""
_UpperCAmelCase = size if size is not None else {'shortest_edge': 18}
_UpperCAmelCase = crop_size if crop_size is not None else {'height': 18, 'width': 18}
_UpperCAmelCase = parent
_UpperCAmelCase = batch_size
_UpperCAmelCase = num_channels
_UpperCAmelCase = image_size
_UpperCAmelCase = min_resolution
_UpperCAmelCase = max_resolution
_UpperCAmelCase = do_resize
_UpperCAmelCase = size
_UpperCAmelCase = do_center_crop
_UpperCAmelCase = crop_size
_UpperCAmelCase = do_normalize
_UpperCAmelCase = image_mean
_UpperCAmelCase = image_std
def UpperCamelCase ( self ):
"""simple docstring"""
return {
"image_mean": self.image_mean,
"image_std": self.image_std,
"do_normalize": self.do_normalize,
"do_resize": self.do_resize,
"do_center_crop": self.do_center_crop,
"size": self.size,
"crop_size": self.crop_size,
}
@require_torch
@require_vision
class __lowerCamelCase ( snake_case__ , unittest.TestCase):
"""simple docstring"""
UpperCamelCase__ = LevitImageProcessor if is_vision_available() else None
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = LevitImageProcessingTester(self )
@property
def UpperCamelCase ( self ):
"""simple docstring"""
return self.image_processor_tester.prepare_image_processor_dict()
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.image_processing_class(**self.image_processor_dict )
self.assertTrue(hasattr(UpperCAmelCase , 'image_mean' ) )
self.assertTrue(hasattr(UpperCAmelCase , 'image_std' ) )
self.assertTrue(hasattr(UpperCAmelCase , 'do_normalize' ) )
self.assertTrue(hasattr(UpperCAmelCase , 'do_resize' ) )
self.assertTrue(hasattr(UpperCAmelCase , 'do_center_crop' ) )
self.assertTrue(hasattr(UpperCAmelCase , 'size' ) )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.image_processing_class.from_dict(self.image_processor_dict )
self.assertEqual(image_processor.size , {'shortest_edge': 18} )
self.assertEqual(image_processor.crop_size , {'height': 18, 'width': 18} )
_UpperCAmelCase = self.image_processing_class.from_dict(self.image_processor_dict , size=42 , crop_size=84 )
self.assertEqual(image_processor.size , {'shortest_edge': 42} )
self.assertEqual(image_processor.crop_size , {'height': 84, 'width': 84} )
def UpperCamelCase ( self ):
"""simple docstring"""
pass
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.image_processing_class(**self.image_processor_dict )
# create random PIL images
_UpperCAmelCase = prepare_image_inputs(self.image_processor_tester , equal_resolution=UpperCAmelCase )
for image in image_inputs:
self.assertIsInstance(UpperCAmelCase , Image.Image )
# Test not batched input
_UpperCAmelCase = image_processing(image_inputs[0] , return_tensors='pt' ).pixel_values
self.assertEqual(
encoded_images.shape , (
1,
self.image_processor_tester.num_channels,
self.image_processor_tester.crop_size['height'],
self.image_processor_tester.crop_size['width'],
) , )
# Test batched
_UpperCAmelCase = image_processing(UpperCAmelCase , return_tensors='pt' ).pixel_values
self.assertEqual(
encoded_images.shape , (
self.image_processor_tester.batch_size,
self.image_processor_tester.num_channels,
self.image_processor_tester.crop_size['height'],
self.image_processor_tester.crop_size['width'],
) , )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.image_processing_class(**self.image_processor_dict )
# create random numpy tensors
_UpperCAmelCase = prepare_image_inputs(self.image_processor_tester , equal_resolution=UpperCAmelCase , numpify=UpperCAmelCase )
for image in image_inputs:
self.assertIsInstance(UpperCAmelCase , np.ndarray )
# Test not batched input
_UpperCAmelCase = image_processing(image_inputs[0] , return_tensors='pt' ).pixel_values
self.assertEqual(
encoded_images.shape , (
1,
self.image_processor_tester.num_channels,
self.image_processor_tester.crop_size['height'],
self.image_processor_tester.crop_size['width'],
) , )
# Test batched
_UpperCAmelCase = image_processing(UpperCAmelCase , return_tensors='pt' ).pixel_values
self.assertEqual(
encoded_images.shape , (
self.image_processor_tester.batch_size,
self.image_processor_tester.num_channels,
self.image_processor_tester.crop_size['height'],
self.image_processor_tester.crop_size['width'],
) , )
def UpperCamelCase ( self ):
"""simple docstring"""
_UpperCAmelCase = self.image_processing_class(**self.image_processor_dict )
# create random PyTorch tensors
_UpperCAmelCase = prepare_image_inputs(self.image_processor_tester , equal_resolution=UpperCAmelCase , torchify=UpperCAmelCase )
for image in image_inputs:
self.assertIsInstance(UpperCAmelCase , torch.Tensor )
# Test not batched input
_UpperCAmelCase = image_processing(image_inputs[0] , return_tensors='pt' ).pixel_values
self.assertEqual(
encoded_images.shape , (
1,
self.image_processor_tester.num_channels,
self.image_processor_tester.crop_size['height'],
self.image_processor_tester.crop_size['width'],
) , )
# Test batched
_UpperCAmelCase = image_processing(UpperCAmelCase , return_tensors='pt' ).pixel_values
self.assertEqual(
encoded_images.shape , (
self.image_processor_tester.batch_size,
self.image_processor_tester.num_channels,
self.image_processor_tester.crop_size['height'],
self.image_processor_tester.crop_size['width'],
) , )
| 39 |
"""simple docstring"""
import inspect
import unittest
import numpy as np
from transformers import ViTConfig, is_flax_available
from transformers.testing_utils import require_flax, slow
from ...test_configuration_common import ConfigTester
from ...test_modeling_flax_common import FlaxModelTesterMixin, floats_tensor
if is_flax_available():
import jax
from transformers.models.vit.modeling_flax_vit import FlaxViTForImageClassification, FlaxViTModel
class A_ (unittest.TestCase ):
'''simple docstring'''
def __init__( self , lowercase_ , lowercase_=13 , lowercase_=30 , lowercase_=2 , lowercase_=3 , lowercase_=True , lowercase_=True , lowercase_=32 , lowercase_=5 , lowercase_=4 , lowercase_=37 , lowercase_="gelu" , lowercase_=0.1 , lowercase_=0.1 , lowercase_=10 , lowercase_=0.02 , ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = parent
UpperCAmelCase_ : List[str] = batch_size
UpperCAmelCase_ : Union[str, Any] = image_size
UpperCAmelCase_ : List[str] = patch_size
UpperCAmelCase_ : Union[str, Any] = num_channels
UpperCAmelCase_ : Optional[int] = is_training
UpperCAmelCase_ : Dict = use_labels
UpperCAmelCase_ : Any = hidden_size
UpperCAmelCase_ : Optional[Any] = num_hidden_layers
UpperCAmelCase_ : Optional[Any] = num_attention_heads
UpperCAmelCase_ : Dict = intermediate_size
UpperCAmelCase_ : Optional[Any] = hidden_act
UpperCAmelCase_ : Optional[Any] = hidden_dropout_prob
UpperCAmelCase_ : Tuple = attention_probs_dropout_prob
UpperCAmelCase_ : Dict = type_sequence_label_size
UpperCAmelCase_ : Optional[Any] = initializer_range
# in ViT, the seq length equals the number of patches + 1 (we add 1 for the [CLS] token)
UpperCAmelCase_ : Any = (image_size // patch_size) ** 2
UpperCAmelCase_ : List[str] = num_patches + 1
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] )
UpperCAmelCase_ : Dict = 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=lowercase_ , initializer_range=self.initializer_range , )
return config, pixel_values
def UpperCamelCase__ ( self , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : List[str] = FlaxViTModel(config=lowercase_ )
UpperCAmelCase_ : int = model(lowercase_ )
# expected sequence length = num_patches + 1 (we add 1 for the [CLS] token)
UpperCAmelCase_ : Optional[Any] = (self.image_size, self.image_size)
UpperCAmelCase_ : List[Any] = (self.patch_size, self.patch_size)
UpperCAmelCase_ : str = (image_size[1] // patch_size[1]) * (image_size[0] // patch_size[0])
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, num_patches + 1, self.hidden_size) )
def UpperCamelCase__ ( self , lowercase_ , lowercase_ ):
"""simple docstring"""
UpperCAmelCase_ : Tuple = self.type_sequence_label_size
UpperCAmelCase_ : Tuple = FlaxViTForImageClassification(config=lowercase_ )
UpperCAmelCase_ : str = model(lowercase_ )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.type_sequence_label_size) )
# test greyscale images
UpperCAmelCase_ : Any = 1
UpperCAmelCase_ : Optional[int] = FlaxViTForImageClassification(lowercase_ )
UpperCAmelCase_ : List[Any] = floats_tensor([self.batch_size, 1, self.image_size, self.image_size] )
UpperCAmelCase_ : List[Any] = model(lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[Any] = self.prepare_config_and_inputs()
(
(
UpperCAmelCase_
) , (
UpperCAmelCase_
) ,
) : Tuple = config_and_inputs
UpperCAmelCase_ : Union[str, Any] = {"pixel_values": pixel_values}
return config, inputs_dict
@require_flax
class A_ (lowercase__ ,unittest.TestCase ):
'''simple docstring'''
SCREAMING_SNAKE_CASE__ : Any = (FlaxViTModel, FlaxViTForImageClassification) if is_flax_available() else ()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[Any] = FlaxViTModelTester(self )
UpperCAmelCase_ : Dict = ConfigTester(self , config_class=lowercase_ , has_text_modality=lowercase_ , hidden_size=37 )
def UpperCamelCase__ ( self ):
"""simple docstring"""
self.config_tester.run_common_tests()
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : List[Any] = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ : Optional[Any] = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_image_classification(*lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : List[str] = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
UpperCAmelCase_ : Optional[Any] = model_class(lowercase_ )
UpperCAmelCase_ : Optional[int] = inspect.signature(model.__call__ )
# signature.parameters is an OrderedDict => so arg_names order is deterministic
UpperCAmelCase_ : List[str] = [*signature.parameters.keys()]
UpperCAmelCase_ : List[str] = ["pixel_values"]
self.assertListEqual(arg_names[:1] , lowercase_ )
def UpperCamelCase__ ( self ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ : Tuple = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
with self.subTest(model_class.__name__ ):
UpperCAmelCase_ : Union[str, Any] = self._prepare_for_class(lowercase_ , lowercase_ )
UpperCAmelCase_ : Tuple = model_class(lowercase_ )
@jax.jit
def model_jitted(lowercase_ , **lowercase_ ):
return model(pixel_values=lowercase_ , **lowercase_ )
with self.subTest("JIT Enabled" ):
UpperCAmelCase_ : Union[str, Any] = model_jitted(**lowercase_ ).to_tuple()
with self.subTest("JIT Disabled" ):
with jax.disable_jit():
UpperCAmelCase_ : Tuple = model_jitted(**lowercase_ ).to_tuple()
self.assertEqual(len(lowercase_ ) , len(lowercase_ ) )
for jitted_output, output in zip(lowercase_ , lowercase_ ):
self.assertEqual(jitted_output.shape , output.shape )
@slow
def UpperCamelCase__ ( self ):
"""simple docstring"""
for model_class_name in self.all_model_classes:
UpperCAmelCase_ : Union[str, Any] = model_class_name.from_pretrained("google/vit-base-patch16-224" )
UpperCAmelCase_ : List[str] = model(np.ones((1, 3, 224, 224) ) )
self.assertIsNotNone(lowercase_ )
| 61 | 0 |
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