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 |
|---|---|---|---|---|
from collections import OrderedDict
from typing import Any, Mapping, Optional
from ... import PreTrainedTokenizer, TensorType, is_torch_available
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfigWithPast
from ...utils import logging
UpperCAmelCase__ = logging.get_logger(__name__)
UpperCAmelCase__ = {
"EleutherAI/gpt-neo-1.3B": "https://huggingface.co/EleutherAI/gpt-neo-1.3B/resolve/main/config.json",
# See all GPTNeo models at https://huggingface.co/models?filter=gpt_neo
}
class lowercase_ ( lowercase ):
'''simple docstring'''
__snake_case = '''gpt_neo'''
__snake_case = ['''past_key_values''']
__snake_case = {'''num_attention_heads''': '''num_heads''', '''num_hidden_layers''': '''num_layers'''}
def __init__( self : Dict , __UpperCAmelCase : str=50_257 , __UpperCAmelCase : Optional[int]=2_048 , __UpperCAmelCase : Optional[Any]=2_048 , __UpperCAmelCase : Optional[int]=24 , __UpperCAmelCase : Optional[int]=[[["global", "local"], 12]] , __UpperCAmelCase : str=16 , __UpperCAmelCase : Any=None , __UpperCAmelCase : List[str]=256 , __UpperCAmelCase : Optional[Any]="gelu_new" , __UpperCAmelCase : Tuple=0.0 , __UpperCAmelCase : Optional[int]=0.0 , __UpperCAmelCase : Union[str, Any]=0.0 , __UpperCAmelCase : Optional[Any]=0.1 , __UpperCAmelCase : Any=1e-5 , __UpperCAmelCase : Dict=0.02 , __UpperCAmelCase : Optional[int]=True , __UpperCAmelCase : Tuple=50_256 , __UpperCAmelCase : Optional[int]=50_256 , **__UpperCAmelCase : Optional[int] , ) ->Union[str, Any]:
"""simple docstring"""
a = vocab_size
a = max_position_embeddings
a = hidden_size
a = num_layers
a = num_heads
a = intermediate_size
a = window_size
a = activation_function
a = resid_dropout
a = embed_dropout
a = attention_dropout
a = classifier_dropout
a = layer_norm_epsilon
a = initializer_range
a = use_cache
a = bos_token_id
a = eos_token_id
a = attention_types
a = self.expand_attention_types_params(__UpperCAmelCase )
if len(self.attention_layers ) != self.num_layers:
raise ValueError(
'''Configuration for convolutional module is incorrect. '''
'''It is required that `len(config.attention_layers)` == `config.num_layers` '''
F"""but is `len(config.attention_layers) = {len(self.attention_layers )}`, """
F"""`config.num_layers = {self.num_layers}`. """
'''`config.attention_layers` is prepared using `config.attention_types`. '''
'''Please verify the value of `config.attention_types` argument.''' )
super().__init__(bos_token_id=__UpperCAmelCase , eos_token_id=__UpperCAmelCase , **__UpperCAmelCase )
@staticmethod
def __lowerCAmelCase ( __UpperCAmelCase : List[str] ) ->Optional[int]:
"""simple docstring"""
a = []
for item in attention_types:
for _ in range(item[1] ):
attentions.extend(item[0] )
return attentions
def _a ( a :str , a :Any , a :Union[str, Any] , a :Optional[int] ) -> List[Any]:
import torch
a = input.size()
a = len(a )
a = shape[dimension]
a = torch.arange(0 , a , a )
a = torch.div(sizedim - size , a , rounding_mode='''floor''' ) + 1
a = torch.arange(a ) + low_indices[:min_length][:, None]
a = [slice(a )] * rank
a = indices
a = input[s]
a = list(range(0 , rank + 1 ) )
perm.append(perm.pop(dimension + 1 ) )
return sliced.permute(a )
def _a ( a :List[str] , a :List[str] ) -> Any:
import torch
a = torch.arange(1 , a )
a = torch.remainder(a , a )
a = remainders == 0
a = candidates[divisor_indices]
a = torch.max(a )
return largest_divisor, torch.div(a , a , rounding_mode='''floor''' )
class lowercase_ ( lowercase ):
'''simple docstring'''
@property
def __lowerCAmelCase ( self : Optional[int] ) ->Mapping[str, Mapping[int, str]]:
"""simple docstring"""
a = OrderedDict({'''input_ids''': {0: '''batch''', 1: '''sequence'''}} )
if self.use_past:
self.fill_with_past_key_values_(__UpperCAmelCase , direction='''inputs''' )
a = {0: '''batch''', 1: '''past_sequence + sequence'''}
else:
a = {0: '''batch''', 1: '''sequence'''}
return common_inputs
@property
def __lowerCAmelCase ( self : int ) ->int:
"""simple docstring"""
return self._config.num_heads
def __lowerCAmelCase ( self : Optional[int] , __UpperCAmelCase : PreTrainedTokenizer , __UpperCAmelCase : int = -1 , __UpperCAmelCase : int = -1 , __UpperCAmelCase : bool = False , __UpperCAmelCase : Optional[TensorType] = None , ) ->Mapping[str, Any]:
"""simple docstring"""
a = super(__UpperCAmelCase , self ).generate_dummy_inputs(
__UpperCAmelCase , batch_size=__UpperCAmelCase , seq_length=__UpperCAmelCase , is_pair=__UpperCAmelCase , framework=__UpperCAmelCase )
# We need to order the input in the way they appears in the forward()
a = OrderedDict({'''input_ids''': common_inputs['''input_ids''']} )
# Need to add the past_keys
if self.use_past:
if not is_torch_available():
raise ValueError('''Cannot generate dummy past_keys inputs without PyTorch installed.''' )
else:
import torch
a , a = common_inputs['''input_ids'''].shape
# Not using the same length for past_key_values
a = seqlen + 2
a = (
batch,
self.num_attention_heads,
past_key_values_length,
self._config.hidden_size // self.num_attention_heads,
)
a = [
(torch.zeros(__UpperCAmelCase ), torch.zeros(__UpperCAmelCase )) for _ in range(self.num_layers )
]
a = common_inputs['''attention_mask''']
if self.use_past:
a = ordered_inputs['''attention_mask'''].dtype
a = torch.cat(
[ordered_inputs['''attention_mask'''], torch.ones(__UpperCAmelCase , __UpperCAmelCase , dtype=__UpperCAmelCase )] , dim=1 )
return ordered_inputs
@property
def __lowerCAmelCase ( self : Dict ) ->int:
"""simple docstring"""
return 13
| 0 | import unittest
from transformers import BigBirdConfig, is_flax_available
from transformers.testing_utils import require_flax, slow
from ...test_modeling_flax_common import FlaxModelTesterMixin, ids_tensor, random_attention_mask
if is_flax_available():
import jax
from transformers.models.big_bird.modeling_flax_big_bird import (
FlaxBigBirdForCausalLM,
FlaxBigBirdForMaskedLM,
FlaxBigBirdForMultipleChoice,
FlaxBigBirdForPreTraining,
FlaxBigBirdForQuestionAnswering,
FlaxBigBirdForSequenceClassification,
FlaxBigBirdForTokenClassification,
FlaxBigBirdModel,
)
class snake_case_ ( unittest.TestCase ):
def __init__( self : Tuple , lowercase_ : List[Any] , lowercase_ : Union[str, Any]=2 , lowercase_ : Union[str, Any]=56 , lowercase_ : Tuple=True , lowercase_ : Optional[Any]=True , lowercase_ : Optional[Any]=True , lowercase_ : int=True , lowercase_ : Any=99 , lowercase_ : int=32 , lowercase_ : str=2 , lowercase_ : Union[str, Any]=2 , lowercase_ : Dict=7 , lowercase_ : Dict="gelu_new" , lowercase_ : Tuple=0.1 , lowercase_ : List[Any]=0.1 , lowercase_ : Tuple=5_12 , lowercase_ : Optional[Any]=16 , lowercase_ : List[Any]=2 , lowercase_ : Dict=0.02 , lowercase_ : int=4 , lowercase_ : Tuple="block_sparse" , lowercase_ : Dict=True , lowercase_ : Optional[int]=False , lowercase_ : Dict=2 , lowercase_ : int=3 , ) -> Union[str, Any]:
lowercase__ : Dict = parent
lowercase__ : Dict = batch_size
lowercase__ : Tuple = seq_length
lowercase__ : Dict = is_training
lowercase__ : Dict = use_attention_mask
lowercase__ : Tuple = use_token_type_ids
lowercase__ : Optional[int] = use_labels
lowercase__ : List[Any] = vocab_size
lowercase__ : Any = hidden_size
lowercase__ : List[Any] = num_hidden_layers
lowercase__ : Union[str, Any] = num_attention_heads
lowercase__ : str = intermediate_size
lowercase__ : int = hidden_act
lowercase__ : str = hidden_dropout_prob
lowercase__ : List[str] = attention_probs_dropout_prob
lowercase__ : Optional[Any] = max_position_embeddings
lowercase__ : Union[str, Any] = type_vocab_size
lowercase__ : Dict = type_sequence_label_size
lowercase__ : Any = initializer_range
lowercase__ : List[str] = num_choices
lowercase__ : str = rescale_embeddings
lowercase__ : Optional[Any] = attention_type
lowercase__ : Optional[int] = use_bias
lowercase__ : Optional[int] = block_size
lowercase__ : str = num_random_blocks
def __UpperCamelCase ( self : str ) -> Optional[Any]:
lowercase__ : List[Any] = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size )
lowercase__ : str = None
if self.use_attention_mask:
lowercase__ : Any = random_attention_mask([self.batch_size, self.seq_length] )
lowercase__ : Optional[int] = None
if self.use_token_type_ids:
lowercase__ : Any = ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size )
lowercase__ : int = BigBirdConfig(
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 , attention_type=self.attention_type , block_size=self.block_size , num_random_blocks=self.num_random_blocks , use_bias=self.use_bias , rescale_embeddings=self.rescale_embeddings , )
return config, input_ids, token_type_ids, attention_mask
def __UpperCamelCase ( self : Union[str, Any] ) -> int:
lowercase__ : int = self.prepare_config_and_inputs()
lowercase__ , lowercase__ , lowercase__ , lowercase__ : Dict = config_and_inputs
lowercase__ : Union[str, Any] = {
"input_ids": input_ids,
"token_type_ids": token_type_ids,
"attention_mask": attention_mask,
}
return config, inputs_dict
@require_flax
class snake_case_ ( __A ,unittest.TestCase ):
__A : Optional[int] = (
(
FlaxBigBirdForCausalLM,
FlaxBigBirdModel,
FlaxBigBirdForPreTraining,
FlaxBigBirdForMaskedLM,
FlaxBigBirdForMultipleChoice,
FlaxBigBirdForQuestionAnswering,
FlaxBigBirdForSequenceClassification,
FlaxBigBirdForTokenClassification,
)
if is_flax_available()
else ()
)
__A : List[str] = False
__A : Any = False
def __UpperCamelCase ( self : List[str] ) -> List[Any]:
lowercase__ : Union[str, Any] = FlaxBigBirdModelTester(self )
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def __UpperCamelCase ( self : Optional[int] ) -> Dict:
super().test_from_pretrained_save_pretrained()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def __UpperCamelCase ( self : List[str] ) -> Any:
super().test_from_pretrained_with_no_automatic_init()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def __UpperCamelCase ( self : Tuple ) -> str:
super().test_no_automatic_init()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def __UpperCamelCase ( self : Dict ) -> Union[str, Any]:
super().test_hidden_states_output()
@slow
def __UpperCamelCase ( self : Optional[int] ) -> Tuple:
for model_class_name in self.all_model_classes:
lowercase__ : Optional[Any] = model_class_name.from_pretrained("google/bigbird-roberta-base" )
self.assertIsNotNone(lowercase_ )
def __UpperCamelCase ( self : int ) -> Optional[int]:
if self.test_attn_probs:
super().test_attention_outputs()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def __UpperCamelCase ( self : str ) -> Any:
lowercase__ , lowercase__ : Dict = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
with self.subTest(model_class.__name__ ):
lowercase__ : Union[str, Any] = self._prepare_for_class(lowercase_ , lowercase_ )
lowercase__ : Optional[Any] = model_class(lowercase_ )
@jax.jit
def model_jitted(lowercase_ : Tuple , lowercase_ : int=None , **lowercase_ : Dict ):
return model(input_ids=lowercase_ , attention_mask=lowercase_ , **lowercase_ )
with self.subTest("JIT Enabled" ):
lowercase__ : int = model_jitted(**lowercase_ ).to_tuple()
with self.subTest("JIT Disabled" ):
with jax.disable_jit():
lowercase__ : Any = 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 )
def __UpperCamelCase ( self : List[Any] , lowercase_ : str , lowercase_ : Union[str, Any] , lowercase_ : Optional[int] , lowercase_ : List[Any]=1E-5 , lowercase_ : Any="outputs" , lowercase_ : List[str]=None ) -> List[Any]:
# `bigbird_block_sparse_attention` in `FlaxBigBird` returns `attention_probs = None`, while in PyTorch version,
# an effort was done to return `attention_probs` (yet to be verified).
if name.startswith("outputs.attentions" ):
return
else:
super().check_pt_flax_outputs(lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ )
| 87 | 0 |
'''simple docstring'''
import itertools
import math
def lowerCAmelCase_ ( snake_case_ : int ) -> bool:
'''simple docstring'''
if 1 < number < 4:
# 2 and 3 are primes
return True
elif number < 2 or number % 2 == 0 or number % 3 == 0:
# Negatives, 0, 1, all even numbers, all multiples of 3 are not primes
return False
# All primes number are in format of 6k +/- 1
for i in range(5 , int(math.sqrt(snake_case_ ) + 1 ) , 6 ):
if number % i == 0 or number % (i + 2) == 0:
return False
return True
def lowerCAmelCase_ ( ) -> Optional[int]:
'''simple docstring'''
UpperCAmelCase_ = 2
while True:
if is_prime(snake_case_ ):
yield num
num += 1
def lowerCAmelCase_ ( snake_case_ : int = 1_00_01 ) -> int:
'''simple docstring'''
return next(itertools.islice(prime_generator() , nth - 1 , snake_case_ ) )
if __name__ == "__main__":
print(f"{solution() = }")
| 1 | from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_torch_available
UpperCamelCase = {
'''configuration_groupvit''': [
'''GROUPVIT_PRETRAINED_CONFIG_ARCHIVE_MAP''',
'''GroupViTConfig''',
'''GroupViTOnnxConfig''',
'''GroupViTTextConfig''',
'''GroupViTVisionConfig''',
],
}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = [
'''GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''GroupViTModel''',
'''GroupViTPreTrainedModel''',
'''GroupViTTextModel''',
'''GroupViTVisionModel''',
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = [
'''TF_GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''TFGroupViTModel''',
'''TFGroupViTPreTrainedModel''',
'''TFGroupViTTextModel''',
'''TFGroupViTVisionModel''',
]
if TYPE_CHECKING:
from .configuration_groupvit import (
GROUPVIT_PRETRAINED_CONFIG_ARCHIVE_MAP,
GroupViTConfig,
GroupViTOnnxConfig,
GroupViTTextConfig,
GroupViTVisionConfig,
)
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_groupvit import (
GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST,
GroupViTModel,
GroupViTPreTrainedModel,
GroupViTTextModel,
GroupViTVisionModel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_groupvit import (
TF_GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST,
TFGroupViTModel,
TFGroupViTPreTrainedModel,
TFGroupViTTextModel,
TFGroupViTVisionModel,
)
else:
import sys
UpperCamelCase = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
| 87 | 0 |
'''simple docstring'''
import os
import unittest
from transformers.models.transfo_xl.tokenization_transfo_xl import VOCAB_FILES_NAMES, TransfoXLTokenizer
from ...test_tokenization_common import TokenizerTesterMixin
class __lowerCAmelCase (lowercase_ , unittest.TestCase ):
'''simple docstring'''
lowerCAmelCase__ : List[Any] = TransfoXLTokenizer
lowerCAmelCase__ : int = False
lowerCAmelCase__ : List[str] = False
def UpperCamelCase__ (self : Dict ):
'''simple docstring'''
super().setUp()
lowercase__ = [
'''<unk>''',
'''[CLS]''',
'''[SEP]''',
'''want''',
'''unwanted''',
'''wa''',
'''un''',
'''running''',
''',''',
'''low''',
'''l''',
]
lowercase__ = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['''vocab_file'''] )
with open(self.vocab_file , '''w''' , encoding='''utf-8''' ) as vocab_writer:
vocab_writer.write(''''''.join([x + '''\n''' for x in vocab_tokens] ) )
def UpperCamelCase__ (self : List[str] , **UpperCamelCase : int ):
'''simple docstring'''
lowercase__ = True
return TransfoXLTokenizer.from_pretrained(self.tmpdirname , **UpperCamelCase )
def UpperCamelCase__ (self : int , UpperCamelCase : int ):
'''simple docstring'''
lowercase__ = '''<unk> UNwanted , running'''
lowercase__ = '''<unk> unwanted, running'''
return input_text, output_text
def UpperCamelCase__ (self : Dict ):
'''simple docstring'''
lowercase__ = TransfoXLTokenizer(vocab_file=self.vocab_file , lower_case=UpperCamelCase )
lowercase__ = tokenizer.tokenize('''<unk> UNwanted , running''' )
self.assertListEqual(UpperCamelCase , ['''<unk>''', '''unwanted''', ''',''', '''running'''] )
self.assertListEqual(tokenizer.convert_tokens_to_ids(UpperCamelCase ) , [0, 4, 8, 7] )
def UpperCamelCase__ (self : Optional[int] ):
'''simple docstring'''
lowercase__ = TransfoXLTokenizer(lower_case=UpperCamelCase )
self.assertListEqual(
tokenizer.tokenize(''' \tHeLLo ! how \n Are yoU ? ''' ) , ['''hello''', '''!''', '''how''', '''are''', '''you''', '''?'''] )
def UpperCamelCase__ (self : List[str] ):
'''simple docstring'''
lowercase__ = TransfoXLTokenizer(lower_case=UpperCamelCase )
self.assertListEqual(
tokenizer.tokenize(''' \tHeLLo ! how \n Are yoU ? ''' ) , ['''HeLLo''', '''!''', '''how''', '''Are''', '''yoU''', '''?'''] )
def UpperCamelCase__ (self : Optional[int] ):
'''simple docstring'''
lowercase__ = TransfoXLTokenizer(lower_case=UpperCamelCase )
lowercase__ = '''Hello (bracket) and side-scrolled [and] Henry\'s $5,000 with 3.34 m. What\'s up!?'''
lowercase__ = [
'''Hello''',
'''(''',
'''bracket''',
''')''',
'''and''',
'''side''',
'''@-@''',
'''scrolled''',
'''[''',
'''and''',
''']''',
'''Henry''',
'''\'s''',
'''$''',
'''5''',
'''@,@''',
'''000''',
'''with''',
'''3''',
'''@.@''',
'''34''',
'''m''',
'''.''',
'''What''',
'''\'s''',
'''up''',
'''!''',
'''?''',
]
self.assertListEqual(tokenizer.tokenize(UpperCamelCase ) , UpperCamelCase )
self.assertEqual(tokenizer.convert_tokens_to_string(UpperCamelCase ) , UpperCamelCase )
def UpperCamelCase__ (self : Tuple ):
'''simple docstring'''
lowercase__ = self.get_tokenizer()
lowercase__ = len(UpperCamelCase )
tokenizer.add_tokens(['''new1''', '''new2'''] )
tokenizer.move_added_token('''new1''' , 1 )
# Check that moved token is not copied (duplicate)
self.assertEqual(len(UpperCamelCase ) , original_len + 2 )
# Check that token is moved to specified id
self.assertEqual(tokenizer.encode('''new1''' ) , [1] )
self.assertEqual(tokenizer.decode([1] ) , '''new1''' )
| 2 | import io
import json
import fsspec
import pytest
from datasets import Dataset, DatasetDict, Features, NamedSplit, Value
from datasets.io.json import JsonDatasetReader, JsonDatasetWriter
from ..utils import assert_arrow_memory_doesnt_increase, assert_arrow_memory_increases
def lowercase_ ( _lowerCamelCase : Optional[Any] , _lowerCamelCase : int):
assert isinstance(_lowerCamelCase , _lowerCamelCase)
assert dataset.num_rows == 4
assert dataset.num_columns == 3
assert dataset.column_names == ["col_1", "col_2", "col_3"]
for feature, expected_dtype in expected_features.items():
assert dataset.features[feature].dtype == expected_dtype
@pytest.mark.parametrize("keep_in_memory" , [False, True])
def lowercase_ ( _lowerCamelCase : List[Any] , _lowerCamelCase : Any , _lowerCamelCase : str):
lowercase__ : Optional[int] = tmp_path / "cache"
lowercase__ : str = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
with assert_arrow_memory_increases() if keep_in_memory else assert_arrow_memory_doesnt_increase():
lowercase__ : Union[str, Any] = JsonDatasetReader(_lowerCamelCase , cache_dir=_lowerCamelCase , keep_in_memory=_lowerCamelCase).read()
_check_json_dataset(_lowerCamelCase , _lowerCamelCase)
@pytest.mark.parametrize(
"features" , [
None,
{"col_1": "string", "col_2": "int64", "col_3": "float64"},
{"col_1": "string", "col_2": "string", "col_3": "string"},
{"col_1": "int32", "col_2": "int32", "col_3": "int32"},
{"col_1": "float32", "col_2": "float32", "col_3": "float32"},
] , )
def lowercase_ ( _lowerCamelCase : List[str] , _lowerCamelCase : Dict , _lowerCamelCase : Dict):
lowercase__ : List[Any] = tmp_path / "cache"
lowercase__ : Union[str, Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
lowercase__ : List[Any] = features.copy() if features else default_expected_features
lowercase__ : List[Any] = (
Features({feature: Value(_lowerCamelCase) for feature, dtype in features.items()}) if features is not None else None
)
lowercase__ : Any = JsonDatasetReader(_lowerCamelCase , features=_lowerCamelCase , cache_dir=_lowerCamelCase).read()
_check_json_dataset(_lowerCamelCase , _lowerCamelCase)
@pytest.mark.parametrize(
"features" , [
None,
{"col_3": "float64", "col_1": "string", "col_2": "int64"},
] , )
def lowercase_ ( _lowerCamelCase : Any , _lowerCamelCase : Any , _lowerCamelCase : List[str]):
lowercase__ : Optional[Any] = tmp_path / "cache"
lowercase__ : Tuple = {"col_3": "float64", "col_1": "string", "col_2": "int64"}
lowercase__ : List[Any] = features.copy() if features else default_expected_features
lowercase__ : int = (
Features({feature: Value(_lowerCamelCase) for feature, dtype in features.items()}) if features is not None else None
)
lowercase__ : Any = JsonDatasetReader(_lowerCamelCase , features=_lowerCamelCase , cache_dir=_lowerCamelCase).read()
assert isinstance(_lowerCamelCase , _lowerCamelCase)
assert dataset.num_rows == 2
assert dataset.num_columns == 3
assert dataset.column_names == ["col_3", "col_1", "col_2"]
for feature, expected_dtype in expected_features.items():
assert dataset.features[feature].dtype == expected_dtype
def lowercase_ ( _lowerCamelCase : List[Any] , _lowerCamelCase : Optional[int]):
# jsonl_312_path features are {"col_3": "float64", "col_1": "string", "col_2": "int64"}
lowercase__ : Any = {"col_2": "int64", "col_3": "float64", "col_1": "string"}
lowercase__ : str = features.copy()
lowercase__ : str = (
Features({feature: Value(_lowerCamelCase) for feature, dtype in features.items()}) if features is not None else None
)
lowercase__ : Optional[int] = tmp_path / "cache"
lowercase__ : Any = JsonDatasetReader(_lowerCamelCase , features=_lowerCamelCase , cache_dir=_lowerCamelCase).read()
assert isinstance(_lowerCamelCase , _lowerCamelCase)
assert dataset.num_rows == 2
assert dataset.num_columns == 3
assert dataset.column_names == ["col_2", "col_3", "col_1"]
for feature, expected_dtype in expected_features.items():
assert dataset.features[feature].dtype == expected_dtype
@pytest.mark.parametrize("split" , [None, NamedSplit("train"), "train", "test"])
def lowercase_ ( _lowerCamelCase : Dict , _lowerCamelCase : Optional[int] , _lowerCamelCase : List[str]):
lowercase__ : Union[str, Any] = tmp_path / "cache"
lowercase__ : List[Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
lowercase__ : Union[str, Any] = JsonDatasetReader(_lowerCamelCase , cache_dir=_lowerCamelCase , split=_lowerCamelCase).read()
_check_json_dataset(_lowerCamelCase , _lowerCamelCase)
assert dataset.split == split if split else "train"
@pytest.mark.parametrize("path_type" , [str, list])
def lowercase_ ( _lowerCamelCase : Union[str, Any] , _lowerCamelCase : str , _lowerCamelCase : int):
if issubclass(_lowerCamelCase , _lowerCamelCase):
lowercase__ : Tuple = jsonl_path
elif issubclass(_lowerCamelCase , _lowerCamelCase):
lowercase__ : str = [jsonl_path]
lowercase__ : str = tmp_path / "cache"
lowercase__ : Optional[Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
lowercase__ : Tuple = JsonDatasetReader(_lowerCamelCase , cache_dir=_lowerCamelCase).read()
_check_json_dataset(_lowerCamelCase , _lowerCamelCase)
def lowercase_ ( _lowerCamelCase : List[Any] , _lowerCamelCase : Optional[Any] , _lowerCamelCase : Optional[int]=("train",)):
assert isinstance(_lowerCamelCase , _lowerCamelCase)
for split in splits:
lowercase__ : Optional[Any] = dataset_dict[split]
assert dataset.num_rows == 4
assert dataset.num_columns == 3
assert dataset.column_names == ["col_1", "col_2", "col_3"]
for feature, expected_dtype in expected_features.items():
assert dataset.features[feature].dtype == expected_dtype
@pytest.mark.parametrize("keep_in_memory" , [False, True])
def lowercase_ ( _lowerCamelCase : Union[str, Any] , _lowerCamelCase : str , _lowerCamelCase : str):
lowercase__ : List[str] = tmp_path / "cache"
lowercase__ : str = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
with assert_arrow_memory_increases() if keep_in_memory else assert_arrow_memory_doesnt_increase():
lowercase__ : Optional[Any] = JsonDatasetReader({"train": jsonl_path} , cache_dir=_lowerCamelCase , keep_in_memory=_lowerCamelCase).read()
_check_json_datasetdict(_lowerCamelCase , _lowerCamelCase)
@pytest.mark.parametrize(
"features" , [
None,
{"col_1": "string", "col_2": "int64", "col_3": "float64"},
{"col_1": "string", "col_2": "string", "col_3": "string"},
{"col_1": "int32", "col_2": "int32", "col_3": "int32"},
{"col_1": "float32", "col_2": "float32", "col_3": "float32"},
] , )
def lowercase_ ( _lowerCamelCase : Any , _lowerCamelCase : List[str] , _lowerCamelCase : List[str]):
lowercase__ : str = tmp_path / "cache"
lowercase__ : Tuple = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
lowercase__ : Tuple = features.copy() if features else default_expected_features
lowercase__ : Union[str, Any] = (
Features({feature: Value(_lowerCamelCase) for feature, dtype in features.items()}) if features is not None else None
)
lowercase__ : Tuple = JsonDatasetReader({"train": jsonl_path} , features=_lowerCamelCase , cache_dir=_lowerCamelCase).read()
_check_json_datasetdict(_lowerCamelCase , _lowerCamelCase)
@pytest.mark.parametrize("split" , [None, NamedSplit("train"), "train", "test"])
def lowercase_ ( _lowerCamelCase : str , _lowerCamelCase : Dict , _lowerCamelCase : Tuple):
if split:
lowercase__ : Tuple = {split: jsonl_path}
else:
lowercase__ : Tuple = "train"
lowercase__ : int = {"train": jsonl_path, "test": jsonl_path}
lowercase__ : Dict = tmp_path / "cache"
lowercase__ : Union[str, Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
lowercase__ : Union[str, Any] = JsonDatasetReader(_lowerCamelCase , cache_dir=_lowerCamelCase).read()
_check_json_datasetdict(_lowerCamelCase , _lowerCamelCase , splits=list(path.keys()))
assert all(dataset[split].split == split for split in path.keys())
def lowercase_ ( _lowerCamelCase : Union[str, Any]):
return json.load(_lowerCamelCase)
def lowercase_ ( _lowerCamelCase : Optional[int]):
return [json.loads(_lowerCamelCase) for line in buffer]
class snake_case_ :
@pytest.mark.parametrize("lines, load_json_function" , [(True, load_json_lines), (False, load_json)] )
def __UpperCamelCase ( self : List[Any] , lowercase_ : Any , lowercase_ : Optional[Any] , lowercase_ : Dict ) -> Optional[Any]:
with io.BytesIO() as buffer:
JsonDatasetWriter(lowercase_ , lowercase_ , lines=lowercase_ ).write()
buffer.seek(0 )
lowercase__ : Optional[int] = load_json_function(lowercase_ )
assert isinstance(lowercase_ , lowercase_ )
assert isinstance(exported_content[0] , lowercase_ )
assert len(lowercase_ ) == 10
@pytest.mark.parametrize(
"orient, container, keys, len_at" , [
("records", list, {"tokens", "labels", "answers", "id"}, None),
("split", dict, {"columns", "data"}, "data"),
("index", dict, set("0123456789" ), None),
("columns", dict, {"tokens", "labels", "answers", "id"}, "tokens"),
("values", list, None, None),
("table", dict, {"schema", "data"}, "data"),
] , )
def __UpperCamelCase ( self : str , lowercase_ : int , lowercase_ : str , lowercase_ : Union[str, Any] , lowercase_ : Dict , lowercase_ : Tuple ) -> List[str]:
with io.BytesIO() as buffer:
JsonDatasetWriter(lowercase_ , lowercase_ , lines=lowercase_ , orient=lowercase_ ).write()
buffer.seek(0 )
lowercase__ : str = load_json(lowercase_ )
assert isinstance(lowercase_ , lowercase_ )
if keys:
if container is dict:
assert exported_content.keys() == keys
else:
assert exported_content[0].keys() == keys
else:
assert not hasattr(lowercase_ , "keys" ) and not hasattr(exported_content[0] , "keys" )
if len_at:
assert len(exported_content[len_at] ) == 10
else:
assert len(lowercase_ ) == 10
@pytest.mark.parametrize("lines, load_json_function" , [(True, load_json_lines), (False, load_json)] )
def __UpperCamelCase ( self : List[Any] , lowercase_ : int , lowercase_ : Optional[Any] , lowercase_ : Dict ) -> Optional[int]:
with io.BytesIO() as buffer:
JsonDatasetWriter(lowercase_ , lowercase_ , lines=lowercase_ , num_proc=2 ).write()
buffer.seek(0 )
lowercase__ : str = load_json_function(lowercase_ )
assert isinstance(lowercase_ , lowercase_ )
assert isinstance(exported_content[0] , lowercase_ )
assert len(lowercase_ ) == 10
@pytest.mark.parametrize(
"orient, container, keys, len_at" , [
("records", list, {"tokens", "labels", "answers", "id"}, None),
("split", dict, {"columns", "data"}, "data"),
("index", dict, set("0123456789" ), None),
("columns", dict, {"tokens", "labels", "answers", "id"}, "tokens"),
("values", list, None, None),
("table", dict, {"schema", "data"}, "data"),
] , )
def __UpperCamelCase ( self : Union[str, Any] , lowercase_ : Dict , lowercase_ : Dict , lowercase_ : Optional[int] , lowercase_ : Optional[Any] , lowercase_ : Dict ) -> Any:
with io.BytesIO() as buffer:
JsonDatasetWriter(lowercase_ , lowercase_ , lines=lowercase_ , orient=lowercase_ , num_proc=2 ).write()
buffer.seek(0 )
lowercase__ : Optional[Any] = load_json(lowercase_ )
assert isinstance(lowercase_ , lowercase_ )
if keys:
if container is dict:
assert exported_content.keys() == keys
else:
assert exported_content[0].keys() == keys
else:
assert not hasattr(lowercase_ , "keys" ) and not hasattr(exported_content[0] , "keys" )
if len_at:
assert len(exported_content[len_at] ) == 10
else:
assert len(lowercase_ ) == 10
def __UpperCamelCase ( self : Dict , lowercase_ : List[str] ) -> str:
with pytest.raises(lowercase_ ):
with io.BytesIO() as buffer:
JsonDatasetWriter(lowercase_ , lowercase_ , num_proc=0 )
@pytest.mark.parametrize("compression, extension" , [("gzip", "gz"), ("bz2", "bz2"), ("xz", "xz")] )
def __UpperCamelCase ( self : List[Any] , lowercase_ : Tuple , lowercase_ : List[str] , lowercase_ : Optional[Any] , lowercase_ : str , lowercase_ : List[Any] ) -> Any:
lowercase__ : Dict = tmp_path_factory.mktemp("data" ) / F'''test.json.{extension}'''
lowercase__ : Optional[int] = str(shared_datadir / F'''test_file.json.{extension}''' )
JsonDatasetWriter(lowercase_ , lowercase_ , compression=lowercase_ ).write()
with fsspec.open(lowercase_ , "rb" , compression="infer" ) as f:
lowercase__ : List[Any] = f.read()
with fsspec.open(lowercase_ , "rb" , compression="infer" ) as f:
lowercase__ : str = f.read()
assert exported_content == original_content
| 87 | 0 |
'''simple docstring'''
from collections import OrderedDict
from typing import Any, Mapping, Optional
from ... import PreTrainedTokenizer, TensorType, is_torch_available
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfigWithPast
from ...utils import logging
lowercase : List[str] = logging.get_logger(__name__)
lowercase : str = {
'EleutherAI/gpt-neo-1.3B': 'https://huggingface.co/EleutherAI/gpt-neo-1.3B/resolve/main/config.json',
# See all GPTNeo models at https://huggingface.co/models?filter=gpt_neo
}
class A ( __snake_case ):
__magic_name__ = '''gpt_neo'''
__magic_name__ = ['''past_key_values''']
__magic_name__ = {'''num_attention_heads''': '''num_heads''', '''num_hidden_layers''': '''num_layers'''}
def __init__( self , SCREAMING_SNAKE_CASE=50257 , SCREAMING_SNAKE_CASE=2048 , SCREAMING_SNAKE_CASE=2048 , SCREAMING_SNAKE_CASE=24 , SCREAMING_SNAKE_CASE=[[["global", "local"], 12]] , SCREAMING_SNAKE_CASE=16 , SCREAMING_SNAKE_CASE=None , SCREAMING_SNAKE_CASE=256 , SCREAMING_SNAKE_CASE="gelu_new" , SCREAMING_SNAKE_CASE=0.0 , SCREAMING_SNAKE_CASE=0.0 , SCREAMING_SNAKE_CASE=0.0 , SCREAMING_SNAKE_CASE=0.1 , SCREAMING_SNAKE_CASE=1e-5 , SCREAMING_SNAKE_CASE=0.02 , SCREAMING_SNAKE_CASE=True , SCREAMING_SNAKE_CASE=50256 , SCREAMING_SNAKE_CASE=50256 , **SCREAMING_SNAKE_CASE , ) -> int:
"""simple docstring"""
A : Union[str, Any] = vocab_size
A : Optional[Any] = max_position_embeddings
A : Dict = hidden_size
A : Optional[Any] = num_layers
A : Tuple = num_heads
A : int = intermediate_size
A : Optional[Any] = window_size
A : List[Any] = activation_function
A : Union[str, Any] = resid_dropout
A : Any = embed_dropout
A : List[Any] = attention_dropout
A : str = classifier_dropout
A : List[Any] = layer_norm_epsilon
A : str = initializer_range
A : List[str] = use_cache
A : Optional[int] = bos_token_id
A : List[Any] = eos_token_id
A : int = attention_types
A : int = self.expand_attention_types_params(SCREAMING_SNAKE_CASE )
if len(self.attention_layers ) != self.num_layers:
raise ValueError(
'''Configuration for convolutional module is incorrect. '''
'''It is required that `len(config.attention_layers)` == `config.num_layers` '''
F'but is `len(config.attention_layers) = {len(self.attention_layers )}`, '
F'`config.num_layers = {self.num_layers}`. '
'''`config.attention_layers` is prepared using `config.attention_types`. '''
'''Please verify the value of `config.attention_types` argument.''' )
super().__init__(bos_token_id=SCREAMING_SNAKE_CASE , eos_token_id=SCREAMING_SNAKE_CASE , **SCREAMING_SNAKE_CASE )
@staticmethod
def __lowerCAmelCase ( SCREAMING_SNAKE_CASE ) -> int:
"""simple docstring"""
A : List[str] = []
for item in attention_types:
for _ in range(item[1] ):
attentions.extend(item[0] )
return attentions
def lowerCAmelCase_ ( snake_case__ , snake_case__ , snake_case__ , snake_case__ ):
'''simple docstring'''
import torch
A : Tuple = input.size()
A : Union[str, Any] = len(snake_case__ )
A : List[str] = shape[dimension]
A : Union[str, Any] = torch.arange(0 , snake_case__ , snake_case__ )
A : List[str] = torch.div(sizedim - size , snake_case__ , rounding_mode='''floor''' ) + 1
A : Optional[int] = torch.arange(snake_case__ ) + low_indices[:min_length][:, None]
A : str = [slice(snake_case__ )] * rank
A : List[Any] = indices
A : Union[str, Any] = input[s]
A : List[str] = list(range(0 , rank + 1 ) )
perm.append(perm.pop(dimension + 1 ) )
return sliced.permute(snake_case__ )
def lowerCAmelCase_ ( snake_case__ , snake_case__ ):
'''simple docstring'''
import torch
A : List[str] = torch.arange(1 , snake_case__ )
A : Optional[int] = torch.remainder(snake_case__ , snake_case__ )
A : Optional[int] = remainders == 0
A : Optional[Any] = candidates[divisor_indices]
A : Optional[int] = torch.max(snake_case__ )
return largest_divisor, torch.div(snake_case__ , snake_case__ , rounding_mode='''floor''' )
class A ( __snake_case ):
@property
def __lowerCAmelCase ( self ) -> Mapping[str, Mapping[int, str]]:
"""simple docstring"""
A : Tuple = OrderedDict({'''input_ids''': {0: '''batch''', 1: '''sequence'''}} )
if self.use_past:
self.fill_with_past_key_values_(SCREAMING_SNAKE_CASE , direction='''inputs''' )
A : Optional[Any] = {0: '''batch''', 1: '''past_sequence + sequence'''}
else:
A : Dict = {0: '''batch''', 1: '''sequence'''}
return common_inputs
@property
def __lowerCAmelCase ( self ) -> int:
"""simple docstring"""
return self._config.num_heads
def __lowerCAmelCase ( self , SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE = -1 , SCREAMING_SNAKE_CASE = -1 , SCREAMING_SNAKE_CASE = False , SCREAMING_SNAKE_CASE = None , ) -> Mapping[str, Any]:
"""simple docstring"""
A : List[str] = super(SCREAMING_SNAKE_CASE , self ).generate_dummy_inputs(
SCREAMING_SNAKE_CASE , batch_size=SCREAMING_SNAKE_CASE , seq_length=SCREAMING_SNAKE_CASE , is_pair=SCREAMING_SNAKE_CASE , framework=SCREAMING_SNAKE_CASE )
# We need to order the input in the way they appears in the forward()
A : Any = OrderedDict({'''input_ids''': common_inputs['''input_ids''']} )
# Need to add the past_keys
if self.use_past:
if not is_torch_available():
raise ValueError('''Cannot generate dummy past_keys inputs without PyTorch installed.''' )
else:
import torch
A, A : Dict = common_inputs['''input_ids'''].shape
# Not using the same length for past_key_values
A : str = seqlen + 2
A : List[Any] = (
batch,
self.num_attention_heads,
past_key_values_length,
self._config.hidden_size // self.num_attention_heads,
)
A : Any = [
(torch.zeros(SCREAMING_SNAKE_CASE ), torch.zeros(SCREAMING_SNAKE_CASE )) for _ in range(self.num_layers )
]
A : str = common_inputs['''attention_mask''']
if self.use_past:
A : Optional[int] = ordered_inputs['''attention_mask'''].dtype
A : List[str] = torch.cat(
[ordered_inputs['''attention_mask'''], torch.ones(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE , dtype=SCREAMING_SNAKE_CASE )] , dim=1 )
return ordered_inputs
@property
def __lowerCAmelCase ( self ) -> int:
"""simple docstring"""
return 13
| 3 | import warnings
from typing import List, Optional, Union
from ...processing_utils import ProcessorMixin
from ...tokenization_utils_base import BatchEncoding, PaddingStrategy, PreTokenizedInput, TextInput, TruncationStrategy
from ...utils import TensorType
class snake_case_ ( __A ):
__A : Optional[Any] = ["image_processor", "tokenizer"]
__A : Tuple = "LayoutLMv3ImageProcessor"
__A : List[Any] = ("LayoutLMv3Tokenizer", "LayoutLMv3TokenizerFast")
def __init__( self : Union[str, Any] , lowercase_ : int=None , lowercase_ : str=None , **lowercase_ : Optional[Any] ) -> Optional[int]:
lowercase__ : Union[str, Any] = 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_ , )
lowercase__ : Optional[int] = kwargs.pop("feature_extractor" )
lowercase__ : int = 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 : Dict , lowercase_ : Optional[Any] , lowercase_ : Union[TextInput, PreTokenizedInput, List[TextInput], List[PreTokenizedInput]] = None , lowercase_ : Optional[Union[PreTokenizedInput, List[PreTokenizedInput]]] = None , lowercase_ : Union[List[List[int]], List[List[List[int]]]] = None , lowercase_ : Optional[Union[List[int], List[List[int]]]] = None , lowercase_ : bool = True , lowercase_ : Union[bool, str, PaddingStrategy] = False , lowercase_ : Union[bool, str, TruncationStrategy] = None , lowercase_ : Optional[int] = None , lowercase_ : int = 0 , lowercase_ : Optional[int] = None , lowercase_ : Optional[bool] = None , lowercase_ : Optional[bool] = None , lowercase_ : bool = False , lowercase_ : bool = False , lowercase_ : bool = False , lowercase_ : bool = False , lowercase_ : bool = True , lowercase_ : Optional[Union[str, TensorType]] = None , **lowercase_ : Dict , ) -> BatchEncoding:
# verify input
if self.image_processor.apply_ocr and (boxes is not None):
raise ValueError(
"You cannot provide bounding boxes if you initialized the image processor with apply_ocr set to True." )
if self.image_processor.apply_ocr and (word_labels is not None):
raise ValueError(
"You cannot provide word labels if you initialized the image processor with apply_ocr set to True." )
# first, apply the image processor
lowercase__ : Union[str, Any] = self.image_processor(images=lowercase_ , return_tensors=lowercase_ )
# second, apply the tokenizer
if text is not None and self.image_processor.apply_ocr and text_pair is None:
if isinstance(lowercase_ , lowercase_ ):
lowercase__ : Optional[Any] = [text] # add batch dimension (as the image processor always adds a batch dimension)
lowercase__ : Any = features["words"]
lowercase__ : Tuple = self.tokenizer(
text=text if text is not None else features["words"] , text_pair=text_pair if text_pair is not None else None , boxes=boxes if boxes is not None else features["boxes"] , word_labels=lowercase_ , add_special_tokens=lowercase_ , padding=lowercase_ , truncation=lowercase_ , max_length=lowercase_ , stride=lowercase_ , pad_to_multiple_of=lowercase_ , return_token_type_ids=lowercase_ , return_attention_mask=lowercase_ , return_overflowing_tokens=lowercase_ , return_special_tokens_mask=lowercase_ , return_offsets_mapping=lowercase_ , return_length=lowercase_ , verbose=lowercase_ , return_tensors=lowercase_ , **lowercase_ , )
# add pixel values
lowercase__ : Optional[int] = features.pop("pixel_values" )
if return_overflowing_tokens is True:
lowercase__ : Dict = self.get_overflowing_images(lowercase_ , encoded_inputs["overflow_to_sample_mapping"] )
lowercase__ : str = images
return encoded_inputs
def __UpperCamelCase ( self : List[Any] , lowercase_ : Tuple , lowercase_ : List[Any] ) -> Dict:
# in case there's an overflow, ensure each `input_ids` sample is mapped to its corresponding image
lowercase__ : Tuple = []
for sample_idx in overflow_to_sample_mapping:
images_with_overflow.append(images[sample_idx] )
if len(lowercase_ ) != len(lowercase_ ):
raise ValueError(
"Expected length of images to be the same as the length of `overflow_to_sample_mapping`, but got"
F''' {len(lowercase_ )} and {len(lowercase_ )}''' )
return images_with_overflow
def __UpperCamelCase ( self : int , *lowercase_ : Union[str, Any] , **lowercase_ : List[str] ) -> Union[str, Any]:
return self.tokenizer.batch_decode(*lowercase_ , **lowercase_ )
def __UpperCamelCase ( self : Union[str, Any] , *lowercase_ : str , **lowercase_ : int ) -> Dict:
return self.tokenizer.decode(*lowercase_ , **lowercase_ )
@property
def __UpperCamelCase ( self : Any ) -> Any:
return ["input_ids", "bbox", "attention_mask", "pixel_values"]
@property
def __UpperCamelCase ( self : Optional[int] ) -> Optional[Any]:
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 : List[Any] ) -> Tuple:
warnings.warn(
"`feature_extractor` is deprecated and will be removed in v5. Use `image_processor` instead." , lowercase_ , )
return self.image_processor
| 87 | 0 |
'''simple docstring'''
from __future__ import annotations
from PIL import Image
# Define glider example
__snake_case =[
[0, 1, 0, 0, 0, 0, 0, 0],
[0, 0, 1, 0, 0, 0, 0, 0],
[1, 1, 1, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0, 0],
]
# Define blinker example
__snake_case =[[0, 1, 0], [0, 1, 0], [0, 1, 0]]
def a_ ( lowerCamelCase : list[list[int]] ):
lowerCAmelCase = []
for i in range(len(lowerCamelCase ) ):
lowerCAmelCase = []
for j in range(len(cells[i] ) ):
# Get the number of live neighbours
lowerCAmelCase = 0
if i > 0 and j > 0:
neighbour_count += cells[i - 1][j - 1]
if i > 0:
neighbour_count += cells[i - 1][j]
if i > 0 and j < len(cells[i] ) - 1:
neighbour_count += cells[i - 1][j + 1]
if j > 0:
neighbour_count += cells[i][j - 1]
if j < len(cells[i] ) - 1:
neighbour_count += cells[i][j + 1]
if i < len(lowerCamelCase ) - 1 and j > 0:
neighbour_count += cells[i + 1][j - 1]
if i < len(lowerCamelCase ) - 1:
neighbour_count += cells[i + 1][j]
if i < len(lowerCamelCase ) - 1 and j < len(cells[i] ) - 1:
neighbour_count += cells[i + 1][j + 1]
# Rules of the game of life (excerpt from Wikipedia):
# 1. Any live cell with two or three live neighbours survives.
# 2. Any dead cell with three live neighbours becomes a live cell.
# 3. All other live cells die in the next generation.
# Similarly, all other dead cells stay dead.
lowerCAmelCase = cells[i][j] == 1
if (
(alive and 2 <= neighbour_count <= 3)
or not alive
and neighbour_count == 3
):
next_generation_row.append(1 )
else:
next_generation_row.append(0 )
next_generation.append(lowerCamelCase )
return next_generation
def a_ ( lowerCamelCase : list[list[int]] , lowerCamelCase : int ):
lowerCAmelCase = []
for _ in range(lowerCamelCase ):
# Create output image
lowerCAmelCase = Image.new('RGB' , (len(cells[0] ), len(lowerCamelCase )) )
lowerCAmelCase = img.load()
# Save cells to image
for x in range(len(lowerCamelCase ) ):
for y in range(len(cells[0] ) ):
lowerCAmelCase = 255 - cells[y][x] * 255
lowerCAmelCase = (colour, colour, colour)
# Save image
images.append(lowerCamelCase )
lowerCAmelCase = new_generation(lowerCamelCase )
return images
if __name__ == "__main__":
__snake_case =generate_images(GLIDER, 16)
images[0].save("""out.gif""", save_all=True, append_images=images[1:])
| 4 | from typing import Dict, List, Optional, Union
import numpy as np
from ...image_processing_utils import BaseImageProcessor, BatchFeature, get_size_dict
from ...image_transforms import (
center_crop,
convert_to_rgb,
get_resize_output_image_size,
normalize,
rescale,
resize,
to_channel_dimension_format,
)
from ...image_utils import (
OPENAI_CLIP_MEAN,
OPENAI_CLIP_STD,
ChannelDimension,
ImageInput,
PILImageResampling,
make_list_of_images,
to_numpy_array,
valid_images,
)
from ...utils import TensorType, is_vision_available, logging
UpperCamelCase = logging.get_logger(__name__)
if is_vision_available():
import PIL
class snake_case_ ( __A ):
__A : str = ["pixel_values"]
def __init__( self : int , lowercase_ : bool = True , lowercase_ : Dict[str, int] = None , lowercase_ : PILImageResampling = PILImageResampling.BICUBIC , lowercase_ : bool = True , lowercase_ : Dict[str, int] = None , lowercase_ : bool = True , lowercase_ : Union[int, float] = 1 / 2_55 , lowercase_ : bool = True , lowercase_ : Optional[Union[float, List[float]]] = None , lowercase_ : Optional[Union[float, List[float]]] = None , lowercase_ : bool = True , **lowercase_ : Union[str, Any] , ) -> None:
super().__init__(**lowercase_ )
lowercase__ : Tuple = size if size is not None else {"shortest_edge": 2_24}
lowercase__ : Tuple = get_size_dict(lowercase_ , default_to_square=lowercase_ )
lowercase__ : List[str] = crop_size if crop_size is not None else {"height": 2_24, "width": 2_24}
lowercase__ : Tuple = get_size_dict(lowercase_ , default_to_square=lowercase_ , param_name="crop_size" )
lowercase__ : Dict = do_resize
lowercase__ : List[Any] = size
lowercase__ : int = resample
lowercase__ : Union[str, Any] = do_center_crop
lowercase__ : Optional[int] = crop_size
lowercase__ : List[str] = do_rescale
lowercase__ : int = rescale_factor
lowercase__ : List[Any] = do_normalize
lowercase__ : Union[str, Any] = image_mean if image_mean is not None else OPENAI_CLIP_MEAN
lowercase__ : str = image_std if image_std is not None else OPENAI_CLIP_STD
lowercase__ : Dict = do_convert_rgb
def __UpperCamelCase ( self : Optional[Any] , lowercase_ : np.ndarray , lowercase_ : Dict[str, int] , lowercase_ : PILImageResampling = PILImageResampling.BICUBIC , lowercase_ : Optional[Union[str, ChannelDimension]] = None , **lowercase_ : Union[str, Any] , ) -> np.ndarray:
lowercase__ : str = get_size_dict(lowercase_ , default_to_square=lowercase_ )
if "shortest_edge" not in size:
raise ValueError(F'''The `size` parameter must contain the key `shortest_edge`. Got {size.keys()}''' )
lowercase__ : Dict = get_resize_output_image_size(lowercase_ , size=size["shortest_edge"] , default_to_square=lowercase_ )
return resize(lowercase_ , size=lowercase_ , resample=lowercase_ , data_format=lowercase_ , **lowercase_ )
def __UpperCamelCase ( self : int , lowercase_ : np.ndarray , lowercase_ : Dict[str, int] , lowercase_ : Optional[Union[str, ChannelDimension]] = None , **lowercase_ : int , ) -> np.ndarray:
lowercase__ : Optional[Any] = get_size_dict(lowercase_ )
if "height" not in size or "width" not in size:
raise ValueError(F'''The `size` parameter must contain the keys (height, width). Got {size.keys()}''' )
return center_crop(lowercase_ , size=(size["height"], size["width"]) , data_format=lowercase_ , **lowercase_ )
def __UpperCamelCase ( self : Optional[Any] , lowercase_ : np.ndarray , lowercase_ : Union[int, float] , lowercase_ : Optional[Union[str, ChannelDimension]] = None , **lowercase_ : Optional[Any] , ) -> Any:
return rescale(lowercase_ , scale=lowercase_ , data_format=lowercase_ , **lowercase_ )
def __UpperCamelCase ( self : str , lowercase_ : np.ndarray , lowercase_ : Union[float, List[float]] , lowercase_ : Union[float, List[float]] , lowercase_ : Optional[Union[str, ChannelDimension]] = None , **lowercase_ : str , ) -> np.ndarray:
return normalize(lowercase_ , mean=lowercase_ , std=lowercase_ , data_format=lowercase_ , **lowercase_ )
def __UpperCamelCase ( self : Optional[Any] , lowercase_ : ImageInput , lowercase_ : bool = None , lowercase_ : Dict[str, int] = None , lowercase_ : PILImageResampling = None , lowercase_ : bool = None , lowercase_ : int = None , lowercase_ : bool = None , lowercase_ : float = None , lowercase_ : bool = None , lowercase_ : Optional[Union[float, List[float]]] = None , lowercase_ : Optional[Union[float, List[float]]] = None , lowercase_ : bool = None , lowercase_ : Optional[Union[str, TensorType]] = None , lowercase_ : Optional[ChannelDimension] = ChannelDimension.FIRST , **lowercase_ : Union[str, Any] , ) -> PIL.Image.Image:
lowercase__ : int = do_resize if do_resize is not None else self.do_resize
lowercase__ : Dict = size if size is not None else self.size
lowercase__ : List[Any] = get_size_dict(lowercase_ , param_name="size" , default_to_square=lowercase_ )
lowercase__ : Dict = resample if resample is not None else self.resample
lowercase__ : int = do_center_crop if do_center_crop is not None else self.do_center_crop
lowercase__ : Dict = crop_size if crop_size is not None else self.crop_size
lowercase__ : List[str] = get_size_dict(lowercase_ , param_name="crop_size" , default_to_square=lowercase_ )
lowercase__ : int = do_rescale if do_rescale is not None else self.do_rescale
lowercase__ : Dict = rescale_factor if rescale_factor is not None else self.rescale_factor
lowercase__ : Union[str, Any] = do_normalize if do_normalize is not None else self.do_normalize
lowercase__ : int = image_mean if image_mean is not None else self.image_mean
lowercase__ : List[str] = image_std if image_std is not None else self.image_std
lowercase__ : Union[str, Any] = do_convert_rgb if do_convert_rgb is not None else self.do_convert_rgb
lowercase__ : 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." )
if do_center_crop and crop_size is None:
raise ValueError("Crop size must be specified if do_center_crop is True." )
if do_rescale and rescale_factor is None:
raise ValueError("Rescale factor must be specified if do_rescale is True." )
if do_normalize and (image_mean is None or image_std is None):
raise ValueError("Image mean and std must be specified if do_normalize is True." )
# PIL RGBA images are converted to RGB
if do_convert_rgb:
lowercase__ : Dict = [convert_to_rgb(lowercase_ ) for image in images]
# All transformations expect numpy arrays.
lowercase__ : Optional[Any] = [to_numpy_array(lowercase_ ) for image in images]
if do_resize:
lowercase__ : List[Any] = [self.resize(image=lowercase_ , size=lowercase_ , resample=lowercase_ ) for image in images]
if do_center_crop:
lowercase__ : int = [self.center_crop(image=lowercase_ , size=lowercase_ ) for image in images]
if do_rescale:
lowercase__ : str = [self.rescale(image=lowercase_ , scale=lowercase_ ) for image in images]
if do_normalize:
lowercase__ : Optional[int] = [self.normalize(image=lowercase_ , mean=lowercase_ , std=lowercase_ ) for image in images]
lowercase__ : Optional[Any] = [to_channel_dimension_format(lowercase_ , lowercase_ ) for image in images]
lowercase__ : List[str] = {"pixel_values": images}
return BatchFeature(data=lowercase_ , tensor_type=lowercase_ )
| 87 | 0 |
import argparse
import pickle
import numpy as np
import torch
from torch import nn
from transformers import ReformerConfig, ReformerModelWithLMHead
from transformers.utils import logging
logging.set_verbosity_info()
def UpperCAmelCase_ ( __snake_case , __snake_case , __snake_case=None ) -> Tuple:
"""simple docstring"""
assert torch_layer.weight.shape == weight.shape, F"{torch_layer} layer.weight does not match"
_lowercase =nn.Parameter(__snake_case )
if bias is not None:
assert torch_layer.bias.shape == bias.shape, F"{torch_layer} layer.bias does not match"
_lowercase =nn.Parameter(__snake_case )
def UpperCAmelCase_ ( __snake_case , __snake_case , __snake_case ) -> Union[str, Any]:
"""simple docstring"""
_lowercase =np.asarray(weights[0] )
_lowercase =np.asarray(weights[1] )
_lowercase =np.asarray(weights[2] )
set_param(
torch_layer.self_attention.query_key , torch.tensor(__snake_case ).transpose(1 , 2 ).contiguous().view(-1 , __snake_case ) , )
set_param(
torch_layer.self_attention.value , torch.tensor(__snake_case ).transpose(1 , 2 ).contiguous().view(-1 , __snake_case ) , )
set_param(
torch_layer.output.dense , torch.tensor(__snake_case ).view(-1 , __snake_case ).contiguous().transpose(0 , 1 ) , )
def UpperCAmelCase_ ( __snake_case , __snake_case , __snake_case ) -> int:
"""simple docstring"""
_lowercase =np.asarray(weights[0] )
_lowercase =np.asarray(weights[1] )
_lowercase =np.asarray(weights[2] )
_lowercase =np.asarray(weights[3] )
set_param(
torch_layer.self_attention.query , torch.tensor(__snake_case ).transpose(1 , 2 ).contiguous().view(-1 , __snake_case ) , )
set_param(
torch_layer.self_attention.key , torch.tensor(__snake_case ).transpose(1 , 2 ).contiguous().view(-1 , __snake_case ) , )
set_param(
torch_layer.self_attention.value , torch.tensor(__snake_case ).transpose(1 , 2 ).contiguous().view(-1 , __snake_case ) , )
set_param(
torch_layer.output.dense , torch.tensor(__snake_case ).view(-1 , __snake_case ).contiguous().transpose(0 , 1 ) , )
def UpperCAmelCase_ ( __snake_case , __snake_case , __snake_case ) -> Optional[Any]:
"""simple docstring"""
_lowercase =weights[0][0][0]
_lowercase =np.asarray(layer_norm_a[0] )
_lowercase =np.asarray(layer_norm_a[1] )
set_param(
torch_block.attention.layer_norm , torch.tensor(__snake_case ) , torch.tensor(__snake_case ) , )
# lsh weights + output
_lowercase =weights[0][1]
if len(__snake_case ) < 4:
set_layer_weights_in_torch_lsh(__snake_case , torch_block.attention , __snake_case )
else:
set_layer_weights_in_torch_local(__snake_case , torch_block.attention , __snake_case )
# intermediate weighs
_lowercase =weights[2][0][1][2]
# Chunked Feed Forward
if len(__snake_case ) == 4:
_lowercase =intermediate_weights[2]
# layernorm 2
_lowercase =np.asarray(intermediate_weights[0][0] )
_lowercase =np.asarray(intermediate_weights[0][1] )
set_param(
torch_block.feed_forward.layer_norm , torch.tensor(__snake_case ) , torch.tensor(__snake_case ) , )
# intermediate dense
_lowercase =np.asarray(intermediate_weights[1][0] )
_lowercase =np.asarray(intermediate_weights[1][1] )
set_param(
torch_block.feed_forward.dense.dense , torch.tensor(__snake_case ).transpose(0 , 1 ).contiguous() , torch.tensor(__snake_case ) , )
# intermediate out
_lowercase =np.asarray(intermediate_weights[4][0] )
_lowercase =np.asarray(intermediate_weights[4][1] )
set_param(
torch_block.feed_forward.output.dense , torch.tensor(__snake_case ).transpose(0 , 1 ).contiguous() , torch.tensor(__snake_case ) , )
def UpperCAmelCase_ ( __snake_case , __snake_case , __snake_case ) -> List[Any]:
"""simple docstring"""
_lowercase =torch_model.reformer
# word embeds
_lowercase =np.asarray(weights[1] )
set_param(
torch_model_reformer.embeddings.word_embeddings , torch.tensor(__snake_case ) , )
if isinstance(weights[3] , __snake_case ):
_lowercase =torch_model_reformer.embeddings.position_embeddings
for emb_idx in range(len(position_embeddings.weights ) ):
_lowercase =np.asarray(weights[3][emb_idx][0] )
assert (
position_embeddings.weights[emb_idx].shape == emb_weights.shape
), F"{position_embeddings[emb_idx]} emb does not match"
_lowercase =nn.Parameter(torch.tensor(__snake_case ) )
_lowercase =weights[5]
assert len(torch_model_reformer.encoder.layers ) * 4 == len(
__snake_case ), "HF and trax model do not have the same number of layers"
for layer_idx, layer in enumerate(torch_model_reformer.encoder.layers ):
_lowercase =trax_layer_weights[4 * layer_idx : 4 * (layer_idx + 1)]
set_block_weights_in_torch(__snake_case , __snake_case , __snake_case )
# output layer norm
_lowercase =np.asarray(weights[7][0] )
_lowercase =np.asarray(weights[7][1] )
set_param(
torch_model_reformer.encoder.layer_norm , torch.tensor(__snake_case ) , torch.tensor(__snake_case ) , )
# output embeddings
_lowercase =np.asarray(weights[9][0] )
_lowercase =np.asarray(weights[9][1] )
set_param(
torch_model.lm_head.decoder , torch.tensor(__snake_case ).transpose(0 , 1 ).contiguous() , torch.tensor(__snake_case ) , )
def UpperCAmelCase_ ( __snake_case , __snake_case , __snake_case ) -> Any:
"""simple docstring"""
_lowercase =ReformerConfig.from_json_file(__snake_case )
print(F"Building PyTorch model from configuration: {config}" )
_lowercase =ReformerModelWithLMHead(__snake_case )
with open(__snake_case , '''rb''' ) as f:
_lowercase =pickle.load(__snake_case )['''weights''']
set_model_weights_in_torch(__snake_case , __snake_case , config.hidden_size )
# Save pytorch-model
print(F"Save PyTorch model to {pytorch_dump_path}" )
torch.save(model.state_dict() , __snake_case )
if __name__ == "__main__":
UpperCAmelCase__ = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
'''--trax_model_pkl_path''', default=None, type=str, required=True, help='''Path to the TensorFlow checkpoint path.'''
)
parser.add_argument(
'''--config_file''',
default=None,
type=str,
required=True,
help=(
'''The config json file corresponding to the pre-trained Reformer model. \n'''
'''This specifies the model architecture.'''
),
)
parser.add_argument(
'''--pytorch_dump_path''', default=None, type=str, required=True, help='''Path to the output PyTorch model.'''
)
UpperCAmelCase__ = parser.parse_args()
convert_trax_checkpoint_to_pytorch(args.trax_model_pkl_path, args.config_file, args.pytorch_dump_path)
| 5 | from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available
UpperCamelCase = {}
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = ['''GPTSw3Tokenizer''']
if TYPE_CHECKING:
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_gpt_swa import GPTSwaTokenizer
else:
import sys
UpperCamelCase = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
| 87 | 0 |
import shutil
import tempfile
import unittest
import numpy as np
import pytest
from transformers import is_speech_available, is_vision_available
from transformers.testing_utils import require_torch
if is_vision_available():
from transformers import TvltImageProcessor
if is_speech_available():
from transformers import TvltFeatureExtractor
from transformers import TvltProcessor
@require_torch
class __A( unittest.TestCase ):
def SCREAMING_SNAKE_CASE_ ( self ) -> Union[str, Any]:
'''simple docstring'''
__a = '''ZinengTang/tvlt-base'''
__a = tempfile.mkdtemp()
def SCREAMING_SNAKE_CASE_ ( self , **_snake_case ) -> List[str]:
'''simple docstring'''
return TvltImageProcessor.from_pretrained(self.checkpoint , **_snake_case )
def SCREAMING_SNAKE_CASE_ ( self , **_snake_case ) -> Union[str, Any]:
'''simple docstring'''
return TvltFeatureExtractor.from_pretrained(self.checkpoint , **_snake_case )
def SCREAMING_SNAKE_CASE_ ( self ) -> List[Any]:
'''simple docstring'''
shutil.rmtree(self.tmpdirname )
def SCREAMING_SNAKE_CASE_ ( self ) -> Union[str, Any]:
'''simple docstring'''
__a = self.get_image_processor()
__a = self.get_feature_extractor()
__a = TvltProcessor(image_processor=_snake_case , feature_extractor=_snake_case )
processor.save_pretrained(self.tmpdirname )
__a = TvltProcessor.from_pretrained(self.tmpdirname )
self.assertIsInstance(processor.feature_extractor , _snake_case )
self.assertIsInstance(processor.image_processor , _snake_case )
def SCREAMING_SNAKE_CASE_ ( self ) -> Union[str, Any]:
'''simple docstring'''
__a = self.get_image_processor()
__a = self.get_feature_extractor()
__a = TvltProcessor(image_processor=_snake_case , feature_extractor=_snake_case )
__a = np.ones([12_000] )
__a = feature_extractor(_snake_case , return_tensors='''np''' )
__a = processor(audio=_snake_case , return_tensors='''np''' )
for key in audio_dict.keys():
self.assertAlmostEqual(audio_dict[key].sum() , input_processor[key].sum() , delta=1E-2 )
def SCREAMING_SNAKE_CASE_ ( self ) -> str:
'''simple docstring'''
__a = self.get_image_processor()
__a = self.get_feature_extractor()
__a = TvltProcessor(image_processor=_snake_case , feature_extractor=_snake_case )
__a = np.ones([3, 224, 224] )
__a = image_processor(_snake_case , return_tensors='''np''' )
__a = processor(images=_snake_case , return_tensors='''np''' )
for key in image_dict.keys():
self.assertAlmostEqual(image_dict[key].sum() , input_processor[key].sum() , delta=1E-2 )
def SCREAMING_SNAKE_CASE_ ( self ) -> List[Any]:
'''simple docstring'''
__a = self.get_image_processor()
__a = self.get_feature_extractor()
__a = TvltProcessor(image_processor=_snake_case , feature_extractor=_snake_case )
__a = np.ones([12_000] )
__a = np.ones([3, 224, 224] )
__a = processor(audio=_snake_case , images=_snake_case )
self.assertListEqual(list(inputs.keys() ) , ['''audio_values''', '''audio_mask''', '''pixel_values''', '''pixel_mask'''] )
# test if it raises when no input is passed
with pytest.raises(_snake_case ):
processor()
def SCREAMING_SNAKE_CASE_ ( self ) -> Optional[Any]:
'''simple docstring'''
__a = self.get_image_processor()
__a = self.get_feature_extractor()
__a = TvltProcessor(image_processor=_snake_case , feature_extractor=_snake_case )
self.assertListEqual(
processor.model_input_names , image_processor.model_input_names + feature_extractor.model_input_names , msg='''`processor` and `image_processor`+`feature_extractor` model input names do not match''' , ) | 6 | UpperCamelCase = [0, 2, 4, 6, 8]
UpperCamelCase = [1, 3, 5, 7, 9]
def lowercase_ ( _lowerCamelCase : int , _lowerCamelCase : int , _lowerCamelCase : list[int] , _lowerCamelCase : int):
if remaining_length == 0:
if digits[0] == 0 or digits[-1] == 0:
return 0
for i in range(length // 2 - 1 , -1 , -1):
remainder += digits[i] + digits[length - i - 1]
if remainder % 2 == 0:
return 0
remainder //= 10
return 1
if remaining_length == 1:
if remainder % 2 == 0:
return 0
lowercase__ : str = 0
for digit in range(10):
lowercase__ : str = digit
result += reversible_numbers(
0 , (remainder + 2 * digit) // 10 , _lowerCamelCase , _lowerCamelCase)
return result
lowercase__ : Dict = 0
for digita in range(10):
lowercase__ : int = digita
if (remainder + digita) % 2 == 0:
lowercase__ : Optional[Any] = ODD_DIGITS
else:
lowercase__ : str = EVEN_DIGITS
for digita in other_parity_digits:
lowercase__ : List[str] = digita
result += reversible_numbers(
remaining_length - 2 , (remainder + digita + digita) // 10 , _lowerCamelCase , _lowerCamelCase , )
return result
def lowercase_ ( _lowerCamelCase : int = 9):
lowercase__ : Tuple = 0
for length in range(1 , max_power + 1):
result += reversible_numbers(_lowerCamelCase , 0 , [0] * length , _lowerCamelCase)
return result
if __name__ == "__main__":
print(f"{solution() = }")
| 87 | 0 |
from __future__ import annotations
from collections.abc import Callable
lowercase_ = list[list[float | int]]
def _snake_case( SCREAMING_SNAKE_CASE__ : Matrix , SCREAMING_SNAKE_CASE__ : Matrix ) -> Matrix:
'''simple docstring'''
A__ = len(SCREAMING_SNAKE_CASE__ )
A__ = [[0 for _ in range(size + 1 )] for _ in range(SCREAMING_SNAKE_CASE__ )]
A__ = 42
A__ = 42
A__ = 42
A__ = 42
A__ = 42
A__ = 42
for row in range(SCREAMING_SNAKE_CASE__ ):
for col in range(SCREAMING_SNAKE_CASE__ ):
A__ = matrix[row][col]
A__ = vector[row][0]
A__ = 0
A__ = 0
while row < size and col < size:
# pivoting
A__ = max((abs(augmented[rowa][col] ), rowa) for rowa in range(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ) )[
1
]
if augmented[pivot_row][col] == 0:
col += 1
continue
else:
A__ , A__ = augmented[pivot_row], augmented[row]
for rowa in range(row + 1 , SCREAMING_SNAKE_CASE__ ):
A__ = augmented[rowa][col] / augmented[row][col]
A__ = 0
for cola in range(col + 1 , size + 1 ):
augmented[rowa][cola] -= augmented[row][cola] * ratio
row += 1
col += 1
# back substitution
for col in range(1 , SCREAMING_SNAKE_CASE__ ):
for row in range(SCREAMING_SNAKE_CASE__ ):
A__ = augmented[row][col] / augmented[col][col]
for cola in range(SCREAMING_SNAKE_CASE__ , size + 1 ):
augmented[row][cola] -= augmented[col][cola] * ratio
# round to get rid of numbers like 2.000000000000004
return [
[round(augmented[row][size] / augmented[row][row] , 10 )] for row in range(SCREAMING_SNAKE_CASE__ )
]
def _snake_case( SCREAMING_SNAKE_CASE__ : list[int] ) -> Callable[[int], int]:
'''simple docstring'''
A__ = len(SCREAMING_SNAKE_CASE__ )
A__ = [[0 for _ in range(SCREAMING_SNAKE_CASE__ )] for _ in range(SCREAMING_SNAKE_CASE__ )]
A__ = [[0] for _ in range(SCREAMING_SNAKE_CASE__ )]
A__ = 42
A__ = 42
A__ = 42
A__ = 42
for x_val, y_val in enumerate(SCREAMING_SNAKE_CASE__ ):
for col in range(SCREAMING_SNAKE_CASE__ ):
A__ = (x_val + 1) ** (size - col - 1)
A__ = y_val
A__ = solve(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ )
def interpolated_func(SCREAMING_SNAKE_CASE__ : int ) -> int:
return sum(
round(coeffs[x_val][0] ) * (var ** (size - x_val - 1))
for x_val in range(SCREAMING_SNAKE_CASE__ ) )
return interpolated_func
def _snake_case( SCREAMING_SNAKE_CASE__ : int ) -> int:
'''simple docstring'''
return (
1
- variable
+ variable**2
- variable**3
+ variable**4
- variable**5
+ variable**6
- variable**7
+ variable**8
- variable**9
+ variable**10
)
def _snake_case( SCREAMING_SNAKE_CASE__ : Callable[[int], int] = question_function , SCREAMING_SNAKE_CASE__ : int = 10 ) -> int:
'''simple docstring'''
A__ = [func(SCREAMING_SNAKE_CASE__ ) for x_val in range(1 , order + 1 )]
A__ = [
interpolate(data_points[:max_coeff] ) for max_coeff in range(1 , order + 1 )
]
A__ = 0
A__ = 42
A__ = 42
for poly in polynomials:
A__ = 1
while func(SCREAMING_SNAKE_CASE__ ) == poly(SCREAMING_SNAKE_CASE__ ):
x_val += 1
ret += poly(SCREAMING_SNAKE_CASE__ )
return ret
if __name__ == "__main__":
print(f"""{solution() = }""")
| 7 | import sacrebleu as scb
from packaging import version
from sacrebleu import TER
import datasets
UpperCamelCase = '''\
@inproceedings{snover-etal-2006-study,
title = "A Study of Translation Edit Rate with Targeted Human Annotation",
author = "Snover, Matthew and
Dorr, Bonnie and
Schwartz, Rich and
Micciulla, Linnea and
Makhoul, John",
booktitle = "Proceedings of the 7th Conference of the Association for Machine Translation in the Americas: Technical Papers",
month = aug # " 8-12",
year = "2006",
address = "Cambridge, Massachusetts, USA",
publisher = "Association for Machine Translation in the Americas",
url = "https://aclanthology.org/2006.amta-papers.25",
pages = "223--231",
}
@inproceedings{post-2018-call,
title = "A Call for Clarity in Reporting {BLEU} Scores",
author = "Post, Matt",
booktitle = "Proceedings of the Third Conference on Machine Translation: Research Papers",
month = oct,
year = "2018",
address = "Belgium, Brussels",
publisher = "Association for Computational Linguistics",
url = "https://www.aclweb.org/anthology/W18-6319",
pages = "186--191",
}
'''
UpperCamelCase = '''\
TER (Translation Edit Rate, also called Translation Error Rate) is a metric to quantify the edit operations that a
hypothesis requires to match a reference translation. We use the implementation that is already present in sacrebleu
(https://github.com/mjpost/sacreBLEU#ter), which in turn is inspired by the TERCOM implementation, which can be found
here: https://github.com/jhclark/tercom.
The implementation here is slightly different from sacrebleu in terms of the required input format. The length of
the references and hypotheses lists need to be the same, so you may need to transpose your references compared to
sacrebleu\'s required input format. See https://github.com/huggingface/datasets/issues/3154#issuecomment-950746534
See the README.md file at https://github.com/mjpost/sacreBLEU#ter for more information.
'''
UpperCamelCase = '''
Produces TER scores alongside the number of edits and reference length.
Args:
predictions (list of str): The system stream (a sequence of segments).
references (list of list of str): A list of one or more reference streams (each a sequence of segments).
normalized (boolean): If `True`, applies basic tokenization and normalization to sentences. Defaults to `False`.
ignore_punct (boolean): If `True`, applies basic tokenization and normalization to sentences. Defaults to `False`.
support_zh_ja_chars (boolean): If `True`, tokenization/normalization supports processing of Chinese characters,
as well as Japanese Kanji, Hiragana, Katakana, and Phonetic Extensions of Katakana.
Only applies if `normalized = True`. Defaults to `False`.
case_sensitive (boolean): If `False`, makes all predictions and references lowercase to ignore differences in case. Defaults to `False`.
Returns:
\'score\' (float): TER score (num_edits / sum_ref_lengths * 100)
\'num_edits\' (int): The cumulative number of edits
\'ref_length\' (float): The cumulative average reference length
Examples:
Example 1:
>>> predictions = ["does this sentence match??",
... "what about this sentence?",
... "What did the TER metric user say to the developer?"]
>>> references = [["does this sentence match", "does this sentence match!?!"],
... ["wHaT aBoUt ThIs SeNtEnCe?", "wHaT aBoUt ThIs SeNtEnCe?"],
... ["Your jokes are...", "...TERrible"]]
>>> ter = datasets.load_metric("ter")
>>> results = ter.compute(predictions=predictions,
... references=references,
... case_sensitive=True)
>>> print(results)
{\'score\': 150.0, \'num_edits\': 15, \'ref_length\': 10.0}
Example 2:
>>> predictions = ["does this sentence match??",
... "what about this sentence?"]
>>> references = [["does this sentence match", "does this sentence match!?!"],
... ["wHaT aBoUt ThIs SeNtEnCe?", "wHaT aBoUt ThIs SeNtEnCe?"]]
>>> ter = datasets.load_metric("ter")
>>> results = ter.compute(predictions=predictions,
... references=references,
... case_sensitive=True)
>>> print(results)
{\'score\': 62.5, \'num_edits\': 5, \'ref_length\': 8.0}
Example 3:
>>> predictions = ["does this sentence match??",
... "what about this sentence?"]
>>> references = [["does this sentence match", "does this sentence match!?!"],
... ["wHaT aBoUt ThIs SeNtEnCe?", "wHaT aBoUt ThIs SeNtEnCe?"]]
>>> ter = datasets.load_metric("ter")
>>> results = ter.compute(predictions=predictions,
... references=references,
... normalized=True,
... case_sensitive=True)
>>> print(results)
{\'score\': 57.14285714285714, \'num_edits\': 6, \'ref_length\': 10.5}
Example 4:
>>> predictions = ["does this sentence match??",
... "what about this sentence?"]
>>> references = [["does this sentence match", "does this sentence match!?!"],
... ["wHaT aBoUt ThIs SeNtEnCe?", "wHaT aBoUt ThIs SeNtEnCe?"]]
>>> ter = datasets.load_metric("ter")
>>> results = ter.compute(predictions=predictions,
... references=references,
... ignore_punct=True,
... case_sensitive=False)
>>> print(results)
{\'score\': 0.0, \'num_edits\': 0, \'ref_length\': 8.0}
Example 5:
>>> predictions = ["does this sentence match??",
... "what about this sentence?",
... "What did the TER metric user say to the developer?"]
>>> references = [["does this sentence match", "does this sentence match!?!"],
... ["wHaT aBoUt ThIs SeNtEnCe?", "wHaT aBoUt ThIs SeNtEnCe?"],
... ["Your jokes are...", "...TERrible"]]
>>> ter = datasets.load_metric("ter")
>>> results = ter.compute(predictions=predictions,
... references=references,
... ignore_punct=True,
... case_sensitive=False)
>>> print(results)
{\'score\': 100.0, \'num_edits\': 10, \'ref_length\': 10.0}
'''
@datasets.utils.file_utils.add_start_docstrings(_DESCRIPTION ,_KWARGS_DESCRIPTION )
class snake_case_ ( datasets.Metric ):
def __UpperCamelCase ( self : Union[str, Any] ) -> Tuple:
if version.parse(scb.__version__ ) < version.parse("1.4.12" ):
raise ImportWarning(
"To use `sacrebleu`, the module `sacrebleu>=1.4.12` is required, and the current version of `sacrebleu` doesn't match this condition.\n"
"You can install it with `pip install \"sacrebleu>=1.4.12\"`." )
return datasets.MetricInfo(
description=_DESCRIPTION , citation=_CITATION , homepage="http://www.cs.umd.edu/~snover/tercom/" , inputs_description=_KWARGS_DESCRIPTION , features=datasets.Features(
{
"predictions": datasets.Value("string" , id="sequence" ),
"references": datasets.Sequence(datasets.Value("string" , id="sequence" ) , id="references" ),
} ) , codebase_urls=["https://github.com/mjpost/sacreBLEU#ter"] , reference_urls=[
"https://github.com/jhclark/tercom",
] , )
def __UpperCamelCase ( self : Optional[Any] , lowercase_ : str , lowercase_ : Optional[int] , lowercase_ : bool = False , lowercase_ : bool = False , lowercase_ : bool = False , lowercase_ : bool = False , ) -> Any:
lowercase__ : Optional[int] = len(references[0] )
if any(len(lowercase_ ) != references_per_prediction for refs in references ):
raise ValueError("Sacrebleu requires the same number of references for each prediction" )
lowercase__ : Union[str, Any] = [[refs[i] for refs in references] for i in range(lowercase_ )]
lowercase__ : str = TER(
normalized=lowercase_ , no_punct=lowercase_ , asian_support=lowercase_ , case_sensitive=lowercase_ , )
lowercase__ : List[str] = sb_ter.corpus_score(lowercase_ , lowercase_ )
return {"score": output.score, "num_edits": output.num_edits, "ref_length": output.ref_length}
| 87 | 0 |
import functools
import gc
import inspect
import torch
from .imports import is_npu_available, is_xpu_available
def __SCREAMING_SNAKE_CASE (*SCREAMING_SNAKE_CASE__ ):
if not isinstance(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ):
snake_case_ = list(SCREAMING_SNAKE_CASE__ )
for i in range(len(SCREAMING_SNAKE_CASE__ ) ):
snake_case_ = None
gc.collect()
if is_xpu_available():
torch.xpu.empty_cache()
elif is_npu_available():
torch.npu.empty_cache()
else:
torch.cuda.empty_cache()
return objects
def __SCREAMING_SNAKE_CASE (SCREAMING_SNAKE_CASE__ ):
snake_case_ = [
'''CUDA out of memory.''', # CUDA OOM
'''cuDNN error: CUDNN_STATUS_NOT_SUPPORTED.''', # CUDNN SNAFU
'''DefaultCPUAllocator: can\'t allocate memory''', # CPU OOM
]
if isinstance(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ ) and len(exception.args ) == 1:
return any(err in exception.args[0] for err in _statements )
return False
def __SCREAMING_SNAKE_CASE (SCREAMING_SNAKE_CASE__ = None , SCREAMING_SNAKE_CASE__ = 128 ):
if function is None:
return functools.partial(SCREAMING_SNAKE_CASE__ , starting_batch_size=SCREAMING_SNAKE_CASE__ )
snake_case_ = starting_batch_size
def decorator(*SCREAMING_SNAKE_CASE__ , **SCREAMING_SNAKE_CASE__ ):
nonlocal batch_size
gc.collect()
if is_xpu_available():
torch.xpu.empty_cache()
elif is_npu_available():
torch.npu.empty_cache()
else:
torch.cuda.empty_cache()
snake_case_ = list(inspect.signature(SCREAMING_SNAKE_CASE__ ).parameters.keys() )
# Guard against user error
if len(SCREAMING_SNAKE_CASE__ ) < (len(SCREAMING_SNAKE_CASE__ ) + 1):
snake_case_ = ''', '''.join([F'''{arg}={value}''' for arg, value in zip(params[1:] , args[1:] )] )
raise TypeError(
F'''Batch size was passed into `{function.__name__}` as the first argument when called.'''
F'''Remove this as the decorator already does so: `{function.__name__}({arg_str})`''' )
while True:
if batch_size == 0:
raise RuntimeError('''No executable batch size found, reached zero.''' )
try:
return function(SCREAMING_SNAKE_CASE__ , *SCREAMING_SNAKE_CASE__ , **SCREAMING_SNAKE_CASE__ )
except Exception as e:
if should_reduce_batch_size(SCREAMING_SNAKE_CASE__ ):
gc.collect()
if is_xpu_available():
torch.xpu.empty_cache()
elif is_npu_available():
torch.npu.empty_cache()
else:
torch.cuda.empty_cache()
batch_size //= 2
else:
raise
return decorator | 8 | def lowercase_ ( _lowerCamelCase : int):
lowercase__ : Dict = n ** (1 / 3)
return (val * val * val) == n
if __name__ == "__main__":
print(perfect_cube(27))
print(perfect_cube(4))
| 87 | 0 |
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
__lowerCAmelCase : Optional[int] ={
'configuration_roberta': ['ROBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP', 'RobertaConfig', 'RobertaOnnxConfig'],
'tokenization_roberta': ['RobertaTokenizer'],
}
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
__lowerCAmelCase : int =['RobertaTokenizerFast']
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
__lowerCAmelCase : List[Any] =[
'ROBERTA_PRETRAINED_MODEL_ARCHIVE_LIST',
'RobertaForCausalLM',
'RobertaForMaskedLM',
'RobertaForMultipleChoice',
'RobertaForQuestionAnswering',
'RobertaForSequenceClassification',
'RobertaForTokenClassification',
'RobertaModel',
'RobertaPreTrainedModel',
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
__lowerCAmelCase : Optional[int] =[
'TF_ROBERTA_PRETRAINED_MODEL_ARCHIVE_LIST',
'TFRobertaForCausalLM',
'TFRobertaForMaskedLM',
'TFRobertaForMultipleChoice',
'TFRobertaForQuestionAnswering',
'TFRobertaForSequenceClassification',
'TFRobertaForTokenClassification',
'TFRobertaMainLayer',
'TFRobertaModel',
'TFRobertaPreTrainedModel',
]
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
__lowerCAmelCase : List[str] =[
'FlaxRobertaForCausalLM',
'FlaxRobertaForMaskedLM',
'FlaxRobertaForMultipleChoice',
'FlaxRobertaForQuestionAnswering',
'FlaxRobertaForSequenceClassification',
'FlaxRobertaForTokenClassification',
'FlaxRobertaModel',
'FlaxRobertaPreTrainedModel',
]
if TYPE_CHECKING:
from .configuration_roberta import ROBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP, RobertaConfig, RobertaOnnxConfig
from .tokenization_roberta import RobertaTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_roberta_fast import RobertaTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_roberta import (
ROBERTA_PRETRAINED_MODEL_ARCHIVE_LIST,
RobertaForCausalLM,
RobertaForMaskedLM,
RobertaForMultipleChoice,
RobertaForQuestionAnswering,
RobertaForSequenceClassification,
RobertaForTokenClassification,
RobertaModel,
RobertaPreTrainedModel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_roberta import (
TF_ROBERTA_PRETRAINED_MODEL_ARCHIVE_LIST,
TFRobertaForCausalLM,
TFRobertaForMaskedLM,
TFRobertaForMultipleChoice,
TFRobertaForQuestionAnswering,
TFRobertaForSequenceClassification,
TFRobertaForTokenClassification,
TFRobertaMainLayer,
TFRobertaModel,
TFRobertaPreTrainedModel,
)
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_roberta import (
FlaxRobertaForCausalLM,
FlaxRobertaForMaskedLM,
FlaxRobertaForMultipleChoice,
FlaxRobertaForQuestionAnswering,
FlaxRobertaForSequenceClassification,
FlaxRobertaForTokenClassification,
FlaxRobertaModel,
FlaxRobertaPreTrainedModel,
)
else:
import sys
__lowerCAmelCase : Optional[int] =_LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)
| 9 | from PIL import Image
def lowercase_ ( _lowerCamelCase : Image , _lowerCamelCase : int):
lowercase__ : List[str] = (259 * (level + 255)) / (255 * (259 - level))
def contrast(_lowerCamelCase : int) -> int:
return int(128 + factor * (c - 128))
return img.point(_lowerCamelCase)
if __name__ == "__main__":
# Load image
with Image.open('''image_data/lena.jpg''') as img:
# Change contrast to 170
UpperCamelCase = change_contrast(img, 170)
cont_img.save('''image_data/lena_high_contrast.png''', format='''png''')
| 87 | 0 |
import argparse
import math
import os
import torch
from neural_compressor.utils.pytorch import load
from PIL import Image
from transformers import CLIPTextModel, CLIPTokenizer
from diffusers import AutoencoderKL, StableDiffusionPipeline, UNetaDConditionModel
def lowerCAmelCase_ ( ) -> Optional[Any]:
"""simple docstring"""
lowerCamelCase__: Optional[Any] =argparse.ArgumentParser()
parser.add_argument(
"-m" , "--pretrained_model_name_or_path" , type=__a , default=__a , required=__a , help="Path to pretrained model or model identifier from huggingface.co/models." , )
parser.add_argument(
"-c" , "--caption" , type=__a , default="robotic cat with wings" , help="Text used to generate images." , )
parser.add_argument(
"-n" , "--images_num" , type=__a , default=4 , help="How much images to generate." , )
parser.add_argument(
"-s" , "--seed" , type=__a , default=42 , help="Seed for random process." , )
parser.add_argument(
"-ci" , "--cuda_id" , type=__a , default=0 , help="cuda_id." , )
lowerCamelCase__: Union[str, Any] =parser.parse_args()
return args
def lowerCAmelCase_ ( __a , __a , __a ) -> Tuple:
"""simple docstring"""
if not len(__a ) == rows * cols:
raise ValueError("The specified number of rows and columns are not correct." )
lowerCamelCase__ , lowerCamelCase__: Optional[int] =imgs[0].size
lowerCamelCase__: Tuple =Image.new("RGB" , size=(cols * w, rows * h) )
lowerCamelCase__ , lowerCamelCase__: Tuple =grid.size
for i, img in enumerate(__a ):
grid.paste(__a , box=(i % cols * w, i // cols * h) )
return grid
def lowerCAmelCase_ ( __a , __a="robotic cat with wings" , __a=7.5 , __a=50 , __a=1 , __a=42 , ) -> str:
"""simple docstring"""
lowerCamelCase__: List[str] =torch.Generator(pipeline.device ).manual_seed(__a )
lowerCamelCase__: List[Any] =pipeline(
__a , guidance_scale=__a , num_inference_steps=__a , generator=__a , num_images_per_prompt=__a , ).images
lowerCamelCase__: List[str] =int(math.sqrt(__a ) )
lowerCamelCase__: Dict =image_grid(__a , rows=_rows , cols=num_images_per_prompt // _rows )
return grid, images
__A = parse_args()
# Load models and create wrapper for stable diffusion
__A = CLIPTokenizer.from_pretrained(args.pretrained_model_name_or_path, subfolder="tokenizer")
__A = CLIPTextModel.from_pretrained(args.pretrained_model_name_or_path, subfolder="text_encoder")
__A = AutoencoderKL.from_pretrained(args.pretrained_model_name_or_path, subfolder="vae")
__A = UNetaDConditionModel.from_pretrained(args.pretrained_model_name_or_path, subfolder="unet")
__A = StableDiffusionPipeline.from_pretrained(
args.pretrained_model_name_or_path, text_encoder=text_encoder, vae=vae, unet=unet, tokenizer=tokenizer
)
__A = lambda images, clip_input: (images, False)
if os.path.exists(os.path.join(args.pretrained_model_name_or_path, "best_model.pt")):
__A = load(args.pretrained_model_name_or_path, model=unet)
unet.eval()
setattr(pipeline, "unet", unet)
else:
__A = unet.to(torch.device("cuda", args.cuda_id))
__A = pipeline.to(unet.device)
__A , __A = generate_images(pipeline, prompt=args.caption, num_images_per_prompt=args.images_num, seed=args.seed)
grid.save(os.path.join(args.pretrained_model_name_or_path, "{}.png".format("_".join(args.caption.split()))))
__A = os.path.join(args.pretrained_model_name_or_path, "_".join(args.caption.split()))
os.makedirs(dirname, exist_ok=True)
for idx, image in enumerate(images):
image.save(os.path.join(dirname, "{}.png".format(idx + 1)))
| 10 | from __future__ import annotations
import sys
from collections import deque
from typing import Generic, TypeVar
UpperCamelCase = TypeVar('''T''')
class snake_case_ ( Generic[T] ):
__A : deque[T] # Cache store of keys
__A : set[T] # References of the keys in cache
__A : int = 10 # Maximum capacity of cache
def __init__( self : Union[str, Any] , lowercase_ : int ) -> None:
lowercase__ : int = deque()
lowercase__ : str = set()
if not n:
lowercase__ : str = sys.maxsize
elif n < 0:
raise ValueError("n should be an integer greater than 0." )
else:
lowercase__ : List[Any] = n
def __UpperCamelCase ( self : Dict , lowercase_ : T ) -> None:
if x not in self.key_reference:
if len(self.dq_store ) == LRUCache._MAX_CAPACITY:
lowercase__ : Dict = self.dq_store.pop()
self.key_reference.remove(lowercase_ )
else:
self.dq_store.remove(lowercase_ )
self.dq_store.appendleft(lowercase_ )
self.key_reference.add(lowercase_ )
def __UpperCamelCase ( self : Dict ) -> None:
for k in self.dq_store:
print(lowercase_ )
def __repr__( self : Optional[int] ) -> str:
return F'''LRUCache({self._MAX_CAPACITY}) => {list(self.dq_store )}'''
if __name__ == "__main__":
import doctest
doctest.testmod()
UpperCamelCase = LRUCache(4)
lru_cache.refer('''A''')
lru_cache.refer(2)
lru_cache.refer(3)
lru_cache.refer('''A''')
lru_cache.refer(4)
lru_cache.refer(5)
lru_cache.display()
print(lru_cache)
assert str(lru_cache) == "LRUCache(4) => [5, 4, 'A', 3]"
| 87 | 0 |
from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_tokenizers_available, is_torch_available
lowerCAmelCase__ = {
'configuration_altclip': [
'ALTCLIP_PRETRAINED_CONFIG_ARCHIVE_MAP',
'AltCLIPConfig',
'AltCLIPTextConfig',
'AltCLIPVisionConfig',
],
'processing_altclip': ['AltCLIPProcessor'],
}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
lowerCAmelCase__ = [
'ALTCLIP_PRETRAINED_MODEL_ARCHIVE_LIST',
'AltCLIPPreTrainedModel',
'AltCLIPModel',
'AltCLIPTextModel',
'AltCLIPVisionModel',
]
if TYPE_CHECKING:
from .configuration_altclip import (
ALTCLIP_PRETRAINED_CONFIG_ARCHIVE_MAP,
AltCLIPConfig,
AltCLIPTextConfig,
AltCLIPVisionConfig,
)
from .processing_altclip import AltCLIPProcessor
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_altclip import (
ALTCLIP_PRETRAINED_MODEL_ARCHIVE_LIST,
AltCLIPModel,
AltCLIPPreTrainedModel,
AltCLIPTextModel,
AltCLIPVisionModel,
)
else:
import sys
lowerCAmelCase__ = _LazyModule(__name__, globals()['__file__'], _import_structure, module_spec=__spec__)
| 11 | from collections import OrderedDict
from typing import Mapping
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfig
from ...utils import logging
UpperCamelCase = logging.get_logger(__name__)
UpperCamelCase = {
'''YituTech/conv-bert-base''': '''https://huggingface.co/YituTech/conv-bert-base/resolve/main/config.json''',
'''YituTech/conv-bert-medium-small''': (
'''https://huggingface.co/YituTech/conv-bert-medium-small/resolve/main/config.json'''
),
'''YituTech/conv-bert-small''': '''https://huggingface.co/YituTech/conv-bert-small/resolve/main/config.json''',
# See all ConvBERT models at https://huggingface.co/models?filter=convbert
}
class snake_case_ ( __A ):
__A : List[str] = "convbert"
def __init__( self : Union[str, Any] , lowercase_ : str=3_05_22 , lowercase_ : Any=7_68 , lowercase_ : Tuple=12 , lowercase_ : List[str]=12 , lowercase_ : Optional[int]=30_72 , lowercase_ : Union[str, Any]="gelu" , lowercase_ : str=0.1 , lowercase_ : List[str]=0.1 , lowercase_ : Optional[Any]=5_12 , lowercase_ : Dict=2 , lowercase_ : Union[str, Any]=0.02 , lowercase_ : Optional[Any]=1E-12 , lowercase_ : Optional[int]=1 , lowercase_ : List[Any]=0 , lowercase_ : Optional[int]=2 , lowercase_ : str=7_68 , lowercase_ : Dict=2 , lowercase_ : Optional[Any]=9 , lowercase_ : Union[str, Any]=1 , lowercase_ : Any=None , **lowercase_ : Optional[Any] , ) -> Dict:
super().__init__(
pad_token_id=lowercase_ , bos_token_id=lowercase_ , eos_token_id=lowercase_ , **lowercase_ , )
lowercase__ : List[str] = vocab_size
lowercase__ : Union[str, Any] = hidden_size
lowercase__ : Any = num_hidden_layers
lowercase__ : List[str] = num_attention_heads
lowercase__ : Union[str, Any] = intermediate_size
lowercase__ : Optional[Any] = hidden_act
lowercase__ : int = hidden_dropout_prob
lowercase__ : str = attention_probs_dropout_prob
lowercase__ : Union[str, Any] = max_position_embeddings
lowercase__ : Optional[int] = type_vocab_size
lowercase__ : Tuple = initializer_range
lowercase__ : List[str] = layer_norm_eps
lowercase__ : List[Any] = embedding_size
lowercase__ : Optional[Any] = head_ratio
lowercase__ : Dict = conv_kernel_size
lowercase__ : Tuple = num_groups
lowercase__ : Optional[int] = classifier_dropout
class snake_case_ ( __A ):
@property
def __UpperCamelCase ( self : Optional[int] ) -> Mapping[str, Mapping[int, str]]:
if self.task == "multiple-choice":
lowercase__ : Tuple = {0: "batch", 1: "choice", 2: "sequence"}
else:
lowercase__ : str = {0: "batch", 1: "sequence"}
return OrderedDict(
[
("input_ids", dynamic_axis),
("attention_mask", dynamic_axis),
("token_type_ids", dynamic_axis),
] )
| 87 | 0 |
def lowerCamelCase__ ( A__ : list ):
'''simple docstring'''
__lowerCamelCase = len(A__ )
for _ in range(A__ ):
for i in range(_ % 2 , arr_size - 1 , 2 ):
if arr[i + 1] < arr[i]:
__lowerCamelCase, __lowerCamelCase = arr[i + 1], arr[i]
return arr
if __name__ == "__main__":
UpperCAmelCase_ = list(range(10, 0, -1))
print(f"""Original: {arr}. Sorted: {odd_even_transposition(arr)}""")
| 12 | import argparse
import torch
from transformers import BertConfig, BertForPreTraining, load_tf_weights_in_bert
from transformers.utils import logging
logging.set_verbosity_info()
def lowercase_ ( _lowerCamelCase : str , _lowerCamelCase : List[Any] , _lowerCamelCase : Dict):
# Initialise PyTorch model
lowercase__ : List[str] = BertConfig.from_json_file(_lowerCamelCase)
print(f'''Building PyTorch model from configuration: {config}''')
lowercase__ : Optional[Any] = BertForPreTraining(_lowerCamelCase)
# Load weights from tf checkpoint
load_tf_weights_in_bert(_lowerCamelCase , _lowerCamelCase , _lowerCamelCase)
# Save pytorch-model
print(f'''Save PyTorch model to {pytorch_dump_path}''')
torch.save(model.state_dict() , _lowerCamelCase)
if __name__ == "__main__":
UpperCamelCase = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
'''--tf_checkpoint_path''', default=None, type=str, required=True, help='''Path to the TensorFlow checkpoint path.'''
)
parser.add_argument(
'''--bert_config_file''',
default=None,
type=str,
required=True,
help=(
'''The config json file corresponding to the pre-trained BERT model. \n'''
'''This specifies the model architecture.'''
),
)
parser.add_argument(
'''--pytorch_dump_path''', default=None, type=str, required=True, help='''Path to the output PyTorch model.'''
)
UpperCamelCase = parser.parse_args()
convert_tf_checkpoint_to_pytorch(args.tf_checkpoint_path, args.bert_config_file, args.pytorch_dump_path)
| 87 | 0 |
import unittest
from queue import Empty
from threading import Thread
from transformers import AutoTokenizer, TextIteratorStreamer, TextStreamer, is_torch_available
from transformers.testing_utils import CaptureStdout, require_torch, torch_device
from ..test_modeling_common import ids_tensor
if is_torch_available():
import torch
from transformers import AutoModelForCausalLM
@require_torch
class __lowercase ( unittest.TestCase ):
"""simple docstring"""
def _SCREAMING_SNAKE_CASE ( self : Optional[int]):
SCREAMING_SNAKE_CASE_: Tuple = AutoTokenizer.from_pretrained("hf-internal-testing/tiny-random-gpt2")
SCREAMING_SNAKE_CASE_: Optional[Any] = AutoModelForCausalLM.from_pretrained("hf-internal-testing/tiny-random-gpt2").to(lowerCAmelCase__)
SCREAMING_SNAKE_CASE_: int = -1
SCREAMING_SNAKE_CASE_: Optional[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size).to(lowerCAmelCase__)
SCREAMING_SNAKE_CASE_: List[str] = model.generate(lowerCAmelCase__ , max_new_tokens=10 , do_sample=lowerCAmelCase__)
SCREAMING_SNAKE_CASE_: int = tokenizer.decode(greedy_ids[0])
with CaptureStdout() as cs:
SCREAMING_SNAKE_CASE_: List[Any] = TextStreamer(lowerCAmelCase__)
model.generate(lowerCAmelCase__ , max_new_tokens=10 , do_sample=lowerCAmelCase__ , streamer=lowerCAmelCase__)
# The greedy text should be printed to stdout, except for the final "\n" in the streamer
SCREAMING_SNAKE_CASE_: int = cs.out[:-1]
self.assertEqual(lowerCAmelCase__ , lowerCAmelCase__)
def _SCREAMING_SNAKE_CASE ( self : str):
SCREAMING_SNAKE_CASE_: Any = AutoTokenizer.from_pretrained("hf-internal-testing/tiny-random-gpt2")
SCREAMING_SNAKE_CASE_: List[str] = AutoModelForCausalLM.from_pretrained("hf-internal-testing/tiny-random-gpt2").to(lowerCAmelCase__)
SCREAMING_SNAKE_CASE_: int = -1
SCREAMING_SNAKE_CASE_: Dict = ids_tensor((1, 5) , vocab_size=model.config.vocab_size).to(lowerCAmelCase__)
SCREAMING_SNAKE_CASE_: Optional[Any] = model.generate(lowerCAmelCase__ , max_new_tokens=10 , do_sample=lowerCAmelCase__)
SCREAMING_SNAKE_CASE_: Any = tokenizer.decode(greedy_ids[0])
SCREAMING_SNAKE_CASE_: int = TextIteratorStreamer(lowerCAmelCase__)
SCREAMING_SNAKE_CASE_: str = {"input_ids": input_ids, "max_new_tokens": 10, "do_sample": False, "streamer": streamer}
SCREAMING_SNAKE_CASE_: Optional[int] = Thread(target=model.generate , kwargs=lowerCAmelCase__)
thread.start()
SCREAMING_SNAKE_CASE_: int = ""
for new_text in streamer:
streamer_text += new_text
self.assertEqual(lowerCAmelCase__ , lowerCAmelCase__)
def _SCREAMING_SNAKE_CASE ( self : List[str]):
SCREAMING_SNAKE_CASE_: List[str] = AutoTokenizer.from_pretrained("hf-internal-testing/tiny-random-gpt2")
SCREAMING_SNAKE_CASE_: Dict = AutoModelForCausalLM.from_pretrained("hf-internal-testing/tiny-random-gpt2").to(lowerCAmelCase__)
SCREAMING_SNAKE_CASE_: Optional[int] = -1
SCREAMING_SNAKE_CASE_: Dict = ids_tensor((1, 5) , vocab_size=model.config.vocab_size).to(lowerCAmelCase__)
SCREAMING_SNAKE_CASE_: Optional[Any] = model.generate(lowerCAmelCase__ , max_new_tokens=10 , do_sample=lowerCAmelCase__)
SCREAMING_SNAKE_CASE_: Dict = greedy_ids[:, input_ids.shape[1] :]
SCREAMING_SNAKE_CASE_: str = tokenizer.decode(new_greedy_ids[0])
with CaptureStdout() as cs:
SCREAMING_SNAKE_CASE_: Dict = TextStreamer(lowerCAmelCase__ , skip_prompt=lowerCAmelCase__)
model.generate(lowerCAmelCase__ , max_new_tokens=10 , do_sample=lowerCAmelCase__ , streamer=lowerCAmelCase__)
# The greedy text should be printed to stdout, except for the final "\n" in the streamer
SCREAMING_SNAKE_CASE_: Union[str, Any] = cs.out[:-1]
self.assertEqual(lowerCAmelCase__ , lowerCAmelCase__)
def _SCREAMING_SNAKE_CASE ( self : Any):
# Tests that we can pass `decode_kwargs` to the streamer to control how the tokens are decoded. Must be tested
# with actual models -- the dummy models' tokenizers are not aligned with their models, and
# `skip_special_tokens=True` has no effect on them
SCREAMING_SNAKE_CASE_: List[str] = AutoTokenizer.from_pretrained("distilgpt2")
SCREAMING_SNAKE_CASE_: str = AutoModelForCausalLM.from_pretrained("distilgpt2").to(lowerCAmelCase__)
SCREAMING_SNAKE_CASE_: List[str] = -1
SCREAMING_SNAKE_CASE_: Tuple = torch.ones((1, 5) , device=lowerCAmelCase__).long() * model.config.bos_token_id
with CaptureStdout() as cs:
SCREAMING_SNAKE_CASE_: Optional[Any] = TextStreamer(lowerCAmelCase__ , skip_special_tokens=lowerCAmelCase__)
model.generate(lowerCAmelCase__ , max_new_tokens=1 , do_sample=lowerCAmelCase__ , streamer=lowerCAmelCase__)
# The prompt contains a special token, so the streamer should not print it. As such, the output text, when
# re-tokenized, must only contain one token
SCREAMING_SNAKE_CASE_: List[str] = cs.out[:-1] # Remove the final "\n"
SCREAMING_SNAKE_CASE_: Any = tokenizer(lowerCAmelCase__ , return_tensors="pt")
self.assertEqual(streamer_text_tokenized.input_ids.shape , (1, 1))
def _SCREAMING_SNAKE_CASE ( self : int):
SCREAMING_SNAKE_CASE_: List[Any] = AutoTokenizer.from_pretrained("hf-internal-testing/tiny-random-gpt2")
SCREAMING_SNAKE_CASE_: Union[str, Any] = AutoModelForCausalLM.from_pretrained("hf-internal-testing/tiny-random-gpt2").to(lowerCAmelCase__)
SCREAMING_SNAKE_CASE_: Union[str, Any] = -1
SCREAMING_SNAKE_CASE_: List[Any] = ids_tensor((1, 5) , vocab_size=model.config.vocab_size).to(lowerCAmelCase__)
SCREAMING_SNAKE_CASE_: int = TextIteratorStreamer(lowerCAmelCase__ , timeout=0.001)
SCREAMING_SNAKE_CASE_: Optional[int] = {"input_ids": input_ids, "max_new_tokens": 10, "do_sample": False, "streamer": streamer}
SCREAMING_SNAKE_CASE_: List[Any] = Thread(target=model.generate , kwargs=lowerCAmelCase__)
thread.start()
# The streamer will timeout after 0.001 seconds, so an exception will be raised
with self.assertRaises(lowerCAmelCase__):
SCREAMING_SNAKE_CASE_: List[Any] = ""
for new_text in streamer:
streamer_text += new_text
| 13 | import asyncio
import os
import re
import sys
import tempfile
import unittest
from contextlib import contextmanager
from copy import deepcopy
from distutils.util import strtobool
from enum import Enum
from importlib.util import find_spec
from pathlib import Path
from unittest.mock import patch
import pyarrow as pa
import pytest
import requests
from packaging import version
from datasets import config
if config.PY_VERSION < version.parse('''3.8'''):
import importlib_metadata
else:
import importlib.metadata as importlib_metadata
def lowercase_ ( _lowerCamelCase : Any , _lowerCamelCase : List[str]=False):
try:
lowercase__ : Union[str, Any] = os.environ[key]
except KeyError:
# KEY isn't set, default to `default`.
lowercase__ : int = default
else:
# KEY is set, convert it to True or False.
try:
lowercase__ : Optional[int] = strtobool(_lowerCamelCase)
except ValueError:
# More values are supported, but let's keep the message simple.
raise ValueError(f'''If set, {key} must be yes or no.''')
return _value
UpperCamelCase = parse_flag_from_env('''RUN_SLOW''', default=False)
UpperCamelCase = parse_flag_from_env('''RUN_REMOTE''', default=False)
UpperCamelCase = parse_flag_from_env('''RUN_LOCAL''', default=True)
UpperCamelCase = parse_flag_from_env('''RUN_PACKAGED''', default=True)
# Compression
UpperCamelCase = pytest.mark.skipif(not config.LZ4_AVAILABLE, reason='''test requires lz4''')
UpperCamelCase = pytest.mark.skipif(not config.PY7ZR_AVAILABLE, reason='''test requires py7zr''')
UpperCamelCase = pytest.mark.skipif(not config.ZSTANDARD_AVAILABLE, reason='''test requires zstandard''')
# Audio
UpperCamelCase = pytest.mark.skipif(
# On Windows and OS X, soundfile installs sndfile
find_spec('''soundfile''') is None or version.parse(importlib_metadata.version('''soundfile''')) < version.parse('''0.12.0'''),
reason='''test requires sndfile>=0.12.1: \'pip install \"soundfile>=0.12.1\"\'; ''',
)
# Beam
UpperCamelCase = pytest.mark.skipif(
not config.BEAM_AVAILABLE or config.DILL_VERSION >= version.parse('''0.3.2'''),
reason='''test requires apache-beam and a compatible dill version''',
)
# Dill-cloudpickle compatibility
UpperCamelCase = pytest.mark.skipif(
config.DILL_VERSION <= version.parse('''0.3.2'''),
reason='''test requires dill>0.3.2 for cloudpickle compatibility''',
)
# Windows
UpperCamelCase = pytest.mark.skipif(
sys.platform == '''win32''',
reason='''test should not be run on Windows''',
)
def lowercase_ ( _lowerCamelCase : int):
try:
import faiss # noqa
except ImportError:
lowercase__ : Optional[Any] = unittest.skip("test requires faiss")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : int):
try:
import regex # noqa
except ImportError:
lowercase__ : List[Any] = unittest.skip("test requires regex")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : int):
try:
import elasticsearch # noqa
except ImportError:
lowercase__ : Optional[int] = unittest.skip("test requires elasticsearch")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : Union[str, Any]):
try:
import sqlalchemy # noqa
except ImportError:
lowercase__ : Optional[int] = unittest.skip("test requires sqlalchemy")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : int):
if not config.TORCH_AVAILABLE:
lowercase__ : Tuple = unittest.skip("test requires PyTorch")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : Tuple):
if not config.TF_AVAILABLE:
lowercase__ : Any = unittest.skip("test requires TensorFlow")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : Dict):
if not config.JAX_AVAILABLE:
lowercase__ : List[str] = unittest.skip("test requires JAX")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : int):
if not config.PIL_AVAILABLE:
lowercase__ : Dict = unittest.skip("test requires Pillow")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : Tuple):
try:
import transformers # noqa F401
except ImportError:
return unittest.skip("test requires transformers")(_lowerCamelCase)
else:
return test_case
def lowercase_ ( _lowerCamelCase : Optional[Any]):
try:
import tiktoken # noqa F401
except ImportError:
return unittest.skip("test requires tiktoken")(_lowerCamelCase)
else:
return test_case
def lowercase_ ( _lowerCamelCase : Dict):
try:
import spacy # noqa F401
except ImportError:
return unittest.skip("test requires spacy")(_lowerCamelCase)
else:
return test_case
def lowercase_ ( _lowerCamelCase : Optional[int]):
def _require_spacy_model(_lowerCamelCase : Optional[int]):
try:
import spacy # noqa F401
spacy.load(_lowerCamelCase)
except ImportError:
return unittest.skip("test requires spacy")(_lowerCamelCase)
except OSError:
return unittest.skip("test requires spacy model '{}'".format(_lowerCamelCase))(_lowerCamelCase)
else:
return test_case
return _require_spacy_model
def lowercase_ ( _lowerCamelCase : Dict):
try:
import pyspark # noqa F401
except ImportError:
return unittest.skip("test requires pyspark")(_lowerCamelCase)
else:
return test_case
def lowercase_ ( _lowerCamelCase : List[str]):
try:
import joblibspark # noqa F401
except ImportError:
return unittest.skip("test requires joblibspark")(_lowerCamelCase)
else:
return test_case
def lowercase_ ( _lowerCamelCase : Dict):
if not _run_slow_tests or _run_slow_tests == 0:
lowercase__ : Tuple = unittest.skip("test is slow")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : int):
if not _run_local_tests or _run_local_tests == 0:
lowercase__ : str = unittest.skip("test is local")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : Optional[int]):
if not _run_packaged_tests or _run_packaged_tests == 0:
lowercase__ : List[Any] = unittest.skip("test is packaged")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : Tuple):
if not _run_remote_tests or _run_remote_tests == 0:
lowercase__ : Union[str, Any] = unittest.skip("test requires remote")(_lowerCamelCase)
return test_case
def lowercase_ ( *_lowerCamelCase : str):
def decorate(cls : str):
for name, fn in cls.__dict__.items():
if callable(_lowerCamelCase) and name.startswith("test"):
for decorator in decorators:
lowercase__ : Optional[int] = decorator(_lowerCamelCase)
setattr(cls , _lowerCamelCase , _lowerCamelCase)
return cls
return decorate
class snake_case_ ( __A ):
pass
class snake_case_ ( __A ):
__A : List[Any] = 0
__A : str = 1
__A : int = 2
@contextmanager
def lowercase_ ( _lowerCamelCase : List[str]=OfflineSimulationMode.CONNECTION_FAILS , _lowerCamelCase : int=1E-16):
lowercase__ : int = requests.Session().request
def timeout_request(_lowerCamelCase : str , _lowerCamelCase : Dict , _lowerCamelCase : Dict , **_lowerCamelCase : str):
# Change the url to an invalid url so that the connection hangs
lowercase__ : Any = "https://10.255.255.1"
if kwargs.get("timeout") is None:
raise RequestWouldHangIndefinitelyError(
f'''Tried a call to {url} in offline mode with no timeout set. Please set a timeout.''')
lowercase__ : Dict = timeout
try:
return online_request(_lowerCamelCase , _lowerCamelCase , **_lowerCamelCase)
except Exception as e:
# The following changes in the error are just here to make the offline timeout error prettier
lowercase__ : Dict = url
lowercase__ : Union[str, Any] = e.args[0]
lowercase__ : Optional[Any] = (max_retry_error.args[0].replace("10.255.255.1" , f'''OfflineMock[{url}]'''),)
lowercase__ : int = (max_retry_error,)
raise
def raise_connection_error(_lowerCamelCase : Union[str, Any] , _lowerCamelCase : Optional[Any] , **_lowerCamelCase : Tuple):
raise requests.ConnectionError("Offline mode is enabled." , request=_lowerCamelCase)
if mode is OfflineSimulationMode.CONNECTION_FAILS:
with patch("requests.Session.send" , _lowerCamelCase):
yield
elif mode is OfflineSimulationMode.CONNECTION_TIMES_OUT:
# inspired from https://stackoverflow.com/a/904609
with patch("requests.Session.request" , _lowerCamelCase):
yield
elif mode is OfflineSimulationMode.HF_DATASETS_OFFLINE_SET_TO_1:
with patch("datasets.config.HF_DATASETS_OFFLINE" , _lowerCamelCase):
yield
else:
raise ValueError("Please use a value from the OfflineSimulationMode enum.")
@contextmanager
def lowercase_ ( *_lowerCamelCase : str , **_lowerCamelCase : Tuple):
lowercase__ : Dict = str(Path().resolve())
with tempfile.TemporaryDirectory(*_lowerCamelCase , **_lowerCamelCase) as tmp_dir:
try:
os.chdir(_lowerCamelCase)
yield
finally:
os.chdir(_lowerCamelCase)
@contextmanager
def lowercase_ ( ):
import gc
gc.collect()
lowercase__ : Union[str, Any] = pa.total_allocated_bytes()
yield
assert pa.total_allocated_bytes() - previous_allocated_memory > 0, "Arrow memory didn't increase."
@contextmanager
def lowercase_ ( ):
import gc
gc.collect()
lowercase__ : int = pa.total_allocated_bytes()
yield
assert pa.total_allocated_bytes() - previous_allocated_memory <= 0, "Arrow memory wasn't expected to increase."
def lowercase_ ( _lowerCamelCase : Optional[Any] , _lowerCamelCase : Optional[Any]):
return deepcopy(_lowerCamelCase).integers(0 , 100 , 10).tolist() == deepcopy(_lowerCamelCase).integers(0 , 100 , 10).tolist()
def lowercase_ ( _lowerCamelCase : str):
import decorator
from requests.exceptions import HTTPError
def _wrapper(_lowerCamelCase : str , *_lowerCamelCase : Dict , **_lowerCamelCase : Dict):
try:
return func(*_lowerCamelCase , **_lowerCamelCase)
except HTTPError as err:
if str(_lowerCamelCase).startswith("500") or str(_lowerCamelCase).startswith("502"):
pytest.xfail(str(_lowerCamelCase))
raise err
return decorator.decorator(_wrapper , _lowerCamelCase)
class snake_case_ :
def __init__( self : int , lowercase_ : Union[str, Any] , lowercase_ : Dict , lowercase_ : List[str] ) -> List[str]:
lowercase__ : Tuple = returncode
lowercase__ : int = stdout
lowercase__ : Union[str, Any] = stderr
async def lowercase_ ( _lowerCamelCase : List[str] , _lowerCamelCase : Dict):
while True:
lowercase__ : Optional[int] = await stream.readline()
if line:
callback(_lowerCamelCase)
else:
break
async def lowercase_ ( _lowerCamelCase : Optional[int] , _lowerCamelCase : Union[str, Any]=None , _lowerCamelCase : Optional[Any]=None , _lowerCamelCase : int=None , _lowerCamelCase : Optional[Any]=False , _lowerCamelCase : Tuple=False):
if echo:
print("\nRunning: " , " ".join(_lowerCamelCase))
lowercase__ : Optional[int] = await asyncio.create_subprocess_exec(
cmd[0] , *cmd[1:] , stdin=_lowerCamelCase , stdout=asyncio.subprocess.PIPE , stderr=asyncio.subprocess.PIPE , env=_lowerCamelCase , )
# note: there is a warning for a possible deadlock when using `wait` with huge amounts of data in the pipe
# https://docs.python.org/3/library/asyncio-subprocess.html#asyncio.asyncio.subprocess.Process.wait
#
# If it starts hanging, will need to switch to the following code. The problem is that no data
# will be seen until it's done and if it hangs for example there will be no debug info.
# out, err = await p.communicate()
# return _RunOutput(p.returncode, out, err)
lowercase__ : str = []
lowercase__ : List[str] = []
def tee(_lowerCamelCase : str , _lowerCamelCase : Optional[Any] , _lowerCamelCase : Union[str, Any] , _lowerCamelCase : Optional[int]=""):
lowercase__ : Optional[int] = line.decode("utf-8").rstrip()
sink.append(_lowerCamelCase)
if not quiet:
print(_lowerCamelCase , _lowerCamelCase , file=_lowerCamelCase)
# XXX: the timeout doesn't seem to make any difference here
await asyncio.wait(
[
_read_stream(p.stdout , lambda _lowerCamelCase: tee(_lowerCamelCase , _lowerCamelCase , sys.stdout , label="stdout:")),
_read_stream(p.stderr , lambda _lowerCamelCase: tee(_lowerCamelCase , _lowerCamelCase , sys.stderr , label="stderr:")),
] , timeout=_lowerCamelCase , )
return _RunOutput(await p.wait() , _lowerCamelCase , _lowerCamelCase)
def lowercase_ ( _lowerCamelCase : Optional[int] , _lowerCamelCase : List[str]=None , _lowerCamelCase : Dict=None , _lowerCamelCase : int=180 , _lowerCamelCase : Union[str, Any]=False , _lowerCamelCase : Optional[Any]=True):
lowercase__ : Any = asyncio.get_event_loop()
lowercase__ : Tuple = loop.run_until_complete(
_stream_subprocess(_lowerCamelCase , env=_lowerCamelCase , stdin=_lowerCamelCase , timeout=_lowerCamelCase , quiet=_lowerCamelCase , echo=_lowerCamelCase))
lowercase__ : int = " ".join(_lowerCamelCase)
if result.returncode > 0:
lowercase__ : Any = "\n".join(result.stderr)
raise RuntimeError(
f'''\'{cmd_str}\' failed with returncode {result.returncode}\n\n'''
f'''The combined stderr from workers follows:\n{stderr}''')
# check that the subprocess actually did run and produced some output, should the test rely on
# the remote side to do the testing
if not result.stdout and not result.stderr:
raise RuntimeError(f'''\'{cmd_str}\' produced no output.''')
return result
def lowercase_ ( ):
lowercase__ : List[str] = os.environ.get("PYTEST_XDIST_WORKER" , "gw0")
lowercase__ : str = re.sub(R"^gw" , "" , _lowerCamelCase , 0 , re.M)
return int(_lowerCamelCase)
def lowercase_ ( ):
lowercase__ : Union[str, Any] = 2_9500
lowercase__ : Optional[int] = pytest_xdist_worker_id()
return port + uniq_delta
| 87 | 0 |
import copy
import os
from typing import Union
from ...configuration_utils import PretrainedConfig
from ...models.auto.modeling_auto import MODEL_FOR_CAUSAL_LM_MAPPING_NAMES
from ...utils import logging
from ..auto import CONFIG_MAPPING
_lowerCamelCase : List[Any] = logging.get_logger(__name__)
_lowerCamelCase : int = {
"""salesforce/blip2-opt-2.7b""": """https://huggingface.co/salesforce/blip2-opt-2.7b/resolve/main/config.json""",
}
class UpperCamelCase_ ( UpperCAmelCase__ ):
'''simple docstring'''
UpperCAmelCase__ = '''blip_2_vision_model'''
def __init__( self : Optional[Any] , UpperCAmelCase__ : Any=1_408 , UpperCAmelCase__ : Optional[int]=6_144 , UpperCAmelCase__ : List[str]=39 , UpperCAmelCase__ : str=16 , UpperCAmelCase__ : int=224 , UpperCAmelCase__ : List[str]=14 , UpperCAmelCase__ : Any="gelu" , UpperCAmelCase__ : Dict=0.00001 , UpperCAmelCase__ : str=0.0 , UpperCAmelCase__ : Dict=1e-10 , UpperCAmelCase__ : Optional[int]=True , **UpperCAmelCase__ : Union[str, Any] , ) ->Tuple:
'''simple docstring'''
super().__init__(**UpperCAmelCase__)
A__ = hidden_size
A__ = intermediate_size
A__ = num_hidden_layers
A__ = num_attention_heads
A__ = patch_size
A__ = image_size
A__ = initializer_range
A__ = attention_dropout
A__ = layer_norm_eps
A__ = hidden_act
A__ = qkv_bias
@classmethod
def SCREAMING_SNAKE_CASE ( cls : Optional[int] , UpperCAmelCase__ : Union[str, os.PathLike] , **UpperCAmelCase__ : Tuple) ->"PretrainedConfig":
'''simple docstring'''
cls._set_token_in_kwargs(UpperCAmelCase__)
A__ , A__ = cls.get_config_dict(UpperCAmelCase__ , **UpperCAmelCase__)
# get the vision config dict if we are loading from Blip2Config
if config_dict.get('''model_type''') == "blip-2":
A__ = 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(UpperCAmelCase__ , **UpperCAmelCase__)
class UpperCamelCase_ ( UpperCAmelCase__ ):
'''simple docstring'''
UpperCAmelCase__ = '''blip_2_qformer'''
def __init__( self : Optional[int] , UpperCAmelCase__ : List[str]=30_522 , UpperCAmelCase__ : Union[str, Any]=768 , UpperCAmelCase__ : List[Any]=12 , UpperCAmelCase__ : str=12 , UpperCAmelCase__ : Any=3_072 , UpperCAmelCase__ : int="gelu" , UpperCAmelCase__ : Optional[int]=0.1 , UpperCAmelCase__ : Optional[Any]=0.1 , UpperCAmelCase__ : Tuple=512 , UpperCAmelCase__ : Optional[Any]=0.02 , UpperCAmelCase__ : Tuple=1e-12 , UpperCAmelCase__ : Optional[int]=0 , UpperCAmelCase__ : Union[str, Any]="absolute" , UpperCAmelCase__ : int=2 , UpperCAmelCase__ : str=1_408 , **UpperCAmelCase__ : Optional[int] , ) ->Union[str, Any]:
'''simple docstring'''
super().__init__(pad_token_id=UpperCAmelCase__ , **UpperCAmelCase__)
A__ = vocab_size
A__ = hidden_size
A__ = num_hidden_layers
A__ = num_attention_heads
A__ = hidden_act
A__ = intermediate_size
A__ = hidden_dropout_prob
A__ = attention_probs_dropout_prob
A__ = max_position_embeddings
A__ = initializer_range
A__ = layer_norm_eps
A__ = position_embedding_type
A__ = cross_attention_frequency
A__ = encoder_hidden_size
@classmethod
def SCREAMING_SNAKE_CASE ( cls : Union[str, Any] , UpperCAmelCase__ : Union[str, os.PathLike] , **UpperCAmelCase__ : str) ->"PretrainedConfig":
'''simple docstring'''
cls._set_token_in_kwargs(UpperCAmelCase__)
A__ , A__ = cls.get_config_dict(UpperCAmelCase__ , **UpperCAmelCase__)
# get the qformer config dict if we are loading from Blip2Config
if config_dict.get('''model_type''') == "blip-2":
A__ = config_dict['''qformer_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(UpperCAmelCase__ , **UpperCAmelCase__)
class UpperCamelCase_ ( UpperCAmelCase__ ):
'''simple docstring'''
UpperCAmelCase__ = '''blip-2'''
UpperCAmelCase__ = True
def __init__( self : Union[str, Any] , UpperCAmelCase__ : str=None , UpperCAmelCase__ : List[Any]=None , UpperCAmelCase__ : Optional[Any]=None , UpperCAmelCase__ : str=32 , **UpperCAmelCase__ : Tuple) ->List[str]:
'''simple docstring'''
super().__init__(**UpperCAmelCase__)
if vision_config is None:
A__ = {}
logger.info('''vision_config is None. initializing the Blip2VisionConfig with default values.''')
if qformer_config is None:
A__ = {}
logger.info('''qformer_config is None. Initializing the Blip2QFormerConfig with default values.''')
if text_config is None:
A__ = {}
logger.info('''text_config is None. Initializing the text config with default values (`OPTConfig`).''')
A__ = BlipaVisionConfig(**UpperCAmelCase__)
A__ = BlipaQFormerConfig(**UpperCAmelCase__)
A__ = text_config['''model_type'''] if '''model_type''' in text_config else '''opt'''
A__ = CONFIG_MAPPING[text_model_type](**UpperCAmelCase__)
A__ = self.text_config.tie_word_embeddings
A__ = self.text_config.is_encoder_decoder
A__ = num_query_tokens
A__ = self.vision_config.hidden_size
A__ = self.text_config.model_type in MODEL_FOR_CAUSAL_LM_MAPPING_NAMES
A__ = 1.0
A__ = 0.02
@classmethod
def SCREAMING_SNAKE_CASE ( cls : int , UpperCAmelCase__ : BlipaVisionConfig , UpperCAmelCase__ : BlipaQFormerConfig , UpperCAmelCase__ : PretrainedConfig , **UpperCAmelCase__ : Dict , ) ->Union[str, Any]:
'''simple docstring'''
return cls(
vision_config=vision_config.to_dict() , qformer_config=qformer_config.to_dict() , text_config=text_config.to_dict() , **UpperCAmelCase__ , )
def SCREAMING_SNAKE_CASE ( self : str) ->Any:
'''simple docstring'''
A__ = copy.deepcopy(self.__dict__)
A__ = self.vision_config.to_dict()
A__ = self.qformer_config.to_dict()
A__ = self.text_config.to_dict()
A__ = self.__class__.model_type
return output
| 14 | import argparse
import json
from collections import OrderedDict
import torch
from huggingface_hub import cached_download, hf_hub_url
from transformers import AutoImageProcessor, CvtConfig, CvtForImageClassification
def lowercase_ ( _lowerCamelCase : int):
lowercase__ : int = []
embed.append(
(
f'''cvt.encoder.stages.{idx}.embedding.convolution_embeddings.projection.weight''',
f'''stage{idx}.patch_embed.proj.weight''',
))
embed.append(
(
f'''cvt.encoder.stages.{idx}.embedding.convolution_embeddings.projection.bias''',
f'''stage{idx}.patch_embed.proj.bias''',
))
embed.append(
(
f'''cvt.encoder.stages.{idx}.embedding.convolution_embeddings.normalization.weight''',
f'''stage{idx}.patch_embed.norm.weight''',
))
embed.append(
(
f'''cvt.encoder.stages.{idx}.embedding.convolution_embeddings.normalization.bias''',
f'''stage{idx}.patch_embed.norm.bias''',
))
return embed
def lowercase_ ( _lowerCamelCase : Optional[int] , _lowerCamelCase : int):
lowercase__ : Optional[Any] = []
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.convolution.weight''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_q.conv.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.weight''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.bias''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.bias''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.running_mean''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.running_mean''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.running_var''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.running_var''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.num_batches_tracked''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.num_batches_tracked''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.convolution.weight''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_k.conv.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.weight''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.bias''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.bias''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.running_mean''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.running_mean''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.running_var''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.running_var''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.num_batches_tracked''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.num_batches_tracked''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.convolution.weight''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_v.conv.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.weight''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.bias''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.bias''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.running_mean''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.running_mean''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.running_var''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.running_var''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.num_batches_tracked''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.num_batches_tracked''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_query.weight''',
f'''stage{idx}.blocks.{cnt}.attn.proj_q.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_query.bias''',
f'''stage{idx}.blocks.{cnt}.attn.proj_q.bias''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_key.weight''',
f'''stage{idx}.blocks.{cnt}.attn.proj_k.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_key.bias''',
f'''stage{idx}.blocks.{cnt}.attn.proj_k.bias''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_value.weight''',
f'''stage{idx}.blocks.{cnt}.attn.proj_v.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_value.bias''',
f'''stage{idx}.blocks.{cnt}.attn.proj_v.bias''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.output.dense.weight''',
f'''stage{idx}.blocks.{cnt}.attn.proj.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.output.dense.bias''',
f'''stage{idx}.blocks.{cnt}.attn.proj.bias''',
))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.intermediate.dense.weight''', f'''stage{idx}.blocks.{cnt}.mlp.fc1.weight'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.intermediate.dense.bias''', f'''stage{idx}.blocks.{cnt}.mlp.fc1.bias'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.output.dense.weight''', f'''stage{idx}.blocks.{cnt}.mlp.fc2.weight'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.output.dense.bias''', f'''stage{idx}.blocks.{cnt}.mlp.fc2.bias'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_before.weight''', f'''stage{idx}.blocks.{cnt}.norm1.weight'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_before.bias''', f'''stage{idx}.blocks.{cnt}.norm1.bias'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_after.weight''', f'''stage{idx}.blocks.{cnt}.norm2.weight'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_after.bias''', f'''stage{idx}.blocks.{cnt}.norm2.bias'''))
return attention_weights
def lowercase_ ( _lowerCamelCase : Optional[int]):
lowercase__ : Tuple = []
token.append((f'''cvt.encoder.stages.{idx}.cls_token''', "stage2.cls_token"))
return token
def lowercase_ ( ):
lowercase__ : List[str] = []
head.append(("layernorm.weight", "norm.weight"))
head.append(("layernorm.bias", "norm.bias"))
head.append(("classifier.weight", "head.weight"))
head.append(("classifier.bias", "head.bias"))
return head
def lowercase_ ( _lowerCamelCase : Union[str, Any] , _lowerCamelCase : Optional[int] , _lowerCamelCase : Optional[int] , _lowerCamelCase : Union[str, Any]):
lowercase__ : Optional[Any] = "imagenet-1k-id2label.json"
lowercase__ : List[str] = 1000
lowercase__ : Dict = "huggingface/label-files"
lowercase__ : List[Any] = num_labels
lowercase__ : Tuple = json.load(open(cached_download(hf_hub_url(_lowerCamelCase , _lowerCamelCase , repo_type="dataset")) , "r"))
lowercase__ : Tuple = {int(_lowerCamelCase): v for k, v in idalabel.items()}
lowercase__ : Any = idalabel
lowercase__ : List[Any] = {v: k for k, v in idalabel.items()}
lowercase__ : Optional[int] = CvtConfig(num_labels=_lowerCamelCase , idalabel=_lowerCamelCase , labelaid=_lowerCamelCase)
# For depth size 13 (13 = 1+2+10)
if cvt_model.rsplit("/" , 1)[-1][4:6] == "13":
lowercase__ : Any = [1, 2, 10]
# For depth size 21 (21 = 1+4+16)
elif cvt_model.rsplit("/" , 1)[-1][4:6] == "21":
lowercase__ : Tuple = [1, 4, 16]
# For wide cvt (similar to wide-resnet) depth size 24 (w24 = 2 + 2 20)
else:
lowercase__ : Union[str, Any] = [2, 2, 20]
lowercase__ : Optional[Any] = [3, 12, 16]
lowercase__ : Optional[Any] = [192, 768, 1024]
lowercase__ : Union[str, Any] = CvtForImageClassification(_lowerCamelCase)
lowercase__ : Tuple = AutoImageProcessor.from_pretrained("facebook/convnext-base-224-22k-1k")
lowercase__ : int = image_size
lowercase__ : Dict = torch.load(_lowerCamelCase , map_location=torch.device("cpu"))
lowercase__ : Any = OrderedDict()
lowercase__ : int = []
for idx in range(len(config.depth)):
if config.cls_token[idx]:
lowercase__ : Dict = list_of_state_dict + cls_token(_lowerCamelCase)
lowercase__ : List[str] = list_of_state_dict + embeddings(_lowerCamelCase)
for cnt in range(config.depth[idx]):
lowercase__ : Any = list_of_state_dict + attention(_lowerCamelCase , _lowerCamelCase)
lowercase__ : List[str] = list_of_state_dict + final()
for gg in list_of_state_dict:
print(_lowerCamelCase)
for i in range(len(_lowerCamelCase)):
lowercase__ : Dict = original_weights[list_of_state_dict[i][1]]
model.load_state_dict(_lowerCamelCase)
model.save_pretrained(_lowerCamelCase)
image_processor.save_pretrained(_lowerCamelCase)
# Download the weights from zoo: https://1drv.ms/u/s!AhIXJn_J-blW9RzF3rMW7SsLHa8h?e=blQ0Al
if __name__ == "__main__":
UpperCamelCase = argparse.ArgumentParser()
parser.add_argument(
'''--cvt_model''',
default='''cvt-w24''',
type=str,
help='''Name of the cvt model you\'d like to convert.''',
)
parser.add_argument(
'''--image_size''',
default=384,
type=int,
help='''Input Image Size''',
)
parser.add_argument(
'''--cvt_file_name''',
default=R'''cvtmodels\CvT-w24-384x384-IN-22k.pth''',
type=str,
help='''Input Image Size''',
)
parser.add_argument(
'''--pytorch_dump_folder_path''', default=None, type=str, help='''Path to the output PyTorch model directory.'''
)
UpperCamelCase = parser.parse_args()
convert_cvt_checkpoint(args.cvt_model, args.image_size, args.cvt_file_name, args.pytorch_dump_folder_path)
| 87 | 0 |
def UpperCAmelCase ( a_ , a_ ) -> str:
"""simple docstring"""
__A = [[] for _ in range(a_ )]
__A = key - 1
if key <= 0:
raise ValueError("Height of grid can't be 0 or negative" )
if key == 1 or len(a_ ) <= key:
return input_string
for position, character in enumerate(a_ ):
__A = position % (lowest * 2) # puts it in bounds
__A = min(a_ , lowest * 2 - num ) # creates zigzag pattern
temp_grid[num].append(a_ )
__A = ["".join(a_ ) for row in temp_grid]
__A = "".join(a_ )
return output_string
def UpperCAmelCase ( a_ , a_ ) -> str:
"""simple docstring"""
__A = []
__A = key - 1
if key <= 0:
raise ValueError("Height of grid can't be 0 or negative" )
if key == 1:
return input_string
__A = [[] for _ in range(a_ )] # generates template
for position in range(len(a_ ) ):
__A = position % (lowest * 2) # puts it in bounds
__A = min(a_ , lowest * 2 - num ) # creates zigzag pattern
temp_grid[num].append("*" )
__A = 0
for row in temp_grid: # fills in the characters
__A = input_string[counter : counter + len(a_ )]
grid.append(list(a_ ) )
counter += len(a_ )
__A = "" # reads as zigzag
for position in range(len(a_ ) ):
__A = position % (lowest * 2) # puts it in bounds
__A = min(a_ , lowest * 2 - num ) # creates zigzag pattern
output_string += grid[num][0]
grid[num].pop(0 )
return output_string
def UpperCAmelCase ( a_ ) -> dict[int, str]:
"""simple docstring"""
__A = {}
for key_guess in range(1 , len(a_ ) ): # tries every key
__A = decrypt(a_ , a_ )
return results
if __name__ == "__main__":
import doctest
doctest.testmod()
| 15 | from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
UpperCamelCase = {
'''configuration_electra''': ['''ELECTRA_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''ElectraConfig''', '''ElectraOnnxConfig'''],
'''tokenization_electra''': ['''ElectraTokenizer'''],
}
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = ['''ElectraTokenizerFast''']
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = [
'''ELECTRA_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''ElectraForCausalLM''',
'''ElectraForMaskedLM''',
'''ElectraForMultipleChoice''',
'''ElectraForPreTraining''',
'''ElectraForQuestionAnswering''',
'''ElectraForSequenceClassification''',
'''ElectraForTokenClassification''',
'''ElectraModel''',
'''ElectraPreTrainedModel''',
'''load_tf_weights_in_electra''',
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = [
'''TF_ELECTRA_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''TFElectraForMaskedLM''',
'''TFElectraForMultipleChoice''',
'''TFElectraForPreTraining''',
'''TFElectraForQuestionAnswering''',
'''TFElectraForSequenceClassification''',
'''TFElectraForTokenClassification''',
'''TFElectraModel''',
'''TFElectraPreTrainedModel''',
]
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = [
'''FlaxElectraForCausalLM''',
'''FlaxElectraForMaskedLM''',
'''FlaxElectraForMultipleChoice''',
'''FlaxElectraForPreTraining''',
'''FlaxElectraForQuestionAnswering''',
'''FlaxElectraForSequenceClassification''',
'''FlaxElectraForTokenClassification''',
'''FlaxElectraModel''',
'''FlaxElectraPreTrainedModel''',
]
if TYPE_CHECKING:
from .configuration_electra import ELECTRA_PRETRAINED_CONFIG_ARCHIVE_MAP, ElectraConfig, ElectraOnnxConfig
from .tokenization_electra import ElectraTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_electra_fast import ElectraTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_electra import (
ELECTRA_PRETRAINED_MODEL_ARCHIVE_LIST,
ElectraForCausalLM,
ElectraForMaskedLM,
ElectraForMultipleChoice,
ElectraForPreTraining,
ElectraForQuestionAnswering,
ElectraForSequenceClassification,
ElectraForTokenClassification,
ElectraModel,
ElectraPreTrainedModel,
load_tf_weights_in_electra,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_electra import (
TF_ELECTRA_PRETRAINED_MODEL_ARCHIVE_LIST,
TFElectraForMaskedLM,
TFElectraForMultipleChoice,
TFElectraForPreTraining,
TFElectraForQuestionAnswering,
TFElectraForSequenceClassification,
TFElectraForTokenClassification,
TFElectraModel,
TFElectraPreTrainedModel,
)
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_electra import (
FlaxElectraForCausalLM,
FlaxElectraForMaskedLM,
FlaxElectraForMultipleChoice,
FlaxElectraForPreTraining,
FlaxElectraForQuestionAnswering,
FlaxElectraForSequenceClassification,
FlaxElectraForTokenClassification,
FlaxElectraModel,
FlaxElectraPreTrainedModel,
)
else:
import sys
UpperCamelCase = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
| 87 | 0 |
"""simple docstring"""
import inspect
import unittest
from transformers import BitConfig
from transformers.testing_utils import require_torch, require_vision, slow, torch_device
from transformers.utils import cached_property, is_torch_available, is_vision_available
from ...test_backbone_common import BackboneTesterMixin
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 BitBackbone, BitForImageClassification, BitImageProcessor, BitModel
from transformers.models.bit.modeling_bit import BIT_PRETRAINED_MODEL_ARCHIVE_LIST
if is_vision_available():
from PIL import Image
class __A :
'''simple docstring'''
def __init__( self : Union[str, Any] ,_snake_case : int ,_snake_case : Any=3 ,_snake_case : List[Any]=32 ,_snake_case : str=3 ,_snake_case : List[Any]=10 ,_snake_case : Any=[8, 16, 32, 64] ,_snake_case : Optional[int]=[1, 1, 2, 1] ,_snake_case : Dict=True ,_snake_case : Dict=True ,_snake_case : List[Any]="relu" ,_snake_case : int=3 ,_snake_case : Dict=None ,_snake_case : List[Any]=["stage2", "stage3", "stage4"] ,_snake_case : List[Any]=[2, 3, 4] ,_snake_case : int=1 ,) -> Optional[int]:
"""simple docstring"""
lowercase__ : Any = parent
lowercase__ : Dict = batch_size
lowercase__ : Any = image_size
lowercase__ : Dict = num_channels
lowercase__ : int = embeddings_size
lowercase__ : str = hidden_sizes
lowercase__ : Tuple = depths
lowercase__ : Tuple = is_training
lowercase__ : str = use_labels
lowercase__ : int = hidden_act
lowercase__ : List[Any] = num_labels
lowercase__ : Dict = scope
lowercase__ : Dict = len(_snake_case )
lowercase__ : Optional[int] = out_features
lowercase__ : List[str] = out_indices
lowercase__ : Any = num_groups
def UpperCAmelCase ( self : Dict ) -> Union[str, Any]:
"""simple docstring"""
lowercase__ : int = floats_tensor([self.batch_size, self.num_channels, self.image_size, self.image_size] )
lowercase__ : Optional[int] = None
if self.use_labels:
lowercase__ : str = ids_tensor([self.batch_size] ,self.num_labels )
lowercase__ : Optional[int] = self.get_config()
return config, pixel_values, labels
def UpperCAmelCase ( self : List[str] ) -> Optional[int]:
"""simple docstring"""
return BitConfig(
num_channels=self.num_channels ,embeddings_size=self.embeddings_size ,hidden_sizes=self.hidden_sizes ,depths=self.depths ,hidden_act=self.hidden_act ,num_labels=self.num_labels ,out_features=self.out_features ,out_indices=self.out_indices ,num_groups=self.num_groups ,)
def UpperCAmelCase ( self : Tuple ,_snake_case : Optional[Any] ,_snake_case : Any ,_snake_case : str ) -> int:
"""simple docstring"""
lowercase__ : Tuple = BitModel(config=_snake_case )
model.to(_snake_case )
model.eval()
lowercase__ : Union[str, Any] = model(_snake_case )
self.parent.assertEqual(
result.last_hidden_state.shape ,(self.batch_size, self.hidden_sizes[-1], self.image_size // 32, self.image_size // 32) ,)
def UpperCAmelCase ( self : str ,_snake_case : List[str] ,_snake_case : int ,_snake_case : Optional[int] ) -> Dict:
"""simple docstring"""
lowercase__ : Optional[int] = self.num_labels
lowercase__ : List[str] = BitForImageClassification(_snake_case )
model.to(_snake_case )
model.eval()
lowercase__ : int = model(_snake_case ,labels=_snake_case )
self.parent.assertEqual(result.logits.shape ,(self.batch_size, self.num_labels) )
def UpperCAmelCase ( self : Optional[Any] ,_snake_case : List[Any] ,_snake_case : Tuple ,_snake_case : str ) -> Dict:
"""simple docstring"""
lowercase__ : int = BitBackbone(config=_snake_case )
model.to(_snake_case )
model.eval()
lowercase__ : str = model(_snake_case )
# verify feature maps
self.parent.assertEqual(len(result.feature_maps ) ,len(config.out_features ) )
self.parent.assertListEqual(list(result.feature_maps[0].shape ) ,[self.batch_size, self.hidden_sizes[1], 4, 4] )
# verify channels
self.parent.assertEqual(len(model.channels ) ,len(config.out_features ) )
self.parent.assertListEqual(model.channels ,config.hidden_sizes[1:] )
# verify backbone works with out_features=None
lowercase__ : Tuple = None
lowercase__ : Optional[int] = BitBackbone(config=_snake_case )
model.to(_snake_case )
model.eval()
lowercase__ : int = model(_snake_case )
# verify feature maps
self.parent.assertEqual(len(result.feature_maps ) ,1 )
self.parent.assertListEqual(list(result.feature_maps[0].shape ) ,[self.batch_size, self.hidden_sizes[-1], 1, 1] )
# verify channels
self.parent.assertEqual(len(model.channels ) ,1 )
self.parent.assertListEqual(model.channels ,[config.hidden_sizes[-1]] )
def UpperCAmelCase ( self : Tuple ) -> Union[str, Any]:
"""simple docstring"""
lowercase__ : Optional[Any] = self.prepare_config_and_inputs()
lowercase__ , lowercase__ , lowercase__ : Optional[Any] = config_and_inputs
lowercase__ : Any = {'''pixel_values''': pixel_values}
return config, inputs_dict
@require_torch
class __A ( A_ ,A_ ,unittest.TestCase ):
'''simple docstring'''
lowerCAmelCase : List[str] = (BitModel, BitForImageClassification, BitBackbone) if is_torch_available() else ()
lowerCAmelCase : List[str] = (
{"feature-extraction": BitModel, "image-classification": BitForImageClassification}
if is_torch_available()
else {}
)
lowerCAmelCase : Any = False
lowerCAmelCase : str = False
lowerCAmelCase : str = False
lowerCAmelCase : Optional[int] = False
lowerCAmelCase : List[str] = False
def UpperCAmelCase ( self : Optional[Any] ) -> int:
"""simple docstring"""
lowercase__ : Optional[Any] = BitModelTester(self )
lowercase__ : Tuple = ConfigTester(self ,config_class=_snake_case ,has_text_modality=_snake_case )
def UpperCAmelCase ( self : Dict ) -> Optional[int]:
"""simple docstring"""
self.create_and_test_config_common_properties()
self.config_tester.create_and_test_config_to_json_string()
self.config_tester.create_and_test_config_to_json_file()
self.config_tester.create_and_test_config_from_and_save_pretrained()
self.config_tester.create_and_test_config_with_num_labels()
self.config_tester.check_config_can_be_init_without_params()
self.config_tester.check_config_arguments_init()
def UpperCAmelCase ( self : int ) -> Tuple:
"""simple docstring"""
return
@unittest.skip(reason='''Bit does not output attentions''' )
def UpperCAmelCase ( self : Optional[Any] ) -> Dict:
"""simple docstring"""
pass
@unittest.skip(reason='''Bit does not use inputs_embeds''' )
def UpperCAmelCase ( self : Tuple ) -> Optional[Any]:
"""simple docstring"""
pass
@unittest.skip(reason='''Bit does not support input and output embeddings''' )
def UpperCAmelCase ( self : Union[str, Any] ) -> Any:
"""simple docstring"""
pass
def UpperCAmelCase ( self : Union[str, Any] ) -> Dict:
"""simple docstring"""
lowercase__ , lowercase__ : Dict = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
lowercase__ : List[str] = model_class(_snake_case )
lowercase__ : List[Any] = inspect.signature(model.forward )
# signature.parameters is an OrderedDict => so arg_names order is deterministic
lowercase__ : List[str] = [*signature.parameters.keys()]
lowercase__ : List[Any] = ['''pixel_values''']
self.assertListEqual(arg_names[:1] ,_snake_case )
def UpperCAmelCase ( self : Union[str, Any] ) -> Dict:
"""simple docstring"""
lowercase__ : List[str] = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*_snake_case )
def UpperCAmelCase ( self : Optional[int] ) -> Union[str, Any]:
"""simple docstring"""
lowercase__ : str = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_backbone(*_snake_case )
def UpperCAmelCase ( self : Optional[int] ) -> Optional[int]:
"""simple docstring"""
lowercase__ , lowercase__ : Any = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
lowercase__ : List[Any] = model_class(config=_snake_case )
for name, module in model.named_modules():
if isinstance(_snake_case ,(nn.BatchNormad, nn.GroupNorm) ):
self.assertTrue(
torch.all(module.weight == 1 ) ,msg=f"""Parameter {name} of model {model_class} seems not properly initialized""" ,)
self.assertTrue(
torch.all(module.bias == 0 ) ,msg=f"""Parameter {name} of model {model_class} seems not properly initialized""" ,)
def UpperCAmelCase ( self : List[str] ) -> Optional[Any]:
"""simple docstring"""
def check_hidden_states_output(_snake_case : Union[str, Any] ,_snake_case : int ,_snake_case : Optional[Any] ):
lowercase__ : Optional[int] = model_class(_snake_case )
model.to(_snake_case )
model.eval()
with torch.no_grad():
lowercase__ : Tuple = model(**self._prepare_for_class(_snake_case ,_snake_case ) )
lowercase__ : Optional[Any] = outputs.encoder_hidden_states if config.is_encoder_decoder else outputs.hidden_states
lowercase__ : int = self.model_tester.num_stages
self.assertEqual(len(_snake_case ) ,expected_num_stages + 1 )
# Bit's feature maps are of shape (batch_size, num_channels, height, width)
self.assertListEqual(
list(hidden_states[0].shape[-2:] ) ,[self.model_tester.image_size // 4, self.model_tester.image_size // 4] ,)
lowercase__ , lowercase__ : List[str] = self.model_tester.prepare_config_and_inputs_for_common()
lowercase__ : str = ['''preactivation''', '''bottleneck''']
for model_class in self.all_model_classes:
for layer_type in layers_type:
lowercase__ : Dict = layer_type
lowercase__ : Tuple = True
check_hidden_states_output(_snake_case ,_snake_case ,_snake_case )
# check that output_hidden_states also work using config
del inputs_dict["output_hidden_states"]
lowercase__ : List[Any] = True
check_hidden_states_output(_snake_case ,_snake_case ,_snake_case )
@unittest.skip(reason='''Bit does not use feedforward chunking''' )
def UpperCAmelCase ( self : str ) -> Optional[int]:
"""simple docstring"""
pass
def UpperCAmelCase ( self : List[Any] ) -> List[str]:
"""simple docstring"""
lowercase__ : List[str] = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_image_classification(*_snake_case )
@slow
def UpperCAmelCase ( self : List[Any] ) -> List[str]:
"""simple docstring"""
for model_name in BIT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
lowercase__ : Dict = BitModel.from_pretrained(_snake_case )
self.assertIsNotNone(_snake_case )
def __UpperCAmelCase ( ) -> List[str]:
lowercase__ : int = 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 : Dict ) -> List[str]:
"""simple docstring"""
return (
BitImageProcessor.from_pretrained(BIT_PRETRAINED_MODEL_ARCHIVE_LIST[0] ) if is_vision_available() else None
)
@slow
def UpperCAmelCase ( self : Dict ) -> Union[str, Any]:
"""simple docstring"""
lowercase__ : Union[str, Any] = BitForImageClassification.from_pretrained(BIT_PRETRAINED_MODEL_ARCHIVE_LIST[0] ).to(_snake_case )
lowercase__ : List[Any] = self.default_image_processor
lowercase__ : str = prepare_img()
lowercase__ : str = image_processor(images=_snake_case ,return_tensors='''pt''' ).to(_snake_case )
# forward pass
with torch.no_grad():
lowercase__ : Optional[int] = model(**_snake_case )
# verify the logits
lowercase__ : Tuple = torch.Size((1, 1_000) )
self.assertEqual(outputs.logits.shape ,_snake_case )
lowercase__ : List[str] = torch.tensor([[-0.6526, -0.5263, -1.4398]] ).to(_snake_case )
self.assertTrue(torch.allclose(outputs.logits[0, :3] ,_snake_case ,atol=1e-4 ) )
@require_torch
class __A ( A_ ,unittest.TestCase ):
'''simple docstring'''
lowerCAmelCase : Optional[int] = (BitBackbone,) if is_torch_available() else ()
lowerCAmelCase : Any = BitConfig
lowerCAmelCase : Optional[int] = False
def UpperCAmelCase ( self : Any ) -> Any:
"""simple docstring"""
lowercase__ : Tuple = BitModelTester(self )
| 16 | import json
import os
import unittest
from transformers import BatchEncoding, LEDTokenizer, LEDTokenizerFast
from transformers.models.led.tokenization_led import VOCAB_FILES_NAMES
from transformers.testing_utils import require_tokenizers, require_torch
from transformers.utils import cached_property
from ...test_tokenization_common import TokenizerTesterMixin
@require_tokenizers
class snake_case_ ( __A ,unittest.TestCase ):
__A : Union[str, Any] = LEDTokenizer
__A : Union[str, Any] = LEDTokenizerFast
__A : Optional[Any] = True
def __UpperCamelCase ( self : List[str] ) -> Union[str, Any]:
super().setUp()
lowercase__ : List[str] = [
"l",
"o",
"w",
"e",
"r",
"s",
"t",
"i",
"d",
"n",
"\u0120",
"\u0120l",
"\u0120n",
"\u0120lo",
"\u0120low",
"er",
"\u0120lowest",
"\u0120newer",
"\u0120wider",
"<unk>",
]
lowercase__ : Optional[int] = dict(zip(lowercase_ , range(len(lowercase_ ) ) ) )
lowercase__ : str = ["#version: 0.2", "\u0120 l", "\u0120l o", "\u0120lo w", "e r", ""]
lowercase__ : Tuple = {"unk_token": "<unk>"}
lowercase__ : Optional[Any] = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES["vocab_file"] )
lowercase__ : Dict = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES["merges_file"] )
with open(self.vocab_file , "w" , encoding="utf-8" ) as fp:
fp.write(json.dumps(lowercase_ ) + "\n" )
with open(self.merges_file , "w" , encoding="utf-8" ) as fp:
fp.write("\n".join(lowercase_ ) )
def __UpperCamelCase ( self : int , **lowercase_ : str ) -> List[Any]:
kwargs.update(self.special_tokens_map )
return self.tokenizer_class.from_pretrained(self.tmpdirname , **lowercase_ )
def __UpperCamelCase ( self : List[Any] , **lowercase_ : Any ) -> List[Any]:
kwargs.update(self.special_tokens_map )
return self.rust_tokenizer_class.from_pretrained(self.tmpdirname , **lowercase_ )
def __UpperCamelCase ( self : str , lowercase_ : Any ) -> Tuple:
return "lower newer", "lower newer"
@cached_property
def __UpperCamelCase ( self : Tuple ) -> Optional[Any]:
return LEDTokenizer.from_pretrained("allenai/led-base-16384" )
@cached_property
def __UpperCamelCase ( self : Tuple ) -> int:
return LEDTokenizerFast.from_pretrained("allenai/led-base-16384" )
@require_torch
def __UpperCamelCase ( self : int ) -> List[Any]:
lowercase__ : Union[str, Any] = ["A long paragraph for summarization.", "Another paragraph for summarization."]
lowercase__ : str = [0, 2_50, 2_51, 1_78_18, 13, 3_91_86, 19_38, 4, 2]
for tokenizer in [self.default_tokenizer, self.default_tokenizer_fast]:
lowercase__ : Dict = tokenizer(lowercase_ , max_length=len(lowercase_ ) , padding=lowercase_ , return_tensors="pt" )
self.assertIsInstance(lowercase_ , lowercase_ )
self.assertEqual((2, 9) , batch.input_ids.shape )
self.assertEqual((2, 9) , batch.attention_mask.shape )
lowercase__ : Union[str, Any] = batch.input_ids.tolist()[0]
self.assertListEqual(lowercase_ , lowercase_ )
@require_torch
def __UpperCamelCase ( self : List[str] ) -> Tuple:
lowercase__ : Dict = ["A long paragraph for summarization.", "Another paragraph for summarization."]
for tokenizer in [self.default_tokenizer, self.default_tokenizer_fast]:
lowercase__ : Optional[int] = tokenizer(lowercase_ , padding=lowercase_ , return_tensors="pt" )
self.assertIn("input_ids" , lowercase_ )
self.assertIn("attention_mask" , lowercase_ )
self.assertNotIn("labels" , lowercase_ )
self.assertNotIn("decoder_attention_mask" , lowercase_ )
@require_torch
def __UpperCamelCase ( self : Optional[Any] ) -> Any:
lowercase__ : Dict = [
"Summary of the text.",
"Another summary.",
]
for tokenizer in [self.default_tokenizer, self.default_tokenizer_fast]:
lowercase__ : Dict = tokenizer(text_target=lowercase_ , max_length=32 , padding="max_length" , return_tensors="pt" )
self.assertEqual(32 , targets["input_ids"].shape[1] )
@require_torch
def __UpperCamelCase ( self : Optional[int] ) -> Tuple:
for tokenizer in [self.default_tokenizer, self.default_tokenizer_fast]:
lowercase__ : int = tokenizer(
["I am a small frog" * 10_24, "I am a small frog"] , padding=lowercase_ , truncation=lowercase_ , return_tensors="pt" )
self.assertIsInstance(lowercase_ , lowercase_ )
self.assertEqual(batch.input_ids.shape , (2, 51_22) )
@require_torch
def __UpperCamelCase ( self : List[str] ) -> Any:
lowercase__ : Union[str, Any] = ["A long paragraph for summarization."]
lowercase__ : List[Any] = [
"Summary of the text.",
]
for tokenizer in [self.default_tokenizer, self.default_tokenizer_fast]:
lowercase__ : List[Any] = tokenizer(lowercase_ , return_tensors="pt" )
lowercase__ : Dict = tokenizer(text_target=lowercase_ , return_tensors="pt" )
lowercase__ : Optional[int] = inputs["input_ids"]
lowercase__ : str = targets["input_ids"]
self.assertTrue((input_ids[:, 0] == tokenizer.bos_token_id).all().item() )
self.assertTrue((labels[:, 0] == tokenizer.bos_token_id).all().item() )
self.assertTrue((input_ids[:, -1] == tokenizer.eos_token_id).all().item() )
self.assertTrue((labels[:, -1] == tokenizer.eos_token_id).all().item() )
@require_torch
def __UpperCamelCase ( self : Union[str, Any] ) -> Dict:
for tokenizer in [self.default_tokenizer, self.default_tokenizer_fast]:
lowercase__ : int = ["Summary of the text.", "Another summary."]
lowercase__ : List[str] = [[0, 0, 0, 0, 0, 0, 0], [0, 0, 0, 0, 0, -1, -1]]
lowercase__ : Tuple = tokenizer(lowercase_ , padding=lowercase_ )
lowercase__ : int = [[0] * len(lowercase_ ) for x in encoded_output["input_ids"]]
lowercase__ : Any = tokenizer.pad(lowercase_ )
self.assertSequenceEqual(outputs["global_attention_mask"] , lowercase_ )
def __UpperCamelCase ( self : int ) -> Union[str, Any]:
pass
def __UpperCamelCase ( self : int ) -> Optional[Any]:
for tokenizer, pretrained_name, kwargs in self.tokenizers_list:
with self.subTest(F'''{tokenizer.__class__.__name__} ({pretrained_name})''' ):
lowercase__ : List[Any] = self.rust_tokenizer_class.from_pretrained(lowercase_ , **lowercase_ )
lowercase__ : List[str] = self.tokenizer_class.from_pretrained(lowercase_ , **lowercase_ )
lowercase__ : List[Any] = "A, <mask> AllenNLP sentence."
lowercase__ : Tuple = tokenizer_r.encode_plus(lowercase_ , add_special_tokens=lowercase_ , return_token_type_ids=lowercase_ )
lowercase__ : List[str] = tokenizer_p.encode_plus(lowercase_ , add_special_tokens=lowercase_ , return_token_type_ids=lowercase_ )
self.assertEqual(sum(tokens_r["token_type_ids"] ) , sum(tokens_p["token_type_ids"] ) )
self.assertEqual(
sum(tokens_r["attention_mask"] ) / len(tokens_r["attention_mask"] ) , sum(tokens_p["attention_mask"] ) / len(tokens_p["attention_mask"] ) , )
lowercase__ : Any = tokenizer_r.convert_ids_to_tokens(tokens_r["input_ids"] )
lowercase__ : Optional[Any] = tokenizer_p.convert_ids_to_tokens(tokens_p["input_ids"] )
self.assertSequenceEqual(tokens_p["input_ids"] , [0, 2_50, 6, 5_02_64, 38_23, 4_87, 2_19_92, 36_45, 4, 2] )
self.assertSequenceEqual(tokens_r["input_ids"] , [0, 2_50, 6, 5_02_64, 38_23, 4_87, 2_19_92, 36_45, 4, 2] )
self.assertSequenceEqual(
lowercase_ , ["<s>", "A", ",", "<mask>", "ĠAllen", "N", "LP", "Ġsentence", ".", "</s>"] )
self.assertSequenceEqual(
lowercase_ , ["<s>", "A", ",", "<mask>", "ĠAllen", "N", "LP", "Ġsentence", ".", "</s>"] )
| 87 | 0 |
"""simple docstring"""
import unicodedata
from dataclasses import dataclass
from typing import Optional, Union
import numpy as np
from transformers.data.data_collator import DataCollatorMixin
from transformers.file_utils import PaddingStrategy
from transformers.tokenization_utils_base import PreTrainedTokenizerBase
def _A ( UpperCamelCase_ : int, UpperCamelCase_ : List[Any], UpperCamelCase_ : Any, UpperCamelCase_ : List[str]) -> Optional[int]:
'''simple docstring'''
if isinstance(UpperCamelCase_, UpperCamelCase_):
__lowercase = np.full((len(UpperCamelCase_), sequence_length, 2), UpperCamelCase_)
else:
__lowercase = np.full((len(UpperCamelCase_), sequence_length), UpperCamelCase_)
for i, tensor in enumerate(UpperCamelCase_):
if padding_side == "right":
if isinstance(UpperCamelCase_, UpperCamelCase_):
__lowercase = tensor[:sequence_length]
else:
__lowercase = tensor[:sequence_length]
else:
if isinstance(UpperCamelCase_, UpperCamelCase_):
__lowercase = tensor[:sequence_length]
else:
__lowercase = tensor[:sequence_length]
return out_tensor.tolist()
def _A ( UpperCamelCase_ : Dict) -> str:
'''simple docstring'''
__lowercase = ord(UpperCamelCase_)
if (cp >= 33 and cp <= 47) or (cp >= 58 and cp <= 64) or (cp >= 91 and cp <= 96) or (cp >= 123 and cp <= 126):
return True
__lowercase = unicodedata.category(UpperCamelCase_)
if cat.startswith("P"):
return True
return False
@dataclass
class _lowerCAmelCase ( lowercase ):
"""simple docstring"""
__UpperCAmelCase : PreTrainedTokenizerBase
__UpperCAmelCase : Union[bool, str, PaddingStrategy] = True
__UpperCAmelCase : Optional[int] = None
__UpperCAmelCase : Optional[int] = None
__UpperCAmelCase : int = -1_0_0
__UpperCAmelCase : str = "pt"
def _lowercase ( self : str, UpperCAmelCase__ : List[str] ):
import torch
__lowercase = "label" if "label" in features[0].keys() else "labels"
__lowercase = [feature[label_name] for feature in features] if label_name in features[0].keys() else None
__lowercase = self.tokenizer.pad(
UpperCAmelCase__, padding=self.padding, max_length=self.max_length, pad_to_multiple_of=self.pad_to_multiple_of, return_tensors="pt" if labels is None else None, )
if labels is None:
return batch
__lowercase = torch.tensor(batch["entity_ids"] ).shape[1]
__lowercase = self.tokenizer.padding_side
if padding_side == "right":
__lowercase = [
list(UpperCAmelCase__ ) + [self.label_pad_token_id] * (sequence_length - len(UpperCAmelCase__ )) for label in labels
]
else:
__lowercase = [
[self.label_pad_token_id] * (sequence_length - len(UpperCAmelCase__ )) + list(UpperCAmelCase__ ) for label in labels
]
__lowercase = [feature["ner_tags"] for feature in features]
__lowercase = padding_tensor(UpperCAmelCase__, -1, UpperCAmelCase__, UpperCAmelCase__ )
__lowercase = [feature["original_entity_spans"] for feature in features]
__lowercase = padding_tensor(UpperCAmelCase__, (-1, -1), UpperCAmelCase__, UpperCAmelCase__ )
__lowercase = {k: torch.tensor(UpperCAmelCase__, dtype=torch.intaa ) for k, v in batch.items()}
return batch
| 17 | import math
from typing import Any, Callable, List, Optional, Tuple, Union
import numpy as np
import torch
from ...models import TaFilmDecoder
from ...schedulers import DDPMScheduler
from ...utils import is_onnx_available, logging, randn_tensor
if is_onnx_available():
from ..onnx_utils import OnnxRuntimeModel
from ..pipeline_utils import AudioPipelineOutput, DiffusionPipeline
from .continous_encoder import SpectrogramContEncoder
from .notes_encoder import SpectrogramNotesEncoder
UpperCamelCase = logging.get_logger(__name__) # pylint: disable=invalid-name
UpperCamelCase = 256
class snake_case_ ( __A ):
__A : str = ["melgan"]
def __init__( self : str , lowercase_ : SpectrogramNotesEncoder , lowercase_ : SpectrogramContEncoder , lowercase_ : TaFilmDecoder , lowercase_ : DDPMScheduler , lowercase_ : OnnxRuntimeModel if is_onnx_available() else Any , ) -> None:
super().__init__()
# From MELGAN
lowercase__ : List[Any] = math.log(1E-5 ) # Matches MelGAN training.
lowercase__ : str = 4.0 # Largest value for most examples
lowercase__ : Any = 1_28
self.register_modules(
notes_encoder=lowercase_ , continuous_encoder=lowercase_ , decoder=lowercase_ , scheduler=lowercase_ , melgan=lowercase_ , )
def __UpperCamelCase ( self : Union[str, Any] , lowercase_ : Union[str, Any] , lowercase_ : List[str]=(-1.0, 1.0) , lowercase_ : Dict=False ) -> Optional[Any]:
lowercase__ , lowercase__ : int = output_range
if clip:
lowercase__ : Optional[Any] = torch.clip(lowercase_ , self.min_value , self.max_value )
# Scale to [0, 1].
lowercase__ : List[str] = (features - self.min_value) / (self.max_value - self.min_value)
# Scale to [min_out, max_out].
return zero_one * (max_out - min_out) + min_out
def __UpperCamelCase ( self : Optional[int] , lowercase_ : List[str] , lowercase_ : List[str]=(-1.0, 1.0) , lowercase_ : List[Any]=False ) -> Union[str, Any]:
lowercase__ , lowercase__ : Tuple = input_range
lowercase__ : Optional[Any] = torch.clip(lowercase_ , lowercase_ , lowercase_ ) if clip else outputs
# Scale to [0, 1].
lowercase__ : Union[str, Any] = (outputs - min_out) / (max_out - min_out)
# Scale to [self.min_value, self.max_value].
return zero_one * (self.max_value - self.min_value) + self.min_value
def __UpperCamelCase ( self : List[str] , lowercase_ : Any , lowercase_ : Optional[Any] , lowercase_ : Tuple ) -> List[str]:
lowercase__ : Optional[Any] = input_tokens > 0
lowercase__ , lowercase__ : int = self.notes_encoder(
encoder_input_tokens=lowercase_ , encoder_inputs_mask=lowercase_ )
lowercase__ , lowercase__ : List[Any] = self.continuous_encoder(
encoder_inputs=lowercase_ , encoder_inputs_mask=lowercase_ )
return [(tokens_encoded, tokens_mask), (continuous_encoded, continuous_mask)]
def __UpperCamelCase ( self : Optional[Any] , lowercase_ : Optional[int] , lowercase_ : Optional[int] , lowercase_ : str ) -> Tuple:
lowercase__ : Union[str, Any] = noise_time
if not torch.is_tensor(lowercase_ ):
lowercase__ : Optional[Any] = torch.tensor([timesteps] , dtype=torch.long , device=input_tokens.device )
elif torch.is_tensor(lowercase_ ) and len(timesteps.shape ) == 0:
lowercase__ : Optional[Any] = timesteps[None].to(input_tokens.device )
# broadcast to batch dimension in a way that's compatible with ONNX/Core ML
lowercase__ : int = timesteps * torch.ones(input_tokens.shape[0] , dtype=timesteps.dtype , device=timesteps.device )
lowercase__ : str = self.decoder(
encodings_and_masks=lowercase_ , decoder_input_tokens=lowercase_ , decoder_noise_time=lowercase_ )
return logits
@torch.no_grad()
def __call__( self : List[str] , lowercase_ : List[List[int]] , lowercase_ : Optional[torch.Generator] = None , lowercase_ : int = 1_00 , lowercase_ : bool = True , lowercase_ : str = "numpy" , lowercase_ : Optional[Callable[[int, int, torch.FloatTensor], None]] = None , lowercase_ : int = 1 , ) -> Union[AudioPipelineOutput, Tuple]:
if (callback_steps is None) or (
callback_steps is not None and (not isinstance(lowercase_ , lowercase_ ) or callback_steps <= 0)
):
raise ValueError(
F'''`callback_steps` has to be a positive integer but is {callback_steps} of type'''
F''' {type(lowercase_ )}.''' )
lowercase__ : str = np.zeros([1, TARGET_FEATURE_LENGTH, self.n_dims] , dtype=np.floataa )
lowercase__ : Optional[int] = np.zeros([1, 0, self.n_dims] , np.floataa )
lowercase__ : str = torch.ones((1, TARGET_FEATURE_LENGTH) , dtype=lowercase_ , device=self.device )
for i, encoder_input_tokens in enumerate(lowercase_ ):
if i == 0:
lowercase__ : Union[str, Any] = torch.from_numpy(pred_mel[:1].copy() ).to(
device=self.device , dtype=self.decoder.dtype )
# The first chunk has no previous context.
lowercase__ : List[str] = torch.zeros((1, TARGET_FEATURE_LENGTH) , dtype=lowercase_ , device=self.device )
else:
# The full song pipeline does not feed in a context feature, so the mask
# will be all 0s after the feature converter. Because we know we're
# feeding in a full context chunk from the previous prediction, set it
# to all 1s.
lowercase__ : str = ones
lowercase__ : str = self.scale_features(
lowercase_ , output_range=[-1.0, 1.0] , clip=lowercase_ )
lowercase__ : str = self.encode(
input_tokens=torch.IntTensor([encoder_input_tokens] ).to(device=self.device ) , continuous_inputs=lowercase_ , continuous_mask=lowercase_ , )
# Sample encoder_continuous_inputs shaped gaussian noise to begin loop
lowercase__ : List[str] = randn_tensor(
shape=encoder_continuous_inputs.shape , generator=lowercase_ , device=self.device , dtype=self.decoder.dtype , )
# set step values
self.scheduler.set_timesteps(lowercase_ )
# Denoising diffusion loop
for j, t in enumerate(self.progress_bar(self.scheduler.timesteps ) ):
lowercase__ : Optional[int] = self.decode(
encodings_and_masks=lowercase_ , input_tokens=lowercase_ , noise_time=t / self.scheduler.config.num_train_timesteps , )
# Compute previous output: x_t -> x_t-1
lowercase__ : Optional[Any] = self.scheduler.step(lowercase_ , lowercase_ , lowercase_ , generator=lowercase_ ).prev_sample
lowercase__ : Tuple = self.scale_to_features(lowercase_ , input_range=[-1.0, 1.0] )
lowercase__ : List[str] = mel[:1]
lowercase__ : Optional[int] = mel.cpu().float().numpy()
lowercase__ : str = np.concatenate([full_pred_mel, pred_mel[:1]] , axis=1 )
# call the callback, if provided
if callback is not None and i % callback_steps == 0:
callback(lowercase_ , lowercase_ )
logger.info("Generated segment" , lowercase_ )
if output_type == "numpy" and not is_onnx_available():
raise ValueError(
"Cannot return output in 'np' format if ONNX is not available. Make sure to have ONNX installed or set 'output_type' to 'mel'." )
elif output_type == "numpy" and self.melgan is None:
raise ValueError(
"Cannot return output in 'np' format if melgan component is not defined. Make sure to define `self.melgan` or set 'output_type' to 'mel'." )
if output_type == "numpy":
lowercase__ : Union[str, Any] = self.melgan(input_features=full_pred_mel.astype(np.floataa ) )
else:
lowercase__ : Dict = full_pred_mel
if not return_dict:
return (output,)
return AudioPipelineOutput(audios=lowercase_ )
| 87 | 0 |
from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available, is_vision_available
__lowerCamelCase : Union[str, Any] = {
'''configuration_chinese_clip''': [
'''CHINESE_CLIP_PRETRAINED_CONFIG_ARCHIVE_MAP''',
'''ChineseCLIPConfig''',
'''ChineseCLIPOnnxConfig''',
'''ChineseCLIPTextConfig''',
'''ChineseCLIPVisionConfig''',
],
'''processing_chinese_clip''': ['''ChineseCLIPProcessor'''],
}
try:
if not is_vision_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
__lowerCamelCase : Any = ['''ChineseCLIPFeatureExtractor''']
__lowerCamelCase : Optional[int] = ['''ChineseCLIPImageProcessor''']
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
__lowerCamelCase : int = [
'''CHINESE_CLIP_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''ChineseCLIPModel''',
'''ChineseCLIPPreTrainedModel''',
'''ChineseCLIPTextModel''',
'''ChineseCLIPVisionModel''',
]
if TYPE_CHECKING:
from .configuration_chinese_clip import (
CHINESE_CLIP_PRETRAINED_CONFIG_ARCHIVE_MAP,
ChineseCLIPConfig,
ChineseCLIPOnnxConfig,
ChineseCLIPTextConfig,
ChineseCLIPVisionConfig,
)
from .processing_chinese_clip import ChineseCLIPProcessor
try:
if not is_vision_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .feature_extraction_chinese_clip import ChineseCLIPFeatureExtractor, ChineseCLIPImageProcessor
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_chinese_clip import (
CHINESE_CLIP_PRETRAINED_MODEL_ARCHIVE_LIST,
ChineseCLIPModel,
ChineseCLIPPreTrainedModel,
ChineseCLIPTextModel,
ChineseCLIPVisionModel,
)
else:
import sys
__lowerCamelCase : Any = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
| 18 | import unittest
from datasets import load_dataset
from transformers.pipelines import pipeline
from transformers.testing_utils import is_pipeline_test, nested_simplify, require_torch, slow
@is_pipeline_test
@require_torch
class snake_case_ ( unittest.TestCase ):
@require_torch
def __UpperCamelCase ( self : Optional[int] ) -> List[Any]:
lowercase__ : Union[str, Any] = pipeline(
task="zero-shot-audio-classification" , model="hf-internal-testing/tiny-clap-htsat-unfused" )
lowercase__ : List[str] = load_dataset("ashraq/esc50" )
lowercase__ : List[Any] = dataset["train"]["audio"][-1]["array"]
lowercase__ : Dict = audio_classifier(lowercase_ , candidate_labels=["Sound of a dog", "Sound of vaccum cleaner"] )
self.assertEqual(
nested_simplify(lowercase_ ) , [{"score": 0.5_01, "label": "Sound of a dog"}, {"score": 0.4_99, "label": "Sound of vaccum cleaner"}] , )
@unittest.skip("No models are available in TF" )
def __UpperCamelCase ( self : str ) -> Optional[int]:
pass
@slow
@require_torch
def __UpperCamelCase ( self : List[str] ) -> int:
lowercase__ : Tuple = pipeline(
task="zero-shot-audio-classification" , model="laion/clap-htsat-unfused" , )
# This is an audio of a dog
lowercase__ : Union[str, Any] = load_dataset("ashraq/esc50" )
lowercase__ : Tuple = dataset["train"]["audio"][-1]["array"]
lowercase__ : List[Any] = audio_classifier(lowercase_ , candidate_labels=["Sound of a dog", "Sound of vaccum cleaner"] )
self.assertEqual(
nested_simplify(lowercase_ ) , [
{"score": 0.9_99, "label": "Sound of a dog"},
{"score": 0.0_01, "label": "Sound of vaccum cleaner"},
] , )
lowercase__ : int = audio_classifier([audio] * 5 , candidate_labels=["Sound of a dog", "Sound of vaccum cleaner"] )
self.assertEqual(
nested_simplify(lowercase_ ) , [
[
{"score": 0.9_99, "label": "Sound of a dog"},
{"score": 0.0_01, "label": "Sound of vaccum cleaner"},
],
]
* 5 , )
lowercase__ : Tuple = audio_classifier(
[audio] * 5 , candidate_labels=["Sound of a dog", "Sound of vaccum cleaner"] , batch_size=5 )
self.assertEqual(
nested_simplify(lowercase_ ) , [
[
{"score": 0.9_99, "label": "Sound of a dog"},
{"score": 0.0_01, "label": "Sound of vaccum cleaner"},
],
]
* 5 , )
@unittest.skip("No models are available in TF" )
def __UpperCamelCase ( self : Union[str, Any] ) -> Dict:
pass
| 87 | 0 |
from ...configuration_utils import PretrainedConfig
from ...utils import logging
__A =logging.get_logger(__name__)
__A ={
'''RWKV/rwkv-4-169m-pile''': '''https://huggingface.co/RWKV/rwkv-4-169m-pile/resolve/main/config.json''',
'''RWKV/rwkv-4-430m-pile''': '''https://huggingface.co/RWKV/rwkv-4-430m-pile/resolve/main/config.json''',
'''RWKV/rwkv-4-1b5-pile''': '''https://huggingface.co/RWKV/rwkv-4-1b5-pile/resolve/main/config.json''',
'''RWKV/rwkv-4-3b-pile''': '''https://huggingface.co/RWKV/rwkv-4-3b-pile/resolve/main/config.json''',
'''RWKV/rwkv-4-7b-pile''': '''https://huggingface.co/RWKV/rwkv-4-7b-pile/resolve/main/config.json''',
'''RWKV/rwkv-4-14b-pile''': '''https://huggingface.co/RWKV/rwkv-4-14b-pile/resolve/main/config.json''',
'''RWKV/rwkv-raven-1b5''': '''https://huggingface.co/RWKV/rwkv-raven-1b5/resolve/main/config.json''',
'''RWKV/rwkv-raven-3b''': '''https://huggingface.co/RWKV/rwkv-raven-3b/resolve/main/config.json''',
'''RWKV/rwkv-raven-7b''': '''https://huggingface.co/RWKV/rwkv-raven-7b/resolve/main/config.json''',
'''RWKV/rwkv-raven-14b''': '''https://huggingface.co/RWKV/rwkv-raven-14b/resolve/main/config.json''',
}
class _SCREAMING_SNAKE_CASE ( snake_case_ ):
lowerCAmelCase__ = 'rwkv'
lowerCAmelCase__ = {'max_position_embeddings': 'context_length'}
def __init__( self , lowercase=50277 , lowercase=1024 , lowercase=4096 , lowercase=32 , lowercase=None , lowercase=None , lowercase=1e-5 , lowercase=0 , lowercase=0 , lowercase=6 , lowercase=False , lowercase=True , **lowercase , ) -> Tuple:
lowerCamelCase_ = vocab_size
lowerCamelCase_ = context_length
lowerCamelCase_ = hidden_size
lowerCamelCase_ = num_hidden_layers
lowerCamelCase_ = attention_hidden_size if attention_hidden_size is not None else hidden_size
lowerCamelCase_ = intermediate_size if intermediate_size is not None else 4 * hidden_size
lowerCamelCase_ = layer_norm_epsilon
lowerCamelCase_ = rescale_every
lowerCamelCase_ = use_cache
lowerCamelCase_ = bos_token_id
lowerCamelCase_ = eos_token_id
super().__init__(
tie_word_embeddings=lowercase , bos_token_id=lowercase , eos_token_id=lowercase , **lowercase )
| 19 | import operator
def lowercase_ ( _lowerCamelCase : list , _lowerCamelCase : bool = False , _lowerCamelCase : list | None = None):
lowercase__ : int = operator.lt if reverse else operator.gt
lowercase__ : str = solution or []
if not arr:
return solution
lowercase__ : List[str] = [arr.pop(0)]
for i, item in enumerate(_lowerCamelCase):
if _operator(_lowerCamelCase , sublist[-1]):
sublist.append(_lowerCamelCase)
arr.pop(_lowerCamelCase)
# merging sublist into solution list
if not solution:
solution.extend(_lowerCamelCase)
else:
while sublist:
lowercase__ : str = sublist.pop(0)
for i, xx in enumerate(_lowerCamelCase):
if not _operator(_lowerCamelCase , _lowerCamelCase):
solution.insert(_lowerCamelCase , _lowerCamelCase)
break
else:
solution.append(_lowerCamelCase)
strand_sort(_lowerCamelCase , _lowerCamelCase , _lowerCamelCase)
return solution
if __name__ == "__main__":
assert strand_sort([4, 3, 5, 1, 2]) == [1, 2, 3, 4, 5]
assert strand_sort([4, 3, 5, 1, 2], reverse=True) == [5, 4, 3, 2, 1]
| 87 | 0 |
from __future__ import annotations
lowercase : Tuple = """Muhammad Umer Farooq"""
lowercase : List[str] = """MIT"""
lowercase : Any = """1.0.0"""
lowercase : str = """Muhammad Umer Farooq"""
lowercase : List[str] = """contact@muhammadumerfarooq.me"""
lowercase : Union[str, Any] = """Alpha"""
import re
from html.parser import HTMLParser
from urllib import parse
import requests
class __snake_case ( lowerCAmelCase ):
def __init__( self ,snake_case ):
'''simple docstring'''
super().__init__()
lowercase : list[str] = []
lowercase : Union[str, Any] = domain
def _SCREAMING_SNAKE_CASE ( self ,snake_case ,snake_case ):
'''simple docstring'''
if tag == "a":
# Check the list of defined attributes.
for name, value in attrs:
# If href is defined, and not empty nor # print it.
if name == "href" and value != "#" and value != "":
# If not already in urls.
if value not in self.urls:
lowercase : Tuple = parse.urljoin(self.domain ,snake_case )
self.urls.append(snake_case )
def _snake_case( SCREAMING_SNAKE_CASE__ ) -> str:
return ".".join(get_sub_domain_name(SCREAMING_SNAKE_CASE__ ).split(""".""" )[-2:] )
def _snake_case( SCREAMING_SNAKE_CASE__ ) -> str:
return parse.urlparse(SCREAMING_SNAKE_CASE__ ).netloc
def _snake_case( SCREAMING_SNAKE_CASE__ = "https://github.com" ) -> list[str]:
lowercase : List[Any] = get_domain_name(SCREAMING_SNAKE_CASE__ )
# Initialize the parser
lowercase : List[str] = Parser(SCREAMING_SNAKE_CASE__ )
try:
# Open URL
lowercase : Tuple = requests.get(SCREAMING_SNAKE_CASE__ )
# pass the raw HTML to the parser to get links
parser.feed(r.text )
# Get links and loop through
lowercase : List[str] = set()
for link in parser.urls:
# open URL.
# read = requests.get(link)
try:
lowercase : Tuple = requests.get(SCREAMING_SNAKE_CASE__ )
# Get the valid email.
lowercase : Any = re.findall("""[a-zA-Z0-9]+@""" + domain , read.text )
# If not in list then append it.
for email in emails:
valid_emails.add(SCREAMING_SNAKE_CASE__ )
except ValueError:
pass
except ValueError:
raise SystemExit(1 )
# Finally return a sorted list of email addresses with no duplicates.
return sorted(SCREAMING_SNAKE_CASE__ )
if __name__ == "__main__":
lowercase : Optional[Any] = emails_from_url("""https://github.com""")
print(F'''{len(emails)} emails found:''')
print("""\n""".join(sorted(emails)))
| 20 | import time
import warnings
from abc import ABC
from copy import deepcopy
from typing import Optional
import torch
from ..utils import add_start_docstrings, logging
UpperCamelCase = logging.get_logger(__name__)
UpperCamelCase = R'''
Args:
input_ids (`torch.LongTensor` of shape `(batch_size, sequence_length)`):
Indices of input sequence tokens in the vocabulary.
Indices can be obtained using [`AutoTokenizer`]. See [`PreTrainedTokenizer.encode`] and
[`PreTrainedTokenizer.__call__`] for details.
[What are input IDs?](../glossary#input-ids)
scores (`torch.FloatTensor` of shape `(batch_size, config.vocab_size)`):
Prediction scores of a language modeling head. These can be scores for each vocabulary token before SoftMax
or scores for each vocabulary token after SoftMax.
kwargs (`Dict[str, Any]`, *optional*):
Additional stopping criteria specific kwargs.
Return:
`bool`. `False` indicates we should continue, `True` indicates we should stop.
'''
class snake_case_ ( __A ):
@add_start_docstrings(lowercase_ )
def __call__( self : Optional[Any] , lowercase_ : torch.LongTensor , lowercase_ : torch.FloatTensor , **lowercase_ : List[str] ) -> bool:
raise NotImplementedError("StoppingCriteria needs to be subclassed" )
class snake_case_ ( __A ):
def __init__( self : Dict , lowercase_ : int , lowercase_ : Optional[int] = None ) -> List[str]:
lowercase__ : str = max_length
lowercase__ : Optional[int] = max_position_embeddings
@add_start_docstrings(lowercase_ )
def __call__( self : Tuple , lowercase_ : torch.LongTensor , lowercase_ : torch.FloatTensor , **lowercase_ : Union[str, Any] ) -> bool:
lowercase__ : str = input_ids.shape[-1]
lowercase__ : Any = cur_len >= self.max_length
if self.max_position_embeddings is not None and not is_done and cur_len >= self.max_position_embeddings:
logger.warning_once(
"This is a friendly reminder - the current text generation call will exceed the model's predefined "
F'''maximum length ({self.max_position_embeddings}). Depending on the model, you may observe '''
"exceptions, performance degradation, or nothing at all." )
return is_done
class snake_case_ ( __A ):
def __init__( self : Tuple , lowercase_ : int , lowercase_ : int ) -> List[str]:
warnings.warn(
"The class `MaxNewTokensCriteria` is deprecated. "
F'''Please use `MaxLengthCriteria(max_length={start_length + max_new_tokens})` '''
"with `max_length = start_length + max_new_tokens` instead." , lowercase_ , )
lowercase__ : Optional[int] = start_length
lowercase__ : str = max_new_tokens
lowercase__ : Tuple = start_length + max_new_tokens
@add_start_docstrings(lowercase_ )
def __call__( self : List[Any] , lowercase_ : torch.LongTensor , lowercase_ : torch.FloatTensor , **lowercase_ : Dict ) -> bool:
return input_ids.shape[-1] >= self.max_length
class snake_case_ ( __A ):
def __init__( self : Tuple , lowercase_ : float , lowercase_ : Optional[float] = None ) -> Dict:
lowercase__ : List[str] = max_time
lowercase__ : Tuple = time.time() if initial_timestamp is None else initial_timestamp
@add_start_docstrings(lowercase_ )
def __call__( self : int , lowercase_ : torch.LongTensor , lowercase_ : torch.FloatTensor , **lowercase_ : Union[str, Any] ) -> bool:
return time.time() - self.initial_timestamp > self.max_time
class snake_case_ ( __A ):
@add_start_docstrings(lowercase_ )
def __call__( self : str , lowercase_ : torch.LongTensor , lowercase_ : torch.FloatTensor , **lowercase_ : List[str] ) -> bool:
return any(criteria(lowercase_ , lowercase_ ) for criteria in self )
@property
def __UpperCamelCase ( self : Optional[Any] ) -> Optional[int]:
for stopping_criterium in self:
if isinstance(lowercase_ , lowercase_ ):
return stopping_criterium.max_length
elif isinstance(lowercase_ , lowercase_ ):
return stopping_criterium.max_length
return None
def lowercase_ ( _lowerCamelCase : StoppingCriteriaList , _lowerCamelCase : int):
lowercase__ : Optional[int] = stopping_criteria.max_length
lowercase__ : str = deepcopy(_lowerCamelCase)
if stopping_max_length is not None and stopping_max_length != max_length:
warnings.warn("You set different `max_length` for stopping criteria and `max_length` parameter" , _lowerCamelCase)
elif stopping_max_length is None:
new_stopping_criteria.append(MaxLengthCriteria(max_length=_lowerCamelCase))
return new_stopping_criteria
| 87 | 0 |
import argparse
import json
import os
import evaluate
import torch
from datasets import load_dataset
from torch.optim import AdamW
from torch.utils.data import DataLoader
from transformers import AutoModelForSequenceClassification, AutoTokenizer, get_linear_schedule_with_warmup, set_seed
from accelerate import Accelerator, DistributedType
from accelerate.utils.deepspeed import DummyOptim, DummyScheduler
SCREAMING_SNAKE_CASE : Optional[Any] = 16
SCREAMING_SNAKE_CASE : Union[str, Any] = 32
def UpperCamelCase_( lowerCamelCase_ , lowerCamelCase_ = 16 , lowerCamelCase_ = "bert-base-cased" ) -> Optional[Any]:
_lowercase : str = AutoTokenizer.from_pretrained(lowerCamelCase_ )
_lowercase : Dict = load_dataset('glue' , 'mrpc' )
def tokenize_function(lowerCamelCase_ ):
# max_length=None => use the model max length (it's actually the default)
_lowercase : List[Any] = tokenizer(examples['sentence1'] , examples['sentence2'] , truncation=lowerCamelCase_ , max_length=lowerCamelCase_ )
return outputs
# Apply the method we just defined to all the examples in all the splits of the dataset
_lowercase : List[str] = datasets.map(
lowerCamelCase_ , batched=lowerCamelCase_ , remove_columns=['idx', 'sentence1', 'sentence2'] , load_from_cache_file=lowerCamelCase_ )
# We also rename the 'label' column to 'labels' which is the expected name for labels by the models of the
# transformers library
_lowercase : int = tokenized_datasets.rename_column('label' , 'labels' )
def collate_fn(lowerCamelCase_ ):
# On TPU it's best to pad everything to the same length or training will be very slow.
if accelerator.distributed_type == DistributedType.TPU:
return tokenizer.pad(lowerCamelCase_ , padding='max_length' , max_length=128 , return_tensors='pt' )
return tokenizer.pad(lowerCamelCase_ , padding='longest' , return_tensors='pt' )
# Instantiate dataloaders.
_lowercase : Tuple = DataLoader(
tokenized_datasets['train'] , shuffle=lowerCamelCase_ , collate_fn=lowerCamelCase_ , batch_size=lowerCamelCase_ )
_lowercase : str = DataLoader(
tokenized_datasets['validation'] , shuffle=lowerCamelCase_ , collate_fn=lowerCamelCase_ , batch_size=lowerCamelCase_ )
return train_dataloader, eval_dataloader
def UpperCamelCase_( lowerCamelCase_ , lowerCamelCase_ ) -> Tuple:
# Initialize accelerator
_lowercase : str = Accelerator()
# Sample hyper-parameters for learning rate, batch size, seed and a few other HPs
_lowercase : Optional[int] = config['lr']
_lowercase : Tuple = int(config['num_epochs'] )
_lowercase : int = int(config['seed'] )
_lowercase : Tuple = int(config['batch_size'] )
_lowercase : Any = args.model_name_or_path
set_seed(lowerCamelCase_ )
_lowercase , _lowercase : str = get_dataloaders(lowerCamelCase_ , lowerCamelCase_ , lowerCamelCase_ )
# Instantiate the model (we build the model here so that the seed also control new weights initialization)
_lowercase : List[Any] = AutoModelForSequenceClassification.from_pretrained(lowerCamelCase_ , return_dict=lowerCamelCase_ )
# Instantiate optimizer
_lowercase : Union[str, Any] = (
AdamW
if accelerator.state.deepspeed_plugin is None
or 'optimizer' not in accelerator.state.deepspeed_plugin.deepspeed_config
else DummyOptim
)
_lowercase : int = optimizer_cls(params=model.parameters() , lr=lowerCamelCase_ )
if accelerator.state.deepspeed_plugin is not None:
_lowercase : Any = accelerator.state.deepspeed_plugin.deepspeed_config[
'gradient_accumulation_steps'
]
else:
_lowercase : Tuple = 1
_lowercase : Union[str, Any] = (len(lowerCamelCase_ ) * num_epochs) // gradient_accumulation_steps
# Instantiate scheduler
if (
accelerator.state.deepspeed_plugin is None
or "scheduler" not in accelerator.state.deepspeed_plugin.deepspeed_config
):
_lowercase : List[str] = get_linear_schedule_with_warmup(
optimizer=lowerCamelCase_ , num_warmup_steps=0 , num_training_steps=lowerCamelCase_ , )
else:
_lowercase : Dict = DummyScheduler(lowerCamelCase_ , total_num_steps=lowerCamelCase_ , warmup_num_steps=0 )
# Prepare everything
# There is no specific order to remember, we just need to unpack the objects in the same order we gave them to the
# prepare method.
_lowercase , _lowercase , _lowercase , _lowercase , _lowercase : Union[str, Any] = accelerator.prepare(
lowerCamelCase_ , lowerCamelCase_ , lowerCamelCase_ , lowerCamelCase_ , lowerCamelCase_ )
# We need to keep track of how many total steps we have iterated over
_lowercase : Any = 0
# We also need to keep track of the stating epoch so files are named properly
_lowercase : Union[str, Any] = 0
# Now we train the model
_lowercase : Tuple = evaluate.load('glue' , 'mrpc' )
_lowercase : Any = 0
_lowercase : Optional[Any] = {}
for epoch in range(lowerCamelCase_ , lowerCamelCase_ ):
model.train()
for step, batch in enumerate(lowerCamelCase_ ):
_lowercase : List[str] = model(**lowerCamelCase_ )
_lowercase : Tuple = outputs.loss
_lowercase : Tuple = loss / gradient_accumulation_steps
accelerator.backward(lowerCamelCase_ )
if step % gradient_accumulation_steps == 0:
optimizer.step()
lr_scheduler.step()
optimizer.zero_grad()
overall_step += 1
model.eval()
_lowercase : int = 0
for step, batch in enumerate(lowerCamelCase_ ):
# We could avoid this line since we set the accelerator with `device_placement=True`.
batch.to(accelerator.device )
with torch.no_grad():
_lowercase : Dict = model(**lowerCamelCase_ )
_lowercase : List[str] = outputs.logits.argmax(dim=-1 )
# It is slightly faster to call this once, than multiple times
_lowercase , _lowercase : Dict = accelerator.gather(
(predictions, batch['labels']) ) # If we are in a multiprocess environment, the last batch has duplicates
if accelerator.use_distributed:
if step == len(lowerCamelCase_ ) - 1:
_lowercase : Tuple = predictions[: len(eval_dataloader.dataset ) - samples_seen]
_lowercase : Optional[Any] = references[: len(eval_dataloader.dataset ) - samples_seen]
else:
samples_seen += references.shape[0]
metric.add_batch(
predictions=lowerCamelCase_ , references=lowerCamelCase_ , )
_lowercase : Optional[Any] = metric.compute()
# Use accelerator.print to print only on the main process.
accelerator.print(F'''epoch {epoch}:''' , lowerCamelCase_ )
_lowercase : List[str] = eval_metric['accuracy']
if best_performance < eval_metric["accuracy"]:
_lowercase : Union[str, Any] = eval_metric['accuracy']
if args.performance_lower_bound is not None:
assert (
args.performance_lower_bound <= best_performance
), F'''Best performance metric {best_performance} is lower than the lower bound {args.performance_lower_bound}'''
accelerator.wait_for_everyone()
if accelerator.is_main_process:
with open(os.path.join(args.output_dir , 'all_results.json' ) , 'w' ) as f:
json.dump(lowerCamelCase_ , lowerCamelCase_ )
def UpperCamelCase_( ) -> Any:
_lowercase : Optional[Any] = argparse.ArgumentParser(description='Simple example of training script tracking peak GPU memory usage.' )
parser.add_argument(
'--model_name_or_path' , type=lowerCamelCase_ , default='bert-base-cased' , help='Path to pretrained model or model identifier from huggingface.co/models.' , required=lowerCamelCase_ , )
parser.add_argument(
'--output_dir' , type=lowerCamelCase_ , default='.' , help='Optional save directory where all checkpoint folders will be stored. Default is the current working directory.' , )
parser.add_argument(
'--performance_lower_bound' , type=lowerCamelCase_ , default=lowerCamelCase_ , help='Optional lower bound for the performance metric. If set, the training will throw error when the performance metric drops below this value.' , )
parser.add_argument(
'--num_epochs' , type=lowerCamelCase_ , default=3 , help='Number of train epochs.' , )
_lowercase : List[str] = parser.parse_args()
_lowercase : List[str] = {'lr': 2e-5, 'num_epochs': args.num_epochs, 'seed': 42, 'batch_size': 16}
training_function(lowerCamelCase_ , lowerCamelCase_ )
if __name__ == "__main__":
main()
| 21 | from typing import Dict
import numpy as np
import torch
from . import residue_constants as rc
from .tensor_utils import tensor_tree_map, tree_map
def lowercase_ ( _lowerCamelCase : Dict[str, torch.Tensor]):
lowercase__ : Any = []
lowercase__ : Optional[int] = []
lowercase__ : Tuple = []
for rt in rc.restypes:
lowercase__ : Dict = rc.restype_name_to_atomaa_names[rc.restype_atoa[rt]]
restype_atomaa_to_atomaa_list.append([(rc.atom_order[name] if name else 0) for name in atom_names])
lowercase__ : str = {name: i for i, name in enumerate(_lowerCamelCase)}
restype_atomaa_to_atomaa_list.append(
[(atom_name_to_idxaa[name] if name in atom_name_to_idxaa else 0) for name in rc.atom_types])
restype_atomaa_mask_list.append([(1.0 if name else 0.0) for name in atom_names])
# Add dummy mapping for restype 'UNK'
restype_atomaa_to_atomaa_list.append([0] * 14)
restype_atomaa_to_atomaa_list.append([0] * 37)
restype_atomaa_mask_list.append([0.0] * 14)
lowercase__ : Union[str, Any] = torch.tensor(
_lowerCamelCase , dtype=torch.intaa , device=protein["aatype"].device , )
lowercase__ : str = torch.tensor(
_lowerCamelCase , dtype=torch.intaa , device=protein["aatype"].device , )
lowercase__ : List[str] = torch.tensor(
_lowerCamelCase , dtype=torch.floataa , device=protein["aatype"].device , )
lowercase__ : str = protein["aatype"].to(torch.long)
# create the mapping for (residx, atom14) --> atom37, i.e. an array
# with shape (num_res, 14) containing the atom37 indices for this protein
lowercase__ : Dict = restype_atomaa_to_atomaa[protein_aatype]
lowercase__ : str = restype_atomaa_mask[protein_aatype]
lowercase__ : List[Any] = residx_atomaa_mask
lowercase__ : Optional[Any] = residx_atomaa_to_atomaa.long()
# create the gather indices for mapping back
lowercase__ : str = restype_atomaa_to_atomaa[protein_aatype]
lowercase__ : str = residx_atomaa_to_atomaa.long()
# create the corresponding mask
lowercase__ : Optional[Any] = torch.zeros([21, 37] , dtype=torch.floataa , device=protein["aatype"].device)
for restype, restype_letter in enumerate(rc.restypes):
lowercase__ : Tuple = rc.restype_atoa[restype_letter]
lowercase__ : List[Any] = rc.residue_atoms[restype_name]
for atom_name in atom_names:
lowercase__ : Optional[int] = rc.atom_order[atom_name]
lowercase__ : Tuple = 1
lowercase__ : Dict = restype_atomaa_mask[protein_aatype]
lowercase__ : Any = residx_atomaa_mask
return protein
def lowercase_ ( _lowerCamelCase : Dict[str, torch.Tensor]):
lowercase__ : Tuple = tree_map(lambda _lowerCamelCase: torch.tensor(_lowerCamelCase , device=batch["aatype"].device) , _lowerCamelCase , np.ndarray)
lowercase__ : List[str] = tensor_tree_map(lambda _lowerCamelCase: np.array(_lowerCamelCase) , make_atomaa_masks(_lowerCamelCase))
return out
| 87 | 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 | import unittest
from transformers import BigBirdConfig, is_flax_available
from transformers.testing_utils import require_flax, slow
from ...test_modeling_flax_common import FlaxModelTesterMixin, ids_tensor, random_attention_mask
if is_flax_available():
import jax
from transformers.models.big_bird.modeling_flax_big_bird import (
FlaxBigBirdForCausalLM,
FlaxBigBirdForMaskedLM,
FlaxBigBirdForMultipleChoice,
FlaxBigBirdForPreTraining,
FlaxBigBirdForQuestionAnswering,
FlaxBigBirdForSequenceClassification,
FlaxBigBirdForTokenClassification,
FlaxBigBirdModel,
)
class snake_case_ ( unittest.TestCase ):
def __init__( self : Tuple , lowercase_ : List[Any] , lowercase_ : Union[str, Any]=2 , lowercase_ : Union[str, Any]=56 , lowercase_ : Tuple=True , lowercase_ : Optional[Any]=True , lowercase_ : Optional[Any]=True , lowercase_ : int=True , lowercase_ : Any=99 , lowercase_ : int=32 , lowercase_ : str=2 , lowercase_ : Union[str, Any]=2 , lowercase_ : Dict=7 , lowercase_ : Dict="gelu_new" , lowercase_ : Tuple=0.1 , lowercase_ : List[Any]=0.1 , lowercase_ : Tuple=5_12 , lowercase_ : Optional[Any]=16 , lowercase_ : List[Any]=2 , lowercase_ : Dict=0.02 , lowercase_ : int=4 , lowercase_ : Tuple="block_sparse" , lowercase_ : Dict=True , lowercase_ : Optional[int]=False , lowercase_ : Dict=2 , lowercase_ : int=3 , ) -> Union[str, Any]:
lowercase__ : Dict = parent
lowercase__ : Dict = batch_size
lowercase__ : Tuple = seq_length
lowercase__ : Dict = is_training
lowercase__ : Dict = use_attention_mask
lowercase__ : Tuple = use_token_type_ids
lowercase__ : Optional[int] = use_labels
lowercase__ : List[Any] = vocab_size
lowercase__ : Any = hidden_size
lowercase__ : List[Any] = num_hidden_layers
lowercase__ : Union[str, Any] = num_attention_heads
lowercase__ : str = intermediate_size
lowercase__ : int = hidden_act
lowercase__ : str = hidden_dropout_prob
lowercase__ : List[str] = attention_probs_dropout_prob
lowercase__ : Optional[Any] = max_position_embeddings
lowercase__ : Union[str, Any] = type_vocab_size
lowercase__ : Dict = type_sequence_label_size
lowercase__ : Any = initializer_range
lowercase__ : List[str] = num_choices
lowercase__ : str = rescale_embeddings
lowercase__ : Optional[Any] = attention_type
lowercase__ : Optional[int] = use_bias
lowercase__ : Optional[int] = block_size
lowercase__ : str = num_random_blocks
def __UpperCamelCase ( self : str ) -> Optional[Any]:
lowercase__ : List[Any] = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size )
lowercase__ : str = None
if self.use_attention_mask:
lowercase__ : Any = random_attention_mask([self.batch_size, self.seq_length] )
lowercase__ : Optional[int] = None
if self.use_token_type_ids:
lowercase__ : Any = ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size )
lowercase__ : int = BigBirdConfig(
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 , attention_type=self.attention_type , block_size=self.block_size , num_random_blocks=self.num_random_blocks , use_bias=self.use_bias , rescale_embeddings=self.rescale_embeddings , )
return config, input_ids, token_type_ids, attention_mask
def __UpperCamelCase ( self : Union[str, Any] ) -> int:
lowercase__ : int = self.prepare_config_and_inputs()
lowercase__ , lowercase__ , lowercase__ , lowercase__ : Dict = config_and_inputs
lowercase__ : Union[str, Any] = {
"input_ids": input_ids,
"token_type_ids": token_type_ids,
"attention_mask": attention_mask,
}
return config, inputs_dict
@require_flax
class snake_case_ ( __A ,unittest.TestCase ):
__A : Optional[int] = (
(
FlaxBigBirdForCausalLM,
FlaxBigBirdModel,
FlaxBigBirdForPreTraining,
FlaxBigBirdForMaskedLM,
FlaxBigBirdForMultipleChoice,
FlaxBigBirdForQuestionAnswering,
FlaxBigBirdForSequenceClassification,
FlaxBigBirdForTokenClassification,
)
if is_flax_available()
else ()
)
__A : List[str] = False
__A : Any = False
def __UpperCamelCase ( self : List[str] ) -> List[Any]:
lowercase__ : Union[str, Any] = FlaxBigBirdModelTester(self )
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def __UpperCamelCase ( self : Optional[int] ) -> Dict:
super().test_from_pretrained_save_pretrained()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def __UpperCamelCase ( self : List[str] ) -> Any:
super().test_from_pretrained_with_no_automatic_init()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def __UpperCamelCase ( self : Tuple ) -> str:
super().test_no_automatic_init()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def __UpperCamelCase ( self : Dict ) -> Union[str, Any]:
super().test_hidden_states_output()
@slow
def __UpperCamelCase ( self : Optional[int] ) -> Tuple:
for model_class_name in self.all_model_classes:
lowercase__ : Optional[Any] = model_class_name.from_pretrained("google/bigbird-roberta-base" )
self.assertIsNotNone(lowercase_ )
def __UpperCamelCase ( self : int ) -> Optional[int]:
if self.test_attn_probs:
super().test_attention_outputs()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def __UpperCamelCase ( self : str ) -> Any:
lowercase__ , lowercase__ : Dict = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
with self.subTest(model_class.__name__ ):
lowercase__ : Union[str, Any] = self._prepare_for_class(lowercase_ , lowercase_ )
lowercase__ : Optional[Any] = model_class(lowercase_ )
@jax.jit
def model_jitted(lowercase_ : Tuple , lowercase_ : int=None , **lowercase_ : Dict ):
return model(input_ids=lowercase_ , attention_mask=lowercase_ , **lowercase_ )
with self.subTest("JIT Enabled" ):
lowercase__ : int = model_jitted(**lowercase_ ).to_tuple()
with self.subTest("JIT Disabled" ):
with jax.disable_jit():
lowercase__ : Any = 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 )
def __UpperCamelCase ( self : List[Any] , lowercase_ : str , lowercase_ : Union[str, Any] , lowercase_ : Optional[int] , lowercase_ : List[Any]=1E-5 , lowercase_ : Any="outputs" , lowercase_ : List[str]=None ) -> List[Any]:
# `bigbird_block_sparse_attention` in `FlaxBigBird` returns `attention_probs = None`, while in PyTorch version,
# an effort was done to return `attention_probs` (yet to be verified).
if name.startswith("outputs.attentions" ):
return
else:
super().check_pt_flax_outputs(lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ )
| 87 | 0 |
'''simple docstring'''
from dataclasses import dataclass, field
from typing import TYPE_CHECKING, Any, ClassVar, Dict, List, Optional, Union
import pyarrow as pa
if TYPE_CHECKING:
from .features import FeatureType
@dataclass
class SCREAMING_SNAKE_CASE:
"""simple docstring"""
lowerCamelCase__ = 42
lowerCamelCase__ = None
# Automatically constructed
lowerCamelCase__ = "dict"
lowerCamelCase__ = None
lowerCamelCase__ = field(default="""Translation""" , init=A__ , repr=A__ )
def __call__( self : Any ) -> Optional[Any]:
return pa.struct({lang: pa.string() for lang in sorted(self.languages )} )
def A ( self : List[Any] ) -> Union["FeatureType", Dict[str, "FeatureType"]]:
from .features import Value
return {k: Value('''string''' ) for k in sorted(self.languages )}
@dataclass
class SCREAMING_SNAKE_CASE:
"""simple docstring"""
lowerCamelCase__ = None
lowerCamelCase__ = None
lowerCamelCase__ = None
# Automatically constructed
lowerCamelCase__ = "dict"
lowerCamelCase__ = None
lowerCamelCase__ = field(default="""TranslationVariableLanguages""" , init=A__ , repr=A__ )
def A ( self : List[Any] ) -> List[str]:
UpperCAmelCase : str = sorted(set(self.languages ) ) if self.languages else None
UpperCAmelCase : Dict = len(self.languages ) if self.languages else None
def __call__( self : int ) -> str:
return pa.struct({'''language''': pa.list_(pa.string() ), '''translation''': pa.list_(pa.string() )} )
def A ( self : Tuple , __snake_case : int ) -> Any:
UpperCAmelCase : List[str] = set(self.languages )
if self.languages and set(__snake_case ) - lang_set:
raise ValueError(
F"""Some languages in example ({", ".join(sorted(set(__snake_case ) - lang_set ) )}) are not in valid set ({", ".join(__snake_case )}).""" )
# Convert dictionary into tuples, splitting out cases where there are
# multiple translations for a single language.
UpperCAmelCase : List[Any] = []
for lang, text in translation_dict.items():
if isinstance(__snake_case , __snake_case ):
translation_tuples.append((lang, text) )
else:
translation_tuples.extend([(lang, el) for el in text] )
# Ensure translations are in ascending order by language code.
UpperCAmelCase , UpperCAmelCase : Optional[Any] = zip(*sorted(__snake_case ) )
return {"language": languages, "translation": translations}
def A ( self : Tuple ) -> Union["FeatureType", Dict[str, "FeatureType"]]:
from .features import Sequence, Value
return {
"language": Sequence(Value('''string''' ) ),
"translation": Sequence(Value('''string''' ) ),
}
| 23 | from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_torch_available
UpperCamelCase = {
'''configuration_groupvit''': [
'''GROUPVIT_PRETRAINED_CONFIG_ARCHIVE_MAP''',
'''GroupViTConfig''',
'''GroupViTOnnxConfig''',
'''GroupViTTextConfig''',
'''GroupViTVisionConfig''',
],
}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = [
'''GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''GroupViTModel''',
'''GroupViTPreTrainedModel''',
'''GroupViTTextModel''',
'''GroupViTVisionModel''',
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = [
'''TF_GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''TFGroupViTModel''',
'''TFGroupViTPreTrainedModel''',
'''TFGroupViTTextModel''',
'''TFGroupViTVisionModel''',
]
if TYPE_CHECKING:
from .configuration_groupvit import (
GROUPVIT_PRETRAINED_CONFIG_ARCHIVE_MAP,
GroupViTConfig,
GroupViTOnnxConfig,
GroupViTTextConfig,
GroupViTVisionConfig,
)
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_groupvit import (
GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST,
GroupViTModel,
GroupViTPreTrainedModel,
GroupViTTextModel,
GroupViTVisionModel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_groupvit import (
TF_GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST,
TFGroupViTModel,
TFGroupViTPreTrainedModel,
TFGroupViTTextModel,
TFGroupViTVisionModel,
)
else:
import sys
UpperCamelCase = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
| 87 | 0 |
import random
import unittest
import numpy as np
from diffusers import (
DPMSolverMultistepScheduler,
EulerAncestralDiscreteScheduler,
EulerDiscreteScheduler,
LMSDiscreteScheduler,
OnnxStableDiffusionImgaImgPipeline,
PNDMScheduler,
)
from diffusers.utils import floats_tensor
from diffusers.utils.testing_utils import (
is_onnx_available,
load_image,
nightly,
require_onnxruntime,
require_torch_gpu,
)
from ..test_pipelines_onnx_common import OnnxPipelineTesterMixin
if is_onnx_available():
import onnxruntime as ort
class SCREAMING_SNAKE_CASE__ ( _UpperCAmelCase , unittest.TestCase ):
A_ : Tuple = 'hf-internal-testing/tiny-random-OnnxStableDiffusionPipeline'
def a (self : int , a__ : List[Any]=0 ):
"""simple docstring"""
__snake_case = floats_tensor((1, 3, 128, 128) , rng=random.Random(a__ ) )
__snake_case = np.random.RandomState(a__ )
__snake_case = {
'''prompt''': '''A painting of a squirrel eating a burger''',
'''image''': image,
'''generator''': generator,
'''num_inference_steps''': 3,
'''strength''': 0.7_5,
'''guidance_scale''': 7.5,
'''output_type''': '''numpy''',
}
return inputs
def a (self : List[Any] ):
"""simple docstring"""
__snake_case = OnnxStableDiffusionImgaImgPipeline.from_pretrained(self.hub_checkpoint , provider='''CPUExecutionProvider''' )
pipe.set_progress_bar_config(disable=a__ )
__snake_case = self.get_dummy_inputs()
__snake_case = pipe(**a__ ).images
__snake_case = image[0, -3:, -3:, -1].flatten()
assert image.shape == (1, 128, 128, 3)
__snake_case = np.array([0.6_9_6_4_3, 0.5_8_4_8_4, 0.5_0_3_1_4, 0.5_8_7_6_0, 0.5_5_3_6_8, 0.5_9_6_4_3, 0.5_1_5_2_9, 0.4_1_2_1_7, 0.4_9_0_8_7] )
assert np.abs(image_slice - expected_slice ).max() < 1E-1
def a (self : Dict ):
"""simple docstring"""
__snake_case = OnnxStableDiffusionImgaImgPipeline.from_pretrained(self.hub_checkpoint , provider='''CPUExecutionProvider''' )
__snake_case = PNDMScheduler.from_config(pipe.scheduler.config , skip_prk_steps=a__ )
pipe.set_progress_bar_config(disable=a__ )
__snake_case = self.get_dummy_inputs()
__snake_case = pipe(**a__ ).images
__snake_case = image[0, -3:, -3:, -1]
assert image.shape == (1, 128, 128, 3)
__snake_case = np.array([0.6_1_7_3_7, 0.5_4_6_4_2, 0.5_3_1_8_3, 0.5_4_4_6_5, 0.5_2_7_4_2, 0.6_0_5_2_5, 0.4_9_9_6_9, 0.4_0_6_5_5, 0.4_8_1_5_4] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-1
def a (self : List[str] ):
"""simple docstring"""
__snake_case = OnnxStableDiffusionImgaImgPipeline.from_pretrained(self.hub_checkpoint , provider='''CPUExecutionProvider''' )
__snake_case = LMSDiscreteScheduler.from_config(pipe.scheduler.config )
pipe.set_progress_bar_config(disable=a__ )
# warmup pass to apply optimizations
__snake_case = pipe(**self.get_dummy_inputs() )
__snake_case = self.get_dummy_inputs()
__snake_case = pipe(**a__ ).images
__snake_case = image[0, -3:, -3:, -1]
assert image.shape == (1, 128, 128, 3)
__snake_case = np.array([0.5_2_7_6_1, 0.5_9_9_7_7, 0.4_9_0_3_3, 0.4_9_6_1_9, 0.5_4_2_8_2, 0.5_0_3_1_1, 0.4_7_6_0_0, 0.4_0_9_1_8, 0.4_5_2_0_3] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-1
def a (self : Any ):
"""simple docstring"""
__snake_case = OnnxStableDiffusionImgaImgPipeline.from_pretrained(self.hub_checkpoint , provider='''CPUExecutionProvider''' )
__snake_case = EulerDiscreteScheduler.from_config(pipe.scheduler.config )
pipe.set_progress_bar_config(disable=a__ )
__snake_case = self.get_dummy_inputs()
__snake_case = pipe(**a__ ).images
__snake_case = image[0, -3:, -3:, -1]
assert image.shape == (1, 128, 128, 3)
__snake_case = np.array([0.5_2_9_1_1, 0.6_0_0_0_4, 0.4_9_2_2_9, 0.4_9_8_0_5, 0.5_4_5_0_2, 0.5_0_6_8_0, 0.4_7_7_7_7, 0.4_1_0_2_8, 0.4_5_3_0_4] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-1
def a (self : Dict ):
"""simple docstring"""
__snake_case = OnnxStableDiffusionImgaImgPipeline.from_pretrained(self.hub_checkpoint , provider='''CPUExecutionProvider''' )
__snake_case = EulerAncestralDiscreteScheduler.from_config(pipe.scheduler.config )
pipe.set_progress_bar_config(disable=a__ )
__snake_case = self.get_dummy_inputs()
__snake_case = pipe(**a__ ).images
__snake_case = image[0, -3:, -3:, -1]
assert image.shape == (1, 128, 128, 3)
__snake_case = np.array([0.5_2_9_1_1, 0.6_0_0_0_4, 0.4_9_2_2_9, 0.4_9_8_0_5, 0.5_4_5_0_2, 0.5_0_6_8_0, 0.4_7_7_7_7, 0.4_1_0_2_8, 0.4_5_3_0_4] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-1
def a (self : List[str] ):
"""simple docstring"""
__snake_case = OnnxStableDiffusionImgaImgPipeline.from_pretrained(self.hub_checkpoint , provider='''CPUExecutionProvider''' )
__snake_case = DPMSolverMultistepScheduler.from_config(pipe.scheduler.config )
pipe.set_progress_bar_config(disable=a__ )
__snake_case = self.get_dummy_inputs()
__snake_case = pipe(**a__ ).images
__snake_case = image[0, -3:, -3:, -1]
assert image.shape == (1, 128, 128, 3)
__snake_case = np.array([0.6_5_3_3_1, 0.5_8_2_7_7, 0.4_8_2_0_4, 0.5_6_0_5_9, 0.5_3_6_6_5, 0.5_6_2_3_5, 0.5_0_9_6_9, 0.4_0_0_0_9, 0.4_6_5_5_2] )
assert np.abs(image_slice.flatten() - expected_slice ).max() < 1E-1
@nightly
@require_onnxruntime
@require_torch_gpu
class SCREAMING_SNAKE_CASE__ ( unittest.TestCase ):
@property
def a (self : List[str] ):
"""simple docstring"""
return (
"CUDAExecutionProvider",
{
"gpu_mem_limit": "15000000000", # 15GB
"arena_extend_strategy": "kSameAsRequested",
},
)
@property
def a (self : Optional[Any] ):
"""simple docstring"""
__snake_case = ort.SessionOptions()
__snake_case = False
return options
def a (self : Optional[Any] ):
"""simple docstring"""
__snake_case = load_image(
'''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main'''
'''/img2img/sketch-mountains-input.jpg''' )
__snake_case = init_image.resize((768, 512) )
# using the PNDM scheduler by default
__snake_case = OnnxStableDiffusionImgaImgPipeline.from_pretrained(
'''CompVis/stable-diffusion-v1-4''' , revision='''onnx''' , safety_checker=a__ , feature_extractor=a__ , provider=self.gpu_provider , sess_options=self.gpu_options , )
pipe.set_progress_bar_config(disable=a__ )
__snake_case = '''A fantasy landscape, trending on artstation'''
__snake_case = np.random.RandomState(0 )
__snake_case = pipe(
prompt=a__ , image=a__ , strength=0.7_5 , guidance_scale=7.5 , num_inference_steps=10 , generator=a__ , output_type='''np''' , )
__snake_case = output.images
__snake_case = images[0, 255:258, 383:386, -1]
assert images.shape == (1, 512, 768, 3)
__snake_case = np.array([0.4_9_0_9, 0.5_0_5_9, 0.5_3_7_2, 0.4_6_2_3, 0.4_8_7_6, 0.5_0_4_9, 0.4_8_2_0, 0.4_9_5_6, 0.5_0_1_9] )
# TODO: lower the tolerance after finding the cause of onnxruntime reproducibility issues
assert np.abs(image_slice.flatten() - expected_slice ).max() < 2E-2
def a (self : Dict ):
"""simple docstring"""
__snake_case = load_image(
'''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main'''
'''/img2img/sketch-mountains-input.jpg''' )
__snake_case = init_image.resize((768, 512) )
__snake_case = LMSDiscreteScheduler.from_pretrained(
'''runwayml/stable-diffusion-v1-5''' , subfolder='''scheduler''' , revision='''onnx''' )
__snake_case = OnnxStableDiffusionImgaImgPipeline.from_pretrained(
'''runwayml/stable-diffusion-v1-5''' , revision='''onnx''' , scheduler=a__ , safety_checker=a__ , feature_extractor=a__ , provider=self.gpu_provider , sess_options=self.gpu_options , )
pipe.set_progress_bar_config(disable=a__ )
__snake_case = '''A fantasy landscape, trending on artstation'''
__snake_case = np.random.RandomState(0 )
__snake_case = pipe(
prompt=a__ , image=a__ , strength=0.7_5 , guidance_scale=7.5 , num_inference_steps=20 , generator=a__ , output_type='''np''' , )
__snake_case = output.images
__snake_case = images[0, 255:258, 383:386, -1]
assert images.shape == (1, 512, 768, 3)
__snake_case = np.array([0.8_0_4_3, 0.9_2_6, 0.9_5_8_1, 0.8_1_1_9, 0.8_9_5_4, 0.9_1_3, 0.7_2_0_9, 0.7_4_6_3, 0.7_4_3_1] )
# TODO: lower the tolerance after finding the cause of onnxruntime reproducibility issues
assert np.abs(image_slice.flatten() - expected_slice ).max() < 2E-2
| 24 | import io
import json
import fsspec
import pytest
from datasets import Dataset, DatasetDict, Features, NamedSplit, Value
from datasets.io.json import JsonDatasetReader, JsonDatasetWriter
from ..utils import assert_arrow_memory_doesnt_increase, assert_arrow_memory_increases
def lowercase_ ( _lowerCamelCase : Optional[Any] , _lowerCamelCase : int):
assert isinstance(_lowerCamelCase , _lowerCamelCase)
assert dataset.num_rows == 4
assert dataset.num_columns == 3
assert dataset.column_names == ["col_1", "col_2", "col_3"]
for feature, expected_dtype in expected_features.items():
assert dataset.features[feature].dtype == expected_dtype
@pytest.mark.parametrize("keep_in_memory" , [False, True])
def lowercase_ ( _lowerCamelCase : List[Any] , _lowerCamelCase : Any , _lowerCamelCase : str):
lowercase__ : Optional[int] = tmp_path / "cache"
lowercase__ : str = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
with assert_arrow_memory_increases() if keep_in_memory else assert_arrow_memory_doesnt_increase():
lowercase__ : Union[str, Any] = JsonDatasetReader(_lowerCamelCase , cache_dir=_lowerCamelCase , keep_in_memory=_lowerCamelCase).read()
_check_json_dataset(_lowerCamelCase , _lowerCamelCase)
@pytest.mark.parametrize(
"features" , [
None,
{"col_1": "string", "col_2": "int64", "col_3": "float64"},
{"col_1": "string", "col_2": "string", "col_3": "string"},
{"col_1": "int32", "col_2": "int32", "col_3": "int32"},
{"col_1": "float32", "col_2": "float32", "col_3": "float32"},
] , )
def lowercase_ ( _lowerCamelCase : List[str] , _lowerCamelCase : Dict , _lowerCamelCase : Dict):
lowercase__ : List[Any] = tmp_path / "cache"
lowercase__ : Union[str, Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
lowercase__ : List[Any] = features.copy() if features else default_expected_features
lowercase__ : List[Any] = (
Features({feature: Value(_lowerCamelCase) for feature, dtype in features.items()}) if features is not None else None
)
lowercase__ : Any = JsonDatasetReader(_lowerCamelCase , features=_lowerCamelCase , cache_dir=_lowerCamelCase).read()
_check_json_dataset(_lowerCamelCase , _lowerCamelCase)
@pytest.mark.parametrize(
"features" , [
None,
{"col_3": "float64", "col_1": "string", "col_2": "int64"},
] , )
def lowercase_ ( _lowerCamelCase : Any , _lowerCamelCase : Any , _lowerCamelCase : List[str]):
lowercase__ : Optional[Any] = tmp_path / "cache"
lowercase__ : Tuple = {"col_3": "float64", "col_1": "string", "col_2": "int64"}
lowercase__ : List[Any] = features.copy() if features else default_expected_features
lowercase__ : int = (
Features({feature: Value(_lowerCamelCase) for feature, dtype in features.items()}) if features is not None else None
)
lowercase__ : Any = JsonDatasetReader(_lowerCamelCase , features=_lowerCamelCase , cache_dir=_lowerCamelCase).read()
assert isinstance(_lowerCamelCase , _lowerCamelCase)
assert dataset.num_rows == 2
assert dataset.num_columns == 3
assert dataset.column_names == ["col_3", "col_1", "col_2"]
for feature, expected_dtype in expected_features.items():
assert dataset.features[feature].dtype == expected_dtype
def lowercase_ ( _lowerCamelCase : List[Any] , _lowerCamelCase : Optional[int]):
# jsonl_312_path features are {"col_3": "float64", "col_1": "string", "col_2": "int64"}
lowercase__ : Any = {"col_2": "int64", "col_3": "float64", "col_1": "string"}
lowercase__ : str = features.copy()
lowercase__ : str = (
Features({feature: Value(_lowerCamelCase) for feature, dtype in features.items()}) if features is not None else None
)
lowercase__ : Optional[int] = tmp_path / "cache"
lowercase__ : Any = JsonDatasetReader(_lowerCamelCase , features=_lowerCamelCase , cache_dir=_lowerCamelCase).read()
assert isinstance(_lowerCamelCase , _lowerCamelCase)
assert dataset.num_rows == 2
assert dataset.num_columns == 3
assert dataset.column_names == ["col_2", "col_3", "col_1"]
for feature, expected_dtype in expected_features.items():
assert dataset.features[feature].dtype == expected_dtype
@pytest.mark.parametrize("split" , [None, NamedSplit("train"), "train", "test"])
def lowercase_ ( _lowerCamelCase : Dict , _lowerCamelCase : Optional[int] , _lowerCamelCase : List[str]):
lowercase__ : Union[str, Any] = tmp_path / "cache"
lowercase__ : List[Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
lowercase__ : Union[str, Any] = JsonDatasetReader(_lowerCamelCase , cache_dir=_lowerCamelCase , split=_lowerCamelCase).read()
_check_json_dataset(_lowerCamelCase , _lowerCamelCase)
assert dataset.split == split if split else "train"
@pytest.mark.parametrize("path_type" , [str, list])
def lowercase_ ( _lowerCamelCase : Union[str, Any] , _lowerCamelCase : str , _lowerCamelCase : int):
if issubclass(_lowerCamelCase , _lowerCamelCase):
lowercase__ : Tuple = jsonl_path
elif issubclass(_lowerCamelCase , _lowerCamelCase):
lowercase__ : str = [jsonl_path]
lowercase__ : str = tmp_path / "cache"
lowercase__ : Optional[Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
lowercase__ : Tuple = JsonDatasetReader(_lowerCamelCase , cache_dir=_lowerCamelCase).read()
_check_json_dataset(_lowerCamelCase , _lowerCamelCase)
def lowercase_ ( _lowerCamelCase : List[Any] , _lowerCamelCase : Optional[Any] , _lowerCamelCase : Optional[int]=("train",)):
assert isinstance(_lowerCamelCase , _lowerCamelCase)
for split in splits:
lowercase__ : Optional[Any] = dataset_dict[split]
assert dataset.num_rows == 4
assert dataset.num_columns == 3
assert dataset.column_names == ["col_1", "col_2", "col_3"]
for feature, expected_dtype in expected_features.items():
assert dataset.features[feature].dtype == expected_dtype
@pytest.mark.parametrize("keep_in_memory" , [False, True])
def lowercase_ ( _lowerCamelCase : Union[str, Any] , _lowerCamelCase : str , _lowerCamelCase : str):
lowercase__ : List[str] = tmp_path / "cache"
lowercase__ : str = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
with assert_arrow_memory_increases() if keep_in_memory else assert_arrow_memory_doesnt_increase():
lowercase__ : Optional[Any] = JsonDatasetReader({"train": jsonl_path} , cache_dir=_lowerCamelCase , keep_in_memory=_lowerCamelCase).read()
_check_json_datasetdict(_lowerCamelCase , _lowerCamelCase)
@pytest.mark.parametrize(
"features" , [
None,
{"col_1": "string", "col_2": "int64", "col_3": "float64"},
{"col_1": "string", "col_2": "string", "col_3": "string"},
{"col_1": "int32", "col_2": "int32", "col_3": "int32"},
{"col_1": "float32", "col_2": "float32", "col_3": "float32"},
] , )
def lowercase_ ( _lowerCamelCase : Any , _lowerCamelCase : List[str] , _lowerCamelCase : List[str]):
lowercase__ : str = tmp_path / "cache"
lowercase__ : Tuple = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
lowercase__ : Tuple = features.copy() if features else default_expected_features
lowercase__ : Union[str, Any] = (
Features({feature: Value(_lowerCamelCase) for feature, dtype in features.items()}) if features is not None else None
)
lowercase__ : Tuple = JsonDatasetReader({"train": jsonl_path} , features=_lowerCamelCase , cache_dir=_lowerCamelCase).read()
_check_json_datasetdict(_lowerCamelCase , _lowerCamelCase)
@pytest.mark.parametrize("split" , [None, NamedSplit("train"), "train", "test"])
def lowercase_ ( _lowerCamelCase : str , _lowerCamelCase : Dict , _lowerCamelCase : Tuple):
if split:
lowercase__ : Tuple = {split: jsonl_path}
else:
lowercase__ : Tuple = "train"
lowercase__ : int = {"train": jsonl_path, "test": jsonl_path}
lowercase__ : Dict = tmp_path / "cache"
lowercase__ : Union[str, Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
lowercase__ : Union[str, Any] = JsonDatasetReader(_lowerCamelCase , cache_dir=_lowerCamelCase).read()
_check_json_datasetdict(_lowerCamelCase , _lowerCamelCase , splits=list(path.keys()))
assert all(dataset[split].split == split for split in path.keys())
def lowercase_ ( _lowerCamelCase : Union[str, Any]):
return json.load(_lowerCamelCase)
def lowercase_ ( _lowerCamelCase : Optional[int]):
return [json.loads(_lowerCamelCase) for line in buffer]
class snake_case_ :
@pytest.mark.parametrize("lines, load_json_function" , [(True, load_json_lines), (False, load_json)] )
def __UpperCamelCase ( self : List[Any] , lowercase_ : Any , lowercase_ : Optional[Any] , lowercase_ : Dict ) -> Optional[Any]:
with io.BytesIO() as buffer:
JsonDatasetWriter(lowercase_ , lowercase_ , lines=lowercase_ ).write()
buffer.seek(0 )
lowercase__ : Optional[int] = load_json_function(lowercase_ )
assert isinstance(lowercase_ , lowercase_ )
assert isinstance(exported_content[0] , lowercase_ )
assert len(lowercase_ ) == 10
@pytest.mark.parametrize(
"orient, container, keys, len_at" , [
("records", list, {"tokens", "labels", "answers", "id"}, None),
("split", dict, {"columns", "data"}, "data"),
("index", dict, set("0123456789" ), None),
("columns", dict, {"tokens", "labels", "answers", "id"}, "tokens"),
("values", list, None, None),
("table", dict, {"schema", "data"}, "data"),
] , )
def __UpperCamelCase ( self : str , lowercase_ : int , lowercase_ : str , lowercase_ : Union[str, Any] , lowercase_ : Dict , lowercase_ : Tuple ) -> List[str]:
with io.BytesIO() as buffer:
JsonDatasetWriter(lowercase_ , lowercase_ , lines=lowercase_ , orient=lowercase_ ).write()
buffer.seek(0 )
lowercase__ : str = load_json(lowercase_ )
assert isinstance(lowercase_ , lowercase_ )
if keys:
if container is dict:
assert exported_content.keys() == keys
else:
assert exported_content[0].keys() == keys
else:
assert not hasattr(lowercase_ , "keys" ) and not hasattr(exported_content[0] , "keys" )
if len_at:
assert len(exported_content[len_at] ) == 10
else:
assert len(lowercase_ ) == 10
@pytest.mark.parametrize("lines, load_json_function" , [(True, load_json_lines), (False, load_json)] )
def __UpperCamelCase ( self : List[Any] , lowercase_ : int , lowercase_ : Optional[Any] , lowercase_ : Dict ) -> Optional[int]:
with io.BytesIO() as buffer:
JsonDatasetWriter(lowercase_ , lowercase_ , lines=lowercase_ , num_proc=2 ).write()
buffer.seek(0 )
lowercase__ : str = load_json_function(lowercase_ )
assert isinstance(lowercase_ , lowercase_ )
assert isinstance(exported_content[0] , lowercase_ )
assert len(lowercase_ ) == 10
@pytest.mark.parametrize(
"orient, container, keys, len_at" , [
("records", list, {"tokens", "labels", "answers", "id"}, None),
("split", dict, {"columns", "data"}, "data"),
("index", dict, set("0123456789" ), None),
("columns", dict, {"tokens", "labels", "answers", "id"}, "tokens"),
("values", list, None, None),
("table", dict, {"schema", "data"}, "data"),
] , )
def __UpperCamelCase ( self : Union[str, Any] , lowercase_ : Dict , lowercase_ : Dict , lowercase_ : Optional[int] , lowercase_ : Optional[Any] , lowercase_ : Dict ) -> Any:
with io.BytesIO() as buffer:
JsonDatasetWriter(lowercase_ , lowercase_ , lines=lowercase_ , orient=lowercase_ , num_proc=2 ).write()
buffer.seek(0 )
lowercase__ : Optional[Any] = load_json(lowercase_ )
assert isinstance(lowercase_ , lowercase_ )
if keys:
if container is dict:
assert exported_content.keys() == keys
else:
assert exported_content[0].keys() == keys
else:
assert not hasattr(lowercase_ , "keys" ) and not hasattr(exported_content[0] , "keys" )
if len_at:
assert len(exported_content[len_at] ) == 10
else:
assert len(lowercase_ ) == 10
def __UpperCamelCase ( self : Dict , lowercase_ : List[str] ) -> str:
with pytest.raises(lowercase_ ):
with io.BytesIO() as buffer:
JsonDatasetWriter(lowercase_ , lowercase_ , num_proc=0 )
@pytest.mark.parametrize("compression, extension" , [("gzip", "gz"), ("bz2", "bz2"), ("xz", "xz")] )
def __UpperCamelCase ( self : List[Any] , lowercase_ : Tuple , lowercase_ : List[str] , lowercase_ : Optional[Any] , lowercase_ : str , lowercase_ : List[Any] ) -> Any:
lowercase__ : Dict = tmp_path_factory.mktemp("data" ) / F'''test.json.{extension}'''
lowercase__ : Optional[int] = str(shared_datadir / F'''test_file.json.{extension}''' )
JsonDatasetWriter(lowercase_ , lowercase_ , compression=lowercase_ ).write()
with fsspec.open(lowercase_ , "rb" , compression="infer" ) as f:
lowercase__ : List[Any] = f.read()
with fsspec.open(lowercase_ , "rb" , compression="infer" ) as f:
lowercase__ : str = f.read()
assert exported_content == original_content
| 87 | 0 |
"""simple docstring"""
import unittest
import numpy as np
from datasets import load_dataset
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 BeitImageProcessor
class lowerCAmelCase_ (unittest.TestCase ):
"""simple docstring"""
def __init__(self , SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__=7 , SCREAMING_SNAKE_CASE__=3 , SCREAMING_SNAKE_CASE__=18 , SCREAMING_SNAKE_CASE__=30 , SCREAMING_SNAKE_CASE__=4_00 , SCREAMING_SNAKE_CASE__=True , SCREAMING_SNAKE_CASE__=None , SCREAMING_SNAKE_CASE__=True , SCREAMING_SNAKE_CASE__=None , SCREAMING_SNAKE_CASE__=True , SCREAMING_SNAKE_CASE__=[0.5, 0.5, 0.5] , SCREAMING_SNAKE_CASE__=[0.5, 0.5, 0.5] , SCREAMING_SNAKE_CASE__=False , ) -> Union[str, Any]:
"""simple docstring"""
SCREAMING_SNAKE_CASE__ : Optional[Any] = size if size is not None else {"""height""": 20, """width""": 20}
SCREAMING_SNAKE_CASE__ : Optional[Any] = crop_size if crop_size is not None else {"""height""": 18, """width""": 18}
SCREAMING_SNAKE_CASE__ : int = parent
SCREAMING_SNAKE_CASE__ : Any = batch_size
SCREAMING_SNAKE_CASE__ : Tuple = num_channels
SCREAMING_SNAKE_CASE__ : Optional[int] = image_size
SCREAMING_SNAKE_CASE__ : Optional[Any] = min_resolution
SCREAMING_SNAKE_CASE__ : int = max_resolution
SCREAMING_SNAKE_CASE__ : Dict = do_resize
SCREAMING_SNAKE_CASE__ : Any = size
SCREAMING_SNAKE_CASE__ : Union[str, Any] = do_center_crop
SCREAMING_SNAKE_CASE__ : Union[str, Any] = crop_size
SCREAMING_SNAKE_CASE__ : Any = do_normalize
SCREAMING_SNAKE_CASE__ : str = image_mean
SCREAMING_SNAKE_CASE__ : str = image_std
SCREAMING_SNAKE_CASE__ : Any = do_reduce_labels
def __magic_name__ (self ) -> List[str]:
"""simple docstring"""
return {
"do_resize": self.do_resize,
"size": self.size,
"do_center_crop": self.do_center_crop,
"crop_size": self.crop_size,
"do_normalize": self.do_normalize,
"image_mean": self.image_mean,
"image_std": self.image_std,
"do_reduce_labels": self.do_reduce_labels,
}
def lowercase_ ( ):
SCREAMING_SNAKE_CASE__ : Any = load_dataset("""hf-internal-testing/fixtures_ade20k""" ,split="""test""" )
SCREAMING_SNAKE_CASE__ : Union[str, Any] = Image.open(dataset[0]["""file"""] )
SCREAMING_SNAKE_CASE__ : int = Image.open(dataset[1]["""file"""] )
return image, map
def lowercase_ ( ):
SCREAMING_SNAKE_CASE__ : str = load_dataset("""hf-internal-testing/fixtures_ade20k""" ,split="""test""" )
SCREAMING_SNAKE_CASE__ : Dict = Image.open(ds[0]["""file"""] )
SCREAMING_SNAKE_CASE__ : Tuple = Image.open(ds[1]["""file"""] )
SCREAMING_SNAKE_CASE__ : List[str] = Image.open(ds[2]["""file"""] )
SCREAMING_SNAKE_CASE__ : Tuple = Image.open(ds[3]["""file"""] )
return [imagea, imagea], [mapa, mapa]
@require_torch
@require_vision
class lowerCAmelCase_ (a__ , unittest.TestCase ):
"""simple docstring"""
__UpperCamelCase : Union[str, Any] = BeitImageProcessor if is_vision_available() else None
def __magic_name__ (self ) -> str:
"""simple docstring"""
SCREAMING_SNAKE_CASE__ : Optional[int] = BeitImageProcessingTester(self )
@property
def __magic_name__ (self ) -> Optional[int]:
"""simple docstring"""
return self.image_processor_tester.prepare_image_processor_dict()
def __magic_name__ (self ) -> Optional[Any]:
"""simple docstring"""
SCREAMING_SNAKE_CASE__ : Union[str, Any] = self.image_processing_class(**self.image_processor_dict )
self.assertTrue(hasattr(SCREAMING_SNAKE_CASE__ , """do_resize""" ) )
self.assertTrue(hasattr(SCREAMING_SNAKE_CASE__ , """size""" ) )
self.assertTrue(hasattr(SCREAMING_SNAKE_CASE__ , """do_center_crop""" ) )
self.assertTrue(hasattr(SCREAMING_SNAKE_CASE__ , """center_crop""" ) )
self.assertTrue(hasattr(SCREAMING_SNAKE_CASE__ , """do_normalize""" ) )
self.assertTrue(hasattr(SCREAMING_SNAKE_CASE__ , """image_mean""" ) )
self.assertTrue(hasattr(SCREAMING_SNAKE_CASE__ , """image_std""" ) )
def __magic_name__ (self ) -> str:
"""simple docstring"""
SCREAMING_SNAKE_CASE__ : List[Any] = self.image_processing_class.from_dict(self.image_processor_dict )
self.assertEqual(image_processor.size , {"""height""": 20, """width""": 20} )
self.assertEqual(image_processor.crop_size , {"""height""": 18, """width""": 18} )
self.assertEqual(image_processor.do_reduce_labels , SCREAMING_SNAKE_CASE__ )
SCREAMING_SNAKE_CASE__ : Optional[int] = self.image_processing_class.from_dict(
self.image_processor_dict , size=42 , crop_size=84 , reduce_labels=SCREAMING_SNAKE_CASE__ )
self.assertEqual(image_processor.size , {"""height""": 42, """width""": 42} )
self.assertEqual(image_processor.crop_size , {"""height""": 84, """width""": 84} )
self.assertEqual(image_processor.do_reduce_labels , SCREAMING_SNAKE_CASE__ )
def __magic_name__ (self ) -> Optional[int]:
"""simple docstring"""
pass
def __magic_name__ (self ) -> List[Any]:
"""simple docstring"""
SCREAMING_SNAKE_CASE__ : int = self.image_processing_class(**self.image_processor_dict )
# create random PIL images
SCREAMING_SNAKE_CASE__ : Optional[Any] = prepare_image_inputs(self.image_processor_tester , equal_resolution=SCREAMING_SNAKE_CASE__ )
for image in image_inputs:
self.assertIsInstance(SCREAMING_SNAKE_CASE__ , Image.Image )
# Test not batched input
SCREAMING_SNAKE_CASE__ : Tuple = 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
SCREAMING_SNAKE_CASE__ : int = image_processing(SCREAMING_SNAKE_CASE__ , 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 __magic_name__ (self ) -> Union[str, Any]:
"""simple docstring"""
SCREAMING_SNAKE_CASE__ : Optional[int] = self.image_processing_class(**self.image_processor_dict )
# create random numpy tensors
SCREAMING_SNAKE_CASE__ : Optional[Any] = prepare_image_inputs(self.image_processor_tester , equal_resolution=SCREAMING_SNAKE_CASE__ , numpify=SCREAMING_SNAKE_CASE__ )
for image in image_inputs:
self.assertIsInstance(SCREAMING_SNAKE_CASE__ , np.ndarray )
# Test not batched input
SCREAMING_SNAKE_CASE__ : Optional[Any] = 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
SCREAMING_SNAKE_CASE__ : Any = image_processing(SCREAMING_SNAKE_CASE__ , 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 __magic_name__ (self ) -> Optional[Any]:
"""simple docstring"""
SCREAMING_SNAKE_CASE__ : Tuple = self.image_processing_class(**self.image_processor_dict )
# create random PyTorch tensors
SCREAMING_SNAKE_CASE__ : Tuple = prepare_image_inputs(self.image_processor_tester , equal_resolution=SCREAMING_SNAKE_CASE__ , torchify=SCREAMING_SNAKE_CASE__ )
for image in image_inputs:
self.assertIsInstance(SCREAMING_SNAKE_CASE__ , torch.Tensor )
# Test not batched input
SCREAMING_SNAKE_CASE__ : Union[str, Any] = 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
SCREAMING_SNAKE_CASE__ : Optional[Any] = image_processing(SCREAMING_SNAKE_CASE__ , 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 __magic_name__ (self ) -> Tuple:
"""simple docstring"""
SCREAMING_SNAKE_CASE__ : str = self.image_processing_class(**self.image_processor_dict )
# create random PyTorch tensors
SCREAMING_SNAKE_CASE__ : List[str] = prepare_image_inputs(self.image_processor_tester , equal_resolution=SCREAMING_SNAKE_CASE__ , torchify=SCREAMING_SNAKE_CASE__ )
SCREAMING_SNAKE_CASE__ : Union[str, Any] = []
for image in image_inputs:
self.assertIsInstance(SCREAMING_SNAKE_CASE__ , torch.Tensor )
maps.append(torch.zeros(image.shape[-2:] ).long() )
# Test not batched input
SCREAMING_SNAKE_CASE__ : Optional[Any] = image_processing(image_inputs[0] , maps[0] , return_tensors="""pt""" )
self.assertEqual(
encoding["""pixel_values"""].shape , (
1,
self.image_processor_tester.num_channels,
self.image_processor_tester.crop_size["""height"""],
self.image_processor_tester.crop_size["""width"""],
) , )
self.assertEqual(
encoding["""labels"""].shape , (
1,
self.image_processor_tester.crop_size["""height"""],
self.image_processor_tester.crop_size["""width"""],
) , )
self.assertEqual(encoding["""labels"""].dtype , torch.long )
self.assertTrue(encoding["""labels"""].min().item() >= 0 )
self.assertTrue(encoding["""labels"""].max().item() <= 2_55 )
# Test batched
SCREAMING_SNAKE_CASE__ : Optional[int] = image_processing(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , return_tensors="""pt""" )
self.assertEqual(
encoding["""pixel_values"""].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"""],
) , )
self.assertEqual(
encoding["""labels"""].shape , (
self.image_processor_tester.batch_size,
self.image_processor_tester.crop_size["""height"""],
self.image_processor_tester.crop_size["""width"""],
) , )
self.assertEqual(encoding["""labels"""].dtype , torch.long )
self.assertTrue(encoding["""labels"""].min().item() >= 0 )
self.assertTrue(encoding["""labels"""].max().item() <= 2_55 )
# Test not batched input (PIL images)
SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ : str = prepare_semantic_single_inputs()
SCREAMING_SNAKE_CASE__ : Dict = image_processing(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , return_tensors="""pt""" )
self.assertEqual(
encoding["""pixel_values"""].shape , (
1,
self.image_processor_tester.num_channels,
self.image_processor_tester.crop_size["""height"""],
self.image_processor_tester.crop_size["""width"""],
) , )
self.assertEqual(
encoding["""labels"""].shape , (
1,
self.image_processor_tester.crop_size["""height"""],
self.image_processor_tester.crop_size["""width"""],
) , )
self.assertEqual(encoding["""labels"""].dtype , torch.long )
self.assertTrue(encoding["""labels"""].min().item() >= 0 )
self.assertTrue(encoding["""labels"""].max().item() <= 2_55 )
# Test batched input (PIL images)
SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ : str = prepare_semantic_batch_inputs()
SCREAMING_SNAKE_CASE__ : Optional[Any] = image_processing(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , return_tensors="""pt""" )
self.assertEqual(
encoding["""pixel_values"""].shape , (
2,
self.image_processor_tester.num_channels,
self.image_processor_tester.crop_size["""height"""],
self.image_processor_tester.crop_size["""width"""],
) , )
self.assertEqual(
encoding["""labels"""].shape , (
2,
self.image_processor_tester.crop_size["""height"""],
self.image_processor_tester.crop_size["""width"""],
) , )
self.assertEqual(encoding["""labels"""].dtype , torch.long )
self.assertTrue(encoding["""labels"""].min().item() >= 0 )
self.assertTrue(encoding["""labels"""].max().item() <= 2_55 )
def __magic_name__ (self ) -> Dict:
"""simple docstring"""
SCREAMING_SNAKE_CASE__ : Any = self.image_processing_class(**self.image_processor_dict )
# ADE20k has 150 classes, and the background is included, so labels should be between 0 and 150
SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ : Dict = prepare_semantic_single_inputs()
SCREAMING_SNAKE_CASE__ : Optional[Any] = image_processing(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , return_tensors="""pt""" )
self.assertTrue(encoding["""labels"""].min().item() >= 0 )
self.assertTrue(encoding["""labels"""].max().item() <= 1_50 )
SCREAMING_SNAKE_CASE__ : List[Any] = True
SCREAMING_SNAKE_CASE__ : int = image_processing(SCREAMING_SNAKE_CASE__ , SCREAMING_SNAKE_CASE__ , return_tensors="""pt""" )
self.assertTrue(encoding["""labels"""].min().item() >= 0 )
self.assertTrue(encoding["""labels"""].max().item() <= 2_55 )
| 25 | import warnings
from typing import List, Optional, Union
from ...processing_utils import ProcessorMixin
from ...tokenization_utils_base import BatchEncoding, PaddingStrategy, PreTokenizedInput, TextInput, TruncationStrategy
from ...utils import TensorType
class snake_case_ ( __A ):
__A : Optional[Any] = ["image_processor", "tokenizer"]
__A : Tuple = "LayoutLMv3ImageProcessor"
__A : List[Any] = ("LayoutLMv3Tokenizer", "LayoutLMv3TokenizerFast")
def __init__( self : Union[str, Any] , lowercase_ : int=None , lowercase_ : str=None , **lowercase_ : Optional[Any] ) -> Optional[int]:
lowercase__ : Union[str, Any] = 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_ , )
lowercase__ : Optional[int] = kwargs.pop("feature_extractor" )
lowercase__ : int = 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 : Dict , lowercase_ : Optional[Any] , lowercase_ : Union[TextInput, PreTokenizedInput, List[TextInput], List[PreTokenizedInput]] = None , lowercase_ : Optional[Union[PreTokenizedInput, List[PreTokenizedInput]]] = None , lowercase_ : Union[List[List[int]], List[List[List[int]]]] = None , lowercase_ : Optional[Union[List[int], List[List[int]]]] = None , lowercase_ : bool = True , lowercase_ : Union[bool, str, PaddingStrategy] = False , lowercase_ : Union[bool, str, TruncationStrategy] = None , lowercase_ : Optional[int] = None , lowercase_ : int = 0 , lowercase_ : Optional[int] = None , lowercase_ : Optional[bool] = None , lowercase_ : Optional[bool] = None , lowercase_ : bool = False , lowercase_ : bool = False , lowercase_ : bool = False , lowercase_ : bool = False , lowercase_ : bool = True , lowercase_ : Optional[Union[str, TensorType]] = None , **lowercase_ : Dict , ) -> BatchEncoding:
# verify input
if self.image_processor.apply_ocr and (boxes is not None):
raise ValueError(
"You cannot provide bounding boxes if you initialized the image processor with apply_ocr set to True." )
if self.image_processor.apply_ocr and (word_labels is not None):
raise ValueError(
"You cannot provide word labels if you initialized the image processor with apply_ocr set to True." )
# first, apply the image processor
lowercase__ : Union[str, Any] = self.image_processor(images=lowercase_ , return_tensors=lowercase_ )
# second, apply the tokenizer
if text is not None and self.image_processor.apply_ocr and text_pair is None:
if isinstance(lowercase_ , lowercase_ ):
lowercase__ : Optional[Any] = [text] # add batch dimension (as the image processor always adds a batch dimension)
lowercase__ : Any = features["words"]
lowercase__ : Tuple = self.tokenizer(
text=text if text is not None else features["words"] , text_pair=text_pair if text_pair is not None else None , boxes=boxes if boxes is not None else features["boxes"] , word_labels=lowercase_ , add_special_tokens=lowercase_ , padding=lowercase_ , truncation=lowercase_ , max_length=lowercase_ , stride=lowercase_ , pad_to_multiple_of=lowercase_ , return_token_type_ids=lowercase_ , return_attention_mask=lowercase_ , return_overflowing_tokens=lowercase_ , return_special_tokens_mask=lowercase_ , return_offsets_mapping=lowercase_ , return_length=lowercase_ , verbose=lowercase_ , return_tensors=lowercase_ , **lowercase_ , )
# add pixel values
lowercase__ : Optional[int] = features.pop("pixel_values" )
if return_overflowing_tokens is True:
lowercase__ : Dict = self.get_overflowing_images(lowercase_ , encoded_inputs["overflow_to_sample_mapping"] )
lowercase__ : str = images
return encoded_inputs
def __UpperCamelCase ( self : List[Any] , lowercase_ : Tuple , lowercase_ : List[Any] ) -> Dict:
# in case there's an overflow, ensure each `input_ids` sample is mapped to its corresponding image
lowercase__ : Tuple = []
for sample_idx in overflow_to_sample_mapping:
images_with_overflow.append(images[sample_idx] )
if len(lowercase_ ) != len(lowercase_ ):
raise ValueError(
"Expected length of images to be the same as the length of `overflow_to_sample_mapping`, but got"
F''' {len(lowercase_ )} and {len(lowercase_ )}''' )
return images_with_overflow
def __UpperCamelCase ( self : int , *lowercase_ : Union[str, Any] , **lowercase_ : List[str] ) -> Union[str, Any]:
return self.tokenizer.batch_decode(*lowercase_ , **lowercase_ )
def __UpperCamelCase ( self : Union[str, Any] , *lowercase_ : str , **lowercase_ : int ) -> Dict:
return self.tokenizer.decode(*lowercase_ , **lowercase_ )
@property
def __UpperCamelCase ( self : Any ) -> Any:
return ["input_ids", "bbox", "attention_mask", "pixel_values"]
@property
def __UpperCamelCase ( self : Optional[int] ) -> Optional[Any]:
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 : List[Any] ) -> Tuple:
warnings.warn(
"`feature_extractor` is deprecated and will be removed in v5. Use `image_processor` instead." , lowercase_ , )
return self.image_processor
| 87 | 0 |
import shutil
import tempfile
import unittest
import numpy as np
import pytest
from transformers.testing_utils import require_vision
from transformers.utils import is_vision_available
if is_vision_available():
from PIL import Image
from transformers import AutoProcessor, BlipaProcessor, BlipImageProcessor, GPTaTokenizer, PreTrainedTokenizerFast
@require_vision
class lowercase ( unittest.TestCase ):
def a__ ( self ) -> Any:
_A : str = tempfile.mkdtemp()
_A : str = BlipImageProcessor()
_A : List[Any] = GPTaTokenizer.from_pretrained("""hf-internal-testing/tiny-random-GPT2Model""" )
_A : Union[str, Any] = BlipaProcessor(_a , _a )
processor.save_pretrained(self.tmpdirname )
def a__ ( self , **_a ) -> List[Any]:
return AutoProcessor.from_pretrained(self.tmpdirname , **_a ).tokenizer
def a__ ( self , **_a ) -> Optional[int]:
return AutoProcessor.from_pretrained(self.tmpdirname , **_a ).image_processor
def a__ ( self ) -> Any:
shutil.rmtree(self.tmpdirname )
def a__ ( self ) -> Any:
_A : List[str] = [np.random.randint(255 , size=(3, 30, 400) , dtype=np.uinta )]
_A : List[str] = [Image.fromarray(np.moveaxis(_a , 0 , -1 ) ) for x in image_inputs]
return image_inputs
def a__ ( self ) -> List[Any]:
_A : List[Any] = BlipaProcessor(tokenizer=self.get_tokenizer() , image_processor=self.get_image_processor() )
processor.save_pretrained(self.tmpdirname )
_A : Dict = self.get_tokenizer(bos_token="""(BOS)""" , eos_token="""(EOS)""" )
_A : Optional[int] = self.get_image_processor(do_normalize=_a , padding_value=1.0 )
_A : List[Any] = BlipaProcessor.from_pretrained(
self.tmpdirname , bos_token="""(BOS)""" , eos_token="""(EOS)""" , do_normalize=_a , padding_value=1.0 )
self.assertEqual(processor.tokenizer.get_vocab() , tokenizer_add_kwargs.get_vocab() )
self.assertIsInstance(processor.tokenizer , _a )
self.assertEqual(processor.image_processor.to_json_string() , image_processor_add_kwargs.to_json_string() )
self.assertIsInstance(processor.image_processor , _a )
def a__ ( self ) -> str:
_A : Any = self.get_image_processor()
_A : Optional[Any] = self.get_tokenizer()
_A : List[Any] = BlipaProcessor(tokenizer=_a , image_processor=_a )
_A : List[str] = self.prepare_image_inputs()
_A : Optional[Any] = image_processor(_a , return_tensors="""np""" )
_A : Optional[int] = processor(images=_a , 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 a__ ( self ) -> List[Any]:
_A : Tuple = self.get_image_processor()
_A : List[str] = self.get_tokenizer()
_A : str = BlipaProcessor(tokenizer=_a , image_processor=_a )
_A : Optional[Any] = """lower newer"""
_A : Tuple = processor(text=_a )
_A : Optional[int] = tokenizer(_a , return_token_type_ids=_a )
for key in encoded_tok.keys():
self.assertListEqual(encoded_tok[key] , encoded_processor[key] )
def a__ ( self ) -> Optional[Any]:
_A : str = self.get_image_processor()
_A : List[str] = self.get_tokenizer()
_A : Dict = BlipaProcessor(tokenizer=_a , image_processor=_a )
_A : int = """lower newer"""
_A : List[str] = self.prepare_image_inputs()
_A : Any = processor(text=_a , images=_a )
self.assertListEqual(list(inputs.keys() ) , ["""pixel_values""", """input_ids""", """attention_mask"""] )
# test if it raises when no input is passed
with pytest.raises(_a ):
processor()
def a__ ( self ) -> Optional[Any]:
_A : List[Any] = self.get_image_processor()
_A : Optional[int] = self.get_tokenizer()
_A : str = BlipaProcessor(tokenizer=_a , image_processor=_a )
_A : Union[str, Any] = [[1, 4, 5, 8, 1, 0, 8], [3, 4, 3, 1, 1, 8, 9]]
_A : Tuple = processor.batch_decode(_a )
_A : Optional[Any] = tokenizer.batch_decode(_a )
self.assertListEqual(_a , _a )
def a__ ( self ) -> Any:
_A : List[str] = self.get_image_processor()
_A : Any = self.get_tokenizer()
_A : Optional[Any] = BlipaProcessor(tokenizer=_a , image_processor=_a )
_A : Tuple = """lower newer"""
_A : str = self.prepare_image_inputs()
_A : Any = processor(text=_a , images=_a )
# For now the processor supports only ['pixel_values', 'input_ids', 'attention_mask']
self.assertListEqual(list(inputs.keys() ) , ["""pixel_values""", """input_ids""", """attention_mask"""] )
| 26 | from typing import Dict, List, Optional, Union
import numpy as np
from ...image_processing_utils import BaseImageProcessor, BatchFeature, get_size_dict
from ...image_transforms import (
center_crop,
convert_to_rgb,
get_resize_output_image_size,
normalize,
rescale,
resize,
to_channel_dimension_format,
)
from ...image_utils import (
OPENAI_CLIP_MEAN,
OPENAI_CLIP_STD,
ChannelDimension,
ImageInput,
PILImageResampling,
make_list_of_images,
to_numpy_array,
valid_images,
)
from ...utils import TensorType, is_vision_available, logging
UpperCamelCase = logging.get_logger(__name__)
if is_vision_available():
import PIL
class snake_case_ ( __A ):
__A : str = ["pixel_values"]
def __init__( self : int , lowercase_ : bool = True , lowercase_ : Dict[str, int] = None , lowercase_ : PILImageResampling = PILImageResampling.BICUBIC , lowercase_ : bool = True , lowercase_ : Dict[str, int] = None , lowercase_ : bool = True , lowercase_ : Union[int, float] = 1 / 2_55 , lowercase_ : bool = True , lowercase_ : Optional[Union[float, List[float]]] = None , lowercase_ : Optional[Union[float, List[float]]] = None , lowercase_ : bool = True , **lowercase_ : Union[str, Any] , ) -> None:
super().__init__(**lowercase_ )
lowercase__ : Tuple = size if size is not None else {"shortest_edge": 2_24}
lowercase__ : Tuple = get_size_dict(lowercase_ , default_to_square=lowercase_ )
lowercase__ : List[str] = crop_size if crop_size is not None else {"height": 2_24, "width": 2_24}
lowercase__ : Tuple = get_size_dict(lowercase_ , default_to_square=lowercase_ , param_name="crop_size" )
lowercase__ : Dict = do_resize
lowercase__ : List[Any] = size
lowercase__ : int = resample
lowercase__ : Union[str, Any] = do_center_crop
lowercase__ : Optional[int] = crop_size
lowercase__ : List[str] = do_rescale
lowercase__ : int = rescale_factor
lowercase__ : List[Any] = do_normalize
lowercase__ : Union[str, Any] = image_mean if image_mean is not None else OPENAI_CLIP_MEAN
lowercase__ : str = image_std if image_std is not None else OPENAI_CLIP_STD
lowercase__ : Dict = do_convert_rgb
def __UpperCamelCase ( self : Optional[Any] , lowercase_ : np.ndarray , lowercase_ : Dict[str, int] , lowercase_ : PILImageResampling = PILImageResampling.BICUBIC , lowercase_ : Optional[Union[str, ChannelDimension]] = None , **lowercase_ : Union[str, Any] , ) -> np.ndarray:
lowercase__ : str = get_size_dict(lowercase_ , default_to_square=lowercase_ )
if "shortest_edge" not in size:
raise ValueError(F'''The `size` parameter must contain the key `shortest_edge`. Got {size.keys()}''' )
lowercase__ : Dict = get_resize_output_image_size(lowercase_ , size=size["shortest_edge"] , default_to_square=lowercase_ )
return resize(lowercase_ , size=lowercase_ , resample=lowercase_ , data_format=lowercase_ , **lowercase_ )
def __UpperCamelCase ( self : int , lowercase_ : np.ndarray , lowercase_ : Dict[str, int] , lowercase_ : Optional[Union[str, ChannelDimension]] = None , **lowercase_ : int , ) -> np.ndarray:
lowercase__ : Optional[Any] = get_size_dict(lowercase_ )
if "height" not in size or "width" not in size:
raise ValueError(F'''The `size` parameter must contain the keys (height, width). Got {size.keys()}''' )
return center_crop(lowercase_ , size=(size["height"], size["width"]) , data_format=lowercase_ , **lowercase_ )
def __UpperCamelCase ( self : Optional[Any] , lowercase_ : np.ndarray , lowercase_ : Union[int, float] , lowercase_ : Optional[Union[str, ChannelDimension]] = None , **lowercase_ : Optional[Any] , ) -> Any:
return rescale(lowercase_ , scale=lowercase_ , data_format=lowercase_ , **lowercase_ )
def __UpperCamelCase ( self : str , lowercase_ : np.ndarray , lowercase_ : Union[float, List[float]] , lowercase_ : Union[float, List[float]] , lowercase_ : Optional[Union[str, ChannelDimension]] = None , **lowercase_ : str , ) -> np.ndarray:
return normalize(lowercase_ , mean=lowercase_ , std=lowercase_ , data_format=lowercase_ , **lowercase_ )
def __UpperCamelCase ( self : Optional[Any] , lowercase_ : ImageInput , lowercase_ : bool = None , lowercase_ : Dict[str, int] = None , lowercase_ : PILImageResampling = None , lowercase_ : bool = None , lowercase_ : int = None , lowercase_ : bool = None , lowercase_ : float = None , lowercase_ : bool = None , lowercase_ : Optional[Union[float, List[float]]] = None , lowercase_ : Optional[Union[float, List[float]]] = None , lowercase_ : bool = None , lowercase_ : Optional[Union[str, TensorType]] = None , lowercase_ : Optional[ChannelDimension] = ChannelDimension.FIRST , **lowercase_ : Union[str, Any] , ) -> PIL.Image.Image:
lowercase__ : int = do_resize if do_resize is not None else self.do_resize
lowercase__ : Dict = size if size is not None else self.size
lowercase__ : List[Any] = get_size_dict(lowercase_ , param_name="size" , default_to_square=lowercase_ )
lowercase__ : Dict = resample if resample is not None else self.resample
lowercase__ : int = do_center_crop if do_center_crop is not None else self.do_center_crop
lowercase__ : Dict = crop_size if crop_size is not None else self.crop_size
lowercase__ : List[str] = get_size_dict(lowercase_ , param_name="crop_size" , default_to_square=lowercase_ )
lowercase__ : int = do_rescale if do_rescale is not None else self.do_rescale
lowercase__ : Dict = rescale_factor if rescale_factor is not None else self.rescale_factor
lowercase__ : Union[str, Any] = do_normalize if do_normalize is not None else self.do_normalize
lowercase__ : int = image_mean if image_mean is not None else self.image_mean
lowercase__ : List[str] = image_std if image_std is not None else self.image_std
lowercase__ : Union[str, Any] = do_convert_rgb if do_convert_rgb is not None else self.do_convert_rgb
lowercase__ : 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." )
if do_center_crop and crop_size is None:
raise ValueError("Crop size must be specified if do_center_crop is True." )
if do_rescale and rescale_factor is None:
raise ValueError("Rescale factor must be specified if do_rescale is True." )
if do_normalize and (image_mean is None or image_std is None):
raise ValueError("Image mean and std must be specified if do_normalize is True." )
# PIL RGBA images are converted to RGB
if do_convert_rgb:
lowercase__ : Dict = [convert_to_rgb(lowercase_ ) for image in images]
# All transformations expect numpy arrays.
lowercase__ : Optional[Any] = [to_numpy_array(lowercase_ ) for image in images]
if do_resize:
lowercase__ : List[Any] = [self.resize(image=lowercase_ , size=lowercase_ , resample=lowercase_ ) for image in images]
if do_center_crop:
lowercase__ : int = [self.center_crop(image=lowercase_ , size=lowercase_ ) for image in images]
if do_rescale:
lowercase__ : str = [self.rescale(image=lowercase_ , scale=lowercase_ ) for image in images]
if do_normalize:
lowercase__ : Optional[int] = [self.normalize(image=lowercase_ , mean=lowercase_ , std=lowercase_ ) for image in images]
lowercase__ : Optional[Any] = [to_channel_dimension_format(lowercase_ , lowercase_ ) for image in images]
lowercase__ : List[str] = {"pixel_values": images}
return BatchFeature(data=lowercase_ , tensor_type=lowercase_ )
| 87 | 0 |
'''simple docstring'''
def lowerCamelCase (_SCREAMING_SNAKE_CASE : list[list[int]] , _SCREAMING_SNAKE_CASE : int , _SCREAMING_SNAKE_CASE : int , _SCREAMING_SNAKE_CASE : set ):
__a , __a : Optional[Any] = len(_SCREAMING_SNAKE_CASE ), len(grid[0] )
if (
min(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE ) < 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) )
__a : Dict = 0
count += depth_first_search(_SCREAMING_SNAKE_CASE , row + 1 , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE )
count += depth_first_search(_SCREAMING_SNAKE_CASE , row - 1 , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE )
count += depth_first_search(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , col + 1 , _SCREAMING_SNAKE_CASE )
count += depth_first_search(_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , col - 1 , _SCREAMING_SNAKE_CASE )
visit.remove((row, col) )
return count
if __name__ == "__main__":
import doctest
doctest.testmod()
| 27 | from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available
UpperCamelCase = {}
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = ['''GPTSw3Tokenizer''']
if TYPE_CHECKING:
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_gpt_swa import GPTSwaTokenizer
else:
import sys
UpperCamelCase = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
| 87 | 0 |
'''simple docstring'''
def __lowerCamelCase ( A__ = 10**9 ) -> int:
"""simple docstring"""
UpperCamelCase = 1
UpperCamelCase = 2
UpperCamelCase = 0
UpperCamelCase = 0
UpperCamelCase = 0
while perimeter <= max_perimeter:
perimeters_sum += perimeter
prev_value += 2 * value
value += prev_value
UpperCamelCase = 2 * value + 2 if i % 2 == 0 else 2 * value - 2
i += 1
return perimeters_sum
if __name__ == "__main__":
print(f'''{solution() = }''')
| 28 | UpperCamelCase = [0, 2, 4, 6, 8]
UpperCamelCase = [1, 3, 5, 7, 9]
def lowercase_ ( _lowerCamelCase : int , _lowerCamelCase : int , _lowerCamelCase : list[int] , _lowerCamelCase : int):
if remaining_length == 0:
if digits[0] == 0 or digits[-1] == 0:
return 0
for i in range(length // 2 - 1 , -1 , -1):
remainder += digits[i] + digits[length - i - 1]
if remainder % 2 == 0:
return 0
remainder //= 10
return 1
if remaining_length == 1:
if remainder % 2 == 0:
return 0
lowercase__ : str = 0
for digit in range(10):
lowercase__ : str = digit
result += reversible_numbers(
0 , (remainder + 2 * digit) // 10 , _lowerCamelCase , _lowerCamelCase)
return result
lowercase__ : Dict = 0
for digita in range(10):
lowercase__ : int = digita
if (remainder + digita) % 2 == 0:
lowercase__ : Optional[Any] = ODD_DIGITS
else:
lowercase__ : str = EVEN_DIGITS
for digita in other_parity_digits:
lowercase__ : List[str] = digita
result += reversible_numbers(
remaining_length - 2 , (remainder + digita + digita) // 10 , _lowerCamelCase , _lowerCamelCase , )
return result
def lowercase_ ( _lowerCamelCase : int = 9):
lowercase__ : Tuple = 0
for length in range(1 , max_power + 1):
result += reversible_numbers(_lowerCamelCase , 0 , [0] * length , _lowerCamelCase)
return result
if __name__ == "__main__":
print(f"{solution() = }")
| 87 | 0 |
import subprocess
import sys
from transformers import BertConfig, BertModel, BertTokenizer, pipeline
from transformers.testing_utils import TestCasePlus, require_torch
class lowerCamelCase (_snake_case ):
'''simple docstring'''
@require_torch
def __UpperCAmelCase ( self ) -> List[Any]:
# this test is a bit tricky since TRANSFORMERS_OFFLINE can only be changed before
# `transformers` is loaded, and it's too late for inside pytest - so we are changing it
# while running an external program
# python one-liner segments
# this must be loaded before socket.socket is monkey-patched
UpperCAmelCase_ : str = '\nfrom transformers import BertConfig, BertModel, BertTokenizer, pipeline\n '
UpperCAmelCase_ : Union[str, Any] = '\nmname = "hf-internal-testing/tiny-random-bert"\nBertConfig.from_pretrained(mname)\nBertModel.from_pretrained(mname)\nBertTokenizer.from_pretrained(mname)\npipe = pipeline(task="fill-mask", model=mname)\nprint("success")\n '
UpperCAmelCase_ : Optional[int] = '\nimport socket\ndef offline_socket(*args, **kwargs): raise RuntimeError("Offline mode is enabled, we shouldn\'t access internet")\nsocket.socket = offline_socket\n '
# Force fetching the files so that we can use the cache
UpperCAmelCase_ : List[Any] = 'hf-internal-testing/tiny-random-bert'
BertConfig.from_pretrained(_UpperCamelCase )
BertModel.from_pretrained(_UpperCamelCase )
BertTokenizer.from_pretrained(_UpperCamelCase )
pipeline(task='fill-mask' , model=_UpperCamelCase )
# baseline - just load from_pretrained with normal network
UpperCAmelCase_ : Dict = [sys.executable, '-c', '\n'.join([load, run, mock] )]
# should succeed
UpperCAmelCase_ : str = self.get_env()
# should succeed as TRANSFORMERS_OFFLINE=1 tells it to use local files
UpperCAmelCase_ : Tuple = '1'
UpperCAmelCase_ : Any = subprocess.run(_UpperCamelCase , env=_UpperCamelCase , check=_UpperCamelCase , capture_output=_UpperCamelCase )
self.assertEqual(result.returncode , 0 , result.stderr )
self.assertIn('success' , result.stdout.decode() )
@require_torch
def __UpperCAmelCase ( self ) -> List[str]:
# python one-liner segments
# this must be loaded before socket.socket is monkey-patched
UpperCAmelCase_ : Optional[int] = '\nfrom transformers import BertConfig, BertModel, BertTokenizer, pipeline\n '
UpperCAmelCase_ : List[Any] = '\nmname = "hf-internal-testing/tiny-random-bert"\nBertConfig.from_pretrained(mname)\nBertModel.from_pretrained(mname)\nBertTokenizer.from_pretrained(mname)\npipe = pipeline(task="fill-mask", model=mname)\nprint("success")\n '
UpperCAmelCase_ : List[str] = '\nimport socket\ndef offline_socket(*args, **kwargs): raise socket.error("Faking flaky internet")\nsocket.socket = offline_socket\n '
# Force fetching the files so that we can use the cache
UpperCAmelCase_ : Optional[int] = 'hf-internal-testing/tiny-random-bert'
BertConfig.from_pretrained(_UpperCamelCase )
BertModel.from_pretrained(_UpperCamelCase )
BertTokenizer.from_pretrained(_UpperCamelCase )
pipeline(task='fill-mask' , model=_UpperCamelCase )
# baseline - just load from_pretrained with normal network
UpperCAmelCase_ : str = [sys.executable, '-c', '\n'.join([load, run, mock] )]
# should succeed
UpperCAmelCase_ : Tuple = self.get_env()
UpperCAmelCase_ : Union[str, Any] = subprocess.run(_UpperCamelCase , env=_UpperCamelCase , check=_UpperCamelCase , capture_output=_UpperCamelCase )
self.assertEqual(result.returncode , 0 , result.stderr )
self.assertIn('success' , result.stdout.decode() )
@require_torch
def __UpperCAmelCase ( self ) -> str:
# this test is a bit tricky since TRANSFORMERS_OFFLINE can only be changed before
# `transformers` is loaded, and it's too late for inside pytest - so we are changing it
# while running an external program
# python one-liner segments
# this must be loaded before socket.socket is monkey-patched
UpperCAmelCase_ : str = '\nfrom transformers import BertConfig, BertModel, BertTokenizer\n '
UpperCAmelCase_ : List[Any] = '\nmname = "hf-internal-testing/tiny-random-bert-sharded"\nBertConfig.from_pretrained(mname)\nBertModel.from_pretrained(mname)\nprint("success")\n '
UpperCAmelCase_ : str = '\nimport socket\ndef offline_socket(*args, **kwargs): raise ValueError("Offline mode is enabled")\nsocket.socket = offline_socket\n '
# baseline - just load from_pretrained with normal network
UpperCAmelCase_ : List[Any] = [sys.executable, '-c', '\n'.join([load, run] )]
# should succeed
UpperCAmelCase_ : str = self.get_env()
UpperCAmelCase_ : str = subprocess.run(_UpperCamelCase , env=_UpperCamelCase , check=_UpperCamelCase , capture_output=_UpperCamelCase )
self.assertEqual(result.returncode , 0 , result.stderr )
self.assertIn('success' , result.stdout.decode() )
# next emulate no network
UpperCAmelCase_ : str = [sys.executable, '-c', '\n'.join([load, mock, run] )]
# Doesn't fail anymore since the model is in the cache due to other tests, so commenting this.
# env["TRANSFORMERS_OFFLINE"] = "0"
# result = subprocess.run(cmd, env=env, check=False, capture_output=True)
# self.assertEqual(result.returncode, 1, result.stderr)
# should succeed as TRANSFORMERS_OFFLINE=1 tells it to use local files
UpperCAmelCase_ : List[Any] = '1'
UpperCAmelCase_ : int = subprocess.run(_UpperCamelCase , env=_UpperCamelCase , check=_UpperCamelCase , capture_output=_UpperCamelCase )
self.assertEqual(result.returncode , 0 , result.stderr )
self.assertIn('success' , result.stdout.decode() )
@require_torch
def __UpperCAmelCase ( self ) -> List[str]:
UpperCAmelCase_ : Any = '\nfrom transformers import pipeline\n '
UpperCAmelCase_ : Optional[int] = '\nmname = "hf-internal-testing/tiny-random-bert"\npipe = pipeline(model=mname)\n '
UpperCAmelCase_ : Tuple = '\nimport socket\ndef offline_socket(*args, **kwargs): raise socket.error("Offline mode is enabled")\nsocket.socket = offline_socket\n '
UpperCAmelCase_ : str = self.get_env()
UpperCAmelCase_ : Optional[Any] = '1'
UpperCAmelCase_ : str = [sys.executable, '-c', '\n'.join([load, mock, run] )]
UpperCAmelCase_ : List[Any] = subprocess.run(_UpperCamelCase , env=_UpperCamelCase , check=_UpperCamelCase , capture_output=_UpperCamelCase )
self.assertEqual(result.returncode , 1 , result.stderr )
self.assertIn(
'You cannot infer task automatically within `pipeline` when using offline mode' , result.stderr.decode().replace('\n' , '' ) , )
@require_torch
def __UpperCAmelCase ( self ) -> str:
UpperCAmelCase_ : Dict = '\nfrom transformers import AutoModel\n '
UpperCAmelCase_ : str = '\nmname = "hf-internal-testing/test_dynamic_model"\nAutoModel.from_pretrained(mname, trust_remote_code=True)\nprint("success")\n '
# baseline - just load from_pretrained with normal network
UpperCAmelCase_ : Union[str, Any] = [sys.executable, '-c', '\n'.join([load, run] )]
# should succeed
UpperCAmelCase_ : Any = self.get_env()
UpperCAmelCase_ : List[Any] = subprocess.run(_UpperCamelCase , env=_UpperCamelCase , check=_UpperCamelCase , capture_output=_UpperCamelCase )
self.assertEqual(result.returncode , 0 , result.stderr )
self.assertIn('success' , result.stdout.decode() )
# should succeed as TRANSFORMERS_OFFLINE=1 tells it to use local files
UpperCAmelCase_ : Tuple = '1'
UpperCAmelCase_ : Optional[Any] = subprocess.run(_UpperCamelCase , env=_UpperCamelCase , check=_UpperCamelCase , capture_output=_UpperCamelCase )
self.assertEqual(result.returncode , 0 , result.stderr )
self.assertIn('success' , result.stdout.decode() )
| 29 | import sacrebleu as scb
from packaging import version
from sacrebleu import TER
import datasets
UpperCamelCase = '''\
@inproceedings{snover-etal-2006-study,
title = "A Study of Translation Edit Rate with Targeted Human Annotation",
author = "Snover, Matthew and
Dorr, Bonnie and
Schwartz, Rich and
Micciulla, Linnea and
Makhoul, John",
booktitle = "Proceedings of the 7th Conference of the Association for Machine Translation in the Americas: Technical Papers",
month = aug # " 8-12",
year = "2006",
address = "Cambridge, Massachusetts, USA",
publisher = "Association for Machine Translation in the Americas",
url = "https://aclanthology.org/2006.amta-papers.25",
pages = "223--231",
}
@inproceedings{post-2018-call,
title = "A Call for Clarity in Reporting {BLEU} Scores",
author = "Post, Matt",
booktitle = "Proceedings of the Third Conference on Machine Translation: Research Papers",
month = oct,
year = "2018",
address = "Belgium, Brussels",
publisher = "Association for Computational Linguistics",
url = "https://www.aclweb.org/anthology/W18-6319",
pages = "186--191",
}
'''
UpperCamelCase = '''\
TER (Translation Edit Rate, also called Translation Error Rate) is a metric to quantify the edit operations that a
hypothesis requires to match a reference translation. We use the implementation that is already present in sacrebleu
(https://github.com/mjpost/sacreBLEU#ter), which in turn is inspired by the TERCOM implementation, which can be found
here: https://github.com/jhclark/tercom.
The implementation here is slightly different from sacrebleu in terms of the required input format. The length of
the references and hypotheses lists need to be the same, so you may need to transpose your references compared to
sacrebleu\'s required input format. See https://github.com/huggingface/datasets/issues/3154#issuecomment-950746534
See the README.md file at https://github.com/mjpost/sacreBLEU#ter for more information.
'''
UpperCamelCase = '''
Produces TER scores alongside the number of edits and reference length.
Args:
predictions (list of str): The system stream (a sequence of segments).
references (list of list of str): A list of one or more reference streams (each a sequence of segments).
normalized (boolean): If `True`, applies basic tokenization and normalization to sentences. Defaults to `False`.
ignore_punct (boolean): If `True`, applies basic tokenization and normalization to sentences. Defaults to `False`.
support_zh_ja_chars (boolean): If `True`, tokenization/normalization supports processing of Chinese characters,
as well as Japanese Kanji, Hiragana, Katakana, and Phonetic Extensions of Katakana.
Only applies if `normalized = True`. Defaults to `False`.
case_sensitive (boolean): If `False`, makes all predictions and references lowercase to ignore differences in case. Defaults to `False`.
Returns:
\'score\' (float): TER score (num_edits / sum_ref_lengths * 100)
\'num_edits\' (int): The cumulative number of edits
\'ref_length\' (float): The cumulative average reference length
Examples:
Example 1:
>>> predictions = ["does this sentence match??",
... "what about this sentence?",
... "What did the TER metric user say to the developer?"]
>>> references = [["does this sentence match", "does this sentence match!?!"],
... ["wHaT aBoUt ThIs SeNtEnCe?", "wHaT aBoUt ThIs SeNtEnCe?"],
... ["Your jokes are...", "...TERrible"]]
>>> ter = datasets.load_metric("ter")
>>> results = ter.compute(predictions=predictions,
... references=references,
... case_sensitive=True)
>>> print(results)
{\'score\': 150.0, \'num_edits\': 15, \'ref_length\': 10.0}
Example 2:
>>> predictions = ["does this sentence match??",
... "what about this sentence?"]
>>> references = [["does this sentence match", "does this sentence match!?!"],
... ["wHaT aBoUt ThIs SeNtEnCe?", "wHaT aBoUt ThIs SeNtEnCe?"]]
>>> ter = datasets.load_metric("ter")
>>> results = ter.compute(predictions=predictions,
... references=references,
... case_sensitive=True)
>>> print(results)
{\'score\': 62.5, \'num_edits\': 5, \'ref_length\': 8.0}
Example 3:
>>> predictions = ["does this sentence match??",
... "what about this sentence?"]
>>> references = [["does this sentence match", "does this sentence match!?!"],
... ["wHaT aBoUt ThIs SeNtEnCe?", "wHaT aBoUt ThIs SeNtEnCe?"]]
>>> ter = datasets.load_metric("ter")
>>> results = ter.compute(predictions=predictions,
... references=references,
... normalized=True,
... case_sensitive=True)
>>> print(results)
{\'score\': 57.14285714285714, \'num_edits\': 6, \'ref_length\': 10.5}
Example 4:
>>> predictions = ["does this sentence match??",
... "what about this sentence?"]
>>> references = [["does this sentence match", "does this sentence match!?!"],
... ["wHaT aBoUt ThIs SeNtEnCe?", "wHaT aBoUt ThIs SeNtEnCe?"]]
>>> ter = datasets.load_metric("ter")
>>> results = ter.compute(predictions=predictions,
... references=references,
... ignore_punct=True,
... case_sensitive=False)
>>> print(results)
{\'score\': 0.0, \'num_edits\': 0, \'ref_length\': 8.0}
Example 5:
>>> predictions = ["does this sentence match??",
... "what about this sentence?",
... "What did the TER metric user say to the developer?"]
>>> references = [["does this sentence match", "does this sentence match!?!"],
... ["wHaT aBoUt ThIs SeNtEnCe?", "wHaT aBoUt ThIs SeNtEnCe?"],
... ["Your jokes are...", "...TERrible"]]
>>> ter = datasets.load_metric("ter")
>>> results = ter.compute(predictions=predictions,
... references=references,
... ignore_punct=True,
... case_sensitive=False)
>>> print(results)
{\'score\': 100.0, \'num_edits\': 10, \'ref_length\': 10.0}
'''
@datasets.utils.file_utils.add_start_docstrings(_DESCRIPTION ,_KWARGS_DESCRIPTION )
class snake_case_ ( datasets.Metric ):
def __UpperCamelCase ( self : Union[str, Any] ) -> Tuple:
if version.parse(scb.__version__ ) < version.parse("1.4.12" ):
raise ImportWarning(
"To use `sacrebleu`, the module `sacrebleu>=1.4.12` is required, and the current version of `sacrebleu` doesn't match this condition.\n"
"You can install it with `pip install \"sacrebleu>=1.4.12\"`." )
return datasets.MetricInfo(
description=_DESCRIPTION , citation=_CITATION , homepage="http://www.cs.umd.edu/~snover/tercom/" , inputs_description=_KWARGS_DESCRIPTION , features=datasets.Features(
{
"predictions": datasets.Value("string" , id="sequence" ),
"references": datasets.Sequence(datasets.Value("string" , id="sequence" ) , id="references" ),
} ) , codebase_urls=["https://github.com/mjpost/sacreBLEU#ter"] , reference_urls=[
"https://github.com/jhclark/tercom",
] , )
def __UpperCamelCase ( self : Optional[Any] , lowercase_ : str , lowercase_ : Optional[int] , lowercase_ : bool = False , lowercase_ : bool = False , lowercase_ : bool = False , lowercase_ : bool = False , ) -> Any:
lowercase__ : Optional[int] = len(references[0] )
if any(len(lowercase_ ) != references_per_prediction for refs in references ):
raise ValueError("Sacrebleu requires the same number of references for each prediction" )
lowercase__ : Union[str, Any] = [[refs[i] for refs in references] for i in range(lowercase_ )]
lowercase__ : str = TER(
normalized=lowercase_ , no_punct=lowercase_ , asian_support=lowercase_ , case_sensitive=lowercase_ , )
lowercase__ : List[str] = sb_ter.corpus_score(lowercase_ , lowercase_ )
return {"score": output.score, "num_edits": output.num_edits, "ref_length": output.ref_length}
| 87 | 0 |
from __future__ import annotations
def a ( snake_case__: list , snake_case__: int , snake_case__: int , snake_case__: int ):
'''simple docstring'''
lowercase_ = []
lowercase_ , lowercase_ = input_list[low:mid], input_list[mid : high + 1]
while left and right:
result.append((left if left[0] <= right[0] else right).pop(0 ) )
lowercase_ = result + left + right
return input_list
def a ( snake_case__: list ):
'''simple docstring'''
if len(snake_case__ ) <= 1:
return input_list
lowercase_ = list(snake_case__ )
# iteration for two-way merging
lowercase_ = 2
while p <= len(snake_case__ ):
# getting low, high and middle value for merge-sort of single list
for i in range(0 , len(snake_case__ ) , snake_case__ ):
lowercase_ = i
lowercase_ = i + p - 1
lowercase_ = (low + high + 1) // 2
lowercase_ = merge(snake_case__ , snake_case__ , snake_case__ , snake_case__ )
# final merge of last two parts
if p * 2 >= len(snake_case__ ):
lowercase_ = i
lowercase_ = merge(snake_case__ , 0 , snake_case__ , len(snake_case__ ) - 1 )
break
p *= 2
return input_list
if __name__ == "__main__":
__a = input('Enter numbers separated by a comma:\n').strip()
if user_input == "":
__a = []
else:
__a = [int(item.strip()) for item in user_input.split(',')]
print(iter_merge_sort(unsorted))
| 30 | def lowercase_ ( _lowerCamelCase : int):
lowercase__ : Dict = n ** (1 / 3)
return (val * val * val) == n
if __name__ == "__main__":
print(perfect_cube(27))
print(perfect_cube(4))
| 87 | 0 |
'''simple docstring'''
import argparse
import torch
from transformers import OpenAIGPTConfig, OpenAIGPTModel, load_tf_weights_in_openai_gpt
from transformers.utils import CONFIG_NAME, WEIGHTS_NAME, logging
logging.set_verbosity_info()
def UpperCamelCase_ ( _UpperCAmelCase : int , _UpperCAmelCase : List[Any] , _UpperCAmelCase : Tuple ) -> Optional[int]:
"""simple docstring"""
if openai_config_file == "":
_UpperCAmelCase : Tuple = OpenAIGPTConfig()
else:
_UpperCAmelCase : List[str] = OpenAIGPTConfig.from_json_file(_UpperCAmelCase )
_UpperCAmelCase : int = OpenAIGPTModel(_UpperCAmelCase )
# Load weights from numpy
load_tf_weights_in_openai_gpt(_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase )
# Save pytorch-model
_UpperCAmelCase : Any = pytorch_dump_folder_path + "/" + WEIGHTS_NAME
_UpperCAmelCase : Dict = pytorch_dump_folder_path + "/" + CONFIG_NAME
print(F"""Save PyTorch model to {pytorch_weights_dump_path}""" )
torch.save(model.state_dict() , _UpperCAmelCase )
print(F"""Save configuration file to {pytorch_config_dump_path}""" )
with open(_UpperCAmelCase , "w" , encoding="utf-8" ) as f:
f.write(config.to_json_string() )
if __name__ == "__main__":
__SCREAMING_SNAKE_CASE : Optional[int] = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
"""--openai_checkpoint_folder_path""",
default=None,
type=str,
required=True,
help="""Path to the TensorFlow checkpoint path.""",
)
parser.add_argument(
"""--pytorch_dump_folder_path""", default=None, type=str, required=True, help="""Path to the output PyTorch model."""
)
parser.add_argument(
"""--openai_config_file""",
default="""""",
type=str,
help=(
"""An optional config json file corresponding to the pre-trained OpenAI model. \n"""
"""This specifies the model architecture."""
),
)
__SCREAMING_SNAKE_CASE : Any = parser.parse_args()
convert_openai_checkpoint_to_pytorch(
args.openai_checkpoint_folder_path, args.openai_config_file, args.pytorch_dump_folder_path
)
| 31 | from PIL import Image
def lowercase_ ( _lowerCamelCase : Image , _lowerCamelCase : int):
lowercase__ : List[str] = (259 * (level + 255)) / (255 * (259 - level))
def contrast(_lowerCamelCase : int) -> int:
return int(128 + factor * (c - 128))
return img.point(_lowerCamelCase)
if __name__ == "__main__":
# Load image
with Image.open('''image_data/lena.jpg''') as img:
# Change contrast to 170
UpperCamelCase = change_contrast(img, 170)
cont_img.save('''image_data/lena_high_contrast.png''', format='''png''')
| 87 | 0 |
import argparse
import torch
from torch import nn
from transformers import SpeechaTextConfig, SpeechaTextForConditionalGeneration
def SCREAMING_SNAKE_CASE_ ( __A : Optional[Any] ) -> Dict:
"""simple docstring"""
a_ : Dict = [
'encoder.version',
'decoder.version',
'model.encoder.version',
'model.decoder.version',
'decoder.output_projection.weight',
'_float_tensor',
'encoder.embed_positions._float_tensor',
'decoder.embed_positions._float_tensor',
]
for k in ignore_keys:
state_dict.pop(__A , __A )
def SCREAMING_SNAKE_CASE_ ( __A : str ) -> Optional[int]:
"""simple docstring"""
a_ : Optional[int] = list(s_dict.keys() )
for key in keys:
if "transformer_layers" in key:
a_ : Tuple = s_dict.pop(__A )
elif "subsample" in key:
a_ : int = s_dict.pop(__A )
def SCREAMING_SNAKE_CASE_ ( __A : Optional[Any] ) -> Dict:
"""simple docstring"""
a_ , a_ : List[Any] = emb.weight.shape
a_ : Optional[Any] = nn.Linear(__A , __A , bias=__A )
a_ : List[Any] = emb.weight.data
return lin_layer
def SCREAMING_SNAKE_CASE_ ( __A : List[Any] , __A : List[str] ) -> List[Any]:
"""simple docstring"""
a_ : Optional[int] = torch.load(__A , map_location='cpu' )
a_ : List[str] = mam_aaa['args']
a_ : Union[str, Any] = mam_aaa['model']
a_ : Optional[Any] = state_dict['decoder.output_projection.weight']
remove_ignore_keys_(__A )
rename_keys(__A )
a_ : int = state_dict['decoder.embed_tokens.weight'].shape[0]
a_ : Dict = args.share_decoder_input_output_embed
a_ : Tuple = [int(__A ) for i in args.conv_kernel_sizes.split(',' )]
a_ : Union[str, Any] = SpeechaTextConfig(
vocab_size=__A , max_source_positions=args.max_source_positions , max_target_positions=args.max_target_positions , encoder_layers=args.encoder_layers , decoder_layers=args.decoder_layers , encoder_attention_heads=args.encoder_attention_heads , decoder_attention_heads=args.decoder_attention_heads , encoder_ffn_dim=args.encoder_ffn_embed_dim , decoder_ffn_dim=args.decoder_ffn_embed_dim , d_model=args.encoder_embed_dim , dropout=args.dropout , attention_dropout=args.attention_dropout , activation_dropout=args.activation_dropout , activation_function='relu' , num_conv_layers=len(__A ) , conv_channels=args.conv_channels , conv_kernel_sizes=__A , input_feat_per_channel=args.input_feat_per_channel , input_channels=args.input_channels , tie_word_embeddings=__A , num_beams=5 , max_length=2_00 , use_cache=__A , decoder_start_token_id=2 , early_stopping=__A , )
a_ : Optional[int] = SpeechaTextForConditionalGeneration(__A )
a_ , a_ : Optional[int] = model.model.load_state_dict(__A , strict=__A )
if len(__A ) > 0 and not set(__A ) <= {
"encoder.embed_positions.weights",
"decoder.embed_positions.weights",
}:
raise ValueError(
'Only `encoder.embed_positions.weights` and `decoder.embed_positions.weights` are allowed to be missing,'
F""" but all the following weights are missing {missing}""" )
if tie_embeds:
a_ : Dict = make_linear_from_emb(model.model.decoder.embed_tokens )
else:
a_ : Dict = lm_head_weights
model.save_pretrained(__A )
if __name__ == "__main__":
UpperCAmelCase_ : int = argparse.ArgumentParser()
# Required parameters
parser.add_argument('--fairseq_path', type=str, help='Path to the fairseq model (.pt) file.')
parser.add_argument('--pytorch_dump_folder_path', default=None, type=str, help='Path to the output PyTorch model.')
UpperCAmelCase_ : str = parser.parse_args()
convert_fairseq_sat_checkpoint_to_tfms(args.fairseq_path, args.pytorch_dump_folder_path)
| 32 | from __future__ import annotations
import sys
from collections import deque
from typing import Generic, TypeVar
UpperCamelCase = TypeVar('''T''')
class snake_case_ ( Generic[T] ):
__A : deque[T] # Cache store of keys
__A : set[T] # References of the keys in cache
__A : int = 10 # Maximum capacity of cache
def __init__( self : Union[str, Any] , lowercase_ : int ) -> None:
lowercase__ : int = deque()
lowercase__ : str = set()
if not n:
lowercase__ : str = sys.maxsize
elif n < 0:
raise ValueError("n should be an integer greater than 0." )
else:
lowercase__ : List[Any] = n
def __UpperCamelCase ( self : Dict , lowercase_ : T ) -> None:
if x not in self.key_reference:
if len(self.dq_store ) == LRUCache._MAX_CAPACITY:
lowercase__ : Dict = self.dq_store.pop()
self.key_reference.remove(lowercase_ )
else:
self.dq_store.remove(lowercase_ )
self.dq_store.appendleft(lowercase_ )
self.key_reference.add(lowercase_ )
def __UpperCamelCase ( self : Dict ) -> None:
for k in self.dq_store:
print(lowercase_ )
def __repr__( self : Optional[int] ) -> str:
return F'''LRUCache({self._MAX_CAPACITY}) => {list(self.dq_store )}'''
if __name__ == "__main__":
import doctest
doctest.testmod()
UpperCamelCase = LRUCache(4)
lru_cache.refer('''A''')
lru_cache.refer(2)
lru_cache.refer(3)
lru_cache.refer('''A''')
lru_cache.refer(4)
lru_cache.refer(5)
lru_cache.display()
print(lru_cache)
assert str(lru_cache) == "LRUCache(4) => [5, 4, 'A', 3]"
| 87 | 0 |
"""simple docstring"""
from typing import Dict, Optional
import numpy as np
import datasets
__A : Tuple = '''
IoU is the area of overlap between the predicted segmentation and the ground truth divided by the area of union
between the predicted segmentation and the ground truth. For binary (two classes) or multi-class segmentation,
the mean IoU of the image is calculated by taking the IoU of each class and averaging them.
'''
__A : List[Any] = '''
Args:
predictions (`List[ndarray]`):
List of predicted segmentation maps, each of shape (height, width). Each segmentation map can be of a different size.
references (`List[ndarray]`):
List of ground truth segmentation maps, each of shape (height, width). Each segmentation map can be of a different size.
num_labels (`int`):
Number of classes (categories).
ignore_index (`int`):
Index that will be ignored during evaluation.
nan_to_num (`int`, *optional*):
If specified, NaN values will be replaced by the number defined by the user.
label_map (`dict`, *optional*):
If specified, dictionary mapping old label indices to new label indices.
reduce_labels (`bool`, *optional*, defaults to `False`):
Whether or not to reduce all label values of segmentation maps by 1. Usually used for datasets where 0 is used for background,
and background itself is not included in all classes of a dataset (e.g. ADE20k). The background label will be replaced by 255.
Returns:
`Dict[str, float | ndarray]` comprising various elements:
- *mean_iou* (`float`):
Mean Intersection-over-Union (IoU averaged over all categories).
- *mean_accuracy* (`float`):
Mean accuracy (averaged over all categories).
- *overall_accuracy* (`float`):
Overall accuracy on all images.
- *per_category_accuracy* (`ndarray` of shape `(num_labels,)`):
Per category accuracy.
- *per_category_iou* (`ndarray` of shape `(num_labels,)`):
Per category IoU.
Examples:
>>> import numpy as np
>>> mean_iou = datasets.load_metric("mean_iou")
>>> # suppose one has 3 different segmentation maps predicted
>>> predicted_1 = np.array([[1, 2], [3, 4], [5, 255]])
>>> actual_1 = np.array([[0, 3], [5, 4], [6, 255]])
>>> predicted_2 = np.array([[2, 7], [9, 2], [3, 6]])
>>> actual_2 = np.array([[1, 7], [9, 2], [3, 6]])
>>> predicted_3 = np.array([[2, 2, 3], [8, 2, 4], [3, 255, 2]])
>>> actual_3 = np.array([[1, 2, 2], [8, 2, 1], [3, 255, 1]])
>>> predicted = [predicted_1, predicted_2, predicted_3]
>>> ground_truth = [actual_1, actual_2, actual_3]
>>> results = mean_iou.compute(predictions=predicted, references=ground_truth, num_labels=10, ignore_index=255, reduce_labels=False)
>>> print(results) # doctest: +NORMALIZE_WHITESPACE
{\'mean_iou\': 0.47750000000000004, \'mean_accuracy\': 0.5916666666666666, \'overall_accuracy\': 0.5263157894736842, \'per_category_iou\': array([0. , 0. , 0.375, 0.4 , 0.5 , 0. , 0.5 , 1. , 1. , 1. ]), \'per_category_accuracy\': array([0. , 0. , 0.75 , 0.66666667, 1. , 0. , 0.5 , 1. , 1. , 1. ])}
'''
__A : Union[str, Any] = '''\
@software{MMSegmentation_Contributors_OpenMMLab_Semantic_Segmentation_2020,
author = {{MMSegmentation Contributors}},
license = {Apache-2.0},
month = {7},
title = {{OpenMMLab Semantic Segmentation Toolbox and Benchmark}},
url = {https://github.com/open-mmlab/mmsegmentation},
year = {2020}
}'''
def lowercase ( __snake_case : Tuple , __snake_case : int , __snake_case : Tuple , __snake_case : bool , __snake_case : Optional[Dict[int, int]] = None , __snake_case : bool = False , ):
if label_map is not None:
for old_id, new_id in label_map.items():
lowercase_ : Any = new_id
# turn into Numpy arrays
lowercase_ : str = np.array(__snake_case )
lowercase_ : List[str] = np.array(__snake_case )
if reduce_labels:
lowercase_ : Optional[Any] = 2_5_5
lowercase_ : List[Any] = label - 1
lowercase_ : int = 2_5_5
lowercase_ : Optional[Any] = label != ignore_index
lowercase_ : Union[str, Any] = np.not_equal(__snake_case , __snake_case )
lowercase_ : str = pred_label[mask]
lowercase_ : Optional[Any] = np.array(__snake_case )[mask]
lowercase_ : List[str] = pred_label[pred_label == label]
lowercase_ : Dict = np.histogram(__snake_case , bins=__snake_case , range=(0, num_labels - 1) )[0]
lowercase_ : str = np.histogram(__snake_case , bins=__snake_case , range=(0, num_labels - 1) )[0]
lowercase_ : Union[str, Any] = np.histogram(__snake_case , bins=__snake_case , range=(0, num_labels - 1) )[0]
lowercase_ : Union[str, Any] = area_pred_label + area_label - area_intersect
return area_intersect, area_union, area_pred_label, area_label
def lowercase ( __snake_case : Optional[int] , __snake_case : List[str] , __snake_case : str , __snake_case : bool , __snake_case : Optional[Dict[int, int]] = None , __snake_case : bool = False , ):
lowercase_ : Union[str, Any] = np.zeros((num_labels,) , dtype=np.floataa )
lowercase_ : List[Any] = np.zeros((num_labels,) , dtype=np.floataa )
lowercase_ : Optional[int] = np.zeros((num_labels,) , dtype=np.floataa )
lowercase_ : Dict = np.zeros((num_labels,) , dtype=np.floataa )
for result, gt_seg_map in zip(__snake_case , __snake_case ):
lowercase_ , lowercase_ , lowercase_ , lowercase_ : List[Any] = intersect_and_union(
__snake_case , __snake_case , __snake_case , __snake_case , __snake_case , __snake_case )
total_area_intersect += area_intersect
total_area_union += area_union
total_area_pred_label += area_pred_label
total_area_label += area_label
return total_area_intersect, total_area_union, total_area_pred_label, total_area_label
def lowercase ( __snake_case : str , __snake_case : Optional[Any] , __snake_case : Tuple , __snake_case : bool , __snake_case : Optional[int] = None , __snake_case : Optional[Dict[int, int]] = None , __snake_case : bool = False , ):
lowercase_ , lowercase_ , lowercase_ , lowercase_ : Any = total_intersect_and_union(
__snake_case , __snake_case , __snake_case , __snake_case , __snake_case , __snake_case )
# compute metrics
lowercase_ : Dict = {}
lowercase_ : Any = total_area_intersect.sum() / total_area_label.sum()
lowercase_ : Tuple = total_area_intersect / total_area_union
lowercase_ : Union[str, Any] = total_area_intersect / total_area_label
lowercase_ : Any = np.nanmean(__snake_case )
lowercase_ : Optional[int] = np.nanmean(__snake_case )
lowercase_ : Optional[int] = all_acc
lowercase_ : Any = iou
lowercase_ : Tuple = acc
if nan_to_num is not None:
lowercase_ : int = {metric: np.nan_to_num(__snake_case , nan=__snake_case ) for metric, metric_value in metrics.items()}
return metrics
@datasets.utils.file_utils.add_start_docstrings(_DESCRIPTION , _KWARGS_DESCRIPTION )
class _UpperCAmelCase ( datasets.Metric ):
def A ( self : Union[str, Any] ) -> Tuple:
return datasets.MetricInfo(
description=_DESCRIPTION , citation=_CITATION , inputs_description=_KWARGS_DESCRIPTION , features=datasets.Features(
# 1st Seq - height dim, 2nd - width dim
{
'''predictions''': datasets.Sequence(datasets.Sequence(datasets.Value('''uint16''' ) ) ),
'''references''': datasets.Sequence(datasets.Sequence(datasets.Value('''uint16''' ) ) ),
} ) , reference_urls=[
'''https://github.com/open-mmlab/mmsegmentation/blob/71c201b1813267d78764f306a297ca717827c4bf/mmseg/core/evaluation/metrics.py'''
] , )
def A ( self : Dict , A : Optional[Any] , A : Tuple , A : int , A : bool , A : Optional[int] = None , A : Optional[Dict[int, int]] = None , A : bool = False , ) -> Dict:
lowercase_ : Dict = mean_iou(
results=A , gt_seg_maps=A , num_labels=A , ignore_index=A , nan_to_num=A , label_map=A , reduce_labels=A , )
return iou_result
| 33 | from collections import OrderedDict
from typing import Mapping
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfig
from ...utils import logging
UpperCamelCase = logging.get_logger(__name__)
UpperCamelCase = {
'''YituTech/conv-bert-base''': '''https://huggingface.co/YituTech/conv-bert-base/resolve/main/config.json''',
'''YituTech/conv-bert-medium-small''': (
'''https://huggingface.co/YituTech/conv-bert-medium-small/resolve/main/config.json'''
),
'''YituTech/conv-bert-small''': '''https://huggingface.co/YituTech/conv-bert-small/resolve/main/config.json''',
# See all ConvBERT models at https://huggingface.co/models?filter=convbert
}
class snake_case_ ( __A ):
__A : List[str] = "convbert"
def __init__( self : Union[str, Any] , lowercase_ : str=3_05_22 , lowercase_ : Any=7_68 , lowercase_ : Tuple=12 , lowercase_ : List[str]=12 , lowercase_ : Optional[int]=30_72 , lowercase_ : Union[str, Any]="gelu" , lowercase_ : str=0.1 , lowercase_ : List[str]=0.1 , lowercase_ : Optional[Any]=5_12 , lowercase_ : Dict=2 , lowercase_ : Union[str, Any]=0.02 , lowercase_ : Optional[Any]=1E-12 , lowercase_ : Optional[int]=1 , lowercase_ : List[Any]=0 , lowercase_ : Optional[int]=2 , lowercase_ : str=7_68 , lowercase_ : Dict=2 , lowercase_ : Optional[Any]=9 , lowercase_ : Union[str, Any]=1 , lowercase_ : Any=None , **lowercase_ : Optional[Any] , ) -> Dict:
super().__init__(
pad_token_id=lowercase_ , bos_token_id=lowercase_ , eos_token_id=lowercase_ , **lowercase_ , )
lowercase__ : List[str] = vocab_size
lowercase__ : Union[str, Any] = hidden_size
lowercase__ : Any = num_hidden_layers
lowercase__ : List[str] = num_attention_heads
lowercase__ : Union[str, Any] = intermediate_size
lowercase__ : Optional[Any] = hidden_act
lowercase__ : int = hidden_dropout_prob
lowercase__ : str = attention_probs_dropout_prob
lowercase__ : Union[str, Any] = max_position_embeddings
lowercase__ : Optional[int] = type_vocab_size
lowercase__ : Tuple = initializer_range
lowercase__ : List[str] = layer_norm_eps
lowercase__ : List[Any] = embedding_size
lowercase__ : Optional[Any] = head_ratio
lowercase__ : Dict = conv_kernel_size
lowercase__ : Tuple = num_groups
lowercase__ : Optional[int] = classifier_dropout
class snake_case_ ( __A ):
@property
def __UpperCamelCase ( self : Optional[int] ) -> Mapping[str, Mapping[int, str]]:
if self.task == "multiple-choice":
lowercase__ : Tuple = {0: "batch", 1: "choice", 2: "sequence"}
else:
lowercase__ : str = {0: "batch", 1: "sequence"}
return OrderedDict(
[
("input_ids", dynamic_axis),
("attention_mask", dynamic_axis),
("token_type_ids", dynamic_axis),
] )
| 87 | 0 |
'''simple docstring'''
import argparse
import logging
from collections import namedtuple
import torch
from model_bertabs import BertAbsSummarizer
from models.model_builder import AbsSummarizer # The authors' implementation
from transformers import BertTokenizer
logging.basicConfig(level=logging.INFO)
A =logging.getLogger(__name__)
A ='Hello world! cécé herlolip'
A =namedtuple(
'BertAbsConfig',
[
'temp_dir',
'large',
'use_bert_emb',
'finetune_bert',
'encoder',
'share_emb',
'max_pos',
'enc_layers',
'enc_hidden_size',
'enc_heads',
'enc_ff_size',
'enc_dropout',
'dec_layers',
'dec_hidden_size',
'dec_heads',
'dec_ff_size',
'dec_dropout',
],
)
def snake_case_ (_a : List[Any] , _a : Any ):
UpperCAmelCase = BertAbsConfig(
temp_dir='''.''' , finetune_bert=_a , large=_a , share_emb=_a , use_bert_emb=_a , encoder='''bert''' , max_pos=5_1_2 , enc_layers=6 , enc_hidden_size=5_1_2 , enc_heads=8 , enc_ff_size=5_1_2 , enc_dropout=0.2 , dec_layers=6 , dec_hidden_size=7_6_8 , dec_heads=8 , dec_ff_size=2_0_4_8 , dec_dropout=0.2 , )
UpperCAmelCase = torch.load(_a , lambda _a , _a : storage )
UpperCAmelCase = AbsSummarizer(_a , torch.device('''cpu''' ) , _a )
original.eval()
UpperCAmelCase = BertAbsSummarizer(_a , torch.device('''cpu''' ) )
new_model.eval()
# -------------------
# Convert the weights
# -------------------
logging.info('''convert the model''' )
new_model.bert.load_state_dict(original.bert.state_dict() )
new_model.decoder.load_state_dict(original.decoder.state_dict() )
new_model.generator.load_state_dict(original.generator.state_dict() )
# ----------------------------------
# Make sure the outpus are identical
# ----------------------------------
logging.info('''Make sure that the models\' outputs are identical''' )
UpperCAmelCase = BertTokenizer.from_pretrained('''bert-base-uncased''' )
# prepare the model inputs
UpperCAmelCase = tokenizer.encode('''This is sample éàalj\'-.''' )
encoder_input_ids.extend([tokenizer.pad_token_id] * (5_1_2 - len(_a )) )
UpperCAmelCase = torch.tensor(_a ).unsqueeze(0 )
UpperCAmelCase = tokenizer.encode('''This is sample 3 éàalj\'-.''' )
decoder_input_ids.extend([tokenizer.pad_token_id] * (5_1_2 - len(_a )) )
UpperCAmelCase = torch.tensor(_a ).unsqueeze(0 )
# failsafe to make sure the weights reset does not affect the
# loaded weights.
assert torch.max(torch.abs(original.generator[0].weight - new_model.generator[0].weight ) ) == 0
# forward pass
UpperCAmelCase = encoder_input_ids
UpperCAmelCase = decoder_input_ids
UpperCAmelCase = UpperCAmelCase = None
UpperCAmelCase = None
UpperCAmelCase = UpperCAmelCase = None
UpperCAmelCase = UpperCAmelCase = None
UpperCAmelCase = None
# The original model does not apply the geneator layer immediatly but rather in
# the beam search (where it combines softmax + linear layer). Since we already
# apply the softmax in our generation process we only apply the linear layer here.
# We make sure that the outputs of the full stack are identical
UpperCAmelCase = original(_a , _a , _a , _a , _a , _a , _a )[0]
UpperCAmelCase = original.generator(_a )
UpperCAmelCase = new_model(
_a , _a , _a , _a , _a )[0]
UpperCAmelCase = new_model.generator(_a )
UpperCAmelCase = torch.max(torch.abs(output_converted_model - output_original_model ) ).item()
print('''Maximum absolute difference beween weights: {:.2f}'''.format(_a ) )
UpperCAmelCase = torch.max(torch.abs(output_converted_generator - output_original_generator ) ).item()
print('''Maximum absolute difference beween weights: {:.2f}'''.format(_a ) )
UpperCAmelCase = torch.allclose(_a , _a , atol=1E-3 )
if are_identical:
logging.info('''all weights are equal up to 1e-3''' )
else:
raise ValueError('''the weights are different. The new model is likely different from the original one.''' )
# The model has been saved with torch.save(model) and this is bound to the exact
# directory structure. We save the state_dict instead.
logging.info('''saving the model\'s state dictionary''' )
torch.save(
new_model.state_dict() , '''./bertabs-finetuned-cnndm-extractive-abstractive-summarization/pytorch_model.bin''' )
if __name__ == "__main__":
A =argparse.ArgumentParser()
parser.add_argument(
'--bertabs_checkpoint_path',
default=None,
type=str,
required=True,
help='Path the official PyTorch dump.',
)
parser.add_argument(
'--pytorch_dump_folder_path',
default=None,
type=str,
required=True,
help='Path to the output PyTorch model.',
)
A =parser.parse_args()
convert_bertabs_checkpoints(
args.bertabs_checkpoint_path,
args.pytorch_dump_folder_path,
)
| 34 | import argparse
import torch
from transformers import BertConfig, BertForPreTraining, load_tf_weights_in_bert
from transformers.utils import logging
logging.set_verbosity_info()
def lowercase_ ( _lowerCamelCase : str , _lowerCamelCase : List[Any] , _lowerCamelCase : Dict):
# Initialise PyTorch model
lowercase__ : List[str] = BertConfig.from_json_file(_lowerCamelCase)
print(f'''Building PyTorch model from configuration: {config}''')
lowercase__ : Optional[Any] = BertForPreTraining(_lowerCamelCase)
# Load weights from tf checkpoint
load_tf_weights_in_bert(_lowerCamelCase , _lowerCamelCase , _lowerCamelCase)
# Save pytorch-model
print(f'''Save PyTorch model to {pytorch_dump_path}''')
torch.save(model.state_dict() , _lowerCamelCase)
if __name__ == "__main__":
UpperCamelCase = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
'''--tf_checkpoint_path''', default=None, type=str, required=True, help='''Path to the TensorFlow checkpoint path.'''
)
parser.add_argument(
'''--bert_config_file''',
default=None,
type=str,
required=True,
help=(
'''The config json file corresponding to the pre-trained BERT model. \n'''
'''This specifies the model architecture.'''
),
)
parser.add_argument(
'''--pytorch_dump_path''', default=None, type=str, required=True, help='''Path to the output PyTorch model.'''
)
UpperCamelCase = parser.parse_args()
convert_tf_checkpoint_to_pytorch(args.tf_checkpoint_path, args.bert_config_file, args.pytorch_dump_path)
| 87 | 0 |
'''simple docstring'''
from typing import Dict, List, Optional, Union
import numpy as np
from ...image_processing_utils import BaseImageProcessor, BatchFeature, get_size_dict
from ...image_transforms import (
center_crop,
get_resize_output_image_size,
normalize,
rescale,
resize,
to_channel_dimension_format,
)
from ...image_utils import (
IMAGENET_STANDARD_MEAN,
IMAGENET_STANDARD_STD,
ChannelDimension,
ImageInput,
PILImageResampling,
is_valid_image,
to_numpy_array,
valid_images,
)
from ...utils import TensorType, is_vision_available, logging
if is_vision_available():
import PIL
__a = logging.get_logger(__name__)
def __snake_case( _lowerCAmelCase ) -> List[List[ImageInput]]:
if isinstance(_lowerCAmelCase , (list, tuple) ) and isinstance(videos[0] , (list, tuple) ) and is_valid_image(videos[0][0] ):
return videos
elif isinstance(_lowerCAmelCase , (list, tuple) ) and is_valid_image(videos[0] ):
return [videos]
elif is_valid_image(_lowerCAmelCase ):
return [[videos]]
raise ValueError(f"Could not make batched video from {videos}" )
class UpperCAmelCase_ ( _a ):
"""simple docstring"""
lowercase = ["pixel_values"]
def __init__( self : str , snake_case_ : bool = True , snake_case_ : Dict[str, int] = None , snake_case_ : PILImageResampling = PILImageResampling.BILINEAR , snake_case_ : bool = True , snake_case_ : Dict[str, int] = None , snake_case_ : bool = True , snake_case_ : Union[int, float] = 1 / 255 , snake_case_ : bool = True , snake_case_ : Optional[Union[float, List[float]]] = None , snake_case_ : Optional[Union[float, List[float]]] = None , **snake_case_ : Union[str, Any] , ):
super().__init__(**snake_case_ )
snake_case__ : Dict = size if size is not None else {"""shortest_edge""": 224}
snake_case__ : Optional[int] = get_size_dict(snake_case_ , default_to_square=snake_case_ )
snake_case__ : List[Any] = crop_size if crop_size is not None else {"""height""": 224, """width""": 224}
snake_case__ : Dict = get_size_dict(snake_case_ , param_name="""crop_size""" )
snake_case__ : int = do_resize
snake_case__ : int = size
snake_case__ : Dict = do_center_crop
snake_case__ : List[str] = crop_size
snake_case__ : List[str] = resample
snake_case__ : Dict = do_rescale
snake_case__ : Tuple = rescale_factor
snake_case__ : Union[str, Any] = do_normalize
snake_case__ : Any = image_mean if image_mean is not None else IMAGENET_STANDARD_MEAN
snake_case__ : List[Any] = image_std if image_std is not None else IMAGENET_STANDARD_STD
def lowerCamelCase ( self : Tuple , snake_case_ : np.ndarray , snake_case_ : Dict[str, int] , snake_case_ : PILImageResampling = PILImageResampling.BILINEAR , snake_case_ : Optional[Union[str, ChannelDimension]] = None , **snake_case_ : List[str] , ):
snake_case__ : Optional[int] = get_size_dict(snake_case_ , default_to_square=snake_case_ )
if "shortest_edge" in size:
snake_case__ : int = get_resize_output_image_size(snake_case_ , size["""shortest_edge"""] , default_to_square=snake_case_ )
elif "height" in size and "width" in size:
snake_case__ : str = (size["""height"""], size["""width"""])
else:
raise ValueError(f"Size must have 'height' and 'width' or 'shortest_edge' as keys. Got {size.keys()}" )
return resize(snake_case_ , size=snake_case_ , resample=snake_case_ , data_format=snake_case_ , **snake_case_ )
def lowerCamelCase ( self : str , snake_case_ : np.ndarray , snake_case_ : Dict[str, int] , snake_case_ : Optional[Union[str, ChannelDimension]] = None , **snake_case_ : List[str] , ):
snake_case__ : Optional[Any] = get_size_dict(snake_case_ )
if "height" not in size or "width" not in size:
raise ValueError(f"Size must have 'height' and 'width' as keys. Got {size.keys()}" )
return center_crop(snake_case_ , size=(size["""height"""], size["""width"""]) , data_format=snake_case_ , **snake_case_ )
def lowerCamelCase ( self : Any , snake_case_ : np.ndarray , snake_case_ : Union[int, float] , snake_case_ : Optional[Union[str, ChannelDimension]] = None , **snake_case_ : str , ):
return rescale(snake_case_ , scale=snake_case_ , data_format=snake_case_ , **snake_case_ )
def lowerCamelCase ( self : Optional[int] , snake_case_ : np.ndarray , snake_case_ : Union[float, List[float]] , snake_case_ : Union[float, List[float]] , snake_case_ : Optional[Union[str, ChannelDimension]] = None , **snake_case_ : List[str] , ):
return normalize(snake_case_ , mean=snake_case_ , std=snake_case_ , data_format=snake_case_ , **snake_case_ )
def lowerCamelCase ( self : Any , snake_case_ : ImageInput , snake_case_ : bool = None , snake_case_ : Dict[str, int] = None , snake_case_ : PILImageResampling = None , snake_case_ : bool = None , snake_case_ : Dict[str, int] = None , snake_case_ : bool = None , snake_case_ : float = None , snake_case_ : bool = None , snake_case_ : Optional[Union[float, List[float]]] = None , snake_case_ : Optional[Union[float, List[float]]] = None , snake_case_ : Optional[ChannelDimension] = ChannelDimension.FIRST , ):
if do_resize and size is None or resample is None:
raise ValueError("""Size and resample must be specified if do_resize is True.""" )
if do_center_crop and crop_size is None:
raise ValueError("""Crop size must be specified if do_center_crop is True.""" )
if do_rescale and rescale_factor is None:
raise ValueError("""Rescale factor must be specified if do_rescale is True.""" )
if do_normalize and (image_mean is None or image_std is None):
raise ValueError("""Image mean and std must be specified if do_normalize is True.""" )
# All transformations expect numpy arrays.
snake_case__ : Union[str, Any] = to_numpy_array(snake_case_ )
if do_resize:
snake_case__ : Any = self.resize(image=snake_case_ , size=snake_case_ , resample=snake_case_ )
if do_center_crop:
snake_case__ : Dict = self.center_crop(snake_case_ , size=snake_case_ )
if do_rescale:
snake_case__ : Optional[Any] = self.rescale(image=snake_case_ , scale=snake_case_ )
if do_normalize:
snake_case__ : Any = self.normalize(image=snake_case_ , mean=snake_case_ , std=snake_case_ )
snake_case__ : List[Any] = to_channel_dimension_format(snake_case_ , snake_case_ )
return image
def lowerCamelCase ( self : List[str] , snake_case_ : ImageInput , snake_case_ : bool = None , snake_case_ : Dict[str, int] = None , snake_case_ : PILImageResampling = None , snake_case_ : bool = None , snake_case_ : Dict[str, int] = None , snake_case_ : bool = None , snake_case_ : float = None , snake_case_ : bool = None , snake_case_ : Optional[Union[float, List[float]]] = None , snake_case_ : Optional[Union[float, List[float]]] = None , snake_case_ : Optional[Union[str, TensorType]] = None , snake_case_ : ChannelDimension = ChannelDimension.FIRST , **snake_case_ : Optional[int] , ):
snake_case__ : List[str] = do_resize if do_resize is not None else self.do_resize
snake_case__ : str = resample if resample is not None else self.resample
snake_case__ : Optional[Any] = do_center_crop if do_center_crop is not None else self.do_center_crop
snake_case__ : Optional[int] = do_rescale if do_rescale is not None else self.do_rescale
snake_case__ : List[Any] = rescale_factor if rescale_factor is not None else self.rescale_factor
snake_case__ : Optional[Any] = do_normalize if do_normalize is not None else self.do_normalize
snake_case__ : str = image_mean if image_mean is not None else self.image_mean
snake_case__ : Union[str, Any] = image_std if image_std is not None else self.image_std
snake_case__ : List[str] = size if size is not None else self.size
snake_case__ : str = get_size_dict(snake_case_ , default_to_square=snake_case_ )
snake_case__ : List[str] = crop_size if crop_size is not None else self.crop_size
snake_case__ : str = get_size_dict(snake_case_ , param_name="""crop_size""" )
if not valid_images(snake_case_ ):
raise ValueError(
"""Invalid image type. Must be of type PIL.Image.Image, numpy.ndarray, """
"""torch.Tensor, tf.Tensor or jax.ndarray.""" )
snake_case__ : Tuple = make_batched(snake_case_ )
snake_case__ : int = [
[
self._preprocess_image(
image=snake_case_ , do_resize=snake_case_ , size=snake_case_ , resample=snake_case_ , do_center_crop=snake_case_ , crop_size=snake_case_ , do_rescale=snake_case_ , rescale_factor=snake_case_ , do_normalize=snake_case_ , image_mean=snake_case_ , image_std=snake_case_ , data_format=snake_case_ , )
for img in video
]
for video in videos
]
snake_case__ : Union[str, Any] = {"""pixel_values""": videos}
return BatchFeature(data=snake_case_ , tensor_type=snake_case_ )
| 35 | import asyncio
import os
import re
import sys
import tempfile
import unittest
from contextlib import contextmanager
from copy import deepcopy
from distutils.util import strtobool
from enum import Enum
from importlib.util import find_spec
from pathlib import Path
from unittest.mock import patch
import pyarrow as pa
import pytest
import requests
from packaging import version
from datasets import config
if config.PY_VERSION < version.parse('''3.8'''):
import importlib_metadata
else:
import importlib.metadata as importlib_metadata
def lowercase_ ( _lowerCamelCase : Any , _lowerCamelCase : List[str]=False):
try:
lowercase__ : Union[str, Any] = os.environ[key]
except KeyError:
# KEY isn't set, default to `default`.
lowercase__ : int = default
else:
# KEY is set, convert it to True or False.
try:
lowercase__ : Optional[int] = strtobool(_lowerCamelCase)
except ValueError:
# More values are supported, but let's keep the message simple.
raise ValueError(f'''If set, {key} must be yes or no.''')
return _value
UpperCamelCase = parse_flag_from_env('''RUN_SLOW''', default=False)
UpperCamelCase = parse_flag_from_env('''RUN_REMOTE''', default=False)
UpperCamelCase = parse_flag_from_env('''RUN_LOCAL''', default=True)
UpperCamelCase = parse_flag_from_env('''RUN_PACKAGED''', default=True)
# Compression
UpperCamelCase = pytest.mark.skipif(not config.LZ4_AVAILABLE, reason='''test requires lz4''')
UpperCamelCase = pytest.mark.skipif(not config.PY7ZR_AVAILABLE, reason='''test requires py7zr''')
UpperCamelCase = pytest.mark.skipif(not config.ZSTANDARD_AVAILABLE, reason='''test requires zstandard''')
# Audio
UpperCamelCase = pytest.mark.skipif(
# On Windows and OS X, soundfile installs sndfile
find_spec('''soundfile''') is None or version.parse(importlib_metadata.version('''soundfile''')) < version.parse('''0.12.0'''),
reason='''test requires sndfile>=0.12.1: \'pip install \"soundfile>=0.12.1\"\'; ''',
)
# Beam
UpperCamelCase = pytest.mark.skipif(
not config.BEAM_AVAILABLE or config.DILL_VERSION >= version.parse('''0.3.2'''),
reason='''test requires apache-beam and a compatible dill version''',
)
# Dill-cloudpickle compatibility
UpperCamelCase = pytest.mark.skipif(
config.DILL_VERSION <= version.parse('''0.3.2'''),
reason='''test requires dill>0.3.2 for cloudpickle compatibility''',
)
# Windows
UpperCamelCase = pytest.mark.skipif(
sys.platform == '''win32''',
reason='''test should not be run on Windows''',
)
def lowercase_ ( _lowerCamelCase : int):
try:
import faiss # noqa
except ImportError:
lowercase__ : Optional[Any] = unittest.skip("test requires faiss")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : int):
try:
import regex # noqa
except ImportError:
lowercase__ : List[Any] = unittest.skip("test requires regex")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : int):
try:
import elasticsearch # noqa
except ImportError:
lowercase__ : Optional[int] = unittest.skip("test requires elasticsearch")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : Union[str, Any]):
try:
import sqlalchemy # noqa
except ImportError:
lowercase__ : Optional[int] = unittest.skip("test requires sqlalchemy")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : int):
if not config.TORCH_AVAILABLE:
lowercase__ : Tuple = unittest.skip("test requires PyTorch")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : Tuple):
if not config.TF_AVAILABLE:
lowercase__ : Any = unittest.skip("test requires TensorFlow")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : Dict):
if not config.JAX_AVAILABLE:
lowercase__ : List[str] = unittest.skip("test requires JAX")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : int):
if not config.PIL_AVAILABLE:
lowercase__ : Dict = unittest.skip("test requires Pillow")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : Tuple):
try:
import transformers # noqa F401
except ImportError:
return unittest.skip("test requires transformers")(_lowerCamelCase)
else:
return test_case
def lowercase_ ( _lowerCamelCase : Optional[Any]):
try:
import tiktoken # noqa F401
except ImportError:
return unittest.skip("test requires tiktoken")(_lowerCamelCase)
else:
return test_case
def lowercase_ ( _lowerCamelCase : Dict):
try:
import spacy # noqa F401
except ImportError:
return unittest.skip("test requires spacy")(_lowerCamelCase)
else:
return test_case
def lowercase_ ( _lowerCamelCase : Optional[int]):
def _require_spacy_model(_lowerCamelCase : Optional[int]):
try:
import spacy # noqa F401
spacy.load(_lowerCamelCase)
except ImportError:
return unittest.skip("test requires spacy")(_lowerCamelCase)
except OSError:
return unittest.skip("test requires spacy model '{}'".format(_lowerCamelCase))(_lowerCamelCase)
else:
return test_case
return _require_spacy_model
def lowercase_ ( _lowerCamelCase : Dict):
try:
import pyspark # noqa F401
except ImportError:
return unittest.skip("test requires pyspark")(_lowerCamelCase)
else:
return test_case
def lowercase_ ( _lowerCamelCase : List[str]):
try:
import joblibspark # noqa F401
except ImportError:
return unittest.skip("test requires joblibspark")(_lowerCamelCase)
else:
return test_case
def lowercase_ ( _lowerCamelCase : Dict):
if not _run_slow_tests or _run_slow_tests == 0:
lowercase__ : Tuple = unittest.skip("test is slow")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : int):
if not _run_local_tests or _run_local_tests == 0:
lowercase__ : str = unittest.skip("test is local")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : Optional[int]):
if not _run_packaged_tests or _run_packaged_tests == 0:
lowercase__ : List[Any] = unittest.skip("test is packaged")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : Tuple):
if not _run_remote_tests or _run_remote_tests == 0:
lowercase__ : Union[str, Any] = unittest.skip("test requires remote")(_lowerCamelCase)
return test_case
def lowercase_ ( *_lowerCamelCase : str):
def decorate(cls : str):
for name, fn in cls.__dict__.items():
if callable(_lowerCamelCase) and name.startswith("test"):
for decorator in decorators:
lowercase__ : Optional[int] = decorator(_lowerCamelCase)
setattr(cls , _lowerCamelCase , _lowerCamelCase)
return cls
return decorate
class snake_case_ ( __A ):
pass
class snake_case_ ( __A ):
__A : List[Any] = 0
__A : str = 1
__A : int = 2
@contextmanager
def lowercase_ ( _lowerCamelCase : List[str]=OfflineSimulationMode.CONNECTION_FAILS , _lowerCamelCase : int=1E-16):
lowercase__ : int = requests.Session().request
def timeout_request(_lowerCamelCase : str , _lowerCamelCase : Dict , _lowerCamelCase : Dict , **_lowerCamelCase : str):
# Change the url to an invalid url so that the connection hangs
lowercase__ : Any = "https://10.255.255.1"
if kwargs.get("timeout") is None:
raise RequestWouldHangIndefinitelyError(
f'''Tried a call to {url} in offline mode with no timeout set. Please set a timeout.''')
lowercase__ : Dict = timeout
try:
return online_request(_lowerCamelCase , _lowerCamelCase , **_lowerCamelCase)
except Exception as e:
# The following changes in the error are just here to make the offline timeout error prettier
lowercase__ : Dict = url
lowercase__ : Union[str, Any] = e.args[0]
lowercase__ : Optional[Any] = (max_retry_error.args[0].replace("10.255.255.1" , f'''OfflineMock[{url}]'''),)
lowercase__ : int = (max_retry_error,)
raise
def raise_connection_error(_lowerCamelCase : Union[str, Any] , _lowerCamelCase : Optional[Any] , **_lowerCamelCase : Tuple):
raise requests.ConnectionError("Offline mode is enabled." , request=_lowerCamelCase)
if mode is OfflineSimulationMode.CONNECTION_FAILS:
with patch("requests.Session.send" , _lowerCamelCase):
yield
elif mode is OfflineSimulationMode.CONNECTION_TIMES_OUT:
# inspired from https://stackoverflow.com/a/904609
with patch("requests.Session.request" , _lowerCamelCase):
yield
elif mode is OfflineSimulationMode.HF_DATASETS_OFFLINE_SET_TO_1:
with patch("datasets.config.HF_DATASETS_OFFLINE" , _lowerCamelCase):
yield
else:
raise ValueError("Please use a value from the OfflineSimulationMode enum.")
@contextmanager
def lowercase_ ( *_lowerCamelCase : str , **_lowerCamelCase : Tuple):
lowercase__ : Dict = str(Path().resolve())
with tempfile.TemporaryDirectory(*_lowerCamelCase , **_lowerCamelCase) as tmp_dir:
try:
os.chdir(_lowerCamelCase)
yield
finally:
os.chdir(_lowerCamelCase)
@contextmanager
def lowercase_ ( ):
import gc
gc.collect()
lowercase__ : Union[str, Any] = pa.total_allocated_bytes()
yield
assert pa.total_allocated_bytes() - previous_allocated_memory > 0, "Arrow memory didn't increase."
@contextmanager
def lowercase_ ( ):
import gc
gc.collect()
lowercase__ : int = pa.total_allocated_bytes()
yield
assert pa.total_allocated_bytes() - previous_allocated_memory <= 0, "Arrow memory wasn't expected to increase."
def lowercase_ ( _lowerCamelCase : Optional[Any] , _lowerCamelCase : Optional[Any]):
return deepcopy(_lowerCamelCase).integers(0 , 100 , 10).tolist() == deepcopy(_lowerCamelCase).integers(0 , 100 , 10).tolist()
def lowercase_ ( _lowerCamelCase : str):
import decorator
from requests.exceptions import HTTPError
def _wrapper(_lowerCamelCase : str , *_lowerCamelCase : Dict , **_lowerCamelCase : Dict):
try:
return func(*_lowerCamelCase , **_lowerCamelCase)
except HTTPError as err:
if str(_lowerCamelCase).startswith("500") or str(_lowerCamelCase).startswith("502"):
pytest.xfail(str(_lowerCamelCase))
raise err
return decorator.decorator(_wrapper , _lowerCamelCase)
class snake_case_ :
def __init__( self : int , lowercase_ : Union[str, Any] , lowercase_ : Dict , lowercase_ : List[str] ) -> List[str]:
lowercase__ : Tuple = returncode
lowercase__ : int = stdout
lowercase__ : Union[str, Any] = stderr
async def lowercase_ ( _lowerCamelCase : List[str] , _lowerCamelCase : Dict):
while True:
lowercase__ : Optional[int] = await stream.readline()
if line:
callback(_lowerCamelCase)
else:
break
async def lowercase_ ( _lowerCamelCase : Optional[int] , _lowerCamelCase : Union[str, Any]=None , _lowerCamelCase : Optional[Any]=None , _lowerCamelCase : int=None , _lowerCamelCase : Optional[Any]=False , _lowerCamelCase : Tuple=False):
if echo:
print("\nRunning: " , " ".join(_lowerCamelCase))
lowercase__ : Optional[int] = await asyncio.create_subprocess_exec(
cmd[0] , *cmd[1:] , stdin=_lowerCamelCase , stdout=asyncio.subprocess.PIPE , stderr=asyncio.subprocess.PIPE , env=_lowerCamelCase , )
# note: there is a warning for a possible deadlock when using `wait` with huge amounts of data in the pipe
# https://docs.python.org/3/library/asyncio-subprocess.html#asyncio.asyncio.subprocess.Process.wait
#
# If it starts hanging, will need to switch to the following code. The problem is that no data
# will be seen until it's done and if it hangs for example there will be no debug info.
# out, err = await p.communicate()
# return _RunOutput(p.returncode, out, err)
lowercase__ : str = []
lowercase__ : List[str] = []
def tee(_lowerCamelCase : str , _lowerCamelCase : Optional[Any] , _lowerCamelCase : Union[str, Any] , _lowerCamelCase : Optional[int]=""):
lowercase__ : Optional[int] = line.decode("utf-8").rstrip()
sink.append(_lowerCamelCase)
if not quiet:
print(_lowerCamelCase , _lowerCamelCase , file=_lowerCamelCase)
# XXX: the timeout doesn't seem to make any difference here
await asyncio.wait(
[
_read_stream(p.stdout , lambda _lowerCamelCase: tee(_lowerCamelCase , _lowerCamelCase , sys.stdout , label="stdout:")),
_read_stream(p.stderr , lambda _lowerCamelCase: tee(_lowerCamelCase , _lowerCamelCase , sys.stderr , label="stderr:")),
] , timeout=_lowerCamelCase , )
return _RunOutput(await p.wait() , _lowerCamelCase , _lowerCamelCase)
def lowercase_ ( _lowerCamelCase : Optional[int] , _lowerCamelCase : List[str]=None , _lowerCamelCase : Dict=None , _lowerCamelCase : int=180 , _lowerCamelCase : Union[str, Any]=False , _lowerCamelCase : Optional[Any]=True):
lowercase__ : Any = asyncio.get_event_loop()
lowercase__ : Tuple = loop.run_until_complete(
_stream_subprocess(_lowerCamelCase , env=_lowerCamelCase , stdin=_lowerCamelCase , timeout=_lowerCamelCase , quiet=_lowerCamelCase , echo=_lowerCamelCase))
lowercase__ : int = " ".join(_lowerCamelCase)
if result.returncode > 0:
lowercase__ : Any = "\n".join(result.stderr)
raise RuntimeError(
f'''\'{cmd_str}\' failed with returncode {result.returncode}\n\n'''
f'''The combined stderr from workers follows:\n{stderr}''')
# check that the subprocess actually did run and produced some output, should the test rely on
# the remote side to do the testing
if not result.stdout and not result.stderr:
raise RuntimeError(f'''\'{cmd_str}\' produced no output.''')
return result
def lowercase_ ( ):
lowercase__ : List[str] = os.environ.get("PYTEST_XDIST_WORKER" , "gw0")
lowercase__ : str = re.sub(R"^gw" , "" , _lowerCamelCase , 0 , re.M)
return int(_lowerCamelCase)
def lowercase_ ( ):
lowercase__ : Union[str, Any] = 2_9500
lowercase__ : Optional[int] = pytest_xdist_worker_id()
return port + uniq_delta
| 87 | 0 |
import logging
import os
from typing import List, TextIO, Union
from conllu import parse_incr
from utils_ner import InputExample, Split, TokenClassificationTask
_snake_case = logging.getLogger(__name__)
class UpperCAmelCase_ ( a):
def __init__( self, __a=-1):
'''simple docstring'''
_lowerCAmelCase : Optional[int] = label_idx
def snake_case__ ( self, __a, __a):
'''simple docstring'''
if isinstance(__a, __a):
_lowerCAmelCase : Dict = mode.value
_lowerCAmelCase : Optional[int] = os.path.join(__a, f"{mode}.txt")
_lowerCAmelCase : Optional[int] = 1
_lowerCAmelCase : str = []
with open(__a, encoding="utf-8") as f:
_lowerCAmelCase : Any = []
_lowerCAmelCase : int = []
for line in f:
if line.startswith("-DOCSTART-") or line == "" or line == "\n":
if words:
examples.append(InputExample(guid=f"{mode}-{guid_index}", words=__a, labels=__a))
guid_index += 1
_lowerCAmelCase : List[Any] = []
_lowerCAmelCase : Any = []
else:
_lowerCAmelCase : int = line.split(" ")
words.append(splits[0])
if len(__a) > 1:
labels.append(splits[self.label_idx].replace("\n", ""))
else:
# Examples could have no label for mode = "test"
labels.append("O")
if words:
examples.append(InputExample(guid=f"{mode}-{guid_index}", words=__a, labels=__a))
return examples
def snake_case__ ( self, __a, __a, __a):
'''simple docstring'''
_lowerCAmelCase : Any = 0
for line in test_input_reader:
if line.startswith("-DOCSTART-") or line == "" or line == "\n":
writer.write(__a)
if not preds_list[example_id]:
example_id += 1
elif preds_list[example_id]:
_lowerCAmelCase : int = line.split()[0] + " " + preds_list[example_id].pop(0) + "\n"
writer.write(__a)
else:
logger.warning("Maximum sequence length exceeded: No prediction for '%s'.", line.split()[0])
def snake_case__ ( self, __a):
'''simple docstring'''
if path:
with open(__a, "r") as f:
_lowerCAmelCase : Dict = f.read().splitlines()
if "O" not in labels:
_lowerCAmelCase : List[Any] = ["O"] + labels
return labels
else:
return ["O", "B-MISC", "I-MISC", "B-PER", "I-PER", "B-ORG", "I-ORG", "B-LOC", "I-LOC"]
class UpperCAmelCase_ ( a):
def __init__( self):
'''simple docstring'''
super().__init__(label_idx=-2)
def snake_case__ ( self, __a):
'''simple docstring'''
if path:
with open(__a, "r") as f:
_lowerCAmelCase : Any = f.read().splitlines()
if "O" not in labels:
_lowerCAmelCase : Optional[Any] = ["O"] + labels
return labels
else:
return [
"O",
"B-ADVP",
"B-INTJ",
"B-LST",
"B-PRT",
"B-NP",
"B-SBAR",
"B-VP",
"B-ADJP",
"B-CONJP",
"B-PP",
"I-ADVP",
"I-INTJ",
"I-LST",
"I-PRT",
"I-NP",
"I-SBAR",
"I-VP",
"I-ADJP",
"I-CONJP",
"I-PP",
]
class UpperCAmelCase_ ( a):
def snake_case__ ( self, __a, __a):
'''simple docstring'''
if isinstance(__a, __a):
_lowerCAmelCase : int = mode.value
_lowerCAmelCase : List[str] = os.path.join(__a, f"{mode}.txt")
_lowerCAmelCase : Dict = 1
_lowerCAmelCase : Optional[int] = []
with open(__a, encoding="utf-8") as f:
for sentence in parse_incr(__a):
_lowerCAmelCase : List[str] = []
_lowerCAmelCase : Union[str, Any] = []
for token in sentence:
words.append(token["form"])
labels.append(token["upos"])
assert len(__a) == len(__a)
if words:
examples.append(InputExample(guid=f"{mode}-{guid_index}", words=__a, labels=__a))
guid_index += 1
return examples
def snake_case__ ( self, __a, __a, __a):
'''simple docstring'''
_lowerCAmelCase : List[Any] = 0
for sentence in parse_incr(__a):
_lowerCAmelCase : List[Any] = preds_list[example_id]
_lowerCAmelCase : Union[str, Any] = ""
for token in sentence:
out += f"{token['form']} ({token['upos']}|{s_p.pop(0)}) "
out += "\n"
writer.write(__a)
example_id += 1
def snake_case__ ( self, __a):
'''simple docstring'''
if path:
with open(__a, "r") as f:
return f.read().splitlines()
else:
return [
"ADJ",
"ADP",
"ADV",
"AUX",
"CCONJ",
"DET",
"INTJ",
"NOUN",
"NUM",
"PART",
"PRON",
"PROPN",
"PUNCT",
"SCONJ",
"SYM",
"VERB",
"X",
]
| 36 | import argparse
import json
from collections import OrderedDict
import torch
from huggingface_hub import cached_download, hf_hub_url
from transformers import AutoImageProcessor, CvtConfig, CvtForImageClassification
def lowercase_ ( _lowerCamelCase : int):
lowercase__ : int = []
embed.append(
(
f'''cvt.encoder.stages.{idx}.embedding.convolution_embeddings.projection.weight''',
f'''stage{idx}.patch_embed.proj.weight''',
))
embed.append(
(
f'''cvt.encoder.stages.{idx}.embedding.convolution_embeddings.projection.bias''',
f'''stage{idx}.patch_embed.proj.bias''',
))
embed.append(
(
f'''cvt.encoder.stages.{idx}.embedding.convolution_embeddings.normalization.weight''',
f'''stage{idx}.patch_embed.norm.weight''',
))
embed.append(
(
f'''cvt.encoder.stages.{idx}.embedding.convolution_embeddings.normalization.bias''',
f'''stage{idx}.patch_embed.norm.bias''',
))
return embed
def lowercase_ ( _lowerCamelCase : Optional[int] , _lowerCamelCase : int):
lowercase__ : Optional[Any] = []
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.convolution.weight''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_q.conv.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.weight''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.bias''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.bias''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.running_mean''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.running_mean''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.running_var''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.running_var''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.num_batches_tracked''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.num_batches_tracked''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.convolution.weight''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_k.conv.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.weight''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.bias''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.bias''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.running_mean''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.running_mean''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.running_var''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.running_var''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.num_batches_tracked''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.num_batches_tracked''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.convolution.weight''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_v.conv.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.weight''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.bias''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.bias''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.running_mean''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.running_mean''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.running_var''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.running_var''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.num_batches_tracked''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.num_batches_tracked''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_query.weight''',
f'''stage{idx}.blocks.{cnt}.attn.proj_q.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_query.bias''',
f'''stage{idx}.blocks.{cnt}.attn.proj_q.bias''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_key.weight''',
f'''stage{idx}.blocks.{cnt}.attn.proj_k.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_key.bias''',
f'''stage{idx}.blocks.{cnt}.attn.proj_k.bias''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_value.weight''',
f'''stage{idx}.blocks.{cnt}.attn.proj_v.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_value.bias''',
f'''stage{idx}.blocks.{cnt}.attn.proj_v.bias''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.output.dense.weight''',
f'''stage{idx}.blocks.{cnt}.attn.proj.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.output.dense.bias''',
f'''stage{idx}.blocks.{cnt}.attn.proj.bias''',
))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.intermediate.dense.weight''', f'''stage{idx}.blocks.{cnt}.mlp.fc1.weight'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.intermediate.dense.bias''', f'''stage{idx}.blocks.{cnt}.mlp.fc1.bias'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.output.dense.weight''', f'''stage{idx}.blocks.{cnt}.mlp.fc2.weight'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.output.dense.bias''', f'''stage{idx}.blocks.{cnt}.mlp.fc2.bias'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_before.weight''', f'''stage{idx}.blocks.{cnt}.norm1.weight'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_before.bias''', f'''stage{idx}.blocks.{cnt}.norm1.bias'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_after.weight''', f'''stage{idx}.blocks.{cnt}.norm2.weight'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_after.bias''', f'''stage{idx}.blocks.{cnt}.norm2.bias'''))
return attention_weights
def lowercase_ ( _lowerCamelCase : Optional[int]):
lowercase__ : Tuple = []
token.append((f'''cvt.encoder.stages.{idx}.cls_token''', "stage2.cls_token"))
return token
def lowercase_ ( ):
lowercase__ : List[str] = []
head.append(("layernorm.weight", "norm.weight"))
head.append(("layernorm.bias", "norm.bias"))
head.append(("classifier.weight", "head.weight"))
head.append(("classifier.bias", "head.bias"))
return head
def lowercase_ ( _lowerCamelCase : Union[str, Any] , _lowerCamelCase : Optional[int] , _lowerCamelCase : Optional[int] , _lowerCamelCase : Union[str, Any]):
lowercase__ : Optional[Any] = "imagenet-1k-id2label.json"
lowercase__ : List[str] = 1000
lowercase__ : Dict = "huggingface/label-files"
lowercase__ : List[Any] = num_labels
lowercase__ : Tuple = json.load(open(cached_download(hf_hub_url(_lowerCamelCase , _lowerCamelCase , repo_type="dataset")) , "r"))
lowercase__ : Tuple = {int(_lowerCamelCase): v for k, v in idalabel.items()}
lowercase__ : Any = idalabel
lowercase__ : List[Any] = {v: k for k, v in idalabel.items()}
lowercase__ : Optional[int] = CvtConfig(num_labels=_lowerCamelCase , idalabel=_lowerCamelCase , labelaid=_lowerCamelCase)
# For depth size 13 (13 = 1+2+10)
if cvt_model.rsplit("/" , 1)[-1][4:6] == "13":
lowercase__ : Any = [1, 2, 10]
# For depth size 21 (21 = 1+4+16)
elif cvt_model.rsplit("/" , 1)[-1][4:6] == "21":
lowercase__ : Tuple = [1, 4, 16]
# For wide cvt (similar to wide-resnet) depth size 24 (w24 = 2 + 2 20)
else:
lowercase__ : Union[str, Any] = [2, 2, 20]
lowercase__ : Optional[Any] = [3, 12, 16]
lowercase__ : Optional[Any] = [192, 768, 1024]
lowercase__ : Union[str, Any] = CvtForImageClassification(_lowerCamelCase)
lowercase__ : Tuple = AutoImageProcessor.from_pretrained("facebook/convnext-base-224-22k-1k")
lowercase__ : int = image_size
lowercase__ : Dict = torch.load(_lowerCamelCase , map_location=torch.device("cpu"))
lowercase__ : Any = OrderedDict()
lowercase__ : int = []
for idx in range(len(config.depth)):
if config.cls_token[idx]:
lowercase__ : Dict = list_of_state_dict + cls_token(_lowerCamelCase)
lowercase__ : List[str] = list_of_state_dict + embeddings(_lowerCamelCase)
for cnt in range(config.depth[idx]):
lowercase__ : Any = list_of_state_dict + attention(_lowerCamelCase , _lowerCamelCase)
lowercase__ : List[str] = list_of_state_dict + final()
for gg in list_of_state_dict:
print(_lowerCamelCase)
for i in range(len(_lowerCamelCase)):
lowercase__ : Dict = original_weights[list_of_state_dict[i][1]]
model.load_state_dict(_lowerCamelCase)
model.save_pretrained(_lowerCamelCase)
image_processor.save_pretrained(_lowerCamelCase)
# Download the weights from zoo: https://1drv.ms/u/s!AhIXJn_J-blW9RzF3rMW7SsLHa8h?e=blQ0Al
if __name__ == "__main__":
UpperCamelCase = argparse.ArgumentParser()
parser.add_argument(
'''--cvt_model''',
default='''cvt-w24''',
type=str,
help='''Name of the cvt model you\'d like to convert.''',
)
parser.add_argument(
'''--image_size''',
default=384,
type=int,
help='''Input Image Size''',
)
parser.add_argument(
'''--cvt_file_name''',
default=R'''cvtmodels\CvT-w24-384x384-IN-22k.pth''',
type=str,
help='''Input Image Size''',
)
parser.add_argument(
'''--pytorch_dump_folder_path''', default=None, type=str, help='''Path to the output PyTorch model directory.'''
)
UpperCamelCase = parser.parse_args()
convert_cvt_checkpoint(args.cvt_model, args.image_size, args.cvt_file_name, args.pytorch_dump_folder_path)
| 87 | 0 |
'''simple docstring'''
import argparse
import json
from pathlib import Path
import requests
import torch
from huggingface_hub import cached_download, hf_hub_download, hf_hub_url
from PIL import Image
from transformers import DetaConfig, DetaForObjectDetection, DetaImageProcessor, SwinConfig
from transformers.utils import logging
logging.set_verbosity_info()
_lowerCAmelCase = logging.get_logger(__name__)
def _SCREAMING_SNAKE_CASE ( UpperCamelCase ):
"""simple docstring"""
lowerCAmelCase__ : Union[str, Any] = SwinConfig(
embed_dim=192 , depths=(2, 2, 18, 2) , num_heads=(6, 12, 24, 48) , window_size=12 , out_features=["""stage2""", """stage3""", """stage4"""] , )
lowerCAmelCase__ : Union[str, Any] = DetaConfig(
backbone_config=UpperCamelCase , num_queries=900 , encoder_ffn_dim=2048 , decoder_ffn_dim=2048 , num_feature_levels=5 , assign_first_stage=UpperCamelCase , with_box_refine=UpperCamelCase , two_stage=UpperCamelCase , )
# set labels
lowerCAmelCase__ : int = """huggingface/label-files"""
if "o365" in model_name:
lowerCAmelCase__ : Optional[int] = 366
lowerCAmelCase__ : int = """object365-id2label.json"""
else:
lowerCAmelCase__ : List[str] = 91
lowerCAmelCase__ : int = """coco-detection-id2label.json"""
lowerCAmelCase__ : Union[str, Any] = num_labels
lowerCAmelCase__ : Tuple = json.load(open(cached_download(hf_hub_url(UpperCamelCase , UpperCamelCase , repo_type="""dataset""" ) ) , """r""" ) )
lowerCAmelCase__ : List[str] = {int(UpperCamelCase ): v for k, v in idalabel.items()}
lowerCAmelCase__ : Union[str, Any] = idalabel
lowerCAmelCase__ : Optional[Any] = {v: k for k, v in idalabel.items()}
return config
def _SCREAMING_SNAKE_CASE ( UpperCamelCase ):
"""simple docstring"""
lowerCAmelCase__ : Any = []
# stem
# fmt: off
rename_keys.append(("""backbone.0.body.patch_embed.proj.weight""", """model.backbone.model.embeddings.patch_embeddings.projection.weight""") )
rename_keys.append(("""backbone.0.body.patch_embed.proj.bias""", """model.backbone.model.embeddings.patch_embeddings.projection.bias""") )
rename_keys.append(("""backbone.0.body.patch_embed.norm.weight""", """model.backbone.model.embeddings.norm.weight""") )
rename_keys.append(("""backbone.0.body.patch_embed.norm.bias""", """model.backbone.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.0.body.layers.{i}.blocks.{j}.norm1.weight""", f"""model.backbone.model.encoder.layers.{i}.blocks.{j}.layernorm_before.weight""") )
rename_keys.append((f"""backbone.0.body.layers.{i}.blocks.{j}.norm1.bias""", f"""model.backbone.model.encoder.layers.{i}.blocks.{j}.layernorm_before.bias""") )
rename_keys.append((f"""backbone.0.body.layers.{i}.blocks.{j}.attn.relative_position_bias_table""", f"""model.backbone.model.encoder.layers.{i}.blocks.{j}.attention.self.relative_position_bias_table""") )
rename_keys.append((f"""backbone.0.body.layers.{i}.blocks.{j}.attn.relative_position_index""", f"""model.backbone.model.encoder.layers.{i}.blocks.{j}.attention.self.relative_position_index""") )
rename_keys.append((f"""backbone.0.body.layers.{i}.blocks.{j}.attn.proj.weight""", f"""model.backbone.model.encoder.layers.{i}.blocks.{j}.attention.output.dense.weight""") )
rename_keys.append((f"""backbone.0.body.layers.{i}.blocks.{j}.attn.proj.bias""", f"""model.backbone.model.encoder.layers.{i}.blocks.{j}.attention.output.dense.bias""") )
rename_keys.append((f"""backbone.0.body.layers.{i}.blocks.{j}.norm2.weight""", f"""model.backbone.model.encoder.layers.{i}.blocks.{j}.layernorm_after.weight""") )
rename_keys.append((f"""backbone.0.body.layers.{i}.blocks.{j}.norm2.bias""", f"""model.backbone.model.encoder.layers.{i}.blocks.{j}.layernorm_after.bias""") )
rename_keys.append((f"""backbone.0.body.layers.{i}.blocks.{j}.mlp.fc1.weight""", f"""model.backbone.model.encoder.layers.{i}.blocks.{j}.intermediate.dense.weight""") )
rename_keys.append((f"""backbone.0.body.layers.{i}.blocks.{j}.mlp.fc1.bias""", f"""model.backbone.model.encoder.layers.{i}.blocks.{j}.intermediate.dense.bias""") )
rename_keys.append((f"""backbone.0.body.layers.{i}.blocks.{j}.mlp.fc2.weight""", f"""model.backbone.model.encoder.layers.{i}.blocks.{j}.output.dense.weight""") )
rename_keys.append((f"""backbone.0.body.layers.{i}.blocks.{j}.mlp.fc2.bias""", f"""model.backbone.model.encoder.layers.{i}.blocks.{j}.output.dense.bias""") )
if i < 3:
rename_keys.append((f"""backbone.0.body.layers.{i}.downsample.reduction.weight""", f"""model.backbone.model.encoder.layers.{i}.downsample.reduction.weight""") )
rename_keys.append((f"""backbone.0.body.layers.{i}.downsample.norm.weight""", f"""model.backbone.model.encoder.layers.{i}.downsample.norm.weight""") )
rename_keys.append((f"""backbone.0.body.layers.{i}.downsample.norm.bias""", f"""model.backbone.model.encoder.layers.{i}.downsample.norm.bias""") )
rename_keys.append(("""backbone.0.body.norm1.weight""", """model.backbone.model.hidden_states_norms.stage2.weight""") )
rename_keys.append(("""backbone.0.body.norm1.bias""", """model.backbone.model.hidden_states_norms.stage2.bias""") )
rename_keys.append(("""backbone.0.body.norm2.weight""", """model.backbone.model.hidden_states_norms.stage3.weight""") )
rename_keys.append(("""backbone.0.body.norm2.bias""", """model.backbone.model.hidden_states_norms.stage3.bias""") )
rename_keys.append(("""backbone.0.body.norm3.weight""", """model.backbone.model.hidden_states_norms.stage4.weight""") )
rename_keys.append(("""backbone.0.body.norm3.bias""", """model.backbone.model.hidden_states_norms.stage4.bias""") )
# transformer encoder
for i in range(config.encoder_layers ):
rename_keys.append((f"""transformer.encoder.layers.{i}.self_attn.sampling_offsets.weight""", f"""model.encoder.layers.{i}.self_attn.sampling_offsets.weight""") )
rename_keys.append((f"""transformer.encoder.layers.{i}.self_attn.sampling_offsets.bias""", f"""model.encoder.layers.{i}.self_attn.sampling_offsets.bias""") )
rename_keys.append((f"""transformer.encoder.layers.{i}.self_attn.attention_weights.weight""", f"""model.encoder.layers.{i}.self_attn.attention_weights.weight""") )
rename_keys.append((f"""transformer.encoder.layers.{i}.self_attn.attention_weights.bias""", f"""model.encoder.layers.{i}.self_attn.attention_weights.bias""") )
rename_keys.append((f"""transformer.encoder.layers.{i}.self_attn.value_proj.weight""", f"""model.encoder.layers.{i}.self_attn.value_proj.weight""") )
rename_keys.append((f"""transformer.encoder.layers.{i}.self_attn.value_proj.bias""", f"""model.encoder.layers.{i}.self_attn.value_proj.bias""") )
rename_keys.append((f"""transformer.encoder.layers.{i}.self_attn.output_proj.weight""", f"""model.encoder.layers.{i}.self_attn.output_proj.weight""") )
rename_keys.append((f"""transformer.encoder.layers.{i}.self_attn.output_proj.bias""", f"""model.encoder.layers.{i}.self_attn.output_proj.bias""") )
rename_keys.append((f"""transformer.encoder.layers.{i}.norm1.weight""", f"""model.encoder.layers.{i}.self_attn_layer_norm.weight""") )
rename_keys.append((f"""transformer.encoder.layers.{i}.norm1.bias""", f"""model.encoder.layers.{i}.self_attn_layer_norm.bias""") )
rename_keys.append((f"""transformer.encoder.layers.{i}.linear1.weight""", f"""model.encoder.layers.{i}.fc1.weight""") )
rename_keys.append((f"""transformer.encoder.layers.{i}.linear1.bias""", f"""model.encoder.layers.{i}.fc1.bias""") )
rename_keys.append((f"""transformer.encoder.layers.{i}.linear2.weight""", f"""model.encoder.layers.{i}.fc2.weight""") )
rename_keys.append((f"""transformer.encoder.layers.{i}.linear2.bias""", f"""model.encoder.layers.{i}.fc2.bias""") )
rename_keys.append((f"""transformer.encoder.layers.{i}.norm2.weight""", f"""model.encoder.layers.{i}.final_layer_norm.weight""") )
rename_keys.append((f"""transformer.encoder.layers.{i}.norm2.bias""", f"""model.encoder.layers.{i}.final_layer_norm.bias""") )
# transformer decoder
for i in range(config.decoder_layers ):
rename_keys.append((f"""transformer.decoder.layers.{i}.cross_attn.sampling_offsets.weight""", f"""model.decoder.layers.{i}.encoder_attn.sampling_offsets.weight""") )
rename_keys.append((f"""transformer.decoder.layers.{i}.cross_attn.sampling_offsets.bias""", f"""model.decoder.layers.{i}.encoder_attn.sampling_offsets.bias""") )
rename_keys.append((f"""transformer.decoder.layers.{i}.cross_attn.attention_weights.weight""", f"""model.decoder.layers.{i}.encoder_attn.attention_weights.weight""") )
rename_keys.append((f"""transformer.decoder.layers.{i}.cross_attn.attention_weights.bias""", f"""model.decoder.layers.{i}.encoder_attn.attention_weights.bias""") )
rename_keys.append((f"""transformer.decoder.layers.{i}.cross_attn.value_proj.weight""", f"""model.decoder.layers.{i}.encoder_attn.value_proj.weight""") )
rename_keys.append((f"""transformer.decoder.layers.{i}.cross_attn.value_proj.bias""", f"""model.decoder.layers.{i}.encoder_attn.value_proj.bias""") )
rename_keys.append((f"""transformer.decoder.layers.{i}.cross_attn.output_proj.weight""", f"""model.decoder.layers.{i}.encoder_attn.output_proj.weight""") )
rename_keys.append((f"""transformer.decoder.layers.{i}.cross_attn.output_proj.bias""", f"""model.decoder.layers.{i}.encoder_attn.output_proj.bias""") )
rename_keys.append((f"""transformer.decoder.layers.{i}.norm1.weight""", f"""model.decoder.layers.{i}.encoder_attn_layer_norm.weight""") )
rename_keys.append((f"""transformer.decoder.layers.{i}.norm1.bias""", f"""model.decoder.layers.{i}.encoder_attn_layer_norm.bias""") )
rename_keys.append((f"""transformer.decoder.layers.{i}.self_attn.out_proj.weight""", f"""model.decoder.layers.{i}.self_attn.out_proj.weight""") )
rename_keys.append((f"""transformer.decoder.layers.{i}.self_attn.out_proj.bias""", f"""model.decoder.layers.{i}.self_attn.out_proj.bias""") )
rename_keys.append((f"""transformer.decoder.layers.{i}.norm2.weight""", f"""model.decoder.layers.{i}.self_attn_layer_norm.weight""") )
rename_keys.append((f"""transformer.decoder.layers.{i}.norm2.bias""", f"""model.decoder.layers.{i}.self_attn_layer_norm.bias""") )
rename_keys.append((f"""transformer.decoder.layers.{i}.linear1.weight""", f"""model.decoder.layers.{i}.fc1.weight""") )
rename_keys.append((f"""transformer.decoder.layers.{i}.linear1.bias""", f"""model.decoder.layers.{i}.fc1.bias""") )
rename_keys.append((f"""transformer.decoder.layers.{i}.linear2.weight""", f"""model.decoder.layers.{i}.fc2.weight""") )
rename_keys.append((f"""transformer.decoder.layers.{i}.linear2.bias""", f"""model.decoder.layers.{i}.fc2.bias""") )
rename_keys.append((f"""transformer.decoder.layers.{i}.norm3.weight""", f"""model.decoder.layers.{i}.final_layer_norm.weight""") )
rename_keys.append((f"""transformer.decoder.layers.{i}.norm3.bias""", f"""model.decoder.layers.{i}.final_layer_norm.bias""") )
# fmt: on
return rename_keys
def _SCREAMING_SNAKE_CASE ( UpperCamelCase , UpperCamelCase , UpperCamelCase ):
"""simple docstring"""
lowerCAmelCase__ : Union[str, Any] = dct.pop(UpperCamelCase )
lowerCAmelCase__ : Dict = val
def _SCREAMING_SNAKE_CASE ( UpperCamelCase , UpperCamelCase ):
"""simple docstring"""
lowerCAmelCase__ : List[Any] = [int(backbone_config.embed_dim * 2**i ) for i in range(len(backbone_config.depths ) )]
for i in range(len(backbone_config.depths ) ):
lowerCAmelCase__ : 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)
lowerCAmelCase__ : int = state_dict.pop(f"""backbone.0.body.layers.{i}.blocks.{j}.attn.qkv.weight""" )
lowerCAmelCase__ : Dict = state_dict.pop(f"""backbone.0.body.layers.{i}.blocks.{j}.attn.qkv.bias""" )
# next, add query, keys and values (in that order) to the state dict
lowerCAmelCase__ : Dict = in_proj_weight[:dim, :]
lowerCAmelCase__ : str = in_proj_bias[: dim]
lowerCAmelCase__ : int = in_proj_weight[
dim : dim * 2, :
]
lowerCAmelCase__ : Union[str, Any] = in_proj_bias[
dim : dim * 2
]
lowerCAmelCase__ : Tuple = in_proj_weight[
-dim :, :
]
lowerCAmelCase__ : Any = in_proj_bias[-dim :]
# fmt: on
def _SCREAMING_SNAKE_CASE ( UpperCamelCase , UpperCamelCase ):
"""simple docstring"""
lowerCAmelCase__ : Optional[int] = config.d_model
for i in range(config.decoder_layers ):
# read in weights + bias of input projection layer of self-attention
lowerCAmelCase__ : List[str] = state_dict.pop(f"""transformer.decoder.layers.{i}.self_attn.in_proj_weight""" )
lowerCAmelCase__ : Union[str, Any] = state_dict.pop(f"""transformer.decoder.layers.{i}.self_attn.in_proj_bias""" )
# next, add query, keys and values (in that order) to the state dict
lowerCAmelCase__ : Union[str, Any] = in_proj_weight[:hidden_size, :]
lowerCAmelCase__ : Dict = in_proj_bias[:hidden_size]
lowerCAmelCase__ : Tuple = in_proj_weight[
hidden_size : hidden_size * 2, :
]
lowerCAmelCase__ : Optional[Any] = in_proj_bias[hidden_size : hidden_size * 2]
lowerCAmelCase__ : Tuple = in_proj_weight[-hidden_size:, :]
lowerCAmelCase__ : str = in_proj_bias[-hidden_size:]
def _SCREAMING_SNAKE_CASE ( ):
"""simple docstring"""
lowerCAmelCase__ : str = """http://images.cocodataset.org/val2017/000000039769.jpg"""
lowerCAmelCase__ : Optional[Any] = Image.open(requests.get(UpperCamelCase , stream=UpperCamelCase ).raw )
return im
@torch.no_grad()
def _SCREAMING_SNAKE_CASE ( UpperCamelCase , UpperCamelCase , UpperCamelCase ):
"""simple docstring"""
lowerCAmelCase__ : Union[str, Any] = get_deta_config(UpperCamelCase )
# load original state dict
if model_name == "deta-swin-large":
lowerCAmelCase__ : Union[str, Any] = hf_hub_download(repo_id="""nielsr/deta-checkpoints""" , filename="""adet_swin_ft.pth""" )
elif model_name == "deta-swin-large-o365":
lowerCAmelCase__ : List[Any] = hf_hub_download(repo_id="""jozhang97/deta-swin-l-o365""" , filename="""deta_swin_pt_o365.pth""" )
else:
raise ValueError(f"""Model name {model_name} not supported""" )
lowerCAmelCase__ : str = torch.load(UpperCamelCase , map_location="""cpu""" )["""model"""]
# original state dict
for name, param in state_dict.items():
print(UpperCamelCase , param.shape )
# rename keys
lowerCAmelCase__ : Dict = create_rename_keys(UpperCamelCase )
for src, dest in rename_keys:
rename_key(UpperCamelCase , UpperCamelCase , UpperCamelCase )
read_in_swin_q_k_v(UpperCamelCase , config.backbone_config )
read_in_decoder_q_k_v(UpperCamelCase , UpperCamelCase )
# fix some prefixes
for key in state_dict.copy().keys():
if "transformer.decoder.class_embed" in key or "transformer.decoder.bbox_embed" in key:
lowerCAmelCase__ : Dict = state_dict.pop(UpperCamelCase )
lowerCAmelCase__ : Union[str, Any] = val
if "input_proj" in key:
lowerCAmelCase__ : str = state_dict.pop(UpperCamelCase )
lowerCAmelCase__ : Any = val
if "level_embed" in key or "pos_trans" in key or "pix_trans" in key or "enc_output" in key:
lowerCAmelCase__ : Any = state_dict.pop(UpperCamelCase )
lowerCAmelCase__ : Tuple = val
# finally, create HuggingFace model and load state dict
lowerCAmelCase__ : Dict = DetaForObjectDetection(UpperCamelCase )
model.load_state_dict(UpperCamelCase )
model.eval()
lowerCAmelCase__ : Optional[Any] = """cuda""" if torch.cuda.is_available() else """cpu"""
model.to(UpperCamelCase )
# load image processor
lowerCAmelCase__ : List[Any] = DetaImageProcessor(format="""coco_detection""" )
# verify our conversion on image
lowerCAmelCase__ : List[Any] = prepare_img()
lowerCAmelCase__ : Optional[Any] = processor(images=UpperCamelCase , return_tensors="""pt""" )
lowerCAmelCase__ : int = encoding["""pixel_values"""]
lowerCAmelCase__ : List[Any] = model(pixel_values.to(UpperCamelCase ) )
# verify logits
print("""Logits:""" , outputs.logits[0, :3, :3] )
print("""Boxes:""" , outputs.pred_boxes[0, :3, :3] )
if model_name == "deta-swin-large":
lowerCAmelCase__ : Any = torch.tensor(
[[-7.6308, -2.8485, -5.3737], [-7.2037, -4.5505, -4.8027], [-7.2943, -4.2611, -4.6617]] )
lowerCAmelCase__ : Optional[Any] = torch.tensor([[0.4987, 0.4969, 0.9999], [0.2549, 0.5498, 0.4805], [0.5498, 0.2757, 0.0569]] )
elif model_name == "deta-swin-large-o365":
lowerCAmelCase__ : int = torch.tensor(
[[-8.0122, -3.5720, -4.9717], [-8.1547, -3.6886, -4.6389], [-7.6610, -3.6194, -5.0134]] )
lowerCAmelCase__ : Union[str, Any] = torch.tensor([[0.2523, 0.5549, 0.4881], [0.7715, 0.4149, 0.4601], [0.5503, 0.2753, 0.0575]] )
assert torch.allclose(outputs.logits[0, :3, :3] , expected_logits.to(UpperCamelCase ) , atol=1e-4 )
assert torch.allclose(outputs.pred_boxes[0, :3, :3] , expected_boxes.to(UpperCamelCase ) , atol=1e-4 )
print("""Everything ok!""" )
if pytorch_dump_folder_path:
# Save model and processor
logger.info(f"""Saving PyTorch model and processor to {pytorch_dump_folder_path}...""" )
Path(UpperCamelCase ).mkdir(exist_ok=UpperCamelCase )
model.save_pretrained(UpperCamelCase )
processor.save_pretrained(UpperCamelCase )
# Push to hub
if push_to_hub:
print("""Pushing model and processor to hub...""" )
model.push_to_hub(f"""jozhang97/{model_name}""" )
processor.push_to_hub(f"""jozhang97/{model_name}""" )
if __name__ == "__main__":
_lowerCAmelCase = argparse.ArgumentParser()
parser.add_argument(
'''--model_name''',
type=str,
default='''deta-swin-large''',
choices=['''deta-swin-large''', '''deta-swin-large-o365'''],
help='''Name of the model you\'d like to convert.''',
)
parser.add_argument(
'''--pytorch_dump_folder_path''',
default=None,
type=str,
help='''Path to the folder to output PyTorch model.''',
)
parser.add_argument(
'''--push_to_hub''', action='''store_true''', help='''Whether or not to push the converted model to the 🤗 hub.'''
)
_lowerCAmelCase = parser.parse_args()
convert_deta_checkpoint(args.model_name, args.pytorch_dump_folder_path, args.push_to_hub)
| 37 | from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
UpperCamelCase = {
'''configuration_electra''': ['''ELECTRA_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''ElectraConfig''', '''ElectraOnnxConfig'''],
'''tokenization_electra''': ['''ElectraTokenizer'''],
}
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = ['''ElectraTokenizerFast''']
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = [
'''ELECTRA_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''ElectraForCausalLM''',
'''ElectraForMaskedLM''',
'''ElectraForMultipleChoice''',
'''ElectraForPreTraining''',
'''ElectraForQuestionAnswering''',
'''ElectraForSequenceClassification''',
'''ElectraForTokenClassification''',
'''ElectraModel''',
'''ElectraPreTrainedModel''',
'''load_tf_weights_in_electra''',
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = [
'''TF_ELECTRA_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''TFElectraForMaskedLM''',
'''TFElectraForMultipleChoice''',
'''TFElectraForPreTraining''',
'''TFElectraForQuestionAnswering''',
'''TFElectraForSequenceClassification''',
'''TFElectraForTokenClassification''',
'''TFElectraModel''',
'''TFElectraPreTrainedModel''',
]
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = [
'''FlaxElectraForCausalLM''',
'''FlaxElectraForMaskedLM''',
'''FlaxElectraForMultipleChoice''',
'''FlaxElectraForPreTraining''',
'''FlaxElectraForQuestionAnswering''',
'''FlaxElectraForSequenceClassification''',
'''FlaxElectraForTokenClassification''',
'''FlaxElectraModel''',
'''FlaxElectraPreTrainedModel''',
]
if TYPE_CHECKING:
from .configuration_electra import ELECTRA_PRETRAINED_CONFIG_ARCHIVE_MAP, ElectraConfig, ElectraOnnxConfig
from .tokenization_electra import ElectraTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_electra_fast import ElectraTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_electra import (
ELECTRA_PRETRAINED_MODEL_ARCHIVE_LIST,
ElectraForCausalLM,
ElectraForMaskedLM,
ElectraForMultipleChoice,
ElectraForPreTraining,
ElectraForQuestionAnswering,
ElectraForSequenceClassification,
ElectraForTokenClassification,
ElectraModel,
ElectraPreTrainedModel,
load_tf_weights_in_electra,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_electra import (
TF_ELECTRA_PRETRAINED_MODEL_ARCHIVE_LIST,
TFElectraForMaskedLM,
TFElectraForMultipleChoice,
TFElectraForPreTraining,
TFElectraForQuestionAnswering,
TFElectraForSequenceClassification,
TFElectraForTokenClassification,
TFElectraModel,
TFElectraPreTrainedModel,
)
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_electra import (
FlaxElectraForCausalLM,
FlaxElectraForMaskedLM,
FlaxElectraForMultipleChoice,
FlaxElectraForPreTraining,
FlaxElectraForQuestionAnswering,
FlaxElectraForSequenceClassification,
FlaxElectraForTokenClassification,
FlaxElectraModel,
FlaxElectraPreTrainedModel,
)
else:
import sys
UpperCamelCase = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
| 87 | 0 |
# Copyright 2021 The HuggingFace Team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
from pathlib import Path
import torch
from ...utils import is_npu_available, is_xpu_available
from .config_args import ClusterConfig, default_json_config_file
from .config_utils import SubcommandHelpFormatter
UpperCAmelCase_ : Any = '''Create a default config file for Accelerate with only a few flags set.'''
def SCREAMING_SNAKE_CASE_ ( __magic_name__ : Optional[int]="no" , __magic_name__ : str = default_json_config_file , __magic_name__ : bool = False ) -> str:
"""simple docstring"""
UpperCamelCase :Any = Path(__magic_name__ )
path.parent.mkdir(parents=__magic_name__ , exist_ok=__magic_name__ )
if path.exists():
print(
f"""Configuration already exists at {save_location}, will not override. Run `accelerate config` manually or pass a different `save_location`.""" )
return False
UpperCamelCase :Dict = mixed_precision.lower()
if mixed_precision not in ["no", "fp16", "bf16", "fp8"]:
raise ValueError(
f"""`mixed_precision` should be one of 'no', 'fp16', 'bf16', or 'fp8'. Received {mixed_precision}""" )
UpperCamelCase :Optional[Any] = {
"""compute_environment""": """LOCAL_MACHINE""",
"""mixed_precision""": mixed_precision,
}
if torch.cuda.is_available():
UpperCamelCase :Union[str, Any] = torch.cuda.device_count()
UpperCamelCase :List[Any] = num_gpus
UpperCamelCase :Dict = False
if num_gpus > 1:
UpperCamelCase :Any = """MULTI_GPU"""
else:
UpperCamelCase :Any = """NO"""
elif is_xpu_available() and use_xpu:
UpperCamelCase :Optional[Any] = torch.xpu.device_count()
UpperCamelCase :Optional[int] = num_xpus
UpperCamelCase :int = False
if num_xpus > 1:
UpperCamelCase :Union[str, Any] = """MULTI_XPU"""
else:
UpperCamelCase :Union[str, Any] = """NO"""
elif is_npu_available():
UpperCamelCase :List[Any] = torch.npu.device_count()
UpperCamelCase :Optional[Any] = num_npus
UpperCamelCase :Tuple = False
if num_npus > 1:
UpperCamelCase :Optional[Any] = """MULTI_NPU"""
else:
UpperCamelCase :List[Any] = """NO"""
else:
UpperCamelCase :Any = 0
UpperCamelCase :Optional[Any] = True
UpperCamelCase :Optional[Any] = 1
UpperCamelCase :List[str] = """NO"""
UpperCamelCase :int = ClusterConfig(**__magic_name__ )
config.to_json_file(__magic_name__ )
return path
def SCREAMING_SNAKE_CASE_ ( __magic_name__ : Dict , __magic_name__ : Tuple ) -> List[str]:
"""simple docstring"""
UpperCamelCase :Dict = parser.add_parser("""default""" , parents=__magic_name__ , help=__magic_name__ , formatter_class=__magic_name__ )
parser.add_argument(
"""--config_file""" , default=__magic_name__ , help=(
"""The path to use to store the config file. Will default to a file named default_config.yaml in the cache """
"""location, which is the content of the environment `HF_HOME` suffixed with 'accelerate', or if you don't have """
"""such an environment variable, your cache directory ('~/.cache' or the content of `XDG_CACHE_HOME`) suffixed """
"""with 'huggingface'."""
) , dest="""save_location""" , )
parser.add_argument(
"""--mixed_precision""" , choices=["""no""", """fp16""", """bf16"""] , type=__magic_name__ , help="""Whether or not to use mixed precision training. """
"""Choose between FP16 and BF16 (bfloat16) training. """
"""BF16 training is only supported on Nvidia Ampere GPUs and PyTorch 1.10 or later.""" , default="""no""" , )
parser.set_defaults(func=__magic_name__ )
return parser
def SCREAMING_SNAKE_CASE_ ( __magic_name__ : List[Any] ) -> List[str]:
"""simple docstring"""
UpperCamelCase :Optional[Any] = write_basic_config(args.mixed_precision , args.save_location )
if config_file:
print(f"""accelerate configuration saved at {config_file}""" )
| 38 | import json
import os
import unittest
from transformers import BatchEncoding, LEDTokenizer, LEDTokenizerFast
from transformers.models.led.tokenization_led import VOCAB_FILES_NAMES
from transformers.testing_utils import require_tokenizers, require_torch
from transformers.utils import cached_property
from ...test_tokenization_common import TokenizerTesterMixin
@require_tokenizers
class snake_case_ ( __A ,unittest.TestCase ):
__A : Union[str, Any] = LEDTokenizer
__A : Union[str, Any] = LEDTokenizerFast
__A : Optional[Any] = True
def __UpperCamelCase ( self : List[str] ) -> Union[str, Any]:
super().setUp()
lowercase__ : List[str] = [
"l",
"o",
"w",
"e",
"r",
"s",
"t",
"i",
"d",
"n",
"\u0120",
"\u0120l",
"\u0120n",
"\u0120lo",
"\u0120low",
"er",
"\u0120lowest",
"\u0120newer",
"\u0120wider",
"<unk>",
]
lowercase__ : Optional[int] = dict(zip(lowercase_ , range(len(lowercase_ ) ) ) )
lowercase__ : str = ["#version: 0.2", "\u0120 l", "\u0120l o", "\u0120lo w", "e r", ""]
lowercase__ : Tuple = {"unk_token": "<unk>"}
lowercase__ : Optional[Any] = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES["vocab_file"] )
lowercase__ : Dict = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES["merges_file"] )
with open(self.vocab_file , "w" , encoding="utf-8" ) as fp:
fp.write(json.dumps(lowercase_ ) + "\n" )
with open(self.merges_file , "w" , encoding="utf-8" ) as fp:
fp.write("\n".join(lowercase_ ) )
def __UpperCamelCase ( self : int , **lowercase_ : str ) -> List[Any]:
kwargs.update(self.special_tokens_map )
return self.tokenizer_class.from_pretrained(self.tmpdirname , **lowercase_ )
def __UpperCamelCase ( self : List[Any] , **lowercase_ : Any ) -> List[Any]:
kwargs.update(self.special_tokens_map )
return self.rust_tokenizer_class.from_pretrained(self.tmpdirname , **lowercase_ )
def __UpperCamelCase ( self : str , lowercase_ : Any ) -> Tuple:
return "lower newer", "lower newer"
@cached_property
def __UpperCamelCase ( self : Tuple ) -> Optional[Any]:
return LEDTokenizer.from_pretrained("allenai/led-base-16384" )
@cached_property
def __UpperCamelCase ( self : Tuple ) -> int:
return LEDTokenizerFast.from_pretrained("allenai/led-base-16384" )
@require_torch
def __UpperCamelCase ( self : int ) -> List[Any]:
lowercase__ : Union[str, Any] = ["A long paragraph for summarization.", "Another paragraph for summarization."]
lowercase__ : str = [0, 2_50, 2_51, 1_78_18, 13, 3_91_86, 19_38, 4, 2]
for tokenizer in [self.default_tokenizer, self.default_tokenizer_fast]:
lowercase__ : Dict = tokenizer(lowercase_ , max_length=len(lowercase_ ) , padding=lowercase_ , return_tensors="pt" )
self.assertIsInstance(lowercase_ , lowercase_ )
self.assertEqual((2, 9) , batch.input_ids.shape )
self.assertEqual((2, 9) , batch.attention_mask.shape )
lowercase__ : Union[str, Any] = batch.input_ids.tolist()[0]
self.assertListEqual(lowercase_ , lowercase_ )
@require_torch
def __UpperCamelCase ( self : List[str] ) -> Tuple:
lowercase__ : Dict = ["A long paragraph for summarization.", "Another paragraph for summarization."]
for tokenizer in [self.default_tokenizer, self.default_tokenizer_fast]:
lowercase__ : Optional[int] = tokenizer(lowercase_ , padding=lowercase_ , return_tensors="pt" )
self.assertIn("input_ids" , lowercase_ )
self.assertIn("attention_mask" , lowercase_ )
self.assertNotIn("labels" , lowercase_ )
self.assertNotIn("decoder_attention_mask" , lowercase_ )
@require_torch
def __UpperCamelCase ( self : Optional[Any] ) -> Any:
lowercase__ : Dict = [
"Summary of the text.",
"Another summary.",
]
for tokenizer in [self.default_tokenizer, self.default_tokenizer_fast]:
lowercase__ : Dict = tokenizer(text_target=lowercase_ , max_length=32 , padding="max_length" , return_tensors="pt" )
self.assertEqual(32 , targets["input_ids"].shape[1] )
@require_torch
def __UpperCamelCase ( self : Optional[int] ) -> Tuple:
for tokenizer in [self.default_tokenizer, self.default_tokenizer_fast]:
lowercase__ : int = tokenizer(
["I am a small frog" * 10_24, "I am a small frog"] , padding=lowercase_ , truncation=lowercase_ , return_tensors="pt" )
self.assertIsInstance(lowercase_ , lowercase_ )
self.assertEqual(batch.input_ids.shape , (2, 51_22) )
@require_torch
def __UpperCamelCase ( self : List[str] ) -> Any:
lowercase__ : Union[str, Any] = ["A long paragraph for summarization."]
lowercase__ : List[Any] = [
"Summary of the text.",
]
for tokenizer in [self.default_tokenizer, self.default_tokenizer_fast]:
lowercase__ : List[Any] = tokenizer(lowercase_ , return_tensors="pt" )
lowercase__ : Dict = tokenizer(text_target=lowercase_ , return_tensors="pt" )
lowercase__ : Optional[int] = inputs["input_ids"]
lowercase__ : str = targets["input_ids"]
self.assertTrue((input_ids[:, 0] == tokenizer.bos_token_id).all().item() )
self.assertTrue((labels[:, 0] == tokenizer.bos_token_id).all().item() )
self.assertTrue((input_ids[:, -1] == tokenizer.eos_token_id).all().item() )
self.assertTrue((labels[:, -1] == tokenizer.eos_token_id).all().item() )
@require_torch
def __UpperCamelCase ( self : Union[str, Any] ) -> Dict:
for tokenizer in [self.default_tokenizer, self.default_tokenizer_fast]:
lowercase__ : int = ["Summary of the text.", "Another summary."]
lowercase__ : List[str] = [[0, 0, 0, 0, 0, 0, 0], [0, 0, 0, 0, 0, -1, -1]]
lowercase__ : Tuple = tokenizer(lowercase_ , padding=lowercase_ )
lowercase__ : int = [[0] * len(lowercase_ ) for x in encoded_output["input_ids"]]
lowercase__ : Any = tokenizer.pad(lowercase_ )
self.assertSequenceEqual(outputs["global_attention_mask"] , lowercase_ )
def __UpperCamelCase ( self : int ) -> Union[str, Any]:
pass
def __UpperCamelCase ( self : int ) -> Optional[Any]:
for tokenizer, pretrained_name, kwargs in self.tokenizers_list:
with self.subTest(F'''{tokenizer.__class__.__name__} ({pretrained_name})''' ):
lowercase__ : List[Any] = self.rust_tokenizer_class.from_pretrained(lowercase_ , **lowercase_ )
lowercase__ : List[str] = self.tokenizer_class.from_pretrained(lowercase_ , **lowercase_ )
lowercase__ : List[Any] = "A, <mask> AllenNLP sentence."
lowercase__ : Tuple = tokenizer_r.encode_plus(lowercase_ , add_special_tokens=lowercase_ , return_token_type_ids=lowercase_ )
lowercase__ : List[str] = tokenizer_p.encode_plus(lowercase_ , add_special_tokens=lowercase_ , return_token_type_ids=lowercase_ )
self.assertEqual(sum(tokens_r["token_type_ids"] ) , sum(tokens_p["token_type_ids"] ) )
self.assertEqual(
sum(tokens_r["attention_mask"] ) / len(tokens_r["attention_mask"] ) , sum(tokens_p["attention_mask"] ) / len(tokens_p["attention_mask"] ) , )
lowercase__ : Any = tokenizer_r.convert_ids_to_tokens(tokens_r["input_ids"] )
lowercase__ : Optional[Any] = tokenizer_p.convert_ids_to_tokens(tokens_p["input_ids"] )
self.assertSequenceEqual(tokens_p["input_ids"] , [0, 2_50, 6, 5_02_64, 38_23, 4_87, 2_19_92, 36_45, 4, 2] )
self.assertSequenceEqual(tokens_r["input_ids"] , [0, 2_50, 6, 5_02_64, 38_23, 4_87, 2_19_92, 36_45, 4, 2] )
self.assertSequenceEqual(
lowercase_ , ["<s>", "A", ",", "<mask>", "ĠAllen", "N", "LP", "Ġsentence", ".", "</s>"] )
self.assertSequenceEqual(
lowercase_ , ["<s>", "A", ",", "<mask>", "ĠAllen", "N", "LP", "Ġsentence", ".", "</s>"] )
| 87 | 0 |
import argparse
import fairseq
import torch
from transformers import UniSpeechSatConfig, UniSpeechSatForCTC, UniSpeechSatForPreTraining, 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''',
'''encoder.layer_norm_for_extract''': '''layer_norm_for_extract''',
'''w2v_model.layer_norm''': '''feature_projection.layer_norm''',
'''quantizer.weight_proj''': '''quantizer.weight_proj''',
'''quantizer.vars''': '''quantizer.codevectors''',
'''project_q''': '''project_q''',
'''final_proj''': '''project_hid''',
'''w2v_encoder.proj''': '''lm_head''',
'''label_embs_concat''': '''label_embeddings_concat''',
'''mask_emb''': '''masked_spec_embed''',
'''spk_proj''': '''speaker_proj''',
}
_a = [
'''lm_head''',
'''quantizer.weight_proj''',
'''quantizer.codevectors''',
'''project_q''',
'''project_hid''',
'''label_embeddings_concat''',
'''speaker_proj''',
'''layer_norm_for_extract''',
]
def __A ( __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase )-> Union[str, Any]:
"""simple docstring"""
for attribute in key.split('.' ):
_UpperCAmelCase = getattr(__lowerCAmelCase , __lowerCAmelCase )
if weight_type is not None:
_UpperCAmelCase = getattr(__lowerCAmelCase , __lowerCAmelCase ).shape
else:
_UpperCAmelCase = hf_pointer.shape
if hf_shape != value.shape:
raise ValueError(
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 = value
elif weight_type == "weight_g":
_UpperCAmelCase = value
elif weight_type == "weight_v":
_UpperCAmelCase = value
elif weight_type == "bias":
_UpperCAmelCase = value
else:
_UpperCAmelCase = value
logger.info(F"""{key + "." + weight_type if weight_type is not None else ""} was initialized from {full_name}.""" )
def __A ( __lowerCAmelCase , __lowerCAmelCase )-> Optional[Any]:
"""simple docstring"""
_UpperCAmelCase = []
_UpperCAmelCase = fairseq_model.state_dict()
_UpperCAmelCase = hf_model.unispeech_sat.feature_extractor
for name, value in fairseq_dict.items():
_UpperCAmelCase = False
if "conv_layers" in name:
load_conv_layer(
__lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , __lowerCAmelCase , hf_model.config.feat_extract_norm == 'group' , )
_UpperCAmelCase = True
else:
for key, mapped_key in MAPPING.items():
_UpperCAmelCase = 'unispeech_sat.' + mapped_key if mapped_key not in TOP_LEVEL_KEYS else mapped_key
if key in name or key.split('w2v_model.' )[-1] == name.split('.' )[0]:
if "layer_norm_for_extract" in name and (".".join(name.split('.' )[:-1] ) != key):
# special case since naming is very similar
continue
_UpperCAmelCase = True
if "*" in mapped_key:
_UpperCAmelCase = name.split(__lowerCAmelCase )[0].split('.' )[-2]
_UpperCAmelCase = mapped_key.replace('*' , __lowerCAmelCase )
if "weight_g" in name:
_UpperCAmelCase = 'weight_g'
elif "weight_v" in name:
_UpperCAmelCase = 'weight_v'
elif "bias" in name:
_UpperCAmelCase = 'bias'
elif "weight" in name:
# TODO: don't match quantizer.weight_proj
_UpperCAmelCase = 'weight'
else:
_UpperCAmelCase = 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 )-> List[Any]:
"""simple docstring"""
_UpperCAmelCase = full_name.split('conv_layers.' )[-1]
_UpperCAmelCase = name.split('.' )
_UpperCAmelCase = int(items[0] )
_UpperCAmelCase = int(items[1] )
if type_id == 0:
if "bias" in name:
if value.shape != feature_extractor.conv_layers[layer_id].conv.bias.data.shape:
raise ValueError(
F"""{full_name} has size {value.shape}, but"""
F""" {feature_extractor.conv_layers[layer_id].conv.bias.data.shape} was found.""" )
_UpperCAmelCase = value
logger.info(F"""Feat extract conv layer {layer_id} was initialized from {full_name}.""" )
elif "weight" in name:
if value.shape != feature_extractor.conv_layers[layer_id].conv.weight.data.shape:
raise ValueError(
F"""{full_name} has size {value.shape}, but"""
F""" {feature_extractor.conv_layers[layer_id].conv.weight.data.shape} was found.""" )
_UpperCAmelCase = 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:
if value.shape != feature_extractor.conv_layers[layer_id].layer_norm.bias.data.shape:
raise ValueError(
F"""{full_name} has size {value.shape}, but"""
F""" {feature_extractor[layer_id].layer_norm.bias.data.shape} was found.""" )
_UpperCAmelCase = value
logger.info(F"""Feat extract layer norm weight of layer {layer_id} was initialized from {full_name}.""" )
elif "weight" in name:
if value.shape != feature_extractor.conv_layers[layer_id].layer_norm.weight.data.shape:
raise ValueError(
F"""{full_name} has size {value.shape}, but"""
F""" {feature_extractor[layer_id].layer_norm.weight.data.shape} was found.""" )
_UpperCAmelCase = 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 )-> int:
"""simple docstring"""
if config_path is not None:
_UpperCAmelCase = UniSpeechSatConfig.from_pretrained(__lowerCAmelCase )
else:
_UpperCAmelCase = UniSpeechSatConfig()
_UpperCAmelCase = ''
if is_finetuned:
_UpperCAmelCase = UniSpeechSatForCTC(__lowerCAmelCase )
else:
_UpperCAmelCase = UniSpeechSatForPreTraining(__lowerCAmelCase )
_UpperCAmelCase , _UpperCAmelCase , _UpperCAmelCase = fairseq.checkpoint_utils.load_model_ensemble_and_task(
[checkpoint_path] , arg_overrides={'data': '/'.join(dict_path.split('/' )[:-1] )} )
_UpperCAmelCase = model[0].eval()
recursively_load_weights(__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_unispeech_sat_checkpoint(
args.checkpoint_path, args.pytorch_dump_folder_path, args.config_path, args.dict_path, not args.not_finetuned
)
| 39 | import math
from typing import Any, Callable, List, Optional, Tuple, Union
import numpy as np
import torch
from ...models import TaFilmDecoder
from ...schedulers import DDPMScheduler
from ...utils import is_onnx_available, logging, randn_tensor
if is_onnx_available():
from ..onnx_utils import OnnxRuntimeModel
from ..pipeline_utils import AudioPipelineOutput, DiffusionPipeline
from .continous_encoder import SpectrogramContEncoder
from .notes_encoder import SpectrogramNotesEncoder
UpperCamelCase = logging.get_logger(__name__) # pylint: disable=invalid-name
UpperCamelCase = 256
class snake_case_ ( __A ):
__A : str = ["melgan"]
def __init__( self : str , lowercase_ : SpectrogramNotesEncoder , lowercase_ : SpectrogramContEncoder , lowercase_ : TaFilmDecoder , lowercase_ : DDPMScheduler , lowercase_ : OnnxRuntimeModel if is_onnx_available() else Any , ) -> None:
super().__init__()
# From MELGAN
lowercase__ : List[Any] = math.log(1E-5 ) # Matches MelGAN training.
lowercase__ : str = 4.0 # Largest value for most examples
lowercase__ : Any = 1_28
self.register_modules(
notes_encoder=lowercase_ , continuous_encoder=lowercase_ , decoder=lowercase_ , scheduler=lowercase_ , melgan=lowercase_ , )
def __UpperCamelCase ( self : Union[str, Any] , lowercase_ : Union[str, Any] , lowercase_ : List[str]=(-1.0, 1.0) , lowercase_ : Dict=False ) -> Optional[Any]:
lowercase__ , lowercase__ : int = output_range
if clip:
lowercase__ : Optional[Any] = torch.clip(lowercase_ , self.min_value , self.max_value )
# Scale to [0, 1].
lowercase__ : List[str] = (features - self.min_value) / (self.max_value - self.min_value)
# Scale to [min_out, max_out].
return zero_one * (max_out - min_out) + min_out
def __UpperCamelCase ( self : Optional[int] , lowercase_ : List[str] , lowercase_ : List[str]=(-1.0, 1.0) , lowercase_ : List[Any]=False ) -> Union[str, Any]:
lowercase__ , lowercase__ : Tuple = input_range
lowercase__ : Optional[Any] = torch.clip(lowercase_ , lowercase_ , lowercase_ ) if clip else outputs
# Scale to [0, 1].
lowercase__ : Union[str, Any] = (outputs - min_out) / (max_out - min_out)
# Scale to [self.min_value, self.max_value].
return zero_one * (self.max_value - self.min_value) + self.min_value
def __UpperCamelCase ( self : List[str] , lowercase_ : Any , lowercase_ : Optional[Any] , lowercase_ : Tuple ) -> List[str]:
lowercase__ : Optional[Any] = input_tokens > 0
lowercase__ , lowercase__ : int = self.notes_encoder(
encoder_input_tokens=lowercase_ , encoder_inputs_mask=lowercase_ )
lowercase__ , lowercase__ : List[Any] = self.continuous_encoder(
encoder_inputs=lowercase_ , encoder_inputs_mask=lowercase_ )
return [(tokens_encoded, tokens_mask), (continuous_encoded, continuous_mask)]
def __UpperCamelCase ( self : Optional[Any] , lowercase_ : Optional[int] , lowercase_ : Optional[int] , lowercase_ : str ) -> Tuple:
lowercase__ : Union[str, Any] = noise_time
if not torch.is_tensor(lowercase_ ):
lowercase__ : Optional[Any] = torch.tensor([timesteps] , dtype=torch.long , device=input_tokens.device )
elif torch.is_tensor(lowercase_ ) and len(timesteps.shape ) == 0:
lowercase__ : Optional[Any] = timesteps[None].to(input_tokens.device )
# broadcast to batch dimension in a way that's compatible with ONNX/Core ML
lowercase__ : int = timesteps * torch.ones(input_tokens.shape[0] , dtype=timesteps.dtype , device=timesteps.device )
lowercase__ : str = self.decoder(
encodings_and_masks=lowercase_ , decoder_input_tokens=lowercase_ , decoder_noise_time=lowercase_ )
return logits
@torch.no_grad()
def __call__( self : List[str] , lowercase_ : List[List[int]] , lowercase_ : Optional[torch.Generator] = None , lowercase_ : int = 1_00 , lowercase_ : bool = True , lowercase_ : str = "numpy" , lowercase_ : Optional[Callable[[int, int, torch.FloatTensor], None]] = None , lowercase_ : int = 1 , ) -> Union[AudioPipelineOutput, Tuple]:
if (callback_steps is None) or (
callback_steps is not None and (not isinstance(lowercase_ , lowercase_ ) or callback_steps <= 0)
):
raise ValueError(
F'''`callback_steps` has to be a positive integer but is {callback_steps} of type'''
F''' {type(lowercase_ )}.''' )
lowercase__ : str = np.zeros([1, TARGET_FEATURE_LENGTH, self.n_dims] , dtype=np.floataa )
lowercase__ : Optional[int] = np.zeros([1, 0, self.n_dims] , np.floataa )
lowercase__ : str = torch.ones((1, TARGET_FEATURE_LENGTH) , dtype=lowercase_ , device=self.device )
for i, encoder_input_tokens in enumerate(lowercase_ ):
if i == 0:
lowercase__ : Union[str, Any] = torch.from_numpy(pred_mel[:1].copy() ).to(
device=self.device , dtype=self.decoder.dtype )
# The first chunk has no previous context.
lowercase__ : List[str] = torch.zeros((1, TARGET_FEATURE_LENGTH) , dtype=lowercase_ , device=self.device )
else:
# The full song pipeline does not feed in a context feature, so the mask
# will be all 0s after the feature converter. Because we know we're
# feeding in a full context chunk from the previous prediction, set it
# to all 1s.
lowercase__ : str = ones
lowercase__ : str = self.scale_features(
lowercase_ , output_range=[-1.0, 1.0] , clip=lowercase_ )
lowercase__ : str = self.encode(
input_tokens=torch.IntTensor([encoder_input_tokens] ).to(device=self.device ) , continuous_inputs=lowercase_ , continuous_mask=lowercase_ , )
# Sample encoder_continuous_inputs shaped gaussian noise to begin loop
lowercase__ : List[str] = randn_tensor(
shape=encoder_continuous_inputs.shape , generator=lowercase_ , device=self.device , dtype=self.decoder.dtype , )
# set step values
self.scheduler.set_timesteps(lowercase_ )
# Denoising diffusion loop
for j, t in enumerate(self.progress_bar(self.scheduler.timesteps ) ):
lowercase__ : Optional[int] = self.decode(
encodings_and_masks=lowercase_ , input_tokens=lowercase_ , noise_time=t / self.scheduler.config.num_train_timesteps , )
# Compute previous output: x_t -> x_t-1
lowercase__ : Optional[Any] = self.scheduler.step(lowercase_ , lowercase_ , lowercase_ , generator=lowercase_ ).prev_sample
lowercase__ : Tuple = self.scale_to_features(lowercase_ , input_range=[-1.0, 1.0] )
lowercase__ : List[str] = mel[:1]
lowercase__ : Optional[int] = mel.cpu().float().numpy()
lowercase__ : str = np.concatenate([full_pred_mel, pred_mel[:1]] , axis=1 )
# call the callback, if provided
if callback is not None and i % callback_steps == 0:
callback(lowercase_ , lowercase_ )
logger.info("Generated segment" , lowercase_ )
if output_type == "numpy" and not is_onnx_available():
raise ValueError(
"Cannot return output in 'np' format if ONNX is not available. Make sure to have ONNX installed or set 'output_type' to 'mel'." )
elif output_type == "numpy" and self.melgan is None:
raise ValueError(
"Cannot return output in 'np' format if melgan component is not defined. Make sure to define `self.melgan` or set 'output_type' to 'mel'." )
if output_type == "numpy":
lowercase__ : Union[str, Any] = self.melgan(input_features=full_pred_mel.astype(np.floataa ) )
else:
lowercase__ : Dict = full_pred_mel
if not return_dict:
return (output,)
return AudioPipelineOutput(audios=lowercase_ )
| 87 | 0 |
"""simple docstring"""
import os
import shutil
import tempfile
from unittest import TestCase
from unittest.mock import patch
import numpy as np
from datasets import Dataset
from transformers.models.realm.configuration_realm import RealmConfig
from transformers.models.realm.retrieval_realm import _REALM_BLOCK_RECORDS_FILENAME, RealmRetriever
from transformers.models.realm.tokenization_realm import VOCAB_FILES_NAMES, RealmTokenizer
class _A ( _a ):
"""simple docstring"""
def __snake_case ( self : Union[str, Any]):
a : Any = tempfile.mkdtemp()
a : str = 5
# Realm tok
a : Dict = [
"[UNK]",
"[CLS]",
"[SEP]",
"[PAD]",
"[MASK]",
"test",
"question",
"this",
"is",
"the",
"first",
"second",
"third",
"fourth",
"fifth",
"record",
"want",
"##want",
"##ed",
"wa",
"un",
"runn",
"##ing",
",",
"low",
"lowest",
]
a : Tuple = os.path.join(self.tmpdirname , "realm_tokenizer")
os.makedirs(__UpperCAmelCase , exist_ok=__UpperCAmelCase)
a : Optional[Any] = os.path.join(__UpperCAmelCase , 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]))
a : Dict = os.path.join(self.tmpdirname , "realm_block_records")
os.makedirs(__UpperCAmelCase , exist_ok=__UpperCAmelCase)
def __snake_case ( self : int):
return RealmTokenizer.from_pretrained(os.path.join(self.tmpdirname , "realm_tokenizer"))
def __snake_case ( self : Dict):
shutil.rmtree(self.tmpdirname)
def __snake_case ( self : List[Any]):
a : Tuple = RealmConfig(num_block_records=self.num_block_records)
return config
def __snake_case ( self : Dict):
a : Dict = Dataset.from_dict(
{
"id": ["0", "1"],
"question": ["foo", "bar"],
"answers": [["Foo", "Bar"], ["Bar"]],
})
return dataset
def __snake_case ( self : Any):
a : List[Any] = np.array(
[
B"This is the first record",
B"This is the second record",
B"This is the third record",
B"This is the fourth record",
B"This is the fifth record",
B"This is a longer longer longer record",
] , dtype=__UpperCAmelCase , )
return block_records
def __snake_case ( self : List[str]):
a : Union[str, Any] = RealmRetriever(
block_records=self.get_dummy_block_records() , tokenizer=self.get_tokenizer() , )
return retriever
def __snake_case ( self : Optional[int]):
a : Union[str, Any] = self.get_config()
a : List[str] = self.get_dummy_retriever()
a : Optional[Any] = retriever.tokenizer
a : int = np.array([0, 3] , dtype="long")
a : List[str] = tokenizer(["Test question"]).input_ids
a : Union[str, Any] = tokenizer(
["the fourth"] , add_special_tokens=__UpperCAmelCase , return_token_type_ids=__UpperCAmelCase , return_attention_mask=__UpperCAmelCase , ).input_ids
a : List[str] = config.reader_seq_len
a , a , a , a : Optional[Any] = retriever(
__UpperCAmelCase , __UpperCAmelCase , answer_ids=__UpperCAmelCase , max_length=__UpperCAmelCase , return_tensors="np")
self.assertEqual(len(__UpperCAmelCase) , 2)
self.assertEqual(len(__UpperCAmelCase) , 2)
self.assertEqual(len(__UpperCAmelCase) , 2)
self.assertEqual(concat_inputs.input_ids.shape , (2, 10))
self.assertEqual(concat_inputs.attention_mask.shape , (2, 10))
self.assertEqual(concat_inputs.token_type_ids.shape , (2, 10))
self.assertEqual(concat_inputs.special_tokens_mask.shape , (2, 10))
self.assertEqual(
tokenizer.convert_ids_to_tokens(concat_inputs.input_ids[0]) , ["[CLS]", "test", "question", "[SEP]", "this", "is", "the", "first", "record", "[SEP]"] , )
self.assertEqual(
tokenizer.convert_ids_to_tokens(concat_inputs.input_ids[1]) , ["[CLS]", "test", "question", "[SEP]", "this", "is", "the", "fourth", "record", "[SEP]"] , )
def __snake_case ( self : str):
a : Union[str, Any] = self.get_config()
a : List[str] = self.get_dummy_retriever()
a : str = retriever.tokenizer
a : Any = np.array([0, 3, 5] , dtype="long")
a : Dict = tokenizer(["Test question"]).input_ids
a : List[Any] = tokenizer(
["the fourth", "longer longer"] , add_special_tokens=__UpperCAmelCase , return_token_type_ids=__UpperCAmelCase , return_attention_mask=__UpperCAmelCase , ).input_ids
a : List[Any] = config.reader_seq_len
a , a , a , a : Tuple = retriever(
__UpperCAmelCase , __UpperCAmelCase , answer_ids=__UpperCAmelCase , max_length=__UpperCAmelCase , return_tensors="np")
self.assertEqual([False, True, True] , __UpperCAmelCase)
self.assertEqual([[-1, -1, -1], [6, -1, -1], [6, 7, 8]] , __UpperCAmelCase)
self.assertEqual([[-1, -1, -1], [7, -1, -1], [7, 8, 9]] , __UpperCAmelCase)
def __snake_case ( self : Optional[Any]):
a : str = self.get_dummy_retriever()
retriever.save_pretrained(os.path.join(self.tmpdirname , "realm_block_records"))
# Test local path
a : Any = retriever.from_pretrained(os.path.join(self.tmpdirname , "realm_block_records"))
self.assertEqual(retriever.block_records[0] , B"This is the first record")
# Test mocked remote path
with patch("transformers.models.realm.retrieval_realm.hf_hub_download") as mock_hf_hub_download:
a : Dict = os.path.join(
os.path.join(self.tmpdirname , "realm_block_records") , _REALM_BLOCK_RECORDS_FILENAME)
a : Any = RealmRetriever.from_pretrained("google/realm-cc-news-pretrained-openqa")
self.assertEqual(retriever.block_records[0] , B"This is the first record")
| 40 | import unittest
from datasets import load_dataset
from transformers.pipelines import pipeline
from transformers.testing_utils import is_pipeline_test, nested_simplify, require_torch, slow
@is_pipeline_test
@require_torch
class snake_case_ ( unittest.TestCase ):
@require_torch
def __UpperCamelCase ( self : Optional[int] ) -> List[Any]:
lowercase__ : Union[str, Any] = pipeline(
task="zero-shot-audio-classification" , model="hf-internal-testing/tiny-clap-htsat-unfused" )
lowercase__ : List[str] = load_dataset("ashraq/esc50" )
lowercase__ : List[Any] = dataset["train"]["audio"][-1]["array"]
lowercase__ : Dict = audio_classifier(lowercase_ , candidate_labels=["Sound of a dog", "Sound of vaccum cleaner"] )
self.assertEqual(
nested_simplify(lowercase_ ) , [{"score": 0.5_01, "label": "Sound of a dog"}, {"score": 0.4_99, "label": "Sound of vaccum cleaner"}] , )
@unittest.skip("No models are available in TF" )
def __UpperCamelCase ( self : str ) -> Optional[int]:
pass
@slow
@require_torch
def __UpperCamelCase ( self : List[str] ) -> int:
lowercase__ : Tuple = pipeline(
task="zero-shot-audio-classification" , model="laion/clap-htsat-unfused" , )
# This is an audio of a dog
lowercase__ : Union[str, Any] = load_dataset("ashraq/esc50" )
lowercase__ : Tuple = dataset["train"]["audio"][-1]["array"]
lowercase__ : List[Any] = audio_classifier(lowercase_ , candidate_labels=["Sound of a dog", "Sound of vaccum cleaner"] )
self.assertEqual(
nested_simplify(lowercase_ ) , [
{"score": 0.9_99, "label": "Sound of a dog"},
{"score": 0.0_01, "label": "Sound of vaccum cleaner"},
] , )
lowercase__ : int = audio_classifier([audio] * 5 , candidate_labels=["Sound of a dog", "Sound of vaccum cleaner"] )
self.assertEqual(
nested_simplify(lowercase_ ) , [
[
{"score": 0.9_99, "label": "Sound of a dog"},
{"score": 0.0_01, "label": "Sound of vaccum cleaner"},
],
]
* 5 , )
lowercase__ : Tuple = audio_classifier(
[audio] * 5 , candidate_labels=["Sound of a dog", "Sound of vaccum cleaner"] , batch_size=5 )
self.assertEqual(
nested_simplify(lowercase_ ) , [
[
{"score": 0.9_99, "label": "Sound of a dog"},
{"score": 0.0_01, "label": "Sound of vaccum cleaner"},
],
]
* 5 , )
@unittest.skip("No models are available in TF" )
def __UpperCamelCase ( self : Union[str, Any] ) -> Dict:
pass
| 87 | 0 |
'''simple docstring'''
import json
import os
import shutil
import warnings
from argparse import ArgumentParser, Namespace
from pathlib import Path
from typing import List
from ..utils import logging
from . import BaseTransformersCLICommand
try:
from cookiecutter.main import cookiecutter
_A : Optional[Any] =True
except ImportError:
_A : Dict =False
_A : int =logging.get_logger(__name__) # pylint: disable=invalid-name
def SCREAMING_SNAKE_CASE_ (UpperCamelCase ) -> Tuple:
return AddNewModelCommand(args.testing , args.testing_file , path=args.path )
class _lowercase ( _lowercase ):
@staticmethod
def lowerCamelCase_ ( UpperCamelCase__: ArgumentParser ):
lowerCamelCase__ : Tuple = parser.add_parser("""add-new-model""" )
add_new_model_parser.add_argument("""--testing""" , action="""store_true""" , help="""If in testing mode.""" )
add_new_model_parser.add_argument("""--testing_file""" , type=UpperCamelCase__ , help="""Configuration file on which to run.""" )
add_new_model_parser.add_argument(
"""--path""" , type=UpperCamelCase__ , help="""Path to cookiecutter. Should only be used for testing purposes.""" )
add_new_model_parser.set_defaults(func=UpperCamelCase__ )
def __init__( self: int , UpperCamelCase__: bool , UpperCamelCase__: str , UpperCamelCase__: Tuple=None , *UpperCamelCase__: List[Any] ):
lowerCamelCase__ : List[str] = testing
lowerCamelCase__ : str = testing_file
lowerCamelCase__ : int = path
def lowerCamelCase_ ( self: List[str] ):
warnings.warn(
"""The command `transformers-cli add-new-model` is deprecated and will be removed in v5 of Transformers. """
"""It is not actively maintained anymore, so might give a result that won't pass all tests and quality """
"""checks, you should use `transformers-cli add-new-model-like` instead.""" )
if not _has_cookiecutter:
raise ImportError(
"""Model creation dependencies are required to use the `add_new_model` command. Install them by running """
"""the following at the root of your `transformers` clone:\n\n\t$ pip install -e .[modelcreation]\n""" )
# Ensure that there is no other `cookiecutter-template-xxx` directory in the current working directory
lowerCamelCase__ : Optional[Any] = [directory for directory in os.listdir() if """cookiecutter-template-""" == directory[:22]]
if len(UpperCamelCase__ ) > 0:
raise ValueError(
"""Several directories starting with `cookiecutter-template-` in current working directory. """
"""Please clean your directory by removing all folders starting with `cookiecutter-template-` or """
"""change your working directory.""" )
lowerCamelCase__ : Union[str, Any] = (
Path(UpperCamelCase__ ).parent.parent.parent.parent if self._path is None else Path(self._path ).parent.parent
)
lowerCamelCase__ : str = path_to_transformer_root / """templates""" / """adding_a_new_model"""
# Execute cookiecutter
if not self._testing:
cookiecutter(str(UpperCamelCase__ ) )
else:
with open(self._testing_file , """r""" ) as configuration_file:
lowerCamelCase__ : List[str] = json.load(UpperCamelCase__ )
cookiecutter(
str(path_to_cookiecutter if self._path is None else self._path ) , no_input=UpperCamelCase__ , extra_context=UpperCamelCase__ , )
lowerCamelCase__ : Dict = [directory for directory in os.listdir() if """cookiecutter-template-""" in directory[:22]][0]
# Retrieve configuration
with open(directory + """/configuration.json""" , """r""" ) as configuration_file:
lowerCamelCase__ : str = json.load(UpperCamelCase__ )
lowerCamelCase__ : Union[str, Any] = configuration["""lowercase_modelname"""]
lowerCamelCase__ : int = configuration["""generate_tensorflow_pytorch_and_flax"""]
os.remove(F'''{directory}/configuration.json''' )
lowerCamelCase__ : Any = """PyTorch""" in generate_tensorflow_pytorch_and_flax
lowerCamelCase__ : Optional[Any] = """TensorFlow""" in generate_tensorflow_pytorch_and_flax
lowerCamelCase__ : Optional[Any] = """Flax""" in generate_tensorflow_pytorch_and_flax
lowerCamelCase__ : List[Any] = F'''{path_to_transformer_root}/src/transformers/models/{lowercase_model_name}'''
os.makedirs(UpperCamelCase__ , exist_ok=UpperCamelCase__ )
os.makedirs(F'''{path_to_transformer_root}/tests/models/{lowercase_model_name}''' , exist_ok=UpperCamelCase__ )
# Tests require submodules as they have parent imports
with open(F'''{path_to_transformer_root}/tests/models/{lowercase_model_name}/__init__.py''' , """w""" ):
pass
shutil.move(
F'''{directory}/__init__.py''' , F'''{model_dir}/__init__.py''' , )
shutil.move(
F'''{directory}/configuration_{lowercase_model_name}.py''' , F'''{model_dir}/configuration_{lowercase_model_name}.py''' , )
def remove_copy_lines(UpperCamelCase__: Tuple ):
with open(UpperCamelCase__ , """r""" ) as f:
lowerCamelCase__ : Union[str, Any] = f.readlines()
with open(UpperCamelCase__ , """w""" ) as f:
for line in lines:
if "# Copied from transformers." not in line:
f.write(UpperCamelCase__ )
if output_pytorch:
if not self._testing:
remove_copy_lines(F'''{directory}/modeling_{lowercase_model_name}.py''' )
shutil.move(
F'''{directory}/modeling_{lowercase_model_name}.py''' , F'''{model_dir}/modeling_{lowercase_model_name}.py''' , )
shutil.move(
F'''{directory}/test_modeling_{lowercase_model_name}.py''' , F'''{path_to_transformer_root}/tests/models/{lowercase_model_name}/test_modeling_{lowercase_model_name}.py''' , )
else:
os.remove(F'''{directory}/modeling_{lowercase_model_name}.py''' )
os.remove(F'''{directory}/test_modeling_{lowercase_model_name}.py''' )
if output_tensorflow:
if not self._testing:
remove_copy_lines(F'''{directory}/modeling_tf_{lowercase_model_name}.py''' )
shutil.move(
F'''{directory}/modeling_tf_{lowercase_model_name}.py''' , F'''{model_dir}/modeling_tf_{lowercase_model_name}.py''' , )
shutil.move(
F'''{directory}/test_modeling_tf_{lowercase_model_name}.py''' , F'''{path_to_transformer_root}/tests/models/{lowercase_model_name}/test_modeling_tf_{lowercase_model_name}.py''' , )
else:
os.remove(F'''{directory}/modeling_tf_{lowercase_model_name}.py''' )
os.remove(F'''{directory}/test_modeling_tf_{lowercase_model_name}.py''' )
if output_flax:
if not self._testing:
remove_copy_lines(F'''{directory}/modeling_flax_{lowercase_model_name}.py''' )
shutil.move(
F'''{directory}/modeling_flax_{lowercase_model_name}.py''' , F'''{model_dir}/modeling_flax_{lowercase_model_name}.py''' , )
shutil.move(
F'''{directory}/test_modeling_flax_{lowercase_model_name}.py''' , F'''{path_to_transformer_root}/tests/models/{lowercase_model_name}/test_modeling_flax_{lowercase_model_name}.py''' , )
else:
os.remove(F'''{directory}/modeling_flax_{lowercase_model_name}.py''' )
os.remove(F'''{directory}/test_modeling_flax_{lowercase_model_name}.py''' )
shutil.move(
F'''{directory}/{lowercase_model_name}.md''' , F'''{path_to_transformer_root}/docs/source/en/model_doc/{lowercase_model_name}.md''' , )
shutil.move(
F'''{directory}/tokenization_{lowercase_model_name}.py''' , F'''{model_dir}/tokenization_{lowercase_model_name}.py''' , )
shutil.move(
F'''{directory}/tokenization_fast_{lowercase_model_name}.py''' , F'''{model_dir}/tokenization_{lowercase_model_name}_fast.py''' , )
from os import fdopen, remove
from shutil import copymode, move
from tempfile import mkstemp
def replace(UpperCamelCase__: str , UpperCamelCase__: str , UpperCamelCase__: List[str] ):
# Create temp file
lowerCamelCase__ , lowerCamelCase__ : Any = mkstemp()
lowerCamelCase__ : int = False
with fdopen(UpperCamelCase__ , """w""" ) as new_file:
with open(UpperCamelCase__ ) as old_file:
for line in old_file:
new_file.write(UpperCamelCase__ )
if line_to_copy_below in line:
lowerCamelCase__ : Tuple = True
for line_to_copy in lines_to_copy:
new_file.write(UpperCamelCase__ )
if not line_found:
raise ValueError(F'''Line {line_to_copy_below} was not found in file.''' )
# Copy the file permissions from the old file to the new file
copymode(UpperCamelCase__ , UpperCamelCase__ )
# Remove original file
remove(UpperCamelCase__ )
# Move new file
move(UpperCamelCase__ , UpperCamelCase__ )
def skip_units(UpperCamelCase__: Any ):
return (
("generating PyTorch" in line and not output_pytorch)
or ("generating TensorFlow" in line and not output_tensorflow)
or ("generating Flax" in line and not output_flax)
)
def replace_in_files(UpperCamelCase__: Tuple ):
with open(UpperCamelCase__ ) as datafile:
lowerCamelCase__ : Optional[int] = []
lowerCamelCase__ : Tuple = False
lowerCamelCase__ : List[str] = False
for line in datafile:
if "# To replace in: " in line and "##" not in line:
lowerCamelCase__ : Tuple = line.split("""\"""" )[1]
lowerCamelCase__ : Optional[Any] = skip_units(UpperCamelCase__ )
elif "# Below: " in line and "##" not in line:
lowerCamelCase__ : Tuple = line.split("""\"""" )[1]
lowerCamelCase__ : Optional[int] = skip_units(UpperCamelCase__ )
elif "# End." in line and "##" not in line:
if not skip_file and not skip_snippet:
replace(UpperCamelCase__ , UpperCamelCase__ , UpperCamelCase__ )
lowerCamelCase__ : Optional[Any] = []
elif "# Replace with" in line and "##" not in line:
lowerCamelCase__ : Union[str, Any] = []
elif "##" not in line:
lines_to_copy.append(UpperCamelCase__ )
remove(UpperCamelCase__ )
replace_in_files(F'''{directory}/to_replace_{lowercase_model_name}.py''' )
os.rmdir(UpperCamelCase__ )
| 41 | import operator
def lowercase_ ( _lowerCamelCase : list , _lowerCamelCase : bool = False , _lowerCamelCase : list | None = None):
lowercase__ : int = operator.lt if reverse else operator.gt
lowercase__ : str = solution or []
if not arr:
return solution
lowercase__ : List[str] = [arr.pop(0)]
for i, item in enumerate(_lowerCamelCase):
if _operator(_lowerCamelCase , sublist[-1]):
sublist.append(_lowerCamelCase)
arr.pop(_lowerCamelCase)
# merging sublist into solution list
if not solution:
solution.extend(_lowerCamelCase)
else:
while sublist:
lowercase__ : str = sublist.pop(0)
for i, xx in enumerate(_lowerCamelCase):
if not _operator(_lowerCamelCase , _lowerCamelCase):
solution.insert(_lowerCamelCase , _lowerCamelCase)
break
else:
solution.append(_lowerCamelCase)
strand_sort(_lowerCamelCase , _lowerCamelCase , _lowerCamelCase)
return solution
if __name__ == "__main__":
assert strand_sort([4, 3, 5, 1, 2]) == [1, 2, 3, 4, 5]
assert strand_sort([4, 3, 5, 1, 2], reverse=True) == [5, 4, 3, 2, 1]
| 87 | 0 |
'''simple docstring'''
def SCREAMING_SNAKE_CASE__ ( __A = 1_000_000 ) -> int:
_snake_case = [i - 1 for i in range(limit + 1 )]
for i in range(2 , limit + 1 ):
if phi[i] == i - 1:
for j in range(2 * i , limit + 1 , __A ):
phi[j] -= phi[j] // i
return sum(phi[2 : limit + 1] )
if __name__ == "__main__":
print(solution())
| 42 | import time
import warnings
from abc import ABC
from copy import deepcopy
from typing import Optional
import torch
from ..utils import add_start_docstrings, logging
UpperCamelCase = logging.get_logger(__name__)
UpperCamelCase = R'''
Args:
input_ids (`torch.LongTensor` of shape `(batch_size, sequence_length)`):
Indices of input sequence tokens in the vocabulary.
Indices can be obtained using [`AutoTokenizer`]. See [`PreTrainedTokenizer.encode`] and
[`PreTrainedTokenizer.__call__`] for details.
[What are input IDs?](../glossary#input-ids)
scores (`torch.FloatTensor` of shape `(batch_size, config.vocab_size)`):
Prediction scores of a language modeling head. These can be scores for each vocabulary token before SoftMax
or scores for each vocabulary token after SoftMax.
kwargs (`Dict[str, Any]`, *optional*):
Additional stopping criteria specific kwargs.
Return:
`bool`. `False` indicates we should continue, `True` indicates we should stop.
'''
class snake_case_ ( __A ):
@add_start_docstrings(lowercase_ )
def __call__( self : Optional[Any] , lowercase_ : torch.LongTensor , lowercase_ : torch.FloatTensor , **lowercase_ : List[str] ) -> bool:
raise NotImplementedError("StoppingCriteria needs to be subclassed" )
class snake_case_ ( __A ):
def __init__( self : Dict , lowercase_ : int , lowercase_ : Optional[int] = None ) -> List[str]:
lowercase__ : str = max_length
lowercase__ : Optional[int] = max_position_embeddings
@add_start_docstrings(lowercase_ )
def __call__( self : Tuple , lowercase_ : torch.LongTensor , lowercase_ : torch.FloatTensor , **lowercase_ : Union[str, Any] ) -> bool:
lowercase__ : str = input_ids.shape[-1]
lowercase__ : Any = cur_len >= self.max_length
if self.max_position_embeddings is not None and not is_done and cur_len >= self.max_position_embeddings:
logger.warning_once(
"This is a friendly reminder - the current text generation call will exceed the model's predefined "
F'''maximum length ({self.max_position_embeddings}). Depending on the model, you may observe '''
"exceptions, performance degradation, or nothing at all." )
return is_done
class snake_case_ ( __A ):
def __init__( self : Tuple , lowercase_ : int , lowercase_ : int ) -> List[str]:
warnings.warn(
"The class `MaxNewTokensCriteria` is deprecated. "
F'''Please use `MaxLengthCriteria(max_length={start_length + max_new_tokens})` '''
"with `max_length = start_length + max_new_tokens` instead." , lowercase_ , )
lowercase__ : Optional[int] = start_length
lowercase__ : str = max_new_tokens
lowercase__ : Tuple = start_length + max_new_tokens
@add_start_docstrings(lowercase_ )
def __call__( self : List[Any] , lowercase_ : torch.LongTensor , lowercase_ : torch.FloatTensor , **lowercase_ : Dict ) -> bool:
return input_ids.shape[-1] >= self.max_length
class snake_case_ ( __A ):
def __init__( self : Tuple , lowercase_ : float , lowercase_ : Optional[float] = None ) -> Dict:
lowercase__ : List[str] = max_time
lowercase__ : Tuple = time.time() if initial_timestamp is None else initial_timestamp
@add_start_docstrings(lowercase_ )
def __call__( self : int , lowercase_ : torch.LongTensor , lowercase_ : torch.FloatTensor , **lowercase_ : Union[str, Any] ) -> bool:
return time.time() - self.initial_timestamp > self.max_time
class snake_case_ ( __A ):
@add_start_docstrings(lowercase_ )
def __call__( self : str , lowercase_ : torch.LongTensor , lowercase_ : torch.FloatTensor , **lowercase_ : List[str] ) -> bool:
return any(criteria(lowercase_ , lowercase_ ) for criteria in self )
@property
def __UpperCamelCase ( self : Optional[Any] ) -> Optional[int]:
for stopping_criterium in self:
if isinstance(lowercase_ , lowercase_ ):
return stopping_criterium.max_length
elif isinstance(lowercase_ , lowercase_ ):
return stopping_criterium.max_length
return None
def lowercase_ ( _lowerCamelCase : StoppingCriteriaList , _lowerCamelCase : int):
lowercase__ : Optional[int] = stopping_criteria.max_length
lowercase__ : str = deepcopy(_lowerCamelCase)
if stopping_max_length is not None and stopping_max_length != max_length:
warnings.warn("You set different `max_length` for stopping criteria and `max_length` parameter" , _lowerCamelCase)
elif stopping_max_length is None:
new_stopping_criteria.append(MaxLengthCriteria(max_length=_lowerCamelCase))
return new_stopping_criteria
| 87 | 0 |
def lowerCamelCase ( SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ):
'''simple docstring'''
__UpperCamelCase :Any = ''''''
for word_or_phrase in separated:
if not isinstance(SCREAMING_SNAKE_CASE , SCREAMING_SNAKE_CASE ):
raise Exception('''join() accepts only strings to be joined''' )
joined += word_or_phrase + separator
return joined.strip(SCREAMING_SNAKE_CASE )
if __name__ == "__main__":
from doctest import testmod
testmod()
| 43 | from typing import Dict
import numpy as np
import torch
from . import residue_constants as rc
from .tensor_utils import tensor_tree_map, tree_map
def lowercase_ ( _lowerCamelCase : Dict[str, torch.Tensor]):
lowercase__ : Any = []
lowercase__ : Optional[int] = []
lowercase__ : Tuple = []
for rt in rc.restypes:
lowercase__ : Dict = rc.restype_name_to_atomaa_names[rc.restype_atoa[rt]]
restype_atomaa_to_atomaa_list.append([(rc.atom_order[name] if name else 0) for name in atom_names])
lowercase__ : str = {name: i for i, name in enumerate(_lowerCamelCase)}
restype_atomaa_to_atomaa_list.append(
[(atom_name_to_idxaa[name] if name in atom_name_to_idxaa else 0) for name in rc.atom_types])
restype_atomaa_mask_list.append([(1.0 if name else 0.0) for name in atom_names])
# Add dummy mapping for restype 'UNK'
restype_atomaa_to_atomaa_list.append([0] * 14)
restype_atomaa_to_atomaa_list.append([0] * 37)
restype_atomaa_mask_list.append([0.0] * 14)
lowercase__ : Union[str, Any] = torch.tensor(
_lowerCamelCase , dtype=torch.intaa , device=protein["aatype"].device , )
lowercase__ : str = torch.tensor(
_lowerCamelCase , dtype=torch.intaa , device=protein["aatype"].device , )
lowercase__ : List[str] = torch.tensor(
_lowerCamelCase , dtype=torch.floataa , device=protein["aatype"].device , )
lowercase__ : str = protein["aatype"].to(torch.long)
# create the mapping for (residx, atom14) --> atom37, i.e. an array
# with shape (num_res, 14) containing the atom37 indices for this protein
lowercase__ : Dict = restype_atomaa_to_atomaa[protein_aatype]
lowercase__ : str = restype_atomaa_mask[protein_aatype]
lowercase__ : List[Any] = residx_atomaa_mask
lowercase__ : Optional[Any] = residx_atomaa_to_atomaa.long()
# create the gather indices for mapping back
lowercase__ : str = restype_atomaa_to_atomaa[protein_aatype]
lowercase__ : str = residx_atomaa_to_atomaa.long()
# create the corresponding mask
lowercase__ : Optional[Any] = torch.zeros([21, 37] , dtype=torch.floataa , device=protein["aatype"].device)
for restype, restype_letter in enumerate(rc.restypes):
lowercase__ : Tuple = rc.restype_atoa[restype_letter]
lowercase__ : List[Any] = rc.residue_atoms[restype_name]
for atom_name in atom_names:
lowercase__ : Optional[int] = rc.atom_order[atom_name]
lowercase__ : Tuple = 1
lowercase__ : Dict = restype_atomaa_mask[protein_aatype]
lowercase__ : Any = residx_atomaa_mask
return protein
def lowercase_ ( _lowerCamelCase : Dict[str, torch.Tensor]):
lowercase__ : Tuple = tree_map(lambda _lowerCamelCase: torch.tensor(_lowerCamelCase , device=batch["aatype"].device) , _lowerCamelCase , np.ndarray)
lowercase__ : List[str] = tensor_tree_map(lambda _lowerCamelCase: np.array(_lowerCamelCase) , make_atomaa_masks(_lowerCamelCase))
return out
| 87 | 0 |
"""simple docstring"""
import gc
import math
import unittest
import torch
from diffusers import UNetaDModel
from diffusers.utils import floats_tensor, logging, slow, torch_all_close, torch_device
from diffusers.utils.testing_utils import enable_full_determinism
from .test_modeling_common import ModelTesterMixin, UNetTesterMixin
_a : Optional[int] = logging.get_logger(__name__)
enable_full_determinism()
class __A ( SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , unittest.TestCase ):
_UpperCamelCase : Optional[int] = UNetaDModel
_UpperCamelCase : int = "sample"
@property
def __A ( self ):
_lowerCAmelCase : Optional[int] = 4
_lowerCAmelCase : Optional[int] = 3
_lowerCAmelCase : List[str] = (32, 32)
_lowerCAmelCase : str = floats_tensor((batch_size, num_channels) + sizes ).to(a__ )
_lowerCAmelCase : Dict = torch.tensor([10] ).to(a__ )
return {"sample": noise, "timestep": time_step}
@property
def __A ( self ):
return (3, 32, 32)
@property
def __A ( self ):
return (3, 32, 32)
def __A ( self ):
_lowerCAmelCase : str = {
"""block_out_channels""": (32, 64),
"""down_block_types""": ("""DownBlock2D""", """AttnDownBlock2D"""),
"""up_block_types""": ("""AttnUpBlock2D""", """UpBlock2D"""),
"""attention_head_dim""": 3,
"""out_channels""": 3,
"""in_channels""": 3,
"""layers_per_block""": 2,
"""sample_size""": 32,
}
_lowerCAmelCase : int = self.dummy_input
return init_dict, inputs_dict
class __A ( SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , unittest.TestCase ):
_UpperCamelCase : Tuple = UNetaDModel
_UpperCamelCase : Dict = "sample"
@property
def __A ( self ):
_lowerCAmelCase : Optional[int] = 4
_lowerCAmelCase : int = 4
_lowerCAmelCase : Optional[int] = (32, 32)
_lowerCAmelCase : List[Any] = floats_tensor((batch_size, num_channels) + sizes ).to(a__ )
_lowerCAmelCase : int = torch.tensor([10] ).to(a__ )
return {"sample": noise, "timestep": time_step}
@property
def __A ( self ):
return (4, 32, 32)
@property
def __A ( self ):
return (4, 32, 32)
def __A ( self ):
_lowerCAmelCase : Dict = {
"""sample_size""": 32,
"""in_channels""": 4,
"""out_channels""": 4,
"""layers_per_block""": 2,
"""block_out_channels""": (32, 64),
"""attention_head_dim""": 32,
"""down_block_types""": ("""DownBlock2D""", """DownBlock2D"""),
"""up_block_types""": ("""UpBlock2D""", """UpBlock2D"""),
}
_lowerCAmelCase : int = self.dummy_input
return init_dict, inputs_dict
def __A ( self ):
_lowerCAmelCase , _lowerCAmelCase : List[str] = UNetaDModel.from_pretrained("""fusing/unet-ldm-dummy-update""" , output_loading_info=a__ )
self.assertIsNotNone(a__ )
self.assertEqual(len(loading_info["""missing_keys"""] ) , 0 )
model.to(a__ )
_lowerCAmelCase : Any = model(**self.dummy_input ).sample
assert image is not None, "Make sure output is not None"
@unittest.skipIf(torch_device != """cuda""" , """This test is supposed to run on GPU""" )
def __A ( self ):
_lowerCAmelCase , _lowerCAmelCase : Any = UNetaDModel.from_pretrained("""fusing/unet-ldm-dummy-update""" , output_loading_info=a__ )
model.to(a__ )
_lowerCAmelCase : Union[str, Any] = model(**self.dummy_input ).sample
assert image is not None, "Make sure output is not None"
@unittest.skipIf(torch_device != """cuda""" , """This test is supposed to run on GPU""" )
def __A ( self ):
# by defautl model loading will use accelerate as `low_cpu_mem_usage=True`
_lowerCAmelCase , _lowerCAmelCase : List[Any] = UNetaDModel.from_pretrained("""fusing/unet-ldm-dummy-update""" , output_loading_info=a__ )
model_accelerate.to(a__ )
model_accelerate.eval()
_lowerCAmelCase : int = torch.randn(
1 , model_accelerate.config.in_channels , model_accelerate.config.sample_size , model_accelerate.config.sample_size , generator=torch.manual_seed(0 ) , )
_lowerCAmelCase : Optional[int] = noise.to(a__ )
_lowerCAmelCase : Dict = torch.tensor([10] * noise.shape[0] ).to(a__ )
_lowerCAmelCase : Dict = model_accelerate(a__ , a__ )["""sample"""]
# two models don't need to stay in the device at the same time
del model_accelerate
torch.cuda.empty_cache()
gc.collect()
_lowerCAmelCase , _lowerCAmelCase : Union[str, Any] = UNetaDModel.from_pretrained(
"""fusing/unet-ldm-dummy-update""" , output_loading_info=a__ , low_cpu_mem_usage=a__ )
model_normal_load.to(a__ )
model_normal_load.eval()
_lowerCAmelCase : Dict = model_normal_load(a__ , a__ )["""sample"""]
assert torch_all_close(a__ , a__ , rtol=1e-3 )
def __A ( self ):
_lowerCAmelCase : Optional[Any] = UNetaDModel.from_pretrained("""fusing/unet-ldm-dummy-update""" )
model.eval()
model.to(a__ )
_lowerCAmelCase : List[Any] = torch.randn(
1 , model.config.in_channels , model.config.sample_size , model.config.sample_size , generator=torch.manual_seed(0 ) , )
_lowerCAmelCase : List[str] = noise.to(a__ )
_lowerCAmelCase : Any = torch.tensor([10] * noise.shape[0] ).to(a__ )
with torch.no_grad():
_lowerCAmelCase : Union[str, Any] = model(a__ , a__ ).sample
_lowerCAmelCase : int = output[0, -1, -3:, -3:].flatten().cpu()
# fmt: off
_lowerCAmelCase : Optional[int] = torch.tensor([-1_3.3_2_5_8, -2_0.1_1_0_0, -1_5.9_8_7_3, -1_7.6_6_1_7, -2_3.0_5_9_6, -1_7.9_4_1_9, -1_3.3_6_7_5, -1_6.1_8_8_9, -1_2.3_8_0_0] )
# fmt: on
self.assertTrue(torch_all_close(a__ , a__ , rtol=1e-3 ) )
class __A ( SCREAMING_SNAKE_CASE_ , SCREAMING_SNAKE_CASE_ , unittest.TestCase ):
_UpperCamelCase : List[str] = UNetaDModel
_UpperCamelCase : Any = "sample"
@property
def __A ( self , a__=(32, 32) ):
_lowerCAmelCase : Optional[int] = 4
_lowerCAmelCase : Dict = 3
_lowerCAmelCase : List[Any] = floats_tensor((batch_size, num_channels) + sizes ).to(a__ )
_lowerCAmelCase : Any = torch.tensor(batch_size * [10] ).to(dtype=torch.intaa , device=a__ )
return {"sample": noise, "timestep": time_step}
@property
def __A ( self ):
return (3, 32, 32)
@property
def __A ( self ):
return (3, 32, 32)
def __A ( self ):
_lowerCAmelCase : List[Any] = {
"""block_out_channels""": [32, 64, 64, 64],
"""in_channels""": 3,
"""layers_per_block""": 1,
"""out_channels""": 3,
"""time_embedding_type""": """fourier""",
"""norm_eps""": 1e-6,
"""mid_block_scale_factor""": math.sqrt(2.0 ),
"""norm_num_groups""": None,
"""down_block_types""": [
"""SkipDownBlock2D""",
"""AttnSkipDownBlock2D""",
"""SkipDownBlock2D""",
"""SkipDownBlock2D""",
],
"""up_block_types""": [
"""SkipUpBlock2D""",
"""SkipUpBlock2D""",
"""AttnSkipUpBlock2D""",
"""SkipUpBlock2D""",
],
}
_lowerCAmelCase : Optional[int] = self.dummy_input
return init_dict, inputs_dict
@slow
def __A ( self ):
_lowerCAmelCase , _lowerCAmelCase : Union[str, Any] = UNetaDModel.from_pretrained("""google/ncsnpp-celebahq-256""" , output_loading_info=a__ )
self.assertIsNotNone(a__ )
self.assertEqual(len(loading_info["""missing_keys"""] ) , 0 )
model.to(a__ )
_lowerCAmelCase : str = self.dummy_input
_lowerCAmelCase : Optional[Any] = floats_tensor((4, 3) + (256, 256) ).to(a__ )
_lowerCAmelCase : Any = noise
_lowerCAmelCase : str = model(**a__ )
assert image is not None, "Make sure output is not None"
@slow
def __A ( self ):
_lowerCAmelCase : Optional[Any] = UNetaDModel.from_pretrained("""google/ncsnpp-celebahq-256""" )
model.to(a__ )
_lowerCAmelCase : str = 4
_lowerCAmelCase : List[str] = 3
_lowerCAmelCase : Any = (256, 256)
_lowerCAmelCase : List[Any] = torch.ones((batch_size, num_channels) + sizes ).to(a__ )
_lowerCAmelCase : str = torch.tensor(batch_size * [1e-4] ).to(a__ )
with torch.no_grad():
_lowerCAmelCase : Optional[Any] = model(a__ , a__ ).sample
_lowerCAmelCase : Optional[Any] = output[0, -3:, -3:, -1].flatten().cpu()
# fmt: off
_lowerCAmelCase : int = torch.tensor([-4_8_4_2.8_6_9_1, -6_4_9_9.6_6_3_1, -3_8_0_0.1_9_5_3, -7_9_7_8.2_6_8_6, -1_0_9_8_0.7_1_2_9, -2_0_0_2_8.8_5_3_5, 8_1_4_8.2_8_2_2, 2_3_4_2.2_9_0_5, 5_6_7.7_6_0_8] )
# fmt: on
self.assertTrue(torch_all_close(a__ , a__ , rtol=1e-2 ) )
def __A ( self ):
_lowerCAmelCase : int = UNetaDModel.from_pretrained("""fusing/ncsnpp-ffhq-ve-dummy-update""" )
model.to(a__ )
_lowerCAmelCase : Union[str, Any] = 4
_lowerCAmelCase : Tuple = 3
_lowerCAmelCase : int = (32, 32)
_lowerCAmelCase : List[str] = torch.ones((batch_size, num_channels) + sizes ).to(a__ )
_lowerCAmelCase : List[Any] = torch.tensor(batch_size * [1e-4] ).to(a__ )
with torch.no_grad():
_lowerCAmelCase : int = model(a__ , a__ ).sample
_lowerCAmelCase : Tuple = output[0, -3:, -3:, -1].flatten().cpu()
# fmt: off
_lowerCAmelCase : Optional[Any] = torch.tensor([-0.0_3_2_5, -0.0_9_0_0, -0.0_8_6_9, -0.0_3_3_2, -0.0_7_2_5, -0.0_2_7_0, -0.0_1_0_1, 0.0_2_2_7, 0.0_2_5_6] )
# fmt: on
self.assertTrue(torch_all_close(a__ , a__ , rtol=1e-2 ) )
def __A ( self ):
# not required for this model
pass
| 44 | import unittest
from transformers import BigBirdConfig, is_flax_available
from transformers.testing_utils import require_flax, slow
from ...test_modeling_flax_common import FlaxModelTesterMixin, ids_tensor, random_attention_mask
if is_flax_available():
import jax
from transformers.models.big_bird.modeling_flax_big_bird import (
FlaxBigBirdForCausalLM,
FlaxBigBirdForMaskedLM,
FlaxBigBirdForMultipleChoice,
FlaxBigBirdForPreTraining,
FlaxBigBirdForQuestionAnswering,
FlaxBigBirdForSequenceClassification,
FlaxBigBirdForTokenClassification,
FlaxBigBirdModel,
)
class snake_case_ ( unittest.TestCase ):
def __init__( self : Tuple , lowercase_ : List[Any] , lowercase_ : Union[str, Any]=2 , lowercase_ : Union[str, Any]=56 , lowercase_ : Tuple=True , lowercase_ : Optional[Any]=True , lowercase_ : Optional[Any]=True , lowercase_ : int=True , lowercase_ : Any=99 , lowercase_ : int=32 , lowercase_ : str=2 , lowercase_ : Union[str, Any]=2 , lowercase_ : Dict=7 , lowercase_ : Dict="gelu_new" , lowercase_ : Tuple=0.1 , lowercase_ : List[Any]=0.1 , lowercase_ : Tuple=5_12 , lowercase_ : Optional[Any]=16 , lowercase_ : List[Any]=2 , lowercase_ : Dict=0.02 , lowercase_ : int=4 , lowercase_ : Tuple="block_sparse" , lowercase_ : Dict=True , lowercase_ : Optional[int]=False , lowercase_ : Dict=2 , lowercase_ : int=3 , ) -> Union[str, Any]:
lowercase__ : Dict = parent
lowercase__ : Dict = batch_size
lowercase__ : Tuple = seq_length
lowercase__ : Dict = is_training
lowercase__ : Dict = use_attention_mask
lowercase__ : Tuple = use_token_type_ids
lowercase__ : Optional[int] = use_labels
lowercase__ : List[Any] = vocab_size
lowercase__ : Any = hidden_size
lowercase__ : List[Any] = num_hidden_layers
lowercase__ : Union[str, Any] = num_attention_heads
lowercase__ : str = intermediate_size
lowercase__ : int = hidden_act
lowercase__ : str = hidden_dropout_prob
lowercase__ : List[str] = attention_probs_dropout_prob
lowercase__ : Optional[Any] = max_position_embeddings
lowercase__ : Union[str, Any] = type_vocab_size
lowercase__ : Dict = type_sequence_label_size
lowercase__ : Any = initializer_range
lowercase__ : List[str] = num_choices
lowercase__ : str = rescale_embeddings
lowercase__ : Optional[Any] = attention_type
lowercase__ : Optional[int] = use_bias
lowercase__ : Optional[int] = block_size
lowercase__ : str = num_random_blocks
def __UpperCamelCase ( self : str ) -> Optional[Any]:
lowercase__ : List[Any] = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size )
lowercase__ : str = None
if self.use_attention_mask:
lowercase__ : Any = random_attention_mask([self.batch_size, self.seq_length] )
lowercase__ : Optional[int] = None
if self.use_token_type_ids:
lowercase__ : Any = ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size )
lowercase__ : int = BigBirdConfig(
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 , attention_type=self.attention_type , block_size=self.block_size , num_random_blocks=self.num_random_blocks , use_bias=self.use_bias , rescale_embeddings=self.rescale_embeddings , )
return config, input_ids, token_type_ids, attention_mask
def __UpperCamelCase ( self : Union[str, Any] ) -> int:
lowercase__ : int = self.prepare_config_and_inputs()
lowercase__ , lowercase__ , lowercase__ , lowercase__ : Dict = config_and_inputs
lowercase__ : Union[str, Any] = {
"input_ids": input_ids,
"token_type_ids": token_type_ids,
"attention_mask": attention_mask,
}
return config, inputs_dict
@require_flax
class snake_case_ ( __A ,unittest.TestCase ):
__A : Optional[int] = (
(
FlaxBigBirdForCausalLM,
FlaxBigBirdModel,
FlaxBigBirdForPreTraining,
FlaxBigBirdForMaskedLM,
FlaxBigBirdForMultipleChoice,
FlaxBigBirdForQuestionAnswering,
FlaxBigBirdForSequenceClassification,
FlaxBigBirdForTokenClassification,
)
if is_flax_available()
else ()
)
__A : List[str] = False
__A : Any = False
def __UpperCamelCase ( self : List[str] ) -> List[Any]:
lowercase__ : Union[str, Any] = FlaxBigBirdModelTester(self )
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def __UpperCamelCase ( self : Optional[int] ) -> Dict:
super().test_from_pretrained_save_pretrained()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def __UpperCamelCase ( self : List[str] ) -> Any:
super().test_from_pretrained_with_no_automatic_init()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def __UpperCamelCase ( self : Tuple ) -> str:
super().test_no_automatic_init()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def __UpperCamelCase ( self : Dict ) -> Union[str, Any]:
super().test_hidden_states_output()
@slow
def __UpperCamelCase ( self : Optional[int] ) -> Tuple:
for model_class_name in self.all_model_classes:
lowercase__ : Optional[Any] = model_class_name.from_pretrained("google/bigbird-roberta-base" )
self.assertIsNotNone(lowercase_ )
def __UpperCamelCase ( self : int ) -> Optional[int]:
if self.test_attn_probs:
super().test_attention_outputs()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def __UpperCamelCase ( self : str ) -> Any:
lowercase__ , lowercase__ : Dict = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
with self.subTest(model_class.__name__ ):
lowercase__ : Union[str, Any] = self._prepare_for_class(lowercase_ , lowercase_ )
lowercase__ : Optional[Any] = model_class(lowercase_ )
@jax.jit
def model_jitted(lowercase_ : Tuple , lowercase_ : int=None , **lowercase_ : Dict ):
return model(input_ids=lowercase_ , attention_mask=lowercase_ , **lowercase_ )
with self.subTest("JIT Enabled" ):
lowercase__ : int = model_jitted(**lowercase_ ).to_tuple()
with self.subTest("JIT Disabled" ):
with jax.disable_jit():
lowercase__ : Any = 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 )
def __UpperCamelCase ( self : List[Any] , lowercase_ : str , lowercase_ : Union[str, Any] , lowercase_ : Optional[int] , lowercase_ : List[Any]=1E-5 , lowercase_ : Any="outputs" , lowercase_ : List[str]=None ) -> List[Any]:
# `bigbird_block_sparse_attention` in `FlaxBigBird` returns `attention_probs = None`, while in PyTorch version,
# an effort was done to return `attention_probs` (yet to be verified).
if name.startswith("outputs.attentions" ):
return
else:
super().check_pt_flax_outputs(lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ )
| 87 | 0 |
"""simple docstring"""
from collections import OrderedDict
from typing import Mapping
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfig
lowercase_ = {
"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 __lowerCAmelCase ( __SCREAMING_SNAKE_CASE ):
'''simple docstring'''
__UpperCAmelCase : Optional[int] = 'albert'
def __init__( self , _a=30_000 , _a=128 , _a=4_096 , _a=12 , _a=1 , _a=64 , _a=16_384 , _a=1 , _a="gelu_new" , _a=0 , _a=0 , _a=512 , _a=2 , _a=0.02 , _a=1E-12 , _a=0.1 , _a="absolute" , _a=0 , _a=2 , _a=3 , **_a , ):
super().__init__(pad_token_id=_a , bos_token_id=_a , eos_token_id=_a , **_a )
__a = vocab_size
__a = embedding_size
__a = hidden_size
__a = num_hidden_layers
__a = num_hidden_groups
__a = num_attention_heads
__a = inner_group_num
__a = hidden_act
__a = intermediate_size
__a = hidden_dropout_prob
__a = attention_probs_dropout_prob
__a = max_position_embeddings
__a = type_vocab_size
__a = initializer_range
__a = layer_norm_eps
__a = classifier_dropout_prob
__a = position_embedding_type
class __lowerCAmelCase ( __SCREAMING_SNAKE_CASE ):
'''simple docstring'''
@property
def __UpperCAmelCase ( self ):
if self.task == "multiple-choice":
__a = {0: '''batch''', 1: '''choice''', 2: '''sequence'''}
else:
__a = {0: '''batch''', 1: '''sequence'''}
return OrderedDict(
[
('''input_ids''', dynamic_axis),
('''attention_mask''', dynamic_axis),
('''token_type_ids''', dynamic_axis),
] )
| 45 | from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_torch_available
UpperCamelCase = {
'''configuration_groupvit''': [
'''GROUPVIT_PRETRAINED_CONFIG_ARCHIVE_MAP''',
'''GroupViTConfig''',
'''GroupViTOnnxConfig''',
'''GroupViTTextConfig''',
'''GroupViTVisionConfig''',
],
}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = [
'''GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''GroupViTModel''',
'''GroupViTPreTrainedModel''',
'''GroupViTTextModel''',
'''GroupViTVisionModel''',
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = [
'''TF_GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''TFGroupViTModel''',
'''TFGroupViTPreTrainedModel''',
'''TFGroupViTTextModel''',
'''TFGroupViTVisionModel''',
]
if TYPE_CHECKING:
from .configuration_groupvit import (
GROUPVIT_PRETRAINED_CONFIG_ARCHIVE_MAP,
GroupViTConfig,
GroupViTOnnxConfig,
GroupViTTextConfig,
GroupViTVisionConfig,
)
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_groupvit import (
GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST,
GroupViTModel,
GroupViTPreTrainedModel,
GroupViTTextModel,
GroupViTVisionModel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_groupvit import (
TF_GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST,
TFGroupViTModel,
TFGroupViTPreTrainedModel,
TFGroupViTTextModel,
TFGroupViTVisionModel,
)
else:
import sys
UpperCamelCase = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
| 87 | 0 |
"""simple docstring"""
from typing import List, Optional, Union
import numpy as np
import torch
import torchaudio.compliance.kaldi as ta_kaldi
from ...feature_extraction_sequence_utils import SequenceFeatureExtractor
from ...feature_extraction_utils import BatchFeature
from ...utils import PaddingStrategy, TensorType, logging
SCREAMING_SNAKE_CASE__ = logging.get_logger(__name__)
class lowercase ( _UpperCAmelCase ):
_SCREAMING_SNAKE_CASE = ['input_features', 'attention_mask']
def __init__( self , lowercase=80 , lowercase=16_000 , lowercase=80 , lowercase=0.0 , lowercase=True , lowercase=True , lowercase=True , **lowercase , ) -> Optional[Any]:
super().__init__(feature_size=lowercase , sampling_rate=lowercase , padding_value=lowercase , **lowercase )
lowerCAmelCase = num_mel_bins
lowerCAmelCase = do_ceptral_normalize
lowerCAmelCase = normalize_means
lowerCAmelCase = normalize_vars
lowerCAmelCase = True
def _snake_case ( self , lowercase , ) -> np.ndarray:
lowerCAmelCase = waveform * (2**15) # Kaldi compliance: 16-bit signed integers
lowerCAmelCase = torch.from_numpy(lowercase ).unsqueeze(0 )
lowerCAmelCase = ta_kaldi.fbank(lowercase , num_mel_bins=self.num_mel_bins , sample_frequency=self.sampling_rate )
return features.numpy()
@staticmethod
def _snake_case ( lowercase , lowercase , lowercase = True , lowercase = True , lowercase = 0.0 , ) -> np.ndarray:
# make sure we normalize float32 arrays
if normalize_means:
lowerCAmelCase = x[:input_length].mean(axis=0 )
lowerCAmelCase = np.subtract(lowercase , lowercase )
if normalize_vars:
lowerCAmelCase = x[:input_length].std(axis=0 )
lowerCAmelCase = np.divide(lowercase , lowercase )
if input_length < x.shape[0]:
lowerCAmelCase = padding_value
# make sure array is in float32
lowerCAmelCase = x.astype(np.floataa )
return x
def _snake_case ( self , lowercase , lowercase = None ) -> List[np.ndarray]:
lowerCAmelCase = attention_mask.sum(-1 ) if attention_mask is not None else [x.shape[0] for x in input_features]
return [
self.utterance_cmvn(lowercase , lowercase , self.normalize_means , self.normalize_vars , self.padding_value )
for x, n in zip(lowercase , lowercase )
]
def __call__( self , lowercase , lowercase = False , lowercase = None , lowercase = False , lowercase = None , lowercase = None , lowercase = None , lowercase = None , **lowercase , ) -> BatchFeature:
if sampling_rate is not None:
if sampling_rate != self.sampling_rate:
raise ValueError(
f'The model corresponding to this feature extractor: {self} was trained using a sampling rate of'
f' {self.sampling_rate}. Please make sure that the provided `raw_speech` input was sampled with'
f' {self.sampling_rate} and not {sampling_rate}.' )
else:
logger.warning(
"""It is strongly recommended to pass the `sampling_rate` argument to this function. """
"""Failing to do so can result in silent errors that might be hard to debug.""" )
lowerCAmelCase = isinstance(lowercase , np.ndarray ) and len(raw_speech.shape ) > 1
if is_batched_numpy and len(raw_speech.shape ) > 2:
raise ValueError(f'Only mono-channel audio is supported for input to {self}' )
lowerCAmelCase = is_batched_numpy or (
isinstance(lowercase , (list, tuple) ) and (isinstance(raw_speech[0] , (np.ndarray, tuple, list) ))
)
if is_batched:
lowerCAmelCase = [np.asarray(lowercase , dtype=np.floataa ) for speech in raw_speech]
elif not is_batched and not isinstance(lowercase , np.ndarray ):
lowerCAmelCase = np.asarray(lowercase , dtype=np.floataa )
elif isinstance(lowercase , np.ndarray ) and raw_speech.dtype is np.dtype(np.floataa ):
lowerCAmelCase = raw_speech.astype(np.floataa )
# always return batch
if not is_batched:
lowerCAmelCase = [raw_speech]
# extract fbank features
lowerCAmelCase = [self._extract_fbank_features(lowercase ) for waveform in raw_speech]
# convert into correct format for padding
lowerCAmelCase = BatchFeature({"""input_features""": features} )
lowerCAmelCase = self.pad(
lowercase , padding=lowercase , max_length=lowercase , truncation=lowercase , pad_to_multiple_of=lowercase , return_attention_mask=lowercase , **lowercase , )
# make sure list is in array format
lowerCAmelCase = padded_inputs.get("""input_features""" )
if isinstance(input_features[0] , lowercase ):
lowerCAmelCase = [np.asarray(lowercase , dtype=np.floataa ) for feature in input_features]
lowerCAmelCase = padded_inputs.get("""attention_mask""" )
if attention_mask is not None:
lowerCAmelCase = [np.asarray(lowercase , dtype=np.intaa ) for array in attention_mask]
# Utterance-level cepstral mean and variance normalization
if self.do_ceptral_normalize:
lowerCAmelCase = (
np.array(lowercase , dtype=np.intaa )
if self._get_padding_strategies(lowercase , max_length=lowercase ) is not PaddingStrategy.DO_NOT_PAD
else None
)
lowerCAmelCase = self.normalize(
padded_inputs["""input_features"""] , attention_mask=lowercase )
if return_tensors is not None:
lowerCAmelCase = padded_inputs.convert_to_tensors(lowercase )
return padded_inputs
| 46 | import io
import json
import fsspec
import pytest
from datasets import Dataset, DatasetDict, Features, NamedSplit, Value
from datasets.io.json import JsonDatasetReader, JsonDatasetWriter
from ..utils import assert_arrow_memory_doesnt_increase, assert_arrow_memory_increases
def lowercase_ ( _lowerCamelCase : Optional[Any] , _lowerCamelCase : int):
assert isinstance(_lowerCamelCase , _lowerCamelCase)
assert dataset.num_rows == 4
assert dataset.num_columns == 3
assert dataset.column_names == ["col_1", "col_2", "col_3"]
for feature, expected_dtype in expected_features.items():
assert dataset.features[feature].dtype == expected_dtype
@pytest.mark.parametrize("keep_in_memory" , [False, True])
def lowercase_ ( _lowerCamelCase : List[Any] , _lowerCamelCase : Any , _lowerCamelCase : str):
lowercase__ : Optional[int] = tmp_path / "cache"
lowercase__ : str = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
with assert_arrow_memory_increases() if keep_in_memory else assert_arrow_memory_doesnt_increase():
lowercase__ : Union[str, Any] = JsonDatasetReader(_lowerCamelCase , cache_dir=_lowerCamelCase , keep_in_memory=_lowerCamelCase).read()
_check_json_dataset(_lowerCamelCase , _lowerCamelCase)
@pytest.mark.parametrize(
"features" , [
None,
{"col_1": "string", "col_2": "int64", "col_3": "float64"},
{"col_1": "string", "col_2": "string", "col_3": "string"},
{"col_1": "int32", "col_2": "int32", "col_3": "int32"},
{"col_1": "float32", "col_2": "float32", "col_3": "float32"},
] , )
def lowercase_ ( _lowerCamelCase : List[str] , _lowerCamelCase : Dict , _lowerCamelCase : Dict):
lowercase__ : List[Any] = tmp_path / "cache"
lowercase__ : Union[str, Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
lowercase__ : List[Any] = features.copy() if features else default_expected_features
lowercase__ : List[Any] = (
Features({feature: Value(_lowerCamelCase) for feature, dtype in features.items()}) if features is not None else None
)
lowercase__ : Any = JsonDatasetReader(_lowerCamelCase , features=_lowerCamelCase , cache_dir=_lowerCamelCase).read()
_check_json_dataset(_lowerCamelCase , _lowerCamelCase)
@pytest.mark.parametrize(
"features" , [
None,
{"col_3": "float64", "col_1": "string", "col_2": "int64"},
] , )
def lowercase_ ( _lowerCamelCase : Any , _lowerCamelCase : Any , _lowerCamelCase : List[str]):
lowercase__ : Optional[Any] = tmp_path / "cache"
lowercase__ : Tuple = {"col_3": "float64", "col_1": "string", "col_2": "int64"}
lowercase__ : List[Any] = features.copy() if features else default_expected_features
lowercase__ : int = (
Features({feature: Value(_lowerCamelCase) for feature, dtype in features.items()}) if features is not None else None
)
lowercase__ : Any = JsonDatasetReader(_lowerCamelCase , features=_lowerCamelCase , cache_dir=_lowerCamelCase).read()
assert isinstance(_lowerCamelCase , _lowerCamelCase)
assert dataset.num_rows == 2
assert dataset.num_columns == 3
assert dataset.column_names == ["col_3", "col_1", "col_2"]
for feature, expected_dtype in expected_features.items():
assert dataset.features[feature].dtype == expected_dtype
def lowercase_ ( _lowerCamelCase : List[Any] , _lowerCamelCase : Optional[int]):
# jsonl_312_path features are {"col_3": "float64", "col_1": "string", "col_2": "int64"}
lowercase__ : Any = {"col_2": "int64", "col_3": "float64", "col_1": "string"}
lowercase__ : str = features.copy()
lowercase__ : str = (
Features({feature: Value(_lowerCamelCase) for feature, dtype in features.items()}) if features is not None else None
)
lowercase__ : Optional[int] = tmp_path / "cache"
lowercase__ : Any = JsonDatasetReader(_lowerCamelCase , features=_lowerCamelCase , cache_dir=_lowerCamelCase).read()
assert isinstance(_lowerCamelCase , _lowerCamelCase)
assert dataset.num_rows == 2
assert dataset.num_columns == 3
assert dataset.column_names == ["col_2", "col_3", "col_1"]
for feature, expected_dtype in expected_features.items():
assert dataset.features[feature].dtype == expected_dtype
@pytest.mark.parametrize("split" , [None, NamedSplit("train"), "train", "test"])
def lowercase_ ( _lowerCamelCase : Dict , _lowerCamelCase : Optional[int] , _lowerCamelCase : List[str]):
lowercase__ : Union[str, Any] = tmp_path / "cache"
lowercase__ : List[Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
lowercase__ : Union[str, Any] = JsonDatasetReader(_lowerCamelCase , cache_dir=_lowerCamelCase , split=_lowerCamelCase).read()
_check_json_dataset(_lowerCamelCase , _lowerCamelCase)
assert dataset.split == split if split else "train"
@pytest.mark.parametrize("path_type" , [str, list])
def lowercase_ ( _lowerCamelCase : Union[str, Any] , _lowerCamelCase : str , _lowerCamelCase : int):
if issubclass(_lowerCamelCase , _lowerCamelCase):
lowercase__ : Tuple = jsonl_path
elif issubclass(_lowerCamelCase , _lowerCamelCase):
lowercase__ : str = [jsonl_path]
lowercase__ : str = tmp_path / "cache"
lowercase__ : Optional[Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
lowercase__ : Tuple = JsonDatasetReader(_lowerCamelCase , cache_dir=_lowerCamelCase).read()
_check_json_dataset(_lowerCamelCase , _lowerCamelCase)
def lowercase_ ( _lowerCamelCase : List[Any] , _lowerCamelCase : Optional[Any] , _lowerCamelCase : Optional[int]=("train",)):
assert isinstance(_lowerCamelCase , _lowerCamelCase)
for split in splits:
lowercase__ : Optional[Any] = dataset_dict[split]
assert dataset.num_rows == 4
assert dataset.num_columns == 3
assert dataset.column_names == ["col_1", "col_2", "col_3"]
for feature, expected_dtype in expected_features.items():
assert dataset.features[feature].dtype == expected_dtype
@pytest.mark.parametrize("keep_in_memory" , [False, True])
def lowercase_ ( _lowerCamelCase : Union[str, Any] , _lowerCamelCase : str , _lowerCamelCase : str):
lowercase__ : List[str] = tmp_path / "cache"
lowercase__ : str = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
with assert_arrow_memory_increases() if keep_in_memory else assert_arrow_memory_doesnt_increase():
lowercase__ : Optional[Any] = JsonDatasetReader({"train": jsonl_path} , cache_dir=_lowerCamelCase , keep_in_memory=_lowerCamelCase).read()
_check_json_datasetdict(_lowerCamelCase , _lowerCamelCase)
@pytest.mark.parametrize(
"features" , [
None,
{"col_1": "string", "col_2": "int64", "col_3": "float64"},
{"col_1": "string", "col_2": "string", "col_3": "string"},
{"col_1": "int32", "col_2": "int32", "col_3": "int32"},
{"col_1": "float32", "col_2": "float32", "col_3": "float32"},
] , )
def lowercase_ ( _lowerCamelCase : Any , _lowerCamelCase : List[str] , _lowerCamelCase : List[str]):
lowercase__ : str = tmp_path / "cache"
lowercase__ : Tuple = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
lowercase__ : Tuple = features.copy() if features else default_expected_features
lowercase__ : Union[str, Any] = (
Features({feature: Value(_lowerCamelCase) for feature, dtype in features.items()}) if features is not None else None
)
lowercase__ : Tuple = JsonDatasetReader({"train": jsonl_path} , features=_lowerCamelCase , cache_dir=_lowerCamelCase).read()
_check_json_datasetdict(_lowerCamelCase , _lowerCamelCase)
@pytest.mark.parametrize("split" , [None, NamedSplit("train"), "train", "test"])
def lowercase_ ( _lowerCamelCase : str , _lowerCamelCase : Dict , _lowerCamelCase : Tuple):
if split:
lowercase__ : Tuple = {split: jsonl_path}
else:
lowercase__ : Tuple = "train"
lowercase__ : int = {"train": jsonl_path, "test": jsonl_path}
lowercase__ : Dict = tmp_path / "cache"
lowercase__ : Union[str, Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
lowercase__ : Union[str, Any] = JsonDatasetReader(_lowerCamelCase , cache_dir=_lowerCamelCase).read()
_check_json_datasetdict(_lowerCamelCase , _lowerCamelCase , splits=list(path.keys()))
assert all(dataset[split].split == split for split in path.keys())
def lowercase_ ( _lowerCamelCase : Union[str, Any]):
return json.load(_lowerCamelCase)
def lowercase_ ( _lowerCamelCase : Optional[int]):
return [json.loads(_lowerCamelCase) for line in buffer]
class snake_case_ :
@pytest.mark.parametrize("lines, load_json_function" , [(True, load_json_lines), (False, load_json)] )
def __UpperCamelCase ( self : List[Any] , lowercase_ : Any , lowercase_ : Optional[Any] , lowercase_ : Dict ) -> Optional[Any]:
with io.BytesIO() as buffer:
JsonDatasetWriter(lowercase_ , lowercase_ , lines=lowercase_ ).write()
buffer.seek(0 )
lowercase__ : Optional[int] = load_json_function(lowercase_ )
assert isinstance(lowercase_ , lowercase_ )
assert isinstance(exported_content[0] , lowercase_ )
assert len(lowercase_ ) == 10
@pytest.mark.parametrize(
"orient, container, keys, len_at" , [
("records", list, {"tokens", "labels", "answers", "id"}, None),
("split", dict, {"columns", "data"}, "data"),
("index", dict, set("0123456789" ), None),
("columns", dict, {"tokens", "labels", "answers", "id"}, "tokens"),
("values", list, None, None),
("table", dict, {"schema", "data"}, "data"),
] , )
def __UpperCamelCase ( self : str , lowercase_ : int , lowercase_ : str , lowercase_ : Union[str, Any] , lowercase_ : Dict , lowercase_ : Tuple ) -> List[str]:
with io.BytesIO() as buffer:
JsonDatasetWriter(lowercase_ , lowercase_ , lines=lowercase_ , orient=lowercase_ ).write()
buffer.seek(0 )
lowercase__ : str = load_json(lowercase_ )
assert isinstance(lowercase_ , lowercase_ )
if keys:
if container is dict:
assert exported_content.keys() == keys
else:
assert exported_content[0].keys() == keys
else:
assert not hasattr(lowercase_ , "keys" ) and not hasattr(exported_content[0] , "keys" )
if len_at:
assert len(exported_content[len_at] ) == 10
else:
assert len(lowercase_ ) == 10
@pytest.mark.parametrize("lines, load_json_function" , [(True, load_json_lines), (False, load_json)] )
def __UpperCamelCase ( self : List[Any] , lowercase_ : int , lowercase_ : Optional[Any] , lowercase_ : Dict ) -> Optional[int]:
with io.BytesIO() as buffer:
JsonDatasetWriter(lowercase_ , lowercase_ , lines=lowercase_ , num_proc=2 ).write()
buffer.seek(0 )
lowercase__ : str = load_json_function(lowercase_ )
assert isinstance(lowercase_ , lowercase_ )
assert isinstance(exported_content[0] , lowercase_ )
assert len(lowercase_ ) == 10
@pytest.mark.parametrize(
"orient, container, keys, len_at" , [
("records", list, {"tokens", "labels", "answers", "id"}, None),
("split", dict, {"columns", "data"}, "data"),
("index", dict, set("0123456789" ), None),
("columns", dict, {"tokens", "labels", "answers", "id"}, "tokens"),
("values", list, None, None),
("table", dict, {"schema", "data"}, "data"),
] , )
def __UpperCamelCase ( self : Union[str, Any] , lowercase_ : Dict , lowercase_ : Dict , lowercase_ : Optional[int] , lowercase_ : Optional[Any] , lowercase_ : Dict ) -> Any:
with io.BytesIO() as buffer:
JsonDatasetWriter(lowercase_ , lowercase_ , lines=lowercase_ , orient=lowercase_ , num_proc=2 ).write()
buffer.seek(0 )
lowercase__ : Optional[Any] = load_json(lowercase_ )
assert isinstance(lowercase_ , lowercase_ )
if keys:
if container is dict:
assert exported_content.keys() == keys
else:
assert exported_content[0].keys() == keys
else:
assert not hasattr(lowercase_ , "keys" ) and not hasattr(exported_content[0] , "keys" )
if len_at:
assert len(exported_content[len_at] ) == 10
else:
assert len(lowercase_ ) == 10
def __UpperCamelCase ( self : Dict , lowercase_ : List[str] ) -> str:
with pytest.raises(lowercase_ ):
with io.BytesIO() as buffer:
JsonDatasetWriter(lowercase_ , lowercase_ , num_proc=0 )
@pytest.mark.parametrize("compression, extension" , [("gzip", "gz"), ("bz2", "bz2"), ("xz", "xz")] )
def __UpperCamelCase ( self : List[Any] , lowercase_ : Tuple , lowercase_ : List[str] , lowercase_ : Optional[Any] , lowercase_ : str , lowercase_ : List[Any] ) -> Any:
lowercase__ : Dict = tmp_path_factory.mktemp("data" ) / F'''test.json.{extension}'''
lowercase__ : Optional[int] = str(shared_datadir / F'''test_file.json.{extension}''' )
JsonDatasetWriter(lowercase_ , lowercase_ , compression=lowercase_ ).write()
with fsspec.open(lowercase_ , "rb" , compression="infer" ) as f:
lowercase__ : List[Any] = f.read()
with fsspec.open(lowercase_ , "rb" , compression="infer" ) as f:
lowercase__ : str = f.read()
assert exported_content == original_content
| 87 | 0 |
'''simple docstring'''
import warnings
from typing import Dict, List, Optional, Tuple
from ...tokenization_utils import AddedToken, PreTrainedTokenizer
from ...utils import logging
lowerCamelCase : str = logging.get_logger(__name__)
class A__ ( A__ ):
A__ = ['input_ids', 'attention_mask']
def __init__( self : Any , _a : List[str]="</s>" , _a : Optional[int]="<unk>" , _a : Optional[Any]="<pad>" , _a : Optional[int]=125 , _a : Optional[Any]=None , **_a : Optional[Any] , ) -> None:
'''simple docstring'''
if extra_ids > 0 and additional_special_tokens is None:
_SCREAMING_SNAKE_CASE =[f"<extra_id_{i}>" for i in range(_a )]
elif extra_ids > 0 and additional_special_tokens is not None:
# Check that we have the right number of extra_id special tokens
_SCREAMING_SNAKE_CASE =len(set(filter(lambda _a : bool('extra_id' in str(_a ) ) , _a ) ) )
if extra_tokens != extra_ids:
raise ValueError(
f"Both extra_ids ({extra_ids}) and additional_special_tokens ({additional_special_tokens}) are"
' provided to ByT5Tokenizer. In this case the additional_special_tokens must include the'
' extra_ids tokens' )
_SCREAMING_SNAKE_CASE =AddedToken(_a , lstrip=_a , rstrip=_a ) if isinstance(_a , _a ) else pad_token
_SCREAMING_SNAKE_CASE =AddedToken(_a , lstrip=_a , rstrip=_a ) if isinstance(_a , _a ) else eos_token
_SCREAMING_SNAKE_CASE =AddedToken(_a , lstrip=_a , rstrip=_a ) if isinstance(_a , _a ) else unk_token
super().__init__(
eos_token=_a , unk_token=_a , pad_token=_a , extra_ids=_a , additional_special_tokens=_a , **_a , )
_SCREAMING_SNAKE_CASE =extra_ids
_SCREAMING_SNAKE_CASE =2**8 # utf is 8 bits
# define special tokens dict
_SCREAMING_SNAKE_CASE ={
self.pad_token: 0,
self.eos_token: 1,
self.unk_token: 2,
}
_SCREAMING_SNAKE_CASE =len(self.special_tokens_encoder )
_SCREAMING_SNAKE_CASE =len(_a )
for i, token in enumerate(_a ):
_SCREAMING_SNAKE_CASE =self.vocab_size + i - n
_SCREAMING_SNAKE_CASE ={v: k for k, v in self.special_tokens_encoder.items()}
@property
def A ( self : str ) -> Dict:
'''simple docstring'''
return self._utf_vocab_size + self._num_special_tokens + self._extra_ids
def A ( self : str , _a : List[int] , _a : Optional[List[int]] = None , _a : bool = False ) -> List[int]:
'''simple docstring'''
if already_has_special_tokens:
return super().get_special_tokens_mask(
token_ids_a=_a , token_ids_a=_a , already_has_special_tokens=_a )
# normal case: some special tokens
if token_ids_a is None:
return ([0] * len(_a )) + [1]
return ([0] * len(_a )) + [1] + ([0] * len(_a )) + [1]
def A ( self : str , _a : List[int] ) -> List[int]:
'''simple docstring'''
if len(_a ) > 0 and token_ids[-1] == self.eos_token_id:
warnings.warn(
f"This sequence already has {self.eos_token}. In future versions this behavior may lead to duplicated"
' eos tokens being added.' )
return token_ids
else:
return token_ids + [self.eos_token_id]
def A ( self : Union[str, Any] , _a : List[int] , _a : Optional[List[int]] = None ) -> List[int]:
'''simple docstring'''
_SCREAMING_SNAKE_CASE =[self.eos_token_id]
if token_ids_a is None:
return len(token_ids_a + eos ) * [0]
return len(token_ids_a + eos + token_ids_a + eos ) * [0]
def A ( self : Optional[int] , _a : List[int] , _a : Optional[List[int]] = None ) -> List[int]:
'''simple docstring'''
_SCREAMING_SNAKE_CASE =self._add_eos_if_not_present(_a )
if token_ids_a is None:
return token_ids_a
else:
_SCREAMING_SNAKE_CASE =self._add_eos_if_not_present(_a )
return token_ids_a + token_ids_a
def A ( self : List[Any] , _a : str ) -> List[str]:
'''simple docstring'''
_SCREAMING_SNAKE_CASE =[chr(_a ) for i in text.encode('utf-8' )]
return tokens
def A ( self : List[Any] , _a : List[Any] ) -> List[Any]:
'''simple docstring'''
if token in self.special_tokens_encoder:
_SCREAMING_SNAKE_CASE =self.special_tokens_encoder[token]
elif token in self.added_tokens_encoder:
_SCREAMING_SNAKE_CASE =self.added_tokens_encoder[token]
elif len(_a ) != 1:
_SCREAMING_SNAKE_CASE =self.unk_token_id
else:
_SCREAMING_SNAKE_CASE =ord(_a ) + self._num_special_tokens
return token_id
def A ( self : Tuple , _a : Optional[int] ) -> str:
'''simple docstring'''
if index in self.special_tokens_decoder:
_SCREAMING_SNAKE_CASE =self.special_tokens_decoder[index]
else:
_SCREAMING_SNAKE_CASE =chr(index - self._num_special_tokens )
return token
def A ( self : int , _a : int ) -> Optional[int]:
'''simple docstring'''
_SCREAMING_SNAKE_CASE =b''
for token in tokens:
if token in self.special_tokens_decoder:
_SCREAMING_SNAKE_CASE =self.special_tokens_decoder[token].encode('utf-8' )
elif token in self.added_tokens_decoder:
_SCREAMING_SNAKE_CASE =self.special_tokens_decoder[token].encode('utf-8' )
elif token in self.special_tokens_encoder:
_SCREAMING_SNAKE_CASE =token.encode('utf-8' )
elif token in self.added_tokens_encoder:
_SCREAMING_SNAKE_CASE =token.encode('utf-8' )
else:
_SCREAMING_SNAKE_CASE =bytes([ord(_a )] )
bstring += tok_string
_SCREAMING_SNAKE_CASE =bstring.decode('utf-8' , errors='ignore' )
return string
def A ( self : int , _a : str , _a : Optional[str] = None ) -> Tuple[str]:
'''simple docstring'''
return ()
| 47 | import warnings
from typing import List, Optional, Union
from ...processing_utils import ProcessorMixin
from ...tokenization_utils_base import BatchEncoding, PaddingStrategy, PreTokenizedInput, TextInput, TruncationStrategy
from ...utils import TensorType
class snake_case_ ( __A ):
__A : Optional[Any] = ["image_processor", "tokenizer"]
__A : Tuple = "LayoutLMv3ImageProcessor"
__A : List[Any] = ("LayoutLMv3Tokenizer", "LayoutLMv3TokenizerFast")
def __init__( self : Union[str, Any] , lowercase_ : int=None , lowercase_ : str=None , **lowercase_ : Optional[Any] ) -> Optional[int]:
lowercase__ : Union[str, Any] = 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_ , )
lowercase__ : Optional[int] = kwargs.pop("feature_extractor" )
lowercase__ : int = 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 : Dict , lowercase_ : Optional[Any] , lowercase_ : Union[TextInput, PreTokenizedInput, List[TextInput], List[PreTokenizedInput]] = None , lowercase_ : Optional[Union[PreTokenizedInput, List[PreTokenizedInput]]] = None , lowercase_ : Union[List[List[int]], List[List[List[int]]]] = None , lowercase_ : Optional[Union[List[int], List[List[int]]]] = None , lowercase_ : bool = True , lowercase_ : Union[bool, str, PaddingStrategy] = False , lowercase_ : Union[bool, str, TruncationStrategy] = None , lowercase_ : Optional[int] = None , lowercase_ : int = 0 , lowercase_ : Optional[int] = None , lowercase_ : Optional[bool] = None , lowercase_ : Optional[bool] = None , lowercase_ : bool = False , lowercase_ : bool = False , lowercase_ : bool = False , lowercase_ : bool = False , lowercase_ : bool = True , lowercase_ : Optional[Union[str, TensorType]] = None , **lowercase_ : Dict , ) -> BatchEncoding:
# verify input
if self.image_processor.apply_ocr and (boxes is not None):
raise ValueError(
"You cannot provide bounding boxes if you initialized the image processor with apply_ocr set to True." )
if self.image_processor.apply_ocr and (word_labels is not None):
raise ValueError(
"You cannot provide word labels if you initialized the image processor with apply_ocr set to True." )
# first, apply the image processor
lowercase__ : Union[str, Any] = self.image_processor(images=lowercase_ , return_tensors=lowercase_ )
# second, apply the tokenizer
if text is not None and self.image_processor.apply_ocr and text_pair is None:
if isinstance(lowercase_ , lowercase_ ):
lowercase__ : Optional[Any] = [text] # add batch dimension (as the image processor always adds a batch dimension)
lowercase__ : Any = features["words"]
lowercase__ : Tuple = self.tokenizer(
text=text if text is not None else features["words"] , text_pair=text_pair if text_pair is not None else None , boxes=boxes if boxes is not None else features["boxes"] , word_labels=lowercase_ , add_special_tokens=lowercase_ , padding=lowercase_ , truncation=lowercase_ , max_length=lowercase_ , stride=lowercase_ , pad_to_multiple_of=lowercase_ , return_token_type_ids=lowercase_ , return_attention_mask=lowercase_ , return_overflowing_tokens=lowercase_ , return_special_tokens_mask=lowercase_ , return_offsets_mapping=lowercase_ , return_length=lowercase_ , verbose=lowercase_ , return_tensors=lowercase_ , **lowercase_ , )
# add pixel values
lowercase__ : Optional[int] = features.pop("pixel_values" )
if return_overflowing_tokens is True:
lowercase__ : Dict = self.get_overflowing_images(lowercase_ , encoded_inputs["overflow_to_sample_mapping"] )
lowercase__ : str = images
return encoded_inputs
def __UpperCamelCase ( self : List[Any] , lowercase_ : Tuple , lowercase_ : List[Any] ) -> Dict:
# in case there's an overflow, ensure each `input_ids` sample is mapped to its corresponding image
lowercase__ : Tuple = []
for sample_idx in overflow_to_sample_mapping:
images_with_overflow.append(images[sample_idx] )
if len(lowercase_ ) != len(lowercase_ ):
raise ValueError(
"Expected length of images to be the same as the length of `overflow_to_sample_mapping`, but got"
F''' {len(lowercase_ )} and {len(lowercase_ )}''' )
return images_with_overflow
def __UpperCamelCase ( self : int , *lowercase_ : Union[str, Any] , **lowercase_ : List[str] ) -> Union[str, Any]:
return self.tokenizer.batch_decode(*lowercase_ , **lowercase_ )
def __UpperCamelCase ( self : Union[str, Any] , *lowercase_ : str , **lowercase_ : int ) -> Dict:
return self.tokenizer.decode(*lowercase_ , **lowercase_ )
@property
def __UpperCamelCase ( self : Any ) -> Any:
return ["input_ids", "bbox", "attention_mask", "pixel_values"]
@property
def __UpperCamelCase ( self : Optional[int] ) -> Optional[Any]:
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 : List[Any] ) -> Tuple:
warnings.warn(
"`feature_extractor` is deprecated and will be removed in v5. Use `image_processor` instead." , lowercase_ , )
return self.image_processor
| 87 | 0 |
def A ( _SCREAMING_SNAKE_CASE ) -> int:
assert (
isinstance(_SCREAMING_SNAKE_CASE ,_SCREAMING_SNAKE_CASE ) and number_of_steps > 0
), f'''number_of_steps needs to be positive integer, your input {number_of_steps}'''
if number_of_steps == 1:
return 1
lowerCamelCase , lowerCamelCase : Dict = 1, 1
for _ in range(number_of_steps - 1 ):
lowerCamelCase , lowerCamelCase : Optional[Any] = current + previous, current
return current
if __name__ == "__main__":
import doctest
doctest.testmod()
| 48 | from typing import Dict, List, Optional, Union
import numpy as np
from ...image_processing_utils import BaseImageProcessor, BatchFeature, get_size_dict
from ...image_transforms import (
center_crop,
convert_to_rgb,
get_resize_output_image_size,
normalize,
rescale,
resize,
to_channel_dimension_format,
)
from ...image_utils import (
OPENAI_CLIP_MEAN,
OPENAI_CLIP_STD,
ChannelDimension,
ImageInput,
PILImageResampling,
make_list_of_images,
to_numpy_array,
valid_images,
)
from ...utils import TensorType, is_vision_available, logging
UpperCamelCase = logging.get_logger(__name__)
if is_vision_available():
import PIL
class snake_case_ ( __A ):
__A : str = ["pixel_values"]
def __init__( self : int , lowercase_ : bool = True , lowercase_ : Dict[str, int] = None , lowercase_ : PILImageResampling = PILImageResampling.BICUBIC , lowercase_ : bool = True , lowercase_ : Dict[str, int] = None , lowercase_ : bool = True , lowercase_ : Union[int, float] = 1 / 2_55 , lowercase_ : bool = True , lowercase_ : Optional[Union[float, List[float]]] = None , lowercase_ : Optional[Union[float, List[float]]] = None , lowercase_ : bool = True , **lowercase_ : Union[str, Any] , ) -> None:
super().__init__(**lowercase_ )
lowercase__ : Tuple = size if size is not None else {"shortest_edge": 2_24}
lowercase__ : Tuple = get_size_dict(lowercase_ , default_to_square=lowercase_ )
lowercase__ : List[str] = crop_size if crop_size is not None else {"height": 2_24, "width": 2_24}
lowercase__ : Tuple = get_size_dict(lowercase_ , default_to_square=lowercase_ , param_name="crop_size" )
lowercase__ : Dict = do_resize
lowercase__ : List[Any] = size
lowercase__ : int = resample
lowercase__ : Union[str, Any] = do_center_crop
lowercase__ : Optional[int] = crop_size
lowercase__ : List[str] = do_rescale
lowercase__ : int = rescale_factor
lowercase__ : List[Any] = do_normalize
lowercase__ : Union[str, Any] = image_mean if image_mean is not None else OPENAI_CLIP_MEAN
lowercase__ : str = image_std if image_std is not None else OPENAI_CLIP_STD
lowercase__ : Dict = do_convert_rgb
def __UpperCamelCase ( self : Optional[Any] , lowercase_ : np.ndarray , lowercase_ : Dict[str, int] , lowercase_ : PILImageResampling = PILImageResampling.BICUBIC , lowercase_ : Optional[Union[str, ChannelDimension]] = None , **lowercase_ : Union[str, Any] , ) -> np.ndarray:
lowercase__ : str = get_size_dict(lowercase_ , default_to_square=lowercase_ )
if "shortest_edge" not in size:
raise ValueError(F'''The `size` parameter must contain the key `shortest_edge`. Got {size.keys()}''' )
lowercase__ : Dict = get_resize_output_image_size(lowercase_ , size=size["shortest_edge"] , default_to_square=lowercase_ )
return resize(lowercase_ , size=lowercase_ , resample=lowercase_ , data_format=lowercase_ , **lowercase_ )
def __UpperCamelCase ( self : int , lowercase_ : np.ndarray , lowercase_ : Dict[str, int] , lowercase_ : Optional[Union[str, ChannelDimension]] = None , **lowercase_ : int , ) -> np.ndarray:
lowercase__ : Optional[Any] = get_size_dict(lowercase_ )
if "height" not in size or "width" not in size:
raise ValueError(F'''The `size` parameter must contain the keys (height, width). Got {size.keys()}''' )
return center_crop(lowercase_ , size=(size["height"], size["width"]) , data_format=lowercase_ , **lowercase_ )
def __UpperCamelCase ( self : Optional[Any] , lowercase_ : np.ndarray , lowercase_ : Union[int, float] , lowercase_ : Optional[Union[str, ChannelDimension]] = None , **lowercase_ : Optional[Any] , ) -> Any:
return rescale(lowercase_ , scale=lowercase_ , data_format=lowercase_ , **lowercase_ )
def __UpperCamelCase ( self : str , lowercase_ : np.ndarray , lowercase_ : Union[float, List[float]] , lowercase_ : Union[float, List[float]] , lowercase_ : Optional[Union[str, ChannelDimension]] = None , **lowercase_ : str , ) -> np.ndarray:
return normalize(lowercase_ , mean=lowercase_ , std=lowercase_ , data_format=lowercase_ , **lowercase_ )
def __UpperCamelCase ( self : Optional[Any] , lowercase_ : ImageInput , lowercase_ : bool = None , lowercase_ : Dict[str, int] = None , lowercase_ : PILImageResampling = None , lowercase_ : bool = None , lowercase_ : int = None , lowercase_ : bool = None , lowercase_ : float = None , lowercase_ : bool = None , lowercase_ : Optional[Union[float, List[float]]] = None , lowercase_ : Optional[Union[float, List[float]]] = None , lowercase_ : bool = None , lowercase_ : Optional[Union[str, TensorType]] = None , lowercase_ : Optional[ChannelDimension] = ChannelDimension.FIRST , **lowercase_ : Union[str, Any] , ) -> PIL.Image.Image:
lowercase__ : int = do_resize if do_resize is not None else self.do_resize
lowercase__ : Dict = size if size is not None else self.size
lowercase__ : List[Any] = get_size_dict(lowercase_ , param_name="size" , default_to_square=lowercase_ )
lowercase__ : Dict = resample if resample is not None else self.resample
lowercase__ : int = do_center_crop if do_center_crop is not None else self.do_center_crop
lowercase__ : Dict = crop_size if crop_size is not None else self.crop_size
lowercase__ : List[str] = get_size_dict(lowercase_ , param_name="crop_size" , default_to_square=lowercase_ )
lowercase__ : int = do_rescale if do_rescale is not None else self.do_rescale
lowercase__ : Dict = rescale_factor if rescale_factor is not None else self.rescale_factor
lowercase__ : Union[str, Any] = do_normalize if do_normalize is not None else self.do_normalize
lowercase__ : int = image_mean if image_mean is not None else self.image_mean
lowercase__ : List[str] = image_std if image_std is not None else self.image_std
lowercase__ : Union[str, Any] = do_convert_rgb if do_convert_rgb is not None else self.do_convert_rgb
lowercase__ : 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." )
if do_center_crop and crop_size is None:
raise ValueError("Crop size must be specified if do_center_crop is True." )
if do_rescale and rescale_factor is None:
raise ValueError("Rescale factor must be specified if do_rescale is True." )
if do_normalize and (image_mean is None or image_std is None):
raise ValueError("Image mean and std must be specified if do_normalize is True." )
# PIL RGBA images are converted to RGB
if do_convert_rgb:
lowercase__ : Dict = [convert_to_rgb(lowercase_ ) for image in images]
# All transformations expect numpy arrays.
lowercase__ : Optional[Any] = [to_numpy_array(lowercase_ ) for image in images]
if do_resize:
lowercase__ : List[Any] = [self.resize(image=lowercase_ , size=lowercase_ , resample=lowercase_ ) for image in images]
if do_center_crop:
lowercase__ : int = [self.center_crop(image=lowercase_ , size=lowercase_ ) for image in images]
if do_rescale:
lowercase__ : str = [self.rescale(image=lowercase_ , scale=lowercase_ ) for image in images]
if do_normalize:
lowercase__ : Optional[int] = [self.normalize(image=lowercase_ , mean=lowercase_ , std=lowercase_ ) for image in images]
lowercase__ : Optional[Any] = [to_channel_dimension_format(lowercase_ , lowercase_ ) for image in images]
lowercase__ : List[str] = {"pixel_values": images}
return BatchFeature(data=lowercase_ , tensor_type=lowercase_ )
| 87 | 0 |
import unittest
from knapsack import greedy_knapsack as kp
class _A ( unittest.TestCase ):
def _lowerCamelCase ( self : List[Any]):
'''simple docstring'''
__a = [10, 20, 30, 40, 50, 60]
__a = [2, 4, 6, 8, 10, 12]
__a = 100
self.assertEqual(kp.calc_profit(__SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE , __SCREAMING_SNAKE_CASE) , 210)
def _lowerCamelCase ( self : Dict):
'''simple docstring'''
self.assertRaisesRegex(__SCREAMING_SNAKE_CASE , '''max_weight must greater than zero.''')
def _lowerCamelCase ( self : Any):
'''simple docstring'''
self.assertRaisesRegex(__SCREAMING_SNAKE_CASE , '''Weight can not be negative.''')
def _lowerCamelCase ( self : Dict):
'''simple docstring'''
self.assertRaisesRegex(__SCREAMING_SNAKE_CASE , '''Profit can not be negative.''')
def _lowerCamelCase ( self : List[str]):
'''simple docstring'''
self.assertRaisesRegex(__SCREAMING_SNAKE_CASE , '''max_weight must greater than zero.''')
def _lowerCamelCase ( self : Any):
'''simple docstring'''
self.assertRaisesRegex(
__SCREAMING_SNAKE_CASE , '''The length of profit and weight must be same.''')
if __name__ == "__main__":
unittest.main()
| 49 | from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available
UpperCamelCase = {}
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = ['''GPTSw3Tokenizer''']
if TYPE_CHECKING:
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_gpt_swa import GPTSwaTokenizer
else:
import sys
UpperCamelCase = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
| 87 | 0 |
import unittest
from transformers import DebertaVaTokenizer, DebertaVaTokenizerFast
from transformers.testing_utils import get_tests_dir, require_sentencepiece, require_tokenizers, slow
from ...test_tokenization_common import TokenizerTesterMixin
_UpperCAmelCase : Any = get_tests_dir("""fixtures/spiece.model""")
@require_sentencepiece
@require_tokenizers
class lowerCAmelCase ( __UpperCamelCase, unittest.TestCase ):
UpperCAmelCase__ = DebertaVaTokenizer
UpperCAmelCase__ = DebertaVaTokenizerFast
UpperCAmelCase__ = True
UpperCAmelCase__ = True
def A_ ( self : Dict ) -> int:
super().setUp()
# We have a SentencePiece fixture for testing
lowerCamelCase__ : Optional[Any] = DebertaVaTokenizer(UpperCAmelCase , unk_token='<unk>' )
tokenizer.save_pretrained(self.tmpdirname )
def A_ ( self : Dict , UpperCAmelCase : Tuple ) -> int:
lowerCamelCase__ : Dict = 'this is a test'
lowerCamelCase__ : Union[str, Any] = 'this is a test'
return input_text, output_text
def A_ ( self : Union[str, Any] ) -> Optional[Any]:
lowerCamelCase__ : str = '<pad>'
lowerCamelCase__ : int = 0
self.assertEqual(self.get_tokenizer()._convert_token_to_id(UpperCAmelCase ) , UpperCAmelCase )
self.assertEqual(self.get_tokenizer()._convert_id_to_token(UpperCAmelCase ) , UpperCAmelCase )
def A_ ( self : Union[str, Any] ) -> Optional[int]:
lowerCamelCase__ : Tuple = list(self.get_tokenizer().get_vocab().keys() )
self.assertEqual(vocab_keys[0] , '<pad>' )
self.assertEqual(vocab_keys[1] , '<unk>' )
self.assertEqual(vocab_keys[-1] , '[PAD]' )
self.assertEqual(len(UpperCAmelCase ) , 30001 )
def A_ ( self : Optional[Any] ) -> int:
self.assertEqual(self.get_tokenizer().vocab_size , 30000 )
def A_ ( self : str ) -> List[str]:
# fmt: off
lowerCamelCase__ : Union[str, Any] = ' \tHeLLo!how \n Are yoU? '
lowerCamelCase__ : int = ['▁hello', '!', 'how', '▁are', '▁you', '?']
# fmt: on
lowerCamelCase__ : Any = DebertaVaTokenizer(UpperCAmelCase , do_lower_case=UpperCAmelCase )
lowerCamelCase__ : Optional[int] = tokenizer.convert_ids_to_tokens(tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase ) )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
lowerCamelCase__ : Tuple = DebertaVaTokenizerFast(UpperCAmelCase , do_lower_case=UpperCAmelCase )
lowerCamelCase__ : int = rust_tokenizer.convert_ids_to_tokens(rust_tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase ) )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
@unittest.skip('There is an inconsistency between slow and fast tokenizer due to a bug in the fast one.' )
def A_ ( self : Optional[int] ) -> int:
pass
@unittest.skip('There is an inconsistency between slow and fast tokenizer due to a bug in the fast one.' )
def A_ ( self : Dict ) -> List[str]:
pass
def A_ ( self : str ) -> Any:
# fmt: off
lowerCamelCase__ : List[Any] = 'I was born in 92000, and this is falsé.'
lowerCamelCase__ : int = ['▁', '<unk>', '▁was', '▁born', '▁in', '▁9', '2000', '▁', ',', '▁and', '▁this', '▁is', '▁fal', 's', '<unk>', '▁', '.', ]
# fmt: on
lowerCamelCase__ : Union[str, Any] = DebertaVaTokenizer(UpperCAmelCase , split_by_punct=UpperCAmelCase )
lowerCamelCase__ : List[Any] = tokenizer.convert_ids_to_tokens(tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase ) )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
lowerCamelCase__ : int = DebertaVaTokenizerFast(UpperCAmelCase , split_by_punct=UpperCAmelCase )
lowerCamelCase__ : Tuple = rust_tokenizer.convert_ids_to_tokens(rust_tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase ) )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
def A_ ( self : int ) -> Tuple:
# fmt: off
lowerCamelCase__ : str = 'I was born in 92000, and this is falsé.'
lowerCamelCase__ : Dict = ['▁i', '▁was', '▁born', '▁in', '▁9', '2000', '▁', ',', '▁and', '▁this', '▁is', '▁fal', 's', '<unk>', '▁', '.', ]
# fmt: on
lowerCamelCase__ : str = DebertaVaTokenizer(UpperCAmelCase , do_lower_case=UpperCAmelCase , split_by_punct=UpperCAmelCase )
lowerCamelCase__ : Union[str, Any] = tokenizer.convert_ids_to_tokens(tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase ) )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
lowerCamelCase__ : Union[str, Any] = DebertaVaTokenizerFast(UpperCAmelCase , do_lower_case=UpperCAmelCase , split_by_punct=UpperCAmelCase )
lowerCamelCase__ : Optional[Any] = rust_tokenizer.convert_ids_to_tokens(rust_tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase ) )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
def A_ ( self : Union[str, Any] ) -> str:
# fmt: off
lowerCamelCase__ : Any = 'I was born in 92000, and this is falsé.'
lowerCamelCase__ : Tuple = ['▁i', '▁was', '▁born', '▁in', '▁9', '2000', ',', '▁and', '▁this', '▁is', '▁fal', 's', '<unk>', '.', ]
# fmt: on
lowerCamelCase__ : Tuple = DebertaVaTokenizer(UpperCAmelCase , do_lower_case=UpperCAmelCase , split_by_punct=UpperCAmelCase )
lowerCamelCase__ : List[Any] = tokenizer.convert_ids_to_tokens(tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase ) )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
lowerCamelCase__ : Tuple = DebertaVaTokenizerFast(UpperCAmelCase , do_lower_case=UpperCAmelCase , split_by_punct=UpperCAmelCase )
lowerCamelCase__ : List[Any] = rust_tokenizer.convert_ids_to_tokens(rust_tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase ) )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
def A_ ( self : List[str] ) -> Tuple:
# fmt: off
lowerCamelCase__ : Dict = 'I was born in 92000, and this is falsé.'
lowerCamelCase__ : List[str] = ['▁', '<unk>', '▁was', '▁born', '▁in', '▁9', '2000', '▁', ',', '▁and', '▁this', '▁is', '▁fal', 's', '<unk>', '▁', '.', ]
# fmt: on
lowerCamelCase__ : List[Any] = DebertaVaTokenizer(UpperCAmelCase , do_lower_case=UpperCAmelCase , split_by_punct=UpperCAmelCase )
lowerCamelCase__ : Tuple = tokenizer.convert_ids_to_tokens(tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase ) )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
lowerCamelCase__ : str = DebertaVaTokenizerFast(UpperCAmelCase , do_lower_case=UpperCAmelCase , split_by_punct=UpperCAmelCase )
lowerCamelCase__ : Dict = rust_tokenizer.convert_ids_to_tokens(rust_tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase ) )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
def A_ ( self : Optional[int] ) -> Union[str, Any]:
# fmt: off
lowerCamelCase__ : str = ' \tHeLLo!how \n Are yoU? '
lowerCamelCase__ : Union[str, Any] = ['▁', '<unk>', 'e', '<unk>', 'o', '!', 'how', '▁', '<unk>', 're', '▁yo', '<unk>', '?']
# fmt: on
lowerCamelCase__ : str = DebertaVaTokenizer(UpperCAmelCase , do_lower_case=UpperCAmelCase , split_by_punct=UpperCAmelCase )
lowerCamelCase__ : int = tokenizer.convert_ids_to_tokens(tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase ) )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
lowerCamelCase__ : str = DebertaVaTokenizerFast(UpperCAmelCase , do_lower_case=UpperCAmelCase , split_by_punct=UpperCAmelCase )
lowerCamelCase__ : Tuple = rust_tokenizer.convert_ids_to_tokens(rust_tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase ) )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
def A_ ( self : Dict ) -> int:
lowerCamelCase__ : Optional[Any] = self.get_tokenizer()
lowerCamelCase__ : Optional[int] = self.get_rust_tokenizer()
lowerCamelCase__ : List[Any] = 'I was born in 92000, and this is falsé.'
lowerCamelCase__ : List[Any] = tokenizer.convert_ids_to_tokens(tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase ) )
lowerCamelCase__ : List[str] = rust_tokenizer.convert_ids_to_tokens(rust_tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase ) )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
lowerCamelCase__ : Dict = tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase )
lowerCamelCase__ : Optional[Any] = rust_tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
lowerCamelCase__ : Any = self.get_rust_tokenizer()
lowerCamelCase__ : Dict = tokenizer.encode(UpperCAmelCase )
lowerCamelCase__ : Optional[Any] = rust_tokenizer.encode(UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
def A_ ( self : List[Any] ) -> int:
lowerCamelCase__ : List[Any] = 'This is a test'
lowerCamelCase__ : Optional[int] = [13, 1, 4398, 25, 21, 1289]
lowerCamelCase__ : Dict = ['▁', 'T', 'his', '▁is', '▁a', '▁test']
lowerCamelCase__ : str = ['▁', '<unk>', 'his', '▁is', '▁a', '▁test']
lowerCamelCase__ : Dict = DebertaVaTokenizer(UpperCAmelCase , keep_accents=UpperCAmelCase )
lowerCamelCase__ : Optional[int] = DebertaVaTokenizerFast(UpperCAmelCase , keep_accents=UpperCAmelCase )
lowerCamelCase__ : Tuple = tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
lowerCamelCase__ : Tuple = tokenizer.tokenize(UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
lowerCamelCase__ : Tuple = tokenizer.convert_ids_to_tokens(UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
lowerCamelCase__ : Union[str, Any] = rust_tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
lowerCamelCase__ : List[str] = rust_tokenizer.tokenize(UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
lowerCamelCase__ : str = rust_tokenizer.convert_ids_to_tokens(UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
# fmt: off
lowerCamelCase__ : Optional[int] = 'I was born in 92000, and this is falsé.'
lowerCamelCase__ : Dict = [13, 1, 23, 386, 19, 561, 3050, 15, 17, 48, 25, 8256, 18, 1, 9]
lowerCamelCase__ : List[str] = ['▁', 'I', '▁was', '▁born', '▁in', '▁9', '2000', ',', '▁and', '▁this', '▁is', '▁fal', 's', 'é', '.', ]
lowerCamelCase__ : Dict = ['▁', '<unk>', '▁was', '▁born', '▁in', '▁9', '2000', ',', '▁and', '▁this', '▁is', '▁fal', 's', '<unk>', '.', ]
# fmt: on
lowerCamelCase__ : Any = tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
lowerCamelCase__ : Dict = tokenizer.tokenize(UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
lowerCamelCase__ : Optional[int] = tokenizer.convert_ids_to_tokens(UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
lowerCamelCase__ : List[Any] = rust_tokenizer.encode(UpperCAmelCase , add_special_tokens=UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
lowerCamelCase__ : List[str] = rust_tokenizer.tokenize(UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
lowerCamelCase__ : List[Any] = rust_tokenizer.convert_ids_to_tokens(UpperCAmelCase )
self.assertListEqual(UpperCAmelCase , UpperCAmelCase )
def A_ ( self : int ) -> List[Any]:
lowerCamelCase__ : Union[str, Any] = DebertaVaTokenizer(UpperCAmelCase )
lowerCamelCase__ : Dict = tokenizer.encode('sequence builders' )
lowerCamelCase__ : str = tokenizer.encode('multi-sequence build' )
lowerCamelCase__ : Optional[Any] = tokenizer.build_inputs_with_special_tokens(UpperCAmelCase )
lowerCamelCase__ : Union[str, Any] = tokenizer.build_inputs_with_special_tokens(UpperCAmelCase , UpperCAmelCase )
self.assertEqual([tokenizer.cls_token_id] + text + [tokenizer.sep_token_id] , UpperCAmelCase )
self.assertEqual(
[tokenizer.cls_token_id] + text + [tokenizer.sep_token_id] + text_a + [tokenizer.sep_token_id] , UpperCAmelCase , )
@slow
def A_ ( self : Tuple ) -> int:
# fmt: off
lowerCamelCase__ : str = {'input_ids': [[1, 39867, 36, 19390, 486, 27, 35052, 81436, 18, 60685, 1225, 7, 35052, 81436, 18, 9367, 16899, 18, 15937, 53, 594, 773, 18, 16287, 30465, 36, 15937, 6, 41139, 38, 36979, 60763, 191, 6, 34132, 99, 6, 50538, 390, 43230, 6, 34132, 2779, 20850, 14, 699, 1072, 1194, 36, 382, 10901, 53, 7, 699, 1072, 2084, 36, 20422, 630, 53, 19, 105, 3049, 1896, 1053, 16899, 1506, 11, 37978, 4243, 7, 1237, 31869, 200, 16566, 654, 6, 35052, 81436, 7, 55630, 13593, 4, 2], [1, 26, 15011, 13, 667, 8, 1053, 18, 23611, 1237, 72356, 12820, 34, 104134, 1209, 35, 13313, 6627, 21, 202, 347, 7, 164, 2399, 11, 46, 4485, 4, 2, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [1, 5, 1232, 2864, 15785, 14951, 105, 5, 8581, 1250, 4, 2, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]], 'token_type_ids': [[0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]], 'attention_mask': [[1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]]} # noqa: E501
# fmt: on
self.tokenizer_integration_test_util(
expected_encoding=UpperCAmelCase , model_name='microsoft/deberta-v2-xlarge' , revision='ad6e42c1532ddf3a15c39246b63f5559d558b670' , )
| 50 | UpperCamelCase = [0, 2, 4, 6, 8]
UpperCamelCase = [1, 3, 5, 7, 9]
def lowercase_ ( _lowerCamelCase : int , _lowerCamelCase : int , _lowerCamelCase : list[int] , _lowerCamelCase : int):
if remaining_length == 0:
if digits[0] == 0 or digits[-1] == 0:
return 0
for i in range(length // 2 - 1 , -1 , -1):
remainder += digits[i] + digits[length - i - 1]
if remainder % 2 == 0:
return 0
remainder //= 10
return 1
if remaining_length == 1:
if remainder % 2 == 0:
return 0
lowercase__ : str = 0
for digit in range(10):
lowercase__ : str = digit
result += reversible_numbers(
0 , (remainder + 2 * digit) // 10 , _lowerCamelCase , _lowerCamelCase)
return result
lowercase__ : Dict = 0
for digita in range(10):
lowercase__ : int = digita
if (remainder + digita) % 2 == 0:
lowercase__ : Optional[Any] = ODD_DIGITS
else:
lowercase__ : str = EVEN_DIGITS
for digita in other_parity_digits:
lowercase__ : List[str] = digita
result += reversible_numbers(
remaining_length - 2 , (remainder + digita + digita) // 10 , _lowerCamelCase , _lowerCamelCase , )
return result
def lowercase_ ( _lowerCamelCase : int = 9):
lowercase__ : Tuple = 0
for length in range(1 , max_power + 1):
result += reversible_numbers(_lowerCamelCase , 0 , [0] * length , _lowerCamelCase)
return result
if __name__ == "__main__":
print(f"{solution() = }")
| 87 | 0 |
from datetime import datetime
import requests
def A (__A : str ) -> bytes:
"""simple docstring"""
UpperCAmelCase_ = '''https://downloadgram.net/wp-json/wppress/video-downloader/video?url='''
UpperCAmelCase_ = requests.get(base_url + url ).json()[0]['''urls'''][0]['''src''']
return requests.get(__A ).content
if __name__ == "__main__":
snake_case_ : Optional[Any] = input("Enter Video/IGTV url: ").strip()
snake_case_ : Any = f"{datetime.now():%Y-%m-%d_%H:%M:%S}.mp4"
with open(file_name, "wb") as fp:
fp.write(download_video(url))
print(f"Done. Video saved to disk as {file_name}.")
| 51 | import sacrebleu as scb
from packaging import version
from sacrebleu import TER
import datasets
UpperCamelCase = '''\
@inproceedings{snover-etal-2006-study,
title = "A Study of Translation Edit Rate with Targeted Human Annotation",
author = "Snover, Matthew and
Dorr, Bonnie and
Schwartz, Rich and
Micciulla, Linnea and
Makhoul, John",
booktitle = "Proceedings of the 7th Conference of the Association for Machine Translation in the Americas: Technical Papers",
month = aug # " 8-12",
year = "2006",
address = "Cambridge, Massachusetts, USA",
publisher = "Association for Machine Translation in the Americas",
url = "https://aclanthology.org/2006.amta-papers.25",
pages = "223--231",
}
@inproceedings{post-2018-call,
title = "A Call for Clarity in Reporting {BLEU} Scores",
author = "Post, Matt",
booktitle = "Proceedings of the Third Conference on Machine Translation: Research Papers",
month = oct,
year = "2018",
address = "Belgium, Brussels",
publisher = "Association for Computational Linguistics",
url = "https://www.aclweb.org/anthology/W18-6319",
pages = "186--191",
}
'''
UpperCamelCase = '''\
TER (Translation Edit Rate, also called Translation Error Rate) is a metric to quantify the edit operations that a
hypothesis requires to match a reference translation. We use the implementation that is already present in sacrebleu
(https://github.com/mjpost/sacreBLEU#ter), which in turn is inspired by the TERCOM implementation, which can be found
here: https://github.com/jhclark/tercom.
The implementation here is slightly different from sacrebleu in terms of the required input format. The length of
the references and hypotheses lists need to be the same, so you may need to transpose your references compared to
sacrebleu\'s required input format. See https://github.com/huggingface/datasets/issues/3154#issuecomment-950746534
See the README.md file at https://github.com/mjpost/sacreBLEU#ter for more information.
'''
UpperCamelCase = '''
Produces TER scores alongside the number of edits and reference length.
Args:
predictions (list of str): The system stream (a sequence of segments).
references (list of list of str): A list of one or more reference streams (each a sequence of segments).
normalized (boolean): If `True`, applies basic tokenization and normalization to sentences. Defaults to `False`.
ignore_punct (boolean): If `True`, applies basic tokenization and normalization to sentences. Defaults to `False`.
support_zh_ja_chars (boolean): If `True`, tokenization/normalization supports processing of Chinese characters,
as well as Japanese Kanji, Hiragana, Katakana, and Phonetic Extensions of Katakana.
Only applies if `normalized = True`. Defaults to `False`.
case_sensitive (boolean): If `False`, makes all predictions and references lowercase to ignore differences in case. Defaults to `False`.
Returns:
\'score\' (float): TER score (num_edits / sum_ref_lengths * 100)
\'num_edits\' (int): The cumulative number of edits
\'ref_length\' (float): The cumulative average reference length
Examples:
Example 1:
>>> predictions = ["does this sentence match??",
... "what about this sentence?",
... "What did the TER metric user say to the developer?"]
>>> references = [["does this sentence match", "does this sentence match!?!"],
... ["wHaT aBoUt ThIs SeNtEnCe?", "wHaT aBoUt ThIs SeNtEnCe?"],
... ["Your jokes are...", "...TERrible"]]
>>> ter = datasets.load_metric("ter")
>>> results = ter.compute(predictions=predictions,
... references=references,
... case_sensitive=True)
>>> print(results)
{\'score\': 150.0, \'num_edits\': 15, \'ref_length\': 10.0}
Example 2:
>>> predictions = ["does this sentence match??",
... "what about this sentence?"]
>>> references = [["does this sentence match", "does this sentence match!?!"],
... ["wHaT aBoUt ThIs SeNtEnCe?", "wHaT aBoUt ThIs SeNtEnCe?"]]
>>> ter = datasets.load_metric("ter")
>>> results = ter.compute(predictions=predictions,
... references=references,
... case_sensitive=True)
>>> print(results)
{\'score\': 62.5, \'num_edits\': 5, \'ref_length\': 8.0}
Example 3:
>>> predictions = ["does this sentence match??",
... "what about this sentence?"]
>>> references = [["does this sentence match", "does this sentence match!?!"],
... ["wHaT aBoUt ThIs SeNtEnCe?", "wHaT aBoUt ThIs SeNtEnCe?"]]
>>> ter = datasets.load_metric("ter")
>>> results = ter.compute(predictions=predictions,
... references=references,
... normalized=True,
... case_sensitive=True)
>>> print(results)
{\'score\': 57.14285714285714, \'num_edits\': 6, \'ref_length\': 10.5}
Example 4:
>>> predictions = ["does this sentence match??",
... "what about this sentence?"]
>>> references = [["does this sentence match", "does this sentence match!?!"],
... ["wHaT aBoUt ThIs SeNtEnCe?", "wHaT aBoUt ThIs SeNtEnCe?"]]
>>> ter = datasets.load_metric("ter")
>>> results = ter.compute(predictions=predictions,
... references=references,
... ignore_punct=True,
... case_sensitive=False)
>>> print(results)
{\'score\': 0.0, \'num_edits\': 0, \'ref_length\': 8.0}
Example 5:
>>> predictions = ["does this sentence match??",
... "what about this sentence?",
... "What did the TER metric user say to the developer?"]
>>> references = [["does this sentence match", "does this sentence match!?!"],
... ["wHaT aBoUt ThIs SeNtEnCe?", "wHaT aBoUt ThIs SeNtEnCe?"],
... ["Your jokes are...", "...TERrible"]]
>>> ter = datasets.load_metric("ter")
>>> results = ter.compute(predictions=predictions,
... references=references,
... ignore_punct=True,
... case_sensitive=False)
>>> print(results)
{\'score\': 100.0, \'num_edits\': 10, \'ref_length\': 10.0}
'''
@datasets.utils.file_utils.add_start_docstrings(_DESCRIPTION ,_KWARGS_DESCRIPTION )
class snake_case_ ( datasets.Metric ):
def __UpperCamelCase ( self : Union[str, Any] ) -> Tuple:
if version.parse(scb.__version__ ) < version.parse("1.4.12" ):
raise ImportWarning(
"To use `sacrebleu`, the module `sacrebleu>=1.4.12` is required, and the current version of `sacrebleu` doesn't match this condition.\n"
"You can install it with `pip install \"sacrebleu>=1.4.12\"`." )
return datasets.MetricInfo(
description=_DESCRIPTION , citation=_CITATION , homepage="http://www.cs.umd.edu/~snover/tercom/" , inputs_description=_KWARGS_DESCRIPTION , features=datasets.Features(
{
"predictions": datasets.Value("string" , id="sequence" ),
"references": datasets.Sequence(datasets.Value("string" , id="sequence" ) , id="references" ),
} ) , codebase_urls=["https://github.com/mjpost/sacreBLEU#ter"] , reference_urls=[
"https://github.com/jhclark/tercom",
] , )
def __UpperCamelCase ( self : Optional[Any] , lowercase_ : str , lowercase_ : Optional[int] , lowercase_ : bool = False , lowercase_ : bool = False , lowercase_ : bool = False , lowercase_ : bool = False , ) -> Any:
lowercase__ : Optional[int] = len(references[0] )
if any(len(lowercase_ ) != references_per_prediction for refs in references ):
raise ValueError("Sacrebleu requires the same number of references for each prediction" )
lowercase__ : Union[str, Any] = [[refs[i] for refs in references] for i in range(lowercase_ )]
lowercase__ : str = TER(
normalized=lowercase_ , no_punct=lowercase_ , asian_support=lowercase_ , case_sensitive=lowercase_ , )
lowercase__ : List[str] = sb_ter.corpus_score(lowercase_ , lowercase_ )
return {"score": output.score, "num_edits": output.num_edits, "ref_length": output.ref_length}
| 87 | 0 |
import argparse
import math
import os
import torch
from neural_compressor.utils.pytorch import load
from PIL import Image
from transformers import CLIPTextModel, CLIPTokenizer
from diffusers import AutoencoderKL, StableDiffusionPipeline, UNetaDConditionModel
def A_ ( ) -> List[Any]:
UpperCamelCase : int = argparse.ArgumentParser()
parser.add_argument(
"-m" , "--pretrained_model_name_or_path" , type=_lowerCAmelCase , default=_lowerCAmelCase , required=_lowerCAmelCase , help="Path to pretrained model or model identifier from huggingface.co/models." , )
parser.add_argument(
"-c" , "--caption" , type=_lowerCAmelCase , default="robotic cat with wings" , help="Text used to generate images." , )
parser.add_argument(
"-n" , "--images_num" , type=_lowerCAmelCase , default=4 , help="How much images to generate." , )
parser.add_argument(
"-s" , "--seed" , type=_lowerCAmelCase , default=42 , help="Seed for random process." , )
parser.add_argument(
"-ci" , "--cuda_id" , type=_lowerCAmelCase , default=0 , help="cuda_id." , )
UpperCamelCase : Optional[Any] = parser.parse_args()
return args
def A_ ( _lowerCAmelCase , _lowerCAmelCase , _lowerCAmelCase ) -> Union[str, Any]:
if not len(_lowerCAmelCase ) == rows * cols:
raise ValueError("The specified number of rows and columns are not correct." )
UpperCamelCase , UpperCamelCase : Dict = imgs[0].size
UpperCamelCase : int = Image.new("RGB" , size=(cols * w, rows * h) )
UpperCamelCase , UpperCamelCase : List[str] = grid.size
for i, img in enumerate(_lowerCAmelCase ):
grid.paste(_lowerCAmelCase , box=(i % cols * w, i // cols * h) )
return grid
def A_ ( _lowerCAmelCase , _lowerCAmelCase="robotic cat with wings" , _lowerCAmelCase=7.5 , _lowerCAmelCase=50 , _lowerCAmelCase=1 , _lowerCAmelCase=42 , ) -> Dict:
UpperCamelCase : str = torch.Generator(pipeline.device ).manual_seed(_lowerCAmelCase )
UpperCamelCase : List[str] = pipeline(
_lowerCAmelCase , guidance_scale=_lowerCAmelCase , num_inference_steps=_lowerCAmelCase , generator=_lowerCAmelCase , num_images_per_prompt=_lowerCAmelCase , ).images
UpperCamelCase : List[Any] = int(math.sqrt(_lowerCAmelCase ) )
UpperCamelCase : str = image_grid(_lowerCAmelCase , rows=_rows , cols=num_images_per_prompt // _rows )
return grid, images
__lowerCamelCase : Union[str, Any] = parse_args()
# Load models and create wrapper for stable diffusion
__lowerCamelCase : Any = CLIPTokenizer.from_pretrained(args.pretrained_model_name_or_path, subfolder="""tokenizer""")
__lowerCamelCase : Any = CLIPTextModel.from_pretrained(args.pretrained_model_name_or_path, subfolder="""text_encoder""")
__lowerCamelCase : Tuple = AutoencoderKL.from_pretrained(args.pretrained_model_name_or_path, subfolder="""vae""")
__lowerCamelCase : int = UNetaDConditionModel.from_pretrained(args.pretrained_model_name_or_path, subfolder="""unet""")
__lowerCamelCase : str = StableDiffusionPipeline.from_pretrained(
args.pretrained_model_name_or_path, text_encoder=text_encoder, vae=vae, unet=unet, tokenizer=tokenizer
)
__lowerCamelCase : List[str] = lambda images, clip_input: (images, False)
if os.path.exists(os.path.join(args.pretrained_model_name_or_path, """best_model.pt""")):
__lowerCamelCase : str = load(args.pretrained_model_name_or_path, model=unet)
unet.eval()
setattr(pipeline, """unet""", unet)
else:
__lowerCamelCase : Optional[int] = unet.to(torch.device("""cuda""", args.cuda_id))
__lowerCamelCase : Dict = pipeline.to(unet.device)
__lowerCamelCase , __lowerCamelCase : Any = generate_images(pipeline, prompt=args.caption, num_images_per_prompt=args.images_num, seed=args.seed)
grid.save(os.path.join(args.pretrained_model_name_or_path, """{}.png""".format("""_""".join(args.caption.split()))))
__lowerCamelCase : Union[str, Any] = os.path.join(args.pretrained_model_name_or_path, """_""".join(args.caption.split()))
os.makedirs(dirname, exist_ok=True)
for idx, image in enumerate(images):
image.save(os.path.join(dirname, """{}.png""".format(idx + 1)))
| 52 | def lowercase_ ( _lowerCamelCase : int):
lowercase__ : Dict = n ** (1 / 3)
return (val * val * val) == n
if __name__ == "__main__":
print(perfect_cube(27))
print(perfect_cube(4))
| 87 | 0 |
'''simple docstring'''
import os
import shutil
import sys
import tempfile
import unittest
from pathlib import Path
import pytest
import transformers
from transformers import (
BERT_PRETRAINED_CONFIG_ARCHIVE_MAP,
GPT2_PRETRAINED_CONFIG_ARCHIVE_MAP,
AutoTokenizer,
BertConfig,
BertTokenizer,
BertTokenizerFast,
CTRLTokenizer,
GPTaTokenizer,
GPTaTokenizerFast,
PreTrainedTokenizerFast,
RobertaTokenizer,
RobertaTokenizerFast,
is_tokenizers_available,
)
from transformers.models.auto.configuration_auto import CONFIG_MAPPING, AutoConfig
from transformers.models.auto.tokenization_auto import (
TOKENIZER_MAPPING,
get_tokenizer_config,
tokenizer_class_from_name,
)
from transformers.models.roberta.configuration_roberta import RobertaConfig
from transformers.testing_utils import (
DUMMY_DIFF_TOKENIZER_IDENTIFIER,
DUMMY_UNKNOWN_IDENTIFIER,
SMALL_MODEL_IDENTIFIER,
RequestCounter,
require_tokenizers,
slow,
)
sys.path.append(str(Path(__file__).parent.parent.parent.parent / '''utils'''))
from test_module.custom_configuration import CustomConfig # noqa E402
from test_module.custom_tokenization import CustomTokenizer # noqa E402
if is_tokenizers_available():
from test_module.custom_tokenization_fast import CustomTokenizerFast
class snake_case ( unittest.TestCase ):
"""simple docstring"""
def _lowerCamelCase ( self : Any ):
__UpperCamelCase = 0
@slow
def _lowerCamelCase ( self : Dict ):
for model_name in (x for x in BERT_PRETRAINED_CONFIG_ARCHIVE_MAP.keys() if "japanese" not in x):
__UpperCamelCase = AutoTokenizer.from_pretrained(__A )
self.assertIsNotNone(__A )
self.assertIsInstance(__A , (BertTokenizer, BertTokenizerFast) )
self.assertGreater(len(__A ) , 0 )
for model_name in GPT2_PRETRAINED_CONFIG_ARCHIVE_MAP.keys():
__UpperCamelCase = AutoTokenizer.from_pretrained(__A )
self.assertIsNotNone(__A )
self.assertIsInstance(__A , (GPTaTokenizer, GPTaTokenizerFast) )
self.assertGreater(len(__A ) , 0 )
def _lowerCamelCase ( self : Dict ):
__UpperCamelCase = AutoTokenizer.from_pretrained(__A )
self.assertIsInstance(__A , (BertTokenizer, BertTokenizerFast) )
self.assertEqual(tokenizer.vocab_size , 1_2 )
def _lowerCamelCase ( self : Union[str, Any] ):
__UpperCamelCase = AutoTokenizer.from_pretrained(__A )
self.assertIsInstance(__A , (RobertaTokenizer, RobertaTokenizerFast) )
self.assertEqual(tokenizer.vocab_size , 2_0 )
def _lowerCamelCase ( self : Dict ):
__UpperCamelCase = AutoConfig.from_pretrained(__A )
self.assertIsInstance(__A , __A )
# Check that tokenizer_type ≠ model_type
__UpperCamelCase = AutoTokenizer.from_pretrained(__A , config=__A )
self.assertIsInstance(__A , (BertTokenizer, BertTokenizerFast) )
self.assertEqual(tokenizer.vocab_size , 1_2 )
def _lowerCamelCase ( self : Optional[Any] ):
with tempfile.TemporaryDirectory() as tmp_dir:
shutil.copy('./tests/fixtures/vocab.txt' , os.path.join(__A , 'vocab.txt' ) )
__UpperCamelCase = AutoTokenizer.from_pretrained(__A , tokenizer_type='bert' , use_fast=__A )
self.assertIsInstance(__A , __A )
with tempfile.TemporaryDirectory() as tmp_dir:
shutil.copy('./tests/fixtures/vocab.json' , os.path.join(__A , 'vocab.json' ) )
shutil.copy('./tests/fixtures/merges.txt' , os.path.join(__A , 'merges.txt' ) )
__UpperCamelCase = AutoTokenizer.from_pretrained(__A , tokenizer_type='gpt2' , use_fast=__A )
self.assertIsInstance(__A , __A )
@require_tokenizers
def _lowerCamelCase ( self : Optional[int] ):
with tempfile.TemporaryDirectory() as tmp_dir:
shutil.copy('./tests/fixtures/vocab.txt' , os.path.join(__A , 'vocab.txt' ) )
__UpperCamelCase = AutoTokenizer.from_pretrained(__A , tokenizer_type='bert' )
self.assertIsInstance(__A , __A )
with tempfile.TemporaryDirectory() as tmp_dir:
shutil.copy('./tests/fixtures/vocab.json' , os.path.join(__A , 'vocab.json' ) )
shutil.copy('./tests/fixtures/merges.txt' , os.path.join(__A , 'merges.txt' ) )
__UpperCamelCase = AutoTokenizer.from_pretrained(__A , tokenizer_type='gpt2' )
self.assertIsInstance(__A , __A )
def _lowerCamelCase ( self : int ):
with pytest.raises(__A ):
AutoTokenizer.from_pretrained('./' , tokenizer_type='xxx' )
@require_tokenizers
def _lowerCamelCase ( self : Optional[Any] ):
for tokenizer_class in [BertTokenizer, BertTokenizerFast, AutoTokenizer]:
__UpperCamelCase = tokenizer_class.from_pretrained('wietsedv/bert-base-dutch-cased' )
self.assertIsInstance(__A , (BertTokenizer, BertTokenizerFast) )
if isinstance(__A , __A ):
self.assertEqual(tokenizer.basic_tokenizer.do_lower_case , __A )
else:
self.assertEqual(tokenizer.do_lower_case , __A )
self.assertEqual(tokenizer.model_max_length , 5_1_2 )
@require_tokenizers
def _lowerCamelCase ( self : List[str] ):
for tokenizer_class in [BertTokenizer, BertTokenizerFast, AutoTokenizer]:
with self.assertRaisesRegex(
__A , 'julien-c/herlolip-not-exists is not a local folder and is not a valid model identifier' , ):
__UpperCamelCase = tokenizer_class.from_pretrained('julien-c/herlolip-not-exists' )
def _lowerCamelCase ( self : List[Any] ):
# tests: https://github.com/huggingface/transformers/pull/13251
# 1. models with `-`, e.g. xlm-roberta -> xlm_roberta
# 2. models that don't remap 1-1 from model-name to model file, e.g., openai-gpt -> openai
__UpperCamelCase = TOKENIZER_MAPPING.values()
__UpperCamelCase = []
for slow_tok, fast_tok in tokenizers:
if slow_tok is not None:
tokenizer_names.append(slow_tok.__name__ )
if fast_tok is not None:
tokenizer_names.append(fast_tok.__name__ )
for tokenizer_name in tokenizer_names:
# must find the right class
tokenizer_class_from_name(__A )
@require_tokenizers
def _lowerCamelCase ( self : Optional[int] ):
self.assertIsInstance(AutoTokenizer.from_pretrained('bert-base-cased' , use_fast=__A ) , __A )
self.assertIsInstance(AutoTokenizer.from_pretrained('bert-base-cased' ) , __A )
@require_tokenizers
def _lowerCamelCase ( self : Optional[int] ):
__UpperCamelCase = AutoTokenizer.from_pretrained('distilbert-base-uncased' , do_lower_case=__A )
__UpperCamelCase = 'Hello, world. How are you?'
__UpperCamelCase = tokenizer.tokenize(__A )
self.assertEqual('[UNK]' , tokens[0] )
__UpperCamelCase = AutoTokenizer.from_pretrained('microsoft/mpnet-base' , do_lower_case=__A )
__UpperCamelCase = tokenizer.tokenize(__A )
self.assertEqual('[UNK]' , tokens[0] )
@require_tokenizers
def _lowerCamelCase ( self : List[Any] ):
__UpperCamelCase = AutoTokenizer.from_pretrained('robot-test/dummy-tokenizer-fast-with-model-config' )
self.assertEqual(type(__A ) , __A )
self.assertEqual(tokenizer.model_max_length , 5_1_2 )
self.assertEqual(tokenizer.vocab_size , 3_0_0_0_0 )
self.assertEqual(tokenizer.unk_token , '[UNK]' )
self.assertEqual(tokenizer.padding_side , 'right' )
self.assertEqual(tokenizer.truncation_side , 'right' )
def _lowerCamelCase ( self : int ):
__UpperCamelCase = AutoTokenizer.from_pretrained(__A )
self.assertIsInstance(__A , (BertTokenizer, BertTokenizerFast) )
with tempfile.TemporaryDirectory() as tmp_dir:
tokenizer.save_pretrained(__A )
__UpperCamelCase = AutoTokenizer.from_pretrained(__A )
self.assertIsInstance(__A , tokenizer.__class__ )
self.assertEqual(tokenizera.vocab_size , 1_2 )
def _lowerCamelCase ( self : int ):
__UpperCamelCase = AutoTokenizer.from_pretrained('ctrl' )
# There is no fast CTRL so this always gives us a slow tokenizer.
self.assertIsInstance(__A , __A )
def _lowerCamelCase ( self : Tuple ):
# Check we can load the tokenizer config of an online model.
__UpperCamelCase = get_tokenizer_config('bert-base-cased' )
__UpperCamelCase = config.pop('_commit_hash' , __A )
# If we ever update bert-base-cased tokenizer config, this dict here will need to be updated.
self.assertEqual(__A , {'do_lower_case': False} )
# This model does not have a tokenizer_config so we get back an empty dict.
__UpperCamelCase = get_tokenizer_config(__A )
self.assertDictEqual(__A , {} )
# A tokenizer saved with `save_pretrained` always creates a tokenizer config.
__UpperCamelCase = AutoTokenizer.from_pretrained(__A )
with tempfile.TemporaryDirectory() as tmp_dir:
tokenizer.save_pretrained(__A )
__UpperCamelCase = get_tokenizer_config(__A )
# Check the class of the tokenizer was properly saved (note that it always saves the slow class).
self.assertEqual(config['tokenizer_class'] , 'BertTokenizer' )
def _lowerCamelCase ( self : List[str] ):
try:
AutoConfig.register('custom' , __A )
AutoTokenizer.register(__A , slow_tokenizer_class=__A )
# Trying to register something existing in the Transformers library will raise an error
with self.assertRaises(__A ):
AutoTokenizer.register(__A , slow_tokenizer_class=__A )
__UpperCamelCase = CustomTokenizer.from_pretrained(__A )
with tempfile.TemporaryDirectory() as tmp_dir:
tokenizer.save_pretrained(__A )
__UpperCamelCase = AutoTokenizer.from_pretrained(__A )
self.assertIsInstance(__A , __A )
finally:
if "custom" in CONFIG_MAPPING._extra_content:
del CONFIG_MAPPING._extra_content["custom"]
if CustomConfig in TOKENIZER_MAPPING._extra_content:
del TOKENIZER_MAPPING._extra_content[CustomConfig]
@require_tokenizers
def _lowerCamelCase ( self : Optional[int] ):
try:
AutoConfig.register('custom' , __A )
# Can register in two steps
AutoTokenizer.register(__A , slow_tokenizer_class=__A )
self.assertEqual(TOKENIZER_MAPPING[CustomConfig] , (CustomTokenizer, None) )
AutoTokenizer.register(__A , fast_tokenizer_class=__A )
self.assertEqual(TOKENIZER_MAPPING[CustomConfig] , (CustomTokenizer, CustomTokenizerFast) )
del TOKENIZER_MAPPING._extra_content[CustomConfig]
# Can register in one step
AutoTokenizer.register(
__A , slow_tokenizer_class=__A , fast_tokenizer_class=__A )
self.assertEqual(TOKENIZER_MAPPING[CustomConfig] , (CustomTokenizer, CustomTokenizerFast) )
# Trying to register something existing in the Transformers library will raise an error
with self.assertRaises(__A ):
AutoTokenizer.register(__A , fast_tokenizer_class=__A )
# We pass through a bert tokenizer fast cause there is no converter slow to fast for our new toknizer
# and that model does not have a tokenizer.json
with tempfile.TemporaryDirectory() as tmp_dir:
__UpperCamelCase = BertTokenizerFast.from_pretrained(__A )
bert_tokenizer.save_pretrained(__A )
__UpperCamelCase = CustomTokenizerFast.from_pretrained(__A )
with tempfile.TemporaryDirectory() as tmp_dir:
tokenizer.save_pretrained(__A )
__UpperCamelCase = AutoTokenizer.from_pretrained(__A )
self.assertIsInstance(__A , __A )
__UpperCamelCase = AutoTokenizer.from_pretrained(__A , use_fast=__A )
self.assertIsInstance(__A , __A )
finally:
if "custom" in CONFIG_MAPPING._extra_content:
del CONFIG_MAPPING._extra_content["custom"]
if CustomConfig in TOKENIZER_MAPPING._extra_content:
del TOKENIZER_MAPPING._extra_content[CustomConfig]
def _lowerCamelCase ( self : List[Any] ):
# If remote code is not set, we will time out when asking whether to load the model.
with self.assertRaises(__A ):
__UpperCamelCase = AutoTokenizer.from_pretrained('hf-internal-testing/test_dynamic_tokenizer' )
# If remote code is disabled, we can't load this config.
with self.assertRaises(__A ):
__UpperCamelCase = AutoTokenizer.from_pretrained(
'hf-internal-testing/test_dynamic_tokenizer' , trust_remote_code=__A )
__UpperCamelCase = AutoTokenizer.from_pretrained('hf-internal-testing/test_dynamic_tokenizer' , trust_remote_code=__A )
self.assertTrue(tokenizer.special_attribute_present )
# Test tokenizer can be reloaded.
with tempfile.TemporaryDirectory() as tmp_dir:
tokenizer.save_pretrained(__A )
__UpperCamelCase = AutoTokenizer.from_pretrained(__A , trust_remote_code=__A )
self.assertTrue(reloaded_tokenizer.special_attribute_present )
if is_tokenizers_available():
self.assertEqual(tokenizer.__class__.__name__ , 'NewTokenizerFast' )
self.assertEqual(reloaded_tokenizer.__class__.__name__ , 'NewTokenizerFast' )
# Test we can also load the slow version
__UpperCamelCase = AutoTokenizer.from_pretrained(
'hf-internal-testing/test_dynamic_tokenizer' , trust_remote_code=__A , use_fast=__A )
self.assertTrue(tokenizer.special_attribute_present )
self.assertEqual(tokenizer.__class__.__name__ , 'NewTokenizer' )
# Test tokenizer can be reloaded.
with tempfile.TemporaryDirectory() as tmp_dir:
tokenizer.save_pretrained(__A )
__UpperCamelCase = AutoTokenizer.from_pretrained(__A , trust_remote_code=__A , use_fast=__A )
self.assertEqual(reloaded_tokenizer.__class__.__name__ , 'NewTokenizer' )
self.assertTrue(reloaded_tokenizer.special_attribute_present )
else:
self.assertEqual(tokenizer.__class__.__name__ , 'NewTokenizer' )
self.assertEqual(reloaded_tokenizer.__class__.__name__ , 'NewTokenizer' )
@require_tokenizers
def _lowerCamelCase ( self : Any ):
class snake_case ( __lowerCamelCase ):
"""simple docstring"""
SCREAMING_SNAKE_CASE_ : Any =False
class snake_case ( __lowerCamelCase ):
"""simple docstring"""
SCREAMING_SNAKE_CASE_ : str =NewTokenizer
SCREAMING_SNAKE_CASE_ : str =False
try:
AutoConfig.register('custom' , __A )
AutoTokenizer.register(__A , slow_tokenizer_class=__A )
AutoTokenizer.register(__A , fast_tokenizer_class=__A )
# If remote code is not set, the default is to use local
__UpperCamelCase = AutoTokenizer.from_pretrained('hf-internal-testing/test_dynamic_tokenizer' )
self.assertEqual(tokenizer.__class__.__name__ , 'NewTokenizerFast' )
self.assertFalse(tokenizer.special_attribute_present )
__UpperCamelCase = AutoTokenizer.from_pretrained('hf-internal-testing/test_dynamic_tokenizer' , use_fast=__A )
self.assertEqual(tokenizer.__class__.__name__ , 'NewTokenizer' )
self.assertFalse(tokenizer.special_attribute_present )
# If remote code is disabled, we load the local one.
__UpperCamelCase = AutoTokenizer.from_pretrained(
'hf-internal-testing/test_dynamic_tokenizer' , trust_remote_code=__A )
self.assertEqual(tokenizer.__class__.__name__ , 'NewTokenizerFast' )
self.assertFalse(tokenizer.special_attribute_present )
__UpperCamelCase = AutoTokenizer.from_pretrained(
'hf-internal-testing/test_dynamic_tokenizer' , trust_remote_code=__A , use_fast=__A )
self.assertEqual(tokenizer.__class__.__name__ , 'NewTokenizer' )
self.assertFalse(tokenizer.special_attribute_present )
# If remote is enabled, we load from the Hub
__UpperCamelCase = AutoTokenizer.from_pretrained(
'hf-internal-testing/test_dynamic_tokenizer' , trust_remote_code=__A )
self.assertEqual(tokenizer.__class__.__name__ , 'NewTokenizerFast' )
self.assertTrue(tokenizer.special_attribute_present )
__UpperCamelCase = AutoTokenizer.from_pretrained(
'hf-internal-testing/test_dynamic_tokenizer' , trust_remote_code=__A , use_fast=__A )
self.assertEqual(tokenizer.__class__.__name__ , 'NewTokenizer' )
self.assertTrue(tokenizer.special_attribute_present )
finally:
if "custom" in CONFIG_MAPPING._extra_content:
del CONFIG_MAPPING._extra_content["custom"]
if CustomConfig in TOKENIZER_MAPPING._extra_content:
del TOKENIZER_MAPPING._extra_content[CustomConfig]
def _lowerCamelCase ( self : Dict ):
__UpperCamelCase = AutoTokenizer.from_pretrained(
'hf-internal-testing/test_dynamic_tokenizer_legacy' , trust_remote_code=__A )
self.assertTrue(tokenizer.special_attribute_present )
if is_tokenizers_available():
self.assertEqual(tokenizer.__class__.__name__ , 'NewTokenizerFast' )
# Test we can also load the slow version
__UpperCamelCase = AutoTokenizer.from_pretrained(
'hf-internal-testing/test_dynamic_tokenizer_legacy' , trust_remote_code=__A , use_fast=__A )
self.assertTrue(tokenizer.special_attribute_present )
self.assertEqual(tokenizer.__class__.__name__ , 'NewTokenizer' )
else:
self.assertEqual(tokenizer.__class__.__name__ , 'NewTokenizer' )
def _lowerCamelCase ( self : int ):
with self.assertRaisesRegex(
__A , 'bert-base is not a local folder and is not a valid model identifier' ):
__UpperCamelCase = AutoTokenizer.from_pretrained('bert-base' )
def _lowerCamelCase ( self : str ):
with self.assertRaisesRegex(
__A , R'aaaaaa is not a valid git identifier \(branch name, tag name or commit id\)' ):
__UpperCamelCase = AutoTokenizer.from_pretrained(__A , revision='aaaaaa' )
def _lowerCamelCase ( self : Dict ):
# Make sure we have cached the tokenizer.
__UpperCamelCase = AutoTokenizer.from_pretrained('hf-internal-testing/tiny-random-bert' )
with RequestCounter() as counter:
__UpperCamelCase = AutoTokenizer.from_pretrained('hf-internal-testing/tiny-random-bert' )
self.assertEqual(counter.get_request_count , 0 )
self.assertEqual(counter.head_request_count , 1 )
self.assertEqual(counter.other_request_count , 0 )
| 53 | from PIL import Image
def lowercase_ ( _lowerCamelCase : Image , _lowerCamelCase : int):
lowercase__ : List[str] = (259 * (level + 255)) / (255 * (259 - level))
def contrast(_lowerCamelCase : int) -> int:
return int(128 + factor * (c - 128))
return img.point(_lowerCamelCase)
if __name__ == "__main__":
# Load image
with Image.open('''image_data/lena.jpg''') as img:
# Change contrast to 170
UpperCamelCase = change_contrast(img, 170)
cont_img.save('''image_data/lena_high_contrast.png''', format='''png''')
| 87 | 0 |
"""simple docstring"""
from math import sqrt
def UpperCAmelCase__ (lowerCAmelCase_ ):
'''simple docstring'''
assert isinstance(lowerCAmelCase_ , lowerCAmelCase_ ) and (
number >= 0
), "'number' must been an int and positive"
__SCREAMING_SNAKE_CASE = True
# 0 and 1 are none primes.
if number <= 1:
__SCREAMING_SNAKE_CASE = False
for divisor in range(2 , int(round(sqrt(lowerCAmelCase_ ) ) ) + 1 ):
# if 'number' divisible by 'divisor' then sets 'status'
# of false and break up the loop.
if number % divisor == 0:
__SCREAMING_SNAKE_CASE = False
break
# precondition
assert isinstance(lowerCAmelCase_ , lowerCAmelCase_ ), "'status' must been from type bool"
return status
def UpperCAmelCase__ (lowerCAmelCase_ ):
'''simple docstring'''
assert isinstance(lowerCAmelCase_ , lowerCAmelCase_ ) and (n > 2), "'N' must been an int and > 2"
# beginList: contains all natural numbers from 2 up to N
__SCREAMING_SNAKE_CASE = list(range(2 , n + 1 ) )
__SCREAMING_SNAKE_CASE = [] # this list will be returns.
# actual sieve of erathostenes
for i in range(len(lowerCAmelCase_ ) ):
for j in range(i + 1 , len(lowerCAmelCase_ ) ):
if (begin_list[i] != 0) and (begin_list[j] % begin_list[i] == 0):
__SCREAMING_SNAKE_CASE = 0
# filters actual prime numbers.
__SCREAMING_SNAKE_CASE = [x for x in begin_list if x != 0]
# precondition
assert isinstance(lowerCAmelCase_ , lowerCAmelCase_ ), "'ans' must been from type list"
return ans
def UpperCAmelCase__ (lowerCAmelCase_ ):
'''simple docstring'''
assert isinstance(lowerCAmelCase_ , lowerCAmelCase_ ) and (n > 2), "'N' must been an int and > 2"
__SCREAMING_SNAKE_CASE = []
# iterates over all numbers between 2 up to N+1
# if a number is prime then appends to list 'ans'
for number in range(2 , n + 1 ):
if is_prime(lowerCAmelCase_ ):
ans.append(lowerCAmelCase_ )
# precondition
assert isinstance(lowerCAmelCase_ , lowerCAmelCase_ ), "'ans' must been from type list"
return ans
def UpperCAmelCase__ (lowerCAmelCase_ ):
'''simple docstring'''
assert isinstance(lowerCAmelCase_ , lowerCAmelCase_ ) and number >= 0, "'number' must been an int and >= 0"
__SCREAMING_SNAKE_CASE = [] # this list will be returns of the function.
# potential prime number factors.
__SCREAMING_SNAKE_CASE = 2
__SCREAMING_SNAKE_CASE = number
if number == 0 or number == 1:
ans.append(lowerCAmelCase_ )
# if 'number' not prime then builds the prime factorization of 'number'
elif not is_prime(lowerCAmelCase_ ):
while quotient != 1:
if is_prime(lowerCAmelCase_ ) and (quotient % factor == 0):
ans.append(lowerCAmelCase_ )
quotient /= factor
else:
factor += 1
else:
ans.append(lowerCAmelCase_ )
# precondition
assert isinstance(lowerCAmelCase_ , lowerCAmelCase_ ), "'ans' must been from type list"
return ans
def UpperCAmelCase__ (lowerCAmelCase_ ):
'''simple docstring'''
assert isinstance(lowerCAmelCase_ , lowerCAmelCase_ ) and (
number >= 0
), "'number' bust been an int and >= 0"
__SCREAMING_SNAKE_CASE = 0
# prime factorization of 'number'
__SCREAMING_SNAKE_CASE = prime_factorization(lowerCAmelCase_ )
__SCREAMING_SNAKE_CASE = max(lowerCAmelCase_ )
# precondition
assert isinstance(lowerCAmelCase_ , lowerCAmelCase_ ), "'ans' must been from type int"
return ans
def UpperCAmelCase__ (lowerCAmelCase_ ):
'''simple docstring'''
assert isinstance(lowerCAmelCase_ , lowerCAmelCase_ ) and (
number >= 0
), "'number' bust been an int and >= 0"
__SCREAMING_SNAKE_CASE = 0
# prime factorization of 'number'
__SCREAMING_SNAKE_CASE = prime_factorization(lowerCAmelCase_ )
__SCREAMING_SNAKE_CASE = min(lowerCAmelCase_ )
# precondition
assert isinstance(lowerCAmelCase_ , lowerCAmelCase_ ), "'ans' must been from type int"
return ans
def UpperCAmelCase__ (lowerCAmelCase_ ):
'''simple docstring'''
assert isinstance(lowerCAmelCase_ , lowerCAmelCase_ ), "'number' must been an int"
assert isinstance(number % 2 == 0 , lowerCAmelCase_ ), "compare bust been from type bool"
return number % 2 == 0
def UpperCAmelCase__ (lowerCAmelCase_ ):
'''simple docstring'''
assert isinstance(lowerCAmelCase_ , lowerCAmelCase_ ), "'number' must been an int"
assert isinstance(number % 2 != 0 , lowerCAmelCase_ ), "compare bust been from type bool"
return number % 2 != 0
def UpperCAmelCase__ (lowerCAmelCase_ ):
'''simple docstring'''
assert (
isinstance(lowerCAmelCase_ , lowerCAmelCase_ ) and (number > 2) and is_even(lowerCAmelCase_ )
), "'number' must been an int, even and > 2"
__SCREAMING_SNAKE_CASE = [] # this list will returned
# creates a list of prime numbers between 2 up to 'number'
__SCREAMING_SNAKE_CASE = get_prime_numbers(lowerCAmelCase_ )
__SCREAMING_SNAKE_CASE = len(lowerCAmelCase_ )
# run variable for while-loops.
__SCREAMING_SNAKE_CASE = 0
__SCREAMING_SNAKE_CASE = None
# exit variable. for break up the loops
__SCREAMING_SNAKE_CASE = True
while i < len_pn and loop:
__SCREAMING_SNAKE_CASE = i + 1
while j < len_pn and loop:
if prime_numbers[i] + prime_numbers[j] == number:
__SCREAMING_SNAKE_CASE = False
ans.append(prime_numbers[i] )
ans.append(prime_numbers[j] )
j += 1
i += 1
# precondition
assert (
isinstance(lowerCAmelCase_ , lowerCAmelCase_ )
and (len(lowerCAmelCase_ ) == 2)
and (ans[0] + ans[1] == number)
and is_prime(ans[0] )
and is_prime(ans[1] )
), "'ans' must contains two primes. And sum of elements must been eq 'number'"
return ans
def UpperCAmelCase__ (lowerCAmelCase_ , lowerCAmelCase_ ):
'''simple docstring'''
assert (
isinstance(lowerCAmelCase_ , lowerCAmelCase_ )
and isinstance(lowerCAmelCase_ , lowerCAmelCase_ )
and (numbera >= 0)
and (numbera >= 0)
), "'number1' and 'number2' must been positive integer."
__SCREAMING_SNAKE_CASE = 0
while numbera != 0:
__SCREAMING_SNAKE_CASE = numbera % numbera
__SCREAMING_SNAKE_CASE = numbera
__SCREAMING_SNAKE_CASE = rest
# precondition
assert isinstance(lowerCAmelCase_ , lowerCAmelCase_ ) and (
numbera >= 0
), "'number' must been from type int and positive"
return numbera
def UpperCAmelCase__ (lowerCAmelCase_ , lowerCAmelCase_ ):
'''simple docstring'''
assert (
isinstance(lowerCAmelCase_ , lowerCAmelCase_ )
and isinstance(lowerCAmelCase_ , lowerCAmelCase_ )
and (numbera >= 1)
and (numbera >= 1)
), "'number1' and 'number2' must been positive integer."
__SCREAMING_SNAKE_CASE = 1 # actual answer that will be return.
# for kgV (x,1)
if numbera > 1 and numbera > 1:
# builds the prime factorization of 'number1' and 'number2'
__SCREAMING_SNAKE_CASE = prime_factorization(lowerCAmelCase_ )
__SCREAMING_SNAKE_CASE = prime_factorization(lowerCAmelCase_ )
elif numbera == 1 or numbera == 1:
__SCREAMING_SNAKE_CASE = []
__SCREAMING_SNAKE_CASE = []
__SCREAMING_SNAKE_CASE = max(lowerCAmelCase_ , lowerCAmelCase_ )
__SCREAMING_SNAKE_CASE = 0
__SCREAMING_SNAKE_CASE = 0
__SCREAMING_SNAKE_CASE = [] # captured numbers int both 'primeFac1' and 'primeFac2'
# iterates through primeFac1
for n in prime_fac_a:
if n not in done:
if n in prime_fac_a:
__SCREAMING_SNAKE_CASE = prime_fac_a.count(lowerCAmelCase_ )
__SCREAMING_SNAKE_CASE = prime_fac_a.count(lowerCAmelCase_ )
for _ in range(max(lowerCAmelCase_ , lowerCAmelCase_ ) ):
ans *= n
else:
__SCREAMING_SNAKE_CASE = prime_fac_a.count(lowerCAmelCase_ )
for _ in range(lowerCAmelCase_ ):
ans *= n
done.append(lowerCAmelCase_ )
# iterates through primeFac2
for n in prime_fac_a:
if n not in done:
__SCREAMING_SNAKE_CASE = prime_fac_a.count(lowerCAmelCase_ )
for _ in range(lowerCAmelCase_ ):
ans *= n
done.append(lowerCAmelCase_ )
# precondition
assert isinstance(lowerCAmelCase_ , lowerCAmelCase_ ) and (
ans >= 0
), "'ans' must been from type int and positive"
return ans
def UpperCAmelCase__ (lowerCAmelCase_ ):
'''simple docstring'''
assert isinstance(lowerCAmelCase_ , lowerCAmelCase_ ) and (n >= 0), "'number' must been a positive int"
__SCREAMING_SNAKE_CASE = 0
__SCREAMING_SNAKE_CASE = 2 # this variable holds the answer
while index < n:
index += 1
ans += 1 # counts to the next number
# if ans not prime then
# runs to the next prime number.
while not is_prime(lowerCAmelCase_ ):
ans += 1
# precondition
assert isinstance(lowerCAmelCase_ , lowerCAmelCase_ ) and is_prime(
lowerCAmelCase_ ), "'ans' must been a prime number and from type int"
return ans
def UpperCAmelCase__ (lowerCAmelCase_ , lowerCAmelCase_ ):
'''simple docstring'''
assert (
is_prime(lowerCAmelCase_ ) and is_prime(lowerCAmelCase_ ) and (p_number_a < p_number_a)
), "The arguments must been prime numbers and 'pNumber1' < 'pNumber2'"
__SCREAMING_SNAKE_CASE = p_number_a + 1 # jump to the next number
__SCREAMING_SNAKE_CASE = [] # this list will be returns.
# if number is not prime then
# fetch the next prime number.
while not is_prime(lowerCAmelCase_ ):
number += 1
while number < p_number_a:
ans.append(lowerCAmelCase_ )
number += 1
# fetch the next prime number.
while not is_prime(lowerCAmelCase_ ):
number += 1
# precondition
assert (
isinstance(lowerCAmelCase_ , lowerCAmelCase_ )
and ans[0] != p_number_a
and ans[len(lowerCAmelCase_ ) - 1] != p_number_a
), "'ans' must been a list without the arguments"
# 'ans' contains not 'pNumber1' and 'pNumber2' !
return ans
def UpperCAmelCase__ (lowerCAmelCase_ ):
'''simple docstring'''
assert isinstance(lowerCAmelCase_ , lowerCAmelCase_ ) and (n >= 1), "'n' must been int and >= 1"
__SCREAMING_SNAKE_CASE = [] # will be returned.
for divisor in range(1 , n + 1 ):
if n % divisor == 0:
ans.append(lowerCAmelCase_ )
# precondition
assert ans[0] == 1 and ans[len(lowerCAmelCase_ ) - 1] == n, "Error in function getDivisiors(...)"
return ans
def UpperCAmelCase__ (lowerCAmelCase_ ):
'''simple docstring'''
assert isinstance(lowerCAmelCase_ , lowerCAmelCase_ ) and (
number > 1
), "'number' must been an int and >= 1"
__SCREAMING_SNAKE_CASE = get_divisors(lowerCAmelCase_ )
# precondition
assert (
isinstance(lowerCAmelCase_ , lowerCAmelCase_ )
and (divisors[0] == 1)
and (divisors[len(lowerCAmelCase_ ) - 1] == number)
), "Error in help-function getDivisiors(...)"
# summed all divisors up to 'number' (exclusive), hence [:-1]
return sum(divisors[:-1] ) == number
def UpperCAmelCase__ (lowerCAmelCase_ , lowerCAmelCase_ ):
'''simple docstring'''
assert (
isinstance(lowerCAmelCase_ , lowerCAmelCase_ )
and isinstance(lowerCAmelCase_ , lowerCAmelCase_ )
and (denominator != 0)
), "The arguments must been from type int and 'denominator' != 0"
# build the greatest common divisor of numerator and denominator.
__SCREAMING_SNAKE_CASE = gcd(abs(lowerCAmelCase_ ) , abs(lowerCAmelCase_ ) )
# precondition
assert (
isinstance(lowerCAmelCase_ , lowerCAmelCase_ )
and (numerator % gcd_of_fraction == 0)
and (denominator % gcd_of_fraction == 0)
), "Error in function gcd(...,...)"
return (numerator // gcd_of_fraction, denominator // gcd_of_fraction)
def UpperCAmelCase__ (lowerCAmelCase_ ):
'''simple docstring'''
assert isinstance(lowerCAmelCase_ , lowerCAmelCase_ ) and (n >= 0), "'n' must been a int and >= 0"
__SCREAMING_SNAKE_CASE = 1 # this will be return.
for factor in range(1 , n + 1 ):
ans *= factor
return ans
def UpperCAmelCase__ (lowerCAmelCase_ ):
'''simple docstring'''
assert isinstance(lowerCAmelCase_ , lowerCAmelCase_ ) and (n >= 0), "'n' must been an int and >= 0"
__SCREAMING_SNAKE_CASE = 0
__SCREAMING_SNAKE_CASE = 1
__SCREAMING_SNAKE_CASE = 1 # this will be return
for _ in range(n - 1 ):
__SCREAMING_SNAKE_CASE = ans
ans += fiba
__SCREAMING_SNAKE_CASE = tmp
return ans
| 54 | from __future__ import annotations
import sys
from collections import deque
from typing import Generic, TypeVar
UpperCamelCase = TypeVar('''T''')
class snake_case_ ( Generic[T] ):
__A : deque[T] # Cache store of keys
__A : set[T] # References of the keys in cache
__A : int = 10 # Maximum capacity of cache
def __init__( self : Union[str, Any] , lowercase_ : int ) -> None:
lowercase__ : int = deque()
lowercase__ : str = set()
if not n:
lowercase__ : str = sys.maxsize
elif n < 0:
raise ValueError("n should be an integer greater than 0." )
else:
lowercase__ : List[Any] = n
def __UpperCamelCase ( self : Dict , lowercase_ : T ) -> None:
if x not in self.key_reference:
if len(self.dq_store ) == LRUCache._MAX_CAPACITY:
lowercase__ : Dict = self.dq_store.pop()
self.key_reference.remove(lowercase_ )
else:
self.dq_store.remove(lowercase_ )
self.dq_store.appendleft(lowercase_ )
self.key_reference.add(lowercase_ )
def __UpperCamelCase ( self : Dict ) -> None:
for k in self.dq_store:
print(lowercase_ )
def __repr__( self : Optional[int] ) -> str:
return F'''LRUCache({self._MAX_CAPACITY}) => {list(self.dq_store )}'''
if __name__ == "__main__":
import doctest
doctest.testmod()
UpperCamelCase = LRUCache(4)
lru_cache.refer('''A''')
lru_cache.refer(2)
lru_cache.refer(3)
lru_cache.refer('''A''')
lru_cache.refer(4)
lru_cache.refer(5)
lru_cache.display()
print(lru_cache)
assert str(lru_cache) == "LRUCache(4) => [5, 4, 'A', 3]"
| 87 | 0 |
'''simple docstring'''
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
a_ : Any = logging.get_logger(__name__)
a_ : Union[str, Any] = {"""vocab_file""": """spiece.model"""}
a_ : str = {
"""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""",
}
}
a_ : Union[str, 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,
}
a_ : int = """▁"""
class snake_case ( lowercase ):
"""simple docstring"""
_lowerCamelCase = VOCAB_FILES_NAMES
_lowerCamelCase = PRETRAINED_VOCAB_FILES_MAP
_lowerCamelCase = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
def __init__( self , UpperCamelCase , UpperCamelCase=True , UpperCamelCase=True , UpperCamelCase=False , UpperCamelCase="[CLS]" , UpperCamelCase="[SEP]" , UpperCamelCase="<unk>" , UpperCamelCase="[SEP]" , UpperCamelCase="<pad>" , UpperCamelCase="[CLS]" , UpperCamelCase="[MASK]" , UpperCamelCase = None , **UpperCamelCase , ):
"""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.
lowerCamelCase_ = (
AddedToken(UpperCamelCase , lstrip=UpperCamelCase , rstrip=UpperCamelCase , normalized=UpperCamelCase )
if isinstance(UpperCamelCase , UpperCamelCase )
else mask_token
)
lowerCamelCase_ = {} 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 , )
lowerCamelCase_ = do_lower_case
lowerCamelCase_ = remove_space
lowerCamelCase_ = keep_accents
lowerCamelCase_ = vocab_file
lowerCamelCase_ = spm.SentencePieceProcessor(**self.sp_model_kwargs )
self.sp_model.Load(UpperCamelCase )
@property
def snake_case ( self ):
"""simple docstring"""
return len(self.sp_model )
def snake_case ( self ):
"""simple docstring"""
lowerCamelCase_ = {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 ):
"""simple docstring"""
lowerCamelCase_ = self.__dict__.copy()
lowerCamelCase_ = None
return state
def __setstate__( self , UpperCamelCase ):
"""simple docstring"""
lowerCamelCase_ = d
# for backward compatibility
if not hasattr(self , "sp_model_kwargs" ):
lowerCamelCase_ = {}
lowerCamelCase_ = spm.SentencePieceProcessor(**self.sp_model_kwargs )
self.sp_model.Load(self.vocab_file )
def snake_case ( self , UpperCamelCase ):
"""simple docstring"""
if self.remove_space:
lowerCamelCase_ = " ".join(inputs.strip().split() )
else:
lowerCamelCase_ = inputs
lowerCamelCase_ = outputs.replace("``" , "\"" ).replace("''" , "\"" )
if not self.keep_accents:
lowerCamelCase_ = unicodedata.normalize("NFKD" , UpperCamelCase )
lowerCamelCase_ = "".join([c for c in outputs if not unicodedata.combining(UpperCamelCase )] )
if self.do_lower_case:
lowerCamelCase_ = outputs.lower()
return outputs
def snake_case ( self , UpperCamelCase ):
"""simple docstring"""
lowerCamelCase_ = self.preprocess_text(UpperCamelCase )
lowerCamelCase_ = self.sp_model.encode(UpperCamelCase , out_type=UpperCamelCase )
lowerCamelCase_ = []
for piece in pieces:
if len(UpperCamelCase ) > 1 and piece[-1] == str("," ) and piece[-2].isdigit():
lowerCamelCase_ = 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:
lowerCamelCase_ = cur_pieces[1:]
else:
lowerCamelCase_ = cur_pieces[0][1:]
cur_pieces.append(piece[-1] )
new_pieces.extend(UpperCamelCase )
else:
new_pieces.append(UpperCamelCase )
return new_pieces
def snake_case ( self , UpperCamelCase ):
"""simple docstring"""
return self.sp_model.PieceToId(UpperCamelCase )
def snake_case ( self , UpperCamelCase ):
"""simple docstring"""
return self.sp_model.IdToPiece(UpperCamelCase )
def snake_case ( self , UpperCamelCase ):
"""simple docstring"""
lowerCamelCase_ = []
lowerCamelCase_ = ""
lowerCamelCase_ = 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
lowerCamelCase_ = True
lowerCamelCase_ = []
else:
current_sub_tokens.append(UpperCamelCase )
lowerCamelCase_ = False
out_string += self.sp_model.decode(UpperCamelCase )
return out_string.strip()
def snake_case ( self , UpperCamelCase , UpperCamelCase = None ):
"""simple docstring"""
lowerCamelCase_ = [self.sep_token_id]
lowerCamelCase_ = [self.cls_token_id]
if token_ids_a is None:
return cls + token_ids_a + sep
return cls + token_ids_a + sep + token_ids_a + sep
def snake_case ( self , UpperCamelCase , UpperCamelCase = None , UpperCamelCase = False ):
"""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 snake_case ( self , UpperCamelCase , UpperCamelCase = None ):
"""simple docstring"""
lowerCamelCase_ = [self.sep_token_id]
lowerCamelCase_ = [self.cls_token_id]
if token_ids_a is None:
return len(cls + token_ids_a + sep ) * [0]
return len(cls + token_ids_a + sep ) * [0] + len(token_ids_a + sep ) * [1]
def snake_case ( self , UpperCamelCase , UpperCamelCase = None ):
"""simple docstring"""
if not os.path.isdir(UpperCamelCase ):
logger.error(f'''Vocabulary path ({save_directory}) should be a directory''' )
return
lowerCamelCase_ = 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:
lowerCamelCase_ = self.sp_model.serialized_model_proto()
fi.write(UpperCamelCase )
return (out_vocab_file,)
| 55 | from collections import OrderedDict
from typing import Mapping
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfig
from ...utils import logging
UpperCamelCase = logging.get_logger(__name__)
UpperCamelCase = {
'''YituTech/conv-bert-base''': '''https://huggingface.co/YituTech/conv-bert-base/resolve/main/config.json''',
'''YituTech/conv-bert-medium-small''': (
'''https://huggingface.co/YituTech/conv-bert-medium-small/resolve/main/config.json'''
),
'''YituTech/conv-bert-small''': '''https://huggingface.co/YituTech/conv-bert-small/resolve/main/config.json''',
# See all ConvBERT models at https://huggingface.co/models?filter=convbert
}
class snake_case_ ( __A ):
__A : List[str] = "convbert"
def __init__( self : Union[str, Any] , lowercase_ : str=3_05_22 , lowercase_ : Any=7_68 , lowercase_ : Tuple=12 , lowercase_ : List[str]=12 , lowercase_ : Optional[int]=30_72 , lowercase_ : Union[str, Any]="gelu" , lowercase_ : str=0.1 , lowercase_ : List[str]=0.1 , lowercase_ : Optional[Any]=5_12 , lowercase_ : Dict=2 , lowercase_ : Union[str, Any]=0.02 , lowercase_ : Optional[Any]=1E-12 , lowercase_ : Optional[int]=1 , lowercase_ : List[Any]=0 , lowercase_ : Optional[int]=2 , lowercase_ : str=7_68 , lowercase_ : Dict=2 , lowercase_ : Optional[Any]=9 , lowercase_ : Union[str, Any]=1 , lowercase_ : Any=None , **lowercase_ : Optional[Any] , ) -> Dict:
super().__init__(
pad_token_id=lowercase_ , bos_token_id=lowercase_ , eos_token_id=lowercase_ , **lowercase_ , )
lowercase__ : List[str] = vocab_size
lowercase__ : Union[str, Any] = hidden_size
lowercase__ : Any = num_hidden_layers
lowercase__ : List[str] = num_attention_heads
lowercase__ : Union[str, Any] = intermediate_size
lowercase__ : Optional[Any] = hidden_act
lowercase__ : int = hidden_dropout_prob
lowercase__ : str = attention_probs_dropout_prob
lowercase__ : Union[str, Any] = max_position_embeddings
lowercase__ : Optional[int] = type_vocab_size
lowercase__ : Tuple = initializer_range
lowercase__ : List[str] = layer_norm_eps
lowercase__ : List[Any] = embedding_size
lowercase__ : Optional[Any] = head_ratio
lowercase__ : Dict = conv_kernel_size
lowercase__ : Tuple = num_groups
lowercase__ : Optional[int] = classifier_dropout
class snake_case_ ( __A ):
@property
def __UpperCamelCase ( self : Optional[int] ) -> Mapping[str, Mapping[int, str]]:
if self.task == "multiple-choice":
lowercase__ : Tuple = {0: "batch", 1: "choice", 2: "sequence"}
else:
lowercase__ : str = {0: "batch", 1: "sequence"}
return OrderedDict(
[
("input_ids", dynamic_axis),
("attention_mask", dynamic_axis),
("token_type_ids", dynamic_axis),
] )
| 87 | 0 |
'''simple docstring'''
import re
from typing import Callable, List, Optional, Union
import tensorflow as tf
try:
from tensorflow.keras.optimizers.legacy import Adam
except ImportError:
from tensorflow.keras.optimizers import Adam
class a ( tf.keras.optimizers.schedules.LearningRateSchedule ):
def __init__( self : Optional[Any] , lowercase_ : float , lowercase_ : Callable , lowercase_ : int , lowercase_ : float = 1.0 , lowercase_ : str = None , ):
super().__init__()
snake_case_ = initial_learning_rate
snake_case_ = warmup_steps
snake_case_ = power
snake_case_ = decay_schedule_fn
snake_case_ = name
def __call__( self : Tuple , lowercase_ : str ):
with tf.name_scope(self.name or '''WarmUp''' ) as name:
# Implements polynomial warmup. i.e., if global_step < warmup_steps, the
# learning rate will be `global_step/num_warmup_steps * init_lr`.
snake_case_ = tf.cast(lowercase_ , tf.floataa )
snake_case_ = tf.cast(self.warmup_steps , tf.floataa )
snake_case_ = global_step_float / warmup_steps_float
snake_case_ = self.initial_learning_rate * tf.math.pow(lowercase_ , self.power )
return tf.cond(
global_step_float < warmup_steps_float , lambda: warmup_learning_rate , lambda: self.decay_schedule_fn(step - self.warmup_steps ) , name=lowercase_ , )
def A_ ( self : Any ):
return {
"initial_learning_rate": self.initial_learning_rate,
"decay_schedule_fn": self.decay_schedule_fn,
"warmup_steps": self.warmup_steps,
"power": self.power,
"name": self.name,
}
def __magic_name__ ( __UpperCAmelCase, __UpperCAmelCase, __UpperCAmelCase, __UpperCAmelCase = 0.0, __UpperCAmelCase = 0.9, __UpperCAmelCase = 0.9_9_9, __UpperCAmelCase = 1e-8, __UpperCAmelCase = None, __UpperCAmelCase = None, __UpperCAmelCase = 0.0, __UpperCAmelCase = 1.0, __UpperCAmelCase = None, ) -> List[str]:
'''simple docstring'''
snake_case_ = tf.keras.optimizers.schedules.PolynomialDecay(
initial_learning_rate=__UpperCAmelCase, decay_steps=num_train_steps - num_warmup_steps, end_learning_rate=init_lr * min_lr_ratio, power=__UpperCAmelCase, )
if num_warmup_steps:
snake_case_ = WarmUp(
initial_learning_rate=__UpperCAmelCase, decay_schedule_fn=__UpperCAmelCase, warmup_steps=__UpperCAmelCase, )
if weight_decay_rate > 0.0:
snake_case_ = AdamWeightDecay(
learning_rate=__UpperCAmelCase, weight_decay_rate=__UpperCAmelCase, beta_a=__UpperCAmelCase, beta_a=__UpperCAmelCase, epsilon=__UpperCAmelCase, clipnorm=__UpperCAmelCase, global_clipnorm=__UpperCAmelCase, exclude_from_weight_decay=['''LayerNorm''', '''layer_norm''', '''bias'''], include_in_weight_decay=__UpperCAmelCase, )
else:
snake_case_ = tf.keras.optimizers.Adam(
learning_rate=__UpperCAmelCase, beta_a=__UpperCAmelCase, beta_a=__UpperCAmelCase, epsilon=__UpperCAmelCase, clipnorm=__UpperCAmelCase, global_clipnorm=__UpperCAmelCase, )
# We return the optimizer and the LR scheduler in order to better track the
# evolution of the LR independently of the optimizer.
return optimizer, lr_schedule
class a ( _lowerCamelCase ):
def __init__( self : Dict , lowercase_ : Union[float, tf.keras.optimizers.schedules.LearningRateSchedule] = 0.001 , lowercase_ : float = 0.9 , lowercase_ : float = 0.999 , lowercase_ : float = 1e-7 , lowercase_ : bool = False , lowercase_ : float = 0.0 , lowercase_ : Optional[List[str]] = None , lowercase_ : Optional[List[str]] = None , lowercase_ : str = "AdamWeightDecay" , **lowercase_ : Optional[int] , ):
super().__init__(lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ , **lowercase_ )
snake_case_ = weight_decay_rate
snake_case_ = include_in_weight_decay
snake_case_ = exclude_from_weight_decay
@classmethod
def A_ ( cls : Dict , lowercase_ : Union[str, Any] ):
snake_case_ = {'''WarmUp''': WarmUp}
return super(lowercase_ , cls ).from_config(lowercase_ , custom_objects=lowercase_ )
def A_ ( self : str , lowercase_ : Optional[int] , lowercase_ : List[str] , lowercase_ : Optional[int] ):
super(lowercase_ , self )._prepare_local(lowercase_ , lowercase_ , lowercase_ )
snake_case_ = tf.constant(
self.weight_decay_rate , name='''adam_weight_decay_rate''' )
def A_ ( self : str , lowercase_ : Union[str, Any] , lowercase_ : Dict , lowercase_ : Any ):
snake_case_ = self._do_use_weight_decay(var.name )
if do_decay:
return var.assign_sub(
learning_rate * var * apply_state[(var.device, var.dtype.base_dtype)]['''weight_decay_rate'''] , use_locking=self._use_locking , )
return tf.no_op()
def A_ ( self : Union[str, Any] , lowercase_ : int , lowercase_ : str=None , **lowercase_ : List[str] ):
snake_case_ ,snake_case_ = list(zip(*lowercase_ ) )
return super(lowercase_ , self ).apply_gradients(zip(lowercase_ , lowercase_ ) , name=lowercase_ , **lowercase_ )
def A_ ( self : List[Any] , lowercase_ : str , lowercase_ : str , lowercase_ : Any ):
if apply_state is None:
return self._decayed_lr_t[var_dtype], {}
snake_case_ = apply_state or {}
snake_case_ = apply_state.get((var_device, var_dtype) )
if coefficients is None:
snake_case_ = self._fallback_apply_state(lowercase_ , lowercase_ )
snake_case_ = coefficients
return coefficients["lr_t"], {"apply_state": apply_state}
def A_ ( self : Union[str, Any] , lowercase_ : int , lowercase_ : Union[str, Any] , lowercase_ : Optional[int]=None ):
snake_case_ ,snake_case_ = self._get_lr(var.device , var.dtype.base_dtype , lowercase_ )
snake_case_ = self._decay_weights_op(lowercase_ , lowercase_ , lowercase_ )
with tf.control_dependencies([decay] ):
return super(lowercase_ , self )._resource_apply_dense(lowercase_ , lowercase_ , **lowercase_ )
def A_ ( self : Optional[Any] , lowercase_ : Optional[Any] , lowercase_ : int , lowercase_ : str , lowercase_ : List[Any]=None ):
snake_case_ ,snake_case_ = self._get_lr(var.device , var.dtype.base_dtype , lowercase_ )
snake_case_ = self._decay_weights_op(lowercase_ , lowercase_ , lowercase_ )
with tf.control_dependencies([decay] ):
return super(lowercase_ , self )._resource_apply_sparse(lowercase_ , lowercase_ , lowercase_ , **lowercase_ )
def A_ ( self : Union[str, Any] ):
snake_case_ = super().get_config()
config.update({'''weight_decay_rate''': self.weight_decay_rate} )
return config
def A_ ( self : Optional[int] , lowercase_ : int ):
if self.weight_decay_rate == 0:
return False
if self._include_in_weight_decay:
for r in self._include_in_weight_decay:
if re.search(lowercase_ , lowercase_ ) is not None:
return True
if self._exclude_from_weight_decay:
for r in self._exclude_from_weight_decay:
if re.search(lowercase_ , lowercase_ ) is not None:
return False
return True
class a ( _lowerCamelCase ):
def __init__( self : List[Any] ):
snake_case_ = []
snake_case_ = None
@property
def A_ ( self : Union[str, Any] ):
if self._accum_steps is None:
snake_case_ = tf.Variable(
tf.constant(0 , dtype=tf.intaa ) , trainable=lowercase_ , synchronization=tf.VariableSynchronization.ON_READ , aggregation=tf.VariableAggregation.ONLY_FIRST_REPLICA , )
return self._accum_steps.value()
@property
def A_ ( self : Dict ):
if not self._gradients:
raise ValueError('''The accumulator should be called first to initialize the gradients''' )
return [gradient.value() if gradient is not None else gradient for gradient in self._gradients]
def __call__( self : Any , lowercase_ : int ):
if not self._gradients:
snake_case_ = self.step # Create the step variable.
self._gradients.extend(
[
tf.Variable(
tf.zeros_like(lowercase_ ) , trainable=lowercase_ , synchronization=tf.VariableSynchronization.ON_READ , aggregation=tf.VariableAggregation.ONLY_FIRST_REPLICA , )
if gradient is not None
else gradient
for gradient in gradients
] )
if len(lowercase_ ) != len(self._gradients ):
raise ValueError(F"Expected {len(self._gradients )} gradients, but got {len(lowercase_ )}" )
for accum_gradient, gradient in zip(self._gradients , lowercase_ ):
if accum_gradient is not None and gradient is not None:
accum_gradient.assign_add(lowercase_ )
self._accum_steps.assign_add(1 )
def A_ ( self : Optional[int] ):
if not self._gradients:
return
self._accum_steps.assign(0 )
for gradient in self._gradients:
if gradient is not None:
gradient.assign(tf.zeros_like(lowercase_ ) )
| 56 | import argparse
import torch
from transformers import BertConfig, BertForPreTraining, load_tf_weights_in_bert
from transformers.utils import logging
logging.set_verbosity_info()
def lowercase_ ( _lowerCamelCase : str , _lowerCamelCase : List[Any] , _lowerCamelCase : Dict):
# Initialise PyTorch model
lowercase__ : List[str] = BertConfig.from_json_file(_lowerCamelCase)
print(f'''Building PyTorch model from configuration: {config}''')
lowercase__ : Optional[Any] = BertForPreTraining(_lowerCamelCase)
# Load weights from tf checkpoint
load_tf_weights_in_bert(_lowerCamelCase , _lowerCamelCase , _lowerCamelCase)
# Save pytorch-model
print(f'''Save PyTorch model to {pytorch_dump_path}''')
torch.save(model.state_dict() , _lowerCamelCase)
if __name__ == "__main__":
UpperCamelCase = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
'''--tf_checkpoint_path''', default=None, type=str, required=True, help='''Path to the TensorFlow checkpoint path.'''
)
parser.add_argument(
'''--bert_config_file''',
default=None,
type=str,
required=True,
help=(
'''The config json file corresponding to the pre-trained BERT model. \n'''
'''This specifies the model architecture.'''
),
)
parser.add_argument(
'''--pytorch_dump_path''', default=None, type=str, required=True, help='''Path to the output PyTorch model.'''
)
UpperCamelCase = parser.parse_args()
convert_tf_checkpoint_to_pytorch(args.tf_checkpoint_path, args.bert_config_file, args.pytorch_dump_path)
| 87 | 0 |
"""simple docstring"""
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
A : Tuple = {
"configuration_whisper": ["WHISPER_PRETRAINED_CONFIG_ARCHIVE_MAP", "WhisperConfig", "WhisperOnnxConfig"],
"feature_extraction_whisper": ["WhisperFeatureExtractor"],
"processing_whisper": ["WhisperProcessor"],
"tokenization_whisper": ["WhisperTokenizer"],
}
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
A : Tuple = ["WhisperTokenizerFast"]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
A : List[Any] = [
"WHISPER_PRETRAINED_MODEL_ARCHIVE_LIST",
"WhisperForConditionalGeneration",
"WhisperModel",
"WhisperPreTrainedModel",
"WhisperForAudioClassification",
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
A : Union[str, Any] = [
"TF_WHISPER_PRETRAINED_MODEL_ARCHIVE_LIST",
"TFWhisperForConditionalGeneration",
"TFWhisperModel",
"TFWhisperPreTrainedModel",
]
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
A : List[str] = [
"FlaxWhisperForConditionalGeneration",
"FlaxWhisperModel",
"FlaxWhisperPreTrainedModel",
"FlaxWhisperForAudioClassification",
]
if TYPE_CHECKING:
from .configuration_whisper import WHISPER_PRETRAINED_CONFIG_ARCHIVE_MAP, WhisperConfig, WhisperOnnxConfig
from .feature_extraction_whisper import WhisperFeatureExtractor
from .processing_whisper import WhisperProcessor
from .tokenization_whisper import WhisperTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_whisper_fast import WhisperTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_whisper import (
WHISPER_PRETRAINED_MODEL_ARCHIVE_LIST,
WhisperForAudioClassification,
WhisperForConditionalGeneration,
WhisperModel,
WhisperPreTrainedModel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_whisper import (
TF_WHISPER_PRETRAINED_MODEL_ARCHIVE_LIST,
TFWhisperForConditionalGeneration,
TFWhisperModel,
TFWhisperPreTrainedModel,
)
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_whisper import (
FlaxWhisperForAudioClassification,
FlaxWhisperForConditionalGeneration,
FlaxWhisperModel,
FlaxWhisperPreTrainedModel,
)
else:
import sys
A : List[Any] = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 57 | import asyncio
import os
import re
import sys
import tempfile
import unittest
from contextlib import contextmanager
from copy import deepcopy
from distutils.util import strtobool
from enum import Enum
from importlib.util import find_spec
from pathlib import Path
from unittest.mock import patch
import pyarrow as pa
import pytest
import requests
from packaging import version
from datasets import config
if config.PY_VERSION < version.parse('''3.8'''):
import importlib_metadata
else:
import importlib.metadata as importlib_metadata
def lowercase_ ( _lowerCamelCase : Any , _lowerCamelCase : List[str]=False):
try:
lowercase__ : Union[str, Any] = os.environ[key]
except KeyError:
# KEY isn't set, default to `default`.
lowercase__ : int = default
else:
# KEY is set, convert it to True or False.
try:
lowercase__ : Optional[int] = strtobool(_lowerCamelCase)
except ValueError:
# More values are supported, but let's keep the message simple.
raise ValueError(f'''If set, {key} must be yes or no.''')
return _value
UpperCamelCase = parse_flag_from_env('''RUN_SLOW''', default=False)
UpperCamelCase = parse_flag_from_env('''RUN_REMOTE''', default=False)
UpperCamelCase = parse_flag_from_env('''RUN_LOCAL''', default=True)
UpperCamelCase = parse_flag_from_env('''RUN_PACKAGED''', default=True)
# Compression
UpperCamelCase = pytest.mark.skipif(not config.LZ4_AVAILABLE, reason='''test requires lz4''')
UpperCamelCase = pytest.mark.skipif(not config.PY7ZR_AVAILABLE, reason='''test requires py7zr''')
UpperCamelCase = pytest.mark.skipif(not config.ZSTANDARD_AVAILABLE, reason='''test requires zstandard''')
# Audio
UpperCamelCase = pytest.mark.skipif(
# On Windows and OS X, soundfile installs sndfile
find_spec('''soundfile''') is None or version.parse(importlib_metadata.version('''soundfile''')) < version.parse('''0.12.0'''),
reason='''test requires sndfile>=0.12.1: \'pip install \"soundfile>=0.12.1\"\'; ''',
)
# Beam
UpperCamelCase = pytest.mark.skipif(
not config.BEAM_AVAILABLE or config.DILL_VERSION >= version.parse('''0.3.2'''),
reason='''test requires apache-beam and a compatible dill version''',
)
# Dill-cloudpickle compatibility
UpperCamelCase = pytest.mark.skipif(
config.DILL_VERSION <= version.parse('''0.3.2'''),
reason='''test requires dill>0.3.2 for cloudpickle compatibility''',
)
# Windows
UpperCamelCase = pytest.mark.skipif(
sys.platform == '''win32''',
reason='''test should not be run on Windows''',
)
def lowercase_ ( _lowerCamelCase : int):
try:
import faiss # noqa
except ImportError:
lowercase__ : Optional[Any] = unittest.skip("test requires faiss")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : int):
try:
import regex # noqa
except ImportError:
lowercase__ : List[Any] = unittest.skip("test requires regex")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : int):
try:
import elasticsearch # noqa
except ImportError:
lowercase__ : Optional[int] = unittest.skip("test requires elasticsearch")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : Union[str, Any]):
try:
import sqlalchemy # noqa
except ImportError:
lowercase__ : Optional[int] = unittest.skip("test requires sqlalchemy")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : int):
if not config.TORCH_AVAILABLE:
lowercase__ : Tuple = unittest.skip("test requires PyTorch")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : Tuple):
if not config.TF_AVAILABLE:
lowercase__ : Any = unittest.skip("test requires TensorFlow")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : Dict):
if not config.JAX_AVAILABLE:
lowercase__ : List[str] = unittest.skip("test requires JAX")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : int):
if not config.PIL_AVAILABLE:
lowercase__ : Dict = unittest.skip("test requires Pillow")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : Tuple):
try:
import transformers # noqa F401
except ImportError:
return unittest.skip("test requires transformers")(_lowerCamelCase)
else:
return test_case
def lowercase_ ( _lowerCamelCase : Optional[Any]):
try:
import tiktoken # noqa F401
except ImportError:
return unittest.skip("test requires tiktoken")(_lowerCamelCase)
else:
return test_case
def lowercase_ ( _lowerCamelCase : Dict):
try:
import spacy # noqa F401
except ImportError:
return unittest.skip("test requires spacy")(_lowerCamelCase)
else:
return test_case
def lowercase_ ( _lowerCamelCase : Optional[int]):
def _require_spacy_model(_lowerCamelCase : Optional[int]):
try:
import spacy # noqa F401
spacy.load(_lowerCamelCase)
except ImportError:
return unittest.skip("test requires spacy")(_lowerCamelCase)
except OSError:
return unittest.skip("test requires spacy model '{}'".format(_lowerCamelCase))(_lowerCamelCase)
else:
return test_case
return _require_spacy_model
def lowercase_ ( _lowerCamelCase : Dict):
try:
import pyspark # noqa F401
except ImportError:
return unittest.skip("test requires pyspark")(_lowerCamelCase)
else:
return test_case
def lowercase_ ( _lowerCamelCase : List[str]):
try:
import joblibspark # noqa F401
except ImportError:
return unittest.skip("test requires joblibspark")(_lowerCamelCase)
else:
return test_case
def lowercase_ ( _lowerCamelCase : Dict):
if not _run_slow_tests or _run_slow_tests == 0:
lowercase__ : Tuple = unittest.skip("test is slow")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : int):
if not _run_local_tests or _run_local_tests == 0:
lowercase__ : str = unittest.skip("test is local")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : Optional[int]):
if not _run_packaged_tests or _run_packaged_tests == 0:
lowercase__ : List[Any] = unittest.skip("test is packaged")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : Tuple):
if not _run_remote_tests or _run_remote_tests == 0:
lowercase__ : Union[str, Any] = unittest.skip("test requires remote")(_lowerCamelCase)
return test_case
def lowercase_ ( *_lowerCamelCase : str):
def decorate(cls : str):
for name, fn in cls.__dict__.items():
if callable(_lowerCamelCase) and name.startswith("test"):
for decorator in decorators:
lowercase__ : Optional[int] = decorator(_lowerCamelCase)
setattr(cls , _lowerCamelCase , _lowerCamelCase)
return cls
return decorate
class snake_case_ ( __A ):
pass
class snake_case_ ( __A ):
__A : List[Any] = 0
__A : str = 1
__A : int = 2
@contextmanager
def lowercase_ ( _lowerCamelCase : List[str]=OfflineSimulationMode.CONNECTION_FAILS , _lowerCamelCase : int=1E-16):
lowercase__ : int = requests.Session().request
def timeout_request(_lowerCamelCase : str , _lowerCamelCase : Dict , _lowerCamelCase : Dict , **_lowerCamelCase : str):
# Change the url to an invalid url so that the connection hangs
lowercase__ : Any = "https://10.255.255.1"
if kwargs.get("timeout") is None:
raise RequestWouldHangIndefinitelyError(
f'''Tried a call to {url} in offline mode with no timeout set. Please set a timeout.''')
lowercase__ : Dict = timeout
try:
return online_request(_lowerCamelCase , _lowerCamelCase , **_lowerCamelCase)
except Exception as e:
# The following changes in the error are just here to make the offline timeout error prettier
lowercase__ : Dict = url
lowercase__ : Union[str, Any] = e.args[0]
lowercase__ : Optional[Any] = (max_retry_error.args[0].replace("10.255.255.1" , f'''OfflineMock[{url}]'''),)
lowercase__ : int = (max_retry_error,)
raise
def raise_connection_error(_lowerCamelCase : Union[str, Any] , _lowerCamelCase : Optional[Any] , **_lowerCamelCase : Tuple):
raise requests.ConnectionError("Offline mode is enabled." , request=_lowerCamelCase)
if mode is OfflineSimulationMode.CONNECTION_FAILS:
with patch("requests.Session.send" , _lowerCamelCase):
yield
elif mode is OfflineSimulationMode.CONNECTION_TIMES_OUT:
# inspired from https://stackoverflow.com/a/904609
with patch("requests.Session.request" , _lowerCamelCase):
yield
elif mode is OfflineSimulationMode.HF_DATASETS_OFFLINE_SET_TO_1:
with patch("datasets.config.HF_DATASETS_OFFLINE" , _lowerCamelCase):
yield
else:
raise ValueError("Please use a value from the OfflineSimulationMode enum.")
@contextmanager
def lowercase_ ( *_lowerCamelCase : str , **_lowerCamelCase : Tuple):
lowercase__ : Dict = str(Path().resolve())
with tempfile.TemporaryDirectory(*_lowerCamelCase , **_lowerCamelCase) as tmp_dir:
try:
os.chdir(_lowerCamelCase)
yield
finally:
os.chdir(_lowerCamelCase)
@contextmanager
def lowercase_ ( ):
import gc
gc.collect()
lowercase__ : Union[str, Any] = pa.total_allocated_bytes()
yield
assert pa.total_allocated_bytes() - previous_allocated_memory > 0, "Arrow memory didn't increase."
@contextmanager
def lowercase_ ( ):
import gc
gc.collect()
lowercase__ : int = pa.total_allocated_bytes()
yield
assert pa.total_allocated_bytes() - previous_allocated_memory <= 0, "Arrow memory wasn't expected to increase."
def lowercase_ ( _lowerCamelCase : Optional[Any] , _lowerCamelCase : Optional[Any]):
return deepcopy(_lowerCamelCase).integers(0 , 100 , 10).tolist() == deepcopy(_lowerCamelCase).integers(0 , 100 , 10).tolist()
def lowercase_ ( _lowerCamelCase : str):
import decorator
from requests.exceptions import HTTPError
def _wrapper(_lowerCamelCase : str , *_lowerCamelCase : Dict , **_lowerCamelCase : Dict):
try:
return func(*_lowerCamelCase , **_lowerCamelCase)
except HTTPError as err:
if str(_lowerCamelCase).startswith("500") or str(_lowerCamelCase).startswith("502"):
pytest.xfail(str(_lowerCamelCase))
raise err
return decorator.decorator(_wrapper , _lowerCamelCase)
class snake_case_ :
def __init__( self : int , lowercase_ : Union[str, Any] , lowercase_ : Dict , lowercase_ : List[str] ) -> List[str]:
lowercase__ : Tuple = returncode
lowercase__ : int = stdout
lowercase__ : Union[str, Any] = stderr
async def lowercase_ ( _lowerCamelCase : List[str] , _lowerCamelCase : Dict):
while True:
lowercase__ : Optional[int] = await stream.readline()
if line:
callback(_lowerCamelCase)
else:
break
async def lowercase_ ( _lowerCamelCase : Optional[int] , _lowerCamelCase : Union[str, Any]=None , _lowerCamelCase : Optional[Any]=None , _lowerCamelCase : int=None , _lowerCamelCase : Optional[Any]=False , _lowerCamelCase : Tuple=False):
if echo:
print("\nRunning: " , " ".join(_lowerCamelCase))
lowercase__ : Optional[int] = await asyncio.create_subprocess_exec(
cmd[0] , *cmd[1:] , stdin=_lowerCamelCase , stdout=asyncio.subprocess.PIPE , stderr=asyncio.subprocess.PIPE , env=_lowerCamelCase , )
# note: there is a warning for a possible deadlock when using `wait` with huge amounts of data in the pipe
# https://docs.python.org/3/library/asyncio-subprocess.html#asyncio.asyncio.subprocess.Process.wait
#
# If it starts hanging, will need to switch to the following code. The problem is that no data
# will be seen until it's done and if it hangs for example there will be no debug info.
# out, err = await p.communicate()
# return _RunOutput(p.returncode, out, err)
lowercase__ : str = []
lowercase__ : List[str] = []
def tee(_lowerCamelCase : str , _lowerCamelCase : Optional[Any] , _lowerCamelCase : Union[str, Any] , _lowerCamelCase : Optional[int]=""):
lowercase__ : Optional[int] = line.decode("utf-8").rstrip()
sink.append(_lowerCamelCase)
if not quiet:
print(_lowerCamelCase , _lowerCamelCase , file=_lowerCamelCase)
# XXX: the timeout doesn't seem to make any difference here
await asyncio.wait(
[
_read_stream(p.stdout , lambda _lowerCamelCase: tee(_lowerCamelCase , _lowerCamelCase , sys.stdout , label="stdout:")),
_read_stream(p.stderr , lambda _lowerCamelCase: tee(_lowerCamelCase , _lowerCamelCase , sys.stderr , label="stderr:")),
] , timeout=_lowerCamelCase , )
return _RunOutput(await p.wait() , _lowerCamelCase , _lowerCamelCase)
def lowercase_ ( _lowerCamelCase : Optional[int] , _lowerCamelCase : List[str]=None , _lowerCamelCase : Dict=None , _lowerCamelCase : int=180 , _lowerCamelCase : Union[str, Any]=False , _lowerCamelCase : Optional[Any]=True):
lowercase__ : Any = asyncio.get_event_loop()
lowercase__ : Tuple = loop.run_until_complete(
_stream_subprocess(_lowerCamelCase , env=_lowerCamelCase , stdin=_lowerCamelCase , timeout=_lowerCamelCase , quiet=_lowerCamelCase , echo=_lowerCamelCase))
lowercase__ : int = " ".join(_lowerCamelCase)
if result.returncode > 0:
lowercase__ : Any = "\n".join(result.stderr)
raise RuntimeError(
f'''\'{cmd_str}\' failed with returncode {result.returncode}\n\n'''
f'''The combined stderr from workers follows:\n{stderr}''')
# check that the subprocess actually did run and produced some output, should the test rely on
# the remote side to do the testing
if not result.stdout and not result.stderr:
raise RuntimeError(f'''\'{cmd_str}\' produced no output.''')
return result
def lowercase_ ( ):
lowercase__ : List[str] = os.environ.get("PYTEST_XDIST_WORKER" , "gw0")
lowercase__ : str = re.sub(R"^gw" , "" , _lowerCamelCase , 0 , re.M)
return int(_lowerCamelCase)
def lowercase_ ( ):
lowercase__ : Union[str, Any] = 2_9500
lowercase__ : Optional[int] = pytest_xdist_worker_id()
return port + uniq_delta
| 87 | 0 |
'''simple docstring'''
import argparse
import os
import evaluate
import torch
from datasets import load_dataset
from torch.optim import AdamW
from torch.utils.data import DataLoader
from transformers import AutoModelForSequenceClassification, AutoTokenizer, get_linear_schedule_with_warmup, set_seed
from accelerate import Accelerator, DistributedType
########################################################################
# This is a fully working simple example to use Accelerate
# and perform gradient accumulation
#
# This example trains a Bert base model on GLUE MRPC
# in any of the following settings (with the same script):
# - single CPU or single GPU
# - multi GPUS (using PyTorch distributed mode)
# - (multi) TPUs
# - fp16 (mixed-precision) or fp32 (normal precision)
#
# To run it in each of these various modes, follow the instructions
# in the readme for examples:
# https://github.com/huggingface/accelerate/tree/main/examples
#
########################################################################
lowercase_ = 16
lowercase_ = 32
def lowerCamelCase ( __lowerCamelCase : Accelerator , __lowerCamelCase : int = 16 ) ->Optional[int]:
_SCREAMING_SNAKE_CASE = AutoTokenizer.from_pretrained("""bert-base-cased""" )
_SCREAMING_SNAKE_CASE = load_dataset("""glue""" , """mrpc""" )
def tokenize_function(__lowerCamelCase : int ):
# max_length=None => use the model max length (it's actually the default)
_SCREAMING_SNAKE_CASE = tokenizer(examples["""sentence1"""] , examples["""sentence2"""] , truncation=__lowerCamelCase , max_length=__lowerCamelCase )
return outputs
# Apply the method we just defined to all the examples in all the splits of the dataset
# starting with the main process first:
with accelerator.main_process_first():
_SCREAMING_SNAKE_CASE = datasets.map(
__lowerCamelCase , batched=__lowerCamelCase , remove_columns=["""idx""", """sentence1""", """sentence2"""] , )
# We also rename the 'label' column to 'labels' which is the expected name for labels by the models of the
# transformers library
_SCREAMING_SNAKE_CASE = tokenized_datasets.rename_column("""label""" , """labels""" )
def collate_fn(__lowerCamelCase : List[str] ):
# On TPU it's best to pad everything to the same length or training will be very slow.
_SCREAMING_SNAKE_CASE = 128 if accelerator.distributed_type == DistributedType.TPU else None
# When using mixed precision we want round multiples of 8/16
if accelerator.mixed_precision == "fp8":
_SCREAMING_SNAKE_CASE = 16
elif accelerator.mixed_precision != "no":
_SCREAMING_SNAKE_CASE = 8
else:
_SCREAMING_SNAKE_CASE = None
return tokenizer.pad(
__lowerCamelCase , padding="""longest""" , max_length=__lowerCamelCase , pad_to_multiple_of=__lowerCamelCase , return_tensors="""pt""" , )
# Instantiate dataloaders.
_SCREAMING_SNAKE_CASE = DataLoader(
tokenized_datasets["""train"""] , shuffle=__lowerCamelCase , collate_fn=__lowerCamelCase , batch_size=__lowerCamelCase )
_SCREAMING_SNAKE_CASE = DataLoader(
tokenized_datasets["""validation"""] , shuffle=__lowerCamelCase , collate_fn=__lowerCamelCase , batch_size=__lowerCamelCase )
return train_dataloader, eval_dataloader
# For testing only
if os.environ.get("""TESTING_MOCKED_DATALOADERS""", None) == "1":
from accelerate.test_utils.training import mocked_dataloaders
lowercase_ = mocked_dataloaders # noqa: F811
def lowerCamelCase ( __lowerCamelCase : List[str] , __lowerCamelCase : Optional[int] ) ->str:
# For testing only
if os.environ.get("""TESTING_MOCKED_DATALOADERS""" , __lowerCamelCase ) == "1":
_SCREAMING_SNAKE_CASE = 2
# New Code #
_SCREAMING_SNAKE_CASE = int(args.gradient_accumulation_steps )
# Initialize accelerator
_SCREAMING_SNAKE_CASE = Accelerator(
cpu=args.cpu , mixed_precision=args.mixed_precision , gradient_accumulation_steps=__lowerCamelCase )
if accelerator.distributed_type == DistributedType.TPU and gradient_accumulation_steps > 1:
raise NotImplementedError(
"""Gradient accumulation on TPUs is currently not supported. Pass `gradient_accumulation_steps=1`""" )
# Sample hyper-parameters for learning rate, batch size, seed and a few other HPs
_SCREAMING_SNAKE_CASE = config["""lr"""]
_SCREAMING_SNAKE_CASE = int(config["""num_epochs"""] )
_SCREAMING_SNAKE_CASE = int(config["""seed"""] )
_SCREAMING_SNAKE_CASE = int(config["""batch_size"""] )
_SCREAMING_SNAKE_CASE = evaluate.load("""glue""" , """mrpc""" )
set_seed(__lowerCamelCase )
_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE = get_dataloaders(__lowerCamelCase , __lowerCamelCase )
# Instantiate the model (we build the model here so that the seed also control new weights initialization)
_SCREAMING_SNAKE_CASE = AutoModelForSequenceClassification.from_pretrained("""bert-base-cased""" , return_dict=__lowerCamelCase )
# We could avoid this line since the accelerator is set with `device_placement=True` (default value).
# Note that if you are placing tensors on devices manually, this line absolutely needs to be before the optimizer
# creation otherwise training will not work on TPU (`accelerate` will kindly throw an error to make us aware of that).
_SCREAMING_SNAKE_CASE = model.to(accelerator.device )
# Instantiate optimizer
_SCREAMING_SNAKE_CASE = AdamW(params=model.parameters() , lr=__lowerCamelCase )
# Instantiate scheduler
_SCREAMING_SNAKE_CASE = get_linear_schedule_with_warmup(
optimizer=__lowerCamelCase , num_warmup_steps=100 , num_training_steps=(len(__lowerCamelCase ) * num_epochs) , )
# Prepare everything
# There is no specific order to remember, we just need to unpack the objects in the same order we gave them to the
# prepare method.
_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE = accelerator.prepare(
__lowerCamelCase , __lowerCamelCase , __lowerCamelCase , __lowerCamelCase , __lowerCamelCase )
# Now we train the model
for epoch in range(__lowerCamelCase ):
model.train()
for step, batch in enumerate(__lowerCamelCase ):
# We could avoid this line since we set the accelerator with `device_placement=True`.
batch.to(accelerator.device )
# New code #
# We use the new `accumulate` context manager to perform gradient accumulation
# We also currently do not support TPUs nor advise it as bugs were found on the XLA side when running our tests.
with accelerator.accumulate(__lowerCamelCase ):
_SCREAMING_SNAKE_CASE = model(**__lowerCamelCase )
_SCREAMING_SNAKE_CASE = output.loss
accelerator.backward(__lowerCamelCase )
optimizer.step()
lr_scheduler.step()
optimizer.zero_grad()
model.eval()
for step, batch in enumerate(__lowerCamelCase ):
# We could avoid this line since we set the accelerator with `device_placement=True`.
batch.to(accelerator.device )
with torch.no_grad():
_SCREAMING_SNAKE_CASE = model(**__lowerCamelCase )
_SCREAMING_SNAKE_CASE = outputs.logits.argmax(dim=-1 )
_SCREAMING_SNAKE_CASE , _SCREAMING_SNAKE_CASE = accelerator.gather_for_metrics((predictions, batch["""labels"""]) )
metric.add_batch(
predictions=__lowerCamelCase , references=__lowerCamelCase , )
_SCREAMING_SNAKE_CASE = metric.compute()
# Use accelerator.print to print only on the main process.
accelerator.print(F'epoch {epoch}:' , __lowerCamelCase )
def lowerCamelCase ( ) ->Any:
_SCREAMING_SNAKE_CASE = argparse.ArgumentParser(description="""Simple example of training script.""" )
parser.add_argument(
"""--mixed_precision""" , type=__lowerCamelCase , default=__lowerCamelCase , choices=["""no""", """fp16""", """bf16""", """fp8"""] , help="""Whether to use mixed precision. Choose"""
"""between fp16 and bf16 (bfloat16). Bf16 requires PyTorch >= 1.10."""
"""and an Nvidia Ampere GPU.""" , )
# New Code #
parser.add_argument(
"""--gradient_accumulation_steps""" , type=__lowerCamelCase , default=1 , help="""The number of minibatches to be ran before gradients are accumulated.""" , )
parser.add_argument("""--cpu""" , action="""store_true""" , help="""If passed, will train on the CPU.""" )
_SCREAMING_SNAKE_CASE = parser.parse_args()
_SCREAMING_SNAKE_CASE = {"""lr""": 2e-5, """num_epochs""": 3, """seed""": 42, """batch_size""": 16}
training_function(__lowerCamelCase , __lowerCamelCase )
if __name__ == "__main__":
main()
| 58 | import argparse
import json
from collections import OrderedDict
import torch
from huggingface_hub import cached_download, hf_hub_url
from transformers import AutoImageProcessor, CvtConfig, CvtForImageClassification
def lowercase_ ( _lowerCamelCase : int):
lowercase__ : int = []
embed.append(
(
f'''cvt.encoder.stages.{idx}.embedding.convolution_embeddings.projection.weight''',
f'''stage{idx}.patch_embed.proj.weight''',
))
embed.append(
(
f'''cvt.encoder.stages.{idx}.embedding.convolution_embeddings.projection.bias''',
f'''stage{idx}.patch_embed.proj.bias''',
))
embed.append(
(
f'''cvt.encoder.stages.{idx}.embedding.convolution_embeddings.normalization.weight''',
f'''stage{idx}.patch_embed.norm.weight''',
))
embed.append(
(
f'''cvt.encoder.stages.{idx}.embedding.convolution_embeddings.normalization.bias''',
f'''stage{idx}.patch_embed.norm.bias''',
))
return embed
def lowercase_ ( _lowerCamelCase : Optional[int] , _lowerCamelCase : int):
lowercase__ : Optional[Any] = []
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.convolution.weight''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_q.conv.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.weight''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.bias''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.bias''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.running_mean''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.running_mean''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.running_var''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.running_var''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.num_batches_tracked''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.num_batches_tracked''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.convolution.weight''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_k.conv.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.weight''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.bias''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.bias''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.running_mean''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.running_mean''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.running_var''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.running_var''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.num_batches_tracked''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.num_batches_tracked''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.convolution.weight''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_v.conv.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.weight''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.bias''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.bias''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.running_mean''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.running_mean''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.running_var''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.running_var''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.num_batches_tracked''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.num_batches_tracked''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_query.weight''',
f'''stage{idx}.blocks.{cnt}.attn.proj_q.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_query.bias''',
f'''stage{idx}.blocks.{cnt}.attn.proj_q.bias''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_key.weight''',
f'''stage{idx}.blocks.{cnt}.attn.proj_k.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_key.bias''',
f'''stage{idx}.blocks.{cnt}.attn.proj_k.bias''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_value.weight''',
f'''stage{idx}.blocks.{cnt}.attn.proj_v.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_value.bias''',
f'''stage{idx}.blocks.{cnt}.attn.proj_v.bias''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.output.dense.weight''',
f'''stage{idx}.blocks.{cnt}.attn.proj.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.output.dense.bias''',
f'''stage{idx}.blocks.{cnt}.attn.proj.bias''',
))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.intermediate.dense.weight''', f'''stage{idx}.blocks.{cnt}.mlp.fc1.weight'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.intermediate.dense.bias''', f'''stage{idx}.blocks.{cnt}.mlp.fc1.bias'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.output.dense.weight''', f'''stage{idx}.blocks.{cnt}.mlp.fc2.weight'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.output.dense.bias''', f'''stage{idx}.blocks.{cnt}.mlp.fc2.bias'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_before.weight''', f'''stage{idx}.blocks.{cnt}.norm1.weight'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_before.bias''', f'''stage{idx}.blocks.{cnt}.norm1.bias'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_after.weight''', f'''stage{idx}.blocks.{cnt}.norm2.weight'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_after.bias''', f'''stage{idx}.blocks.{cnt}.norm2.bias'''))
return attention_weights
def lowercase_ ( _lowerCamelCase : Optional[int]):
lowercase__ : Tuple = []
token.append((f'''cvt.encoder.stages.{idx}.cls_token''', "stage2.cls_token"))
return token
def lowercase_ ( ):
lowercase__ : List[str] = []
head.append(("layernorm.weight", "norm.weight"))
head.append(("layernorm.bias", "norm.bias"))
head.append(("classifier.weight", "head.weight"))
head.append(("classifier.bias", "head.bias"))
return head
def lowercase_ ( _lowerCamelCase : Union[str, Any] , _lowerCamelCase : Optional[int] , _lowerCamelCase : Optional[int] , _lowerCamelCase : Union[str, Any]):
lowercase__ : Optional[Any] = "imagenet-1k-id2label.json"
lowercase__ : List[str] = 1000
lowercase__ : Dict = "huggingface/label-files"
lowercase__ : List[Any] = num_labels
lowercase__ : Tuple = json.load(open(cached_download(hf_hub_url(_lowerCamelCase , _lowerCamelCase , repo_type="dataset")) , "r"))
lowercase__ : Tuple = {int(_lowerCamelCase): v for k, v in idalabel.items()}
lowercase__ : Any = idalabel
lowercase__ : List[Any] = {v: k for k, v in idalabel.items()}
lowercase__ : Optional[int] = CvtConfig(num_labels=_lowerCamelCase , idalabel=_lowerCamelCase , labelaid=_lowerCamelCase)
# For depth size 13 (13 = 1+2+10)
if cvt_model.rsplit("/" , 1)[-1][4:6] == "13":
lowercase__ : Any = [1, 2, 10]
# For depth size 21 (21 = 1+4+16)
elif cvt_model.rsplit("/" , 1)[-1][4:6] == "21":
lowercase__ : Tuple = [1, 4, 16]
# For wide cvt (similar to wide-resnet) depth size 24 (w24 = 2 + 2 20)
else:
lowercase__ : Union[str, Any] = [2, 2, 20]
lowercase__ : Optional[Any] = [3, 12, 16]
lowercase__ : Optional[Any] = [192, 768, 1024]
lowercase__ : Union[str, Any] = CvtForImageClassification(_lowerCamelCase)
lowercase__ : Tuple = AutoImageProcessor.from_pretrained("facebook/convnext-base-224-22k-1k")
lowercase__ : int = image_size
lowercase__ : Dict = torch.load(_lowerCamelCase , map_location=torch.device("cpu"))
lowercase__ : Any = OrderedDict()
lowercase__ : int = []
for idx in range(len(config.depth)):
if config.cls_token[idx]:
lowercase__ : Dict = list_of_state_dict + cls_token(_lowerCamelCase)
lowercase__ : List[str] = list_of_state_dict + embeddings(_lowerCamelCase)
for cnt in range(config.depth[idx]):
lowercase__ : Any = list_of_state_dict + attention(_lowerCamelCase , _lowerCamelCase)
lowercase__ : List[str] = list_of_state_dict + final()
for gg in list_of_state_dict:
print(_lowerCamelCase)
for i in range(len(_lowerCamelCase)):
lowercase__ : Dict = original_weights[list_of_state_dict[i][1]]
model.load_state_dict(_lowerCamelCase)
model.save_pretrained(_lowerCamelCase)
image_processor.save_pretrained(_lowerCamelCase)
# Download the weights from zoo: https://1drv.ms/u/s!AhIXJn_J-blW9RzF3rMW7SsLHa8h?e=blQ0Al
if __name__ == "__main__":
UpperCamelCase = argparse.ArgumentParser()
parser.add_argument(
'''--cvt_model''',
default='''cvt-w24''',
type=str,
help='''Name of the cvt model you\'d like to convert.''',
)
parser.add_argument(
'''--image_size''',
default=384,
type=int,
help='''Input Image Size''',
)
parser.add_argument(
'''--cvt_file_name''',
default=R'''cvtmodels\CvT-w24-384x384-IN-22k.pth''',
type=str,
help='''Input Image Size''',
)
parser.add_argument(
'''--pytorch_dump_folder_path''', default=None, type=str, help='''Path to the output PyTorch model directory.'''
)
UpperCamelCase = parser.parse_args()
convert_cvt_checkpoint(args.cvt_model, args.image_size, args.cvt_file_name, args.pytorch_dump_folder_path)
| 87 | 0 |
import argparse
import numpy as np
import torch
from transformers import SpeechTaHifiGan, SpeechTaHifiGanConfig, logging
logging.set_verbosity_info()
__lowerCamelCase = logging.get_logger("""transformers.models.speecht5""")
def UpperCamelCase ( __lowerCamelCase : Union[str, Any] , __lowerCamelCase : str , __lowerCamelCase : List[str] ):
hf_model.apply_weight_norm()
snake_case : Optional[Any] = checkpoint["input_conv.weight_g"]
snake_case : Union[str, Any] = checkpoint["input_conv.weight_v"]
snake_case : List[Any] = checkpoint["input_conv.bias"]
for i in range(len(config.upsample_rates ) ):
snake_case : List[Any] = checkpoint[f"""upsamples.{i}.1.weight_g"""]
snake_case : Dict = checkpoint[f"""upsamples.{i}.1.weight_v"""]
snake_case : Dict = checkpoint[f"""upsamples.{i}.1.bias"""]
for i in range(len(config.upsample_rates ) * len(config.resblock_kernel_sizes ) ):
for j in range(len(config.resblock_dilation_sizes ) ):
snake_case : Union[str, Any] = checkpoint[f"""blocks.{i}.convs1.{j}.1.weight_g"""]
snake_case : List[str] = checkpoint[f"""blocks.{i}.convs1.{j}.1.weight_v"""]
snake_case : Any = checkpoint[f"""blocks.{i}.convs1.{j}.1.bias"""]
snake_case : Any = checkpoint[f"""blocks.{i}.convs2.{j}.1.weight_g"""]
snake_case : Optional[int] = checkpoint[f"""blocks.{i}.convs2.{j}.1.weight_v"""]
snake_case : List[Any] = checkpoint[f"""blocks.{i}.convs2.{j}.1.bias"""]
snake_case : List[str] = checkpoint["output_conv.1.weight_g"]
snake_case : Optional[int] = checkpoint["output_conv.1.weight_v"]
snake_case : int = checkpoint["output_conv.1.bias"]
hf_model.remove_weight_norm()
@torch.no_grad()
def UpperCamelCase ( __lowerCamelCase : Union[str, Any] , __lowerCamelCase : Optional[Any] , __lowerCamelCase : Dict , __lowerCamelCase : Optional[int]=None , __lowerCamelCase : Dict=None , ):
if config_path is not None:
snake_case : Any = SpeechTaHifiGanConfig.from_pretrained(__lowerCamelCase )
else:
snake_case : List[Any] = SpeechTaHifiGanConfig()
snake_case : Tuple = SpeechTaHifiGan(__lowerCamelCase )
snake_case : Any = torch.load(__lowerCamelCase )
load_weights(orig_checkpoint["model"]["generator"] , __lowerCamelCase , __lowerCamelCase )
snake_case : int = np.load(__lowerCamelCase )
snake_case : List[str] = stats[0].reshape(-1 )
snake_case : Dict = stats[1].reshape(-1 )
snake_case : Optional[Any] = torch.from_numpy(__lowerCamelCase ).float()
snake_case : Union[str, Any] = torch.from_numpy(__lowerCamelCase ).float()
model.save_pretrained(__lowerCamelCase )
if repo_id:
print("Pushing to the hub..." )
model.push_to_hub(__lowerCamelCase )
if __name__ == "__main__":
__lowerCamelCase = argparse.ArgumentParser()
parser.add_argument("""--checkpoint_path""", required=True, default=None, type=str, help="""Path to original checkpoint""")
parser.add_argument("""--stats_path""", required=True, default=None, type=str, help="""Path to stats.npy file""")
parser.add_argument("""--config_path""", default=None, type=str, help="""Path to hf config.json of model to convert""")
parser.add_argument(
"""--pytorch_dump_folder_path""", required=True, default=None, type=str, help="""Path to the output PyTorch model."""
)
parser.add_argument(
"""--push_to_hub""", default=None, type=str, help="""Where to upload the converted model on the 🤗 hub."""
)
__lowerCamelCase = parser.parse_args()
convert_hifigan_checkpoint(
args.checkpoint_path,
args.stats_path,
args.pytorch_dump_folder_path,
args.config_path,
args.push_to_hub,
)
| 59 | from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
UpperCamelCase = {
'''configuration_electra''': ['''ELECTRA_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''ElectraConfig''', '''ElectraOnnxConfig'''],
'''tokenization_electra''': ['''ElectraTokenizer'''],
}
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = ['''ElectraTokenizerFast''']
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = [
'''ELECTRA_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''ElectraForCausalLM''',
'''ElectraForMaskedLM''',
'''ElectraForMultipleChoice''',
'''ElectraForPreTraining''',
'''ElectraForQuestionAnswering''',
'''ElectraForSequenceClassification''',
'''ElectraForTokenClassification''',
'''ElectraModel''',
'''ElectraPreTrainedModel''',
'''load_tf_weights_in_electra''',
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = [
'''TF_ELECTRA_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''TFElectraForMaskedLM''',
'''TFElectraForMultipleChoice''',
'''TFElectraForPreTraining''',
'''TFElectraForQuestionAnswering''',
'''TFElectraForSequenceClassification''',
'''TFElectraForTokenClassification''',
'''TFElectraModel''',
'''TFElectraPreTrainedModel''',
]
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = [
'''FlaxElectraForCausalLM''',
'''FlaxElectraForMaskedLM''',
'''FlaxElectraForMultipleChoice''',
'''FlaxElectraForPreTraining''',
'''FlaxElectraForQuestionAnswering''',
'''FlaxElectraForSequenceClassification''',
'''FlaxElectraForTokenClassification''',
'''FlaxElectraModel''',
'''FlaxElectraPreTrainedModel''',
]
if TYPE_CHECKING:
from .configuration_electra import ELECTRA_PRETRAINED_CONFIG_ARCHIVE_MAP, ElectraConfig, ElectraOnnxConfig
from .tokenization_electra import ElectraTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_electra_fast import ElectraTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_electra import (
ELECTRA_PRETRAINED_MODEL_ARCHIVE_LIST,
ElectraForCausalLM,
ElectraForMaskedLM,
ElectraForMultipleChoice,
ElectraForPreTraining,
ElectraForQuestionAnswering,
ElectraForSequenceClassification,
ElectraForTokenClassification,
ElectraModel,
ElectraPreTrainedModel,
load_tf_weights_in_electra,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_electra import (
TF_ELECTRA_PRETRAINED_MODEL_ARCHIVE_LIST,
TFElectraForMaskedLM,
TFElectraForMultipleChoice,
TFElectraForPreTraining,
TFElectraForQuestionAnswering,
TFElectraForSequenceClassification,
TFElectraForTokenClassification,
TFElectraModel,
TFElectraPreTrainedModel,
)
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_electra import (
FlaxElectraForCausalLM,
FlaxElectraForMaskedLM,
FlaxElectraForMultipleChoice,
FlaxElectraForPreTraining,
FlaxElectraForQuestionAnswering,
FlaxElectraForSequenceClassification,
FlaxElectraForTokenClassification,
FlaxElectraModel,
FlaxElectraPreTrainedModel,
)
else:
import sys
UpperCamelCase = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
| 87 | 0 |
"""simple docstring"""
from math import factorial
def _snake_case ( _snake_case : int = 100 ):
return sum(int(_snake_case ) for x in str(factorial(_snake_case ) ) )
if __name__ == "__main__":
print(solution(int(input('''Enter the Number: ''').strip())))
| 60 | import json
import os
import unittest
from transformers import BatchEncoding, LEDTokenizer, LEDTokenizerFast
from transformers.models.led.tokenization_led import VOCAB_FILES_NAMES
from transformers.testing_utils import require_tokenizers, require_torch
from transformers.utils import cached_property
from ...test_tokenization_common import TokenizerTesterMixin
@require_tokenizers
class snake_case_ ( __A ,unittest.TestCase ):
__A : Union[str, Any] = LEDTokenizer
__A : Union[str, Any] = LEDTokenizerFast
__A : Optional[Any] = True
def __UpperCamelCase ( self : List[str] ) -> Union[str, Any]:
super().setUp()
lowercase__ : List[str] = [
"l",
"o",
"w",
"e",
"r",
"s",
"t",
"i",
"d",
"n",
"\u0120",
"\u0120l",
"\u0120n",
"\u0120lo",
"\u0120low",
"er",
"\u0120lowest",
"\u0120newer",
"\u0120wider",
"<unk>",
]
lowercase__ : Optional[int] = dict(zip(lowercase_ , range(len(lowercase_ ) ) ) )
lowercase__ : str = ["#version: 0.2", "\u0120 l", "\u0120l o", "\u0120lo w", "e r", ""]
lowercase__ : Tuple = {"unk_token": "<unk>"}
lowercase__ : Optional[Any] = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES["vocab_file"] )
lowercase__ : Dict = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES["merges_file"] )
with open(self.vocab_file , "w" , encoding="utf-8" ) as fp:
fp.write(json.dumps(lowercase_ ) + "\n" )
with open(self.merges_file , "w" , encoding="utf-8" ) as fp:
fp.write("\n".join(lowercase_ ) )
def __UpperCamelCase ( self : int , **lowercase_ : str ) -> List[Any]:
kwargs.update(self.special_tokens_map )
return self.tokenizer_class.from_pretrained(self.tmpdirname , **lowercase_ )
def __UpperCamelCase ( self : List[Any] , **lowercase_ : Any ) -> List[Any]:
kwargs.update(self.special_tokens_map )
return self.rust_tokenizer_class.from_pretrained(self.tmpdirname , **lowercase_ )
def __UpperCamelCase ( self : str , lowercase_ : Any ) -> Tuple:
return "lower newer", "lower newer"
@cached_property
def __UpperCamelCase ( self : Tuple ) -> Optional[Any]:
return LEDTokenizer.from_pretrained("allenai/led-base-16384" )
@cached_property
def __UpperCamelCase ( self : Tuple ) -> int:
return LEDTokenizerFast.from_pretrained("allenai/led-base-16384" )
@require_torch
def __UpperCamelCase ( self : int ) -> List[Any]:
lowercase__ : Union[str, Any] = ["A long paragraph for summarization.", "Another paragraph for summarization."]
lowercase__ : str = [0, 2_50, 2_51, 1_78_18, 13, 3_91_86, 19_38, 4, 2]
for tokenizer in [self.default_tokenizer, self.default_tokenizer_fast]:
lowercase__ : Dict = tokenizer(lowercase_ , max_length=len(lowercase_ ) , padding=lowercase_ , return_tensors="pt" )
self.assertIsInstance(lowercase_ , lowercase_ )
self.assertEqual((2, 9) , batch.input_ids.shape )
self.assertEqual((2, 9) , batch.attention_mask.shape )
lowercase__ : Union[str, Any] = batch.input_ids.tolist()[0]
self.assertListEqual(lowercase_ , lowercase_ )
@require_torch
def __UpperCamelCase ( self : List[str] ) -> Tuple:
lowercase__ : Dict = ["A long paragraph for summarization.", "Another paragraph for summarization."]
for tokenizer in [self.default_tokenizer, self.default_tokenizer_fast]:
lowercase__ : Optional[int] = tokenizer(lowercase_ , padding=lowercase_ , return_tensors="pt" )
self.assertIn("input_ids" , lowercase_ )
self.assertIn("attention_mask" , lowercase_ )
self.assertNotIn("labels" , lowercase_ )
self.assertNotIn("decoder_attention_mask" , lowercase_ )
@require_torch
def __UpperCamelCase ( self : Optional[Any] ) -> Any:
lowercase__ : Dict = [
"Summary of the text.",
"Another summary.",
]
for tokenizer in [self.default_tokenizer, self.default_tokenizer_fast]:
lowercase__ : Dict = tokenizer(text_target=lowercase_ , max_length=32 , padding="max_length" , return_tensors="pt" )
self.assertEqual(32 , targets["input_ids"].shape[1] )
@require_torch
def __UpperCamelCase ( self : Optional[int] ) -> Tuple:
for tokenizer in [self.default_tokenizer, self.default_tokenizer_fast]:
lowercase__ : int = tokenizer(
["I am a small frog" * 10_24, "I am a small frog"] , padding=lowercase_ , truncation=lowercase_ , return_tensors="pt" )
self.assertIsInstance(lowercase_ , lowercase_ )
self.assertEqual(batch.input_ids.shape , (2, 51_22) )
@require_torch
def __UpperCamelCase ( self : List[str] ) -> Any:
lowercase__ : Union[str, Any] = ["A long paragraph for summarization."]
lowercase__ : List[Any] = [
"Summary of the text.",
]
for tokenizer in [self.default_tokenizer, self.default_tokenizer_fast]:
lowercase__ : List[Any] = tokenizer(lowercase_ , return_tensors="pt" )
lowercase__ : Dict = tokenizer(text_target=lowercase_ , return_tensors="pt" )
lowercase__ : Optional[int] = inputs["input_ids"]
lowercase__ : str = targets["input_ids"]
self.assertTrue((input_ids[:, 0] == tokenizer.bos_token_id).all().item() )
self.assertTrue((labels[:, 0] == tokenizer.bos_token_id).all().item() )
self.assertTrue((input_ids[:, -1] == tokenizer.eos_token_id).all().item() )
self.assertTrue((labels[:, -1] == tokenizer.eos_token_id).all().item() )
@require_torch
def __UpperCamelCase ( self : Union[str, Any] ) -> Dict:
for tokenizer in [self.default_tokenizer, self.default_tokenizer_fast]:
lowercase__ : int = ["Summary of the text.", "Another summary."]
lowercase__ : List[str] = [[0, 0, 0, 0, 0, 0, 0], [0, 0, 0, 0, 0, -1, -1]]
lowercase__ : Tuple = tokenizer(lowercase_ , padding=lowercase_ )
lowercase__ : int = [[0] * len(lowercase_ ) for x in encoded_output["input_ids"]]
lowercase__ : Any = tokenizer.pad(lowercase_ )
self.assertSequenceEqual(outputs["global_attention_mask"] , lowercase_ )
def __UpperCamelCase ( self : int ) -> Union[str, Any]:
pass
def __UpperCamelCase ( self : int ) -> Optional[Any]:
for tokenizer, pretrained_name, kwargs in self.tokenizers_list:
with self.subTest(F'''{tokenizer.__class__.__name__} ({pretrained_name})''' ):
lowercase__ : List[Any] = self.rust_tokenizer_class.from_pretrained(lowercase_ , **lowercase_ )
lowercase__ : List[str] = self.tokenizer_class.from_pretrained(lowercase_ , **lowercase_ )
lowercase__ : List[Any] = "A, <mask> AllenNLP sentence."
lowercase__ : Tuple = tokenizer_r.encode_plus(lowercase_ , add_special_tokens=lowercase_ , return_token_type_ids=lowercase_ )
lowercase__ : List[str] = tokenizer_p.encode_plus(lowercase_ , add_special_tokens=lowercase_ , return_token_type_ids=lowercase_ )
self.assertEqual(sum(tokens_r["token_type_ids"] ) , sum(tokens_p["token_type_ids"] ) )
self.assertEqual(
sum(tokens_r["attention_mask"] ) / len(tokens_r["attention_mask"] ) , sum(tokens_p["attention_mask"] ) / len(tokens_p["attention_mask"] ) , )
lowercase__ : Any = tokenizer_r.convert_ids_to_tokens(tokens_r["input_ids"] )
lowercase__ : Optional[Any] = tokenizer_p.convert_ids_to_tokens(tokens_p["input_ids"] )
self.assertSequenceEqual(tokens_p["input_ids"] , [0, 2_50, 6, 5_02_64, 38_23, 4_87, 2_19_92, 36_45, 4, 2] )
self.assertSequenceEqual(tokens_r["input_ids"] , [0, 2_50, 6, 5_02_64, 38_23, 4_87, 2_19_92, 36_45, 4, 2] )
self.assertSequenceEqual(
lowercase_ , ["<s>", "A", ",", "<mask>", "ĠAllen", "N", "LP", "Ġsentence", ".", "</s>"] )
self.assertSequenceEqual(
lowercase_ , ["<s>", "A", ",", "<mask>", "ĠAllen", "N", "LP", "Ġsentence", ".", "</s>"] )
| 87 | 0 |
"""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 | import math
from typing import Any, Callable, List, Optional, Tuple, Union
import numpy as np
import torch
from ...models import TaFilmDecoder
from ...schedulers import DDPMScheduler
from ...utils import is_onnx_available, logging, randn_tensor
if is_onnx_available():
from ..onnx_utils import OnnxRuntimeModel
from ..pipeline_utils import AudioPipelineOutput, DiffusionPipeline
from .continous_encoder import SpectrogramContEncoder
from .notes_encoder import SpectrogramNotesEncoder
UpperCamelCase = logging.get_logger(__name__) # pylint: disable=invalid-name
UpperCamelCase = 256
class snake_case_ ( __A ):
__A : str = ["melgan"]
def __init__( self : str , lowercase_ : SpectrogramNotesEncoder , lowercase_ : SpectrogramContEncoder , lowercase_ : TaFilmDecoder , lowercase_ : DDPMScheduler , lowercase_ : OnnxRuntimeModel if is_onnx_available() else Any , ) -> None:
super().__init__()
# From MELGAN
lowercase__ : List[Any] = math.log(1E-5 ) # Matches MelGAN training.
lowercase__ : str = 4.0 # Largest value for most examples
lowercase__ : Any = 1_28
self.register_modules(
notes_encoder=lowercase_ , continuous_encoder=lowercase_ , decoder=lowercase_ , scheduler=lowercase_ , melgan=lowercase_ , )
def __UpperCamelCase ( self : Union[str, Any] , lowercase_ : Union[str, Any] , lowercase_ : List[str]=(-1.0, 1.0) , lowercase_ : Dict=False ) -> Optional[Any]:
lowercase__ , lowercase__ : int = output_range
if clip:
lowercase__ : Optional[Any] = torch.clip(lowercase_ , self.min_value , self.max_value )
# Scale to [0, 1].
lowercase__ : List[str] = (features - self.min_value) / (self.max_value - self.min_value)
# Scale to [min_out, max_out].
return zero_one * (max_out - min_out) + min_out
def __UpperCamelCase ( self : Optional[int] , lowercase_ : List[str] , lowercase_ : List[str]=(-1.0, 1.0) , lowercase_ : List[Any]=False ) -> Union[str, Any]:
lowercase__ , lowercase__ : Tuple = input_range
lowercase__ : Optional[Any] = torch.clip(lowercase_ , lowercase_ , lowercase_ ) if clip else outputs
# Scale to [0, 1].
lowercase__ : Union[str, Any] = (outputs - min_out) / (max_out - min_out)
# Scale to [self.min_value, self.max_value].
return zero_one * (self.max_value - self.min_value) + self.min_value
def __UpperCamelCase ( self : List[str] , lowercase_ : Any , lowercase_ : Optional[Any] , lowercase_ : Tuple ) -> List[str]:
lowercase__ : Optional[Any] = input_tokens > 0
lowercase__ , lowercase__ : int = self.notes_encoder(
encoder_input_tokens=lowercase_ , encoder_inputs_mask=lowercase_ )
lowercase__ , lowercase__ : List[Any] = self.continuous_encoder(
encoder_inputs=lowercase_ , encoder_inputs_mask=lowercase_ )
return [(tokens_encoded, tokens_mask), (continuous_encoded, continuous_mask)]
def __UpperCamelCase ( self : Optional[Any] , lowercase_ : Optional[int] , lowercase_ : Optional[int] , lowercase_ : str ) -> Tuple:
lowercase__ : Union[str, Any] = noise_time
if not torch.is_tensor(lowercase_ ):
lowercase__ : Optional[Any] = torch.tensor([timesteps] , dtype=torch.long , device=input_tokens.device )
elif torch.is_tensor(lowercase_ ) and len(timesteps.shape ) == 0:
lowercase__ : Optional[Any] = timesteps[None].to(input_tokens.device )
# broadcast to batch dimension in a way that's compatible with ONNX/Core ML
lowercase__ : int = timesteps * torch.ones(input_tokens.shape[0] , dtype=timesteps.dtype , device=timesteps.device )
lowercase__ : str = self.decoder(
encodings_and_masks=lowercase_ , decoder_input_tokens=lowercase_ , decoder_noise_time=lowercase_ )
return logits
@torch.no_grad()
def __call__( self : List[str] , lowercase_ : List[List[int]] , lowercase_ : Optional[torch.Generator] = None , lowercase_ : int = 1_00 , lowercase_ : bool = True , lowercase_ : str = "numpy" , lowercase_ : Optional[Callable[[int, int, torch.FloatTensor], None]] = None , lowercase_ : int = 1 , ) -> Union[AudioPipelineOutput, Tuple]:
if (callback_steps is None) or (
callback_steps is not None and (not isinstance(lowercase_ , lowercase_ ) or callback_steps <= 0)
):
raise ValueError(
F'''`callback_steps` has to be a positive integer but is {callback_steps} of type'''
F''' {type(lowercase_ )}.''' )
lowercase__ : str = np.zeros([1, TARGET_FEATURE_LENGTH, self.n_dims] , dtype=np.floataa )
lowercase__ : Optional[int] = np.zeros([1, 0, self.n_dims] , np.floataa )
lowercase__ : str = torch.ones((1, TARGET_FEATURE_LENGTH) , dtype=lowercase_ , device=self.device )
for i, encoder_input_tokens in enumerate(lowercase_ ):
if i == 0:
lowercase__ : Union[str, Any] = torch.from_numpy(pred_mel[:1].copy() ).to(
device=self.device , dtype=self.decoder.dtype )
# The first chunk has no previous context.
lowercase__ : List[str] = torch.zeros((1, TARGET_FEATURE_LENGTH) , dtype=lowercase_ , device=self.device )
else:
# The full song pipeline does not feed in a context feature, so the mask
# will be all 0s after the feature converter. Because we know we're
# feeding in a full context chunk from the previous prediction, set it
# to all 1s.
lowercase__ : str = ones
lowercase__ : str = self.scale_features(
lowercase_ , output_range=[-1.0, 1.0] , clip=lowercase_ )
lowercase__ : str = self.encode(
input_tokens=torch.IntTensor([encoder_input_tokens] ).to(device=self.device ) , continuous_inputs=lowercase_ , continuous_mask=lowercase_ , )
# Sample encoder_continuous_inputs shaped gaussian noise to begin loop
lowercase__ : List[str] = randn_tensor(
shape=encoder_continuous_inputs.shape , generator=lowercase_ , device=self.device , dtype=self.decoder.dtype , )
# set step values
self.scheduler.set_timesteps(lowercase_ )
# Denoising diffusion loop
for j, t in enumerate(self.progress_bar(self.scheduler.timesteps ) ):
lowercase__ : Optional[int] = self.decode(
encodings_and_masks=lowercase_ , input_tokens=lowercase_ , noise_time=t / self.scheduler.config.num_train_timesteps , )
# Compute previous output: x_t -> x_t-1
lowercase__ : Optional[Any] = self.scheduler.step(lowercase_ , lowercase_ , lowercase_ , generator=lowercase_ ).prev_sample
lowercase__ : Tuple = self.scale_to_features(lowercase_ , input_range=[-1.0, 1.0] )
lowercase__ : List[str] = mel[:1]
lowercase__ : Optional[int] = mel.cpu().float().numpy()
lowercase__ : str = np.concatenate([full_pred_mel, pred_mel[:1]] , axis=1 )
# call the callback, if provided
if callback is not None and i % callback_steps == 0:
callback(lowercase_ , lowercase_ )
logger.info("Generated segment" , lowercase_ )
if output_type == "numpy" and not is_onnx_available():
raise ValueError(
"Cannot return output in 'np' format if ONNX is not available. Make sure to have ONNX installed or set 'output_type' to 'mel'." )
elif output_type == "numpy" and self.melgan is None:
raise ValueError(
"Cannot return output in 'np' format if melgan component is not defined. Make sure to define `self.melgan` or set 'output_type' to 'mel'." )
if output_type == "numpy":
lowercase__ : Union[str, Any] = self.melgan(input_features=full_pred_mel.astype(np.floataa ) )
else:
lowercase__ : Dict = full_pred_mel
if not return_dict:
return (output,)
return AudioPipelineOutput(audios=lowercase_ )
| 87 | 0 |
import doctest
from collections import deque
import numpy as np
class UpperCAmelCase__ :
"""simple docstring"""
def __init__( self ) -> None:
__UpperCamelCase =[2, 1, 2, -1]
__UpperCamelCase =[1, 2, 3, 4]
def _a ( self ) -> list[float]:
__UpperCamelCase =len(self.first_signal )
__UpperCamelCase =len(self.second_signal )
__UpperCamelCase =max(A_ , A_ )
# create a zero matrix of max_length x max_length
__UpperCamelCase =[[0] * max_length for i in range(A_ )]
# fills the smaller signal with zeros to make both signals of same length
if length_first_signal < length_second_signal:
self.first_signal += [0] * (max_length - length_first_signal)
elif length_first_signal > length_second_signal:
self.second_signal += [0] * (max_length - length_second_signal)
for i in range(A_ ):
__UpperCamelCase =deque(self.second_signal )
rotated_signal.rotate(A_ )
for j, item in enumerate(A_ ):
matrix[i][j] += item
# multiply the matrix with the first signal
__UpperCamelCase =np.matmul(np.transpose(A_ ) , np.transpose(self.first_signal ) )
# rounding-off to two decimal places
return [round(A_ , 2 ) for i in final_signal]
if __name__ == "__main__":
doctest.testmod()
| 62 | import unittest
from datasets import load_dataset
from transformers.pipelines import pipeline
from transformers.testing_utils import is_pipeline_test, nested_simplify, require_torch, slow
@is_pipeline_test
@require_torch
class snake_case_ ( unittest.TestCase ):
@require_torch
def __UpperCamelCase ( self : Optional[int] ) -> List[Any]:
lowercase__ : Union[str, Any] = pipeline(
task="zero-shot-audio-classification" , model="hf-internal-testing/tiny-clap-htsat-unfused" )
lowercase__ : List[str] = load_dataset("ashraq/esc50" )
lowercase__ : List[Any] = dataset["train"]["audio"][-1]["array"]
lowercase__ : Dict = audio_classifier(lowercase_ , candidate_labels=["Sound of a dog", "Sound of vaccum cleaner"] )
self.assertEqual(
nested_simplify(lowercase_ ) , [{"score": 0.5_01, "label": "Sound of a dog"}, {"score": 0.4_99, "label": "Sound of vaccum cleaner"}] , )
@unittest.skip("No models are available in TF" )
def __UpperCamelCase ( self : str ) -> Optional[int]:
pass
@slow
@require_torch
def __UpperCamelCase ( self : List[str] ) -> int:
lowercase__ : Tuple = pipeline(
task="zero-shot-audio-classification" , model="laion/clap-htsat-unfused" , )
# This is an audio of a dog
lowercase__ : Union[str, Any] = load_dataset("ashraq/esc50" )
lowercase__ : Tuple = dataset["train"]["audio"][-1]["array"]
lowercase__ : List[Any] = audio_classifier(lowercase_ , candidate_labels=["Sound of a dog", "Sound of vaccum cleaner"] )
self.assertEqual(
nested_simplify(lowercase_ ) , [
{"score": 0.9_99, "label": "Sound of a dog"},
{"score": 0.0_01, "label": "Sound of vaccum cleaner"},
] , )
lowercase__ : int = audio_classifier([audio] * 5 , candidate_labels=["Sound of a dog", "Sound of vaccum cleaner"] )
self.assertEqual(
nested_simplify(lowercase_ ) , [
[
{"score": 0.9_99, "label": "Sound of a dog"},
{"score": 0.0_01, "label": "Sound of vaccum cleaner"},
],
]
* 5 , )
lowercase__ : Tuple = audio_classifier(
[audio] * 5 , candidate_labels=["Sound of a dog", "Sound of vaccum cleaner"] , batch_size=5 )
self.assertEqual(
nested_simplify(lowercase_ ) , [
[
{"score": 0.9_99, "label": "Sound of a dog"},
{"score": 0.0_01, "label": "Sound of vaccum cleaner"},
],
]
* 5 , )
@unittest.skip("No models are available in TF" )
def __UpperCamelCase ( self : Union[str, Any] ) -> Dict:
pass
| 87 | 0 |
'''simple docstring'''
def _lowerCamelCase ( lowercase : str ) -> list:
if n_term == "":
return []
_a = []
for temp in range(int(lowercase ) ):
series.append(F'1/{temp + 1}' if series else "1" )
return series
if __name__ == "__main__":
lowerCAmelCase_ : Union[str, Any] = input('Enter the last number (nth term) of the Harmonic Series')
print('Formula of Harmonic Series => 1+1/2+1/3 ..... 1/n')
print(harmonic_series(nth_term))
| 63 | import operator
def lowercase_ ( _lowerCamelCase : list , _lowerCamelCase : bool = False , _lowerCamelCase : list | None = None):
lowercase__ : int = operator.lt if reverse else operator.gt
lowercase__ : str = solution or []
if not arr:
return solution
lowercase__ : List[str] = [arr.pop(0)]
for i, item in enumerate(_lowerCamelCase):
if _operator(_lowerCamelCase , sublist[-1]):
sublist.append(_lowerCamelCase)
arr.pop(_lowerCamelCase)
# merging sublist into solution list
if not solution:
solution.extend(_lowerCamelCase)
else:
while sublist:
lowercase__ : str = sublist.pop(0)
for i, xx in enumerate(_lowerCamelCase):
if not _operator(_lowerCamelCase , _lowerCamelCase):
solution.insert(_lowerCamelCase , _lowerCamelCase)
break
else:
solution.append(_lowerCamelCase)
strand_sort(_lowerCamelCase , _lowerCamelCase , _lowerCamelCase)
return solution
if __name__ == "__main__":
assert strand_sort([4, 3, 5, 1, 2]) == [1, 2, 3, 4, 5]
assert strand_sort([4, 3, 5, 1, 2], reverse=True) == [5, 4, 3, 2, 1]
| 87 | 0 |
"""simple docstring"""
import unittest
from transformers import CamembertTokenizer, CamembertTokenizerFast
from transformers.testing_utils import get_tests_dir, require_sentencepiece, require_tokenizers, slow
from transformers.utils import is_torch_available
from ...test_tokenization_common import TokenizerTesterMixin
A_ = get_tests_dir('''fixtures/test_sentencepiece.model''')
A_ = get_tests_dir('''fixtures/test_sentencepiece_bpe.model''')
A_ = '''pt''' if is_torch_available() else '''tf'''
@require_sentencepiece
@require_tokenizers
class lowercase( __a , unittest.TestCase ):
'''simple docstring'''
lowercase__ = CamembertTokenizer
lowercase__ = CamembertTokenizerFast
lowercase__ = True
lowercase__ = True
def UpperCamelCase_ ( self: Optional[Any] ):
'''simple docstring'''
super().setUp()
# We have a SentencePiece fixture for testing
_snake_case : List[str] = CamembertTokenizer(a_ )
tokenizer.save_pretrained(self.tmpdirname )
def UpperCamelCase_ ( self: Tuple ):
'''simple docstring'''
_snake_case : str = """<pad>"""
_snake_case : int = 1
self.assertEqual(self.get_tokenizer()._convert_token_to_id(a_ ), a_ )
self.assertEqual(self.get_tokenizer()._convert_id_to_token(a_ ), a_ )
def UpperCamelCase_ ( self: List[Any] ):
'''simple docstring'''
_snake_case : Any = list(self.get_tokenizer().get_vocab().keys() )
self.assertEqual(vocab_keys[0], """<s>NOTUSED""" )
self.assertEqual(vocab_keys[1], """<pad>""" )
self.assertEqual(vocab_keys[-1], """<mask>""" )
self.assertEqual(len(a_ ), 1_004 )
def UpperCamelCase_ ( self: List[str] ):
'''simple docstring'''
self.assertEqual(self.get_tokenizer().vocab_size, 1_005 )
def UpperCamelCase_ ( self: int ):
'''simple docstring'''
_snake_case : List[Any] = CamembertTokenizer(a_ )
tokenizer.save_pretrained(self.tmpdirname )
_snake_case : Dict = CamembertTokenizerFast.from_pretrained(self.tmpdirname )
_snake_case : Dict = """I was born in 92000, and this is falsé."""
_snake_case : List[str] = tokenizer.encode(a_ )
_snake_case : Optional[Any] = rust_tokenizer.encode(a_ )
self.assertListEqual(a_, a_ )
_snake_case : int = tokenizer.encode(a_, add_special_tokens=a_ )
_snake_case : int = rust_tokenizer.encode(a_, add_special_tokens=a_ )
self.assertListEqual(a_, a_ )
# <unk> tokens are not the same for `rust` than for `slow`.
# Because spm gives back raw token instead of `unk` in EncodeAsPieces
# tokens = tokenizer.tokenize(sequence)
_snake_case : Any = tokenizer.convert_ids_to_tokens(a_ )
_snake_case : Optional[Any] = rust_tokenizer.tokenize(a_ )
self.assertListEqual(a_, a_ )
def UpperCamelCase_ ( self: Optional[Any] ):
'''simple docstring'''
if not self.test_rust_tokenizer:
return
_snake_case : Tuple = self.get_tokenizer()
_snake_case : Tuple = self.get_rust_tokenizer()
_snake_case : List[Any] = """I was born in 92000, and this is falsé."""
_snake_case : int = tokenizer.tokenize(a_ )
_snake_case : Union[str, Any] = rust_tokenizer.tokenize(a_ )
self.assertListEqual(a_, a_ )
_snake_case : Tuple = tokenizer.encode(a_, add_special_tokens=a_ )
_snake_case : Optional[Any] = rust_tokenizer.encode(a_, add_special_tokens=a_ )
self.assertListEqual(a_, a_ )
_snake_case : Any = self.get_rust_tokenizer()
_snake_case : List[str] = tokenizer.encode(a_ )
_snake_case : str = rust_tokenizer.encode(a_ )
self.assertListEqual(a_, a_ )
@slow
def UpperCamelCase_ ( self: Any ):
'''simple docstring'''
_snake_case : Optional[Any] = {"""input_ids""": [[5, 54, 7_196, 297, 30, 23, 776, 18, 11, 3_215, 3_705, 8_252, 22, 3_164, 1_181, 2_116, 29, 16, 813, 25, 791, 3_314, 20, 3_446, 38, 27_575, 120, 6, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [5, 468, 17, 11, 9_088, 20, 1_517, 8, 22_804, 18_818, 10, 38, 629, 607, 607, 142, 19, 7_196, 867, 56, 10_326, 24, 2_267, 20, 416, 5_072, 15_612, 233, 734, 7, 2_399, 27, 16, 3_015, 1_649, 7, 24, 20, 4_338, 2_399, 27, 13, 3_400, 14, 13, 6_189, 8, 930, 9, 6]], """attention_mask""": [[1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]]} # noqa: E501
# fmt: on
# camembert is a french model. So we also use french texts.
_snake_case : List[str] = [
"""Le transformeur est un modèle d'apprentissage profond introduit en 2017, """
"""utilisé principalement dans le domaine du traitement automatique des langues (TAL).""",
"""À l'instar des réseaux de neurones récurrents (RNN), les transformeurs sont conçus """
"""pour gérer des données séquentielles, telles que le langage naturel, pour des tâches """
"""telles que la traduction et la synthèse de texte.""",
]
self.tokenizer_integration_test_util(
expected_encoding=a_, model_name="""camembert-base""", revision="""3a0641d9a1aeb7e848a74299e7e4c4bca216b4cf""", sequences=a_, )
| 64 | import time
import warnings
from abc import ABC
from copy import deepcopy
from typing import Optional
import torch
from ..utils import add_start_docstrings, logging
UpperCamelCase = logging.get_logger(__name__)
UpperCamelCase = R'''
Args:
input_ids (`torch.LongTensor` of shape `(batch_size, sequence_length)`):
Indices of input sequence tokens in the vocabulary.
Indices can be obtained using [`AutoTokenizer`]. See [`PreTrainedTokenizer.encode`] and
[`PreTrainedTokenizer.__call__`] for details.
[What are input IDs?](../glossary#input-ids)
scores (`torch.FloatTensor` of shape `(batch_size, config.vocab_size)`):
Prediction scores of a language modeling head. These can be scores for each vocabulary token before SoftMax
or scores for each vocabulary token after SoftMax.
kwargs (`Dict[str, Any]`, *optional*):
Additional stopping criteria specific kwargs.
Return:
`bool`. `False` indicates we should continue, `True` indicates we should stop.
'''
class snake_case_ ( __A ):
@add_start_docstrings(lowercase_ )
def __call__( self : Optional[Any] , lowercase_ : torch.LongTensor , lowercase_ : torch.FloatTensor , **lowercase_ : List[str] ) -> bool:
raise NotImplementedError("StoppingCriteria needs to be subclassed" )
class snake_case_ ( __A ):
def __init__( self : Dict , lowercase_ : int , lowercase_ : Optional[int] = None ) -> List[str]:
lowercase__ : str = max_length
lowercase__ : Optional[int] = max_position_embeddings
@add_start_docstrings(lowercase_ )
def __call__( self : Tuple , lowercase_ : torch.LongTensor , lowercase_ : torch.FloatTensor , **lowercase_ : Union[str, Any] ) -> bool:
lowercase__ : str = input_ids.shape[-1]
lowercase__ : Any = cur_len >= self.max_length
if self.max_position_embeddings is not None and not is_done and cur_len >= self.max_position_embeddings:
logger.warning_once(
"This is a friendly reminder - the current text generation call will exceed the model's predefined "
F'''maximum length ({self.max_position_embeddings}). Depending on the model, you may observe '''
"exceptions, performance degradation, or nothing at all." )
return is_done
class snake_case_ ( __A ):
def __init__( self : Tuple , lowercase_ : int , lowercase_ : int ) -> List[str]:
warnings.warn(
"The class `MaxNewTokensCriteria` is deprecated. "
F'''Please use `MaxLengthCriteria(max_length={start_length + max_new_tokens})` '''
"with `max_length = start_length + max_new_tokens` instead." , lowercase_ , )
lowercase__ : Optional[int] = start_length
lowercase__ : str = max_new_tokens
lowercase__ : Tuple = start_length + max_new_tokens
@add_start_docstrings(lowercase_ )
def __call__( self : List[Any] , lowercase_ : torch.LongTensor , lowercase_ : torch.FloatTensor , **lowercase_ : Dict ) -> bool:
return input_ids.shape[-1] >= self.max_length
class snake_case_ ( __A ):
def __init__( self : Tuple , lowercase_ : float , lowercase_ : Optional[float] = None ) -> Dict:
lowercase__ : List[str] = max_time
lowercase__ : Tuple = time.time() if initial_timestamp is None else initial_timestamp
@add_start_docstrings(lowercase_ )
def __call__( self : int , lowercase_ : torch.LongTensor , lowercase_ : torch.FloatTensor , **lowercase_ : Union[str, Any] ) -> bool:
return time.time() - self.initial_timestamp > self.max_time
class snake_case_ ( __A ):
@add_start_docstrings(lowercase_ )
def __call__( self : str , lowercase_ : torch.LongTensor , lowercase_ : torch.FloatTensor , **lowercase_ : List[str] ) -> bool:
return any(criteria(lowercase_ , lowercase_ ) for criteria in self )
@property
def __UpperCamelCase ( self : Optional[Any] ) -> Optional[int]:
for stopping_criterium in self:
if isinstance(lowercase_ , lowercase_ ):
return stopping_criterium.max_length
elif isinstance(lowercase_ , lowercase_ ):
return stopping_criterium.max_length
return None
def lowercase_ ( _lowerCamelCase : StoppingCriteriaList , _lowerCamelCase : int):
lowercase__ : Optional[int] = stopping_criteria.max_length
lowercase__ : str = deepcopy(_lowerCamelCase)
if stopping_max_length is not None and stopping_max_length != max_length:
warnings.warn("You set different `max_length` for stopping criteria and `max_length` parameter" , _lowerCamelCase)
elif stopping_max_length is None:
new_stopping_criteria.append(MaxLengthCriteria(max_length=_lowerCamelCase))
return new_stopping_criteria
| 87 | 0 |
import argparse
import json
from collections import OrderedDict
import torch
from huggingface_hub import cached_download, hf_hub_url
from transformers import AutoImageProcessor, CvtConfig, CvtForImageClassification
def lowerCAmelCase_ ( __A ) -> int:
'''simple docstring'''
UpperCAmelCase__ = []
embed.append(
(
f"""cvt.encoder.stages.{idx}.embedding.convolution_embeddings.projection.weight""",
f"""stage{idx}.patch_embed.proj.weight""",
) )
embed.append(
(
f"""cvt.encoder.stages.{idx}.embedding.convolution_embeddings.projection.bias""",
f"""stage{idx}.patch_embed.proj.bias""",
) )
embed.append(
(
f"""cvt.encoder.stages.{idx}.embedding.convolution_embeddings.normalization.weight""",
f"""stage{idx}.patch_embed.norm.weight""",
) )
embed.append(
(
f"""cvt.encoder.stages.{idx}.embedding.convolution_embeddings.normalization.bias""",
f"""stage{idx}.patch_embed.norm.bias""",
) )
return embed
def lowerCAmelCase_ ( __A, __A ) -> Optional[int]:
'''simple docstring'''
UpperCAmelCase__ = []
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.convolution.weight""",
f"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.conv.weight""",
) )
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.weight""",
f"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.weight""",
) )
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.bias""",
f"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.bias""",
) )
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.running_mean""",
f"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.running_mean""",
) )
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.running_var""",
f"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.running_var""",
) )
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.num_batches_tracked""",
f"""stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.num_batches_tracked""",
) )
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.convolution.weight""",
f"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.conv.weight""",
) )
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.weight""",
f"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.weight""",
) )
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.bias""",
f"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.bias""",
) )
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.running_mean""",
f"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.running_mean""",
) )
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.running_var""",
f"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.running_var""",
) )
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.num_batches_tracked""",
f"""stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.num_batches_tracked""",
) )
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.convolution.weight""",
f"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.conv.weight""",
) )
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.weight""",
f"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.weight""",
) )
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.bias""",
f"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.bias""",
) )
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.running_mean""",
f"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.running_mean""",
) )
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.running_var""",
f"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.running_var""",
) )
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.num_batches_tracked""",
f"""stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.num_batches_tracked""",
) )
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_query.weight""",
f"""stage{idx}.blocks.{cnt}.attn.proj_q.weight""",
) )
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_query.bias""",
f"""stage{idx}.blocks.{cnt}.attn.proj_q.bias""",
) )
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_key.weight""",
f"""stage{idx}.blocks.{cnt}.attn.proj_k.weight""",
) )
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_key.bias""",
f"""stage{idx}.blocks.{cnt}.attn.proj_k.bias""",
) )
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_value.weight""",
f"""stage{idx}.blocks.{cnt}.attn.proj_v.weight""",
) )
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_value.bias""",
f"""stage{idx}.blocks.{cnt}.attn.proj_v.bias""",
) )
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.output.dense.weight""",
f"""stage{idx}.blocks.{cnt}.attn.proj.weight""",
) )
attention_weights.append(
(
f"""cvt.encoder.stages.{idx}.layers.{cnt}.attention.output.dense.bias""",
f"""stage{idx}.blocks.{cnt}.attn.proj.bias""",
) )
attention_weights.append(
(f"""cvt.encoder.stages.{idx}.layers.{cnt}.intermediate.dense.weight""", f"""stage{idx}.blocks.{cnt}.mlp.fc1.weight""") )
attention_weights.append(
(f"""cvt.encoder.stages.{idx}.layers.{cnt}.intermediate.dense.bias""", f"""stage{idx}.blocks.{cnt}.mlp.fc1.bias""") )
attention_weights.append(
(f"""cvt.encoder.stages.{idx}.layers.{cnt}.output.dense.weight""", f"""stage{idx}.blocks.{cnt}.mlp.fc2.weight""") )
attention_weights.append(
(f"""cvt.encoder.stages.{idx}.layers.{cnt}.output.dense.bias""", f"""stage{idx}.blocks.{cnt}.mlp.fc2.bias""") )
attention_weights.append(
(f"""cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_before.weight""", f"""stage{idx}.blocks.{cnt}.norm1.weight""") )
attention_weights.append(
(f"""cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_before.bias""", f"""stage{idx}.blocks.{cnt}.norm1.bias""") )
attention_weights.append(
(f"""cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_after.weight""", f"""stage{idx}.blocks.{cnt}.norm2.weight""") )
attention_weights.append(
(f"""cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_after.bias""", f"""stage{idx}.blocks.{cnt}.norm2.bias""") )
return attention_weights
def lowerCAmelCase_ ( __A ) -> Optional[int]:
'''simple docstring'''
UpperCAmelCase__ = []
token.append((f"""cvt.encoder.stages.{idx}.cls_token""", "stage2.cls_token") )
return token
def lowerCAmelCase_ ( ) -> int:
'''simple docstring'''
UpperCAmelCase__ = []
head.append(("layernorm.weight", "norm.weight") )
head.append(("layernorm.bias", "norm.bias") )
head.append(("classifier.weight", "head.weight") )
head.append(("classifier.bias", "head.bias") )
return head
def lowerCAmelCase_ ( __A, __A, __A, __A ) -> Dict:
'''simple docstring'''
UpperCAmelCase__ = "imagenet-1k-id2label.json"
UpperCAmelCase__ = 1_000
UpperCAmelCase__ = "huggingface/label-files"
UpperCAmelCase__ = num_labels
UpperCAmelCase__ = json.load(open(cached_download(hf_hub_url(__A, __A, repo_type="dataset" ) ), "r" ) )
UpperCAmelCase__ = {int(__A ): v for k, v in idalabel.items()}
UpperCAmelCase__ = idalabel
UpperCAmelCase__ = {v: k for k, v in idalabel.items()}
UpperCAmelCase__ = UpperCAmelCase__ = CvtConfig(num_labels=__A, idalabel=__A, labelaid=__A )
# For depth size 13 (13 = 1+2+10)
if cvt_model.rsplit("/", 1 )[-1][4:6] == "13":
UpperCAmelCase__ = [1, 2, 10]
# For depth size 21 (21 = 1+4+16)
elif cvt_model.rsplit("/", 1 )[-1][4:6] == "21":
UpperCAmelCase__ = [1, 4, 16]
# For wide cvt (similar to wide-resnet) depth size 24 (w24 = 2 + 2 20)
else:
UpperCAmelCase__ = [2, 2, 20]
UpperCAmelCase__ = [3, 12, 16]
UpperCAmelCase__ = [192, 768, 1_024]
UpperCAmelCase__ = CvtForImageClassification(__A )
UpperCAmelCase__ = AutoImageProcessor.from_pretrained("facebook/convnext-base-224-22k-1k" )
UpperCAmelCase__ = image_size
UpperCAmelCase__ = torch.load(__A, map_location=torch.device("cpu" ) )
UpperCAmelCase__ = OrderedDict()
UpperCAmelCase__ = []
for idx in range(len(config.depth ) ):
if config.cls_token[idx]:
UpperCAmelCase__ = list_of_state_dict + cls_token(__A )
UpperCAmelCase__ = list_of_state_dict + embeddings(__A )
for cnt in range(config.depth[idx] ):
UpperCAmelCase__ = list_of_state_dict + attention(__A, __A )
UpperCAmelCase__ = list_of_state_dict + final()
for gg in list_of_state_dict:
print(__A )
for i in range(len(__A ) ):
UpperCAmelCase__ = original_weights[list_of_state_dict[i][1]]
model.load_state_dict(__A )
model.save_pretrained(__A )
image_processor.save_pretrained(__A )
# Download the weights from zoo: https://1drv.ms/u/s!AhIXJn_J-blW9RzF3rMW7SsLHa8h?e=blQ0Al
if __name__ == "__main__":
UpperCamelCase__ = argparse.ArgumentParser()
parser.add_argument(
'--cvt_model',
default='cvt-w24',
type=str,
help='Name of the cvt model you\'d like to convert.',
)
parser.add_argument(
'--image_size',
default=3_8_4,
type=int,
help='Input Image Size',
)
parser.add_argument(
'--cvt_file_name',
default=R'cvtmodels\CvT-w24-384x384-IN-22k.pth',
type=str,
help='Input Image Size',
)
parser.add_argument(
'--pytorch_dump_folder_path', default=None, type=str, help='Path to the output PyTorch model directory.'
)
UpperCamelCase__ = parser.parse_args()
convert_cvt_checkpoint(args.cvt_model, args.image_size, args.cvt_file_name, args.pytorch_dump_folder_path)
| 65 | from typing import Dict
import numpy as np
import torch
from . import residue_constants as rc
from .tensor_utils import tensor_tree_map, tree_map
def lowercase_ ( _lowerCamelCase : Dict[str, torch.Tensor]):
lowercase__ : Any = []
lowercase__ : Optional[int] = []
lowercase__ : Tuple = []
for rt in rc.restypes:
lowercase__ : Dict = rc.restype_name_to_atomaa_names[rc.restype_atoa[rt]]
restype_atomaa_to_atomaa_list.append([(rc.atom_order[name] if name else 0) for name in atom_names])
lowercase__ : str = {name: i for i, name in enumerate(_lowerCamelCase)}
restype_atomaa_to_atomaa_list.append(
[(atom_name_to_idxaa[name] if name in atom_name_to_idxaa else 0) for name in rc.atom_types])
restype_atomaa_mask_list.append([(1.0 if name else 0.0) for name in atom_names])
# Add dummy mapping for restype 'UNK'
restype_atomaa_to_atomaa_list.append([0] * 14)
restype_atomaa_to_atomaa_list.append([0] * 37)
restype_atomaa_mask_list.append([0.0] * 14)
lowercase__ : Union[str, Any] = torch.tensor(
_lowerCamelCase , dtype=torch.intaa , device=protein["aatype"].device , )
lowercase__ : str = torch.tensor(
_lowerCamelCase , dtype=torch.intaa , device=protein["aatype"].device , )
lowercase__ : List[str] = torch.tensor(
_lowerCamelCase , dtype=torch.floataa , device=protein["aatype"].device , )
lowercase__ : str = protein["aatype"].to(torch.long)
# create the mapping for (residx, atom14) --> atom37, i.e. an array
# with shape (num_res, 14) containing the atom37 indices for this protein
lowercase__ : Dict = restype_atomaa_to_atomaa[protein_aatype]
lowercase__ : str = restype_atomaa_mask[protein_aatype]
lowercase__ : List[Any] = residx_atomaa_mask
lowercase__ : Optional[Any] = residx_atomaa_to_atomaa.long()
# create the gather indices for mapping back
lowercase__ : str = restype_atomaa_to_atomaa[protein_aatype]
lowercase__ : str = residx_atomaa_to_atomaa.long()
# create the corresponding mask
lowercase__ : Optional[Any] = torch.zeros([21, 37] , dtype=torch.floataa , device=protein["aatype"].device)
for restype, restype_letter in enumerate(rc.restypes):
lowercase__ : Tuple = rc.restype_atoa[restype_letter]
lowercase__ : List[Any] = rc.residue_atoms[restype_name]
for atom_name in atom_names:
lowercase__ : Optional[int] = rc.atom_order[atom_name]
lowercase__ : Tuple = 1
lowercase__ : Dict = restype_atomaa_mask[protein_aatype]
lowercase__ : Any = residx_atomaa_mask
return protein
def lowercase_ ( _lowerCamelCase : Dict[str, torch.Tensor]):
lowercase__ : Tuple = tree_map(lambda _lowerCamelCase: torch.tensor(_lowerCamelCase , device=batch["aatype"].device) , _lowerCamelCase , np.ndarray)
lowercase__ : List[str] = tensor_tree_map(lambda _lowerCamelCase: np.array(_lowerCamelCase) , make_atomaa_masks(_lowerCamelCase))
return out
| 87 | 0 |
"""simple docstring"""
import math
class lowerCamelCase :
'''simple docstring'''
def __init__( self: List[Any] , snake_case: int=0 ) -> int: # a graph with Node 0,1,...,N-1
snake_case_ :List[str] = n
snake_case_ :int = [
[math.inf for j in range(0 , snake_case )] for i in range(0 , snake_case )
] # adjacency matrix for weight
snake_case_ :str = [
[math.inf for j in range(0 , snake_case )] for i in range(0 , snake_case )
] # dp[i][j] stores minimum distance from i to j
def lowerCAmelCase_ ( self: Optional[int] , snake_case: str , snake_case: Optional[Any] , snake_case: str ) -> Tuple:
snake_case_ :List[Any] = w
def lowerCAmelCase_ ( self: List[str] ) -> str:
for k in range(0 , self.n ):
for i in range(0 , self.n ):
for j in range(0 , self.n ):
snake_case_ :Any = min(self.dp[i][j] , self.dp[i][k] + self.dp[k][j] )
def lowerCAmelCase_ ( self: int , snake_case: List[Any] , snake_case: Optional[Any] ) -> Union[str, Any]:
return self.dp[u][v]
if __name__ == "__main__":
__a = Graph(5)
graph.add_edge(0, 2, 9)
graph.add_edge(0, 4, 10)
graph.add_edge(1, 3, 5)
graph.add_edge(2, 3, 7)
graph.add_edge(3, 0, 10)
graph.add_edge(3, 1, 2)
graph.add_edge(3, 2, 1)
graph.add_edge(3, 4, 6)
graph.add_edge(4, 1, 3)
graph.add_edge(4, 2, 4)
graph.add_edge(4, 3, 9)
graph.floyd_warshall()
graph.show_min(1, 4)
graph.show_min(0, 3)
| 66 | import unittest
from transformers import BigBirdConfig, is_flax_available
from transformers.testing_utils import require_flax, slow
from ...test_modeling_flax_common import FlaxModelTesterMixin, ids_tensor, random_attention_mask
if is_flax_available():
import jax
from transformers.models.big_bird.modeling_flax_big_bird import (
FlaxBigBirdForCausalLM,
FlaxBigBirdForMaskedLM,
FlaxBigBirdForMultipleChoice,
FlaxBigBirdForPreTraining,
FlaxBigBirdForQuestionAnswering,
FlaxBigBirdForSequenceClassification,
FlaxBigBirdForTokenClassification,
FlaxBigBirdModel,
)
class snake_case_ ( unittest.TestCase ):
def __init__( self : Tuple , lowercase_ : List[Any] , lowercase_ : Union[str, Any]=2 , lowercase_ : Union[str, Any]=56 , lowercase_ : Tuple=True , lowercase_ : Optional[Any]=True , lowercase_ : Optional[Any]=True , lowercase_ : int=True , lowercase_ : Any=99 , lowercase_ : int=32 , lowercase_ : str=2 , lowercase_ : Union[str, Any]=2 , lowercase_ : Dict=7 , lowercase_ : Dict="gelu_new" , lowercase_ : Tuple=0.1 , lowercase_ : List[Any]=0.1 , lowercase_ : Tuple=5_12 , lowercase_ : Optional[Any]=16 , lowercase_ : List[Any]=2 , lowercase_ : Dict=0.02 , lowercase_ : int=4 , lowercase_ : Tuple="block_sparse" , lowercase_ : Dict=True , lowercase_ : Optional[int]=False , lowercase_ : Dict=2 , lowercase_ : int=3 , ) -> Union[str, Any]:
lowercase__ : Dict = parent
lowercase__ : Dict = batch_size
lowercase__ : Tuple = seq_length
lowercase__ : Dict = is_training
lowercase__ : Dict = use_attention_mask
lowercase__ : Tuple = use_token_type_ids
lowercase__ : Optional[int] = use_labels
lowercase__ : List[Any] = vocab_size
lowercase__ : Any = hidden_size
lowercase__ : List[Any] = num_hidden_layers
lowercase__ : Union[str, Any] = num_attention_heads
lowercase__ : str = intermediate_size
lowercase__ : int = hidden_act
lowercase__ : str = hidden_dropout_prob
lowercase__ : List[str] = attention_probs_dropout_prob
lowercase__ : Optional[Any] = max_position_embeddings
lowercase__ : Union[str, Any] = type_vocab_size
lowercase__ : Dict = type_sequence_label_size
lowercase__ : Any = initializer_range
lowercase__ : List[str] = num_choices
lowercase__ : str = rescale_embeddings
lowercase__ : Optional[Any] = attention_type
lowercase__ : Optional[int] = use_bias
lowercase__ : Optional[int] = block_size
lowercase__ : str = num_random_blocks
def __UpperCamelCase ( self : str ) -> Optional[Any]:
lowercase__ : List[Any] = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size )
lowercase__ : str = None
if self.use_attention_mask:
lowercase__ : Any = random_attention_mask([self.batch_size, self.seq_length] )
lowercase__ : Optional[int] = None
if self.use_token_type_ids:
lowercase__ : Any = ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size )
lowercase__ : int = BigBirdConfig(
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 , attention_type=self.attention_type , block_size=self.block_size , num_random_blocks=self.num_random_blocks , use_bias=self.use_bias , rescale_embeddings=self.rescale_embeddings , )
return config, input_ids, token_type_ids, attention_mask
def __UpperCamelCase ( self : Union[str, Any] ) -> int:
lowercase__ : int = self.prepare_config_and_inputs()
lowercase__ , lowercase__ , lowercase__ , lowercase__ : Dict = config_and_inputs
lowercase__ : Union[str, Any] = {
"input_ids": input_ids,
"token_type_ids": token_type_ids,
"attention_mask": attention_mask,
}
return config, inputs_dict
@require_flax
class snake_case_ ( __A ,unittest.TestCase ):
__A : Optional[int] = (
(
FlaxBigBirdForCausalLM,
FlaxBigBirdModel,
FlaxBigBirdForPreTraining,
FlaxBigBirdForMaskedLM,
FlaxBigBirdForMultipleChoice,
FlaxBigBirdForQuestionAnswering,
FlaxBigBirdForSequenceClassification,
FlaxBigBirdForTokenClassification,
)
if is_flax_available()
else ()
)
__A : List[str] = False
__A : Any = False
def __UpperCamelCase ( self : List[str] ) -> List[Any]:
lowercase__ : Union[str, Any] = FlaxBigBirdModelTester(self )
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def __UpperCamelCase ( self : Optional[int] ) -> Dict:
super().test_from_pretrained_save_pretrained()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def __UpperCamelCase ( self : List[str] ) -> Any:
super().test_from_pretrained_with_no_automatic_init()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def __UpperCamelCase ( self : Tuple ) -> str:
super().test_no_automatic_init()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def __UpperCamelCase ( self : Dict ) -> Union[str, Any]:
super().test_hidden_states_output()
@slow
def __UpperCamelCase ( self : Optional[int] ) -> Tuple:
for model_class_name in self.all_model_classes:
lowercase__ : Optional[Any] = model_class_name.from_pretrained("google/bigbird-roberta-base" )
self.assertIsNotNone(lowercase_ )
def __UpperCamelCase ( self : int ) -> Optional[int]:
if self.test_attn_probs:
super().test_attention_outputs()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def __UpperCamelCase ( self : str ) -> Any:
lowercase__ , lowercase__ : Dict = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
with self.subTest(model_class.__name__ ):
lowercase__ : Union[str, Any] = self._prepare_for_class(lowercase_ , lowercase_ )
lowercase__ : Optional[Any] = model_class(lowercase_ )
@jax.jit
def model_jitted(lowercase_ : Tuple , lowercase_ : int=None , **lowercase_ : Dict ):
return model(input_ids=lowercase_ , attention_mask=lowercase_ , **lowercase_ )
with self.subTest("JIT Enabled" ):
lowercase__ : int = model_jitted(**lowercase_ ).to_tuple()
with self.subTest("JIT Disabled" ):
with jax.disable_jit():
lowercase__ : Any = 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 )
def __UpperCamelCase ( self : List[Any] , lowercase_ : str , lowercase_ : Union[str, Any] , lowercase_ : Optional[int] , lowercase_ : List[Any]=1E-5 , lowercase_ : Any="outputs" , lowercase_ : List[str]=None ) -> List[Any]:
# `bigbird_block_sparse_attention` in `FlaxBigBird` returns `attention_probs = None`, while in PyTorch version,
# an effort was done to return `attention_probs` (yet to be verified).
if name.startswith("outputs.attentions" ):
return
else:
super().check_pt_flax_outputs(lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ )
| 87 | 0 |
'''simple docstring'''
def __lowerCAmelCase ( UpperCamelCase__ , UpperCamelCase__ ) -> int:
return int((input_a, input_a).count(0 ) != 0 )
def __lowerCAmelCase ( ) -> None:
assert nand_gate(0 , 0 ) == 1
assert nand_gate(0 , 1 ) == 1
assert nand_gate(1 , 0 ) == 1
assert nand_gate(1 , 1 ) == 0
if __name__ == "__main__":
print(nand_gate(0, 0))
print(nand_gate(0, 1))
print(nand_gate(1, 0))
print(nand_gate(1, 1))
| 67 | from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_torch_available
UpperCamelCase = {
'''configuration_groupvit''': [
'''GROUPVIT_PRETRAINED_CONFIG_ARCHIVE_MAP''',
'''GroupViTConfig''',
'''GroupViTOnnxConfig''',
'''GroupViTTextConfig''',
'''GroupViTVisionConfig''',
],
}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = [
'''GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''GroupViTModel''',
'''GroupViTPreTrainedModel''',
'''GroupViTTextModel''',
'''GroupViTVisionModel''',
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = [
'''TF_GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''TFGroupViTModel''',
'''TFGroupViTPreTrainedModel''',
'''TFGroupViTTextModel''',
'''TFGroupViTVisionModel''',
]
if TYPE_CHECKING:
from .configuration_groupvit import (
GROUPVIT_PRETRAINED_CONFIG_ARCHIVE_MAP,
GroupViTConfig,
GroupViTOnnxConfig,
GroupViTTextConfig,
GroupViTVisionConfig,
)
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_groupvit import (
GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST,
GroupViTModel,
GroupViTPreTrainedModel,
GroupViTTextModel,
GroupViTVisionModel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_groupvit import (
TF_GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST,
TFGroupViTModel,
TFGroupViTPreTrainedModel,
TFGroupViTTextModel,
TFGroupViTVisionModel,
)
else:
import sys
UpperCamelCase = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
| 87 | 0 |
import tempfile
import torch
from diffusers import PNDMScheduler
from .test_schedulers import SchedulerCommonTest
class a__ ( snake_case ):
"""simple docstring"""
__lowerCamelCase = (PNDMScheduler,)
__lowerCamelCase = (('num_inference_steps', 50),)
def UpperCamelCase ( self , **lowercase ) -> Tuple:
'''simple docstring'''
A__ = {
"num_train_timesteps": 1000,
"beta_start": 0.0001,
"beta_end": 0.02,
"beta_schedule": "linear",
}
config.update(**lowercase )
return config
def UpperCamelCase ( self , lowercase=0 , **lowercase ) -> Any:
'''simple docstring'''
A__ = dict(self.forward_default_kwargs )
A__ = kwargs.pop("num_inference_steps" , lowercase )
A__ = self.dummy_sample
A__ = 0.1 * sample
A__ = [residual + 0.2, residual + 0.15, residual + 0.1, residual + 0.05]
for scheduler_class in self.scheduler_classes:
A__ = self.get_scheduler_config(**lowercase )
A__ = scheduler_class(**lowercase )
scheduler.set_timesteps(lowercase )
# copy over dummy past residuals
A__ = dummy_past_residuals[:]
with tempfile.TemporaryDirectory() as tmpdirname:
scheduler.save_config(lowercase )
A__ = scheduler_class.from_pretrained(lowercase )
new_scheduler.set_timesteps(lowercase )
# copy over dummy past residuals
A__ = dummy_past_residuals[:]
A__ = scheduler.step_prk(lowercase , lowercase , lowercase , **lowercase ).prev_sample
A__ = 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"
A__ = scheduler.step_plms(lowercase , lowercase , lowercase , **lowercase ).prev_sample
A__ = 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 ) -> Union[str, Any]:
'''simple docstring'''
pass
def UpperCamelCase ( self , lowercase=0 , **lowercase ) -> Tuple:
'''simple docstring'''
A__ = dict(self.forward_default_kwargs )
A__ = kwargs.pop("num_inference_steps" , lowercase )
A__ = self.dummy_sample
A__ = 0.1 * sample
A__ = [residual + 0.2, residual + 0.15, residual + 0.1, residual + 0.05]
for scheduler_class in self.scheduler_classes:
A__ = self.get_scheduler_config()
A__ = scheduler_class(**lowercase )
scheduler.set_timesteps(lowercase )
# copy over dummy past residuals (must be after setting timesteps)
A__ = dummy_past_residuals[:]
with tempfile.TemporaryDirectory() as tmpdirname:
scheduler.save_config(lowercase )
A__ = 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)
A__ = dummy_past_residuals[:]
A__ = scheduler.step_prk(lowercase , lowercase , lowercase , **lowercase ).prev_sample
A__ = 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"
A__ = scheduler.step_plms(lowercase , lowercase , lowercase , **lowercase ).prev_sample
A__ = 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 ) -> Dict:
'''simple docstring'''
A__ = self.scheduler_classes[0]
A__ = self.get_scheduler_config(**lowercase )
A__ = scheduler_class(**lowercase )
A__ = 10
A__ = self.dummy_model()
A__ = self.dummy_sample_deter
scheduler.set_timesteps(lowercase )
for i, t in enumerate(scheduler.prk_timesteps ):
A__ = model(lowercase , lowercase )
A__ = scheduler.step_prk(lowercase , lowercase , lowercase ).prev_sample
for i, t in enumerate(scheduler.plms_timesteps ):
A__ = model(lowercase , lowercase )
A__ = scheduler.step_plms(lowercase , lowercase , lowercase ).prev_sample
return sample
def UpperCamelCase ( self ) -> List[str]:
'''simple docstring'''
A__ = dict(self.forward_default_kwargs )
A__ = kwargs.pop("num_inference_steps" , lowercase )
for scheduler_class in self.scheduler_classes:
A__ = self.get_scheduler_config()
A__ = scheduler_class(**lowercase )
A__ = self.dummy_sample
A__ = 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" ):
A__ = num_inference_steps
# copy over dummy past residuals (must be done after set_timesteps)
A__ = [residual + 0.2, residual + 0.15, residual + 0.1, residual + 0.05]
A__ = dummy_past_residuals[:]
A__ = scheduler.step_prk(lowercase , 0 , lowercase , **lowercase ).prev_sample
A__ = scheduler.step_prk(lowercase , 1 , lowercase , **lowercase ).prev_sample
self.assertEqual(output_a.shape , sample.shape )
self.assertEqual(output_a.shape , output_a.shape )
A__ = scheduler.step_plms(lowercase , 0 , lowercase , **lowercase ).prev_sample
A__ = 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 ) -> Dict:
'''simple docstring'''
for timesteps in [100, 1000]:
self.check_over_configs(num_train_timesteps=lowercase )
def UpperCamelCase ( self ) -> Union[str, Any]:
'''simple docstring'''
for steps_offset in [0, 1]:
self.check_over_configs(steps_offset=lowercase )
A__ = self.scheduler_classes[0]
A__ = self.get_scheduler_config(steps_offset=1 )
A__ = 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 ) -> Dict:
'''simple docstring'''
for beta_start, beta_end in zip([0.0001, 0.001] , [0.002, 0.02] ):
self.check_over_configs(beta_start=lowercase , beta_end=lowercase )
def UpperCamelCase ( self ) -> Optional[int]:
'''simple docstring'''
for schedule in ["linear", "squaredcos_cap_v2"]:
self.check_over_configs(beta_schedule=lowercase )
def UpperCamelCase ( self ) -> List[Any]:
'''simple docstring'''
for prediction_type in ["epsilon", "v_prediction"]:
self.check_over_configs(prediction_type=lowercase )
def UpperCamelCase ( self ) -> Dict:
'''simple docstring'''
for t in [1, 5, 10]:
self.check_over_forward(time_step=lowercase )
def UpperCamelCase ( self ) -> List[Any]:
'''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 ) -> List[str]:
'''simple docstring'''
A__ = 27
for scheduler_class in self.scheduler_classes:
A__ = self.dummy_sample
A__ = 0.1 * sample
A__ = self.get_scheduler_config()
A__ = 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] ):
A__ = scheduler.step_prk(lowercase , lowercase , lowercase ).prev_sample
def UpperCamelCase ( self ) -> Optional[int]:
'''simple docstring'''
with self.assertRaises(lowercase ):
A__ = self.scheduler_classes[0]
A__ = self.get_scheduler_config()
A__ = scheduler_class(**lowercase )
scheduler.step_plms(self.dummy_sample , 1 , self.dummy_sample ).prev_sample
def UpperCamelCase ( self ) -> int:
'''simple docstring'''
A__ = self.full_loop()
A__ = torch.sum(torch.abs(lowercase ) )
A__ = torch.mean(torch.abs(lowercase ) )
assert abs(result_sum.item() - 198.1318 ) < 1e-2
assert abs(result_mean.item() - 0.2580 ) < 1e-3
def UpperCamelCase ( self ) -> int:
'''simple docstring'''
A__ = self.full_loop(prediction_type="v_prediction" )
A__ = torch.sum(torch.abs(lowercase ) )
A__ = torch.mean(torch.abs(lowercase ) )
assert abs(result_sum.item() - 67.3986 ) < 1e-2
assert abs(result_mean.item() - 0.0878 ) < 1e-3
def UpperCamelCase ( self ) -> int:
'''simple docstring'''
A__ = self.full_loop(set_alpha_to_one=lowercase , beta_start=0.01 )
A__ = torch.sum(torch.abs(lowercase ) )
A__ = torch.mean(torch.abs(lowercase ) )
assert abs(result_sum.item() - 230.0399 ) < 1e-2
assert abs(result_mean.item() - 0.2995 ) < 1e-3
def UpperCamelCase ( self ) -> Tuple:
'''simple docstring'''
A__ = self.full_loop(set_alpha_to_one=lowercase , beta_start=0.01 )
A__ = torch.sum(torch.abs(lowercase ) )
A__ = torch.mean(torch.abs(lowercase ) )
assert abs(result_sum.item() - 186.9482 ) < 1e-2
assert abs(result_mean.item() - 0.2434 ) < 1e-3
| 68 | import io
import json
import fsspec
import pytest
from datasets import Dataset, DatasetDict, Features, NamedSplit, Value
from datasets.io.json import JsonDatasetReader, JsonDatasetWriter
from ..utils import assert_arrow_memory_doesnt_increase, assert_arrow_memory_increases
def lowercase_ ( _lowerCamelCase : Optional[Any] , _lowerCamelCase : int):
assert isinstance(_lowerCamelCase , _lowerCamelCase)
assert dataset.num_rows == 4
assert dataset.num_columns == 3
assert dataset.column_names == ["col_1", "col_2", "col_3"]
for feature, expected_dtype in expected_features.items():
assert dataset.features[feature].dtype == expected_dtype
@pytest.mark.parametrize("keep_in_memory" , [False, True])
def lowercase_ ( _lowerCamelCase : List[Any] , _lowerCamelCase : Any , _lowerCamelCase : str):
lowercase__ : Optional[int] = tmp_path / "cache"
lowercase__ : str = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
with assert_arrow_memory_increases() if keep_in_memory else assert_arrow_memory_doesnt_increase():
lowercase__ : Union[str, Any] = JsonDatasetReader(_lowerCamelCase , cache_dir=_lowerCamelCase , keep_in_memory=_lowerCamelCase).read()
_check_json_dataset(_lowerCamelCase , _lowerCamelCase)
@pytest.mark.parametrize(
"features" , [
None,
{"col_1": "string", "col_2": "int64", "col_3": "float64"},
{"col_1": "string", "col_2": "string", "col_3": "string"},
{"col_1": "int32", "col_2": "int32", "col_3": "int32"},
{"col_1": "float32", "col_2": "float32", "col_3": "float32"},
] , )
def lowercase_ ( _lowerCamelCase : List[str] , _lowerCamelCase : Dict , _lowerCamelCase : Dict):
lowercase__ : List[Any] = tmp_path / "cache"
lowercase__ : Union[str, Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
lowercase__ : List[Any] = features.copy() if features else default_expected_features
lowercase__ : List[Any] = (
Features({feature: Value(_lowerCamelCase) for feature, dtype in features.items()}) if features is not None else None
)
lowercase__ : Any = JsonDatasetReader(_lowerCamelCase , features=_lowerCamelCase , cache_dir=_lowerCamelCase).read()
_check_json_dataset(_lowerCamelCase , _lowerCamelCase)
@pytest.mark.parametrize(
"features" , [
None,
{"col_3": "float64", "col_1": "string", "col_2": "int64"},
] , )
def lowercase_ ( _lowerCamelCase : Any , _lowerCamelCase : Any , _lowerCamelCase : List[str]):
lowercase__ : Optional[Any] = tmp_path / "cache"
lowercase__ : Tuple = {"col_3": "float64", "col_1": "string", "col_2": "int64"}
lowercase__ : List[Any] = features.copy() if features else default_expected_features
lowercase__ : int = (
Features({feature: Value(_lowerCamelCase) for feature, dtype in features.items()}) if features is not None else None
)
lowercase__ : Any = JsonDatasetReader(_lowerCamelCase , features=_lowerCamelCase , cache_dir=_lowerCamelCase).read()
assert isinstance(_lowerCamelCase , _lowerCamelCase)
assert dataset.num_rows == 2
assert dataset.num_columns == 3
assert dataset.column_names == ["col_3", "col_1", "col_2"]
for feature, expected_dtype in expected_features.items():
assert dataset.features[feature].dtype == expected_dtype
def lowercase_ ( _lowerCamelCase : List[Any] , _lowerCamelCase : Optional[int]):
# jsonl_312_path features are {"col_3": "float64", "col_1": "string", "col_2": "int64"}
lowercase__ : Any = {"col_2": "int64", "col_3": "float64", "col_1": "string"}
lowercase__ : str = features.copy()
lowercase__ : str = (
Features({feature: Value(_lowerCamelCase) for feature, dtype in features.items()}) if features is not None else None
)
lowercase__ : Optional[int] = tmp_path / "cache"
lowercase__ : Any = JsonDatasetReader(_lowerCamelCase , features=_lowerCamelCase , cache_dir=_lowerCamelCase).read()
assert isinstance(_lowerCamelCase , _lowerCamelCase)
assert dataset.num_rows == 2
assert dataset.num_columns == 3
assert dataset.column_names == ["col_2", "col_3", "col_1"]
for feature, expected_dtype in expected_features.items():
assert dataset.features[feature].dtype == expected_dtype
@pytest.mark.parametrize("split" , [None, NamedSplit("train"), "train", "test"])
def lowercase_ ( _lowerCamelCase : Dict , _lowerCamelCase : Optional[int] , _lowerCamelCase : List[str]):
lowercase__ : Union[str, Any] = tmp_path / "cache"
lowercase__ : List[Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
lowercase__ : Union[str, Any] = JsonDatasetReader(_lowerCamelCase , cache_dir=_lowerCamelCase , split=_lowerCamelCase).read()
_check_json_dataset(_lowerCamelCase , _lowerCamelCase)
assert dataset.split == split if split else "train"
@pytest.mark.parametrize("path_type" , [str, list])
def lowercase_ ( _lowerCamelCase : Union[str, Any] , _lowerCamelCase : str , _lowerCamelCase : int):
if issubclass(_lowerCamelCase , _lowerCamelCase):
lowercase__ : Tuple = jsonl_path
elif issubclass(_lowerCamelCase , _lowerCamelCase):
lowercase__ : str = [jsonl_path]
lowercase__ : str = tmp_path / "cache"
lowercase__ : Optional[Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
lowercase__ : Tuple = JsonDatasetReader(_lowerCamelCase , cache_dir=_lowerCamelCase).read()
_check_json_dataset(_lowerCamelCase , _lowerCamelCase)
def lowercase_ ( _lowerCamelCase : List[Any] , _lowerCamelCase : Optional[Any] , _lowerCamelCase : Optional[int]=("train",)):
assert isinstance(_lowerCamelCase , _lowerCamelCase)
for split in splits:
lowercase__ : Optional[Any] = dataset_dict[split]
assert dataset.num_rows == 4
assert dataset.num_columns == 3
assert dataset.column_names == ["col_1", "col_2", "col_3"]
for feature, expected_dtype in expected_features.items():
assert dataset.features[feature].dtype == expected_dtype
@pytest.mark.parametrize("keep_in_memory" , [False, True])
def lowercase_ ( _lowerCamelCase : Union[str, Any] , _lowerCamelCase : str , _lowerCamelCase : str):
lowercase__ : List[str] = tmp_path / "cache"
lowercase__ : str = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
with assert_arrow_memory_increases() if keep_in_memory else assert_arrow_memory_doesnt_increase():
lowercase__ : Optional[Any] = JsonDatasetReader({"train": jsonl_path} , cache_dir=_lowerCamelCase , keep_in_memory=_lowerCamelCase).read()
_check_json_datasetdict(_lowerCamelCase , _lowerCamelCase)
@pytest.mark.parametrize(
"features" , [
None,
{"col_1": "string", "col_2": "int64", "col_3": "float64"},
{"col_1": "string", "col_2": "string", "col_3": "string"},
{"col_1": "int32", "col_2": "int32", "col_3": "int32"},
{"col_1": "float32", "col_2": "float32", "col_3": "float32"},
] , )
def lowercase_ ( _lowerCamelCase : Any , _lowerCamelCase : List[str] , _lowerCamelCase : List[str]):
lowercase__ : str = tmp_path / "cache"
lowercase__ : Tuple = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
lowercase__ : Tuple = features.copy() if features else default_expected_features
lowercase__ : Union[str, Any] = (
Features({feature: Value(_lowerCamelCase) for feature, dtype in features.items()}) if features is not None else None
)
lowercase__ : Tuple = JsonDatasetReader({"train": jsonl_path} , features=_lowerCamelCase , cache_dir=_lowerCamelCase).read()
_check_json_datasetdict(_lowerCamelCase , _lowerCamelCase)
@pytest.mark.parametrize("split" , [None, NamedSplit("train"), "train", "test"])
def lowercase_ ( _lowerCamelCase : str , _lowerCamelCase : Dict , _lowerCamelCase : Tuple):
if split:
lowercase__ : Tuple = {split: jsonl_path}
else:
lowercase__ : Tuple = "train"
lowercase__ : int = {"train": jsonl_path, "test": jsonl_path}
lowercase__ : Dict = tmp_path / "cache"
lowercase__ : Union[str, Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
lowercase__ : Union[str, Any] = JsonDatasetReader(_lowerCamelCase , cache_dir=_lowerCamelCase).read()
_check_json_datasetdict(_lowerCamelCase , _lowerCamelCase , splits=list(path.keys()))
assert all(dataset[split].split == split for split in path.keys())
def lowercase_ ( _lowerCamelCase : Union[str, Any]):
return json.load(_lowerCamelCase)
def lowercase_ ( _lowerCamelCase : Optional[int]):
return [json.loads(_lowerCamelCase) for line in buffer]
class snake_case_ :
@pytest.mark.parametrize("lines, load_json_function" , [(True, load_json_lines), (False, load_json)] )
def __UpperCamelCase ( self : List[Any] , lowercase_ : Any , lowercase_ : Optional[Any] , lowercase_ : Dict ) -> Optional[Any]:
with io.BytesIO() as buffer:
JsonDatasetWriter(lowercase_ , lowercase_ , lines=lowercase_ ).write()
buffer.seek(0 )
lowercase__ : Optional[int] = load_json_function(lowercase_ )
assert isinstance(lowercase_ , lowercase_ )
assert isinstance(exported_content[0] , lowercase_ )
assert len(lowercase_ ) == 10
@pytest.mark.parametrize(
"orient, container, keys, len_at" , [
("records", list, {"tokens", "labels", "answers", "id"}, None),
("split", dict, {"columns", "data"}, "data"),
("index", dict, set("0123456789" ), None),
("columns", dict, {"tokens", "labels", "answers", "id"}, "tokens"),
("values", list, None, None),
("table", dict, {"schema", "data"}, "data"),
] , )
def __UpperCamelCase ( self : str , lowercase_ : int , lowercase_ : str , lowercase_ : Union[str, Any] , lowercase_ : Dict , lowercase_ : Tuple ) -> List[str]:
with io.BytesIO() as buffer:
JsonDatasetWriter(lowercase_ , lowercase_ , lines=lowercase_ , orient=lowercase_ ).write()
buffer.seek(0 )
lowercase__ : str = load_json(lowercase_ )
assert isinstance(lowercase_ , lowercase_ )
if keys:
if container is dict:
assert exported_content.keys() == keys
else:
assert exported_content[0].keys() == keys
else:
assert not hasattr(lowercase_ , "keys" ) and not hasattr(exported_content[0] , "keys" )
if len_at:
assert len(exported_content[len_at] ) == 10
else:
assert len(lowercase_ ) == 10
@pytest.mark.parametrize("lines, load_json_function" , [(True, load_json_lines), (False, load_json)] )
def __UpperCamelCase ( self : List[Any] , lowercase_ : int , lowercase_ : Optional[Any] , lowercase_ : Dict ) -> Optional[int]:
with io.BytesIO() as buffer:
JsonDatasetWriter(lowercase_ , lowercase_ , lines=lowercase_ , num_proc=2 ).write()
buffer.seek(0 )
lowercase__ : str = load_json_function(lowercase_ )
assert isinstance(lowercase_ , lowercase_ )
assert isinstance(exported_content[0] , lowercase_ )
assert len(lowercase_ ) == 10
@pytest.mark.parametrize(
"orient, container, keys, len_at" , [
("records", list, {"tokens", "labels", "answers", "id"}, None),
("split", dict, {"columns", "data"}, "data"),
("index", dict, set("0123456789" ), None),
("columns", dict, {"tokens", "labels", "answers", "id"}, "tokens"),
("values", list, None, None),
("table", dict, {"schema", "data"}, "data"),
] , )
def __UpperCamelCase ( self : Union[str, Any] , lowercase_ : Dict , lowercase_ : Dict , lowercase_ : Optional[int] , lowercase_ : Optional[Any] , lowercase_ : Dict ) -> Any:
with io.BytesIO() as buffer:
JsonDatasetWriter(lowercase_ , lowercase_ , lines=lowercase_ , orient=lowercase_ , num_proc=2 ).write()
buffer.seek(0 )
lowercase__ : Optional[Any] = load_json(lowercase_ )
assert isinstance(lowercase_ , lowercase_ )
if keys:
if container is dict:
assert exported_content.keys() == keys
else:
assert exported_content[0].keys() == keys
else:
assert not hasattr(lowercase_ , "keys" ) and not hasattr(exported_content[0] , "keys" )
if len_at:
assert len(exported_content[len_at] ) == 10
else:
assert len(lowercase_ ) == 10
def __UpperCamelCase ( self : Dict , lowercase_ : List[str] ) -> str:
with pytest.raises(lowercase_ ):
with io.BytesIO() as buffer:
JsonDatasetWriter(lowercase_ , lowercase_ , num_proc=0 )
@pytest.mark.parametrize("compression, extension" , [("gzip", "gz"), ("bz2", "bz2"), ("xz", "xz")] )
def __UpperCamelCase ( self : List[Any] , lowercase_ : Tuple , lowercase_ : List[str] , lowercase_ : Optional[Any] , lowercase_ : str , lowercase_ : List[Any] ) -> Any:
lowercase__ : Dict = tmp_path_factory.mktemp("data" ) / F'''test.json.{extension}'''
lowercase__ : Optional[int] = str(shared_datadir / F'''test_file.json.{extension}''' )
JsonDatasetWriter(lowercase_ , lowercase_ , compression=lowercase_ ).write()
with fsspec.open(lowercase_ , "rb" , compression="infer" ) as f:
lowercase__ : List[Any] = f.read()
with fsspec.open(lowercase_ , "rb" , compression="infer" ) as f:
lowercase__ : str = f.read()
assert exported_content == original_content
| 87 | 0 |
"""simple docstring"""
# tests directory-specific settings - this file is run automatically
# by pytest before any tests are run
import sys
import warnings
from os.path import abspath, dirname, join
# allow having multiple repository checkouts and not needing to remember to rerun
# 'pip install -e .[dev]' when switching between checkouts and running tests.
__UpperCamelCase = abspath(join(dirname(dirname(dirname(__file__))), '''src'''))
sys.path.insert(1, git_repo_path)
# silence FutureWarning warnings in tests since often we can't act on them until
# they become normal warnings - i.e. the tests still need to test the current functionality
warnings.simplefilter(action='''ignore''', category=FutureWarning)
def UpperCAmelCase ( UpperCAmelCase ) -> int:
from transformers.testing_utils import pytest_addoption_shared
pytest_addoption_shared(UpperCAmelCase )
def UpperCAmelCase ( UpperCAmelCase ) -> int:
from transformers.testing_utils import pytest_terminal_summary_main
snake_case_ = terminalreporter.config.getoption('--make-reports' )
if make_reports:
pytest_terminal_summary_main(UpperCAmelCase , id=UpperCAmelCase )
| 69 | import warnings
from typing import List, Optional, Union
from ...processing_utils import ProcessorMixin
from ...tokenization_utils_base import BatchEncoding, PaddingStrategy, PreTokenizedInput, TextInput, TruncationStrategy
from ...utils import TensorType
class snake_case_ ( __A ):
__A : Optional[Any] = ["image_processor", "tokenizer"]
__A : Tuple = "LayoutLMv3ImageProcessor"
__A : List[Any] = ("LayoutLMv3Tokenizer", "LayoutLMv3TokenizerFast")
def __init__( self : Union[str, Any] , lowercase_ : int=None , lowercase_ : str=None , **lowercase_ : Optional[Any] ) -> Optional[int]:
lowercase__ : Union[str, Any] = 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_ , )
lowercase__ : Optional[int] = kwargs.pop("feature_extractor" )
lowercase__ : int = 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 : Dict , lowercase_ : Optional[Any] , lowercase_ : Union[TextInput, PreTokenizedInput, List[TextInput], List[PreTokenizedInput]] = None , lowercase_ : Optional[Union[PreTokenizedInput, List[PreTokenizedInput]]] = None , lowercase_ : Union[List[List[int]], List[List[List[int]]]] = None , lowercase_ : Optional[Union[List[int], List[List[int]]]] = None , lowercase_ : bool = True , lowercase_ : Union[bool, str, PaddingStrategy] = False , lowercase_ : Union[bool, str, TruncationStrategy] = None , lowercase_ : Optional[int] = None , lowercase_ : int = 0 , lowercase_ : Optional[int] = None , lowercase_ : Optional[bool] = None , lowercase_ : Optional[bool] = None , lowercase_ : bool = False , lowercase_ : bool = False , lowercase_ : bool = False , lowercase_ : bool = False , lowercase_ : bool = True , lowercase_ : Optional[Union[str, TensorType]] = None , **lowercase_ : Dict , ) -> BatchEncoding:
# verify input
if self.image_processor.apply_ocr and (boxes is not None):
raise ValueError(
"You cannot provide bounding boxes if you initialized the image processor with apply_ocr set to True." )
if self.image_processor.apply_ocr and (word_labels is not None):
raise ValueError(
"You cannot provide word labels if you initialized the image processor with apply_ocr set to True." )
# first, apply the image processor
lowercase__ : Union[str, Any] = self.image_processor(images=lowercase_ , return_tensors=lowercase_ )
# second, apply the tokenizer
if text is not None and self.image_processor.apply_ocr and text_pair is None:
if isinstance(lowercase_ , lowercase_ ):
lowercase__ : Optional[Any] = [text] # add batch dimension (as the image processor always adds a batch dimension)
lowercase__ : Any = features["words"]
lowercase__ : Tuple = self.tokenizer(
text=text if text is not None else features["words"] , text_pair=text_pair if text_pair is not None else None , boxes=boxes if boxes is not None else features["boxes"] , word_labels=lowercase_ , add_special_tokens=lowercase_ , padding=lowercase_ , truncation=lowercase_ , max_length=lowercase_ , stride=lowercase_ , pad_to_multiple_of=lowercase_ , return_token_type_ids=lowercase_ , return_attention_mask=lowercase_ , return_overflowing_tokens=lowercase_ , return_special_tokens_mask=lowercase_ , return_offsets_mapping=lowercase_ , return_length=lowercase_ , verbose=lowercase_ , return_tensors=lowercase_ , **lowercase_ , )
# add pixel values
lowercase__ : Optional[int] = features.pop("pixel_values" )
if return_overflowing_tokens is True:
lowercase__ : Dict = self.get_overflowing_images(lowercase_ , encoded_inputs["overflow_to_sample_mapping"] )
lowercase__ : str = images
return encoded_inputs
def __UpperCamelCase ( self : List[Any] , lowercase_ : Tuple , lowercase_ : List[Any] ) -> Dict:
# in case there's an overflow, ensure each `input_ids` sample is mapped to its corresponding image
lowercase__ : Tuple = []
for sample_idx in overflow_to_sample_mapping:
images_with_overflow.append(images[sample_idx] )
if len(lowercase_ ) != len(lowercase_ ):
raise ValueError(
"Expected length of images to be the same as the length of `overflow_to_sample_mapping`, but got"
F''' {len(lowercase_ )} and {len(lowercase_ )}''' )
return images_with_overflow
def __UpperCamelCase ( self : int , *lowercase_ : Union[str, Any] , **lowercase_ : List[str] ) -> Union[str, Any]:
return self.tokenizer.batch_decode(*lowercase_ , **lowercase_ )
def __UpperCamelCase ( self : Union[str, Any] , *lowercase_ : str , **lowercase_ : int ) -> Dict:
return self.tokenizer.decode(*lowercase_ , **lowercase_ )
@property
def __UpperCamelCase ( self : Any ) -> Any:
return ["input_ids", "bbox", "attention_mask", "pixel_values"]
@property
def __UpperCamelCase ( self : Optional[int] ) -> Optional[Any]:
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 : List[Any] ) -> Tuple:
warnings.warn(
"`feature_extractor` is deprecated and will be removed in v5. Use `image_processor` instead." , lowercase_ , )
return self.image_processor
| 87 | 0 |
'''simple docstring'''
import re
import warnings
from contextlib import contextmanager
from ...processing_utils import ProcessorMixin
class UpperCAmelCase ( snake_case_ ):
_lowercase: Union[str, Any] = ['''image_processor''', '''tokenizer''']
_lowercase: int = '''AutoImageProcessor'''
_lowercase: Optional[int] = '''AutoTokenizer'''
def __init__( self : int , __snake_case : Tuple=None , __snake_case : Optional[int]=None , **__snake_case : Tuple ) -> List[Any]:
_lowerCAmelCase = None
if "feature_extractor" in kwargs:
warnings.warn(
"""The `feature_extractor` argument is deprecated and will be removed in v5, use `image_processor`"""
""" instead.""" , __snake_case , )
_lowerCAmelCase = kwargs.pop("""feature_extractor""" )
_lowerCAmelCase = 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__(__snake_case , __snake_case )
_lowerCAmelCase = self.image_processor
_lowerCAmelCase = False
def __call__( self : Dict , *__snake_case : Optional[int] , **__snake_case : Union[str, Any] ) -> Tuple:
# For backward compatibility
if self._in_target_context_manager:
return self.current_processor(*__snake_case , **__snake_case )
_lowerCAmelCase = kwargs.pop("""images""" , __snake_case )
_lowerCAmelCase = kwargs.pop("""text""" , __snake_case )
if len(__snake_case ) > 0:
_lowerCAmelCase = args[0]
_lowerCAmelCase = args[1:]
if images is None and text is None:
raise ValueError("""You need to specify either an `images` or `text` input to process.""" )
if images is not None:
_lowerCAmelCase = self.image_processor(__snake_case , *__snake_case , **__snake_case )
if text is not None:
_lowerCAmelCase = self.tokenizer(__snake_case , **__snake_case )
if text is None:
return inputs
elif images is None:
return encodings
else:
_lowerCAmelCase = encodings["""input_ids"""]
return inputs
def lowercase__ ( self : List[Any] , *__snake_case : Dict , **__snake_case : List[str] ) -> int:
return self.tokenizer.batch_decode(*__snake_case , **__snake_case )
def lowercase__ ( self : int , *__snake_case : Tuple , **__snake_case : Optional[Any] ) -> Any:
return self.tokenizer.decode(*__snake_case , **__snake_case )
@contextmanager
def lowercase__ ( self : int ) -> Optional[Any]:
warnings.warn(
"""`as_target_processor` is deprecated and will be removed in v5 of Transformers. You can process your """
"""labels by using the argument `text` of the regular `__call__` method (either in the same call as """
"""your images inputs, or in a separate call.""" )
_lowerCAmelCase = True
_lowerCAmelCase = self.tokenizer
yield
_lowerCAmelCase = self.image_processor
_lowerCAmelCase = False
def lowercase__ ( self : Optional[int] , __snake_case : Union[str, Any] , __snake_case : List[Any]=False , __snake_case : Dict=None ) -> Tuple:
if added_vocab is None:
_lowerCAmelCase = self.tokenizer.get_added_vocab()
_lowerCAmelCase = {}
while tokens:
_lowerCAmelCase = re.search(R"""<s_(.*?)>""" , __snake_case , re.IGNORECASE )
if start_token is None:
break
_lowerCAmelCase = start_token.group(1 )
_lowerCAmelCase = re.search(Rf"</s_{key}>" , __snake_case , re.IGNORECASE )
_lowerCAmelCase = start_token.group()
if end_token is None:
_lowerCAmelCase = tokens.replace(__snake_case , """""" )
else:
_lowerCAmelCase = end_token.group()
_lowerCAmelCase = re.escape(__snake_case )
_lowerCAmelCase = re.escape(__snake_case )
_lowerCAmelCase = re.search(f"{start_token_escaped}(.*?){end_token_escaped}" , __snake_case , re.IGNORECASE )
if content is not None:
_lowerCAmelCase = content.group(1 ).strip()
if r"<s_" in content and r"</s_" in content: # non-leaf node
_lowerCAmelCase = self.tokenajson(__snake_case , is_inner_value=__snake_case , added_vocab=__snake_case )
if value:
if len(__snake_case ) == 1:
_lowerCAmelCase = value[0]
_lowerCAmelCase = value
else: # leaf nodes
_lowerCAmelCase = []
for leaf in content.split(R"""<sep/>""" ):
_lowerCAmelCase = leaf.strip()
if leaf in added_vocab and leaf[0] == "<" and leaf[-2:] == "/>":
_lowerCAmelCase = leaf[1:-2] # for categorical special tokens
output[key].append(__snake_case )
if len(output[key] ) == 1:
_lowerCAmelCase = output[key][0]
_lowerCAmelCase = tokens[tokens.find(__snake_case ) + len(__snake_case ) :].strip()
if tokens[:6] == r"<sep/>": # non-leaf nodes
return [output] + self.tokenajson(tokens[6:] , is_inner_value=__snake_case , added_vocab=__snake_case )
if len(__snake_case ):
return [output] if is_inner_value else output
else:
return [] if is_inner_value else {"text_sequence": tokens}
@property
def lowercase__ ( self : Optional[int] ) -> Union[str, Any]:
warnings.warn(
"""`feature_extractor_class` is deprecated and will be removed in v5. Use `image_processor_class` instead.""" , __snake_case , )
return self.image_processor_class
@property
def lowercase__ ( self : List[Any] ) -> Any:
warnings.warn(
"""`feature_extractor` is deprecated and will be removed in v5. Use `image_processor` instead.""" , __snake_case , )
return self.image_processor
| 70 | from typing import Dict, List, Optional, Union
import numpy as np
from ...image_processing_utils import BaseImageProcessor, BatchFeature, get_size_dict
from ...image_transforms import (
center_crop,
convert_to_rgb,
get_resize_output_image_size,
normalize,
rescale,
resize,
to_channel_dimension_format,
)
from ...image_utils import (
OPENAI_CLIP_MEAN,
OPENAI_CLIP_STD,
ChannelDimension,
ImageInput,
PILImageResampling,
make_list_of_images,
to_numpy_array,
valid_images,
)
from ...utils import TensorType, is_vision_available, logging
UpperCamelCase = logging.get_logger(__name__)
if is_vision_available():
import PIL
class snake_case_ ( __A ):
__A : str = ["pixel_values"]
def __init__( self : int , lowercase_ : bool = True , lowercase_ : Dict[str, int] = None , lowercase_ : PILImageResampling = PILImageResampling.BICUBIC , lowercase_ : bool = True , lowercase_ : Dict[str, int] = None , lowercase_ : bool = True , lowercase_ : Union[int, float] = 1 / 2_55 , lowercase_ : bool = True , lowercase_ : Optional[Union[float, List[float]]] = None , lowercase_ : Optional[Union[float, List[float]]] = None , lowercase_ : bool = True , **lowercase_ : Union[str, Any] , ) -> None:
super().__init__(**lowercase_ )
lowercase__ : Tuple = size if size is not None else {"shortest_edge": 2_24}
lowercase__ : Tuple = get_size_dict(lowercase_ , default_to_square=lowercase_ )
lowercase__ : List[str] = crop_size if crop_size is not None else {"height": 2_24, "width": 2_24}
lowercase__ : Tuple = get_size_dict(lowercase_ , default_to_square=lowercase_ , param_name="crop_size" )
lowercase__ : Dict = do_resize
lowercase__ : List[Any] = size
lowercase__ : int = resample
lowercase__ : Union[str, Any] = do_center_crop
lowercase__ : Optional[int] = crop_size
lowercase__ : List[str] = do_rescale
lowercase__ : int = rescale_factor
lowercase__ : List[Any] = do_normalize
lowercase__ : Union[str, Any] = image_mean if image_mean is not None else OPENAI_CLIP_MEAN
lowercase__ : str = image_std if image_std is not None else OPENAI_CLIP_STD
lowercase__ : Dict = do_convert_rgb
def __UpperCamelCase ( self : Optional[Any] , lowercase_ : np.ndarray , lowercase_ : Dict[str, int] , lowercase_ : PILImageResampling = PILImageResampling.BICUBIC , lowercase_ : Optional[Union[str, ChannelDimension]] = None , **lowercase_ : Union[str, Any] , ) -> np.ndarray:
lowercase__ : str = get_size_dict(lowercase_ , default_to_square=lowercase_ )
if "shortest_edge" not in size:
raise ValueError(F'''The `size` parameter must contain the key `shortest_edge`. Got {size.keys()}''' )
lowercase__ : Dict = get_resize_output_image_size(lowercase_ , size=size["shortest_edge"] , default_to_square=lowercase_ )
return resize(lowercase_ , size=lowercase_ , resample=lowercase_ , data_format=lowercase_ , **lowercase_ )
def __UpperCamelCase ( self : int , lowercase_ : np.ndarray , lowercase_ : Dict[str, int] , lowercase_ : Optional[Union[str, ChannelDimension]] = None , **lowercase_ : int , ) -> np.ndarray:
lowercase__ : Optional[Any] = get_size_dict(lowercase_ )
if "height" not in size or "width" not in size:
raise ValueError(F'''The `size` parameter must contain the keys (height, width). Got {size.keys()}''' )
return center_crop(lowercase_ , size=(size["height"], size["width"]) , data_format=lowercase_ , **lowercase_ )
def __UpperCamelCase ( self : Optional[Any] , lowercase_ : np.ndarray , lowercase_ : Union[int, float] , lowercase_ : Optional[Union[str, ChannelDimension]] = None , **lowercase_ : Optional[Any] , ) -> Any:
return rescale(lowercase_ , scale=lowercase_ , data_format=lowercase_ , **lowercase_ )
def __UpperCamelCase ( self : str , lowercase_ : np.ndarray , lowercase_ : Union[float, List[float]] , lowercase_ : Union[float, List[float]] , lowercase_ : Optional[Union[str, ChannelDimension]] = None , **lowercase_ : str , ) -> np.ndarray:
return normalize(lowercase_ , mean=lowercase_ , std=lowercase_ , data_format=lowercase_ , **lowercase_ )
def __UpperCamelCase ( self : Optional[Any] , lowercase_ : ImageInput , lowercase_ : bool = None , lowercase_ : Dict[str, int] = None , lowercase_ : PILImageResampling = None , lowercase_ : bool = None , lowercase_ : int = None , lowercase_ : bool = None , lowercase_ : float = None , lowercase_ : bool = None , lowercase_ : Optional[Union[float, List[float]]] = None , lowercase_ : Optional[Union[float, List[float]]] = None , lowercase_ : bool = None , lowercase_ : Optional[Union[str, TensorType]] = None , lowercase_ : Optional[ChannelDimension] = ChannelDimension.FIRST , **lowercase_ : Union[str, Any] , ) -> PIL.Image.Image:
lowercase__ : int = do_resize if do_resize is not None else self.do_resize
lowercase__ : Dict = size if size is not None else self.size
lowercase__ : List[Any] = get_size_dict(lowercase_ , param_name="size" , default_to_square=lowercase_ )
lowercase__ : Dict = resample if resample is not None else self.resample
lowercase__ : int = do_center_crop if do_center_crop is not None else self.do_center_crop
lowercase__ : Dict = crop_size if crop_size is not None else self.crop_size
lowercase__ : List[str] = get_size_dict(lowercase_ , param_name="crop_size" , default_to_square=lowercase_ )
lowercase__ : int = do_rescale if do_rescale is not None else self.do_rescale
lowercase__ : Dict = rescale_factor if rescale_factor is not None else self.rescale_factor
lowercase__ : Union[str, Any] = do_normalize if do_normalize is not None else self.do_normalize
lowercase__ : int = image_mean if image_mean is not None else self.image_mean
lowercase__ : List[str] = image_std if image_std is not None else self.image_std
lowercase__ : Union[str, Any] = do_convert_rgb if do_convert_rgb is not None else self.do_convert_rgb
lowercase__ : 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." )
if do_center_crop and crop_size is None:
raise ValueError("Crop size must be specified if do_center_crop is True." )
if do_rescale and rescale_factor is None:
raise ValueError("Rescale factor must be specified if do_rescale is True." )
if do_normalize and (image_mean is None or image_std is None):
raise ValueError("Image mean and std must be specified if do_normalize is True." )
# PIL RGBA images are converted to RGB
if do_convert_rgb:
lowercase__ : Dict = [convert_to_rgb(lowercase_ ) for image in images]
# All transformations expect numpy arrays.
lowercase__ : Optional[Any] = [to_numpy_array(lowercase_ ) for image in images]
if do_resize:
lowercase__ : List[Any] = [self.resize(image=lowercase_ , size=lowercase_ , resample=lowercase_ ) for image in images]
if do_center_crop:
lowercase__ : int = [self.center_crop(image=lowercase_ , size=lowercase_ ) for image in images]
if do_rescale:
lowercase__ : str = [self.rescale(image=lowercase_ , scale=lowercase_ ) for image in images]
if do_normalize:
lowercase__ : Optional[int] = [self.normalize(image=lowercase_ , mean=lowercase_ , std=lowercase_ ) for image in images]
lowercase__ : Optional[Any] = [to_channel_dimension_format(lowercase_ , lowercase_ ) for image in images]
lowercase__ : List[str] = {"pixel_values": images}
return BatchFeature(data=lowercase_ , tensor_type=lowercase_ )
| 87 | 0 |
def A ( a_ = 1_000_000 ) -> int:
__UpperCamelCase : List[Any] =limit + 1
__UpperCamelCase : Any =[0] * limit
for first_term in range(1 ,a_ ):
for n in range(a_ ,a_ ,a_ ):
__UpperCamelCase : str =first_term + n / first_term
if common_difference % 4: # d must be divisble by 4
continue
else:
common_difference /= 4
if (
first_term > common_difference
and first_term < 4 * common_difference
): # since x,y,z are positive integers
frequency[n] += 1 # so z>0 and a>d ,also 4d<a
__UpperCamelCase : Dict =sum(1 for x in frequency[1:limit] if x == 10 )
return count
if __name__ == "__main__":
print(f"{solution() = }")
| 71 | from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available
UpperCamelCase = {}
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = ['''GPTSw3Tokenizer''']
if TYPE_CHECKING:
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_gpt_swa import GPTSwaTokenizer
else:
import sys
UpperCamelCase = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
| 87 | 0 |
"""simple docstring"""
import argparse
import os
import pickle
import sys
import torch
from transformers import TransfoXLConfig, TransfoXLLMHeadModel, load_tf_weights_in_transfo_xl
from transformers.models.transfo_xl import tokenization_transfo_xl as data_utils
from transformers.models.transfo_xl.tokenization_transfo_xl import CORPUS_NAME, VOCAB_FILES_NAMES
from transformers.utils import CONFIG_NAME, WEIGHTS_NAME, logging
logging.set_verbosity_info()
# We do this to be able to load python 2 datasets pickles
# See e.g. https://stackoverflow.com/questions/2121874/python-pickling-after-changing-a-modules-directory/2121918#2121918
lowerCAmelCase__ = data_utils.TransfoXLTokenizer
lowerCAmelCase__ = data_utils.TransfoXLCorpus
lowerCAmelCase__ = data_utils
lowerCAmelCase__ = data_utils
def snake_case_ ( A_ : Optional[Any], A_ : List[Any], A_ : Any, A_ : Optional[Any] ):
'''simple docstring'''
if transfo_xl_dataset_file:
# Convert a pre-processed corpus (see original TensorFlow repo)
with open(A_, '''rb''' ) as fp:
_lowerCamelCase : Union[str, Any] = pickle.load(A_, encoding='''latin1''' )
# Save vocabulary and dataset cache as Dictionaries (should be better than pickles for the long-term)
_lowerCamelCase : Union[str, Any] = pytorch_dump_folder_path + '''/''' + VOCAB_FILES_NAMES['''pretrained_vocab_file''']
print(F'''Save vocabulary to {pytorch_vocab_dump_path}''' )
_lowerCamelCase : Union[str, Any] = corpus.vocab.__dict__
torch.save(A_, A_ )
_lowerCamelCase : List[str] = corpus.__dict__
corpus_dict_no_vocab.pop('''vocab''', A_ )
_lowerCamelCase : Union[str, Any] = pytorch_dump_folder_path + '''/''' + CORPUS_NAME
print(F'''Save dataset to {pytorch_dataset_dump_path}''' )
torch.save(A_, A_ )
if tf_checkpoint_path:
# Convert a pre-trained TensorFlow model
_lowerCamelCase : List[str] = os.path.abspath(A_ )
_lowerCamelCase : Optional[Any] = os.path.abspath(A_ )
print(F'''Converting Transformer XL checkpoint from {tf_path} with config at {config_path}.''' )
# Initialise PyTorch model
if transfo_xl_config_file == "":
_lowerCamelCase : Dict = TransfoXLConfig()
else:
_lowerCamelCase : Dict = TransfoXLConfig.from_json_file(A_ )
print(F'''Building PyTorch model from configuration: {config}''' )
_lowerCamelCase : str = TransfoXLLMHeadModel(A_ )
_lowerCamelCase : Dict = load_tf_weights_in_transfo_xl(A_, A_, A_ )
# Save pytorch-model
_lowerCamelCase : Dict = os.path.join(A_, A_ )
_lowerCamelCase : Union[str, Any] = os.path.join(A_, A_ )
print(F'''Save PyTorch model to {os.path.abspath(A_ )}''' )
torch.save(model.state_dict(), A_ )
print(F'''Save configuration file to {os.path.abspath(A_ )}''' )
with open(A_, '''w''', encoding='''utf-8''' ) as f:
f.write(config.to_json_string() )
if __name__ == "__main__":
lowerCAmelCase__ = argparse.ArgumentParser()
parser.add_argument(
'''--pytorch_dump_folder_path''',
default=None,
type=str,
required=True,
help='''Path to the folder to store the PyTorch model or dataset/vocab.''',
)
parser.add_argument(
'''--tf_checkpoint_path''',
default='''''',
type=str,
help='''An optional path to a TensorFlow checkpoint path to be converted.''',
)
parser.add_argument(
'''--transfo_xl_config_file''',
default='''''',
type=str,
help=(
'''An optional config json file corresponding to the pre-trained BERT model. \n'''
'''This specifies the model architecture.'''
),
)
parser.add_argument(
'''--transfo_xl_dataset_file''',
default='''''',
type=str,
help='''An optional dataset file to be converted in a vocabulary.''',
)
lowerCAmelCase__ = parser.parse_args()
convert_transfo_xl_checkpoint_to_pytorch(
args.tf_checkpoint_path,
args.transfo_xl_config_file,
args.pytorch_dump_folder_path,
args.transfo_xl_dataset_file,
)
| 72 | UpperCamelCase = [0, 2, 4, 6, 8]
UpperCamelCase = [1, 3, 5, 7, 9]
def lowercase_ ( _lowerCamelCase : int , _lowerCamelCase : int , _lowerCamelCase : list[int] , _lowerCamelCase : int):
if remaining_length == 0:
if digits[0] == 0 or digits[-1] == 0:
return 0
for i in range(length // 2 - 1 , -1 , -1):
remainder += digits[i] + digits[length - i - 1]
if remainder % 2 == 0:
return 0
remainder //= 10
return 1
if remaining_length == 1:
if remainder % 2 == 0:
return 0
lowercase__ : str = 0
for digit in range(10):
lowercase__ : str = digit
result += reversible_numbers(
0 , (remainder + 2 * digit) // 10 , _lowerCamelCase , _lowerCamelCase)
return result
lowercase__ : Dict = 0
for digita in range(10):
lowercase__ : int = digita
if (remainder + digita) % 2 == 0:
lowercase__ : Optional[Any] = ODD_DIGITS
else:
lowercase__ : str = EVEN_DIGITS
for digita in other_parity_digits:
lowercase__ : List[str] = digita
result += reversible_numbers(
remaining_length - 2 , (remainder + digita + digita) // 10 , _lowerCamelCase , _lowerCamelCase , )
return result
def lowercase_ ( _lowerCamelCase : int = 9):
lowercase__ : Tuple = 0
for length in range(1 , max_power + 1):
result += reversible_numbers(_lowerCamelCase , 0 , [0] * length , _lowerCamelCase)
return result
if __name__ == "__main__":
print(f"{solution() = }")
| 87 | 0 |
import itertools
import math
def SCREAMING_SNAKE_CASE__ ( lowerCamelCase__ ) -> bool:
if 1 < number < 4:
# 2 and 3 are primes
return True
elif number < 2 or number % 2 == 0 or number % 3 == 0:
# Negatives, 0, 1, all even numbers, all multiples of 3 are not primes
return False
# All primes number are in format of 6k +/- 1
for i in range(5 , int(math.sqrt(lowerCamelCase__ ) + 1 ) , 6 ):
if number % i == 0 or number % (i + 2) == 0:
return False
return True
def SCREAMING_SNAKE_CASE__ ( ) -> str:
__lowerCamelCase : List[str] = 2
while True:
if is_prime(lowerCamelCase__ ):
yield num
num += 1
def SCREAMING_SNAKE_CASE__ ( lowerCamelCase__ = 1_0_0_0_1 ) -> int:
return next(itertools.islice(prime_generator() , nth - 1 , lowerCamelCase__ ) )
if __name__ == "__main__":
print(F"""{solution() = }""")
| 73 | import sacrebleu as scb
from packaging import version
from sacrebleu import TER
import datasets
UpperCamelCase = '''\
@inproceedings{snover-etal-2006-study,
title = "A Study of Translation Edit Rate with Targeted Human Annotation",
author = "Snover, Matthew and
Dorr, Bonnie and
Schwartz, Rich and
Micciulla, Linnea and
Makhoul, John",
booktitle = "Proceedings of the 7th Conference of the Association for Machine Translation in the Americas: Technical Papers",
month = aug # " 8-12",
year = "2006",
address = "Cambridge, Massachusetts, USA",
publisher = "Association for Machine Translation in the Americas",
url = "https://aclanthology.org/2006.amta-papers.25",
pages = "223--231",
}
@inproceedings{post-2018-call,
title = "A Call for Clarity in Reporting {BLEU} Scores",
author = "Post, Matt",
booktitle = "Proceedings of the Third Conference on Machine Translation: Research Papers",
month = oct,
year = "2018",
address = "Belgium, Brussels",
publisher = "Association for Computational Linguistics",
url = "https://www.aclweb.org/anthology/W18-6319",
pages = "186--191",
}
'''
UpperCamelCase = '''\
TER (Translation Edit Rate, also called Translation Error Rate) is a metric to quantify the edit operations that a
hypothesis requires to match a reference translation. We use the implementation that is already present in sacrebleu
(https://github.com/mjpost/sacreBLEU#ter), which in turn is inspired by the TERCOM implementation, which can be found
here: https://github.com/jhclark/tercom.
The implementation here is slightly different from sacrebleu in terms of the required input format. The length of
the references and hypotheses lists need to be the same, so you may need to transpose your references compared to
sacrebleu\'s required input format. See https://github.com/huggingface/datasets/issues/3154#issuecomment-950746534
See the README.md file at https://github.com/mjpost/sacreBLEU#ter for more information.
'''
UpperCamelCase = '''
Produces TER scores alongside the number of edits and reference length.
Args:
predictions (list of str): The system stream (a sequence of segments).
references (list of list of str): A list of one or more reference streams (each a sequence of segments).
normalized (boolean): If `True`, applies basic tokenization and normalization to sentences. Defaults to `False`.
ignore_punct (boolean): If `True`, applies basic tokenization and normalization to sentences. Defaults to `False`.
support_zh_ja_chars (boolean): If `True`, tokenization/normalization supports processing of Chinese characters,
as well as Japanese Kanji, Hiragana, Katakana, and Phonetic Extensions of Katakana.
Only applies if `normalized = True`. Defaults to `False`.
case_sensitive (boolean): If `False`, makes all predictions and references lowercase to ignore differences in case. Defaults to `False`.
Returns:
\'score\' (float): TER score (num_edits / sum_ref_lengths * 100)
\'num_edits\' (int): The cumulative number of edits
\'ref_length\' (float): The cumulative average reference length
Examples:
Example 1:
>>> predictions = ["does this sentence match??",
... "what about this sentence?",
... "What did the TER metric user say to the developer?"]
>>> references = [["does this sentence match", "does this sentence match!?!"],
... ["wHaT aBoUt ThIs SeNtEnCe?", "wHaT aBoUt ThIs SeNtEnCe?"],
... ["Your jokes are...", "...TERrible"]]
>>> ter = datasets.load_metric("ter")
>>> results = ter.compute(predictions=predictions,
... references=references,
... case_sensitive=True)
>>> print(results)
{\'score\': 150.0, \'num_edits\': 15, \'ref_length\': 10.0}
Example 2:
>>> predictions = ["does this sentence match??",
... "what about this sentence?"]
>>> references = [["does this sentence match", "does this sentence match!?!"],
... ["wHaT aBoUt ThIs SeNtEnCe?", "wHaT aBoUt ThIs SeNtEnCe?"]]
>>> ter = datasets.load_metric("ter")
>>> results = ter.compute(predictions=predictions,
... references=references,
... case_sensitive=True)
>>> print(results)
{\'score\': 62.5, \'num_edits\': 5, \'ref_length\': 8.0}
Example 3:
>>> predictions = ["does this sentence match??",
... "what about this sentence?"]
>>> references = [["does this sentence match", "does this sentence match!?!"],
... ["wHaT aBoUt ThIs SeNtEnCe?", "wHaT aBoUt ThIs SeNtEnCe?"]]
>>> ter = datasets.load_metric("ter")
>>> results = ter.compute(predictions=predictions,
... references=references,
... normalized=True,
... case_sensitive=True)
>>> print(results)
{\'score\': 57.14285714285714, \'num_edits\': 6, \'ref_length\': 10.5}
Example 4:
>>> predictions = ["does this sentence match??",
... "what about this sentence?"]
>>> references = [["does this sentence match", "does this sentence match!?!"],
... ["wHaT aBoUt ThIs SeNtEnCe?", "wHaT aBoUt ThIs SeNtEnCe?"]]
>>> ter = datasets.load_metric("ter")
>>> results = ter.compute(predictions=predictions,
... references=references,
... ignore_punct=True,
... case_sensitive=False)
>>> print(results)
{\'score\': 0.0, \'num_edits\': 0, \'ref_length\': 8.0}
Example 5:
>>> predictions = ["does this sentence match??",
... "what about this sentence?",
... "What did the TER metric user say to the developer?"]
>>> references = [["does this sentence match", "does this sentence match!?!"],
... ["wHaT aBoUt ThIs SeNtEnCe?", "wHaT aBoUt ThIs SeNtEnCe?"],
... ["Your jokes are...", "...TERrible"]]
>>> ter = datasets.load_metric("ter")
>>> results = ter.compute(predictions=predictions,
... references=references,
... ignore_punct=True,
... case_sensitive=False)
>>> print(results)
{\'score\': 100.0, \'num_edits\': 10, \'ref_length\': 10.0}
'''
@datasets.utils.file_utils.add_start_docstrings(_DESCRIPTION ,_KWARGS_DESCRIPTION )
class snake_case_ ( datasets.Metric ):
def __UpperCamelCase ( self : Union[str, Any] ) -> Tuple:
if version.parse(scb.__version__ ) < version.parse("1.4.12" ):
raise ImportWarning(
"To use `sacrebleu`, the module `sacrebleu>=1.4.12` is required, and the current version of `sacrebleu` doesn't match this condition.\n"
"You can install it with `pip install \"sacrebleu>=1.4.12\"`." )
return datasets.MetricInfo(
description=_DESCRIPTION , citation=_CITATION , homepage="http://www.cs.umd.edu/~snover/tercom/" , inputs_description=_KWARGS_DESCRIPTION , features=datasets.Features(
{
"predictions": datasets.Value("string" , id="sequence" ),
"references": datasets.Sequence(datasets.Value("string" , id="sequence" ) , id="references" ),
} ) , codebase_urls=["https://github.com/mjpost/sacreBLEU#ter"] , reference_urls=[
"https://github.com/jhclark/tercom",
] , )
def __UpperCamelCase ( self : Optional[Any] , lowercase_ : str , lowercase_ : Optional[int] , lowercase_ : bool = False , lowercase_ : bool = False , lowercase_ : bool = False , lowercase_ : bool = False , ) -> Any:
lowercase__ : Optional[int] = len(references[0] )
if any(len(lowercase_ ) != references_per_prediction for refs in references ):
raise ValueError("Sacrebleu requires the same number of references for each prediction" )
lowercase__ : Union[str, Any] = [[refs[i] for refs in references] for i in range(lowercase_ )]
lowercase__ : str = TER(
normalized=lowercase_ , no_punct=lowercase_ , asian_support=lowercase_ , case_sensitive=lowercase_ , )
lowercase__ : List[str] = sb_ter.corpus_score(lowercase_ , lowercase_ )
return {"score": output.score, "num_edits": output.num_edits, "ref_length": output.ref_length}
| 87 | 0 |
"""simple docstring"""
def _snake_case ( snake_case__ : int , snake_case__ : int ):
while second != 0:
A = first & second
first ^= second
A = c << 1
return first
if __name__ == "__main__":
import doctest
doctest.testmod()
_lowercase = int(input('''Enter the first number: ''').strip())
_lowercase = int(input('''Enter the second number: ''').strip())
print(F"""{add(first, second) = }""") | 74 | def lowercase_ ( _lowerCamelCase : int):
lowercase__ : Dict = n ** (1 / 3)
return (val * val * val) == n
if __name__ == "__main__":
print(perfect_cube(27))
print(perfect_cube(4))
| 87 | 0 |
'''simple docstring'''
def a_ ( __snake_case : Any , __snake_case : List[str] ) -> str:
"""simple docstring"""
lowerCamelCase_ =''''''
for i in table:
res += inp[i - 1]
return res
def a_ ( __snake_case : List[str] ) -> Optional[int]:
"""simple docstring"""
return data[1:] + data[0]
def a_ ( __snake_case : str , __snake_case : Tuple ) -> int:
"""simple docstring"""
lowerCamelCase_ =''''''
for i in range(len(__snake_case ) ):
if a[i] == b[i]:
res += "0"
else:
res += "1"
return res
def a_ ( __snake_case : Optional[Any] , __snake_case : Tuple ) -> List[Any]:
"""simple docstring"""
lowerCamelCase_ =int('''0b''' + data[0] + data[-1] , 2 )
lowerCamelCase_ =int('''0b''' + data[1:3] , 2 )
return bin(s[row][col] )[2:]
def a_ ( __snake_case : Optional[int] , __snake_case : List[str] , __snake_case : int , __snake_case : Tuple , __snake_case : List[Any] ) -> Optional[Any]:
"""simple docstring"""
lowerCamelCase_ =message[:4]
lowerCamelCase_ =message[4:]
lowerCamelCase_ =apply_table(__snake_case , __snake_case )
lowerCamelCase_ =xor(__snake_case , __snake_case )
lowerCamelCase_ =apply_sbox(__snake_case , temp[:4] ) # noqa: E741
lowerCamelCase_ =apply_sbox(__snake_case , temp[4:] )
lowerCamelCase_ ='''0''' * (2 - len(__snake_case )) + l # noqa: E741
lowerCamelCase_ ='''0''' * (2 - len(__snake_case )) + r
lowerCamelCase_ =apply_table(l + r , __snake_case )
lowerCamelCase_ =xor(__snake_case , __snake_case )
return temp + right
if __name__ == "__main__":
a_ : Any = input("""Enter 10 bit key: """)
a_ : Any = input("""Enter 8 bit message: """)
a_ : str = [6, 3, 7, 4, 8, 5, 10, 9]
a_ : str = [3, 5, 2, 7, 4, 10, 1, 9, 8, 6]
a_ : str = [2, 4, 3, 1]
a_ : Optional[int] = [2, 6, 3, 1, 4, 8, 5, 7]
a_ : Optional[Any] = [4, 1, 3, 5, 7, 2, 8, 6]
a_ : Union[str, Any] = [4, 1, 2, 3, 2, 3, 4, 1]
a_ : int = [[1, 0, 3, 2], [3, 2, 1, 0], [0, 2, 1, 3], [3, 1, 3, 2]]
a_ : Any = [[0, 1, 2, 3], [2, 0, 1, 3], [3, 0, 1, 0], [2, 1, 0, 3]]
# key generation
a_ : List[Any] = apply_table(key, paa_table)
a_ : str = temp[:5]
a_ : Optional[Any] = temp[5:]
a_ : Tuple = left_shift(left)
a_ : Optional[Any] = left_shift(right)
a_ : str = apply_table(left + right, pa_table)
a_ : Optional[Any] = left_shift(left)
a_ : Tuple = left_shift(right)
a_ : Union[str, Any] = left_shift(left)
a_ : List[str] = left_shift(right)
a_ : Optional[int] = apply_table(left + right, pa_table)
# encryption
a_ : Optional[int] = apply_table(message, IP)
a_ : List[Any] = function(expansion, sa, sa, keya, temp)
a_ : str = temp[4:] + temp[:4]
a_ : List[str] = function(expansion, sa, sa, keya, temp)
a_ : Union[str, Any] = apply_table(temp, IP_inv)
print("""Cipher text is:""", CT)
# decryption
a_ : Optional[int] = apply_table(CT, IP)
a_ : List[Any] = function(expansion, sa, sa, keya, temp)
a_ : int = temp[4:] + temp[:4]
a_ : int = function(expansion, sa, sa, keya, temp)
a_ : Optional[int] = apply_table(temp, IP_inv)
print("""Plain text after decypting is:""", PT)
| 75 | from PIL import Image
def lowercase_ ( _lowerCamelCase : Image , _lowerCamelCase : int):
lowercase__ : List[str] = (259 * (level + 255)) / (255 * (259 - level))
def contrast(_lowerCamelCase : int) -> int:
return int(128 + factor * (c - 128))
return img.point(_lowerCamelCase)
if __name__ == "__main__":
# Load image
with Image.open('''image_data/lena.jpg''') as img:
# Change contrast to 170
UpperCamelCase = change_contrast(img, 170)
cont_img.save('''image_data/lena_high_contrast.png''', format='''png''')
| 87 | 0 |
import os
from pickle import UnpicklingError
from typing import Dict, Tuple
import jax
import jax.numpy as jnp
import numpy as np
from flax.serialization import from_bytes
from flax.traverse_util import flatten_dict, unflatten_dict
import transformers
from .utils import logging
a_ = logging.get_logger(__name__)
def lowerCamelCase__ ( _a , _a , _a , _a=False):
try:
import torch # noqa: F401
except ImportError:
logger.error(
"Loading a PyTorch model in Flax, requires both PyTorch and Flax to be installed. Please see"
" https://pytorch.org/ and https://flax.readthedocs.io/en/latest/installation.html for installation"
" instructions.")
raise
if not is_sharded:
SCREAMING_SNAKE_CASE : str = os.path.abspath(_a)
logger.info(f"Loading PyTorch weights from {pt_path}")
SCREAMING_SNAKE_CASE : Union[str, Any] = torch.load(_a , map_location="cpu")
logger.info(f"PyTorch checkpoint contains {sum(t.numel() for t in pt_state_dict.values()):,} parameters.")
SCREAMING_SNAKE_CASE : str = convert_pytorch_state_dict_to_flax(_a , _a)
else:
# model is sharded and pytorch_checkpoint_path already contains the list of .pt shard files
SCREAMING_SNAKE_CASE : List[str] = convert_pytorch_sharded_state_dict_to_flax(_a , _a)
return flax_state_dict
def lowerCamelCase__ ( _a , _a , _a , _a , ):
def is_key_or_prefix_key_in_dict(_a) -> bool:
return len(set(_a) & {key, (model_prefix,) + key}) > 0
# layer norm
SCREAMING_SNAKE_CASE : Dict = pt_tuple_key[:-1] + ("scale",)
if pt_tuple_key[-1] in ["weight", "gamma"] and is_key_or_prefix_key_in_dict(_a):
return renamed_pt_tuple_key, pt_tensor
# batch norm layer mean
SCREAMING_SNAKE_CASE : Tuple = pt_tuple_key[:-1] + ("mean",)
if pt_tuple_key[-1] == "running_mean" and not is_key_or_prefix_key_in_dict(_a):
return renamed_pt_tuple_key, pt_tensor
# batch norm layer var
SCREAMING_SNAKE_CASE : List[str] = pt_tuple_key[:-1] + ("var",)
if pt_tuple_key[-1] == "running_var" and not is_key_or_prefix_key_in_dict(_a):
return renamed_pt_tuple_key, pt_tensor
# embedding
SCREAMING_SNAKE_CASE : int = pt_tuple_key[:-1] + ("embedding",)
if pt_tuple_key[-1] == "weight" and is_key_or_prefix_key_in_dict(_a):
return renamed_pt_tuple_key, pt_tensor
# conv layer
SCREAMING_SNAKE_CASE : Any = pt_tuple_key[:-1] + ("kernel",)
if pt_tuple_key[-1] == "weight" and pt_tensor.ndim == 4 and not is_key_or_prefix_key_in_dict(_a):
SCREAMING_SNAKE_CASE : Optional[int] = pt_tensor.transpose(2 , 3 , 1 , 0)
return renamed_pt_tuple_key, pt_tensor
# linear layer
SCREAMING_SNAKE_CASE : Union[str, Any] = pt_tuple_key[:-1] + ("kernel",)
if pt_tuple_key[-1] == "weight" and not is_key_or_prefix_key_in_dict(_a):
SCREAMING_SNAKE_CASE : Tuple = pt_tensor.T
return renamed_pt_tuple_key, pt_tensor
# old PyTorch layer norm weight
SCREAMING_SNAKE_CASE : Dict = pt_tuple_key[:-1] + ("weight",)
if pt_tuple_key[-1] == "gamma":
return renamed_pt_tuple_key, pt_tensor
# old PyTorch layer norm bias
SCREAMING_SNAKE_CASE : List[str] = pt_tuple_key[:-1] + ("bias",)
if pt_tuple_key[-1] == "beta":
return renamed_pt_tuple_key, pt_tensor
# New `weight_norm` from https://github.com/huggingface/transformers/pull/24030
SCREAMING_SNAKE_CASE : Optional[int] = None
if pt_tuple_key[-3::2] == ("parametrizations", "original0"):
SCREAMING_SNAKE_CASE : List[str] = pt_tuple_key[-2] + "_g"
elif pt_tuple_key[-3::2] == ("parametrizations", "original1"):
SCREAMING_SNAKE_CASE : Any = pt_tuple_key[-2] + "_v"
if name is not None:
SCREAMING_SNAKE_CASE : str = pt_tuple_key[:-3] + (name,)
return renamed_pt_tuple_key, pt_tensor
return pt_tuple_key, pt_tensor
def lowerCamelCase__ ( _a , _a):
# convert pytorch tensor to numpy
SCREAMING_SNAKE_CASE : int = {k: v.numpy() for k, v in pt_state_dict.items()}
SCREAMING_SNAKE_CASE : List[Any] = flax_model.base_model_prefix
# use params dict if the model contains batch norm layers
if "params" in flax_model.params:
SCREAMING_SNAKE_CASE : Dict = flax_model.params["params"]
else:
SCREAMING_SNAKE_CASE : Union[str, Any] = flax_model.params
SCREAMING_SNAKE_CASE : Optional[Any] = flatten_dict(_a)
# add batch_stats keys,values to dict
if "batch_stats" in flax_model.params:
SCREAMING_SNAKE_CASE : int = flatten_dict(flax_model.params["batch_stats"])
random_flax_state_dict.update(_a)
SCREAMING_SNAKE_CASE : Dict = {}
SCREAMING_SNAKE_CASE : int = (model_prefix not in flax_model_params) and (
model_prefix in {k.split(".")[0] for k in pt_state_dict.keys()}
)
SCREAMING_SNAKE_CASE : Union[str, Any] = (model_prefix in flax_model_params) and (
model_prefix not in {k.split(".")[0] for k in pt_state_dict.keys()}
)
# Need to change some parameters name to match Flax names
for pt_key, pt_tensor in pt_state_dict.items():
SCREAMING_SNAKE_CASE : Optional[int] = tuple(pt_key.split("."))
# remove base model prefix if necessary
SCREAMING_SNAKE_CASE : Dict = pt_tuple_key[0] == model_prefix
if load_model_with_head_into_base_model and has_base_model_prefix:
SCREAMING_SNAKE_CASE : Dict = pt_tuple_key[1:]
# Correctly rename weight parameters
SCREAMING_SNAKE_CASE ,SCREAMING_SNAKE_CASE : int = rename_key_and_reshape_tensor(
_a , _a , _a , _a)
# add model prefix if necessary
SCREAMING_SNAKE_CASE : Optional[Any] = (model_prefix,) + flax_key in random_flax_state_dict
if load_base_model_into_model_with_head and require_base_model_prefix:
SCREAMING_SNAKE_CASE : Any = (model_prefix,) + flax_key
if flax_key in random_flax_state_dict:
if flax_tensor.shape != random_flax_state_dict[flax_key].shape:
raise ValueError(
f"PyTorch checkpoint seems to be incorrect. Weight {pt_key} was expected to be of shape "
f"{random_flax_state_dict[flax_key].shape}, but is {flax_tensor.shape}.")
# add batch stats if the model contains batchnorm layers
if "batch_stats" in flax_model.params:
if "mean" in flax_key[-1] or "var" in flax_key[-1]:
SCREAMING_SNAKE_CASE : Dict = jnp.asarray(_a)
continue
# remove num_batches_tracked key
if "num_batches_tracked" in flax_key[-1]:
flax_state_dict.pop(_a , _a)
continue
# also add unexpected weight so that warning is thrown
SCREAMING_SNAKE_CASE : List[Any] = jnp.asarray(_a)
else:
# also add unexpected weight so that warning is thrown
SCREAMING_SNAKE_CASE : str = jnp.asarray(_a)
return unflatten_dict(_a)
def lowerCamelCase__ ( _a , _a):
import torch
# Load the index
SCREAMING_SNAKE_CASE : int = {}
for shard_file in shard_filenames:
# load using msgpack utils
SCREAMING_SNAKE_CASE : Union[str, Any] = torch.load(_a)
SCREAMING_SNAKE_CASE : Tuple = {k: v.numpy() for k, v in pt_state_dict.items()}
SCREAMING_SNAKE_CASE : Tuple = flax_model.base_model_prefix
# use params dict if the model contains batch norm layers and then add batch_stats keys,values to dict
if "batch_stats" in flax_model.params:
SCREAMING_SNAKE_CASE : str = flax_model.params["params"]
SCREAMING_SNAKE_CASE : Union[str, Any] = flatten_dict(_a)
random_flax_state_dict.update(flatten_dict(flax_model.params["batch_stats"]))
else:
SCREAMING_SNAKE_CASE : Any = flax_model.params
SCREAMING_SNAKE_CASE : Tuple = flatten_dict(_a)
SCREAMING_SNAKE_CASE : List[Any] = (model_prefix not in flax_model_params) and (
model_prefix in {k.split(".")[0] for k in pt_state_dict.keys()}
)
SCREAMING_SNAKE_CASE : Union[str, Any] = (model_prefix in flax_model_params) and (
model_prefix not in {k.split(".")[0] for k in pt_state_dict.keys()}
)
# Need to change some parameters name to match Flax names
for pt_key, pt_tensor in pt_state_dict.items():
SCREAMING_SNAKE_CASE : int = tuple(pt_key.split("."))
# remove base model prefix if necessary
SCREAMING_SNAKE_CASE : Optional[int] = pt_tuple_key[0] == model_prefix
if load_model_with_head_into_base_model and has_base_model_prefix:
SCREAMING_SNAKE_CASE : Tuple = pt_tuple_key[1:]
# Correctly rename weight parameters
SCREAMING_SNAKE_CASE ,SCREAMING_SNAKE_CASE : Optional[int] = rename_key_and_reshape_tensor(
_a , _a , _a , _a)
# add model prefix if necessary
SCREAMING_SNAKE_CASE : Optional[int] = (model_prefix,) + flax_key in random_flax_state_dict
if load_base_model_into_model_with_head and require_base_model_prefix:
SCREAMING_SNAKE_CASE : Optional[Any] = (model_prefix,) + flax_key
if flax_key in random_flax_state_dict:
if flax_tensor.shape != random_flax_state_dict[flax_key].shape:
raise ValueError(
f"PyTorch checkpoint seems to be incorrect. Weight {pt_key} was expected to be of shape "
f"{random_flax_state_dict[flax_key].shape}, but is {flax_tensor.shape}.")
# add batch stats if the model contains batchnorm layers
if "batch_stats" in flax_model.params:
if "mean" in flax_key[-1]:
SCREAMING_SNAKE_CASE : Dict = jnp.asarray(_a)
continue
if "var" in flax_key[-1]:
SCREAMING_SNAKE_CASE : Tuple = jnp.asarray(_a)
continue
# remove num_batches_tracked key
if "num_batches_tracked" in flax_key[-1]:
flax_state_dict.pop(_a , _a)
continue
# also add unexpected weight so that warning is thrown
SCREAMING_SNAKE_CASE : int = jnp.asarray(_a)
else:
# also add unexpected weight so that warning is thrown
SCREAMING_SNAKE_CASE : str = jnp.asarray(_a)
return unflatten_dict(_a)
def lowerCamelCase__ ( _a , _a):
SCREAMING_SNAKE_CASE : str = os.path.abspath(_a)
logger.info(f"Loading Flax weights from {flax_checkpoint_path}")
# import correct flax class
SCREAMING_SNAKE_CASE : int = getattr(_a , "Flax" + model.__class__.__name__)
# load flax weight dict
with open(_a , "rb") as state_f:
try:
SCREAMING_SNAKE_CASE : str = from_bytes(_a , state_f.read())
except UnpicklingError:
raise EnvironmentError(f"Unable to convert {flax_checkpoint_path} to Flax deserializable object. ")
return load_flax_weights_in_pytorch_model(_a , _a)
def lowerCamelCase__ ( _a , _a):
try:
import torch # noqa: F401
except ImportError:
logger.error(
"Loading a Flax weights in PyTorch, requires both PyTorch and Flax to be installed. Please see"
" https://pytorch.org/ and https://flax.readthedocs.io/en/latest/installation.html for installation"
" instructions.")
raise
# check if we have bf16 weights
SCREAMING_SNAKE_CASE : int = flatten_dict(jax.tree_util.tree_map(lambda _a: x.dtype == jnp.bfloataa , _a)).values()
if any(_a):
# convert all weights to fp32 if the are bf16 since torch.from_numpy can-not handle bf16
# and bf16 is not fully supported in PT yet.
logger.warning(
"Found ``bfloat16`` weights in Flax model. Casting all ``bfloat16`` weights to ``float32`` "
"before loading those in PyTorch model.")
SCREAMING_SNAKE_CASE : Optional[Any] = jax.tree_util.tree_map(
lambda _a: params.astype(np.floataa) if params.dtype == jnp.bfloataa else params , _a)
SCREAMING_SNAKE_CASE : Optional[Any] = flatten_dict(_a)
SCREAMING_SNAKE_CASE : Optional[int] = pt_model.state_dict()
SCREAMING_SNAKE_CASE : Union[str, Any] = (pt_model.base_model_prefix in flax_state) and (
pt_model.base_model_prefix not in {k.split(".")[0] for k in pt_model_dict.keys()}
)
SCREAMING_SNAKE_CASE : Dict = (pt_model.base_model_prefix not in flax_state) and (
pt_model.base_model_prefix in {k.split(".")[0] for k in pt_model_dict.keys()}
)
# keep track of unexpected & missing keys
SCREAMING_SNAKE_CASE : int = []
SCREAMING_SNAKE_CASE : int = set(pt_model_dict.keys())
for flax_key_tuple, flax_tensor in flax_state_dict.items():
SCREAMING_SNAKE_CASE : Dict = flax_key_tuple[0] == pt_model.base_model_prefix
SCREAMING_SNAKE_CASE : Union[str, Any] = ".".join((pt_model.base_model_prefix,) + flax_key_tuple) in pt_model_dict
# adapt flax_key to prepare for loading from/to base model only
if load_model_with_head_into_base_model and has_base_model_prefix:
SCREAMING_SNAKE_CASE : Union[str, Any] = flax_key_tuple[1:]
elif load_base_model_into_model_with_head and require_base_model_prefix:
SCREAMING_SNAKE_CASE : Tuple = (pt_model.base_model_prefix,) + flax_key_tuple
# rename flax weights to PyTorch format
if flax_key_tuple[-1] == "kernel" and flax_tensor.ndim == 4 and ".".join(_a) not in pt_model_dict:
# conv layer
SCREAMING_SNAKE_CASE : List[str] = flax_key_tuple[:-1] + ("weight",)
SCREAMING_SNAKE_CASE : Tuple = jnp.transpose(_a , (3, 2, 0, 1))
elif flax_key_tuple[-1] == "kernel" and ".".join(_a) not in pt_model_dict:
# linear layer
SCREAMING_SNAKE_CASE : int = flax_key_tuple[:-1] + ("weight",)
SCREAMING_SNAKE_CASE : Any = flax_tensor.T
elif flax_key_tuple[-1] in ["scale", "embedding"]:
SCREAMING_SNAKE_CASE : Union[str, Any] = flax_key_tuple[:-1] + ("weight",)
# adding batch stats from flax batch norm to pt
elif "mean" in flax_key_tuple[-1]:
SCREAMING_SNAKE_CASE : Union[str, Any] = flax_key_tuple[:-1] + ("running_mean",)
elif "var" in flax_key_tuple[-1]:
SCREAMING_SNAKE_CASE : Union[str, Any] = flax_key_tuple[:-1] + ("running_var",)
if "batch_stats" in flax_state:
SCREAMING_SNAKE_CASE : Dict = ".".join(flax_key_tuple[1:]) # Remove the params/batch_stats header
else:
SCREAMING_SNAKE_CASE : List[str] = ".".join(_a)
# We also need to look at `pt_model_dict` and see if there are keys requiring further transformation.
SCREAMING_SNAKE_CASE : Optional[int] = {}
# New `weight_norm` from https://github.com/huggingface/transformers/pull/24030
for key in pt_model_dict:
SCREAMING_SNAKE_CASE : int = key.split(".")
SCREAMING_SNAKE_CASE : int = None
if key_components[-3::2] == ["parametrizations", "original0"]:
SCREAMING_SNAKE_CASE : Union[str, Any] = key_components[-2] + "_g"
elif key_components[-3::2] == ["parametrizations", "original1"]:
SCREAMING_SNAKE_CASE : Dict = key_components[-2] + "_v"
if name is not None:
SCREAMING_SNAKE_CASE : Optional[int] = key_components[:-3] + [name]
SCREAMING_SNAKE_CASE : List[str] = ".".join(_a)
SCREAMING_SNAKE_CASE : str = key
if flax_key in special_pt_names:
SCREAMING_SNAKE_CASE : Optional[Any] = special_pt_names[flax_key]
if flax_key in pt_model_dict:
if flax_tensor.shape != pt_model_dict[flax_key].shape:
raise ValueError(
f"Flax checkpoint seems to be incorrect. Weight {flax_key_tuple} was expected "
f"to be of shape {pt_model_dict[flax_key].shape}, but is {flax_tensor.shape}.")
else:
# add weight to pytorch dict
SCREAMING_SNAKE_CASE : Dict = np.asarray(_a) if not isinstance(_a , np.ndarray) else flax_tensor
SCREAMING_SNAKE_CASE : int = torch.from_numpy(_a)
# remove from missing keys
missing_keys.remove(_a)
else:
# weight is not expected by PyTorch model
unexpected_keys.append(_a)
pt_model.load_state_dict(_a)
# re-transform missing_keys to list
SCREAMING_SNAKE_CASE : str = list(_a)
if len(_a) > 0:
logger.warning(
"Some weights of the Flax model were not used when initializing the PyTorch model"
f" {pt_model.__class__.__name__}: {unexpected_keys}\n- This IS expected if you are initializing"
f" {pt_model.__class__.__name__} from a Flax model trained on another task or with another architecture"
" (e.g. initializing a BertForSequenceClassification model from a FlaxBertForPreTraining model).\n- This"
f" IS NOT expected if you are initializing {pt_model.__class__.__name__} from a Flax model that you expect"
" to be exactly identical (e.g. initializing a BertForSequenceClassification model from a"
" FlaxBertForSequenceClassification model).")
else:
logger.warning(f"All Flax model weights were used when initializing {pt_model.__class__.__name__}.\n")
if len(_a) > 0:
logger.warning(
f"Some weights of {pt_model.__class__.__name__} were not initialized from the Flax model and are newly"
f" initialized: {missing_keys}\nYou should probably TRAIN this model on a down-stream task to be able to"
" use it for predictions and inference.")
else:
logger.warning(
f"All the weights of {pt_model.__class__.__name__} were initialized from the Flax model.\n"
"If your task is similar to the task the model of the checkpoint was trained on, "
f"you can already use {pt_model.__class__.__name__} for predictions without further training.")
return pt_model | 76 | from __future__ import annotations
import sys
from collections import deque
from typing import Generic, TypeVar
UpperCamelCase = TypeVar('''T''')
class snake_case_ ( Generic[T] ):
__A : deque[T] # Cache store of keys
__A : set[T] # References of the keys in cache
__A : int = 10 # Maximum capacity of cache
def __init__( self : Union[str, Any] , lowercase_ : int ) -> None:
lowercase__ : int = deque()
lowercase__ : str = set()
if not n:
lowercase__ : str = sys.maxsize
elif n < 0:
raise ValueError("n should be an integer greater than 0." )
else:
lowercase__ : List[Any] = n
def __UpperCamelCase ( self : Dict , lowercase_ : T ) -> None:
if x not in self.key_reference:
if len(self.dq_store ) == LRUCache._MAX_CAPACITY:
lowercase__ : Dict = self.dq_store.pop()
self.key_reference.remove(lowercase_ )
else:
self.dq_store.remove(lowercase_ )
self.dq_store.appendleft(lowercase_ )
self.key_reference.add(lowercase_ )
def __UpperCamelCase ( self : Dict ) -> None:
for k in self.dq_store:
print(lowercase_ )
def __repr__( self : Optional[int] ) -> str:
return F'''LRUCache({self._MAX_CAPACITY}) => {list(self.dq_store )}'''
if __name__ == "__main__":
import doctest
doctest.testmod()
UpperCamelCase = LRUCache(4)
lru_cache.refer('''A''')
lru_cache.refer(2)
lru_cache.refer(3)
lru_cache.refer('''A''')
lru_cache.refer(4)
lru_cache.refer(5)
lru_cache.display()
print(lru_cache)
assert str(lru_cache) == "LRUCache(4) => [5, 4, 'A', 3]"
| 87 | 0 |
"""simple docstring"""
import argparse
import shutil
from pathlib import Path
from tqdm import tqdm
from transformers import AutoTokenizer
def a_ ( _lowerCAmelCase : Tuple , _lowerCAmelCase : List[str] , _lowerCAmelCase : str , _lowerCAmelCase : str=1024 ):
'''simple docstring'''
lowercase__ , lowercase__ : Any = [], []
lowercase__ : str = list(zip(_lowerCAmelCase , _lowerCAmelCase ) )
lowercase__ , lowercase__ : List[str] = sorted_examples[0]
def is_too_big(_lowerCAmelCase : int ):
return tok(_lowerCAmelCase , return_tensors='pt' ).input_ids.shape[1] > max_tokens
for src, tgt in tqdm(sorted_examples[1:] ):
lowercase__ : Union[str, Any] = new_src + ' ' + src
lowercase__ : str = new_tgt + ' ' + tgt
if is_too_big(_lowerCAmelCase ) or is_too_big(_lowerCAmelCase ): # cant fit, finalize example
finished_src.append(_lowerCAmelCase )
finished_tgt.append(_lowerCAmelCase )
lowercase__ , lowercase__ : Any = src, tgt
else: # can fit, keep adding
lowercase__ , lowercase__ : Dict = cand_src, cand_tgt
# cleanup
if new_src:
assert new_tgt
finished_src.append(_lowerCAmelCase )
finished_tgt.append(_lowerCAmelCase )
return finished_src, finished_tgt
def a_ ( _lowerCAmelCase : Tuple , _lowerCAmelCase : Path , _lowerCAmelCase : Dict , _lowerCAmelCase : Union[str, Any] ):
'''simple docstring'''
lowercase__ : Dict = Path(_lowerCAmelCase )
save_path.mkdir(exist_ok=_lowerCAmelCase )
for split in ["train"]:
lowercase__ , lowercase__ : Dict = data_dir / f"""{split}.source""", data_dir / f"""{split}.target"""
lowercase__ : Tuple = [x.rstrip() for x in Path(_lowerCAmelCase ).open().readlines()]
lowercase__ : Union[str, Any] = [x.rstrip() for x in Path(_lowerCAmelCase ).open().readlines()]
lowercase__ , lowercase__ : int = pack_examples(_lowerCAmelCase , _lowerCAmelCase , _lowerCAmelCase , _lowerCAmelCase )
print(f"""packed {split} split from {len(_lowerCAmelCase )} examples -> {len(_lowerCAmelCase )}.""" )
Path(save_path / f"""{split}.source""" ).open('w' ).write('\n'.join(_lowerCAmelCase ) )
Path(save_path / f"""{split}.target""" ).open('w' ).write('\n'.join(_lowerCAmelCase ) )
for split in ["val", "test"]:
lowercase__ , lowercase__ : List[str] = data_dir / f"""{split}.source""", data_dir / f"""{split}.target"""
shutil.copyfile(_lowerCAmelCase , save_path / f"""{split}.source""" )
shutil.copyfile(_lowerCAmelCase , save_path / f"""{split}.target""" )
def a_ ( ):
'''simple docstring'''
lowercase__ : List[Any] = argparse.ArgumentParser()
parser.add_argument('--tok_name' , type=_lowerCAmelCase , help='like facebook/bart-large-cnn,t5-base, etc.' )
parser.add_argument('--max_seq_len' , type=_lowerCAmelCase , default=128 )
parser.add_argument('--data_dir' , type=_lowerCAmelCase )
parser.add_argument('--save_path' , type=_lowerCAmelCase )
lowercase__ : List[str] = parser.parse_args()
lowercase__ : Tuple = AutoTokenizer.from_pretrained(args.tok_name )
return pack_data_dir(_lowerCAmelCase , Path(args.data_dir ) , args.max_seq_len , args.save_path )
if __name__ == "__main__":
packer_cli()
| 77 | from collections import OrderedDict
from typing import Mapping
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfig
from ...utils import logging
UpperCamelCase = logging.get_logger(__name__)
UpperCamelCase = {
'''YituTech/conv-bert-base''': '''https://huggingface.co/YituTech/conv-bert-base/resolve/main/config.json''',
'''YituTech/conv-bert-medium-small''': (
'''https://huggingface.co/YituTech/conv-bert-medium-small/resolve/main/config.json'''
),
'''YituTech/conv-bert-small''': '''https://huggingface.co/YituTech/conv-bert-small/resolve/main/config.json''',
# See all ConvBERT models at https://huggingface.co/models?filter=convbert
}
class snake_case_ ( __A ):
__A : List[str] = "convbert"
def __init__( self : Union[str, Any] , lowercase_ : str=3_05_22 , lowercase_ : Any=7_68 , lowercase_ : Tuple=12 , lowercase_ : List[str]=12 , lowercase_ : Optional[int]=30_72 , lowercase_ : Union[str, Any]="gelu" , lowercase_ : str=0.1 , lowercase_ : List[str]=0.1 , lowercase_ : Optional[Any]=5_12 , lowercase_ : Dict=2 , lowercase_ : Union[str, Any]=0.02 , lowercase_ : Optional[Any]=1E-12 , lowercase_ : Optional[int]=1 , lowercase_ : List[Any]=0 , lowercase_ : Optional[int]=2 , lowercase_ : str=7_68 , lowercase_ : Dict=2 , lowercase_ : Optional[Any]=9 , lowercase_ : Union[str, Any]=1 , lowercase_ : Any=None , **lowercase_ : Optional[Any] , ) -> Dict:
super().__init__(
pad_token_id=lowercase_ , bos_token_id=lowercase_ , eos_token_id=lowercase_ , **lowercase_ , )
lowercase__ : List[str] = vocab_size
lowercase__ : Union[str, Any] = hidden_size
lowercase__ : Any = num_hidden_layers
lowercase__ : List[str] = num_attention_heads
lowercase__ : Union[str, Any] = intermediate_size
lowercase__ : Optional[Any] = hidden_act
lowercase__ : int = hidden_dropout_prob
lowercase__ : str = attention_probs_dropout_prob
lowercase__ : Union[str, Any] = max_position_embeddings
lowercase__ : Optional[int] = type_vocab_size
lowercase__ : Tuple = initializer_range
lowercase__ : List[str] = layer_norm_eps
lowercase__ : List[Any] = embedding_size
lowercase__ : Optional[Any] = head_ratio
lowercase__ : Dict = conv_kernel_size
lowercase__ : Tuple = num_groups
lowercase__ : Optional[int] = classifier_dropout
class snake_case_ ( __A ):
@property
def __UpperCamelCase ( self : Optional[int] ) -> Mapping[str, Mapping[int, str]]:
if self.task == "multiple-choice":
lowercase__ : Tuple = {0: "batch", 1: "choice", 2: "sequence"}
else:
lowercase__ : str = {0: "batch", 1: "sequence"}
return OrderedDict(
[
("input_ids", dynamic_axis),
("attention_mask", dynamic_axis),
("token_type_ids", dynamic_axis),
] )
| 87 | 0 |
"""simple docstring"""
import os
from huggingface_hub.constants import HUGGINGFACE_HUB_CACHE, hf_cache_home
snake_case_ = HUGGINGFACE_HUB_CACHE
snake_case_ = """config.json"""
snake_case_ = """diffusion_pytorch_model.bin"""
snake_case_ = """diffusion_flax_model.msgpack"""
snake_case_ = """model.onnx"""
snake_case_ = """diffusion_pytorch_model.safetensors"""
snake_case_ = """weights.pb"""
snake_case_ = """https://huggingface.co"""
snake_case_ = default_cache_path
snake_case_ = """diffusers_modules"""
snake_case_ = os.getenv("""HF_MODULES_CACHE""", os.path.join(hf_cache_home, """modules"""))
snake_case_ = ["""fp16""", """non-ema"""]
snake_case_ = """.self_attn"""
| 78 | import argparse
import torch
from transformers import BertConfig, BertForPreTraining, load_tf_weights_in_bert
from transformers.utils import logging
logging.set_verbosity_info()
def lowercase_ ( _lowerCamelCase : str , _lowerCamelCase : List[Any] , _lowerCamelCase : Dict):
# Initialise PyTorch model
lowercase__ : List[str] = BertConfig.from_json_file(_lowerCamelCase)
print(f'''Building PyTorch model from configuration: {config}''')
lowercase__ : Optional[Any] = BertForPreTraining(_lowerCamelCase)
# Load weights from tf checkpoint
load_tf_weights_in_bert(_lowerCamelCase , _lowerCamelCase , _lowerCamelCase)
# Save pytorch-model
print(f'''Save PyTorch model to {pytorch_dump_path}''')
torch.save(model.state_dict() , _lowerCamelCase)
if __name__ == "__main__":
UpperCamelCase = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
'''--tf_checkpoint_path''', default=None, type=str, required=True, help='''Path to the TensorFlow checkpoint path.'''
)
parser.add_argument(
'''--bert_config_file''',
default=None,
type=str,
required=True,
help=(
'''The config json file corresponding to the pre-trained BERT model. \n'''
'''This specifies the model architecture.'''
),
)
parser.add_argument(
'''--pytorch_dump_path''', default=None, type=str, required=True, help='''Path to the output PyTorch model.'''
)
UpperCamelCase = parser.parse_args()
convert_tf_checkpoint_to_pytorch(args.tf_checkpoint_path, args.bert_config_file, args.pytorch_dump_path)
| 87 | 0 |
'''simple docstring'''
from transformers import HfArgumentParser, TensorFlowBenchmark, TensorFlowBenchmarkArguments
def __lowercase ( ) -> Dict:
'''simple docstring'''
_A = HfArgumentParser(__lowercase )
_A = parser.parse_args_into_dataclasses()[0]
_A = TensorFlowBenchmark(args=__lowercase )
try:
_A = parser.parse_args_into_dataclasses()[0]
except ValueError as e:
_A = "Arg --no_{0} is no longer used, please use --no-{0} instead."
_A = " ".join(str(__lowercase ).split(" " )[:-1] )
_A = ""
_A = eval(str(__lowercase ).split(" " )[-1] )
_A = []
for arg in depreciated_args:
# arg[2:] removes '--'
if arg[2:] in TensorFlowBenchmark.deprecated_args:
# arg[5:] removes '--no_'
full_error_msg += arg_error_msg.format(arg[5:] )
else:
wrong_args.append(__lowercase )
if len(__lowercase ) > 0:
_A = full_error_msg + begin_error_msg + str(__lowercase )
raise ValueError(__lowercase )
benchmark.run()
if __name__ == "__main__":
main()
| 79 | import asyncio
import os
import re
import sys
import tempfile
import unittest
from contextlib import contextmanager
from copy import deepcopy
from distutils.util import strtobool
from enum import Enum
from importlib.util import find_spec
from pathlib import Path
from unittest.mock import patch
import pyarrow as pa
import pytest
import requests
from packaging import version
from datasets import config
if config.PY_VERSION < version.parse('''3.8'''):
import importlib_metadata
else:
import importlib.metadata as importlib_metadata
def lowercase_ ( _lowerCamelCase : Any , _lowerCamelCase : List[str]=False):
try:
lowercase__ : Union[str, Any] = os.environ[key]
except KeyError:
# KEY isn't set, default to `default`.
lowercase__ : int = default
else:
# KEY is set, convert it to True or False.
try:
lowercase__ : Optional[int] = strtobool(_lowerCamelCase)
except ValueError:
# More values are supported, but let's keep the message simple.
raise ValueError(f'''If set, {key} must be yes or no.''')
return _value
UpperCamelCase = parse_flag_from_env('''RUN_SLOW''', default=False)
UpperCamelCase = parse_flag_from_env('''RUN_REMOTE''', default=False)
UpperCamelCase = parse_flag_from_env('''RUN_LOCAL''', default=True)
UpperCamelCase = parse_flag_from_env('''RUN_PACKAGED''', default=True)
# Compression
UpperCamelCase = pytest.mark.skipif(not config.LZ4_AVAILABLE, reason='''test requires lz4''')
UpperCamelCase = pytest.mark.skipif(not config.PY7ZR_AVAILABLE, reason='''test requires py7zr''')
UpperCamelCase = pytest.mark.skipif(not config.ZSTANDARD_AVAILABLE, reason='''test requires zstandard''')
# Audio
UpperCamelCase = pytest.mark.skipif(
# On Windows and OS X, soundfile installs sndfile
find_spec('''soundfile''') is None or version.parse(importlib_metadata.version('''soundfile''')) < version.parse('''0.12.0'''),
reason='''test requires sndfile>=0.12.1: \'pip install \"soundfile>=0.12.1\"\'; ''',
)
# Beam
UpperCamelCase = pytest.mark.skipif(
not config.BEAM_AVAILABLE or config.DILL_VERSION >= version.parse('''0.3.2'''),
reason='''test requires apache-beam and a compatible dill version''',
)
# Dill-cloudpickle compatibility
UpperCamelCase = pytest.mark.skipif(
config.DILL_VERSION <= version.parse('''0.3.2'''),
reason='''test requires dill>0.3.2 for cloudpickle compatibility''',
)
# Windows
UpperCamelCase = pytest.mark.skipif(
sys.platform == '''win32''',
reason='''test should not be run on Windows''',
)
def lowercase_ ( _lowerCamelCase : int):
try:
import faiss # noqa
except ImportError:
lowercase__ : Optional[Any] = unittest.skip("test requires faiss")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : int):
try:
import regex # noqa
except ImportError:
lowercase__ : List[Any] = unittest.skip("test requires regex")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : int):
try:
import elasticsearch # noqa
except ImportError:
lowercase__ : Optional[int] = unittest.skip("test requires elasticsearch")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : Union[str, Any]):
try:
import sqlalchemy # noqa
except ImportError:
lowercase__ : Optional[int] = unittest.skip("test requires sqlalchemy")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : int):
if not config.TORCH_AVAILABLE:
lowercase__ : Tuple = unittest.skip("test requires PyTorch")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : Tuple):
if not config.TF_AVAILABLE:
lowercase__ : Any = unittest.skip("test requires TensorFlow")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : Dict):
if not config.JAX_AVAILABLE:
lowercase__ : List[str] = unittest.skip("test requires JAX")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : int):
if not config.PIL_AVAILABLE:
lowercase__ : Dict = unittest.skip("test requires Pillow")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : Tuple):
try:
import transformers # noqa F401
except ImportError:
return unittest.skip("test requires transformers")(_lowerCamelCase)
else:
return test_case
def lowercase_ ( _lowerCamelCase : Optional[Any]):
try:
import tiktoken # noqa F401
except ImportError:
return unittest.skip("test requires tiktoken")(_lowerCamelCase)
else:
return test_case
def lowercase_ ( _lowerCamelCase : Dict):
try:
import spacy # noqa F401
except ImportError:
return unittest.skip("test requires spacy")(_lowerCamelCase)
else:
return test_case
def lowercase_ ( _lowerCamelCase : Optional[int]):
def _require_spacy_model(_lowerCamelCase : Optional[int]):
try:
import spacy # noqa F401
spacy.load(_lowerCamelCase)
except ImportError:
return unittest.skip("test requires spacy")(_lowerCamelCase)
except OSError:
return unittest.skip("test requires spacy model '{}'".format(_lowerCamelCase))(_lowerCamelCase)
else:
return test_case
return _require_spacy_model
def lowercase_ ( _lowerCamelCase : Dict):
try:
import pyspark # noqa F401
except ImportError:
return unittest.skip("test requires pyspark")(_lowerCamelCase)
else:
return test_case
def lowercase_ ( _lowerCamelCase : List[str]):
try:
import joblibspark # noqa F401
except ImportError:
return unittest.skip("test requires joblibspark")(_lowerCamelCase)
else:
return test_case
def lowercase_ ( _lowerCamelCase : Dict):
if not _run_slow_tests or _run_slow_tests == 0:
lowercase__ : Tuple = unittest.skip("test is slow")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : int):
if not _run_local_tests or _run_local_tests == 0:
lowercase__ : str = unittest.skip("test is local")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : Optional[int]):
if not _run_packaged_tests or _run_packaged_tests == 0:
lowercase__ : List[Any] = unittest.skip("test is packaged")(_lowerCamelCase)
return test_case
def lowercase_ ( _lowerCamelCase : Tuple):
if not _run_remote_tests or _run_remote_tests == 0:
lowercase__ : Union[str, Any] = unittest.skip("test requires remote")(_lowerCamelCase)
return test_case
def lowercase_ ( *_lowerCamelCase : str):
def decorate(cls : str):
for name, fn in cls.__dict__.items():
if callable(_lowerCamelCase) and name.startswith("test"):
for decorator in decorators:
lowercase__ : Optional[int] = decorator(_lowerCamelCase)
setattr(cls , _lowerCamelCase , _lowerCamelCase)
return cls
return decorate
class snake_case_ ( __A ):
pass
class snake_case_ ( __A ):
__A : List[Any] = 0
__A : str = 1
__A : int = 2
@contextmanager
def lowercase_ ( _lowerCamelCase : List[str]=OfflineSimulationMode.CONNECTION_FAILS , _lowerCamelCase : int=1E-16):
lowercase__ : int = requests.Session().request
def timeout_request(_lowerCamelCase : str , _lowerCamelCase : Dict , _lowerCamelCase : Dict , **_lowerCamelCase : str):
# Change the url to an invalid url so that the connection hangs
lowercase__ : Any = "https://10.255.255.1"
if kwargs.get("timeout") is None:
raise RequestWouldHangIndefinitelyError(
f'''Tried a call to {url} in offline mode with no timeout set. Please set a timeout.''')
lowercase__ : Dict = timeout
try:
return online_request(_lowerCamelCase , _lowerCamelCase , **_lowerCamelCase)
except Exception as e:
# The following changes in the error are just here to make the offline timeout error prettier
lowercase__ : Dict = url
lowercase__ : Union[str, Any] = e.args[0]
lowercase__ : Optional[Any] = (max_retry_error.args[0].replace("10.255.255.1" , f'''OfflineMock[{url}]'''),)
lowercase__ : int = (max_retry_error,)
raise
def raise_connection_error(_lowerCamelCase : Union[str, Any] , _lowerCamelCase : Optional[Any] , **_lowerCamelCase : Tuple):
raise requests.ConnectionError("Offline mode is enabled." , request=_lowerCamelCase)
if mode is OfflineSimulationMode.CONNECTION_FAILS:
with patch("requests.Session.send" , _lowerCamelCase):
yield
elif mode is OfflineSimulationMode.CONNECTION_TIMES_OUT:
# inspired from https://stackoverflow.com/a/904609
with patch("requests.Session.request" , _lowerCamelCase):
yield
elif mode is OfflineSimulationMode.HF_DATASETS_OFFLINE_SET_TO_1:
with patch("datasets.config.HF_DATASETS_OFFLINE" , _lowerCamelCase):
yield
else:
raise ValueError("Please use a value from the OfflineSimulationMode enum.")
@contextmanager
def lowercase_ ( *_lowerCamelCase : str , **_lowerCamelCase : Tuple):
lowercase__ : Dict = str(Path().resolve())
with tempfile.TemporaryDirectory(*_lowerCamelCase , **_lowerCamelCase) as tmp_dir:
try:
os.chdir(_lowerCamelCase)
yield
finally:
os.chdir(_lowerCamelCase)
@contextmanager
def lowercase_ ( ):
import gc
gc.collect()
lowercase__ : Union[str, Any] = pa.total_allocated_bytes()
yield
assert pa.total_allocated_bytes() - previous_allocated_memory > 0, "Arrow memory didn't increase."
@contextmanager
def lowercase_ ( ):
import gc
gc.collect()
lowercase__ : int = pa.total_allocated_bytes()
yield
assert pa.total_allocated_bytes() - previous_allocated_memory <= 0, "Arrow memory wasn't expected to increase."
def lowercase_ ( _lowerCamelCase : Optional[Any] , _lowerCamelCase : Optional[Any]):
return deepcopy(_lowerCamelCase).integers(0 , 100 , 10).tolist() == deepcopy(_lowerCamelCase).integers(0 , 100 , 10).tolist()
def lowercase_ ( _lowerCamelCase : str):
import decorator
from requests.exceptions import HTTPError
def _wrapper(_lowerCamelCase : str , *_lowerCamelCase : Dict , **_lowerCamelCase : Dict):
try:
return func(*_lowerCamelCase , **_lowerCamelCase)
except HTTPError as err:
if str(_lowerCamelCase).startswith("500") or str(_lowerCamelCase).startswith("502"):
pytest.xfail(str(_lowerCamelCase))
raise err
return decorator.decorator(_wrapper , _lowerCamelCase)
class snake_case_ :
def __init__( self : int , lowercase_ : Union[str, Any] , lowercase_ : Dict , lowercase_ : List[str] ) -> List[str]:
lowercase__ : Tuple = returncode
lowercase__ : int = stdout
lowercase__ : Union[str, Any] = stderr
async def lowercase_ ( _lowerCamelCase : List[str] , _lowerCamelCase : Dict):
while True:
lowercase__ : Optional[int] = await stream.readline()
if line:
callback(_lowerCamelCase)
else:
break
async def lowercase_ ( _lowerCamelCase : Optional[int] , _lowerCamelCase : Union[str, Any]=None , _lowerCamelCase : Optional[Any]=None , _lowerCamelCase : int=None , _lowerCamelCase : Optional[Any]=False , _lowerCamelCase : Tuple=False):
if echo:
print("\nRunning: " , " ".join(_lowerCamelCase))
lowercase__ : Optional[int] = await asyncio.create_subprocess_exec(
cmd[0] , *cmd[1:] , stdin=_lowerCamelCase , stdout=asyncio.subprocess.PIPE , stderr=asyncio.subprocess.PIPE , env=_lowerCamelCase , )
# note: there is a warning for a possible deadlock when using `wait` with huge amounts of data in the pipe
# https://docs.python.org/3/library/asyncio-subprocess.html#asyncio.asyncio.subprocess.Process.wait
#
# If it starts hanging, will need to switch to the following code. The problem is that no data
# will be seen until it's done and if it hangs for example there will be no debug info.
# out, err = await p.communicate()
# return _RunOutput(p.returncode, out, err)
lowercase__ : str = []
lowercase__ : List[str] = []
def tee(_lowerCamelCase : str , _lowerCamelCase : Optional[Any] , _lowerCamelCase : Union[str, Any] , _lowerCamelCase : Optional[int]=""):
lowercase__ : Optional[int] = line.decode("utf-8").rstrip()
sink.append(_lowerCamelCase)
if not quiet:
print(_lowerCamelCase , _lowerCamelCase , file=_lowerCamelCase)
# XXX: the timeout doesn't seem to make any difference here
await asyncio.wait(
[
_read_stream(p.stdout , lambda _lowerCamelCase: tee(_lowerCamelCase , _lowerCamelCase , sys.stdout , label="stdout:")),
_read_stream(p.stderr , lambda _lowerCamelCase: tee(_lowerCamelCase , _lowerCamelCase , sys.stderr , label="stderr:")),
] , timeout=_lowerCamelCase , )
return _RunOutput(await p.wait() , _lowerCamelCase , _lowerCamelCase)
def lowercase_ ( _lowerCamelCase : Optional[int] , _lowerCamelCase : List[str]=None , _lowerCamelCase : Dict=None , _lowerCamelCase : int=180 , _lowerCamelCase : Union[str, Any]=False , _lowerCamelCase : Optional[Any]=True):
lowercase__ : Any = asyncio.get_event_loop()
lowercase__ : Tuple = loop.run_until_complete(
_stream_subprocess(_lowerCamelCase , env=_lowerCamelCase , stdin=_lowerCamelCase , timeout=_lowerCamelCase , quiet=_lowerCamelCase , echo=_lowerCamelCase))
lowercase__ : int = " ".join(_lowerCamelCase)
if result.returncode > 0:
lowercase__ : Any = "\n".join(result.stderr)
raise RuntimeError(
f'''\'{cmd_str}\' failed with returncode {result.returncode}\n\n'''
f'''The combined stderr from workers follows:\n{stderr}''')
# check that the subprocess actually did run and produced some output, should the test rely on
# the remote side to do the testing
if not result.stdout and not result.stderr:
raise RuntimeError(f'''\'{cmd_str}\' produced no output.''')
return result
def lowercase_ ( ):
lowercase__ : List[str] = os.environ.get("PYTEST_XDIST_WORKER" , "gw0")
lowercase__ : str = re.sub(R"^gw" , "" , _lowerCamelCase , 0 , re.M)
return int(_lowerCamelCase)
def lowercase_ ( ):
lowercase__ : Union[str, Any] = 2_9500
lowercase__ : Optional[int] = pytest_xdist_worker_id()
return port + uniq_delta
| 87 | 0 |
'''simple docstring'''
def _UpperCamelCase ( __A ) -> list:
'''simple docstring'''
def merge(__A , __A ) -> 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__ : List[str] = input('Enter numbers separated by a comma:\n').strip()
a__ : Tuple = [int(item) for item in user_input.split(',')]
print(*merge_sort(unsorted), sep=',')
| 80 | import argparse
import json
from collections import OrderedDict
import torch
from huggingface_hub import cached_download, hf_hub_url
from transformers import AutoImageProcessor, CvtConfig, CvtForImageClassification
def lowercase_ ( _lowerCamelCase : int):
lowercase__ : int = []
embed.append(
(
f'''cvt.encoder.stages.{idx}.embedding.convolution_embeddings.projection.weight''',
f'''stage{idx}.patch_embed.proj.weight''',
))
embed.append(
(
f'''cvt.encoder.stages.{idx}.embedding.convolution_embeddings.projection.bias''',
f'''stage{idx}.patch_embed.proj.bias''',
))
embed.append(
(
f'''cvt.encoder.stages.{idx}.embedding.convolution_embeddings.normalization.weight''',
f'''stage{idx}.patch_embed.norm.weight''',
))
embed.append(
(
f'''cvt.encoder.stages.{idx}.embedding.convolution_embeddings.normalization.bias''',
f'''stage{idx}.patch_embed.norm.bias''',
))
return embed
def lowercase_ ( _lowerCamelCase : Optional[int] , _lowerCamelCase : int):
lowercase__ : Optional[Any] = []
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.convolution.weight''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_q.conv.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.weight''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.bias''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.bias''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.running_mean''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.running_mean''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.running_var''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.running_var''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_query.convolution_projection.normalization.num_batches_tracked''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_q.bn.num_batches_tracked''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.convolution.weight''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_k.conv.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.weight''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.bias''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.bias''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.running_mean''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.running_mean''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.running_var''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.running_var''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_key.convolution_projection.normalization.num_batches_tracked''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_k.bn.num_batches_tracked''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.convolution.weight''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_v.conv.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.weight''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.bias''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.bias''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.running_mean''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.running_mean''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.running_var''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.running_var''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.convolution_projection_value.convolution_projection.normalization.num_batches_tracked''',
f'''stage{idx}.blocks.{cnt}.attn.conv_proj_v.bn.num_batches_tracked''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_query.weight''',
f'''stage{idx}.blocks.{cnt}.attn.proj_q.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_query.bias''',
f'''stage{idx}.blocks.{cnt}.attn.proj_q.bias''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_key.weight''',
f'''stage{idx}.blocks.{cnt}.attn.proj_k.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_key.bias''',
f'''stage{idx}.blocks.{cnt}.attn.proj_k.bias''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_value.weight''',
f'''stage{idx}.blocks.{cnt}.attn.proj_v.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.attention.projection_value.bias''',
f'''stage{idx}.blocks.{cnt}.attn.proj_v.bias''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.output.dense.weight''',
f'''stage{idx}.blocks.{cnt}.attn.proj.weight''',
))
attention_weights.append(
(
f'''cvt.encoder.stages.{idx}.layers.{cnt}.attention.output.dense.bias''',
f'''stage{idx}.blocks.{cnt}.attn.proj.bias''',
))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.intermediate.dense.weight''', f'''stage{idx}.blocks.{cnt}.mlp.fc1.weight'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.intermediate.dense.bias''', f'''stage{idx}.blocks.{cnt}.mlp.fc1.bias'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.output.dense.weight''', f'''stage{idx}.blocks.{cnt}.mlp.fc2.weight'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.output.dense.bias''', f'''stage{idx}.blocks.{cnt}.mlp.fc2.bias'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_before.weight''', f'''stage{idx}.blocks.{cnt}.norm1.weight'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_before.bias''', f'''stage{idx}.blocks.{cnt}.norm1.bias'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_after.weight''', f'''stage{idx}.blocks.{cnt}.norm2.weight'''))
attention_weights.append(
(f'''cvt.encoder.stages.{idx}.layers.{cnt}.layernorm_after.bias''', f'''stage{idx}.blocks.{cnt}.norm2.bias'''))
return attention_weights
def lowercase_ ( _lowerCamelCase : Optional[int]):
lowercase__ : Tuple = []
token.append((f'''cvt.encoder.stages.{idx}.cls_token''', "stage2.cls_token"))
return token
def lowercase_ ( ):
lowercase__ : List[str] = []
head.append(("layernorm.weight", "norm.weight"))
head.append(("layernorm.bias", "norm.bias"))
head.append(("classifier.weight", "head.weight"))
head.append(("classifier.bias", "head.bias"))
return head
def lowercase_ ( _lowerCamelCase : Union[str, Any] , _lowerCamelCase : Optional[int] , _lowerCamelCase : Optional[int] , _lowerCamelCase : Union[str, Any]):
lowercase__ : Optional[Any] = "imagenet-1k-id2label.json"
lowercase__ : List[str] = 1000
lowercase__ : Dict = "huggingface/label-files"
lowercase__ : List[Any] = num_labels
lowercase__ : Tuple = json.load(open(cached_download(hf_hub_url(_lowerCamelCase , _lowerCamelCase , repo_type="dataset")) , "r"))
lowercase__ : Tuple = {int(_lowerCamelCase): v for k, v in idalabel.items()}
lowercase__ : Any = idalabel
lowercase__ : List[Any] = {v: k for k, v in idalabel.items()}
lowercase__ : Optional[int] = CvtConfig(num_labels=_lowerCamelCase , idalabel=_lowerCamelCase , labelaid=_lowerCamelCase)
# For depth size 13 (13 = 1+2+10)
if cvt_model.rsplit("/" , 1)[-1][4:6] == "13":
lowercase__ : Any = [1, 2, 10]
# For depth size 21 (21 = 1+4+16)
elif cvt_model.rsplit("/" , 1)[-1][4:6] == "21":
lowercase__ : Tuple = [1, 4, 16]
# For wide cvt (similar to wide-resnet) depth size 24 (w24 = 2 + 2 20)
else:
lowercase__ : Union[str, Any] = [2, 2, 20]
lowercase__ : Optional[Any] = [3, 12, 16]
lowercase__ : Optional[Any] = [192, 768, 1024]
lowercase__ : Union[str, Any] = CvtForImageClassification(_lowerCamelCase)
lowercase__ : Tuple = AutoImageProcessor.from_pretrained("facebook/convnext-base-224-22k-1k")
lowercase__ : int = image_size
lowercase__ : Dict = torch.load(_lowerCamelCase , map_location=torch.device("cpu"))
lowercase__ : Any = OrderedDict()
lowercase__ : int = []
for idx in range(len(config.depth)):
if config.cls_token[idx]:
lowercase__ : Dict = list_of_state_dict + cls_token(_lowerCamelCase)
lowercase__ : List[str] = list_of_state_dict + embeddings(_lowerCamelCase)
for cnt in range(config.depth[idx]):
lowercase__ : Any = list_of_state_dict + attention(_lowerCamelCase , _lowerCamelCase)
lowercase__ : List[str] = list_of_state_dict + final()
for gg in list_of_state_dict:
print(_lowerCamelCase)
for i in range(len(_lowerCamelCase)):
lowercase__ : Dict = original_weights[list_of_state_dict[i][1]]
model.load_state_dict(_lowerCamelCase)
model.save_pretrained(_lowerCamelCase)
image_processor.save_pretrained(_lowerCamelCase)
# Download the weights from zoo: https://1drv.ms/u/s!AhIXJn_J-blW9RzF3rMW7SsLHa8h?e=blQ0Al
if __name__ == "__main__":
UpperCamelCase = argparse.ArgumentParser()
parser.add_argument(
'''--cvt_model''',
default='''cvt-w24''',
type=str,
help='''Name of the cvt model you\'d like to convert.''',
)
parser.add_argument(
'''--image_size''',
default=384,
type=int,
help='''Input Image Size''',
)
parser.add_argument(
'''--cvt_file_name''',
default=R'''cvtmodels\CvT-w24-384x384-IN-22k.pth''',
type=str,
help='''Input Image Size''',
)
parser.add_argument(
'''--pytorch_dump_folder_path''', default=None, type=str, help='''Path to the output PyTorch model directory.'''
)
UpperCamelCase = parser.parse_args()
convert_cvt_checkpoint(args.cvt_model, args.image_size, args.cvt_file_name, args.pytorch_dump_folder_path)
| 87 | 0 |
"""simple docstring"""
from typing import Dict, List, Optional, Union
import numpy as np
from ...image_processing_utils import BaseImageProcessor, BatchFeature, get_size_dict
from ...image_transforms import (
center_crop,
get_resize_output_image_size,
normalize,
rescale,
resize,
to_channel_dimension_format,
)
from ...image_utils import (
IMAGENET_DEFAULT_MEAN,
IMAGENET_DEFAULT_STD,
ChannelDimension,
ImageInput,
PILImageResampling,
is_batched,
to_numpy_array,
valid_images,
)
from ...utils import TensorType, logging
lowerCamelCase_ : List[Any] = logging.get_logger(__name__)
class __A ( _SCREAMING_SNAKE_CASE ):
"""simple docstring"""
__lowerCAmelCase = ["pixel_values"]
def __init__( self , __A = True , __A = None , __A = PILImageResampling.BICUBIC , __A = True , __A = True , __A = 1 / 255 , __A = None , __A = True , __A = None , __A = None , **__A , ) -> None:
super().__init__(**__A )
a =size if size is not None else {'''height''': 224, '''width''': 224}
a =get_size_dict(__A )
a =crop_size if crop_size is not None else {'''height''': 224, '''width''': 224}
a =get_size_dict(__A , default_to_square=__A , param_name='''crop_size''' )
a =do_resize
a =do_rescale
a =do_normalize
a =do_center_crop
a =crop_size
a =size
a =resample
a =rescale_factor
a =image_mean if image_mean is not None else IMAGENET_DEFAULT_MEAN
a =image_std if image_std is not None else IMAGENET_DEFAULT_STD
def SCREAMING_SNAKE_CASE ( self , __A , __A , __A = PILImageResampling.BILINEAR , __A = None , **__A , ) -> np.ndarray:
a =get_size_dict(__A )
if "shortest_edge" in size:
a =get_resize_output_image_size(__A , size=size['''shortest_edge'''] , default_to_square=__A )
# size = get_resize_output_image_size(image, size["shortest_edge"], size["longest_edge"])
elif "height" in size and "width" in size:
a =(size['''height'''], size['''width'''])
else:
raise ValueError(f'''Size must contain \'height\' and \'width\' keys or \'shortest_edge\' key. Got {size.keys()}''' )
return resize(__A , size=__A , resample=__A , data_format=__A , **__A )
def SCREAMING_SNAKE_CASE ( self , __A , __A , __A = None , **__A , ) -> np.ndarray:
a =get_size_dict(__A )
if "height" not in size or "width" not in size:
raise ValueError(f'''The `size` parameter must contain the keys (height, width). Got {size.keys()}''' )
return center_crop(__A , size=(size['''height'''], size['''width''']) , data_format=__A , **__A )
def SCREAMING_SNAKE_CASE ( self , __A , __A , __A = None , **__A ) -> np.ndarray:
return rescale(__A , scale=__A , data_format=__A , **__A )
def SCREAMING_SNAKE_CASE ( self , __A , __A , __A , __A = None , **__A , ) -> np.ndarray:
return normalize(__A , mean=__A , std=__A , data_format=__A , **__A )
def SCREAMING_SNAKE_CASE ( self , __A , __A = None , __A = None , __A = None , __A = None , __A = None , __A = None , __A = None , __A = None , __A = None , __A = None , __A = None , __A = ChannelDimension.FIRST , **__A , ) -> BatchFeature:
a =do_resize if do_resize is not None else self.do_resize
a =do_rescale if do_rescale is not None else self.do_rescale
a =do_normalize if do_normalize is not None else self.do_normalize
a =do_center_crop if do_center_crop is not None else self.do_center_crop
a =crop_size if crop_size is not None else self.crop_size
a =get_size_dict(__A , param_name='''crop_size''' , default_to_square=__A )
a =resample if resample is not None else self.resample
a =rescale_factor if rescale_factor is not None else self.rescale_factor
a =image_mean if image_mean is not None else self.image_mean
a =image_std if image_std is not None else self.image_std
a =size if size is not None else self.size
a =get_size_dict(__A )
if not is_batched(__A ):
a =[images]
if not valid_images(__A ):
raise ValueError(
'''Invalid image type. Must be of type PIL.Image.Image, numpy.ndarray, '''
'''torch.Tensor, tf.Tensor or jax.ndarray.''' )
if do_resize and size is None:
raise ValueError('''Size must be specified if do_resize is True.''' )
if do_center_crop and crop_size is None:
raise ValueError('''Crop size must be specified if do_center_crop is True.''' )
if do_rescale and rescale_factor is None:
raise ValueError('''Rescale factor must be specified if do_rescale is True.''' )
# All transformations expect numpy arrays.
a =[to_numpy_array(__A ) for image in images]
if do_resize:
a =[self.resize(image=__A , size=__A , resample=__A ) for image in images]
if do_center_crop:
a =[self.center_crop(image=__A , size=__A ) for image in images]
if do_rescale:
a =[self.rescale(image=__A , scale=__A ) for image in images]
if do_normalize:
a =[self.normalize(image=__A , mean=__A , std=__A ) for image in images]
a =[to_channel_dimension_format(__A , __A ) for image in images]
a ={'''pixel_values''': images}
return BatchFeature(data=__A , tensor_type=__A ) | 81 | from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
UpperCamelCase = {
'''configuration_electra''': ['''ELECTRA_PRETRAINED_CONFIG_ARCHIVE_MAP''', '''ElectraConfig''', '''ElectraOnnxConfig'''],
'''tokenization_electra''': ['''ElectraTokenizer'''],
}
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = ['''ElectraTokenizerFast''']
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = [
'''ELECTRA_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''ElectraForCausalLM''',
'''ElectraForMaskedLM''',
'''ElectraForMultipleChoice''',
'''ElectraForPreTraining''',
'''ElectraForQuestionAnswering''',
'''ElectraForSequenceClassification''',
'''ElectraForTokenClassification''',
'''ElectraModel''',
'''ElectraPreTrainedModel''',
'''load_tf_weights_in_electra''',
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = [
'''TF_ELECTRA_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''TFElectraForMaskedLM''',
'''TFElectraForMultipleChoice''',
'''TFElectraForPreTraining''',
'''TFElectraForQuestionAnswering''',
'''TFElectraForSequenceClassification''',
'''TFElectraForTokenClassification''',
'''TFElectraModel''',
'''TFElectraPreTrainedModel''',
]
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = [
'''FlaxElectraForCausalLM''',
'''FlaxElectraForMaskedLM''',
'''FlaxElectraForMultipleChoice''',
'''FlaxElectraForPreTraining''',
'''FlaxElectraForQuestionAnswering''',
'''FlaxElectraForSequenceClassification''',
'''FlaxElectraForTokenClassification''',
'''FlaxElectraModel''',
'''FlaxElectraPreTrainedModel''',
]
if TYPE_CHECKING:
from .configuration_electra import ELECTRA_PRETRAINED_CONFIG_ARCHIVE_MAP, ElectraConfig, ElectraOnnxConfig
from .tokenization_electra import ElectraTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_electra_fast import ElectraTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_electra import (
ELECTRA_PRETRAINED_MODEL_ARCHIVE_LIST,
ElectraForCausalLM,
ElectraForMaskedLM,
ElectraForMultipleChoice,
ElectraForPreTraining,
ElectraForQuestionAnswering,
ElectraForSequenceClassification,
ElectraForTokenClassification,
ElectraModel,
ElectraPreTrainedModel,
load_tf_weights_in_electra,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_electra import (
TF_ELECTRA_PRETRAINED_MODEL_ARCHIVE_LIST,
TFElectraForMaskedLM,
TFElectraForMultipleChoice,
TFElectraForPreTraining,
TFElectraForQuestionAnswering,
TFElectraForSequenceClassification,
TFElectraForTokenClassification,
TFElectraModel,
TFElectraPreTrainedModel,
)
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_electra import (
FlaxElectraForCausalLM,
FlaxElectraForMaskedLM,
FlaxElectraForMultipleChoice,
FlaxElectraForPreTraining,
FlaxElectraForQuestionAnswering,
FlaxElectraForSequenceClassification,
FlaxElectraForTokenClassification,
FlaxElectraModel,
FlaxElectraPreTrainedModel,
)
else:
import sys
UpperCamelCase = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
| 87 | 0 |
from __future__ import annotations
def _UpperCAmelCase ( snake_case , snake_case , snake_case ):
"""simple docstring"""
if len(snake_case ) == 0:
raise ValueError("""find_max() arg is an empty sequence""" )
if (
left >= len(snake_case )
or left < -len(snake_case )
or right >= len(snake_case )
or right < -len(snake_case )
):
raise IndexError("""list index out of range""" )
if left == right:
return nums[left]
_lowerCAmelCase = (left + right) >> 1 # the middle
_lowerCAmelCase = find_max(snake_case , snake_case , snake_case ) # find max in range[left, mid]
_lowerCAmelCase = find_max(snake_case , mid + 1 , snake_case ) # find max in range[mid + 1, right]
return left_max if left_max >= right_max else right_max
if __name__ == "__main__":
import doctest
doctest.testmod(verbose=True)
| 82 | import json
import os
import unittest
from transformers import BatchEncoding, LEDTokenizer, LEDTokenizerFast
from transformers.models.led.tokenization_led import VOCAB_FILES_NAMES
from transformers.testing_utils import require_tokenizers, require_torch
from transformers.utils import cached_property
from ...test_tokenization_common import TokenizerTesterMixin
@require_tokenizers
class snake_case_ ( __A ,unittest.TestCase ):
__A : Union[str, Any] = LEDTokenizer
__A : Union[str, Any] = LEDTokenizerFast
__A : Optional[Any] = True
def __UpperCamelCase ( self : List[str] ) -> Union[str, Any]:
super().setUp()
lowercase__ : List[str] = [
"l",
"o",
"w",
"e",
"r",
"s",
"t",
"i",
"d",
"n",
"\u0120",
"\u0120l",
"\u0120n",
"\u0120lo",
"\u0120low",
"er",
"\u0120lowest",
"\u0120newer",
"\u0120wider",
"<unk>",
]
lowercase__ : Optional[int] = dict(zip(lowercase_ , range(len(lowercase_ ) ) ) )
lowercase__ : str = ["#version: 0.2", "\u0120 l", "\u0120l o", "\u0120lo w", "e r", ""]
lowercase__ : Tuple = {"unk_token": "<unk>"}
lowercase__ : Optional[Any] = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES["vocab_file"] )
lowercase__ : Dict = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES["merges_file"] )
with open(self.vocab_file , "w" , encoding="utf-8" ) as fp:
fp.write(json.dumps(lowercase_ ) + "\n" )
with open(self.merges_file , "w" , encoding="utf-8" ) as fp:
fp.write("\n".join(lowercase_ ) )
def __UpperCamelCase ( self : int , **lowercase_ : str ) -> List[Any]:
kwargs.update(self.special_tokens_map )
return self.tokenizer_class.from_pretrained(self.tmpdirname , **lowercase_ )
def __UpperCamelCase ( self : List[Any] , **lowercase_ : Any ) -> List[Any]:
kwargs.update(self.special_tokens_map )
return self.rust_tokenizer_class.from_pretrained(self.tmpdirname , **lowercase_ )
def __UpperCamelCase ( self : str , lowercase_ : Any ) -> Tuple:
return "lower newer", "lower newer"
@cached_property
def __UpperCamelCase ( self : Tuple ) -> Optional[Any]:
return LEDTokenizer.from_pretrained("allenai/led-base-16384" )
@cached_property
def __UpperCamelCase ( self : Tuple ) -> int:
return LEDTokenizerFast.from_pretrained("allenai/led-base-16384" )
@require_torch
def __UpperCamelCase ( self : int ) -> List[Any]:
lowercase__ : Union[str, Any] = ["A long paragraph for summarization.", "Another paragraph for summarization."]
lowercase__ : str = [0, 2_50, 2_51, 1_78_18, 13, 3_91_86, 19_38, 4, 2]
for tokenizer in [self.default_tokenizer, self.default_tokenizer_fast]:
lowercase__ : Dict = tokenizer(lowercase_ , max_length=len(lowercase_ ) , padding=lowercase_ , return_tensors="pt" )
self.assertIsInstance(lowercase_ , lowercase_ )
self.assertEqual((2, 9) , batch.input_ids.shape )
self.assertEqual((2, 9) , batch.attention_mask.shape )
lowercase__ : Union[str, Any] = batch.input_ids.tolist()[0]
self.assertListEqual(lowercase_ , lowercase_ )
@require_torch
def __UpperCamelCase ( self : List[str] ) -> Tuple:
lowercase__ : Dict = ["A long paragraph for summarization.", "Another paragraph for summarization."]
for tokenizer in [self.default_tokenizer, self.default_tokenizer_fast]:
lowercase__ : Optional[int] = tokenizer(lowercase_ , padding=lowercase_ , return_tensors="pt" )
self.assertIn("input_ids" , lowercase_ )
self.assertIn("attention_mask" , lowercase_ )
self.assertNotIn("labels" , lowercase_ )
self.assertNotIn("decoder_attention_mask" , lowercase_ )
@require_torch
def __UpperCamelCase ( self : Optional[Any] ) -> Any:
lowercase__ : Dict = [
"Summary of the text.",
"Another summary.",
]
for tokenizer in [self.default_tokenizer, self.default_tokenizer_fast]:
lowercase__ : Dict = tokenizer(text_target=lowercase_ , max_length=32 , padding="max_length" , return_tensors="pt" )
self.assertEqual(32 , targets["input_ids"].shape[1] )
@require_torch
def __UpperCamelCase ( self : Optional[int] ) -> Tuple:
for tokenizer in [self.default_tokenizer, self.default_tokenizer_fast]:
lowercase__ : int = tokenizer(
["I am a small frog" * 10_24, "I am a small frog"] , padding=lowercase_ , truncation=lowercase_ , return_tensors="pt" )
self.assertIsInstance(lowercase_ , lowercase_ )
self.assertEqual(batch.input_ids.shape , (2, 51_22) )
@require_torch
def __UpperCamelCase ( self : List[str] ) -> Any:
lowercase__ : Union[str, Any] = ["A long paragraph for summarization."]
lowercase__ : List[Any] = [
"Summary of the text.",
]
for tokenizer in [self.default_tokenizer, self.default_tokenizer_fast]:
lowercase__ : List[Any] = tokenizer(lowercase_ , return_tensors="pt" )
lowercase__ : Dict = tokenizer(text_target=lowercase_ , return_tensors="pt" )
lowercase__ : Optional[int] = inputs["input_ids"]
lowercase__ : str = targets["input_ids"]
self.assertTrue((input_ids[:, 0] == tokenizer.bos_token_id).all().item() )
self.assertTrue((labels[:, 0] == tokenizer.bos_token_id).all().item() )
self.assertTrue((input_ids[:, -1] == tokenizer.eos_token_id).all().item() )
self.assertTrue((labels[:, -1] == tokenizer.eos_token_id).all().item() )
@require_torch
def __UpperCamelCase ( self : Union[str, Any] ) -> Dict:
for tokenizer in [self.default_tokenizer, self.default_tokenizer_fast]:
lowercase__ : int = ["Summary of the text.", "Another summary."]
lowercase__ : List[str] = [[0, 0, 0, 0, 0, 0, 0], [0, 0, 0, 0, 0, -1, -1]]
lowercase__ : Tuple = tokenizer(lowercase_ , padding=lowercase_ )
lowercase__ : int = [[0] * len(lowercase_ ) for x in encoded_output["input_ids"]]
lowercase__ : Any = tokenizer.pad(lowercase_ )
self.assertSequenceEqual(outputs["global_attention_mask"] , lowercase_ )
def __UpperCamelCase ( self : int ) -> Union[str, Any]:
pass
def __UpperCamelCase ( self : int ) -> Optional[Any]:
for tokenizer, pretrained_name, kwargs in self.tokenizers_list:
with self.subTest(F'''{tokenizer.__class__.__name__} ({pretrained_name})''' ):
lowercase__ : List[Any] = self.rust_tokenizer_class.from_pretrained(lowercase_ , **lowercase_ )
lowercase__ : List[str] = self.tokenizer_class.from_pretrained(lowercase_ , **lowercase_ )
lowercase__ : List[Any] = "A, <mask> AllenNLP sentence."
lowercase__ : Tuple = tokenizer_r.encode_plus(lowercase_ , add_special_tokens=lowercase_ , return_token_type_ids=lowercase_ )
lowercase__ : List[str] = tokenizer_p.encode_plus(lowercase_ , add_special_tokens=lowercase_ , return_token_type_ids=lowercase_ )
self.assertEqual(sum(tokens_r["token_type_ids"] ) , sum(tokens_p["token_type_ids"] ) )
self.assertEqual(
sum(tokens_r["attention_mask"] ) / len(tokens_r["attention_mask"] ) , sum(tokens_p["attention_mask"] ) / len(tokens_p["attention_mask"] ) , )
lowercase__ : Any = tokenizer_r.convert_ids_to_tokens(tokens_r["input_ids"] )
lowercase__ : Optional[Any] = tokenizer_p.convert_ids_to_tokens(tokens_p["input_ids"] )
self.assertSequenceEqual(tokens_p["input_ids"] , [0, 2_50, 6, 5_02_64, 38_23, 4_87, 2_19_92, 36_45, 4, 2] )
self.assertSequenceEqual(tokens_r["input_ids"] , [0, 2_50, 6, 5_02_64, 38_23, 4_87, 2_19_92, 36_45, 4, 2] )
self.assertSequenceEqual(
lowercase_ , ["<s>", "A", ",", "<mask>", "ĠAllen", "N", "LP", "Ġsentence", ".", "</s>"] )
self.assertSequenceEqual(
lowercase_ , ["<s>", "A", ",", "<mask>", "ĠAllen", "N", "LP", "Ġsentence", ".", "</s>"] )
| 87 | 0 |
'''simple docstring'''
def A__ ( UpperCAmelCase_ , UpperCAmelCase_ ):
return price * (1 + tax_rate)
if __name__ == "__main__":
print(F"""{price_plus_tax(100, 0.25) = }""")
print(F"""{price_plus_tax(1_25.50, 0.05) = }""")
| 83 | import math
from typing import Any, Callable, List, Optional, Tuple, Union
import numpy as np
import torch
from ...models import TaFilmDecoder
from ...schedulers import DDPMScheduler
from ...utils import is_onnx_available, logging, randn_tensor
if is_onnx_available():
from ..onnx_utils import OnnxRuntimeModel
from ..pipeline_utils import AudioPipelineOutput, DiffusionPipeline
from .continous_encoder import SpectrogramContEncoder
from .notes_encoder import SpectrogramNotesEncoder
UpperCamelCase = logging.get_logger(__name__) # pylint: disable=invalid-name
UpperCamelCase = 256
class snake_case_ ( __A ):
__A : str = ["melgan"]
def __init__( self : str , lowercase_ : SpectrogramNotesEncoder , lowercase_ : SpectrogramContEncoder , lowercase_ : TaFilmDecoder , lowercase_ : DDPMScheduler , lowercase_ : OnnxRuntimeModel if is_onnx_available() else Any , ) -> None:
super().__init__()
# From MELGAN
lowercase__ : List[Any] = math.log(1E-5 ) # Matches MelGAN training.
lowercase__ : str = 4.0 # Largest value for most examples
lowercase__ : Any = 1_28
self.register_modules(
notes_encoder=lowercase_ , continuous_encoder=lowercase_ , decoder=lowercase_ , scheduler=lowercase_ , melgan=lowercase_ , )
def __UpperCamelCase ( self : Union[str, Any] , lowercase_ : Union[str, Any] , lowercase_ : List[str]=(-1.0, 1.0) , lowercase_ : Dict=False ) -> Optional[Any]:
lowercase__ , lowercase__ : int = output_range
if clip:
lowercase__ : Optional[Any] = torch.clip(lowercase_ , self.min_value , self.max_value )
# Scale to [0, 1].
lowercase__ : List[str] = (features - self.min_value) / (self.max_value - self.min_value)
# Scale to [min_out, max_out].
return zero_one * (max_out - min_out) + min_out
def __UpperCamelCase ( self : Optional[int] , lowercase_ : List[str] , lowercase_ : List[str]=(-1.0, 1.0) , lowercase_ : List[Any]=False ) -> Union[str, Any]:
lowercase__ , lowercase__ : Tuple = input_range
lowercase__ : Optional[Any] = torch.clip(lowercase_ , lowercase_ , lowercase_ ) if clip else outputs
# Scale to [0, 1].
lowercase__ : Union[str, Any] = (outputs - min_out) / (max_out - min_out)
# Scale to [self.min_value, self.max_value].
return zero_one * (self.max_value - self.min_value) + self.min_value
def __UpperCamelCase ( self : List[str] , lowercase_ : Any , lowercase_ : Optional[Any] , lowercase_ : Tuple ) -> List[str]:
lowercase__ : Optional[Any] = input_tokens > 0
lowercase__ , lowercase__ : int = self.notes_encoder(
encoder_input_tokens=lowercase_ , encoder_inputs_mask=lowercase_ )
lowercase__ , lowercase__ : List[Any] = self.continuous_encoder(
encoder_inputs=lowercase_ , encoder_inputs_mask=lowercase_ )
return [(tokens_encoded, tokens_mask), (continuous_encoded, continuous_mask)]
def __UpperCamelCase ( self : Optional[Any] , lowercase_ : Optional[int] , lowercase_ : Optional[int] , lowercase_ : str ) -> Tuple:
lowercase__ : Union[str, Any] = noise_time
if not torch.is_tensor(lowercase_ ):
lowercase__ : Optional[Any] = torch.tensor([timesteps] , dtype=torch.long , device=input_tokens.device )
elif torch.is_tensor(lowercase_ ) and len(timesteps.shape ) == 0:
lowercase__ : Optional[Any] = timesteps[None].to(input_tokens.device )
# broadcast to batch dimension in a way that's compatible with ONNX/Core ML
lowercase__ : int = timesteps * torch.ones(input_tokens.shape[0] , dtype=timesteps.dtype , device=timesteps.device )
lowercase__ : str = self.decoder(
encodings_and_masks=lowercase_ , decoder_input_tokens=lowercase_ , decoder_noise_time=lowercase_ )
return logits
@torch.no_grad()
def __call__( self : List[str] , lowercase_ : List[List[int]] , lowercase_ : Optional[torch.Generator] = None , lowercase_ : int = 1_00 , lowercase_ : bool = True , lowercase_ : str = "numpy" , lowercase_ : Optional[Callable[[int, int, torch.FloatTensor], None]] = None , lowercase_ : int = 1 , ) -> Union[AudioPipelineOutput, Tuple]:
if (callback_steps is None) or (
callback_steps is not None and (not isinstance(lowercase_ , lowercase_ ) or callback_steps <= 0)
):
raise ValueError(
F'''`callback_steps` has to be a positive integer but is {callback_steps} of type'''
F''' {type(lowercase_ )}.''' )
lowercase__ : str = np.zeros([1, TARGET_FEATURE_LENGTH, self.n_dims] , dtype=np.floataa )
lowercase__ : Optional[int] = np.zeros([1, 0, self.n_dims] , np.floataa )
lowercase__ : str = torch.ones((1, TARGET_FEATURE_LENGTH) , dtype=lowercase_ , device=self.device )
for i, encoder_input_tokens in enumerate(lowercase_ ):
if i == 0:
lowercase__ : Union[str, Any] = torch.from_numpy(pred_mel[:1].copy() ).to(
device=self.device , dtype=self.decoder.dtype )
# The first chunk has no previous context.
lowercase__ : List[str] = torch.zeros((1, TARGET_FEATURE_LENGTH) , dtype=lowercase_ , device=self.device )
else:
# The full song pipeline does not feed in a context feature, so the mask
# will be all 0s after the feature converter. Because we know we're
# feeding in a full context chunk from the previous prediction, set it
# to all 1s.
lowercase__ : str = ones
lowercase__ : str = self.scale_features(
lowercase_ , output_range=[-1.0, 1.0] , clip=lowercase_ )
lowercase__ : str = self.encode(
input_tokens=torch.IntTensor([encoder_input_tokens] ).to(device=self.device ) , continuous_inputs=lowercase_ , continuous_mask=lowercase_ , )
# Sample encoder_continuous_inputs shaped gaussian noise to begin loop
lowercase__ : List[str] = randn_tensor(
shape=encoder_continuous_inputs.shape , generator=lowercase_ , device=self.device , dtype=self.decoder.dtype , )
# set step values
self.scheduler.set_timesteps(lowercase_ )
# Denoising diffusion loop
for j, t in enumerate(self.progress_bar(self.scheduler.timesteps ) ):
lowercase__ : Optional[int] = self.decode(
encodings_and_masks=lowercase_ , input_tokens=lowercase_ , noise_time=t / self.scheduler.config.num_train_timesteps , )
# Compute previous output: x_t -> x_t-1
lowercase__ : Optional[Any] = self.scheduler.step(lowercase_ , lowercase_ , lowercase_ , generator=lowercase_ ).prev_sample
lowercase__ : Tuple = self.scale_to_features(lowercase_ , input_range=[-1.0, 1.0] )
lowercase__ : List[str] = mel[:1]
lowercase__ : Optional[int] = mel.cpu().float().numpy()
lowercase__ : str = np.concatenate([full_pred_mel, pred_mel[:1]] , axis=1 )
# call the callback, if provided
if callback is not None and i % callback_steps == 0:
callback(lowercase_ , lowercase_ )
logger.info("Generated segment" , lowercase_ )
if output_type == "numpy" and not is_onnx_available():
raise ValueError(
"Cannot return output in 'np' format if ONNX is not available. Make sure to have ONNX installed or set 'output_type' to 'mel'." )
elif output_type == "numpy" and self.melgan is None:
raise ValueError(
"Cannot return output in 'np' format if melgan component is not defined. Make sure to define `self.melgan` or set 'output_type' to 'mel'." )
if output_type == "numpy":
lowercase__ : Union[str, Any] = self.melgan(input_features=full_pred_mel.astype(np.floataa ) )
else:
lowercase__ : Dict = full_pred_mel
if not return_dict:
return (output,)
return AudioPipelineOutput(audios=lowercase_ )
| 87 | 0 |
"""simple docstring"""
import argparse
import os
import sys
from unittest.mock import patch
import pytorch_lightning as pl
import timeout_decorator
import torch
from distillation import SummarizationDistiller, distill_main
from finetune import SummarizationModule, main
from transformers import MarianMTModel
from transformers.file_utils import cached_path
from transformers.testing_utils import TestCasePlus, require_torch_gpu, slow
from utils import load_json
__UpperCAmelCase = 'sshleifer/mar_enro_6_3_student'
class _SCREAMING_SNAKE_CASE ( A__ ):
def __lowerCAmelCase ( self ) -> Optional[Any]:
super().setUp()
lowerCAmelCase_ :int = cached_path(
"""https://cdn-datasets.huggingface.co/translation/wmt_en_ro-tr40k-va0.5k-te0.5k.tar.gz""" , extract_compressed_file=__A , )
lowerCAmelCase_ :str = f"""{data_cached}/wmt_en_ro-tr40k-va0.5k-te0.5k"""
@slow
@require_torch_gpu
def __lowerCAmelCase ( self ) -> Any:
MarianMTModel.from_pretrained(__A )
@slow
@require_torch_gpu
def __lowerCAmelCase ( self ) -> Optional[Any]:
lowerCAmelCase_ :str = {
"""$MAX_LEN""": 64,
"""$BS""": 64,
"""$GAS""": 1,
"""$ENRO_DIR""": self.data_dir,
"""facebook/mbart-large-cc25""": MARIAN_MODEL,
# "val_check_interval=0.25": "val_check_interval=1.0",
"""--learning_rate=3e-5""": """--learning_rate 3e-4""",
"""--num_train_epochs 6""": """--num_train_epochs 1""",
}
# Clean up bash script
lowerCAmelCase_ :int = (self.test_file_dir / """train_mbart_cc25_enro.sh""").open().read().split("""finetune.py""" )[1].strip()
lowerCAmelCase_ :Tuple = bash_script.replace("""\\\n""" , """""" ).strip().replace("""\"$@\"""" , """""" )
for k, v in env_vars_to_replace.items():
lowerCAmelCase_ :List[Any] = bash_script.replace(__A , str(__A ) )
lowerCAmelCase_ :Any = self.get_auto_remove_tmp_dir()
# bash_script = bash_script.replace("--fp16 ", "")
lowerCAmelCase_ :Union[str, Any] = f"""
--output_dir {output_dir}
--tokenizer_name Helsinki-NLP/opus-mt-en-ro
--sortish_sampler
--do_predict
--gpus 1
--freeze_encoder
--n_train 40000
--n_val 500
--n_test 500
--fp16_opt_level O1
--num_sanity_val_steps 0
--eval_beams 2
""".split()
# XXX: args.gpus > 1 : handle multi_gpu in the future
lowerCAmelCase_ :Any = ["""finetune.py"""] + bash_script.split() + args
with patch.object(__A , """argv""" , __A ):
lowerCAmelCase_ :Optional[int] = argparse.ArgumentParser()
lowerCAmelCase_ :str = pl.Trainer.add_argparse_args(__A )
lowerCAmelCase_ :Any = SummarizationModule.add_model_specific_args(__A , os.getcwd() )
lowerCAmelCase_ :List[Any] = parser.parse_args()
lowerCAmelCase_ :Any = main(__A )
# Check metrics
lowerCAmelCase_ :Tuple = load_json(model.metrics_save_path )
lowerCAmelCase_ :Union[str, Any] = metrics["""val"""][0]
lowerCAmelCase_ :Any = metrics["""val"""][-1]
self.assertEqual(len(metrics["""val"""] ) , (args.max_epochs / args.val_check_interval) )
assert isinstance(last_step_stats[f"""val_avg_{model.val_metric}"""] , __A )
self.assertGreater(last_step_stats["""val_avg_gen_time"""] , 0.0_1 )
# model hanging on generate. Maybe bad config was saved. (XXX: old comment/assert?)
self.assertLessEqual(last_step_stats["""val_avg_gen_time"""] , 1.0 )
# test learning requirements:
# 1. BLEU improves over the course of training by more than 2 pts
self.assertGreater(last_step_stats["""val_avg_bleu"""] - first_step_stats["""val_avg_bleu"""] , 2 )
# 2. BLEU finishes above 17
self.assertGreater(last_step_stats["""val_avg_bleu"""] , 17 )
# 3. test BLEU and val BLEU within ~1.1 pt.
self.assertLess(abs(metrics["""val"""][-1]["""val_avg_bleu"""] - metrics["""test"""][-1]["""test_avg_bleu"""] ) , 1.1 )
# check lightning ckpt can be loaded and has a reasonable statedict
lowerCAmelCase_ :Optional[Any] = os.listdir(__A )
lowerCAmelCase_ :Any = [x for x in contents if x.endswith(""".ckpt""" )][0]
lowerCAmelCase_ :int = os.path.join(args.output_dir , __A )
lowerCAmelCase_ :str = torch.load(__A , map_location="""cpu""" )
lowerCAmelCase_ :Union[str, Any] = """model.model.decoder.layers.0.encoder_attn_layer_norm.weight"""
assert expected_key in ckpt["state_dict"]
assert ckpt["state_dict"]["model.model.decoder.layers.0.encoder_attn_layer_norm.weight"].dtype == torch.floataa
# TODO: turn on args.do_predict when PL bug fixed.
if args.do_predict:
lowerCAmelCase_ :int = {os.path.basename(__A ) for p in contents}
assert "test_generations.txt" in contents
assert "test_results.txt" in contents
# assert len(metrics["val"]) == desired_n_evals
assert len(metrics["""test"""] ) == 1
class _SCREAMING_SNAKE_CASE ( A__ ):
@timeout_decorator.timeout(600 )
@slow
@require_torch_gpu
def __lowerCAmelCase ( self ) -> int:
lowerCAmelCase_ :Dict = f"""{self.test_file_dir_str}/test_data/wmt_en_ro"""
lowerCAmelCase_ :Any = {
"""--fp16_opt_level=O1""": """""",
"""$MAX_LEN""": 128,
"""$BS""": 16,
"""$GAS""": 1,
"""$ENRO_DIR""": data_dir,
"""$m""": """sshleifer/student_marian_en_ro_6_1""",
"""val_check_interval=0.25""": """val_check_interval=1.0""",
}
# Clean up bash script
lowerCAmelCase_ :Dict = (
(self.test_file_dir / """distil_marian_no_teacher.sh""").open().read().split("""distillation.py""" )[1].strip()
)
lowerCAmelCase_ :str = bash_script.replace("""\\\n""" , """""" ).strip().replace("""\"$@\"""" , """""" )
lowerCAmelCase_ :Optional[Any] = bash_script.replace("""--fp16 """ , """ """ )
for k, v in env_vars_to_replace.items():
lowerCAmelCase_ :str = bash_script.replace(__A , str(__A ) )
lowerCAmelCase_ :Dict = self.get_auto_remove_tmp_dir()
lowerCAmelCase_ :List[Any] = bash_script.replace("""--fp16""" , """""" )
lowerCAmelCase_ :Dict = 6
lowerCAmelCase_ :Any = (
["""distillation.py"""]
+ bash_script.split()
+ [
f"""--output_dir={output_dir}""",
"""--gpus=1""",
"""--learning_rate=1e-3""",
f"""--num_train_epochs={epochs}""",
"""--warmup_steps=10""",
"""--val_check_interval=1.0""",
"""--do_predict""",
]
)
with patch.object(__A , """argv""" , __A ):
lowerCAmelCase_ :Dict = argparse.ArgumentParser()
lowerCAmelCase_ :int = pl.Trainer.add_argparse_args(__A )
lowerCAmelCase_ :int = SummarizationDistiller.add_model_specific_args(__A , os.getcwd() )
lowerCAmelCase_ :Any = parser.parse_args()
# assert args.gpus == gpus THIS BREAKS for multi_gpu
lowerCAmelCase_ :Optional[Any] = distill_main(__A )
# Check metrics
lowerCAmelCase_ :Union[str, Any] = load_json(model.metrics_save_path )
lowerCAmelCase_ :List[Any] = metrics["""val"""][0]
lowerCAmelCase_ :str = metrics["""val"""][-1]
assert len(metrics["""val"""] ) >= (args.max_epochs / args.val_check_interval) # +1 accounts for val_sanity_check
assert last_step_stats["val_avg_gen_time"] >= 0.0_1
assert first_step_stats["val_avg_bleu"] < last_step_stats["val_avg_bleu"] # model learned nothing
assert 1.0 >= last_step_stats["val_avg_gen_time"] # model hanging on generate. Maybe bad config was saved.
assert isinstance(last_step_stats[f"""val_avg_{model.val_metric}"""] , __A )
# check lightning ckpt can be loaded and has a reasonable statedict
lowerCAmelCase_ :int = os.listdir(__A )
lowerCAmelCase_ :str = [x for x in contents if x.endswith(""".ckpt""" )][0]
lowerCAmelCase_ :List[str] = os.path.join(args.output_dir , __A )
lowerCAmelCase_ :Optional[Any] = torch.load(__A , map_location="""cpu""" )
lowerCAmelCase_ :Tuple = """model.model.decoder.layers.0.encoder_attn_layer_norm.weight"""
assert expected_key in ckpt["state_dict"]
assert ckpt["state_dict"]["model.model.decoder.layers.0.encoder_attn_layer_norm.weight"].dtype == torch.floataa
# TODO: turn on args.do_predict when PL bug fixed.
if args.do_predict:
lowerCAmelCase_ :Tuple = {os.path.basename(__A ) for p in contents}
assert "test_generations.txt" in contents
assert "test_results.txt" in contents
# assert len(metrics["val"]) == desired_n_evals
assert len(metrics["""test"""] ) == 1
| 84 | import unittest
from datasets import load_dataset
from transformers.pipelines import pipeline
from transformers.testing_utils import is_pipeline_test, nested_simplify, require_torch, slow
@is_pipeline_test
@require_torch
class snake_case_ ( unittest.TestCase ):
@require_torch
def __UpperCamelCase ( self : Optional[int] ) -> List[Any]:
lowercase__ : Union[str, Any] = pipeline(
task="zero-shot-audio-classification" , model="hf-internal-testing/tiny-clap-htsat-unfused" )
lowercase__ : List[str] = load_dataset("ashraq/esc50" )
lowercase__ : List[Any] = dataset["train"]["audio"][-1]["array"]
lowercase__ : Dict = audio_classifier(lowercase_ , candidate_labels=["Sound of a dog", "Sound of vaccum cleaner"] )
self.assertEqual(
nested_simplify(lowercase_ ) , [{"score": 0.5_01, "label": "Sound of a dog"}, {"score": 0.4_99, "label": "Sound of vaccum cleaner"}] , )
@unittest.skip("No models are available in TF" )
def __UpperCamelCase ( self : str ) -> Optional[int]:
pass
@slow
@require_torch
def __UpperCamelCase ( self : List[str] ) -> int:
lowercase__ : Tuple = pipeline(
task="zero-shot-audio-classification" , model="laion/clap-htsat-unfused" , )
# This is an audio of a dog
lowercase__ : Union[str, Any] = load_dataset("ashraq/esc50" )
lowercase__ : Tuple = dataset["train"]["audio"][-1]["array"]
lowercase__ : List[Any] = audio_classifier(lowercase_ , candidate_labels=["Sound of a dog", "Sound of vaccum cleaner"] )
self.assertEqual(
nested_simplify(lowercase_ ) , [
{"score": 0.9_99, "label": "Sound of a dog"},
{"score": 0.0_01, "label": "Sound of vaccum cleaner"},
] , )
lowercase__ : int = audio_classifier([audio] * 5 , candidate_labels=["Sound of a dog", "Sound of vaccum cleaner"] )
self.assertEqual(
nested_simplify(lowercase_ ) , [
[
{"score": 0.9_99, "label": "Sound of a dog"},
{"score": 0.0_01, "label": "Sound of vaccum cleaner"},
],
]
* 5 , )
lowercase__ : Tuple = audio_classifier(
[audio] * 5 , candidate_labels=["Sound of a dog", "Sound of vaccum cleaner"] , batch_size=5 )
self.assertEqual(
nested_simplify(lowercase_ ) , [
[
{"score": 0.9_99, "label": "Sound of a dog"},
{"score": 0.0_01, "label": "Sound of vaccum cleaner"},
],
]
* 5 , )
@unittest.skip("No models are available in TF" )
def __UpperCamelCase ( self : Union[str, Any] ) -> Dict:
pass
| 87 | 0 |
'''simple docstring'''
import argparse
import torch
from transformers import GPTaLMHeadModel, RobertaForMaskedLM
if __name__ == "__main__":
_SCREAMING_SNAKE_CASE : Optional[int] = argparse.ArgumentParser(
description=(
"Extraction some layers of the full RobertaForMaskedLM or GPT2LMHeadModel for Transfer Learned"
" Distillation"
)
)
parser.add_argument("--model_type", default="roberta", choices=["roberta", "gpt2"])
parser.add_argument("--model_name", default="roberta-large", type=str)
parser.add_argument("--dump_checkpoint", default="serialization_dir/tf_roberta_048131723.pth", type=str)
parser.add_argument("--vocab_transform", action="store_true")
_SCREAMING_SNAKE_CASE : List[str] = parser.parse_args()
if args.model_type == "roberta":
_SCREAMING_SNAKE_CASE : int = RobertaForMaskedLM.from_pretrained(args.model_name)
_SCREAMING_SNAKE_CASE : List[Any] = "roberta"
elif args.model_type == "gpt2":
_SCREAMING_SNAKE_CASE : Tuple = GPTaLMHeadModel.from_pretrained(args.model_name)
_SCREAMING_SNAKE_CASE : Any = "transformer"
_SCREAMING_SNAKE_CASE : Tuple = model.state_dict()
_SCREAMING_SNAKE_CASE : str = {}
# Embeddings #
if args.model_type == "gpt2":
for param_name in ["wte.weight", "wpe.weight"]:
_SCREAMING_SNAKE_CASE : Dict = state_dict[F"{prefix}.{param_name}"]
else:
for w in ["word_embeddings", "position_embeddings", "token_type_embeddings"]:
_SCREAMING_SNAKE_CASE : Optional[int] = F"{prefix}.embeddings.{w}.weight"
_SCREAMING_SNAKE_CASE : str = state_dict[param_name]
for w in ["weight", "bias"]:
_SCREAMING_SNAKE_CASE : Dict = F"{prefix}.embeddings.LayerNorm.{w}"
_SCREAMING_SNAKE_CASE : Dict = state_dict[param_name]
# Transformer Blocks #
_SCREAMING_SNAKE_CASE : Union[str, Any] = 0
for teacher_idx in [0, 2, 4, 7, 9, 11]:
if args.model_type == "gpt2":
for layer in ["ln_1", "attn.c_attn", "attn.c_proj", "ln_2", "mlp.c_fc", "mlp.c_proj"]:
for w in ["weight", "bias"]:
_SCREAMING_SNAKE_CASE : Any = state_dict[
F"{prefix}.h.{teacher_idx}.{layer}.{w}"
]
_SCREAMING_SNAKE_CASE : Dict = state_dict[F"{prefix}.h.{teacher_idx}.attn.bias"]
else:
for layer in [
"attention.self.query",
"attention.self.key",
"attention.self.value",
"attention.output.dense",
"attention.output.LayerNorm",
"intermediate.dense",
"output.dense",
"output.LayerNorm",
]:
for w in ["weight", "bias"]:
_SCREAMING_SNAKE_CASE : Union[str, Any] = state_dict[
F"{prefix}.encoder.layer.{teacher_idx}.{layer}.{w}"
]
std_idx += 1
# Language Modeling Head ###s
if args.model_type == "roberta":
for layer in ["lm_head.decoder.weight", "lm_head.bias"]:
_SCREAMING_SNAKE_CASE : Union[str, Any] = state_dict[F"{layer}"]
if args.vocab_transform:
for w in ["weight", "bias"]:
_SCREAMING_SNAKE_CASE : List[str] = state_dict[F"lm_head.dense.{w}"]
_SCREAMING_SNAKE_CASE : Dict = state_dict[F"lm_head.layer_norm.{w}"]
elif args.model_type == "gpt2":
for w in ["weight", "bias"]:
_SCREAMING_SNAKE_CASE : List[Any] = state_dict[F"{prefix}.ln_f.{w}"]
_SCREAMING_SNAKE_CASE : Optional[Any] = state_dict["lm_head.weight"]
print(F"N layers selected for distillation: {std_idx}")
print(F"Number of params transferred for distillation: {len(compressed_sd.keys())}")
print(F"Save transferred checkpoint to {args.dump_checkpoint}.")
torch.save(compressed_sd, args.dump_checkpoint)
| 85 | import operator
def lowercase_ ( _lowerCamelCase : list , _lowerCamelCase : bool = False , _lowerCamelCase : list | None = None):
lowercase__ : int = operator.lt if reverse else operator.gt
lowercase__ : str = solution or []
if not arr:
return solution
lowercase__ : List[str] = [arr.pop(0)]
for i, item in enumerate(_lowerCamelCase):
if _operator(_lowerCamelCase , sublist[-1]):
sublist.append(_lowerCamelCase)
arr.pop(_lowerCamelCase)
# merging sublist into solution list
if not solution:
solution.extend(_lowerCamelCase)
else:
while sublist:
lowercase__ : str = sublist.pop(0)
for i, xx in enumerate(_lowerCamelCase):
if not _operator(_lowerCamelCase , _lowerCamelCase):
solution.insert(_lowerCamelCase , _lowerCamelCase)
break
else:
solution.append(_lowerCamelCase)
strand_sort(_lowerCamelCase , _lowerCamelCase , _lowerCamelCase)
return solution
if __name__ == "__main__":
assert strand_sort([4, 3, 5, 1, 2]) == [1, 2, 3, 4, 5]
assert strand_sort([4, 3, 5, 1, 2], reverse=True) == [5, 4, 3, 2, 1]
| 87 | 0 |
"""simple docstring"""
lowerCamelCase__ = 65_521
def __lowerCAmelCase (_UpperCamelCase ):
__lowerCAmelCase : List[Any] = 1
__lowerCAmelCase : Union[str, Any] = 0
for plain_chr in plain_text:
__lowerCAmelCase : int = (a + ord(_UpperCamelCase )) % MOD_ADLER
__lowerCAmelCase : List[str] = (b + a) % MOD_ADLER
return (b << 16) | a | 86 | import time
import warnings
from abc import ABC
from copy import deepcopy
from typing import Optional
import torch
from ..utils import add_start_docstrings, logging
UpperCamelCase = logging.get_logger(__name__)
UpperCamelCase = R'''
Args:
input_ids (`torch.LongTensor` of shape `(batch_size, sequence_length)`):
Indices of input sequence tokens in the vocabulary.
Indices can be obtained using [`AutoTokenizer`]. See [`PreTrainedTokenizer.encode`] and
[`PreTrainedTokenizer.__call__`] for details.
[What are input IDs?](../glossary#input-ids)
scores (`torch.FloatTensor` of shape `(batch_size, config.vocab_size)`):
Prediction scores of a language modeling head. These can be scores for each vocabulary token before SoftMax
or scores for each vocabulary token after SoftMax.
kwargs (`Dict[str, Any]`, *optional*):
Additional stopping criteria specific kwargs.
Return:
`bool`. `False` indicates we should continue, `True` indicates we should stop.
'''
class snake_case_ ( __A ):
@add_start_docstrings(lowercase_ )
def __call__( self : Optional[Any] , lowercase_ : torch.LongTensor , lowercase_ : torch.FloatTensor , **lowercase_ : List[str] ) -> bool:
raise NotImplementedError("StoppingCriteria needs to be subclassed" )
class snake_case_ ( __A ):
def __init__( self : Dict , lowercase_ : int , lowercase_ : Optional[int] = None ) -> List[str]:
lowercase__ : str = max_length
lowercase__ : Optional[int] = max_position_embeddings
@add_start_docstrings(lowercase_ )
def __call__( self : Tuple , lowercase_ : torch.LongTensor , lowercase_ : torch.FloatTensor , **lowercase_ : Union[str, Any] ) -> bool:
lowercase__ : str = input_ids.shape[-1]
lowercase__ : Any = cur_len >= self.max_length
if self.max_position_embeddings is not None and not is_done and cur_len >= self.max_position_embeddings:
logger.warning_once(
"This is a friendly reminder - the current text generation call will exceed the model's predefined "
F'''maximum length ({self.max_position_embeddings}). Depending on the model, you may observe '''
"exceptions, performance degradation, or nothing at all." )
return is_done
class snake_case_ ( __A ):
def __init__( self : Tuple , lowercase_ : int , lowercase_ : int ) -> List[str]:
warnings.warn(
"The class `MaxNewTokensCriteria` is deprecated. "
F'''Please use `MaxLengthCriteria(max_length={start_length + max_new_tokens})` '''
"with `max_length = start_length + max_new_tokens` instead." , lowercase_ , )
lowercase__ : Optional[int] = start_length
lowercase__ : str = max_new_tokens
lowercase__ : Tuple = start_length + max_new_tokens
@add_start_docstrings(lowercase_ )
def __call__( self : List[Any] , lowercase_ : torch.LongTensor , lowercase_ : torch.FloatTensor , **lowercase_ : Dict ) -> bool:
return input_ids.shape[-1] >= self.max_length
class snake_case_ ( __A ):
def __init__( self : Tuple , lowercase_ : float , lowercase_ : Optional[float] = None ) -> Dict:
lowercase__ : List[str] = max_time
lowercase__ : Tuple = time.time() if initial_timestamp is None else initial_timestamp
@add_start_docstrings(lowercase_ )
def __call__( self : int , lowercase_ : torch.LongTensor , lowercase_ : torch.FloatTensor , **lowercase_ : Union[str, Any] ) -> bool:
return time.time() - self.initial_timestamp > self.max_time
class snake_case_ ( __A ):
@add_start_docstrings(lowercase_ )
def __call__( self : str , lowercase_ : torch.LongTensor , lowercase_ : torch.FloatTensor , **lowercase_ : List[str] ) -> bool:
return any(criteria(lowercase_ , lowercase_ ) for criteria in self )
@property
def __UpperCamelCase ( self : Optional[Any] ) -> Optional[int]:
for stopping_criterium in self:
if isinstance(lowercase_ , lowercase_ ):
return stopping_criterium.max_length
elif isinstance(lowercase_ , lowercase_ ):
return stopping_criterium.max_length
return None
def lowercase_ ( _lowerCamelCase : StoppingCriteriaList , _lowerCamelCase : int):
lowercase__ : Optional[int] = stopping_criteria.max_length
lowercase__ : str = deepcopy(_lowerCamelCase)
if stopping_max_length is not None and stopping_max_length != max_length:
warnings.warn("You set different `max_length` for stopping criteria and `max_length` parameter" , _lowerCamelCase)
elif stopping_max_length is None:
new_stopping_criteria.append(MaxLengthCriteria(max_length=_lowerCamelCase))
return new_stopping_criteria
| 87 | 0 |
from __future__ import annotations
import math
def a__ ( A_, A_, A_, A_, A_ ):
'''simple docstring'''
if depth < 0:
raise ValueError("""Depth cannot be less than 0""" )
if not scores:
raise ValueError("""Scores cannot be empty""" )
if depth == height:
return scores[node_index]
return (
max(
minimax(depth + 1, node_index * 2, A_, A_, A_ ), minimax(depth + 1, node_index * 2 + 1, A_, A_, A_ ), )
if is_max
else min(
minimax(depth + 1, node_index * 2, A_, A_, A_ ), minimax(depth + 1, node_index * 2 + 1, A_, A_, A_ ), )
)
def a__ ( ):
'''simple docstring'''
__magic_name__ = [90, 23, 6, 33, 21, 65, 123, 34423]
__magic_name__ = math.log(len(A_ ), 2 )
print(f'''Optimal value : {minimax(0, 0, A_, A_, A_ )}''' )
if __name__ == "__main__":
import doctest
doctest.testmod()
main()
| 88 | from typing import Dict
import numpy as np
import torch
from . import residue_constants as rc
from .tensor_utils import tensor_tree_map, tree_map
def lowercase_ ( _lowerCamelCase : Dict[str, torch.Tensor]):
lowercase__ : Any = []
lowercase__ : Optional[int] = []
lowercase__ : Tuple = []
for rt in rc.restypes:
lowercase__ : Dict = rc.restype_name_to_atomaa_names[rc.restype_atoa[rt]]
restype_atomaa_to_atomaa_list.append([(rc.atom_order[name] if name else 0) for name in atom_names])
lowercase__ : str = {name: i for i, name in enumerate(_lowerCamelCase)}
restype_atomaa_to_atomaa_list.append(
[(atom_name_to_idxaa[name] if name in atom_name_to_idxaa else 0) for name in rc.atom_types])
restype_atomaa_mask_list.append([(1.0 if name else 0.0) for name in atom_names])
# Add dummy mapping for restype 'UNK'
restype_atomaa_to_atomaa_list.append([0] * 14)
restype_atomaa_to_atomaa_list.append([0] * 37)
restype_atomaa_mask_list.append([0.0] * 14)
lowercase__ : Union[str, Any] = torch.tensor(
_lowerCamelCase , dtype=torch.intaa , device=protein["aatype"].device , )
lowercase__ : str = torch.tensor(
_lowerCamelCase , dtype=torch.intaa , device=protein["aatype"].device , )
lowercase__ : List[str] = torch.tensor(
_lowerCamelCase , dtype=torch.floataa , device=protein["aatype"].device , )
lowercase__ : str = protein["aatype"].to(torch.long)
# create the mapping for (residx, atom14) --> atom37, i.e. an array
# with shape (num_res, 14) containing the atom37 indices for this protein
lowercase__ : Dict = restype_atomaa_to_atomaa[protein_aatype]
lowercase__ : str = restype_atomaa_mask[protein_aatype]
lowercase__ : List[Any] = residx_atomaa_mask
lowercase__ : Optional[Any] = residx_atomaa_to_atomaa.long()
# create the gather indices for mapping back
lowercase__ : str = restype_atomaa_to_atomaa[protein_aatype]
lowercase__ : str = residx_atomaa_to_atomaa.long()
# create the corresponding mask
lowercase__ : Optional[Any] = torch.zeros([21, 37] , dtype=torch.floataa , device=protein["aatype"].device)
for restype, restype_letter in enumerate(rc.restypes):
lowercase__ : Tuple = rc.restype_atoa[restype_letter]
lowercase__ : List[Any] = rc.residue_atoms[restype_name]
for atom_name in atom_names:
lowercase__ : Optional[int] = rc.atom_order[atom_name]
lowercase__ : Tuple = 1
lowercase__ : Dict = restype_atomaa_mask[protein_aatype]
lowercase__ : Any = residx_atomaa_mask
return protein
def lowercase_ ( _lowerCamelCase : Dict[str, torch.Tensor]):
lowercase__ : Tuple = tree_map(lambda _lowerCamelCase: torch.tensor(_lowerCamelCase , device=batch["aatype"].device) , _lowerCamelCase , np.ndarray)
lowercase__ : List[str] = tensor_tree_map(lambda _lowerCamelCase: np.array(_lowerCamelCase) , make_atomaa_masks(_lowerCamelCase))
return out
| 87 | 0 |
'''simple docstring'''
from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available
__lowerCAmelCase = {
'''configuration_bigbird_pegasus''': [
'''BIGBIRD_PEGASUS_PRETRAINED_CONFIG_ARCHIVE_MAP''',
'''BigBirdPegasusConfig''',
'''BigBirdPegasusOnnxConfig''',
],
}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
__lowerCAmelCase = [
'''BIGBIRD_PEGASUS_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''BigBirdPegasusForCausalLM''',
'''BigBirdPegasusForConditionalGeneration''',
'''BigBirdPegasusForQuestionAnswering''',
'''BigBirdPegasusForSequenceClassification''',
'''BigBirdPegasusModel''',
'''BigBirdPegasusPreTrainedModel''',
]
if TYPE_CHECKING:
from .configuration_bigbird_pegasus import (
BIGBIRD_PEGASUS_PRETRAINED_CONFIG_ARCHIVE_MAP,
BigBirdPegasusConfig,
BigBirdPegasusOnnxConfig,
)
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_bigbird_pegasus import (
BIGBIRD_PEGASUS_PRETRAINED_MODEL_ARCHIVE_LIST,
BigBirdPegasusForCausalLM,
BigBirdPegasusForConditionalGeneration,
BigBirdPegasusForQuestionAnswering,
BigBirdPegasusForSequenceClassification,
BigBirdPegasusModel,
BigBirdPegasusPreTrainedModel,
)
else:
import sys
__lowerCAmelCase = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
| 89 | import unittest
from transformers import BigBirdConfig, is_flax_available
from transformers.testing_utils import require_flax, slow
from ...test_modeling_flax_common import FlaxModelTesterMixin, ids_tensor, random_attention_mask
if is_flax_available():
import jax
from transformers.models.big_bird.modeling_flax_big_bird import (
FlaxBigBirdForCausalLM,
FlaxBigBirdForMaskedLM,
FlaxBigBirdForMultipleChoice,
FlaxBigBirdForPreTraining,
FlaxBigBirdForQuestionAnswering,
FlaxBigBirdForSequenceClassification,
FlaxBigBirdForTokenClassification,
FlaxBigBirdModel,
)
class snake_case_ ( unittest.TestCase ):
def __init__( self : Tuple , lowercase_ : List[Any] , lowercase_ : Union[str, Any]=2 , lowercase_ : Union[str, Any]=56 , lowercase_ : Tuple=True , lowercase_ : Optional[Any]=True , lowercase_ : Optional[Any]=True , lowercase_ : int=True , lowercase_ : Any=99 , lowercase_ : int=32 , lowercase_ : str=2 , lowercase_ : Union[str, Any]=2 , lowercase_ : Dict=7 , lowercase_ : Dict="gelu_new" , lowercase_ : Tuple=0.1 , lowercase_ : List[Any]=0.1 , lowercase_ : Tuple=5_12 , lowercase_ : Optional[Any]=16 , lowercase_ : List[Any]=2 , lowercase_ : Dict=0.02 , lowercase_ : int=4 , lowercase_ : Tuple="block_sparse" , lowercase_ : Dict=True , lowercase_ : Optional[int]=False , lowercase_ : Dict=2 , lowercase_ : int=3 , ) -> Union[str, Any]:
lowercase__ : Dict = parent
lowercase__ : Dict = batch_size
lowercase__ : Tuple = seq_length
lowercase__ : Dict = is_training
lowercase__ : Dict = use_attention_mask
lowercase__ : Tuple = use_token_type_ids
lowercase__ : Optional[int] = use_labels
lowercase__ : List[Any] = vocab_size
lowercase__ : Any = hidden_size
lowercase__ : List[Any] = num_hidden_layers
lowercase__ : Union[str, Any] = num_attention_heads
lowercase__ : str = intermediate_size
lowercase__ : int = hidden_act
lowercase__ : str = hidden_dropout_prob
lowercase__ : List[str] = attention_probs_dropout_prob
lowercase__ : Optional[Any] = max_position_embeddings
lowercase__ : Union[str, Any] = type_vocab_size
lowercase__ : Dict = type_sequence_label_size
lowercase__ : Any = initializer_range
lowercase__ : List[str] = num_choices
lowercase__ : str = rescale_embeddings
lowercase__ : Optional[Any] = attention_type
lowercase__ : Optional[int] = use_bias
lowercase__ : Optional[int] = block_size
lowercase__ : str = num_random_blocks
def __UpperCamelCase ( self : str ) -> Optional[Any]:
lowercase__ : List[Any] = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size )
lowercase__ : str = None
if self.use_attention_mask:
lowercase__ : Any = random_attention_mask([self.batch_size, self.seq_length] )
lowercase__ : Optional[int] = None
if self.use_token_type_ids:
lowercase__ : Any = ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size )
lowercase__ : int = BigBirdConfig(
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 , attention_type=self.attention_type , block_size=self.block_size , num_random_blocks=self.num_random_blocks , use_bias=self.use_bias , rescale_embeddings=self.rescale_embeddings , )
return config, input_ids, token_type_ids, attention_mask
def __UpperCamelCase ( self : Union[str, Any] ) -> int:
lowercase__ : int = self.prepare_config_and_inputs()
lowercase__ , lowercase__ , lowercase__ , lowercase__ : Dict = config_and_inputs
lowercase__ : Union[str, Any] = {
"input_ids": input_ids,
"token_type_ids": token_type_ids,
"attention_mask": attention_mask,
}
return config, inputs_dict
@require_flax
class snake_case_ ( __A ,unittest.TestCase ):
__A : Optional[int] = (
(
FlaxBigBirdForCausalLM,
FlaxBigBirdModel,
FlaxBigBirdForPreTraining,
FlaxBigBirdForMaskedLM,
FlaxBigBirdForMultipleChoice,
FlaxBigBirdForQuestionAnswering,
FlaxBigBirdForSequenceClassification,
FlaxBigBirdForTokenClassification,
)
if is_flax_available()
else ()
)
__A : List[str] = False
__A : Any = False
def __UpperCamelCase ( self : List[str] ) -> List[Any]:
lowercase__ : Union[str, Any] = FlaxBigBirdModelTester(self )
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def __UpperCamelCase ( self : Optional[int] ) -> Dict:
super().test_from_pretrained_save_pretrained()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def __UpperCamelCase ( self : List[str] ) -> Any:
super().test_from_pretrained_with_no_automatic_init()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def __UpperCamelCase ( self : Tuple ) -> str:
super().test_no_automatic_init()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def __UpperCamelCase ( self : Dict ) -> Union[str, Any]:
super().test_hidden_states_output()
@slow
def __UpperCamelCase ( self : Optional[int] ) -> Tuple:
for model_class_name in self.all_model_classes:
lowercase__ : Optional[Any] = model_class_name.from_pretrained("google/bigbird-roberta-base" )
self.assertIsNotNone(lowercase_ )
def __UpperCamelCase ( self : int ) -> Optional[int]:
if self.test_attn_probs:
super().test_attention_outputs()
@slow
# copied from `test_modeling_flax_common` because it takes much longer than other models
def __UpperCamelCase ( self : str ) -> Any:
lowercase__ , lowercase__ : Dict = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
with self.subTest(model_class.__name__ ):
lowercase__ : Union[str, Any] = self._prepare_for_class(lowercase_ , lowercase_ )
lowercase__ : Optional[Any] = model_class(lowercase_ )
@jax.jit
def model_jitted(lowercase_ : Tuple , lowercase_ : int=None , **lowercase_ : Dict ):
return model(input_ids=lowercase_ , attention_mask=lowercase_ , **lowercase_ )
with self.subTest("JIT Enabled" ):
lowercase__ : int = model_jitted(**lowercase_ ).to_tuple()
with self.subTest("JIT Disabled" ):
with jax.disable_jit():
lowercase__ : Any = 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 )
def __UpperCamelCase ( self : List[Any] , lowercase_ : str , lowercase_ : Union[str, Any] , lowercase_ : Optional[int] , lowercase_ : List[Any]=1E-5 , lowercase_ : Any="outputs" , lowercase_ : List[str]=None ) -> List[Any]:
# `bigbird_block_sparse_attention` in `FlaxBigBird` returns `attention_probs = None`, while in PyTorch version,
# an effort was done to return `attention_probs` (yet to be verified).
if name.startswith("outputs.attentions" ):
return
else:
super().check_pt_flax_outputs(lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ , lowercase_ )
| 87 | 0 |
import json
import os
import tempfile
import datasets
from utils import generate_example_dataset, get_duration
__A = 5_00_00
__A = 50_00
__A , __A = os.path.split(__file__)
__A = os.path.join(RESULTS_BASEPATH, "results", RESULTS_FILENAME.replace(".py", ".json"))
@get_duration
def lowerCamelCase_ ( UpperCamelCase__ : datasets.Dataset , UpperCamelCase__ : List[str] ) -> Any:
"""simple docstring"""
for i in range(UpperCamelCase__ ):
__lowerCamelCase = dataset[i]
@get_duration
def lowerCamelCase_ ( UpperCamelCase__ : datasets.Dataset , UpperCamelCase__ : List[str] , UpperCamelCase__ : int ) -> Dict:
"""simple docstring"""
for i in range(0 , len(UpperCamelCase__ ) , UpperCamelCase__ ):
__lowerCamelCase = dataset[i : i + batch_size]
@get_duration
def lowerCamelCase_ ( UpperCamelCase__ : datasets.Dataset , UpperCamelCase__ : Optional[Any] , UpperCamelCase__ : str ) -> Optional[int]:
"""simple docstring"""
with dataset.formatted_as(type=UpperCamelCase__ ):
for i in range(UpperCamelCase__ ):
__lowerCamelCase = dataset[i]
@get_duration
def lowerCamelCase_ ( UpperCamelCase__ : datasets.Dataset , UpperCamelCase__ : List[Any] , UpperCamelCase__ : str , UpperCamelCase__ : Optional[Any] ) -> str:
"""simple docstring"""
with dataset.formatted_as(type=UpperCamelCase__ ):
for i in range(0 , UpperCamelCase__ , UpperCamelCase__ ):
__lowerCamelCase = dataset[i : i + batch_size]
def lowerCamelCase_ ( ) -> List[str]:
"""simple docstring"""
__lowerCamelCase = {'num examples': SPEED_TEST_N_EXAMPLES}
__lowerCamelCase = [
(read, {'length': SMALL_TEST}),
(read, {'length': SPEED_TEST_N_EXAMPLES}),
(read_batch, {'length': SPEED_TEST_N_EXAMPLES, 'batch_size': 10}),
(read_batch, {'length': SPEED_TEST_N_EXAMPLES, 'batch_size': 100}),
(read_batch, {'length': SPEED_TEST_N_EXAMPLES, 'batch_size': 1000}),
(read_formatted, {'type': 'numpy', 'length': SMALL_TEST}),
(read_formatted, {'type': 'pandas', 'length': SMALL_TEST}),
(read_formatted, {'type': 'torch', 'length': SMALL_TEST}),
(read_formatted, {'type': 'tensorflow', 'length': SMALL_TEST}),
(read_formatted_batch, {'type': 'numpy', 'length': SMALL_TEST, 'batch_size': 10}),
(read_formatted_batch, {'type': 'numpy', 'length': SMALL_TEST, 'batch_size': 1000}),
]
__lowerCamelCase = [
(read, {'length': SMALL_TEST}),
(read, {'length': SPEED_TEST_N_EXAMPLES}),
(read_batch, {'length': SPEED_TEST_N_EXAMPLES, 'batch_size': 10}),
(read_batch, {'length': SPEED_TEST_N_EXAMPLES, 'batch_size': 100}),
(read_batch, {'length': SPEED_TEST_N_EXAMPLES, 'batch_size': 1000}),
(read_formatted, {'type': 'numpy', 'length': SMALL_TEST}),
(read_formatted_batch, {'type': 'numpy', 'length': SMALL_TEST, 'batch_size': 10}),
(read_formatted_batch, {'type': 'numpy', 'length': SMALL_TEST, 'batch_size': 1000}),
]
with tempfile.TemporaryDirectory() as tmp_dir:
print('generating dataset' )
__lowerCamelCase = datasets.Features(
{'list': datasets.Sequence(datasets.Value('float32' ) ), 'numbers': datasets.Value('float32' )} )
__lowerCamelCase = generate_example_dataset(
os.path.join(UpperCamelCase__ , 'dataset.arrow' ) , UpperCamelCase__ , num_examples=UpperCamelCase__ , seq_shapes={'list': (100,)} , )
print('first set of iterations' )
for func, kwargs in functions:
print(func.__name__ , str(UpperCamelCase__ ) )
__lowerCamelCase = func(UpperCamelCase__ , **UpperCamelCase__ )
print('shuffling dataset' )
__lowerCamelCase = dataset.shuffle()
print('Second set of iterations (after shuffling' )
for func, kwargs in functions_shuffled:
print('shuffled ' , func.__name__ , str(UpperCamelCase__ ) )
__lowerCamelCase = func(
UpperCamelCase__ , **UpperCamelCase__ )
with open(UpperCamelCase__ , 'wb' ) as f:
f.write(json.dumps(UpperCamelCase__ ).encode('utf-8' ) )
if __name__ == "__main__": # useful to run the profiler
benchmark_iterating()
| 90 | from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_tf_available, is_torch_available
UpperCamelCase = {
'''configuration_groupvit''': [
'''GROUPVIT_PRETRAINED_CONFIG_ARCHIVE_MAP''',
'''GroupViTConfig''',
'''GroupViTOnnxConfig''',
'''GroupViTTextConfig''',
'''GroupViTVisionConfig''',
],
}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = [
'''GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''GroupViTModel''',
'''GroupViTPreTrainedModel''',
'''GroupViTTextModel''',
'''GroupViTVisionModel''',
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = [
'''TF_GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST''',
'''TFGroupViTModel''',
'''TFGroupViTPreTrainedModel''',
'''TFGroupViTTextModel''',
'''TFGroupViTVisionModel''',
]
if TYPE_CHECKING:
from .configuration_groupvit import (
GROUPVIT_PRETRAINED_CONFIG_ARCHIVE_MAP,
GroupViTConfig,
GroupViTOnnxConfig,
GroupViTTextConfig,
GroupViTVisionConfig,
)
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_groupvit import (
GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST,
GroupViTModel,
GroupViTPreTrainedModel,
GroupViTTextModel,
GroupViTVisionModel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_groupvit import (
TF_GROUPVIT_PRETRAINED_MODEL_ARCHIVE_LIST,
TFGroupViTModel,
TFGroupViTPreTrainedModel,
TFGroupViTTextModel,
TFGroupViTVisionModel,
)
else:
import sys
UpperCamelCase = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
| 87 | 0 |
"""simple docstring"""
from typing import TYPE_CHECKING
from ...file_utils import _LazyModule, is_tokenizers_available, is_torch_available
from ...utils import OptionalDependencyNotAvailable
UpperCAmelCase_ : str = {"""configuration_gpt_neox""": ["""GPT_NEOX_PRETRAINED_CONFIG_ARCHIVE_MAP""", """GPTNeoXConfig"""]}
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase_ : Dict = ["""GPTNeoXTokenizerFast"""]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCAmelCase_ : List[str] = [
"""GPT_NEOX_PRETRAINED_MODEL_ARCHIVE_LIST""",
"""GPTNeoXForCausalLM""",
"""GPTNeoXForQuestionAnswering""",
"""GPTNeoXForSequenceClassification""",
"""GPTNeoXForTokenClassification""",
"""GPTNeoXLayer""",
"""GPTNeoXModel""",
"""GPTNeoXPreTrainedModel""",
]
if TYPE_CHECKING:
from .configuration_gpt_neox import GPT_NEOX_PRETRAINED_CONFIG_ARCHIVE_MAP, GPTNeoXConfig
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_gpt_neox_fast import GPTNeoXTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_gpt_neox import (
GPT_NEOX_PRETRAINED_MODEL_ARCHIVE_LIST,
GPTNeoXForCausalLM,
GPTNeoXForQuestionAnswering,
GPTNeoXForSequenceClassification,
GPTNeoXForTokenClassification,
GPTNeoXLayer,
GPTNeoXModel,
GPTNeoXPreTrainedModel,
)
else:
import sys
UpperCAmelCase_ : Tuple = _LazyModule(__name__, globals()["""__file__"""], _import_structure, module_spec=__spec__)
| 91 | import io
import json
import fsspec
import pytest
from datasets import Dataset, DatasetDict, Features, NamedSplit, Value
from datasets.io.json import JsonDatasetReader, JsonDatasetWriter
from ..utils import assert_arrow_memory_doesnt_increase, assert_arrow_memory_increases
def lowercase_ ( _lowerCamelCase : Optional[Any] , _lowerCamelCase : int):
assert isinstance(_lowerCamelCase , _lowerCamelCase)
assert dataset.num_rows == 4
assert dataset.num_columns == 3
assert dataset.column_names == ["col_1", "col_2", "col_3"]
for feature, expected_dtype in expected_features.items():
assert dataset.features[feature].dtype == expected_dtype
@pytest.mark.parametrize("keep_in_memory" , [False, True])
def lowercase_ ( _lowerCamelCase : List[Any] , _lowerCamelCase : Any , _lowerCamelCase : str):
lowercase__ : Optional[int] = tmp_path / "cache"
lowercase__ : str = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
with assert_arrow_memory_increases() if keep_in_memory else assert_arrow_memory_doesnt_increase():
lowercase__ : Union[str, Any] = JsonDatasetReader(_lowerCamelCase , cache_dir=_lowerCamelCase , keep_in_memory=_lowerCamelCase).read()
_check_json_dataset(_lowerCamelCase , _lowerCamelCase)
@pytest.mark.parametrize(
"features" , [
None,
{"col_1": "string", "col_2": "int64", "col_3": "float64"},
{"col_1": "string", "col_2": "string", "col_3": "string"},
{"col_1": "int32", "col_2": "int32", "col_3": "int32"},
{"col_1": "float32", "col_2": "float32", "col_3": "float32"},
] , )
def lowercase_ ( _lowerCamelCase : List[str] , _lowerCamelCase : Dict , _lowerCamelCase : Dict):
lowercase__ : List[Any] = tmp_path / "cache"
lowercase__ : Union[str, Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
lowercase__ : List[Any] = features.copy() if features else default_expected_features
lowercase__ : List[Any] = (
Features({feature: Value(_lowerCamelCase) for feature, dtype in features.items()}) if features is not None else None
)
lowercase__ : Any = JsonDatasetReader(_lowerCamelCase , features=_lowerCamelCase , cache_dir=_lowerCamelCase).read()
_check_json_dataset(_lowerCamelCase , _lowerCamelCase)
@pytest.mark.parametrize(
"features" , [
None,
{"col_3": "float64", "col_1": "string", "col_2": "int64"},
] , )
def lowercase_ ( _lowerCamelCase : Any , _lowerCamelCase : Any , _lowerCamelCase : List[str]):
lowercase__ : Optional[Any] = tmp_path / "cache"
lowercase__ : Tuple = {"col_3": "float64", "col_1": "string", "col_2": "int64"}
lowercase__ : List[Any] = features.copy() if features else default_expected_features
lowercase__ : int = (
Features({feature: Value(_lowerCamelCase) for feature, dtype in features.items()}) if features is not None else None
)
lowercase__ : Any = JsonDatasetReader(_lowerCamelCase , features=_lowerCamelCase , cache_dir=_lowerCamelCase).read()
assert isinstance(_lowerCamelCase , _lowerCamelCase)
assert dataset.num_rows == 2
assert dataset.num_columns == 3
assert dataset.column_names == ["col_3", "col_1", "col_2"]
for feature, expected_dtype in expected_features.items():
assert dataset.features[feature].dtype == expected_dtype
def lowercase_ ( _lowerCamelCase : List[Any] , _lowerCamelCase : Optional[int]):
# jsonl_312_path features are {"col_3": "float64", "col_1": "string", "col_2": "int64"}
lowercase__ : Any = {"col_2": "int64", "col_3": "float64", "col_1": "string"}
lowercase__ : str = features.copy()
lowercase__ : str = (
Features({feature: Value(_lowerCamelCase) for feature, dtype in features.items()}) if features is not None else None
)
lowercase__ : Optional[int] = tmp_path / "cache"
lowercase__ : Any = JsonDatasetReader(_lowerCamelCase , features=_lowerCamelCase , cache_dir=_lowerCamelCase).read()
assert isinstance(_lowerCamelCase , _lowerCamelCase)
assert dataset.num_rows == 2
assert dataset.num_columns == 3
assert dataset.column_names == ["col_2", "col_3", "col_1"]
for feature, expected_dtype in expected_features.items():
assert dataset.features[feature].dtype == expected_dtype
@pytest.mark.parametrize("split" , [None, NamedSplit("train"), "train", "test"])
def lowercase_ ( _lowerCamelCase : Dict , _lowerCamelCase : Optional[int] , _lowerCamelCase : List[str]):
lowercase__ : Union[str, Any] = tmp_path / "cache"
lowercase__ : List[Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
lowercase__ : Union[str, Any] = JsonDatasetReader(_lowerCamelCase , cache_dir=_lowerCamelCase , split=_lowerCamelCase).read()
_check_json_dataset(_lowerCamelCase , _lowerCamelCase)
assert dataset.split == split if split else "train"
@pytest.mark.parametrize("path_type" , [str, list])
def lowercase_ ( _lowerCamelCase : Union[str, Any] , _lowerCamelCase : str , _lowerCamelCase : int):
if issubclass(_lowerCamelCase , _lowerCamelCase):
lowercase__ : Tuple = jsonl_path
elif issubclass(_lowerCamelCase , _lowerCamelCase):
lowercase__ : str = [jsonl_path]
lowercase__ : str = tmp_path / "cache"
lowercase__ : Optional[Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
lowercase__ : Tuple = JsonDatasetReader(_lowerCamelCase , cache_dir=_lowerCamelCase).read()
_check_json_dataset(_lowerCamelCase , _lowerCamelCase)
def lowercase_ ( _lowerCamelCase : List[Any] , _lowerCamelCase : Optional[Any] , _lowerCamelCase : Optional[int]=("train",)):
assert isinstance(_lowerCamelCase , _lowerCamelCase)
for split in splits:
lowercase__ : Optional[Any] = dataset_dict[split]
assert dataset.num_rows == 4
assert dataset.num_columns == 3
assert dataset.column_names == ["col_1", "col_2", "col_3"]
for feature, expected_dtype in expected_features.items():
assert dataset.features[feature].dtype == expected_dtype
@pytest.mark.parametrize("keep_in_memory" , [False, True])
def lowercase_ ( _lowerCamelCase : Union[str, Any] , _lowerCamelCase : str , _lowerCamelCase : str):
lowercase__ : List[str] = tmp_path / "cache"
lowercase__ : str = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
with assert_arrow_memory_increases() if keep_in_memory else assert_arrow_memory_doesnt_increase():
lowercase__ : Optional[Any] = JsonDatasetReader({"train": jsonl_path} , cache_dir=_lowerCamelCase , keep_in_memory=_lowerCamelCase).read()
_check_json_datasetdict(_lowerCamelCase , _lowerCamelCase)
@pytest.mark.parametrize(
"features" , [
None,
{"col_1": "string", "col_2": "int64", "col_3": "float64"},
{"col_1": "string", "col_2": "string", "col_3": "string"},
{"col_1": "int32", "col_2": "int32", "col_3": "int32"},
{"col_1": "float32", "col_2": "float32", "col_3": "float32"},
] , )
def lowercase_ ( _lowerCamelCase : Any , _lowerCamelCase : List[str] , _lowerCamelCase : List[str]):
lowercase__ : str = tmp_path / "cache"
lowercase__ : Tuple = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
lowercase__ : Tuple = features.copy() if features else default_expected_features
lowercase__ : Union[str, Any] = (
Features({feature: Value(_lowerCamelCase) for feature, dtype in features.items()}) if features is not None else None
)
lowercase__ : Tuple = JsonDatasetReader({"train": jsonl_path} , features=_lowerCamelCase , cache_dir=_lowerCamelCase).read()
_check_json_datasetdict(_lowerCamelCase , _lowerCamelCase)
@pytest.mark.parametrize("split" , [None, NamedSplit("train"), "train", "test"])
def lowercase_ ( _lowerCamelCase : str , _lowerCamelCase : Dict , _lowerCamelCase : Tuple):
if split:
lowercase__ : Tuple = {split: jsonl_path}
else:
lowercase__ : Tuple = "train"
lowercase__ : int = {"train": jsonl_path, "test": jsonl_path}
lowercase__ : Dict = tmp_path / "cache"
lowercase__ : Union[str, Any] = {"col_1": "string", "col_2": "int64", "col_3": "float64"}
lowercase__ : Union[str, Any] = JsonDatasetReader(_lowerCamelCase , cache_dir=_lowerCamelCase).read()
_check_json_datasetdict(_lowerCamelCase , _lowerCamelCase , splits=list(path.keys()))
assert all(dataset[split].split == split for split in path.keys())
def lowercase_ ( _lowerCamelCase : Union[str, Any]):
return json.load(_lowerCamelCase)
def lowercase_ ( _lowerCamelCase : Optional[int]):
return [json.loads(_lowerCamelCase) for line in buffer]
class snake_case_ :
@pytest.mark.parametrize("lines, load_json_function" , [(True, load_json_lines), (False, load_json)] )
def __UpperCamelCase ( self : List[Any] , lowercase_ : Any , lowercase_ : Optional[Any] , lowercase_ : Dict ) -> Optional[Any]:
with io.BytesIO() as buffer:
JsonDatasetWriter(lowercase_ , lowercase_ , lines=lowercase_ ).write()
buffer.seek(0 )
lowercase__ : Optional[int] = load_json_function(lowercase_ )
assert isinstance(lowercase_ , lowercase_ )
assert isinstance(exported_content[0] , lowercase_ )
assert len(lowercase_ ) == 10
@pytest.mark.parametrize(
"orient, container, keys, len_at" , [
("records", list, {"tokens", "labels", "answers", "id"}, None),
("split", dict, {"columns", "data"}, "data"),
("index", dict, set("0123456789" ), None),
("columns", dict, {"tokens", "labels", "answers", "id"}, "tokens"),
("values", list, None, None),
("table", dict, {"schema", "data"}, "data"),
] , )
def __UpperCamelCase ( self : str , lowercase_ : int , lowercase_ : str , lowercase_ : Union[str, Any] , lowercase_ : Dict , lowercase_ : Tuple ) -> List[str]:
with io.BytesIO() as buffer:
JsonDatasetWriter(lowercase_ , lowercase_ , lines=lowercase_ , orient=lowercase_ ).write()
buffer.seek(0 )
lowercase__ : str = load_json(lowercase_ )
assert isinstance(lowercase_ , lowercase_ )
if keys:
if container is dict:
assert exported_content.keys() == keys
else:
assert exported_content[0].keys() == keys
else:
assert not hasattr(lowercase_ , "keys" ) and not hasattr(exported_content[0] , "keys" )
if len_at:
assert len(exported_content[len_at] ) == 10
else:
assert len(lowercase_ ) == 10
@pytest.mark.parametrize("lines, load_json_function" , [(True, load_json_lines), (False, load_json)] )
def __UpperCamelCase ( self : List[Any] , lowercase_ : int , lowercase_ : Optional[Any] , lowercase_ : Dict ) -> Optional[int]:
with io.BytesIO() as buffer:
JsonDatasetWriter(lowercase_ , lowercase_ , lines=lowercase_ , num_proc=2 ).write()
buffer.seek(0 )
lowercase__ : str = load_json_function(lowercase_ )
assert isinstance(lowercase_ , lowercase_ )
assert isinstance(exported_content[0] , lowercase_ )
assert len(lowercase_ ) == 10
@pytest.mark.parametrize(
"orient, container, keys, len_at" , [
("records", list, {"tokens", "labels", "answers", "id"}, None),
("split", dict, {"columns", "data"}, "data"),
("index", dict, set("0123456789" ), None),
("columns", dict, {"tokens", "labels", "answers", "id"}, "tokens"),
("values", list, None, None),
("table", dict, {"schema", "data"}, "data"),
] , )
def __UpperCamelCase ( self : Union[str, Any] , lowercase_ : Dict , lowercase_ : Dict , lowercase_ : Optional[int] , lowercase_ : Optional[Any] , lowercase_ : Dict ) -> Any:
with io.BytesIO() as buffer:
JsonDatasetWriter(lowercase_ , lowercase_ , lines=lowercase_ , orient=lowercase_ , num_proc=2 ).write()
buffer.seek(0 )
lowercase__ : Optional[Any] = load_json(lowercase_ )
assert isinstance(lowercase_ , lowercase_ )
if keys:
if container is dict:
assert exported_content.keys() == keys
else:
assert exported_content[0].keys() == keys
else:
assert not hasattr(lowercase_ , "keys" ) and not hasattr(exported_content[0] , "keys" )
if len_at:
assert len(exported_content[len_at] ) == 10
else:
assert len(lowercase_ ) == 10
def __UpperCamelCase ( self : Dict , lowercase_ : List[str] ) -> str:
with pytest.raises(lowercase_ ):
with io.BytesIO() as buffer:
JsonDatasetWriter(lowercase_ , lowercase_ , num_proc=0 )
@pytest.mark.parametrize("compression, extension" , [("gzip", "gz"), ("bz2", "bz2"), ("xz", "xz")] )
def __UpperCamelCase ( self : List[Any] , lowercase_ : Tuple , lowercase_ : List[str] , lowercase_ : Optional[Any] , lowercase_ : str , lowercase_ : List[Any] ) -> Any:
lowercase__ : Dict = tmp_path_factory.mktemp("data" ) / F'''test.json.{extension}'''
lowercase__ : Optional[int] = str(shared_datadir / F'''test_file.json.{extension}''' )
JsonDatasetWriter(lowercase_ , lowercase_ , compression=lowercase_ ).write()
with fsspec.open(lowercase_ , "rb" , compression="infer" ) as f:
lowercase__ : List[Any] = f.read()
with fsspec.open(lowercase_ , "rb" , compression="infer" ) as f:
lowercase__ : str = f.read()
assert exported_content == original_content
| 87 | 0 |
import os
from dataclasses import dataclass, field
from io import BytesIO
from typing import TYPE_CHECKING, Any, ClassVar, Dict, Optional, Union
import numpy as np
import pyarrow as pa
from .. import config
from ..download.streaming_download_manager import xopen, xsplitext
from ..table import array_cast
from ..utils.py_utils import no_op_if_value_is_null, string_to_dict
if TYPE_CHECKING:
from .features import FeatureType
UpperCamelCase__ , UpperCamelCase__ , UpperCamelCase__ = False, False, False
@dataclass
class a__ :
_a : Optional[int] = None
_a : bool = True
_a : bool = True
_a : Optional[str] = None
# Automatically constructed
_a : ClassVar[str] = "dict"
_a : ClassVar[Any] = pa.struct({"""bytes""": pa.binary(), """path""": pa.string()} )
_a : str = field(default="""Audio""" , init=snake_case__ , repr=snake_case__ )
def __call__( self ):
"""simple docstring"""
return self.pa_type
def __SCREAMING_SNAKE_CASE( self , _A ):
"""simple docstring"""
try:
import soundfile as sf # soundfile is a dependency of librosa, needed to decode audio files.
except ImportError as err:
raise ImportError("To support encoding audio data, please install 'soundfile'." ) from err
if isinstance(_A , _A ):
return {"bytes": None, "path": value}
elif isinstance(_A , _A ):
return {"bytes": value, "path": None}
elif "array" in value:
# convert the audio array to wav bytes
__lowerCAmelCase = BytesIO()
sf.write(_A , value["array"] , value["sampling_rate"] , format="wav" )
return {"bytes": buffer.getvalue(), "path": None}
elif value.get("path" ) is not None and os.path.isfile(value["path"] ):
# we set "bytes": None to not duplicate the data if they're already available locally
if value["path"].endswith("pcm" ):
# "PCM" only has raw audio bytes
if value.get("sampling_rate" ) is None:
# At least, If you want to convert "PCM-byte" to "WAV-byte", you have to know sampling rate
raise KeyError("To use PCM files, please specify a 'sampling_rate' in Audio object" )
if value.get("bytes" ):
# If we already had PCM-byte, we don`t have to make "read file, make bytes" (just use it!)
__lowerCAmelCase = np.frombuffer(value["bytes"] , dtype=np.intaa ).astype(np.floataa ) / 3_2_7_6_7
else:
__lowerCAmelCase = np.memmap(value["path"] , dtype="h" , mode="r" ).astype(np.floataa ) / 3_2_7_6_7
__lowerCAmelCase = BytesIO(bytes() )
sf.write(_A , _A , value["sampling_rate"] , format="wav" )
return {"bytes": buffer.getvalue(), "path": None}
else:
return {"bytes": None, "path": value.get("path" )}
elif value.get("bytes" ) is not None or value.get("path" ) is not None:
# store the audio bytes, and path is used to infer the audio format using the file extension
return {"bytes": value.get("bytes" ), "path": value.get("path" )}
else:
raise ValueError(
f"""An audio sample should have one of 'path' or 'bytes' but they are missing or None in {value}.""" )
def __SCREAMING_SNAKE_CASE( self , _A , _A = None ):
"""simple docstring"""
if not self.decode:
raise RuntimeError("Decoding is disabled for this feature. Please use Audio(decode=True) instead." )
__lowerCAmelCase , __lowerCAmelCase = (value["path"], BytesIO(value["bytes"] )) if value["bytes"] is not None else (value["path"], None)
if path is None and file is None:
raise ValueError(f"""An audio sample should have one of 'path' or 'bytes' but both are None in {value}.""" )
try:
import librosa
import soundfile as sf
except ImportError as err:
raise ImportError("To support decoding audio files, please install 'librosa' and 'soundfile'." ) from err
__lowerCAmelCase = xsplitext(_A )[1][1:].lower() if path is not None else None
if not config.IS_OPUS_SUPPORTED and audio_format == "opus":
raise RuntimeError(
"Decoding 'opus' files requires system library 'libsndfile'>=1.0.31, "
"You can try to update `soundfile` python library: `pip install \"soundfile>=0.12.1\"`. " )
elif not config.IS_MP3_SUPPORTED and audio_format == "mp3":
raise RuntimeError(
"Decoding 'mp3' files requires system library 'libsndfile'>=1.1.0, "
"You can try to update `soundfile` python library: `pip install \"soundfile>=0.12.1\"`. " )
if file is None:
__lowerCAmelCase = token_per_repo_id or {}
__lowerCAmelCase = path.split("::" )[-1]
try:
__lowerCAmelCase = string_to_dict(_A , config.HUB_DATASETS_URL )["repo_id"]
__lowerCAmelCase = token_per_repo_id[repo_id]
except (ValueError, KeyError):
__lowerCAmelCase = None
with xopen(_A , "rb" , use_auth_token=_A ) as f:
__lowerCAmelCase , __lowerCAmelCase = sf.read(_A )
else:
__lowerCAmelCase , __lowerCAmelCase = sf.read(_A )
__lowerCAmelCase = array.T
if self.mono:
__lowerCAmelCase = librosa.to_mono(_A )
if self.sampling_rate and self.sampling_rate != sampling_rate:
__lowerCAmelCase = librosa.resample(_A , orig_sr=_A , target_sr=self.sampling_rate )
__lowerCAmelCase = self.sampling_rate
return {"path": path, "array": array, "sampling_rate": sampling_rate}
def __SCREAMING_SNAKE_CASE( self ):
"""simple docstring"""
from .features import Value
if self.decode:
raise ValueError("Cannot flatten a decoded Audio feature." )
return {
"bytes": Value("binary" ),
"path": Value("string" ),
}
def __SCREAMING_SNAKE_CASE( self , _A ):
"""simple docstring"""
if pa.types.is_string(storage.type ):
__lowerCAmelCase = pa.array([None] * len(_A ) , type=pa.binary() )
__lowerCAmelCase = pa.StructArray.from_arrays([bytes_array, storage] , ["bytes", "path"] , mask=storage.is_null() )
elif pa.types.is_binary(storage.type ):
__lowerCAmelCase = pa.array([None] * len(_A ) , type=pa.string() )
__lowerCAmelCase = pa.StructArray.from_arrays([storage, path_array] , ["bytes", "path"] , mask=storage.is_null() )
elif pa.types.is_struct(storage.type ) and storage.type.get_all_field_indices("array" ):
__lowerCAmelCase = pa.array([Audio().encode_example(_A ) if x is not None else None for x in storage.to_pylist()] )
elif pa.types.is_struct(storage.type ):
if storage.type.get_field_index("bytes" ) >= 0:
__lowerCAmelCase = storage.field("bytes" )
else:
__lowerCAmelCase = pa.array([None] * len(_A ) , type=pa.binary() )
if storage.type.get_field_index("path" ) >= 0:
__lowerCAmelCase = storage.field("path" )
else:
__lowerCAmelCase = pa.array([None] * len(_A ) , type=pa.string() )
__lowerCAmelCase = pa.StructArray.from_arrays([bytes_array, path_array] , ["bytes", "path"] , mask=storage.is_null() )
return array_cast(_A , self.pa_type )
def __SCREAMING_SNAKE_CASE( self , _A ):
"""simple docstring"""
@no_op_if_value_is_null
def path_to_bytes(_A ):
with xopen(_A , "rb" ) as f:
__lowerCAmelCase = f.read()
return bytes_
__lowerCAmelCase = pa.array(
[
(path_to_bytes(x["path"] ) if x["bytes"] is None else x["bytes"]) if x is not None else None
for x in storage.to_pylist()
] , type=pa.binary() , )
__lowerCAmelCase = pa.array(
[os.path.basename(_A ) if path is not None else None for path in storage.field("path" ).to_pylist()] , type=pa.string() , )
__lowerCAmelCase = pa.StructArray.from_arrays([bytes_array, path_array] , ["bytes", "path"] , mask=bytes_array.is_null() )
return array_cast(_A , self.pa_type )
| 92 | import warnings
from typing import List, Optional, Union
from ...processing_utils import ProcessorMixin
from ...tokenization_utils_base import BatchEncoding, PaddingStrategy, PreTokenizedInput, TextInput, TruncationStrategy
from ...utils import TensorType
class snake_case_ ( __A ):
__A : Optional[Any] = ["image_processor", "tokenizer"]
__A : Tuple = "LayoutLMv3ImageProcessor"
__A : List[Any] = ("LayoutLMv3Tokenizer", "LayoutLMv3TokenizerFast")
def __init__( self : Union[str, Any] , lowercase_ : int=None , lowercase_ : str=None , **lowercase_ : Optional[Any] ) -> Optional[int]:
lowercase__ : Union[str, Any] = 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_ , )
lowercase__ : Optional[int] = kwargs.pop("feature_extractor" )
lowercase__ : int = 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 : Dict , lowercase_ : Optional[Any] , lowercase_ : Union[TextInput, PreTokenizedInput, List[TextInput], List[PreTokenizedInput]] = None , lowercase_ : Optional[Union[PreTokenizedInput, List[PreTokenizedInput]]] = None , lowercase_ : Union[List[List[int]], List[List[List[int]]]] = None , lowercase_ : Optional[Union[List[int], List[List[int]]]] = None , lowercase_ : bool = True , lowercase_ : Union[bool, str, PaddingStrategy] = False , lowercase_ : Union[bool, str, TruncationStrategy] = None , lowercase_ : Optional[int] = None , lowercase_ : int = 0 , lowercase_ : Optional[int] = None , lowercase_ : Optional[bool] = None , lowercase_ : Optional[bool] = None , lowercase_ : bool = False , lowercase_ : bool = False , lowercase_ : bool = False , lowercase_ : bool = False , lowercase_ : bool = True , lowercase_ : Optional[Union[str, TensorType]] = None , **lowercase_ : Dict , ) -> BatchEncoding:
# verify input
if self.image_processor.apply_ocr and (boxes is not None):
raise ValueError(
"You cannot provide bounding boxes if you initialized the image processor with apply_ocr set to True." )
if self.image_processor.apply_ocr and (word_labels is not None):
raise ValueError(
"You cannot provide word labels if you initialized the image processor with apply_ocr set to True." )
# first, apply the image processor
lowercase__ : Union[str, Any] = self.image_processor(images=lowercase_ , return_tensors=lowercase_ )
# second, apply the tokenizer
if text is not None and self.image_processor.apply_ocr and text_pair is None:
if isinstance(lowercase_ , lowercase_ ):
lowercase__ : Optional[Any] = [text] # add batch dimension (as the image processor always adds a batch dimension)
lowercase__ : Any = features["words"]
lowercase__ : Tuple = self.tokenizer(
text=text if text is not None else features["words"] , text_pair=text_pair if text_pair is not None else None , boxes=boxes if boxes is not None else features["boxes"] , word_labels=lowercase_ , add_special_tokens=lowercase_ , padding=lowercase_ , truncation=lowercase_ , max_length=lowercase_ , stride=lowercase_ , pad_to_multiple_of=lowercase_ , return_token_type_ids=lowercase_ , return_attention_mask=lowercase_ , return_overflowing_tokens=lowercase_ , return_special_tokens_mask=lowercase_ , return_offsets_mapping=lowercase_ , return_length=lowercase_ , verbose=lowercase_ , return_tensors=lowercase_ , **lowercase_ , )
# add pixel values
lowercase__ : Optional[int] = features.pop("pixel_values" )
if return_overflowing_tokens is True:
lowercase__ : Dict = self.get_overflowing_images(lowercase_ , encoded_inputs["overflow_to_sample_mapping"] )
lowercase__ : str = images
return encoded_inputs
def __UpperCamelCase ( self : List[Any] , lowercase_ : Tuple , lowercase_ : List[Any] ) -> Dict:
# in case there's an overflow, ensure each `input_ids` sample is mapped to its corresponding image
lowercase__ : Tuple = []
for sample_idx in overflow_to_sample_mapping:
images_with_overflow.append(images[sample_idx] )
if len(lowercase_ ) != len(lowercase_ ):
raise ValueError(
"Expected length of images to be the same as the length of `overflow_to_sample_mapping`, but got"
F''' {len(lowercase_ )} and {len(lowercase_ )}''' )
return images_with_overflow
def __UpperCamelCase ( self : int , *lowercase_ : Union[str, Any] , **lowercase_ : List[str] ) -> Union[str, Any]:
return self.tokenizer.batch_decode(*lowercase_ , **lowercase_ )
def __UpperCamelCase ( self : Union[str, Any] , *lowercase_ : str , **lowercase_ : int ) -> Dict:
return self.tokenizer.decode(*lowercase_ , **lowercase_ )
@property
def __UpperCamelCase ( self : Any ) -> Any:
return ["input_ids", "bbox", "attention_mask", "pixel_values"]
@property
def __UpperCamelCase ( self : Optional[int] ) -> Optional[Any]:
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 : List[Any] ) -> Tuple:
warnings.warn(
"`feature_extractor` is deprecated and will be removed in v5. Use `image_processor` instead." , lowercase_ , )
return self.image_processor
| 87 | 0 |
'''simple docstring'''
import copy
import os
from typing import Union
from ...configuration_utils import PretrainedConfig
from ...utils import logging
_lowercase : Union[str, Any] = logging.get_logger(__name__)
_lowercase : Dict = {
"microsoft/git-base": "https://huggingface.co/microsoft/git-base/resolve/main/config.json",
}
class lowerCAmelCase__ ( lowerCamelCase_ ):
lowerCAmelCase_ = '''git_vision_model'''
def __init__( self , __SCREAMING_SNAKE_CASE=7_68 , __SCREAMING_SNAKE_CASE=30_72 , __SCREAMING_SNAKE_CASE=12 , __SCREAMING_SNAKE_CASE=12 , __SCREAMING_SNAKE_CASE=3 , __SCREAMING_SNAKE_CASE=2_24 , __SCREAMING_SNAKE_CASE=16 , __SCREAMING_SNAKE_CASE="quick_gelu" , __SCREAMING_SNAKE_CASE=1E-5 , __SCREAMING_SNAKE_CASE=0.0 , __SCREAMING_SNAKE_CASE=0.02 , **__SCREAMING_SNAKE_CASE , ):
"""simple docstring"""
super().__init__(**__SCREAMING_SNAKE_CASE )
lowercase_ : Any = hidden_size
lowercase_ : Any = intermediate_size
lowercase_ : Any = num_hidden_layers
lowercase_ : Tuple = num_attention_heads
lowercase_ : Union[str, Any] = num_channels
lowercase_ : Tuple = patch_size
lowercase_ : Union[str, Any] = image_size
lowercase_ : int = initializer_range
lowercase_ : Optional[Any] = attention_dropout
lowercase_ : List[str] = layer_norm_eps
lowercase_ : List[str] = hidden_act
@classmethod
def _snake_case ( cls , __SCREAMING_SNAKE_CASE , **__SCREAMING_SNAKE_CASE ):
"""simple docstring"""
cls._set_token_in_kwargs(__SCREAMING_SNAKE_CASE )
lowercase_ , lowercase_ : Union[str, Any] = cls.get_config_dict(__SCREAMING_SNAKE_CASE , **__SCREAMING_SNAKE_CASE )
# get the vision config dict if we are loading from GITConfig
if config_dict.get('''model_type''' ) == "git":
lowercase_ : Optional[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(__SCREAMING_SNAKE_CASE , **__SCREAMING_SNAKE_CASE )
class lowerCAmelCase__ ( lowerCamelCase_ ):
lowerCAmelCase_ = '''git'''
def __init__( self , __SCREAMING_SNAKE_CASE=None , __SCREAMING_SNAKE_CASE=3_05_22 , __SCREAMING_SNAKE_CASE=7_68 , __SCREAMING_SNAKE_CASE=6 , __SCREAMING_SNAKE_CASE=12 , __SCREAMING_SNAKE_CASE=30_72 , __SCREAMING_SNAKE_CASE="gelu" , __SCREAMING_SNAKE_CASE=0.1 , __SCREAMING_SNAKE_CASE=0.1 , __SCREAMING_SNAKE_CASE=10_24 , __SCREAMING_SNAKE_CASE=0.02 , __SCREAMING_SNAKE_CASE=1E-1_2 , __SCREAMING_SNAKE_CASE=0 , __SCREAMING_SNAKE_CASE="absolute" , __SCREAMING_SNAKE_CASE=True , __SCREAMING_SNAKE_CASE=False , __SCREAMING_SNAKE_CASE=1_01 , __SCREAMING_SNAKE_CASE=1_02 , __SCREAMING_SNAKE_CASE=None , **__SCREAMING_SNAKE_CASE , ):
"""simple docstring"""
super().__init__(bos_token_id=__SCREAMING_SNAKE_CASE , eos_token_id=__SCREAMING_SNAKE_CASE , pad_token_id=__SCREAMING_SNAKE_CASE , **__SCREAMING_SNAKE_CASE )
if vision_config is None:
lowercase_ : str = {}
logger.info('''vision_config is None. initializing the GitVisionConfig with default values.''' )
lowercase_ : List[Any] = GitVisionConfig(**__SCREAMING_SNAKE_CASE )
lowercase_ : Dict = vocab_size
lowercase_ : int = hidden_size
lowercase_ : Tuple = num_hidden_layers
lowercase_ : int = num_attention_heads
lowercase_ : List[str] = hidden_act
lowercase_ : Optional[int] = intermediate_size
lowercase_ : Optional[int] = hidden_dropout_prob
lowercase_ : Optional[Any] = attention_probs_dropout_prob
lowercase_ : str = max_position_embeddings
lowercase_ : Tuple = initializer_range
lowercase_ : List[str] = layer_norm_eps
lowercase_ : int = position_embedding_type
lowercase_ : Dict = use_cache
lowercase_ : List[str] = tie_word_embeddings
lowercase_ : Union[str, Any] = num_image_with_embedding
lowercase_ : int = bos_token_id
lowercase_ : int = eos_token_id
def _snake_case ( self ):
"""simple docstring"""
lowercase_ : str = copy.deepcopy(self.__dict__ )
lowercase_ : Optional[int] = self.vision_config.to_dict()
lowercase_ : List[str] = self.__class__.model_type
return output
| 93 | from typing import Dict, List, Optional, Union
import numpy as np
from ...image_processing_utils import BaseImageProcessor, BatchFeature, get_size_dict
from ...image_transforms import (
center_crop,
convert_to_rgb,
get_resize_output_image_size,
normalize,
rescale,
resize,
to_channel_dimension_format,
)
from ...image_utils import (
OPENAI_CLIP_MEAN,
OPENAI_CLIP_STD,
ChannelDimension,
ImageInput,
PILImageResampling,
make_list_of_images,
to_numpy_array,
valid_images,
)
from ...utils import TensorType, is_vision_available, logging
UpperCamelCase = logging.get_logger(__name__)
if is_vision_available():
import PIL
class snake_case_ ( __A ):
__A : str = ["pixel_values"]
def __init__( self : int , lowercase_ : bool = True , lowercase_ : Dict[str, int] = None , lowercase_ : PILImageResampling = PILImageResampling.BICUBIC , lowercase_ : bool = True , lowercase_ : Dict[str, int] = None , lowercase_ : bool = True , lowercase_ : Union[int, float] = 1 / 2_55 , lowercase_ : bool = True , lowercase_ : Optional[Union[float, List[float]]] = None , lowercase_ : Optional[Union[float, List[float]]] = None , lowercase_ : bool = True , **lowercase_ : Union[str, Any] , ) -> None:
super().__init__(**lowercase_ )
lowercase__ : Tuple = size if size is not None else {"shortest_edge": 2_24}
lowercase__ : Tuple = get_size_dict(lowercase_ , default_to_square=lowercase_ )
lowercase__ : List[str] = crop_size if crop_size is not None else {"height": 2_24, "width": 2_24}
lowercase__ : Tuple = get_size_dict(lowercase_ , default_to_square=lowercase_ , param_name="crop_size" )
lowercase__ : Dict = do_resize
lowercase__ : List[Any] = size
lowercase__ : int = resample
lowercase__ : Union[str, Any] = do_center_crop
lowercase__ : Optional[int] = crop_size
lowercase__ : List[str] = do_rescale
lowercase__ : int = rescale_factor
lowercase__ : List[Any] = do_normalize
lowercase__ : Union[str, Any] = image_mean if image_mean is not None else OPENAI_CLIP_MEAN
lowercase__ : str = image_std if image_std is not None else OPENAI_CLIP_STD
lowercase__ : Dict = do_convert_rgb
def __UpperCamelCase ( self : Optional[Any] , lowercase_ : np.ndarray , lowercase_ : Dict[str, int] , lowercase_ : PILImageResampling = PILImageResampling.BICUBIC , lowercase_ : Optional[Union[str, ChannelDimension]] = None , **lowercase_ : Union[str, Any] , ) -> np.ndarray:
lowercase__ : str = get_size_dict(lowercase_ , default_to_square=lowercase_ )
if "shortest_edge" not in size:
raise ValueError(F'''The `size` parameter must contain the key `shortest_edge`. Got {size.keys()}''' )
lowercase__ : Dict = get_resize_output_image_size(lowercase_ , size=size["shortest_edge"] , default_to_square=lowercase_ )
return resize(lowercase_ , size=lowercase_ , resample=lowercase_ , data_format=lowercase_ , **lowercase_ )
def __UpperCamelCase ( self : int , lowercase_ : np.ndarray , lowercase_ : Dict[str, int] , lowercase_ : Optional[Union[str, ChannelDimension]] = None , **lowercase_ : int , ) -> np.ndarray:
lowercase__ : Optional[Any] = get_size_dict(lowercase_ )
if "height" not in size or "width" not in size:
raise ValueError(F'''The `size` parameter must contain the keys (height, width). Got {size.keys()}''' )
return center_crop(lowercase_ , size=(size["height"], size["width"]) , data_format=lowercase_ , **lowercase_ )
def __UpperCamelCase ( self : Optional[Any] , lowercase_ : np.ndarray , lowercase_ : Union[int, float] , lowercase_ : Optional[Union[str, ChannelDimension]] = None , **lowercase_ : Optional[Any] , ) -> Any:
return rescale(lowercase_ , scale=lowercase_ , data_format=lowercase_ , **lowercase_ )
def __UpperCamelCase ( self : str , lowercase_ : np.ndarray , lowercase_ : Union[float, List[float]] , lowercase_ : Union[float, List[float]] , lowercase_ : Optional[Union[str, ChannelDimension]] = None , **lowercase_ : str , ) -> np.ndarray:
return normalize(lowercase_ , mean=lowercase_ , std=lowercase_ , data_format=lowercase_ , **lowercase_ )
def __UpperCamelCase ( self : Optional[Any] , lowercase_ : ImageInput , lowercase_ : bool = None , lowercase_ : Dict[str, int] = None , lowercase_ : PILImageResampling = None , lowercase_ : bool = None , lowercase_ : int = None , lowercase_ : bool = None , lowercase_ : float = None , lowercase_ : bool = None , lowercase_ : Optional[Union[float, List[float]]] = None , lowercase_ : Optional[Union[float, List[float]]] = None , lowercase_ : bool = None , lowercase_ : Optional[Union[str, TensorType]] = None , lowercase_ : Optional[ChannelDimension] = ChannelDimension.FIRST , **lowercase_ : Union[str, Any] , ) -> PIL.Image.Image:
lowercase__ : int = do_resize if do_resize is not None else self.do_resize
lowercase__ : Dict = size if size is not None else self.size
lowercase__ : List[Any] = get_size_dict(lowercase_ , param_name="size" , default_to_square=lowercase_ )
lowercase__ : Dict = resample if resample is not None else self.resample
lowercase__ : int = do_center_crop if do_center_crop is not None else self.do_center_crop
lowercase__ : Dict = crop_size if crop_size is not None else self.crop_size
lowercase__ : List[str] = get_size_dict(lowercase_ , param_name="crop_size" , default_to_square=lowercase_ )
lowercase__ : int = do_rescale if do_rescale is not None else self.do_rescale
lowercase__ : Dict = rescale_factor if rescale_factor is not None else self.rescale_factor
lowercase__ : Union[str, Any] = do_normalize if do_normalize is not None else self.do_normalize
lowercase__ : int = image_mean if image_mean is not None else self.image_mean
lowercase__ : List[str] = image_std if image_std is not None else self.image_std
lowercase__ : Union[str, Any] = do_convert_rgb if do_convert_rgb is not None else self.do_convert_rgb
lowercase__ : 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." )
if do_center_crop and crop_size is None:
raise ValueError("Crop size must be specified if do_center_crop is True." )
if do_rescale and rescale_factor is None:
raise ValueError("Rescale factor must be specified if do_rescale is True." )
if do_normalize and (image_mean is None or image_std is None):
raise ValueError("Image mean and std must be specified if do_normalize is True." )
# PIL RGBA images are converted to RGB
if do_convert_rgb:
lowercase__ : Dict = [convert_to_rgb(lowercase_ ) for image in images]
# All transformations expect numpy arrays.
lowercase__ : Optional[Any] = [to_numpy_array(lowercase_ ) for image in images]
if do_resize:
lowercase__ : List[Any] = [self.resize(image=lowercase_ , size=lowercase_ , resample=lowercase_ ) for image in images]
if do_center_crop:
lowercase__ : int = [self.center_crop(image=lowercase_ , size=lowercase_ ) for image in images]
if do_rescale:
lowercase__ : str = [self.rescale(image=lowercase_ , scale=lowercase_ ) for image in images]
if do_normalize:
lowercase__ : Optional[int] = [self.normalize(image=lowercase_ , mean=lowercase_ , std=lowercase_ ) for image in images]
lowercase__ : Optional[Any] = [to_channel_dimension_format(lowercase_ , lowercase_ ) for image in images]
lowercase__ : List[str] = {"pixel_values": images}
return BatchFeature(data=lowercase_ , tensor_type=lowercase_ )
| 87 | 0 |
import itertools
from dataclasses import dataclass
from typing import List, Optional
import pyarrow as pa
import pyarrow.parquet as pq
import datasets
from datasets.table import table_cast
snake_case : List[Any] = datasets.utils.logging.get_logger(__name__)
@dataclass
class _snake_case ( datasets.BuilderConfig ):
SCREAMING_SNAKE_CASE__ = 1_0000
SCREAMING_SNAKE_CASE__ = None
SCREAMING_SNAKE_CASE__ = None
class _snake_case ( datasets.ArrowBasedBuilder ):
SCREAMING_SNAKE_CASE__ = ParquetConfig
def SCREAMING_SNAKE_CASE__ ( self ):
return datasets.DatasetInfo(features=self.config.features )
def SCREAMING_SNAKE_CASE__ ( self , _lowerCamelCase ):
if not self.config.data_files:
raise ValueError(F'''At least one data file must be specified, but got data_files={self.config.data_files}''' )
a :Union[str, Any] = dl_manager.download_and_extract(self.config.data_files )
if isinstance(_lowerCamelCase , (str, list, tuple) ):
a :Dict = data_files
if isinstance(_lowerCamelCase , _lowerCamelCase ):
a :List[Any] = [files]
# Use `dl_manager.iter_files` to skip hidden files in an extracted archive
a :List[Any] = [dl_manager.iter_files(_lowerCamelCase ) for file in files]
return [datasets.SplitGenerator(name=datasets.Split.TRAIN , gen_kwargs={'''files''': files} )]
a :List[str] = []
for split_name, files in data_files.items():
if isinstance(_lowerCamelCase , _lowerCamelCase ):
a :Dict = [files]
# Use `dl_manager.iter_files` to skip hidden files in an extracted archive
a :Any = [dl_manager.iter_files(_lowerCamelCase ) for file in files]
# Infer features is they are stoed in the arrow schema
if self.info.features is None:
for file in itertools.chain.from_iterable(_lowerCamelCase ):
with open(_lowerCamelCase , '''rb''' ) as f:
a :int = datasets.Features.from_arrow_schema(pq.read_schema(_lowerCamelCase ) )
break
splits.append(datasets.SplitGenerator(name=_lowerCamelCase , gen_kwargs={'''files''': files} ) )
return splits
def SCREAMING_SNAKE_CASE__ ( self , _lowerCamelCase ):
if self.info.features is not None:
# more expensive cast to support nested features with keys in a different order
# allows str <-> int/float or str to Audio for example
a :Dict = table_cast(_lowerCamelCase , self.info.features.arrow_schema )
return pa_table
def SCREAMING_SNAKE_CASE__ ( self , _lowerCamelCase ):
a :str = self.info.features.arrow_schema if self.info.features is not None else None
if self.info.features is not None and self.config.columns is not None:
if sorted(field.name for field in schema ) != sorted(self.config.columns ):
raise ValueError(
F'''Tried to load parquet data with columns \'{self.config.columns}\' with mismatching features \'{self.info.features}\'''' )
for file_idx, file in enumerate(itertools.chain.from_iterable(_lowerCamelCase ) ):
with open(_lowerCamelCase , '''rb''' ) as f:
a :str = pq.ParquetFile(_lowerCamelCase )
try:
for batch_idx, record_batch in enumerate(
parquet_file.iter_batches(batch_size=self.config.batch_size , columns=self.config.columns ) ):
a :int = pa.Table.from_batches([record_batch] )
# Uncomment for debugging (will print the Arrow table size and elements)
# logger.warning(f"pa_table: {pa_table} num rows: {pa_table.num_rows}")
# logger.warning('\n'.join(str(pa_table.slice(i, 1).to_pydict()) for i in range(pa_table.num_rows)))
yield F'''{file_idx}_{batch_idx}''', self._cast_table(_lowerCamelCase )
except ValueError as e:
logger.error(F'''Failed to read file \'{file}\' with error {type(_lowerCamelCase )}: {e}''' )
raise
| 94 | from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_sentencepiece_available
UpperCamelCase = {}
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
UpperCamelCase = ['''GPTSw3Tokenizer''']
if TYPE_CHECKING:
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_gpt_swa import GPTSwaTokenizer
else:
import sys
UpperCamelCase = _LazyModule(__name__, globals()['''__file__'''], _import_structure, module_spec=__spec__)
| 87 | 0 |
import unittest
from transformers import (
MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING,
TF_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING,
TextClassificationPipeline,
pipeline,
)
from transformers.testing_utils import is_pipeline_test, nested_simplify, require_tf, require_torch, slow
from .test_pipelines_common import ANY
# These 2 model types require different inputs than those of the usual text models.
UpperCAmelCase : Tuple = {"""LayoutLMv2Config""", """LayoutLMv3Config"""}
@is_pipeline_test
class __lowerCAmelCase ( unittest.TestCase):
_lowercase : Dict = MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING
_lowercase : int = TF_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING
if model_mapping is not None:
_lowercase : Dict = {config: model for config, model in model_mapping.items() if config.__name__ not in _TO_SKIP}
if tf_model_mapping is not None:
_lowercase : Optional[Any] = {
config: model for config, model in tf_model_mapping.items() if config.__name__ not in _TO_SKIP
}
@require_torch
def _lowercase ( self ) -> Tuple:
'''simple docstring'''
a__ : Union[str, Any] =pipeline(
task="text-classification" , model="hf-internal-testing/tiny-random-distilbert" , framework="pt" )
a__ : str =text_classifier("This is great !" )
self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "LABEL_0", "score": 0.5_04}] )
a__ : Tuple =text_classifier("This is great !" , top_k=2 )
self.assertEqual(
nested_simplify(lowerCAmelCase__ ) , [{"label": "LABEL_0", "score": 0.5_04}, {"label": "LABEL_1", "score": 0.4_96}] )
a__ : Optional[int] =text_classifier(["This is great !", "This is bad"] , top_k=2 )
self.assertEqual(
nested_simplify(lowerCAmelCase__ ) , [
[{"label": "LABEL_0", "score": 0.5_04}, {"label": "LABEL_1", "score": 0.4_96}],
[{"label": "LABEL_0", "score": 0.5_04}, {"label": "LABEL_1", "score": 0.4_96}],
] , )
a__ : Any =text_classifier("This is great !" , top_k=1 )
self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "LABEL_0", "score": 0.5_04}] )
# Legacy behavior
a__ : Optional[int] =text_classifier("This is great !" , return_all_scores=lowerCAmelCase__ )
self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "LABEL_0", "score": 0.5_04}] )
a__ : Any =text_classifier("This is great !" , return_all_scores=lowerCAmelCase__ )
self.assertEqual(
nested_simplify(lowerCAmelCase__ ) , [[{"label": "LABEL_0", "score": 0.5_04}, {"label": "LABEL_1", "score": 0.4_96}]] )
a__ : int =text_classifier(["This is great !", "Something else"] , return_all_scores=lowerCAmelCase__ )
self.assertEqual(
nested_simplify(lowerCAmelCase__ ) , [
[{"label": "LABEL_0", "score": 0.5_04}, {"label": "LABEL_1", "score": 0.4_96}],
[{"label": "LABEL_0", "score": 0.5_04}, {"label": "LABEL_1", "score": 0.4_96}],
] , )
a__ : List[Any] =text_classifier(["This is great !", "Something else"] , return_all_scores=lowerCAmelCase__ )
self.assertEqual(
nested_simplify(lowerCAmelCase__ ) , [
{"label": "LABEL_0", "score": 0.5_04},
{"label": "LABEL_0", "score": 0.5_04},
] , )
@require_torch
def _lowercase ( self ) -> Dict:
'''simple docstring'''
import torch
a__ : Any =pipeline(
task="text-classification" , model="hf-internal-testing/tiny-random-distilbert" , framework="pt" , device=torch.device("cpu" ) , )
a__ : Optional[int] =text_classifier("This is great !" )
self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "LABEL_0", "score": 0.5_04}] )
@require_tf
def _lowercase ( self ) -> Any:
'''simple docstring'''
a__ : Optional[Any] =pipeline(
task="text-classification" , model="hf-internal-testing/tiny-random-distilbert" , framework="tf" )
a__ : List[str] =text_classifier("This is great !" )
self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "LABEL_0", "score": 0.5_04}] )
@slow
@require_torch
def _lowercase ( self ) -> str:
'''simple docstring'''
a__ : Optional[Any] =pipeline("text-classification" )
a__ : Dict =text_classifier("This is great !" )
self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "POSITIVE", "score": 1.0}] )
a__ : Tuple =text_classifier("This is bad !" )
self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "NEGATIVE", "score": 1.0}] )
a__ : Union[str, Any] =text_classifier("Birds are a type of animal" )
self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "POSITIVE", "score": 0.9_88}] )
@slow
@require_tf
def _lowercase ( self ) -> Tuple:
'''simple docstring'''
a__ : Optional[int] =pipeline("text-classification" , framework="tf" )
a__ : str =text_classifier("This is great !" )
self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "POSITIVE", "score": 1.0}] )
a__ : List[str] =text_classifier("This is bad !" )
self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "NEGATIVE", "score": 1.0}] )
a__ : List[str] =text_classifier("Birds are a type of animal" )
self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": "POSITIVE", "score": 0.9_88}] )
def _lowercase ( self , lowerCAmelCase__ , lowerCAmelCase__ , lowerCAmelCase__ ) -> List[Any]:
'''simple docstring'''
a__ : Optional[int] =TextClassificationPipeline(model=lowerCAmelCase__ , tokenizer=lowerCAmelCase__ )
return text_classifier, ["HuggingFace is in", "This is another test"]
def _lowercase ( self , lowerCAmelCase__ , lowerCAmelCase__ ) -> List[str]:
'''simple docstring'''
a__ : int =text_classifier.model
# Small inputs because BartTokenizer tiny has maximum position embeddings = 22
a__ : Optional[Any] ="HuggingFace is in"
a__ : List[str] =text_classifier(lowerCAmelCase__ )
self.assertEqual(nested_simplify(lowerCAmelCase__ ) , [{"label": ANY(lowerCAmelCase__ ), "score": ANY(lowerCAmelCase__ )}] )
self.assertTrue(outputs[0]["label"] in model.config.idalabel.values() )
a__ : Optional[int] =["HuggingFace is in ", "Paris is in France"]
a__ : Optional[Any] =text_classifier(lowerCAmelCase__ )
self.assertEqual(
nested_simplify(lowerCAmelCase__ ) , [{"label": ANY(lowerCAmelCase__ ), "score": ANY(lowerCAmelCase__ )}, {"label": ANY(lowerCAmelCase__ ), "score": ANY(lowerCAmelCase__ )}] , )
self.assertTrue(outputs[0]["label"] in model.config.idalabel.values() )
self.assertTrue(outputs[1]["label"] in model.config.idalabel.values() )
# Forcing to get all results with `top_k=None`
# This is NOT the legacy format
a__ : List[str] =text_classifier(lowerCAmelCase__ , top_k=lowerCAmelCase__ )
a__ : Any =len(model.config.idalabel.values() )
self.assertEqual(
nested_simplify(lowerCAmelCase__ ) , [[{"label": ANY(lowerCAmelCase__ ), "score": ANY(lowerCAmelCase__ )}] * N, [{"label": ANY(lowerCAmelCase__ ), "score": ANY(lowerCAmelCase__ )}] * N] , )
a__ : Optional[int] ={"text": "HuggingFace is in ", "text_pair": "Paris is in France"}
a__ : str =text_classifier(lowerCAmelCase__ )
self.assertEqual(
nested_simplify(lowerCAmelCase__ ) , {"label": ANY(lowerCAmelCase__ ), "score": ANY(lowerCAmelCase__ )} , )
self.assertTrue(outputs["label"] in model.config.idalabel.values() )
# This might be used a text pair, but tokenizer + pipe interaction
# makes it hard to understand that it's not using the pair properly
# https://github.com/huggingface/transformers/issues/17305
# We disabled this usage instead as it was outputting wrong outputs.
a__ : List[str] =[["HuggingFace is in ", "Paris is in France"]]
with self.assertRaises(lowerCAmelCase__ ):
text_classifier(lowerCAmelCase__ )
# This used to be valid for doing text pairs
# We're keeping it working because of backward compatibility
a__ : Dict =text_classifier([[["HuggingFace is in ", "Paris is in France"]]] )
self.assertEqual(
nested_simplify(lowerCAmelCase__ ) , [{"label": ANY(lowerCAmelCase__ ), "score": ANY(lowerCAmelCase__ )}] , )
self.assertTrue(outputs[0]["label"] in model.config.idalabel.values() )
| 95 | UpperCamelCase = [0, 2, 4, 6, 8]
UpperCamelCase = [1, 3, 5, 7, 9]
def lowercase_ ( _lowerCamelCase : int , _lowerCamelCase : int , _lowerCamelCase : list[int] , _lowerCamelCase : int):
if remaining_length == 0:
if digits[0] == 0 or digits[-1] == 0:
return 0
for i in range(length // 2 - 1 , -1 , -1):
remainder += digits[i] + digits[length - i - 1]
if remainder % 2 == 0:
return 0
remainder //= 10
return 1
if remaining_length == 1:
if remainder % 2 == 0:
return 0
lowercase__ : str = 0
for digit in range(10):
lowercase__ : str = digit
result += reversible_numbers(
0 , (remainder + 2 * digit) // 10 , _lowerCamelCase , _lowerCamelCase)
return result
lowercase__ : Dict = 0
for digita in range(10):
lowercase__ : int = digita
if (remainder + digita) % 2 == 0:
lowercase__ : Optional[Any] = ODD_DIGITS
else:
lowercase__ : str = EVEN_DIGITS
for digita in other_parity_digits:
lowercase__ : List[str] = digita
result += reversible_numbers(
remaining_length - 2 , (remainder + digita + digita) // 10 , _lowerCamelCase , _lowerCamelCase , )
return result
def lowercase_ ( _lowerCamelCase : int = 9):
lowercase__ : Tuple = 0
for length in range(1 , max_power + 1):
result += reversible_numbers(_lowerCamelCase , 0 , [0] * length , _lowerCamelCase)
return result
if __name__ == "__main__":
print(f"{solution() = }")
| 87 | 0 |
"""simple docstring"""
def _snake_case ( lowercase__ ):
return " ".join(input_str.split()[::-1] )
if __name__ == "__main__":
import doctest
doctest.testmod() | 96 | import sacrebleu as scb
from packaging import version
from sacrebleu import TER
import datasets
UpperCamelCase = '''\
@inproceedings{snover-etal-2006-study,
title = "A Study of Translation Edit Rate with Targeted Human Annotation",
author = "Snover, Matthew and
Dorr, Bonnie and
Schwartz, Rich and
Micciulla, Linnea and
Makhoul, John",
booktitle = "Proceedings of the 7th Conference of the Association for Machine Translation in the Americas: Technical Papers",
month = aug # " 8-12",
year = "2006",
address = "Cambridge, Massachusetts, USA",
publisher = "Association for Machine Translation in the Americas",
url = "https://aclanthology.org/2006.amta-papers.25",
pages = "223--231",
}
@inproceedings{post-2018-call,
title = "A Call for Clarity in Reporting {BLEU} Scores",
author = "Post, Matt",
booktitle = "Proceedings of the Third Conference on Machine Translation: Research Papers",
month = oct,
year = "2018",
address = "Belgium, Brussels",
publisher = "Association for Computational Linguistics",
url = "https://www.aclweb.org/anthology/W18-6319",
pages = "186--191",
}
'''
UpperCamelCase = '''\
TER (Translation Edit Rate, also called Translation Error Rate) is a metric to quantify the edit operations that a
hypothesis requires to match a reference translation. We use the implementation that is already present in sacrebleu
(https://github.com/mjpost/sacreBLEU#ter), which in turn is inspired by the TERCOM implementation, which can be found
here: https://github.com/jhclark/tercom.
The implementation here is slightly different from sacrebleu in terms of the required input format. The length of
the references and hypotheses lists need to be the same, so you may need to transpose your references compared to
sacrebleu\'s required input format. See https://github.com/huggingface/datasets/issues/3154#issuecomment-950746534
See the README.md file at https://github.com/mjpost/sacreBLEU#ter for more information.
'''
UpperCamelCase = '''
Produces TER scores alongside the number of edits and reference length.
Args:
predictions (list of str): The system stream (a sequence of segments).
references (list of list of str): A list of one or more reference streams (each a sequence of segments).
normalized (boolean): If `True`, applies basic tokenization and normalization to sentences. Defaults to `False`.
ignore_punct (boolean): If `True`, applies basic tokenization and normalization to sentences. Defaults to `False`.
support_zh_ja_chars (boolean): If `True`, tokenization/normalization supports processing of Chinese characters,
as well as Japanese Kanji, Hiragana, Katakana, and Phonetic Extensions of Katakana.
Only applies if `normalized = True`. Defaults to `False`.
case_sensitive (boolean): If `False`, makes all predictions and references lowercase to ignore differences in case. Defaults to `False`.
Returns:
\'score\' (float): TER score (num_edits / sum_ref_lengths * 100)
\'num_edits\' (int): The cumulative number of edits
\'ref_length\' (float): The cumulative average reference length
Examples:
Example 1:
>>> predictions = ["does this sentence match??",
... "what about this sentence?",
... "What did the TER metric user say to the developer?"]
>>> references = [["does this sentence match", "does this sentence match!?!"],
... ["wHaT aBoUt ThIs SeNtEnCe?", "wHaT aBoUt ThIs SeNtEnCe?"],
... ["Your jokes are...", "...TERrible"]]
>>> ter = datasets.load_metric("ter")
>>> results = ter.compute(predictions=predictions,
... references=references,
... case_sensitive=True)
>>> print(results)
{\'score\': 150.0, \'num_edits\': 15, \'ref_length\': 10.0}
Example 2:
>>> predictions = ["does this sentence match??",
... "what about this sentence?"]
>>> references = [["does this sentence match", "does this sentence match!?!"],
... ["wHaT aBoUt ThIs SeNtEnCe?", "wHaT aBoUt ThIs SeNtEnCe?"]]
>>> ter = datasets.load_metric("ter")
>>> results = ter.compute(predictions=predictions,
... references=references,
... case_sensitive=True)
>>> print(results)
{\'score\': 62.5, \'num_edits\': 5, \'ref_length\': 8.0}
Example 3:
>>> predictions = ["does this sentence match??",
... "what about this sentence?"]
>>> references = [["does this sentence match", "does this sentence match!?!"],
... ["wHaT aBoUt ThIs SeNtEnCe?", "wHaT aBoUt ThIs SeNtEnCe?"]]
>>> ter = datasets.load_metric("ter")
>>> results = ter.compute(predictions=predictions,
... references=references,
... normalized=True,
... case_sensitive=True)
>>> print(results)
{\'score\': 57.14285714285714, \'num_edits\': 6, \'ref_length\': 10.5}
Example 4:
>>> predictions = ["does this sentence match??",
... "what about this sentence?"]
>>> references = [["does this sentence match", "does this sentence match!?!"],
... ["wHaT aBoUt ThIs SeNtEnCe?", "wHaT aBoUt ThIs SeNtEnCe?"]]
>>> ter = datasets.load_metric("ter")
>>> results = ter.compute(predictions=predictions,
... references=references,
... ignore_punct=True,
... case_sensitive=False)
>>> print(results)
{\'score\': 0.0, \'num_edits\': 0, \'ref_length\': 8.0}
Example 5:
>>> predictions = ["does this sentence match??",
... "what about this sentence?",
... "What did the TER metric user say to the developer?"]
>>> references = [["does this sentence match", "does this sentence match!?!"],
... ["wHaT aBoUt ThIs SeNtEnCe?", "wHaT aBoUt ThIs SeNtEnCe?"],
... ["Your jokes are...", "...TERrible"]]
>>> ter = datasets.load_metric("ter")
>>> results = ter.compute(predictions=predictions,
... references=references,
... ignore_punct=True,
... case_sensitive=False)
>>> print(results)
{\'score\': 100.0, \'num_edits\': 10, \'ref_length\': 10.0}
'''
@datasets.utils.file_utils.add_start_docstrings(_DESCRIPTION ,_KWARGS_DESCRIPTION )
class snake_case_ ( datasets.Metric ):
def __UpperCamelCase ( self : Union[str, Any] ) -> Tuple:
if version.parse(scb.__version__ ) < version.parse("1.4.12" ):
raise ImportWarning(
"To use `sacrebleu`, the module `sacrebleu>=1.4.12` is required, and the current version of `sacrebleu` doesn't match this condition.\n"
"You can install it with `pip install \"sacrebleu>=1.4.12\"`." )
return datasets.MetricInfo(
description=_DESCRIPTION , citation=_CITATION , homepage="http://www.cs.umd.edu/~snover/tercom/" , inputs_description=_KWARGS_DESCRIPTION , features=datasets.Features(
{
"predictions": datasets.Value("string" , id="sequence" ),
"references": datasets.Sequence(datasets.Value("string" , id="sequence" ) , id="references" ),
} ) , codebase_urls=["https://github.com/mjpost/sacreBLEU#ter"] , reference_urls=[
"https://github.com/jhclark/tercom",
] , )
def __UpperCamelCase ( self : Optional[Any] , lowercase_ : str , lowercase_ : Optional[int] , lowercase_ : bool = False , lowercase_ : bool = False , lowercase_ : bool = False , lowercase_ : bool = False , ) -> Any:
lowercase__ : Optional[int] = len(references[0] )
if any(len(lowercase_ ) != references_per_prediction for refs in references ):
raise ValueError("Sacrebleu requires the same number of references for each prediction" )
lowercase__ : Union[str, Any] = [[refs[i] for refs in references] for i in range(lowercase_ )]
lowercase__ : str = TER(
normalized=lowercase_ , no_punct=lowercase_ , asian_support=lowercase_ , case_sensitive=lowercase_ , )
lowercase__ : List[str] = sb_ter.corpus_score(lowercase_ , lowercase_ )
return {"score": output.score, "num_edits": output.num_edits, "ref_length": output.ref_length}
| 87 | 0 |
'''simple docstring'''
import inspect
from typing import Callable, List, Optional, Union
import torch
from transformers import (
CLIPImageProcessor,
CLIPTextModel,
CLIPTokenizer,
WhisperForConditionalGeneration,
WhisperProcessor,
)
from diffusers import (
AutoencoderKL,
DDIMScheduler,
DiffusionPipeline,
LMSDiscreteScheduler,
PNDMScheduler,
UNetaDConditionModel,
)
from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion import StableDiffusionPipelineOutput
from diffusers.pipelines.stable_diffusion.safety_checker import StableDiffusionSafetyChecker
from diffusers.utils import logging
__snake_case = logging.get_logger(__name__) # pylint: disable=invalid-name
class lowercase ( A__ ):
"""simple docstring"""
def __init__( self , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , ):
'''simple docstring'''
super().__init__()
if safety_checker is None:
logger.warning(
F'''You have disabled the safety checker for {self.__class__} by passing `safety_checker=None`. Ensure'''
''' that you abide to the conditions of the Stable Diffusion license and do not expose unfiltered'''
''' results in services or applications open to the public. Both the diffusers team and Hugging Face'''
''' strongly recommend to keep the safety filter enabled in all public facing circumstances, disabling'''
''' it only for use-cases that involve analyzing network behavior or auditing its results. For more'''
''' information, please have a look at https://github.com/huggingface/diffusers/pull/254 .''' )
self.register_modules(
speech_model=UpperCamelCase_ , speech_processor=UpperCamelCase_ , vae=UpperCamelCase_ , text_encoder=UpperCamelCase_ , tokenizer=UpperCamelCase_ , unet=UpperCamelCase_ , scheduler=UpperCamelCase_ , feature_extractor=UpperCamelCase_ , )
def lowerCAmelCase__ ( self , UpperCamelCase_ = "auto" ):
'''simple docstring'''
if slice_size == "auto":
UpperCamelCase__ :int = self.unet.config.attention_head_dim // 2
self.unet.set_attention_slice(UpperCamelCase_ )
def lowerCAmelCase__ ( self ):
'''simple docstring'''
self.enable_attention_slicing(UpperCamelCase_ )
@torch.no_grad()
def __call__( self , UpperCamelCase_ , UpperCamelCase_=16000 , UpperCamelCase_ = 512 , UpperCamelCase_ = 512 , UpperCamelCase_ = 50 , UpperCamelCase_ = 7.5 , UpperCamelCase_ = None , UpperCamelCase_ = 1 , UpperCamelCase_ = 0.0 , UpperCamelCase_ = None , UpperCamelCase_ = None , UpperCamelCase_ = "pil" , UpperCamelCase_ = True , UpperCamelCase_ = None , UpperCamelCase_ = 1 , **UpperCamelCase_ , ):
'''simple docstring'''
UpperCamelCase__ :int = self.speech_processor.feature_extractor(
UpperCamelCase_ , return_tensors='''pt''' , sampling_rate=UpperCamelCase_ ).input_features.to(self.device )
UpperCamelCase__ :List[str] = self.speech_model.generate(UpperCamelCase_ , max_length=480000 )
UpperCamelCase__ :Optional[Any] = self.speech_processor.tokenizer.batch_decode(UpperCamelCase_ , skip_special_tokens=UpperCamelCase_ , normalize=UpperCamelCase_ )[
0
]
if isinstance(UpperCamelCase_ , UpperCamelCase_ ):
UpperCamelCase__ :Dict = 1
elif isinstance(UpperCamelCase_ , UpperCamelCase_ ):
UpperCamelCase__ :Optional[Any] = len(UpperCamelCase_ )
else:
raise ValueError(F'''`prompt` has to be of type `str` or `list` but is {type(UpperCamelCase_ )}''' )
if height % 8 != 0 or width % 8 != 0:
raise ValueError(F'''`height` and `width` have to be divisible by 8 but are {height} and {width}.''' )
if (callback_steps is None) or (
callback_steps is not None and (not isinstance(UpperCamelCase_ , UpperCamelCase_ ) or callback_steps <= 0)
):
raise ValueError(
F'''`callback_steps` has to be a positive integer but is {callback_steps} of type'''
F''' {type(UpperCamelCase_ )}.''' )
# get prompt text embeddings
UpperCamelCase__ :Optional[int] = self.tokenizer(
UpperCamelCase_ , padding='''max_length''' , max_length=self.tokenizer.model_max_length , return_tensors='''pt''' , )
UpperCamelCase__ :List[Any] = text_inputs.input_ids
if text_input_ids.shape[-1] > self.tokenizer.model_max_length:
UpperCamelCase__ :Optional[int] = self.tokenizer.batch_decode(text_input_ids[:, self.tokenizer.model_max_length :] )
logger.warning(
'''The following part of your input was truncated because CLIP can only handle sequences up to'''
F''' {self.tokenizer.model_max_length} tokens: {removed_text}''' )
UpperCamelCase__ :Tuple = text_input_ids[:, : self.tokenizer.model_max_length]
UpperCamelCase__ :Dict = self.text_encoder(text_input_ids.to(self.device ) )[0]
# duplicate text embeddings for each generation per prompt, using mps friendly method
UpperCamelCase__ , UpperCamelCase__ , UpperCamelCase__ :Any = text_embeddings.shape
UpperCamelCase__ :Dict = text_embeddings.repeat(1 , UpperCamelCase_ , 1 )
UpperCamelCase__ :Dict = text_embeddings.view(bs_embed * num_images_per_prompt , UpperCamelCase_ , -1 )
# here `guidance_scale` is defined analog to the guidance weight `w` of equation (2)
# of the Imagen paper: https://arxiv.org/pdf/2205.11487.pdf . `guidance_scale = 1`
# corresponds to doing no classifier free guidance.
UpperCamelCase__ :Dict = guidance_scale > 1.0
# get unconditional embeddings for classifier free guidance
if do_classifier_free_guidance:
UpperCamelCase__ :List[str]
if negative_prompt is None:
UpperCamelCase__ :Dict = [''''''] * batch_size
elif type(UpperCamelCase_ ) is not type(UpperCamelCase_ ):
raise TypeError(
F'''`negative_prompt` should be the same type to `prompt`, but got {type(UpperCamelCase_ )} !='''
F''' {type(UpperCamelCase_ )}.''' )
elif isinstance(UpperCamelCase_ , UpperCamelCase_ ):
UpperCamelCase__ :Tuple = [negative_prompt]
elif batch_size != len(UpperCamelCase_ ):
raise ValueError(
F'''`negative_prompt`: {negative_prompt} has batch size {len(UpperCamelCase_ )}, but `prompt`:'''
F''' {prompt} has batch size {batch_size}. Please make sure that passed `negative_prompt` matches'''
''' the batch size of `prompt`.''' )
else:
UpperCamelCase__ :int = negative_prompt
UpperCamelCase__ :Optional[Any] = text_input_ids.shape[-1]
UpperCamelCase__ :List[Any] = self.tokenizer(
UpperCamelCase_ , padding='''max_length''' , max_length=UpperCamelCase_ , truncation=UpperCamelCase_ , return_tensors='''pt''' , )
UpperCamelCase__ :Optional[int] = self.text_encoder(uncond_input.input_ids.to(self.device ) )[0]
# duplicate unconditional embeddings for each generation per prompt, using mps friendly method
UpperCamelCase__ :Tuple = uncond_embeddings.shape[1]
UpperCamelCase__ :Any = uncond_embeddings.repeat(1 , UpperCamelCase_ , 1 )
UpperCamelCase__ :List[Any] = uncond_embeddings.view(batch_size * num_images_per_prompt , UpperCamelCase_ , -1 )
# For classifier free guidance, we need to do two forward passes.
# Here we concatenate the unconditional and text embeddings into a single batch
# to avoid doing two forward passes
UpperCamelCase__ :Tuple = torch.cat([uncond_embeddings, text_embeddings] )
# get the initial random noise unless the user supplied it
# Unlike in other pipelines, latents need to be generated in the target device
# for 1-to-1 results reproducibility with the CompVis implementation.
# However this currently doesn't work in `mps`.
UpperCamelCase__ :Dict = (batch_size * num_images_per_prompt, self.unet.config.in_channels, height // 8, width // 8)
UpperCamelCase__ :int = text_embeddings.dtype
if latents is None:
if self.device.type == "mps":
# randn does not exist on mps
UpperCamelCase__ :Optional[int] = torch.randn(UpperCamelCase_ , generator=UpperCamelCase_ , device='''cpu''' , dtype=UpperCamelCase_ ).to(
self.device )
else:
UpperCamelCase__ :Tuple = torch.randn(UpperCamelCase_ , generator=UpperCamelCase_ , device=self.device , dtype=UpperCamelCase_ )
else:
if latents.shape != latents_shape:
raise ValueError(F'''Unexpected latents shape, got {latents.shape}, expected {latents_shape}''' )
UpperCamelCase__ :str = latents.to(self.device )
# set timesteps
self.scheduler.set_timesteps(UpperCamelCase_ )
# Some schedulers like PNDM have timesteps as arrays
# It's more optimized to move all timesteps to correct device beforehand
UpperCamelCase__ :List[Any] = self.scheduler.timesteps.to(self.device )
# scale the initial noise by the standard deviation required by the scheduler
UpperCamelCase__ :List[str] = latents * self.scheduler.init_noise_sigma
# prepare extra kwargs for the scheduler step, since not all schedulers have the same signature
# eta (η) is only used with the DDIMScheduler, it will be ignored for other schedulers.
# eta corresponds to η in DDIM paper: https://arxiv.org/abs/2010.02502
# and should be between [0, 1]
UpperCamelCase__ :Tuple = '''eta''' in set(inspect.signature(self.scheduler.step ).parameters.keys() )
UpperCamelCase__ :List[Any] = {}
if accepts_eta:
UpperCamelCase__ :List[str] = eta
for i, t in enumerate(self.progress_bar(UpperCamelCase_ ) ):
# expand the latents if we are doing classifier free guidance
UpperCamelCase__ :int = torch.cat([latents] * 2 ) if do_classifier_free_guidance else latents
UpperCamelCase__ :int = self.scheduler.scale_model_input(UpperCamelCase_ , UpperCamelCase_ )
# predict the noise residual
UpperCamelCase__ :List[Any] = self.unet(UpperCamelCase_ , UpperCamelCase_ , encoder_hidden_states=UpperCamelCase_ ).sample
# perform guidance
if do_classifier_free_guidance:
UpperCamelCase__ , UpperCamelCase__ :List[Any] = noise_pred.chunk(2 )
UpperCamelCase__ :int = noise_pred_uncond + guidance_scale * (noise_pred_text - noise_pred_uncond)
# compute the previous noisy sample x_t -> x_t-1
UpperCamelCase__ :Tuple = self.scheduler.step(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ , **UpperCamelCase_ ).prev_sample
# call the callback, if provided
if callback is not None and i % callback_steps == 0:
callback(UpperCamelCase_ , UpperCamelCase_ , UpperCamelCase_ )
UpperCamelCase__ :Dict = 1 / 0.18215 * latents
UpperCamelCase__ :Dict = self.vae.decode(UpperCamelCase_ ).sample
UpperCamelCase__ :Dict = (image / 2 + 0.5).clamp(0 , 1 )
# we always cast to float32 as this does not cause significant overhead and is compatible with bfloat16
UpperCamelCase__ :List[str] = image.cpu().permute(0 , 2 , 3 , 1 ).float().numpy()
if output_type == "pil":
UpperCamelCase__ :Optional[int] = self.numpy_to_pil(UpperCamelCase_ )
if not return_dict:
return image
return StableDiffusionPipelineOutput(images=UpperCamelCase_ , nsfw_content_detected=UpperCamelCase_ ) | 97 | def lowercase_ ( _lowerCamelCase : int):
lowercase__ : Dict = n ** (1 / 3)
return (val * val * val) == n
if __name__ == "__main__":
print(perfect_cube(27))
print(perfect_cube(4))
| 87 | 0 |
"""simple docstring"""
import os
import numpy
import onnx
def a_ ( lowerCamelCase , lowerCamelCase ):
UpperCAmelCase__ = a.name
UpperCAmelCase__ = b.name
UpperCAmelCase__ = ''
UpperCAmelCase__ = ''
UpperCAmelCase__ = a == b
UpperCAmelCase__ = name_a
UpperCAmelCase__ = name_b
return res
def a_ ( lowerCamelCase , lowerCamelCase , lowerCamelCase ):
for i, input_name in enumerate(node_proto.input ):
if input_name == name:
node_proto.input.insert(lowerCamelCase , lowerCamelCase )
node_proto.input.pop(i + 1 )
if node_proto.op_type == "If":
_graph_replace_input_with(node_proto.attribute[0].g , lowerCamelCase , lowerCamelCase )
_graph_replace_input_with(node_proto.attribute[1].g , lowerCamelCase , lowerCamelCase )
if node_proto.op_type == "Loop":
_graph_replace_input_with(node_proto.attribute[0].g , lowerCamelCase , lowerCamelCase )
def a_ ( lowerCamelCase , lowerCamelCase , lowerCamelCase ):
for n in graph_proto.node:
_node_replace_input_with(lowerCamelCase , lowerCamelCase , lowerCamelCase )
def a_ ( lowerCamelCase , lowerCamelCase , lowerCamelCase ):
UpperCAmelCase__ = list(model.graph.initializer )
UpperCAmelCase__ = list(model_without_ext.graph.initializer )
for i, ref_i in ind_to_replace:
assert inits_with_data[i].name == inits[i].name
assert inits_with_data[ref_i].name == inits[ref_i].name
assert i > ref_i
UpperCAmelCase__ = inits[i].name
UpperCAmelCase__ = inits[ref_i].name
model_without_ext.graph.initializer.remove(inits[i] )
# for n in model.graph.node:
_graph_replace_input_with(model_without_ext.graph , lowerCamelCase , lowerCamelCase )
def a_ ( lowerCamelCase ):
UpperCAmelCase__ = os.path.dirname(lowerCamelCase )
UpperCAmelCase__ = os.path.basename(lowerCamelCase )
UpperCAmelCase__ = onnx.load(os.path.join(lowerCamelCase , lowerCamelCase ) )
UpperCAmelCase__ = list(model.graph.initializer )
UpperCAmelCase__ = set()
UpperCAmelCase__ = {}
UpperCAmelCase__ = []
UpperCAmelCase__ = 0
for i in range(len(lowerCamelCase ) ):
if i in dup_set:
continue
for j in range(i + 1 , len(lowerCamelCase ) ):
if j in dup_set:
continue
if _is_equal_tensor_proto(inits[i] , inits[j] ):
dup_set.add(lowerCamelCase )
dup_set.add(lowerCamelCase )
UpperCAmelCase__ = inits[j].data_type
UpperCAmelCase__ = numpy.prod(inits[j].dims )
if dtype == 1:
mem_size *= 4
elif dtype == 6:
mem_size *= 4
elif dtype == 7 or dtype == 1_1:
mem_size *= 8
else:
print('unexpected data type: ' , lowerCamelCase )
total_reduced_size += mem_size
UpperCAmelCase__ = inits[i].name
UpperCAmelCase__ = inits[j].name
if name_i in dup_map:
dup_map[name_i].append(lowerCamelCase )
else:
UpperCAmelCase__ = [name_j]
ind_to_replace.append((j, i) )
print('total reduced size: ' , total_reduced_size / 1_0_2_4 / 1_0_2_4 / 1_0_2_4 , 'GB' )
UpperCAmelCase__ = sorted(lowerCamelCase )
_remove_dup_initializers_from_model(lowerCamelCase , lowerCamelCase , lowerCamelCase )
UpperCAmelCase__ = 'optimized_' + model_file_name
UpperCAmelCase__ = os.path.join(lowerCamelCase , lowerCamelCase )
onnx.save(lowerCamelCase , lowerCamelCase )
return new_model
| 98 | from PIL import Image
def lowercase_ ( _lowerCamelCase : Image , _lowerCamelCase : int):
lowercase__ : List[str] = (259 * (level + 255)) / (255 * (259 - level))
def contrast(_lowerCamelCase : int) -> int:
return int(128 + factor * (c - 128))
return img.point(_lowerCamelCase)
if __name__ == "__main__":
# Load image
with Image.open('''image_data/lena.jpg''') as img:
# Change contrast to 170
UpperCamelCase = change_contrast(img, 170)
cont_img.save('''image_data/lena_high_contrast.png''', format='''png''')
| 87 | 0 |
import inspect
import re
from transformers.utils import direct_transformers_import
# All paths are set with the intent you should run this script from the root of the repo with the command
# python utils/check_config_docstrings.py
lowercase : str = """src/transformers"""
# This is to make sure the transformers module imported is the one in the repo.
lowercase : Tuple = direct_transformers_import(PATH_TO_TRANSFORMERS)
lowercase : List[str] = transformers.models.auto.configuration_auto.CONFIG_MAPPING
# Regex pattern used to find the checkpoint mentioned in the docstring of `config_class`.
# For example, `[bert-base-uncased](https://huggingface.co/bert-base-uncased)`
lowercase : Optional[Any] = re.compile(r"""\[(.+?)\]\((https://huggingface\.co/.+?)\)""")
lowercase : Optional[Any] = {
"""DecisionTransformerConfig""",
"""EncoderDecoderConfig""",
"""MusicgenConfig""",
"""RagConfig""",
"""SpeechEncoderDecoderConfig""",
"""TimmBackboneConfig""",
"""VisionEncoderDecoderConfig""",
"""VisionTextDualEncoderConfig""",
"""LlamaConfig""",
}
def A_ ( A__ ) -> Optional[Any]:
a__ : List[str] = None
# source code of `config_class`
a__ : Tuple = inspect.getsource(A__ )
a__ : Any = _re_checkpoint.findall(A__ )
# Each `checkpoint` is a tuple of a checkpoint name and a checkpoint link.
# For example, `('bert-base-uncased', 'https://huggingface.co/bert-base-uncased')`
for ckpt_name, ckpt_link in checkpoints:
# allow the link to end with `/`
if ckpt_link.endswith('/' ):
a__ : Union[str, Any] = ckpt_link[:-1]
# verify the checkpoint name corresponds to the checkpoint link
a__ : str = F'https://huggingface.co/{ckpt_name}'
if ckpt_link == ckpt_link_from_name:
a__ : Optional[int] = ckpt_name
break
return checkpoint
def A_ ( ) -> List[str]:
a__ : Tuple = []
for config_class in list(CONFIG_MAPPING.values() ):
# Skip deprecated models
if "models.deprecated" in config_class.__module__:
continue
a__ : Dict = get_checkpoint_from_config_class(A__ )
a__ : List[str] = config_class.__name__
if checkpoint is None and name not in CONFIG_CLASSES_TO_IGNORE_FOR_DOCSTRING_CHECKPOINT_CHECK:
configs_without_checkpoint.append(A__ )
if len(A__ ) > 0:
a__ : Dict = '\n'.join(sorted(A__ ) )
raise ValueError(F'The following configurations don\'t contain any valid checkpoint:\n{message}' )
if __name__ == "__main__":
check_config_docstrings_have_checkpoints()
| 99 | from __future__ import annotations
import sys
from collections import deque
from typing import Generic, TypeVar
UpperCamelCase = TypeVar('''T''')
class snake_case_ ( Generic[T] ):
__A : deque[T] # Cache store of keys
__A : set[T] # References of the keys in cache
__A : int = 10 # Maximum capacity of cache
def __init__( self : Union[str, Any] , lowercase_ : int ) -> None:
lowercase__ : int = deque()
lowercase__ : str = set()
if not n:
lowercase__ : str = sys.maxsize
elif n < 0:
raise ValueError("n should be an integer greater than 0." )
else:
lowercase__ : List[Any] = n
def __UpperCamelCase ( self : Dict , lowercase_ : T ) -> None:
if x not in self.key_reference:
if len(self.dq_store ) == LRUCache._MAX_CAPACITY:
lowercase__ : Dict = self.dq_store.pop()
self.key_reference.remove(lowercase_ )
else:
self.dq_store.remove(lowercase_ )
self.dq_store.appendleft(lowercase_ )
self.key_reference.add(lowercase_ )
def __UpperCamelCase ( self : Dict ) -> None:
for k in self.dq_store:
print(lowercase_ )
def __repr__( self : Optional[int] ) -> str:
return F'''LRUCache({self._MAX_CAPACITY}) => {list(self.dq_store )}'''
if __name__ == "__main__":
import doctest
doctest.testmod()
UpperCamelCase = LRUCache(4)
lru_cache.refer('''A''')
lru_cache.refer(2)
lru_cache.refer(3)
lru_cache.refer('''A''')
lru_cache.refer(4)
lru_cache.refer(5)
lru_cache.display()
print(lru_cache)
assert str(lru_cache) == "LRUCache(4) => [5, 4, 'A', 3]"
| 87 | 0 |
"""simple docstring"""
from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available, is_vision_available
__magic_name__ = {
"configuration_chinese_clip": [
"CHINESE_CLIP_PRETRAINED_CONFIG_ARCHIVE_MAP",
"ChineseCLIPConfig",
"ChineseCLIPOnnxConfig",
"ChineseCLIPTextConfig",
"ChineseCLIPVisionConfig",
],
"processing_chinese_clip": ["ChineseCLIPProcessor"],
}
try:
if not is_vision_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
__magic_name__ = ["ChineseCLIPFeatureExtractor"]
__magic_name__ = ["ChineseCLIPImageProcessor"]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
__magic_name__ = [
"CHINESE_CLIP_PRETRAINED_MODEL_ARCHIVE_LIST",
"ChineseCLIPModel",
"ChineseCLIPPreTrainedModel",
"ChineseCLIPTextModel",
"ChineseCLIPVisionModel",
]
if TYPE_CHECKING:
from .configuration_chinese_clip import (
CHINESE_CLIP_PRETRAINED_CONFIG_ARCHIVE_MAP,
ChineseCLIPConfig,
ChineseCLIPOnnxConfig,
ChineseCLIPTextConfig,
ChineseCLIPVisionConfig,
)
from .processing_chinese_clip import ChineseCLIPProcessor
try:
if not is_vision_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .feature_extraction_chinese_clip import ChineseCLIPFeatureExtractor, ChineseCLIPImageProcessor
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_chinese_clip import (
CHINESE_CLIP_PRETRAINED_MODEL_ARCHIVE_LIST,
ChineseCLIPModel,
ChineseCLIPPreTrainedModel,
ChineseCLIPTextModel,
ChineseCLIPVisionModel,
)
else:
import sys
__magic_name__ = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 100 | from collections import OrderedDict
from typing import Mapping
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfig
from ...utils import logging
UpperCamelCase = logging.get_logger(__name__)
UpperCamelCase = {
'''YituTech/conv-bert-base''': '''https://huggingface.co/YituTech/conv-bert-base/resolve/main/config.json''',
'''YituTech/conv-bert-medium-small''': (
'''https://huggingface.co/YituTech/conv-bert-medium-small/resolve/main/config.json'''
),
'''YituTech/conv-bert-small''': '''https://huggingface.co/YituTech/conv-bert-small/resolve/main/config.json''',
# See all ConvBERT models at https://huggingface.co/models?filter=convbert
}
class snake_case_ ( __A ):
__A : List[str] = "convbert"
def __init__( self : Union[str, Any] , lowercase_ : str=3_05_22 , lowercase_ : Any=7_68 , lowercase_ : Tuple=12 , lowercase_ : List[str]=12 , lowercase_ : Optional[int]=30_72 , lowercase_ : Union[str, Any]="gelu" , lowercase_ : str=0.1 , lowercase_ : List[str]=0.1 , lowercase_ : Optional[Any]=5_12 , lowercase_ : Dict=2 , lowercase_ : Union[str, Any]=0.02 , lowercase_ : Optional[Any]=1E-12 , lowercase_ : Optional[int]=1 , lowercase_ : List[Any]=0 , lowercase_ : Optional[int]=2 , lowercase_ : str=7_68 , lowercase_ : Dict=2 , lowercase_ : Optional[Any]=9 , lowercase_ : Union[str, Any]=1 , lowercase_ : Any=None , **lowercase_ : Optional[Any] , ) -> Dict:
super().__init__(
pad_token_id=lowercase_ , bos_token_id=lowercase_ , eos_token_id=lowercase_ , **lowercase_ , )
lowercase__ : List[str] = vocab_size
lowercase__ : Union[str, Any] = hidden_size
lowercase__ : Any = num_hidden_layers
lowercase__ : List[str] = num_attention_heads
lowercase__ : Union[str, Any] = intermediate_size
lowercase__ : Optional[Any] = hidden_act
lowercase__ : int = hidden_dropout_prob
lowercase__ : str = attention_probs_dropout_prob
lowercase__ : Union[str, Any] = max_position_embeddings
lowercase__ : Optional[int] = type_vocab_size
lowercase__ : Tuple = initializer_range
lowercase__ : List[str] = layer_norm_eps
lowercase__ : List[Any] = embedding_size
lowercase__ : Optional[Any] = head_ratio
lowercase__ : Dict = conv_kernel_size
lowercase__ : Tuple = num_groups
lowercase__ : Optional[int] = classifier_dropout
class snake_case_ ( __A ):
@property
def __UpperCamelCase ( self : Optional[int] ) -> Mapping[str, Mapping[int, str]]:
if self.task == "multiple-choice":
lowercase__ : Tuple = {0: "batch", 1: "choice", 2: "sequence"}
else:
lowercase__ : str = {0: "batch", 1: "sequence"}
return OrderedDict(
[
("input_ids", dynamic_axis),
("attention_mask", dynamic_axis),
("token_type_ids", dynamic_axis),
] )
| 87 | 0 |
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