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stringlengths 87
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| code_codestyle
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| style_context
stringlengths 135
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| style_context_codestyle
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def A (__A : float , __A : float ) -> float:
"""simple docstring"""
return price * (1 + tax_rate)
if __name__ == "__main__":
print(f"{price_plus_tax(100, 0.25) = }")
print(f"{price_plus_tax(125.50, 0.05) = }")
| 51
|
from typing import TYPE_CHECKING
from ...file_utils import _LazyModule, is_tokenizers_available, is_torch_available
from ...utils import OptionalDependencyNotAvailable
snake_case_ : Union[str, Any] = {"configuration_gpt_neox": ["GPT_NEOX_PRETRAINED_CONFIG_ARCHIVE_MAP", "GPTNeoXConfig"]}
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Dict = ["GPTNeoXTokenizerFast"]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : 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
snake_case_ : Optional[int] = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 51
| 1
|
import os
from shutil import copyfile
from typing import List, Optional, Tuple
from ...tokenization_utils import AddedToken
from ...tokenization_utils_fast import PreTrainedTokenizerFast
from ...utils import is_sentencepiece_available, logging
if is_sentencepiece_available():
from .tokenization_rembert import RemBertTokenizer
else:
snake_case_ : str = None
snake_case_ : Tuple = logging.get_logger(__name__)
snake_case_ : Dict = {"vocab_file": "sentencepiece.model", "tokenizer_file": "tokenizer.json"}
snake_case_ : List[str] = {
"vocab_file": {
"google/rembert": "https://huggingface.co/google/rembert/resolve/main/sentencepiece.model",
},
"tokenizer_file": {
"google/rembert": "https://huggingface.co/google/rembert/resolve/main/tokenizer.json",
},
}
snake_case_ : Union[str, Any] = {
"google/rembert": 256,
}
snake_case_ : Optional[int] = "▁"
class __snake_case ( a ):
UpperCAmelCase__ : List[Any] = VOCAB_FILES_NAMES
UpperCAmelCase__ : Dict = PRETRAINED_VOCAB_FILES_MAP
UpperCAmelCase__ : int = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
UpperCAmelCase__ : Dict = RemBertTokenizer
def __init__( self : Tuple , _snake_case : Any=None , _snake_case : Dict=None , _snake_case : int=True , _snake_case : List[Any]=True , _snake_case : Tuple=False , _snake_case : Optional[int]="[CLS]" , _snake_case : str="[SEP]" , _snake_case : Union[str, Any]="<unk>" , _snake_case : int="[SEP]" , _snake_case : Optional[Any]="<pad>" , _snake_case : List[Any]="[CLS]" , _snake_case : Dict="[MASK]" , **_snake_case : str , ):
"""simple docstring"""
UpperCAmelCase_ = AddedToken(_snake_case , lstrip=_snake_case , rstrip=_snake_case) if isinstance(_snake_case , _snake_case) else mask_token
super().__init__(
_snake_case , tokenizer_file=_snake_case , do_lower_case=_snake_case , remove_space=_snake_case , keep_accents=_snake_case , bos_token=_snake_case , eos_token=_snake_case , unk_token=_snake_case , sep_token=_snake_case , pad_token=_snake_case , cls_token=_snake_case , mask_token=_snake_case , **_snake_case , )
UpperCAmelCase_ = do_lower_case
UpperCAmelCase_ = remove_space
UpperCAmelCase_ = keep_accents
UpperCAmelCase_ = vocab_file
UpperCAmelCase_ = False if not self.vocab_file else True
def lowerCamelCase ( self : List[str] , _snake_case : List[int] , _snake_case : Optional[List[int]] = None):
"""simple docstring"""
UpperCAmelCase_ = [self.sep_token_id]
UpperCAmelCase_ = [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 lowerCamelCase ( self : Union[str, Any] , _snake_case : List[int] , _snake_case : Optional[List[int]] = None , _snake_case : bool = False):
"""simple docstring"""
if already_has_special_tokens:
if token_ids_a is not None:
raise ValueError(
'''You should not supply a second sequence if the provided sequence of '''
'''ids is already formatted with special tokens for the model.''')
return [1 if x in [self.sep_token_id, self.cls_token_id] else 0 for x in token_ids_a]
if token_ids_a is not None:
return [1] + ([0] * len(_snake_case)) + [1] + ([0] * len(_snake_case)) + [1]
return [1] + ([0] * len(_snake_case)) + [1]
def lowerCamelCase ( self : List[Any] , _snake_case : List[int] , _snake_case : Optional[List[int]] = None):
"""simple docstring"""
UpperCAmelCase_ = [self.sep_token_id]
UpperCAmelCase_ = [self.cls_token_id]
if token_ids_a is None:
return len(cls + token_ids_a + sep) * [0]
return len(cls + token_ids_a + sep) * [0] + len(token_ids_a + sep) * [1]
def lowerCamelCase ( self : str , _snake_case : str , _snake_case : Optional[str] = None):
"""simple docstring"""
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'''])
if os.path.abspath(self.vocab_file) != os.path.abspath(_snake_case):
copyfile(self.vocab_file , _snake_case)
return (out_vocab_file,)
| 51
|
def A (__A : list , __A : int , __A : int = 0 , __A : int = 0 ) -> int:
"""simple docstring"""
UpperCAmelCase_ = right or len(__A ) - 1
if left > right:
return -1
elif list_data[left] == key:
return left
elif list_data[right] == key:
return right
else:
return search(__A , __A , left + 1 , right - 1 )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 51
| 1
|
from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available
snake_case_ : Any = {
"configuration_git": ["GIT_PRETRAINED_CONFIG_ARCHIVE_MAP", "GitConfig", "GitVisionConfig"],
"processing_git": ["GitProcessor"],
}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Tuple = [
"GIT_PRETRAINED_MODEL_ARCHIVE_LIST",
"GitForCausalLM",
"GitModel",
"GitPreTrainedModel",
"GitVisionModel",
]
if TYPE_CHECKING:
from .configuration_git import GIT_PRETRAINED_CONFIG_ARCHIVE_MAP, GitConfig, GitVisionConfig
from .processing_git import GitProcessor
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_git import (
GIT_PRETRAINED_MODEL_ARCHIVE_LIST,
GitForCausalLM,
GitModel,
GitPreTrainedModel,
GitVisionModel,
)
else:
import sys
snake_case_ : int = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 51
|
from ...configuration_utils import PretrainedConfig
from ...utils import logging
snake_case_ : int = logging.get_logger(__name__)
snake_case_ : str = {}
class __snake_case ( a ):
UpperCAmelCase__ : str = '''llama'''
UpperCAmelCase__ : Dict = ['''past_key_values''']
def __init__( self : str , _snake_case : List[str]=32000 , _snake_case : int=4096 , _snake_case : List[str]=11008 , _snake_case : Optional[int]=32 , _snake_case : List[Any]=32 , _snake_case : Tuple=None , _snake_case : int="silu" , _snake_case : List[Any]=2048 , _snake_case : List[str]=0.0_2 , _snake_case : Any=1e-6 , _snake_case : List[str]=True , _snake_case : Optional[Any]=0 , _snake_case : Dict=1 , _snake_case : List[Any]=2 , _snake_case : str=1 , _snake_case : Union[str, Any]=False , _snake_case : str=None , **_snake_case : List[Any] , ):
"""simple docstring"""
UpperCAmelCase_ = vocab_size
UpperCAmelCase_ = max_position_embeddings
UpperCAmelCase_ = hidden_size
UpperCAmelCase_ = intermediate_size
UpperCAmelCase_ = num_hidden_layers
UpperCAmelCase_ = num_attention_heads
# for backward compatibility
if num_key_value_heads is None:
UpperCAmelCase_ = num_attention_heads
UpperCAmelCase_ = num_key_value_heads
UpperCAmelCase_ = hidden_act
UpperCAmelCase_ = initializer_range
UpperCAmelCase_ = rms_norm_eps
UpperCAmelCase_ = pretraining_tp
UpperCAmelCase_ = use_cache
UpperCAmelCase_ = rope_scaling
self._rope_scaling_validation()
super().__init__(
pad_token_id=_snake_case , bos_token_id=_snake_case , eos_token_id=_snake_case , tie_word_embeddings=_snake_case , **_snake_case , )
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
if self.rope_scaling is None:
return
if not isinstance(self.rope_scaling , _snake_case) or len(self.rope_scaling) != 2:
raise ValueError(
'''`rope_scaling` must be a dictionary with with two fields, `name` and `factor`, '''
F"""got {self.rope_scaling}""")
UpperCAmelCase_ = self.rope_scaling.get('''type''' , _snake_case)
UpperCAmelCase_ = self.rope_scaling.get('''factor''' , _snake_case)
if rope_scaling_type is None or rope_scaling_type not in ["linear", "dynamic"]:
raise ValueError(
F"""`rope_scaling`'s name field must be one of ['linear', 'dynamic'], got {rope_scaling_type}""")
if rope_scaling_factor is None or not isinstance(_snake_case , _snake_case) or rope_scaling_factor <= 1.0:
raise ValueError(F"""`rope_scaling`'s factor field must be an float > 1, got {rope_scaling_factor}""")
| 51
| 1
|
def A (__A : int , __A : int ) -> int:
"""simple docstring"""
return int((input_a, input_a).count(1 ) != 0 )
def A () -> None:
"""simple docstring"""
assert or_gate(0 , 0 ) == 0
assert or_gate(0 , 1 ) == 1
assert or_gate(1 , 0 ) == 1
assert or_gate(1 , 1 ) == 1
if __name__ == "__main__":
print(or_gate(0, 1))
print(or_gate(1, 0))
print(or_gate(0, 0))
print(or_gate(1, 1))
| 51
|
from collections import OrderedDict
from typing import Any, List, Mapping, Optional
from ... import PreTrainedTokenizer, TensorType, is_torch_available
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfigWithPast, PatchingSpec
from ...utils import logging
snake_case_ : List[str] = logging.get_logger(__name__)
snake_case_ : Tuple = {
"Salesforce/codegen-350M-nl": "https://huggingface.co/Salesforce/codegen-350M-nl/resolve/main/config.json",
"Salesforce/codegen-350M-multi": "https://huggingface.co/Salesforce/codegen-350M-multi/resolve/main/config.json",
"Salesforce/codegen-350M-mono": "https://huggingface.co/Salesforce/codegen-350M-mono/resolve/main/config.json",
"Salesforce/codegen-2B-nl": "https://huggingface.co/Salesforce/codegen-2B-nl/resolve/main/config.json",
"Salesforce/codegen-2B-multi": "https://huggingface.co/Salesforce/codegen-2B-multi/resolve/main/config.json",
"Salesforce/codegen-2B-mono": "https://huggingface.co/Salesforce/codegen-2B-mono/resolve/main/config.json",
"Salesforce/codegen-6B-nl": "https://huggingface.co/Salesforce/codegen-6B-nl/resolve/main/config.json",
"Salesforce/codegen-6B-multi": "https://huggingface.co/Salesforce/codegen-6B-multi/resolve/main/config.json",
"Salesforce/codegen-6B-mono": "https://huggingface.co/Salesforce/codegen-6B-mono/resolve/main/config.json",
"Salesforce/codegen-16B-nl": "https://huggingface.co/Salesforce/codegen-16B-nl/resolve/main/config.json",
"Salesforce/codegen-16B-multi": "https://huggingface.co/Salesforce/codegen-16B-multi/resolve/main/config.json",
"Salesforce/codegen-16B-mono": "https://huggingface.co/Salesforce/codegen-16B-mono/resolve/main/config.json",
}
class __snake_case ( a ):
UpperCAmelCase__ : str = '''codegen'''
UpperCAmelCase__ : int = {
'''max_position_embeddings''': '''n_positions''',
'''hidden_size''': '''n_embd''',
'''num_attention_heads''': '''n_head''',
'''num_hidden_layers''': '''n_layer''',
}
def __init__( self : Union[str, Any] , _snake_case : Union[str, Any]=50400 , _snake_case : Optional[int]=2048 , _snake_case : Union[str, Any]=2048 , _snake_case : List[str]=4096 , _snake_case : Any=28 , _snake_case : List[str]=16 , _snake_case : int=64 , _snake_case : Tuple=None , _snake_case : Dict="gelu_new" , _snake_case : Union[str, Any]=0.0 , _snake_case : Optional[Any]=0.0 , _snake_case : List[Any]=0.0 , _snake_case : List[Any]=1e-5 , _snake_case : List[str]=0.0_2 , _snake_case : Optional[Any]=True , _snake_case : int=50256 , _snake_case : Tuple=50256 , _snake_case : int=False , **_snake_case : Any , ):
"""simple docstring"""
UpperCAmelCase_ = vocab_size
UpperCAmelCase_ = n_ctx
UpperCAmelCase_ = n_positions
UpperCAmelCase_ = n_embd
UpperCAmelCase_ = n_layer
UpperCAmelCase_ = n_head
UpperCAmelCase_ = n_inner
UpperCAmelCase_ = rotary_dim
UpperCAmelCase_ = activation_function
UpperCAmelCase_ = resid_pdrop
UpperCAmelCase_ = embd_pdrop
UpperCAmelCase_ = attn_pdrop
UpperCAmelCase_ = layer_norm_epsilon
UpperCAmelCase_ = initializer_range
UpperCAmelCase_ = use_cache
UpperCAmelCase_ = bos_token_id
UpperCAmelCase_ = eos_token_id
super().__init__(
bos_token_id=_snake_case , eos_token_id=_snake_case , tie_word_embeddings=_snake_case , **_snake_case)
class __snake_case ( a ):
def __init__( self : Tuple , _snake_case : PretrainedConfig , _snake_case : str = "default" , _snake_case : List[PatchingSpec] = None , _snake_case : bool = False , ):
"""simple docstring"""
super().__init__(_snake_case , task=_snake_case , patching_specs=_snake_case , use_past=_snake_case)
if not getattr(self._config , '''pad_token_id''' , _snake_case):
# TODO: how to do that better?
UpperCAmelCase_ = 0
@property
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = OrderedDict({'''input_ids''': {0: '''batch''', 1: '''sequence'''}})
if self.use_past:
self.fill_with_past_key_values_(_snake_case , direction='''inputs''')
UpperCAmelCase_ = {0: '''batch''', 1: '''past_sequence + sequence'''}
else:
UpperCAmelCase_ = {0: '''batch''', 1: '''sequence'''}
return common_inputs
@property
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
return self._config.n_layer
@property
def lowerCamelCase ( self : int):
"""simple docstring"""
return self._config.n_head
def lowerCamelCase ( self : Optional[int] , _snake_case : PreTrainedTokenizer , _snake_case : int = -1 , _snake_case : int = -1 , _snake_case : bool = False , _snake_case : Optional[TensorType] = None , ):
"""simple docstring"""
UpperCAmelCase_ = super(_snake_case , self).generate_dummy_inputs(
_snake_case , batch_size=_snake_case , seq_length=_snake_case , is_pair=_snake_case , framework=_snake_case)
# We need to order the input in the way they appears in the forward()
UpperCAmelCase_ = 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
UpperCAmelCase_ , UpperCAmelCase_ = common_inputs['''input_ids'''].shape
# Not using the same length for past_key_values
UpperCAmelCase_ = seqlen + 2
UpperCAmelCase_ = (
batch,
self.num_attention_heads,
past_key_values_length,
self._config.hidden_size // self.num_attention_heads,
)
UpperCAmelCase_ = [
(torch.zeros(_snake_case), torch.zeros(_snake_case)) for _ in range(self.num_layers)
]
UpperCAmelCase_ = common_inputs['''attention_mask''']
if self.use_past:
UpperCAmelCase_ = ordered_inputs['''attention_mask'''].dtype
UpperCAmelCase_ = torch.cat(
[ordered_inputs['''attention_mask'''], torch.ones(_snake_case , _snake_case , dtype=_snake_case)] , dim=1)
return ordered_inputs
@property
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
return 13
| 51
| 1
|
from typing import List
import numpy as np
def A (__A : dict ) -> int:
"""simple docstring"""
UpperCAmelCase_ = {key: len(__A ) for key, value in gen_kwargs.items() if isinstance(__A , __A )}
if len(set(lists_lengths.values() ) ) > 1:
raise RuntimeError(
(
'''Sharding is ambiguous for this dataset: '''
+ '''we found several data sources lists of different lengths, and we don\'t know over which list we should parallelize:\n'''
+ '''\n'''.join(F"""\t- key {key} has length {length}""" for key, length in lists_lengths.items() )
+ '''\nTo fix this, check the \'gen_kwargs\' and make sure to use lists only for data sources, '''
+ '''and use tuples otherwise. In the end there should only be one single list, or several lists with the same length.'''
) )
UpperCAmelCase_ = max(lists_lengths.values() , default=0 )
return max(1 , __A )
def A (__A : int , __A : int ) -> List[range]:
"""simple docstring"""
UpperCAmelCase_ = []
for group_idx in range(__A ):
UpperCAmelCase_ = num_shards // max_num_jobs + (group_idx < (num_shards % max_num_jobs))
if num_shards_to_add == 0:
break
UpperCAmelCase_ = shards_indices_per_group[-1].stop if shards_indices_per_group else 0
UpperCAmelCase_ = range(__A , start + num_shards_to_add )
shards_indices_per_group.append(__A )
return shards_indices_per_group
def A (__A : dict , __A : int ) -> List[dict]:
"""simple docstring"""
UpperCAmelCase_ = _number_of_shards_in_gen_kwargs(__A )
if num_shards == 1:
return [dict(__A )]
else:
UpperCAmelCase_ = _distribute_shards(num_shards=__A , max_num_jobs=__A )
return [
{
key: [value[shard_idx] for shard_idx in shard_indices_per_group[group_idx]]
if isinstance(__A , __A )
else value
for key, value in gen_kwargs.items()
}
for group_idx in range(len(__A ) )
]
def A (__A : List[dict] ) -> dict:
"""simple docstring"""
return {
key: [value for gen_kwargs in gen_kwargs_list for value in gen_kwargs[key]]
if isinstance(gen_kwargs_list[0][key] , __A )
else gen_kwargs_list[0][key]
for key in gen_kwargs_list[0]
}
def A (__A : np.random.Generator , __A : dict ) -> dict:
"""simple docstring"""
UpperCAmelCase_ = {len(__A ) for value in gen_kwargs.values() if isinstance(__A , __A )}
UpperCAmelCase_ = {}
for size in list_sizes:
UpperCAmelCase_ = list(range(__A ) )
rng.shuffle(indices_per_size[size] )
# Now let's copy the gen_kwargs and shuffle the lists based on their sizes
UpperCAmelCase_ = dict(__A )
for key, value in shuffled_kwargs.items():
if isinstance(__A , __A ):
UpperCAmelCase_ = [value[i] for i in indices_per_size[len(__A )]]
return shuffled_kwargs
| 51
|
import os
import unittest
from transformers.models.phobert.tokenization_phobert import VOCAB_FILES_NAMES, PhobertTokenizer
from ...test_tokenization_common import TokenizerTesterMixin
class __snake_case ( a , unittest.TestCase ):
UpperCAmelCase__ : Any = PhobertTokenizer
UpperCAmelCase__ : List[str] = False
def lowerCamelCase ( self : str):
"""simple docstring"""
super().setUp()
# Adapted from Sennrich et al. 2015 and https://github.com/rsennrich/subword-nmt
UpperCAmelCase_ = ['''T@@''', '''i''', '''I''', '''R@@''', '''r''', '''e@@''']
UpperCAmelCase_ = dict(zip(_snake_case , range(len(_snake_case))))
UpperCAmelCase_ = ['''#version: 0.2''', '''l à</w>''']
UpperCAmelCase_ = {'''unk_token''': '''<unk>'''}
UpperCAmelCase_ = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['''vocab_file'''])
UpperCAmelCase_ = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['''merges_file'''])
with open(self.vocab_file , '''w''' , encoding='''utf-8''') as fp:
for token in vocab_tokens:
fp.write(F"""{token} {vocab_tokens[token]}\n""")
with open(self.merges_file , '''w''' , encoding='''utf-8''') as fp:
fp.write('''\n'''.join(_snake_case))
def lowerCamelCase ( self : int , **_snake_case : Any):
"""simple docstring"""
kwargs.update(self.special_tokens_map)
return PhobertTokenizer.from_pretrained(self.tmpdirname , **_snake_case)
def lowerCamelCase ( self : Optional[Any] , _snake_case : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = '''Tôi là VinAI Research'''
UpperCAmelCase_ = '''T<unk> i <unk> <unk> <unk> <unk> <unk> <unk> I Re<unk> e<unk> <unk> <unk> <unk>'''
return input_text, output_text
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = PhobertTokenizer(self.vocab_file , self.merges_file , **self.special_tokens_map)
UpperCAmelCase_ = '''Tôi là VinAI Research'''
UpperCAmelCase_ = '''T@@ ô@@ i l@@ à V@@ i@@ n@@ A@@ I R@@ e@@ s@@ e@@ a@@ r@@ c@@ h'''.split()
UpperCAmelCase_ = tokenizer.tokenize(_snake_case)
print(_snake_case)
self.assertListEqual(_snake_case , _snake_case)
UpperCAmelCase_ = tokens + [tokenizer.unk_token]
UpperCAmelCase_ = [4, 3, 5, 3, 3, 3, 3, 3, 3, 6, 7, 9, 3, 9, 3, 3, 3, 3, 3]
self.assertListEqual(tokenizer.convert_tokens_to_ids(_snake_case) , _snake_case)
| 51
| 1
|
def A (__A : float , __A : float , __A : int ) -> float:
"""simple docstring"""
if principal <= 0:
raise Exception('''Principal borrowed must be > 0''' )
if rate_per_annum < 0:
raise Exception('''Rate of interest must be >= 0''' )
if years_to_repay <= 0 or not isinstance(__A , __A ):
raise Exception('''Years to repay must be an integer > 0''' )
# Yearly rate is divided by 12 to get monthly rate
UpperCAmelCase_ = rate_per_annum / 12
# Years to repay is multiplied by 12 to get number of payments as payment is monthly
UpperCAmelCase_ = years_to_repay * 12
return (
principal
* rate_per_month
* (1 + rate_per_month) ** number_of_payments
/ ((1 + rate_per_month) ** number_of_payments - 1)
)
if __name__ == "__main__":
import doctest
doctest.testmod()
| 51
|
from typing import List, Optional, TypeVar
from .arrow_dataset import Dataset, _concatenate_map_style_datasets, _interleave_map_style_datasets
from .dataset_dict import DatasetDict, IterableDatasetDict
from .info import DatasetInfo
from .iterable_dataset import IterableDataset, _concatenate_iterable_datasets, _interleave_iterable_datasets
from .splits import NamedSplit
from .utils import logging
from .utils.py_utils import Literal
snake_case_ : Any = logging.get_logger(__name__)
snake_case_ : Optional[int] = TypeVar("DatasetType", Dataset, IterableDataset)
def A (__A : List[DatasetType] , __A : Optional[List[float]] = None , __A : Optional[int] = None , __A : Optional[DatasetInfo] = None , __A : Optional[NamedSplit] = None , __A : Literal["first_exhausted", "all_exhausted"] = "first_exhausted" , ) -> DatasetType:
"""simple docstring"""
from .arrow_dataset import Dataset
from .iterable_dataset import IterableDataset
if not datasets:
raise ValueError('''Unable to interleave an empty list of datasets.''' )
for i, dataset in enumerate(__A ):
if not isinstance(__A , (Dataset, IterableDataset) ):
if isinstance(__A , (DatasetDict, IterableDatasetDict) ):
if not dataset:
raise ValueError(
F"""Expected a list of Dataset objects or a list of IterableDataset objects, but element at position {i} """
'''is an empty dataset dictionary.''' )
raise ValueError(
F"""Dataset at position {i} has at least one split: {list(__A )}\n"""
F"""Please pick one to interleave with the other datasets, for example: dataset['{next(iter(__A ) )}']""" )
raise ValueError(
F"""Expected a list of Dataset objects or a list of IterableDataset objects, but element at position {i} is a {type(__A ).__name__}.""" )
if i == 0:
UpperCAmelCase_ , UpperCAmelCase_ = (
(Dataset, IterableDataset) if isinstance(__A , __A ) else (IterableDataset, Dataset)
)
elif not isinstance(__A , __A ):
raise ValueError(
F"""Unable to interleave a {dataset_type.__name__} (at position 0) with a {other_type.__name__} (at position {i}). Expected a list of Dataset objects or a list of IterableDataset objects.""" )
if stopping_strategy not in ["first_exhausted", "all_exhausted"]:
raise ValueError(F"""{stopping_strategy} is not supported. Please enter a valid stopping_strategy.""" )
if dataset_type is Dataset:
return _interleave_map_style_datasets(
__A , __A , __A , info=__A , split=__A , stopping_strategy=__A )
else:
return _interleave_iterable_datasets(
__A , __A , __A , info=__A , split=__A , stopping_strategy=__A )
def A (__A : List[DatasetType] , __A : Optional[DatasetInfo] = None , __A : Optional[NamedSplit] = None , __A : int = 0 , ) -> DatasetType:
"""simple docstring"""
if not dsets:
raise ValueError('''Unable to concatenate an empty list of datasets.''' )
for i, dataset in enumerate(__A ):
if not isinstance(__A , (Dataset, IterableDataset) ):
if isinstance(__A , (DatasetDict, IterableDatasetDict) ):
if not dataset:
raise ValueError(
F"""Expected a list of Dataset objects or a list of IterableDataset objects, but element at position {i} """
'''is an empty dataset dictionary.''' )
raise ValueError(
F"""Dataset at position {i} has at least one split: {list(__A )}\n"""
F"""Please pick one to interleave with the other datasets, for example: dataset['{next(iter(__A ) )}']""" )
raise ValueError(
F"""Expected a list of Dataset objects or a list of IterableDataset objects, but element at position {i} is a {type(__A ).__name__}.""" )
if i == 0:
UpperCAmelCase_ , UpperCAmelCase_ = (
(Dataset, IterableDataset) if isinstance(__A , __A ) else (IterableDataset, Dataset)
)
elif not isinstance(__A , __A ):
raise ValueError(
F"""Unable to interleave a {dataset_type.__name__} (at position 0) with a {other_type.__name__} (at position {i}). Expected a list of Dataset objects or a list of IterableDataset objects.""" )
if dataset_type is Dataset:
return _concatenate_map_style_datasets(__A , info=__A , split=__A , axis=__A )
else:
return _concatenate_iterable_datasets(__A , info=__A , split=__A , axis=__A )
| 51
| 1
|
from ...utils import (
OptionalDependencyNotAvailable,
is_flax_available,
is_torch_available,
is_transformers_available,
)
try:
if not (is_transformers_available() and is_torch_available()):
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
from ...utils.dummy_torch_and_transformers_objects import * # noqa F403
else:
from .multicontrolnet import MultiControlNetModel
from .pipeline_controlnet import StableDiffusionControlNetPipeline
from .pipeline_controlnet_imgaimg import StableDiffusionControlNetImgaImgPipeline
from .pipeline_controlnet_inpaint import StableDiffusionControlNetInpaintPipeline
if is_transformers_available() and is_flax_available():
from .pipeline_flax_controlnet import FlaxStableDiffusionControlNetPipeline
| 51
|
import json
import os
import re
import shutil
import tempfile
import unittest
from typing import Tuple
from transformers import AddedToken, BatchEncoding, ByTaTokenizer
from transformers.utils import cached_property, is_tf_available, is_torch_available
from ...test_tokenization_common import TokenizerTesterMixin
if is_torch_available():
snake_case_ : Optional[Any] = "pt"
elif is_tf_available():
snake_case_ : Union[str, Any] = "tf"
else:
snake_case_ : str = "jax"
class __snake_case ( a , unittest.TestCase ):
UpperCAmelCase__ : List[Any] = ByTaTokenizer
UpperCAmelCase__ : int = False
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
super().setUp()
UpperCAmelCase_ = ByTaTokenizer()
tokenizer.save_pretrained(self.tmpdirname)
@cached_property
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
return ByTaTokenizer.from_pretrained('''google/byt5-small''')
def lowerCamelCase ( self : List[str] , **_snake_case : Union[str, Any]):
"""simple docstring"""
return self.tokenizer_class.from_pretrained(self.tmpdirname , **_snake_case)
def lowerCamelCase ( self : Dict , _snake_case : int , _snake_case : Tuple=False , _snake_case : Dict=20 , _snake_case : Optional[Any]=5):
"""simple docstring"""
UpperCAmelCase_ = []
for i in range(len(_snake_case)):
try:
UpperCAmelCase_ = tokenizer.decode([i] , clean_up_tokenization_spaces=_snake_case)
except UnicodeDecodeError:
pass
toks.append((i, tok))
UpperCAmelCase_ = list(filter(lambda _snake_case: re.match(r'''^[ a-zA-Z]+$''' , t[1]) , _snake_case))
UpperCAmelCase_ = list(filter(lambda _snake_case: [t[0]] == tokenizer.encode(t[1] , add_special_tokens=_snake_case) , _snake_case))
if max_length is not None and len(_snake_case) > max_length:
UpperCAmelCase_ = toks[:max_length]
if min_length is not None and len(_snake_case) < min_length and len(_snake_case) > 0:
while len(_snake_case) < min_length:
UpperCAmelCase_ = toks + toks
# toks_str = [t[1] for t in toks]
UpperCAmelCase_ = [t[0] for t in toks]
# Ensure consistency
UpperCAmelCase_ = tokenizer.decode(_snake_case , clean_up_tokenization_spaces=_snake_case)
if " " not in output_txt and len(_snake_case) > 1:
UpperCAmelCase_ = (
tokenizer.decode([toks_ids[0]] , clean_up_tokenization_spaces=_snake_case)
+ ''' '''
+ tokenizer.decode(toks_ids[1:] , clean_up_tokenization_spaces=_snake_case)
)
if with_prefix_space:
UpperCAmelCase_ = ''' ''' + output_txt
UpperCAmelCase_ = tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
return output_txt, output_ids
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = tokenizer(['''hi</s>''', '''I went to the gym</s>''', '''</s>'''])
UpperCAmelCase_ = tokenizer(['''hi''', '''I went to the gym''', ''''''])
self.assertListEqual(batch_with_eos_added['''input_ids'''] , batch_without_eos_added['''input_ids'''])
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = '''Unicode €.'''
UpperCAmelCase_ = tokenizer(_snake_case)
UpperCAmelCase_ = [88, 113, 108, 102, 114, 103, 104, 35, 229, 133, 175, 49, 1]
self.assertEqual(encoded['''input_ids'''] , _snake_case)
# decoding
UpperCAmelCase_ = tokenizer.decode(_snake_case)
self.assertEqual(_snake_case , '''Unicode €.</s>''')
UpperCAmelCase_ = tokenizer('''e è é ê ë''')
UpperCAmelCase_ = [104, 35, 198, 171, 35, 198, 172, 35, 198, 173, 35, 198, 174, 1]
self.assertEqual(encoded['''input_ids'''] , _snake_case)
# decoding
UpperCAmelCase_ = tokenizer.decode(_snake_case)
self.assertEqual(_snake_case , '''e è é ê ë</s>''')
# encode/decode, but with `encode` instead of `__call__`
self.assertEqual(tokenizer.decode(tokenizer.encode('''e è é ê ë''')) , '''e è é ê ë</s>''')
def lowerCamelCase ( self : Any):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = ['''A long paragraph for summarization.''', '''Another paragraph for summarization.''']
# fmt: off
UpperCAmelCase_ = [68, 35, 111, 114, 113, 106, 35, 115, 100, 117, 100, 106, 117, 100, 115, 107, 35, 105, 114, 117, 35, 118, 120, 112, 112, 100, 117, 108, 125, 100, 119, 108, 114, 113, 49, 1, 0]
# fmt: on
UpperCAmelCase_ = tokenizer(_snake_case , padding=_snake_case , return_tensors=_snake_case)
self.assertIsInstance(_snake_case , _snake_case)
if FRAMEWORK != "jax":
UpperCAmelCase_ = list(batch.input_ids.numpy()[0])
else:
UpperCAmelCase_ = list(batch.input_ids.tolist()[0])
self.assertListEqual(_snake_case , _snake_case)
self.assertEqual((2, 37) , batch.input_ids.shape)
self.assertEqual((2, 37) , batch.attention_mask.shape)
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = ['''A long paragraph for summarization.''', '''Another paragraph for summarization.''']
UpperCAmelCase_ = tokenizer(_snake_case , padding=_snake_case , return_tensors=_snake_case)
# check if input_ids are returned and no decoder_input_ids
self.assertIn('''input_ids''' , _snake_case)
self.assertIn('''attention_mask''' , _snake_case)
self.assertNotIn('''decoder_input_ids''' , _snake_case)
self.assertNotIn('''decoder_attention_mask''' , _snake_case)
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = [
'''Summary of the text.''',
'''Another summary.''',
]
UpperCAmelCase_ = tokenizer(
text_target=_snake_case , max_length=32 , padding='''max_length''' , truncation=_snake_case , return_tensors=_snake_case)
self.assertEqual(32 , targets['''input_ids'''].shape[1])
def lowerCamelCase ( self : int):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = ['''A long paragraph for summarization. </s>''']
UpperCAmelCase_ = ['''Summary of the text. </s>''']
# fmt: off
UpperCAmelCase_ = [68, 35, 111, 114, 113, 106, 35, 115, 100, 117, 100, 106, 117, 100, 115, 107, 35, 105, 114, 117, 35, 118, 120, 112, 112, 100, 117, 108, 125, 100, 119, 108, 114, 113, 49, 35, 1]
UpperCAmelCase_ = [86, 120, 112, 112, 100, 117, 124, 35, 114, 105, 35, 119, 107, 104, 35, 119, 104, 123, 119, 49, 35, 1]
# fmt: on
UpperCAmelCase_ = tokenizer(_snake_case , text_target=_snake_case)
self.assertEqual(_snake_case , batch['''input_ids'''][0])
self.assertEqual(_snake_case , batch['''labels'''][0])
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = self.get_tokenizers()
for tokenizer in tokenizers:
with self.subTest(F"""{tokenizer.__class__.__name__}"""):
self.assertNotEqual(tokenizer.model_max_length , 42)
# Now let's start the test
UpperCAmelCase_ = self.get_tokenizers()
for tokenizer in tokenizers:
with self.subTest(F"""{tokenizer.__class__.__name__}"""):
# Isolate this from the other tests because we save additional tokens/etc
UpperCAmelCase_ = tempfile.mkdtemp()
UpperCAmelCase_ = ''' He is very happy, UNwant\u00E9d,running'''
UpperCAmelCase_ = tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
tokenizer.save_pretrained(_snake_case)
UpperCAmelCase_ = tokenizer.__class__.from_pretrained(_snake_case)
UpperCAmelCase_ = after_tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
self.assertListEqual(_snake_case , _snake_case)
shutil.rmtree(_snake_case)
UpperCAmelCase_ = self.get_tokenizers(model_max_length=42)
for tokenizer in tokenizers:
with self.subTest(F"""{tokenizer.__class__.__name__}"""):
# Isolate this from the other tests because we save additional tokens/etc
UpperCAmelCase_ = tempfile.mkdtemp()
UpperCAmelCase_ = ''' He is very happy, UNwant\u00E9d,running'''
tokenizer.add_tokens(['''bim''', '''bambam'''])
UpperCAmelCase_ = tokenizer.additional_special_tokens
additional_special_tokens.append('''new_additional_special_token''')
tokenizer.add_special_tokens({'''additional_special_tokens''': additional_special_tokens})
UpperCAmelCase_ = tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
tokenizer.save_pretrained(_snake_case)
UpperCAmelCase_ = tokenizer.__class__.from_pretrained(_snake_case)
UpperCAmelCase_ = after_tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
self.assertListEqual(_snake_case , _snake_case)
self.assertIn('''new_additional_special_token''' , after_tokenizer.additional_special_tokens)
self.assertEqual(after_tokenizer.model_max_length , 42)
UpperCAmelCase_ = tokenizer.__class__.from_pretrained(_snake_case , model_max_length=43)
self.assertEqual(tokenizer.model_max_length , 43)
shutil.rmtree(_snake_case)
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = []
if self.test_slow_tokenizer:
tokenizer_list.append((self.tokenizer_class, self.get_tokenizer()))
if self.test_rust_tokenizer:
tokenizer_list.append((self.rust_tokenizer_class, self.get_rust_tokenizer()))
for tokenizer_class, tokenizer_utils in tokenizer_list:
with tempfile.TemporaryDirectory() as tmp_dir:
tokenizer_utils.save_pretrained(_snake_case)
with open(os.path.join(_snake_case , '''special_tokens_map.json''') , encoding='''utf-8''') as json_file:
UpperCAmelCase_ = json.load(_snake_case)
with open(os.path.join(_snake_case , '''tokenizer_config.json''') , encoding='''utf-8''') as json_file:
UpperCAmelCase_ = json.load(_snake_case)
UpperCAmelCase_ = [F"""<extra_id_{i}>""" for i in range(125)]
UpperCAmelCase_ = added_tokens_extra_ids + [
'''an_additional_special_token'''
]
UpperCAmelCase_ = added_tokens_extra_ids + [
'''an_additional_special_token'''
]
with open(os.path.join(_snake_case , '''special_tokens_map.json''') , '''w''' , encoding='''utf-8''') as outfile:
json.dump(_snake_case , _snake_case)
with open(os.path.join(_snake_case , '''tokenizer_config.json''') , '''w''' , encoding='''utf-8''') as outfile:
json.dump(_snake_case , _snake_case)
# the following checks allow us to verify that our test works as expected, i.e. that the tokenizer takes
# into account the new value of additional_special_tokens given in the "tokenizer_config.json" and
# "special_tokens_map.json" files
UpperCAmelCase_ = tokenizer_class.from_pretrained(
_snake_case , )
self.assertIn(
'''an_additional_special_token''' , tokenizer_without_change_in_init.additional_special_tokens)
# self.assertIn("an_additional_special_token",tokenizer_without_change_in_init.get_vocab()) # ByT5Tokenization no vocab
self.assertEqual(
['''an_additional_special_token'''] , tokenizer_without_change_in_init.convert_ids_to_tokens(
tokenizer_without_change_in_init.convert_tokens_to_ids(['''an_additional_special_token'''])) , )
# Now we test that we can change the value of additional_special_tokens in the from_pretrained
UpperCAmelCase_ = added_tokens_extra_ids + [AddedToken('''a_new_additional_special_token''' , lstrip=_snake_case)]
UpperCAmelCase_ = tokenizer_class.from_pretrained(
_snake_case , additional_special_tokens=_snake_case , )
self.assertIn('''a_new_additional_special_token''' , tokenizer.additional_special_tokens)
self.assertEqual(
['''a_new_additional_special_token'''] , tokenizer.convert_ids_to_tokens(
tokenizer.convert_tokens_to_ids(['''a_new_additional_special_token'''])) , )
def lowerCamelCase ( self : Any):
"""simple docstring"""
UpperCAmelCase_ = []
if self.test_slow_tokenizer:
tokenizer_list.append((self.tokenizer_class, self.get_tokenizer()))
if self.test_rust_tokenizer:
tokenizer_list.append((self.rust_tokenizer_class, self.get_rust_tokenizer()))
for tokenizer_class, tokenizer_utils in tokenizer_list:
with tempfile.TemporaryDirectory() as tmp_dir:
tokenizer_utils.save_pretrained(_snake_case)
UpperCAmelCase_ = tokenizer_class.from_pretrained(_snake_case)
self.assertTrue(tokenizer.decode([255]) == '''''')
def lowerCamelCase ( self : int):
"""simple docstring"""
pass
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
pass
def lowerCamelCase ( self : Dict):
"""simple docstring"""
pass
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
pass
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = self.get_tokenizers(fast=_snake_case , do_lower_case=_snake_case)
for tokenizer in tokenizers:
with self.subTest(F"""{tokenizer.__class__.__name__}"""):
UpperCAmelCase_ = ['''t''', '''h''', '''i''', '''s''', ''' ''', '''i''', '''s''', ''' ''', '''a''', ''' ''', '''t''', '''e''', '''x''', '''t''', '''</s>''']
UpperCAmelCase_ = tokenizer.convert_tokens_to_string(_snake_case)
self.assertIsInstance(_snake_case , _snake_case)
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = self.get_tokenizers()
for tokenizer in tokenizers:
with self.subTest(F"""{tokenizer.__class__.__name__}"""):
UpperCAmelCase_ = [
'''bos_token''',
'''eos_token''',
'''unk_token''',
'''sep_token''',
'''pad_token''',
'''cls_token''',
'''mask_token''',
]
UpperCAmelCase_ = 0
UpperCAmelCase_ = tokenizer.convert_ids_to_tokens(
_snake_case , skip_special_tokens=_snake_case)
for attr in attributes_list:
setattr(_snake_case , attr + '''_id''' , _snake_case)
self.assertEqual(getattr(_snake_case , _snake_case) , _snake_case)
self.assertEqual(getattr(_snake_case , attr + '''_id''') , _snake_case)
setattr(_snake_case , attr + '''_id''' , _snake_case)
self.assertEqual(getattr(_snake_case , _snake_case) , _snake_case)
self.assertEqual(getattr(_snake_case , attr + '''_id''') , _snake_case)
setattr(_snake_case , '''additional_special_tokens_ids''' , [])
self.assertListEqual(getattr(_snake_case , '''additional_special_tokens''') , [])
self.assertListEqual(getattr(_snake_case , '''additional_special_tokens_ids''') , [])
setattr(_snake_case , '''additional_special_tokens_ids''' , [token_id_to_test_setters])
self.assertListEqual(getattr(_snake_case , '''additional_special_tokens''') , [token_to_test_setters])
self.assertListEqual(getattr(_snake_case , '''additional_special_tokens_ids''') , [token_id_to_test_setters])
| 51
| 1
|
import asyncio
import os
import shutil
import subprocess
import sys
import tempfile
import unittest
from distutils.util import strtobool
from functools import partial
from pathlib import Path
from typing import List, Union
from unittest import mock
import torch
from ..state import AcceleratorState, PartialState
from ..utils import (
gather,
is_bnb_available,
is_comet_ml_available,
is_datasets_available,
is_deepspeed_available,
is_mps_available,
is_safetensors_available,
is_tensorboard_available,
is_torch_version,
is_tpu_available,
is_transformers_available,
is_wandb_available,
is_xpu_available,
)
def A (__A : List[str] , __A : Optional[Any]=False ) -> List[Any]:
"""simple docstring"""
try:
UpperCAmelCase_ = os.environ[key]
except KeyError:
# KEY isn't set, default to `default`.
UpperCAmelCase_ = default
else:
# KEY is set, convert it to True or False.
try:
UpperCAmelCase_ = strtobool(__A )
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
snake_case_ : Any = parse_flag_from_env("RUN_SLOW", default=False)
def A (__A : Any ) -> Tuple:
"""simple docstring"""
return unittest.skip('''Test was skipped''' )(__A )
def A (__A : int ) -> Dict:
"""simple docstring"""
return unittest.skipUnless(_run_slow_tests , '''test is slow''' )(__A )
def A (__A : Dict ) -> int:
"""simple docstring"""
return unittest.skipUnless(not torch.cuda.is_available() , '''test requires only a CPU''' )(__A )
def A (__A : Dict ) -> Tuple:
"""simple docstring"""
return unittest.skipUnless(torch.cuda.is_available() , '''test requires a GPU''' )(__A )
def A (__A : Optional[Any] ) -> Any:
"""simple docstring"""
return unittest.skipUnless(is_xpu_available() , '''test requires a XPU''' )(__A )
def A (__A : List[Any] ) -> str:
"""simple docstring"""
return unittest.skipUnless(is_mps_available() , '''test requires a `mps` backend support in `torch`''' )(__A )
def A (__A : int ) -> Optional[int]:
"""simple docstring"""
return unittest.skipUnless(
is_transformers_available() and is_datasets_available() , '''test requires the Hugging Face suite''' )(__A )
def A (__A : Any ) -> List[Any]:
"""simple docstring"""
return unittest.skipUnless(is_bnb_available() , '''test requires the bitsandbytes library''' )(__A )
def A (__A : List[Any] ) -> List[str]:
"""simple docstring"""
return unittest.skipUnless(is_tpu_available() , '''test requires TPU''' )(__A )
def A (__A : List[Any] ) -> Optional[Any]:
"""simple docstring"""
return unittest.skipUnless(torch.cuda.device_count() == 1 , '''test requires a GPU''' )(__A )
def A (__A : List[str] ) -> List[str]:
"""simple docstring"""
return unittest.skipUnless(torch.xpu.device_count() == 1 , '''test requires a XPU''' )(__A )
def A (__A : Optional[int] ) -> Union[str, Any]:
"""simple docstring"""
return unittest.skipUnless(torch.cuda.device_count() > 1 , '''test requires multiple GPUs''' )(__A )
def A (__A : Optional[Any] ) -> Union[str, Any]:
"""simple docstring"""
return unittest.skipUnless(torch.xpu.device_count() > 1 , '''test requires multiple XPUs''' )(__A )
def A (__A : Union[str, Any] ) -> int:
"""simple docstring"""
return unittest.skipUnless(is_safetensors_available() , '''test requires safetensors''' )(__A )
def A (__A : Dict ) -> Optional[int]:
"""simple docstring"""
return unittest.skipUnless(is_deepspeed_available() , '''test requires DeepSpeed''' )(__A )
def A (__A : Union[str, Any] ) -> str:
"""simple docstring"""
return unittest.skipUnless(is_torch_version('''>=''' , '''1.12.0''' ) , '''test requires torch version >= 1.12.0''' )(__A )
def A (__A : Any=None , __A : List[Any]=None ) -> List[str]:
"""simple docstring"""
if test_case is None:
return partial(__A , version=__A )
return unittest.skipUnless(is_torch_version('''>=''' , __A ) , F"""test requires torch version >= {version}""" )(__A )
def A (__A : Union[str, Any] ) -> Any:
"""simple docstring"""
return unittest.skipUnless(is_tensorboard_available() , '''test requires Tensorboard''' )(__A )
def A (__A : Union[str, Any] ) -> str:
"""simple docstring"""
return unittest.skipUnless(is_wandb_available() , '''test requires wandb''' )(__A )
def A (__A : Any ) -> Optional[Any]:
"""simple docstring"""
return unittest.skipUnless(is_comet_ml_available() , '''test requires comet_ml''' )(__A )
snake_case_ : Optional[int] = (
any([is_wandb_available(), is_tensorboard_available()]) and not is_comet_ml_available()
)
def A (__A : Union[str, Any] ) -> Tuple:
"""simple docstring"""
return unittest.skipUnless(
_atleast_one_tracker_available , '''test requires at least one tracker to be available and for `comet_ml` to not be installed''' , )(__A )
class __snake_case ( unittest.TestCase ):
UpperCAmelCase__ : List[Any] = True
@classmethod
def lowerCamelCase ( cls : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = tempfile.mkdtemp()
@classmethod
def lowerCamelCase ( cls : Dict):
"""simple docstring"""
if os.path.exists(cls.tmpdir):
shutil.rmtree(cls.tmpdir)
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
if self.clear_on_setup:
for path in Path(self.tmpdir).glob('''**/*'''):
if path.is_file():
path.unlink()
elif path.is_dir():
shutil.rmtree(_snake_case)
class __snake_case ( unittest.TestCase ):
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
super().tearDown()
# Reset the state of the AcceleratorState singleton.
AcceleratorState._reset_state()
PartialState._reset_state()
class __snake_case ( unittest.TestCase ):
def lowerCamelCase ( self : Optional[Any] , _snake_case : Union[mock.Mock, List[mock.Mock]]):
"""simple docstring"""
UpperCAmelCase_ = mocks if isinstance(_snake_case , (tuple, list)) else [mocks]
for m in self.mocks:
m.start()
self.addCleanup(m.stop)
def A (__A : Optional[int] ) -> List[str]:
"""simple docstring"""
UpperCAmelCase_ = AcceleratorState()
UpperCAmelCase_ = tensor[None].clone().to(state.device )
UpperCAmelCase_ = gather(__A ).cpu()
UpperCAmelCase_ = tensor[0].cpu()
for i in range(tensors.shape[0] ):
if not torch.equal(tensors[i] , __A ):
return False
return True
class __snake_case :
def __init__( self : List[Any] , _snake_case : Optional[Any] , _snake_case : List[Any] , _snake_case : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = returncode
UpperCAmelCase_ = stdout
UpperCAmelCase_ = stderr
async def A (__A : List[Any] , __A : Union[str, Any] ) -> Tuple:
"""simple docstring"""
while True:
UpperCAmelCase_ = await stream.readline()
if line:
callback(__A )
else:
break
async def A (__A : Optional[int] , __A : Optional[int]=None , __A : Any=None , __A : List[Any]=None , __A : Any=False , __A : Optional[int]=False ) -> _RunOutput:
"""simple docstring"""
if echo:
print('''\nRunning: ''' , ''' '''.join(__A ) )
UpperCAmelCase_ = await asyncio.create_subprocess_exec(
cmd[0] , *cmd[1:] , stdin=__A , stdout=asyncio.subprocess.PIPE , stderr=asyncio.subprocess.PIPE , env=__A , )
# 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)
UpperCAmelCase_ = []
UpperCAmelCase_ = []
def tee(__A : Optional[int] , __A : List[Any] , __A : str , __A : Any="" ):
UpperCAmelCase_ = line.decode('''utf-8''' ).rstrip()
sink.append(__A )
if not quiet:
print(__A , __A , file=__A )
# XXX: the timeout doesn't seem to make any difference here
await asyncio.wait(
[
asyncio.create_task(_read_stream(p.stdout , lambda __A : tee(__A , __A , sys.stdout , label='''stdout:''' ) ) ),
asyncio.create_task(_read_stream(p.stderr , lambda __A : tee(__A , __A , sys.stderr , label='''stderr:''' ) ) ),
] , timeout=__A , )
return _RunOutput(await p.wait() , __A , __A )
def A (__A : Dict , __A : Any=None , __A : Any=None , __A : List[Any]=180 , __A : Optional[int]=False , __A : Any=True ) -> _RunOutput:
"""simple docstring"""
UpperCAmelCase_ = asyncio.get_event_loop()
UpperCAmelCase_ = loop.run_until_complete(
_stream_subprocess(__A , env=__A , stdin=__A , timeout=__A , quiet=__A , echo=__A ) )
UpperCAmelCase_ = ''' '''.join(__A )
if result.returncode > 0:
UpperCAmelCase_ = '''\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}""" )
return result
class __snake_case ( a ):
pass
def A (__A : List[str] , __A : Tuple=False ) -> Optional[Any]:
"""simple docstring"""
try:
UpperCAmelCase_ = subprocess.check_output(__A , stderr=subprocess.STDOUT )
if return_stdout:
if hasattr(__A , '''decode''' ):
UpperCAmelCase_ = output.decode('''utf-8''' )
return output
except subprocess.CalledProcessError as e:
raise SubprocessCallException(
F"""Command `{" ".join(__A )}` failed with the following error:\n\n{e.output.decode()}""" ) from e
| 51
|
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_sentencepiece_available,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
snake_case_ : Dict = {"configuration_mbart": ["MBART_PRETRAINED_CONFIG_ARCHIVE_MAP", "MBartConfig", "MBartOnnxConfig"]}
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Tuple = ["MBartTokenizer"]
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : str = ["MBartTokenizerFast"]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : List[Any] = [
"MBART_PRETRAINED_MODEL_ARCHIVE_LIST",
"MBartForCausalLM",
"MBartForConditionalGeneration",
"MBartForQuestionAnswering",
"MBartForSequenceClassification",
"MBartModel",
"MBartPreTrainedModel",
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Any = [
"TFMBartForConditionalGeneration",
"TFMBartModel",
"TFMBartPreTrainedModel",
]
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : List[str] = [
"FlaxMBartForConditionalGeneration",
"FlaxMBartForQuestionAnswering",
"FlaxMBartForSequenceClassification",
"FlaxMBartModel",
"FlaxMBartPreTrainedModel",
]
if TYPE_CHECKING:
from .configuration_mbart import MBART_PRETRAINED_CONFIG_ARCHIVE_MAP, MBartConfig, MBartOnnxConfig
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_mbart import MBartTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_mbart_fast import MBartTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_mbart import (
MBART_PRETRAINED_MODEL_ARCHIVE_LIST,
MBartForCausalLM,
MBartForConditionalGeneration,
MBartForQuestionAnswering,
MBartForSequenceClassification,
MBartModel,
MBartPreTrainedModel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_mbart import TFMBartForConditionalGeneration, TFMBartModel, TFMBartPreTrainedModel
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_mbart import (
FlaxMBartForConditionalGeneration,
FlaxMBartForQuestionAnswering,
FlaxMBartForSequenceClassification,
FlaxMBartModel,
FlaxMBartPreTrainedModel,
)
else:
import sys
snake_case_ : Any = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 51
| 1
|
from __future__ import absolute_import, division, print_function, unicode_literals
from torch import nn
from torch.nn import CrossEntropyLoss, MSELoss
from transformers import RobertaConfig
from transformers.file_utils import add_start_docstrings, add_start_docstrings_to_model_forward
from transformers.models.roberta.modeling_roberta import (
ROBERTA_INPUTS_DOCSTRING,
ROBERTA_START_DOCSTRING,
RobertaEmbeddings,
)
from .modeling_highway_bert import BertPreTrainedModel, DeeBertModel, HighwayException, entropy
@add_start_docstrings(
'''The RoBERTa Model transformer with early exiting (DeeRoBERTa). ''' , a , )
class __snake_case ( a ):
UpperCAmelCase__ : List[str] = RobertaConfig
UpperCAmelCase__ : str = '''roberta'''
def __init__( self : Dict , _snake_case : Union[str, Any]):
"""simple docstring"""
super().__init__(_snake_case)
UpperCAmelCase_ = RobertaEmbeddings(_snake_case)
self.init_weights()
@add_start_docstrings(
'''RoBERTa Model (with early exiting - DeeRoBERTa) with a classifier on top,
also takes care of multi-layer training. ''' , a , )
class __snake_case ( a ):
UpperCAmelCase__ : Any = RobertaConfig
UpperCAmelCase__ : Dict = '''roberta'''
def __init__( self : int , _snake_case : Tuple):
"""simple docstring"""
super().__init__(_snake_case)
UpperCAmelCase_ = config.num_labels
UpperCAmelCase_ = config.num_hidden_layers
UpperCAmelCase_ = DeeRobertaModel(_snake_case)
UpperCAmelCase_ = nn.Dropout(config.hidden_dropout_prob)
UpperCAmelCase_ = nn.Linear(config.hidden_size , self.config.num_labels)
@add_start_docstrings_to_model_forward(_snake_case)
def lowerCamelCase ( self : Union[str, Any] , _snake_case : Union[str, Any]=None , _snake_case : Optional[int]=None , _snake_case : Tuple=None , _snake_case : Any=None , _snake_case : List[str]=None , _snake_case : int=None , _snake_case : int=None , _snake_case : Union[str, Any]=-1 , _snake_case : List[str]=False , ):
"""simple docstring"""
UpperCAmelCase_ = self.num_layers
try:
UpperCAmelCase_ = self.roberta(
_snake_case , attention_mask=_snake_case , token_type_ids=_snake_case , position_ids=_snake_case , head_mask=_snake_case , inputs_embeds=_snake_case , )
UpperCAmelCase_ = outputs[1]
UpperCAmelCase_ = self.dropout(_snake_case)
UpperCAmelCase_ = self.classifier(_snake_case)
UpperCAmelCase_ = (logits,) + outputs[2:] # add hidden states and attention if they are here
except HighwayException as e:
UpperCAmelCase_ = e.message
UpperCAmelCase_ = e.exit_layer
UpperCAmelCase_ = outputs[0]
if not self.training:
UpperCAmelCase_ = entropy(_snake_case)
UpperCAmelCase_ = []
UpperCAmelCase_ = []
if labels is not None:
if self.num_labels == 1:
# We are doing regression
UpperCAmelCase_ = MSELoss()
UpperCAmelCase_ = loss_fct(logits.view(-1) , labels.view(-1))
else:
UpperCAmelCase_ = CrossEntropyLoss()
UpperCAmelCase_ = loss_fct(logits.view(-1 , self.num_labels) , labels.view(-1))
# work with highway exits
UpperCAmelCase_ = []
for highway_exit in outputs[-1]:
UpperCAmelCase_ = highway_exit[0]
if not self.training:
highway_logits_all.append(_snake_case)
highway_entropy.append(highway_exit[2])
if self.num_labels == 1:
# We are doing regression
UpperCAmelCase_ = MSELoss()
UpperCAmelCase_ = loss_fct(highway_logits.view(-1) , labels.view(-1))
else:
UpperCAmelCase_ = CrossEntropyLoss()
UpperCAmelCase_ = loss_fct(highway_logits.view(-1 , self.num_labels) , labels.view(-1))
highway_losses.append(_snake_case)
if train_highway:
UpperCAmelCase_ = (sum(highway_losses[:-1]),) + outputs
# exclude the final highway, of course
else:
UpperCAmelCase_ = (loss,) + outputs
if not self.training:
UpperCAmelCase_ = outputs + ((original_entropy, highway_entropy), exit_layer)
if output_layer >= 0:
UpperCAmelCase_ = (
(outputs[0],) + (highway_logits_all[output_layer],) + outputs[2:]
) # use the highway of the last layer
return outputs # (loss), logits, (hidden_states), (attentions), entropy
| 51
|
import warnings
from typing import List, Optional, Union
from ...image_utils import ImageInput
from ...processing_utils import ProcessorMixin
from ...tokenization_utils_base import BatchEncoding, PaddingStrategy, PreTokenizedInput, TextInput, TruncationStrategy
from ...utils import TensorType
class __snake_case ( a ):
UpperCAmelCase__ : Dict = ['''image_processor''', '''tokenizer''']
UpperCAmelCase__ : Dict = '''FlavaImageProcessor'''
UpperCAmelCase__ : Dict = ('''BertTokenizer''', '''BertTokenizerFast''')
def __init__( self : Union[str, Any] , _snake_case : List[str]=None , _snake_case : str=None , **_snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = None
if "feature_extractor" in kwargs:
warnings.warn(
'''The `feature_extractor` argument is deprecated and will be removed in v5, use `image_processor`'''
''' instead.''' , _snake_case , )
UpperCAmelCase_ = kwargs.pop('''feature_extractor''')
UpperCAmelCase_ = image_processor if image_processor is not None else feature_extractor
if image_processor is None:
raise ValueError('''You need to specify an `image_processor`.''')
if tokenizer is None:
raise ValueError('''You need to specify a `tokenizer`.''')
super().__init__(_snake_case , _snake_case)
UpperCAmelCase_ = self.image_processor
def __call__( self : List[Any] , _snake_case : Optional[ImageInput] = None , _snake_case : Optional[Union[TextInput, PreTokenizedInput, List[TextInput], List[PreTokenizedInput]]] = None , _snake_case : bool = True , _snake_case : Union[bool, str, PaddingStrategy] = False , _snake_case : Union[bool, str, TruncationStrategy] = False , _snake_case : Optional[int] = None , _snake_case : int = 0 , _snake_case : Optional[int] = None , _snake_case : Optional[bool] = None , _snake_case : Optional[bool] = None , _snake_case : Optional[bool] = None , _snake_case : Optional[bool] = None , _snake_case : bool = False , _snake_case : bool = False , _snake_case : bool = False , _snake_case : bool = False , _snake_case : bool = True , _snake_case : Optional[Union[str, TensorType]] = None , **_snake_case : Any , ):
"""simple docstring"""
if text is None and images is None:
raise ValueError('''You have to specify either text or images. Both cannot be none.''')
if text is not None:
UpperCAmelCase_ = self.tokenizer(
text=_snake_case , add_special_tokens=_snake_case , padding=_snake_case , truncation=_snake_case , max_length=_snake_case , stride=_snake_case , pad_to_multiple_of=_snake_case , return_token_type_ids=_snake_case , return_attention_mask=_snake_case , return_overflowing_tokens=_snake_case , return_special_tokens_mask=_snake_case , return_offsets_mapping=_snake_case , return_length=_snake_case , verbose=_snake_case , return_tensors=_snake_case , **_snake_case , )
if images is not None:
UpperCAmelCase_ = self.image_processor(
_snake_case , return_image_mask=_snake_case , return_codebook_pixels=_snake_case , return_tensors=_snake_case , **_snake_case , )
if text is not None and images is not None:
encoding.update(_snake_case)
return encoding
elif text is not None:
return encoding
else:
return BatchEncoding(data=dict(**_snake_case) , tensor_type=_snake_case)
def lowerCamelCase ( self : Any , *_snake_case : Optional[Any] , **_snake_case : int):
"""simple docstring"""
return self.tokenizer.batch_decode(*_snake_case , **_snake_case)
def lowerCamelCase ( self : Optional[int] , *_snake_case : int , **_snake_case : Dict):
"""simple docstring"""
return self.tokenizer.decode(*_snake_case , **_snake_case)
@property
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = self.tokenizer.model_input_names
UpperCAmelCase_ = self.image_processor.model_input_names
return list(dict.fromkeys(tokenizer_input_names + image_processor_input_names))
@property
def lowerCamelCase ( self : str):
"""simple docstring"""
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 lowerCamelCase ( self : Any):
"""simple docstring"""
warnings.warn(
'''`feature_extractor` is deprecated and will be removed in v5. Use `image_processor` instead.''' , _snake_case , )
return self.image_processor
| 51
| 1
|
import os
from shutil import copyfile
from typing import List, Optional, Tuple
from ...tokenization_utils import AddedToken
from ...tokenization_utils_fast import PreTrainedTokenizerFast
from ...utils import is_sentencepiece_available, logging
if is_sentencepiece_available():
from .tokenization_big_bird import BigBirdTokenizer
else:
snake_case_ : Union[str, Any] = None
snake_case_ : Union[str, Any] = logging.get_logger(__name__)
snake_case_ : List[str] = {"vocab_file": "spiece.model", "tokenizer_file": "tokenizer.json"}
snake_case_ : Tuple = {
"vocab_file": {
"google/bigbird-roberta-base": "https://huggingface.co/google/bigbird-roberta-base/resolve/main/spiece.model",
"google/bigbird-roberta-large": (
"https://huggingface.co/google/bigbird-roberta-large/resolve/main/spiece.model"
),
"google/bigbird-base-trivia-itc": (
"https://huggingface.co/google/bigbird-base-trivia-itc/resolve/main/spiece.model"
),
},
"tokenizer_file": {
"google/bigbird-roberta-base": (
"https://huggingface.co/google/bigbird-roberta-base/resolve/main/tokenizer.json"
),
"google/bigbird-roberta-large": (
"https://huggingface.co/google/bigbird-roberta-large/resolve/main/tokenizer.json"
),
"google/bigbird-base-trivia-itc": (
"https://huggingface.co/google/bigbird-base-trivia-itc/resolve/main/tokenizer.json"
),
},
}
snake_case_ : Tuple = {
"google/bigbird-roberta-base": 4096,
"google/bigbird-roberta-large": 4096,
"google/bigbird-base-trivia-itc": 4096,
}
snake_case_ : Dict = "▁"
class __snake_case ( a ):
UpperCAmelCase__ : Optional[Any] = VOCAB_FILES_NAMES
UpperCAmelCase__ : Tuple = PRETRAINED_VOCAB_FILES_MAP
UpperCAmelCase__ : List[Any] = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
UpperCAmelCase__ : List[str] = BigBirdTokenizer
UpperCAmelCase__ : Any = ['''input_ids''', '''attention_mask''']
UpperCAmelCase__ : List[int] = []
def __init__( self : List[str] , _snake_case : Dict=None , _snake_case : List[Any]=None , _snake_case : str="<unk>" , _snake_case : Optional[int]="<s>" , _snake_case : Any="</s>" , _snake_case : List[Any]="<pad>" , _snake_case : Tuple="[SEP]" , _snake_case : List[Any]="[MASK]" , _snake_case : str="[CLS]" , **_snake_case : List[Any] , ):
"""simple docstring"""
UpperCAmelCase_ = AddedToken(_snake_case , lstrip=_snake_case , rstrip=_snake_case) if isinstance(_snake_case , _snake_case) else bos_token
UpperCAmelCase_ = AddedToken(_snake_case , lstrip=_snake_case , rstrip=_snake_case) if isinstance(_snake_case , _snake_case) else eos_token
UpperCAmelCase_ = AddedToken(_snake_case , lstrip=_snake_case , rstrip=_snake_case) if isinstance(_snake_case , _snake_case) else unk_token
UpperCAmelCase_ = AddedToken(_snake_case , lstrip=_snake_case , rstrip=_snake_case) if isinstance(_snake_case , _snake_case) else pad_token
UpperCAmelCase_ = AddedToken(_snake_case , lstrip=_snake_case , rstrip=_snake_case) if isinstance(_snake_case , _snake_case) else cls_token
UpperCAmelCase_ = AddedToken(_snake_case , lstrip=_snake_case , rstrip=_snake_case) if isinstance(_snake_case , _snake_case) else sep_token
# Mask token behave like a normal word, i.e. include the space before it
UpperCAmelCase_ = AddedToken(_snake_case , lstrip=_snake_case , rstrip=_snake_case) if isinstance(_snake_case , _snake_case) else mask_token
super().__init__(
_snake_case , tokenizer_file=_snake_case , bos_token=_snake_case , eos_token=_snake_case , unk_token=_snake_case , sep_token=_snake_case , pad_token=_snake_case , cls_token=_snake_case , mask_token=_snake_case , **_snake_case , )
UpperCAmelCase_ = vocab_file
UpperCAmelCase_ = False if not self.vocab_file else True
def lowerCamelCase ( self : Any , _snake_case : List[int] , _snake_case : Optional[List[int]] = None):
"""simple docstring"""
UpperCAmelCase_ = [self.sep_token_id]
UpperCAmelCase_ = [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 lowerCamelCase ( self : Optional[Any] , _snake_case : List[int] , _snake_case : Optional[List[int]] = None , _snake_case : bool = False):
"""simple docstring"""
if already_has_special_tokens:
if token_ids_a is not None:
raise ValueError(
'''You should not supply a second sequence if the provided sequence of '''
'''ids is already formatted with special tokens for the model.''')
return [1 if x in [self.sep_token_id, self.cls_token_id] else 0 for x in token_ids_a]
if token_ids_a is None:
return [1] + ([0] * len(_snake_case)) + [1]
return [1] + ([0] * len(_snake_case)) + [1] + ([0] * len(_snake_case)) + [1]
def lowerCamelCase ( self : str , _snake_case : List[int] , _snake_case : Optional[List[int]] = None):
"""simple docstring"""
UpperCAmelCase_ = [self.sep_token_id]
UpperCAmelCase_ = [self.cls_token_id]
if token_ids_a is None:
return len(cls + token_ids_a + sep) * [0]
return len(cls + token_ids_a + sep) * [0] + len(token_ids_a + sep) * [1]
def lowerCamelCase ( self : Tuple , _snake_case : str , _snake_case : Optional[str] = None):
"""simple docstring"""
if not self.can_save_slow_tokenizer:
raise ValueError(
'''Your fast tokenizer does not have the necessary information to save the vocabulary for a slow '''
'''tokenizer.''')
if not os.path.isdir(_snake_case):
logger.error(F"""Vocabulary path ({save_directory}) should be a directory""")
return
UpperCAmelCase_ = os.path.join(
_snake_case , (filename_prefix + '''-''' if filename_prefix else '''''') + VOCAB_FILES_NAMES['''vocab_file'''])
if os.path.abspath(self.vocab_file) != os.path.abspath(_snake_case):
copyfile(self.vocab_file , _snake_case)
return (out_vocab_file,)
| 51
|
from diffusers.utils.testing_utils import require_onnxruntime
@require_onnxruntime
class __snake_case :
pass
| 51
| 1
|
def A (__A : int = 1000000 ) -> int:
"""simple docstring"""
UpperCAmelCase_ = limit + 1
UpperCAmelCase_ = [0] * limit
for first_term in range(1 , __A ):
for n in range(__A , __A , __A ):
UpperCAmelCase_ = 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_ = sum(1 for x in frequency[1:limit] if x == 10 )
return count
if __name__ == "__main__":
print(f"{solution() = }")
| 51
|
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
snake_case_ : List[Any] = data_utils.TransfoXLTokenizer
snake_case_ : int = data_utils.TransfoXLCorpus
snake_case_ : List[Any] = data_utils
snake_case_ : int = data_utils
def A (__A : Dict , __A : List[Any] , __A : Union[str, Any] , __A : Tuple ) -> Union[str, Any]:
"""simple docstring"""
if transfo_xl_dataset_file:
# Convert a pre-processed corpus (see original TensorFlow repo)
with open(__A , '''rb''' ) as fp:
UpperCAmelCase_ = pickle.load(__A , encoding='''latin1''' )
# Save vocabulary and dataset cache as Dictionaries (should be better than pickles for the long-term)
UpperCAmelCase_ = pytorch_dump_folder_path + '''/''' + VOCAB_FILES_NAMES['''pretrained_vocab_file''']
print(F"""Save vocabulary to {pytorch_vocab_dump_path}""" )
UpperCAmelCase_ = corpus.vocab.__dict__
torch.save(__A , __A )
UpperCAmelCase_ = corpus.__dict__
corpus_dict_no_vocab.pop('''vocab''' , __A )
UpperCAmelCase_ = 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
UpperCAmelCase_ = os.path.abspath(__A )
UpperCAmelCase_ = 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 == "":
UpperCAmelCase_ = TransfoXLConfig()
else:
UpperCAmelCase_ = TransfoXLConfig.from_json_file(__A )
print(F"""Building PyTorch model from configuration: {config}""" )
UpperCAmelCase_ = TransfoXLLMHeadModel(__A )
UpperCAmelCase_ = load_tf_weights_in_transfo_xl(__A , __A , __A )
# Save pytorch-model
UpperCAmelCase_ = os.path.join(__A , __A )
UpperCAmelCase_ = 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__":
snake_case_ : List[str] = 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.",
)
snake_case_ : int = 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,
)
| 51
| 1
|
def A (__A : int ) -> int:
"""simple docstring"""
if a < 0:
raise ValueError('''Input value must be a positive integer''' )
elif isinstance(__A , __A ):
raise TypeError('''Input value must be a \'int\' type''' )
return bin(__A ).count('''1''' )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 51
|
from typing import Optional, Tuple, Union
import torch
from einops import rearrange, reduce
from diffusers import DDIMScheduler, DDPMScheduler, DiffusionPipeline, ImagePipelineOutput, UNetaDConditionModel
from diffusers.schedulers.scheduling_ddim import DDIMSchedulerOutput
from diffusers.schedulers.scheduling_ddpm import DDPMSchedulerOutput
snake_case_ : List[str] = 8
def A (__A : Union[str, Any] , __A : List[Any]=BITS ) -> Tuple:
"""simple docstring"""
UpperCAmelCase_ = x.device
UpperCAmelCase_ = (x * 255).int().clamp(0 , 255 )
UpperCAmelCase_ = 2 ** torch.arange(bits - 1 , -1 , -1 , device=__A )
UpperCAmelCase_ = rearrange(__A , '''d -> d 1 1''' )
UpperCAmelCase_ = rearrange(__A , '''b c h w -> b c 1 h w''' )
UpperCAmelCase_ = ((x & mask) != 0).float()
UpperCAmelCase_ = rearrange(__A , '''b c d h w -> b (c d) h w''' )
UpperCAmelCase_ = bits * 2 - 1
return bits
def A (__A : Dict , __A : Tuple=BITS ) -> List[str]:
"""simple docstring"""
UpperCAmelCase_ = x.device
UpperCAmelCase_ = (x > 0).int()
UpperCAmelCase_ = 2 ** torch.arange(bits - 1 , -1 , -1 , device=__A , dtype=torch.intaa )
UpperCAmelCase_ = rearrange(__A , '''d -> d 1 1''' )
UpperCAmelCase_ = rearrange(__A , '''b (c d) h w -> b c d h w''' , d=8 )
UpperCAmelCase_ = reduce(x * mask , '''b c d h w -> b c h w''' , '''sum''' )
return (dec / 255).clamp(0.0 , 1.0 )
def A (self : List[Any] , __A : torch.FloatTensor , __A : int , __A : torch.FloatTensor , __A : float = 0.0 , __A : bool = True , __A : Tuple=None , __A : bool = True , ) -> Union[DDIMSchedulerOutput, Tuple]:
"""simple docstring"""
if self.num_inference_steps is None:
raise ValueError(
'''Number of inference steps is \'None\', you need to run \'set_timesteps\' after creating the scheduler''' )
# See formulas (12) and (16) of DDIM paper https://arxiv.org/pdf/2010.02502.pdf
# Ideally, read DDIM paper in-detail understanding
# Notation (<variable name> -> <name in paper>
# - pred_noise_t -> e_theta(x_t, t)
# - pred_original_sample -> f_theta(x_t, t) or x_0
# - std_dev_t -> sigma_t
# - eta -> η
# - pred_sample_direction -> "direction pointing to x_t"
# - pred_prev_sample -> "x_t-1"
# 1. get previous step value (=t-1)
UpperCAmelCase_ = timestep - self.config.num_train_timesteps // self.num_inference_steps
# 2. compute alphas, betas
UpperCAmelCase_ = self.alphas_cumprod[timestep]
UpperCAmelCase_ = self.alphas_cumprod[prev_timestep] if prev_timestep >= 0 else self.final_alpha_cumprod
UpperCAmelCase_ = 1 - alpha_prod_t
# 3. compute predicted original sample from predicted noise also called
# "predicted x_0" of formula (12) from https://arxiv.org/pdf/2010.02502.pdf
UpperCAmelCase_ = (sample - beta_prod_t ** 0.5 * model_output) / alpha_prod_t ** 0.5
# 4. Clip "predicted x_0"
UpperCAmelCase_ = self.bit_scale
if self.config.clip_sample:
UpperCAmelCase_ = torch.clamp(__A , -scale , __A )
# 5. compute variance: "sigma_t(η)" -> see formula (16)
# σ_t = sqrt((1 − α_t−1)/(1 − α_t)) * sqrt(1 − α_t/α_t−1)
UpperCAmelCase_ = self._get_variance(__A , __A )
UpperCAmelCase_ = eta * variance ** 0.5
if use_clipped_model_output:
# the model_output is always re-derived from the clipped x_0 in Glide
UpperCAmelCase_ = (sample - alpha_prod_t ** 0.5 * pred_original_sample) / beta_prod_t ** 0.5
# 6. compute "direction pointing to x_t" of formula (12) from https://arxiv.org/pdf/2010.02502.pdf
UpperCAmelCase_ = (1 - alpha_prod_t_prev - std_dev_t**2) ** 0.5 * model_output
# 7. compute x_t without "random noise" of formula (12) from https://arxiv.org/pdf/2010.02502.pdf
UpperCAmelCase_ = alpha_prod_t_prev ** 0.5 * pred_original_sample + pred_sample_direction
if eta > 0:
# randn_like does not support generator https://github.com/pytorch/pytorch/issues/27072
UpperCAmelCase_ = model_output.device if torch.is_tensor(__A ) else '''cpu'''
UpperCAmelCase_ = torch.randn(model_output.shape , dtype=model_output.dtype , generator=__A ).to(__A )
UpperCAmelCase_ = self._get_variance(__A , __A ) ** 0.5 * eta * noise
UpperCAmelCase_ = prev_sample + variance
if not return_dict:
return (prev_sample,)
return DDIMSchedulerOutput(prev_sample=__A , pred_original_sample=__A )
def A (self : Optional[int] , __A : torch.FloatTensor , __A : int , __A : torch.FloatTensor , __A : int="epsilon" , __A : Optional[Any]=None , __A : bool = True , ) -> Union[DDPMSchedulerOutput, Tuple]:
"""simple docstring"""
UpperCAmelCase_ = timestep
if model_output.shape[1] == sample.shape[1] * 2 and self.variance_type in ["learned", "learned_range"]:
UpperCAmelCase_ , UpperCAmelCase_ = torch.split(__A , sample.shape[1] , dim=1 )
else:
UpperCAmelCase_ = None
# 1. compute alphas, betas
UpperCAmelCase_ = self.alphas_cumprod[t]
UpperCAmelCase_ = self.alphas_cumprod[t - 1] if t > 0 else self.one
UpperCAmelCase_ = 1 - alpha_prod_t
UpperCAmelCase_ = 1 - alpha_prod_t_prev
# 2. compute predicted original sample from predicted noise also called
# "predicted x_0" of formula (15) from https://arxiv.org/pdf/2006.11239.pdf
if prediction_type == "epsilon":
UpperCAmelCase_ = (sample - beta_prod_t ** 0.5 * model_output) / alpha_prod_t ** 0.5
elif prediction_type == "sample":
UpperCAmelCase_ = model_output
else:
raise ValueError(F"""Unsupported prediction_type {prediction_type}.""" )
# 3. Clip "predicted x_0"
UpperCAmelCase_ = self.bit_scale
if self.config.clip_sample:
UpperCAmelCase_ = torch.clamp(__A , -scale , __A )
# 4. Compute coefficients for pred_original_sample x_0 and current sample x_t
# See formula (7) from https://arxiv.org/pdf/2006.11239.pdf
UpperCAmelCase_ = (alpha_prod_t_prev ** 0.5 * self.betas[t]) / beta_prod_t
UpperCAmelCase_ = self.alphas[t] ** 0.5 * beta_prod_t_prev / beta_prod_t
# 5. Compute predicted previous sample µ_t
# See formula (7) from https://arxiv.org/pdf/2006.11239.pdf
UpperCAmelCase_ = pred_original_sample_coeff * pred_original_sample + current_sample_coeff * sample
# 6. Add noise
UpperCAmelCase_ = 0
if t > 0:
UpperCAmelCase_ = torch.randn(
model_output.size() , dtype=model_output.dtype , layout=model_output.layout , generator=__A ).to(model_output.device )
UpperCAmelCase_ = (self._get_variance(__A , predicted_variance=__A ) ** 0.5) * noise
UpperCAmelCase_ = pred_prev_sample + variance
if not return_dict:
return (pred_prev_sample,)
return DDPMSchedulerOutput(prev_sample=__A , pred_original_sample=__A )
class __snake_case ( a ):
def __init__( self : Union[str, Any] , _snake_case : UNetaDConditionModel , _snake_case : Union[DDIMScheduler, DDPMScheduler] , _snake_case : Optional[float] = 1.0 , ):
"""simple docstring"""
super().__init__()
UpperCAmelCase_ = bit_scale
UpperCAmelCase_ = (
ddim_bit_scheduler_step if isinstance(_snake_case , _snake_case) else ddpm_bit_scheduler_step
)
self.register_modules(unet=_snake_case , scheduler=_snake_case)
@torch.no_grad()
def __call__( self : Union[str, Any] , _snake_case : Optional[int] = 256 , _snake_case : Optional[int] = 256 , _snake_case : Optional[int] = 50 , _snake_case : Optional[torch.Generator] = None , _snake_case : Optional[int] = 1 , _snake_case : Optional[str] = "pil" , _snake_case : bool = True , **_snake_case : Optional[Any] , ):
"""simple docstring"""
UpperCAmelCase_ = torch.randn(
(batch_size, self.unet.config.in_channels, height, width) , generator=_snake_case , )
UpperCAmelCase_ = decimal_to_bits(_snake_case) * self.bit_scale
UpperCAmelCase_ = latents.to(self.device)
self.scheduler.set_timesteps(_snake_case)
for t in self.progress_bar(self.scheduler.timesteps):
# predict the noise residual
UpperCAmelCase_ = self.unet(_snake_case , _snake_case).sample
# compute the previous noisy sample x_t -> x_t-1
UpperCAmelCase_ = self.scheduler.step(_snake_case , _snake_case , _snake_case).prev_sample
UpperCAmelCase_ = bits_to_decimal(_snake_case)
if output_type == "pil":
UpperCAmelCase_ = self.numpy_to_pil(_snake_case)
if not return_dict:
return (image,)
return ImagePipelineOutput(images=_snake_case)
| 51
| 1
|
import os
import tempfile
import unittest
from transformers import NezhaConfig, is_torch_available
from transformers.models.auto import get_values
from transformers.testing_utils import require_torch, require_torch_gpu, slow, torch_device
from ...generation.test_utils import GenerationTesterMixin
from ...test_configuration_common import ConfigTester
from ...test_modeling_common import ModelTesterMixin, floats_tensor, ids_tensor, random_attention_mask
from ...test_pipeline_mixin import PipelineTesterMixin
if is_torch_available():
import torch
from transformers import (
MODEL_FOR_PRETRAINING_MAPPING,
NezhaForMaskedLM,
NezhaForMultipleChoice,
NezhaForNextSentencePrediction,
NezhaForPreTraining,
NezhaForQuestionAnswering,
NezhaForSequenceClassification,
NezhaForTokenClassification,
NezhaModel,
)
from transformers.models.nezha.modeling_nezha import NEZHA_PRETRAINED_MODEL_ARCHIVE_LIST
class __snake_case :
def __init__( self : List[str] , _snake_case : Any , _snake_case : Tuple=13 , _snake_case : Tuple=7 , _snake_case : Optional[int]=True , _snake_case : Optional[int]=True , _snake_case : List[str]=True , _snake_case : Dict=True , _snake_case : Any=99 , _snake_case : str=32 , _snake_case : Optional[Any]=5 , _snake_case : Any=4 , _snake_case : Tuple=37 , _snake_case : Optional[int]="gelu" , _snake_case : int=0.1 , _snake_case : Optional[Any]=0.1 , _snake_case : Any=128 , _snake_case : List[str]=32 , _snake_case : str=16 , _snake_case : str=2 , _snake_case : List[str]=0.0_2 , _snake_case : str=3 , _snake_case : Optional[Any]=4 , _snake_case : Optional[int]=None , ):
"""simple docstring"""
UpperCAmelCase_ = parent
UpperCAmelCase_ = batch_size
UpperCAmelCase_ = seq_length
UpperCAmelCase_ = is_training
UpperCAmelCase_ = use_input_mask
UpperCAmelCase_ = use_token_type_ids
UpperCAmelCase_ = use_labels
UpperCAmelCase_ = vocab_size
UpperCAmelCase_ = hidden_size
UpperCAmelCase_ = num_hidden_layers
UpperCAmelCase_ = num_attention_heads
UpperCAmelCase_ = intermediate_size
UpperCAmelCase_ = hidden_act
UpperCAmelCase_ = hidden_dropout_prob
UpperCAmelCase_ = attention_probs_dropout_prob
UpperCAmelCase_ = max_position_embeddings
UpperCAmelCase_ = type_vocab_size
UpperCAmelCase_ = type_sequence_label_size
UpperCAmelCase_ = initializer_range
UpperCAmelCase_ = num_labels
UpperCAmelCase_ = num_choices
UpperCAmelCase_ = scope
def lowerCamelCase ( self : int):
"""simple docstring"""
UpperCAmelCase_ = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size)
UpperCAmelCase_ = None
if self.use_input_mask:
UpperCAmelCase_ = random_attention_mask([self.batch_size, self.seq_length])
UpperCAmelCase_ = None
if self.use_token_type_ids:
UpperCAmelCase_ = ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size)
UpperCAmelCase_ = None
UpperCAmelCase_ = None
UpperCAmelCase_ = None
if self.use_labels:
UpperCAmelCase_ = ids_tensor([self.batch_size] , self.type_sequence_label_size)
UpperCAmelCase_ = ids_tensor([self.batch_size, self.seq_length] , self.num_labels)
UpperCAmelCase_ = ids_tensor([self.batch_size] , self.num_choices)
UpperCAmelCase_ = self.get_config()
return config, input_ids, token_type_ids, input_mask, sequence_labels, token_labels, choice_labels
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
return NezhaConfig(
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=_snake_case , initializer_range=self.initializer_range , )
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
(
(
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) ,
) = self.prepare_config_and_inputs()
UpperCAmelCase_ = True
UpperCAmelCase_ = floats_tensor([self.batch_size, self.seq_length, self.hidden_size])
UpperCAmelCase_ = ids_tensor([self.batch_size, self.seq_length] , vocab_size=2)
return (
config,
input_ids,
token_type_ids,
input_mask,
sequence_labels,
token_labels,
choice_labels,
encoder_hidden_states,
encoder_attention_mask,
)
def lowerCamelCase ( self : Union[str, Any] , _snake_case : int , _snake_case : Optional[Any] , _snake_case : List[str] , _snake_case : List[Any] , _snake_case : List[Any] , _snake_case : Optional[int] , _snake_case : Tuple):
"""simple docstring"""
UpperCAmelCase_ = NezhaModel(config=_snake_case)
model.to(_snake_case)
model.eval()
UpperCAmelCase_ = model(_snake_case , attention_mask=_snake_case , token_type_ids=_snake_case)
UpperCAmelCase_ = model(_snake_case , token_type_ids=_snake_case)
UpperCAmelCase_ = model(_snake_case)
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size))
self.parent.assertEqual(result.pooler_output.shape , (self.batch_size, self.hidden_size))
def lowerCamelCase ( self : Optional[Any] , _snake_case : str , _snake_case : Optional[int] , _snake_case : Any , _snake_case : Tuple , _snake_case : Optional[Any] , _snake_case : Optional[Any] , _snake_case : Dict , _snake_case : List[str] , _snake_case : Optional[Any] , ):
"""simple docstring"""
UpperCAmelCase_ = True
UpperCAmelCase_ = NezhaModel(_snake_case)
model.to(_snake_case)
model.eval()
UpperCAmelCase_ = model(
_snake_case , attention_mask=_snake_case , token_type_ids=_snake_case , encoder_hidden_states=_snake_case , encoder_attention_mask=_snake_case , )
UpperCAmelCase_ = model(
_snake_case , attention_mask=_snake_case , token_type_ids=_snake_case , encoder_hidden_states=_snake_case , )
UpperCAmelCase_ = model(_snake_case , attention_mask=_snake_case , token_type_ids=_snake_case)
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size))
self.parent.assertEqual(result.pooler_output.shape , (self.batch_size, self.hidden_size))
def lowerCamelCase ( self : Optional[int] , _snake_case : str , _snake_case : Tuple , _snake_case : Optional[int] , _snake_case : str , _snake_case : int , _snake_case : Tuple , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = NezhaForMaskedLM(config=_snake_case)
model.to(_snake_case)
model.eval()
UpperCAmelCase_ = model(_snake_case , attention_mask=_snake_case , token_type_ids=_snake_case , labels=_snake_case)
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.seq_length, self.vocab_size))
def lowerCamelCase ( self : Tuple , _snake_case : Any , _snake_case : Optional[Any] , _snake_case : Union[str, Any] , _snake_case : Any , _snake_case : Dict , _snake_case : int , _snake_case : Tuple):
"""simple docstring"""
UpperCAmelCase_ = NezhaForNextSentencePrediction(config=_snake_case)
model.to(_snake_case)
model.eval()
UpperCAmelCase_ = model(
_snake_case , attention_mask=_snake_case , token_type_ids=_snake_case , labels=_snake_case , )
self.parent.assertEqual(result.logits.shape , (self.batch_size, 2))
def lowerCamelCase ( self : Optional[Any] , _snake_case : Tuple , _snake_case : Dict , _snake_case : Tuple , _snake_case : Any , _snake_case : Union[str, Any] , _snake_case : Any , _snake_case : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = NezhaForPreTraining(config=_snake_case)
model.to(_snake_case)
model.eval()
UpperCAmelCase_ = model(
_snake_case , attention_mask=_snake_case , token_type_ids=_snake_case , labels=_snake_case , next_sentence_label=_snake_case , )
self.parent.assertEqual(result.prediction_logits.shape , (self.batch_size, self.seq_length, self.vocab_size))
self.parent.assertEqual(result.seq_relationship_logits.shape , (self.batch_size, 2))
def lowerCamelCase ( self : Dict , _snake_case : Union[str, Any] , _snake_case : str , _snake_case : int , _snake_case : Tuple , _snake_case : Union[str, Any] , _snake_case : Tuple , _snake_case : Tuple):
"""simple docstring"""
UpperCAmelCase_ = NezhaForQuestionAnswering(config=_snake_case)
model.to(_snake_case)
model.eval()
UpperCAmelCase_ = model(
_snake_case , attention_mask=_snake_case , token_type_ids=_snake_case , start_positions=_snake_case , end_positions=_snake_case , )
self.parent.assertEqual(result.start_logits.shape , (self.batch_size, self.seq_length))
self.parent.assertEqual(result.end_logits.shape , (self.batch_size, self.seq_length))
def lowerCamelCase ( self : Optional[int] , _snake_case : Optional[Any] , _snake_case : Union[str, Any] , _snake_case : List[Any] , _snake_case : Tuple , _snake_case : str , _snake_case : List[Any] , _snake_case : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = self.num_labels
UpperCAmelCase_ = NezhaForSequenceClassification(_snake_case)
model.to(_snake_case)
model.eval()
UpperCAmelCase_ = model(_snake_case , attention_mask=_snake_case , token_type_ids=_snake_case , labels=_snake_case)
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_labels))
def lowerCamelCase ( self : Optional[int] , _snake_case : Optional[int] , _snake_case : Tuple , _snake_case : Tuple , _snake_case : Optional[int] , _snake_case : Dict , _snake_case : Union[str, Any] , _snake_case : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = self.num_labels
UpperCAmelCase_ = NezhaForTokenClassification(config=_snake_case)
model.to(_snake_case)
model.eval()
UpperCAmelCase_ = model(_snake_case , attention_mask=_snake_case , token_type_ids=_snake_case , labels=_snake_case)
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.seq_length, self.num_labels))
def lowerCamelCase ( self : List[Any] , _snake_case : Optional[int] , _snake_case : int , _snake_case : Optional[Any] , _snake_case : int , _snake_case : Union[str, Any] , _snake_case : str , _snake_case : str):
"""simple docstring"""
UpperCAmelCase_ = self.num_choices
UpperCAmelCase_ = NezhaForMultipleChoice(config=_snake_case)
model.to(_snake_case)
model.eval()
UpperCAmelCase_ = input_ids.unsqueeze(1).expand(-1 , self.num_choices , -1).contiguous()
UpperCAmelCase_ = token_type_ids.unsqueeze(1).expand(-1 , self.num_choices , -1).contiguous()
UpperCAmelCase_ = input_mask.unsqueeze(1).expand(-1 , self.num_choices , -1).contiguous()
UpperCAmelCase_ = model(
_snake_case , attention_mask=_snake_case , token_type_ids=_snake_case , labels=_snake_case , )
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.num_choices))
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = self.prepare_config_and_inputs()
(
(
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) ,
) = config_and_inputs
UpperCAmelCase_ = {'''input_ids''': input_ids, '''token_type_ids''': token_type_ids, '''attention_mask''': input_mask}
return config, inputs_dict
@require_torch
class __snake_case ( a , a , a , unittest.TestCase ):
UpperCAmelCase__ : List[str] = (
(
NezhaModel,
NezhaForMaskedLM,
NezhaForMultipleChoice,
NezhaForNextSentencePrediction,
NezhaForPreTraining,
NezhaForQuestionAnswering,
NezhaForSequenceClassification,
NezhaForTokenClassification,
)
if is_torch_available()
else ()
)
UpperCAmelCase__ : str = (
{
'''feature-extraction''': NezhaModel,
'''fill-mask''': NezhaForMaskedLM,
'''question-answering''': NezhaForQuestionAnswering,
'''text-classification''': NezhaForSequenceClassification,
'''token-classification''': NezhaForTokenClassification,
'''zero-shot''': NezhaForSequenceClassification,
}
if is_torch_available()
else {}
)
UpperCAmelCase__ : Union[str, Any] = True
def lowerCamelCase ( self : Optional[Any] , _snake_case : Any , _snake_case : int , _snake_case : List[str]=False):
"""simple docstring"""
UpperCAmelCase_ = super()._prepare_for_class(_snake_case , _snake_case , return_labels=_snake_case)
if return_labels:
if model_class in get_values(_snake_case):
UpperCAmelCase_ = torch.zeros(
(self.model_tester.batch_size, self.model_tester.seq_length) , dtype=torch.long , device=_snake_case)
UpperCAmelCase_ = torch.zeros(
self.model_tester.batch_size , dtype=torch.long , device=_snake_case)
return inputs_dict
def lowerCamelCase ( self : int):
"""simple docstring"""
UpperCAmelCase_ = NezhaModelTester(self)
UpperCAmelCase_ = ConfigTester(self , config_class=_snake_case , hidden_size=37)
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
self.config_tester.run_common_tests()
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*_snake_case)
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_decoder()
self.model_tester.create_and_check_model_as_decoder(*_snake_case)
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
(
(
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) ,
) = self.model_tester.prepare_config_and_inputs_for_decoder()
UpperCAmelCase_ = None
self.model_tester.create_and_check_model_as_decoder(
_snake_case , _snake_case , _snake_case , _snake_case , _snake_case , _snake_case , _snake_case , _snake_case , _snake_case , )
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_masked_lm(*_snake_case)
def lowerCamelCase ( self : Any):
"""simple docstring"""
UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_multiple_choice(*_snake_case)
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_next_sequence_prediction(*_snake_case)
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_pretraining(*_snake_case)
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_question_answering(*_snake_case)
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_sequence_classification(*_snake_case)
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_token_classification(*_snake_case)
@slow
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
for model_name in NEZHA_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
UpperCAmelCase_ = NezhaModel.from_pretrained(_snake_case)
self.assertIsNotNone(_snake_case)
@slow
@require_torch_gpu
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
# NezhaForMultipleChoice behaves incorrectly in JIT environments.
if model_class == NezhaForMultipleChoice:
return
UpperCAmelCase_ = True
UpperCAmelCase_ = model_class(config=_snake_case)
UpperCAmelCase_ = self._prepare_for_class(_snake_case , _snake_case)
UpperCAmelCase_ = torch.jit.trace(
_snake_case , (inputs_dict['''input_ids'''].to('''cpu'''), inputs_dict['''attention_mask'''].to('''cpu''')))
with tempfile.TemporaryDirectory() as tmp:
torch.jit.save(_snake_case , os.path.join(_snake_case , '''bert.pt'''))
UpperCAmelCase_ = torch.jit.load(os.path.join(_snake_case , '''bert.pt''') , map_location=_snake_case)
loaded(inputs_dict['''input_ids'''].to(_snake_case) , inputs_dict['''attention_mask'''].to(_snake_case))
@require_torch
class __snake_case ( unittest.TestCase ):
@slow
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = NezhaModel.from_pretrained('''sijunhe/nezha-cn-base''')
UpperCAmelCase_ = torch.tensor([[0, 1, 2, 3, 4, 5]])
UpperCAmelCase_ = torch.tensor([[0, 1, 1, 1, 1, 1]])
with torch.no_grad():
UpperCAmelCase_ = model(_snake_case , attention_mask=_snake_case)[0]
UpperCAmelCase_ = torch.Size((1, 6, 768))
self.assertEqual(output.shape , _snake_case)
UpperCAmelCase_ = torch.tensor([[[0.0_6_8_5, 0.2_4_4_1, 0.1_1_0_2], [0.0_6_0_0, 0.1_9_0_6, 0.1_3_4_9], [0.0_2_2_1, 0.0_8_1_9, 0.0_5_8_6]]])
self.assertTrue(torch.allclose(output[:, 1:4, 1:4] , _snake_case , atol=1e-4))
@slow
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = NezhaForMaskedLM.from_pretrained('''sijunhe/nezha-cn-base''')
UpperCAmelCase_ = torch.tensor([[0, 1, 2, 3, 4, 5]])
UpperCAmelCase_ = torch.tensor([[1, 1, 1, 1, 1, 1]])
with torch.no_grad():
UpperCAmelCase_ = model(_snake_case , attention_mask=_snake_case)[0]
UpperCAmelCase_ = torch.Size((1, 6, 21128))
self.assertEqual(output.shape , _snake_case)
UpperCAmelCase_ = torch.tensor(
[[-2.7_9_3_9, -1.7_9_0_2, -2.2_1_8_9], [-2.8_5_8_5, -1.8_9_0_8, -2.3_7_2_3], [-2.6_4_9_9, -1.7_7_5_0, -2.2_5_5_8]])
self.assertTrue(torch.allclose(output[:, 1:4, 1:4] , _snake_case , atol=1e-4))
| 51
|
snake_case_ : Dict = {
"Pillow": "Pillow",
"accelerate": "accelerate>=0.11.0",
"compel": "compel==0.1.8",
"black": "black~=23.1",
"datasets": "datasets",
"filelock": "filelock",
"flax": "flax>=0.4.1",
"hf-doc-builder": "hf-doc-builder>=0.3.0",
"huggingface-hub": "huggingface-hub>=0.13.2",
"requests-mock": "requests-mock==1.10.0",
"importlib_metadata": "importlib_metadata",
"invisible-watermark": "invisible-watermark",
"isort": "isort>=5.5.4",
"jax": "jax>=0.2.8,!=0.3.2",
"jaxlib": "jaxlib>=0.1.65",
"Jinja2": "Jinja2",
"k-diffusion": "k-diffusion>=0.0.12",
"torchsde": "torchsde",
"note_seq": "note_seq",
"librosa": "librosa",
"numpy": "numpy",
"omegaconf": "omegaconf",
"parameterized": "parameterized",
"protobuf": "protobuf>=3.20.3,<4",
"pytest": "pytest",
"pytest-timeout": "pytest-timeout",
"pytest-xdist": "pytest-xdist",
"ruff": "ruff>=0.0.241",
"safetensors": "safetensors",
"sentencepiece": "sentencepiece>=0.1.91,!=0.1.92",
"scipy": "scipy",
"onnx": "onnx",
"regex": "regex!=2019.12.17",
"requests": "requests",
"tensorboard": "tensorboard",
"torch": "torch>=1.4",
"torchvision": "torchvision",
"transformers": "transformers>=4.25.1",
"urllib3": "urllib3<=2.0.0",
}
| 51
| 1
|
import gc
import unittest
import numpy as np
import torch
from transformers import CLIPTextConfig, CLIPTextModel, CLIPTokenizer
from diffusers import (
AutoencoderKL,
DDIMScheduler,
StableDiffusionAttendAndExcitePipeline,
UNetaDConditionModel,
)
from diffusers.utils import load_numpy, skip_mps, slow
from diffusers.utils.testing_utils import require_torch_gpu
from ..pipeline_params import TEXT_TO_IMAGE_BATCH_PARAMS, TEXT_TO_IMAGE_IMAGE_PARAMS, TEXT_TO_IMAGE_PARAMS
from ..test_pipelines_common import PipelineKarrasSchedulerTesterMixin, PipelineLatentTesterMixin, PipelineTesterMixin
snake_case_ : str = False
@skip_mps
class __snake_case ( a , a , a , unittest.TestCase ):
UpperCAmelCase__ : str = StableDiffusionAttendAndExcitePipeline
UpperCAmelCase__ : List[str] = False
UpperCAmelCase__ : List[Any] = TEXT_TO_IMAGE_PARAMS
UpperCAmelCase__ : Any = TEXT_TO_IMAGE_BATCH_PARAMS.union({'''token_indices'''} )
UpperCAmelCase__ : Optional[Any] = TEXT_TO_IMAGE_IMAGE_PARAMS
UpperCAmelCase__ : Any = TEXT_TO_IMAGE_IMAGE_PARAMS
@classmethod
def lowerCamelCase ( cls : str):
"""simple docstring"""
super().setUpClass()
torch.use_deterministic_algorithms(_snake_case)
@classmethod
def lowerCamelCase ( cls : List[Any]):
"""simple docstring"""
super().tearDownClass()
torch.use_deterministic_algorithms(_snake_case)
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
torch.manual_seed(0)
UpperCAmelCase_ = UNetaDConditionModel(
block_out_channels=(32, 64) , layers_per_block=1 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , up_block_types=('''CrossAttnUpBlock2D''', '''UpBlock2D''') , cross_attention_dim=32 , attention_head_dim=(2, 4) , use_linear_projection=_snake_case , )
UpperCAmelCase_ = DDIMScheduler(
beta_start=0.0_0_0_8_5 , beta_end=0.0_1_2 , beta_schedule='''scaled_linear''' , clip_sample=_snake_case , set_alpha_to_one=_snake_case , )
torch.manual_seed(0)
UpperCAmelCase_ = AutoencoderKL(
block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=['''DownEncoderBlock2D''', '''DownEncoderBlock2D'''] , up_block_types=['''UpDecoderBlock2D''', '''UpDecoderBlock2D'''] , latent_channels=4 , sample_size=128 , )
torch.manual_seed(0)
UpperCAmelCase_ = CLIPTextConfig(
bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1e-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1000 , hidden_act='''gelu''' , projection_dim=512 , )
UpperCAmelCase_ = CLIPTextModel(_snake_case)
UpperCAmelCase_ = CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''')
UpperCAmelCase_ = {
'''unet''': unet,
'''scheduler''': scheduler,
'''vae''': vae,
'''text_encoder''': text_encoder,
'''tokenizer''': tokenizer,
'''safety_checker''': None,
'''feature_extractor''': None,
}
return components
def lowerCamelCase ( self : List[str] , _snake_case : Optional[int] , _snake_case : List[Any]=0):
"""simple docstring"""
if str(_snake_case).startswith('''mps'''):
UpperCAmelCase_ = torch.manual_seed(_snake_case)
else:
UpperCAmelCase_ = torch.Generator(device=_snake_case).manual_seed(_snake_case)
UpperCAmelCase_ = UpperCAmelCase_ = {
'''prompt''': '''a cat and a frog''',
'''token_indices''': [2, 5],
'''generator''': generator,
'''num_inference_steps''': 1,
'''guidance_scale''': 6.0,
'''output_type''': '''numpy''',
'''max_iter_to_alter''': 2,
'''thresholds''': {0: 0.7},
}
return inputs
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = '''cpu'''
UpperCAmelCase_ = self.get_dummy_components()
UpperCAmelCase_ = self.pipeline_class(**_snake_case)
pipe.to(_snake_case)
pipe.set_progress_bar_config(disable=_snake_case)
UpperCAmelCase_ = self.get_dummy_inputs(_snake_case)
UpperCAmelCase_ = pipe(**_snake_case).images
UpperCAmelCase_ = image[0, -3:, -3:, -1]
self.assertEqual(image.shape , (1, 64, 64, 3))
UpperCAmelCase_ = np.array(
[0.6_3_9_0_5_3_6_4, 0.6_2_8_9_7_3_0_7, 0.4_8_5_9_9_0_1_7, 0.5_1_3_3_6_2_4, 0.5_5_5_0_0_4_8, 0.4_5_7_6_9_5_1_6, 0.5_0_3_2_6_9_7_3, 0.5_0_2_3_1_3_9, 0.4_5_3_8_4_4_9_6])
UpperCAmelCase_ = np.abs(image_slice.flatten() - expected_slice).max()
self.assertLessEqual(_snake_case , 1e-3)
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
super().test_cpu_offload_forward_pass(expected_max_diff=5e-4)
def lowerCamelCase ( self : Dict):
"""simple docstring"""
self._test_inference_batch_consistent(batch_sizes=[1, 2])
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
self._test_inference_batch_single_identical(batch_size=2 , expected_max_diff=7e-4)
def lowerCamelCase ( self : int):
"""simple docstring"""
super().test_dict_tuple_outputs_equivalent(expected_max_difference=3e-3)
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
super().test_pt_np_pil_outputs_equivalent(expected_max_diff=5e-4)
def lowerCamelCase ( self : int):
"""simple docstring"""
super().test_save_load_local(expected_max_difference=5e-4)
def lowerCamelCase ( self : int):
"""simple docstring"""
super().test_save_load_optional_components(expected_max_difference=4e-4)
@require_torch_gpu
@slow
class __snake_case ( unittest.TestCase ):
@classmethod
def lowerCamelCase ( cls : Union[str, Any]):
"""simple docstring"""
super().setUpClass()
torch.use_deterministic_algorithms(_snake_case)
@classmethod
def lowerCamelCase ( cls : Dict):
"""simple docstring"""
super().tearDownClass()
torch.use_deterministic_algorithms(_snake_case)
def lowerCamelCase ( self : Dict):
"""simple docstring"""
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = torch.manual_seed(51)
UpperCAmelCase_ = StableDiffusionAttendAndExcitePipeline.from_pretrained(
'''CompVis/stable-diffusion-v1-4''' , safety_checker=_snake_case , torch_dtype=torch.floataa)
pipe.to('''cuda''')
UpperCAmelCase_ = '''a painting of an elephant with glasses'''
UpperCAmelCase_ = [5, 7]
UpperCAmelCase_ = pipe(
prompt=_snake_case , token_indices=_snake_case , guidance_scale=7.5 , generator=_snake_case , num_inference_steps=5 , max_iter_to_alter=5 , output_type='''numpy''' , ).images[0]
UpperCAmelCase_ = load_numpy(
'''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/attend-and-excite/elephant_glasses.npy''')
assert np.abs((expected_image - image).max()) < 5e-1
| 51
|
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
| 1
|
def A (__A : str ) -> list[int]:
"""simple docstring"""
UpperCAmelCase_ = [0 for i in range(len(__A ) )]
# initialize interval's left pointer and right pointer
UpperCAmelCase_ , UpperCAmelCase_ = 0, 0
for i in range(1 , len(__A ) ):
# case when current index is inside the interval
if i <= right_pointer:
UpperCAmelCase_ = min(right_pointer - i + 1 , z_result[i - left_pointer] )
UpperCAmelCase_ = min_edge
while go_next(__A , __A , __A ):
z_result[i] += 1
# if new index's result gives us more right interval,
# we've to update left_pointer and right_pointer
if i + z_result[i] - 1 > right_pointer:
UpperCAmelCase_ , UpperCAmelCase_ = i, i + z_result[i] - 1
return z_result
def A (__A : int , __A : list[int] , __A : str ) -> bool:
"""simple docstring"""
return i + z_result[i] < len(__A ) and s[z_result[i]] == s[i + z_result[i]]
def A (__A : str , __A : str ) -> int:
"""simple docstring"""
UpperCAmelCase_ = 0
# concatenate 'pattern' and 'input_str' and call z_function
# with concatenated string
UpperCAmelCase_ = z_function(pattern + input_str )
for val in z_result:
# if value is greater then length of the pattern string
# that means this index is starting position of substring
# which is equal to pattern string
if val >= len(__A ):
answer += 1
return answer
if __name__ == "__main__":
import doctest
doctest.testmod()
| 51
|
from ...configuration_utils import PretrainedConfig
from ...utils import logging
snake_case_ : Any = logging.get_logger(__name__)
snake_case_ : Optional[Any] = {
"tiiuae/falcon-40b": "https://huggingface.co/tiiuae/falcon-40b/resolve/main/config.json",
"tiiuae/falcon-7b": "https://huggingface.co/tiiuae/falcon-7b/resolve/main/config.json",
}
class __snake_case ( a ):
UpperCAmelCase__ : Optional[Any] = '''falcon'''
UpperCAmelCase__ : List[Any] = ['''past_key_values''']
def __init__( self : Union[str, Any] , _snake_case : List[str]=65024 , _snake_case : int=4544 , _snake_case : int=32 , _snake_case : Any=71 , _snake_case : int=1e-5 , _snake_case : Dict=0.0_2 , _snake_case : int=True , _snake_case : List[Any]=0.0 , _snake_case : Tuple=0.0 , _snake_case : int=None , _snake_case : Tuple=False , _snake_case : Any=False , _snake_case : str=True , _snake_case : Any=True , _snake_case : List[str]=False , _snake_case : Tuple=11 , _snake_case : Dict=11 , **_snake_case : Optional[int] , ):
"""simple docstring"""
UpperCAmelCase_ = vocab_size
# Backward compatibility with n_embed kwarg
UpperCAmelCase_ = kwargs.pop('''n_embed''' , _snake_case)
UpperCAmelCase_ = hidden_size if n_embed is None else n_embed
UpperCAmelCase_ = num_hidden_layers
UpperCAmelCase_ = num_attention_heads
UpperCAmelCase_ = layer_norm_epsilon
UpperCAmelCase_ = initializer_range
UpperCAmelCase_ = use_cache
UpperCAmelCase_ = hidden_dropout
UpperCAmelCase_ = attention_dropout
UpperCAmelCase_ = bos_token_id
UpperCAmelCase_ = eos_token_id
UpperCAmelCase_ = num_attention_heads if num_kv_heads is None else num_kv_heads
UpperCAmelCase_ = alibi
UpperCAmelCase_ = new_decoder_architecture
UpperCAmelCase_ = multi_query # Ignored when new_decoder_architecture is True
UpperCAmelCase_ = parallel_attn
UpperCAmelCase_ = bias
super().__init__(bos_token_id=_snake_case , eos_token_id=_snake_case , **_snake_case)
@property
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
return self.hidden_size // self.num_attention_heads
@property
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
return not self.alibi
| 51
| 1
|
from ...configuration_utils import PretrainedConfig
from ...utils import logging
snake_case_ : List[Any] = logging.get_logger(__name__)
snake_case_ : int = {
"transfo-xl-wt103": "https://huggingface.co/transfo-xl-wt103/resolve/main/config.json",
}
class __snake_case ( a ):
UpperCAmelCase__ : Optional[int] = '''transfo-xl'''
UpperCAmelCase__ : Optional[Any] = ['''mems''']
UpperCAmelCase__ : Optional[Any] = {
'''n_token''': '''vocab_size''',
'''hidden_size''': '''d_model''',
'''num_attention_heads''': '''n_head''',
'''num_hidden_layers''': '''n_layer''',
}
def __init__( self : List[str] , _snake_case : Union[str, Any]=267735 , _snake_case : str=[20000, 40000, 200000] , _snake_case : List[Any]=1024 , _snake_case : Any=1024 , _snake_case : Optional[Any]=16 , _snake_case : Tuple=64 , _snake_case : Dict=4096 , _snake_case : Optional[int]=4 , _snake_case : Optional[int]=False , _snake_case : Optional[int]=18 , _snake_case : List[str]=1600 , _snake_case : Any=1000 , _snake_case : Tuple=True , _snake_case : Optional[Any]=True , _snake_case : Optional[Any]=0 , _snake_case : List[str]=-1 , _snake_case : str=True , _snake_case : List[Any]=0.1 , _snake_case : int=0.0 , _snake_case : Optional[int]=True , _snake_case : Optional[int]="normal" , _snake_case : Optional[Any]=0.0_1 , _snake_case : Tuple=0.0_1 , _snake_case : Tuple=0.0_2 , _snake_case : Optional[int]=1e-5 , _snake_case : Union[str, Any]=0 , **_snake_case : Optional[Any] , ):
"""simple docstring"""
UpperCAmelCase_ = vocab_size
UpperCAmelCase_ = []
self.cutoffs.extend(_snake_case)
if proj_share_all_but_first:
UpperCAmelCase_ = [False] + [True] * len(self.cutoffs)
else:
UpperCAmelCase_ = [False] + [False] * len(self.cutoffs)
UpperCAmelCase_ = d_model
UpperCAmelCase_ = d_embed
UpperCAmelCase_ = d_head
UpperCAmelCase_ = d_inner
UpperCAmelCase_ = div_val
UpperCAmelCase_ = pre_lnorm
UpperCAmelCase_ = n_layer
UpperCAmelCase_ = n_head
UpperCAmelCase_ = mem_len
UpperCAmelCase_ = same_length
UpperCAmelCase_ = attn_type
UpperCAmelCase_ = clamp_len
UpperCAmelCase_ = sample_softmax
UpperCAmelCase_ = adaptive
UpperCAmelCase_ = dropout
UpperCAmelCase_ = dropatt
UpperCAmelCase_ = untie_r
UpperCAmelCase_ = init
UpperCAmelCase_ = init_range
UpperCAmelCase_ = proj_init_std
UpperCAmelCase_ = init_std
UpperCAmelCase_ = layer_norm_epsilon
super().__init__(eos_token_id=_snake_case , **_snake_case)
@property
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
logger.info(F"""The model {self.model_type} is one of the few models that has no sequence length limit.""")
return -1
@max_position_embeddings.setter
def lowerCamelCase ( self : Union[str, Any] , _snake_case : Dict):
"""simple docstring"""
raise NotImplementedError(
F"""The model {self.model_type} is one of the few models that has no sequence length limit.""")
| 51
|
from __future__ import annotations
import time
from math import sqrt
# 1 for manhattan, 0 for euclidean
snake_case_ : str = 0
snake_case_ : Union[str, Any] = [
[0, 0, 0, 0, 0, 0, 0],
[0, 1, 0, 0, 0, 0, 0], # 0 are free path whereas 1's are obstacles
[0, 0, 0, 0, 0, 0, 0],
[0, 0, 1, 0, 0, 0, 0],
[1, 0, 1, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 1, 0, 0],
]
snake_case_ : str = [[-1, 0], [0, -1], [1, 0], [0, 1]] # up, left, down, right
snake_case_ : List[Any] = tuple[int, int]
class __snake_case :
def __init__( self : Any , _snake_case : int , _snake_case : int , _snake_case : int , _snake_case : int , _snake_case : int , _snake_case : Node | None , ):
"""simple docstring"""
UpperCAmelCase_ = pos_x
UpperCAmelCase_ = pos_y
UpperCAmelCase_ = (pos_y, pos_x)
UpperCAmelCase_ = goal_x
UpperCAmelCase_ = goal_y
UpperCAmelCase_ = g_cost
UpperCAmelCase_ = parent
UpperCAmelCase_ = self.calculate_heuristic()
UpperCAmelCase_ = self.g_cost + self.h_cost
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = self.pos_x - self.goal_x
UpperCAmelCase_ = self.pos_y - self.goal_y
if HEURISTIC == 1:
return abs(_snake_case) + abs(_snake_case)
else:
return sqrt(dy**2 + dx**2)
def __lt__( self : Union[str, Any] , _snake_case : Node):
"""simple docstring"""
return self.f_cost < other.f_cost
class __snake_case :
def __init__( self : str , _snake_case : TPosition , _snake_case : TPosition):
"""simple docstring"""
UpperCAmelCase_ = Node(start[1] , start[0] , goal[1] , goal[0] , 0 , _snake_case)
UpperCAmelCase_ = Node(goal[1] , goal[0] , goal[1] , goal[0] , 99999 , _snake_case)
UpperCAmelCase_ = [self.start]
UpperCAmelCase_ = []
UpperCAmelCase_ = False
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
while self.open_nodes:
# Open Nodes are sorted using __lt__
self.open_nodes.sort()
UpperCAmelCase_ = self.open_nodes.pop(0)
if current_node.pos == self.target.pos:
return self.retrace_path(_snake_case)
self.closed_nodes.append(_snake_case)
UpperCAmelCase_ = self.get_successors(_snake_case)
for child_node in successors:
if child_node in self.closed_nodes:
continue
if child_node not in self.open_nodes:
self.open_nodes.append(_snake_case)
else:
# retrieve the best current path
UpperCAmelCase_ = self.open_nodes.pop(self.open_nodes.index(_snake_case))
if child_node.g_cost < better_node.g_cost:
self.open_nodes.append(_snake_case)
else:
self.open_nodes.append(_snake_case)
return [self.start.pos]
def lowerCamelCase ( self : Tuple , _snake_case : Node):
"""simple docstring"""
UpperCAmelCase_ = []
for action in delta:
UpperCAmelCase_ = parent.pos_x + action[1]
UpperCAmelCase_ = parent.pos_y + action[0]
if not (0 <= pos_x <= len(grid[0]) - 1 and 0 <= pos_y <= len(_snake_case) - 1):
continue
if grid[pos_y][pos_x] != 0:
continue
successors.append(
Node(
_snake_case , _snake_case , self.target.pos_y , self.target.pos_x , parent.g_cost + 1 , _snake_case , ))
return successors
def lowerCamelCase ( self : Any , _snake_case : Node | None):
"""simple docstring"""
UpperCAmelCase_ = node
UpperCAmelCase_ = []
while current_node is not None:
path.append((current_node.pos_y, current_node.pos_x))
UpperCAmelCase_ = current_node.parent
path.reverse()
return path
class __snake_case :
def __init__( self : Any , _snake_case : TPosition , _snake_case : TPosition):
"""simple docstring"""
UpperCAmelCase_ = AStar(_snake_case , _snake_case)
UpperCAmelCase_ = AStar(_snake_case , _snake_case)
UpperCAmelCase_ = False
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
while self.fwd_astar.open_nodes or self.bwd_astar.open_nodes:
self.fwd_astar.open_nodes.sort()
self.bwd_astar.open_nodes.sort()
UpperCAmelCase_ = self.fwd_astar.open_nodes.pop(0)
UpperCAmelCase_ = self.bwd_astar.open_nodes.pop(0)
if current_bwd_node.pos == current_fwd_node.pos:
return self.retrace_bidirectional_path(
_snake_case , _snake_case)
self.fwd_astar.closed_nodes.append(_snake_case)
self.bwd_astar.closed_nodes.append(_snake_case)
UpperCAmelCase_ = current_bwd_node
UpperCAmelCase_ = current_fwd_node
UpperCAmelCase_ = {
self.fwd_astar: self.fwd_astar.get_successors(_snake_case),
self.bwd_astar: self.bwd_astar.get_successors(_snake_case),
}
for astar in [self.fwd_astar, self.bwd_astar]:
for child_node in successors[astar]:
if child_node in astar.closed_nodes:
continue
if child_node not in astar.open_nodes:
astar.open_nodes.append(_snake_case)
else:
# retrieve the best current path
UpperCAmelCase_ = astar.open_nodes.pop(
astar.open_nodes.index(_snake_case))
if child_node.g_cost < better_node.g_cost:
astar.open_nodes.append(_snake_case)
else:
astar.open_nodes.append(_snake_case)
return [self.fwd_astar.start.pos]
def lowerCamelCase ( self : int , _snake_case : Node , _snake_case : Node):
"""simple docstring"""
UpperCAmelCase_ = self.fwd_astar.retrace_path(_snake_case)
UpperCAmelCase_ = self.bwd_astar.retrace_path(_snake_case)
bwd_path.pop()
bwd_path.reverse()
UpperCAmelCase_ = fwd_path + bwd_path
return path
if __name__ == "__main__":
# all coordinates are given in format [y,x]
snake_case_ : Any = (0, 0)
snake_case_ : Union[str, Any] = (len(grid) - 1, len(grid[0]) - 1)
for elem in grid:
print(elem)
snake_case_ : str = time.time()
snake_case_ : List[str] = AStar(init, goal)
snake_case_ : Optional[int] = a_star.search()
snake_case_ : Optional[Any] = time.time() - start_time
print(f"AStar execution time = {end_time:f} seconds")
snake_case_ : int = time.time()
snake_case_ : Dict = BidirectionalAStar(init, goal)
snake_case_ : str = time.time() - bd_start_time
print(f"BidirectionalAStar execution time = {bd_end_time:f} seconds")
| 51
| 1
|
from typing import List, Optional, Union
import numpy as np
import tensorflow as tf
from .utils import logging
snake_case_ : List[Any] = logging.get_logger(__name__)
def A (__A : Union[tf.Tensor, np.ndarray] ) -> List[int]:
"""simple docstring"""
if isinstance(__A , np.ndarray ):
return list(tensor.shape )
UpperCAmelCase_ = tf.shape(__A )
if tensor.shape == tf.TensorShape(__A ):
return dynamic
UpperCAmelCase_ = tensor.shape.as_list()
return [dynamic[i] if s is None else s for i, s in enumerate(__A )]
def A (__A : tf.Tensor , __A : Optional[int] = None , __A : Optional[str] = None ) -> tf.Tensor:
"""simple docstring"""
return tf.nn.softmax(logits=logits + 1E-9 , axis=__A , name=__A )
def A (__A : Union[str, Any] , __A : Optional[int] , __A : str , __A : Optional[int]=1E-5 , __A : int=-1 ) -> Any:
"""simple docstring"""
if weight.shape.rank != 1 or bias.shape.rank != 1 or not isinstance(__A , __A ):
raise NotImplementedError('''Only 1D weight and bias tensors are supported for now, with only a single axis.''' )
# Get mean and variance on the axis to be normalized
UpperCAmelCase_ , UpperCAmelCase_ = tf.nn.moments(__A , axes=[axis] , keepdims=__A )
if axis != -1:
# Reshape scale and weight to have the same rank as inputs, but with 1 dimensions
# on every dimension except axis
UpperCAmelCase_ = [1] * inputs.shape.rank
UpperCAmelCase_ = shape_list(__A )[axis]
UpperCAmelCase_ = tf.reshape(__A , __A )
UpperCAmelCase_ = tf.reshape(__A , __A )
# Compute layer normalization using the batch_normalization
# function.
UpperCAmelCase_ = tf.nn.batch_normalization(
__A , __A , __A , offset=__A , scale=__A , variance_epsilon=__A , )
return outputs
def A (__A : Any , __A : List[Any]=0 , __A : Tuple=-1 ) -> Optional[Any]:
"""simple docstring"""
if end_dim < 0:
end_dim += input.shape.rank
if start_dim < 0:
start_dim += input.shape.rank
if start_dim == end_dim:
return input
UpperCAmelCase_ = tf.shape(__A )
UpperCAmelCase_ = tf.math.reduce_prod(in_shape[start_dim : end_dim + 1] )
UpperCAmelCase_ = tf.concat([in_shape[:start_dim], [flattened_dim], in_shape[end_dim + 1 :]] , axis=0 )
return tf.reshape(__A , __A )
def A (__A : tf.Tensor ) -> tf.Tensor:
"""simple docstring"""
if not isinstance(__A , tf.Tensor ):
UpperCAmelCase_ = tf.convert_to_tensor(__A ) # Catches stray NumPy inputs
if encoder_attention_mask.shape.rank == 3:
UpperCAmelCase_ = encoder_attention_mask[:, None, :, :]
if encoder_attention_mask.shape.rank == 2:
UpperCAmelCase_ = encoder_attention_mask[:, None, None, :]
# T5 has a mask that can compare sequence ids, we can simulate this here with this transposition
# Cf. https://github.com/tensorflow/mesh/blob/8d2465e9bc93129b913b5ccc6a59aa97abd96ec6/mesh_tensorflow
# /transformer/transformer_layers.py#L270
# encoder_extended_attention_mask = (encoder_extended_attention_mask ==
# encoder_extended_attention_mask.transpose(-1, -2))
UpperCAmelCase_ = (
tf.cast(1 , encoder_attention_mask.dtype ) - encoder_extended_attention_mask
) * encoder_extended_attention_mask.dtype.min
return encoder_extended_attention_mask
def A (__A : tf.Tensor , __A : int , __A : str = "input_ids" ) -> None:
"""simple docstring"""
tf.debugging.assert_less(
__A , tf.cast(__A , dtype=tensor.dtype ) , message=(
F"""The maximum value of {tensor_name} ({tf.math.reduce_max(__A )}) must be smaller than the embedding """
F"""layer's input dimension ({embed_dim}). The likely cause is some problem at tokenization time."""
) , )
def A (__A : Tuple , __A : Dict , __A : List[Any] ) -> List[Any]:
"""simple docstring"""
UpperCAmelCase_ = 64512
# Check that no item in `data` is larger than `HDF5_OBJECT_HEADER_LIMIT`
# because in that case even chunking the array would not make the saving
# possible.
UpperCAmelCase_ = [x for x in data if len(__A ) > HDF5_OBJECT_HEADER_LIMIT]
# Expecting this to never be true.
if bad_attributes:
raise RuntimeError(
'''The following attributes cannot be saved to HDF5 file because '''
F"""they are larger than {HDF5_OBJECT_HEADER_LIMIT} """
F"""bytes: {bad_attributes}""" )
UpperCAmelCase_ = np.asarray(__A )
UpperCAmelCase_ = 1
UpperCAmelCase_ = np.array_split(__A , __A )
# This will never loop forever thanks to the test above.
while any(x.nbytes > HDF5_OBJECT_HEADER_LIMIT for x in chunked_data ):
num_chunks += 1
UpperCAmelCase_ = np.array_split(__A , __A )
if num_chunks > 1:
for chunk_id, chunk_data in enumerate(__A ):
UpperCAmelCase_ = chunk_data
else:
UpperCAmelCase_ = data
def A (__A : List[Any] , __A : Any ) -> int:
"""simple docstring"""
if name in group.attrs:
UpperCAmelCase_ = [n.decode('''utf8''' ) if hasattr(__A , '''decode''' ) else n for n in group.attrs[name]]
else:
UpperCAmelCase_ = []
UpperCAmelCase_ = 0
while "%s%d" % (name, chunk_id) in group.attrs:
data.extend(
[n.decode('''utf8''' ) if hasattr(__A , '''decode''' ) else n for n in group.attrs['''%s%d''' % (name, chunk_id)]] )
chunk_id += 1
return data
def A (__A : List[Any] ) -> Any:
"""simple docstring"""
def _expand_single_ad_tensor(__A : Optional[int] ):
if isinstance(__A , tf.Tensor ) and t.shape.rank == 1:
return tf.expand_dims(__A , axis=-1 )
return t
return tf.nest.map_structure(_expand_single_ad_tensor , __A )
| 51
|
import inspect
import unittest
import numpy as np
from tests.test_modeling_common import floats_tensor
from transformers import DetrConfig, MaskFormerConfig, SwinConfig, is_torch_available, is_vision_available
from transformers.testing_utils import require_torch, require_torch_multi_gpu, require_vision, slow, torch_device
from transformers.utils import cached_property
from ...test_configuration_common import ConfigTester
from ...test_modeling_common import ModelTesterMixin
from ...test_pipeline_mixin import PipelineTesterMixin
if is_torch_available():
import torch
from transformers import MaskFormerForInstanceSegmentation, MaskFormerModel
if is_vision_available():
from transformers import MaskFormerImageProcessor
if is_vision_available():
from PIL import Image
class __snake_case :
def __init__( self : List[str] , _snake_case : Union[str, Any] , _snake_case : List[str]=2 , _snake_case : Any=True , _snake_case : Any=False , _snake_case : List[str]=10 , _snake_case : Any=3 , _snake_case : Union[str, Any]=32 * 4 , _snake_case : List[Any]=32 * 6 , _snake_case : Tuple=4 , _snake_case : Dict=32 , ):
"""simple docstring"""
UpperCAmelCase_ = parent
UpperCAmelCase_ = batch_size
UpperCAmelCase_ = is_training
UpperCAmelCase_ = use_auxiliary_loss
UpperCAmelCase_ = num_queries
UpperCAmelCase_ = num_channels
UpperCAmelCase_ = min_size
UpperCAmelCase_ = max_size
UpperCAmelCase_ = num_labels
UpperCAmelCase_ = mask_feature_size
def lowerCamelCase ( self : Any):
"""simple docstring"""
UpperCAmelCase_ = floats_tensor([self.batch_size, self.num_channels, self.min_size, self.max_size]).to(
_snake_case)
UpperCAmelCase_ = torch.ones([self.batch_size, self.min_size, self.max_size] , device=_snake_case)
UpperCAmelCase_ = (
torch.rand([self.batch_size, self.num_labels, self.min_size, self.max_size] , device=_snake_case) > 0.5
).float()
UpperCAmelCase_ = (torch.rand((self.batch_size, self.num_labels) , device=_snake_case) > 0.5).long()
UpperCAmelCase_ = self.get_config()
return config, pixel_values, pixel_mask, mask_labels, class_labels
def lowerCamelCase ( self : Any):
"""simple docstring"""
return MaskFormerConfig.from_backbone_and_decoder_configs(
backbone_config=SwinConfig(
depths=[1, 1, 1, 1] , ) , decoder_config=DetrConfig(
decoder_ffn_dim=128 , num_queries=self.num_queries , decoder_attention_heads=2 , d_model=self.mask_feature_size , ) , mask_feature_size=self.mask_feature_size , fpn_feature_size=self.mask_feature_size , num_channels=self.num_channels , num_labels=self.num_labels , )
def lowerCamelCase ( self : int):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = self.prepare_config_and_inputs()
UpperCAmelCase_ = {'''pixel_values''': pixel_values, '''pixel_mask''': pixel_mask}
return config, inputs_dict
def lowerCamelCase ( self : str , _snake_case : List[Any] , _snake_case : List[str]):
"""simple docstring"""
UpperCAmelCase_ = output.encoder_hidden_states
UpperCAmelCase_ = output.pixel_decoder_hidden_states
UpperCAmelCase_ = output.transformer_decoder_hidden_states
self.parent.assertTrue(len(_snake_case) , len(config.backbone_config.depths))
self.parent.assertTrue(len(_snake_case) , len(config.backbone_config.depths))
self.parent.assertTrue(len(_snake_case) , config.decoder_config.decoder_layers)
def lowerCamelCase ( self : Union[str, Any] , _snake_case : List[str] , _snake_case : int , _snake_case : Optional[Any] , _snake_case : str=False):
"""simple docstring"""
with torch.no_grad():
UpperCAmelCase_ = MaskFormerModel(config=_snake_case)
model.to(_snake_case)
model.eval()
UpperCAmelCase_ = model(pixel_values=_snake_case , pixel_mask=_snake_case)
UpperCAmelCase_ = model(_snake_case , output_hidden_states=_snake_case)
# the correct shape of output.transformer_decoder_hidden_states ensure the correcteness of the
# encoder and pixel decoder
self.parent.assertEqual(
output.transformer_decoder_last_hidden_state.shape , (self.batch_size, self.num_queries, self.mask_feature_size) , )
# let's ensure the other two hidden state exists
self.parent.assertTrue(output.pixel_decoder_last_hidden_state is not None)
self.parent.assertTrue(output.encoder_last_hidden_state is not None)
if output_hidden_states:
self.check_output_hidden_state(_snake_case , _snake_case)
def lowerCamelCase ( self : List[Any] , _snake_case : List[Any] , _snake_case : List[Any] , _snake_case : str , _snake_case : Optional[int] , _snake_case : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = MaskFormerForInstanceSegmentation(config=_snake_case)
model.to(_snake_case)
model.eval()
def comm_check_on_output(_snake_case : Tuple):
# let's still check that all the required stuff is there
self.parent.assertTrue(result.transformer_decoder_last_hidden_state is not None)
self.parent.assertTrue(result.pixel_decoder_last_hidden_state is not None)
self.parent.assertTrue(result.encoder_last_hidden_state is not None)
# okay, now we need to check the logits shape
# due to the encoder compression, masks have a //4 spatial size
self.parent.assertEqual(
result.masks_queries_logits.shape , (self.batch_size, self.num_queries, self.min_size // 4, self.max_size // 4) , )
# + 1 for null class
self.parent.assertEqual(
result.class_queries_logits.shape , (self.batch_size, self.num_queries, self.num_labels + 1))
with torch.no_grad():
UpperCAmelCase_ = model(pixel_values=_snake_case , pixel_mask=_snake_case)
UpperCAmelCase_ = model(_snake_case)
comm_check_on_output(_snake_case)
UpperCAmelCase_ = model(
pixel_values=_snake_case , pixel_mask=_snake_case , mask_labels=_snake_case , class_labels=_snake_case)
comm_check_on_output(_snake_case)
self.parent.assertTrue(result.loss is not None)
self.parent.assertEqual(result.loss.shape , torch.Size([1]))
@require_torch
class __snake_case ( a , a , unittest.TestCase ):
UpperCAmelCase__ : Union[str, Any] = (MaskFormerModel, MaskFormerForInstanceSegmentation) if is_torch_available() else ()
UpperCAmelCase__ : Optional[Any] = (
{'''feature-extraction''': MaskFormerModel, '''image-segmentation''': MaskFormerForInstanceSegmentation}
if is_torch_available()
else {}
)
UpperCAmelCase__ : Dict = False
UpperCAmelCase__ : List[str] = False
UpperCAmelCase__ : Optional[Any] = False
UpperCAmelCase__ : Union[str, Any] = False
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = MaskFormerModelTester(self)
UpperCAmelCase_ = ConfigTester(self , config_class=_snake_case , has_text_modality=_snake_case)
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
self.config_tester.run_common_tests()
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_common()
self.model_tester.create_and_check_maskformer_model(_snake_case , **_snake_case , output_hidden_states=_snake_case)
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_maskformer_instance_segmentation_head_model(*_snake_case)
@unittest.skip(reason='''MaskFormer does not use inputs_embeds''')
def lowerCamelCase ( self : Dict):
"""simple docstring"""
pass
@unittest.skip(reason='''MaskFormer does not have a get_input_embeddings method''')
def lowerCamelCase ( self : int):
"""simple docstring"""
pass
@unittest.skip(reason='''MaskFormer is not a generative model''')
def lowerCamelCase ( self : str):
"""simple docstring"""
pass
@unittest.skip(reason='''MaskFormer does not use token embeddings''')
def lowerCamelCase ( self : int):
"""simple docstring"""
pass
@require_torch_multi_gpu
@unittest.skip(
reason='''MaskFormer has some layers using `add_module` which doesn\'t work well with `nn.DataParallel`''')
def lowerCamelCase ( self : Any):
"""simple docstring"""
pass
@unittest.skip('''Will be fixed soon by reducing the size of the model used for common tests.''')
def lowerCamelCase ( self : str):
"""simple docstring"""
pass
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
UpperCAmelCase_ = model_class(_snake_case)
UpperCAmelCase_ = inspect.signature(model.forward)
# signature.parameters is an OrderedDict => so arg_names order is deterministic
UpperCAmelCase_ = [*signature.parameters.keys()]
UpperCAmelCase_ = ['''pixel_values''']
self.assertListEqual(arg_names[:1] , _snake_case)
@slow
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
for model_name in ["facebook/maskformer-swin-small-coco"]:
UpperCAmelCase_ = MaskFormerModel.from_pretrained(_snake_case)
self.assertIsNotNone(_snake_case)
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = (self.model_tester.min_size,) * 2
UpperCAmelCase_ = {
'''pixel_values''': torch.randn((2, 3, *size) , device=_snake_case),
'''mask_labels''': torch.randn((2, 10, *size) , device=_snake_case),
'''class_labels''': torch.zeros(2 , 10 , device=_snake_case).long(),
}
UpperCAmelCase_ = MaskFormerForInstanceSegmentation(MaskFormerConfig()).to(_snake_case)
UpperCAmelCase_ = model(**_snake_case)
self.assertTrue(outputs.loss is not None)
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_common()
self.model_tester.create_and_check_maskformer_model(_snake_case , **_snake_case , output_hidden_states=_snake_case)
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
UpperCAmelCase_ = model_class(_snake_case).to(_snake_case)
UpperCAmelCase_ = model(**_snake_case , output_attentions=_snake_case)
self.assertTrue(outputs.attentions is not None)
def lowerCamelCase ( self : int):
"""simple docstring"""
if not self.model_tester.is_training:
return
# only MaskFormerForInstanceSegmentation has the loss
UpperCAmelCase_ = self.all_model_classes[1]
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
UpperCAmelCase_ = model_class(_snake_case)
model.to(_snake_case)
model.train()
UpperCAmelCase_ = model(_snake_case , mask_labels=_snake_case , class_labels=_snake_case).loss
loss.backward()
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = self.all_model_classes[1]
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
UpperCAmelCase_ = True
UpperCAmelCase_ = True
UpperCAmelCase_ = model_class(_snake_case)
model.to(_snake_case)
model.train()
UpperCAmelCase_ = model(_snake_case , mask_labels=_snake_case , class_labels=_snake_case)
UpperCAmelCase_ = outputs.encoder_hidden_states[0]
encoder_hidden_states.retain_grad()
UpperCAmelCase_ = outputs.pixel_decoder_hidden_states[0]
pixel_decoder_hidden_states.retain_grad()
# we requires_grad=True in inputs_embeds (line 2152), the original implementation don't
UpperCAmelCase_ = outputs.transformer_decoder_hidden_states[0]
transformer_decoder_hidden_states.retain_grad()
UpperCAmelCase_ = outputs.attentions[0]
attentions.retain_grad()
outputs.loss.backward(retain_graph=_snake_case)
self.assertIsNotNone(encoder_hidden_states.grad)
self.assertIsNotNone(pixel_decoder_hidden_states.grad)
self.assertIsNotNone(transformer_decoder_hidden_states.grad)
self.assertIsNotNone(attentions.grad)
snake_case_ : Dict = 1e-4
def A () -> Union[str, Any]:
"""simple docstring"""
UpperCAmelCase_ = Image.open('''./tests/fixtures/tests_samples/COCO/000000039769.png''' )
return image
@require_vision
@slow
class __snake_case ( unittest.TestCase ):
@cached_property
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
return (
MaskFormerImageProcessor.from_pretrained('''facebook/maskformer-swin-small-coco''')
if is_vision_available()
else None
)
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = MaskFormerModel.from_pretrained('''facebook/maskformer-swin-small-coco''').to(_snake_case)
UpperCAmelCase_ = self.default_image_processor
UpperCAmelCase_ = prepare_img()
UpperCAmelCase_ = image_processor(_snake_case , return_tensors='''pt''').to(_snake_case)
UpperCAmelCase_ = inputs['''pixel_values'''].shape
# check size is divisible by 32
self.assertTrue((inputs_shape[-1] % 32) == 0 and (inputs_shape[-2] % 32) == 0)
# check size
self.assertEqual(_snake_case , (1, 3, 800, 1088))
with torch.no_grad():
UpperCAmelCase_ = model(**_snake_case)
UpperCAmelCase_ = torch.tensor(
[[-0.0_4_8_2, 0.9_2_2_8, 0.4_9_5_1], [-0.2_5_4_7, 0.8_0_1_7, 0.8_5_2_7], [-0.0_0_6_9, 0.3_3_8_5, -0.0_0_8_9]]).to(_snake_case)
self.assertTrue(
torch.allclose(
outputs.encoder_last_hidden_state[0, 0, :3, :3] , _snake_case , atol=_snake_case))
UpperCAmelCase_ = torch.tensor(
[[-0.8_4_2_2, -0.8_4_3_4, -0.9_7_1_8], [-1.0_1_4_4, -0.5_5_6_5, -0.4_1_9_5], [-1.0_0_3_8, -0.4_4_8_4, -0.1_9_6_1]]).to(_snake_case)
self.assertTrue(
torch.allclose(
outputs.pixel_decoder_last_hidden_state[0, 0, :3, :3] , _snake_case , atol=_snake_case))
UpperCAmelCase_ = torch.tensor(
[[0.2_8_5_2, -0.0_1_5_9, 0.9_7_3_5], [0.6_2_5_4, 0.1_8_5_8, 0.8_5_2_9], [-0.0_6_8_0, -0.4_1_1_6, 1.8_4_1_3]]).to(_snake_case)
self.assertTrue(
torch.allclose(
outputs.transformer_decoder_last_hidden_state[0, :3, :3] , _snake_case , atol=_snake_case))
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = (
MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''')
.to(_snake_case)
.eval()
)
UpperCAmelCase_ = self.default_image_processor
UpperCAmelCase_ = prepare_img()
UpperCAmelCase_ = image_processor(_snake_case , return_tensors='''pt''').to(_snake_case)
UpperCAmelCase_ = inputs['''pixel_values'''].shape
# check size is divisible by 32
self.assertTrue((inputs_shape[-1] % 32) == 0 and (inputs_shape[-2] % 32) == 0)
# check size
self.assertEqual(_snake_case , (1, 3, 800, 1088))
with torch.no_grad():
UpperCAmelCase_ = model(**_snake_case)
# masks_queries_logits
UpperCAmelCase_ = outputs.masks_queries_logits
self.assertEqual(
masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , )
UpperCAmelCase_ = [
[-1.3_7_3_7_1_2_4, -1.7_7_2_4_9_3_7, -1.9_3_6_4_2_3_3],
[-1.5_9_7_7_2_8_1, -1.9_8_6_7_9_3_9, -2.1_5_2_3_6_9_5],
[-1.5_7_9_5_3_9_8, -1.9_2_6_9_8_3_2, -2.0_9_3_9_4_2],
]
UpperCAmelCase_ = torch.tensor(_snake_case).to(_snake_case)
self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , _snake_case , atol=_snake_case))
# class_queries_logits
UpperCAmelCase_ = outputs.class_queries_logits
self.assertEqual(
class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1))
UpperCAmelCase_ = torch.tensor(
[
[1.65_12e00, -5.25_72e00, -3.35_19e00],
[3.61_69e-02, -5.90_25e00, -2.93_13e00],
[1.07_66e-04, -7.76_30e00, -5.12_63e00],
]).to(_snake_case)
self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , _snake_case , atol=_snake_case))
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = (
MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-resnet101-coco-stuff''')
.to(_snake_case)
.eval()
)
UpperCAmelCase_ = self.default_image_processor
UpperCAmelCase_ = prepare_img()
UpperCAmelCase_ = image_processor(_snake_case , return_tensors='''pt''').to(_snake_case)
UpperCAmelCase_ = inputs['''pixel_values'''].shape
# check size is divisible by 32
self.assertTrue((inputs_shape[-1] % 32) == 0 and (inputs_shape[-2] % 32) == 0)
# check size
self.assertEqual(_snake_case , (1, 3, 800, 1088))
with torch.no_grad():
UpperCAmelCase_ = model(**_snake_case)
# masks_queries_logits
UpperCAmelCase_ = outputs.masks_queries_logits
self.assertEqual(
masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , )
UpperCAmelCase_ = [[-0.9_0_4_6, -2.6_3_6_6, -4.6_0_6_2], [-3.4_1_7_9, -5.7_8_9_0, -8.8_0_5_7], [-4.9_1_7_9, -7.6_5_6_0, -1_0.7_7_1_1]]
UpperCAmelCase_ = torch.tensor(_snake_case).to(_snake_case)
self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , _snake_case , atol=_snake_case))
# class_queries_logits
UpperCAmelCase_ = outputs.class_queries_logits
self.assertEqual(
class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1))
UpperCAmelCase_ = torch.tensor(
[[4.7_1_8_8, -3.2_5_8_5, -2.8_8_5_7], [6.6_8_7_1, -2.9_1_8_1, -1.2_4_8_7], [7.2_4_4_9, -2.2_7_6_4, -2.1_8_7_4]]).to(_snake_case)
self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , _snake_case , atol=_snake_case))
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = (
MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''')
.to(_snake_case)
.eval()
)
UpperCAmelCase_ = self.default_image_processor
UpperCAmelCase_ = image_processor(
[np.zeros((3, 800, 1333)), np.zeros((3, 800, 1333))] , segmentation_maps=[np.zeros((384, 384)).astype(np.floataa), np.zeros((384, 384)).astype(np.floataa)] , return_tensors='''pt''' , )
UpperCAmelCase_ = inputs['''pixel_values'''].to(_snake_case)
UpperCAmelCase_ = [el.to(_snake_case) for el in inputs['''mask_labels''']]
UpperCAmelCase_ = [el.to(_snake_case) for el in inputs['''class_labels''']]
with torch.no_grad():
UpperCAmelCase_ = model(**_snake_case)
self.assertTrue(outputs.loss is not None)
| 51
| 1
|
import unittest
from knapsack import greedy_knapsack as kp
class __snake_case ( unittest.TestCase ):
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = [10, 20, 30, 40, 50, 60]
UpperCAmelCase_ = [2, 4, 6, 8, 10, 12]
UpperCAmelCase_ = 100
self.assertEqual(kp.calc_profit(_snake_case , _snake_case , _snake_case) , 210)
def lowerCamelCase ( self : str):
"""simple docstring"""
self.assertRaisesRegex(_snake_case , '''max_weight must greater than zero.''')
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
self.assertRaisesRegex(_snake_case , '''Weight can not be negative.''')
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
self.assertRaisesRegex(_snake_case , '''Profit can not be negative.''')
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
self.assertRaisesRegex(_snake_case , '''max_weight must greater than zero.''')
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
self.assertRaisesRegex(
_snake_case , '''The length of profit and weight must be same.''')
if __name__ == "__main__":
unittest.main()
| 51
|
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 A (__A : Optional[int] , __A : int , __A : str=None ) -> List[Any]:
"""simple docstring"""
assert torch_layer.weight.shape == weight.shape, F"""{torch_layer} layer.weight does not match"""
UpperCAmelCase_ = nn.Parameter(__A )
if bias is not None:
assert torch_layer.bias.shape == bias.shape, F"""{torch_layer} layer.bias does not match"""
UpperCAmelCase_ = nn.Parameter(__A )
def A (__A : Tuple , __A : Dict , __A : str ) -> Tuple:
"""simple docstring"""
UpperCAmelCase_ = np.asarray(weights[0] )
UpperCAmelCase_ = np.asarray(weights[1] )
UpperCAmelCase_ = np.asarray(weights[2] )
set_param(
torch_layer.self_attention.query_key , torch.tensor(__A ).transpose(1 , 2 ).contiguous().view(-1 , __A ) , )
set_param(
torch_layer.self_attention.value , torch.tensor(__A ).transpose(1 , 2 ).contiguous().view(-1 , __A ) , )
set_param(
torch_layer.output.dense , torch.tensor(__A ).view(-1 , __A ).contiguous().transpose(0 , 1 ) , )
def A (__A : Optional[Any] , __A : Any , __A : List[Any] ) -> int:
"""simple docstring"""
UpperCAmelCase_ = np.asarray(weights[0] )
UpperCAmelCase_ = np.asarray(weights[1] )
UpperCAmelCase_ = np.asarray(weights[2] )
UpperCAmelCase_ = np.asarray(weights[3] )
set_param(
torch_layer.self_attention.query , torch.tensor(__A ).transpose(1 , 2 ).contiguous().view(-1 , __A ) , )
set_param(
torch_layer.self_attention.key , torch.tensor(__A ).transpose(1 , 2 ).contiguous().view(-1 , __A ) , )
set_param(
torch_layer.self_attention.value , torch.tensor(__A ).transpose(1 , 2 ).contiguous().view(-1 , __A ) , )
set_param(
torch_layer.output.dense , torch.tensor(__A ).view(-1 , __A ).contiguous().transpose(0 , 1 ) , )
def A (__A : int , __A : Union[str, Any] , __A : List[str] ) -> List[Any]:
"""simple docstring"""
UpperCAmelCase_ = weights[0][0][0]
UpperCAmelCase_ = np.asarray(layer_norm_a[0] )
UpperCAmelCase_ = np.asarray(layer_norm_a[1] )
set_param(
torch_block.attention.layer_norm , torch.tensor(__A ) , torch.tensor(__A ) , )
# lsh weights + output
UpperCAmelCase_ = weights[0][1]
if len(__A ) < 4:
set_layer_weights_in_torch_lsh(__A , torch_block.attention , __A )
else:
set_layer_weights_in_torch_local(__A , torch_block.attention , __A )
# intermediate weighs
UpperCAmelCase_ = weights[2][0][1][2]
# Chunked Feed Forward
if len(__A ) == 4:
UpperCAmelCase_ = intermediate_weights[2]
# layernorm 2
UpperCAmelCase_ = np.asarray(intermediate_weights[0][0] )
UpperCAmelCase_ = np.asarray(intermediate_weights[0][1] )
set_param(
torch_block.feed_forward.layer_norm , torch.tensor(__A ) , torch.tensor(__A ) , )
# intermediate dense
UpperCAmelCase_ = np.asarray(intermediate_weights[1][0] )
UpperCAmelCase_ = np.asarray(intermediate_weights[1][1] )
set_param(
torch_block.feed_forward.dense.dense , torch.tensor(__A ).transpose(0 , 1 ).contiguous() , torch.tensor(__A ) , )
# intermediate out
UpperCAmelCase_ = np.asarray(intermediate_weights[4][0] )
UpperCAmelCase_ = np.asarray(intermediate_weights[4][1] )
set_param(
torch_block.feed_forward.output.dense , torch.tensor(__A ).transpose(0 , 1 ).contiguous() , torch.tensor(__A ) , )
def A (__A : Optional[int] , __A : Tuple , __A : Any ) -> Tuple:
"""simple docstring"""
UpperCAmelCase_ = torch_model.reformer
# word embeds
UpperCAmelCase_ = np.asarray(weights[1] )
set_param(
torch_model_reformer.embeddings.word_embeddings , torch.tensor(__A ) , )
if isinstance(weights[3] , __A ):
UpperCAmelCase_ = torch_model_reformer.embeddings.position_embeddings
for emb_idx in range(len(position_embeddings.weights ) ):
UpperCAmelCase_ = 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"""
UpperCAmelCase_ = nn.Parameter(torch.tensor(__A ) )
UpperCAmelCase_ = weights[5]
assert len(torch_model_reformer.encoder.layers ) * 4 == len(
__A ), "HF and trax model do not have the same number of layers"
for layer_idx, layer in enumerate(torch_model_reformer.encoder.layers ):
UpperCAmelCase_ = trax_layer_weights[4 * layer_idx : 4 * (layer_idx + 1)]
set_block_weights_in_torch(__A , __A , __A )
# output layer norm
UpperCAmelCase_ = np.asarray(weights[7][0] )
UpperCAmelCase_ = np.asarray(weights[7][1] )
set_param(
torch_model_reformer.encoder.layer_norm , torch.tensor(__A ) , torch.tensor(__A ) , )
# output embeddings
UpperCAmelCase_ = np.asarray(weights[9][0] )
UpperCAmelCase_ = np.asarray(weights[9][1] )
set_param(
torch_model.lm_head.decoder , torch.tensor(__A ).transpose(0 , 1 ).contiguous() , torch.tensor(__A ) , )
def A (__A : Tuple , __A : int , __A : str ) -> Union[str, Any]:
"""simple docstring"""
UpperCAmelCase_ = ReformerConfig.from_json_file(__A )
print(F"""Building PyTorch model from configuration: {config}""" )
UpperCAmelCase_ = ReformerModelWithLMHead(__A )
with open(__A , '''rb''' ) as f:
UpperCAmelCase_ = pickle.load(__A )['''weights''']
set_model_weights_in_torch(__A , __A , config.hidden_size )
# Save pytorch-model
print(F"""Save PyTorch model to {pytorch_dump_path}""" )
torch.save(model.state_dict() , __A )
if __name__ == "__main__":
snake_case_ : Optional[Any] = 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."
)
snake_case_ : List[Any] = parser.parse_args()
convert_trax_checkpoint_to_pytorch(args.trax_model_pkl_path, args.config_file, args.pytorch_dump_path)
| 51
| 1
|
import copy
from dataclasses import dataclass, field
from typing import ClassVar, Dict
from ..features import Audio, Features, Value
from .base import TaskTemplate
@dataclass(frozen=a )
class __snake_case ( a ):
UpperCAmelCase__ : str = field(default='''automatic-speech-recognition''' , metadata={'''include_in_asdict_even_if_is_default''': True} )
UpperCAmelCase__ : ClassVar[Features] = Features({'''audio''': Audio()} )
UpperCAmelCase__ : ClassVar[Features] = Features({'''transcription''': Value('''string''' )} )
UpperCAmelCase__ : str = "audio"
UpperCAmelCase__ : str = "transcription"
def lowerCamelCase ( self : Union[str, Any] , _snake_case : Tuple):
"""simple docstring"""
if self.audio_column not in features:
raise ValueError(F"""Column {self.audio_column} is not present in features.""")
if not isinstance(features[self.audio_column] , _snake_case):
raise ValueError(F"""Column {self.audio_column} is not an Audio type.""")
UpperCAmelCase_ = copy.deepcopy(self)
UpperCAmelCase_ = self.input_schema.copy()
UpperCAmelCase_ = features[self.audio_column]
UpperCAmelCase_ = input_schema
return task_template
@property
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
return {self.audio_column: "audio", self.transcription_column: "transcription"}
| 51
|
# This model implementation is heavily inspired by https://github.com/haofanwang/ControlNet-for-Diffusers/
import gc
import random
import tempfile
import unittest
import numpy as np
import torch
from PIL import Image
from transformers import CLIPTextConfig, CLIPTextModel, CLIPTokenizer
from diffusers import (
AutoencoderKL,
ControlNetModel,
DDIMScheduler,
StableDiffusionControlNetImgaImgPipeline,
UNetaDConditionModel,
)
from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion_controlnet import MultiControlNetModel
from diffusers.utils import floats_tensor, load_image, load_numpy, randn_tensor, slow, torch_device
from diffusers.utils.import_utils import is_xformers_available
from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu
from ..pipeline_params import (
IMAGE_TO_IMAGE_IMAGE_PARAMS,
TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS,
TEXT_GUIDED_IMAGE_VARIATION_PARAMS,
)
from ..test_pipelines_common import (
PipelineKarrasSchedulerTesterMixin,
PipelineLatentTesterMixin,
PipelineTesterMixin,
)
enable_full_determinism()
class __snake_case ( a , a , a , unittest.TestCase ):
UpperCAmelCase__ : List[Any] = StableDiffusionControlNetImgaImgPipeline
UpperCAmelCase__ : Optional[Any] = TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {'''height''', '''width'''}
UpperCAmelCase__ : Optional[Any] = TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS
UpperCAmelCase__ : Union[str, Any] = IMAGE_TO_IMAGE_IMAGE_PARAMS.union({'''control_image'''} )
UpperCAmelCase__ : Optional[Any] = IMAGE_TO_IMAGE_IMAGE_PARAMS
def lowerCamelCase ( self : int):
"""simple docstring"""
torch.manual_seed(0)
UpperCAmelCase_ = UNetaDConditionModel(
block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , up_block_types=('''CrossAttnUpBlock2D''', '''UpBlock2D''') , cross_attention_dim=32 , )
torch.manual_seed(0)
UpperCAmelCase_ = ControlNetModel(
block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , )
torch.manual_seed(0)
UpperCAmelCase_ = DDIMScheduler(
beta_start=0.0_0_0_8_5 , beta_end=0.0_1_2 , beta_schedule='''scaled_linear''' , clip_sample=_snake_case , set_alpha_to_one=_snake_case , )
torch.manual_seed(0)
UpperCAmelCase_ = AutoencoderKL(
block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=['''DownEncoderBlock2D''', '''DownEncoderBlock2D'''] , up_block_types=['''UpDecoderBlock2D''', '''UpDecoderBlock2D'''] , latent_channels=4 , )
torch.manual_seed(0)
UpperCAmelCase_ = CLIPTextConfig(
bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1e-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1000 , )
UpperCAmelCase_ = CLIPTextModel(_snake_case)
UpperCAmelCase_ = CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''')
UpperCAmelCase_ = {
'''unet''': unet,
'''controlnet''': controlnet,
'''scheduler''': scheduler,
'''vae''': vae,
'''text_encoder''': text_encoder,
'''tokenizer''': tokenizer,
'''safety_checker''': None,
'''feature_extractor''': None,
}
return components
def lowerCamelCase ( self : Union[str, Any] , _snake_case : Any , _snake_case : Dict=0):
"""simple docstring"""
if str(_snake_case).startswith('''mps'''):
UpperCAmelCase_ = torch.manual_seed(_snake_case)
else:
UpperCAmelCase_ = torch.Generator(device=_snake_case).manual_seed(_snake_case)
UpperCAmelCase_ = 2
UpperCAmelCase_ = randn_tensor(
(1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=_snake_case , device=torch.device(_snake_case) , )
UpperCAmelCase_ = floats_tensor(control_image.shape , rng=random.Random(_snake_case)).to(_snake_case)
UpperCAmelCase_ = image.cpu().permute(0 , 2 , 3 , 1)[0]
UpperCAmelCase_ = Image.fromarray(np.uinta(_snake_case)).convert('''RGB''').resize((64, 64))
UpperCAmelCase_ = {
'''prompt''': '''A painting of a squirrel eating a burger''',
'''generator''': generator,
'''num_inference_steps''': 2,
'''guidance_scale''': 6.0,
'''output_type''': '''numpy''',
'''image''': image,
'''control_image''': control_image,
}
return inputs
def lowerCamelCase ( self : Any):
"""simple docstring"""
return self._test_attention_slicing_forward_pass(expected_max_diff=2e-3)
@unittest.skipIf(
torch_device != '''cuda''' or not is_xformers_available() , reason='''XFormers attention is only available with CUDA and `xformers` installed''' , )
def lowerCamelCase ( self : Any):
"""simple docstring"""
self._test_xformers_attention_forwardGenerator_pass(expected_max_diff=2e-3)
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
self._test_inference_batch_single_identical(expected_max_diff=2e-3)
class __snake_case ( a , a , unittest.TestCase ):
UpperCAmelCase__ : str = StableDiffusionControlNetImgaImgPipeline
UpperCAmelCase__ : List[str] = TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {'''height''', '''width'''}
UpperCAmelCase__ : Optional[Any] = TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS
UpperCAmelCase__ : str = frozenset([] ) # TO_DO: add image_params once refactored VaeImageProcessor.preprocess
def lowerCamelCase ( self : str):
"""simple docstring"""
torch.manual_seed(0)
UpperCAmelCase_ = UNetaDConditionModel(
block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , up_block_types=('''CrossAttnUpBlock2D''', '''UpBlock2D''') , cross_attention_dim=32 , )
torch.manual_seed(0)
def init_weights(_snake_case : Optional[int]):
if isinstance(_snake_case , torch.nn.Convad):
torch.nn.init.normal(m.weight)
m.bias.data.fill_(1.0)
UpperCAmelCase_ = ControlNetModel(
block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , )
controlneta.controlnet_down_blocks.apply(_snake_case)
torch.manual_seed(0)
UpperCAmelCase_ = ControlNetModel(
block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , )
controlneta.controlnet_down_blocks.apply(_snake_case)
torch.manual_seed(0)
UpperCAmelCase_ = DDIMScheduler(
beta_start=0.0_0_0_8_5 , beta_end=0.0_1_2 , beta_schedule='''scaled_linear''' , clip_sample=_snake_case , set_alpha_to_one=_snake_case , )
torch.manual_seed(0)
UpperCAmelCase_ = AutoencoderKL(
block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=['''DownEncoderBlock2D''', '''DownEncoderBlock2D'''] , up_block_types=['''UpDecoderBlock2D''', '''UpDecoderBlock2D'''] , latent_channels=4 , )
torch.manual_seed(0)
UpperCAmelCase_ = CLIPTextConfig(
bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1e-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1000 , )
UpperCAmelCase_ = CLIPTextModel(_snake_case)
UpperCAmelCase_ = CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''')
UpperCAmelCase_ = MultiControlNetModel([controlneta, controlneta])
UpperCAmelCase_ = {
'''unet''': unet,
'''controlnet''': controlnet,
'''scheduler''': scheduler,
'''vae''': vae,
'''text_encoder''': text_encoder,
'''tokenizer''': tokenizer,
'''safety_checker''': None,
'''feature_extractor''': None,
}
return components
def lowerCamelCase ( self : int , _snake_case : Union[str, Any] , _snake_case : str=0):
"""simple docstring"""
if str(_snake_case).startswith('''mps'''):
UpperCAmelCase_ = torch.manual_seed(_snake_case)
else:
UpperCAmelCase_ = torch.Generator(device=_snake_case).manual_seed(_snake_case)
UpperCAmelCase_ = 2
UpperCAmelCase_ = [
randn_tensor(
(1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=_snake_case , device=torch.device(_snake_case) , ),
randn_tensor(
(1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=_snake_case , device=torch.device(_snake_case) , ),
]
UpperCAmelCase_ = floats_tensor(control_image[0].shape , rng=random.Random(_snake_case)).to(_snake_case)
UpperCAmelCase_ = image.cpu().permute(0 , 2 , 3 , 1)[0]
UpperCAmelCase_ = Image.fromarray(np.uinta(_snake_case)).convert('''RGB''').resize((64, 64))
UpperCAmelCase_ = {
'''prompt''': '''A painting of a squirrel eating a burger''',
'''generator''': generator,
'''num_inference_steps''': 2,
'''guidance_scale''': 6.0,
'''output_type''': '''numpy''',
'''image''': image,
'''control_image''': control_image,
}
return inputs
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = self.get_dummy_components()
UpperCAmelCase_ = self.pipeline_class(**_snake_case)
pipe.to(_snake_case)
UpperCAmelCase_ = 1_0.0
UpperCAmelCase_ = 4
UpperCAmelCase_ = self.get_dummy_inputs(_snake_case)
UpperCAmelCase_ = steps
UpperCAmelCase_ = scale
UpperCAmelCase_ = pipe(**_snake_case)[0]
UpperCAmelCase_ = self.get_dummy_inputs(_snake_case)
UpperCAmelCase_ = steps
UpperCAmelCase_ = scale
UpperCAmelCase_ = pipe(**_snake_case , control_guidance_start=0.1 , control_guidance_end=0.2)[0]
UpperCAmelCase_ = self.get_dummy_inputs(_snake_case)
UpperCAmelCase_ = steps
UpperCAmelCase_ = scale
UpperCAmelCase_ = pipe(**_snake_case , control_guidance_start=[0.1, 0.3] , control_guidance_end=[0.2, 0.7])[0]
UpperCAmelCase_ = self.get_dummy_inputs(_snake_case)
UpperCAmelCase_ = steps
UpperCAmelCase_ = scale
UpperCAmelCase_ = pipe(**_snake_case , control_guidance_start=0.4 , control_guidance_end=[0.5, 0.8])[0]
# make sure that all outputs are different
assert np.sum(np.abs(output_a - output_a)) > 1e-3
assert np.sum(np.abs(output_a - output_a)) > 1e-3
assert np.sum(np.abs(output_a - output_a)) > 1e-3
def lowerCamelCase ( self : Dict):
"""simple docstring"""
return self._test_attention_slicing_forward_pass(expected_max_diff=2e-3)
@unittest.skipIf(
torch_device != '''cuda''' or not is_xformers_available() , reason='''XFormers attention is only available with CUDA and `xformers` installed''' , )
def lowerCamelCase ( self : int):
"""simple docstring"""
self._test_xformers_attention_forwardGenerator_pass(expected_max_diff=2e-3)
def lowerCamelCase ( self : int):
"""simple docstring"""
self._test_inference_batch_single_identical(expected_max_diff=2e-3)
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = self.get_dummy_components()
UpperCAmelCase_ = self.pipeline_class(**_snake_case)
pipe.to(_snake_case)
pipe.set_progress_bar_config(disable=_snake_case)
with tempfile.TemporaryDirectory() as tmpdir:
try:
# save_pretrained is not implemented for Multi-ControlNet
pipe.save_pretrained(_snake_case)
except NotImplementedError:
pass
@slow
@require_torch_gpu
class __snake_case ( unittest.TestCase ):
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = ControlNetModel.from_pretrained('''lllyasviel/sd-controlnet-canny''')
UpperCAmelCase_ = StableDiffusionControlNetImgaImgPipeline.from_pretrained(
'''runwayml/stable-diffusion-v1-5''' , safety_checker=_snake_case , controlnet=_snake_case)
pipe.enable_model_cpu_offload()
pipe.set_progress_bar_config(disable=_snake_case)
UpperCAmelCase_ = torch.Generator(device='''cpu''').manual_seed(0)
UpperCAmelCase_ = '''evil space-punk bird'''
UpperCAmelCase_ = load_image(
'''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd_controlnet/bird_canny.png''').resize((512, 512))
UpperCAmelCase_ = load_image(
'''https://huggingface.co/lllyasviel/sd-controlnet-canny/resolve/main/images/bird.png''').resize((512, 512))
UpperCAmelCase_ = pipe(
_snake_case , _snake_case , control_image=_snake_case , generator=_snake_case , output_type='''np''' , num_inference_steps=50 , strength=0.6 , )
UpperCAmelCase_ = output.images[0]
assert image.shape == (512, 512, 3)
UpperCAmelCase_ = load_numpy(
'''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd_controlnet/img2img.npy''')
assert np.abs(expected_image - image).max() < 9e-2
| 51
| 1
|
import importlib
import math
import os
from dataclasses import dataclass
from enum import Enum
from typing import Any, Dict, Optional, Tuple, Union
import flax
import jax.numpy as jnp
from ..utils import BaseOutput
snake_case_ : Optional[Any] = "scheduler_config.json"
class __snake_case ( a ):
UpperCAmelCase__ : List[str] = 1
UpperCAmelCase__ : str = 2
UpperCAmelCase__ : Tuple = 3
UpperCAmelCase__ : Union[str, Any] = 4
UpperCAmelCase__ : Tuple = 5
@dataclass
class __snake_case ( a ):
UpperCAmelCase__ : jnp.ndarray
class __snake_case :
UpperCAmelCase__ : Tuple = SCHEDULER_CONFIG_NAME
UpperCAmelCase__ : Tuple = ['''dtype''']
UpperCAmelCase__ : List[Any] = []
UpperCAmelCase__ : List[str] = True
@classmethod
def lowerCamelCase ( cls : int , _snake_case : Dict[str, Any] = None , _snake_case : Optional[str] = None , _snake_case : Any=False , **_snake_case : List[Any] , ):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = cls.load_config(
pretrained_model_name_or_path=_snake_case , subfolder=_snake_case , return_unused_kwargs=_snake_case , **_snake_case , )
UpperCAmelCase_ , UpperCAmelCase_ = cls.from_config(_snake_case , return_unused_kwargs=_snake_case , **_snake_case)
if hasattr(_snake_case , '''create_state''') and getattr(_snake_case , '''has_state''' , _snake_case):
UpperCAmelCase_ = scheduler.create_state()
if return_unused_kwargs:
return scheduler, state, unused_kwargs
return scheduler, state
def lowerCamelCase ( self : Tuple , _snake_case : Union[str, os.PathLike] , _snake_case : bool = False , **_snake_case : str):
"""simple docstring"""
self.save_config(save_directory=_snake_case , push_to_hub=_snake_case , **_snake_case)
@property
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
return self._get_compatibles()
@classmethod
def lowerCamelCase ( cls : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = list(set([cls.__name__] + cls._compatibles))
UpperCAmelCase_ = importlib.import_module(__name__.split('''.''')[0])
UpperCAmelCase_ = [
getattr(_snake_case , _snake_case) for c in compatible_classes_str if hasattr(_snake_case , _snake_case)
]
return compatible_classes
def A (__A : jnp.ndarray , __A : Tuple[int] ) -> jnp.ndarray:
"""simple docstring"""
assert len(__A ) >= x.ndim
return jnp.broadcast_to(x.reshape(x.shape + (1,) * (len(__A ) - x.ndim) ) , __A )
def A (__A : int , __A : Tuple=0.999 , __A : int=jnp.floataa ) -> jnp.ndarray:
"""simple docstring"""
def alpha_bar(__A : Optional[int] ):
return math.cos((time_step + 0.008) / 1.008 * math.pi / 2 ) ** 2
UpperCAmelCase_ = []
for i in range(__A ):
UpperCAmelCase_ = i / num_diffusion_timesteps
UpperCAmelCase_ = (i + 1) / num_diffusion_timesteps
betas.append(min(1 - alpha_bar(__A ) / alpha_bar(__A ) , __A ) )
return jnp.array(__A , dtype=__A )
@flax.struct.dataclass
class __snake_case :
UpperCAmelCase__ : jnp.ndarray
UpperCAmelCase__ : jnp.ndarray
UpperCAmelCase__ : jnp.ndarray
@classmethod
def lowerCamelCase ( cls : Any , _snake_case : Dict):
"""simple docstring"""
UpperCAmelCase_ = scheduler.config
if config.trained_betas is not None:
UpperCAmelCase_ = jnp.asarray(config.trained_betas , dtype=scheduler.dtype)
elif config.beta_schedule == "linear":
UpperCAmelCase_ = jnp.linspace(config.beta_start , config.beta_end , config.num_train_timesteps , dtype=scheduler.dtype)
elif config.beta_schedule == "scaled_linear":
# this schedule is very specific to the latent diffusion model.
UpperCAmelCase_ = (
jnp.linspace(
config.beta_start**0.5 , config.beta_end**0.5 , config.num_train_timesteps , dtype=scheduler.dtype)
** 2
)
elif config.beta_schedule == "squaredcos_cap_v2":
# Glide cosine schedule
UpperCAmelCase_ = betas_for_alpha_bar(config.num_train_timesteps , dtype=scheduler.dtype)
else:
raise NotImplementedError(
F"""beta_schedule {config.beta_schedule} is not implemented for scheduler {scheduler.__class__.__name__}""")
UpperCAmelCase_ = 1.0 - betas
UpperCAmelCase_ = jnp.cumprod(_snake_case , axis=0)
return cls(
alphas=_snake_case , betas=_snake_case , alphas_cumprod=_snake_case , )
def A (__A : CommonSchedulerState , __A : jnp.ndarray , __A : jnp.ndarray , __A : jnp.ndarray ) -> Dict:
"""simple docstring"""
UpperCAmelCase_ = state.alphas_cumprod
UpperCAmelCase_ = alphas_cumprod[timesteps] ** 0.5
UpperCAmelCase_ = sqrt_alpha_prod.flatten()
UpperCAmelCase_ = broadcast_to_shape_from_left(__A , original_samples.shape )
UpperCAmelCase_ = (1 - alphas_cumprod[timesteps]) ** 0.5
UpperCAmelCase_ = sqrt_one_minus_alpha_prod.flatten()
UpperCAmelCase_ = broadcast_to_shape_from_left(__A , original_samples.shape )
return sqrt_alpha_prod, sqrt_one_minus_alpha_prod
def A (__A : CommonSchedulerState , __A : jnp.ndarray , __A : jnp.ndarray , __A : jnp.ndarray ) -> Dict:
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = get_sqrt_alpha_prod(__A , __A , __A , __A )
UpperCAmelCase_ = sqrt_alpha_prod * original_samples + sqrt_one_minus_alpha_prod * noise
return noisy_samples
def A (__A : CommonSchedulerState , __A : jnp.ndarray , __A : jnp.ndarray , __A : jnp.ndarray ) -> Any:
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = get_sqrt_alpha_prod(__A , __A , __A , __A )
UpperCAmelCase_ = sqrt_alpha_prod * noise - sqrt_one_minus_alpha_prod * sample
return velocity
| 51
|
import random
import timeit
from functools import wraps
from typing import Callable, Optional
from ..configuration_utils import PretrainedConfig
from ..models.auto.modeling_tf_auto import TF_MODEL_MAPPING, TF_MODEL_WITH_LM_HEAD_MAPPING
from ..utils import is_pyanvml_available, is_tf_available, logging
from .benchmark_utils import (
Benchmark,
Memory,
MemorySummary,
measure_peak_memory_cpu,
start_memory_tracing,
stop_memory_tracing,
)
if is_tf_available():
import tensorflow as tf
from tensorflow.python.framework.errors_impl import ResourceExhaustedError
from .benchmark_args_tf import TensorFlowBenchmarkArguments
if is_pyanvml_available():
import pyanvml.pyanvml as nvml
snake_case_ : Tuple = logging.get_logger(__name__)
def A (__A : bool , __A : bool ) -> Optional[Any]:
"""simple docstring"""
def run_func(__A : Optional[Any] ):
@wraps(__A )
def run_in_eager_mode(*__A : Dict , **__A : List[Any] ):
return func(*__A , **__A )
@wraps(__A )
@tf.function(experimental_compile=__A )
def run_in_graph_mode(*__A : Optional[Any] , **__A : Any ):
return func(*__A , **__A )
if do_eager_mode is True:
if use_xla is not False:
raise ValueError(
'''Cannot run model in XLA, if `args.eager_mode` is set to `True`. Please set `args.eager_mode=False`.''' )
return run_in_eager_mode
else:
return run_in_graph_mode
return run_func
def A (__A : int , __A : int , __A : int ) -> ["tf.Tensor"]:
"""simple docstring"""
UpperCAmelCase_ = random.Random()
UpperCAmelCase_ = [rng.randint(0 , vocab_size - 1 ) for i in range(batch_size * sequence_length )]
return tf.constant(__A , shape=(batch_size, sequence_length) , dtype=tf.intaa )
class __snake_case ( a ):
UpperCAmelCase__ : TensorFlowBenchmarkArguments
UpperCAmelCase__ : PretrainedConfig
UpperCAmelCase__ : str = "TensorFlow"
@property
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
return tf.__version__
def lowerCamelCase ( self : Dict , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = self.args.strategy
if strategy is None:
raise ValueError('''A device strategy has to be initialized before using TensorFlow.''')
UpperCAmelCase_ = self._prepare_inference_func(_snake_case , _snake_case , _snake_case)
return self._measure_speed(_inference)
def lowerCamelCase ( self : Any , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = self.args.strategy
if strategy is None:
raise ValueError('''A device strategy has to be initialized before using TensorFlow.''')
UpperCAmelCase_ = self._prepare_train_func(_snake_case , _snake_case , _snake_case)
return self._measure_speed(_train)
def lowerCamelCase ( self : Any , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
if self.args.is_gpu:
tf.config.experimental.set_memory_growth(self.args.gpu_list[self.args.device_idx] , _snake_case)
UpperCAmelCase_ = self.args.strategy
if strategy is None:
raise ValueError('''A device strategy has to be initialized before using TensorFlow.''')
UpperCAmelCase_ = self._prepare_inference_func(_snake_case , _snake_case , _snake_case)
return self._measure_memory(_inference)
def lowerCamelCase ( self : Optional[Any] , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
if self.args.is_gpu:
tf.config.experimental.set_memory_growth(self.args.gpu_list[self.args.device_idx] , _snake_case)
UpperCAmelCase_ = self.args.strategy
if strategy is None:
raise ValueError('''A device strategy has to be initialized before using TensorFlow.''')
UpperCAmelCase_ = self._prepare_train_func(_snake_case , _snake_case , _snake_case)
return self._measure_memory(_train)
def lowerCamelCase ( self : Optional[int] , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = self.config_dict[model_name]
if self.args.fpaa:
raise NotImplementedError('''Mixed precision is currently not supported.''')
UpperCAmelCase_ = (
hasattr(_snake_case , '''architectures''')
and isinstance(config.architectures , _snake_case)
and len(config.architectures) > 0
)
if not self.args.only_pretrain_model and has_model_class_in_config:
try:
UpperCAmelCase_ = '''TF''' + config.architectures[0] # prepend 'TF' for tensorflow model
UpperCAmelCase_ = __import__('''transformers''' , fromlist=[model_class])
UpperCAmelCase_ = getattr(_snake_case , _snake_case)
UpperCAmelCase_ = model_cls(_snake_case)
except ImportError:
raise ImportError(
F"""{model_class} does not exist. If you just want to test the pretrained model, you might want to"""
''' set `--only_pretrain_model` or `args.only_pretrain_model=True`.''')
else:
UpperCAmelCase_ = TF_MODEL_MAPPING[config.__class__](_snake_case)
# encoder-decoder has vocab size saved differently
UpperCAmelCase_ = config.vocab_size if hasattr(_snake_case , '''vocab_size''') else config.encoder.vocab_size
UpperCAmelCase_ = random_input_ids(_snake_case , _snake_case , _snake_case)
@run_with_tf_optimizations(self.args.eager_mode , self.args.use_xla)
def encoder_decoder_forward():
return model(_snake_case , decoder_input_ids=_snake_case , training=_snake_case)
@run_with_tf_optimizations(self.args.eager_mode , self.args.use_xla)
def encoder_forward():
return model(_snake_case , training=_snake_case)
UpperCAmelCase_ = encoder_decoder_forward if config.is_encoder_decoder else encoder_forward
return _inference
def lowerCamelCase ( self : Optional[Any] , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = self.config_dict[model_name]
if self.args.eager_mode is not False:
raise ValueError('''Training cannot be done in eager mode. Please make sure that `args.eager_mode = False`.''')
if self.args.fpaa:
raise NotImplementedError('''Mixed precision is currently not supported.''')
UpperCAmelCase_ = (
hasattr(_snake_case , '''architectures''')
and isinstance(config.architectures , _snake_case)
and len(config.architectures) > 0
)
if not self.args.only_pretrain_model and has_model_class_in_config:
try:
UpperCAmelCase_ = '''TF''' + config.architectures[0] # prepend 'TF' for tensorflow model
UpperCAmelCase_ = __import__('''transformers''' , fromlist=[model_class])
UpperCAmelCase_ = getattr(_snake_case , _snake_case)
UpperCAmelCase_ = model_cls(_snake_case)
except ImportError:
raise ImportError(
F"""{model_class} does not exist. If you just want to test the pretrained model, you might want to"""
''' set `--only_pretrain_model` or `args.only_pretrain_model=True`.''')
else:
UpperCAmelCase_ = TF_MODEL_WITH_LM_HEAD_MAPPING[config.__class__](_snake_case)
# encoder-decoder has vocab size saved differently
UpperCAmelCase_ = config.vocab_size if hasattr(_snake_case , '''vocab_size''') else config.encoder.vocab_size
UpperCAmelCase_ = random_input_ids(_snake_case , _snake_case , _snake_case)
@run_with_tf_optimizations(self.args.eager_mode , self.args.use_xla)
def encoder_decoder_train():
UpperCAmelCase_ = model(_snake_case , decoder_input_ids=_snake_case , labels=_snake_case , training=_snake_case)[0]
UpperCAmelCase_ = tf.gradients(_snake_case , model.trainable_variables)
return gradients
@run_with_tf_optimizations(self.args.eager_mode , self.args.use_xla)
def encoder_train():
UpperCAmelCase_ = model(_snake_case , labels=_snake_case , training=_snake_case)[0]
UpperCAmelCase_ = tf.gradients(_snake_case , model.trainable_variables)
return gradients
UpperCAmelCase_ = encoder_decoder_train if config.is_encoder_decoder else encoder_train
return _train
def lowerCamelCase ( self : Any , _snake_case : Optional[Any]):
"""simple docstring"""
with self.args.strategy.scope():
try:
if self.args.is_tpu or self.args.use_xla:
# run additional 10 times to stabilize compilation for tpu
logger.info('''Do inference on TPU. Running model 5 times to stabilize compilation''')
timeit.repeat(_snake_case , repeat=1 , number=5)
# as written in https://docs.python.org/2/library/timeit.html#timeit.Timer.repeat, min should be taken rather than the average
UpperCAmelCase_ = timeit.repeat(
_snake_case , repeat=self.args.repeat , number=10 , )
return min(_snake_case) / 1_0.0
except ResourceExhaustedError as e:
self.print_fn(F"""Doesn't fit on GPU. {e}""")
def lowerCamelCase ( self : Dict , _snake_case : Callable[[], None]):
"""simple docstring"""
logger.info(
'''Note that TensorFlow allocates more memory than '''
'''it might need to speed up computation. '''
'''The memory reported here corresponds to the memory '''
'''reported by `nvidia-smi`, which can vary depending '''
'''on total available memory on the GPU that is used.''')
with self.args.strategy.scope():
try:
if self.args.trace_memory_line_by_line:
if not self.args.eager_mode:
raise ValueError(
'''`args.eager_mode` is set to `False`. Make sure to run model in eager mode to measure memory'''
''' consumption line by line.''')
UpperCAmelCase_ = start_memory_tracing('''transformers''')
if self.args.is_tpu:
# tpu
raise NotImplementedError(
'''Memory Benchmarking is currently not implemented for TPU. Please disable memory benchmarking'''
''' with `args.memory=False`''')
elif self.args.is_gpu:
# gpu
if not is_pyanvml_available():
logger.warning(
'''py3nvml not installed, we won\'t log GPU memory usage. '''
'''Install py3nvml (pip install py3nvml) to log information about GPU.''')
UpperCAmelCase_ = '''N/A'''
else:
logger.info(
'''Measuring total GPU usage on GPU device. Make sure to not have additional processes'''
''' running on the same GPU.''')
# init nvml
nvml.nvmlInit()
func()
UpperCAmelCase_ = nvml.nvmlDeviceGetHandleByIndex(self.args.device_idx)
UpperCAmelCase_ = nvml.nvmlDeviceGetMemoryInfo(_snake_case)
UpperCAmelCase_ = meminfo.used
UpperCAmelCase_ = Memory(_snake_case)
# shutdown nvml
nvml.nvmlShutdown()
else:
# cpu
if self.args.trace_memory_line_by_line:
logger.info(
'''When enabling line by line tracing, the max peak memory for CPU is inaccurate in'''
''' TensorFlow.''')
UpperCAmelCase_ = None
else:
UpperCAmelCase_ = measure_peak_memory_cpu(_snake_case)
UpperCAmelCase_ = Memory(_snake_case) if isinstance(_snake_case , _snake_case) else memory_bytes
if self.args.trace_memory_line_by_line:
UpperCAmelCase_ = stop_memory_tracing(_snake_case)
if memory is None:
UpperCAmelCase_ = summary.total
else:
UpperCAmelCase_ = None
return memory, summary
except ResourceExhaustedError as e:
self.print_fn(F"""Doesn't fit on GPU. {e}""")
return "N/A", None
| 51
| 1
|
def A (__A : list[int] ) -> float:
"""simple docstring"""
if not nums: # Makes sure that the list is not empty
raise ValueError('''List is empty''' )
UpperCAmelCase_ = sum(__A ) / len(__A ) # Calculate the average
return sum(abs(x - average ) for x in nums ) / len(__A )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 51
|
import hashlib
import unittest
from transformers import MODEL_FOR_DEPTH_ESTIMATION_MAPPING, is_torch_available, is_vision_available
from transformers.pipelines import DepthEstimationPipeline, pipeline
from transformers.testing_utils import (
is_pipeline_test,
nested_simplify,
require_tf,
require_timm,
require_torch,
require_vision,
slow,
)
from .test_pipelines_common import ANY
if is_torch_available():
import torch
if is_vision_available():
from PIL import Image
else:
class __snake_case :
@staticmethod
def lowerCamelCase ( *_snake_case : Optional[int] , **_snake_case : int):
"""simple docstring"""
pass
def A (__A : Image ) -> str:
"""simple docstring"""
UpperCAmelCase_ = hashlib.mda(image.tobytes() )
return m.hexdigest()
@is_pipeline_test
@require_vision
@require_timm
@require_torch
class __snake_case ( unittest.TestCase ):
UpperCAmelCase__ : Tuple = MODEL_FOR_DEPTH_ESTIMATION_MAPPING
def lowerCamelCase ( self : Tuple , _snake_case : Optional[Any] , _snake_case : Optional[Any] , _snake_case : List[str]):
"""simple docstring"""
UpperCAmelCase_ = DepthEstimationPipeline(model=_snake_case , image_processor=_snake_case)
return depth_estimator, [
"./tests/fixtures/tests_samples/COCO/000000039769.png",
"./tests/fixtures/tests_samples/COCO/000000039769.png",
]
def lowerCamelCase ( self : str , _snake_case : Optional[int] , _snake_case : List[str]):
"""simple docstring"""
UpperCAmelCase_ = depth_estimator('''./tests/fixtures/tests_samples/COCO/000000039769.png''')
self.assertEqual({'''predicted_depth''': ANY(torch.Tensor), '''depth''': ANY(Image.Image)} , _snake_case)
import datasets
UpperCAmelCase_ = datasets.load_dataset('''hf-internal-testing/fixtures_image_utils''' , '''image''' , split='''test''')
UpperCAmelCase_ = depth_estimator(
[
Image.open('''./tests/fixtures/tests_samples/COCO/000000039769.png'''),
'''http://images.cocodataset.org/val2017/000000039769.jpg''',
# RGBA
dataset[0]['''file'''],
# LA
dataset[1]['''file'''],
# L
dataset[2]['''file'''],
])
self.assertEqual(
[
{'''predicted_depth''': ANY(torch.Tensor), '''depth''': ANY(Image.Image)},
{'''predicted_depth''': ANY(torch.Tensor), '''depth''': ANY(Image.Image)},
{'''predicted_depth''': ANY(torch.Tensor), '''depth''': ANY(Image.Image)},
{'''predicted_depth''': ANY(torch.Tensor), '''depth''': ANY(Image.Image)},
{'''predicted_depth''': ANY(torch.Tensor), '''depth''': ANY(Image.Image)},
] , _snake_case , )
@require_tf
@unittest.skip('''Depth estimation is not implemented in TF''')
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
pass
@slow
@require_torch
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = '''Intel/dpt-large'''
UpperCAmelCase_ = pipeline('''depth-estimation''' , model=_snake_case)
UpperCAmelCase_ = depth_estimator('''http://images.cocodataset.org/val2017/000000039769.jpg''')
UpperCAmelCase_ = hashimage(outputs['''depth'''])
# This seems flaky.
# self.assertEqual(outputs["depth"], "1a39394e282e9f3b0741a90b9f108977")
self.assertEqual(nested_simplify(outputs['''predicted_depth'''].max().item()) , 2_9.3_0_4)
self.assertEqual(nested_simplify(outputs['''predicted_depth'''].min().item()) , 2.6_6_2)
@require_torch
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
self.skipTest('''There is not hf-internal-testing tiny model for either GLPN nor DPT''')
| 51
| 1
|
from typing import TYPE_CHECKING
from ...utils import OptionalDependencyNotAvailable, _LazyModule, is_torch_available, is_vision_available
snake_case_ : Dict = {
"configuration_mobilenet_v2": [
"MOBILENET_V2_PRETRAINED_CONFIG_ARCHIVE_MAP",
"MobileNetV2Config",
"MobileNetV2OnnxConfig",
],
}
try:
if not is_vision_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Any = ["MobileNetV2FeatureExtractor"]
snake_case_ : int = ["MobileNetV2ImageProcessor"]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Tuple = [
"MOBILENET_V2_PRETRAINED_MODEL_ARCHIVE_LIST",
"MobileNetV2ForImageClassification",
"MobileNetV2ForSemanticSegmentation",
"MobileNetV2Model",
"MobileNetV2PreTrainedModel",
"load_tf_weights_in_mobilenet_v2",
]
if TYPE_CHECKING:
from .configuration_mobilenet_va import (
MOBILENET_V2_PRETRAINED_CONFIG_ARCHIVE_MAP,
MobileNetVaConfig,
MobileNetVaOnnxConfig,
)
try:
if not is_vision_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .feature_extraction_mobilenet_va import MobileNetVaFeatureExtractor
from .image_processing_mobilenet_va import MobileNetVaImageProcessor
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_mobilenet_va import (
MOBILENET_V2_PRETRAINED_MODEL_ARCHIVE_LIST,
MobileNetVaForImageClassification,
MobileNetVaForSemanticSegmentation,
MobileNetVaModel,
MobileNetVaPreTrainedModel,
load_tf_weights_in_mobilenet_va,
)
else:
import sys
snake_case_ : Tuple = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 51
|
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
snake_case_ : int = {
"configuration_deberta": ["DEBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP", "DebertaConfig", "DebertaOnnxConfig"],
"tokenization_deberta": ["DebertaTokenizer"],
}
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : int = ["DebertaTokenizerFast"]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : List[str] = [
"DEBERTA_PRETRAINED_MODEL_ARCHIVE_LIST",
"DebertaForMaskedLM",
"DebertaForQuestionAnswering",
"DebertaForSequenceClassification",
"DebertaForTokenClassification",
"DebertaModel",
"DebertaPreTrainedModel",
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Any = [
"TF_DEBERTA_PRETRAINED_MODEL_ARCHIVE_LIST",
"TFDebertaForMaskedLM",
"TFDebertaForQuestionAnswering",
"TFDebertaForSequenceClassification",
"TFDebertaForTokenClassification",
"TFDebertaModel",
"TFDebertaPreTrainedModel",
]
if TYPE_CHECKING:
from .configuration_deberta import DEBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP, DebertaConfig, DebertaOnnxConfig
from .tokenization_deberta import DebertaTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_deberta_fast import DebertaTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_deberta import (
DEBERTA_PRETRAINED_MODEL_ARCHIVE_LIST,
DebertaForMaskedLM,
DebertaForQuestionAnswering,
DebertaForSequenceClassification,
DebertaForTokenClassification,
DebertaModel,
DebertaPreTrainedModel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_deberta import (
TF_DEBERTA_PRETRAINED_MODEL_ARCHIVE_LIST,
TFDebertaForMaskedLM,
TFDebertaForQuestionAnswering,
TFDebertaForSequenceClassification,
TFDebertaForTokenClassification,
TFDebertaModel,
TFDebertaPreTrainedModel,
)
else:
import sys
snake_case_ : Dict = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 51
| 1
|
import gc
import unittest
from diffusers import FlaxControlNetModel, FlaxStableDiffusionControlNetPipeline
from diffusers.utils import is_flax_available, load_image, slow
from diffusers.utils.testing_utils import require_flax
if is_flax_available():
import jax
import jax.numpy as jnp
from flax.jax_utils import replicate
from flax.training.common_utils import shard
@slow
@require_flax
class __snake_case ( unittest.TestCase ):
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
super().tearDown()
gc.collect()
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = FlaxControlNetModel.from_pretrained(
'''lllyasviel/sd-controlnet-canny''' , from_pt=_snake_case , dtype=jnp.bfloataa)
UpperCAmelCase_ , UpperCAmelCase_ = FlaxStableDiffusionControlNetPipeline.from_pretrained(
'''runwayml/stable-diffusion-v1-5''' , controlnet=_snake_case , from_pt=_snake_case , dtype=jnp.bfloataa)
UpperCAmelCase_ = controlnet_params
UpperCAmelCase_ = '''bird'''
UpperCAmelCase_ = jax.device_count()
UpperCAmelCase_ = pipe.prepare_text_inputs([prompts] * num_samples)
UpperCAmelCase_ = load_image(
'''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd_controlnet/bird_canny.png''')
UpperCAmelCase_ = pipe.prepare_image_inputs([canny_image] * num_samples)
UpperCAmelCase_ = jax.random.PRNGKey(0)
UpperCAmelCase_ = jax.random.split(_snake_case , jax.device_count())
UpperCAmelCase_ = replicate(_snake_case)
UpperCAmelCase_ = shard(_snake_case)
UpperCAmelCase_ = shard(_snake_case)
UpperCAmelCase_ = pipe(
prompt_ids=_snake_case , image=_snake_case , params=_snake_case , prng_seed=_snake_case , num_inference_steps=50 , jit=_snake_case , ).images
assert images.shape == (jax.device_count(), 1, 768, 512, 3)
UpperCAmelCase_ = images.reshape((images.shape[0] * images.shape[1],) + images.shape[-3:])
UpperCAmelCase_ = images[0, 253:256, 253:256, -1]
UpperCAmelCase_ = jnp.asarray(jax.device_get(image_slice.flatten()))
UpperCAmelCase_ = jnp.array(
[0.1_6_7_9_6_9, 0.1_1_6_6_9_9, 0.0_8_1_5_4_3, 0.1_5_4_2_9_7, 0.1_3_2_8_1_2, 0.1_0_8_8_8_7, 0.1_6_9_9_2_2, 0.1_6_9_9_2_2, 0.2_0_5_0_7_8])
print(F"""output_slice: {output_slice}""")
assert jnp.abs(output_slice - expected_slice).max() < 1e-2
def lowerCamelCase ( self : Dict):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = FlaxControlNetModel.from_pretrained(
'''lllyasviel/sd-controlnet-openpose''' , from_pt=_snake_case , dtype=jnp.bfloataa)
UpperCAmelCase_ , UpperCAmelCase_ = FlaxStableDiffusionControlNetPipeline.from_pretrained(
'''runwayml/stable-diffusion-v1-5''' , controlnet=_snake_case , from_pt=_snake_case , dtype=jnp.bfloataa)
UpperCAmelCase_ = controlnet_params
UpperCAmelCase_ = '''Chef in the kitchen'''
UpperCAmelCase_ = jax.device_count()
UpperCAmelCase_ = pipe.prepare_text_inputs([prompts] * num_samples)
UpperCAmelCase_ = load_image(
'''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd_controlnet/pose.png''')
UpperCAmelCase_ = pipe.prepare_image_inputs([pose_image] * num_samples)
UpperCAmelCase_ = jax.random.PRNGKey(0)
UpperCAmelCase_ = jax.random.split(_snake_case , jax.device_count())
UpperCAmelCase_ = replicate(_snake_case)
UpperCAmelCase_ = shard(_snake_case)
UpperCAmelCase_ = shard(_snake_case)
UpperCAmelCase_ = pipe(
prompt_ids=_snake_case , image=_snake_case , params=_snake_case , prng_seed=_snake_case , num_inference_steps=50 , jit=_snake_case , ).images
assert images.shape == (jax.device_count(), 1, 768, 512, 3)
UpperCAmelCase_ = images.reshape((images.shape[0] * images.shape[1],) + images.shape[-3:])
UpperCAmelCase_ = images[0, 253:256, 253:256, -1]
UpperCAmelCase_ = jnp.asarray(jax.device_get(image_slice.flatten()))
UpperCAmelCase_ = jnp.array(
[[0.2_7_1_4_8_4, 0.2_6_1_7_1_9, 0.2_7_5_3_9_1, 0.2_7_7_3_4_4, 0.2_7_9_2_9_7, 0.2_9_1_0_1_6, 0.2_9_4_9_2_2, 0.3_0_2_7_3_4, 0.3_0_2_7_3_4]])
print(F"""output_slice: {output_slice}""")
assert jnp.abs(output_slice - expected_slice).max() < 1e-2
| 51
|
from typing import TYPE_CHECKING
from ...file_utils import _LazyModule, is_tokenizers_available, is_torch_available
from ...utils import OptionalDependencyNotAvailable
snake_case_ : Union[str, Any] = {"configuration_gpt_neox": ["GPT_NEOX_PRETRAINED_CONFIG_ARCHIVE_MAP", "GPTNeoXConfig"]}
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Dict = ["GPTNeoXTokenizerFast"]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : 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
snake_case_ : Optional[int] = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 51
| 1
|
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_sentencepiece_available,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
snake_case_ : List[Any] = {
"configuration_rembert": ["REMBERT_PRETRAINED_CONFIG_ARCHIVE_MAP", "RemBertConfig", "RemBertOnnxConfig"]
}
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : int = ["RemBertTokenizer"]
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : List[Any] = ["RemBertTokenizerFast"]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Optional[int] = [
"REMBERT_PRETRAINED_MODEL_ARCHIVE_LIST",
"RemBertForCausalLM",
"RemBertForMaskedLM",
"RemBertForMultipleChoice",
"RemBertForQuestionAnswering",
"RemBertForSequenceClassification",
"RemBertForTokenClassification",
"RemBertLayer",
"RemBertModel",
"RemBertPreTrainedModel",
"load_tf_weights_in_rembert",
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : int = [
"TF_REMBERT_PRETRAINED_MODEL_ARCHIVE_LIST",
"TFRemBertForCausalLM",
"TFRemBertForMaskedLM",
"TFRemBertForMultipleChoice",
"TFRemBertForQuestionAnswering",
"TFRemBertForSequenceClassification",
"TFRemBertForTokenClassification",
"TFRemBertLayer",
"TFRemBertModel",
"TFRemBertPreTrainedModel",
]
if TYPE_CHECKING:
from .configuration_rembert import REMBERT_PRETRAINED_CONFIG_ARCHIVE_MAP, RemBertConfig, RemBertOnnxConfig
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_rembert import RemBertTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_rembert_fast import RemBertTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_rembert import (
REMBERT_PRETRAINED_MODEL_ARCHIVE_LIST,
RemBertForCausalLM,
RemBertForMaskedLM,
RemBertForMultipleChoice,
RemBertForQuestionAnswering,
RemBertForSequenceClassification,
RemBertForTokenClassification,
RemBertLayer,
RemBertModel,
RemBertPreTrainedModel,
load_tf_weights_in_rembert,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_rembert import (
TF_REMBERT_PRETRAINED_MODEL_ARCHIVE_LIST,
TFRemBertForCausalLM,
TFRemBertForMaskedLM,
TFRemBertForMultipleChoice,
TFRemBertForQuestionAnswering,
TFRemBertForSequenceClassification,
TFRemBertForTokenClassification,
TFRemBertLayer,
TFRemBertModel,
TFRemBertPreTrainedModel,
)
else:
import sys
snake_case_ : List[str] = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 51
|
def A (__A : list , __A : int , __A : int = 0 , __A : int = 0 ) -> int:
"""simple docstring"""
UpperCAmelCase_ = right or len(__A ) - 1
if left > right:
return -1
elif list_data[left] == key:
return left
elif list_data[right] == key:
return right
else:
return search(__A , __A , left + 1 , right - 1 )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 51
| 1
|
def A (__A : list ) -> list:
"""simple docstring"""
if len(__A ) <= 1:
return lst
UpperCAmelCase_ = 1
while i < len(__A ):
if lst[i - 1] <= lst[i]:
i += 1
else:
UpperCAmelCase_ , UpperCAmelCase_ = lst[i], lst[i - 1]
i -= 1
if i == 0:
UpperCAmelCase_ = 1
return lst
if __name__ == "__main__":
snake_case_ : str = input("Enter numbers separated by a comma:\n").strip()
snake_case_ : Optional[int] = [int(item) for item in user_input.split(",")]
print(gnome_sort(unsorted))
| 51
|
from ...configuration_utils import PretrainedConfig
from ...utils import logging
snake_case_ : int = logging.get_logger(__name__)
snake_case_ : str = {}
class __snake_case ( a ):
UpperCAmelCase__ : str = '''llama'''
UpperCAmelCase__ : Dict = ['''past_key_values''']
def __init__( self : str , _snake_case : List[str]=32000 , _snake_case : int=4096 , _snake_case : List[str]=11008 , _snake_case : Optional[int]=32 , _snake_case : List[Any]=32 , _snake_case : Tuple=None , _snake_case : int="silu" , _snake_case : List[Any]=2048 , _snake_case : List[str]=0.0_2 , _snake_case : Any=1e-6 , _snake_case : List[str]=True , _snake_case : Optional[Any]=0 , _snake_case : Dict=1 , _snake_case : List[Any]=2 , _snake_case : str=1 , _snake_case : Union[str, Any]=False , _snake_case : str=None , **_snake_case : List[Any] , ):
"""simple docstring"""
UpperCAmelCase_ = vocab_size
UpperCAmelCase_ = max_position_embeddings
UpperCAmelCase_ = hidden_size
UpperCAmelCase_ = intermediate_size
UpperCAmelCase_ = num_hidden_layers
UpperCAmelCase_ = num_attention_heads
# for backward compatibility
if num_key_value_heads is None:
UpperCAmelCase_ = num_attention_heads
UpperCAmelCase_ = num_key_value_heads
UpperCAmelCase_ = hidden_act
UpperCAmelCase_ = initializer_range
UpperCAmelCase_ = rms_norm_eps
UpperCAmelCase_ = pretraining_tp
UpperCAmelCase_ = use_cache
UpperCAmelCase_ = rope_scaling
self._rope_scaling_validation()
super().__init__(
pad_token_id=_snake_case , bos_token_id=_snake_case , eos_token_id=_snake_case , tie_word_embeddings=_snake_case , **_snake_case , )
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
if self.rope_scaling is None:
return
if not isinstance(self.rope_scaling , _snake_case) or len(self.rope_scaling) != 2:
raise ValueError(
'''`rope_scaling` must be a dictionary with with two fields, `name` and `factor`, '''
F"""got {self.rope_scaling}""")
UpperCAmelCase_ = self.rope_scaling.get('''type''' , _snake_case)
UpperCAmelCase_ = self.rope_scaling.get('''factor''' , _snake_case)
if rope_scaling_type is None or rope_scaling_type not in ["linear", "dynamic"]:
raise ValueError(
F"""`rope_scaling`'s name field must be one of ['linear', 'dynamic'], got {rope_scaling_type}""")
if rope_scaling_factor is None or not isinstance(_snake_case , _snake_case) or rope_scaling_factor <= 1.0:
raise ValueError(F"""`rope_scaling`'s factor field must be an float > 1, got {rope_scaling_factor}""")
| 51
| 1
|
from typing import List, Optional, TypeVar
from .arrow_dataset import Dataset, _concatenate_map_style_datasets, _interleave_map_style_datasets
from .dataset_dict import DatasetDict, IterableDatasetDict
from .info import DatasetInfo
from .iterable_dataset import IterableDataset, _concatenate_iterable_datasets, _interleave_iterable_datasets
from .splits import NamedSplit
from .utils import logging
from .utils.py_utils import Literal
snake_case_ : Any = logging.get_logger(__name__)
snake_case_ : Optional[int] = TypeVar("DatasetType", Dataset, IterableDataset)
def A (__A : List[DatasetType] , __A : Optional[List[float]] = None , __A : Optional[int] = None , __A : Optional[DatasetInfo] = None , __A : Optional[NamedSplit] = None , __A : Literal["first_exhausted", "all_exhausted"] = "first_exhausted" , ) -> DatasetType:
"""simple docstring"""
from .arrow_dataset import Dataset
from .iterable_dataset import IterableDataset
if not datasets:
raise ValueError('''Unable to interleave an empty list of datasets.''' )
for i, dataset in enumerate(__A ):
if not isinstance(__A , (Dataset, IterableDataset) ):
if isinstance(__A , (DatasetDict, IterableDatasetDict) ):
if not dataset:
raise ValueError(
F"""Expected a list of Dataset objects or a list of IterableDataset objects, but element at position {i} """
'''is an empty dataset dictionary.''' )
raise ValueError(
F"""Dataset at position {i} has at least one split: {list(__A )}\n"""
F"""Please pick one to interleave with the other datasets, for example: dataset['{next(iter(__A ) )}']""" )
raise ValueError(
F"""Expected a list of Dataset objects or a list of IterableDataset objects, but element at position {i} is a {type(__A ).__name__}.""" )
if i == 0:
UpperCAmelCase_ , UpperCAmelCase_ = (
(Dataset, IterableDataset) if isinstance(__A , __A ) else (IterableDataset, Dataset)
)
elif not isinstance(__A , __A ):
raise ValueError(
F"""Unable to interleave a {dataset_type.__name__} (at position 0) with a {other_type.__name__} (at position {i}). Expected a list of Dataset objects or a list of IterableDataset objects.""" )
if stopping_strategy not in ["first_exhausted", "all_exhausted"]:
raise ValueError(F"""{stopping_strategy} is not supported. Please enter a valid stopping_strategy.""" )
if dataset_type is Dataset:
return _interleave_map_style_datasets(
__A , __A , __A , info=__A , split=__A , stopping_strategy=__A )
else:
return _interleave_iterable_datasets(
__A , __A , __A , info=__A , split=__A , stopping_strategy=__A )
def A (__A : List[DatasetType] , __A : Optional[DatasetInfo] = None , __A : Optional[NamedSplit] = None , __A : int = 0 , ) -> DatasetType:
"""simple docstring"""
if not dsets:
raise ValueError('''Unable to concatenate an empty list of datasets.''' )
for i, dataset in enumerate(__A ):
if not isinstance(__A , (Dataset, IterableDataset) ):
if isinstance(__A , (DatasetDict, IterableDatasetDict) ):
if not dataset:
raise ValueError(
F"""Expected a list of Dataset objects or a list of IterableDataset objects, but element at position {i} """
'''is an empty dataset dictionary.''' )
raise ValueError(
F"""Dataset at position {i} has at least one split: {list(__A )}\n"""
F"""Please pick one to interleave with the other datasets, for example: dataset['{next(iter(__A ) )}']""" )
raise ValueError(
F"""Expected a list of Dataset objects or a list of IterableDataset objects, but element at position {i} is a {type(__A ).__name__}.""" )
if i == 0:
UpperCAmelCase_ , UpperCAmelCase_ = (
(Dataset, IterableDataset) if isinstance(__A , __A ) else (IterableDataset, Dataset)
)
elif not isinstance(__A , __A ):
raise ValueError(
F"""Unable to interleave a {dataset_type.__name__} (at position 0) with a {other_type.__name__} (at position {i}). Expected a list of Dataset objects or a list of IterableDataset objects.""" )
if dataset_type is Dataset:
return _concatenate_map_style_datasets(__A , info=__A , split=__A , axis=__A )
else:
return _concatenate_iterable_datasets(__A , info=__A , split=__A , axis=__A )
| 51
|
from collections import OrderedDict
from typing import Any, List, Mapping, Optional
from ... import PreTrainedTokenizer, TensorType, is_torch_available
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfigWithPast, PatchingSpec
from ...utils import logging
snake_case_ : List[str] = logging.get_logger(__name__)
snake_case_ : Tuple = {
"Salesforce/codegen-350M-nl": "https://huggingface.co/Salesforce/codegen-350M-nl/resolve/main/config.json",
"Salesforce/codegen-350M-multi": "https://huggingface.co/Salesforce/codegen-350M-multi/resolve/main/config.json",
"Salesforce/codegen-350M-mono": "https://huggingface.co/Salesforce/codegen-350M-mono/resolve/main/config.json",
"Salesforce/codegen-2B-nl": "https://huggingface.co/Salesforce/codegen-2B-nl/resolve/main/config.json",
"Salesforce/codegen-2B-multi": "https://huggingface.co/Salesforce/codegen-2B-multi/resolve/main/config.json",
"Salesforce/codegen-2B-mono": "https://huggingface.co/Salesforce/codegen-2B-mono/resolve/main/config.json",
"Salesforce/codegen-6B-nl": "https://huggingface.co/Salesforce/codegen-6B-nl/resolve/main/config.json",
"Salesforce/codegen-6B-multi": "https://huggingface.co/Salesforce/codegen-6B-multi/resolve/main/config.json",
"Salesforce/codegen-6B-mono": "https://huggingface.co/Salesforce/codegen-6B-mono/resolve/main/config.json",
"Salesforce/codegen-16B-nl": "https://huggingface.co/Salesforce/codegen-16B-nl/resolve/main/config.json",
"Salesforce/codegen-16B-multi": "https://huggingface.co/Salesforce/codegen-16B-multi/resolve/main/config.json",
"Salesforce/codegen-16B-mono": "https://huggingface.co/Salesforce/codegen-16B-mono/resolve/main/config.json",
}
class __snake_case ( a ):
UpperCAmelCase__ : str = '''codegen'''
UpperCAmelCase__ : int = {
'''max_position_embeddings''': '''n_positions''',
'''hidden_size''': '''n_embd''',
'''num_attention_heads''': '''n_head''',
'''num_hidden_layers''': '''n_layer''',
}
def __init__( self : Union[str, Any] , _snake_case : Union[str, Any]=50400 , _snake_case : Optional[int]=2048 , _snake_case : Union[str, Any]=2048 , _snake_case : List[str]=4096 , _snake_case : Any=28 , _snake_case : List[str]=16 , _snake_case : int=64 , _snake_case : Tuple=None , _snake_case : Dict="gelu_new" , _snake_case : Union[str, Any]=0.0 , _snake_case : Optional[Any]=0.0 , _snake_case : List[Any]=0.0 , _snake_case : List[Any]=1e-5 , _snake_case : List[str]=0.0_2 , _snake_case : Optional[Any]=True , _snake_case : int=50256 , _snake_case : Tuple=50256 , _snake_case : int=False , **_snake_case : Any , ):
"""simple docstring"""
UpperCAmelCase_ = vocab_size
UpperCAmelCase_ = n_ctx
UpperCAmelCase_ = n_positions
UpperCAmelCase_ = n_embd
UpperCAmelCase_ = n_layer
UpperCAmelCase_ = n_head
UpperCAmelCase_ = n_inner
UpperCAmelCase_ = rotary_dim
UpperCAmelCase_ = activation_function
UpperCAmelCase_ = resid_pdrop
UpperCAmelCase_ = embd_pdrop
UpperCAmelCase_ = attn_pdrop
UpperCAmelCase_ = layer_norm_epsilon
UpperCAmelCase_ = initializer_range
UpperCAmelCase_ = use_cache
UpperCAmelCase_ = bos_token_id
UpperCAmelCase_ = eos_token_id
super().__init__(
bos_token_id=_snake_case , eos_token_id=_snake_case , tie_word_embeddings=_snake_case , **_snake_case)
class __snake_case ( a ):
def __init__( self : Tuple , _snake_case : PretrainedConfig , _snake_case : str = "default" , _snake_case : List[PatchingSpec] = None , _snake_case : bool = False , ):
"""simple docstring"""
super().__init__(_snake_case , task=_snake_case , patching_specs=_snake_case , use_past=_snake_case)
if not getattr(self._config , '''pad_token_id''' , _snake_case):
# TODO: how to do that better?
UpperCAmelCase_ = 0
@property
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = OrderedDict({'''input_ids''': {0: '''batch''', 1: '''sequence'''}})
if self.use_past:
self.fill_with_past_key_values_(_snake_case , direction='''inputs''')
UpperCAmelCase_ = {0: '''batch''', 1: '''past_sequence + sequence'''}
else:
UpperCAmelCase_ = {0: '''batch''', 1: '''sequence'''}
return common_inputs
@property
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
return self._config.n_layer
@property
def lowerCamelCase ( self : int):
"""simple docstring"""
return self._config.n_head
def lowerCamelCase ( self : Optional[int] , _snake_case : PreTrainedTokenizer , _snake_case : int = -1 , _snake_case : int = -1 , _snake_case : bool = False , _snake_case : Optional[TensorType] = None , ):
"""simple docstring"""
UpperCAmelCase_ = super(_snake_case , self).generate_dummy_inputs(
_snake_case , batch_size=_snake_case , seq_length=_snake_case , is_pair=_snake_case , framework=_snake_case)
# We need to order the input in the way they appears in the forward()
UpperCAmelCase_ = 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
UpperCAmelCase_ , UpperCAmelCase_ = common_inputs['''input_ids'''].shape
# Not using the same length for past_key_values
UpperCAmelCase_ = seqlen + 2
UpperCAmelCase_ = (
batch,
self.num_attention_heads,
past_key_values_length,
self._config.hidden_size // self.num_attention_heads,
)
UpperCAmelCase_ = [
(torch.zeros(_snake_case), torch.zeros(_snake_case)) for _ in range(self.num_layers)
]
UpperCAmelCase_ = common_inputs['''attention_mask''']
if self.use_past:
UpperCAmelCase_ = ordered_inputs['''attention_mask'''].dtype
UpperCAmelCase_ = torch.cat(
[ordered_inputs['''attention_mask'''], torch.ones(_snake_case , _snake_case , dtype=_snake_case)] , dim=1)
return ordered_inputs
@property
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
return 13
| 51
| 1
|
from dataclasses import dataclass
from typing import Optional, Tuple, Union
import torch
import torch.nn as nn
from ..configuration_utils import ConfigMixin, register_to_config
from ..utils import BaseOutput
from .embeddings import GaussianFourierProjection, TimestepEmbedding, Timesteps
from .modeling_utils import ModelMixin
from .unet_ad_blocks import get_down_block, get_mid_block, get_out_block, get_up_block
@dataclass
class __snake_case ( a ):
UpperCAmelCase__ : torch.FloatTensor
class __snake_case ( a , a ):
@register_to_config
def __init__( self : List[str] , _snake_case : int = 65536 , _snake_case : Optional[int] = None , _snake_case : int = 2 , _snake_case : int = 2 , _snake_case : int = 0 , _snake_case : str = "fourier" , _snake_case : bool = True , _snake_case : bool = False , _snake_case : float = 0.0 , _snake_case : Tuple[str] = ("DownBlock1DNoSkip", "DownBlock1D", "AttnDownBlock1D") , _snake_case : Tuple[str] = ("AttnUpBlock1D", "UpBlock1D", "UpBlock1DNoSkip") , _snake_case : Tuple[str] = "UNetMidBlock1D" , _snake_case : str = None , _snake_case : Tuple[int] = (32, 32, 64) , _snake_case : str = None , _snake_case : int = 8 , _snake_case : int = 1 , _snake_case : bool = False , ):
"""simple docstring"""
super().__init__()
UpperCAmelCase_ = sample_size
# time
if time_embedding_type == "fourier":
UpperCAmelCase_ = GaussianFourierProjection(
embedding_size=8 , set_W_to_weight=_snake_case , log=_snake_case , flip_sin_to_cos=_snake_case)
UpperCAmelCase_ = 2 * block_out_channels[0]
elif time_embedding_type == "positional":
UpperCAmelCase_ = Timesteps(
block_out_channels[0] , flip_sin_to_cos=_snake_case , downscale_freq_shift=_snake_case)
UpperCAmelCase_ = block_out_channels[0]
if use_timestep_embedding:
UpperCAmelCase_ = block_out_channels[0] * 4
UpperCAmelCase_ = TimestepEmbedding(
in_channels=_snake_case , time_embed_dim=_snake_case , act_fn=_snake_case , out_dim=block_out_channels[0] , )
UpperCAmelCase_ = nn.ModuleList([])
UpperCAmelCase_ = None
UpperCAmelCase_ = nn.ModuleList([])
UpperCAmelCase_ = None
# down
UpperCAmelCase_ = in_channels
for i, down_block_type in enumerate(_snake_case):
UpperCAmelCase_ = output_channel
UpperCAmelCase_ = block_out_channels[i]
if i == 0:
input_channel += extra_in_channels
UpperCAmelCase_ = i == len(_snake_case) - 1
UpperCAmelCase_ = get_down_block(
_snake_case , num_layers=_snake_case , in_channels=_snake_case , out_channels=_snake_case , temb_channels=block_out_channels[0] , add_downsample=not is_final_block or downsample_each_block , )
self.down_blocks.append(_snake_case)
# mid
UpperCAmelCase_ = get_mid_block(
_snake_case , in_channels=block_out_channels[-1] , mid_channels=block_out_channels[-1] , out_channels=block_out_channels[-1] , embed_dim=block_out_channels[0] , num_layers=_snake_case , add_downsample=_snake_case , )
# up
UpperCAmelCase_ = list(reversed(_snake_case))
UpperCAmelCase_ = reversed_block_out_channels[0]
if out_block_type is None:
UpperCAmelCase_ = out_channels
else:
UpperCAmelCase_ = block_out_channels[0]
for i, up_block_type in enumerate(_snake_case):
UpperCAmelCase_ = output_channel
UpperCAmelCase_ = (
reversed_block_out_channels[i + 1] if i < len(_snake_case) - 1 else final_upsample_channels
)
UpperCAmelCase_ = i == len(_snake_case) - 1
UpperCAmelCase_ = get_up_block(
_snake_case , num_layers=_snake_case , in_channels=_snake_case , out_channels=_snake_case , temb_channels=block_out_channels[0] , add_upsample=not is_final_block , )
self.up_blocks.append(_snake_case)
UpperCAmelCase_ = output_channel
# out
UpperCAmelCase_ = norm_num_groups if norm_num_groups is not None else min(block_out_channels[0] // 4 , 32)
UpperCAmelCase_ = get_out_block(
out_block_type=_snake_case , num_groups_out=_snake_case , embed_dim=block_out_channels[0] , out_channels=_snake_case , act_fn=_snake_case , fc_dim=block_out_channels[-1] // 4 , )
def lowerCamelCase ( self : str , _snake_case : torch.FloatTensor , _snake_case : Union[torch.Tensor, float, int] , _snake_case : bool = True , ):
"""simple docstring"""
UpperCAmelCase_ = timestep
if not torch.is_tensor(_snake_case):
UpperCAmelCase_ = torch.tensor([timesteps] , dtype=torch.long , device=sample.device)
elif torch.is_tensor(_snake_case) and len(timesteps.shape) == 0:
UpperCAmelCase_ = timesteps[None].to(sample.device)
UpperCAmelCase_ = self.time_proj(_snake_case)
if self.config.use_timestep_embedding:
UpperCAmelCase_ = self.time_mlp(_snake_case)
else:
UpperCAmelCase_ = timestep_embed[..., None]
UpperCAmelCase_ = timestep_embed.repeat([1, 1, sample.shape[2]]).to(sample.dtype)
UpperCAmelCase_ = timestep_embed.broadcast_to((sample.shape[:1] + timestep_embed.shape[1:]))
# 2. down
UpperCAmelCase_ = ()
for downsample_block in self.down_blocks:
UpperCAmelCase_ , UpperCAmelCase_ = downsample_block(hidden_states=_snake_case , temb=_snake_case)
down_block_res_samples += res_samples
# 3. mid
if self.mid_block:
UpperCAmelCase_ = self.mid_block(_snake_case , _snake_case)
# 4. up
for i, upsample_block in enumerate(self.up_blocks):
UpperCAmelCase_ = down_block_res_samples[-1:]
UpperCAmelCase_ = down_block_res_samples[:-1]
UpperCAmelCase_ = upsample_block(_snake_case , res_hidden_states_tuple=_snake_case , temb=_snake_case)
# 5. post-process
if self.out_block:
UpperCAmelCase_ = self.out_block(_snake_case , _snake_case)
if not return_dict:
return (sample,)
return UNetaDOutput(sample=_snake_case)
| 51
|
import os
import unittest
from transformers.models.phobert.tokenization_phobert import VOCAB_FILES_NAMES, PhobertTokenizer
from ...test_tokenization_common import TokenizerTesterMixin
class __snake_case ( a , unittest.TestCase ):
UpperCAmelCase__ : Any = PhobertTokenizer
UpperCAmelCase__ : List[str] = False
def lowerCamelCase ( self : str):
"""simple docstring"""
super().setUp()
# Adapted from Sennrich et al. 2015 and https://github.com/rsennrich/subword-nmt
UpperCAmelCase_ = ['''T@@''', '''i''', '''I''', '''R@@''', '''r''', '''e@@''']
UpperCAmelCase_ = dict(zip(_snake_case , range(len(_snake_case))))
UpperCAmelCase_ = ['''#version: 0.2''', '''l à</w>''']
UpperCAmelCase_ = {'''unk_token''': '''<unk>'''}
UpperCAmelCase_ = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['''vocab_file'''])
UpperCAmelCase_ = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['''merges_file'''])
with open(self.vocab_file , '''w''' , encoding='''utf-8''') as fp:
for token in vocab_tokens:
fp.write(F"""{token} {vocab_tokens[token]}\n""")
with open(self.merges_file , '''w''' , encoding='''utf-8''') as fp:
fp.write('''\n'''.join(_snake_case))
def lowerCamelCase ( self : int , **_snake_case : Any):
"""simple docstring"""
kwargs.update(self.special_tokens_map)
return PhobertTokenizer.from_pretrained(self.tmpdirname , **_snake_case)
def lowerCamelCase ( self : Optional[Any] , _snake_case : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = '''Tôi là VinAI Research'''
UpperCAmelCase_ = '''T<unk> i <unk> <unk> <unk> <unk> <unk> <unk> I Re<unk> e<unk> <unk> <unk> <unk>'''
return input_text, output_text
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = PhobertTokenizer(self.vocab_file , self.merges_file , **self.special_tokens_map)
UpperCAmelCase_ = '''Tôi là VinAI Research'''
UpperCAmelCase_ = '''T@@ ô@@ i l@@ à V@@ i@@ n@@ A@@ I R@@ e@@ s@@ e@@ a@@ r@@ c@@ h'''.split()
UpperCAmelCase_ = tokenizer.tokenize(_snake_case)
print(_snake_case)
self.assertListEqual(_snake_case , _snake_case)
UpperCAmelCase_ = tokens + [tokenizer.unk_token]
UpperCAmelCase_ = [4, 3, 5, 3, 3, 3, 3, 3, 3, 6, 7, 9, 3, 9, 3, 3, 3, 3, 3]
self.assertListEqual(tokenizer.convert_tokens_to_ids(_snake_case) , _snake_case)
| 51
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|
# Copyright 2023 The HuggingFace Inc. team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import re
from ..models.auto import AutoProcessor
from ..models.vision_encoder_decoder import VisionEncoderDecoderModel
from ..utils import is_vision_available
from .base import PipelineTool
if is_vision_available():
from PIL import Image
class __snake_case ( a ):
UpperCAmelCase__ : Union[str, Any] = '''naver-clova-ix/donut-base-finetuned-docvqa'''
UpperCAmelCase__ : List[Any] = (
'''This is a tool that answers a question about an document (pdf). It takes an input named `document` which '''
'''should be the document containing the information, as well as a `question` that is the question about the '''
'''document. It returns a text that contains the answer to the question.'''
)
UpperCAmelCase__ : str = '''document_qa'''
UpperCAmelCase__ : Dict = AutoProcessor
UpperCAmelCase__ : List[str] = VisionEncoderDecoderModel
UpperCAmelCase__ : str = ['''image''', '''text''']
UpperCAmelCase__ : Union[str, Any] = ['''text''']
def __init__( self : List[Any] , *_snake_case : Union[str, Any] , **_snake_case : List[str]):
"""simple docstring"""
if not is_vision_available():
raise ValueError('''Pillow must be installed to use the DocumentQuestionAnsweringTool.''')
super().__init__(*_snake_case , **_snake_case)
def lowerCamelCase ( self : Optional[Any] , _snake_case : "Image" , _snake_case : str):
"""simple docstring"""
UpperCAmelCase_ = '''<s_docvqa><s_question>{user_input}</s_question><s_answer>'''
UpperCAmelCase_ = task_prompt.replace('''{user_input}''' , _snake_case)
UpperCAmelCase_ = self.pre_processor.tokenizer(
_snake_case , add_special_tokens=_snake_case , return_tensors='''pt''').input_ids
UpperCAmelCase_ = self.pre_processor(_snake_case , return_tensors='''pt''').pixel_values
return {"decoder_input_ids": decoder_input_ids, "pixel_values": pixel_values}
def lowerCamelCase ( self : Optional[int] , _snake_case : List[str]):
"""simple docstring"""
return self.model.generate(
inputs['''pixel_values'''].to(self.device) , decoder_input_ids=inputs['''decoder_input_ids'''].to(self.device) , max_length=self.model.decoder.config.max_position_embeddings , early_stopping=_snake_case , pad_token_id=self.pre_processor.tokenizer.pad_token_id , eos_token_id=self.pre_processor.tokenizer.eos_token_id , use_cache=_snake_case , num_beams=1 , bad_words_ids=[[self.pre_processor.tokenizer.unk_token_id]] , return_dict_in_generate=_snake_case , ).sequences
def lowerCamelCase ( self : Optional[Any] , _snake_case : Any):
"""simple docstring"""
UpperCAmelCase_ = self.pre_processor.batch_decode(_snake_case)[0]
UpperCAmelCase_ = sequence.replace(self.pre_processor.tokenizer.eos_token , '''''')
UpperCAmelCase_ = sequence.replace(self.pre_processor.tokenizer.pad_token , '''''')
UpperCAmelCase_ = re.sub(r'''<.*?>''' , '''''' , _snake_case , count=1).strip() # remove first task start token
UpperCAmelCase_ = self.pre_processor.tokenajson(_snake_case)
return sequence["answer"]
| 51
|
from typing import List, Optional, TypeVar
from .arrow_dataset import Dataset, _concatenate_map_style_datasets, _interleave_map_style_datasets
from .dataset_dict import DatasetDict, IterableDatasetDict
from .info import DatasetInfo
from .iterable_dataset import IterableDataset, _concatenate_iterable_datasets, _interleave_iterable_datasets
from .splits import NamedSplit
from .utils import logging
from .utils.py_utils import Literal
snake_case_ : Any = logging.get_logger(__name__)
snake_case_ : Optional[int] = TypeVar("DatasetType", Dataset, IterableDataset)
def A (__A : List[DatasetType] , __A : Optional[List[float]] = None , __A : Optional[int] = None , __A : Optional[DatasetInfo] = None , __A : Optional[NamedSplit] = None , __A : Literal["first_exhausted", "all_exhausted"] = "first_exhausted" , ) -> DatasetType:
"""simple docstring"""
from .arrow_dataset import Dataset
from .iterable_dataset import IterableDataset
if not datasets:
raise ValueError('''Unable to interleave an empty list of datasets.''' )
for i, dataset in enumerate(__A ):
if not isinstance(__A , (Dataset, IterableDataset) ):
if isinstance(__A , (DatasetDict, IterableDatasetDict) ):
if not dataset:
raise ValueError(
F"""Expected a list of Dataset objects or a list of IterableDataset objects, but element at position {i} """
'''is an empty dataset dictionary.''' )
raise ValueError(
F"""Dataset at position {i} has at least one split: {list(__A )}\n"""
F"""Please pick one to interleave with the other datasets, for example: dataset['{next(iter(__A ) )}']""" )
raise ValueError(
F"""Expected a list of Dataset objects or a list of IterableDataset objects, but element at position {i} is a {type(__A ).__name__}.""" )
if i == 0:
UpperCAmelCase_ , UpperCAmelCase_ = (
(Dataset, IterableDataset) if isinstance(__A , __A ) else (IterableDataset, Dataset)
)
elif not isinstance(__A , __A ):
raise ValueError(
F"""Unable to interleave a {dataset_type.__name__} (at position 0) with a {other_type.__name__} (at position {i}). Expected a list of Dataset objects or a list of IterableDataset objects.""" )
if stopping_strategy not in ["first_exhausted", "all_exhausted"]:
raise ValueError(F"""{stopping_strategy} is not supported. Please enter a valid stopping_strategy.""" )
if dataset_type is Dataset:
return _interleave_map_style_datasets(
__A , __A , __A , info=__A , split=__A , stopping_strategy=__A )
else:
return _interleave_iterable_datasets(
__A , __A , __A , info=__A , split=__A , stopping_strategy=__A )
def A (__A : List[DatasetType] , __A : Optional[DatasetInfo] = None , __A : Optional[NamedSplit] = None , __A : int = 0 , ) -> DatasetType:
"""simple docstring"""
if not dsets:
raise ValueError('''Unable to concatenate an empty list of datasets.''' )
for i, dataset in enumerate(__A ):
if not isinstance(__A , (Dataset, IterableDataset) ):
if isinstance(__A , (DatasetDict, IterableDatasetDict) ):
if not dataset:
raise ValueError(
F"""Expected a list of Dataset objects or a list of IterableDataset objects, but element at position {i} """
'''is an empty dataset dictionary.''' )
raise ValueError(
F"""Dataset at position {i} has at least one split: {list(__A )}\n"""
F"""Please pick one to interleave with the other datasets, for example: dataset['{next(iter(__A ) )}']""" )
raise ValueError(
F"""Expected a list of Dataset objects or a list of IterableDataset objects, but element at position {i} is a {type(__A ).__name__}.""" )
if i == 0:
UpperCAmelCase_ , UpperCAmelCase_ = (
(Dataset, IterableDataset) if isinstance(__A , __A ) else (IterableDataset, Dataset)
)
elif not isinstance(__A , __A ):
raise ValueError(
F"""Unable to interleave a {dataset_type.__name__} (at position 0) with a {other_type.__name__} (at position {i}). Expected a list of Dataset objects or a list of IterableDataset objects.""" )
if dataset_type is Dataset:
return _concatenate_map_style_datasets(__A , info=__A , split=__A , axis=__A )
else:
return _concatenate_iterable_datasets(__A , info=__A , split=__A , axis=__A )
| 51
| 1
|
import argparse
import gc
import json
import os
import re
import torch
from huggingface_hub import hf_hub_download
from transformers import AutoModelForCausalLM, AutoTokenizer, PreTrainedTokenizerFast, RwkvConfig
from transformers.modeling_utils import WEIGHTS_INDEX_NAME, shard_checkpoint
snake_case_ : Any = {
"169M": 12,
"430M": 24,
"1B5": 24,
"3B": 32,
"7B": 32,
"14B": 40,
}
snake_case_ : Tuple = {
"169M": 768,
"430M": 1024,
"1B5": 2048,
"3B": 2560,
"7B": 4096,
"14B": 5120,
}
def A (__A : Tuple ) -> Optional[Any]:
"""simple docstring"""
UpperCAmelCase_ = list(state_dict.keys() )
for name in state_dict_keys:
UpperCAmelCase_ = state_dict.pop(__A )
# emb -> embedding
if name.startswith('''emb.''' ):
UpperCAmelCase_ = name.replace('''emb.''' , '''embeddings.''' )
# ln_0 -> pre_ln (only present at block 0)
if name.startswith('''blocks.0.ln0''' ):
UpperCAmelCase_ = name.replace('''blocks.0.ln0''' , '''blocks.0.pre_ln''' )
# att -> attention
UpperCAmelCase_ = re.sub(R'''blocks\.(\d+)\.att''' , R'''blocks.\1.attention''' , __A )
# ffn -> feed_forward
UpperCAmelCase_ = re.sub(R'''blocks\.(\d+)\.ffn''' , R'''blocks.\1.feed_forward''' , __A )
# time_mix_k -> time_mix_key and reshape
if name.endswith('''.time_mix_k''' ):
UpperCAmelCase_ = name.replace('''.time_mix_k''' , '''.time_mix_key''' )
# time_mix_v -> time_mix_value and reshape
if name.endswith('''.time_mix_v''' ):
UpperCAmelCase_ = name.replace('''.time_mix_v''' , '''.time_mix_value''' )
# time_mix_r -> time_mix_key and reshape
if name.endswith('''.time_mix_r''' ):
UpperCAmelCase_ = name.replace('''.time_mix_r''' , '''.time_mix_receptance''' )
if name != "head.weight":
UpperCAmelCase_ = '''rwkv.''' + name
UpperCAmelCase_ = weight
return state_dict
def A (__A : Any , __A : int , __A : Optional[int] , __A : Tuple=None , __A : str=None , __A : List[Any]=False , __A : List[str]=None ) -> Dict:
"""simple docstring"""
if tokenizer_file is None:
print('''No `--tokenizer_file` provided, we will use the default tokenizer.''' )
UpperCAmelCase_ = 50277
UpperCAmelCase_ = AutoTokenizer.from_pretrained('''EleutherAI/gpt-neox-20b''' )
else:
UpperCAmelCase_ = PreTrainedTokenizerFast(tokenizer_file=__A )
UpperCAmelCase_ = len(__A )
tokenizer.save_pretrained(__A )
# 2. Build the config
UpperCAmelCase_ = list(NUM_HIDDEN_LAYERS_MAPPING.keys() )
if size is None:
# Try to infer size from the checkpoint name
for candidate in possible_sizes:
if candidate in checkpoint_file:
UpperCAmelCase_ = candidate
break
if size is None:
raise ValueError('''Could not infer the size, please provide it with the `--size` argument.''' )
if size not in possible_sizes:
raise ValueError(F"""`size` should be one of {possible_sizes}, got {size}.""" )
UpperCAmelCase_ = RwkvConfig(
vocab_size=__A , num_hidden_layers=NUM_HIDDEN_LAYERS_MAPPING[size] , hidden_size=HIDEN_SIZE_MAPPING[size] , )
config.save_pretrained(__A )
# 3. Download model file then convert state_dict
UpperCAmelCase_ = hf_hub_download(__A , __A )
UpperCAmelCase_ = torch.load(__A , map_location='''cpu''' )
UpperCAmelCase_ = convert_state_dict(__A )
# 4. Split in shards and save
UpperCAmelCase_ , UpperCAmelCase_ = shard_checkpoint(__A )
for shard_file, shard in shards.items():
torch.save(__A , os.path.join(__A , __A ) )
if index is not None:
UpperCAmelCase_ = os.path.join(__A , __A )
# Save the index as well
with open(__A , '''w''' , encoding='''utf-8''' ) as f:
UpperCAmelCase_ = json.dumps(__A , indent=2 , sort_keys=__A ) + '''\n'''
f.write(__A )
# 5. Clean up shards (for some reason the file PyTorch saves take the same space as the whole state_dict
print(
'''Cleaning up shards. This may error with an OOM error, it this is the case don\'t worry you still have converted the model.''' )
UpperCAmelCase_ = list(shards.keys() )
del state_dict
del shards
gc.collect()
for shard_file in shard_files:
UpperCAmelCase_ = torch.load(os.path.join(__A , __A ) )
torch.save({k: v.cpu().clone() for k, v in state_dict.items()} , os.path.join(__A , __A ) )
del state_dict
gc.collect()
if push_to_hub:
if model_name is None:
raise ValueError('''Please provide a `model_name` to push the model to the Hub.''' )
UpperCAmelCase_ = AutoModelForCausalLM.from_pretrained(__A )
model.push_to_hub(__A , max_shard_size='''2GB''' )
tokenizer.push_to_hub(__A )
if __name__ == "__main__":
snake_case_ : Dict = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
"--repo_id", default=None, type=str, required=True, help="Repo ID from which to pull the checkpoint."
)
parser.add_argument(
"--checkpoint_file", default=None, type=str, required=True, help="Name of the checkpoint file in the repo."
)
parser.add_argument(
"--output_dir", default=None, type=str, required=True, help="Where to save the converted model."
)
parser.add_argument(
"--tokenizer_file",
default=None,
type=str,
help="Path to the tokenizer file to use (if not provided, only the model is converted).",
)
parser.add_argument(
"--size",
default=None,
type=str,
help="Size of the model. Will be inferred from the `checkpoint_file` if not passed.",
)
parser.add_argument(
"--push_to_hub",
action="store_true",
help="Push to the Hub the converted model.",
)
parser.add_argument(
"--model_name",
default=None,
type=str,
help="Name of the pushed model on the Hub, including the username / organization.",
)
snake_case_ : Optional[Any] = parser.parse_args()
convert_rmkv_checkpoint_to_hf_format(
args.repo_id,
args.checkpoint_file,
args.output_dir,
size=args.size,
tokenizer_file=args.tokenizer_file,
push_to_hub=args.push_to_hub,
model_name=args.model_name,
)
| 51
|
import json
import os
import re
import shutil
import tempfile
import unittest
from typing import Tuple
from transformers import AddedToken, BatchEncoding, ByTaTokenizer
from transformers.utils import cached_property, is_tf_available, is_torch_available
from ...test_tokenization_common import TokenizerTesterMixin
if is_torch_available():
snake_case_ : Optional[Any] = "pt"
elif is_tf_available():
snake_case_ : Union[str, Any] = "tf"
else:
snake_case_ : str = "jax"
class __snake_case ( a , unittest.TestCase ):
UpperCAmelCase__ : List[Any] = ByTaTokenizer
UpperCAmelCase__ : int = False
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
super().setUp()
UpperCAmelCase_ = ByTaTokenizer()
tokenizer.save_pretrained(self.tmpdirname)
@cached_property
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
return ByTaTokenizer.from_pretrained('''google/byt5-small''')
def lowerCamelCase ( self : List[str] , **_snake_case : Union[str, Any]):
"""simple docstring"""
return self.tokenizer_class.from_pretrained(self.tmpdirname , **_snake_case)
def lowerCamelCase ( self : Dict , _snake_case : int , _snake_case : Tuple=False , _snake_case : Dict=20 , _snake_case : Optional[Any]=5):
"""simple docstring"""
UpperCAmelCase_ = []
for i in range(len(_snake_case)):
try:
UpperCAmelCase_ = tokenizer.decode([i] , clean_up_tokenization_spaces=_snake_case)
except UnicodeDecodeError:
pass
toks.append((i, tok))
UpperCAmelCase_ = list(filter(lambda _snake_case: re.match(r'''^[ a-zA-Z]+$''' , t[1]) , _snake_case))
UpperCAmelCase_ = list(filter(lambda _snake_case: [t[0]] == tokenizer.encode(t[1] , add_special_tokens=_snake_case) , _snake_case))
if max_length is not None and len(_snake_case) > max_length:
UpperCAmelCase_ = toks[:max_length]
if min_length is not None and len(_snake_case) < min_length and len(_snake_case) > 0:
while len(_snake_case) < min_length:
UpperCAmelCase_ = toks + toks
# toks_str = [t[1] for t in toks]
UpperCAmelCase_ = [t[0] for t in toks]
# Ensure consistency
UpperCAmelCase_ = tokenizer.decode(_snake_case , clean_up_tokenization_spaces=_snake_case)
if " " not in output_txt and len(_snake_case) > 1:
UpperCAmelCase_ = (
tokenizer.decode([toks_ids[0]] , clean_up_tokenization_spaces=_snake_case)
+ ''' '''
+ tokenizer.decode(toks_ids[1:] , clean_up_tokenization_spaces=_snake_case)
)
if with_prefix_space:
UpperCAmelCase_ = ''' ''' + output_txt
UpperCAmelCase_ = tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
return output_txt, output_ids
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = tokenizer(['''hi</s>''', '''I went to the gym</s>''', '''</s>'''])
UpperCAmelCase_ = tokenizer(['''hi''', '''I went to the gym''', ''''''])
self.assertListEqual(batch_with_eos_added['''input_ids'''] , batch_without_eos_added['''input_ids'''])
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = '''Unicode €.'''
UpperCAmelCase_ = tokenizer(_snake_case)
UpperCAmelCase_ = [88, 113, 108, 102, 114, 103, 104, 35, 229, 133, 175, 49, 1]
self.assertEqual(encoded['''input_ids'''] , _snake_case)
# decoding
UpperCAmelCase_ = tokenizer.decode(_snake_case)
self.assertEqual(_snake_case , '''Unicode €.</s>''')
UpperCAmelCase_ = tokenizer('''e è é ê ë''')
UpperCAmelCase_ = [104, 35, 198, 171, 35, 198, 172, 35, 198, 173, 35, 198, 174, 1]
self.assertEqual(encoded['''input_ids'''] , _snake_case)
# decoding
UpperCAmelCase_ = tokenizer.decode(_snake_case)
self.assertEqual(_snake_case , '''e è é ê ë</s>''')
# encode/decode, but with `encode` instead of `__call__`
self.assertEqual(tokenizer.decode(tokenizer.encode('''e è é ê ë''')) , '''e è é ê ë</s>''')
def lowerCamelCase ( self : Any):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = ['''A long paragraph for summarization.''', '''Another paragraph for summarization.''']
# fmt: off
UpperCAmelCase_ = [68, 35, 111, 114, 113, 106, 35, 115, 100, 117, 100, 106, 117, 100, 115, 107, 35, 105, 114, 117, 35, 118, 120, 112, 112, 100, 117, 108, 125, 100, 119, 108, 114, 113, 49, 1, 0]
# fmt: on
UpperCAmelCase_ = tokenizer(_snake_case , padding=_snake_case , return_tensors=_snake_case)
self.assertIsInstance(_snake_case , _snake_case)
if FRAMEWORK != "jax":
UpperCAmelCase_ = list(batch.input_ids.numpy()[0])
else:
UpperCAmelCase_ = list(batch.input_ids.tolist()[0])
self.assertListEqual(_snake_case , _snake_case)
self.assertEqual((2, 37) , batch.input_ids.shape)
self.assertEqual((2, 37) , batch.attention_mask.shape)
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = ['''A long paragraph for summarization.''', '''Another paragraph for summarization.''']
UpperCAmelCase_ = tokenizer(_snake_case , padding=_snake_case , return_tensors=_snake_case)
# check if input_ids are returned and no decoder_input_ids
self.assertIn('''input_ids''' , _snake_case)
self.assertIn('''attention_mask''' , _snake_case)
self.assertNotIn('''decoder_input_ids''' , _snake_case)
self.assertNotIn('''decoder_attention_mask''' , _snake_case)
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = [
'''Summary of the text.''',
'''Another summary.''',
]
UpperCAmelCase_ = tokenizer(
text_target=_snake_case , max_length=32 , padding='''max_length''' , truncation=_snake_case , return_tensors=_snake_case)
self.assertEqual(32 , targets['''input_ids'''].shape[1])
def lowerCamelCase ( self : int):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = ['''A long paragraph for summarization. </s>''']
UpperCAmelCase_ = ['''Summary of the text. </s>''']
# fmt: off
UpperCAmelCase_ = [68, 35, 111, 114, 113, 106, 35, 115, 100, 117, 100, 106, 117, 100, 115, 107, 35, 105, 114, 117, 35, 118, 120, 112, 112, 100, 117, 108, 125, 100, 119, 108, 114, 113, 49, 35, 1]
UpperCAmelCase_ = [86, 120, 112, 112, 100, 117, 124, 35, 114, 105, 35, 119, 107, 104, 35, 119, 104, 123, 119, 49, 35, 1]
# fmt: on
UpperCAmelCase_ = tokenizer(_snake_case , text_target=_snake_case)
self.assertEqual(_snake_case , batch['''input_ids'''][0])
self.assertEqual(_snake_case , batch['''labels'''][0])
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = self.get_tokenizers()
for tokenizer in tokenizers:
with self.subTest(F"""{tokenizer.__class__.__name__}"""):
self.assertNotEqual(tokenizer.model_max_length , 42)
# Now let's start the test
UpperCAmelCase_ = self.get_tokenizers()
for tokenizer in tokenizers:
with self.subTest(F"""{tokenizer.__class__.__name__}"""):
# Isolate this from the other tests because we save additional tokens/etc
UpperCAmelCase_ = tempfile.mkdtemp()
UpperCAmelCase_ = ''' He is very happy, UNwant\u00E9d,running'''
UpperCAmelCase_ = tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
tokenizer.save_pretrained(_snake_case)
UpperCAmelCase_ = tokenizer.__class__.from_pretrained(_snake_case)
UpperCAmelCase_ = after_tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
self.assertListEqual(_snake_case , _snake_case)
shutil.rmtree(_snake_case)
UpperCAmelCase_ = self.get_tokenizers(model_max_length=42)
for tokenizer in tokenizers:
with self.subTest(F"""{tokenizer.__class__.__name__}"""):
# Isolate this from the other tests because we save additional tokens/etc
UpperCAmelCase_ = tempfile.mkdtemp()
UpperCAmelCase_ = ''' He is very happy, UNwant\u00E9d,running'''
tokenizer.add_tokens(['''bim''', '''bambam'''])
UpperCAmelCase_ = tokenizer.additional_special_tokens
additional_special_tokens.append('''new_additional_special_token''')
tokenizer.add_special_tokens({'''additional_special_tokens''': additional_special_tokens})
UpperCAmelCase_ = tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
tokenizer.save_pretrained(_snake_case)
UpperCAmelCase_ = tokenizer.__class__.from_pretrained(_snake_case)
UpperCAmelCase_ = after_tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
self.assertListEqual(_snake_case , _snake_case)
self.assertIn('''new_additional_special_token''' , after_tokenizer.additional_special_tokens)
self.assertEqual(after_tokenizer.model_max_length , 42)
UpperCAmelCase_ = tokenizer.__class__.from_pretrained(_snake_case , model_max_length=43)
self.assertEqual(tokenizer.model_max_length , 43)
shutil.rmtree(_snake_case)
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = []
if self.test_slow_tokenizer:
tokenizer_list.append((self.tokenizer_class, self.get_tokenizer()))
if self.test_rust_tokenizer:
tokenizer_list.append((self.rust_tokenizer_class, self.get_rust_tokenizer()))
for tokenizer_class, tokenizer_utils in tokenizer_list:
with tempfile.TemporaryDirectory() as tmp_dir:
tokenizer_utils.save_pretrained(_snake_case)
with open(os.path.join(_snake_case , '''special_tokens_map.json''') , encoding='''utf-8''') as json_file:
UpperCAmelCase_ = json.load(_snake_case)
with open(os.path.join(_snake_case , '''tokenizer_config.json''') , encoding='''utf-8''') as json_file:
UpperCAmelCase_ = json.load(_snake_case)
UpperCAmelCase_ = [F"""<extra_id_{i}>""" for i in range(125)]
UpperCAmelCase_ = added_tokens_extra_ids + [
'''an_additional_special_token'''
]
UpperCAmelCase_ = added_tokens_extra_ids + [
'''an_additional_special_token'''
]
with open(os.path.join(_snake_case , '''special_tokens_map.json''') , '''w''' , encoding='''utf-8''') as outfile:
json.dump(_snake_case , _snake_case)
with open(os.path.join(_snake_case , '''tokenizer_config.json''') , '''w''' , encoding='''utf-8''') as outfile:
json.dump(_snake_case , _snake_case)
# the following checks allow us to verify that our test works as expected, i.e. that the tokenizer takes
# into account the new value of additional_special_tokens given in the "tokenizer_config.json" and
# "special_tokens_map.json" files
UpperCAmelCase_ = tokenizer_class.from_pretrained(
_snake_case , )
self.assertIn(
'''an_additional_special_token''' , tokenizer_without_change_in_init.additional_special_tokens)
# self.assertIn("an_additional_special_token",tokenizer_without_change_in_init.get_vocab()) # ByT5Tokenization no vocab
self.assertEqual(
['''an_additional_special_token'''] , tokenizer_without_change_in_init.convert_ids_to_tokens(
tokenizer_without_change_in_init.convert_tokens_to_ids(['''an_additional_special_token'''])) , )
# Now we test that we can change the value of additional_special_tokens in the from_pretrained
UpperCAmelCase_ = added_tokens_extra_ids + [AddedToken('''a_new_additional_special_token''' , lstrip=_snake_case)]
UpperCAmelCase_ = tokenizer_class.from_pretrained(
_snake_case , additional_special_tokens=_snake_case , )
self.assertIn('''a_new_additional_special_token''' , tokenizer.additional_special_tokens)
self.assertEqual(
['''a_new_additional_special_token'''] , tokenizer.convert_ids_to_tokens(
tokenizer.convert_tokens_to_ids(['''a_new_additional_special_token'''])) , )
def lowerCamelCase ( self : Any):
"""simple docstring"""
UpperCAmelCase_ = []
if self.test_slow_tokenizer:
tokenizer_list.append((self.tokenizer_class, self.get_tokenizer()))
if self.test_rust_tokenizer:
tokenizer_list.append((self.rust_tokenizer_class, self.get_rust_tokenizer()))
for tokenizer_class, tokenizer_utils in tokenizer_list:
with tempfile.TemporaryDirectory() as tmp_dir:
tokenizer_utils.save_pretrained(_snake_case)
UpperCAmelCase_ = tokenizer_class.from_pretrained(_snake_case)
self.assertTrue(tokenizer.decode([255]) == '''''')
def lowerCamelCase ( self : int):
"""simple docstring"""
pass
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
pass
def lowerCamelCase ( self : Dict):
"""simple docstring"""
pass
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
pass
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = self.get_tokenizers(fast=_snake_case , do_lower_case=_snake_case)
for tokenizer in tokenizers:
with self.subTest(F"""{tokenizer.__class__.__name__}"""):
UpperCAmelCase_ = ['''t''', '''h''', '''i''', '''s''', ''' ''', '''i''', '''s''', ''' ''', '''a''', ''' ''', '''t''', '''e''', '''x''', '''t''', '''</s>''']
UpperCAmelCase_ = tokenizer.convert_tokens_to_string(_snake_case)
self.assertIsInstance(_snake_case , _snake_case)
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = self.get_tokenizers()
for tokenizer in tokenizers:
with self.subTest(F"""{tokenizer.__class__.__name__}"""):
UpperCAmelCase_ = [
'''bos_token''',
'''eos_token''',
'''unk_token''',
'''sep_token''',
'''pad_token''',
'''cls_token''',
'''mask_token''',
]
UpperCAmelCase_ = 0
UpperCAmelCase_ = tokenizer.convert_ids_to_tokens(
_snake_case , skip_special_tokens=_snake_case)
for attr in attributes_list:
setattr(_snake_case , attr + '''_id''' , _snake_case)
self.assertEqual(getattr(_snake_case , _snake_case) , _snake_case)
self.assertEqual(getattr(_snake_case , attr + '''_id''') , _snake_case)
setattr(_snake_case , attr + '''_id''' , _snake_case)
self.assertEqual(getattr(_snake_case , _snake_case) , _snake_case)
self.assertEqual(getattr(_snake_case , attr + '''_id''') , _snake_case)
setattr(_snake_case , '''additional_special_tokens_ids''' , [])
self.assertListEqual(getattr(_snake_case , '''additional_special_tokens''') , [])
self.assertListEqual(getattr(_snake_case , '''additional_special_tokens_ids''') , [])
setattr(_snake_case , '''additional_special_tokens_ids''' , [token_id_to_test_setters])
self.assertListEqual(getattr(_snake_case , '''additional_special_tokens''') , [token_to_test_setters])
self.assertListEqual(getattr(_snake_case , '''additional_special_tokens_ids''') , [token_id_to_test_setters])
| 51
| 1
|
from maths.is_square_free import is_square_free
from maths.prime_factors import prime_factors
def A (__A : int ) -> int:
"""simple docstring"""
UpperCAmelCase_ = prime_factors(__A )
if is_square_free(__A ):
return -1 if len(__A ) % 2 else 1
return 0
if __name__ == "__main__":
import doctest
doctest.testmod()
| 51
|
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_sentencepiece_available,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
snake_case_ : Dict = {"configuration_mbart": ["MBART_PRETRAINED_CONFIG_ARCHIVE_MAP", "MBartConfig", "MBartOnnxConfig"]}
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Tuple = ["MBartTokenizer"]
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : str = ["MBartTokenizerFast"]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : List[Any] = [
"MBART_PRETRAINED_MODEL_ARCHIVE_LIST",
"MBartForCausalLM",
"MBartForConditionalGeneration",
"MBartForQuestionAnswering",
"MBartForSequenceClassification",
"MBartModel",
"MBartPreTrainedModel",
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Any = [
"TFMBartForConditionalGeneration",
"TFMBartModel",
"TFMBartPreTrainedModel",
]
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : List[str] = [
"FlaxMBartForConditionalGeneration",
"FlaxMBartForQuestionAnswering",
"FlaxMBartForSequenceClassification",
"FlaxMBartModel",
"FlaxMBartPreTrainedModel",
]
if TYPE_CHECKING:
from .configuration_mbart import MBART_PRETRAINED_CONFIG_ARCHIVE_MAP, MBartConfig, MBartOnnxConfig
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_mbart import MBartTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_mbart_fast import MBartTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_mbart import (
MBART_PRETRAINED_MODEL_ARCHIVE_LIST,
MBartForCausalLM,
MBartForConditionalGeneration,
MBartForQuestionAnswering,
MBartForSequenceClassification,
MBartModel,
MBartPreTrainedModel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_mbart import TFMBartForConditionalGeneration, TFMBartModel, TFMBartPreTrainedModel
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_mbart import (
FlaxMBartForConditionalGeneration,
FlaxMBartForQuestionAnswering,
FlaxMBartForSequenceClassification,
FlaxMBartModel,
FlaxMBartPreTrainedModel,
)
else:
import sys
snake_case_ : Any = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 51
| 1
|
def A (__A : float ) -> float:
"""simple docstring"""
return 10 - x * x
def A (__A : float , __A : float ) -> float:
"""simple docstring"""
if equation(__A ) * equation(__A ) >= 0:
raise ValueError('''Wrong space!''' )
UpperCAmelCase_ = a
while (b - a) >= 0.01:
# Find middle point
UpperCAmelCase_ = (a + b) / 2
# Check if middle point is root
if equation(__A ) == 0.0:
break
# Decide the side to repeat the steps
if equation(__A ) * equation(__A ) < 0:
UpperCAmelCase_ = c
else:
UpperCAmelCase_ = c
return c
if __name__ == "__main__":
import doctest
doctest.testmod()
print(bisection(-2, 5))
print(bisection(0, 6))
| 51
|
import warnings
from typing import List, Optional, Union
from ...image_utils import ImageInput
from ...processing_utils import ProcessorMixin
from ...tokenization_utils_base import BatchEncoding, PaddingStrategy, PreTokenizedInput, TextInput, TruncationStrategy
from ...utils import TensorType
class __snake_case ( a ):
UpperCAmelCase__ : Dict = ['''image_processor''', '''tokenizer''']
UpperCAmelCase__ : Dict = '''FlavaImageProcessor'''
UpperCAmelCase__ : Dict = ('''BertTokenizer''', '''BertTokenizerFast''')
def __init__( self : Union[str, Any] , _snake_case : List[str]=None , _snake_case : str=None , **_snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = None
if "feature_extractor" in kwargs:
warnings.warn(
'''The `feature_extractor` argument is deprecated and will be removed in v5, use `image_processor`'''
''' instead.''' , _snake_case , )
UpperCAmelCase_ = kwargs.pop('''feature_extractor''')
UpperCAmelCase_ = image_processor if image_processor is not None else feature_extractor
if image_processor is None:
raise ValueError('''You need to specify an `image_processor`.''')
if tokenizer is None:
raise ValueError('''You need to specify a `tokenizer`.''')
super().__init__(_snake_case , _snake_case)
UpperCAmelCase_ = self.image_processor
def __call__( self : List[Any] , _snake_case : Optional[ImageInput] = None , _snake_case : Optional[Union[TextInput, PreTokenizedInput, List[TextInput], List[PreTokenizedInput]]] = None , _snake_case : bool = True , _snake_case : Union[bool, str, PaddingStrategy] = False , _snake_case : Union[bool, str, TruncationStrategy] = False , _snake_case : Optional[int] = None , _snake_case : int = 0 , _snake_case : Optional[int] = None , _snake_case : Optional[bool] = None , _snake_case : Optional[bool] = None , _snake_case : Optional[bool] = None , _snake_case : Optional[bool] = None , _snake_case : bool = False , _snake_case : bool = False , _snake_case : bool = False , _snake_case : bool = False , _snake_case : bool = True , _snake_case : Optional[Union[str, TensorType]] = None , **_snake_case : Any , ):
"""simple docstring"""
if text is None and images is None:
raise ValueError('''You have to specify either text or images. Both cannot be none.''')
if text is not None:
UpperCAmelCase_ = self.tokenizer(
text=_snake_case , add_special_tokens=_snake_case , padding=_snake_case , truncation=_snake_case , max_length=_snake_case , stride=_snake_case , pad_to_multiple_of=_snake_case , return_token_type_ids=_snake_case , return_attention_mask=_snake_case , return_overflowing_tokens=_snake_case , return_special_tokens_mask=_snake_case , return_offsets_mapping=_snake_case , return_length=_snake_case , verbose=_snake_case , return_tensors=_snake_case , **_snake_case , )
if images is not None:
UpperCAmelCase_ = self.image_processor(
_snake_case , return_image_mask=_snake_case , return_codebook_pixels=_snake_case , return_tensors=_snake_case , **_snake_case , )
if text is not None and images is not None:
encoding.update(_snake_case)
return encoding
elif text is not None:
return encoding
else:
return BatchEncoding(data=dict(**_snake_case) , tensor_type=_snake_case)
def lowerCamelCase ( self : Any , *_snake_case : Optional[Any] , **_snake_case : int):
"""simple docstring"""
return self.tokenizer.batch_decode(*_snake_case , **_snake_case)
def lowerCamelCase ( self : Optional[int] , *_snake_case : int , **_snake_case : Dict):
"""simple docstring"""
return self.tokenizer.decode(*_snake_case , **_snake_case)
@property
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = self.tokenizer.model_input_names
UpperCAmelCase_ = self.image_processor.model_input_names
return list(dict.fromkeys(tokenizer_input_names + image_processor_input_names))
@property
def lowerCamelCase ( self : str):
"""simple docstring"""
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 lowerCamelCase ( self : Any):
"""simple docstring"""
warnings.warn(
'''`feature_extractor` is deprecated and will be removed in v5. Use `image_processor` instead.''' , _snake_case , )
return self.image_processor
| 51
| 1
|
snake_case_ : Optional[int] = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"
def A (__A : bytes ) -> bytes:
"""simple docstring"""
if not isinstance(__A , __A ):
UpperCAmelCase_ = F"""a bytes-like object is required, not '{data.__class__.__name__}'"""
raise TypeError(__A )
UpperCAmelCase_ = ''''''.join(bin(__A )[2:].zfill(8 ) for byte in data )
UpperCAmelCase_ = len(__A ) % 6 != 0
if padding_needed:
# The padding that will be added later
UpperCAmelCase_ = B'''=''' * ((6 - len(__A ) % 6) // 2)
# Append binary_stream with arbitrary binary digits (0's by default) to make its
# length a multiple of 6.
binary_stream += "0" * (6 - len(__A ) % 6)
else:
UpperCAmelCase_ = B''''''
# Encode every 6 binary digits to their corresponding Base64 character
return (
"".join(
B64_CHARSET[int(binary_stream[index : index + 6] , 2 )]
for index in range(0 , len(__A ) , 6 ) ).encode()
+ padding
)
def A (__A : str ) -> bytes:
"""simple docstring"""
if not isinstance(__A , __A ) and not isinstance(__A , __A ):
UpperCAmelCase_ = (
'''argument should be a bytes-like object or ASCII string, '''
F"""not '{encoded_data.__class__.__name__}'"""
)
raise TypeError(__A )
# In case encoded_data is a bytes-like object, make sure it contains only
# ASCII characters so we convert it to a string object
if isinstance(__A , __A ):
try:
UpperCAmelCase_ = encoded_data.decode('''utf-8''' )
except UnicodeDecodeError:
raise ValueError('''base64 encoded data should only contain ASCII characters''' )
UpperCAmelCase_ = encoded_data.count('''=''' )
# Check if the encoded string contains non base64 characters
if padding:
assert all(
char in B64_CHARSET for char in encoded_data[:-padding] ), "Invalid base64 character(s) found."
else:
assert all(
char in B64_CHARSET for char in encoded_data ), "Invalid base64 character(s) found."
# Check the padding
assert len(__A ) % 4 == 0 and padding < 3, "Incorrect padding"
if padding:
# Remove padding if there is one
UpperCAmelCase_ = encoded_data[:-padding]
UpperCAmelCase_ = ''''''.join(
bin(B64_CHARSET.index(__A ) )[2:].zfill(6 ) for char in encoded_data )[: -padding * 2]
else:
UpperCAmelCase_ = ''''''.join(
bin(B64_CHARSET.index(__A ) )[2:].zfill(6 ) for char in encoded_data )
UpperCAmelCase_ = [
int(binary_stream[index : index + 8] , 2 )
for index in range(0 , len(__A ) , 8 )
]
return bytes(__A )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 51
|
from diffusers.utils.testing_utils import require_onnxruntime
@require_onnxruntime
class __snake_case :
pass
| 51
| 1
|
import copy
import tempfile
import unittest
from huggingface_hub import HfFolder, delete_repo
from parameterized import parameterized
from requests.exceptions import HTTPError
from transformers import AutoConfig, GenerationConfig
from transformers.testing_utils import TOKEN, USER, is_staging_test
class __snake_case ( unittest.TestCase ):
@parameterized.expand([(None,), ('''foo.json''',)])
def lowerCamelCase ( self : Optional[int] , _snake_case : Dict):
"""simple docstring"""
UpperCAmelCase_ = GenerationConfig(
do_sample=_snake_case , temperature=0.7 , length_penalty=1.0 , bad_words_ids=[[1, 2, 3], [4, 5]] , )
with tempfile.TemporaryDirectory() as tmp_dir:
config.save_pretrained(_snake_case , config_name=_snake_case)
UpperCAmelCase_ = GenerationConfig.from_pretrained(_snake_case , config_name=_snake_case)
# Checks parameters that were specified
self.assertEqual(loaded_config.do_sample , _snake_case)
self.assertEqual(loaded_config.temperature , 0.7)
self.assertEqual(loaded_config.length_penalty , 1.0)
self.assertEqual(loaded_config.bad_words_ids , [[1, 2, 3], [4, 5]])
# Checks parameters that were not specified (defaults)
self.assertEqual(loaded_config.top_k , 50)
self.assertEqual(loaded_config.max_length , 20)
self.assertEqual(loaded_config.max_time , _snake_case)
def lowerCamelCase ( self : Any):
"""simple docstring"""
UpperCAmelCase_ = AutoConfig.from_pretrained('''gpt2''')
UpperCAmelCase_ = GenerationConfig.from_model_config(_snake_case)
UpperCAmelCase_ = GenerationConfig()
# The generation config has loaded a few non-default parameters from the model config
self.assertNotEqual(_snake_case , _snake_case)
# One of those parameters is eos_token_id -- check if it matches
self.assertNotEqual(generation_config_from_model.eos_token_id , default_generation_config.eos_token_id)
self.assertEqual(generation_config_from_model.eos_token_id , model_config.eos_token_id)
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = GenerationConfig()
UpperCAmelCase_ = {
'''max_new_tokens''': 1024,
'''foo''': '''bar''',
}
UpperCAmelCase_ = copy.deepcopy(_snake_case)
UpperCAmelCase_ = generation_config.update(**_snake_case)
# update_kwargs was not modified (no side effects)
self.assertEqual(_snake_case , _snake_case)
# update_kwargs was used to update the config on valid attributes
self.assertEqual(generation_config.max_new_tokens , 1024)
# `.update()` returns a dictionary of unused kwargs
self.assertEqual(_snake_case , {'''foo''': '''bar'''})
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = GenerationConfig()
UpperCAmelCase_ = '''bar'''
with tempfile.TemporaryDirectory('''test-generation-config''') as tmp_dir:
generation_config.save_pretrained(_snake_case)
UpperCAmelCase_ = GenerationConfig.from_pretrained(_snake_case)
# update_kwargs was used to update the config on valid attributes
self.assertEqual(new_config.foo , '''bar''')
UpperCAmelCase_ = GenerationConfig.from_model_config(_snake_case)
assert not hasattr(_snake_case , '''foo''') # no new kwargs should be initialized if from config
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = GenerationConfig()
self.assertEqual(default_config.temperature , 1.0)
self.assertEqual(default_config.do_sample , _snake_case)
self.assertEqual(default_config.num_beams , 1)
UpperCAmelCase_ = GenerationConfig(
do_sample=_snake_case , temperature=0.7 , length_penalty=1.0 , bad_words_ids=[[1, 2, 3], [4, 5]] , )
self.assertEqual(config.temperature , 0.7)
self.assertEqual(config.do_sample , _snake_case)
self.assertEqual(config.num_beams , 1)
with tempfile.TemporaryDirectory() as tmp_dir:
config.save_pretrained(_snake_case)
UpperCAmelCase_ = GenerationConfig.from_pretrained(_snake_case , temperature=1.0)
self.assertEqual(loaded_config.temperature , 1.0)
self.assertEqual(loaded_config.do_sample , _snake_case)
self.assertEqual(loaded_config.num_beams , 1) # default value
@is_staging_test
class __snake_case ( unittest.TestCase ):
@classmethod
def lowerCamelCase ( cls : Tuple):
"""simple docstring"""
UpperCAmelCase_ = TOKEN
HfFolder.save_token(_snake_case)
@classmethod
def lowerCamelCase ( cls : Tuple):
"""simple docstring"""
try:
delete_repo(token=cls._token , repo_id='''test-generation-config''')
except HTTPError:
pass
try:
delete_repo(token=cls._token , repo_id='''valid_org/test-generation-config-org''')
except HTTPError:
pass
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = GenerationConfig(
do_sample=_snake_case , temperature=0.7 , length_penalty=1.0 , )
config.push_to_hub('''test-generation-config''' , use_auth_token=self._token)
UpperCAmelCase_ = GenerationConfig.from_pretrained(F"""{USER}/test-generation-config""")
for k, v in config.to_dict().items():
if k != "transformers_version":
self.assertEqual(_snake_case , getattr(_snake_case , _snake_case))
# Reset repo
delete_repo(token=self._token , repo_id='''test-generation-config''')
# Push to hub via save_pretrained
with tempfile.TemporaryDirectory() as tmp_dir:
config.save_pretrained(
_snake_case , repo_id='''test-generation-config''' , push_to_hub=_snake_case , use_auth_token=self._token)
UpperCAmelCase_ = GenerationConfig.from_pretrained(F"""{USER}/test-generation-config""")
for k, v in config.to_dict().items():
if k != "transformers_version":
self.assertEqual(_snake_case , getattr(_snake_case , _snake_case))
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = GenerationConfig(
do_sample=_snake_case , temperature=0.7 , length_penalty=1.0 , )
config.push_to_hub('''valid_org/test-generation-config-org''' , use_auth_token=self._token)
UpperCAmelCase_ = GenerationConfig.from_pretrained('''valid_org/test-generation-config-org''')
for k, v in config.to_dict().items():
if k != "transformers_version":
self.assertEqual(_snake_case , getattr(_snake_case , _snake_case))
# Reset repo
delete_repo(token=self._token , repo_id='''valid_org/test-generation-config-org''')
# Push to hub via save_pretrained
with tempfile.TemporaryDirectory() as tmp_dir:
config.save_pretrained(
_snake_case , repo_id='''valid_org/test-generation-config-org''' , push_to_hub=_snake_case , use_auth_token=self._token)
UpperCAmelCase_ = GenerationConfig.from_pretrained('''valid_org/test-generation-config-org''')
for k, v in config.to_dict().items():
if k != "transformers_version":
self.assertEqual(_snake_case , getattr(_snake_case , _snake_case))
| 51
|
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
snake_case_ : List[Any] = data_utils.TransfoXLTokenizer
snake_case_ : int = data_utils.TransfoXLCorpus
snake_case_ : List[Any] = data_utils
snake_case_ : int = data_utils
def A (__A : Dict , __A : List[Any] , __A : Union[str, Any] , __A : Tuple ) -> Union[str, Any]:
"""simple docstring"""
if transfo_xl_dataset_file:
# Convert a pre-processed corpus (see original TensorFlow repo)
with open(__A , '''rb''' ) as fp:
UpperCAmelCase_ = pickle.load(__A , encoding='''latin1''' )
# Save vocabulary and dataset cache as Dictionaries (should be better than pickles for the long-term)
UpperCAmelCase_ = pytorch_dump_folder_path + '''/''' + VOCAB_FILES_NAMES['''pretrained_vocab_file''']
print(F"""Save vocabulary to {pytorch_vocab_dump_path}""" )
UpperCAmelCase_ = corpus.vocab.__dict__
torch.save(__A , __A )
UpperCAmelCase_ = corpus.__dict__
corpus_dict_no_vocab.pop('''vocab''' , __A )
UpperCAmelCase_ = 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
UpperCAmelCase_ = os.path.abspath(__A )
UpperCAmelCase_ = 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 == "":
UpperCAmelCase_ = TransfoXLConfig()
else:
UpperCAmelCase_ = TransfoXLConfig.from_json_file(__A )
print(F"""Building PyTorch model from configuration: {config}""" )
UpperCAmelCase_ = TransfoXLLMHeadModel(__A )
UpperCAmelCase_ = load_tf_weights_in_transfo_xl(__A , __A , __A )
# Save pytorch-model
UpperCAmelCase_ = os.path.join(__A , __A )
UpperCAmelCase_ = 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__":
snake_case_ : List[str] = 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.",
)
snake_case_ : int = 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,
)
| 51
| 1
|
def A (__A : str ) -> int:
"""simple docstring"""
UpperCAmelCase_ = hex_num.strip()
if not hex_num:
raise ValueError('''No value was passed to the function''' )
UpperCAmelCase_ = hex_num[0] == '''-'''
if is_negative:
UpperCAmelCase_ = hex_num[1:]
try:
UpperCAmelCase_ = int(__A , 16 )
except ValueError:
raise ValueError('''Invalid value was passed to the function''' )
UpperCAmelCase_ = ''''''
while int_num > 0:
UpperCAmelCase_ = str(int_num % 2 ) + bin_str
int_num >>= 1
return int(('''-''' + bin_str) if is_negative else bin_str )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 51
|
from typing import Optional, Tuple, Union
import torch
from einops import rearrange, reduce
from diffusers import DDIMScheduler, DDPMScheduler, DiffusionPipeline, ImagePipelineOutput, UNetaDConditionModel
from diffusers.schedulers.scheduling_ddim import DDIMSchedulerOutput
from diffusers.schedulers.scheduling_ddpm import DDPMSchedulerOutput
snake_case_ : List[str] = 8
def A (__A : Union[str, Any] , __A : List[Any]=BITS ) -> Tuple:
"""simple docstring"""
UpperCAmelCase_ = x.device
UpperCAmelCase_ = (x * 255).int().clamp(0 , 255 )
UpperCAmelCase_ = 2 ** torch.arange(bits - 1 , -1 , -1 , device=__A )
UpperCAmelCase_ = rearrange(__A , '''d -> d 1 1''' )
UpperCAmelCase_ = rearrange(__A , '''b c h w -> b c 1 h w''' )
UpperCAmelCase_ = ((x & mask) != 0).float()
UpperCAmelCase_ = rearrange(__A , '''b c d h w -> b (c d) h w''' )
UpperCAmelCase_ = bits * 2 - 1
return bits
def A (__A : Dict , __A : Tuple=BITS ) -> List[str]:
"""simple docstring"""
UpperCAmelCase_ = x.device
UpperCAmelCase_ = (x > 0).int()
UpperCAmelCase_ = 2 ** torch.arange(bits - 1 , -1 , -1 , device=__A , dtype=torch.intaa )
UpperCAmelCase_ = rearrange(__A , '''d -> d 1 1''' )
UpperCAmelCase_ = rearrange(__A , '''b (c d) h w -> b c d h w''' , d=8 )
UpperCAmelCase_ = reduce(x * mask , '''b c d h w -> b c h w''' , '''sum''' )
return (dec / 255).clamp(0.0 , 1.0 )
def A (self : List[Any] , __A : torch.FloatTensor , __A : int , __A : torch.FloatTensor , __A : float = 0.0 , __A : bool = True , __A : Tuple=None , __A : bool = True , ) -> Union[DDIMSchedulerOutput, Tuple]:
"""simple docstring"""
if self.num_inference_steps is None:
raise ValueError(
'''Number of inference steps is \'None\', you need to run \'set_timesteps\' after creating the scheduler''' )
# See formulas (12) and (16) of DDIM paper https://arxiv.org/pdf/2010.02502.pdf
# Ideally, read DDIM paper in-detail understanding
# Notation (<variable name> -> <name in paper>
# - pred_noise_t -> e_theta(x_t, t)
# - pred_original_sample -> f_theta(x_t, t) or x_0
# - std_dev_t -> sigma_t
# - eta -> η
# - pred_sample_direction -> "direction pointing to x_t"
# - pred_prev_sample -> "x_t-1"
# 1. get previous step value (=t-1)
UpperCAmelCase_ = timestep - self.config.num_train_timesteps // self.num_inference_steps
# 2. compute alphas, betas
UpperCAmelCase_ = self.alphas_cumprod[timestep]
UpperCAmelCase_ = self.alphas_cumprod[prev_timestep] if prev_timestep >= 0 else self.final_alpha_cumprod
UpperCAmelCase_ = 1 - alpha_prod_t
# 3. compute predicted original sample from predicted noise also called
# "predicted x_0" of formula (12) from https://arxiv.org/pdf/2010.02502.pdf
UpperCAmelCase_ = (sample - beta_prod_t ** 0.5 * model_output) / alpha_prod_t ** 0.5
# 4. Clip "predicted x_0"
UpperCAmelCase_ = self.bit_scale
if self.config.clip_sample:
UpperCAmelCase_ = torch.clamp(__A , -scale , __A )
# 5. compute variance: "sigma_t(η)" -> see formula (16)
# σ_t = sqrt((1 − α_t−1)/(1 − α_t)) * sqrt(1 − α_t/α_t−1)
UpperCAmelCase_ = self._get_variance(__A , __A )
UpperCAmelCase_ = eta * variance ** 0.5
if use_clipped_model_output:
# the model_output is always re-derived from the clipped x_0 in Glide
UpperCAmelCase_ = (sample - alpha_prod_t ** 0.5 * pred_original_sample) / beta_prod_t ** 0.5
# 6. compute "direction pointing to x_t" of formula (12) from https://arxiv.org/pdf/2010.02502.pdf
UpperCAmelCase_ = (1 - alpha_prod_t_prev - std_dev_t**2) ** 0.5 * model_output
# 7. compute x_t without "random noise" of formula (12) from https://arxiv.org/pdf/2010.02502.pdf
UpperCAmelCase_ = alpha_prod_t_prev ** 0.5 * pred_original_sample + pred_sample_direction
if eta > 0:
# randn_like does not support generator https://github.com/pytorch/pytorch/issues/27072
UpperCAmelCase_ = model_output.device if torch.is_tensor(__A ) else '''cpu'''
UpperCAmelCase_ = torch.randn(model_output.shape , dtype=model_output.dtype , generator=__A ).to(__A )
UpperCAmelCase_ = self._get_variance(__A , __A ) ** 0.5 * eta * noise
UpperCAmelCase_ = prev_sample + variance
if not return_dict:
return (prev_sample,)
return DDIMSchedulerOutput(prev_sample=__A , pred_original_sample=__A )
def A (self : Optional[int] , __A : torch.FloatTensor , __A : int , __A : torch.FloatTensor , __A : int="epsilon" , __A : Optional[Any]=None , __A : bool = True , ) -> Union[DDPMSchedulerOutput, Tuple]:
"""simple docstring"""
UpperCAmelCase_ = timestep
if model_output.shape[1] == sample.shape[1] * 2 and self.variance_type in ["learned", "learned_range"]:
UpperCAmelCase_ , UpperCAmelCase_ = torch.split(__A , sample.shape[1] , dim=1 )
else:
UpperCAmelCase_ = None
# 1. compute alphas, betas
UpperCAmelCase_ = self.alphas_cumprod[t]
UpperCAmelCase_ = self.alphas_cumprod[t - 1] if t > 0 else self.one
UpperCAmelCase_ = 1 - alpha_prod_t
UpperCAmelCase_ = 1 - alpha_prod_t_prev
# 2. compute predicted original sample from predicted noise also called
# "predicted x_0" of formula (15) from https://arxiv.org/pdf/2006.11239.pdf
if prediction_type == "epsilon":
UpperCAmelCase_ = (sample - beta_prod_t ** 0.5 * model_output) / alpha_prod_t ** 0.5
elif prediction_type == "sample":
UpperCAmelCase_ = model_output
else:
raise ValueError(F"""Unsupported prediction_type {prediction_type}.""" )
# 3. Clip "predicted x_0"
UpperCAmelCase_ = self.bit_scale
if self.config.clip_sample:
UpperCAmelCase_ = torch.clamp(__A , -scale , __A )
# 4. Compute coefficients for pred_original_sample x_0 and current sample x_t
# See formula (7) from https://arxiv.org/pdf/2006.11239.pdf
UpperCAmelCase_ = (alpha_prod_t_prev ** 0.5 * self.betas[t]) / beta_prod_t
UpperCAmelCase_ = self.alphas[t] ** 0.5 * beta_prod_t_prev / beta_prod_t
# 5. Compute predicted previous sample µ_t
# See formula (7) from https://arxiv.org/pdf/2006.11239.pdf
UpperCAmelCase_ = pred_original_sample_coeff * pred_original_sample + current_sample_coeff * sample
# 6. Add noise
UpperCAmelCase_ = 0
if t > 0:
UpperCAmelCase_ = torch.randn(
model_output.size() , dtype=model_output.dtype , layout=model_output.layout , generator=__A ).to(model_output.device )
UpperCAmelCase_ = (self._get_variance(__A , predicted_variance=__A ) ** 0.5) * noise
UpperCAmelCase_ = pred_prev_sample + variance
if not return_dict:
return (pred_prev_sample,)
return DDPMSchedulerOutput(prev_sample=__A , pred_original_sample=__A )
class __snake_case ( a ):
def __init__( self : Union[str, Any] , _snake_case : UNetaDConditionModel , _snake_case : Union[DDIMScheduler, DDPMScheduler] , _snake_case : Optional[float] = 1.0 , ):
"""simple docstring"""
super().__init__()
UpperCAmelCase_ = bit_scale
UpperCAmelCase_ = (
ddim_bit_scheduler_step if isinstance(_snake_case , _snake_case) else ddpm_bit_scheduler_step
)
self.register_modules(unet=_snake_case , scheduler=_snake_case)
@torch.no_grad()
def __call__( self : Union[str, Any] , _snake_case : Optional[int] = 256 , _snake_case : Optional[int] = 256 , _snake_case : Optional[int] = 50 , _snake_case : Optional[torch.Generator] = None , _snake_case : Optional[int] = 1 , _snake_case : Optional[str] = "pil" , _snake_case : bool = True , **_snake_case : Optional[Any] , ):
"""simple docstring"""
UpperCAmelCase_ = torch.randn(
(batch_size, self.unet.config.in_channels, height, width) , generator=_snake_case , )
UpperCAmelCase_ = decimal_to_bits(_snake_case) * self.bit_scale
UpperCAmelCase_ = latents.to(self.device)
self.scheduler.set_timesteps(_snake_case)
for t in self.progress_bar(self.scheduler.timesteps):
# predict the noise residual
UpperCAmelCase_ = self.unet(_snake_case , _snake_case).sample
# compute the previous noisy sample x_t -> x_t-1
UpperCAmelCase_ = self.scheduler.step(_snake_case , _snake_case , _snake_case).prev_sample
UpperCAmelCase_ = bits_to_decimal(_snake_case)
if output_type == "pil":
UpperCAmelCase_ = self.numpy_to_pil(_snake_case)
if not return_dict:
return (image,)
return ImagePipelineOutput(images=_snake_case)
| 51
| 1
|
import unittest
import numpy as np
import torch
from transformers import CLIPTextConfig, CLIPTextModel, CLIPTokenizer
from diffusers import (
AutoencoderKL,
DDIMScheduler,
DPMSolverMultistepScheduler,
TextToVideoSDPipeline,
UNetaDConditionModel,
)
from diffusers.utils import is_xformers_available, load_numpy, skip_mps, slow, torch_device
from diffusers.utils.testing_utils import enable_full_determinism
from ..pipeline_params import TEXT_TO_IMAGE_BATCH_PARAMS, TEXT_TO_IMAGE_PARAMS
from ..test_pipelines_common import PipelineTesterMixin
enable_full_determinism()
@skip_mps
class __snake_case ( a , unittest.TestCase ):
UpperCAmelCase__ : int = TextToVideoSDPipeline
UpperCAmelCase__ : List[Any] = TEXT_TO_IMAGE_PARAMS
UpperCAmelCase__ : int = TEXT_TO_IMAGE_BATCH_PARAMS
# No `output_type`.
UpperCAmelCase__ : Tuple = frozenset(
[
'''num_inference_steps''',
'''generator''',
'''latents''',
'''return_dict''',
'''callback''',
'''callback_steps''',
] )
def lowerCamelCase ( self : str):
"""simple docstring"""
torch.manual_seed(0)
UpperCAmelCase_ = UNetaDConditionModel(
block_out_channels=(32, 64, 64, 64) , layers_per_block=2 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=('''CrossAttnDownBlock3D''', '''CrossAttnDownBlock3D''', '''CrossAttnDownBlock3D''', '''DownBlock3D''') , up_block_types=('''UpBlock3D''', '''CrossAttnUpBlock3D''', '''CrossAttnUpBlock3D''', '''CrossAttnUpBlock3D''') , cross_attention_dim=32 , attention_head_dim=4 , )
UpperCAmelCase_ = DDIMScheduler(
beta_start=0.0_0_0_8_5 , beta_end=0.0_1_2 , beta_schedule='''scaled_linear''' , clip_sample=_snake_case , set_alpha_to_one=_snake_case , )
torch.manual_seed(0)
UpperCAmelCase_ = AutoencoderKL(
block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=['''DownEncoderBlock2D''', '''DownEncoderBlock2D'''] , up_block_types=['''UpDecoderBlock2D''', '''UpDecoderBlock2D'''] , latent_channels=4 , sample_size=128 , )
torch.manual_seed(0)
UpperCAmelCase_ = CLIPTextConfig(
bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1e-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1000 , hidden_act='''gelu''' , projection_dim=512 , )
UpperCAmelCase_ = CLIPTextModel(_snake_case)
UpperCAmelCase_ = CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''')
UpperCAmelCase_ = {
'''unet''': unet,
'''scheduler''': scheduler,
'''vae''': vae,
'''text_encoder''': text_encoder,
'''tokenizer''': tokenizer,
}
return components
def lowerCamelCase ( self : Union[str, Any] , _snake_case : Any , _snake_case : List[str]=0):
"""simple docstring"""
if str(_snake_case).startswith('''mps'''):
UpperCAmelCase_ = torch.manual_seed(_snake_case)
else:
UpperCAmelCase_ = torch.Generator(device=_snake_case).manual_seed(_snake_case)
UpperCAmelCase_ = {
'''prompt''': '''A painting of a squirrel eating a burger''',
'''generator''': generator,
'''num_inference_steps''': 2,
'''guidance_scale''': 6.0,
'''output_type''': '''pt''',
}
return inputs
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = '''cpu''' # ensure determinism for the device-dependent torch.Generator
UpperCAmelCase_ = self.get_dummy_components()
UpperCAmelCase_ = TextToVideoSDPipeline(**_snake_case)
UpperCAmelCase_ = sd_pipe.to(_snake_case)
sd_pipe.set_progress_bar_config(disable=_snake_case)
UpperCAmelCase_ = self.get_dummy_inputs(_snake_case)
UpperCAmelCase_ = '''np'''
UpperCAmelCase_ = sd_pipe(**_snake_case).frames
UpperCAmelCase_ = frames[0][-3:, -3:, -1]
assert frames[0].shape == (64, 64, 3)
UpperCAmelCase_ = np.array([1_5_8.0, 1_6_0.0, 1_5_3.0, 1_2_5.0, 1_0_0.0, 1_2_1.0, 1_1_1.0, 9_3.0, 1_1_3.0])
assert np.abs(image_slice.flatten() - expected_slice).max() < 1e-2
def lowerCamelCase ( self : Any):
"""simple docstring"""
self._test_attention_slicing_forward_pass(test_mean_pixel_difference=_snake_case , expected_max_diff=3e-3)
@unittest.skipIf(
torch_device != '''cuda''' or not is_xformers_available() , reason='''XFormers attention is only available with CUDA and `xformers` installed''' , )
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
self._test_xformers_attention_forwardGenerator_pass(test_mean_pixel_difference=_snake_case , expected_max_diff=1e-2)
@unittest.skip(reason='''Batching needs to be properly figured out first for this pipeline.''')
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
pass
@unittest.skip(reason='''Batching needs to be properly figured out first for this pipeline.''')
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
pass
@unittest.skip(reason='''`num_images_per_prompt` argument is not supported for this pipeline.''')
def lowerCamelCase ( self : Dict):
"""simple docstring"""
pass
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
return super().test_progress_bar()
@slow
@skip_mps
class __snake_case ( unittest.TestCase ):
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = load_numpy(
'''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/text_to_video/video.npy''')
UpperCAmelCase_ = TextToVideoSDPipeline.from_pretrained('''damo-vilab/text-to-video-ms-1.7b''')
UpperCAmelCase_ = DPMSolverMultistepScheduler.from_config(pipe.scheduler.config)
UpperCAmelCase_ = pipe.to('''cuda''')
UpperCAmelCase_ = '''Spiderman is surfing'''
UpperCAmelCase_ = torch.Generator(device='''cpu''').manual_seed(0)
UpperCAmelCase_ = pipe(_snake_case , generator=_snake_case , num_inference_steps=25 , output_type='''pt''').frames
UpperCAmelCase_ = video_frames.cpu().numpy()
assert np.abs(expected_video - video).mean() < 5e-2
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = load_numpy(
'''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/text_to_video/video_2step.npy''')
UpperCAmelCase_ = TextToVideoSDPipeline.from_pretrained('''damo-vilab/text-to-video-ms-1.7b''')
UpperCAmelCase_ = pipe.to('''cuda''')
UpperCAmelCase_ = '''Spiderman is surfing'''
UpperCAmelCase_ = torch.Generator(device='''cpu''').manual_seed(0)
UpperCAmelCase_ = pipe(_snake_case , generator=_snake_case , num_inference_steps=2 , output_type='''pt''').frames
UpperCAmelCase_ = video_frames.cpu().numpy()
assert np.abs(expected_video - video).mean() < 5e-2
| 51
|
snake_case_ : Dict = {
"Pillow": "Pillow",
"accelerate": "accelerate>=0.11.0",
"compel": "compel==0.1.8",
"black": "black~=23.1",
"datasets": "datasets",
"filelock": "filelock",
"flax": "flax>=0.4.1",
"hf-doc-builder": "hf-doc-builder>=0.3.0",
"huggingface-hub": "huggingface-hub>=0.13.2",
"requests-mock": "requests-mock==1.10.0",
"importlib_metadata": "importlib_metadata",
"invisible-watermark": "invisible-watermark",
"isort": "isort>=5.5.4",
"jax": "jax>=0.2.8,!=0.3.2",
"jaxlib": "jaxlib>=0.1.65",
"Jinja2": "Jinja2",
"k-diffusion": "k-diffusion>=0.0.12",
"torchsde": "torchsde",
"note_seq": "note_seq",
"librosa": "librosa",
"numpy": "numpy",
"omegaconf": "omegaconf",
"parameterized": "parameterized",
"protobuf": "protobuf>=3.20.3,<4",
"pytest": "pytest",
"pytest-timeout": "pytest-timeout",
"pytest-xdist": "pytest-xdist",
"ruff": "ruff>=0.0.241",
"safetensors": "safetensors",
"sentencepiece": "sentencepiece>=0.1.91,!=0.1.92",
"scipy": "scipy",
"onnx": "onnx",
"regex": "regex!=2019.12.17",
"requests": "requests",
"tensorboard": "tensorboard",
"torch": "torch>=1.4",
"torchvision": "torchvision",
"transformers": "transformers>=4.25.1",
"urllib3": "urllib3<=2.0.0",
}
| 51
| 1
|
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
snake_case_ : int = {
"configuration_deberta": ["DEBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP", "DebertaConfig", "DebertaOnnxConfig"],
"tokenization_deberta": ["DebertaTokenizer"],
}
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : int = ["DebertaTokenizerFast"]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : List[str] = [
"DEBERTA_PRETRAINED_MODEL_ARCHIVE_LIST",
"DebertaForMaskedLM",
"DebertaForQuestionAnswering",
"DebertaForSequenceClassification",
"DebertaForTokenClassification",
"DebertaModel",
"DebertaPreTrainedModel",
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Any = [
"TF_DEBERTA_PRETRAINED_MODEL_ARCHIVE_LIST",
"TFDebertaForMaskedLM",
"TFDebertaForQuestionAnswering",
"TFDebertaForSequenceClassification",
"TFDebertaForTokenClassification",
"TFDebertaModel",
"TFDebertaPreTrainedModel",
]
if TYPE_CHECKING:
from .configuration_deberta import DEBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP, DebertaConfig, DebertaOnnxConfig
from .tokenization_deberta import DebertaTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_deberta_fast import DebertaTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_deberta import (
DEBERTA_PRETRAINED_MODEL_ARCHIVE_LIST,
DebertaForMaskedLM,
DebertaForQuestionAnswering,
DebertaForSequenceClassification,
DebertaForTokenClassification,
DebertaModel,
DebertaPreTrainedModel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_deberta import (
TF_DEBERTA_PRETRAINED_MODEL_ARCHIVE_LIST,
TFDebertaForMaskedLM,
TFDebertaForQuestionAnswering,
TFDebertaForSequenceClassification,
TFDebertaForTokenClassification,
TFDebertaModel,
TFDebertaPreTrainedModel,
)
else:
import sys
snake_case_ : Dict = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 51
|
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
| 1
|
# This model implementation is heavily inspired by https://github.com/haofanwang/ControlNet-for-Diffusers/
import gc
import random
import tempfile
import unittest
import numpy as np
import torch
from PIL import Image
from transformers import CLIPTextConfig, CLIPTextModel, CLIPTokenizer
from diffusers import (
AutoencoderKL,
ControlNetModel,
DDIMScheduler,
StableDiffusionControlNetImgaImgPipeline,
UNetaDConditionModel,
)
from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion_controlnet import MultiControlNetModel
from diffusers.utils import floats_tensor, load_image, load_numpy, randn_tensor, slow, torch_device
from diffusers.utils.import_utils import is_xformers_available
from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu
from ..pipeline_params import (
IMAGE_TO_IMAGE_IMAGE_PARAMS,
TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS,
TEXT_GUIDED_IMAGE_VARIATION_PARAMS,
)
from ..test_pipelines_common import (
PipelineKarrasSchedulerTesterMixin,
PipelineLatentTesterMixin,
PipelineTesterMixin,
)
enable_full_determinism()
class __snake_case ( a , a , a , unittest.TestCase ):
UpperCAmelCase__ : List[Any] = StableDiffusionControlNetImgaImgPipeline
UpperCAmelCase__ : Optional[Any] = TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {'''height''', '''width'''}
UpperCAmelCase__ : Optional[Any] = TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS
UpperCAmelCase__ : Union[str, Any] = IMAGE_TO_IMAGE_IMAGE_PARAMS.union({'''control_image'''} )
UpperCAmelCase__ : Optional[Any] = IMAGE_TO_IMAGE_IMAGE_PARAMS
def lowerCamelCase ( self : int):
"""simple docstring"""
torch.manual_seed(0)
UpperCAmelCase_ = UNetaDConditionModel(
block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , up_block_types=('''CrossAttnUpBlock2D''', '''UpBlock2D''') , cross_attention_dim=32 , )
torch.manual_seed(0)
UpperCAmelCase_ = ControlNetModel(
block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , )
torch.manual_seed(0)
UpperCAmelCase_ = DDIMScheduler(
beta_start=0.0_0_0_8_5 , beta_end=0.0_1_2 , beta_schedule='''scaled_linear''' , clip_sample=_snake_case , set_alpha_to_one=_snake_case , )
torch.manual_seed(0)
UpperCAmelCase_ = AutoencoderKL(
block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=['''DownEncoderBlock2D''', '''DownEncoderBlock2D'''] , up_block_types=['''UpDecoderBlock2D''', '''UpDecoderBlock2D'''] , latent_channels=4 , )
torch.manual_seed(0)
UpperCAmelCase_ = CLIPTextConfig(
bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1e-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1000 , )
UpperCAmelCase_ = CLIPTextModel(_snake_case)
UpperCAmelCase_ = CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''')
UpperCAmelCase_ = {
'''unet''': unet,
'''controlnet''': controlnet,
'''scheduler''': scheduler,
'''vae''': vae,
'''text_encoder''': text_encoder,
'''tokenizer''': tokenizer,
'''safety_checker''': None,
'''feature_extractor''': None,
}
return components
def lowerCamelCase ( self : Union[str, Any] , _snake_case : Any , _snake_case : Dict=0):
"""simple docstring"""
if str(_snake_case).startswith('''mps'''):
UpperCAmelCase_ = torch.manual_seed(_snake_case)
else:
UpperCAmelCase_ = torch.Generator(device=_snake_case).manual_seed(_snake_case)
UpperCAmelCase_ = 2
UpperCAmelCase_ = randn_tensor(
(1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=_snake_case , device=torch.device(_snake_case) , )
UpperCAmelCase_ = floats_tensor(control_image.shape , rng=random.Random(_snake_case)).to(_snake_case)
UpperCAmelCase_ = image.cpu().permute(0 , 2 , 3 , 1)[0]
UpperCAmelCase_ = Image.fromarray(np.uinta(_snake_case)).convert('''RGB''').resize((64, 64))
UpperCAmelCase_ = {
'''prompt''': '''A painting of a squirrel eating a burger''',
'''generator''': generator,
'''num_inference_steps''': 2,
'''guidance_scale''': 6.0,
'''output_type''': '''numpy''',
'''image''': image,
'''control_image''': control_image,
}
return inputs
def lowerCamelCase ( self : Any):
"""simple docstring"""
return self._test_attention_slicing_forward_pass(expected_max_diff=2e-3)
@unittest.skipIf(
torch_device != '''cuda''' or not is_xformers_available() , reason='''XFormers attention is only available with CUDA and `xformers` installed''' , )
def lowerCamelCase ( self : Any):
"""simple docstring"""
self._test_xformers_attention_forwardGenerator_pass(expected_max_diff=2e-3)
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
self._test_inference_batch_single_identical(expected_max_diff=2e-3)
class __snake_case ( a , a , unittest.TestCase ):
UpperCAmelCase__ : str = StableDiffusionControlNetImgaImgPipeline
UpperCAmelCase__ : List[str] = TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {'''height''', '''width'''}
UpperCAmelCase__ : Optional[Any] = TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS
UpperCAmelCase__ : str = frozenset([] ) # TO_DO: add image_params once refactored VaeImageProcessor.preprocess
def lowerCamelCase ( self : str):
"""simple docstring"""
torch.manual_seed(0)
UpperCAmelCase_ = UNetaDConditionModel(
block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , up_block_types=('''CrossAttnUpBlock2D''', '''UpBlock2D''') , cross_attention_dim=32 , )
torch.manual_seed(0)
def init_weights(_snake_case : Optional[int]):
if isinstance(_snake_case , torch.nn.Convad):
torch.nn.init.normal(m.weight)
m.bias.data.fill_(1.0)
UpperCAmelCase_ = ControlNetModel(
block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , )
controlneta.controlnet_down_blocks.apply(_snake_case)
torch.manual_seed(0)
UpperCAmelCase_ = ControlNetModel(
block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , )
controlneta.controlnet_down_blocks.apply(_snake_case)
torch.manual_seed(0)
UpperCAmelCase_ = DDIMScheduler(
beta_start=0.0_0_0_8_5 , beta_end=0.0_1_2 , beta_schedule='''scaled_linear''' , clip_sample=_snake_case , set_alpha_to_one=_snake_case , )
torch.manual_seed(0)
UpperCAmelCase_ = AutoencoderKL(
block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=['''DownEncoderBlock2D''', '''DownEncoderBlock2D'''] , up_block_types=['''UpDecoderBlock2D''', '''UpDecoderBlock2D'''] , latent_channels=4 , )
torch.manual_seed(0)
UpperCAmelCase_ = CLIPTextConfig(
bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1e-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1000 , )
UpperCAmelCase_ = CLIPTextModel(_snake_case)
UpperCAmelCase_ = CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''')
UpperCAmelCase_ = MultiControlNetModel([controlneta, controlneta])
UpperCAmelCase_ = {
'''unet''': unet,
'''controlnet''': controlnet,
'''scheduler''': scheduler,
'''vae''': vae,
'''text_encoder''': text_encoder,
'''tokenizer''': tokenizer,
'''safety_checker''': None,
'''feature_extractor''': None,
}
return components
def lowerCamelCase ( self : int , _snake_case : Union[str, Any] , _snake_case : str=0):
"""simple docstring"""
if str(_snake_case).startswith('''mps'''):
UpperCAmelCase_ = torch.manual_seed(_snake_case)
else:
UpperCAmelCase_ = torch.Generator(device=_snake_case).manual_seed(_snake_case)
UpperCAmelCase_ = 2
UpperCAmelCase_ = [
randn_tensor(
(1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=_snake_case , device=torch.device(_snake_case) , ),
randn_tensor(
(1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=_snake_case , device=torch.device(_snake_case) , ),
]
UpperCAmelCase_ = floats_tensor(control_image[0].shape , rng=random.Random(_snake_case)).to(_snake_case)
UpperCAmelCase_ = image.cpu().permute(0 , 2 , 3 , 1)[0]
UpperCAmelCase_ = Image.fromarray(np.uinta(_snake_case)).convert('''RGB''').resize((64, 64))
UpperCAmelCase_ = {
'''prompt''': '''A painting of a squirrel eating a burger''',
'''generator''': generator,
'''num_inference_steps''': 2,
'''guidance_scale''': 6.0,
'''output_type''': '''numpy''',
'''image''': image,
'''control_image''': control_image,
}
return inputs
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = self.get_dummy_components()
UpperCAmelCase_ = self.pipeline_class(**_snake_case)
pipe.to(_snake_case)
UpperCAmelCase_ = 1_0.0
UpperCAmelCase_ = 4
UpperCAmelCase_ = self.get_dummy_inputs(_snake_case)
UpperCAmelCase_ = steps
UpperCAmelCase_ = scale
UpperCAmelCase_ = pipe(**_snake_case)[0]
UpperCAmelCase_ = self.get_dummy_inputs(_snake_case)
UpperCAmelCase_ = steps
UpperCAmelCase_ = scale
UpperCAmelCase_ = pipe(**_snake_case , control_guidance_start=0.1 , control_guidance_end=0.2)[0]
UpperCAmelCase_ = self.get_dummy_inputs(_snake_case)
UpperCAmelCase_ = steps
UpperCAmelCase_ = scale
UpperCAmelCase_ = pipe(**_snake_case , control_guidance_start=[0.1, 0.3] , control_guidance_end=[0.2, 0.7])[0]
UpperCAmelCase_ = self.get_dummy_inputs(_snake_case)
UpperCAmelCase_ = steps
UpperCAmelCase_ = scale
UpperCAmelCase_ = pipe(**_snake_case , control_guidance_start=0.4 , control_guidance_end=[0.5, 0.8])[0]
# make sure that all outputs are different
assert np.sum(np.abs(output_a - output_a)) > 1e-3
assert np.sum(np.abs(output_a - output_a)) > 1e-3
assert np.sum(np.abs(output_a - output_a)) > 1e-3
def lowerCamelCase ( self : Dict):
"""simple docstring"""
return self._test_attention_slicing_forward_pass(expected_max_diff=2e-3)
@unittest.skipIf(
torch_device != '''cuda''' or not is_xformers_available() , reason='''XFormers attention is only available with CUDA and `xformers` installed''' , )
def lowerCamelCase ( self : int):
"""simple docstring"""
self._test_xformers_attention_forwardGenerator_pass(expected_max_diff=2e-3)
def lowerCamelCase ( self : int):
"""simple docstring"""
self._test_inference_batch_single_identical(expected_max_diff=2e-3)
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = self.get_dummy_components()
UpperCAmelCase_ = self.pipeline_class(**_snake_case)
pipe.to(_snake_case)
pipe.set_progress_bar_config(disable=_snake_case)
with tempfile.TemporaryDirectory() as tmpdir:
try:
# save_pretrained is not implemented for Multi-ControlNet
pipe.save_pretrained(_snake_case)
except NotImplementedError:
pass
@slow
@require_torch_gpu
class __snake_case ( unittest.TestCase ):
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = ControlNetModel.from_pretrained('''lllyasviel/sd-controlnet-canny''')
UpperCAmelCase_ = StableDiffusionControlNetImgaImgPipeline.from_pretrained(
'''runwayml/stable-diffusion-v1-5''' , safety_checker=_snake_case , controlnet=_snake_case)
pipe.enable_model_cpu_offload()
pipe.set_progress_bar_config(disable=_snake_case)
UpperCAmelCase_ = torch.Generator(device='''cpu''').manual_seed(0)
UpperCAmelCase_ = '''evil space-punk bird'''
UpperCAmelCase_ = load_image(
'''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd_controlnet/bird_canny.png''').resize((512, 512))
UpperCAmelCase_ = load_image(
'''https://huggingface.co/lllyasviel/sd-controlnet-canny/resolve/main/images/bird.png''').resize((512, 512))
UpperCAmelCase_ = pipe(
_snake_case , _snake_case , control_image=_snake_case , generator=_snake_case , output_type='''np''' , num_inference_steps=50 , strength=0.6 , )
UpperCAmelCase_ = output.images[0]
assert image.shape == (512, 512, 3)
UpperCAmelCase_ = load_numpy(
'''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd_controlnet/img2img.npy''')
assert np.abs(expected_image - image).max() < 9e-2
| 51
|
from ...configuration_utils import PretrainedConfig
from ...utils import logging
snake_case_ : Any = logging.get_logger(__name__)
snake_case_ : Optional[Any] = {
"tiiuae/falcon-40b": "https://huggingface.co/tiiuae/falcon-40b/resolve/main/config.json",
"tiiuae/falcon-7b": "https://huggingface.co/tiiuae/falcon-7b/resolve/main/config.json",
}
class __snake_case ( a ):
UpperCAmelCase__ : Optional[Any] = '''falcon'''
UpperCAmelCase__ : List[Any] = ['''past_key_values''']
def __init__( self : Union[str, Any] , _snake_case : List[str]=65024 , _snake_case : int=4544 , _snake_case : int=32 , _snake_case : Any=71 , _snake_case : int=1e-5 , _snake_case : Dict=0.0_2 , _snake_case : int=True , _snake_case : List[Any]=0.0 , _snake_case : Tuple=0.0 , _snake_case : int=None , _snake_case : Tuple=False , _snake_case : Any=False , _snake_case : str=True , _snake_case : Any=True , _snake_case : List[str]=False , _snake_case : Tuple=11 , _snake_case : Dict=11 , **_snake_case : Optional[int] , ):
"""simple docstring"""
UpperCAmelCase_ = vocab_size
# Backward compatibility with n_embed kwarg
UpperCAmelCase_ = kwargs.pop('''n_embed''' , _snake_case)
UpperCAmelCase_ = hidden_size if n_embed is None else n_embed
UpperCAmelCase_ = num_hidden_layers
UpperCAmelCase_ = num_attention_heads
UpperCAmelCase_ = layer_norm_epsilon
UpperCAmelCase_ = initializer_range
UpperCAmelCase_ = use_cache
UpperCAmelCase_ = hidden_dropout
UpperCAmelCase_ = attention_dropout
UpperCAmelCase_ = bos_token_id
UpperCAmelCase_ = eos_token_id
UpperCAmelCase_ = num_attention_heads if num_kv_heads is None else num_kv_heads
UpperCAmelCase_ = alibi
UpperCAmelCase_ = new_decoder_architecture
UpperCAmelCase_ = multi_query # Ignored when new_decoder_architecture is True
UpperCAmelCase_ = parallel_attn
UpperCAmelCase_ = bias
super().__init__(bos_token_id=_snake_case , eos_token_id=_snake_case , **_snake_case)
@property
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
return self.hidden_size // self.num_attention_heads
@property
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
return not self.alibi
| 51
| 1
|
import argparse
import os
# New Code #
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 import find_executable_batch_size
########################################################################
# This is a fully working simple example to use Accelerate,
# specifically showcasing how to ensure out-of-memory errors never
# interrupt training, and builds off the `nlp_example.py` script.
#
# 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)
#
# New additions from the base script can be found quickly by
# looking for the # New Code # tags
#
# 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
#
########################################################################
snake_case_ : Optional[Any] = 16
snake_case_ : Optional[int] = 32
def A (__A : Accelerator , __A : int = 16 ) -> List[str]:
"""simple docstring"""
UpperCAmelCase_ = AutoTokenizer.from_pretrained('''bert-base-cased''' )
UpperCAmelCase_ = load_dataset('''glue''' , '''mrpc''' )
def tokenize_function(__A : List[Any] ):
# max_length=None => use the model max length (it's actually the default)
UpperCAmelCase_ = tokenizer(examples['''sentence1'''] , examples['''sentence2'''] , truncation=__A , max_length=__A )
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():
UpperCAmelCase_ = datasets.map(
__A , batched=__A , 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
UpperCAmelCase_ = tokenized_datasets.rename_column('''label''' , '''labels''' )
def collate_fn(__A : int ):
# On TPU it's best to pad everything to the same length or training will be very slow.
UpperCAmelCase_ = 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":
UpperCAmelCase_ = 16
elif accelerator.mixed_precision != "no":
UpperCAmelCase_ = 8
else:
UpperCAmelCase_ = None
return tokenizer.pad(
__A , padding='''longest''' , max_length=__A , pad_to_multiple_of=__A , return_tensors='''pt''' , )
# Instantiate dataloaders.
UpperCAmelCase_ = DataLoader(
tokenized_datasets['''train'''] , shuffle=__A , collate_fn=__A , batch_size=__A )
UpperCAmelCase_ = DataLoader(
tokenized_datasets['''validation'''] , shuffle=__A , collate_fn=__A , batch_size=__A )
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
snake_case_ : Tuple = mocked_dataloaders # noqa: F811
def A (__A : Optional[int] , __A : Optional[int] ) -> int:
"""simple docstring"""
if os.environ.get('''TESTING_MOCKED_DATALOADERS''' , __A ) == "1":
UpperCAmelCase_ = 2
# Initialize accelerator
UpperCAmelCase_ = Accelerator(cpu=args.cpu , mixed_precision=args.mixed_precision )
# Sample hyper-parameters for learning rate, batch size, seed and a few other HPs
UpperCAmelCase_ = config['''lr''']
UpperCAmelCase_ = int(config['''num_epochs'''] )
UpperCAmelCase_ = int(config['''seed'''] )
UpperCAmelCase_ = int(config['''batch_size'''] )
UpperCAmelCase_ = evaluate.load('''glue''' , '''mrpc''' )
# New Code #
# We now can define an inner training loop function. It should take a batch size as the only parameter,
# and build the dataloaders in there.
# It also gets our decorator
@find_executable_batch_size(starting_batch_size=__A )
def inner_training_loop(__A : List[str] ):
# And now just move everything below under this function
# We need to bring in the Accelerator object from earlier
nonlocal accelerator
# And reset all of its attributes that could hold onto any memory:
accelerator.free_memory()
# Then we can declare the model, optimizer, and everything else:
set_seed(__A )
# Instantiate the model (we build the model here so that the seed also control new weights initialization)
UpperCAmelCase_ = AutoModelForSequenceClassification.from_pretrained('''bert-base-cased''' , return_dict=__A )
# 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).
UpperCAmelCase_ = model.to(accelerator.device )
# Instantiate optimizer
UpperCAmelCase_ = AdamW(params=model.parameters() , lr=__A )
UpperCAmelCase_ , UpperCAmelCase_ = get_dataloaders(__A , __A )
# Instantiate scheduler
UpperCAmelCase_ = get_linear_schedule_with_warmup(
optimizer=__A , num_warmup_steps=100 , num_training_steps=(len(__A ) * 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.
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = accelerator.prepare(
__A , __A , __A , __A , __A )
# Now we train the model
for epoch in range(__A ):
model.train()
for step, batch in enumerate(__A ):
# We could avoid this line since we set the accelerator with `device_placement=True`.
batch.to(accelerator.device )
UpperCAmelCase_ = model(**__A )
UpperCAmelCase_ = outputs.loss
accelerator.backward(__A )
optimizer.step()
lr_scheduler.step()
optimizer.zero_grad()
model.eval()
for step, batch in enumerate(__A ):
# We could avoid this line since we set the accelerator with `device_placement=True`.
batch.to(accelerator.device )
with torch.no_grad():
UpperCAmelCase_ = model(**__A )
UpperCAmelCase_ = outputs.logits.argmax(dim=-1 )
UpperCAmelCase_ , UpperCAmelCase_ = accelerator.gather_for_metrics((predictions, batch['''labels''']) )
metric.add_batch(
predictions=__A , references=__A , )
UpperCAmelCase_ = metric.compute()
# Use accelerator.print to print only on the main process.
accelerator.print(F"""epoch {epoch}:""" , __A )
# New Code #
# And call it at the end with no arguments
# Note: You could also refactor this outside of your training loop function
inner_training_loop()
def A () -> str:
"""simple docstring"""
UpperCAmelCase_ = argparse.ArgumentParser(description='''Simple example of training script.''' )
parser.add_argument(
'''--mixed_precision''' , type=__A , default=__A , 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.''' , )
parser.add_argument('''--cpu''' , action='''store_true''' , help='''If passed, will train on the CPU.''' )
UpperCAmelCase_ = parser.parse_args()
UpperCAmelCase_ = {'''lr''': 2E-5, '''num_epochs''': 3, '''seed''': 42, '''batch_size''': 16}
training_function(__A , __A )
if __name__ == "__main__":
main()
| 51
|
from __future__ import annotations
import time
from math import sqrt
# 1 for manhattan, 0 for euclidean
snake_case_ : str = 0
snake_case_ : Union[str, Any] = [
[0, 0, 0, 0, 0, 0, 0],
[0, 1, 0, 0, 0, 0, 0], # 0 are free path whereas 1's are obstacles
[0, 0, 0, 0, 0, 0, 0],
[0, 0, 1, 0, 0, 0, 0],
[1, 0, 1, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 1, 0, 0],
]
snake_case_ : str = [[-1, 0], [0, -1], [1, 0], [0, 1]] # up, left, down, right
snake_case_ : List[Any] = tuple[int, int]
class __snake_case :
def __init__( self : Any , _snake_case : int , _snake_case : int , _snake_case : int , _snake_case : int , _snake_case : int , _snake_case : Node | None , ):
"""simple docstring"""
UpperCAmelCase_ = pos_x
UpperCAmelCase_ = pos_y
UpperCAmelCase_ = (pos_y, pos_x)
UpperCAmelCase_ = goal_x
UpperCAmelCase_ = goal_y
UpperCAmelCase_ = g_cost
UpperCAmelCase_ = parent
UpperCAmelCase_ = self.calculate_heuristic()
UpperCAmelCase_ = self.g_cost + self.h_cost
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = self.pos_x - self.goal_x
UpperCAmelCase_ = self.pos_y - self.goal_y
if HEURISTIC == 1:
return abs(_snake_case) + abs(_snake_case)
else:
return sqrt(dy**2 + dx**2)
def __lt__( self : Union[str, Any] , _snake_case : Node):
"""simple docstring"""
return self.f_cost < other.f_cost
class __snake_case :
def __init__( self : str , _snake_case : TPosition , _snake_case : TPosition):
"""simple docstring"""
UpperCAmelCase_ = Node(start[1] , start[0] , goal[1] , goal[0] , 0 , _snake_case)
UpperCAmelCase_ = Node(goal[1] , goal[0] , goal[1] , goal[0] , 99999 , _snake_case)
UpperCAmelCase_ = [self.start]
UpperCAmelCase_ = []
UpperCAmelCase_ = False
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
while self.open_nodes:
# Open Nodes are sorted using __lt__
self.open_nodes.sort()
UpperCAmelCase_ = self.open_nodes.pop(0)
if current_node.pos == self.target.pos:
return self.retrace_path(_snake_case)
self.closed_nodes.append(_snake_case)
UpperCAmelCase_ = self.get_successors(_snake_case)
for child_node in successors:
if child_node in self.closed_nodes:
continue
if child_node not in self.open_nodes:
self.open_nodes.append(_snake_case)
else:
# retrieve the best current path
UpperCAmelCase_ = self.open_nodes.pop(self.open_nodes.index(_snake_case))
if child_node.g_cost < better_node.g_cost:
self.open_nodes.append(_snake_case)
else:
self.open_nodes.append(_snake_case)
return [self.start.pos]
def lowerCamelCase ( self : Tuple , _snake_case : Node):
"""simple docstring"""
UpperCAmelCase_ = []
for action in delta:
UpperCAmelCase_ = parent.pos_x + action[1]
UpperCAmelCase_ = parent.pos_y + action[0]
if not (0 <= pos_x <= len(grid[0]) - 1 and 0 <= pos_y <= len(_snake_case) - 1):
continue
if grid[pos_y][pos_x] != 0:
continue
successors.append(
Node(
_snake_case , _snake_case , self.target.pos_y , self.target.pos_x , parent.g_cost + 1 , _snake_case , ))
return successors
def lowerCamelCase ( self : Any , _snake_case : Node | None):
"""simple docstring"""
UpperCAmelCase_ = node
UpperCAmelCase_ = []
while current_node is not None:
path.append((current_node.pos_y, current_node.pos_x))
UpperCAmelCase_ = current_node.parent
path.reverse()
return path
class __snake_case :
def __init__( self : Any , _snake_case : TPosition , _snake_case : TPosition):
"""simple docstring"""
UpperCAmelCase_ = AStar(_snake_case , _snake_case)
UpperCAmelCase_ = AStar(_snake_case , _snake_case)
UpperCAmelCase_ = False
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
while self.fwd_astar.open_nodes or self.bwd_astar.open_nodes:
self.fwd_astar.open_nodes.sort()
self.bwd_astar.open_nodes.sort()
UpperCAmelCase_ = self.fwd_astar.open_nodes.pop(0)
UpperCAmelCase_ = self.bwd_astar.open_nodes.pop(0)
if current_bwd_node.pos == current_fwd_node.pos:
return self.retrace_bidirectional_path(
_snake_case , _snake_case)
self.fwd_astar.closed_nodes.append(_snake_case)
self.bwd_astar.closed_nodes.append(_snake_case)
UpperCAmelCase_ = current_bwd_node
UpperCAmelCase_ = current_fwd_node
UpperCAmelCase_ = {
self.fwd_astar: self.fwd_astar.get_successors(_snake_case),
self.bwd_astar: self.bwd_astar.get_successors(_snake_case),
}
for astar in [self.fwd_astar, self.bwd_astar]:
for child_node in successors[astar]:
if child_node in astar.closed_nodes:
continue
if child_node not in astar.open_nodes:
astar.open_nodes.append(_snake_case)
else:
# retrieve the best current path
UpperCAmelCase_ = astar.open_nodes.pop(
astar.open_nodes.index(_snake_case))
if child_node.g_cost < better_node.g_cost:
astar.open_nodes.append(_snake_case)
else:
astar.open_nodes.append(_snake_case)
return [self.fwd_astar.start.pos]
def lowerCamelCase ( self : int , _snake_case : Node , _snake_case : Node):
"""simple docstring"""
UpperCAmelCase_ = self.fwd_astar.retrace_path(_snake_case)
UpperCAmelCase_ = self.bwd_astar.retrace_path(_snake_case)
bwd_path.pop()
bwd_path.reverse()
UpperCAmelCase_ = fwd_path + bwd_path
return path
if __name__ == "__main__":
# all coordinates are given in format [y,x]
snake_case_ : Any = (0, 0)
snake_case_ : Union[str, Any] = (len(grid) - 1, len(grid[0]) - 1)
for elem in grid:
print(elem)
snake_case_ : str = time.time()
snake_case_ : List[str] = AStar(init, goal)
snake_case_ : Optional[int] = a_star.search()
snake_case_ : Optional[Any] = time.time() - start_time
print(f"AStar execution time = {end_time:f} seconds")
snake_case_ : int = time.time()
snake_case_ : Dict = BidirectionalAStar(init, goal)
snake_case_ : str = time.time() - bd_start_time
print(f"BidirectionalAStar execution time = {bd_end_time:f} seconds")
| 51
| 1
|
import os
from bleurt import score # From: git+https://github.com/google-research/bleurt.git
import datasets
snake_case_ : Optional[int] = datasets.logging.get_logger(__name__)
snake_case_ : Tuple = "\\n@inproceedings{bleurt,\n title={BLEURT: Learning Robust Metrics for Text Generation},\n author={Thibault Sellam and Dipanjan Das and Ankur P. Parikh},\n booktitle={ACL},\n year={2020},\n url={https://arxiv.org/abs/2004.04696}\n}\n"
snake_case_ : int = "\\nBLEURT a learnt evaluation metric for Natural Language Generation. It is built using multiple phases of transfer learning starting from a pretrained BERT model (Devlin et al. 2018)\nand then employing another pre-training phrase using synthetic data. Finally it is trained on WMT human annotations. You may run BLEURT out-of-the-box or fine-tune\nit for your specific application (the latter is expected to perform better).\n\nSee the project's README at https://github.com/google-research/bleurt#readme for more information.\n"
snake_case_ : str = "\nBLEURT score.\n\nArgs:\n `predictions` (list of str): prediction/candidate sentences\n `references` (list of str): reference sentences\n `checkpoint` BLEURT checkpoint. Will default to BLEURT-tiny if None.\n\nReturns:\n 'scores': List of scores.\nExamples:\n\n >>> predictions = [\"hello there\", \"general kenobi\"]\n >>> references = [\"hello there\", \"general kenobi\"]\n >>> bleurt = datasets.load_metric(\"bleurt\")\n >>> results = bleurt.compute(predictions=predictions, references=references)\n >>> print([round(v, 2) for v in results[\"scores\"]])\n [1.03, 1.04]\n"
snake_case_ : Tuple = {
"bleurt-tiny-128": "https://storage.googleapis.com/bleurt-oss/bleurt-tiny-128.zip",
"bleurt-tiny-512": "https://storage.googleapis.com/bleurt-oss/bleurt-tiny-512.zip",
"bleurt-base-128": "https://storage.googleapis.com/bleurt-oss/bleurt-base-128.zip",
"bleurt-base-512": "https://storage.googleapis.com/bleurt-oss/bleurt-base-512.zip",
"bleurt-large-128": "https://storage.googleapis.com/bleurt-oss/bleurt-large-128.zip",
"bleurt-large-512": "https://storage.googleapis.com/bleurt-oss/bleurt-large-512.zip",
"BLEURT-20-D3": "https://storage.googleapis.com/bleurt-oss-21/BLEURT-20-D3.zip",
"BLEURT-20-D6": "https://storage.googleapis.com/bleurt-oss-21/BLEURT-20-D6.zip",
"BLEURT-20-D12": "https://storage.googleapis.com/bleurt-oss-21/BLEURT-20-D12.zip",
"BLEURT-20": "https://storage.googleapis.com/bleurt-oss-21/BLEURT-20.zip",
}
@datasets.utils.file_utils.add_start_docstrings(_DESCRIPTION , _KWARGS_DESCRIPTION )
class __snake_case ( datasets.Metric ):
def lowerCamelCase ( self : str):
"""simple docstring"""
return datasets.MetricInfo(
description=_DESCRIPTION , citation=_CITATION , homepage='''https://github.com/google-research/bleurt''' , inputs_description=_KWARGS_DESCRIPTION , features=datasets.Features(
{
'''predictions''': datasets.Value('''string''' , id='''sequence'''),
'''references''': datasets.Value('''string''' , id='''sequence'''),
}) , codebase_urls=['''https://github.com/google-research/bleurt'''] , reference_urls=['''https://github.com/google-research/bleurt''', '''https://arxiv.org/abs/2004.04696'''] , )
def lowerCamelCase ( self : Optional[Any] , _snake_case : Dict):
"""simple docstring"""
if self.config_name == "default":
logger.warning(
'''Using default BLEURT-Base checkpoint for sequence maximum length 128. '''
'''You can use a bigger model for better results with e.g.: datasets.load_metric(\'bleurt\', \'bleurt-large-512\').''')
UpperCAmelCase_ = '''bleurt-base-128'''
if self.config_name.lower() in CHECKPOINT_URLS:
UpperCAmelCase_ = self.config_name.lower()
elif self.config_name.upper() in CHECKPOINT_URLS:
UpperCAmelCase_ = self.config_name.upper()
else:
raise KeyError(
F"""{self.config_name} model not found. You should supply the name of a model checkpoint for bleurt in {CHECKPOINT_URLS.keys()}""")
# download the model checkpoint specified by self.config_name and set up the scorer
UpperCAmelCase_ = dl_manager.download_and_extract(CHECKPOINT_URLS[checkpoint_name])
UpperCAmelCase_ = score.BleurtScorer(os.path.join(_snake_case , _snake_case))
def lowerCamelCase ( self : Any , _snake_case : int , _snake_case : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = self.scorer.score(references=_snake_case , candidates=_snake_case)
return {"scores": scores}
| 51
|
import inspect
import unittest
import numpy as np
from tests.test_modeling_common import floats_tensor
from transformers import DetrConfig, MaskFormerConfig, SwinConfig, is_torch_available, is_vision_available
from transformers.testing_utils import require_torch, require_torch_multi_gpu, require_vision, slow, torch_device
from transformers.utils import cached_property
from ...test_configuration_common import ConfigTester
from ...test_modeling_common import ModelTesterMixin
from ...test_pipeline_mixin import PipelineTesterMixin
if is_torch_available():
import torch
from transformers import MaskFormerForInstanceSegmentation, MaskFormerModel
if is_vision_available():
from transformers import MaskFormerImageProcessor
if is_vision_available():
from PIL import Image
class __snake_case :
def __init__( self : List[str] , _snake_case : Union[str, Any] , _snake_case : List[str]=2 , _snake_case : Any=True , _snake_case : Any=False , _snake_case : List[str]=10 , _snake_case : Any=3 , _snake_case : Union[str, Any]=32 * 4 , _snake_case : List[Any]=32 * 6 , _snake_case : Tuple=4 , _snake_case : Dict=32 , ):
"""simple docstring"""
UpperCAmelCase_ = parent
UpperCAmelCase_ = batch_size
UpperCAmelCase_ = is_training
UpperCAmelCase_ = use_auxiliary_loss
UpperCAmelCase_ = num_queries
UpperCAmelCase_ = num_channels
UpperCAmelCase_ = min_size
UpperCAmelCase_ = max_size
UpperCAmelCase_ = num_labels
UpperCAmelCase_ = mask_feature_size
def lowerCamelCase ( self : Any):
"""simple docstring"""
UpperCAmelCase_ = floats_tensor([self.batch_size, self.num_channels, self.min_size, self.max_size]).to(
_snake_case)
UpperCAmelCase_ = torch.ones([self.batch_size, self.min_size, self.max_size] , device=_snake_case)
UpperCAmelCase_ = (
torch.rand([self.batch_size, self.num_labels, self.min_size, self.max_size] , device=_snake_case) > 0.5
).float()
UpperCAmelCase_ = (torch.rand((self.batch_size, self.num_labels) , device=_snake_case) > 0.5).long()
UpperCAmelCase_ = self.get_config()
return config, pixel_values, pixel_mask, mask_labels, class_labels
def lowerCamelCase ( self : Any):
"""simple docstring"""
return MaskFormerConfig.from_backbone_and_decoder_configs(
backbone_config=SwinConfig(
depths=[1, 1, 1, 1] , ) , decoder_config=DetrConfig(
decoder_ffn_dim=128 , num_queries=self.num_queries , decoder_attention_heads=2 , d_model=self.mask_feature_size , ) , mask_feature_size=self.mask_feature_size , fpn_feature_size=self.mask_feature_size , num_channels=self.num_channels , num_labels=self.num_labels , )
def lowerCamelCase ( self : int):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = self.prepare_config_and_inputs()
UpperCAmelCase_ = {'''pixel_values''': pixel_values, '''pixel_mask''': pixel_mask}
return config, inputs_dict
def lowerCamelCase ( self : str , _snake_case : List[Any] , _snake_case : List[str]):
"""simple docstring"""
UpperCAmelCase_ = output.encoder_hidden_states
UpperCAmelCase_ = output.pixel_decoder_hidden_states
UpperCAmelCase_ = output.transformer_decoder_hidden_states
self.parent.assertTrue(len(_snake_case) , len(config.backbone_config.depths))
self.parent.assertTrue(len(_snake_case) , len(config.backbone_config.depths))
self.parent.assertTrue(len(_snake_case) , config.decoder_config.decoder_layers)
def lowerCamelCase ( self : Union[str, Any] , _snake_case : List[str] , _snake_case : int , _snake_case : Optional[Any] , _snake_case : str=False):
"""simple docstring"""
with torch.no_grad():
UpperCAmelCase_ = MaskFormerModel(config=_snake_case)
model.to(_snake_case)
model.eval()
UpperCAmelCase_ = model(pixel_values=_snake_case , pixel_mask=_snake_case)
UpperCAmelCase_ = model(_snake_case , output_hidden_states=_snake_case)
# the correct shape of output.transformer_decoder_hidden_states ensure the correcteness of the
# encoder and pixel decoder
self.parent.assertEqual(
output.transformer_decoder_last_hidden_state.shape , (self.batch_size, self.num_queries, self.mask_feature_size) , )
# let's ensure the other two hidden state exists
self.parent.assertTrue(output.pixel_decoder_last_hidden_state is not None)
self.parent.assertTrue(output.encoder_last_hidden_state is not None)
if output_hidden_states:
self.check_output_hidden_state(_snake_case , _snake_case)
def lowerCamelCase ( self : List[Any] , _snake_case : List[Any] , _snake_case : List[Any] , _snake_case : str , _snake_case : Optional[int] , _snake_case : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = MaskFormerForInstanceSegmentation(config=_snake_case)
model.to(_snake_case)
model.eval()
def comm_check_on_output(_snake_case : Tuple):
# let's still check that all the required stuff is there
self.parent.assertTrue(result.transformer_decoder_last_hidden_state is not None)
self.parent.assertTrue(result.pixel_decoder_last_hidden_state is not None)
self.parent.assertTrue(result.encoder_last_hidden_state is not None)
# okay, now we need to check the logits shape
# due to the encoder compression, masks have a //4 spatial size
self.parent.assertEqual(
result.masks_queries_logits.shape , (self.batch_size, self.num_queries, self.min_size // 4, self.max_size // 4) , )
# + 1 for null class
self.parent.assertEqual(
result.class_queries_logits.shape , (self.batch_size, self.num_queries, self.num_labels + 1))
with torch.no_grad():
UpperCAmelCase_ = model(pixel_values=_snake_case , pixel_mask=_snake_case)
UpperCAmelCase_ = model(_snake_case)
comm_check_on_output(_snake_case)
UpperCAmelCase_ = model(
pixel_values=_snake_case , pixel_mask=_snake_case , mask_labels=_snake_case , class_labels=_snake_case)
comm_check_on_output(_snake_case)
self.parent.assertTrue(result.loss is not None)
self.parent.assertEqual(result.loss.shape , torch.Size([1]))
@require_torch
class __snake_case ( a , a , unittest.TestCase ):
UpperCAmelCase__ : Union[str, Any] = (MaskFormerModel, MaskFormerForInstanceSegmentation) if is_torch_available() else ()
UpperCAmelCase__ : Optional[Any] = (
{'''feature-extraction''': MaskFormerModel, '''image-segmentation''': MaskFormerForInstanceSegmentation}
if is_torch_available()
else {}
)
UpperCAmelCase__ : Dict = False
UpperCAmelCase__ : List[str] = False
UpperCAmelCase__ : Optional[Any] = False
UpperCAmelCase__ : Union[str, Any] = False
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = MaskFormerModelTester(self)
UpperCAmelCase_ = ConfigTester(self , config_class=_snake_case , has_text_modality=_snake_case)
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
self.config_tester.run_common_tests()
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_common()
self.model_tester.create_and_check_maskformer_model(_snake_case , **_snake_case , output_hidden_states=_snake_case)
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_maskformer_instance_segmentation_head_model(*_snake_case)
@unittest.skip(reason='''MaskFormer does not use inputs_embeds''')
def lowerCamelCase ( self : Dict):
"""simple docstring"""
pass
@unittest.skip(reason='''MaskFormer does not have a get_input_embeddings method''')
def lowerCamelCase ( self : int):
"""simple docstring"""
pass
@unittest.skip(reason='''MaskFormer is not a generative model''')
def lowerCamelCase ( self : str):
"""simple docstring"""
pass
@unittest.skip(reason='''MaskFormer does not use token embeddings''')
def lowerCamelCase ( self : int):
"""simple docstring"""
pass
@require_torch_multi_gpu
@unittest.skip(
reason='''MaskFormer has some layers using `add_module` which doesn\'t work well with `nn.DataParallel`''')
def lowerCamelCase ( self : Any):
"""simple docstring"""
pass
@unittest.skip('''Will be fixed soon by reducing the size of the model used for common tests.''')
def lowerCamelCase ( self : str):
"""simple docstring"""
pass
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
UpperCAmelCase_ = model_class(_snake_case)
UpperCAmelCase_ = inspect.signature(model.forward)
# signature.parameters is an OrderedDict => so arg_names order is deterministic
UpperCAmelCase_ = [*signature.parameters.keys()]
UpperCAmelCase_ = ['''pixel_values''']
self.assertListEqual(arg_names[:1] , _snake_case)
@slow
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
for model_name in ["facebook/maskformer-swin-small-coco"]:
UpperCAmelCase_ = MaskFormerModel.from_pretrained(_snake_case)
self.assertIsNotNone(_snake_case)
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = (self.model_tester.min_size,) * 2
UpperCAmelCase_ = {
'''pixel_values''': torch.randn((2, 3, *size) , device=_snake_case),
'''mask_labels''': torch.randn((2, 10, *size) , device=_snake_case),
'''class_labels''': torch.zeros(2 , 10 , device=_snake_case).long(),
}
UpperCAmelCase_ = MaskFormerForInstanceSegmentation(MaskFormerConfig()).to(_snake_case)
UpperCAmelCase_ = model(**_snake_case)
self.assertTrue(outputs.loss is not None)
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_common()
self.model_tester.create_and_check_maskformer_model(_snake_case , **_snake_case , output_hidden_states=_snake_case)
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
UpperCAmelCase_ = model_class(_snake_case).to(_snake_case)
UpperCAmelCase_ = model(**_snake_case , output_attentions=_snake_case)
self.assertTrue(outputs.attentions is not None)
def lowerCamelCase ( self : int):
"""simple docstring"""
if not self.model_tester.is_training:
return
# only MaskFormerForInstanceSegmentation has the loss
UpperCAmelCase_ = self.all_model_classes[1]
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
UpperCAmelCase_ = model_class(_snake_case)
model.to(_snake_case)
model.train()
UpperCAmelCase_ = model(_snake_case , mask_labels=_snake_case , class_labels=_snake_case).loss
loss.backward()
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = self.all_model_classes[1]
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
UpperCAmelCase_ = True
UpperCAmelCase_ = True
UpperCAmelCase_ = model_class(_snake_case)
model.to(_snake_case)
model.train()
UpperCAmelCase_ = model(_snake_case , mask_labels=_snake_case , class_labels=_snake_case)
UpperCAmelCase_ = outputs.encoder_hidden_states[0]
encoder_hidden_states.retain_grad()
UpperCAmelCase_ = outputs.pixel_decoder_hidden_states[0]
pixel_decoder_hidden_states.retain_grad()
# we requires_grad=True in inputs_embeds (line 2152), the original implementation don't
UpperCAmelCase_ = outputs.transformer_decoder_hidden_states[0]
transformer_decoder_hidden_states.retain_grad()
UpperCAmelCase_ = outputs.attentions[0]
attentions.retain_grad()
outputs.loss.backward(retain_graph=_snake_case)
self.assertIsNotNone(encoder_hidden_states.grad)
self.assertIsNotNone(pixel_decoder_hidden_states.grad)
self.assertIsNotNone(transformer_decoder_hidden_states.grad)
self.assertIsNotNone(attentions.grad)
snake_case_ : Dict = 1e-4
def A () -> Union[str, Any]:
"""simple docstring"""
UpperCAmelCase_ = Image.open('''./tests/fixtures/tests_samples/COCO/000000039769.png''' )
return image
@require_vision
@slow
class __snake_case ( unittest.TestCase ):
@cached_property
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
return (
MaskFormerImageProcessor.from_pretrained('''facebook/maskformer-swin-small-coco''')
if is_vision_available()
else None
)
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = MaskFormerModel.from_pretrained('''facebook/maskformer-swin-small-coco''').to(_snake_case)
UpperCAmelCase_ = self.default_image_processor
UpperCAmelCase_ = prepare_img()
UpperCAmelCase_ = image_processor(_snake_case , return_tensors='''pt''').to(_snake_case)
UpperCAmelCase_ = inputs['''pixel_values'''].shape
# check size is divisible by 32
self.assertTrue((inputs_shape[-1] % 32) == 0 and (inputs_shape[-2] % 32) == 0)
# check size
self.assertEqual(_snake_case , (1, 3, 800, 1088))
with torch.no_grad():
UpperCAmelCase_ = model(**_snake_case)
UpperCAmelCase_ = torch.tensor(
[[-0.0_4_8_2, 0.9_2_2_8, 0.4_9_5_1], [-0.2_5_4_7, 0.8_0_1_7, 0.8_5_2_7], [-0.0_0_6_9, 0.3_3_8_5, -0.0_0_8_9]]).to(_snake_case)
self.assertTrue(
torch.allclose(
outputs.encoder_last_hidden_state[0, 0, :3, :3] , _snake_case , atol=_snake_case))
UpperCAmelCase_ = torch.tensor(
[[-0.8_4_2_2, -0.8_4_3_4, -0.9_7_1_8], [-1.0_1_4_4, -0.5_5_6_5, -0.4_1_9_5], [-1.0_0_3_8, -0.4_4_8_4, -0.1_9_6_1]]).to(_snake_case)
self.assertTrue(
torch.allclose(
outputs.pixel_decoder_last_hidden_state[0, 0, :3, :3] , _snake_case , atol=_snake_case))
UpperCAmelCase_ = torch.tensor(
[[0.2_8_5_2, -0.0_1_5_9, 0.9_7_3_5], [0.6_2_5_4, 0.1_8_5_8, 0.8_5_2_9], [-0.0_6_8_0, -0.4_1_1_6, 1.8_4_1_3]]).to(_snake_case)
self.assertTrue(
torch.allclose(
outputs.transformer_decoder_last_hidden_state[0, :3, :3] , _snake_case , atol=_snake_case))
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = (
MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''')
.to(_snake_case)
.eval()
)
UpperCAmelCase_ = self.default_image_processor
UpperCAmelCase_ = prepare_img()
UpperCAmelCase_ = image_processor(_snake_case , return_tensors='''pt''').to(_snake_case)
UpperCAmelCase_ = inputs['''pixel_values'''].shape
# check size is divisible by 32
self.assertTrue((inputs_shape[-1] % 32) == 0 and (inputs_shape[-2] % 32) == 0)
# check size
self.assertEqual(_snake_case , (1, 3, 800, 1088))
with torch.no_grad():
UpperCAmelCase_ = model(**_snake_case)
# masks_queries_logits
UpperCAmelCase_ = outputs.masks_queries_logits
self.assertEqual(
masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , )
UpperCAmelCase_ = [
[-1.3_7_3_7_1_2_4, -1.7_7_2_4_9_3_7, -1.9_3_6_4_2_3_3],
[-1.5_9_7_7_2_8_1, -1.9_8_6_7_9_3_9, -2.1_5_2_3_6_9_5],
[-1.5_7_9_5_3_9_8, -1.9_2_6_9_8_3_2, -2.0_9_3_9_4_2],
]
UpperCAmelCase_ = torch.tensor(_snake_case).to(_snake_case)
self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , _snake_case , atol=_snake_case))
# class_queries_logits
UpperCAmelCase_ = outputs.class_queries_logits
self.assertEqual(
class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1))
UpperCAmelCase_ = torch.tensor(
[
[1.65_12e00, -5.25_72e00, -3.35_19e00],
[3.61_69e-02, -5.90_25e00, -2.93_13e00],
[1.07_66e-04, -7.76_30e00, -5.12_63e00],
]).to(_snake_case)
self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , _snake_case , atol=_snake_case))
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = (
MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-resnet101-coco-stuff''')
.to(_snake_case)
.eval()
)
UpperCAmelCase_ = self.default_image_processor
UpperCAmelCase_ = prepare_img()
UpperCAmelCase_ = image_processor(_snake_case , return_tensors='''pt''').to(_snake_case)
UpperCAmelCase_ = inputs['''pixel_values'''].shape
# check size is divisible by 32
self.assertTrue((inputs_shape[-1] % 32) == 0 and (inputs_shape[-2] % 32) == 0)
# check size
self.assertEqual(_snake_case , (1, 3, 800, 1088))
with torch.no_grad():
UpperCAmelCase_ = model(**_snake_case)
# masks_queries_logits
UpperCAmelCase_ = outputs.masks_queries_logits
self.assertEqual(
masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , )
UpperCAmelCase_ = [[-0.9_0_4_6, -2.6_3_6_6, -4.6_0_6_2], [-3.4_1_7_9, -5.7_8_9_0, -8.8_0_5_7], [-4.9_1_7_9, -7.6_5_6_0, -1_0.7_7_1_1]]
UpperCAmelCase_ = torch.tensor(_snake_case).to(_snake_case)
self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , _snake_case , atol=_snake_case))
# class_queries_logits
UpperCAmelCase_ = outputs.class_queries_logits
self.assertEqual(
class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1))
UpperCAmelCase_ = torch.tensor(
[[4.7_1_8_8, -3.2_5_8_5, -2.8_8_5_7], [6.6_8_7_1, -2.9_1_8_1, -1.2_4_8_7], [7.2_4_4_9, -2.2_7_6_4, -2.1_8_7_4]]).to(_snake_case)
self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , _snake_case , atol=_snake_case))
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = (
MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''')
.to(_snake_case)
.eval()
)
UpperCAmelCase_ = self.default_image_processor
UpperCAmelCase_ = image_processor(
[np.zeros((3, 800, 1333)), np.zeros((3, 800, 1333))] , segmentation_maps=[np.zeros((384, 384)).astype(np.floataa), np.zeros((384, 384)).astype(np.floataa)] , return_tensors='''pt''' , )
UpperCAmelCase_ = inputs['''pixel_values'''].to(_snake_case)
UpperCAmelCase_ = [el.to(_snake_case) for el in inputs['''mask_labels''']]
UpperCAmelCase_ = [el.to(_snake_case) for el in inputs['''class_labels''']]
with torch.no_grad():
UpperCAmelCase_ = model(**_snake_case)
self.assertTrue(outputs.loss is not None)
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|
def A (__A : str , __A : str ) -> Tuple:
"""simple docstring"""
assert x is not None
assert y is not None
UpperCAmelCase_ = len(__A )
UpperCAmelCase_ = len(__A )
# declaring the array for storing the dp values
UpperCAmelCase_ = [[0] * (n + 1) for _ in range(m + 1 )] # noqa: E741
for i in range(1 , m + 1 ):
for j in range(1 , n + 1 ):
UpperCAmelCase_ = 1 if x[i - 1] == y[j - 1] else 0
UpperCAmelCase_ = max(l[i - 1][j] , l[i][j - 1] , l[i - 1][j - 1] + match )
UpperCAmelCase_ = ''''''
UpperCAmelCase_ , UpperCAmelCase_ = m, n
while i > 0 and j > 0:
UpperCAmelCase_ = 1 if x[i - 1] == y[j - 1] else 0
if l[i][j] == l[i - 1][j - 1] + match:
if match == 1:
UpperCAmelCase_ = x[i - 1] + seq
i -= 1
j -= 1
elif l[i][j] == l[i - 1][j]:
i -= 1
else:
j -= 1
return l[m][n], seq
if __name__ == "__main__":
snake_case_ : List[str] = "AGGTAB"
snake_case_ : List[Any] = "GXTXAYB"
snake_case_ : str = 4
snake_case_ : str = "GTAB"
snake_case_ , snake_case_ : Union[str, Any] = longest_common_subsequence(a, b)
print("len =", ln, ", sub-sequence =", subseq)
import doctest
doctest.testmod()
| 51
|
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 A (__A : Optional[int] , __A : int , __A : str=None ) -> List[Any]:
"""simple docstring"""
assert torch_layer.weight.shape == weight.shape, F"""{torch_layer} layer.weight does not match"""
UpperCAmelCase_ = nn.Parameter(__A )
if bias is not None:
assert torch_layer.bias.shape == bias.shape, F"""{torch_layer} layer.bias does not match"""
UpperCAmelCase_ = nn.Parameter(__A )
def A (__A : Tuple , __A : Dict , __A : str ) -> Tuple:
"""simple docstring"""
UpperCAmelCase_ = np.asarray(weights[0] )
UpperCAmelCase_ = np.asarray(weights[1] )
UpperCAmelCase_ = np.asarray(weights[2] )
set_param(
torch_layer.self_attention.query_key , torch.tensor(__A ).transpose(1 , 2 ).contiguous().view(-1 , __A ) , )
set_param(
torch_layer.self_attention.value , torch.tensor(__A ).transpose(1 , 2 ).contiguous().view(-1 , __A ) , )
set_param(
torch_layer.output.dense , torch.tensor(__A ).view(-1 , __A ).contiguous().transpose(0 , 1 ) , )
def A (__A : Optional[Any] , __A : Any , __A : List[Any] ) -> int:
"""simple docstring"""
UpperCAmelCase_ = np.asarray(weights[0] )
UpperCAmelCase_ = np.asarray(weights[1] )
UpperCAmelCase_ = np.asarray(weights[2] )
UpperCAmelCase_ = np.asarray(weights[3] )
set_param(
torch_layer.self_attention.query , torch.tensor(__A ).transpose(1 , 2 ).contiguous().view(-1 , __A ) , )
set_param(
torch_layer.self_attention.key , torch.tensor(__A ).transpose(1 , 2 ).contiguous().view(-1 , __A ) , )
set_param(
torch_layer.self_attention.value , torch.tensor(__A ).transpose(1 , 2 ).contiguous().view(-1 , __A ) , )
set_param(
torch_layer.output.dense , torch.tensor(__A ).view(-1 , __A ).contiguous().transpose(0 , 1 ) , )
def A (__A : int , __A : Union[str, Any] , __A : List[str] ) -> List[Any]:
"""simple docstring"""
UpperCAmelCase_ = weights[0][0][0]
UpperCAmelCase_ = np.asarray(layer_norm_a[0] )
UpperCAmelCase_ = np.asarray(layer_norm_a[1] )
set_param(
torch_block.attention.layer_norm , torch.tensor(__A ) , torch.tensor(__A ) , )
# lsh weights + output
UpperCAmelCase_ = weights[0][1]
if len(__A ) < 4:
set_layer_weights_in_torch_lsh(__A , torch_block.attention , __A )
else:
set_layer_weights_in_torch_local(__A , torch_block.attention , __A )
# intermediate weighs
UpperCAmelCase_ = weights[2][0][1][2]
# Chunked Feed Forward
if len(__A ) == 4:
UpperCAmelCase_ = intermediate_weights[2]
# layernorm 2
UpperCAmelCase_ = np.asarray(intermediate_weights[0][0] )
UpperCAmelCase_ = np.asarray(intermediate_weights[0][1] )
set_param(
torch_block.feed_forward.layer_norm , torch.tensor(__A ) , torch.tensor(__A ) , )
# intermediate dense
UpperCAmelCase_ = np.asarray(intermediate_weights[1][0] )
UpperCAmelCase_ = np.asarray(intermediate_weights[1][1] )
set_param(
torch_block.feed_forward.dense.dense , torch.tensor(__A ).transpose(0 , 1 ).contiguous() , torch.tensor(__A ) , )
# intermediate out
UpperCAmelCase_ = np.asarray(intermediate_weights[4][0] )
UpperCAmelCase_ = np.asarray(intermediate_weights[4][1] )
set_param(
torch_block.feed_forward.output.dense , torch.tensor(__A ).transpose(0 , 1 ).contiguous() , torch.tensor(__A ) , )
def A (__A : Optional[int] , __A : Tuple , __A : Any ) -> Tuple:
"""simple docstring"""
UpperCAmelCase_ = torch_model.reformer
# word embeds
UpperCAmelCase_ = np.asarray(weights[1] )
set_param(
torch_model_reformer.embeddings.word_embeddings , torch.tensor(__A ) , )
if isinstance(weights[3] , __A ):
UpperCAmelCase_ = torch_model_reformer.embeddings.position_embeddings
for emb_idx in range(len(position_embeddings.weights ) ):
UpperCAmelCase_ = 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"""
UpperCAmelCase_ = nn.Parameter(torch.tensor(__A ) )
UpperCAmelCase_ = weights[5]
assert len(torch_model_reformer.encoder.layers ) * 4 == len(
__A ), "HF and trax model do not have the same number of layers"
for layer_idx, layer in enumerate(torch_model_reformer.encoder.layers ):
UpperCAmelCase_ = trax_layer_weights[4 * layer_idx : 4 * (layer_idx + 1)]
set_block_weights_in_torch(__A , __A , __A )
# output layer norm
UpperCAmelCase_ = np.asarray(weights[7][0] )
UpperCAmelCase_ = np.asarray(weights[7][1] )
set_param(
torch_model_reformer.encoder.layer_norm , torch.tensor(__A ) , torch.tensor(__A ) , )
# output embeddings
UpperCAmelCase_ = np.asarray(weights[9][0] )
UpperCAmelCase_ = np.asarray(weights[9][1] )
set_param(
torch_model.lm_head.decoder , torch.tensor(__A ).transpose(0 , 1 ).contiguous() , torch.tensor(__A ) , )
def A (__A : Tuple , __A : int , __A : str ) -> Union[str, Any]:
"""simple docstring"""
UpperCAmelCase_ = ReformerConfig.from_json_file(__A )
print(F"""Building PyTorch model from configuration: {config}""" )
UpperCAmelCase_ = ReformerModelWithLMHead(__A )
with open(__A , '''rb''' ) as f:
UpperCAmelCase_ = pickle.load(__A )['''weights''']
set_model_weights_in_torch(__A , __A , config.hidden_size )
# Save pytorch-model
print(F"""Save PyTorch model to {pytorch_dump_path}""" )
torch.save(model.state_dict() , __A )
if __name__ == "__main__":
snake_case_ : Optional[Any] = 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."
)
snake_case_ : List[Any] = parser.parse_args()
convert_trax_checkpoint_to_pytorch(args.trax_model_pkl_path, args.config_file, args.pytorch_dump_path)
| 51
| 1
|
def A (__A : list , __A : int , __A : int = 0 , __A : int = 0 ) -> int:
"""simple docstring"""
UpperCAmelCase_ = right or len(__A ) - 1
if left > right:
return -1
elif list_data[left] == key:
return left
elif list_data[right] == key:
return right
else:
return search(__A , __A , left + 1 , right - 1 )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 51
|
# This model implementation is heavily inspired by https://github.com/haofanwang/ControlNet-for-Diffusers/
import gc
import random
import tempfile
import unittest
import numpy as np
import torch
from PIL import Image
from transformers import CLIPTextConfig, CLIPTextModel, CLIPTokenizer
from diffusers import (
AutoencoderKL,
ControlNetModel,
DDIMScheduler,
StableDiffusionControlNetImgaImgPipeline,
UNetaDConditionModel,
)
from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion_controlnet import MultiControlNetModel
from diffusers.utils import floats_tensor, load_image, load_numpy, randn_tensor, slow, torch_device
from diffusers.utils.import_utils import is_xformers_available
from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu
from ..pipeline_params import (
IMAGE_TO_IMAGE_IMAGE_PARAMS,
TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS,
TEXT_GUIDED_IMAGE_VARIATION_PARAMS,
)
from ..test_pipelines_common import (
PipelineKarrasSchedulerTesterMixin,
PipelineLatentTesterMixin,
PipelineTesterMixin,
)
enable_full_determinism()
class __snake_case ( a , a , a , unittest.TestCase ):
UpperCAmelCase__ : List[Any] = StableDiffusionControlNetImgaImgPipeline
UpperCAmelCase__ : Optional[Any] = TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {'''height''', '''width'''}
UpperCAmelCase__ : Optional[Any] = TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS
UpperCAmelCase__ : Union[str, Any] = IMAGE_TO_IMAGE_IMAGE_PARAMS.union({'''control_image'''} )
UpperCAmelCase__ : Optional[Any] = IMAGE_TO_IMAGE_IMAGE_PARAMS
def lowerCamelCase ( self : int):
"""simple docstring"""
torch.manual_seed(0)
UpperCAmelCase_ = UNetaDConditionModel(
block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , up_block_types=('''CrossAttnUpBlock2D''', '''UpBlock2D''') , cross_attention_dim=32 , )
torch.manual_seed(0)
UpperCAmelCase_ = ControlNetModel(
block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , )
torch.manual_seed(0)
UpperCAmelCase_ = DDIMScheduler(
beta_start=0.0_0_0_8_5 , beta_end=0.0_1_2 , beta_schedule='''scaled_linear''' , clip_sample=_snake_case , set_alpha_to_one=_snake_case , )
torch.manual_seed(0)
UpperCAmelCase_ = AutoencoderKL(
block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=['''DownEncoderBlock2D''', '''DownEncoderBlock2D'''] , up_block_types=['''UpDecoderBlock2D''', '''UpDecoderBlock2D'''] , latent_channels=4 , )
torch.manual_seed(0)
UpperCAmelCase_ = CLIPTextConfig(
bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1e-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1000 , )
UpperCAmelCase_ = CLIPTextModel(_snake_case)
UpperCAmelCase_ = CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''')
UpperCAmelCase_ = {
'''unet''': unet,
'''controlnet''': controlnet,
'''scheduler''': scheduler,
'''vae''': vae,
'''text_encoder''': text_encoder,
'''tokenizer''': tokenizer,
'''safety_checker''': None,
'''feature_extractor''': None,
}
return components
def lowerCamelCase ( self : Union[str, Any] , _snake_case : Any , _snake_case : Dict=0):
"""simple docstring"""
if str(_snake_case).startswith('''mps'''):
UpperCAmelCase_ = torch.manual_seed(_snake_case)
else:
UpperCAmelCase_ = torch.Generator(device=_snake_case).manual_seed(_snake_case)
UpperCAmelCase_ = 2
UpperCAmelCase_ = randn_tensor(
(1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=_snake_case , device=torch.device(_snake_case) , )
UpperCAmelCase_ = floats_tensor(control_image.shape , rng=random.Random(_snake_case)).to(_snake_case)
UpperCAmelCase_ = image.cpu().permute(0 , 2 , 3 , 1)[0]
UpperCAmelCase_ = Image.fromarray(np.uinta(_snake_case)).convert('''RGB''').resize((64, 64))
UpperCAmelCase_ = {
'''prompt''': '''A painting of a squirrel eating a burger''',
'''generator''': generator,
'''num_inference_steps''': 2,
'''guidance_scale''': 6.0,
'''output_type''': '''numpy''',
'''image''': image,
'''control_image''': control_image,
}
return inputs
def lowerCamelCase ( self : Any):
"""simple docstring"""
return self._test_attention_slicing_forward_pass(expected_max_diff=2e-3)
@unittest.skipIf(
torch_device != '''cuda''' or not is_xformers_available() , reason='''XFormers attention is only available with CUDA and `xformers` installed''' , )
def lowerCamelCase ( self : Any):
"""simple docstring"""
self._test_xformers_attention_forwardGenerator_pass(expected_max_diff=2e-3)
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
self._test_inference_batch_single_identical(expected_max_diff=2e-3)
class __snake_case ( a , a , unittest.TestCase ):
UpperCAmelCase__ : str = StableDiffusionControlNetImgaImgPipeline
UpperCAmelCase__ : List[str] = TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {'''height''', '''width'''}
UpperCAmelCase__ : Optional[Any] = TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS
UpperCAmelCase__ : str = frozenset([] ) # TO_DO: add image_params once refactored VaeImageProcessor.preprocess
def lowerCamelCase ( self : str):
"""simple docstring"""
torch.manual_seed(0)
UpperCAmelCase_ = UNetaDConditionModel(
block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , up_block_types=('''CrossAttnUpBlock2D''', '''UpBlock2D''') , cross_attention_dim=32 , )
torch.manual_seed(0)
def init_weights(_snake_case : Optional[int]):
if isinstance(_snake_case , torch.nn.Convad):
torch.nn.init.normal(m.weight)
m.bias.data.fill_(1.0)
UpperCAmelCase_ = ControlNetModel(
block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , )
controlneta.controlnet_down_blocks.apply(_snake_case)
torch.manual_seed(0)
UpperCAmelCase_ = ControlNetModel(
block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , )
controlneta.controlnet_down_blocks.apply(_snake_case)
torch.manual_seed(0)
UpperCAmelCase_ = DDIMScheduler(
beta_start=0.0_0_0_8_5 , beta_end=0.0_1_2 , beta_schedule='''scaled_linear''' , clip_sample=_snake_case , set_alpha_to_one=_snake_case , )
torch.manual_seed(0)
UpperCAmelCase_ = AutoencoderKL(
block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=['''DownEncoderBlock2D''', '''DownEncoderBlock2D'''] , up_block_types=['''UpDecoderBlock2D''', '''UpDecoderBlock2D'''] , latent_channels=4 , )
torch.manual_seed(0)
UpperCAmelCase_ = CLIPTextConfig(
bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1e-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1000 , )
UpperCAmelCase_ = CLIPTextModel(_snake_case)
UpperCAmelCase_ = CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''')
UpperCAmelCase_ = MultiControlNetModel([controlneta, controlneta])
UpperCAmelCase_ = {
'''unet''': unet,
'''controlnet''': controlnet,
'''scheduler''': scheduler,
'''vae''': vae,
'''text_encoder''': text_encoder,
'''tokenizer''': tokenizer,
'''safety_checker''': None,
'''feature_extractor''': None,
}
return components
def lowerCamelCase ( self : int , _snake_case : Union[str, Any] , _snake_case : str=0):
"""simple docstring"""
if str(_snake_case).startswith('''mps'''):
UpperCAmelCase_ = torch.manual_seed(_snake_case)
else:
UpperCAmelCase_ = torch.Generator(device=_snake_case).manual_seed(_snake_case)
UpperCAmelCase_ = 2
UpperCAmelCase_ = [
randn_tensor(
(1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=_snake_case , device=torch.device(_snake_case) , ),
randn_tensor(
(1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=_snake_case , device=torch.device(_snake_case) , ),
]
UpperCAmelCase_ = floats_tensor(control_image[0].shape , rng=random.Random(_snake_case)).to(_snake_case)
UpperCAmelCase_ = image.cpu().permute(0 , 2 , 3 , 1)[0]
UpperCAmelCase_ = Image.fromarray(np.uinta(_snake_case)).convert('''RGB''').resize((64, 64))
UpperCAmelCase_ = {
'''prompt''': '''A painting of a squirrel eating a burger''',
'''generator''': generator,
'''num_inference_steps''': 2,
'''guidance_scale''': 6.0,
'''output_type''': '''numpy''',
'''image''': image,
'''control_image''': control_image,
}
return inputs
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = self.get_dummy_components()
UpperCAmelCase_ = self.pipeline_class(**_snake_case)
pipe.to(_snake_case)
UpperCAmelCase_ = 1_0.0
UpperCAmelCase_ = 4
UpperCAmelCase_ = self.get_dummy_inputs(_snake_case)
UpperCAmelCase_ = steps
UpperCAmelCase_ = scale
UpperCAmelCase_ = pipe(**_snake_case)[0]
UpperCAmelCase_ = self.get_dummy_inputs(_snake_case)
UpperCAmelCase_ = steps
UpperCAmelCase_ = scale
UpperCAmelCase_ = pipe(**_snake_case , control_guidance_start=0.1 , control_guidance_end=0.2)[0]
UpperCAmelCase_ = self.get_dummy_inputs(_snake_case)
UpperCAmelCase_ = steps
UpperCAmelCase_ = scale
UpperCAmelCase_ = pipe(**_snake_case , control_guidance_start=[0.1, 0.3] , control_guidance_end=[0.2, 0.7])[0]
UpperCAmelCase_ = self.get_dummy_inputs(_snake_case)
UpperCAmelCase_ = steps
UpperCAmelCase_ = scale
UpperCAmelCase_ = pipe(**_snake_case , control_guidance_start=0.4 , control_guidance_end=[0.5, 0.8])[0]
# make sure that all outputs are different
assert np.sum(np.abs(output_a - output_a)) > 1e-3
assert np.sum(np.abs(output_a - output_a)) > 1e-3
assert np.sum(np.abs(output_a - output_a)) > 1e-3
def lowerCamelCase ( self : Dict):
"""simple docstring"""
return self._test_attention_slicing_forward_pass(expected_max_diff=2e-3)
@unittest.skipIf(
torch_device != '''cuda''' or not is_xformers_available() , reason='''XFormers attention is only available with CUDA and `xformers` installed''' , )
def lowerCamelCase ( self : int):
"""simple docstring"""
self._test_xformers_attention_forwardGenerator_pass(expected_max_diff=2e-3)
def lowerCamelCase ( self : int):
"""simple docstring"""
self._test_inference_batch_single_identical(expected_max_diff=2e-3)
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = self.get_dummy_components()
UpperCAmelCase_ = self.pipeline_class(**_snake_case)
pipe.to(_snake_case)
pipe.set_progress_bar_config(disable=_snake_case)
with tempfile.TemporaryDirectory() as tmpdir:
try:
# save_pretrained is not implemented for Multi-ControlNet
pipe.save_pretrained(_snake_case)
except NotImplementedError:
pass
@slow
@require_torch_gpu
class __snake_case ( unittest.TestCase ):
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = ControlNetModel.from_pretrained('''lllyasviel/sd-controlnet-canny''')
UpperCAmelCase_ = StableDiffusionControlNetImgaImgPipeline.from_pretrained(
'''runwayml/stable-diffusion-v1-5''' , safety_checker=_snake_case , controlnet=_snake_case)
pipe.enable_model_cpu_offload()
pipe.set_progress_bar_config(disable=_snake_case)
UpperCAmelCase_ = torch.Generator(device='''cpu''').manual_seed(0)
UpperCAmelCase_ = '''evil space-punk bird'''
UpperCAmelCase_ = load_image(
'''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd_controlnet/bird_canny.png''').resize((512, 512))
UpperCAmelCase_ = load_image(
'''https://huggingface.co/lllyasviel/sd-controlnet-canny/resolve/main/images/bird.png''').resize((512, 512))
UpperCAmelCase_ = pipe(
_snake_case , _snake_case , control_image=_snake_case , generator=_snake_case , output_type='''np''' , num_inference_steps=50 , strength=0.6 , )
UpperCAmelCase_ = output.images[0]
assert image.shape == (512, 512, 3)
UpperCAmelCase_ = load_numpy(
'''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd_controlnet/img2img.npy''')
assert np.abs(expected_image - image).max() < 9e-2
| 51
| 1
|
import warnings
from transformers import AutoTokenizer
from transformers.utils import is_torch_available
from transformers.utils.generic import ExplicitEnum
from ...processing_utils import ProcessorMixin
if is_torch_available():
import torch
class __snake_case ( a ):
UpperCAmelCase__ : Optional[Any] = '''char'''
UpperCAmelCase__ : Any = '''bpe'''
UpperCAmelCase__ : List[Any] = '''wp'''
snake_case_ : Optional[Any] = (DecodeType.CHARACTER, DecodeType.BPE, DecodeType.WORDPIECE)
class __snake_case ( a ):
UpperCAmelCase__ : Optional[int] = ['''image_processor''', '''char_tokenizer''']
UpperCAmelCase__ : List[Any] = '''ViTImageProcessor'''
UpperCAmelCase__ : str = '''MgpstrTokenizer'''
def __init__( self : Any , _snake_case : Union[str, Any]=None , _snake_case : List[str]=None , **_snake_case : Dict):
"""simple docstring"""
UpperCAmelCase_ = None
if "feature_extractor" in kwargs:
warnings.warn(
'''The `feature_extractor` argument is deprecated and will be removed in v5, use `image_processor`'''
''' instead.''' , _snake_case , )
UpperCAmelCase_ = kwargs.pop('''feature_extractor''')
UpperCAmelCase_ = image_processor if image_processor is not None else feature_extractor
if image_processor is None:
raise ValueError('''You need to specify an `image_processor`.''')
if tokenizer is None:
raise ValueError('''You need to specify a `tokenizer`.''')
UpperCAmelCase_ = tokenizer
UpperCAmelCase_ = AutoTokenizer.from_pretrained('''gpt2''')
UpperCAmelCase_ = AutoTokenizer.from_pretrained('''bert-base-uncased''')
super().__init__(_snake_case , _snake_case)
def __call__( self : Optional[int] , _snake_case : Optional[Any]=None , _snake_case : str=None , _snake_case : Dict=None , **_snake_case : Union[str, Any]):
"""simple docstring"""
if images is None and text is None:
raise ValueError('''You need to specify either an `images` or `text` input to process.''')
if images is not None:
UpperCAmelCase_ = self.image_processor(_snake_case , return_tensors=_snake_case , **_snake_case)
if text is not None:
UpperCAmelCase_ = self.char_tokenizer(_snake_case , return_tensors=_snake_case , **_snake_case)
if text is None:
return inputs
elif images is None:
return encodings
else:
UpperCAmelCase_ = encodings['''input_ids''']
return inputs
def lowerCamelCase ( self : str , _snake_case : Tuple):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = sequences
UpperCAmelCase_ = char_preds.size(0)
UpperCAmelCase_ , UpperCAmelCase_ = self._decode_helper(_snake_case , '''char''')
UpperCAmelCase_ , UpperCAmelCase_ = self._decode_helper(_snake_case , '''bpe''')
UpperCAmelCase_ , UpperCAmelCase_ = self._decode_helper(_snake_case , '''wp''')
UpperCAmelCase_ = []
UpperCAmelCase_ = []
for i in range(_snake_case):
UpperCAmelCase_ = [char_scores[i], bpe_scores[i], wp_scores[i]]
UpperCAmelCase_ = [char_strs[i], bpe_strs[i], wp_strs[i]]
UpperCAmelCase_ = scores.index(max(_snake_case))
final_strs.append(strs[max_score_index])
final_scores.append(scores[max_score_index])
UpperCAmelCase_ = {}
UpperCAmelCase_ = final_strs
UpperCAmelCase_ = final_scores
UpperCAmelCase_ = char_strs
UpperCAmelCase_ = bpe_strs
UpperCAmelCase_ = wp_strs
return out
def lowerCamelCase ( self : List[Any] , _snake_case : Any , _snake_case : Optional[Any]):
"""simple docstring"""
if format == DecodeType.CHARACTER:
UpperCAmelCase_ = self.char_decode
UpperCAmelCase_ = 1
UpperCAmelCase_ = '''[s]'''
elif format == DecodeType.BPE:
UpperCAmelCase_ = self.bpe_decode
UpperCAmelCase_ = 2
UpperCAmelCase_ = '''#'''
elif format == DecodeType.WORDPIECE:
UpperCAmelCase_ = self.wp_decode
UpperCAmelCase_ = 102
UpperCAmelCase_ = '''[SEP]'''
else:
raise ValueError(F"""Format {format} is not supported.""")
UpperCAmelCase_ , UpperCAmelCase_ = [], []
UpperCAmelCase_ = pred_logits.size(0)
UpperCAmelCase_ = pred_logits.size(1)
UpperCAmelCase_ , UpperCAmelCase_ = pred_logits.topk(1 , dim=-1 , largest=_snake_case , sorted=_snake_case)
UpperCAmelCase_ = preds_index.view(-1 , _snake_case)[:, 1:]
UpperCAmelCase_ = decoder(_snake_case)
UpperCAmelCase_ , UpperCAmelCase_ = torch.nn.functional.softmax(_snake_case , dim=2).max(dim=2)
UpperCAmelCase_ = preds_max_prob[:, 1:]
for index in range(_snake_case):
UpperCAmelCase_ = preds_str[index].find(_snake_case)
UpperCAmelCase_ = preds_str[index][:pred_eos]
UpperCAmelCase_ = preds_index[index].cpu().tolist()
UpperCAmelCase_ = pred_index.index(_snake_case) if eos_token in pred_index else -1
UpperCAmelCase_ = preds_max_prob[index][: pred_eos_index + 1]
UpperCAmelCase_ = pred_max_prob.cumprod(dim=0)[-1] if pred_max_prob.nelement() != 0 else 0.0
dec_strs.append(_snake_case)
conf_scores.append(_snake_case)
return dec_strs, conf_scores
def lowerCamelCase ( self : Any , _snake_case : str):
"""simple docstring"""
UpperCAmelCase_ = [seq.replace(''' ''' , '''''') for seq in self.char_tokenizer.batch_decode(_snake_case)]
return decode_strs
def lowerCamelCase ( self : Union[str, Any] , _snake_case : Dict):
"""simple docstring"""
return self.bpe_tokenizer.batch_decode(_snake_case)
def lowerCamelCase ( self : Union[str, Any] , _snake_case : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = [seq.replace(''' ''' , '''''') for seq in self.wp_tokenizer.batch_decode(_snake_case)]
return decode_strs
| 51
|
import random
import timeit
from functools import wraps
from typing import Callable, Optional
from ..configuration_utils import PretrainedConfig
from ..models.auto.modeling_tf_auto import TF_MODEL_MAPPING, TF_MODEL_WITH_LM_HEAD_MAPPING
from ..utils import is_pyanvml_available, is_tf_available, logging
from .benchmark_utils import (
Benchmark,
Memory,
MemorySummary,
measure_peak_memory_cpu,
start_memory_tracing,
stop_memory_tracing,
)
if is_tf_available():
import tensorflow as tf
from tensorflow.python.framework.errors_impl import ResourceExhaustedError
from .benchmark_args_tf import TensorFlowBenchmarkArguments
if is_pyanvml_available():
import pyanvml.pyanvml as nvml
snake_case_ : Tuple = logging.get_logger(__name__)
def A (__A : bool , __A : bool ) -> Optional[Any]:
"""simple docstring"""
def run_func(__A : Optional[Any] ):
@wraps(__A )
def run_in_eager_mode(*__A : Dict , **__A : List[Any] ):
return func(*__A , **__A )
@wraps(__A )
@tf.function(experimental_compile=__A )
def run_in_graph_mode(*__A : Optional[Any] , **__A : Any ):
return func(*__A , **__A )
if do_eager_mode is True:
if use_xla is not False:
raise ValueError(
'''Cannot run model in XLA, if `args.eager_mode` is set to `True`. Please set `args.eager_mode=False`.''' )
return run_in_eager_mode
else:
return run_in_graph_mode
return run_func
def A (__A : int , __A : int , __A : int ) -> ["tf.Tensor"]:
"""simple docstring"""
UpperCAmelCase_ = random.Random()
UpperCAmelCase_ = [rng.randint(0 , vocab_size - 1 ) for i in range(batch_size * sequence_length )]
return tf.constant(__A , shape=(batch_size, sequence_length) , dtype=tf.intaa )
class __snake_case ( a ):
UpperCAmelCase__ : TensorFlowBenchmarkArguments
UpperCAmelCase__ : PretrainedConfig
UpperCAmelCase__ : str = "TensorFlow"
@property
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
return tf.__version__
def lowerCamelCase ( self : Dict , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = self.args.strategy
if strategy is None:
raise ValueError('''A device strategy has to be initialized before using TensorFlow.''')
UpperCAmelCase_ = self._prepare_inference_func(_snake_case , _snake_case , _snake_case)
return self._measure_speed(_inference)
def lowerCamelCase ( self : Any , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = self.args.strategy
if strategy is None:
raise ValueError('''A device strategy has to be initialized before using TensorFlow.''')
UpperCAmelCase_ = self._prepare_train_func(_snake_case , _snake_case , _snake_case)
return self._measure_speed(_train)
def lowerCamelCase ( self : Any , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
if self.args.is_gpu:
tf.config.experimental.set_memory_growth(self.args.gpu_list[self.args.device_idx] , _snake_case)
UpperCAmelCase_ = self.args.strategy
if strategy is None:
raise ValueError('''A device strategy has to be initialized before using TensorFlow.''')
UpperCAmelCase_ = self._prepare_inference_func(_snake_case , _snake_case , _snake_case)
return self._measure_memory(_inference)
def lowerCamelCase ( self : Optional[Any] , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
if self.args.is_gpu:
tf.config.experimental.set_memory_growth(self.args.gpu_list[self.args.device_idx] , _snake_case)
UpperCAmelCase_ = self.args.strategy
if strategy is None:
raise ValueError('''A device strategy has to be initialized before using TensorFlow.''')
UpperCAmelCase_ = self._prepare_train_func(_snake_case , _snake_case , _snake_case)
return self._measure_memory(_train)
def lowerCamelCase ( self : Optional[int] , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = self.config_dict[model_name]
if self.args.fpaa:
raise NotImplementedError('''Mixed precision is currently not supported.''')
UpperCAmelCase_ = (
hasattr(_snake_case , '''architectures''')
and isinstance(config.architectures , _snake_case)
and len(config.architectures) > 0
)
if not self.args.only_pretrain_model and has_model_class_in_config:
try:
UpperCAmelCase_ = '''TF''' + config.architectures[0] # prepend 'TF' for tensorflow model
UpperCAmelCase_ = __import__('''transformers''' , fromlist=[model_class])
UpperCAmelCase_ = getattr(_snake_case , _snake_case)
UpperCAmelCase_ = model_cls(_snake_case)
except ImportError:
raise ImportError(
F"""{model_class} does not exist. If you just want to test the pretrained model, you might want to"""
''' set `--only_pretrain_model` or `args.only_pretrain_model=True`.''')
else:
UpperCAmelCase_ = TF_MODEL_MAPPING[config.__class__](_snake_case)
# encoder-decoder has vocab size saved differently
UpperCAmelCase_ = config.vocab_size if hasattr(_snake_case , '''vocab_size''') else config.encoder.vocab_size
UpperCAmelCase_ = random_input_ids(_snake_case , _snake_case , _snake_case)
@run_with_tf_optimizations(self.args.eager_mode , self.args.use_xla)
def encoder_decoder_forward():
return model(_snake_case , decoder_input_ids=_snake_case , training=_snake_case)
@run_with_tf_optimizations(self.args.eager_mode , self.args.use_xla)
def encoder_forward():
return model(_snake_case , training=_snake_case)
UpperCAmelCase_ = encoder_decoder_forward if config.is_encoder_decoder else encoder_forward
return _inference
def lowerCamelCase ( self : Optional[Any] , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = self.config_dict[model_name]
if self.args.eager_mode is not False:
raise ValueError('''Training cannot be done in eager mode. Please make sure that `args.eager_mode = False`.''')
if self.args.fpaa:
raise NotImplementedError('''Mixed precision is currently not supported.''')
UpperCAmelCase_ = (
hasattr(_snake_case , '''architectures''')
and isinstance(config.architectures , _snake_case)
and len(config.architectures) > 0
)
if not self.args.only_pretrain_model and has_model_class_in_config:
try:
UpperCAmelCase_ = '''TF''' + config.architectures[0] # prepend 'TF' for tensorflow model
UpperCAmelCase_ = __import__('''transformers''' , fromlist=[model_class])
UpperCAmelCase_ = getattr(_snake_case , _snake_case)
UpperCAmelCase_ = model_cls(_snake_case)
except ImportError:
raise ImportError(
F"""{model_class} does not exist. If you just want to test the pretrained model, you might want to"""
''' set `--only_pretrain_model` or `args.only_pretrain_model=True`.''')
else:
UpperCAmelCase_ = TF_MODEL_WITH_LM_HEAD_MAPPING[config.__class__](_snake_case)
# encoder-decoder has vocab size saved differently
UpperCAmelCase_ = config.vocab_size if hasattr(_snake_case , '''vocab_size''') else config.encoder.vocab_size
UpperCAmelCase_ = random_input_ids(_snake_case , _snake_case , _snake_case)
@run_with_tf_optimizations(self.args.eager_mode , self.args.use_xla)
def encoder_decoder_train():
UpperCAmelCase_ = model(_snake_case , decoder_input_ids=_snake_case , labels=_snake_case , training=_snake_case)[0]
UpperCAmelCase_ = tf.gradients(_snake_case , model.trainable_variables)
return gradients
@run_with_tf_optimizations(self.args.eager_mode , self.args.use_xla)
def encoder_train():
UpperCAmelCase_ = model(_snake_case , labels=_snake_case , training=_snake_case)[0]
UpperCAmelCase_ = tf.gradients(_snake_case , model.trainable_variables)
return gradients
UpperCAmelCase_ = encoder_decoder_train if config.is_encoder_decoder else encoder_train
return _train
def lowerCamelCase ( self : Any , _snake_case : Optional[Any]):
"""simple docstring"""
with self.args.strategy.scope():
try:
if self.args.is_tpu or self.args.use_xla:
# run additional 10 times to stabilize compilation for tpu
logger.info('''Do inference on TPU. Running model 5 times to stabilize compilation''')
timeit.repeat(_snake_case , repeat=1 , number=5)
# as written in https://docs.python.org/2/library/timeit.html#timeit.Timer.repeat, min should be taken rather than the average
UpperCAmelCase_ = timeit.repeat(
_snake_case , repeat=self.args.repeat , number=10 , )
return min(_snake_case) / 1_0.0
except ResourceExhaustedError as e:
self.print_fn(F"""Doesn't fit on GPU. {e}""")
def lowerCamelCase ( self : Dict , _snake_case : Callable[[], None]):
"""simple docstring"""
logger.info(
'''Note that TensorFlow allocates more memory than '''
'''it might need to speed up computation. '''
'''The memory reported here corresponds to the memory '''
'''reported by `nvidia-smi`, which can vary depending '''
'''on total available memory on the GPU that is used.''')
with self.args.strategy.scope():
try:
if self.args.trace_memory_line_by_line:
if not self.args.eager_mode:
raise ValueError(
'''`args.eager_mode` is set to `False`. Make sure to run model in eager mode to measure memory'''
''' consumption line by line.''')
UpperCAmelCase_ = start_memory_tracing('''transformers''')
if self.args.is_tpu:
# tpu
raise NotImplementedError(
'''Memory Benchmarking is currently not implemented for TPU. Please disable memory benchmarking'''
''' with `args.memory=False`''')
elif self.args.is_gpu:
# gpu
if not is_pyanvml_available():
logger.warning(
'''py3nvml not installed, we won\'t log GPU memory usage. '''
'''Install py3nvml (pip install py3nvml) to log information about GPU.''')
UpperCAmelCase_ = '''N/A'''
else:
logger.info(
'''Measuring total GPU usage on GPU device. Make sure to not have additional processes'''
''' running on the same GPU.''')
# init nvml
nvml.nvmlInit()
func()
UpperCAmelCase_ = nvml.nvmlDeviceGetHandleByIndex(self.args.device_idx)
UpperCAmelCase_ = nvml.nvmlDeviceGetMemoryInfo(_snake_case)
UpperCAmelCase_ = meminfo.used
UpperCAmelCase_ = Memory(_snake_case)
# shutdown nvml
nvml.nvmlShutdown()
else:
# cpu
if self.args.trace_memory_line_by_line:
logger.info(
'''When enabling line by line tracing, the max peak memory for CPU is inaccurate in'''
''' TensorFlow.''')
UpperCAmelCase_ = None
else:
UpperCAmelCase_ = measure_peak_memory_cpu(_snake_case)
UpperCAmelCase_ = Memory(_snake_case) if isinstance(_snake_case , _snake_case) else memory_bytes
if self.args.trace_memory_line_by_line:
UpperCAmelCase_ = stop_memory_tracing(_snake_case)
if memory is None:
UpperCAmelCase_ = summary.total
else:
UpperCAmelCase_ = None
return memory, summary
except ResourceExhaustedError as e:
self.print_fn(F"""Doesn't fit on GPU. {e}""")
return "N/A", None
| 51
| 1
|
import copy
from ...configuration_utils import PretrainedConfig
from ...utils import logging
from ..auto import CONFIG_MAPPING
snake_case_ : Optional[int] = logging.get_logger(__name__)
snake_case_ : Dict = {
"SenseTime/deformable-detr": "https://huggingface.co/sensetime/deformable-detr/resolve/main/config.json",
# See all Deformable DETR models at https://huggingface.co/models?filter=deformable-detr
}
class __snake_case ( a ):
UpperCAmelCase__ : Any = '''deformable_detr'''
UpperCAmelCase__ : List[Any] = {
'''hidden_size''': '''d_model''',
'''num_attention_heads''': '''encoder_attention_heads''',
}
def __init__( self : Optional[Any] , _snake_case : List[Any]=True , _snake_case : Tuple=None , _snake_case : Dict=3 , _snake_case : Union[str, Any]=300 , _snake_case : str=1024 , _snake_case : Optional[Any]=6 , _snake_case : Optional[Any]=1024 , _snake_case : Optional[Any]=8 , _snake_case : str=6 , _snake_case : Any=1024 , _snake_case : Union[str, Any]=8 , _snake_case : Tuple=0.0 , _snake_case : List[Any]=True , _snake_case : Optional[int]="relu" , _snake_case : Dict=256 , _snake_case : Dict=0.1 , _snake_case : Any=0.0 , _snake_case : Optional[Any]=0.0 , _snake_case : Tuple=0.0_2 , _snake_case : Optional[int]=1.0 , _snake_case : List[Any]=True , _snake_case : Optional[int]=False , _snake_case : Optional[int]="sine" , _snake_case : Any="resnet50" , _snake_case : Dict=True , _snake_case : Any=False , _snake_case : List[str]=4 , _snake_case : Any=4 , _snake_case : int=4 , _snake_case : int=False , _snake_case : int=300 , _snake_case : str=False , _snake_case : Union[str, Any]=1 , _snake_case : str=5 , _snake_case : Optional[int]=2 , _snake_case : Optional[Any]=1 , _snake_case : Dict=1 , _snake_case : Optional[Any]=5 , _snake_case : List[str]=2 , _snake_case : Tuple=0.1 , _snake_case : List[Any]=0.2_5 , _snake_case : Any=False , **_snake_case : Optional[int] , ):
"""simple docstring"""
if backbone_config is not None and use_timm_backbone:
raise ValueError('''You can\'t specify both `backbone_config` and `use_timm_backbone`.''')
if not use_timm_backbone:
if backbone_config is None:
logger.info('''`backbone_config` is `None`. Initializing the config with the default `ResNet` backbone.''')
UpperCAmelCase_ = CONFIG_MAPPING['''resnet'''](out_features=['''stage4'''])
elif isinstance(_snake_case , _snake_case):
UpperCAmelCase_ = backbone_config.get('''model_type''')
UpperCAmelCase_ = CONFIG_MAPPING[backbone_model_type]
UpperCAmelCase_ = config_class.from_dict(_snake_case)
UpperCAmelCase_ = use_timm_backbone
UpperCAmelCase_ = backbone_config
UpperCAmelCase_ = num_channels
UpperCAmelCase_ = num_queries
UpperCAmelCase_ = max_position_embeddings
UpperCAmelCase_ = d_model
UpperCAmelCase_ = encoder_ffn_dim
UpperCAmelCase_ = encoder_layers
UpperCAmelCase_ = encoder_attention_heads
UpperCAmelCase_ = decoder_ffn_dim
UpperCAmelCase_ = decoder_layers
UpperCAmelCase_ = decoder_attention_heads
UpperCAmelCase_ = dropout
UpperCAmelCase_ = attention_dropout
UpperCAmelCase_ = activation_dropout
UpperCAmelCase_ = activation_function
UpperCAmelCase_ = init_std
UpperCAmelCase_ = init_xavier_std
UpperCAmelCase_ = encoder_layerdrop
UpperCAmelCase_ = auxiliary_loss
UpperCAmelCase_ = position_embedding_type
UpperCAmelCase_ = backbone
UpperCAmelCase_ = use_pretrained_backbone
UpperCAmelCase_ = dilation
# deformable attributes
UpperCAmelCase_ = num_feature_levels
UpperCAmelCase_ = encoder_n_points
UpperCAmelCase_ = decoder_n_points
UpperCAmelCase_ = two_stage
UpperCAmelCase_ = two_stage_num_proposals
UpperCAmelCase_ = with_box_refine
if two_stage is True and with_box_refine is False:
raise ValueError('''If two_stage is True, with_box_refine must be True.''')
# Hungarian matcher
UpperCAmelCase_ = class_cost
UpperCAmelCase_ = bbox_cost
UpperCAmelCase_ = giou_cost
# Loss coefficients
UpperCAmelCase_ = mask_loss_coefficient
UpperCAmelCase_ = dice_loss_coefficient
UpperCAmelCase_ = bbox_loss_coefficient
UpperCAmelCase_ = giou_loss_coefficient
UpperCAmelCase_ = eos_coefficient
UpperCAmelCase_ = focal_alpha
UpperCAmelCase_ = disable_custom_kernels
super().__init__(is_encoder_decoder=_snake_case , **_snake_case)
@property
def lowerCamelCase ( self : int):
"""simple docstring"""
return self.encoder_attention_heads
@property
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
return self.d_model
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = copy.deepcopy(self.__dict__)
if self.backbone_config is not None:
UpperCAmelCase_ = self.backbone_config.to_dict()
UpperCAmelCase_ = self.__class__.model_type
return output
| 51
|
import hashlib
import unittest
from transformers import MODEL_FOR_DEPTH_ESTIMATION_MAPPING, is_torch_available, is_vision_available
from transformers.pipelines import DepthEstimationPipeline, pipeline
from transformers.testing_utils import (
is_pipeline_test,
nested_simplify,
require_tf,
require_timm,
require_torch,
require_vision,
slow,
)
from .test_pipelines_common import ANY
if is_torch_available():
import torch
if is_vision_available():
from PIL import Image
else:
class __snake_case :
@staticmethod
def lowerCamelCase ( *_snake_case : Optional[int] , **_snake_case : int):
"""simple docstring"""
pass
def A (__A : Image ) -> str:
"""simple docstring"""
UpperCAmelCase_ = hashlib.mda(image.tobytes() )
return m.hexdigest()
@is_pipeline_test
@require_vision
@require_timm
@require_torch
class __snake_case ( unittest.TestCase ):
UpperCAmelCase__ : Tuple = MODEL_FOR_DEPTH_ESTIMATION_MAPPING
def lowerCamelCase ( self : Tuple , _snake_case : Optional[Any] , _snake_case : Optional[Any] , _snake_case : List[str]):
"""simple docstring"""
UpperCAmelCase_ = DepthEstimationPipeline(model=_snake_case , image_processor=_snake_case)
return depth_estimator, [
"./tests/fixtures/tests_samples/COCO/000000039769.png",
"./tests/fixtures/tests_samples/COCO/000000039769.png",
]
def lowerCamelCase ( self : str , _snake_case : Optional[int] , _snake_case : List[str]):
"""simple docstring"""
UpperCAmelCase_ = depth_estimator('''./tests/fixtures/tests_samples/COCO/000000039769.png''')
self.assertEqual({'''predicted_depth''': ANY(torch.Tensor), '''depth''': ANY(Image.Image)} , _snake_case)
import datasets
UpperCAmelCase_ = datasets.load_dataset('''hf-internal-testing/fixtures_image_utils''' , '''image''' , split='''test''')
UpperCAmelCase_ = depth_estimator(
[
Image.open('''./tests/fixtures/tests_samples/COCO/000000039769.png'''),
'''http://images.cocodataset.org/val2017/000000039769.jpg''',
# RGBA
dataset[0]['''file'''],
# LA
dataset[1]['''file'''],
# L
dataset[2]['''file'''],
])
self.assertEqual(
[
{'''predicted_depth''': ANY(torch.Tensor), '''depth''': ANY(Image.Image)},
{'''predicted_depth''': ANY(torch.Tensor), '''depth''': ANY(Image.Image)},
{'''predicted_depth''': ANY(torch.Tensor), '''depth''': ANY(Image.Image)},
{'''predicted_depth''': ANY(torch.Tensor), '''depth''': ANY(Image.Image)},
{'''predicted_depth''': ANY(torch.Tensor), '''depth''': ANY(Image.Image)},
] , _snake_case , )
@require_tf
@unittest.skip('''Depth estimation is not implemented in TF''')
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
pass
@slow
@require_torch
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = '''Intel/dpt-large'''
UpperCAmelCase_ = pipeline('''depth-estimation''' , model=_snake_case)
UpperCAmelCase_ = depth_estimator('''http://images.cocodataset.org/val2017/000000039769.jpg''')
UpperCAmelCase_ = hashimage(outputs['''depth'''])
# This seems flaky.
# self.assertEqual(outputs["depth"], "1a39394e282e9f3b0741a90b9f108977")
self.assertEqual(nested_simplify(outputs['''predicted_depth'''].max().item()) , 2_9.3_0_4)
self.assertEqual(nested_simplify(outputs['''predicted_depth'''].min().item()) , 2.6_6_2)
@require_torch
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
self.skipTest('''There is not hf-internal-testing tiny model for either GLPN nor DPT''')
| 51
| 1
|
import unittest
import numpy as np
import torch
from diffusers import KarrasVePipeline, KarrasVeScheduler, UNetaDModel
from diffusers.utils.testing_utils import enable_full_determinism, require_torch, slow, torch_device
enable_full_determinism()
class __snake_case ( unittest.TestCase ):
@property
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
torch.manual_seed(0)
UpperCAmelCase_ = UNetaDModel(
block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=3 , out_channels=3 , down_block_types=('''DownBlock2D''', '''AttnDownBlock2D''') , up_block_types=('''AttnUpBlock2D''', '''UpBlock2D''') , )
return model
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = self.dummy_uncond_unet
UpperCAmelCase_ = KarrasVeScheduler()
UpperCAmelCase_ = KarrasVePipeline(unet=_snake_case , scheduler=_snake_case)
pipe.to(_snake_case)
pipe.set_progress_bar_config(disable=_snake_case)
UpperCAmelCase_ = torch.manual_seed(0)
UpperCAmelCase_ = pipe(num_inference_steps=2 , generator=_snake_case , output_type='''numpy''').images
UpperCAmelCase_ = torch.manual_seed(0)
UpperCAmelCase_ = pipe(num_inference_steps=2 , generator=_snake_case , output_type='''numpy''' , return_dict=_snake_case)[0]
UpperCAmelCase_ = image[0, -3:, -3:, -1]
UpperCAmelCase_ = image_from_tuple[0, -3:, -3:, -1]
assert image.shape == (1, 32, 32, 3)
UpperCAmelCase_ = np.array([0.0, 1.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0, 0.0])
assert np.abs(image_slice.flatten() - expected_slice).max() < 1e-2
assert np.abs(image_from_tuple_slice.flatten() - expected_slice).max() < 1e-2
@slow
@require_torch
class __snake_case ( unittest.TestCase ):
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = '''google/ncsnpp-celebahq-256'''
UpperCAmelCase_ = UNetaDModel.from_pretrained(_snake_case)
UpperCAmelCase_ = KarrasVeScheduler()
UpperCAmelCase_ = KarrasVePipeline(unet=_snake_case , scheduler=_snake_case)
pipe.to(_snake_case)
pipe.set_progress_bar_config(disable=_snake_case)
UpperCAmelCase_ = torch.manual_seed(0)
UpperCAmelCase_ = pipe(num_inference_steps=20 , generator=_snake_case , output_type='''numpy''').images
UpperCAmelCase_ = image[0, -3:, -3:, -1]
assert image.shape == (1, 256, 256, 3)
UpperCAmelCase_ = np.array([0.5_7_8, 0.5_8_1_1, 0.5_9_2_4, 0.5_8_0_9, 0.5_8_7, 0.5_8_8_6, 0.5_8_6_1, 0.5_8_0_2, 0.5_8_6])
assert np.abs(image_slice.flatten() - expected_slice).max() < 1e-2
| 51
|
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
snake_case_ : int = {
"configuration_deberta": ["DEBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP", "DebertaConfig", "DebertaOnnxConfig"],
"tokenization_deberta": ["DebertaTokenizer"],
}
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : int = ["DebertaTokenizerFast"]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : List[str] = [
"DEBERTA_PRETRAINED_MODEL_ARCHIVE_LIST",
"DebertaForMaskedLM",
"DebertaForQuestionAnswering",
"DebertaForSequenceClassification",
"DebertaForTokenClassification",
"DebertaModel",
"DebertaPreTrainedModel",
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Any = [
"TF_DEBERTA_PRETRAINED_MODEL_ARCHIVE_LIST",
"TFDebertaForMaskedLM",
"TFDebertaForQuestionAnswering",
"TFDebertaForSequenceClassification",
"TFDebertaForTokenClassification",
"TFDebertaModel",
"TFDebertaPreTrainedModel",
]
if TYPE_CHECKING:
from .configuration_deberta import DEBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP, DebertaConfig, DebertaOnnxConfig
from .tokenization_deberta import DebertaTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_deberta_fast import DebertaTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_deberta import (
DEBERTA_PRETRAINED_MODEL_ARCHIVE_LIST,
DebertaForMaskedLM,
DebertaForQuestionAnswering,
DebertaForSequenceClassification,
DebertaForTokenClassification,
DebertaModel,
DebertaPreTrainedModel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_deberta import (
TF_DEBERTA_PRETRAINED_MODEL_ARCHIVE_LIST,
TFDebertaForMaskedLM,
TFDebertaForQuestionAnswering,
TFDebertaForSequenceClassification,
TFDebertaForTokenClassification,
TFDebertaModel,
TFDebertaPreTrainedModel,
)
else:
import sys
snake_case_ : Dict = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 51
| 1
|
import numpy as np
import torch
from imwatermark import WatermarkEncoder
# Copied from https://github.com/Stability-AI/generative-models/blob/613af104c6b85184091d42d374fef420eddb356d/scripts/demo/streamlit_helpers.py#L66
snake_case_ : int = 0b101100111110110010010000011110111011000110011110
# bin(x)[2:] gives bits of x as str, use int to convert them to 0/1
snake_case_ : Optional[Any] = [int(bit) for bit in bin(WATERMARK_MESSAGE)[2:]]
class __snake_case :
def __init__( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = WATERMARK_BITS
UpperCAmelCase_ = WatermarkEncoder()
self.encoder.set_watermark('''bits''' , self.watermark)
def lowerCamelCase ( self : Any , _snake_case : torch.FloatTensor):
"""simple docstring"""
if images.shape[-1] < 256:
return images
UpperCAmelCase_ = (255 * (images / 2 + 0.5)).cpu().permute(0 , 2 , 3 , 1).float().numpy()
UpperCAmelCase_ = [self.encoder.encode(_snake_case , '''dwtDct''') for image in images]
UpperCAmelCase_ = torch.from_numpy(np.array(_snake_case)).permute(0 , 3 , 1 , 2)
UpperCAmelCase_ = torch.clamp(2 * (images / 255 - 0.5) , min=-1.0 , max=1.0)
return images
| 51
|
from typing import TYPE_CHECKING
from ...file_utils import _LazyModule, is_tokenizers_available, is_torch_available
from ...utils import OptionalDependencyNotAvailable
snake_case_ : Union[str, Any] = {"configuration_gpt_neox": ["GPT_NEOX_PRETRAINED_CONFIG_ARCHIVE_MAP", "GPTNeoXConfig"]}
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Dict = ["GPTNeoXTokenizerFast"]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : 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
snake_case_ : Optional[int] = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 51
| 1
|
from collections import Counter
import numpy as np
from sklearn import datasets
from sklearn.model_selection import train_test_split
snake_case_ : Optional[Any] = datasets.load_iris()
snake_case_ : str = np.array(data["data"])
snake_case_ : Any = np.array(data["target"])
snake_case_ : Optional[int] = data["target_names"]
snake_case_ , snake_case_ , snake_case_ , snake_case_ : int = train_test_split(X, y)
def A (__A : Tuple , __A : str ) -> Any:
"""simple docstring"""
return np.linalg.norm(np.array(__A ) - np.array(__A ) )
def A (__A : str , __A : Any , __A : int , __A : int , __A : List[str]=5 ) -> Any:
"""simple docstring"""
UpperCAmelCase_ = zip(__A , __A )
# List of distances of all points from the point to be classified
UpperCAmelCase_ = []
for data_point in data:
UpperCAmelCase_ = euclidean_distance(data_point[0] , __A )
distances.append((distance, data_point[1]) )
# Choosing 'k' points with the least distances.
UpperCAmelCase_ = [i[1] for i in sorted(__A )[:k]]
# Most commonly occurring class among them
# is the class into which the point is classified
UpperCAmelCase_ = Counter(__A ).most_common(1 )[0][0]
return classes[result]
if __name__ == "__main__":
print(classifier(X_train, y_train, classes, [4.4, 3.1, 1.3, 1.4]))
| 51
|
def A (__A : list , __A : int , __A : int = 0 , __A : int = 0 ) -> int:
"""simple docstring"""
UpperCAmelCase_ = right or len(__A ) - 1
if left > right:
return -1
elif list_data[left] == key:
return left
elif list_data[right] == key:
return right
else:
return search(__A , __A , left + 1 , right - 1 )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 51
| 1
|
from typing import TYPE_CHECKING
from ...file_utils import _LazyModule, is_tokenizers_available, is_torch_available
from ...utils import OptionalDependencyNotAvailable
snake_case_ : Union[str, Any] = {"configuration_gpt_neox": ["GPT_NEOX_PRETRAINED_CONFIG_ARCHIVE_MAP", "GPTNeoXConfig"]}
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Dict = ["GPTNeoXTokenizerFast"]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : 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
snake_case_ : Optional[int] = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 51
|
from ...configuration_utils import PretrainedConfig
from ...utils import logging
snake_case_ : int = logging.get_logger(__name__)
snake_case_ : str = {}
class __snake_case ( a ):
UpperCAmelCase__ : str = '''llama'''
UpperCAmelCase__ : Dict = ['''past_key_values''']
def __init__( self : str , _snake_case : List[str]=32000 , _snake_case : int=4096 , _snake_case : List[str]=11008 , _snake_case : Optional[int]=32 , _snake_case : List[Any]=32 , _snake_case : Tuple=None , _snake_case : int="silu" , _snake_case : List[Any]=2048 , _snake_case : List[str]=0.0_2 , _snake_case : Any=1e-6 , _snake_case : List[str]=True , _snake_case : Optional[Any]=0 , _snake_case : Dict=1 , _snake_case : List[Any]=2 , _snake_case : str=1 , _snake_case : Union[str, Any]=False , _snake_case : str=None , **_snake_case : List[Any] , ):
"""simple docstring"""
UpperCAmelCase_ = vocab_size
UpperCAmelCase_ = max_position_embeddings
UpperCAmelCase_ = hidden_size
UpperCAmelCase_ = intermediate_size
UpperCAmelCase_ = num_hidden_layers
UpperCAmelCase_ = num_attention_heads
# for backward compatibility
if num_key_value_heads is None:
UpperCAmelCase_ = num_attention_heads
UpperCAmelCase_ = num_key_value_heads
UpperCAmelCase_ = hidden_act
UpperCAmelCase_ = initializer_range
UpperCAmelCase_ = rms_norm_eps
UpperCAmelCase_ = pretraining_tp
UpperCAmelCase_ = use_cache
UpperCAmelCase_ = rope_scaling
self._rope_scaling_validation()
super().__init__(
pad_token_id=_snake_case , bos_token_id=_snake_case , eos_token_id=_snake_case , tie_word_embeddings=_snake_case , **_snake_case , )
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
if self.rope_scaling is None:
return
if not isinstance(self.rope_scaling , _snake_case) or len(self.rope_scaling) != 2:
raise ValueError(
'''`rope_scaling` must be a dictionary with with two fields, `name` and `factor`, '''
F"""got {self.rope_scaling}""")
UpperCAmelCase_ = self.rope_scaling.get('''type''' , _snake_case)
UpperCAmelCase_ = self.rope_scaling.get('''factor''' , _snake_case)
if rope_scaling_type is None or rope_scaling_type not in ["linear", "dynamic"]:
raise ValueError(
F"""`rope_scaling`'s name field must be one of ['linear', 'dynamic'], got {rope_scaling_type}""")
if rope_scaling_factor is None or not isinstance(_snake_case , _snake_case) or rope_scaling_factor <= 1.0:
raise ValueError(F"""`rope_scaling`'s factor field must be an float > 1, got {rope_scaling_factor}""")
| 51
| 1
|
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 A (__A : Optional[int] , __A : int , __A : str=None ) -> List[Any]:
"""simple docstring"""
assert torch_layer.weight.shape == weight.shape, F"""{torch_layer} layer.weight does not match"""
UpperCAmelCase_ = nn.Parameter(__A )
if bias is not None:
assert torch_layer.bias.shape == bias.shape, F"""{torch_layer} layer.bias does not match"""
UpperCAmelCase_ = nn.Parameter(__A )
def A (__A : Tuple , __A : Dict , __A : str ) -> Tuple:
"""simple docstring"""
UpperCAmelCase_ = np.asarray(weights[0] )
UpperCAmelCase_ = np.asarray(weights[1] )
UpperCAmelCase_ = np.asarray(weights[2] )
set_param(
torch_layer.self_attention.query_key , torch.tensor(__A ).transpose(1 , 2 ).contiguous().view(-1 , __A ) , )
set_param(
torch_layer.self_attention.value , torch.tensor(__A ).transpose(1 , 2 ).contiguous().view(-1 , __A ) , )
set_param(
torch_layer.output.dense , torch.tensor(__A ).view(-1 , __A ).contiguous().transpose(0 , 1 ) , )
def A (__A : Optional[Any] , __A : Any , __A : List[Any] ) -> int:
"""simple docstring"""
UpperCAmelCase_ = np.asarray(weights[0] )
UpperCAmelCase_ = np.asarray(weights[1] )
UpperCAmelCase_ = np.asarray(weights[2] )
UpperCAmelCase_ = np.asarray(weights[3] )
set_param(
torch_layer.self_attention.query , torch.tensor(__A ).transpose(1 , 2 ).contiguous().view(-1 , __A ) , )
set_param(
torch_layer.self_attention.key , torch.tensor(__A ).transpose(1 , 2 ).contiguous().view(-1 , __A ) , )
set_param(
torch_layer.self_attention.value , torch.tensor(__A ).transpose(1 , 2 ).contiguous().view(-1 , __A ) , )
set_param(
torch_layer.output.dense , torch.tensor(__A ).view(-1 , __A ).contiguous().transpose(0 , 1 ) , )
def A (__A : int , __A : Union[str, Any] , __A : List[str] ) -> List[Any]:
"""simple docstring"""
UpperCAmelCase_ = weights[0][0][0]
UpperCAmelCase_ = np.asarray(layer_norm_a[0] )
UpperCAmelCase_ = np.asarray(layer_norm_a[1] )
set_param(
torch_block.attention.layer_norm , torch.tensor(__A ) , torch.tensor(__A ) , )
# lsh weights + output
UpperCAmelCase_ = weights[0][1]
if len(__A ) < 4:
set_layer_weights_in_torch_lsh(__A , torch_block.attention , __A )
else:
set_layer_weights_in_torch_local(__A , torch_block.attention , __A )
# intermediate weighs
UpperCAmelCase_ = weights[2][0][1][2]
# Chunked Feed Forward
if len(__A ) == 4:
UpperCAmelCase_ = intermediate_weights[2]
# layernorm 2
UpperCAmelCase_ = np.asarray(intermediate_weights[0][0] )
UpperCAmelCase_ = np.asarray(intermediate_weights[0][1] )
set_param(
torch_block.feed_forward.layer_norm , torch.tensor(__A ) , torch.tensor(__A ) , )
# intermediate dense
UpperCAmelCase_ = np.asarray(intermediate_weights[1][0] )
UpperCAmelCase_ = np.asarray(intermediate_weights[1][1] )
set_param(
torch_block.feed_forward.dense.dense , torch.tensor(__A ).transpose(0 , 1 ).contiguous() , torch.tensor(__A ) , )
# intermediate out
UpperCAmelCase_ = np.asarray(intermediate_weights[4][0] )
UpperCAmelCase_ = np.asarray(intermediate_weights[4][1] )
set_param(
torch_block.feed_forward.output.dense , torch.tensor(__A ).transpose(0 , 1 ).contiguous() , torch.tensor(__A ) , )
def A (__A : Optional[int] , __A : Tuple , __A : Any ) -> Tuple:
"""simple docstring"""
UpperCAmelCase_ = torch_model.reformer
# word embeds
UpperCAmelCase_ = np.asarray(weights[1] )
set_param(
torch_model_reformer.embeddings.word_embeddings , torch.tensor(__A ) , )
if isinstance(weights[3] , __A ):
UpperCAmelCase_ = torch_model_reformer.embeddings.position_embeddings
for emb_idx in range(len(position_embeddings.weights ) ):
UpperCAmelCase_ = 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"""
UpperCAmelCase_ = nn.Parameter(torch.tensor(__A ) )
UpperCAmelCase_ = weights[5]
assert len(torch_model_reformer.encoder.layers ) * 4 == len(
__A ), "HF and trax model do not have the same number of layers"
for layer_idx, layer in enumerate(torch_model_reformer.encoder.layers ):
UpperCAmelCase_ = trax_layer_weights[4 * layer_idx : 4 * (layer_idx + 1)]
set_block_weights_in_torch(__A , __A , __A )
# output layer norm
UpperCAmelCase_ = np.asarray(weights[7][0] )
UpperCAmelCase_ = np.asarray(weights[7][1] )
set_param(
torch_model_reformer.encoder.layer_norm , torch.tensor(__A ) , torch.tensor(__A ) , )
# output embeddings
UpperCAmelCase_ = np.asarray(weights[9][0] )
UpperCAmelCase_ = np.asarray(weights[9][1] )
set_param(
torch_model.lm_head.decoder , torch.tensor(__A ).transpose(0 , 1 ).contiguous() , torch.tensor(__A ) , )
def A (__A : Tuple , __A : int , __A : str ) -> Union[str, Any]:
"""simple docstring"""
UpperCAmelCase_ = ReformerConfig.from_json_file(__A )
print(F"""Building PyTorch model from configuration: {config}""" )
UpperCAmelCase_ = ReformerModelWithLMHead(__A )
with open(__A , '''rb''' ) as f:
UpperCAmelCase_ = pickle.load(__A )['''weights''']
set_model_weights_in_torch(__A , __A , config.hidden_size )
# Save pytorch-model
print(F"""Save PyTorch model to {pytorch_dump_path}""" )
torch.save(model.state_dict() , __A )
if __name__ == "__main__":
snake_case_ : Optional[Any] = 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."
)
snake_case_ : List[Any] = parser.parse_args()
convert_trax_checkpoint_to_pytorch(args.trax_model_pkl_path, args.config_file, args.pytorch_dump_path)
| 51
|
from collections import OrderedDict
from typing import Any, List, Mapping, Optional
from ... import PreTrainedTokenizer, TensorType, is_torch_available
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfigWithPast, PatchingSpec
from ...utils import logging
snake_case_ : List[str] = logging.get_logger(__name__)
snake_case_ : Tuple = {
"Salesforce/codegen-350M-nl": "https://huggingface.co/Salesforce/codegen-350M-nl/resolve/main/config.json",
"Salesforce/codegen-350M-multi": "https://huggingface.co/Salesforce/codegen-350M-multi/resolve/main/config.json",
"Salesforce/codegen-350M-mono": "https://huggingface.co/Salesforce/codegen-350M-mono/resolve/main/config.json",
"Salesforce/codegen-2B-nl": "https://huggingface.co/Salesforce/codegen-2B-nl/resolve/main/config.json",
"Salesforce/codegen-2B-multi": "https://huggingface.co/Salesforce/codegen-2B-multi/resolve/main/config.json",
"Salesforce/codegen-2B-mono": "https://huggingface.co/Salesforce/codegen-2B-mono/resolve/main/config.json",
"Salesforce/codegen-6B-nl": "https://huggingface.co/Salesforce/codegen-6B-nl/resolve/main/config.json",
"Salesforce/codegen-6B-multi": "https://huggingface.co/Salesforce/codegen-6B-multi/resolve/main/config.json",
"Salesforce/codegen-6B-mono": "https://huggingface.co/Salesforce/codegen-6B-mono/resolve/main/config.json",
"Salesforce/codegen-16B-nl": "https://huggingface.co/Salesforce/codegen-16B-nl/resolve/main/config.json",
"Salesforce/codegen-16B-multi": "https://huggingface.co/Salesforce/codegen-16B-multi/resolve/main/config.json",
"Salesforce/codegen-16B-mono": "https://huggingface.co/Salesforce/codegen-16B-mono/resolve/main/config.json",
}
class __snake_case ( a ):
UpperCAmelCase__ : str = '''codegen'''
UpperCAmelCase__ : int = {
'''max_position_embeddings''': '''n_positions''',
'''hidden_size''': '''n_embd''',
'''num_attention_heads''': '''n_head''',
'''num_hidden_layers''': '''n_layer''',
}
def __init__( self : Union[str, Any] , _snake_case : Union[str, Any]=50400 , _snake_case : Optional[int]=2048 , _snake_case : Union[str, Any]=2048 , _snake_case : List[str]=4096 , _snake_case : Any=28 , _snake_case : List[str]=16 , _snake_case : int=64 , _snake_case : Tuple=None , _snake_case : Dict="gelu_new" , _snake_case : Union[str, Any]=0.0 , _snake_case : Optional[Any]=0.0 , _snake_case : List[Any]=0.0 , _snake_case : List[Any]=1e-5 , _snake_case : List[str]=0.0_2 , _snake_case : Optional[Any]=True , _snake_case : int=50256 , _snake_case : Tuple=50256 , _snake_case : int=False , **_snake_case : Any , ):
"""simple docstring"""
UpperCAmelCase_ = vocab_size
UpperCAmelCase_ = n_ctx
UpperCAmelCase_ = n_positions
UpperCAmelCase_ = n_embd
UpperCAmelCase_ = n_layer
UpperCAmelCase_ = n_head
UpperCAmelCase_ = n_inner
UpperCAmelCase_ = rotary_dim
UpperCAmelCase_ = activation_function
UpperCAmelCase_ = resid_pdrop
UpperCAmelCase_ = embd_pdrop
UpperCAmelCase_ = attn_pdrop
UpperCAmelCase_ = layer_norm_epsilon
UpperCAmelCase_ = initializer_range
UpperCAmelCase_ = use_cache
UpperCAmelCase_ = bos_token_id
UpperCAmelCase_ = eos_token_id
super().__init__(
bos_token_id=_snake_case , eos_token_id=_snake_case , tie_word_embeddings=_snake_case , **_snake_case)
class __snake_case ( a ):
def __init__( self : Tuple , _snake_case : PretrainedConfig , _snake_case : str = "default" , _snake_case : List[PatchingSpec] = None , _snake_case : bool = False , ):
"""simple docstring"""
super().__init__(_snake_case , task=_snake_case , patching_specs=_snake_case , use_past=_snake_case)
if not getattr(self._config , '''pad_token_id''' , _snake_case):
# TODO: how to do that better?
UpperCAmelCase_ = 0
@property
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = OrderedDict({'''input_ids''': {0: '''batch''', 1: '''sequence'''}})
if self.use_past:
self.fill_with_past_key_values_(_snake_case , direction='''inputs''')
UpperCAmelCase_ = {0: '''batch''', 1: '''past_sequence + sequence'''}
else:
UpperCAmelCase_ = {0: '''batch''', 1: '''sequence'''}
return common_inputs
@property
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
return self._config.n_layer
@property
def lowerCamelCase ( self : int):
"""simple docstring"""
return self._config.n_head
def lowerCamelCase ( self : Optional[int] , _snake_case : PreTrainedTokenizer , _snake_case : int = -1 , _snake_case : int = -1 , _snake_case : bool = False , _snake_case : Optional[TensorType] = None , ):
"""simple docstring"""
UpperCAmelCase_ = super(_snake_case , self).generate_dummy_inputs(
_snake_case , batch_size=_snake_case , seq_length=_snake_case , is_pair=_snake_case , framework=_snake_case)
# We need to order the input in the way they appears in the forward()
UpperCAmelCase_ = 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
UpperCAmelCase_ , UpperCAmelCase_ = common_inputs['''input_ids'''].shape
# Not using the same length for past_key_values
UpperCAmelCase_ = seqlen + 2
UpperCAmelCase_ = (
batch,
self.num_attention_heads,
past_key_values_length,
self._config.hidden_size // self.num_attention_heads,
)
UpperCAmelCase_ = [
(torch.zeros(_snake_case), torch.zeros(_snake_case)) for _ in range(self.num_layers)
]
UpperCAmelCase_ = common_inputs['''attention_mask''']
if self.use_past:
UpperCAmelCase_ = ordered_inputs['''attention_mask'''].dtype
UpperCAmelCase_ = torch.cat(
[ordered_inputs['''attention_mask'''], torch.ones(_snake_case , _snake_case , dtype=_snake_case)] , dim=1)
return ordered_inputs
@property
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
return 13
| 51
| 1
|
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_sentencepiece_available,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
snake_case_ : List[str] = {"configuration_xglm": ["XGLM_PRETRAINED_CONFIG_ARCHIVE_MAP", "XGLMConfig"]}
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : int = ["XGLMTokenizer"]
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Optional[Any] = ["XGLMTokenizerFast"]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Dict = [
"XGLM_PRETRAINED_MODEL_ARCHIVE_LIST",
"XGLMForCausalLM",
"XGLMModel",
"XGLMPreTrainedModel",
]
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Any = [
"FlaxXGLMForCausalLM",
"FlaxXGLMModel",
"FlaxXGLMPreTrainedModel",
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Optional[Any] = [
"TF_XGLM_PRETRAINED_MODEL_ARCHIVE_LIST",
"TFXGLMForCausalLM",
"TFXGLMModel",
"TFXGLMPreTrainedModel",
]
if TYPE_CHECKING:
from .configuration_xglm import XGLM_PRETRAINED_CONFIG_ARCHIVE_MAP, XGLMConfig
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_xglm import XGLMTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_xglm_fast import XGLMTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_xglm import XGLM_PRETRAINED_MODEL_ARCHIVE_LIST, XGLMForCausalLM, XGLMModel, XGLMPreTrainedModel
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_xglm import FlaxXGLMForCausalLM, FlaxXGLMModel, FlaxXGLMPreTrainedModel
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_xglm import (
TF_XGLM_PRETRAINED_MODEL_ARCHIVE_LIST,
TFXGLMForCausalLM,
TFXGLMModel,
TFXGLMPreTrainedModel,
)
else:
import sys
snake_case_ : str = _LazyModule(__name__, globals()["__file__"], _import_structure)
| 51
|
import os
import unittest
from transformers.models.phobert.tokenization_phobert import VOCAB_FILES_NAMES, PhobertTokenizer
from ...test_tokenization_common import TokenizerTesterMixin
class __snake_case ( a , unittest.TestCase ):
UpperCAmelCase__ : Any = PhobertTokenizer
UpperCAmelCase__ : List[str] = False
def lowerCamelCase ( self : str):
"""simple docstring"""
super().setUp()
# Adapted from Sennrich et al. 2015 and https://github.com/rsennrich/subword-nmt
UpperCAmelCase_ = ['''T@@''', '''i''', '''I''', '''R@@''', '''r''', '''e@@''']
UpperCAmelCase_ = dict(zip(_snake_case , range(len(_snake_case))))
UpperCAmelCase_ = ['''#version: 0.2''', '''l à</w>''']
UpperCAmelCase_ = {'''unk_token''': '''<unk>'''}
UpperCAmelCase_ = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['''vocab_file'''])
UpperCAmelCase_ = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['''merges_file'''])
with open(self.vocab_file , '''w''' , encoding='''utf-8''') as fp:
for token in vocab_tokens:
fp.write(F"""{token} {vocab_tokens[token]}\n""")
with open(self.merges_file , '''w''' , encoding='''utf-8''') as fp:
fp.write('''\n'''.join(_snake_case))
def lowerCamelCase ( self : int , **_snake_case : Any):
"""simple docstring"""
kwargs.update(self.special_tokens_map)
return PhobertTokenizer.from_pretrained(self.tmpdirname , **_snake_case)
def lowerCamelCase ( self : Optional[Any] , _snake_case : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = '''Tôi là VinAI Research'''
UpperCAmelCase_ = '''T<unk> i <unk> <unk> <unk> <unk> <unk> <unk> I Re<unk> e<unk> <unk> <unk> <unk>'''
return input_text, output_text
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = PhobertTokenizer(self.vocab_file , self.merges_file , **self.special_tokens_map)
UpperCAmelCase_ = '''Tôi là VinAI Research'''
UpperCAmelCase_ = '''T@@ ô@@ i l@@ à V@@ i@@ n@@ A@@ I R@@ e@@ s@@ e@@ a@@ r@@ c@@ h'''.split()
UpperCAmelCase_ = tokenizer.tokenize(_snake_case)
print(_snake_case)
self.assertListEqual(_snake_case , _snake_case)
UpperCAmelCase_ = tokens + [tokenizer.unk_token]
UpperCAmelCase_ = [4, 3, 5, 3, 3, 3, 3, 3, 3, 6, 7, 9, 3, 9, 3, 3, 3, 3, 3]
self.assertListEqual(tokenizer.convert_tokens_to_ids(_snake_case) , _snake_case)
| 51
| 1
|
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_sentencepiece_available,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
snake_case_ : str = {
"configuration_xlm_roberta": [
"XLM_ROBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP",
"XLMRobertaConfig",
"XLMRobertaOnnxConfig",
],
}
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Dict = ["XLMRobertaTokenizer"]
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Optional[Any] = ["XLMRobertaTokenizerFast"]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Optional[Any] = [
"XLM_ROBERTA_PRETRAINED_MODEL_ARCHIVE_LIST",
"XLMRobertaForCausalLM",
"XLMRobertaForMaskedLM",
"XLMRobertaForMultipleChoice",
"XLMRobertaForQuestionAnswering",
"XLMRobertaForSequenceClassification",
"XLMRobertaForTokenClassification",
"XLMRobertaModel",
"XLMRobertaPreTrainedModel",
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : List[Any] = [
"TF_XLM_ROBERTA_PRETRAINED_MODEL_ARCHIVE_LIST",
"TFXLMRobertaForCausalLM",
"TFXLMRobertaForMaskedLM",
"TFXLMRobertaForMultipleChoice",
"TFXLMRobertaForQuestionAnswering",
"TFXLMRobertaForSequenceClassification",
"TFXLMRobertaForTokenClassification",
"TFXLMRobertaModel",
"TFXLMRobertaPreTrainedModel",
]
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Union[str, Any] = [
"FLAX_XLM_ROBERTA_PRETRAINED_MODEL_ARCHIVE_LIST",
"FlaxXLMRobertaForMaskedLM",
"FlaxXLMRobertaForCausalLM",
"FlaxXLMRobertaForMultipleChoice",
"FlaxXLMRobertaForQuestionAnswering",
"FlaxXLMRobertaForSequenceClassification",
"FlaxXLMRobertaForTokenClassification",
"FlaxXLMRobertaModel",
"FlaxXLMRobertaPreTrainedModel",
]
if TYPE_CHECKING:
from .configuration_xlm_roberta import (
XLM_ROBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP,
XLMRobertaConfig,
XLMRobertaOnnxConfig,
)
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_xlm_roberta import XLMRobertaTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_xlm_roberta_fast import XLMRobertaTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_xlm_roberta import (
XLM_ROBERTA_PRETRAINED_MODEL_ARCHIVE_LIST,
XLMRobertaForCausalLM,
XLMRobertaForMaskedLM,
XLMRobertaForMultipleChoice,
XLMRobertaForQuestionAnswering,
XLMRobertaForSequenceClassification,
XLMRobertaForTokenClassification,
XLMRobertaModel,
XLMRobertaPreTrainedModel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_xlm_roberta import (
TF_XLM_ROBERTA_PRETRAINED_MODEL_ARCHIVE_LIST,
TFXLMRobertaForCausalLM,
TFXLMRobertaForMaskedLM,
TFXLMRobertaForMultipleChoice,
TFXLMRobertaForQuestionAnswering,
TFXLMRobertaForSequenceClassification,
TFXLMRobertaForTokenClassification,
TFXLMRobertaModel,
TFXLMRobertaPreTrainedModel,
)
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_xlm_roberta import (
FLAX_XLM_ROBERTA_PRETRAINED_MODEL_ARCHIVE_LIST,
FlaxXLMRobertaForCausalLM,
FlaxXLMRobertaForMaskedLM,
FlaxXLMRobertaForMultipleChoice,
FlaxXLMRobertaForQuestionAnswering,
FlaxXLMRobertaForSequenceClassification,
FlaxXLMRobertaForTokenClassification,
FlaxXLMRobertaModel,
FlaxXLMRobertaPreTrainedModel,
)
else:
import sys
snake_case_ : int = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 51
|
from typing import List, Optional, TypeVar
from .arrow_dataset import Dataset, _concatenate_map_style_datasets, _interleave_map_style_datasets
from .dataset_dict import DatasetDict, IterableDatasetDict
from .info import DatasetInfo
from .iterable_dataset import IterableDataset, _concatenate_iterable_datasets, _interleave_iterable_datasets
from .splits import NamedSplit
from .utils import logging
from .utils.py_utils import Literal
snake_case_ : Any = logging.get_logger(__name__)
snake_case_ : Optional[int] = TypeVar("DatasetType", Dataset, IterableDataset)
def A (__A : List[DatasetType] , __A : Optional[List[float]] = None , __A : Optional[int] = None , __A : Optional[DatasetInfo] = None , __A : Optional[NamedSplit] = None , __A : Literal["first_exhausted", "all_exhausted"] = "first_exhausted" , ) -> DatasetType:
"""simple docstring"""
from .arrow_dataset import Dataset
from .iterable_dataset import IterableDataset
if not datasets:
raise ValueError('''Unable to interleave an empty list of datasets.''' )
for i, dataset in enumerate(__A ):
if not isinstance(__A , (Dataset, IterableDataset) ):
if isinstance(__A , (DatasetDict, IterableDatasetDict) ):
if not dataset:
raise ValueError(
F"""Expected a list of Dataset objects or a list of IterableDataset objects, but element at position {i} """
'''is an empty dataset dictionary.''' )
raise ValueError(
F"""Dataset at position {i} has at least one split: {list(__A )}\n"""
F"""Please pick one to interleave with the other datasets, for example: dataset['{next(iter(__A ) )}']""" )
raise ValueError(
F"""Expected a list of Dataset objects or a list of IterableDataset objects, but element at position {i} is a {type(__A ).__name__}.""" )
if i == 0:
UpperCAmelCase_ , UpperCAmelCase_ = (
(Dataset, IterableDataset) if isinstance(__A , __A ) else (IterableDataset, Dataset)
)
elif not isinstance(__A , __A ):
raise ValueError(
F"""Unable to interleave a {dataset_type.__name__} (at position 0) with a {other_type.__name__} (at position {i}). Expected a list of Dataset objects or a list of IterableDataset objects.""" )
if stopping_strategy not in ["first_exhausted", "all_exhausted"]:
raise ValueError(F"""{stopping_strategy} is not supported. Please enter a valid stopping_strategy.""" )
if dataset_type is Dataset:
return _interleave_map_style_datasets(
__A , __A , __A , info=__A , split=__A , stopping_strategy=__A )
else:
return _interleave_iterable_datasets(
__A , __A , __A , info=__A , split=__A , stopping_strategy=__A )
def A (__A : List[DatasetType] , __A : Optional[DatasetInfo] = None , __A : Optional[NamedSplit] = None , __A : int = 0 , ) -> DatasetType:
"""simple docstring"""
if not dsets:
raise ValueError('''Unable to concatenate an empty list of datasets.''' )
for i, dataset in enumerate(__A ):
if not isinstance(__A , (Dataset, IterableDataset) ):
if isinstance(__A , (DatasetDict, IterableDatasetDict) ):
if not dataset:
raise ValueError(
F"""Expected a list of Dataset objects or a list of IterableDataset objects, but element at position {i} """
'''is an empty dataset dictionary.''' )
raise ValueError(
F"""Dataset at position {i} has at least one split: {list(__A )}\n"""
F"""Please pick one to interleave with the other datasets, for example: dataset['{next(iter(__A ) )}']""" )
raise ValueError(
F"""Expected a list of Dataset objects or a list of IterableDataset objects, but element at position {i} is a {type(__A ).__name__}.""" )
if i == 0:
UpperCAmelCase_ , UpperCAmelCase_ = (
(Dataset, IterableDataset) if isinstance(__A , __A ) else (IterableDataset, Dataset)
)
elif not isinstance(__A , __A ):
raise ValueError(
F"""Unable to interleave a {dataset_type.__name__} (at position 0) with a {other_type.__name__} (at position {i}). Expected a list of Dataset objects or a list of IterableDataset objects.""" )
if dataset_type is Dataset:
return _concatenate_map_style_datasets(__A , info=__A , split=__A , axis=__A )
else:
return _concatenate_iterable_datasets(__A , info=__A , split=__A , axis=__A )
| 51
| 1
|
import unittest
import numpy as np
from transformers.testing_utils import is_flaky, 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 DonutImageProcessor
class __snake_case ( unittest.TestCase ):
def __init__( self : Any , _snake_case : int , _snake_case : List[str]=7 , _snake_case : Dict=3 , _snake_case : str=18 , _snake_case : Optional[Any]=30 , _snake_case : Any=400 , _snake_case : Optional[Any]=True , _snake_case : Tuple=None , _snake_case : List[Any]=True , _snake_case : Tuple=False , _snake_case : str=True , _snake_case : Any=True , _snake_case : Dict=[0.5, 0.5, 0.5] , _snake_case : Optional[int]=[0.5, 0.5, 0.5] , ):
"""simple docstring"""
UpperCAmelCase_ = parent
UpperCAmelCase_ = batch_size
UpperCAmelCase_ = num_channels
UpperCAmelCase_ = image_size
UpperCAmelCase_ = min_resolution
UpperCAmelCase_ = max_resolution
UpperCAmelCase_ = do_resize
UpperCAmelCase_ = size if size is not None else {'''height''': 18, '''width''': 20}
UpperCAmelCase_ = do_thumbnail
UpperCAmelCase_ = do_align_axis
UpperCAmelCase_ = do_pad
UpperCAmelCase_ = do_normalize
UpperCAmelCase_ = image_mean
UpperCAmelCase_ = image_std
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
return {
"do_resize": self.do_resize,
"size": self.size,
"do_thumbnail": self.do_thumbnail,
"do_align_long_axis": self.do_align_axis,
"do_pad": self.do_pad,
"do_normalize": self.do_normalize,
"image_mean": self.image_mean,
"image_std": self.image_std,
}
@require_torch
@require_vision
class __snake_case ( a , unittest.TestCase ):
UpperCAmelCase__ : int = DonutImageProcessor if is_vision_available() else None
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = DonutImageProcessingTester(self)
@property
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
return self.image_processor_tester.prepare_image_processor_dict()
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = self.image_processing_class(**self.image_processor_dict)
self.assertTrue(hasattr(_snake_case , '''do_resize'''))
self.assertTrue(hasattr(_snake_case , '''size'''))
self.assertTrue(hasattr(_snake_case , '''do_thumbnail'''))
self.assertTrue(hasattr(_snake_case , '''do_align_long_axis'''))
self.assertTrue(hasattr(_snake_case , '''do_pad'''))
self.assertTrue(hasattr(_snake_case , '''do_normalize'''))
self.assertTrue(hasattr(_snake_case , '''image_mean'''))
self.assertTrue(hasattr(_snake_case , '''image_std'''))
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = self.image_processing_class.from_dict(self.image_processor_dict)
self.assertEqual(image_processor.size , {'''height''': 18, '''width''': 20})
UpperCAmelCase_ = self.image_processing_class.from_dict(self.image_processor_dict , size=42)
self.assertEqual(image_processor.size , {'''height''': 42, '''width''': 42})
# Previous config had dimensions in (width, height) order
UpperCAmelCase_ = self.image_processing_class.from_dict(self.image_processor_dict , size=(42, 84))
self.assertEqual(image_processor.size , {'''height''': 84, '''width''': 42})
def lowerCamelCase ( self : int):
"""simple docstring"""
pass
@is_flaky()
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = self.image_processing_class(**self.image_processor_dict)
# create random PIL images
UpperCAmelCase_ = prepare_image_inputs(self.image_processor_tester , equal_resolution=_snake_case)
for image in image_inputs:
self.assertIsInstance(_snake_case , Image.Image)
# Test not batched input
UpperCAmelCase_ = image_processing(image_inputs[0] , return_tensors='''pt''').pixel_values
self.assertEqual(
encoded_images.shape , (
1,
self.image_processor_tester.num_channels,
self.image_processor_tester.size['''height'''],
self.image_processor_tester.size['''width'''],
) , )
# Test batched
UpperCAmelCase_ = image_processing(_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.size['''height'''],
self.image_processor_tester.size['''width'''],
) , )
@is_flaky()
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = self.image_processing_class(**self.image_processor_dict)
# create random numpy tensors
UpperCAmelCase_ = prepare_image_inputs(self.image_processor_tester , equal_resolution=_snake_case , numpify=_snake_case)
for image in image_inputs:
self.assertIsInstance(_snake_case , np.ndarray)
# Test not batched input
UpperCAmelCase_ = image_processing(image_inputs[0] , return_tensors='''pt''').pixel_values
self.assertEqual(
encoded_images.shape , (
1,
self.image_processor_tester.num_channels,
self.image_processor_tester.size['''height'''],
self.image_processor_tester.size['''width'''],
) , )
# Test batched
UpperCAmelCase_ = image_processing(_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.size['''height'''],
self.image_processor_tester.size['''width'''],
) , )
@is_flaky()
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = self.image_processing_class(**self.image_processor_dict)
# create random PyTorch tensors
UpperCAmelCase_ = prepare_image_inputs(self.image_processor_tester , equal_resolution=_snake_case , torchify=_snake_case)
for image in image_inputs:
self.assertIsInstance(_snake_case , torch.Tensor)
# Test not batched input
UpperCAmelCase_ = image_processing(image_inputs[0] , return_tensors='''pt''').pixel_values
self.assertEqual(
encoded_images.shape , (
1,
self.image_processor_tester.num_channels,
self.image_processor_tester.size['''height'''],
self.image_processor_tester.size['''width'''],
) , )
# Test batched
UpperCAmelCase_ = image_processing(_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.size['''height'''],
self.image_processor_tester.size['''width'''],
) , )
| 51
|
import json
import os
import re
import shutil
import tempfile
import unittest
from typing import Tuple
from transformers import AddedToken, BatchEncoding, ByTaTokenizer
from transformers.utils import cached_property, is_tf_available, is_torch_available
from ...test_tokenization_common import TokenizerTesterMixin
if is_torch_available():
snake_case_ : Optional[Any] = "pt"
elif is_tf_available():
snake_case_ : Union[str, Any] = "tf"
else:
snake_case_ : str = "jax"
class __snake_case ( a , unittest.TestCase ):
UpperCAmelCase__ : List[Any] = ByTaTokenizer
UpperCAmelCase__ : int = False
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
super().setUp()
UpperCAmelCase_ = ByTaTokenizer()
tokenizer.save_pretrained(self.tmpdirname)
@cached_property
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
return ByTaTokenizer.from_pretrained('''google/byt5-small''')
def lowerCamelCase ( self : List[str] , **_snake_case : Union[str, Any]):
"""simple docstring"""
return self.tokenizer_class.from_pretrained(self.tmpdirname , **_snake_case)
def lowerCamelCase ( self : Dict , _snake_case : int , _snake_case : Tuple=False , _snake_case : Dict=20 , _snake_case : Optional[Any]=5):
"""simple docstring"""
UpperCAmelCase_ = []
for i in range(len(_snake_case)):
try:
UpperCAmelCase_ = tokenizer.decode([i] , clean_up_tokenization_spaces=_snake_case)
except UnicodeDecodeError:
pass
toks.append((i, tok))
UpperCAmelCase_ = list(filter(lambda _snake_case: re.match(r'''^[ a-zA-Z]+$''' , t[1]) , _snake_case))
UpperCAmelCase_ = list(filter(lambda _snake_case: [t[0]] == tokenizer.encode(t[1] , add_special_tokens=_snake_case) , _snake_case))
if max_length is not None and len(_snake_case) > max_length:
UpperCAmelCase_ = toks[:max_length]
if min_length is not None and len(_snake_case) < min_length and len(_snake_case) > 0:
while len(_snake_case) < min_length:
UpperCAmelCase_ = toks + toks
# toks_str = [t[1] for t in toks]
UpperCAmelCase_ = [t[0] for t in toks]
# Ensure consistency
UpperCAmelCase_ = tokenizer.decode(_snake_case , clean_up_tokenization_spaces=_snake_case)
if " " not in output_txt and len(_snake_case) > 1:
UpperCAmelCase_ = (
tokenizer.decode([toks_ids[0]] , clean_up_tokenization_spaces=_snake_case)
+ ''' '''
+ tokenizer.decode(toks_ids[1:] , clean_up_tokenization_spaces=_snake_case)
)
if with_prefix_space:
UpperCAmelCase_ = ''' ''' + output_txt
UpperCAmelCase_ = tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
return output_txt, output_ids
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = tokenizer(['''hi</s>''', '''I went to the gym</s>''', '''</s>'''])
UpperCAmelCase_ = tokenizer(['''hi''', '''I went to the gym''', ''''''])
self.assertListEqual(batch_with_eos_added['''input_ids'''] , batch_without_eos_added['''input_ids'''])
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = '''Unicode €.'''
UpperCAmelCase_ = tokenizer(_snake_case)
UpperCAmelCase_ = [88, 113, 108, 102, 114, 103, 104, 35, 229, 133, 175, 49, 1]
self.assertEqual(encoded['''input_ids'''] , _snake_case)
# decoding
UpperCAmelCase_ = tokenizer.decode(_snake_case)
self.assertEqual(_snake_case , '''Unicode €.</s>''')
UpperCAmelCase_ = tokenizer('''e è é ê ë''')
UpperCAmelCase_ = [104, 35, 198, 171, 35, 198, 172, 35, 198, 173, 35, 198, 174, 1]
self.assertEqual(encoded['''input_ids'''] , _snake_case)
# decoding
UpperCAmelCase_ = tokenizer.decode(_snake_case)
self.assertEqual(_snake_case , '''e è é ê ë</s>''')
# encode/decode, but with `encode` instead of `__call__`
self.assertEqual(tokenizer.decode(tokenizer.encode('''e è é ê ë''')) , '''e è é ê ë</s>''')
def lowerCamelCase ( self : Any):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = ['''A long paragraph for summarization.''', '''Another paragraph for summarization.''']
# fmt: off
UpperCAmelCase_ = [68, 35, 111, 114, 113, 106, 35, 115, 100, 117, 100, 106, 117, 100, 115, 107, 35, 105, 114, 117, 35, 118, 120, 112, 112, 100, 117, 108, 125, 100, 119, 108, 114, 113, 49, 1, 0]
# fmt: on
UpperCAmelCase_ = tokenizer(_snake_case , padding=_snake_case , return_tensors=_snake_case)
self.assertIsInstance(_snake_case , _snake_case)
if FRAMEWORK != "jax":
UpperCAmelCase_ = list(batch.input_ids.numpy()[0])
else:
UpperCAmelCase_ = list(batch.input_ids.tolist()[0])
self.assertListEqual(_snake_case , _snake_case)
self.assertEqual((2, 37) , batch.input_ids.shape)
self.assertEqual((2, 37) , batch.attention_mask.shape)
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = ['''A long paragraph for summarization.''', '''Another paragraph for summarization.''']
UpperCAmelCase_ = tokenizer(_snake_case , padding=_snake_case , return_tensors=_snake_case)
# check if input_ids are returned and no decoder_input_ids
self.assertIn('''input_ids''' , _snake_case)
self.assertIn('''attention_mask''' , _snake_case)
self.assertNotIn('''decoder_input_ids''' , _snake_case)
self.assertNotIn('''decoder_attention_mask''' , _snake_case)
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = [
'''Summary of the text.''',
'''Another summary.''',
]
UpperCAmelCase_ = tokenizer(
text_target=_snake_case , max_length=32 , padding='''max_length''' , truncation=_snake_case , return_tensors=_snake_case)
self.assertEqual(32 , targets['''input_ids'''].shape[1])
def lowerCamelCase ( self : int):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = ['''A long paragraph for summarization. </s>''']
UpperCAmelCase_ = ['''Summary of the text. </s>''']
# fmt: off
UpperCAmelCase_ = [68, 35, 111, 114, 113, 106, 35, 115, 100, 117, 100, 106, 117, 100, 115, 107, 35, 105, 114, 117, 35, 118, 120, 112, 112, 100, 117, 108, 125, 100, 119, 108, 114, 113, 49, 35, 1]
UpperCAmelCase_ = [86, 120, 112, 112, 100, 117, 124, 35, 114, 105, 35, 119, 107, 104, 35, 119, 104, 123, 119, 49, 35, 1]
# fmt: on
UpperCAmelCase_ = tokenizer(_snake_case , text_target=_snake_case)
self.assertEqual(_snake_case , batch['''input_ids'''][0])
self.assertEqual(_snake_case , batch['''labels'''][0])
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = self.get_tokenizers()
for tokenizer in tokenizers:
with self.subTest(F"""{tokenizer.__class__.__name__}"""):
self.assertNotEqual(tokenizer.model_max_length , 42)
# Now let's start the test
UpperCAmelCase_ = self.get_tokenizers()
for tokenizer in tokenizers:
with self.subTest(F"""{tokenizer.__class__.__name__}"""):
# Isolate this from the other tests because we save additional tokens/etc
UpperCAmelCase_ = tempfile.mkdtemp()
UpperCAmelCase_ = ''' He is very happy, UNwant\u00E9d,running'''
UpperCAmelCase_ = tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
tokenizer.save_pretrained(_snake_case)
UpperCAmelCase_ = tokenizer.__class__.from_pretrained(_snake_case)
UpperCAmelCase_ = after_tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
self.assertListEqual(_snake_case , _snake_case)
shutil.rmtree(_snake_case)
UpperCAmelCase_ = self.get_tokenizers(model_max_length=42)
for tokenizer in tokenizers:
with self.subTest(F"""{tokenizer.__class__.__name__}"""):
# Isolate this from the other tests because we save additional tokens/etc
UpperCAmelCase_ = tempfile.mkdtemp()
UpperCAmelCase_ = ''' He is very happy, UNwant\u00E9d,running'''
tokenizer.add_tokens(['''bim''', '''bambam'''])
UpperCAmelCase_ = tokenizer.additional_special_tokens
additional_special_tokens.append('''new_additional_special_token''')
tokenizer.add_special_tokens({'''additional_special_tokens''': additional_special_tokens})
UpperCAmelCase_ = tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
tokenizer.save_pretrained(_snake_case)
UpperCAmelCase_ = tokenizer.__class__.from_pretrained(_snake_case)
UpperCAmelCase_ = after_tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
self.assertListEqual(_snake_case , _snake_case)
self.assertIn('''new_additional_special_token''' , after_tokenizer.additional_special_tokens)
self.assertEqual(after_tokenizer.model_max_length , 42)
UpperCAmelCase_ = tokenizer.__class__.from_pretrained(_snake_case , model_max_length=43)
self.assertEqual(tokenizer.model_max_length , 43)
shutil.rmtree(_snake_case)
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = []
if self.test_slow_tokenizer:
tokenizer_list.append((self.tokenizer_class, self.get_tokenizer()))
if self.test_rust_tokenizer:
tokenizer_list.append((self.rust_tokenizer_class, self.get_rust_tokenizer()))
for tokenizer_class, tokenizer_utils in tokenizer_list:
with tempfile.TemporaryDirectory() as tmp_dir:
tokenizer_utils.save_pretrained(_snake_case)
with open(os.path.join(_snake_case , '''special_tokens_map.json''') , encoding='''utf-8''') as json_file:
UpperCAmelCase_ = json.load(_snake_case)
with open(os.path.join(_snake_case , '''tokenizer_config.json''') , encoding='''utf-8''') as json_file:
UpperCAmelCase_ = json.load(_snake_case)
UpperCAmelCase_ = [F"""<extra_id_{i}>""" for i in range(125)]
UpperCAmelCase_ = added_tokens_extra_ids + [
'''an_additional_special_token'''
]
UpperCAmelCase_ = added_tokens_extra_ids + [
'''an_additional_special_token'''
]
with open(os.path.join(_snake_case , '''special_tokens_map.json''') , '''w''' , encoding='''utf-8''') as outfile:
json.dump(_snake_case , _snake_case)
with open(os.path.join(_snake_case , '''tokenizer_config.json''') , '''w''' , encoding='''utf-8''') as outfile:
json.dump(_snake_case , _snake_case)
# the following checks allow us to verify that our test works as expected, i.e. that the tokenizer takes
# into account the new value of additional_special_tokens given in the "tokenizer_config.json" and
# "special_tokens_map.json" files
UpperCAmelCase_ = tokenizer_class.from_pretrained(
_snake_case , )
self.assertIn(
'''an_additional_special_token''' , tokenizer_without_change_in_init.additional_special_tokens)
# self.assertIn("an_additional_special_token",tokenizer_without_change_in_init.get_vocab()) # ByT5Tokenization no vocab
self.assertEqual(
['''an_additional_special_token'''] , tokenizer_without_change_in_init.convert_ids_to_tokens(
tokenizer_without_change_in_init.convert_tokens_to_ids(['''an_additional_special_token'''])) , )
# Now we test that we can change the value of additional_special_tokens in the from_pretrained
UpperCAmelCase_ = added_tokens_extra_ids + [AddedToken('''a_new_additional_special_token''' , lstrip=_snake_case)]
UpperCAmelCase_ = tokenizer_class.from_pretrained(
_snake_case , additional_special_tokens=_snake_case , )
self.assertIn('''a_new_additional_special_token''' , tokenizer.additional_special_tokens)
self.assertEqual(
['''a_new_additional_special_token'''] , tokenizer.convert_ids_to_tokens(
tokenizer.convert_tokens_to_ids(['''a_new_additional_special_token'''])) , )
def lowerCamelCase ( self : Any):
"""simple docstring"""
UpperCAmelCase_ = []
if self.test_slow_tokenizer:
tokenizer_list.append((self.tokenizer_class, self.get_tokenizer()))
if self.test_rust_tokenizer:
tokenizer_list.append((self.rust_tokenizer_class, self.get_rust_tokenizer()))
for tokenizer_class, tokenizer_utils in tokenizer_list:
with tempfile.TemporaryDirectory() as tmp_dir:
tokenizer_utils.save_pretrained(_snake_case)
UpperCAmelCase_ = tokenizer_class.from_pretrained(_snake_case)
self.assertTrue(tokenizer.decode([255]) == '''''')
def lowerCamelCase ( self : int):
"""simple docstring"""
pass
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
pass
def lowerCamelCase ( self : Dict):
"""simple docstring"""
pass
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
pass
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = self.get_tokenizers(fast=_snake_case , do_lower_case=_snake_case)
for tokenizer in tokenizers:
with self.subTest(F"""{tokenizer.__class__.__name__}"""):
UpperCAmelCase_ = ['''t''', '''h''', '''i''', '''s''', ''' ''', '''i''', '''s''', ''' ''', '''a''', ''' ''', '''t''', '''e''', '''x''', '''t''', '''</s>''']
UpperCAmelCase_ = tokenizer.convert_tokens_to_string(_snake_case)
self.assertIsInstance(_snake_case , _snake_case)
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = self.get_tokenizers()
for tokenizer in tokenizers:
with self.subTest(F"""{tokenizer.__class__.__name__}"""):
UpperCAmelCase_ = [
'''bos_token''',
'''eos_token''',
'''unk_token''',
'''sep_token''',
'''pad_token''',
'''cls_token''',
'''mask_token''',
]
UpperCAmelCase_ = 0
UpperCAmelCase_ = tokenizer.convert_ids_to_tokens(
_snake_case , skip_special_tokens=_snake_case)
for attr in attributes_list:
setattr(_snake_case , attr + '''_id''' , _snake_case)
self.assertEqual(getattr(_snake_case , _snake_case) , _snake_case)
self.assertEqual(getattr(_snake_case , attr + '''_id''') , _snake_case)
setattr(_snake_case , attr + '''_id''' , _snake_case)
self.assertEqual(getattr(_snake_case , _snake_case) , _snake_case)
self.assertEqual(getattr(_snake_case , attr + '''_id''') , _snake_case)
setattr(_snake_case , '''additional_special_tokens_ids''' , [])
self.assertListEqual(getattr(_snake_case , '''additional_special_tokens''') , [])
self.assertListEqual(getattr(_snake_case , '''additional_special_tokens_ids''') , [])
setattr(_snake_case , '''additional_special_tokens_ids''' , [token_id_to_test_setters])
self.assertListEqual(getattr(_snake_case , '''additional_special_tokens''') , [token_to_test_setters])
self.assertListEqual(getattr(_snake_case , '''additional_special_tokens_ids''') , [token_id_to_test_setters])
| 51
| 1
|
import gc
import inspect
import unittest
import torch
from parameterized import parameterized
from diffusers import PriorTransformer
from diffusers.utils import floats_tensor, slow, torch_all_close, torch_device
from diffusers.utils.testing_utils import enable_full_determinism
from .test_modeling_common import ModelTesterMixin
enable_full_determinism()
class __snake_case ( a , unittest.TestCase ):
UpperCAmelCase__ : Tuple = PriorTransformer
UpperCAmelCase__ : Tuple = '''hidden_states'''
@property
def lowerCamelCase ( self : Any):
"""simple docstring"""
UpperCAmelCase_ = 4
UpperCAmelCase_ = 8
UpperCAmelCase_ = 7
UpperCAmelCase_ = floats_tensor((batch_size, embedding_dim)).to(_snake_case)
UpperCAmelCase_ = floats_tensor((batch_size, embedding_dim)).to(_snake_case)
UpperCAmelCase_ = floats_tensor((batch_size, num_embeddings, embedding_dim)).to(_snake_case)
return {
"hidden_states": hidden_states,
"timestep": 2,
"proj_embedding": proj_embedding,
"encoder_hidden_states": encoder_hidden_states,
}
def lowerCamelCase ( self : int , _snake_case : List[str]=0):
"""simple docstring"""
torch.manual_seed(_snake_case)
UpperCAmelCase_ = 4
UpperCAmelCase_ = 8
UpperCAmelCase_ = 7
UpperCAmelCase_ = torch.randn((batch_size, embedding_dim)).to(_snake_case)
UpperCAmelCase_ = torch.randn((batch_size, embedding_dim)).to(_snake_case)
UpperCAmelCase_ = torch.randn((batch_size, num_embeddings, embedding_dim)).to(_snake_case)
return {
"hidden_states": hidden_states,
"timestep": 2,
"proj_embedding": proj_embedding,
"encoder_hidden_states": encoder_hidden_states,
}
@property
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
return (4, 8)
@property
def lowerCamelCase ( self : str):
"""simple docstring"""
return (4, 8)
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = {
'''num_attention_heads''': 2,
'''attention_head_dim''': 4,
'''num_layers''': 2,
'''embedding_dim''': 8,
'''num_embeddings''': 7,
'''additional_embeddings''': 4,
}
UpperCAmelCase_ = self.dummy_input
return init_dict, inputs_dict
def lowerCamelCase ( self : int):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = PriorTransformer.from_pretrained(
'''hf-internal-testing/prior-dummy''' , output_loading_info=_snake_case)
self.assertIsNotNone(_snake_case)
self.assertEqual(len(loading_info['''missing_keys''']) , 0)
model.to(_snake_case)
UpperCAmelCase_ = model(**self.dummy_input)[0]
assert hidden_states is not None, "Make sure output is not None"
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = self.prepare_init_args_and_inputs_for_common()
UpperCAmelCase_ = self.model_class(**_snake_case)
UpperCAmelCase_ = inspect.signature(model.forward)
# signature.parameters is an OrderedDict => so arg_names order is deterministic
UpperCAmelCase_ = [*signature.parameters.keys()]
UpperCAmelCase_ = ['''hidden_states''', '''timestep''']
self.assertListEqual(arg_names[:2] , _snake_case)
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = PriorTransformer.from_pretrained('''hf-internal-testing/prior-dummy''')
UpperCAmelCase_ = model.to(_snake_case)
if hasattr(_snake_case , '''set_default_attn_processor'''):
model.set_default_attn_processor()
UpperCAmelCase_ = self.get_dummy_seed_input()
with torch.no_grad():
UpperCAmelCase_ = model(**_snake_case)[0]
UpperCAmelCase_ = output[0, :5].flatten().cpu()
print(_snake_case)
# Since the VAE Gaussian prior's generator is seeded on the appropriate device,
# the expected output slices are not the same for CPU and GPU.
UpperCAmelCase_ = torch.tensor([-1.3_4_3_6, -0.2_8_7_0, 0.7_5_3_8, 0.4_3_6_8, -0.0_2_3_9])
self.assertTrue(torch_all_close(_snake_case , _snake_case , rtol=1e-2))
@slow
class __snake_case ( unittest.TestCase ):
def lowerCamelCase ( self : Union[str, Any] , _snake_case : Optional[Any]=1 , _snake_case : Any=768 , _snake_case : Optional[Any]=77 , _snake_case : Optional[int]=0):
"""simple docstring"""
torch.manual_seed(_snake_case)
UpperCAmelCase_ = batch_size
UpperCAmelCase_ = embedding_dim
UpperCAmelCase_ = num_embeddings
UpperCAmelCase_ = torch.randn((batch_size, embedding_dim)).to(_snake_case)
UpperCAmelCase_ = torch.randn((batch_size, embedding_dim)).to(_snake_case)
UpperCAmelCase_ = torch.randn((batch_size, num_embeddings, embedding_dim)).to(_snake_case)
return {
"hidden_states": hidden_states,
"timestep": 2,
"proj_embedding": proj_embedding,
"encoder_hidden_states": encoder_hidden_states,
}
def lowerCamelCase ( self : str):
"""simple docstring"""
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
@parameterized.expand(
[
# fmt: off
[13, [-0.5_8_6_1, 0.1_2_8_3, -0.0_9_3_1, 0.0_8_8_2, 0.4_4_7_6, 0.1_3_2_9, -0.0_4_9_8, 0.0_6_4_0]],
[37, [-0.4_9_1_3, 0.0_1_1_0, -0.0_4_8_3, 0.0_5_4_1, 0.4_9_5_4, -0.0_1_7_0, 0.0_3_5_4, 0.1_6_5_1]],
# fmt: on
])
def lowerCamelCase ( self : List[str] , _snake_case : List[Any] , _snake_case : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = PriorTransformer.from_pretrained('''kandinsky-community/kandinsky-2-1-prior''' , subfolder='''prior''')
model.to(_snake_case)
UpperCAmelCase_ = self.get_dummy_seed_input(seed=_snake_case)
with torch.no_grad():
UpperCAmelCase_ = model(**_snake_case)[0]
assert list(sample.shape) == [1, 768]
UpperCAmelCase_ = sample[0, :8].flatten().cpu()
print(_snake_case)
UpperCAmelCase_ = torch.tensor(_snake_case)
assert torch_all_close(_snake_case , _snake_case , atol=1e-3)
| 51
|
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_sentencepiece_available,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
snake_case_ : Dict = {"configuration_mbart": ["MBART_PRETRAINED_CONFIG_ARCHIVE_MAP", "MBartConfig", "MBartOnnxConfig"]}
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Tuple = ["MBartTokenizer"]
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : str = ["MBartTokenizerFast"]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : List[Any] = [
"MBART_PRETRAINED_MODEL_ARCHIVE_LIST",
"MBartForCausalLM",
"MBartForConditionalGeneration",
"MBartForQuestionAnswering",
"MBartForSequenceClassification",
"MBartModel",
"MBartPreTrainedModel",
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Any = [
"TFMBartForConditionalGeneration",
"TFMBartModel",
"TFMBartPreTrainedModel",
]
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : List[str] = [
"FlaxMBartForConditionalGeneration",
"FlaxMBartForQuestionAnswering",
"FlaxMBartForSequenceClassification",
"FlaxMBartModel",
"FlaxMBartPreTrainedModel",
]
if TYPE_CHECKING:
from .configuration_mbart import MBART_PRETRAINED_CONFIG_ARCHIVE_MAP, MBartConfig, MBartOnnxConfig
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_mbart import MBartTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_mbart_fast import MBartTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_mbart import (
MBART_PRETRAINED_MODEL_ARCHIVE_LIST,
MBartForCausalLM,
MBartForConditionalGeneration,
MBartForQuestionAnswering,
MBartForSequenceClassification,
MBartModel,
MBartPreTrainedModel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_mbart import TFMBartForConditionalGeneration, TFMBartModel, TFMBartPreTrainedModel
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_mbart import (
FlaxMBartForConditionalGeneration,
FlaxMBartForQuestionAnswering,
FlaxMBartForSequenceClassification,
FlaxMBartModel,
FlaxMBartPreTrainedModel,
)
else:
import sys
snake_case_ : Any = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 51
| 1
|
import os
import sys
from contextlib import contextmanager
# Windows only
if os.name == "nt":
import ctypes
import msvcrt # noqa
class __snake_case ( ctypes.Structure ):
# _fields is a specific attr expected by ctypes
UpperCAmelCase__ : str = [('''size''', ctypes.c_int), ('''visible''', ctypes.c_byte)]
def A () -> Dict:
"""simple docstring"""
if os.name == "nt":
UpperCAmelCase_ = CursorInfo()
UpperCAmelCase_ = ctypes.windll.kernelaa.GetStdHandle(-11 )
ctypes.windll.kernelaa.GetConsoleCursorInfo(__A , ctypes.byref(__A ) )
UpperCAmelCase_ = False
ctypes.windll.kernelaa.SetConsoleCursorInfo(__A , ctypes.byref(__A ) )
elif os.name == "posix":
sys.stdout.write('''\033[?25l''' )
sys.stdout.flush()
def A () -> Any:
"""simple docstring"""
if os.name == "nt":
UpperCAmelCase_ = CursorInfo()
UpperCAmelCase_ = ctypes.windll.kernelaa.GetStdHandle(-11 )
ctypes.windll.kernelaa.GetConsoleCursorInfo(__A , ctypes.byref(__A ) )
UpperCAmelCase_ = True
ctypes.windll.kernelaa.SetConsoleCursorInfo(__A , ctypes.byref(__A ) )
elif os.name == "posix":
sys.stdout.write('''\033[?25h''' )
sys.stdout.flush()
@contextmanager
def A () -> Dict:
"""simple docstring"""
try:
hide_cursor()
yield
finally:
show_cursor()
| 51
|
import warnings
from typing import List, Optional, Union
from ...image_utils import ImageInput
from ...processing_utils import ProcessorMixin
from ...tokenization_utils_base import BatchEncoding, PaddingStrategy, PreTokenizedInput, TextInput, TruncationStrategy
from ...utils import TensorType
class __snake_case ( a ):
UpperCAmelCase__ : Dict = ['''image_processor''', '''tokenizer''']
UpperCAmelCase__ : Dict = '''FlavaImageProcessor'''
UpperCAmelCase__ : Dict = ('''BertTokenizer''', '''BertTokenizerFast''')
def __init__( self : Union[str, Any] , _snake_case : List[str]=None , _snake_case : str=None , **_snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = None
if "feature_extractor" in kwargs:
warnings.warn(
'''The `feature_extractor` argument is deprecated and will be removed in v5, use `image_processor`'''
''' instead.''' , _snake_case , )
UpperCAmelCase_ = kwargs.pop('''feature_extractor''')
UpperCAmelCase_ = image_processor if image_processor is not None else feature_extractor
if image_processor is None:
raise ValueError('''You need to specify an `image_processor`.''')
if tokenizer is None:
raise ValueError('''You need to specify a `tokenizer`.''')
super().__init__(_snake_case , _snake_case)
UpperCAmelCase_ = self.image_processor
def __call__( self : List[Any] , _snake_case : Optional[ImageInput] = None , _snake_case : Optional[Union[TextInput, PreTokenizedInput, List[TextInput], List[PreTokenizedInput]]] = None , _snake_case : bool = True , _snake_case : Union[bool, str, PaddingStrategy] = False , _snake_case : Union[bool, str, TruncationStrategy] = False , _snake_case : Optional[int] = None , _snake_case : int = 0 , _snake_case : Optional[int] = None , _snake_case : Optional[bool] = None , _snake_case : Optional[bool] = None , _snake_case : Optional[bool] = None , _snake_case : Optional[bool] = None , _snake_case : bool = False , _snake_case : bool = False , _snake_case : bool = False , _snake_case : bool = False , _snake_case : bool = True , _snake_case : Optional[Union[str, TensorType]] = None , **_snake_case : Any , ):
"""simple docstring"""
if text is None and images is None:
raise ValueError('''You have to specify either text or images. Both cannot be none.''')
if text is not None:
UpperCAmelCase_ = self.tokenizer(
text=_snake_case , add_special_tokens=_snake_case , padding=_snake_case , truncation=_snake_case , max_length=_snake_case , stride=_snake_case , pad_to_multiple_of=_snake_case , return_token_type_ids=_snake_case , return_attention_mask=_snake_case , return_overflowing_tokens=_snake_case , return_special_tokens_mask=_snake_case , return_offsets_mapping=_snake_case , return_length=_snake_case , verbose=_snake_case , return_tensors=_snake_case , **_snake_case , )
if images is not None:
UpperCAmelCase_ = self.image_processor(
_snake_case , return_image_mask=_snake_case , return_codebook_pixels=_snake_case , return_tensors=_snake_case , **_snake_case , )
if text is not None and images is not None:
encoding.update(_snake_case)
return encoding
elif text is not None:
return encoding
else:
return BatchEncoding(data=dict(**_snake_case) , tensor_type=_snake_case)
def lowerCamelCase ( self : Any , *_snake_case : Optional[Any] , **_snake_case : int):
"""simple docstring"""
return self.tokenizer.batch_decode(*_snake_case , **_snake_case)
def lowerCamelCase ( self : Optional[int] , *_snake_case : int , **_snake_case : Dict):
"""simple docstring"""
return self.tokenizer.decode(*_snake_case , **_snake_case)
@property
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = self.tokenizer.model_input_names
UpperCAmelCase_ = self.image_processor.model_input_names
return list(dict.fromkeys(tokenizer_input_names + image_processor_input_names))
@property
def lowerCamelCase ( self : str):
"""simple docstring"""
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 lowerCamelCase ( self : Any):
"""simple docstring"""
warnings.warn(
'''`feature_extractor` is deprecated and will be removed in v5. Use `image_processor` instead.''' , _snake_case , )
return self.image_processor
| 51
| 1
|
from __future__ import annotations
import queue
class __snake_case :
def __init__( self : Dict , _snake_case : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = data
UpperCAmelCase_ = None
UpperCAmelCase_ = None
def A () -> TreeNode:
"""simple docstring"""
print('''\n********Press N to stop entering at any point of time********\n''' )
UpperCAmelCase_ = input('''Enter the value of the root node: ''' ).strip().lower()
UpperCAmelCase_ = queue.Queue()
UpperCAmelCase_ = TreeNode(int(__A ) )
q.put(__A )
while not q.empty():
UpperCAmelCase_ = q.get()
UpperCAmelCase_ = F"""Enter the left node of {node_found.data}: """
UpperCAmelCase_ = input(__A ).strip().lower() or '''n'''
if check == "n":
return tree_node
UpperCAmelCase_ = TreeNode(int(__A ) )
UpperCAmelCase_ = left_node
q.put(__A )
UpperCAmelCase_ = F"""Enter the right node of {node_found.data}: """
UpperCAmelCase_ = input(__A ).strip().lower() or '''n'''
if check == "n":
return tree_node
UpperCAmelCase_ = TreeNode(int(__A ) )
UpperCAmelCase_ = right_node
q.put(__A )
raise
def A (__A : TreeNode ) -> None:
"""simple docstring"""
if not isinstance(__A , __A ) or not node:
return
print(node.data , end=''',''' )
pre_order(node.left )
pre_order(node.right )
def A (__A : TreeNode ) -> None:
"""simple docstring"""
if not isinstance(__A , __A ) or not node:
return
in_order(node.left )
print(node.data , end=''',''' )
in_order(node.right )
def A (__A : TreeNode ) -> None:
"""simple docstring"""
if not isinstance(__A , __A ) or not node:
return
post_order(node.left )
post_order(node.right )
print(node.data , end=''',''' )
def A (__A : TreeNode ) -> None:
"""simple docstring"""
if not isinstance(__A , __A ) or not node:
return
UpperCAmelCase_ = queue.Queue()
q.put(__A )
while not q.empty():
UpperCAmelCase_ = q.get()
print(node_dequeued.data , end=''',''' )
if node_dequeued.left:
q.put(node_dequeued.left )
if node_dequeued.right:
q.put(node_dequeued.right )
def A (__A : TreeNode ) -> None:
"""simple docstring"""
if not isinstance(__A , __A ) or not node:
return
UpperCAmelCase_ = queue.Queue()
q.put(__A )
while not q.empty():
UpperCAmelCase_ = []
while not q.empty():
UpperCAmelCase_ = q.get()
print(node_dequeued.data , end=''',''' )
if node_dequeued.left:
list_.append(node_dequeued.left )
if node_dequeued.right:
list_.append(node_dequeued.right )
print()
for node in list_:
q.put(__A )
def A (__A : TreeNode ) -> None:
"""simple docstring"""
if not isinstance(__A , __A ) or not node:
return
UpperCAmelCase_ = []
UpperCAmelCase_ = node
while n or stack:
while n: # start from root node, find its left child
print(n.data , end=''',''' )
stack.append(__A )
UpperCAmelCase_ = n.left
# end of while means current node doesn't have left child
UpperCAmelCase_ = stack.pop()
# start to traverse its right child
UpperCAmelCase_ = n.right
def A (__A : TreeNode ) -> None:
"""simple docstring"""
if not isinstance(__A , __A ) or not node:
return
UpperCAmelCase_ = []
UpperCAmelCase_ = node
while n or stack:
while n:
stack.append(__A )
UpperCAmelCase_ = n.left
UpperCAmelCase_ = stack.pop()
print(n.data , end=''',''' )
UpperCAmelCase_ = n.right
def A (__A : TreeNode ) -> None:
"""simple docstring"""
if not isinstance(__A , __A ) or not node:
return
UpperCAmelCase_ , UpperCAmelCase_ = [], []
UpperCAmelCase_ = node
stacka.append(__A )
while stacka: # to find the reversed order of post order, store it in stack2
UpperCAmelCase_ = stacka.pop()
if n.left:
stacka.append(n.left )
if n.right:
stacka.append(n.right )
stacka.append(__A )
while stacka: # pop up from stack2 will be the post order
print(stacka.pop().data , end=''',''' )
def A (__A : str = "" , __A : Optional[Any]=50 , __A : Union[str, Any]="*" ) -> str:
"""simple docstring"""
if not s:
return "\n" + width * char
UpperCAmelCase_ , UpperCAmelCase_ = divmod(width - len(__A ) - 2 , 2 )
return F"""{left * char} {s} {(left + extra) * char}"""
if __name__ == "__main__":
import doctest
doctest.testmod()
print(prompt("Binary Tree Traversals"))
snake_case_ : TreeNode = build_tree()
print(prompt("Pre Order Traversal"))
pre_order(node)
print(prompt() + "\n")
print(prompt("In Order Traversal"))
in_order(node)
print(prompt() + "\n")
print(prompt("Post Order Traversal"))
post_order(node)
print(prompt() + "\n")
print(prompt("Level Order Traversal"))
level_order(node)
print(prompt() + "\n")
print(prompt("Actual Level Order Traversal"))
level_order_actual(node)
print("*" * 50 + "\n")
print(prompt("Pre Order Traversal - Iteration Version"))
pre_order_iter(node)
print(prompt() + "\n")
print(prompt("In Order Traversal - Iteration Version"))
in_order_iter(node)
print(prompt() + "\n")
print(prompt("Post Order Traversal - Iteration Version"))
post_order_iter(node)
print(prompt())
| 51
|
from diffusers.utils.testing_utils import require_onnxruntime
@require_onnxruntime
class __snake_case :
pass
| 51
| 1
|
from typing import List, Optional, Union
import torch
from ...models import UNetaDConditionModel, VQModel
from ...pipelines import DiffusionPipeline
from ...pipelines.pipeline_utils import ImagePipelineOutput
from ...schedulers import DDPMScheduler
from ...utils import (
is_accelerate_available,
is_accelerate_version,
logging,
randn_tensor,
replace_example_docstring,
)
snake_case_ : str = logging.get_logger(__name__) # pylint: disable=invalid-name
snake_case_ : Tuple = "\n Examples:\n ```py\n >>> from diffusers import KandinskyV22Pipeline, KandinskyV22PriorPipeline\n >>> import torch\n\n >>> pipe_prior = KandinskyV22PriorPipeline.from_pretrained(\"kandinsky-community/kandinsky-2-2-prior\")\n >>> pipe_prior.to(\"cuda\")\n >>> prompt = \"red cat, 4k photo\"\n >>> out = pipe_prior(prompt)\n >>> image_emb = out.image_embeds\n >>> zero_image_emb = out.negative_image_embeds\n >>> pipe = KandinskyV22Pipeline.from_pretrained(\"kandinsky-community/kandinsky-2-2-decoder\")\n >>> pipe.to(\"cuda\")\n >>> image = pipe(\n ... image_embeds=image_emb,\n ... negative_image_embeds=zero_image_emb,\n ... height=768,\n ... width=768,\n ... num_inference_steps=50,\n ... ).images\n >>> image[0].save(\"cat.png\")\n ```\n"
def A (__A : Any , __A : List[str] , __A : Optional[int]=8 ) -> str:
"""simple docstring"""
UpperCAmelCase_ = height // scale_factor**2
if height % scale_factor**2 != 0:
new_height += 1
UpperCAmelCase_ = width // scale_factor**2
if width % scale_factor**2 != 0:
new_width += 1
return new_height * scale_factor, new_width * scale_factor
class __snake_case ( a ):
def __init__( self : List[str] , _snake_case : UNetaDConditionModel , _snake_case : DDPMScheduler , _snake_case : VQModel , ):
"""simple docstring"""
super().__init__()
self.register_modules(
unet=_snake_case , scheduler=_snake_case , movq=_snake_case , )
UpperCAmelCase_ = 2 ** (len(self.movq.config.block_out_channels) - 1)
def lowerCamelCase ( self : int , _snake_case : List[str] , _snake_case : Any , _snake_case : int , _snake_case : Optional[Any] , _snake_case : str , _snake_case : Optional[Any]):
"""simple docstring"""
if latents is None:
UpperCAmelCase_ = randn_tensor(_snake_case , generator=_snake_case , device=_snake_case , dtype=_snake_case)
else:
if latents.shape != shape:
raise ValueError(F"""Unexpected latents shape, got {latents.shape}, expected {shape}""")
UpperCAmelCase_ = latents.to(_snake_case)
UpperCAmelCase_ = latents * scheduler.init_noise_sigma
return latents
def lowerCamelCase ( self : Any , _snake_case : Union[str, Any]=0):
"""simple docstring"""
if is_accelerate_available():
from accelerate import cpu_offload
else:
raise ImportError('''Please install accelerate via `pip install accelerate`''')
UpperCAmelCase_ = torch.device(F"""cuda:{gpu_id}""")
UpperCAmelCase_ = [
self.unet,
self.movq,
]
for cpu_offloaded_model in models:
if cpu_offloaded_model is not None:
cpu_offload(_snake_case , _snake_case)
def lowerCamelCase ( self : List[str] , _snake_case : Optional[int]=0):
"""simple docstring"""
if is_accelerate_available() and is_accelerate_version('''>=''' , '''0.17.0.dev0'''):
from accelerate import cpu_offload_with_hook
else:
raise ImportError('''`enable_model_cpu_offload` requires `accelerate v0.17.0` or higher.''')
UpperCAmelCase_ = torch.device(F"""cuda:{gpu_id}""")
if self.device.type != "cpu":
self.to('''cpu''' , silence_dtype_warnings=_snake_case)
torch.cuda.empty_cache() # otherwise we don't see the memory savings (but they probably exist)
UpperCAmelCase_ = None
for cpu_offloaded_model in [self.unet, self.movq]:
UpperCAmelCase_ , UpperCAmelCase_ = cpu_offload_with_hook(_snake_case , _snake_case , prev_module_hook=_snake_case)
# We'll offload the last model manually.
UpperCAmelCase_ = hook
@property
# Copied from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion.StableDiffusionPipeline._execution_device
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
if not hasattr(self.unet , '''_hf_hook'''):
return self.device
for module in self.unet.modules():
if (
hasattr(_snake_case , '''_hf_hook''')
and hasattr(module._hf_hook , '''execution_device''')
and module._hf_hook.execution_device is not None
):
return torch.device(module._hf_hook.execution_device)
return self.device
@torch.no_grad()
@replace_example_docstring(_snake_case)
def __call__( self : List[Any] , _snake_case : Union[torch.FloatTensor, List[torch.FloatTensor]] , _snake_case : Union[torch.FloatTensor, List[torch.FloatTensor]] , _snake_case : int = 512 , _snake_case : int = 512 , _snake_case : int = 100 , _snake_case : float = 4.0 , _snake_case : int = 1 , _snake_case : Optional[Union[torch.Generator, List[torch.Generator]]] = None , _snake_case : Optional[torch.FloatTensor] = None , _snake_case : Optional[str] = "pil" , _snake_case : bool = True , ):
"""simple docstring"""
UpperCAmelCase_ = self._execution_device
UpperCAmelCase_ = guidance_scale > 1.0
if isinstance(_snake_case , _snake_case):
UpperCAmelCase_ = torch.cat(_snake_case , dim=0)
UpperCAmelCase_ = image_embeds.shape[0] * num_images_per_prompt
if isinstance(_snake_case , _snake_case):
UpperCAmelCase_ = torch.cat(_snake_case , dim=0)
if do_classifier_free_guidance:
UpperCAmelCase_ = image_embeds.repeat_interleave(_snake_case , dim=0)
UpperCAmelCase_ = negative_image_embeds.repeat_interleave(_snake_case , dim=0)
UpperCAmelCase_ = torch.cat([negative_image_embeds, image_embeds] , dim=0).to(dtype=self.unet.dtype , device=_snake_case)
self.scheduler.set_timesteps(_snake_case , device=_snake_case)
UpperCAmelCase_ = self.scheduler.timesteps
UpperCAmelCase_ = self.unet.config.in_channels
UpperCAmelCase_ , UpperCAmelCase_ = downscale_height_and_width(_snake_case , _snake_case , self.movq_scale_factor)
# create initial latent
UpperCAmelCase_ = self.prepare_latents(
(batch_size, num_channels_latents, height, width) , image_embeds.dtype , _snake_case , _snake_case , _snake_case , self.scheduler , )
for i, t in enumerate(self.progress_bar(_snake_case)):
# expand the latents if we are doing classifier free guidance
UpperCAmelCase_ = torch.cat([latents] * 2) if do_classifier_free_guidance else latents
UpperCAmelCase_ = {'''image_embeds''': image_embeds}
UpperCAmelCase_ = self.unet(
sample=_snake_case , timestep=_snake_case , encoder_hidden_states=_snake_case , added_cond_kwargs=_snake_case , return_dict=_snake_case , )[0]
if do_classifier_free_guidance:
UpperCAmelCase_ , UpperCAmelCase_ = noise_pred.split(latents.shape[1] , dim=1)
UpperCAmelCase_ , UpperCAmelCase_ = noise_pred.chunk(2)
UpperCAmelCase_ , UpperCAmelCase_ = variance_pred.chunk(2)
UpperCAmelCase_ = noise_pred_uncond + guidance_scale * (noise_pred_text - noise_pred_uncond)
UpperCAmelCase_ = torch.cat([noise_pred, variance_pred_text] , dim=1)
if not (
hasattr(self.scheduler.config , '''variance_type''')
and self.scheduler.config.variance_type in ["learned", "learned_range"]
):
UpperCAmelCase_ , UpperCAmelCase_ = noise_pred.split(latents.shape[1] , dim=1)
# compute the previous noisy sample x_t -> x_t-1
UpperCAmelCase_ = self.scheduler.step(
_snake_case , _snake_case , _snake_case , generator=_snake_case , )[0]
# post-processing
UpperCAmelCase_ = self.movq.decode(_snake_case , force_not_quantize=_snake_case)['''sample''']
if output_type not in ["pt", "np", "pil"]:
raise ValueError(F"""Only the output types `pt`, `pil` and `np` are supported not output_type={output_type}""")
if output_type in ["np", "pil"]:
UpperCAmelCase_ = image * 0.5 + 0.5
UpperCAmelCase_ = image.clamp(0 , 1)
UpperCAmelCase_ = image.cpu().permute(0 , 2 , 3 , 1).float().numpy()
if output_type == "pil":
UpperCAmelCase_ = self.numpy_to_pil(_snake_case)
if not return_dict:
return (image,)
return ImagePipelineOutput(images=_snake_case)
| 51
|
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
snake_case_ : List[Any] = data_utils.TransfoXLTokenizer
snake_case_ : int = data_utils.TransfoXLCorpus
snake_case_ : List[Any] = data_utils
snake_case_ : int = data_utils
def A (__A : Dict , __A : List[Any] , __A : Union[str, Any] , __A : Tuple ) -> Union[str, Any]:
"""simple docstring"""
if transfo_xl_dataset_file:
# Convert a pre-processed corpus (see original TensorFlow repo)
with open(__A , '''rb''' ) as fp:
UpperCAmelCase_ = pickle.load(__A , encoding='''latin1''' )
# Save vocabulary and dataset cache as Dictionaries (should be better than pickles for the long-term)
UpperCAmelCase_ = pytorch_dump_folder_path + '''/''' + VOCAB_FILES_NAMES['''pretrained_vocab_file''']
print(F"""Save vocabulary to {pytorch_vocab_dump_path}""" )
UpperCAmelCase_ = corpus.vocab.__dict__
torch.save(__A , __A )
UpperCAmelCase_ = corpus.__dict__
corpus_dict_no_vocab.pop('''vocab''' , __A )
UpperCAmelCase_ = 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
UpperCAmelCase_ = os.path.abspath(__A )
UpperCAmelCase_ = 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 == "":
UpperCAmelCase_ = TransfoXLConfig()
else:
UpperCAmelCase_ = TransfoXLConfig.from_json_file(__A )
print(F"""Building PyTorch model from configuration: {config}""" )
UpperCAmelCase_ = TransfoXLLMHeadModel(__A )
UpperCAmelCase_ = load_tf_weights_in_transfo_xl(__A , __A , __A )
# Save pytorch-model
UpperCAmelCase_ = os.path.join(__A , __A )
UpperCAmelCase_ = 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__":
snake_case_ : List[str] = 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.",
)
snake_case_ : int = 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,
)
| 51
| 1
|
import json
import os
import unittest
from transformers.models.gptsan_japanese.tokenization_gptsan_japanese import (
VOCAB_FILES_NAMES,
GPTSanJapaneseTokenizer,
)
from transformers.testing_utils import require_tokenizers, slow
from ...test_tokenization_common import TokenizerTesterMixin
@require_tokenizers
class __snake_case ( a , unittest.TestCase ):
UpperCAmelCase__ : int = GPTSanJapaneseTokenizer
UpperCAmelCase__ : Optional[int] = False
UpperCAmelCase__ : List[Any] = {'''do_clean_text''': False, '''add_prefix_space''': False}
def lowerCamelCase ( self : Any):
"""simple docstring"""
super().setUp()
# fmt: off
UpperCAmelCase_ = ['''こん''', '''こんに''', '''にちは''', '''ばんは''', '''世界,㔺界''', '''、''', '''。''', '''<BR>''', '''<SP>''', '''<TAB>''', '''<URL>''', '''<EMAIL>''', '''<TEL>''', '''<DATE>''', '''<PRICE>''', '''<BLOCK>''', '''<KIGOU>''', '''<U2000U2BFF>''', '''<|emoji1|>''', '''<unk>''', '''<|bagoftoken|>''', '''<|endoftext|>''']
# fmt: on
UpperCAmelCase_ = {'''emoji''': {'''\ud83d\ude00''': '''<|emoji1|>'''}, '''emoji_inv''': {'''<|emoji1|>''': '''\ud83d\ude00'''}} # 😀
UpperCAmelCase_ = {'''unk_token''': '''<unk>'''}
UpperCAmelCase_ = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['''vocab_file'''])
UpperCAmelCase_ = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['''emoji_file'''])
with open(self.vocab_file , '''w''' , encoding='''utf-8''') as vocab_writer:
vocab_writer.write(''''''.join([x + '''\n''' for x in vocab_tokens]))
with open(self.emoji_file , '''w''') as emoji_writer:
emoji_writer.write(json.dumps(_snake_case))
def lowerCamelCase ( self : int , **_snake_case : Any):
"""simple docstring"""
kwargs.update(self.special_tokens_map)
return GPTSanJapaneseTokenizer.from_pretrained(self.tmpdirname , **_snake_case)
def lowerCamelCase ( self : Tuple , _snake_case : Tuple):
"""simple docstring"""
UpperCAmelCase_ = '''こんにちは、世界。 \nこんばんは、㔺界。😀'''
UpperCAmelCase_ = '''こんにちは、世界。 \nこんばんは、世界。😀'''
return input_text, output_text
def lowerCamelCase ( self : Union[str, Any] , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = self.get_input_output_texts(_snake_case)
UpperCAmelCase_ = tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
UpperCAmelCase_ = tokenizer.decode(_snake_case , clean_up_tokenization_spaces=_snake_case)
return text, ids
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
pass # TODO add if relevant
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
pass # TODO add if relevant
def lowerCamelCase ( self : Dict):
"""simple docstring"""
pass # TODO add if relevant
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = self.get_tokenizer()
# Testing tokenization
UpperCAmelCase_ = '''こんにちは、世界。 こんばんは、㔺界。'''
UpperCAmelCase_ = ['''こん''', '''にちは''', '''、''', '''世界''', '''。''', '''<SP>''', '''こん''', '''ばんは''', '''、''', '''㔺界''', '''。''']
UpperCAmelCase_ = tokenizer.tokenize(_snake_case)
self.assertListEqual(_snake_case , _snake_case)
# Testing conversion to ids without special tokens
UpperCAmelCase_ = [0, 2, 5, 4, 6, 8, 0, 3, 5, 4, 6]
UpperCAmelCase_ = tokenizer.convert_tokens_to_ids(_snake_case)
self.assertListEqual(_snake_case , _snake_case)
# Testing conversion to ids with special tokens
UpperCAmelCase_ = tokens + [tokenizer.unk_token]
UpperCAmelCase_ = [0, 2, 5, 4, 6, 8, 0, 3, 5, 4, 6, 19]
UpperCAmelCase_ = tokenizer.convert_tokens_to_ids(_snake_case)
self.assertListEqual(_snake_case , _snake_case)
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = self.get_tokenizer()
# Testing tokenization
UpperCAmelCase_ = '''こんにちは、<|bagoftoken|>世界。こんばんは、<|bagoftoken|>㔺界。'''
UpperCAmelCase_ = '''こんにちは、、、、世界。こんばんは、、、、世界。'''
UpperCAmelCase_ = tokenizer.encode(_snake_case)
UpperCAmelCase_ = tokenizer.decode(_snake_case)
self.assertEqual(_snake_case , _snake_case)
@slow
def lowerCamelCase ( self : Any):
"""simple docstring"""
UpperCAmelCase_ = self.tokenizer_class.from_pretrained('''Tanrei/GPTSAN-japanese''')
# Testing tokenization
UpperCAmelCase_ = '''こんにちは、世界。'''
UpperCAmelCase_ = '''こんばんは、㔺界。😀'''
UpperCAmelCase_ = '''こんにちは、世界。こんばんは、世界。😀'''
UpperCAmelCase_ = tokenizer.encode(prefix_text + input_text)
UpperCAmelCase_ = tokenizer.encode('''''' , prefix_text=prefix_text + input_text)
UpperCAmelCase_ = tokenizer.encode(_snake_case , prefix_text=_snake_case)
UpperCAmelCase_ = tokenizer.decode(_snake_case)
UpperCAmelCase_ = tokenizer.decode(_snake_case)
UpperCAmelCase_ = tokenizer.decode(_snake_case)
self.assertEqual(_snake_case , _snake_case)
self.assertEqual(_snake_case , _snake_case)
self.assertEqual(_snake_case , _snake_case)
@slow
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = self.tokenizer_class.from_pretrained('''Tanrei/GPTSAN-japanese''')
# Testing tokenization
UpperCAmelCase_ = '''こんにちは、世界。'''
UpperCAmelCase_ = '''こんばんは、㔺界。😀'''
UpperCAmelCase_ = len(tokenizer.encode(_snake_case)) - 2
UpperCAmelCase_ = len(tokenizer.encode(_snake_case)) - 2
UpperCAmelCase_ = [1] + [0] * (len_prefix + len_text + 1)
UpperCAmelCase_ = [1] * (len_prefix + len_text + 1) + [0]
UpperCAmelCase_ = [1] + [1] * (len_prefix) + [0] * (len_text + 1)
UpperCAmelCase_ = tokenizer(prefix_text + input_text).token_type_ids
UpperCAmelCase_ = tokenizer('''''' , prefix_text=prefix_text + input_text).token_type_ids
UpperCAmelCase_ = tokenizer(_snake_case , prefix_text=_snake_case).token_type_ids
self.assertListEqual(_snake_case , _snake_case)
self.assertListEqual(_snake_case , _snake_case)
self.assertListEqual(_snake_case , _snake_case)
@slow
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = self.tokenizer_class.from_pretrained('''Tanrei/GPTSAN-japanese''')
UpperCAmelCase_ = tokenizer.encode('''あンいワ''')
UpperCAmelCase_ = tokenizer.encode('''''' , prefix_text='''あンいワ''')
UpperCAmelCase_ = tokenizer.encode('''いワ''' , prefix_text='''あン''')
self.assertEqual(tokenizer.decode(_snake_case) , tokenizer.decode(_snake_case))
self.assertEqual(tokenizer.decode(_snake_case) , tokenizer.decode(_snake_case))
self.assertNotEqual(_snake_case , _snake_case)
self.assertNotEqual(_snake_case , _snake_case)
self.assertEqual(x_token_a[1] , x_token_a[-1]) # SEG token
self.assertEqual(x_token_a[1] , x_token_a[3]) # SEG token
@slow
def lowerCamelCase ( self : Any):
"""simple docstring"""
UpperCAmelCase_ = self.tokenizer_class.from_pretrained('''Tanrei/GPTSAN-japanese''')
UpperCAmelCase_ = [['''武田信玄''', '''は、'''], ['''織田信長''', '''の配下の、''']]
UpperCAmelCase_ = tokenizer(_snake_case , padding=_snake_case)
UpperCAmelCase_ = tokenizer.batch_encode_plus(_snake_case , padding=_snake_case)
# fmt: off
UpperCAmelCase_ = [[35993, 8640, 25948, 35998, 30647, 35675, 35999, 35999], [35993, 10382, 9868, 35998, 30646, 9459, 30646, 35675]]
UpperCAmelCase_ = [[1, 1, 1, 0, 0, 0, 0, 0], [1, 1, 1, 0, 0, 0, 0, 0]]
UpperCAmelCase_ = [[1, 1, 1, 1, 1, 1, 0, 0], [1, 1, 1, 1, 1, 1, 1, 1]]
# fmt: on
self.assertListEqual(x_token.input_ids , _snake_case)
self.assertListEqual(x_token.token_type_ids , _snake_case)
self.assertListEqual(x_token.attention_mask , _snake_case)
self.assertListEqual(x_token_a.input_ids , _snake_case)
self.assertListEqual(x_token_a.token_type_ids , _snake_case)
self.assertListEqual(x_token_a.attention_mask , _snake_case)
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
pass
def lowerCamelCase ( self : str):
"""simple docstring"""
pass
| 51
|
from typing import Optional, Tuple, Union
import torch
from einops import rearrange, reduce
from diffusers import DDIMScheduler, DDPMScheduler, DiffusionPipeline, ImagePipelineOutput, UNetaDConditionModel
from diffusers.schedulers.scheduling_ddim import DDIMSchedulerOutput
from diffusers.schedulers.scheduling_ddpm import DDPMSchedulerOutput
snake_case_ : List[str] = 8
def A (__A : Union[str, Any] , __A : List[Any]=BITS ) -> Tuple:
"""simple docstring"""
UpperCAmelCase_ = x.device
UpperCAmelCase_ = (x * 255).int().clamp(0 , 255 )
UpperCAmelCase_ = 2 ** torch.arange(bits - 1 , -1 , -1 , device=__A )
UpperCAmelCase_ = rearrange(__A , '''d -> d 1 1''' )
UpperCAmelCase_ = rearrange(__A , '''b c h w -> b c 1 h w''' )
UpperCAmelCase_ = ((x & mask) != 0).float()
UpperCAmelCase_ = rearrange(__A , '''b c d h w -> b (c d) h w''' )
UpperCAmelCase_ = bits * 2 - 1
return bits
def A (__A : Dict , __A : Tuple=BITS ) -> List[str]:
"""simple docstring"""
UpperCAmelCase_ = x.device
UpperCAmelCase_ = (x > 0).int()
UpperCAmelCase_ = 2 ** torch.arange(bits - 1 , -1 , -1 , device=__A , dtype=torch.intaa )
UpperCAmelCase_ = rearrange(__A , '''d -> d 1 1''' )
UpperCAmelCase_ = rearrange(__A , '''b (c d) h w -> b c d h w''' , d=8 )
UpperCAmelCase_ = reduce(x * mask , '''b c d h w -> b c h w''' , '''sum''' )
return (dec / 255).clamp(0.0 , 1.0 )
def A (self : List[Any] , __A : torch.FloatTensor , __A : int , __A : torch.FloatTensor , __A : float = 0.0 , __A : bool = True , __A : Tuple=None , __A : bool = True , ) -> Union[DDIMSchedulerOutput, Tuple]:
"""simple docstring"""
if self.num_inference_steps is None:
raise ValueError(
'''Number of inference steps is \'None\', you need to run \'set_timesteps\' after creating the scheduler''' )
# See formulas (12) and (16) of DDIM paper https://arxiv.org/pdf/2010.02502.pdf
# Ideally, read DDIM paper in-detail understanding
# Notation (<variable name> -> <name in paper>
# - pred_noise_t -> e_theta(x_t, t)
# - pred_original_sample -> f_theta(x_t, t) or x_0
# - std_dev_t -> sigma_t
# - eta -> η
# - pred_sample_direction -> "direction pointing to x_t"
# - pred_prev_sample -> "x_t-1"
# 1. get previous step value (=t-1)
UpperCAmelCase_ = timestep - self.config.num_train_timesteps // self.num_inference_steps
# 2. compute alphas, betas
UpperCAmelCase_ = self.alphas_cumprod[timestep]
UpperCAmelCase_ = self.alphas_cumprod[prev_timestep] if prev_timestep >= 0 else self.final_alpha_cumprod
UpperCAmelCase_ = 1 - alpha_prod_t
# 3. compute predicted original sample from predicted noise also called
# "predicted x_0" of formula (12) from https://arxiv.org/pdf/2010.02502.pdf
UpperCAmelCase_ = (sample - beta_prod_t ** 0.5 * model_output) / alpha_prod_t ** 0.5
# 4. Clip "predicted x_0"
UpperCAmelCase_ = self.bit_scale
if self.config.clip_sample:
UpperCAmelCase_ = torch.clamp(__A , -scale , __A )
# 5. compute variance: "sigma_t(η)" -> see formula (16)
# σ_t = sqrt((1 − α_t−1)/(1 − α_t)) * sqrt(1 − α_t/α_t−1)
UpperCAmelCase_ = self._get_variance(__A , __A )
UpperCAmelCase_ = eta * variance ** 0.5
if use_clipped_model_output:
# the model_output is always re-derived from the clipped x_0 in Glide
UpperCAmelCase_ = (sample - alpha_prod_t ** 0.5 * pred_original_sample) / beta_prod_t ** 0.5
# 6. compute "direction pointing to x_t" of formula (12) from https://arxiv.org/pdf/2010.02502.pdf
UpperCAmelCase_ = (1 - alpha_prod_t_prev - std_dev_t**2) ** 0.5 * model_output
# 7. compute x_t without "random noise" of formula (12) from https://arxiv.org/pdf/2010.02502.pdf
UpperCAmelCase_ = alpha_prod_t_prev ** 0.5 * pred_original_sample + pred_sample_direction
if eta > 0:
# randn_like does not support generator https://github.com/pytorch/pytorch/issues/27072
UpperCAmelCase_ = model_output.device if torch.is_tensor(__A ) else '''cpu'''
UpperCAmelCase_ = torch.randn(model_output.shape , dtype=model_output.dtype , generator=__A ).to(__A )
UpperCAmelCase_ = self._get_variance(__A , __A ) ** 0.5 * eta * noise
UpperCAmelCase_ = prev_sample + variance
if not return_dict:
return (prev_sample,)
return DDIMSchedulerOutput(prev_sample=__A , pred_original_sample=__A )
def A (self : Optional[int] , __A : torch.FloatTensor , __A : int , __A : torch.FloatTensor , __A : int="epsilon" , __A : Optional[Any]=None , __A : bool = True , ) -> Union[DDPMSchedulerOutput, Tuple]:
"""simple docstring"""
UpperCAmelCase_ = timestep
if model_output.shape[1] == sample.shape[1] * 2 and self.variance_type in ["learned", "learned_range"]:
UpperCAmelCase_ , UpperCAmelCase_ = torch.split(__A , sample.shape[1] , dim=1 )
else:
UpperCAmelCase_ = None
# 1. compute alphas, betas
UpperCAmelCase_ = self.alphas_cumprod[t]
UpperCAmelCase_ = self.alphas_cumprod[t - 1] if t > 0 else self.one
UpperCAmelCase_ = 1 - alpha_prod_t
UpperCAmelCase_ = 1 - alpha_prod_t_prev
# 2. compute predicted original sample from predicted noise also called
# "predicted x_0" of formula (15) from https://arxiv.org/pdf/2006.11239.pdf
if prediction_type == "epsilon":
UpperCAmelCase_ = (sample - beta_prod_t ** 0.5 * model_output) / alpha_prod_t ** 0.5
elif prediction_type == "sample":
UpperCAmelCase_ = model_output
else:
raise ValueError(F"""Unsupported prediction_type {prediction_type}.""" )
# 3. Clip "predicted x_0"
UpperCAmelCase_ = self.bit_scale
if self.config.clip_sample:
UpperCAmelCase_ = torch.clamp(__A , -scale , __A )
# 4. Compute coefficients for pred_original_sample x_0 and current sample x_t
# See formula (7) from https://arxiv.org/pdf/2006.11239.pdf
UpperCAmelCase_ = (alpha_prod_t_prev ** 0.5 * self.betas[t]) / beta_prod_t
UpperCAmelCase_ = self.alphas[t] ** 0.5 * beta_prod_t_prev / beta_prod_t
# 5. Compute predicted previous sample µ_t
# See formula (7) from https://arxiv.org/pdf/2006.11239.pdf
UpperCAmelCase_ = pred_original_sample_coeff * pred_original_sample + current_sample_coeff * sample
# 6. Add noise
UpperCAmelCase_ = 0
if t > 0:
UpperCAmelCase_ = torch.randn(
model_output.size() , dtype=model_output.dtype , layout=model_output.layout , generator=__A ).to(model_output.device )
UpperCAmelCase_ = (self._get_variance(__A , predicted_variance=__A ) ** 0.5) * noise
UpperCAmelCase_ = pred_prev_sample + variance
if not return_dict:
return (pred_prev_sample,)
return DDPMSchedulerOutput(prev_sample=__A , pred_original_sample=__A )
class __snake_case ( a ):
def __init__( self : Union[str, Any] , _snake_case : UNetaDConditionModel , _snake_case : Union[DDIMScheduler, DDPMScheduler] , _snake_case : Optional[float] = 1.0 , ):
"""simple docstring"""
super().__init__()
UpperCAmelCase_ = bit_scale
UpperCAmelCase_ = (
ddim_bit_scheduler_step if isinstance(_snake_case , _snake_case) else ddpm_bit_scheduler_step
)
self.register_modules(unet=_snake_case , scheduler=_snake_case)
@torch.no_grad()
def __call__( self : Union[str, Any] , _snake_case : Optional[int] = 256 , _snake_case : Optional[int] = 256 , _snake_case : Optional[int] = 50 , _snake_case : Optional[torch.Generator] = None , _snake_case : Optional[int] = 1 , _snake_case : Optional[str] = "pil" , _snake_case : bool = True , **_snake_case : Optional[Any] , ):
"""simple docstring"""
UpperCAmelCase_ = torch.randn(
(batch_size, self.unet.config.in_channels, height, width) , generator=_snake_case , )
UpperCAmelCase_ = decimal_to_bits(_snake_case) * self.bit_scale
UpperCAmelCase_ = latents.to(self.device)
self.scheduler.set_timesteps(_snake_case)
for t in self.progress_bar(self.scheduler.timesteps):
# predict the noise residual
UpperCAmelCase_ = self.unet(_snake_case , _snake_case).sample
# compute the previous noisy sample x_t -> x_t-1
UpperCAmelCase_ = self.scheduler.step(_snake_case , _snake_case , _snake_case).prev_sample
UpperCAmelCase_ = bits_to_decimal(_snake_case)
if output_type == "pil":
UpperCAmelCase_ = self.numpy_to_pil(_snake_case)
if not return_dict:
return (image,)
return ImagePipelineOutput(images=_snake_case)
| 51
| 1
|
def A (__A : int , __A : bool = False ) -> bool:
"""simple docstring"""
if n == 2:
return True
if not n % 2 or n < 2:
return False
if n > 5 and n % 10 not in (1, 3, 7, 9): # can quickly check last digit
return False
if n > 3317044064679887385961981 and not allow_probable:
raise ValueError(
'''Warning: upper bound of deterministic test is exceeded. '''
'''Pass allow_probable=True to allow probabilistic test. '''
'''A return value of True indicates a probable prime.''' )
# array bounds provided by analysis
UpperCAmelCase_ = [
2047,
1373653,
25326001,
3215031751,
2152302898747,
3474749660383,
341550071728321,
1,
3825123056546413051,
1,
1,
318665857834031151167461,
3317044064679887385961981,
]
UpperCAmelCase_ = [2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41]
for idx, _p in enumerate(__A , 1 ):
if n < _p:
# then we have our last prime to check
UpperCAmelCase_ = primes[:idx]
break
UpperCAmelCase_ , UpperCAmelCase_ = n - 1, 0
# break up n -1 into a power of 2 (s) and
# remaining odd component
# essentially, solve for d * 2 ** s == n - 1
while d % 2 == 0:
d //= 2
s += 1
for prime in plist:
UpperCAmelCase_ = False
for r in range(__A ):
UpperCAmelCase_ = pow(__A , d * 2**r , __A )
# see article for analysis explanation for m
if (r == 0 and m == 1) or ((m + 1) % n == 0):
UpperCAmelCase_ = True
# this loop will not determine compositeness
break
if pr:
continue
# if pr is False, then the above loop never evaluated to true,
# and the n MUST be composite
return False
return True
def A () -> None:
"""simple docstring"""
assert not miller_rabin(561 )
assert miller_rabin(563 )
# 2047
assert not miller_rabin(838201 )
assert miller_rabin(838207 )
# 1_373_653
assert not miller_rabin(17316001 )
assert miller_rabin(17316017 )
# 25_326_001
assert not miller_rabin(3078386641 )
assert miller_rabin(3078386653 )
# 3_215_031_751
assert not miller_rabin(1713045574801 )
assert miller_rabin(1713045574819 )
# 2_152_302_898_747
assert not miller_rabin(2779799728307 )
assert miller_rabin(2779799728327 )
# 3_474_749_660_383
assert not miller_rabin(113850023909441 )
assert miller_rabin(113850023909527 )
# 341_550_071_728_321
assert not miller_rabin(1275041018848804351 )
assert miller_rabin(1275041018848804391 )
# 3_825_123_056_546_413_051
assert not miller_rabin(79666464458507787791867 )
assert miller_rabin(79666464458507787791951 )
# 318_665_857_834_031_151_167_461
assert not miller_rabin(552840677446647897660333 )
assert miller_rabin(552840677446647897660359 )
# 3_317_044_064_679_887_385_961_981
# upper limit for probabilistic test
if __name__ == "__main__":
test_miller_rabin()
| 51
|
snake_case_ : Dict = {
"Pillow": "Pillow",
"accelerate": "accelerate>=0.11.0",
"compel": "compel==0.1.8",
"black": "black~=23.1",
"datasets": "datasets",
"filelock": "filelock",
"flax": "flax>=0.4.1",
"hf-doc-builder": "hf-doc-builder>=0.3.0",
"huggingface-hub": "huggingface-hub>=0.13.2",
"requests-mock": "requests-mock==1.10.0",
"importlib_metadata": "importlib_metadata",
"invisible-watermark": "invisible-watermark",
"isort": "isort>=5.5.4",
"jax": "jax>=0.2.8,!=0.3.2",
"jaxlib": "jaxlib>=0.1.65",
"Jinja2": "Jinja2",
"k-diffusion": "k-diffusion>=0.0.12",
"torchsde": "torchsde",
"note_seq": "note_seq",
"librosa": "librosa",
"numpy": "numpy",
"omegaconf": "omegaconf",
"parameterized": "parameterized",
"protobuf": "protobuf>=3.20.3,<4",
"pytest": "pytest",
"pytest-timeout": "pytest-timeout",
"pytest-xdist": "pytest-xdist",
"ruff": "ruff>=0.0.241",
"safetensors": "safetensors",
"sentencepiece": "sentencepiece>=0.1.91,!=0.1.92",
"scipy": "scipy",
"onnx": "onnx",
"regex": "regex!=2019.12.17",
"requests": "requests",
"tensorboard": "tensorboard",
"torch": "torch>=1.4",
"torchvision": "torchvision",
"transformers": "transformers>=4.25.1",
"urllib3": "urllib3<=2.0.0",
}
| 51
| 1
|
import os
import unittest
from transformers.models.phobert.tokenization_phobert import VOCAB_FILES_NAMES, PhobertTokenizer
from ...test_tokenization_common import TokenizerTesterMixin
class __snake_case ( a , unittest.TestCase ):
UpperCAmelCase__ : Any = PhobertTokenizer
UpperCAmelCase__ : List[str] = False
def lowerCamelCase ( self : str):
"""simple docstring"""
super().setUp()
# Adapted from Sennrich et al. 2015 and https://github.com/rsennrich/subword-nmt
UpperCAmelCase_ = ['''T@@''', '''i''', '''I''', '''R@@''', '''r''', '''e@@''']
UpperCAmelCase_ = dict(zip(_snake_case , range(len(_snake_case))))
UpperCAmelCase_ = ['''#version: 0.2''', '''l à</w>''']
UpperCAmelCase_ = {'''unk_token''': '''<unk>'''}
UpperCAmelCase_ = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['''vocab_file'''])
UpperCAmelCase_ = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['''merges_file'''])
with open(self.vocab_file , '''w''' , encoding='''utf-8''') as fp:
for token in vocab_tokens:
fp.write(F"""{token} {vocab_tokens[token]}\n""")
with open(self.merges_file , '''w''' , encoding='''utf-8''') as fp:
fp.write('''\n'''.join(_snake_case))
def lowerCamelCase ( self : int , **_snake_case : Any):
"""simple docstring"""
kwargs.update(self.special_tokens_map)
return PhobertTokenizer.from_pretrained(self.tmpdirname , **_snake_case)
def lowerCamelCase ( self : Optional[Any] , _snake_case : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = '''Tôi là VinAI Research'''
UpperCAmelCase_ = '''T<unk> i <unk> <unk> <unk> <unk> <unk> <unk> I Re<unk> e<unk> <unk> <unk> <unk>'''
return input_text, output_text
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = PhobertTokenizer(self.vocab_file , self.merges_file , **self.special_tokens_map)
UpperCAmelCase_ = '''Tôi là VinAI Research'''
UpperCAmelCase_ = '''T@@ ô@@ i l@@ à V@@ i@@ n@@ A@@ I R@@ e@@ s@@ e@@ a@@ r@@ c@@ h'''.split()
UpperCAmelCase_ = tokenizer.tokenize(_snake_case)
print(_snake_case)
self.assertListEqual(_snake_case , _snake_case)
UpperCAmelCase_ = tokens + [tokenizer.unk_token]
UpperCAmelCase_ = [4, 3, 5, 3, 3, 3, 3, 3, 3, 6, 7, 9, 3, 9, 3, 3, 3, 3, 3]
self.assertListEqual(tokenizer.convert_tokens_to_ids(_snake_case) , _snake_case)
| 51
|
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
| 1
|
import os
import pytest
import yaml
from datasets.features.features import Features, Value
from datasets.info import DatasetInfo, DatasetInfosDict
@pytest.mark.parametrize(
'''files''' , [
['''full:README.md''', '''dataset_infos.json'''],
['''empty:README.md''', '''dataset_infos.json'''],
['''dataset_infos.json'''],
['''full:README.md'''],
] , )
def A (__A : Tuple , __A : Dict ) -> Any:
"""simple docstring"""
UpperCAmelCase_ = tmp_path_factory.mktemp('''dset_infos_dir''' )
if "full:README.md" in files:
with open(dataset_infos_dir / '''README.md''' , '''w''' ) as f:
f.write('''---\ndataset_info:\n dataset_size: 42\n---''' )
if "empty:README.md" in files:
with open(dataset_infos_dir / '''README.md''' , '''w''' ) as f:
f.write('''''' )
# we want to support dataset_infos.json for backward compatibility
if "dataset_infos.json" in files:
with open(dataset_infos_dir / '''dataset_infos.json''' , '''w''' ) as f:
f.write('''{"default": {"dataset_size": 42}}''' )
UpperCAmelCase_ = DatasetInfosDict.from_directory(__A )
assert dataset_infos
assert dataset_infos["default"].dataset_size == 42
@pytest.mark.parametrize(
'''dataset_info''' , [
DatasetInfo(),
DatasetInfo(
description='''foo''' , features=Features({'''a''': Value('''int32''' )} ) , builder_name='''builder''' , config_name='''config''' , version='''1.0.0''' , splits=[{'''name''': '''train'''}] , download_size=42 , ),
] , )
def A (__A : Optional[int] , __A : DatasetInfo ) -> Tuple:
"""simple docstring"""
UpperCAmelCase_ = str(__A )
dataset_info.write_to_directory(__A )
UpperCAmelCase_ = DatasetInfo.from_directory(__A )
assert dataset_info == reloaded
assert os.path.exists(os.path.join(__A , '''dataset_info.json''' ) )
def A () -> Optional[int]:
"""simple docstring"""
UpperCAmelCase_ = DatasetInfo(
description='''foo''' , citation='''bar''' , homepage='''https://foo.bar''' , license='''CC0''' , features=Features({'''a''': Value('''int32''' )} ) , post_processed={} , supervised_keys=() , task_templates=[] , builder_name='''builder''' , config_name='''config''' , version='''1.0.0''' , splits=[{'''name''': '''train''', '''num_examples''': 42}] , download_checksums={} , download_size=1337 , post_processing_size=442 , dataset_size=1234 , size_in_bytes=1337 + 442 + 1234 , )
UpperCAmelCase_ = dataset_info._to_yaml_dict()
assert sorted(__A ) == sorted(DatasetInfo._INCLUDED_INFO_IN_YAML )
for key in DatasetInfo._INCLUDED_INFO_IN_YAML:
assert key in dataset_info_yaml_dict
assert isinstance(dataset_info_yaml_dict[key] , (list, dict, int, str) )
UpperCAmelCase_ = yaml.safe_dump(__A )
UpperCAmelCase_ = yaml.safe_load(__A )
assert dataset_info_yaml_dict == reloaded
def A () -> Any:
"""simple docstring"""
UpperCAmelCase_ = DatasetInfo()
UpperCAmelCase_ = dataset_info._to_yaml_dict()
assert dataset_info_yaml_dict == {}
@pytest.mark.parametrize(
'''dataset_infos_dict''' , [
DatasetInfosDict(),
DatasetInfosDict({'''default''': DatasetInfo()} ),
DatasetInfosDict({'''my_config_name''': DatasetInfo()} ),
DatasetInfosDict(
{
'''default''': DatasetInfo(
description='''foo''' , features=Features({'''a''': Value('''int32''' )} ) , builder_name='''builder''' , config_name='''config''' , version='''1.0.0''' , splits=[{'''name''': '''train'''}] , download_size=42 , )
} ),
DatasetInfosDict(
{
'''v1''': DatasetInfo(dataset_size=42 ),
'''v2''': DatasetInfo(dataset_size=1337 ),
} ),
] , )
def A (__A : Optional[Any] , __A : DatasetInfosDict ) -> List[Any]:
"""simple docstring"""
UpperCAmelCase_ = str(__A )
dataset_infos_dict.write_to_directory(__A )
UpperCAmelCase_ = DatasetInfosDict.from_directory(__A )
# the config_name of the dataset_infos_dict take over the attribute
for config_name, dataset_info in dataset_infos_dict.items():
UpperCAmelCase_ = config_name
# the yaml representation doesn't include fields like description or citation
# so we just test that we can recover what we can from the yaml
UpperCAmelCase_ = DatasetInfo._from_yaml_dict(dataset_info._to_yaml_dict() )
assert dataset_infos_dict == reloaded
if dataset_infos_dict:
assert os.path.exists(os.path.join(__A , '''README.md''' ) )
| 51
|
from ...configuration_utils import PretrainedConfig
from ...utils import logging
snake_case_ : Any = logging.get_logger(__name__)
snake_case_ : Optional[Any] = {
"tiiuae/falcon-40b": "https://huggingface.co/tiiuae/falcon-40b/resolve/main/config.json",
"tiiuae/falcon-7b": "https://huggingface.co/tiiuae/falcon-7b/resolve/main/config.json",
}
class __snake_case ( a ):
UpperCAmelCase__ : Optional[Any] = '''falcon'''
UpperCAmelCase__ : List[Any] = ['''past_key_values''']
def __init__( self : Union[str, Any] , _snake_case : List[str]=65024 , _snake_case : int=4544 , _snake_case : int=32 , _snake_case : Any=71 , _snake_case : int=1e-5 , _snake_case : Dict=0.0_2 , _snake_case : int=True , _snake_case : List[Any]=0.0 , _snake_case : Tuple=0.0 , _snake_case : int=None , _snake_case : Tuple=False , _snake_case : Any=False , _snake_case : str=True , _snake_case : Any=True , _snake_case : List[str]=False , _snake_case : Tuple=11 , _snake_case : Dict=11 , **_snake_case : Optional[int] , ):
"""simple docstring"""
UpperCAmelCase_ = vocab_size
# Backward compatibility with n_embed kwarg
UpperCAmelCase_ = kwargs.pop('''n_embed''' , _snake_case)
UpperCAmelCase_ = hidden_size if n_embed is None else n_embed
UpperCAmelCase_ = num_hidden_layers
UpperCAmelCase_ = num_attention_heads
UpperCAmelCase_ = layer_norm_epsilon
UpperCAmelCase_ = initializer_range
UpperCAmelCase_ = use_cache
UpperCAmelCase_ = hidden_dropout
UpperCAmelCase_ = attention_dropout
UpperCAmelCase_ = bos_token_id
UpperCAmelCase_ = eos_token_id
UpperCAmelCase_ = num_attention_heads if num_kv_heads is None else num_kv_heads
UpperCAmelCase_ = alibi
UpperCAmelCase_ = new_decoder_architecture
UpperCAmelCase_ = multi_query # Ignored when new_decoder_architecture is True
UpperCAmelCase_ = parallel_attn
UpperCAmelCase_ = bias
super().__init__(bos_token_id=_snake_case , eos_token_id=_snake_case , **_snake_case)
@property
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
return self.hidden_size // self.num_attention_heads
@property
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
return not self.alibi
| 51
| 1
|
from collections import OrderedDict
from typing import TYPE_CHECKING, Any, Mapping, Optional
from packaging import version
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfig
from ...onnx.utils import compute_effective_axis_dimension
from ...utils import logging
if TYPE_CHECKING:
from ...processing_utils import ProcessorMixin
from ...utils import TensorType
snake_case_ : Optional[int] = logging.get_logger(__name__)
snake_case_ : Optional[Any] = {
"microsoft/layoutlmv3-base": "https://huggingface.co/microsoft/layoutlmv3-base/resolve/main/config.json",
}
class __snake_case ( a ):
UpperCAmelCase__ : Dict = '''layoutlmv3'''
def __init__( self : Optional[int] , _snake_case : Dict=50265 , _snake_case : Optional[int]=768 , _snake_case : Optional[Any]=12 , _snake_case : List[Any]=12 , _snake_case : Tuple=3072 , _snake_case : Dict="gelu" , _snake_case : Optional[int]=0.1 , _snake_case : Optional[int]=0.1 , _snake_case : List[str]=512 , _snake_case : List[str]=2 , _snake_case : List[str]=0.0_2 , _snake_case : str=1e-5 , _snake_case : Tuple=1 , _snake_case : Dict=0 , _snake_case : Union[str, Any]=2 , _snake_case : Optional[Any]=1024 , _snake_case : Tuple=128 , _snake_case : int=128 , _snake_case : List[str]=True , _snake_case : Union[str, Any]=32 , _snake_case : Optional[int]=128 , _snake_case : Any=64 , _snake_case : List[str]=256 , _snake_case : List[str]=True , _snake_case : Any=True , _snake_case : str=True , _snake_case : Optional[int]=224 , _snake_case : Dict=3 , _snake_case : str=16 , _snake_case : List[Any]=None , **_snake_case : Dict , ):
"""simple docstring"""
super().__init__(
vocab_size=_snake_case , hidden_size=_snake_case , num_hidden_layers=_snake_case , num_attention_heads=_snake_case , intermediate_size=_snake_case , hidden_act=_snake_case , hidden_dropout_prob=_snake_case , attention_probs_dropout_prob=_snake_case , max_position_embeddings=_snake_case , type_vocab_size=_snake_case , initializer_range=_snake_case , layer_norm_eps=_snake_case , pad_token_id=_snake_case , bos_token_id=_snake_case , eos_token_id=_snake_case , **_snake_case , )
UpperCAmelCase_ = max_ad_position_embeddings
UpperCAmelCase_ = coordinate_size
UpperCAmelCase_ = shape_size
UpperCAmelCase_ = has_relative_attention_bias
UpperCAmelCase_ = rel_pos_bins
UpperCAmelCase_ = max_rel_pos
UpperCAmelCase_ = has_spatial_attention_bias
UpperCAmelCase_ = rel_ad_pos_bins
UpperCAmelCase_ = max_rel_ad_pos
UpperCAmelCase_ = text_embed
UpperCAmelCase_ = visual_embed
UpperCAmelCase_ = input_size
UpperCAmelCase_ = num_channels
UpperCAmelCase_ = patch_size
UpperCAmelCase_ = classifier_dropout
class __snake_case ( a ):
UpperCAmelCase__ : int = version.parse('''1.12''' )
@property
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
if self.task in ["question-answering", "sequence-classification"]:
return OrderedDict(
[
('''input_ids''', {0: '''batch''', 1: '''sequence'''}),
('''attention_mask''', {0: '''batch''', 1: '''sequence'''}),
('''bbox''', {0: '''batch''', 1: '''sequence'''}),
('''pixel_values''', {0: '''batch''', 1: '''num_channels''', 2: '''height''', 3: '''width'''}),
])
else:
return OrderedDict(
[
('''input_ids''', {0: '''batch''', 1: '''sequence'''}),
('''bbox''', {0: '''batch''', 1: '''sequence'''}),
('''attention_mask''', {0: '''batch''', 1: '''sequence'''}),
('''pixel_values''', {0: '''batch''', 1: '''num_channels'''}),
])
@property
def lowerCamelCase ( self : int):
"""simple docstring"""
return 1e-5
@property
def lowerCamelCase ( self : Dict):
"""simple docstring"""
return 12
def lowerCamelCase ( self : Tuple , _snake_case : "ProcessorMixin" , _snake_case : int = -1 , _snake_case : int = -1 , _snake_case : bool = False , _snake_case : Optional["TensorType"] = None , _snake_case : int = 3 , _snake_case : int = 40 , _snake_case : int = 40 , ):
"""simple docstring"""
setattr(processor.image_processor , '''apply_ocr''' , _snake_case)
# If dynamic axis (-1) we forward with a fixed dimension of 2 samples to avoid optimizations made by ONNX
UpperCAmelCase_ = compute_effective_axis_dimension(
_snake_case , fixed_dimension=OnnxConfig.default_fixed_batch , num_token_to_add=0)
# If dynamic axis (-1) we forward with a fixed dimension of 8 tokens to avoid optimizations made by ONNX
UpperCAmelCase_ = processor.tokenizer.num_special_tokens_to_add(_snake_case)
UpperCAmelCase_ = compute_effective_axis_dimension(
_snake_case , fixed_dimension=OnnxConfig.default_fixed_sequence , num_token_to_add=_snake_case)
# Generate dummy inputs according to compute batch and sequence
UpperCAmelCase_ = [[''' '''.join([processor.tokenizer.unk_token]) * seq_length]] * batch_size
# Generate dummy bounding boxes
UpperCAmelCase_ = [[[48, 84, 73, 128]]] * batch_size
# If dynamic axis (-1) we forward with a fixed dimension of 2 samples to avoid optimizations made by ONNX
# batch_size = compute_effective_axis_dimension(batch_size, fixed_dimension=OnnxConfig.default_fixed_batch)
UpperCAmelCase_ = self._generate_dummy_images(_snake_case , _snake_case , _snake_case , _snake_case)
UpperCAmelCase_ = dict(
processor(
_snake_case , text=_snake_case , boxes=_snake_case , return_tensors=_snake_case , ))
return inputs
| 51
|
from __future__ import annotations
import time
from math import sqrt
# 1 for manhattan, 0 for euclidean
snake_case_ : str = 0
snake_case_ : Union[str, Any] = [
[0, 0, 0, 0, 0, 0, 0],
[0, 1, 0, 0, 0, 0, 0], # 0 are free path whereas 1's are obstacles
[0, 0, 0, 0, 0, 0, 0],
[0, 0, 1, 0, 0, 0, 0],
[1, 0, 1, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 1, 0, 0],
]
snake_case_ : str = [[-1, 0], [0, -1], [1, 0], [0, 1]] # up, left, down, right
snake_case_ : List[Any] = tuple[int, int]
class __snake_case :
def __init__( self : Any , _snake_case : int , _snake_case : int , _snake_case : int , _snake_case : int , _snake_case : int , _snake_case : Node | None , ):
"""simple docstring"""
UpperCAmelCase_ = pos_x
UpperCAmelCase_ = pos_y
UpperCAmelCase_ = (pos_y, pos_x)
UpperCAmelCase_ = goal_x
UpperCAmelCase_ = goal_y
UpperCAmelCase_ = g_cost
UpperCAmelCase_ = parent
UpperCAmelCase_ = self.calculate_heuristic()
UpperCAmelCase_ = self.g_cost + self.h_cost
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = self.pos_x - self.goal_x
UpperCAmelCase_ = self.pos_y - self.goal_y
if HEURISTIC == 1:
return abs(_snake_case) + abs(_snake_case)
else:
return sqrt(dy**2 + dx**2)
def __lt__( self : Union[str, Any] , _snake_case : Node):
"""simple docstring"""
return self.f_cost < other.f_cost
class __snake_case :
def __init__( self : str , _snake_case : TPosition , _snake_case : TPosition):
"""simple docstring"""
UpperCAmelCase_ = Node(start[1] , start[0] , goal[1] , goal[0] , 0 , _snake_case)
UpperCAmelCase_ = Node(goal[1] , goal[0] , goal[1] , goal[0] , 99999 , _snake_case)
UpperCAmelCase_ = [self.start]
UpperCAmelCase_ = []
UpperCAmelCase_ = False
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
while self.open_nodes:
# Open Nodes are sorted using __lt__
self.open_nodes.sort()
UpperCAmelCase_ = self.open_nodes.pop(0)
if current_node.pos == self.target.pos:
return self.retrace_path(_snake_case)
self.closed_nodes.append(_snake_case)
UpperCAmelCase_ = self.get_successors(_snake_case)
for child_node in successors:
if child_node in self.closed_nodes:
continue
if child_node not in self.open_nodes:
self.open_nodes.append(_snake_case)
else:
# retrieve the best current path
UpperCAmelCase_ = self.open_nodes.pop(self.open_nodes.index(_snake_case))
if child_node.g_cost < better_node.g_cost:
self.open_nodes.append(_snake_case)
else:
self.open_nodes.append(_snake_case)
return [self.start.pos]
def lowerCamelCase ( self : Tuple , _snake_case : Node):
"""simple docstring"""
UpperCAmelCase_ = []
for action in delta:
UpperCAmelCase_ = parent.pos_x + action[1]
UpperCAmelCase_ = parent.pos_y + action[0]
if not (0 <= pos_x <= len(grid[0]) - 1 and 0 <= pos_y <= len(_snake_case) - 1):
continue
if grid[pos_y][pos_x] != 0:
continue
successors.append(
Node(
_snake_case , _snake_case , self.target.pos_y , self.target.pos_x , parent.g_cost + 1 , _snake_case , ))
return successors
def lowerCamelCase ( self : Any , _snake_case : Node | None):
"""simple docstring"""
UpperCAmelCase_ = node
UpperCAmelCase_ = []
while current_node is not None:
path.append((current_node.pos_y, current_node.pos_x))
UpperCAmelCase_ = current_node.parent
path.reverse()
return path
class __snake_case :
def __init__( self : Any , _snake_case : TPosition , _snake_case : TPosition):
"""simple docstring"""
UpperCAmelCase_ = AStar(_snake_case , _snake_case)
UpperCAmelCase_ = AStar(_snake_case , _snake_case)
UpperCAmelCase_ = False
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
while self.fwd_astar.open_nodes or self.bwd_astar.open_nodes:
self.fwd_astar.open_nodes.sort()
self.bwd_astar.open_nodes.sort()
UpperCAmelCase_ = self.fwd_astar.open_nodes.pop(0)
UpperCAmelCase_ = self.bwd_astar.open_nodes.pop(0)
if current_bwd_node.pos == current_fwd_node.pos:
return self.retrace_bidirectional_path(
_snake_case , _snake_case)
self.fwd_astar.closed_nodes.append(_snake_case)
self.bwd_astar.closed_nodes.append(_snake_case)
UpperCAmelCase_ = current_bwd_node
UpperCAmelCase_ = current_fwd_node
UpperCAmelCase_ = {
self.fwd_astar: self.fwd_astar.get_successors(_snake_case),
self.bwd_astar: self.bwd_astar.get_successors(_snake_case),
}
for astar in [self.fwd_astar, self.bwd_astar]:
for child_node in successors[astar]:
if child_node in astar.closed_nodes:
continue
if child_node not in astar.open_nodes:
astar.open_nodes.append(_snake_case)
else:
# retrieve the best current path
UpperCAmelCase_ = astar.open_nodes.pop(
astar.open_nodes.index(_snake_case))
if child_node.g_cost < better_node.g_cost:
astar.open_nodes.append(_snake_case)
else:
astar.open_nodes.append(_snake_case)
return [self.fwd_astar.start.pos]
def lowerCamelCase ( self : int , _snake_case : Node , _snake_case : Node):
"""simple docstring"""
UpperCAmelCase_ = self.fwd_astar.retrace_path(_snake_case)
UpperCAmelCase_ = self.bwd_astar.retrace_path(_snake_case)
bwd_path.pop()
bwd_path.reverse()
UpperCAmelCase_ = fwd_path + bwd_path
return path
if __name__ == "__main__":
# all coordinates are given in format [y,x]
snake_case_ : Any = (0, 0)
snake_case_ : Union[str, Any] = (len(grid) - 1, len(grid[0]) - 1)
for elem in grid:
print(elem)
snake_case_ : str = time.time()
snake_case_ : List[str] = AStar(init, goal)
snake_case_ : Optional[int] = a_star.search()
snake_case_ : Optional[Any] = time.time() - start_time
print(f"AStar execution time = {end_time:f} seconds")
snake_case_ : int = time.time()
snake_case_ : Dict = BidirectionalAStar(init, goal)
snake_case_ : str = time.time() - bd_start_time
print(f"BidirectionalAStar execution time = {bd_end_time:f} seconds")
| 51
| 1
|
# HF Trainer benchmarking tool
#
# This tool can be used to run and compare multiple dimensions of the HF Trainers args.
#
# It then prints a report once in github format with all the information that needs to be shared
# with others and second time in a console-friendly format, so it's easier to use for tuning things up.
#
# The main idea is:
#
# ./trainer-benchmark.py --base-cmd '<cmd args that don't change>' \
# --variations '--tf32 0|--tf32 1' '--fp16 0|--fp16 1|--bf16 1' \
# --target-metric-key train_samples_per_second
#
# The variations can be any command line argument that you want to compare and not just dtype as in
# the example.
#
# --variations allows you to compare variations in multiple dimensions.
#
# as the first dimention has 2 options and the second 3 in our example, this will run the trainer 6
# times adding one of:
#
# 1. --tf32 0 --fp16 0
# 2. --tf32 0 --fp16 1
# 3. --tf32 0 --bf16 1
# 4. --tf32 1 --fp16 0
# 5. --tf32 1 --fp16 1
# 6. --tf32 1 --bf16 1
#
# and print the results. This is just a cartesian product - and more than 2 dimensions can be used.
#
# If you want to rely on defaults, this:
# --variations '--tf32 0|--tf32 1' '--fp16 0|--fp16 1|--bf16 1'
# is identical to this:
# --variations '--tf32 0|--tf32 1' '|--fp16|--bf16'
#
# the leading empty variation in the 2nd dimension is a valid variation.
#
# So here we get the following 6 variations:
#
# 1. --tf32 0
# 2. --tf32 0 --fp16
# 3. --tf32 0 --bf16
# 4. --tf32 1
# 5. --tf32 1 --fp16
# 6. --tf32 1 --bf16
#
# In this particular case we don't know what the default tf32 setting is as it's normally
# pytorch-version dependent). That's why it's best to do an explicit setting of each variation:
# `--tf32 0|--tf32 1`
#
# Here is a full example of a train:
#
# CUDA_VISIBLE_DEVICES=0 python ./scripts/benchmark/trainer-benchmark.py \
# --base-cmd \
# ' examples/pytorch/translation/run_translation.py --model_name_or_path t5-small \
# --output_dir output_dir --do_train --label_smoothing 0.1 --logging_strategy no \
# --save_strategy no --per_device_train_batch_size 32 --max_source_length 512 \
# --max_target_length 512 --num_train_epochs 1 --overwrite_output_dir \
# --source_lang en --target_lang ro --dataset_name wmt16 --dataset_config "ro-en" \
# --source_prefix "translate English to Romanian: " --warmup_steps 50 \
# --max_train_samples 20000 --dataloader_num_workers 2 ' \
# --target-metric-key train_samples_per_second --repeat-times 1 --variations \
# '|--fp16|--bf16' '--tf32 0|--tf32 1' --report-metric-keys train_loss \
# --repeat-times 1 --base-variation '--tf32 0'
#
# and here is a possible output:
#
#
# | Variation | Train | Diff | Train |
# | | samples | % | loss |
# | | per | | |
# | | second | | |
# |:----------------|----------:|-------:|--------:|
# | --tf32 0 | 285.11 | 0 | 2.51 |
# | --tf32 1 | 342.09 | 20 | 2.51 |
# | --fp16 --tf32 0 | 423.49 | 49 | 2.51 |
# | --fp16 --tf32 1 | 423.13 | 48 | 2.51 |
# | --bf16 --tf32 0 | 416.80 | 46 | 2.52 |
# | --bf16 --tf32 1 | 415.87 | 46 | 2.52 |
#
#
# So you can quickly compare the different outcomes.
#
# Typically running each experiment once is enough, but if the environment is unstable you can
# re-run each multiple times, e.g., 3 using --repeat-times 3 and it will report the averaged results.
#
# By default it'll use the lowest result as the base line to use as 100% and then compare the rest to
# it as can be seen from the table above, but you can also specify which combination is the one to use as
# the baseline, e.g., to change to another entry use: --base-variation '--tf32 1 --fp16 0'
#
# --target-metric-key is there to tell the program which metrics to compare - the different metric keys are
# inside output_dir/all_results.json. e.g., to measure eval performance instead of train use:
# --target-metric-key eval_samples_per_second
# but of course you will need to adjust the --base-cmd value in the example to perform evaluation as
# well (as currently it doesn't)
#
import argparse
import datetime
import io
import itertools
import json
import math
import os
import platform
import re
import shlex
import subprocess
import sys
from pathlib import Path
from statistics import fmean
import pandas as pd
import torch
from tqdm import tqdm
import transformers
snake_case_ : List[Any] = float("nan")
class __snake_case :
def __init__( self : Optional[int] , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = sys.stdout
UpperCAmelCase_ = open(_snake_case , '''a''')
def __getattr__( self : List[str] , _snake_case : Tuple):
"""simple docstring"""
return getattr(self.stdout , _snake_case)
def lowerCamelCase ( self : int , _snake_case : List[Any]):
"""simple docstring"""
self.stdout.write(_snake_case)
# strip tqdm codes
self.file.write(re.sub(r'''^.*\r''' , '''''' , _snake_case , 0 , re.M))
def A (__A : Optional[Any]=80 , __A : Union[str, Any]=False ) -> Optional[int]:
"""simple docstring"""
UpperCAmelCase_ = []
# deal with critical env vars
UpperCAmelCase_ = ['''CUDA_VISIBLE_DEVICES''']
for key in env_keys:
UpperCAmelCase_ = os.environ.get(__A , __A )
if val is not None:
cmd.append(F"""{key}={val}""" )
# python executable (not always needed if the script is executable)
UpperCAmelCase_ = sys.executable if full_python_path else sys.executable.split('''/''' )[-1]
cmd.append(__A )
# now the normal args
cmd += list(map(shlex.quote , sys.argv ) )
# split up into up to MAX_WIDTH lines with shell multi-line escapes
UpperCAmelCase_ = []
UpperCAmelCase_ = ''''''
while len(__A ) > 0:
current_line += F"""{cmd.pop(0 )} """
if len(__A ) == 0 or len(__A ) + len(cmd[0] ) + 1 > max_width - 1:
lines.append(__A )
UpperCAmelCase_ = ''''''
return "\\\n".join(__A )
def A (__A : Union[str, Any] , __A : List[Any] ) -> Dict:
"""simple docstring"""
UpperCAmelCase_ = re.sub(R'''[\\\n]+''' , ''' ''' , args.base_cmd )
# remove --output_dir if any and set our own
UpperCAmelCase_ = re.sub('''--output_dir\s+[^\s]+''' , '''''' , args.base_cmd )
args.base_cmd += F""" --output_dir {output_dir}"""
# ensure we have --overwrite_output_dir
UpperCAmelCase_ = re.sub('''--overwrite_output_dir\s+''' , '''''' , args.base_cmd )
args.base_cmd += " --overwrite_output_dir"
return [sys.executable] + shlex.split(args.base_cmd )
def A (__A : str , __A : List[str] , __A : Optional[Any] , __A : List[Any] , __A : Optional[int] , __A : Tuple , __A : Union[str, Any] ) -> Dict:
"""simple docstring"""
if 0:
import random
from time import sleep
sleep(0 )
return dict(
{k: random.uniform(0 , 100 ) for k in metric_keys} , **{target_metric_key: random.choice([nan, 10.31, 100.2, 55.6_666, 222.22_222_222] )} , )
UpperCAmelCase_ = subprocess.run(__A , capture_output=__A , text=__A )
if verbose:
print('''STDOUT''' , result.stdout )
print('''STDERR''' , result.stderr )
# save the streams
UpperCAmelCase_ = variation.replace(''' ''' , '''-''' )
with open(Path(__A ) / F"""log.{prefix}.stdout.txt""" , '''w''' ) as f:
f.write(result.stdout )
with open(Path(__A ) / F"""log.{prefix}.stderr.txt""" , '''w''' ) as f:
f.write(result.stderr )
if result.returncode != 0:
if verbose:
print('''failed''' )
return {target_metric_key: nan}
with io.open(F"""{output_dir}/all_results.json""" , '''r''' , encoding='''utf-8''' ) as f:
UpperCAmelCase_ = json.load(__A )
# filter out just the keys we want
return {k: v for k, v in metrics.items() if k in metric_keys}
def A (__A : Tuple , __A : int , __A : Any , __A : Dict , __A : List[str] , __A : Tuple , __A : Optional[int] , __A : List[Any] , __A : int , __A : Any , ) -> int:
"""simple docstring"""
UpperCAmelCase_ = []
UpperCAmelCase_ = []
UpperCAmelCase_ = F"""{id}: {variation:<{longest_variation_len}}"""
UpperCAmelCase_ = F"""{preamble}: """
UpperCAmelCase_ = set(report_metric_keys + [target_metric_key] )
for i in tqdm(range(__A ) , desc=__A , leave=__A ):
UpperCAmelCase_ = process_run_single(
__A , __A , __A , __A , __A , __A , __A )
UpperCAmelCase_ = single_run_metrics[target_metric_key]
if not math.isnan(__A ):
metrics.append(__A )
results.append(__A )
outcome += "✓"
else:
outcome += "✘"
UpperCAmelCase_ = F"""\33[2K\r{outcome}"""
if len(__A ) > 0:
UpperCAmelCase_ = {k: fmean([x[k] for x in metrics] ) for k in metrics[0].keys()}
UpperCAmelCase_ = round(mean_metrics[target_metric_key] , 2 )
UpperCAmelCase_ = F"""{outcome} {mean_target}"""
if len(__A ) > 1:
results_str += F""" {tuple(round(__A , 2 ) for x in results )}"""
print(__A )
UpperCAmelCase_ = variation
return mean_metrics
else:
print(__A )
return {variation_key: variation, target_metric_key: nan}
def A () -> Dict:
"""simple docstring"""
UpperCAmelCase_ = torch.cuda.get_device_properties(torch.device('''cuda''' ) )
return F"""
Datetime : {datetime.datetime.now().strftime("%Y-%m-%d %H:%M:%S" )}
Software:
transformers: {transformers.__version__}
torch : {torch.__version__}
cuda : {torch.version.cuda}
python : {platform.python_version()}
Hardware:
{torch.cuda.device_count()} GPUs : {properties.name}, {properties.total_memory/2**30:0.2f}GB
"""
def A (__A : Optional[Any] , __A : str , __A : str , __A : List[str] , __A : Tuple ) -> List[Any]:
"""simple docstring"""
UpperCAmelCase_ = pd.DataFrame(__A )
UpperCAmelCase_ = '''variation'''
UpperCAmelCase_ = '''diff_%'''
UpperCAmelCase_ = nan
if base_variation is not None and len(df[df[variation_key] == base_variation] ):
# this may still return nan
UpperCAmelCase_ = df.loc[df[variation_key] == base_variation][target_metric_key].item()
if math.isnan(__A ):
# as a fallback, use the minimal value as the sentinel
UpperCAmelCase_ = df.loc[df[target_metric_key] != nan][target_metric_key].min()
# create diff column if possible
if not math.isnan(__A ):
UpperCAmelCase_ = df.apply(
lambda __A : round(100 * (r[target_metric_key] - sentinel_value) / sentinel_value )
if not math.isnan(r[target_metric_key] )
else 0 , axis='''columns''' , )
# re-order columns
UpperCAmelCase_ = [variation_key, target_metric_key, diff_key, *report_metric_keys]
UpperCAmelCase_ = df.reindex(__A , axis='''columns''' ) # reorder cols
# capitalize
UpperCAmelCase_ = df.rename(str.capitalize , axis='''columns''' )
# make the cols as narrow as possible
UpperCAmelCase_ = df.rename(lambda __A : c.replace('''_''' , '''<br>''' ) , axis='''columns''' )
UpperCAmelCase_ = df.rename(lambda __A : c.replace('''_''' , '''\n''' ) , axis='''columns''' )
UpperCAmelCase_ = ['''''', '''Copy between the cut-here-lines and paste as is to github or a forum''']
report += ["----------8<-----------------8<--------"]
report += ["*** Results:", df_github.to_markdown(index=__A , floatfmt='''.2f''' )]
report += ["```"]
report += ["*** Setup:", get_versions()]
report += ["*** The benchmark command line was:", get_original_command()]
report += ["```"]
report += ["----------8<-----------------8<--------"]
report += ["*** Results (console):", df_console.to_markdown(index=__A , floatfmt='''.2f''' )]
print('''\n\n'''.join(__A ) )
def A () -> int:
"""simple docstring"""
UpperCAmelCase_ = argparse.ArgumentParser()
parser.add_argument(
'''--base-cmd''' , default=__A , type=__A , required=__A , help='''Base cmd''' , )
parser.add_argument(
'''--variations''' , default=__A , type=__A , nargs='''+''' , required=__A , help='''Multi-dimensional variations, example: \'|--fp16|--bf16\' \'|--tf32\'''' , )
parser.add_argument(
'''--base-variation''' , default=__A , type=__A , help='''Baseline variation to compare to. if None the minimal target value will be used to compare against''' , )
parser.add_argument(
'''--target-metric-key''' , default=__A , type=__A , required=__A , help='''Target metric key in output_dir/all_results.json, e.g., train_samples_per_second''' , )
parser.add_argument(
'''--report-metric-keys''' , default='''''' , type=__A , help='''Report metric keys - other metric keys from output_dir/all_results.json to report, e.g., train_loss. Use a single argument e.g., \'train_loss train_samples''' , )
parser.add_argument(
'''--repeat-times''' , default=1 , type=__A , help='''How many times to re-run each variation - an average will be reported''' , )
parser.add_argument(
'''--output_dir''' , default='''output_benchmark''' , type=__A , help='''The output directory where all the benchmark reports will go to and additionally this directory will be used to override --output_dir in the script that is being benchmarked''' , )
parser.add_argument(
'''--verbose''' , default=__A , action='''store_true''' , help='''Whether to show the outputs of each run or just the benchmark progress''' , )
UpperCAmelCase_ = parser.parse_args()
UpperCAmelCase_ = args.output_dir
Path(__A ).mkdir(exist_ok=__A )
UpperCAmelCase_ = get_base_command(__A , __A )
# split each dimension into its --foo variations
UpperCAmelCase_ = [list(map(str.strip , re.split(R'''\|''' , __A ) ) ) for x in args.variations]
# build a cartesian product of dimensions and convert those back into cmd-line arg strings,
# while stripping white space for inputs that were empty
UpperCAmelCase_ = list(map(str.strip , map(''' '''.join , itertools.product(*__A ) ) ) )
UpperCAmelCase_ = max(len(__A ) for x in variations )
# split wanted keys
UpperCAmelCase_ = args.report_metric_keys.split()
# capture prints into a log file for convenience
UpperCAmelCase_ = F"""benchmark-report-{datetime.datetime.now().strftime("%Y-%m-%d-%H-%M-%S" )}.txt"""
print(F"""\nNote: each run's output is also logged under {output_dir}/log.*.std*.txt""" )
print(F"""and this script's output is also piped into {report_fn}""" )
UpperCAmelCase_ = Tee(__A )
print(F"""\n*** Running {len(__A )} benchmarks:""" )
print(F"""Base command: {" ".join(__A )}""" )
UpperCAmelCase_ = '''variation'''
UpperCAmelCase_ = []
for id, variation in enumerate(tqdm(__A , desc='''Total completion: ''' , leave=__A ) ):
UpperCAmelCase_ = base_cmd + variation.split()
results.append(
process_run(
id + 1 , __A , __A , __A , __A , args.target_metric_key , __A , args.repeat_times , __A , args.verbose , ) )
process_results(__A , args.target_metric_key , __A , args.base_variation , __A )
if __name__ == "__main__":
main()
| 51
|
import inspect
import unittest
import numpy as np
from tests.test_modeling_common import floats_tensor
from transformers import DetrConfig, MaskFormerConfig, SwinConfig, is_torch_available, is_vision_available
from transformers.testing_utils import require_torch, require_torch_multi_gpu, require_vision, slow, torch_device
from transformers.utils import cached_property
from ...test_configuration_common import ConfigTester
from ...test_modeling_common import ModelTesterMixin
from ...test_pipeline_mixin import PipelineTesterMixin
if is_torch_available():
import torch
from transformers import MaskFormerForInstanceSegmentation, MaskFormerModel
if is_vision_available():
from transformers import MaskFormerImageProcessor
if is_vision_available():
from PIL import Image
class __snake_case :
def __init__( self : List[str] , _snake_case : Union[str, Any] , _snake_case : List[str]=2 , _snake_case : Any=True , _snake_case : Any=False , _snake_case : List[str]=10 , _snake_case : Any=3 , _snake_case : Union[str, Any]=32 * 4 , _snake_case : List[Any]=32 * 6 , _snake_case : Tuple=4 , _snake_case : Dict=32 , ):
"""simple docstring"""
UpperCAmelCase_ = parent
UpperCAmelCase_ = batch_size
UpperCAmelCase_ = is_training
UpperCAmelCase_ = use_auxiliary_loss
UpperCAmelCase_ = num_queries
UpperCAmelCase_ = num_channels
UpperCAmelCase_ = min_size
UpperCAmelCase_ = max_size
UpperCAmelCase_ = num_labels
UpperCAmelCase_ = mask_feature_size
def lowerCamelCase ( self : Any):
"""simple docstring"""
UpperCAmelCase_ = floats_tensor([self.batch_size, self.num_channels, self.min_size, self.max_size]).to(
_snake_case)
UpperCAmelCase_ = torch.ones([self.batch_size, self.min_size, self.max_size] , device=_snake_case)
UpperCAmelCase_ = (
torch.rand([self.batch_size, self.num_labels, self.min_size, self.max_size] , device=_snake_case) > 0.5
).float()
UpperCAmelCase_ = (torch.rand((self.batch_size, self.num_labels) , device=_snake_case) > 0.5).long()
UpperCAmelCase_ = self.get_config()
return config, pixel_values, pixel_mask, mask_labels, class_labels
def lowerCamelCase ( self : Any):
"""simple docstring"""
return MaskFormerConfig.from_backbone_and_decoder_configs(
backbone_config=SwinConfig(
depths=[1, 1, 1, 1] , ) , decoder_config=DetrConfig(
decoder_ffn_dim=128 , num_queries=self.num_queries , decoder_attention_heads=2 , d_model=self.mask_feature_size , ) , mask_feature_size=self.mask_feature_size , fpn_feature_size=self.mask_feature_size , num_channels=self.num_channels , num_labels=self.num_labels , )
def lowerCamelCase ( self : int):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = self.prepare_config_and_inputs()
UpperCAmelCase_ = {'''pixel_values''': pixel_values, '''pixel_mask''': pixel_mask}
return config, inputs_dict
def lowerCamelCase ( self : str , _snake_case : List[Any] , _snake_case : List[str]):
"""simple docstring"""
UpperCAmelCase_ = output.encoder_hidden_states
UpperCAmelCase_ = output.pixel_decoder_hidden_states
UpperCAmelCase_ = output.transformer_decoder_hidden_states
self.parent.assertTrue(len(_snake_case) , len(config.backbone_config.depths))
self.parent.assertTrue(len(_snake_case) , len(config.backbone_config.depths))
self.parent.assertTrue(len(_snake_case) , config.decoder_config.decoder_layers)
def lowerCamelCase ( self : Union[str, Any] , _snake_case : List[str] , _snake_case : int , _snake_case : Optional[Any] , _snake_case : str=False):
"""simple docstring"""
with torch.no_grad():
UpperCAmelCase_ = MaskFormerModel(config=_snake_case)
model.to(_snake_case)
model.eval()
UpperCAmelCase_ = model(pixel_values=_snake_case , pixel_mask=_snake_case)
UpperCAmelCase_ = model(_snake_case , output_hidden_states=_snake_case)
# the correct shape of output.transformer_decoder_hidden_states ensure the correcteness of the
# encoder and pixel decoder
self.parent.assertEqual(
output.transformer_decoder_last_hidden_state.shape , (self.batch_size, self.num_queries, self.mask_feature_size) , )
# let's ensure the other two hidden state exists
self.parent.assertTrue(output.pixel_decoder_last_hidden_state is not None)
self.parent.assertTrue(output.encoder_last_hidden_state is not None)
if output_hidden_states:
self.check_output_hidden_state(_snake_case , _snake_case)
def lowerCamelCase ( self : List[Any] , _snake_case : List[Any] , _snake_case : List[Any] , _snake_case : str , _snake_case : Optional[int] , _snake_case : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = MaskFormerForInstanceSegmentation(config=_snake_case)
model.to(_snake_case)
model.eval()
def comm_check_on_output(_snake_case : Tuple):
# let's still check that all the required stuff is there
self.parent.assertTrue(result.transformer_decoder_last_hidden_state is not None)
self.parent.assertTrue(result.pixel_decoder_last_hidden_state is not None)
self.parent.assertTrue(result.encoder_last_hidden_state is not None)
# okay, now we need to check the logits shape
# due to the encoder compression, masks have a //4 spatial size
self.parent.assertEqual(
result.masks_queries_logits.shape , (self.batch_size, self.num_queries, self.min_size // 4, self.max_size // 4) , )
# + 1 for null class
self.parent.assertEqual(
result.class_queries_logits.shape , (self.batch_size, self.num_queries, self.num_labels + 1))
with torch.no_grad():
UpperCAmelCase_ = model(pixel_values=_snake_case , pixel_mask=_snake_case)
UpperCAmelCase_ = model(_snake_case)
comm_check_on_output(_snake_case)
UpperCAmelCase_ = model(
pixel_values=_snake_case , pixel_mask=_snake_case , mask_labels=_snake_case , class_labels=_snake_case)
comm_check_on_output(_snake_case)
self.parent.assertTrue(result.loss is not None)
self.parent.assertEqual(result.loss.shape , torch.Size([1]))
@require_torch
class __snake_case ( a , a , unittest.TestCase ):
UpperCAmelCase__ : Union[str, Any] = (MaskFormerModel, MaskFormerForInstanceSegmentation) if is_torch_available() else ()
UpperCAmelCase__ : Optional[Any] = (
{'''feature-extraction''': MaskFormerModel, '''image-segmentation''': MaskFormerForInstanceSegmentation}
if is_torch_available()
else {}
)
UpperCAmelCase__ : Dict = False
UpperCAmelCase__ : List[str] = False
UpperCAmelCase__ : Optional[Any] = False
UpperCAmelCase__ : Union[str, Any] = False
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = MaskFormerModelTester(self)
UpperCAmelCase_ = ConfigTester(self , config_class=_snake_case , has_text_modality=_snake_case)
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
self.config_tester.run_common_tests()
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_common()
self.model_tester.create_and_check_maskformer_model(_snake_case , **_snake_case , output_hidden_states=_snake_case)
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_maskformer_instance_segmentation_head_model(*_snake_case)
@unittest.skip(reason='''MaskFormer does not use inputs_embeds''')
def lowerCamelCase ( self : Dict):
"""simple docstring"""
pass
@unittest.skip(reason='''MaskFormer does not have a get_input_embeddings method''')
def lowerCamelCase ( self : int):
"""simple docstring"""
pass
@unittest.skip(reason='''MaskFormer is not a generative model''')
def lowerCamelCase ( self : str):
"""simple docstring"""
pass
@unittest.skip(reason='''MaskFormer does not use token embeddings''')
def lowerCamelCase ( self : int):
"""simple docstring"""
pass
@require_torch_multi_gpu
@unittest.skip(
reason='''MaskFormer has some layers using `add_module` which doesn\'t work well with `nn.DataParallel`''')
def lowerCamelCase ( self : Any):
"""simple docstring"""
pass
@unittest.skip('''Will be fixed soon by reducing the size of the model used for common tests.''')
def lowerCamelCase ( self : str):
"""simple docstring"""
pass
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
UpperCAmelCase_ = model_class(_snake_case)
UpperCAmelCase_ = inspect.signature(model.forward)
# signature.parameters is an OrderedDict => so arg_names order is deterministic
UpperCAmelCase_ = [*signature.parameters.keys()]
UpperCAmelCase_ = ['''pixel_values''']
self.assertListEqual(arg_names[:1] , _snake_case)
@slow
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
for model_name in ["facebook/maskformer-swin-small-coco"]:
UpperCAmelCase_ = MaskFormerModel.from_pretrained(_snake_case)
self.assertIsNotNone(_snake_case)
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = (self.model_tester.min_size,) * 2
UpperCAmelCase_ = {
'''pixel_values''': torch.randn((2, 3, *size) , device=_snake_case),
'''mask_labels''': torch.randn((2, 10, *size) , device=_snake_case),
'''class_labels''': torch.zeros(2 , 10 , device=_snake_case).long(),
}
UpperCAmelCase_ = MaskFormerForInstanceSegmentation(MaskFormerConfig()).to(_snake_case)
UpperCAmelCase_ = model(**_snake_case)
self.assertTrue(outputs.loss is not None)
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_common()
self.model_tester.create_and_check_maskformer_model(_snake_case , **_snake_case , output_hidden_states=_snake_case)
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
UpperCAmelCase_ = model_class(_snake_case).to(_snake_case)
UpperCAmelCase_ = model(**_snake_case , output_attentions=_snake_case)
self.assertTrue(outputs.attentions is not None)
def lowerCamelCase ( self : int):
"""simple docstring"""
if not self.model_tester.is_training:
return
# only MaskFormerForInstanceSegmentation has the loss
UpperCAmelCase_ = self.all_model_classes[1]
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
UpperCAmelCase_ = model_class(_snake_case)
model.to(_snake_case)
model.train()
UpperCAmelCase_ = model(_snake_case , mask_labels=_snake_case , class_labels=_snake_case).loss
loss.backward()
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = self.all_model_classes[1]
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
UpperCAmelCase_ = True
UpperCAmelCase_ = True
UpperCAmelCase_ = model_class(_snake_case)
model.to(_snake_case)
model.train()
UpperCAmelCase_ = model(_snake_case , mask_labels=_snake_case , class_labels=_snake_case)
UpperCAmelCase_ = outputs.encoder_hidden_states[0]
encoder_hidden_states.retain_grad()
UpperCAmelCase_ = outputs.pixel_decoder_hidden_states[0]
pixel_decoder_hidden_states.retain_grad()
# we requires_grad=True in inputs_embeds (line 2152), the original implementation don't
UpperCAmelCase_ = outputs.transformer_decoder_hidden_states[0]
transformer_decoder_hidden_states.retain_grad()
UpperCAmelCase_ = outputs.attentions[0]
attentions.retain_grad()
outputs.loss.backward(retain_graph=_snake_case)
self.assertIsNotNone(encoder_hidden_states.grad)
self.assertIsNotNone(pixel_decoder_hidden_states.grad)
self.assertIsNotNone(transformer_decoder_hidden_states.grad)
self.assertIsNotNone(attentions.grad)
snake_case_ : Dict = 1e-4
def A () -> Union[str, Any]:
"""simple docstring"""
UpperCAmelCase_ = Image.open('''./tests/fixtures/tests_samples/COCO/000000039769.png''' )
return image
@require_vision
@slow
class __snake_case ( unittest.TestCase ):
@cached_property
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
return (
MaskFormerImageProcessor.from_pretrained('''facebook/maskformer-swin-small-coco''')
if is_vision_available()
else None
)
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = MaskFormerModel.from_pretrained('''facebook/maskformer-swin-small-coco''').to(_snake_case)
UpperCAmelCase_ = self.default_image_processor
UpperCAmelCase_ = prepare_img()
UpperCAmelCase_ = image_processor(_snake_case , return_tensors='''pt''').to(_snake_case)
UpperCAmelCase_ = inputs['''pixel_values'''].shape
# check size is divisible by 32
self.assertTrue((inputs_shape[-1] % 32) == 0 and (inputs_shape[-2] % 32) == 0)
# check size
self.assertEqual(_snake_case , (1, 3, 800, 1088))
with torch.no_grad():
UpperCAmelCase_ = model(**_snake_case)
UpperCAmelCase_ = torch.tensor(
[[-0.0_4_8_2, 0.9_2_2_8, 0.4_9_5_1], [-0.2_5_4_7, 0.8_0_1_7, 0.8_5_2_7], [-0.0_0_6_9, 0.3_3_8_5, -0.0_0_8_9]]).to(_snake_case)
self.assertTrue(
torch.allclose(
outputs.encoder_last_hidden_state[0, 0, :3, :3] , _snake_case , atol=_snake_case))
UpperCAmelCase_ = torch.tensor(
[[-0.8_4_2_2, -0.8_4_3_4, -0.9_7_1_8], [-1.0_1_4_4, -0.5_5_6_5, -0.4_1_9_5], [-1.0_0_3_8, -0.4_4_8_4, -0.1_9_6_1]]).to(_snake_case)
self.assertTrue(
torch.allclose(
outputs.pixel_decoder_last_hidden_state[0, 0, :3, :3] , _snake_case , atol=_snake_case))
UpperCAmelCase_ = torch.tensor(
[[0.2_8_5_2, -0.0_1_5_9, 0.9_7_3_5], [0.6_2_5_4, 0.1_8_5_8, 0.8_5_2_9], [-0.0_6_8_0, -0.4_1_1_6, 1.8_4_1_3]]).to(_snake_case)
self.assertTrue(
torch.allclose(
outputs.transformer_decoder_last_hidden_state[0, :3, :3] , _snake_case , atol=_snake_case))
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = (
MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''')
.to(_snake_case)
.eval()
)
UpperCAmelCase_ = self.default_image_processor
UpperCAmelCase_ = prepare_img()
UpperCAmelCase_ = image_processor(_snake_case , return_tensors='''pt''').to(_snake_case)
UpperCAmelCase_ = inputs['''pixel_values'''].shape
# check size is divisible by 32
self.assertTrue((inputs_shape[-1] % 32) == 0 and (inputs_shape[-2] % 32) == 0)
# check size
self.assertEqual(_snake_case , (1, 3, 800, 1088))
with torch.no_grad():
UpperCAmelCase_ = model(**_snake_case)
# masks_queries_logits
UpperCAmelCase_ = outputs.masks_queries_logits
self.assertEqual(
masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , )
UpperCAmelCase_ = [
[-1.3_7_3_7_1_2_4, -1.7_7_2_4_9_3_7, -1.9_3_6_4_2_3_3],
[-1.5_9_7_7_2_8_1, -1.9_8_6_7_9_3_9, -2.1_5_2_3_6_9_5],
[-1.5_7_9_5_3_9_8, -1.9_2_6_9_8_3_2, -2.0_9_3_9_4_2],
]
UpperCAmelCase_ = torch.tensor(_snake_case).to(_snake_case)
self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , _snake_case , atol=_snake_case))
# class_queries_logits
UpperCAmelCase_ = outputs.class_queries_logits
self.assertEqual(
class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1))
UpperCAmelCase_ = torch.tensor(
[
[1.65_12e00, -5.25_72e00, -3.35_19e00],
[3.61_69e-02, -5.90_25e00, -2.93_13e00],
[1.07_66e-04, -7.76_30e00, -5.12_63e00],
]).to(_snake_case)
self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , _snake_case , atol=_snake_case))
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = (
MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-resnet101-coco-stuff''')
.to(_snake_case)
.eval()
)
UpperCAmelCase_ = self.default_image_processor
UpperCAmelCase_ = prepare_img()
UpperCAmelCase_ = image_processor(_snake_case , return_tensors='''pt''').to(_snake_case)
UpperCAmelCase_ = inputs['''pixel_values'''].shape
# check size is divisible by 32
self.assertTrue((inputs_shape[-1] % 32) == 0 and (inputs_shape[-2] % 32) == 0)
# check size
self.assertEqual(_snake_case , (1, 3, 800, 1088))
with torch.no_grad():
UpperCAmelCase_ = model(**_snake_case)
# masks_queries_logits
UpperCAmelCase_ = outputs.masks_queries_logits
self.assertEqual(
masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , )
UpperCAmelCase_ = [[-0.9_0_4_6, -2.6_3_6_6, -4.6_0_6_2], [-3.4_1_7_9, -5.7_8_9_0, -8.8_0_5_7], [-4.9_1_7_9, -7.6_5_6_0, -1_0.7_7_1_1]]
UpperCAmelCase_ = torch.tensor(_snake_case).to(_snake_case)
self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , _snake_case , atol=_snake_case))
# class_queries_logits
UpperCAmelCase_ = outputs.class_queries_logits
self.assertEqual(
class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1))
UpperCAmelCase_ = torch.tensor(
[[4.7_1_8_8, -3.2_5_8_5, -2.8_8_5_7], [6.6_8_7_1, -2.9_1_8_1, -1.2_4_8_7], [7.2_4_4_9, -2.2_7_6_4, -2.1_8_7_4]]).to(_snake_case)
self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , _snake_case , atol=_snake_case))
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = (
MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''')
.to(_snake_case)
.eval()
)
UpperCAmelCase_ = self.default_image_processor
UpperCAmelCase_ = image_processor(
[np.zeros((3, 800, 1333)), np.zeros((3, 800, 1333))] , segmentation_maps=[np.zeros((384, 384)).astype(np.floataa), np.zeros((384, 384)).astype(np.floataa)] , return_tensors='''pt''' , )
UpperCAmelCase_ = inputs['''pixel_values'''].to(_snake_case)
UpperCAmelCase_ = [el.to(_snake_case) for el in inputs['''mask_labels''']]
UpperCAmelCase_ = [el.to(_snake_case) for el in inputs['''class_labels''']]
with torch.no_grad():
UpperCAmelCase_ = model(**_snake_case)
self.assertTrue(outputs.loss is not None)
| 51
| 1
|
from PIL import Image
def A (__A : Image , __A : float ) -> Image:
"""simple docstring"""
def brightness(__A : int ) -> float:
return 128 + level + (c - 128)
if not -255.0 <= level <= 255.0:
raise ValueError('''level must be between -255.0 (black) and 255.0 (white)''' )
return img.point(__A )
if __name__ == "__main__":
# Load image
with Image.open("image_data/lena.jpg") as img:
# Change brightness to 100
snake_case_ : Tuple = change_brightness(img, 100)
brigt_img.save("image_data/lena_brightness.png", format="png")
| 51
|
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 A (__A : Optional[int] , __A : int , __A : str=None ) -> List[Any]:
"""simple docstring"""
assert torch_layer.weight.shape == weight.shape, F"""{torch_layer} layer.weight does not match"""
UpperCAmelCase_ = nn.Parameter(__A )
if bias is not None:
assert torch_layer.bias.shape == bias.shape, F"""{torch_layer} layer.bias does not match"""
UpperCAmelCase_ = nn.Parameter(__A )
def A (__A : Tuple , __A : Dict , __A : str ) -> Tuple:
"""simple docstring"""
UpperCAmelCase_ = np.asarray(weights[0] )
UpperCAmelCase_ = np.asarray(weights[1] )
UpperCAmelCase_ = np.asarray(weights[2] )
set_param(
torch_layer.self_attention.query_key , torch.tensor(__A ).transpose(1 , 2 ).contiguous().view(-1 , __A ) , )
set_param(
torch_layer.self_attention.value , torch.tensor(__A ).transpose(1 , 2 ).contiguous().view(-1 , __A ) , )
set_param(
torch_layer.output.dense , torch.tensor(__A ).view(-1 , __A ).contiguous().transpose(0 , 1 ) , )
def A (__A : Optional[Any] , __A : Any , __A : List[Any] ) -> int:
"""simple docstring"""
UpperCAmelCase_ = np.asarray(weights[0] )
UpperCAmelCase_ = np.asarray(weights[1] )
UpperCAmelCase_ = np.asarray(weights[2] )
UpperCAmelCase_ = np.asarray(weights[3] )
set_param(
torch_layer.self_attention.query , torch.tensor(__A ).transpose(1 , 2 ).contiguous().view(-1 , __A ) , )
set_param(
torch_layer.self_attention.key , torch.tensor(__A ).transpose(1 , 2 ).contiguous().view(-1 , __A ) , )
set_param(
torch_layer.self_attention.value , torch.tensor(__A ).transpose(1 , 2 ).contiguous().view(-1 , __A ) , )
set_param(
torch_layer.output.dense , torch.tensor(__A ).view(-1 , __A ).contiguous().transpose(0 , 1 ) , )
def A (__A : int , __A : Union[str, Any] , __A : List[str] ) -> List[Any]:
"""simple docstring"""
UpperCAmelCase_ = weights[0][0][0]
UpperCAmelCase_ = np.asarray(layer_norm_a[0] )
UpperCAmelCase_ = np.asarray(layer_norm_a[1] )
set_param(
torch_block.attention.layer_norm , torch.tensor(__A ) , torch.tensor(__A ) , )
# lsh weights + output
UpperCAmelCase_ = weights[0][1]
if len(__A ) < 4:
set_layer_weights_in_torch_lsh(__A , torch_block.attention , __A )
else:
set_layer_weights_in_torch_local(__A , torch_block.attention , __A )
# intermediate weighs
UpperCAmelCase_ = weights[2][0][1][2]
# Chunked Feed Forward
if len(__A ) == 4:
UpperCAmelCase_ = intermediate_weights[2]
# layernorm 2
UpperCAmelCase_ = np.asarray(intermediate_weights[0][0] )
UpperCAmelCase_ = np.asarray(intermediate_weights[0][1] )
set_param(
torch_block.feed_forward.layer_norm , torch.tensor(__A ) , torch.tensor(__A ) , )
# intermediate dense
UpperCAmelCase_ = np.asarray(intermediate_weights[1][0] )
UpperCAmelCase_ = np.asarray(intermediate_weights[1][1] )
set_param(
torch_block.feed_forward.dense.dense , torch.tensor(__A ).transpose(0 , 1 ).contiguous() , torch.tensor(__A ) , )
# intermediate out
UpperCAmelCase_ = np.asarray(intermediate_weights[4][0] )
UpperCAmelCase_ = np.asarray(intermediate_weights[4][1] )
set_param(
torch_block.feed_forward.output.dense , torch.tensor(__A ).transpose(0 , 1 ).contiguous() , torch.tensor(__A ) , )
def A (__A : Optional[int] , __A : Tuple , __A : Any ) -> Tuple:
"""simple docstring"""
UpperCAmelCase_ = torch_model.reformer
# word embeds
UpperCAmelCase_ = np.asarray(weights[1] )
set_param(
torch_model_reformer.embeddings.word_embeddings , torch.tensor(__A ) , )
if isinstance(weights[3] , __A ):
UpperCAmelCase_ = torch_model_reformer.embeddings.position_embeddings
for emb_idx in range(len(position_embeddings.weights ) ):
UpperCAmelCase_ = 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"""
UpperCAmelCase_ = nn.Parameter(torch.tensor(__A ) )
UpperCAmelCase_ = weights[5]
assert len(torch_model_reformer.encoder.layers ) * 4 == len(
__A ), "HF and trax model do not have the same number of layers"
for layer_idx, layer in enumerate(torch_model_reformer.encoder.layers ):
UpperCAmelCase_ = trax_layer_weights[4 * layer_idx : 4 * (layer_idx + 1)]
set_block_weights_in_torch(__A , __A , __A )
# output layer norm
UpperCAmelCase_ = np.asarray(weights[7][0] )
UpperCAmelCase_ = np.asarray(weights[7][1] )
set_param(
torch_model_reformer.encoder.layer_norm , torch.tensor(__A ) , torch.tensor(__A ) , )
# output embeddings
UpperCAmelCase_ = np.asarray(weights[9][0] )
UpperCAmelCase_ = np.asarray(weights[9][1] )
set_param(
torch_model.lm_head.decoder , torch.tensor(__A ).transpose(0 , 1 ).contiguous() , torch.tensor(__A ) , )
def A (__A : Tuple , __A : int , __A : str ) -> Union[str, Any]:
"""simple docstring"""
UpperCAmelCase_ = ReformerConfig.from_json_file(__A )
print(F"""Building PyTorch model from configuration: {config}""" )
UpperCAmelCase_ = ReformerModelWithLMHead(__A )
with open(__A , '''rb''' ) as f:
UpperCAmelCase_ = pickle.load(__A )['''weights''']
set_model_weights_in_torch(__A , __A , config.hidden_size )
# Save pytorch-model
print(F"""Save PyTorch model to {pytorch_dump_path}""" )
torch.save(model.state_dict() , __A )
if __name__ == "__main__":
snake_case_ : Optional[Any] = 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."
)
snake_case_ : List[Any] = parser.parse_args()
convert_trax_checkpoint_to_pytorch(args.trax_model_pkl_path, args.config_file, args.pytorch_dump_path)
| 51
| 1
|
snake_case_ : List[Any] = 9.80_665
def A (__A : float , __A : float , __A : float = g ) -> float:
"""simple docstring"""
if fluid_density <= 0:
raise ValueError('''Impossible fluid density''' )
if volume < 0:
raise ValueError('''Impossible Object volume''' )
if gravity <= 0:
raise ValueError('''Impossible Gravity''' )
return fluid_density * gravity * volume
if __name__ == "__main__":
import doctest
# run doctest
doctest.testmod()
| 51
|
# This model implementation is heavily inspired by https://github.com/haofanwang/ControlNet-for-Diffusers/
import gc
import random
import tempfile
import unittest
import numpy as np
import torch
from PIL import Image
from transformers import CLIPTextConfig, CLIPTextModel, CLIPTokenizer
from diffusers import (
AutoencoderKL,
ControlNetModel,
DDIMScheduler,
StableDiffusionControlNetImgaImgPipeline,
UNetaDConditionModel,
)
from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion_controlnet import MultiControlNetModel
from diffusers.utils import floats_tensor, load_image, load_numpy, randn_tensor, slow, torch_device
from diffusers.utils.import_utils import is_xformers_available
from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu
from ..pipeline_params import (
IMAGE_TO_IMAGE_IMAGE_PARAMS,
TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS,
TEXT_GUIDED_IMAGE_VARIATION_PARAMS,
)
from ..test_pipelines_common import (
PipelineKarrasSchedulerTesterMixin,
PipelineLatentTesterMixin,
PipelineTesterMixin,
)
enable_full_determinism()
class __snake_case ( a , a , a , unittest.TestCase ):
UpperCAmelCase__ : List[Any] = StableDiffusionControlNetImgaImgPipeline
UpperCAmelCase__ : Optional[Any] = TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {'''height''', '''width'''}
UpperCAmelCase__ : Optional[Any] = TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS
UpperCAmelCase__ : Union[str, Any] = IMAGE_TO_IMAGE_IMAGE_PARAMS.union({'''control_image'''} )
UpperCAmelCase__ : Optional[Any] = IMAGE_TO_IMAGE_IMAGE_PARAMS
def lowerCamelCase ( self : int):
"""simple docstring"""
torch.manual_seed(0)
UpperCAmelCase_ = UNetaDConditionModel(
block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , up_block_types=('''CrossAttnUpBlock2D''', '''UpBlock2D''') , cross_attention_dim=32 , )
torch.manual_seed(0)
UpperCAmelCase_ = ControlNetModel(
block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , )
torch.manual_seed(0)
UpperCAmelCase_ = DDIMScheduler(
beta_start=0.0_0_0_8_5 , beta_end=0.0_1_2 , beta_schedule='''scaled_linear''' , clip_sample=_snake_case , set_alpha_to_one=_snake_case , )
torch.manual_seed(0)
UpperCAmelCase_ = AutoencoderKL(
block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=['''DownEncoderBlock2D''', '''DownEncoderBlock2D'''] , up_block_types=['''UpDecoderBlock2D''', '''UpDecoderBlock2D'''] , latent_channels=4 , )
torch.manual_seed(0)
UpperCAmelCase_ = CLIPTextConfig(
bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1e-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1000 , )
UpperCAmelCase_ = CLIPTextModel(_snake_case)
UpperCAmelCase_ = CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''')
UpperCAmelCase_ = {
'''unet''': unet,
'''controlnet''': controlnet,
'''scheduler''': scheduler,
'''vae''': vae,
'''text_encoder''': text_encoder,
'''tokenizer''': tokenizer,
'''safety_checker''': None,
'''feature_extractor''': None,
}
return components
def lowerCamelCase ( self : Union[str, Any] , _snake_case : Any , _snake_case : Dict=0):
"""simple docstring"""
if str(_snake_case).startswith('''mps'''):
UpperCAmelCase_ = torch.manual_seed(_snake_case)
else:
UpperCAmelCase_ = torch.Generator(device=_snake_case).manual_seed(_snake_case)
UpperCAmelCase_ = 2
UpperCAmelCase_ = randn_tensor(
(1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=_snake_case , device=torch.device(_snake_case) , )
UpperCAmelCase_ = floats_tensor(control_image.shape , rng=random.Random(_snake_case)).to(_snake_case)
UpperCAmelCase_ = image.cpu().permute(0 , 2 , 3 , 1)[0]
UpperCAmelCase_ = Image.fromarray(np.uinta(_snake_case)).convert('''RGB''').resize((64, 64))
UpperCAmelCase_ = {
'''prompt''': '''A painting of a squirrel eating a burger''',
'''generator''': generator,
'''num_inference_steps''': 2,
'''guidance_scale''': 6.0,
'''output_type''': '''numpy''',
'''image''': image,
'''control_image''': control_image,
}
return inputs
def lowerCamelCase ( self : Any):
"""simple docstring"""
return self._test_attention_slicing_forward_pass(expected_max_diff=2e-3)
@unittest.skipIf(
torch_device != '''cuda''' or not is_xformers_available() , reason='''XFormers attention is only available with CUDA and `xformers` installed''' , )
def lowerCamelCase ( self : Any):
"""simple docstring"""
self._test_xformers_attention_forwardGenerator_pass(expected_max_diff=2e-3)
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
self._test_inference_batch_single_identical(expected_max_diff=2e-3)
class __snake_case ( a , a , unittest.TestCase ):
UpperCAmelCase__ : str = StableDiffusionControlNetImgaImgPipeline
UpperCAmelCase__ : List[str] = TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {'''height''', '''width'''}
UpperCAmelCase__ : Optional[Any] = TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS
UpperCAmelCase__ : str = frozenset([] ) # TO_DO: add image_params once refactored VaeImageProcessor.preprocess
def lowerCamelCase ( self : str):
"""simple docstring"""
torch.manual_seed(0)
UpperCAmelCase_ = UNetaDConditionModel(
block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , up_block_types=('''CrossAttnUpBlock2D''', '''UpBlock2D''') , cross_attention_dim=32 , )
torch.manual_seed(0)
def init_weights(_snake_case : Optional[int]):
if isinstance(_snake_case , torch.nn.Convad):
torch.nn.init.normal(m.weight)
m.bias.data.fill_(1.0)
UpperCAmelCase_ = ControlNetModel(
block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , )
controlneta.controlnet_down_blocks.apply(_snake_case)
torch.manual_seed(0)
UpperCAmelCase_ = ControlNetModel(
block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , )
controlneta.controlnet_down_blocks.apply(_snake_case)
torch.manual_seed(0)
UpperCAmelCase_ = DDIMScheduler(
beta_start=0.0_0_0_8_5 , beta_end=0.0_1_2 , beta_schedule='''scaled_linear''' , clip_sample=_snake_case , set_alpha_to_one=_snake_case , )
torch.manual_seed(0)
UpperCAmelCase_ = AutoencoderKL(
block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=['''DownEncoderBlock2D''', '''DownEncoderBlock2D'''] , up_block_types=['''UpDecoderBlock2D''', '''UpDecoderBlock2D'''] , latent_channels=4 , )
torch.manual_seed(0)
UpperCAmelCase_ = CLIPTextConfig(
bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1e-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1000 , )
UpperCAmelCase_ = CLIPTextModel(_snake_case)
UpperCAmelCase_ = CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''')
UpperCAmelCase_ = MultiControlNetModel([controlneta, controlneta])
UpperCAmelCase_ = {
'''unet''': unet,
'''controlnet''': controlnet,
'''scheduler''': scheduler,
'''vae''': vae,
'''text_encoder''': text_encoder,
'''tokenizer''': tokenizer,
'''safety_checker''': None,
'''feature_extractor''': None,
}
return components
def lowerCamelCase ( self : int , _snake_case : Union[str, Any] , _snake_case : str=0):
"""simple docstring"""
if str(_snake_case).startswith('''mps'''):
UpperCAmelCase_ = torch.manual_seed(_snake_case)
else:
UpperCAmelCase_ = torch.Generator(device=_snake_case).manual_seed(_snake_case)
UpperCAmelCase_ = 2
UpperCAmelCase_ = [
randn_tensor(
(1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=_snake_case , device=torch.device(_snake_case) , ),
randn_tensor(
(1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=_snake_case , device=torch.device(_snake_case) , ),
]
UpperCAmelCase_ = floats_tensor(control_image[0].shape , rng=random.Random(_snake_case)).to(_snake_case)
UpperCAmelCase_ = image.cpu().permute(0 , 2 , 3 , 1)[0]
UpperCAmelCase_ = Image.fromarray(np.uinta(_snake_case)).convert('''RGB''').resize((64, 64))
UpperCAmelCase_ = {
'''prompt''': '''A painting of a squirrel eating a burger''',
'''generator''': generator,
'''num_inference_steps''': 2,
'''guidance_scale''': 6.0,
'''output_type''': '''numpy''',
'''image''': image,
'''control_image''': control_image,
}
return inputs
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = self.get_dummy_components()
UpperCAmelCase_ = self.pipeline_class(**_snake_case)
pipe.to(_snake_case)
UpperCAmelCase_ = 1_0.0
UpperCAmelCase_ = 4
UpperCAmelCase_ = self.get_dummy_inputs(_snake_case)
UpperCAmelCase_ = steps
UpperCAmelCase_ = scale
UpperCAmelCase_ = pipe(**_snake_case)[0]
UpperCAmelCase_ = self.get_dummy_inputs(_snake_case)
UpperCAmelCase_ = steps
UpperCAmelCase_ = scale
UpperCAmelCase_ = pipe(**_snake_case , control_guidance_start=0.1 , control_guidance_end=0.2)[0]
UpperCAmelCase_ = self.get_dummy_inputs(_snake_case)
UpperCAmelCase_ = steps
UpperCAmelCase_ = scale
UpperCAmelCase_ = pipe(**_snake_case , control_guidance_start=[0.1, 0.3] , control_guidance_end=[0.2, 0.7])[0]
UpperCAmelCase_ = self.get_dummy_inputs(_snake_case)
UpperCAmelCase_ = steps
UpperCAmelCase_ = scale
UpperCAmelCase_ = pipe(**_snake_case , control_guidance_start=0.4 , control_guidance_end=[0.5, 0.8])[0]
# make sure that all outputs are different
assert np.sum(np.abs(output_a - output_a)) > 1e-3
assert np.sum(np.abs(output_a - output_a)) > 1e-3
assert np.sum(np.abs(output_a - output_a)) > 1e-3
def lowerCamelCase ( self : Dict):
"""simple docstring"""
return self._test_attention_slicing_forward_pass(expected_max_diff=2e-3)
@unittest.skipIf(
torch_device != '''cuda''' or not is_xformers_available() , reason='''XFormers attention is only available with CUDA and `xformers` installed''' , )
def lowerCamelCase ( self : int):
"""simple docstring"""
self._test_xformers_attention_forwardGenerator_pass(expected_max_diff=2e-3)
def lowerCamelCase ( self : int):
"""simple docstring"""
self._test_inference_batch_single_identical(expected_max_diff=2e-3)
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = self.get_dummy_components()
UpperCAmelCase_ = self.pipeline_class(**_snake_case)
pipe.to(_snake_case)
pipe.set_progress_bar_config(disable=_snake_case)
with tempfile.TemporaryDirectory() as tmpdir:
try:
# save_pretrained is not implemented for Multi-ControlNet
pipe.save_pretrained(_snake_case)
except NotImplementedError:
pass
@slow
@require_torch_gpu
class __snake_case ( unittest.TestCase ):
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = ControlNetModel.from_pretrained('''lllyasviel/sd-controlnet-canny''')
UpperCAmelCase_ = StableDiffusionControlNetImgaImgPipeline.from_pretrained(
'''runwayml/stable-diffusion-v1-5''' , safety_checker=_snake_case , controlnet=_snake_case)
pipe.enable_model_cpu_offload()
pipe.set_progress_bar_config(disable=_snake_case)
UpperCAmelCase_ = torch.Generator(device='''cpu''').manual_seed(0)
UpperCAmelCase_ = '''evil space-punk bird'''
UpperCAmelCase_ = load_image(
'''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd_controlnet/bird_canny.png''').resize((512, 512))
UpperCAmelCase_ = load_image(
'''https://huggingface.co/lllyasviel/sd-controlnet-canny/resolve/main/images/bird.png''').resize((512, 512))
UpperCAmelCase_ = pipe(
_snake_case , _snake_case , control_image=_snake_case , generator=_snake_case , output_type='''np''' , num_inference_steps=50 , strength=0.6 , )
UpperCAmelCase_ = output.images[0]
assert image.shape == (512, 512, 3)
UpperCAmelCase_ = load_numpy(
'''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd_controlnet/img2img.npy''')
assert np.abs(expected_image - image).max() < 9e-2
| 51
| 1
|
import math
def A (__A : float , __A : float ) -> float:
"""simple docstring"""
return math.pow(__A , 2 ) - a
def A (__A : float ) -> float:
"""simple docstring"""
return 2 * x
def A (__A : float ) -> float:
"""simple docstring"""
UpperCAmelCase_ = 2.0
while start <= a:
UpperCAmelCase_ = math.pow(__A , 2 )
return start
def A (__A : float , __A : int = 9999 , __A : float = 0.00_000_000_000_001 ) -> float:
"""simple docstring"""
if a < 0:
raise ValueError('''math domain error''' )
UpperCAmelCase_ = get_initial_point(__A )
for _ in range(__A ):
UpperCAmelCase_ = value
UpperCAmelCase_ = value - fx(__A , __A ) / fx_derivative(__A )
if abs(prev_value - value ) < tolerance:
return value
return value
if __name__ == "__main__":
from doctest import testmod
testmod()
| 51
|
import random
import timeit
from functools import wraps
from typing import Callable, Optional
from ..configuration_utils import PretrainedConfig
from ..models.auto.modeling_tf_auto import TF_MODEL_MAPPING, TF_MODEL_WITH_LM_HEAD_MAPPING
from ..utils import is_pyanvml_available, is_tf_available, logging
from .benchmark_utils import (
Benchmark,
Memory,
MemorySummary,
measure_peak_memory_cpu,
start_memory_tracing,
stop_memory_tracing,
)
if is_tf_available():
import tensorflow as tf
from tensorflow.python.framework.errors_impl import ResourceExhaustedError
from .benchmark_args_tf import TensorFlowBenchmarkArguments
if is_pyanvml_available():
import pyanvml.pyanvml as nvml
snake_case_ : Tuple = logging.get_logger(__name__)
def A (__A : bool , __A : bool ) -> Optional[Any]:
"""simple docstring"""
def run_func(__A : Optional[Any] ):
@wraps(__A )
def run_in_eager_mode(*__A : Dict , **__A : List[Any] ):
return func(*__A , **__A )
@wraps(__A )
@tf.function(experimental_compile=__A )
def run_in_graph_mode(*__A : Optional[Any] , **__A : Any ):
return func(*__A , **__A )
if do_eager_mode is True:
if use_xla is not False:
raise ValueError(
'''Cannot run model in XLA, if `args.eager_mode` is set to `True`. Please set `args.eager_mode=False`.''' )
return run_in_eager_mode
else:
return run_in_graph_mode
return run_func
def A (__A : int , __A : int , __A : int ) -> ["tf.Tensor"]:
"""simple docstring"""
UpperCAmelCase_ = random.Random()
UpperCAmelCase_ = [rng.randint(0 , vocab_size - 1 ) for i in range(batch_size * sequence_length )]
return tf.constant(__A , shape=(batch_size, sequence_length) , dtype=tf.intaa )
class __snake_case ( a ):
UpperCAmelCase__ : TensorFlowBenchmarkArguments
UpperCAmelCase__ : PretrainedConfig
UpperCAmelCase__ : str = "TensorFlow"
@property
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
return tf.__version__
def lowerCamelCase ( self : Dict , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = self.args.strategy
if strategy is None:
raise ValueError('''A device strategy has to be initialized before using TensorFlow.''')
UpperCAmelCase_ = self._prepare_inference_func(_snake_case , _snake_case , _snake_case)
return self._measure_speed(_inference)
def lowerCamelCase ( self : Any , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = self.args.strategy
if strategy is None:
raise ValueError('''A device strategy has to be initialized before using TensorFlow.''')
UpperCAmelCase_ = self._prepare_train_func(_snake_case , _snake_case , _snake_case)
return self._measure_speed(_train)
def lowerCamelCase ( self : Any , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
if self.args.is_gpu:
tf.config.experimental.set_memory_growth(self.args.gpu_list[self.args.device_idx] , _snake_case)
UpperCAmelCase_ = self.args.strategy
if strategy is None:
raise ValueError('''A device strategy has to be initialized before using TensorFlow.''')
UpperCAmelCase_ = self._prepare_inference_func(_snake_case , _snake_case , _snake_case)
return self._measure_memory(_inference)
def lowerCamelCase ( self : Optional[Any] , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
if self.args.is_gpu:
tf.config.experimental.set_memory_growth(self.args.gpu_list[self.args.device_idx] , _snake_case)
UpperCAmelCase_ = self.args.strategy
if strategy is None:
raise ValueError('''A device strategy has to be initialized before using TensorFlow.''')
UpperCAmelCase_ = self._prepare_train_func(_snake_case , _snake_case , _snake_case)
return self._measure_memory(_train)
def lowerCamelCase ( self : Optional[int] , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = self.config_dict[model_name]
if self.args.fpaa:
raise NotImplementedError('''Mixed precision is currently not supported.''')
UpperCAmelCase_ = (
hasattr(_snake_case , '''architectures''')
and isinstance(config.architectures , _snake_case)
and len(config.architectures) > 0
)
if not self.args.only_pretrain_model and has_model_class_in_config:
try:
UpperCAmelCase_ = '''TF''' + config.architectures[0] # prepend 'TF' for tensorflow model
UpperCAmelCase_ = __import__('''transformers''' , fromlist=[model_class])
UpperCAmelCase_ = getattr(_snake_case , _snake_case)
UpperCAmelCase_ = model_cls(_snake_case)
except ImportError:
raise ImportError(
F"""{model_class} does not exist. If you just want to test the pretrained model, you might want to"""
''' set `--only_pretrain_model` or `args.only_pretrain_model=True`.''')
else:
UpperCAmelCase_ = TF_MODEL_MAPPING[config.__class__](_snake_case)
# encoder-decoder has vocab size saved differently
UpperCAmelCase_ = config.vocab_size if hasattr(_snake_case , '''vocab_size''') else config.encoder.vocab_size
UpperCAmelCase_ = random_input_ids(_snake_case , _snake_case , _snake_case)
@run_with_tf_optimizations(self.args.eager_mode , self.args.use_xla)
def encoder_decoder_forward():
return model(_snake_case , decoder_input_ids=_snake_case , training=_snake_case)
@run_with_tf_optimizations(self.args.eager_mode , self.args.use_xla)
def encoder_forward():
return model(_snake_case , training=_snake_case)
UpperCAmelCase_ = encoder_decoder_forward if config.is_encoder_decoder else encoder_forward
return _inference
def lowerCamelCase ( self : Optional[Any] , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = self.config_dict[model_name]
if self.args.eager_mode is not False:
raise ValueError('''Training cannot be done in eager mode. Please make sure that `args.eager_mode = False`.''')
if self.args.fpaa:
raise NotImplementedError('''Mixed precision is currently not supported.''')
UpperCAmelCase_ = (
hasattr(_snake_case , '''architectures''')
and isinstance(config.architectures , _snake_case)
and len(config.architectures) > 0
)
if not self.args.only_pretrain_model and has_model_class_in_config:
try:
UpperCAmelCase_ = '''TF''' + config.architectures[0] # prepend 'TF' for tensorflow model
UpperCAmelCase_ = __import__('''transformers''' , fromlist=[model_class])
UpperCAmelCase_ = getattr(_snake_case , _snake_case)
UpperCAmelCase_ = model_cls(_snake_case)
except ImportError:
raise ImportError(
F"""{model_class} does not exist. If you just want to test the pretrained model, you might want to"""
''' set `--only_pretrain_model` or `args.only_pretrain_model=True`.''')
else:
UpperCAmelCase_ = TF_MODEL_WITH_LM_HEAD_MAPPING[config.__class__](_snake_case)
# encoder-decoder has vocab size saved differently
UpperCAmelCase_ = config.vocab_size if hasattr(_snake_case , '''vocab_size''') else config.encoder.vocab_size
UpperCAmelCase_ = random_input_ids(_snake_case , _snake_case , _snake_case)
@run_with_tf_optimizations(self.args.eager_mode , self.args.use_xla)
def encoder_decoder_train():
UpperCAmelCase_ = model(_snake_case , decoder_input_ids=_snake_case , labels=_snake_case , training=_snake_case)[0]
UpperCAmelCase_ = tf.gradients(_snake_case , model.trainable_variables)
return gradients
@run_with_tf_optimizations(self.args.eager_mode , self.args.use_xla)
def encoder_train():
UpperCAmelCase_ = model(_snake_case , labels=_snake_case , training=_snake_case)[0]
UpperCAmelCase_ = tf.gradients(_snake_case , model.trainable_variables)
return gradients
UpperCAmelCase_ = encoder_decoder_train if config.is_encoder_decoder else encoder_train
return _train
def lowerCamelCase ( self : Any , _snake_case : Optional[Any]):
"""simple docstring"""
with self.args.strategy.scope():
try:
if self.args.is_tpu or self.args.use_xla:
# run additional 10 times to stabilize compilation for tpu
logger.info('''Do inference on TPU. Running model 5 times to stabilize compilation''')
timeit.repeat(_snake_case , repeat=1 , number=5)
# as written in https://docs.python.org/2/library/timeit.html#timeit.Timer.repeat, min should be taken rather than the average
UpperCAmelCase_ = timeit.repeat(
_snake_case , repeat=self.args.repeat , number=10 , )
return min(_snake_case) / 1_0.0
except ResourceExhaustedError as e:
self.print_fn(F"""Doesn't fit on GPU. {e}""")
def lowerCamelCase ( self : Dict , _snake_case : Callable[[], None]):
"""simple docstring"""
logger.info(
'''Note that TensorFlow allocates more memory than '''
'''it might need to speed up computation. '''
'''The memory reported here corresponds to the memory '''
'''reported by `nvidia-smi`, which can vary depending '''
'''on total available memory on the GPU that is used.''')
with self.args.strategy.scope():
try:
if self.args.trace_memory_line_by_line:
if not self.args.eager_mode:
raise ValueError(
'''`args.eager_mode` is set to `False`. Make sure to run model in eager mode to measure memory'''
''' consumption line by line.''')
UpperCAmelCase_ = start_memory_tracing('''transformers''')
if self.args.is_tpu:
# tpu
raise NotImplementedError(
'''Memory Benchmarking is currently not implemented for TPU. Please disable memory benchmarking'''
''' with `args.memory=False`''')
elif self.args.is_gpu:
# gpu
if not is_pyanvml_available():
logger.warning(
'''py3nvml not installed, we won\'t log GPU memory usage. '''
'''Install py3nvml (pip install py3nvml) to log information about GPU.''')
UpperCAmelCase_ = '''N/A'''
else:
logger.info(
'''Measuring total GPU usage on GPU device. Make sure to not have additional processes'''
''' running on the same GPU.''')
# init nvml
nvml.nvmlInit()
func()
UpperCAmelCase_ = nvml.nvmlDeviceGetHandleByIndex(self.args.device_idx)
UpperCAmelCase_ = nvml.nvmlDeviceGetMemoryInfo(_snake_case)
UpperCAmelCase_ = meminfo.used
UpperCAmelCase_ = Memory(_snake_case)
# shutdown nvml
nvml.nvmlShutdown()
else:
# cpu
if self.args.trace_memory_line_by_line:
logger.info(
'''When enabling line by line tracing, the max peak memory for CPU is inaccurate in'''
''' TensorFlow.''')
UpperCAmelCase_ = None
else:
UpperCAmelCase_ = measure_peak_memory_cpu(_snake_case)
UpperCAmelCase_ = Memory(_snake_case) if isinstance(_snake_case , _snake_case) else memory_bytes
if self.args.trace_memory_line_by_line:
UpperCAmelCase_ = stop_memory_tracing(_snake_case)
if memory is None:
UpperCAmelCase_ = summary.total
else:
UpperCAmelCase_ = None
return memory, summary
except ResourceExhaustedError as e:
self.print_fn(F"""Doesn't fit on GPU. {e}""")
return "N/A", None
| 51
| 1
|
import unittest
from transformers import BarthezTokenizer, BarthezTokenizerFast, BatchEncoding
from transformers.testing_utils import require_sentencepiece, require_tokenizers, require_torch, slow
from ...test_tokenization_common import TokenizerTesterMixin
@require_tokenizers
@require_sentencepiece
@slow # see https://github.com/huggingface/transformers/issues/11457
class __snake_case ( a , unittest.TestCase ):
UpperCAmelCase__ : Dict = BarthezTokenizer
UpperCAmelCase__ : Optional[Any] = BarthezTokenizerFast
UpperCAmelCase__ : Union[str, Any] = True
UpperCAmelCase__ : Optional[Any] = True
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
super().setUp()
UpperCAmelCase_ = BarthezTokenizerFast.from_pretrained('''moussaKam/mbarthez''')
tokenizer.save_pretrained(self.tmpdirname)
tokenizer.save_pretrained(self.tmpdirname , legacy_format=_snake_case)
UpperCAmelCase_ = tokenizer
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = '''<pad>'''
UpperCAmelCase_ = 1
self.assertEqual(self.get_tokenizer()._convert_token_to_id(_snake_case) , _snake_case)
self.assertEqual(self.get_tokenizer()._convert_id_to_token(_snake_case) , _snake_case)
def lowerCamelCase ( self : Any):
"""simple docstring"""
UpperCAmelCase_ = list(self.get_tokenizer().get_vocab().keys())
self.assertEqual(vocab_keys[0] , '''<s>''')
self.assertEqual(vocab_keys[1] , '''<pad>''')
self.assertEqual(vocab_keys[-1] , '''<mask>''')
self.assertEqual(len(_snake_case) , 101122)
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
self.assertEqual(self.get_tokenizer().vocab_size , 101122)
@require_torch
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = ['''A long paragraph for summarization.''', '''Another paragraph for summarization.''']
UpperCAmelCase_ = [0, 57, 3018, 70307, 91, 2]
UpperCAmelCase_ = self.tokenizer(
_snake_case , max_length=len(_snake_case) , padding=_snake_case , truncation=_snake_case , return_tensors='''pt''')
self.assertIsInstance(_snake_case , _snake_case)
self.assertEqual((2, 6) , batch.input_ids.shape)
self.assertEqual((2, 6) , batch.attention_mask.shape)
UpperCAmelCase_ = batch.input_ids.tolist()[0]
self.assertListEqual(_snake_case , _snake_case)
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
if not self.test_rust_tokenizer:
return
UpperCAmelCase_ = self.get_tokenizer()
UpperCAmelCase_ = self.get_rust_tokenizer()
UpperCAmelCase_ = '''I was born in 92000, and this is falsé.'''
UpperCAmelCase_ = tokenizer.tokenize(_snake_case)
UpperCAmelCase_ = rust_tokenizer.tokenize(_snake_case)
self.assertListEqual(_snake_case , _snake_case)
UpperCAmelCase_ = tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
UpperCAmelCase_ = rust_tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
self.assertListEqual(_snake_case , _snake_case)
UpperCAmelCase_ = self.get_rust_tokenizer()
UpperCAmelCase_ = tokenizer.encode(_snake_case)
UpperCAmelCase_ = rust_tokenizer.encode(_snake_case)
self.assertListEqual(_snake_case , _snake_case)
@slow
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = {'''input_ids''': [[0, 490, 14328, 4507, 354, 47, 43669, 95, 25, 78117, 20215, 19779, 190, 22, 400, 4, 35343, 80310, 603, 86, 24937, 105, 33438, 94762, 196, 39642, 7, 15, 15933, 173, 2, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1], [0, 10534, 87, 25, 66, 3358, 196, 55289, 8, 82961, 81, 2204, 75203, 7, 15, 763, 12956, 216, 178, 14328, 9595, 1377, 69693, 7, 448, 71021, 196, 18106, 1437, 13974, 108, 9083, 4, 49315, 7, 39, 86, 1326, 2793, 46333, 4, 448, 196, 74588, 7, 49315, 7, 39, 21, 822, 38470, 74, 21, 66723, 62480, 8, 22050, 5, 2]], '''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, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], [1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1]]} # noqa: E501
# fmt: on
# moussaKam/mbarthez is a french model. So we also use french texts.
UpperCAmelCase_ = [
'''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=_snake_case , model_name='''moussaKam/mbarthez''' , revision='''c2e4ecbca5e3cd2c37fe1ac285ca4fbdf1366fb6''' , sequences=_snake_case , )
| 51
|
import hashlib
import unittest
from transformers import MODEL_FOR_DEPTH_ESTIMATION_MAPPING, is_torch_available, is_vision_available
from transformers.pipelines import DepthEstimationPipeline, pipeline
from transformers.testing_utils import (
is_pipeline_test,
nested_simplify,
require_tf,
require_timm,
require_torch,
require_vision,
slow,
)
from .test_pipelines_common import ANY
if is_torch_available():
import torch
if is_vision_available():
from PIL import Image
else:
class __snake_case :
@staticmethod
def lowerCamelCase ( *_snake_case : Optional[int] , **_snake_case : int):
"""simple docstring"""
pass
def A (__A : Image ) -> str:
"""simple docstring"""
UpperCAmelCase_ = hashlib.mda(image.tobytes() )
return m.hexdigest()
@is_pipeline_test
@require_vision
@require_timm
@require_torch
class __snake_case ( unittest.TestCase ):
UpperCAmelCase__ : Tuple = MODEL_FOR_DEPTH_ESTIMATION_MAPPING
def lowerCamelCase ( self : Tuple , _snake_case : Optional[Any] , _snake_case : Optional[Any] , _snake_case : List[str]):
"""simple docstring"""
UpperCAmelCase_ = DepthEstimationPipeline(model=_snake_case , image_processor=_snake_case)
return depth_estimator, [
"./tests/fixtures/tests_samples/COCO/000000039769.png",
"./tests/fixtures/tests_samples/COCO/000000039769.png",
]
def lowerCamelCase ( self : str , _snake_case : Optional[int] , _snake_case : List[str]):
"""simple docstring"""
UpperCAmelCase_ = depth_estimator('''./tests/fixtures/tests_samples/COCO/000000039769.png''')
self.assertEqual({'''predicted_depth''': ANY(torch.Tensor), '''depth''': ANY(Image.Image)} , _snake_case)
import datasets
UpperCAmelCase_ = datasets.load_dataset('''hf-internal-testing/fixtures_image_utils''' , '''image''' , split='''test''')
UpperCAmelCase_ = depth_estimator(
[
Image.open('''./tests/fixtures/tests_samples/COCO/000000039769.png'''),
'''http://images.cocodataset.org/val2017/000000039769.jpg''',
# RGBA
dataset[0]['''file'''],
# LA
dataset[1]['''file'''],
# L
dataset[2]['''file'''],
])
self.assertEqual(
[
{'''predicted_depth''': ANY(torch.Tensor), '''depth''': ANY(Image.Image)},
{'''predicted_depth''': ANY(torch.Tensor), '''depth''': ANY(Image.Image)},
{'''predicted_depth''': ANY(torch.Tensor), '''depth''': ANY(Image.Image)},
{'''predicted_depth''': ANY(torch.Tensor), '''depth''': ANY(Image.Image)},
{'''predicted_depth''': ANY(torch.Tensor), '''depth''': ANY(Image.Image)},
] , _snake_case , )
@require_tf
@unittest.skip('''Depth estimation is not implemented in TF''')
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
pass
@slow
@require_torch
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = '''Intel/dpt-large'''
UpperCAmelCase_ = pipeline('''depth-estimation''' , model=_snake_case)
UpperCAmelCase_ = depth_estimator('''http://images.cocodataset.org/val2017/000000039769.jpg''')
UpperCAmelCase_ = hashimage(outputs['''depth'''])
# This seems flaky.
# self.assertEqual(outputs["depth"], "1a39394e282e9f3b0741a90b9f108977")
self.assertEqual(nested_simplify(outputs['''predicted_depth'''].max().item()) , 2_9.3_0_4)
self.assertEqual(nested_simplify(outputs['''predicted_depth'''].min().item()) , 2.6_6_2)
@require_torch
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
self.skipTest('''There is not hf-internal-testing tiny model for either GLPN nor DPT''')
| 51
| 1
|
from typing import Any, Dict, List, Optional, Tuple, Union
import torch
from torch import nn
from torch.utils.data import DistributedSampler, RandomSampler
from transformers import PreTrainedModel, Trainer, logging
from transformers.integrations import is_fairscale_available
from transformers.models.fsmt.configuration_fsmt import FSMTConfig
from transformers.optimization import (
Adafactor,
AdamW,
get_constant_schedule,
get_constant_schedule_with_warmup,
get_cosine_schedule_with_warmup,
get_cosine_with_hard_restarts_schedule_with_warmup,
get_linear_schedule_with_warmup,
get_polynomial_decay_schedule_with_warmup,
)
from transformers.trainer_pt_utils import get_tpu_sampler
from transformers.training_args import ParallelMode
from transformers.utils import is_torch_tpu_available
if is_fairscale_available():
from fairscale.optim import OSS
snake_case_ : List[Any] = logging.get_logger(__name__)
snake_case_ : Tuple = {
"linear": get_linear_schedule_with_warmup,
"cosine": get_cosine_schedule_with_warmup,
"cosine_w_restarts": get_cosine_with_hard_restarts_schedule_with_warmup,
"polynomial": get_polynomial_decay_schedule_with_warmup,
"constant": get_constant_schedule,
"constant_w_warmup": get_constant_schedule_with_warmup,
}
class __snake_case ( a ):
def __init__( self : Optional[Any] , _snake_case : int=None , _snake_case : Optional[Any]=None , *_snake_case : Any , **_snake_case : Optional[Any]):
"""simple docstring"""
super().__init__(*_snake_case , **_snake_case)
if config is None:
assert isinstance(self.model , _snake_case), (
"If no `config` is passed the model to be trained has to be of type `PreTrainedModel`, but is"
F""" {self.model.__class__}"""
)
UpperCAmelCase_ = self.model.config
else:
UpperCAmelCase_ = config
UpperCAmelCase_ = data_args
UpperCAmelCase_ = self.config.tgt_vocab_size if isinstance(self.config , _snake_case) else self.config.vocab_size
if self.args.label_smoothing != 0 or (self.data_args is not None and self.data_args.ignore_pad_token_for_loss):
assert self.config.pad_token_id is not None, (
"Make sure that `config.pad_token_id` is correcly defined when ignoring `pad_token` for loss"
" calculation or doing label smoothing."
)
if self.config.pad_token_id is None and self.config.eos_token_id is not None:
logger.warning(
F"""The `config.pad_token_id` is `None`. Using `config.eos_token_id` = {self.config.eos_token_id} for"""
''' padding..''')
if self.args.label_smoothing == 0:
UpperCAmelCase_ = torch.nn.CrossEntropyLoss(ignore_index=self.config.pad_token_id)
else:
# dynamically import label_smoothed_nll_loss
from utils import label_smoothed_nll_loss
UpperCAmelCase_ = label_smoothed_nll_loss
def lowerCamelCase ( self : Any , _snake_case : int):
"""simple docstring"""
if self.optimizer is None:
UpperCAmelCase_ = ['''bias''', '''LayerNorm.weight''']
UpperCAmelCase_ = [
{
'''params''': [p for n, p in self.model.named_parameters() if not any(nd in n for nd in no_decay)],
'''weight_decay''': self.args.weight_decay,
},
{
'''params''': [p for n, p in self.model.named_parameters() if any(nd in n for nd in no_decay)],
'''weight_decay''': 0.0,
},
]
UpperCAmelCase_ = Adafactor if self.args.adafactor else AdamW
if self.args.adafactor:
UpperCAmelCase_ = Adafactor
UpperCAmelCase_ = {'''scale_parameter''': False, '''relative_step''': False}
else:
UpperCAmelCase_ = AdamW
UpperCAmelCase_ = {
'''betas''': (self.args.adam_betaa, self.args.adam_betaa),
'''eps''': self.args.adam_epsilon,
}
UpperCAmelCase_ = self.args.learning_rate
if self.sharded_ddp:
UpperCAmelCase_ = OSS(
params=_snake_case , optim=_snake_case , **_snake_case , )
else:
UpperCAmelCase_ = optimizer_cls(_snake_case , **_snake_case)
if self.lr_scheduler is None:
UpperCAmelCase_ = self._get_lr_scheduler(_snake_case)
else: # ignoring --lr_scheduler
logger.warning('''scheduler is passed to `Seq2SeqTrainer`, `--lr_scheduler` arg is ignored.''')
def lowerCamelCase ( self : str , _snake_case : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = arg_to_scheduler[self.args.lr_scheduler]
if self.args.lr_scheduler == "constant":
UpperCAmelCase_ = schedule_func(self.optimizer)
elif self.args.lr_scheduler == "constant_w_warmup":
UpperCAmelCase_ = schedule_func(self.optimizer , num_warmup_steps=self.args.warmup_steps)
else:
UpperCAmelCase_ = schedule_func(
self.optimizer , num_warmup_steps=self.args.warmup_steps , num_training_steps=_snake_case)
return scheduler
def lowerCamelCase ( self : Dict):
"""simple docstring"""
if isinstance(self.train_dataset , torch.utils.data.IterableDataset):
return None
elif is_torch_tpu_available():
return get_tpu_sampler(self.train_dataset)
else:
if self.args.sortish_sampler:
self.train_dataset.make_sortish_sampler(
self.args.per_device_train_batch_size , distributed=(self.args.parallel_mode == ParallelMode.DISTRIBUTED) , )
return (
RandomSampler(self.train_dataset)
if self.args.local_rank == -1
else DistributedSampler(self.train_dataset)
)
def lowerCamelCase ( self : str , _snake_case : Optional[int] , _snake_case : int , _snake_case : Optional[Any]):
"""simple docstring"""
if self.args.label_smoothing == 0:
if self.data_args is not None and self.data_args.ignore_pad_token_for_loss:
# force training to ignore pad token
UpperCAmelCase_ = model(**_snake_case , use_cache=_snake_case)[0]
UpperCAmelCase_ = self.loss_fn(logits.view(-1 , logits.shape[-1]) , labels.view(-1))
else:
# compute usual loss via models
UpperCAmelCase_ , UpperCAmelCase_ = model(**_snake_case , labels=_snake_case , use_cache=_snake_case)[:2]
else:
# compute label smoothed loss
UpperCAmelCase_ = model(**_snake_case , use_cache=_snake_case)[0]
UpperCAmelCase_ = torch.nn.functional.log_softmax(_snake_case , dim=-1)
UpperCAmelCase_ , UpperCAmelCase_ = self.loss_fn(_snake_case , _snake_case , self.args.label_smoothing , ignore_index=self.config.pad_token_id)
return loss, logits
def lowerCamelCase ( self : List[str] , _snake_case : Union[str, Any] , _snake_case : Dict):
"""simple docstring"""
UpperCAmelCase_ = inputs.pop('''labels''')
UpperCAmelCase_ , UpperCAmelCase_ = self._compute_loss(_snake_case , _snake_case , _snake_case)
return loss
def lowerCamelCase ( self : List[str] , _snake_case : nn.Module , _snake_case : Dict[str, Union[torch.Tensor, Any]] , _snake_case : bool , _snake_case : Optional[List[str]] = None , ):
"""simple docstring"""
UpperCAmelCase_ = self._prepare_inputs(_snake_case)
UpperCAmelCase_ = {
'''max_length''': self.data_args.val_max_target_length
if self.data_args is not None
else self.config.max_length,
'''num_beams''': self.data_args.eval_beams if self.data_args is not None else self.config.num_beams,
}
if self.args.predict_with_generate and not self.args.prediction_loss_only:
UpperCAmelCase_ = self.model.generate(
inputs['''input_ids'''] , attention_mask=inputs['''attention_mask'''] , **_snake_case , )
# in case the batch is shorter than max length, the output should be padded
if generated_tokens.shape[-1] < gen_kwargs["max_length"]:
UpperCAmelCase_ = self._pad_tensors_to_max_len(_snake_case , gen_kwargs['''max_length'''])
UpperCAmelCase_ = inputs.pop('''labels''')
with torch.no_grad():
# compute loss on predict data
UpperCAmelCase_ , UpperCAmelCase_ = self._compute_loss(_snake_case , _snake_case , _snake_case)
UpperCAmelCase_ = loss.mean().detach()
if self.args.prediction_loss_only:
return (loss, None, None)
UpperCAmelCase_ = generated_tokens if self.args.predict_with_generate else logits
if labels.shape[-1] < gen_kwargs["max_length"]:
UpperCAmelCase_ = self._pad_tensors_to_max_len(_snake_case , gen_kwargs['''max_length'''])
return (loss, logits, labels)
def lowerCamelCase ( self : str , _snake_case : Optional[Any] , _snake_case : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = self.config.pad_token_id if self.config.pad_token_id is not None else self.config.eos_token_id
if pad_token_id is None:
raise ValueError(
'''Make sure that either `config.pad_token_id` or `config.eos_token_id` is defined if tensor has to be'''
F""" padded to `max_length`={max_length}""")
UpperCAmelCase_ = pad_token_id * torch.ones(
(tensor.shape[0], max_length) , dtype=tensor.dtype , device=tensor.device)
UpperCAmelCase_ = tensor
return padded_tensor
| 51
|
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
snake_case_ : int = {
"configuration_deberta": ["DEBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP", "DebertaConfig", "DebertaOnnxConfig"],
"tokenization_deberta": ["DebertaTokenizer"],
}
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : int = ["DebertaTokenizerFast"]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : List[str] = [
"DEBERTA_PRETRAINED_MODEL_ARCHIVE_LIST",
"DebertaForMaskedLM",
"DebertaForQuestionAnswering",
"DebertaForSequenceClassification",
"DebertaForTokenClassification",
"DebertaModel",
"DebertaPreTrainedModel",
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Any = [
"TF_DEBERTA_PRETRAINED_MODEL_ARCHIVE_LIST",
"TFDebertaForMaskedLM",
"TFDebertaForQuestionAnswering",
"TFDebertaForSequenceClassification",
"TFDebertaForTokenClassification",
"TFDebertaModel",
"TFDebertaPreTrainedModel",
]
if TYPE_CHECKING:
from .configuration_deberta import DEBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP, DebertaConfig, DebertaOnnxConfig
from .tokenization_deberta import DebertaTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_deberta_fast import DebertaTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_deberta import (
DEBERTA_PRETRAINED_MODEL_ARCHIVE_LIST,
DebertaForMaskedLM,
DebertaForQuestionAnswering,
DebertaForSequenceClassification,
DebertaForTokenClassification,
DebertaModel,
DebertaPreTrainedModel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_deberta import (
TF_DEBERTA_PRETRAINED_MODEL_ARCHIVE_LIST,
TFDebertaForMaskedLM,
TFDebertaForQuestionAnswering,
TFDebertaForSequenceClassification,
TFDebertaForTokenClassification,
TFDebertaModel,
TFDebertaPreTrainedModel,
)
else:
import sys
snake_case_ : Dict = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 51
| 1
|
def A (__A : str , __A : str ) -> float:
"""simple docstring"""
def get_matched_characters(__A : str , __A : str ) -> str:
UpperCAmelCase_ = []
UpperCAmelCase_ = min(len(_stra ) , len(_stra ) ) // 2
for i, l in enumerate(_stra ):
UpperCAmelCase_ = int(max(0 , i - limit ) )
UpperCAmelCase_ = int(min(i + limit + 1 , len(_stra ) ) )
if l in _stra[left:right]:
matched.append(__A )
UpperCAmelCase_ = F"""{_stra[0:_stra.index(__A )]} {_stra[_stra.index(__A ) + 1:]}"""
return "".join(__A )
# matching characters
UpperCAmelCase_ = get_matched_characters(__A , __A )
UpperCAmelCase_ = get_matched_characters(__A , __A )
UpperCAmelCase_ = len(__A )
# transposition
UpperCAmelCase_ = (
len([(ca, ca) for ca, ca in zip(__A , __A ) if ca != ca] ) // 2
)
if not match_count:
UpperCAmelCase_ = 0.0
else:
UpperCAmelCase_ = (
1
/ 3
* (
match_count / len(__A )
+ match_count / len(__A )
+ (match_count - transpositions) / match_count
)
)
# common prefix up to 4 characters
UpperCAmelCase_ = 0
for ca, ca in zip(stra[:4] , stra[:4] ):
if ca == ca:
prefix_len += 1
else:
break
return jaro + 0.1 * prefix_len * (1 - jaro)
if __name__ == "__main__":
import doctest
doctest.testmod()
print(jaro_winkler("hello", "world"))
| 51
|
from typing import TYPE_CHECKING
from ...file_utils import _LazyModule, is_tokenizers_available, is_torch_available
from ...utils import OptionalDependencyNotAvailable
snake_case_ : Union[str, Any] = {"configuration_gpt_neox": ["GPT_NEOX_PRETRAINED_CONFIG_ARCHIVE_MAP", "GPTNeoXConfig"]}
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Dict = ["GPTNeoXTokenizerFast"]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : 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
snake_case_ : Optional[int] = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 51
| 1
|
import unittest
import numpy as np
from transformers import is_flax_available
from transformers.testing_utils import require_flax
from ..test_modeling_flax_common import ids_tensor
if is_flax_available():
import jax
import jax.numpy as jnp
from transformers.generation import (
FlaxForcedBOSTokenLogitsProcessor,
FlaxForcedEOSTokenLogitsProcessor,
FlaxLogitsProcessorList,
FlaxMinLengthLogitsProcessor,
FlaxTemperatureLogitsWarper,
FlaxTopKLogitsWarper,
FlaxTopPLogitsWarper,
)
@require_flax
class __snake_case ( unittest.TestCase ):
def lowerCamelCase ( self : List[str] , _snake_case : int , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = jnp.ones((batch_size, length)) / length
return scores
def lowerCamelCase ( self : Any):
"""simple docstring"""
UpperCAmelCase_ = None
UpperCAmelCase_ = 20
UpperCAmelCase_ = self._get_uniform_logits(batch_size=2 , length=_snake_case)
# tweak scores to not be uniform anymore
UpperCAmelCase_ = scores.at[1, 5].set((1 / length) + 0.1) # peak, 1st batch
UpperCAmelCase_ = scores.at[1, 10].set((1 / length) - 0.4) # valley, 1st batch
# compute softmax
UpperCAmelCase_ = jax.nn.softmax(_snake_case , axis=-1)
UpperCAmelCase_ = FlaxTemperatureLogitsWarper(temperature=0.5)
UpperCAmelCase_ = FlaxTemperatureLogitsWarper(temperature=1.3)
UpperCAmelCase_ = jax.nn.softmax(temp_dist_warper_sharper(_snake_case , scores.copy() , cur_len=_snake_case) , axis=-1)
UpperCAmelCase_ = jax.nn.softmax(temp_dist_warper_smoother(_snake_case , scores.copy() , cur_len=_snake_case) , axis=-1)
# uniform distribution stays uniform
self.assertTrue(jnp.allclose(probs[0, :] , warped_prob_sharp[0, :] , atol=1e-3))
self.assertTrue(jnp.allclose(probs[0, :] , warped_prob_smooth[0, :] , atol=1e-3))
# sharp peaks get higher, valleys get lower
self.assertLess(probs[1, :].max() , warped_prob_sharp[1, :].max())
self.assertGreater(probs[1, :].min() , warped_prob_sharp[1, :].min())
# smooth peaks get lower, valleys get higher
self.assertGreater(probs[1, :].max() , warped_prob_smooth[1, :].max())
self.assertLess(probs[1, :].min() , warped_prob_smooth[1, :].min())
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = None
UpperCAmelCase_ = 10
UpperCAmelCase_ = 2
# create ramp distribution
UpperCAmelCase_ = np.broadcast_to(np.arange(_snake_case)[None, :] , (batch_size, vocab_size)).copy()
UpperCAmelCase_ = ramp_logits[1:, : vocab_size // 2] + vocab_size
UpperCAmelCase_ = FlaxTopKLogitsWarper(3)
UpperCAmelCase_ = top_k_warp(_snake_case , _snake_case , cur_len=_snake_case)
# check that correct tokens are filtered
self.assertListEqual(jnp.isinf(scores[0]).tolist() , 7 * [True] + 3 * [False])
self.assertListEqual(jnp.isinf(scores[1]).tolist() , 2 * [True] + 3 * [False] + 5 * [True])
# check special case
UpperCAmelCase_ = 5
UpperCAmelCase_ = FlaxTopKLogitsWarper(top_k=1 , filter_value=0.0 , min_tokens_to_keep=3)
UpperCAmelCase_ = np.broadcast_to(np.arange(_snake_case)[None, :] , (batch_size, length)).copy()
UpperCAmelCase_ = top_k_warp_safety_check(_snake_case , _snake_case , cur_len=_snake_case)
# min_tokens overwrites k: 3 tokens are kept => 2 tokens are nullified
self.assertListEqual((scores == 0.0).sum(axis=-1).tolist() , [2, 2])
def lowerCamelCase ( self : Dict):
"""simple docstring"""
UpperCAmelCase_ = None
UpperCAmelCase_ = 10
UpperCAmelCase_ = 2
# create distribution and take log (inverse to Softmax as taken in TopPLogitsWarper)
UpperCAmelCase_ = np.log(np.array([[0.3, 0.1, 0.1, 0.5], [0.1_5, 0.3, 0.3, 0.2_5]]))
UpperCAmelCase_ = FlaxTopPLogitsWarper(0.8)
UpperCAmelCase_ = np.exp(top_p_warp(_snake_case , _snake_case , cur_len=_snake_case))
# dist should be filtered to keep min num values so that sum is >= top_p
# exp (-inf) => 0
UpperCAmelCase_ = np.array([[0.3, 0.0, 0.0, 0.5], [0.0, 0.3, 0.3, 0.2_5]])
self.assertTrue(np.allclose(_snake_case , _snake_case , atol=1e-3))
# check edge cases with negative and extreme logits
UpperCAmelCase_ = np.broadcast_to(np.arange(_snake_case)[None, :] , (batch_size, vocab_size)).copy() - (
vocab_size // 2
)
# make ramp_logits more extreme
UpperCAmelCase_ = ramp_logits[1] * 1_0_0.0
# make sure at least 2 tokens are kept
UpperCAmelCase_ = FlaxTopPLogitsWarper(0.9 , min_tokens_to_keep=2 , filter_value=0.0)
UpperCAmelCase_ = top_p_warp(_snake_case , _snake_case , cur_len=_snake_case)
# first batch should keep three tokens, second batch would keep only 1, but due to `min_tokens_to_keep=2` keeps 2.
self.assertListEqual((filtered_dist != 0.0).sum(axis=-1).tolist() , [3, 2])
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = 20
UpperCAmelCase_ = 4
UpperCAmelCase_ = 0
UpperCAmelCase_ = FlaxMinLengthLogitsProcessor(min_length=10 , eos_token_id=_snake_case)
# check that min length is applied at length 5
UpperCAmelCase_ = ids_tensor((batch_size, 20) , vocab_size=20)
UpperCAmelCase_ = 5
UpperCAmelCase_ = self._get_uniform_logits(_snake_case , _snake_case)
UpperCAmelCase_ = min_dist_processor(_snake_case , _snake_case , cur_len=_snake_case)
self.assertListEqual(scores_before_min_length[:, eos_token_id].tolist() , 4 * [-float('''inf''')])
# check that min length is not applied anymore at length 15
UpperCAmelCase_ = self._get_uniform_logits(_snake_case , _snake_case)
UpperCAmelCase_ = 15
UpperCAmelCase_ = min_dist_processor(_snake_case , _snake_case , cur_len=_snake_case)
self.assertFalse(jnp.isinf(_snake_case).any())
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = 20
UpperCAmelCase_ = 4
UpperCAmelCase_ = 0
UpperCAmelCase_ = FlaxForcedBOSTokenLogitsProcessor(bos_token_id=_snake_case)
# check that all scores are -inf except the bos_token_id score
UpperCAmelCase_ = ids_tensor((batch_size, 1) , vocab_size=20)
UpperCAmelCase_ = 1
UpperCAmelCase_ = self._get_uniform_logits(_snake_case , _snake_case)
UpperCAmelCase_ = logits_processor(_snake_case , _snake_case , cur_len=_snake_case)
self.assertTrue(jnp.isneginf(scores[:, bos_token_id + 1 :]).all())
self.assertListEqual(scores[:, bos_token_id].tolist() , 4 * [0]) # score for bos_token_id shold be zero
# check that bos_token_id is not forced if current length is greater than 1
UpperCAmelCase_ = 3
UpperCAmelCase_ = self._get_uniform_logits(_snake_case , _snake_case)
UpperCAmelCase_ = logits_processor(_snake_case , _snake_case , cur_len=_snake_case)
self.assertFalse(jnp.isinf(_snake_case).any())
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = 20
UpperCAmelCase_ = 4
UpperCAmelCase_ = 0
UpperCAmelCase_ = 5
UpperCAmelCase_ = FlaxForcedEOSTokenLogitsProcessor(max_length=_snake_case , eos_token_id=_snake_case)
# check that all scores are -inf except the eos_token_id when max_length is reached
UpperCAmelCase_ = ids_tensor((batch_size, 4) , vocab_size=20)
UpperCAmelCase_ = 4
UpperCAmelCase_ = self._get_uniform_logits(_snake_case , _snake_case)
UpperCAmelCase_ = logits_processor(_snake_case , _snake_case , cur_len=_snake_case)
self.assertTrue(jnp.isneginf(scores[:, eos_token_id + 1 :]).all())
self.assertListEqual(scores[:, eos_token_id].tolist() , 4 * [0]) # score for eos_token_id should be zero
# check that eos_token_id is not forced if max_length is not reached
UpperCAmelCase_ = 3
UpperCAmelCase_ = self._get_uniform_logits(_snake_case , _snake_case)
UpperCAmelCase_ = logits_processor(_snake_case , _snake_case , cur_len=_snake_case)
self.assertFalse(jnp.isinf(_snake_case).any())
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = 4
UpperCAmelCase_ = 10
UpperCAmelCase_ = 15
UpperCAmelCase_ = 2
UpperCAmelCase_ = 1
UpperCAmelCase_ = 15
# dummy input_ids and scores
UpperCAmelCase_ = ids_tensor((batch_size, sequence_length) , _snake_case)
UpperCAmelCase_ = input_ids.copy()
UpperCAmelCase_ = self._get_uniform_logits(_snake_case , _snake_case)
UpperCAmelCase_ = scores.copy()
# instantiate all dist processors
UpperCAmelCase_ = FlaxTemperatureLogitsWarper(temperature=0.5)
UpperCAmelCase_ = FlaxTopKLogitsWarper(3)
UpperCAmelCase_ = FlaxTopPLogitsWarper(0.8)
# instantiate all logits processors
UpperCAmelCase_ = FlaxMinLengthLogitsProcessor(min_length=10 , eos_token_id=_snake_case)
UpperCAmelCase_ = FlaxForcedBOSTokenLogitsProcessor(bos_token_id=_snake_case)
UpperCAmelCase_ = FlaxForcedEOSTokenLogitsProcessor(max_length=_snake_case , eos_token_id=_snake_case)
UpperCAmelCase_ = 10
# no processor list
UpperCAmelCase_ = temp_dist_warp(_snake_case , _snake_case , cur_len=_snake_case)
UpperCAmelCase_ = top_k_warp(_snake_case , _snake_case , cur_len=_snake_case)
UpperCAmelCase_ = top_p_warp(_snake_case , _snake_case , cur_len=_snake_case)
UpperCAmelCase_ = min_dist_proc(_snake_case , _snake_case , cur_len=_snake_case)
UpperCAmelCase_ = bos_dist_proc(_snake_case , _snake_case , cur_len=_snake_case)
UpperCAmelCase_ = eos_dist_proc(_snake_case , _snake_case , cur_len=_snake_case)
# with processor list
UpperCAmelCase_ = FlaxLogitsProcessorList(
[temp_dist_warp, top_k_warp, top_p_warp, min_dist_proc, bos_dist_proc, eos_dist_proc])
UpperCAmelCase_ = processor(_snake_case , _snake_case , cur_len=_snake_case)
# scores should be equal
self.assertTrue(jnp.allclose(_snake_case , _snake_case , atol=1e-3))
# input_ids should never be changed
self.assertListEqual(input_ids.tolist() , input_ids_comp.tolist())
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = 4
UpperCAmelCase_ = 10
UpperCAmelCase_ = 15
UpperCAmelCase_ = 2
UpperCAmelCase_ = 1
UpperCAmelCase_ = 15
# dummy input_ids and scores
UpperCAmelCase_ = ids_tensor((batch_size, sequence_length) , _snake_case)
UpperCAmelCase_ = input_ids.copy()
UpperCAmelCase_ = self._get_uniform_logits(_snake_case , _snake_case)
UpperCAmelCase_ = scores.copy()
# instantiate all dist processors
UpperCAmelCase_ = FlaxTemperatureLogitsWarper(temperature=0.5)
UpperCAmelCase_ = FlaxTopKLogitsWarper(3)
UpperCAmelCase_ = FlaxTopPLogitsWarper(0.8)
# instantiate all logits processors
UpperCAmelCase_ = FlaxMinLengthLogitsProcessor(min_length=10 , eos_token_id=_snake_case)
UpperCAmelCase_ = FlaxForcedBOSTokenLogitsProcessor(bos_token_id=_snake_case)
UpperCAmelCase_ = FlaxForcedEOSTokenLogitsProcessor(max_length=_snake_case , eos_token_id=_snake_case)
UpperCAmelCase_ = 10
# no processor list
def run_no_processor_list(_snake_case : int , _snake_case : Union[str, Any] , _snake_case : List[str]):
UpperCAmelCase_ = temp_dist_warp(_snake_case , _snake_case , cur_len=_snake_case)
UpperCAmelCase_ = top_k_warp(_snake_case , _snake_case , cur_len=_snake_case)
UpperCAmelCase_ = top_p_warp(_snake_case , _snake_case , cur_len=_snake_case)
UpperCAmelCase_ = min_dist_proc(_snake_case , _snake_case , cur_len=_snake_case)
UpperCAmelCase_ = bos_dist_proc(_snake_case , _snake_case , cur_len=_snake_case)
UpperCAmelCase_ = eos_dist_proc(_snake_case , _snake_case , cur_len=_snake_case)
return scores
# with processor list
def run_processor_list(_snake_case : Optional[Any] , _snake_case : Optional[Any] , _snake_case : Union[str, Any]):
UpperCAmelCase_ = FlaxLogitsProcessorList(
[temp_dist_warp, top_k_warp, top_p_warp, min_dist_proc, bos_dist_proc, eos_dist_proc])
UpperCAmelCase_ = processor(_snake_case , _snake_case , cur_len=_snake_case)
return scores
UpperCAmelCase_ = jax.jit(_snake_case)
UpperCAmelCase_ = jax.jit(_snake_case)
UpperCAmelCase_ = jitted_run_no_processor_list(_snake_case , _snake_case , _snake_case)
UpperCAmelCase_ = jitted_run_processor_list(_snake_case , _snake_case , _snake_case)
# scores should be equal
self.assertTrue(jnp.allclose(_snake_case , _snake_case , atol=1e-3))
# input_ids should never be changed
self.assertListEqual(input_ids.tolist() , input_ids_comp.tolist())
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def A (__A : list , __A : int , __A : int = 0 , __A : int = 0 ) -> int:
"""simple docstring"""
UpperCAmelCase_ = right or len(__A ) - 1
if left > right:
return -1
elif list_data[left] == key:
return left
elif list_data[right] == key:
return right
else:
return search(__A , __A , left + 1 , right - 1 )
if __name__ == "__main__":
import doctest
doctest.testmod()
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|
from __future__ import annotations
from math import pi
def A (__A : float , __A : float , __A : float ) -> dict[str, float]:
"""simple docstring"""
if (inductance, frequency, reactance).count(0 ) != 1:
raise ValueError('''One and only one argument must be 0''' )
if inductance < 0:
raise ValueError('''Inductance cannot be negative''' )
if frequency < 0:
raise ValueError('''Frequency cannot be negative''' )
if reactance < 0:
raise ValueError('''Inductive reactance cannot be negative''' )
if inductance == 0:
return {"inductance": reactance / (2 * pi * frequency)}
elif frequency == 0:
return {"frequency": reactance / (2 * pi * inductance)}
elif reactance == 0:
return {"reactance": 2 * pi * frequency * inductance}
else:
raise ValueError('''Exactly one argument must be 0''' )
if __name__ == "__main__":
import doctest
doctest.testmod()
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|
from ...configuration_utils import PretrainedConfig
from ...utils import logging
snake_case_ : int = logging.get_logger(__name__)
snake_case_ : str = {}
class __snake_case ( a ):
UpperCAmelCase__ : str = '''llama'''
UpperCAmelCase__ : Dict = ['''past_key_values''']
def __init__( self : str , _snake_case : List[str]=32000 , _snake_case : int=4096 , _snake_case : List[str]=11008 , _snake_case : Optional[int]=32 , _snake_case : List[Any]=32 , _snake_case : Tuple=None , _snake_case : int="silu" , _snake_case : List[Any]=2048 , _snake_case : List[str]=0.0_2 , _snake_case : Any=1e-6 , _snake_case : List[str]=True , _snake_case : Optional[Any]=0 , _snake_case : Dict=1 , _snake_case : List[Any]=2 , _snake_case : str=1 , _snake_case : Union[str, Any]=False , _snake_case : str=None , **_snake_case : List[Any] , ):
"""simple docstring"""
UpperCAmelCase_ = vocab_size
UpperCAmelCase_ = max_position_embeddings
UpperCAmelCase_ = hidden_size
UpperCAmelCase_ = intermediate_size
UpperCAmelCase_ = num_hidden_layers
UpperCAmelCase_ = num_attention_heads
# for backward compatibility
if num_key_value_heads is None:
UpperCAmelCase_ = num_attention_heads
UpperCAmelCase_ = num_key_value_heads
UpperCAmelCase_ = hidden_act
UpperCAmelCase_ = initializer_range
UpperCAmelCase_ = rms_norm_eps
UpperCAmelCase_ = pretraining_tp
UpperCAmelCase_ = use_cache
UpperCAmelCase_ = rope_scaling
self._rope_scaling_validation()
super().__init__(
pad_token_id=_snake_case , bos_token_id=_snake_case , eos_token_id=_snake_case , tie_word_embeddings=_snake_case , **_snake_case , )
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
if self.rope_scaling is None:
return
if not isinstance(self.rope_scaling , _snake_case) or len(self.rope_scaling) != 2:
raise ValueError(
'''`rope_scaling` must be a dictionary with with two fields, `name` and `factor`, '''
F"""got {self.rope_scaling}""")
UpperCAmelCase_ = self.rope_scaling.get('''type''' , _snake_case)
UpperCAmelCase_ = self.rope_scaling.get('''factor''' , _snake_case)
if rope_scaling_type is None or rope_scaling_type not in ["linear", "dynamic"]:
raise ValueError(
F"""`rope_scaling`'s name field must be one of ['linear', 'dynamic'], got {rope_scaling_type}""")
if rope_scaling_factor is None or not isinstance(_snake_case , _snake_case) or rope_scaling_factor <= 1.0:
raise ValueError(F"""`rope_scaling`'s factor field must be an float > 1, got {rope_scaling_factor}""")
| 51
| 1
|
def A (__A : int ) -> int:
"""simple docstring"""
if not isinstance(__A , __A ):
raise ValueError('''multiplicative_persistence() only accepts integral values''' )
if num < 0:
raise ValueError('''multiplicative_persistence() does not accept negative values''' )
UpperCAmelCase_ = 0
UpperCAmelCase_ = str(__A )
while len(__A ) != 1:
UpperCAmelCase_ = [int(__A ) for i in num_string]
UpperCAmelCase_ = 1
for i in range(0 , len(__A ) ):
total *= numbers[i]
UpperCAmelCase_ = str(__A )
steps += 1
return steps
def A (__A : int ) -> int:
"""simple docstring"""
if not isinstance(__A , __A ):
raise ValueError('''additive_persistence() only accepts integral values''' )
if num < 0:
raise ValueError('''additive_persistence() does not accept negative values''' )
UpperCAmelCase_ = 0
UpperCAmelCase_ = str(__A )
while len(__A ) != 1:
UpperCAmelCase_ = [int(__A ) for i in num_string]
UpperCAmelCase_ = 0
for i in range(0 , len(__A ) ):
total += numbers[i]
UpperCAmelCase_ = str(__A )
steps += 1
return steps
if __name__ == "__main__":
import doctest
doctest.testmod()
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|
from collections import OrderedDict
from typing import Any, List, Mapping, Optional
from ... import PreTrainedTokenizer, TensorType, is_torch_available
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfigWithPast, PatchingSpec
from ...utils import logging
snake_case_ : List[str] = logging.get_logger(__name__)
snake_case_ : Tuple = {
"Salesforce/codegen-350M-nl": "https://huggingface.co/Salesforce/codegen-350M-nl/resolve/main/config.json",
"Salesforce/codegen-350M-multi": "https://huggingface.co/Salesforce/codegen-350M-multi/resolve/main/config.json",
"Salesforce/codegen-350M-mono": "https://huggingface.co/Salesforce/codegen-350M-mono/resolve/main/config.json",
"Salesforce/codegen-2B-nl": "https://huggingface.co/Salesforce/codegen-2B-nl/resolve/main/config.json",
"Salesforce/codegen-2B-multi": "https://huggingface.co/Salesforce/codegen-2B-multi/resolve/main/config.json",
"Salesforce/codegen-2B-mono": "https://huggingface.co/Salesforce/codegen-2B-mono/resolve/main/config.json",
"Salesforce/codegen-6B-nl": "https://huggingface.co/Salesforce/codegen-6B-nl/resolve/main/config.json",
"Salesforce/codegen-6B-multi": "https://huggingface.co/Salesforce/codegen-6B-multi/resolve/main/config.json",
"Salesforce/codegen-6B-mono": "https://huggingface.co/Salesforce/codegen-6B-mono/resolve/main/config.json",
"Salesforce/codegen-16B-nl": "https://huggingface.co/Salesforce/codegen-16B-nl/resolve/main/config.json",
"Salesforce/codegen-16B-multi": "https://huggingface.co/Salesforce/codegen-16B-multi/resolve/main/config.json",
"Salesforce/codegen-16B-mono": "https://huggingface.co/Salesforce/codegen-16B-mono/resolve/main/config.json",
}
class __snake_case ( a ):
UpperCAmelCase__ : str = '''codegen'''
UpperCAmelCase__ : int = {
'''max_position_embeddings''': '''n_positions''',
'''hidden_size''': '''n_embd''',
'''num_attention_heads''': '''n_head''',
'''num_hidden_layers''': '''n_layer''',
}
def __init__( self : Union[str, Any] , _snake_case : Union[str, Any]=50400 , _snake_case : Optional[int]=2048 , _snake_case : Union[str, Any]=2048 , _snake_case : List[str]=4096 , _snake_case : Any=28 , _snake_case : List[str]=16 , _snake_case : int=64 , _snake_case : Tuple=None , _snake_case : Dict="gelu_new" , _snake_case : Union[str, Any]=0.0 , _snake_case : Optional[Any]=0.0 , _snake_case : List[Any]=0.0 , _snake_case : List[Any]=1e-5 , _snake_case : List[str]=0.0_2 , _snake_case : Optional[Any]=True , _snake_case : int=50256 , _snake_case : Tuple=50256 , _snake_case : int=False , **_snake_case : Any , ):
"""simple docstring"""
UpperCAmelCase_ = vocab_size
UpperCAmelCase_ = n_ctx
UpperCAmelCase_ = n_positions
UpperCAmelCase_ = n_embd
UpperCAmelCase_ = n_layer
UpperCAmelCase_ = n_head
UpperCAmelCase_ = n_inner
UpperCAmelCase_ = rotary_dim
UpperCAmelCase_ = activation_function
UpperCAmelCase_ = resid_pdrop
UpperCAmelCase_ = embd_pdrop
UpperCAmelCase_ = attn_pdrop
UpperCAmelCase_ = layer_norm_epsilon
UpperCAmelCase_ = initializer_range
UpperCAmelCase_ = use_cache
UpperCAmelCase_ = bos_token_id
UpperCAmelCase_ = eos_token_id
super().__init__(
bos_token_id=_snake_case , eos_token_id=_snake_case , tie_word_embeddings=_snake_case , **_snake_case)
class __snake_case ( a ):
def __init__( self : Tuple , _snake_case : PretrainedConfig , _snake_case : str = "default" , _snake_case : List[PatchingSpec] = None , _snake_case : bool = False , ):
"""simple docstring"""
super().__init__(_snake_case , task=_snake_case , patching_specs=_snake_case , use_past=_snake_case)
if not getattr(self._config , '''pad_token_id''' , _snake_case):
# TODO: how to do that better?
UpperCAmelCase_ = 0
@property
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = OrderedDict({'''input_ids''': {0: '''batch''', 1: '''sequence'''}})
if self.use_past:
self.fill_with_past_key_values_(_snake_case , direction='''inputs''')
UpperCAmelCase_ = {0: '''batch''', 1: '''past_sequence + sequence'''}
else:
UpperCAmelCase_ = {0: '''batch''', 1: '''sequence'''}
return common_inputs
@property
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
return self._config.n_layer
@property
def lowerCamelCase ( self : int):
"""simple docstring"""
return self._config.n_head
def lowerCamelCase ( self : Optional[int] , _snake_case : PreTrainedTokenizer , _snake_case : int = -1 , _snake_case : int = -1 , _snake_case : bool = False , _snake_case : Optional[TensorType] = None , ):
"""simple docstring"""
UpperCAmelCase_ = super(_snake_case , self).generate_dummy_inputs(
_snake_case , batch_size=_snake_case , seq_length=_snake_case , is_pair=_snake_case , framework=_snake_case)
# We need to order the input in the way they appears in the forward()
UpperCAmelCase_ = 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
UpperCAmelCase_ , UpperCAmelCase_ = common_inputs['''input_ids'''].shape
# Not using the same length for past_key_values
UpperCAmelCase_ = seqlen + 2
UpperCAmelCase_ = (
batch,
self.num_attention_heads,
past_key_values_length,
self._config.hidden_size // self.num_attention_heads,
)
UpperCAmelCase_ = [
(torch.zeros(_snake_case), torch.zeros(_snake_case)) for _ in range(self.num_layers)
]
UpperCAmelCase_ = common_inputs['''attention_mask''']
if self.use_past:
UpperCAmelCase_ = ordered_inputs['''attention_mask'''].dtype
UpperCAmelCase_ = torch.cat(
[ordered_inputs['''attention_mask'''], torch.ones(_snake_case , _snake_case , dtype=_snake_case)] , dim=1)
return ordered_inputs
@property
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
return 13
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| 1
|
import warnings
from functools import wraps
from typing import Callable
def A (__A : Callable ) -> Callable:
"""simple docstring"""
@wraps(__A )
def _inner_fn(*__A : Dict , **__A : int ):
warnings.warn(
(F"""'{fn.__name__}' is experimental and might be subject to breaking changes in the future.""") , __A , )
return fn(*__A , **__A )
return _inner_fn
| 51
|
import os
import unittest
from transformers.models.phobert.tokenization_phobert import VOCAB_FILES_NAMES, PhobertTokenizer
from ...test_tokenization_common import TokenizerTesterMixin
class __snake_case ( a , unittest.TestCase ):
UpperCAmelCase__ : Any = PhobertTokenizer
UpperCAmelCase__ : List[str] = False
def lowerCamelCase ( self : str):
"""simple docstring"""
super().setUp()
# Adapted from Sennrich et al. 2015 and https://github.com/rsennrich/subword-nmt
UpperCAmelCase_ = ['''T@@''', '''i''', '''I''', '''R@@''', '''r''', '''e@@''']
UpperCAmelCase_ = dict(zip(_snake_case , range(len(_snake_case))))
UpperCAmelCase_ = ['''#version: 0.2''', '''l à</w>''']
UpperCAmelCase_ = {'''unk_token''': '''<unk>'''}
UpperCAmelCase_ = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['''vocab_file'''])
UpperCAmelCase_ = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['''merges_file'''])
with open(self.vocab_file , '''w''' , encoding='''utf-8''') as fp:
for token in vocab_tokens:
fp.write(F"""{token} {vocab_tokens[token]}\n""")
with open(self.merges_file , '''w''' , encoding='''utf-8''') as fp:
fp.write('''\n'''.join(_snake_case))
def lowerCamelCase ( self : int , **_snake_case : Any):
"""simple docstring"""
kwargs.update(self.special_tokens_map)
return PhobertTokenizer.from_pretrained(self.tmpdirname , **_snake_case)
def lowerCamelCase ( self : Optional[Any] , _snake_case : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = '''Tôi là VinAI Research'''
UpperCAmelCase_ = '''T<unk> i <unk> <unk> <unk> <unk> <unk> <unk> I Re<unk> e<unk> <unk> <unk> <unk>'''
return input_text, output_text
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = PhobertTokenizer(self.vocab_file , self.merges_file , **self.special_tokens_map)
UpperCAmelCase_ = '''Tôi là VinAI Research'''
UpperCAmelCase_ = '''T@@ ô@@ i l@@ à V@@ i@@ n@@ A@@ I R@@ e@@ s@@ e@@ a@@ r@@ c@@ h'''.split()
UpperCAmelCase_ = tokenizer.tokenize(_snake_case)
print(_snake_case)
self.assertListEqual(_snake_case , _snake_case)
UpperCAmelCase_ = tokens + [tokenizer.unk_token]
UpperCAmelCase_ = [4, 3, 5, 3, 3, 3, 3, 3, 3, 6, 7, 9, 3, 9, 3, 3, 3, 3, 3]
self.assertListEqual(tokenizer.convert_tokens_to_ids(_snake_case) , _snake_case)
| 51
| 1
|
import argparse
import json
import gdown
import numpy as np
import torch
from huggingface_hub import hf_hub_download
from transformers import (
VideoMAEConfig,
VideoMAEForPreTraining,
VideoMAEForVideoClassification,
VideoMAEImageProcessor,
)
def A (__A : Optional[Any] ) -> Union[str, Any]:
"""simple docstring"""
UpperCAmelCase_ = VideoMAEConfig()
set_architecture_configs(__A , __A )
if "finetuned" not in model_name:
UpperCAmelCase_ = False
if "finetuned" in model_name:
UpperCAmelCase_ = '''huggingface/label-files'''
if "kinetics" in model_name:
UpperCAmelCase_ = 400
UpperCAmelCase_ = '''kinetics400-id2label.json'''
elif "ssv2" in model_name:
UpperCAmelCase_ = 174
UpperCAmelCase_ = '''something-something-v2-id2label.json'''
else:
raise ValueError('''Model name should either contain \'kinetics\' or \'ssv2\' in case it\'s fine-tuned.''' )
UpperCAmelCase_ = json.load(open(hf_hub_download(__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()}
return config
def A (__A : str , __A : int ) -> Optional[Any]:
"""simple docstring"""
if "small" in model_name:
UpperCAmelCase_ = 384
UpperCAmelCase_ = 1536
UpperCAmelCase_ = 12
UpperCAmelCase_ = 16
UpperCAmelCase_ = 12
UpperCAmelCase_ = 3
UpperCAmelCase_ = 192
UpperCAmelCase_ = 768
elif "large" in model_name:
UpperCAmelCase_ = 1024
UpperCAmelCase_ = 4096
UpperCAmelCase_ = 24
UpperCAmelCase_ = 16
UpperCAmelCase_ = 12
UpperCAmelCase_ = 8
UpperCAmelCase_ = 512
UpperCAmelCase_ = 2048
elif "huge" in model_name:
UpperCAmelCase_ = 1280
UpperCAmelCase_ = 5120
UpperCAmelCase_ = 32
UpperCAmelCase_ = 16
UpperCAmelCase_ = 12
UpperCAmelCase_ = 8
UpperCAmelCase_ = 640
UpperCAmelCase_ = 2560
elif "base" not in model_name:
raise ValueError('''Model name should include either "small", "base", "large", or "huge"''' )
def A (__A : int ) -> Tuple:
"""simple docstring"""
if "encoder." in name:
UpperCAmelCase_ = name.replace('''encoder.''' , '''''' )
if "cls_token" in name:
UpperCAmelCase_ = name.replace('''cls_token''' , '''videomae.embeddings.cls_token''' )
if "decoder_pos_embed" in name:
UpperCAmelCase_ = name.replace('''decoder_pos_embed''' , '''decoder.decoder_pos_embed''' )
if "pos_embed" in name and "decoder" not in name:
UpperCAmelCase_ = name.replace('''pos_embed''' , '''videomae.embeddings.position_embeddings''' )
if "patch_embed.proj" in name:
UpperCAmelCase_ = name.replace('''patch_embed.proj''' , '''videomae.embeddings.patch_embeddings.projection''' )
if "patch_embed.norm" in name:
UpperCAmelCase_ = name.replace('''patch_embed.norm''' , '''videomae.embeddings.norm''' )
if "decoder.blocks" in name:
UpperCAmelCase_ = name.replace('''decoder.blocks''' , '''decoder.decoder_layers''' )
if "blocks" in name:
UpperCAmelCase_ = name.replace('''blocks''' , '''videomae.encoder.layer''' )
if "attn.proj" in name:
UpperCAmelCase_ = name.replace('''attn.proj''' , '''attention.output.dense''' )
if "attn" in name and "bias" not in name:
UpperCAmelCase_ = name.replace('''attn''' , '''attention.self''' )
if "attn" in name:
UpperCAmelCase_ = name.replace('''attn''' , '''attention.attention''' )
if "norm1" in name:
UpperCAmelCase_ = name.replace('''norm1''' , '''layernorm_before''' )
if "norm2" in name:
UpperCAmelCase_ = name.replace('''norm2''' , '''layernorm_after''' )
if "mlp.fc1" in name:
UpperCAmelCase_ = name.replace('''mlp.fc1''' , '''intermediate.dense''' )
if "mlp.fc2" in name:
UpperCAmelCase_ = name.replace('''mlp.fc2''' , '''output.dense''' )
if "decoder_embed" in name:
UpperCAmelCase_ = name.replace('''decoder_embed''' , '''decoder.decoder_embed''' )
if "decoder_norm" in name:
UpperCAmelCase_ = name.replace('''decoder_norm''' , '''decoder.decoder_norm''' )
if "decoder_pred" in name:
UpperCAmelCase_ = name.replace('''decoder_pred''' , '''decoder.decoder_pred''' )
if "norm.weight" in name and "decoder" not in name and "fc" not in name:
UpperCAmelCase_ = name.replace('''norm.weight''' , '''videomae.layernorm.weight''' )
if "norm.bias" in name and "decoder" not in name and "fc" not in name:
UpperCAmelCase_ = name.replace('''norm.bias''' , '''videomae.layernorm.bias''' )
if "head" in name and "decoder" not in name:
UpperCAmelCase_ = name.replace('''head''' , '''classifier''' )
return name
def A (__A : Union[str, Any] , __A : List[str] ) -> Tuple:
"""simple docstring"""
for key in orig_state_dict.copy().keys():
UpperCAmelCase_ = orig_state_dict.pop(__A )
if key.startswith('''encoder.''' ):
UpperCAmelCase_ = key.replace('''encoder.''' , '''''' )
if "qkv" in key:
UpperCAmelCase_ = key.split('''.''' )
if key.startswith('''decoder.blocks''' ):
UpperCAmelCase_ = config.decoder_hidden_size
UpperCAmelCase_ = int(key_split[2] )
UpperCAmelCase_ = '''decoder.decoder_layers.'''
if "weight" in key:
UpperCAmelCase_ = val[:dim, :]
UpperCAmelCase_ = val[dim : dim * 2, :]
UpperCAmelCase_ = val[-dim:, :]
else:
UpperCAmelCase_ = config.hidden_size
UpperCAmelCase_ = int(key_split[1] )
UpperCAmelCase_ = '''videomae.encoder.layer.'''
if "weight" in key:
UpperCAmelCase_ = val[:dim, :]
UpperCAmelCase_ = val[dim : dim * 2, :]
UpperCAmelCase_ = val[-dim:, :]
else:
UpperCAmelCase_ = val
return orig_state_dict
def A () -> Tuple:
"""simple docstring"""
UpperCAmelCase_ = hf_hub_download(
repo_id='''hf-internal-testing/spaghetti-video''' , filename='''eating_spaghetti.npy''' , repo_type='''dataset''' )
UpperCAmelCase_ = np.load(__A )
return list(__A )
def A (__A : Optional[Any] , __A : Optional[int] , __A : Any , __A : Tuple ) -> List[Any]:
"""simple docstring"""
UpperCAmelCase_ = get_videomae_config(__A )
if "finetuned" in model_name:
UpperCAmelCase_ = VideoMAEForVideoClassification(__A )
else:
UpperCAmelCase_ = VideoMAEForPreTraining(__A )
# download original checkpoint, hosted on Google Drive
UpperCAmelCase_ = '''pytorch_model.bin'''
gdown.cached_download(__A , __A , quiet=__A )
UpperCAmelCase_ = torch.load(__A , map_location='''cpu''' )
if "model" in files:
UpperCAmelCase_ = files['''model''']
else:
UpperCAmelCase_ = files['''module''']
UpperCAmelCase_ = convert_state_dict(__A , __A )
model.load_state_dict(__A )
model.eval()
# verify model on basic input
UpperCAmelCase_ = VideoMAEImageProcessor(image_mean=[0.5, 0.5, 0.5] , image_std=[0.5, 0.5, 0.5] )
UpperCAmelCase_ = prepare_video()
UpperCAmelCase_ = image_processor(__A , return_tensors='''pt''' )
if "finetuned" not in model_name:
UpperCAmelCase_ = hf_hub_download(repo_id='''hf-internal-testing/bool-masked-pos''' , filename='''bool_masked_pos.pt''' )
UpperCAmelCase_ = torch.load(__A )
UpperCAmelCase_ = model(**__A )
UpperCAmelCase_ = outputs.logits
UpperCAmelCase_ = [
'''videomae-small-finetuned-kinetics''',
'''videomae-small-finetuned-ssv2''',
# Kinetics-400 checkpoints (short = pretrained only for 800 epochs instead of 1600)
'''videomae-base-short''',
'''videomae-base-short-finetuned-kinetics''',
'''videomae-base''',
'''videomae-base-finetuned-kinetics''',
'''videomae-large''',
'''videomae-large-finetuned-kinetics''',
'''videomae-huge-finetuned-kinetics''',
# Something-Something-v2 checkpoints (short = pretrained only for 800 epochs instead of 2400)
'''videomae-base-short-ssv2''',
'''videomae-base-short-finetuned-ssv2''',
'''videomae-base-ssv2''',
'''videomae-base-finetuned-ssv2''',
]
# NOTE: logits were tested with image_mean and image_std equal to [0.5, 0.5, 0.5] and [0.5, 0.5, 0.5]
if model_name == "videomae-small-finetuned-kinetics":
UpperCAmelCase_ = torch.Size([1, 400] )
UpperCAmelCase_ = torch.tensor([-0.9_291, -0.4_061, -0.9_307] )
elif model_name == "videomae-small-finetuned-ssv2":
UpperCAmelCase_ = torch.Size([1, 174] )
UpperCAmelCase_ = torch.tensor([0.2_671, -0.4_689, -0.8_235] )
elif model_name == "videomae-base":
UpperCAmelCase_ = torch.Size([1, 1408, 1536] )
UpperCAmelCase_ = torch.tensor([[0.7_739, 0.7_968, 0.7_089], [0.6_701, 0.7_487, 0.6_209], [0.4_287, 0.5_158, 0.4_773]] )
elif model_name == "videomae-base-short":
UpperCAmelCase_ = torch.Size([1, 1408, 1536] )
UpperCAmelCase_ = torch.tensor([[0.7_994, 0.9_612, 0.8_508], [0.7_401, 0.8_958, 0.8_302], [0.5_862, 0.7_468, 0.7_325]] )
# we verified the loss both for normalized and unnormalized targets for this one
UpperCAmelCase_ = torch.tensor([0.5_142] ) if config.norm_pix_loss else torch.tensor([0.6_469] )
elif model_name == "videomae-large":
UpperCAmelCase_ = torch.Size([1, 1408, 1536] )
UpperCAmelCase_ = torch.tensor([[0.7_149, 0.7_997, 0.6_966], [0.6_768, 0.7_869, 0.6_948], [0.5_139, 0.6_221, 0.5_605]] )
elif model_name == "videomae-large-finetuned-kinetics":
UpperCAmelCase_ = torch.Size([1, 400] )
UpperCAmelCase_ = torch.tensor([0.0_771, 0.0_011, -0.3_625] )
elif model_name == "videomae-huge-finetuned-kinetics":
UpperCAmelCase_ = torch.Size([1, 400] )
UpperCAmelCase_ = torch.tensor([0.2_433, 0.1_632, -0.4_894] )
elif model_name == "videomae-base-short-finetuned-kinetics":
UpperCAmelCase_ = torch.Size([1, 400] )
UpperCAmelCase_ = torch.tensor([0.6_588, 0.0_990, -0.2_493] )
elif model_name == "videomae-base-finetuned-kinetics":
UpperCAmelCase_ = torch.Size([1, 400] )
UpperCAmelCase_ = torch.tensor([0.3_669, -0.0_688, -0.2_421] )
elif model_name == "videomae-base-short-ssv2":
UpperCAmelCase_ = torch.Size([1, 1408, 1536] )
UpperCAmelCase_ = torch.tensor([[0.4_712, 0.5_296, 0.5_786], [0.2_278, 0.2_729, 0.4_026], [0.0_352, 0.0_730, 0.2_506]] )
elif model_name == "videomae-base-short-finetuned-ssv2":
UpperCAmelCase_ = torch.Size([1, 174] )
UpperCAmelCase_ = torch.tensor([-0.0_537, -0.1_539, -0.3_266] )
elif model_name == "videomae-base-ssv2":
UpperCAmelCase_ = torch.Size([1, 1408, 1536] )
UpperCAmelCase_ = torch.tensor([[0.8_131, 0.8_727, 0.8_546], [0.7_366, 0.9_377, 0.8_870], [0.5_935, 0.8_874, 0.8_564]] )
elif model_name == "videomae-base-finetuned-ssv2":
UpperCAmelCase_ = torch.Size([1, 174] )
UpperCAmelCase_ = torch.tensor([0.1_961, -0.8_337, -0.6_389] )
else:
raise ValueError(F"""Model name not supported. Should be one of {model_names}""" )
# verify logits
assert logits.shape == expected_shape
if "finetuned" in model_name:
assert torch.allclose(logits[0, :3] , __A , atol=1E-4 )
else:
print('''Logits:''' , logits[0, :3, :3] )
assert torch.allclose(logits[0, :3, :3] , __A , atol=1E-4 )
print('''Logits ok!''' )
# verify loss, if applicable
if model_name == "videomae-base-short":
UpperCAmelCase_ = outputs.loss
assert torch.allclose(__A , __A , atol=1E-4 )
print('''Loss ok!''' )
if pytorch_dump_folder_path is not None:
print(F"""Saving model and image processor to {pytorch_dump_folder_path}""" )
image_processor.save_pretrained(__A )
model.save_pretrained(__A )
if push_to_hub:
print('''Pushing to the hub...''' )
model.push_to_hub(__A , organization='''nielsr''' )
if __name__ == "__main__":
snake_case_ : List[str] = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
"--checkpoint_url",
default="https://drive.google.com/u/1/uc?id=1tEhLyskjb755TJ65ptsrafUG2llSwQE1&export=download&confirm=t&uuid=aa3276eb-fb7e-482a-adec-dc7171df14c4",
type=str,
help=(
"URL of the original PyTorch checkpoint (on Google Drive) you'd like to convert. Should be a direct"
" download link."
),
)
parser.add_argument(
"--pytorch_dump_folder_path",
default="/Users/nielsrogge/Documents/VideoMAE/Test",
type=str,
help="Path to the output PyTorch model directory.",
)
parser.add_argument("--model_name", default="videomae-base", type=str, help="Name of the model.")
parser.add_argument(
"--push_to_hub", action="store_true", help="Whether or not to push the converted model to the 🤗 hub."
)
snake_case_ : Optional[Any] = parser.parse_args()
convert_videomae_checkpoint(args.checkpoint_url, args.pytorch_dump_folder_path, args.model_name, args.push_to_hub)
| 51
|
from typing import List, Optional, TypeVar
from .arrow_dataset import Dataset, _concatenate_map_style_datasets, _interleave_map_style_datasets
from .dataset_dict import DatasetDict, IterableDatasetDict
from .info import DatasetInfo
from .iterable_dataset import IterableDataset, _concatenate_iterable_datasets, _interleave_iterable_datasets
from .splits import NamedSplit
from .utils import logging
from .utils.py_utils import Literal
snake_case_ : Any = logging.get_logger(__name__)
snake_case_ : Optional[int] = TypeVar("DatasetType", Dataset, IterableDataset)
def A (__A : List[DatasetType] , __A : Optional[List[float]] = None , __A : Optional[int] = None , __A : Optional[DatasetInfo] = None , __A : Optional[NamedSplit] = None , __A : Literal["first_exhausted", "all_exhausted"] = "first_exhausted" , ) -> DatasetType:
"""simple docstring"""
from .arrow_dataset import Dataset
from .iterable_dataset import IterableDataset
if not datasets:
raise ValueError('''Unable to interleave an empty list of datasets.''' )
for i, dataset in enumerate(__A ):
if not isinstance(__A , (Dataset, IterableDataset) ):
if isinstance(__A , (DatasetDict, IterableDatasetDict) ):
if not dataset:
raise ValueError(
F"""Expected a list of Dataset objects or a list of IterableDataset objects, but element at position {i} """
'''is an empty dataset dictionary.''' )
raise ValueError(
F"""Dataset at position {i} has at least one split: {list(__A )}\n"""
F"""Please pick one to interleave with the other datasets, for example: dataset['{next(iter(__A ) )}']""" )
raise ValueError(
F"""Expected a list of Dataset objects or a list of IterableDataset objects, but element at position {i} is a {type(__A ).__name__}.""" )
if i == 0:
UpperCAmelCase_ , UpperCAmelCase_ = (
(Dataset, IterableDataset) if isinstance(__A , __A ) else (IterableDataset, Dataset)
)
elif not isinstance(__A , __A ):
raise ValueError(
F"""Unable to interleave a {dataset_type.__name__} (at position 0) with a {other_type.__name__} (at position {i}). Expected a list of Dataset objects or a list of IterableDataset objects.""" )
if stopping_strategy not in ["first_exhausted", "all_exhausted"]:
raise ValueError(F"""{stopping_strategy} is not supported. Please enter a valid stopping_strategy.""" )
if dataset_type is Dataset:
return _interleave_map_style_datasets(
__A , __A , __A , info=__A , split=__A , stopping_strategy=__A )
else:
return _interleave_iterable_datasets(
__A , __A , __A , info=__A , split=__A , stopping_strategy=__A )
def A (__A : List[DatasetType] , __A : Optional[DatasetInfo] = None , __A : Optional[NamedSplit] = None , __A : int = 0 , ) -> DatasetType:
"""simple docstring"""
if not dsets:
raise ValueError('''Unable to concatenate an empty list of datasets.''' )
for i, dataset in enumerate(__A ):
if not isinstance(__A , (Dataset, IterableDataset) ):
if isinstance(__A , (DatasetDict, IterableDatasetDict) ):
if not dataset:
raise ValueError(
F"""Expected a list of Dataset objects or a list of IterableDataset objects, but element at position {i} """
'''is an empty dataset dictionary.''' )
raise ValueError(
F"""Dataset at position {i} has at least one split: {list(__A )}\n"""
F"""Please pick one to interleave with the other datasets, for example: dataset['{next(iter(__A ) )}']""" )
raise ValueError(
F"""Expected a list of Dataset objects or a list of IterableDataset objects, but element at position {i} is a {type(__A ).__name__}.""" )
if i == 0:
UpperCAmelCase_ , UpperCAmelCase_ = (
(Dataset, IterableDataset) if isinstance(__A , __A ) else (IterableDataset, Dataset)
)
elif not isinstance(__A , __A ):
raise ValueError(
F"""Unable to interleave a {dataset_type.__name__} (at position 0) with a {other_type.__name__} (at position {i}). Expected a list of Dataset objects or a list of IterableDataset objects.""" )
if dataset_type is Dataset:
return _concatenate_map_style_datasets(__A , info=__A , split=__A , axis=__A )
else:
return _concatenate_iterable_datasets(__A , info=__A , split=__A , axis=__A )
| 51
| 1
|
def A (__A : int ) -> list[int]:
"""simple docstring"""
if length <= 0 or not isinstance(__A , __A ):
raise ValueError('''Length must be a positive integer.''' )
return [n * (2 * n - 1) for n in range(__A )]
if __name__ == "__main__":
print(hexagonal_numbers(length=5))
print(hexagonal_numbers(length=10))
| 51
|
import json
import os
import re
import shutil
import tempfile
import unittest
from typing import Tuple
from transformers import AddedToken, BatchEncoding, ByTaTokenizer
from transformers.utils import cached_property, is_tf_available, is_torch_available
from ...test_tokenization_common import TokenizerTesterMixin
if is_torch_available():
snake_case_ : Optional[Any] = "pt"
elif is_tf_available():
snake_case_ : Union[str, Any] = "tf"
else:
snake_case_ : str = "jax"
class __snake_case ( a , unittest.TestCase ):
UpperCAmelCase__ : List[Any] = ByTaTokenizer
UpperCAmelCase__ : int = False
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
super().setUp()
UpperCAmelCase_ = ByTaTokenizer()
tokenizer.save_pretrained(self.tmpdirname)
@cached_property
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
return ByTaTokenizer.from_pretrained('''google/byt5-small''')
def lowerCamelCase ( self : List[str] , **_snake_case : Union[str, Any]):
"""simple docstring"""
return self.tokenizer_class.from_pretrained(self.tmpdirname , **_snake_case)
def lowerCamelCase ( self : Dict , _snake_case : int , _snake_case : Tuple=False , _snake_case : Dict=20 , _snake_case : Optional[Any]=5):
"""simple docstring"""
UpperCAmelCase_ = []
for i in range(len(_snake_case)):
try:
UpperCAmelCase_ = tokenizer.decode([i] , clean_up_tokenization_spaces=_snake_case)
except UnicodeDecodeError:
pass
toks.append((i, tok))
UpperCAmelCase_ = list(filter(lambda _snake_case: re.match(r'''^[ a-zA-Z]+$''' , t[1]) , _snake_case))
UpperCAmelCase_ = list(filter(lambda _snake_case: [t[0]] == tokenizer.encode(t[1] , add_special_tokens=_snake_case) , _snake_case))
if max_length is not None and len(_snake_case) > max_length:
UpperCAmelCase_ = toks[:max_length]
if min_length is not None and len(_snake_case) < min_length and len(_snake_case) > 0:
while len(_snake_case) < min_length:
UpperCAmelCase_ = toks + toks
# toks_str = [t[1] for t in toks]
UpperCAmelCase_ = [t[0] for t in toks]
# Ensure consistency
UpperCAmelCase_ = tokenizer.decode(_snake_case , clean_up_tokenization_spaces=_snake_case)
if " " not in output_txt and len(_snake_case) > 1:
UpperCAmelCase_ = (
tokenizer.decode([toks_ids[0]] , clean_up_tokenization_spaces=_snake_case)
+ ''' '''
+ tokenizer.decode(toks_ids[1:] , clean_up_tokenization_spaces=_snake_case)
)
if with_prefix_space:
UpperCAmelCase_ = ''' ''' + output_txt
UpperCAmelCase_ = tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
return output_txt, output_ids
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = tokenizer(['''hi</s>''', '''I went to the gym</s>''', '''</s>'''])
UpperCAmelCase_ = tokenizer(['''hi''', '''I went to the gym''', ''''''])
self.assertListEqual(batch_with_eos_added['''input_ids'''] , batch_without_eos_added['''input_ids'''])
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = '''Unicode €.'''
UpperCAmelCase_ = tokenizer(_snake_case)
UpperCAmelCase_ = [88, 113, 108, 102, 114, 103, 104, 35, 229, 133, 175, 49, 1]
self.assertEqual(encoded['''input_ids'''] , _snake_case)
# decoding
UpperCAmelCase_ = tokenizer.decode(_snake_case)
self.assertEqual(_snake_case , '''Unicode €.</s>''')
UpperCAmelCase_ = tokenizer('''e è é ê ë''')
UpperCAmelCase_ = [104, 35, 198, 171, 35, 198, 172, 35, 198, 173, 35, 198, 174, 1]
self.assertEqual(encoded['''input_ids'''] , _snake_case)
# decoding
UpperCAmelCase_ = tokenizer.decode(_snake_case)
self.assertEqual(_snake_case , '''e è é ê ë</s>''')
# encode/decode, but with `encode` instead of `__call__`
self.assertEqual(tokenizer.decode(tokenizer.encode('''e è é ê ë''')) , '''e è é ê ë</s>''')
def lowerCamelCase ( self : Any):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = ['''A long paragraph for summarization.''', '''Another paragraph for summarization.''']
# fmt: off
UpperCAmelCase_ = [68, 35, 111, 114, 113, 106, 35, 115, 100, 117, 100, 106, 117, 100, 115, 107, 35, 105, 114, 117, 35, 118, 120, 112, 112, 100, 117, 108, 125, 100, 119, 108, 114, 113, 49, 1, 0]
# fmt: on
UpperCAmelCase_ = tokenizer(_snake_case , padding=_snake_case , return_tensors=_snake_case)
self.assertIsInstance(_snake_case , _snake_case)
if FRAMEWORK != "jax":
UpperCAmelCase_ = list(batch.input_ids.numpy()[0])
else:
UpperCAmelCase_ = list(batch.input_ids.tolist()[0])
self.assertListEqual(_snake_case , _snake_case)
self.assertEqual((2, 37) , batch.input_ids.shape)
self.assertEqual((2, 37) , batch.attention_mask.shape)
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = ['''A long paragraph for summarization.''', '''Another paragraph for summarization.''']
UpperCAmelCase_ = tokenizer(_snake_case , padding=_snake_case , return_tensors=_snake_case)
# check if input_ids are returned and no decoder_input_ids
self.assertIn('''input_ids''' , _snake_case)
self.assertIn('''attention_mask''' , _snake_case)
self.assertNotIn('''decoder_input_ids''' , _snake_case)
self.assertNotIn('''decoder_attention_mask''' , _snake_case)
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = [
'''Summary of the text.''',
'''Another summary.''',
]
UpperCAmelCase_ = tokenizer(
text_target=_snake_case , max_length=32 , padding='''max_length''' , truncation=_snake_case , return_tensors=_snake_case)
self.assertEqual(32 , targets['''input_ids'''].shape[1])
def lowerCamelCase ( self : int):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = ['''A long paragraph for summarization. </s>''']
UpperCAmelCase_ = ['''Summary of the text. </s>''']
# fmt: off
UpperCAmelCase_ = [68, 35, 111, 114, 113, 106, 35, 115, 100, 117, 100, 106, 117, 100, 115, 107, 35, 105, 114, 117, 35, 118, 120, 112, 112, 100, 117, 108, 125, 100, 119, 108, 114, 113, 49, 35, 1]
UpperCAmelCase_ = [86, 120, 112, 112, 100, 117, 124, 35, 114, 105, 35, 119, 107, 104, 35, 119, 104, 123, 119, 49, 35, 1]
# fmt: on
UpperCAmelCase_ = tokenizer(_snake_case , text_target=_snake_case)
self.assertEqual(_snake_case , batch['''input_ids'''][0])
self.assertEqual(_snake_case , batch['''labels'''][0])
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = self.get_tokenizers()
for tokenizer in tokenizers:
with self.subTest(F"""{tokenizer.__class__.__name__}"""):
self.assertNotEqual(tokenizer.model_max_length , 42)
# Now let's start the test
UpperCAmelCase_ = self.get_tokenizers()
for tokenizer in tokenizers:
with self.subTest(F"""{tokenizer.__class__.__name__}"""):
# Isolate this from the other tests because we save additional tokens/etc
UpperCAmelCase_ = tempfile.mkdtemp()
UpperCAmelCase_ = ''' He is very happy, UNwant\u00E9d,running'''
UpperCAmelCase_ = tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
tokenizer.save_pretrained(_snake_case)
UpperCAmelCase_ = tokenizer.__class__.from_pretrained(_snake_case)
UpperCAmelCase_ = after_tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
self.assertListEqual(_snake_case , _snake_case)
shutil.rmtree(_snake_case)
UpperCAmelCase_ = self.get_tokenizers(model_max_length=42)
for tokenizer in tokenizers:
with self.subTest(F"""{tokenizer.__class__.__name__}"""):
# Isolate this from the other tests because we save additional tokens/etc
UpperCAmelCase_ = tempfile.mkdtemp()
UpperCAmelCase_ = ''' He is very happy, UNwant\u00E9d,running'''
tokenizer.add_tokens(['''bim''', '''bambam'''])
UpperCAmelCase_ = tokenizer.additional_special_tokens
additional_special_tokens.append('''new_additional_special_token''')
tokenizer.add_special_tokens({'''additional_special_tokens''': additional_special_tokens})
UpperCAmelCase_ = tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
tokenizer.save_pretrained(_snake_case)
UpperCAmelCase_ = tokenizer.__class__.from_pretrained(_snake_case)
UpperCAmelCase_ = after_tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
self.assertListEqual(_snake_case , _snake_case)
self.assertIn('''new_additional_special_token''' , after_tokenizer.additional_special_tokens)
self.assertEqual(after_tokenizer.model_max_length , 42)
UpperCAmelCase_ = tokenizer.__class__.from_pretrained(_snake_case , model_max_length=43)
self.assertEqual(tokenizer.model_max_length , 43)
shutil.rmtree(_snake_case)
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = []
if self.test_slow_tokenizer:
tokenizer_list.append((self.tokenizer_class, self.get_tokenizer()))
if self.test_rust_tokenizer:
tokenizer_list.append((self.rust_tokenizer_class, self.get_rust_tokenizer()))
for tokenizer_class, tokenizer_utils in tokenizer_list:
with tempfile.TemporaryDirectory() as tmp_dir:
tokenizer_utils.save_pretrained(_snake_case)
with open(os.path.join(_snake_case , '''special_tokens_map.json''') , encoding='''utf-8''') as json_file:
UpperCAmelCase_ = json.load(_snake_case)
with open(os.path.join(_snake_case , '''tokenizer_config.json''') , encoding='''utf-8''') as json_file:
UpperCAmelCase_ = json.load(_snake_case)
UpperCAmelCase_ = [F"""<extra_id_{i}>""" for i in range(125)]
UpperCAmelCase_ = added_tokens_extra_ids + [
'''an_additional_special_token'''
]
UpperCAmelCase_ = added_tokens_extra_ids + [
'''an_additional_special_token'''
]
with open(os.path.join(_snake_case , '''special_tokens_map.json''') , '''w''' , encoding='''utf-8''') as outfile:
json.dump(_snake_case , _snake_case)
with open(os.path.join(_snake_case , '''tokenizer_config.json''') , '''w''' , encoding='''utf-8''') as outfile:
json.dump(_snake_case , _snake_case)
# the following checks allow us to verify that our test works as expected, i.e. that the tokenizer takes
# into account the new value of additional_special_tokens given in the "tokenizer_config.json" and
# "special_tokens_map.json" files
UpperCAmelCase_ = tokenizer_class.from_pretrained(
_snake_case , )
self.assertIn(
'''an_additional_special_token''' , tokenizer_without_change_in_init.additional_special_tokens)
# self.assertIn("an_additional_special_token",tokenizer_without_change_in_init.get_vocab()) # ByT5Tokenization no vocab
self.assertEqual(
['''an_additional_special_token'''] , tokenizer_without_change_in_init.convert_ids_to_tokens(
tokenizer_without_change_in_init.convert_tokens_to_ids(['''an_additional_special_token'''])) , )
# Now we test that we can change the value of additional_special_tokens in the from_pretrained
UpperCAmelCase_ = added_tokens_extra_ids + [AddedToken('''a_new_additional_special_token''' , lstrip=_snake_case)]
UpperCAmelCase_ = tokenizer_class.from_pretrained(
_snake_case , additional_special_tokens=_snake_case , )
self.assertIn('''a_new_additional_special_token''' , tokenizer.additional_special_tokens)
self.assertEqual(
['''a_new_additional_special_token'''] , tokenizer.convert_ids_to_tokens(
tokenizer.convert_tokens_to_ids(['''a_new_additional_special_token'''])) , )
def lowerCamelCase ( self : Any):
"""simple docstring"""
UpperCAmelCase_ = []
if self.test_slow_tokenizer:
tokenizer_list.append((self.tokenizer_class, self.get_tokenizer()))
if self.test_rust_tokenizer:
tokenizer_list.append((self.rust_tokenizer_class, self.get_rust_tokenizer()))
for tokenizer_class, tokenizer_utils in tokenizer_list:
with tempfile.TemporaryDirectory() as tmp_dir:
tokenizer_utils.save_pretrained(_snake_case)
UpperCAmelCase_ = tokenizer_class.from_pretrained(_snake_case)
self.assertTrue(tokenizer.decode([255]) == '''''')
def lowerCamelCase ( self : int):
"""simple docstring"""
pass
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
pass
def lowerCamelCase ( self : Dict):
"""simple docstring"""
pass
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
pass
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = self.get_tokenizers(fast=_snake_case , do_lower_case=_snake_case)
for tokenizer in tokenizers:
with self.subTest(F"""{tokenizer.__class__.__name__}"""):
UpperCAmelCase_ = ['''t''', '''h''', '''i''', '''s''', ''' ''', '''i''', '''s''', ''' ''', '''a''', ''' ''', '''t''', '''e''', '''x''', '''t''', '''</s>''']
UpperCAmelCase_ = tokenizer.convert_tokens_to_string(_snake_case)
self.assertIsInstance(_snake_case , _snake_case)
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = self.get_tokenizers()
for tokenizer in tokenizers:
with self.subTest(F"""{tokenizer.__class__.__name__}"""):
UpperCAmelCase_ = [
'''bos_token''',
'''eos_token''',
'''unk_token''',
'''sep_token''',
'''pad_token''',
'''cls_token''',
'''mask_token''',
]
UpperCAmelCase_ = 0
UpperCAmelCase_ = tokenizer.convert_ids_to_tokens(
_snake_case , skip_special_tokens=_snake_case)
for attr in attributes_list:
setattr(_snake_case , attr + '''_id''' , _snake_case)
self.assertEqual(getattr(_snake_case , _snake_case) , _snake_case)
self.assertEqual(getattr(_snake_case , attr + '''_id''') , _snake_case)
setattr(_snake_case , attr + '''_id''' , _snake_case)
self.assertEqual(getattr(_snake_case , _snake_case) , _snake_case)
self.assertEqual(getattr(_snake_case , attr + '''_id''') , _snake_case)
setattr(_snake_case , '''additional_special_tokens_ids''' , [])
self.assertListEqual(getattr(_snake_case , '''additional_special_tokens''') , [])
self.assertListEqual(getattr(_snake_case , '''additional_special_tokens_ids''') , [])
setattr(_snake_case , '''additional_special_tokens_ids''' , [token_id_to_test_setters])
self.assertListEqual(getattr(_snake_case , '''additional_special_tokens''') , [token_to_test_setters])
self.assertListEqual(getattr(_snake_case , '''additional_special_tokens_ids''') , [token_id_to_test_setters])
| 51
| 1
|
import copy
import fnmatch
import json
import os
import pickle as pkl
import shutil
import sys
import tarfile
import tempfile
from collections import OrderedDict
from contextlib import contextmanager
from functools import partial
from hashlib import shaaaa
from io import BytesIO
from pathlib import Path
from urllib.parse import urlparse
from zipfile import ZipFile, is_zipfile
import cva
import numpy as np
import requests
import wget
from filelock import FileLock
from PIL import Image
from tqdm.auto import tqdm
from yaml import Loader, dump, load
try:
import torch
snake_case_ : Optional[Any] = True
except ImportError:
snake_case_ : Any = False
try:
from torch.hub import _get_torch_home
snake_case_ : Any = _get_torch_home()
except ImportError:
snake_case_ : List[str] = os.path.expanduser(
os.getenv("TORCH_HOME", os.path.join(os.getenv("XDG_CACHE_HOME", "~/.cache"), "torch"))
)
snake_case_ : int = os.path.join(torch_cache_home, "transformers")
snake_case_ : str = "https://cdn.huggingface.co"
snake_case_ : Any = "https://s3.amazonaws.com/models.huggingface.co/bert"
snake_case_ : List[Any] = "/".join(str(Path(__file__).resolve()).split("/")[:-1])
snake_case_ : Tuple = os.path.join(PATH, "config.yaml")
snake_case_ : Optional[Any] = os.path.join(PATH, "attributes.txt")
snake_case_ : List[Any] = os.path.join(PATH, "objects.txt")
snake_case_ : List[Any] = os.getenv("PYTORCH_PRETRAINED_BERT_CACHE", default_cache_path)
snake_case_ : Union[str, Any] = os.getenv("PYTORCH_TRANSFORMERS_CACHE", PYTORCH_PRETRAINED_BERT_CACHE)
snake_case_ : Optional[Any] = os.getenv("TRANSFORMERS_CACHE", PYTORCH_TRANSFORMERS_CACHE)
snake_case_ : str = "pytorch_model.bin"
snake_case_ : Tuple = "config.yaml"
def A (__A : Optional[Any]=OBJECTS , __A : Optional[Any]=ATTRIBUTES ) -> Any:
"""simple docstring"""
UpperCAmelCase_ = []
with open(__A ) as f:
for object in f.readlines():
vg_classes.append(object.split(''',''' )[0].lower().strip() )
UpperCAmelCase_ = []
with open(__A ) as f:
for object in f.readlines():
vg_attrs.append(object.split(''',''' )[0].lower().strip() )
return vg_classes, vg_attrs
def A (__A : int ) -> List[Any]:
"""simple docstring"""
UpperCAmelCase_ = OrderedDict()
with open(__A , '''rb''' ) as f:
UpperCAmelCase_ = pkl.load(__A )['''model''']
for k in copy.deepcopy(list(ckp.keys() ) ):
UpperCAmelCase_ = ckp.pop(__A )
if isinstance(__A , np.ndarray ):
UpperCAmelCase_ = torch.tensor(__A )
else:
assert isinstance(__A , torch.tensor ), type(__A )
UpperCAmelCase_ = v
return r
class __snake_case :
UpperCAmelCase__ : str = {}
def __init__( self : Tuple , _snake_case : dict , _snake_case : str = "root" , _snake_case : Optional[Any]=0):
"""simple docstring"""
UpperCAmelCase_ = name
UpperCAmelCase_ = level
UpperCAmelCase_ = {}
for k, v in dictionary.items():
if v is None:
raise ValueError()
UpperCAmelCase_ = copy.deepcopy(_snake_case)
UpperCAmelCase_ = copy.deepcopy(_snake_case)
if isinstance(_snake_case , _snake_case):
UpperCAmelCase_ = Config(_snake_case , name=_snake_case , level=level + 1)
UpperCAmelCase_ = v
setattr(self , _snake_case , _snake_case)
UpperCAmelCase_ = d
def __repr__( self : Any):
"""simple docstring"""
return str(list((self._pointer.keys())))
def __setattr__( self : int , _snake_case : List[Any] , _snake_case : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = val
UpperCAmelCase_ = val
UpperCAmelCase_ = key.split('''.''')
UpperCAmelCase_ = len(_snake_case) - 1
UpperCAmelCase_ = self._pointer
if len(_snake_case) > 1:
for i, l in enumerate(_snake_case):
if hasattr(self , _snake_case) and isinstance(getattr(self , _snake_case) , _snake_case):
setattr(getattr(self , _snake_case) , '''.'''.join(levels[i:]) , _snake_case)
if l == last_level:
UpperCAmelCase_ = val
else:
UpperCAmelCase_ = pointer[l]
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
return self._pointer
def lowerCamelCase ( self : Union[str, Any] , _snake_case : List[str] , _snake_case : Optional[int]):
"""simple docstring"""
with open(F"""{file_name}""" , '''w''') as stream:
dump(_snake_case , _snake_case)
def lowerCamelCase ( self : int , _snake_case : List[str] , _snake_case : Any):
"""simple docstring"""
with open(F"""{file_name}""" , '''w''') as stream:
json.dump(_snake_case , _snake_case)
@staticmethod
def lowerCamelCase ( _snake_case : str):
"""simple docstring"""
with open(_snake_case) as stream:
UpperCAmelCase_ = load(_snake_case , Loader=_snake_case)
return data
def __str__( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = ''' '''
if self._name != "root":
UpperCAmelCase_ = F"""{t * (self._level-1)}{self._name}:\n"""
else:
UpperCAmelCase_ = ''''''
UpperCAmelCase_ = self._level
for i, (k, v) in enumerate(self._pointer.items()):
if isinstance(_snake_case , _snake_case):
r += F"""{t * (self._level)}{v}\n"""
self._level += 1
else:
r += F"""{t * (self._level)}{k}: {v} ({type(_snake_case).__name__})\n"""
UpperCAmelCase_ = level
return r[:-1]
@classmethod
def lowerCamelCase ( cls : Any , _snake_case : str , **_snake_case : Any):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = cls.get_config_dict(_snake_case , **_snake_case)
return cls(_snake_case)
@classmethod
def lowerCamelCase ( cls : Union[str, Any] , _snake_case : str , **_snake_case : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = kwargs.pop('''cache_dir''' , _snake_case)
UpperCAmelCase_ = kwargs.pop('''force_download''' , _snake_case)
UpperCAmelCase_ = kwargs.pop('''resume_download''' , _snake_case)
UpperCAmelCase_ = kwargs.pop('''proxies''' , _snake_case)
UpperCAmelCase_ = kwargs.pop('''local_files_only''' , _snake_case)
if os.path.isdir(_snake_case):
UpperCAmelCase_ = os.path.join(_snake_case , _snake_case)
elif os.path.isfile(_snake_case) or is_remote_url(_snake_case):
UpperCAmelCase_ = pretrained_model_name_or_path
else:
UpperCAmelCase_ = hf_bucket_url(_snake_case , filename=_snake_case , use_cdn=_snake_case)
try:
# Load from URL or cache if already cached
UpperCAmelCase_ = cached_path(
_snake_case , cache_dir=_snake_case , force_download=_snake_case , proxies=_snake_case , resume_download=_snake_case , local_files_only=_snake_case , )
# Load config dict
if resolved_config_file is None:
raise EnvironmentError
UpperCAmelCase_ = Config.load_yaml(_snake_case)
except EnvironmentError:
UpperCAmelCase_ = '''Can\'t load config for'''
raise EnvironmentError(_snake_case)
if resolved_config_file == config_file:
print('''loading configuration file from path''')
else:
print('''loading configuration file cache''')
return Config.load_yaml(_snake_case), kwargs
def A (__A : List[str] ) -> int:
"""simple docstring"""
UpperCAmelCase_ = torch.load('''dump.pt''' , map_location=in_tensor.device )
UpperCAmelCase_ = in_tensor.numpy()
UpperCAmelCase_ = out_tensor.numpy()[0]
print(na.shape , na[0, 0, :5] )
print(na.shape , na[0, 0, :5] )
assert np.allclose(__A , __A , rtol=0.01 , atol=0.1 ), (
F"""{sum([1 for x in np.isclose(__A , __A , rtol=0.01 , atol=0.1 ).flatten() if x is False] )/len(na.flatten() )*100:.4f} %"""
" element-wise mismatch"
)
raise Exception('''tensors are all good''' )
# Hugging face functions below
def A (__A : Union[str, Any] ) -> int:
"""simple docstring"""
UpperCAmelCase_ = urlparse(__A )
return parsed.scheme in ("http", "https")
def A (__A : str , __A : str , __A : Any=True ) -> str:
"""simple docstring"""
UpperCAmelCase_ = CLOUDFRONT_DISTRIB_PREFIX if use_cdn else S3_BUCKET_PREFIX
UpperCAmelCase_ = '''/''' not in model_id
if legacy_format:
return F"""{endpoint}/{model_id}-{filename}"""
else:
return F"""{endpoint}/{model_id}/{filename}"""
def A (__A : List[Any] , __A : str , __A : Dict=None , __A : Optional[Any]=0 , __A : Union[str, Any]=None , ) -> Any:
"""simple docstring"""
UpperCAmelCase_ = '''python/{}'''.format(sys.version.split()[0] )
if _torch_available:
ua += "; torch/{}".format(torch.__version__ )
if isinstance(__A , __A ):
ua += "; " + "; ".join('''{}/{}'''.format(__A , __A ) for k, v in user_agent.items() )
elif isinstance(__A , __A ):
ua += "; " + user_agent
UpperCAmelCase_ = {'''user-agent''': ua}
if resume_size > 0:
UpperCAmelCase_ = '''bytes=%d-''' % (resume_size,)
UpperCAmelCase_ = requests.get(__A , stream=__A , proxies=__A , headers=__A )
if response.status_code == 416: # Range not satisfiable
return
UpperCAmelCase_ = response.headers.get('''Content-Length''' )
UpperCAmelCase_ = resume_size + int(__A ) if content_length is not None else None
UpperCAmelCase_ = tqdm(
unit='''B''' , unit_scale=__A , total=__A , initial=__A , desc='''Downloading''' , )
for chunk in response.iter_content(chunk_size=1024 ):
if chunk: # filter out keep-alive new chunks
progress.update(len(__A ) )
temp_file.write(__A )
progress.close()
def A (__A : List[Any] , __A : Tuple=None , __A : Optional[Any]=False , __A : int=None , __A : List[Any]=10 , __A : Union[str, Any]=False , __A : List[Any]=None , __A : Union[str, Any]=False , ) -> Any:
"""simple docstring"""
if cache_dir is None:
UpperCAmelCase_ = TRANSFORMERS_CACHE
if isinstance(__A , __A ):
UpperCAmelCase_ = str(__A )
os.makedirs(__A , exist_ok=__A )
UpperCAmelCase_ = None
if not local_files_only:
try:
UpperCAmelCase_ = requests.head(__A , allow_redirects=__A , proxies=__A , timeout=__A )
if response.status_code == 200:
UpperCAmelCase_ = response.headers.get('''ETag''' )
except (EnvironmentError, requests.exceptions.Timeout):
# etag is already None
pass
UpperCAmelCase_ = url_to_filename(__A , __A )
# get cache path to put the file
UpperCAmelCase_ = os.path.join(__A , __A )
# etag is None = we don't have a connection, or url doesn't exist, or is otherwise inaccessible.
# try to get the last downloaded one
if etag is None:
if os.path.exists(__A ):
return cache_path
else:
UpperCAmelCase_ = [
file
for file in fnmatch.filter(os.listdir(__A ) , filename + '''.*''' )
if not file.endswith('''.json''' ) and not file.endswith('''.lock''' )
]
if len(__A ) > 0:
return os.path.join(__A , matching_files[-1] )
else:
# If files cannot be found and local_files_only=True,
# the models might've been found if local_files_only=False
# Notify the user about that
if local_files_only:
raise ValueError(
'''Cannot find the requested files in the cached path and outgoing traffic has been'''
''' disabled. To enable model look-ups and downloads online, set \'local_files_only\''''
''' to False.''' )
return None
# From now on, etag is not None.
if os.path.exists(__A ) and not force_download:
return cache_path
# Prevent parallel downloads of the same file with a lock.
UpperCAmelCase_ = cache_path + '''.lock'''
with FileLock(__A ):
# If the download just completed while the lock was activated.
if os.path.exists(__A ) and not force_download:
# Even if returning early like here, the lock will be released.
return cache_path
if resume_download:
UpperCAmelCase_ = cache_path + '''.incomplete'''
@contextmanager
def _resumable_file_manager():
with open(__A , '''a+b''' ) as f:
yield f
UpperCAmelCase_ = _resumable_file_manager
if os.path.exists(__A ):
UpperCAmelCase_ = os.stat(__A ).st_size
else:
UpperCAmelCase_ = 0
else:
UpperCAmelCase_ = partial(tempfile.NamedTemporaryFile , dir=__A , delete=__A )
UpperCAmelCase_ = 0
# Download to temporary file, then copy to cache dir once finished.
# Otherwise you get corrupt cache entries if the download gets interrupted.
with temp_file_manager() as temp_file:
print(
'''%s not found in cache or force_download set to True, downloading to %s''' , __A , temp_file.name , )
http_get(
__A , __A , proxies=__A , resume_size=__A , user_agent=__A , )
os.replace(temp_file.name , __A )
UpperCAmelCase_ = {'''url''': url, '''etag''': etag}
UpperCAmelCase_ = cache_path + '''.json'''
with open(__A , '''w''' ) as meta_file:
json.dump(__A , __A )
return cache_path
def A (__A : Union[str, Any] , __A : Optional[Any]=None ) -> List[Any]:
"""simple docstring"""
UpperCAmelCase_ = url.encode('''utf-8''' )
UpperCAmelCase_ = shaaaa(__A )
UpperCAmelCase_ = url_hash.hexdigest()
if etag:
UpperCAmelCase_ = etag.encode('''utf-8''' )
UpperCAmelCase_ = shaaaa(__A )
filename += "." + etag_hash.hexdigest()
if url.endswith('''.h5''' ):
filename += ".h5"
return filename
def A (__A : List[Any] , __A : Optional[int]=None , __A : Optional[int]=False , __A : Optional[int]=None , __A : int=False , __A : List[str]=None , __A : Dict=False , __A : Union[str, Any]=False , __A : str=False , ) -> Any:
"""simple docstring"""
if cache_dir is None:
UpperCAmelCase_ = TRANSFORMERS_CACHE
if isinstance(__A , __A ):
UpperCAmelCase_ = str(__A )
if isinstance(__A , __A ):
UpperCAmelCase_ = str(__A )
if is_remote_url(__A ):
# URL, so get it from the cache (downloading if necessary)
UpperCAmelCase_ = get_from_cache(
__A , cache_dir=__A , force_download=__A , proxies=__A , resume_download=__A , user_agent=__A , local_files_only=__A , )
elif os.path.exists(__A ):
# File, and it exists.
UpperCAmelCase_ = url_or_filename
elif urlparse(__A ).scheme == "":
# File, but it doesn't exist.
raise EnvironmentError('''file {} not found'''.format(__A ) )
else:
# Something unknown
raise ValueError('''unable to parse {} as a URL or as a local path'''.format(__A ) )
if extract_compressed_file:
if not is_zipfile(__A ) and not tarfile.is_tarfile(__A ):
return output_path
# Path where we extract compressed archives
# We avoid '.' in dir name and add "-extracted" at the end: "./model.zip" => "./model-zip-extracted/"
UpperCAmelCase_ , UpperCAmelCase_ = os.path.split(__A )
UpperCAmelCase_ = output_file.replace('''.''' , '''-''' ) + '''-extracted'''
UpperCAmelCase_ = os.path.join(__A , __A )
if os.path.isdir(__A ) and os.listdir(__A ) and not force_extract:
return output_path_extracted
# Prevent parallel extractions
UpperCAmelCase_ = output_path + '''.lock'''
with FileLock(__A ):
shutil.rmtree(__A , ignore_errors=__A )
os.makedirs(__A )
if is_zipfile(__A ):
with ZipFile(__A , '''r''' ) as zip_file:
zip_file.extractall(__A )
zip_file.close()
elif tarfile.is_tarfile(__A ):
UpperCAmelCase_ = tarfile.open(__A )
tar_file.extractall(__A )
tar_file.close()
else:
raise EnvironmentError('''Archive format of {} could not be identified'''.format(__A ) )
return output_path_extracted
return output_path
def A (__A : List[Any] , __A : List[Any]="," ) -> Union[str, Any]:
"""simple docstring"""
assert isinstance(__A , __A )
if os.path.isfile(__A ):
with open(__A ) as f:
UpperCAmelCase_ = eval(f.read() )
else:
UpperCAmelCase_ = requests.get(__A )
try:
UpperCAmelCase_ = requests.json()
except Exception:
UpperCAmelCase_ = req.content.decode()
assert data is not None, "could not connect"
try:
UpperCAmelCase_ = eval(__A )
except Exception:
UpperCAmelCase_ = data.split('''\n''' )
req.close()
return data
def A (__A : int ) -> Any:
"""simple docstring"""
UpperCAmelCase_ = requests.get(__A )
UpperCAmelCase_ = np.array(Image.open(BytesIO(response.content ) ) )
return img
def A (__A : Dict ) -> Tuple:
"""simple docstring"""
UpperCAmelCase_ = url.split('''/''' )[-1]
if fn not in os.listdir(os.getcwd() ):
wget.download(__A )
with open(__A , '''rb''' ) as stream:
UpperCAmelCase_ = pkl.load(__A )
UpperCAmelCase_ = weights.pop('''model''' )
UpperCAmelCase_ = {}
for k, v in model.items():
UpperCAmelCase_ = torch.from_numpy(__A )
if "running_var" in k:
UpperCAmelCase_ = torch.tensor([0] )
UpperCAmelCase_ = k.replace('''running_var''' , '''num_batches_tracked''' )
UpperCAmelCase_ = zero
return new
def A () -> Optional[int]:
"""simple docstring"""
print(F"""{os.path.abspath(os.path.join(__A , os.pardir ) )}/demo.ipynb""" )
def A (__A : Any , __A : Optional[Any]="RGB" ) -> int:
"""simple docstring"""
assert isinstance(__A , __A )
if os.path.isfile(__A ):
UpperCAmelCase_ = cva.imread(__A )
else:
UpperCAmelCase_ = get_image_from_url(__A )
assert img is not None, F"""could not connect to: {im}"""
UpperCAmelCase_ = cva.cvtColor(__A , cva.COLOR_BGR2RGB )
if input_format == "RGB":
UpperCAmelCase_ = img[:, :, ::-1]
return img
def A (__A : List[Any] , __A : Dict=1 ) -> Union[str, Any]:
"""simple docstring"""
return (images[i : i + batch] for i in range(0 , len(__A ) , __A ))
| 51
|
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_sentencepiece_available,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
snake_case_ : Dict = {"configuration_mbart": ["MBART_PRETRAINED_CONFIG_ARCHIVE_MAP", "MBartConfig", "MBartOnnxConfig"]}
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Tuple = ["MBartTokenizer"]
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : str = ["MBartTokenizerFast"]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : List[Any] = [
"MBART_PRETRAINED_MODEL_ARCHIVE_LIST",
"MBartForCausalLM",
"MBartForConditionalGeneration",
"MBartForQuestionAnswering",
"MBartForSequenceClassification",
"MBartModel",
"MBartPreTrainedModel",
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Any = [
"TFMBartForConditionalGeneration",
"TFMBartModel",
"TFMBartPreTrainedModel",
]
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : List[str] = [
"FlaxMBartForConditionalGeneration",
"FlaxMBartForQuestionAnswering",
"FlaxMBartForSequenceClassification",
"FlaxMBartModel",
"FlaxMBartPreTrainedModel",
]
if TYPE_CHECKING:
from .configuration_mbart import MBART_PRETRAINED_CONFIG_ARCHIVE_MAP, MBartConfig, MBartOnnxConfig
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_mbart import MBartTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_mbart_fast import MBartTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_mbart import (
MBART_PRETRAINED_MODEL_ARCHIVE_LIST,
MBartForCausalLM,
MBartForConditionalGeneration,
MBartForQuestionAnswering,
MBartForSequenceClassification,
MBartModel,
MBartPreTrainedModel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_mbart import TFMBartForConditionalGeneration, TFMBartModel, TFMBartPreTrainedModel
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_mbart import (
FlaxMBartForConditionalGeneration,
FlaxMBartForQuestionAnswering,
FlaxMBartForSequenceClassification,
FlaxMBartModel,
FlaxMBartPreTrainedModel,
)
else:
import sys
snake_case_ : Any = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 51
| 1
|
from ...configuration_utils import PretrainedConfig
from ...utils import logging
snake_case_ : int = logging.get_logger(__name__)
snake_case_ : str = {}
class __snake_case ( a ):
UpperCAmelCase__ : str = '''llama'''
UpperCAmelCase__ : Dict = ['''past_key_values''']
def __init__( self : str , _snake_case : List[str]=32000 , _snake_case : int=4096 , _snake_case : List[str]=11008 , _snake_case : Optional[int]=32 , _snake_case : List[Any]=32 , _snake_case : Tuple=None , _snake_case : int="silu" , _snake_case : List[Any]=2048 , _snake_case : List[str]=0.0_2 , _snake_case : Any=1e-6 , _snake_case : List[str]=True , _snake_case : Optional[Any]=0 , _snake_case : Dict=1 , _snake_case : List[Any]=2 , _snake_case : str=1 , _snake_case : Union[str, Any]=False , _snake_case : str=None , **_snake_case : List[Any] , ):
"""simple docstring"""
UpperCAmelCase_ = vocab_size
UpperCAmelCase_ = max_position_embeddings
UpperCAmelCase_ = hidden_size
UpperCAmelCase_ = intermediate_size
UpperCAmelCase_ = num_hidden_layers
UpperCAmelCase_ = num_attention_heads
# for backward compatibility
if num_key_value_heads is None:
UpperCAmelCase_ = num_attention_heads
UpperCAmelCase_ = num_key_value_heads
UpperCAmelCase_ = hidden_act
UpperCAmelCase_ = initializer_range
UpperCAmelCase_ = rms_norm_eps
UpperCAmelCase_ = pretraining_tp
UpperCAmelCase_ = use_cache
UpperCAmelCase_ = rope_scaling
self._rope_scaling_validation()
super().__init__(
pad_token_id=_snake_case , bos_token_id=_snake_case , eos_token_id=_snake_case , tie_word_embeddings=_snake_case , **_snake_case , )
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
if self.rope_scaling is None:
return
if not isinstance(self.rope_scaling , _snake_case) or len(self.rope_scaling) != 2:
raise ValueError(
'''`rope_scaling` must be a dictionary with with two fields, `name` and `factor`, '''
F"""got {self.rope_scaling}""")
UpperCAmelCase_ = self.rope_scaling.get('''type''' , _snake_case)
UpperCAmelCase_ = self.rope_scaling.get('''factor''' , _snake_case)
if rope_scaling_type is None or rope_scaling_type not in ["linear", "dynamic"]:
raise ValueError(
F"""`rope_scaling`'s name field must be one of ['linear', 'dynamic'], got {rope_scaling_type}""")
if rope_scaling_factor is None or not isinstance(_snake_case , _snake_case) or rope_scaling_factor <= 1.0:
raise ValueError(F"""`rope_scaling`'s factor field must be an float > 1, got {rope_scaling_factor}""")
| 51
|
import warnings
from typing import List, Optional, Union
from ...image_utils import ImageInput
from ...processing_utils import ProcessorMixin
from ...tokenization_utils_base import BatchEncoding, PaddingStrategy, PreTokenizedInput, TextInput, TruncationStrategy
from ...utils import TensorType
class __snake_case ( a ):
UpperCAmelCase__ : Dict = ['''image_processor''', '''tokenizer''']
UpperCAmelCase__ : Dict = '''FlavaImageProcessor'''
UpperCAmelCase__ : Dict = ('''BertTokenizer''', '''BertTokenizerFast''')
def __init__( self : Union[str, Any] , _snake_case : List[str]=None , _snake_case : str=None , **_snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = None
if "feature_extractor" in kwargs:
warnings.warn(
'''The `feature_extractor` argument is deprecated and will be removed in v5, use `image_processor`'''
''' instead.''' , _snake_case , )
UpperCAmelCase_ = kwargs.pop('''feature_extractor''')
UpperCAmelCase_ = image_processor if image_processor is not None else feature_extractor
if image_processor is None:
raise ValueError('''You need to specify an `image_processor`.''')
if tokenizer is None:
raise ValueError('''You need to specify a `tokenizer`.''')
super().__init__(_snake_case , _snake_case)
UpperCAmelCase_ = self.image_processor
def __call__( self : List[Any] , _snake_case : Optional[ImageInput] = None , _snake_case : Optional[Union[TextInput, PreTokenizedInput, List[TextInput], List[PreTokenizedInput]]] = None , _snake_case : bool = True , _snake_case : Union[bool, str, PaddingStrategy] = False , _snake_case : Union[bool, str, TruncationStrategy] = False , _snake_case : Optional[int] = None , _snake_case : int = 0 , _snake_case : Optional[int] = None , _snake_case : Optional[bool] = None , _snake_case : Optional[bool] = None , _snake_case : Optional[bool] = None , _snake_case : Optional[bool] = None , _snake_case : bool = False , _snake_case : bool = False , _snake_case : bool = False , _snake_case : bool = False , _snake_case : bool = True , _snake_case : Optional[Union[str, TensorType]] = None , **_snake_case : Any , ):
"""simple docstring"""
if text is None and images is None:
raise ValueError('''You have to specify either text or images. Both cannot be none.''')
if text is not None:
UpperCAmelCase_ = self.tokenizer(
text=_snake_case , add_special_tokens=_snake_case , padding=_snake_case , truncation=_snake_case , max_length=_snake_case , stride=_snake_case , pad_to_multiple_of=_snake_case , return_token_type_ids=_snake_case , return_attention_mask=_snake_case , return_overflowing_tokens=_snake_case , return_special_tokens_mask=_snake_case , return_offsets_mapping=_snake_case , return_length=_snake_case , verbose=_snake_case , return_tensors=_snake_case , **_snake_case , )
if images is not None:
UpperCAmelCase_ = self.image_processor(
_snake_case , return_image_mask=_snake_case , return_codebook_pixels=_snake_case , return_tensors=_snake_case , **_snake_case , )
if text is not None and images is not None:
encoding.update(_snake_case)
return encoding
elif text is not None:
return encoding
else:
return BatchEncoding(data=dict(**_snake_case) , tensor_type=_snake_case)
def lowerCamelCase ( self : Any , *_snake_case : Optional[Any] , **_snake_case : int):
"""simple docstring"""
return self.tokenizer.batch_decode(*_snake_case , **_snake_case)
def lowerCamelCase ( self : Optional[int] , *_snake_case : int , **_snake_case : Dict):
"""simple docstring"""
return self.tokenizer.decode(*_snake_case , **_snake_case)
@property
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = self.tokenizer.model_input_names
UpperCAmelCase_ = self.image_processor.model_input_names
return list(dict.fromkeys(tokenizer_input_names + image_processor_input_names))
@property
def lowerCamelCase ( self : str):
"""simple docstring"""
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 lowerCamelCase ( self : Any):
"""simple docstring"""
warnings.warn(
'''`feature_extractor` is deprecated and will be removed in v5. Use `image_processor` instead.''' , _snake_case , )
return self.image_processor
| 51
| 1
|
from __future__ import annotations
class __snake_case :
def __init__( self : List[Any] , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = order
# a_{0} ... a_{k}
UpperCAmelCase_ = [1.0] + [0.0] * order
# b_{0} ... b_{k}
UpperCAmelCase_ = [1.0] + [0.0] * order
# x[n-1] ... x[n-k]
UpperCAmelCase_ = [0.0] * self.order
# y[n-1] ... y[n-k]
UpperCAmelCase_ = [0.0] * self.order
def lowerCamelCase ( self : Tuple , _snake_case : list[float] , _snake_case : list[float]):
"""simple docstring"""
if len(_snake_case) < self.order:
UpperCAmelCase_ = [1.0, *a_coeffs]
if len(_snake_case) != self.order + 1:
UpperCAmelCase_ = (
F"""Expected a_coeffs to have {self.order + 1} elements """
F"""for {self.order}-order filter, got {len(_snake_case)}"""
)
raise ValueError(_snake_case)
if len(_snake_case) != self.order + 1:
UpperCAmelCase_ = (
F"""Expected b_coeffs to have {self.order + 1} elements """
F"""for {self.order}-order filter, got {len(_snake_case)}"""
)
raise ValueError(_snake_case)
UpperCAmelCase_ = a_coeffs
UpperCAmelCase_ = b_coeffs
def lowerCamelCase ( self : List[Any] , _snake_case : float):
"""simple docstring"""
UpperCAmelCase_ = 0.0
# Start at index 1 and do index 0 at the end.
for i in range(1 , self.order + 1):
result += (
self.b_coeffs[i] * self.input_history[i - 1]
- self.a_coeffs[i] * self.output_history[i - 1]
)
UpperCAmelCase_ = (result + self.b_coeffs[0] * sample) / self.a_coeffs[0]
UpperCAmelCase_ = self.input_history[:-1]
UpperCAmelCase_ = self.output_history[:-1]
UpperCAmelCase_ = sample
UpperCAmelCase_ = result
return result
| 51
|
from diffusers.utils.testing_utils import require_onnxruntime
@require_onnxruntime
class __snake_case :
pass
| 51
| 1
|
import os
import pytest
from datasets import (
get_dataset_config_info,
get_dataset_config_names,
get_dataset_infos,
get_dataset_split_names,
inspect_dataset,
inspect_metric,
)
snake_case_ : str = pytest.mark.integration
@pytest.mark.parametrize('''path''' , ['''paws''', '''csv'''] )
def A (__A : Union[str, Any] , __A : Dict ) -> Optional[Any]:
"""simple docstring"""
inspect_dataset(__A , __A )
UpperCAmelCase_ = path + '''.py'''
assert script_name in os.listdir(__A )
assert "__pycache__" not in os.listdir(__A )
@pytest.mark.filterwarnings('''ignore:inspect_metric is deprecated:FutureWarning''' )
@pytest.mark.filterwarnings('''ignore:metric_module_factory is deprecated:FutureWarning''' )
@pytest.mark.parametrize('''path''' , ['''accuracy'''] )
def A (__A : Optional[Any] , __A : List[str] ) -> Tuple:
"""simple docstring"""
inspect_metric(__A , __A )
UpperCAmelCase_ = path + '''.py'''
assert script_name in os.listdir(__A )
assert "__pycache__" not in os.listdir(__A )
@pytest.mark.parametrize(
'''path, config_name, expected_splits''' , [
('''squad''', '''plain_text''', ['''train''', '''validation''']),
('''dalle-mini/wit''', '''dalle-mini--wit''', ['''train''']),
('''paws''', '''labeled_final''', ['''train''', '''test''', '''validation''']),
] , )
def A (__A : Optional[Any] , __A : int , __A : Optional[int] ) -> Tuple:
"""simple docstring"""
UpperCAmelCase_ = get_dataset_config_info(__A , config_name=__A )
assert info.config_name == config_name
assert list(info.splits.keys() ) == expected_splits
@pytest.mark.parametrize(
'''path, config_name, expected_exception''' , [
('''paws''', None, ValueError),
] , )
def A (__A : List[Any] , __A : Optional[int] , __A : List[str] ) -> Optional[int]:
"""simple docstring"""
with pytest.raises(__A ):
get_dataset_config_info(__A , config_name=__A )
@pytest.mark.parametrize(
'''path, expected''' , [
('''squad''', '''plain_text'''),
('''acronym_identification''', '''default'''),
('''lhoestq/squad''', '''plain_text'''),
('''lhoestq/test''', '''default'''),
('''lhoestq/demo1''', '''lhoestq--demo1'''),
('''dalle-mini/wit''', '''dalle-mini--wit'''),
] , )
def A (__A : Any , __A : Dict ) -> List[str]:
"""simple docstring"""
UpperCAmelCase_ = get_dataset_config_names(__A )
assert expected in config_names
@pytest.mark.parametrize(
'''path, expected_configs, expected_splits_in_first_config''' , [
('''squad''', ['''plain_text'''], ['''train''', '''validation''']),
('''dalle-mini/wit''', ['''dalle-mini--wit'''], ['''train''']),
('''paws''', ['''labeled_final''', '''labeled_swap''', '''unlabeled_final'''], ['''train''', '''test''', '''validation''']),
] , )
def A (__A : List[str] , __A : List[str] , __A : int ) -> Any:
"""simple docstring"""
UpperCAmelCase_ = get_dataset_infos(__A )
assert list(infos.keys() ) == expected_configs
UpperCAmelCase_ = expected_configs[0]
assert expected_config in infos
UpperCAmelCase_ = infos[expected_config]
assert info.config_name == expected_config
assert list(info.splits.keys() ) == expected_splits_in_first_config
@pytest.mark.parametrize(
'''path, expected_config, expected_splits''' , [
('''squad''', '''plain_text''', ['''train''', '''validation''']),
('''dalle-mini/wit''', '''dalle-mini--wit''', ['''train''']),
('''paws''', '''labeled_final''', ['''train''', '''test''', '''validation''']),
] , )
def A (__A : Optional[Any] , __A : List[Any] , __A : Tuple ) -> str:
"""simple docstring"""
UpperCAmelCase_ = get_dataset_infos(__A )
assert expected_config in infos
UpperCAmelCase_ = infos[expected_config]
assert info.config_name == expected_config
assert list(info.splits.keys() ) == expected_splits
@pytest.mark.parametrize(
'''path, config_name, expected_exception''' , [
('''paws''', None, ValueError),
] , )
def A (__A : str , __A : List[str] , __A : Union[str, Any] ) -> Optional[Any]:
"""simple docstring"""
with pytest.raises(__A ):
get_dataset_split_names(__A , config_name=__A )
| 51
|
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
snake_case_ : List[Any] = data_utils.TransfoXLTokenizer
snake_case_ : int = data_utils.TransfoXLCorpus
snake_case_ : List[Any] = data_utils
snake_case_ : int = data_utils
def A (__A : Dict , __A : List[Any] , __A : Union[str, Any] , __A : Tuple ) -> Union[str, Any]:
"""simple docstring"""
if transfo_xl_dataset_file:
# Convert a pre-processed corpus (see original TensorFlow repo)
with open(__A , '''rb''' ) as fp:
UpperCAmelCase_ = pickle.load(__A , encoding='''latin1''' )
# Save vocabulary and dataset cache as Dictionaries (should be better than pickles for the long-term)
UpperCAmelCase_ = pytorch_dump_folder_path + '''/''' + VOCAB_FILES_NAMES['''pretrained_vocab_file''']
print(F"""Save vocabulary to {pytorch_vocab_dump_path}""" )
UpperCAmelCase_ = corpus.vocab.__dict__
torch.save(__A , __A )
UpperCAmelCase_ = corpus.__dict__
corpus_dict_no_vocab.pop('''vocab''' , __A )
UpperCAmelCase_ = 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
UpperCAmelCase_ = os.path.abspath(__A )
UpperCAmelCase_ = 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 == "":
UpperCAmelCase_ = TransfoXLConfig()
else:
UpperCAmelCase_ = TransfoXLConfig.from_json_file(__A )
print(F"""Building PyTorch model from configuration: {config}""" )
UpperCAmelCase_ = TransfoXLLMHeadModel(__A )
UpperCAmelCase_ = load_tf_weights_in_transfo_xl(__A , __A , __A )
# Save pytorch-model
UpperCAmelCase_ = os.path.join(__A , __A )
UpperCAmelCase_ = 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__":
snake_case_ : List[str] = 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.",
)
snake_case_ : int = 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,
)
| 51
| 1
|
import os
import sys
import tempfile
import unittest
import unittest.mock as mock
from pathlib import Path
from huggingface_hub import HfFolder, delete_repo
from huggingface_hub.file_download import http_get
from requests.exceptions import HTTPError
from transformers import (
AlbertTokenizer,
AutoTokenizer,
BertTokenizer,
BertTokenizerFast,
GPTaTokenizerFast,
is_tokenizers_available,
)
from transformers.testing_utils import TOKEN, USER, is_staging_test, require_tokenizers
from transformers.tokenization_utils import Trie
sys.path.append(str(Path(__file__).parent.parent / "utils"))
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 ):
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = mock.Mock()
UpperCAmelCase_ = 500
UpperCAmelCase_ = {}
UpperCAmelCase_ = HTTPError
UpperCAmelCase_ = {}
# Download this model to make sure it's in the cache.
UpperCAmelCase_ = BertTokenizer.from_pretrained('''hf-internal-testing/tiny-random-bert''')
# Under the mock environment we get a 500 error when trying to reach the tokenizer.
with mock.patch('''requests.Session.request''' , return_value=_snake_case) as mock_head:
UpperCAmelCase_ = BertTokenizer.from_pretrained('''hf-internal-testing/tiny-random-bert''')
# This check we did call the fake head request
mock_head.assert_called()
@require_tokenizers
def lowerCamelCase ( self : Any):
"""simple docstring"""
UpperCAmelCase_ = mock.Mock()
UpperCAmelCase_ = 500
UpperCAmelCase_ = {}
UpperCAmelCase_ = HTTPError
UpperCAmelCase_ = {}
# Download this model to make sure it's in the cache.
UpperCAmelCase_ = GPTaTokenizerFast.from_pretrained('''gpt2''')
# Under the mock environment we get a 500 error when trying to reach the tokenizer.
with mock.patch('''requests.Session.request''' , return_value=_snake_case) as mock_head:
UpperCAmelCase_ = GPTaTokenizerFast.from_pretrained('''gpt2''')
# This check we did call the fake head request
mock_head.assert_called()
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
try:
UpperCAmelCase_ = tempfile.mktemp()
with open(_snake_case , '''wb''') as f:
http_get('''https://huggingface.co/albert-base-v1/resolve/main/spiece.model''' , _snake_case)
UpperCAmelCase_ = AlbertTokenizer.from_pretrained(_snake_case)
finally:
os.remove(_snake_case)
# Supporting this legacy load introduced a weird bug where the tokenizer would load local files if they are in
# the current folder and have the right name.
if os.path.isfile('''tokenizer.json'''):
# We skip the test if the user has a `tokenizer.json` in this folder to avoid deleting it.
return
try:
with open('''tokenizer.json''' , '''wb''') as f:
http_get('''https://huggingface.co/hf-internal-testing/tiny-random-bert/blob/main/tokenizer.json''' , _snake_case)
UpperCAmelCase_ = AutoTokenizer.from_pretrained('''hf-internal-testing/tiny-random-gpt2''')
# The tiny random BERT has a vocab size of 1024, tiny gpt2 as a vocab size of 1000
self.assertEqual(tokenizer.vocab_size , 1000)
# Tokenizer should depend on the remote checkpoint, not the local tokenizer.json file.
finally:
os.remove('''tokenizer.json''')
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = AlbertTokenizer.from_pretrained('''https://huggingface.co/albert-base-v1/resolve/main/spiece.model''')
@is_staging_test
class __snake_case ( unittest.TestCase ):
UpperCAmelCase__ : str = ['''[UNK]''', '''[CLS]''', '''[SEP]''', '''[PAD]''', '''[MASK]''', '''bla''', '''blou''']
@classmethod
def lowerCamelCase ( cls : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = TOKEN
HfFolder.save_token(_snake_case)
@classmethod
def lowerCamelCase ( cls : List[str]):
"""simple docstring"""
try:
delete_repo(token=cls._token , repo_id='''test-tokenizer''')
except HTTPError:
pass
try:
delete_repo(token=cls._token , repo_id='''valid_org/test-tokenizer-org''')
except HTTPError:
pass
try:
delete_repo(token=cls._token , repo_id='''test-dynamic-tokenizer''')
except HTTPError:
pass
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
with tempfile.TemporaryDirectory() as tmp_dir:
UpperCAmelCase_ = os.path.join(_snake_case , '''vocab.txt''')
with open(_snake_case , '''w''' , encoding='''utf-8''') as vocab_writer:
vocab_writer.write(''''''.join([x + '''\n''' for x in self.vocab_tokens]))
UpperCAmelCase_ = BertTokenizer(_snake_case)
tokenizer.push_to_hub('''test-tokenizer''' , use_auth_token=self._token)
UpperCAmelCase_ = BertTokenizer.from_pretrained(F"""{USER}/test-tokenizer""")
self.assertDictEqual(new_tokenizer.vocab , tokenizer.vocab)
# Reset repo
delete_repo(token=self._token , repo_id='''test-tokenizer''')
# Push to hub via save_pretrained
with tempfile.TemporaryDirectory() as tmp_dir:
tokenizer.save_pretrained(_snake_case , repo_id='''test-tokenizer''' , push_to_hub=_snake_case , use_auth_token=self._token)
UpperCAmelCase_ = BertTokenizer.from_pretrained(F"""{USER}/test-tokenizer""")
self.assertDictEqual(new_tokenizer.vocab , tokenizer.vocab)
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
with tempfile.TemporaryDirectory() as tmp_dir:
UpperCAmelCase_ = os.path.join(_snake_case , '''vocab.txt''')
with open(_snake_case , '''w''' , encoding='''utf-8''') as vocab_writer:
vocab_writer.write(''''''.join([x + '''\n''' for x in self.vocab_tokens]))
UpperCAmelCase_ = BertTokenizer(_snake_case)
tokenizer.push_to_hub('''valid_org/test-tokenizer-org''' , use_auth_token=self._token)
UpperCAmelCase_ = BertTokenizer.from_pretrained('''valid_org/test-tokenizer-org''')
self.assertDictEqual(new_tokenizer.vocab , tokenizer.vocab)
# Reset repo
delete_repo(token=self._token , repo_id='''valid_org/test-tokenizer-org''')
# Push to hub via save_pretrained
with tempfile.TemporaryDirectory() as tmp_dir:
tokenizer.save_pretrained(
_snake_case , repo_id='''valid_org/test-tokenizer-org''' , push_to_hub=_snake_case , use_auth_token=self._token)
UpperCAmelCase_ = BertTokenizer.from_pretrained('''valid_org/test-tokenizer-org''')
self.assertDictEqual(new_tokenizer.vocab , tokenizer.vocab)
@require_tokenizers
def lowerCamelCase ( self : int):
"""simple docstring"""
CustomTokenizer.register_for_auto_class()
with tempfile.TemporaryDirectory() as tmp_dir:
UpperCAmelCase_ = os.path.join(_snake_case , '''vocab.txt''')
with open(_snake_case , '''w''' , encoding='''utf-8''') as vocab_writer:
vocab_writer.write(''''''.join([x + '''\n''' for x in self.vocab_tokens]))
UpperCAmelCase_ = CustomTokenizer(_snake_case)
# No fast custom tokenizer
tokenizer.push_to_hub('''test-dynamic-tokenizer''' , use_auth_token=self._token)
UpperCAmelCase_ = AutoTokenizer.from_pretrained(F"""{USER}/test-dynamic-tokenizer""" , trust_remote_code=_snake_case)
# Can't make an isinstance check because the new_model.config is from the CustomTokenizer class of a dynamic module
self.assertEqual(tokenizer.__class__.__name__ , '''CustomTokenizer''')
# Fast and slow custom tokenizer
CustomTokenizerFast.register_for_auto_class()
with tempfile.TemporaryDirectory() as tmp_dir:
UpperCAmelCase_ = os.path.join(_snake_case , '''vocab.txt''')
with open(_snake_case , '''w''' , encoding='''utf-8''') as vocab_writer:
vocab_writer.write(''''''.join([x + '''\n''' for x in self.vocab_tokens]))
UpperCAmelCase_ = BertTokenizerFast.from_pretrained(_snake_case)
bert_tokenizer.save_pretrained(_snake_case)
UpperCAmelCase_ = CustomTokenizerFast.from_pretrained(_snake_case)
tokenizer.push_to_hub('''test-dynamic-tokenizer''' , use_auth_token=self._token)
UpperCAmelCase_ = AutoTokenizer.from_pretrained(F"""{USER}/test-dynamic-tokenizer""" , trust_remote_code=_snake_case)
# Can't make an isinstance check because the new_model.config is from the FakeConfig class of a dynamic module
self.assertEqual(tokenizer.__class__.__name__ , '''CustomTokenizerFast''')
UpperCAmelCase_ = AutoTokenizer.from_pretrained(
F"""{USER}/test-dynamic-tokenizer""" , use_fast=_snake_case , trust_remote_code=_snake_case)
# Can't make an isinstance check because the new_model.config is from the FakeConfig class of a dynamic module
self.assertEqual(tokenizer.__class__.__name__ , '''CustomTokenizer''')
class __snake_case ( unittest.TestCase ):
def lowerCamelCase ( self : Any):
"""simple docstring"""
UpperCAmelCase_ = Trie()
trie.add('''Hello 友達''')
self.assertEqual(trie.data , {'''H''': {'''e''': {'''l''': {'''l''': {'''o''': {''' ''': {'''友''': {'''達''': {'''''': 1}}}}}}}}})
trie.add('''Hello''')
trie.data
self.assertEqual(trie.data , {'''H''': {'''e''': {'''l''': {'''l''': {'''o''': {'''''': 1, ''' ''': {'''友''': {'''達''': {'''''': 1}}}}}}}}})
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = Trie()
self.assertEqual(trie.split('''[CLS] This is a extra_id_100''') , ['''[CLS] This is a extra_id_100'''])
trie.add('''[CLS]''')
trie.add('''extra_id_1''')
trie.add('''extra_id_100''')
self.assertEqual(trie.split('''[CLS] This is a extra_id_100''') , ['''[CLS]''', ''' This is a ''', '''extra_id_100'''])
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = Trie()
trie.add('''A''')
self.assertEqual(trie.split('''ABC''') , ['''A''', '''BC'''])
self.assertEqual(trie.split('''BCA''') , ['''BC''', '''A'''])
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = Trie()
trie.add('''TOKEN]''')
trie.add('''[SPECIAL_TOKEN]''')
self.assertEqual(trie.split('''This is something [SPECIAL_TOKEN]''') , ['''This is something ''', '''[SPECIAL_TOKEN]'''])
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = Trie()
trie.add('''A''')
trie.add('''P''')
trie.add('''[SPECIAL_TOKEN]''')
self.assertEqual(trie.split('''This is something [SPECIAL_TOKEN]''') , ['''This is something ''', '''[SPECIAL_TOKEN]'''])
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = Trie()
trie.add('''AB''')
trie.add('''B''')
trie.add('''C''')
self.assertEqual(trie.split('''ABC''') , ['''AB''', '''C'''])
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = Trie()
trie.add('''ABC''')
trie.add('''B''')
trie.add('''CD''')
self.assertEqual(trie.split('''ABCD''') , ['''ABC''', '''D'''])
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = Trie()
UpperCAmelCase_ = trie.cut_text('''ABC''' , [0, 0, 2, 1, 2, 3])
self.assertEqual(_snake_case , ['''AB''', '''C'''])
| 51
|
from typing import Optional, Tuple, Union
import torch
from einops import rearrange, reduce
from diffusers import DDIMScheduler, DDPMScheduler, DiffusionPipeline, ImagePipelineOutput, UNetaDConditionModel
from diffusers.schedulers.scheduling_ddim import DDIMSchedulerOutput
from diffusers.schedulers.scheduling_ddpm import DDPMSchedulerOutput
snake_case_ : List[str] = 8
def A (__A : Union[str, Any] , __A : List[Any]=BITS ) -> Tuple:
"""simple docstring"""
UpperCAmelCase_ = x.device
UpperCAmelCase_ = (x * 255).int().clamp(0 , 255 )
UpperCAmelCase_ = 2 ** torch.arange(bits - 1 , -1 , -1 , device=__A )
UpperCAmelCase_ = rearrange(__A , '''d -> d 1 1''' )
UpperCAmelCase_ = rearrange(__A , '''b c h w -> b c 1 h w''' )
UpperCAmelCase_ = ((x & mask) != 0).float()
UpperCAmelCase_ = rearrange(__A , '''b c d h w -> b (c d) h w''' )
UpperCAmelCase_ = bits * 2 - 1
return bits
def A (__A : Dict , __A : Tuple=BITS ) -> List[str]:
"""simple docstring"""
UpperCAmelCase_ = x.device
UpperCAmelCase_ = (x > 0).int()
UpperCAmelCase_ = 2 ** torch.arange(bits - 1 , -1 , -1 , device=__A , dtype=torch.intaa )
UpperCAmelCase_ = rearrange(__A , '''d -> d 1 1''' )
UpperCAmelCase_ = rearrange(__A , '''b (c d) h w -> b c d h w''' , d=8 )
UpperCAmelCase_ = reduce(x * mask , '''b c d h w -> b c h w''' , '''sum''' )
return (dec / 255).clamp(0.0 , 1.0 )
def A (self : List[Any] , __A : torch.FloatTensor , __A : int , __A : torch.FloatTensor , __A : float = 0.0 , __A : bool = True , __A : Tuple=None , __A : bool = True , ) -> Union[DDIMSchedulerOutput, Tuple]:
"""simple docstring"""
if self.num_inference_steps is None:
raise ValueError(
'''Number of inference steps is \'None\', you need to run \'set_timesteps\' after creating the scheduler''' )
# See formulas (12) and (16) of DDIM paper https://arxiv.org/pdf/2010.02502.pdf
# Ideally, read DDIM paper in-detail understanding
# Notation (<variable name> -> <name in paper>
# - pred_noise_t -> e_theta(x_t, t)
# - pred_original_sample -> f_theta(x_t, t) or x_0
# - std_dev_t -> sigma_t
# - eta -> η
# - pred_sample_direction -> "direction pointing to x_t"
# - pred_prev_sample -> "x_t-1"
# 1. get previous step value (=t-1)
UpperCAmelCase_ = timestep - self.config.num_train_timesteps // self.num_inference_steps
# 2. compute alphas, betas
UpperCAmelCase_ = self.alphas_cumprod[timestep]
UpperCAmelCase_ = self.alphas_cumprod[prev_timestep] if prev_timestep >= 0 else self.final_alpha_cumprod
UpperCAmelCase_ = 1 - alpha_prod_t
# 3. compute predicted original sample from predicted noise also called
# "predicted x_0" of formula (12) from https://arxiv.org/pdf/2010.02502.pdf
UpperCAmelCase_ = (sample - beta_prod_t ** 0.5 * model_output) / alpha_prod_t ** 0.5
# 4. Clip "predicted x_0"
UpperCAmelCase_ = self.bit_scale
if self.config.clip_sample:
UpperCAmelCase_ = torch.clamp(__A , -scale , __A )
# 5. compute variance: "sigma_t(η)" -> see formula (16)
# σ_t = sqrt((1 − α_t−1)/(1 − α_t)) * sqrt(1 − α_t/α_t−1)
UpperCAmelCase_ = self._get_variance(__A , __A )
UpperCAmelCase_ = eta * variance ** 0.5
if use_clipped_model_output:
# the model_output is always re-derived from the clipped x_0 in Glide
UpperCAmelCase_ = (sample - alpha_prod_t ** 0.5 * pred_original_sample) / beta_prod_t ** 0.5
# 6. compute "direction pointing to x_t" of formula (12) from https://arxiv.org/pdf/2010.02502.pdf
UpperCAmelCase_ = (1 - alpha_prod_t_prev - std_dev_t**2) ** 0.5 * model_output
# 7. compute x_t without "random noise" of formula (12) from https://arxiv.org/pdf/2010.02502.pdf
UpperCAmelCase_ = alpha_prod_t_prev ** 0.5 * pred_original_sample + pred_sample_direction
if eta > 0:
# randn_like does not support generator https://github.com/pytorch/pytorch/issues/27072
UpperCAmelCase_ = model_output.device if torch.is_tensor(__A ) else '''cpu'''
UpperCAmelCase_ = torch.randn(model_output.shape , dtype=model_output.dtype , generator=__A ).to(__A )
UpperCAmelCase_ = self._get_variance(__A , __A ) ** 0.5 * eta * noise
UpperCAmelCase_ = prev_sample + variance
if not return_dict:
return (prev_sample,)
return DDIMSchedulerOutput(prev_sample=__A , pred_original_sample=__A )
def A (self : Optional[int] , __A : torch.FloatTensor , __A : int , __A : torch.FloatTensor , __A : int="epsilon" , __A : Optional[Any]=None , __A : bool = True , ) -> Union[DDPMSchedulerOutput, Tuple]:
"""simple docstring"""
UpperCAmelCase_ = timestep
if model_output.shape[1] == sample.shape[1] * 2 and self.variance_type in ["learned", "learned_range"]:
UpperCAmelCase_ , UpperCAmelCase_ = torch.split(__A , sample.shape[1] , dim=1 )
else:
UpperCAmelCase_ = None
# 1. compute alphas, betas
UpperCAmelCase_ = self.alphas_cumprod[t]
UpperCAmelCase_ = self.alphas_cumprod[t - 1] if t > 0 else self.one
UpperCAmelCase_ = 1 - alpha_prod_t
UpperCAmelCase_ = 1 - alpha_prod_t_prev
# 2. compute predicted original sample from predicted noise also called
# "predicted x_0" of formula (15) from https://arxiv.org/pdf/2006.11239.pdf
if prediction_type == "epsilon":
UpperCAmelCase_ = (sample - beta_prod_t ** 0.5 * model_output) / alpha_prod_t ** 0.5
elif prediction_type == "sample":
UpperCAmelCase_ = model_output
else:
raise ValueError(F"""Unsupported prediction_type {prediction_type}.""" )
# 3. Clip "predicted x_0"
UpperCAmelCase_ = self.bit_scale
if self.config.clip_sample:
UpperCAmelCase_ = torch.clamp(__A , -scale , __A )
# 4. Compute coefficients for pred_original_sample x_0 and current sample x_t
# See formula (7) from https://arxiv.org/pdf/2006.11239.pdf
UpperCAmelCase_ = (alpha_prod_t_prev ** 0.5 * self.betas[t]) / beta_prod_t
UpperCAmelCase_ = self.alphas[t] ** 0.5 * beta_prod_t_prev / beta_prod_t
# 5. Compute predicted previous sample µ_t
# See formula (7) from https://arxiv.org/pdf/2006.11239.pdf
UpperCAmelCase_ = pred_original_sample_coeff * pred_original_sample + current_sample_coeff * sample
# 6. Add noise
UpperCAmelCase_ = 0
if t > 0:
UpperCAmelCase_ = torch.randn(
model_output.size() , dtype=model_output.dtype , layout=model_output.layout , generator=__A ).to(model_output.device )
UpperCAmelCase_ = (self._get_variance(__A , predicted_variance=__A ) ** 0.5) * noise
UpperCAmelCase_ = pred_prev_sample + variance
if not return_dict:
return (pred_prev_sample,)
return DDPMSchedulerOutput(prev_sample=__A , pred_original_sample=__A )
class __snake_case ( a ):
def __init__( self : Union[str, Any] , _snake_case : UNetaDConditionModel , _snake_case : Union[DDIMScheduler, DDPMScheduler] , _snake_case : Optional[float] = 1.0 , ):
"""simple docstring"""
super().__init__()
UpperCAmelCase_ = bit_scale
UpperCAmelCase_ = (
ddim_bit_scheduler_step if isinstance(_snake_case , _snake_case) else ddpm_bit_scheduler_step
)
self.register_modules(unet=_snake_case , scheduler=_snake_case)
@torch.no_grad()
def __call__( self : Union[str, Any] , _snake_case : Optional[int] = 256 , _snake_case : Optional[int] = 256 , _snake_case : Optional[int] = 50 , _snake_case : Optional[torch.Generator] = None , _snake_case : Optional[int] = 1 , _snake_case : Optional[str] = "pil" , _snake_case : bool = True , **_snake_case : Optional[Any] , ):
"""simple docstring"""
UpperCAmelCase_ = torch.randn(
(batch_size, self.unet.config.in_channels, height, width) , generator=_snake_case , )
UpperCAmelCase_ = decimal_to_bits(_snake_case) * self.bit_scale
UpperCAmelCase_ = latents.to(self.device)
self.scheduler.set_timesteps(_snake_case)
for t in self.progress_bar(self.scheduler.timesteps):
# predict the noise residual
UpperCAmelCase_ = self.unet(_snake_case , _snake_case).sample
# compute the previous noisy sample x_t -> x_t-1
UpperCAmelCase_ = self.scheduler.step(_snake_case , _snake_case , _snake_case).prev_sample
UpperCAmelCase_ = bits_to_decimal(_snake_case)
if output_type == "pil":
UpperCAmelCase_ = self.numpy_to_pil(_snake_case)
if not return_dict:
return (image,)
return ImagePipelineOutput(images=_snake_case)
| 51
| 1
|
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_torch_available,
)
snake_case_ : Optional[Any] = {
"configuration_gpt_bigcode": ["GPT_BIGCODE_PRETRAINED_CONFIG_ARCHIVE_MAP", "GPTBigCodeConfig"],
}
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Dict = [
"GPT_BIGCODE_PRETRAINED_MODEL_ARCHIVE_LIST",
"GPTBigCodeForSequenceClassification",
"GPTBigCodeForTokenClassification",
"GPTBigCodeForCausalLM",
"GPTBigCodeModel",
"GPTBigCodePreTrainedModel",
]
if TYPE_CHECKING:
from .configuration_gpt_bigcode import GPT_BIGCODE_PRETRAINED_CONFIG_ARCHIVE_MAP, GPTBigCodeConfig
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_gpt_bigcode import (
GPT_BIGCODE_PRETRAINED_MODEL_ARCHIVE_LIST,
GPTBigCodeForCausalLM,
GPTBigCodeForSequenceClassification,
GPTBigCodeForTokenClassification,
GPTBigCodeModel,
GPTBigCodePreTrainedModel,
)
else:
import sys
snake_case_ : Any = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 51
|
snake_case_ : Dict = {
"Pillow": "Pillow",
"accelerate": "accelerate>=0.11.0",
"compel": "compel==0.1.8",
"black": "black~=23.1",
"datasets": "datasets",
"filelock": "filelock",
"flax": "flax>=0.4.1",
"hf-doc-builder": "hf-doc-builder>=0.3.0",
"huggingface-hub": "huggingface-hub>=0.13.2",
"requests-mock": "requests-mock==1.10.0",
"importlib_metadata": "importlib_metadata",
"invisible-watermark": "invisible-watermark",
"isort": "isort>=5.5.4",
"jax": "jax>=0.2.8,!=0.3.2",
"jaxlib": "jaxlib>=0.1.65",
"Jinja2": "Jinja2",
"k-diffusion": "k-diffusion>=0.0.12",
"torchsde": "torchsde",
"note_seq": "note_seq",
"librosa": "librosa",
"numpy": "numpy",
"omegaconf": "omegaconf",
"parameterized": "parameterized",
"protobuf": "protobuf>=3.20.3,<4",
"pytest": "pytest",
"pytest-timeout": "pytest-timeout",
"pytest-xdist": "pytest-xdist",
"ruff": "ruff>=0.0.241",
"safetensors": "safetensors",
"sentencepiece": "sentencepiece>=0.1.91,!=0.1.92",
"scipy": "scipy",
"onnx": "onnx",
"regex": "regex!=2019.12.17",
"requests": "requests",
"tensorboard": "tensorboard",
"torch": "torch>=1.4",
"torchvision": "torchvision",
"transformers": "transformers>=4.25.1",
"urllib3": "urllib3<=2.0.0",
}
| 51
| 1
|
import argparse
import json
from pathlib import Path
import requests
import timm
import torch
from huggingface_hub import hf_hub_download
from PIL import Image
from transformers import DeiTImageProcessor, ViTConfig, ViTForImageClassification, ViTImageProcessor, ViTModel
from transformers.utils import logging
logging.set_verbosity_info()
snake_case_ : Dict = logging.get_logger(__name__)
def A (__A : Any , __A : Optional[Any]=False ) -> Union[str, Any]:
"""simple docstring"""
UpperCAmelCase_ = []
for i in range(config.num_hidden_layers ):
# encoder layers: output projection, 2 feedforward neural networks and 2 layernorms
rename_keys.append((F"""blocks.{i}.norm1.weight""", F"""vit.encoder.layer.{i}.layernorm_before.weight""") )
rename_keys.append((F"""blocks.{i}.norm1.bias""", F"""vit.encoder.layer.{i}.layernorm_before.bias""") )
rename_keys.append((F"""blocks.{i}.attn.proj.weight""", F"""vit.encoder.layer.{i}.attention.output.dense.weight""") )
rename_keys.append((F"""blocks.{i}.attn.proj.bias""", F"""vit.encoder.layer.{i}.attention.output.dense.bias""") )
rename_keys.append((F"""blocks.{i}.norm2.weight""", F"""vit.encoder.layer.{i}.layernorm_after.weight""") )
rename_keys.append((F"""blocks.{i}.norm2.bias""", F"""vit.encoder.layer.{i}.layernorm_after.bias""") )
rename_keys.append((F"""blocks.{i}.mlp.fc1.weight""", F"""vit.encoder.layer.{i}.intermediate.dense.weight""") )
rename_keys.append((F"""blocks.{i}.mlp.fc1.bias""", F"""vit.encoder.layer.{i}.intermediate.dense.bias""") )
rename_keys.append((F"""blocks.{i}.mlp.fc2.weight""", F"""vit.encoder.layer.{i}.output.dense.weight""") )
rename_keys.append((F"""blocks.{i}.mlp.fc2.bias""", F"""vit.encoder.layer.{i}.output.dense.bias""") )
# projection layer + position embeddings
rename_keys.extend(
[
('''cls_token''', '''vit.embeddings.cls_token'''),
('''patch_embed.proj.weight''', '''vit.embeddings.patch_embeddings.projection.weight'''),
('''patch_embed.proj.bias''', '''vit.embeddings.patch_embeddings.projection.bias'''),
('''pos_embed''', '''vit.embeddings.position_embeddings'''),
] )
if base_model:
# layernorm + pooler
rename_keys.extend(
[
('''norm.weight''', '''layernorm.weight'''),
('''norm.bias''', '''layernorm.bias'''),
('''pre_logits.fc.weight''', '''pooler.dense.weight'''),
('''pre_logits.fc.bias''', '''pooler.dense.bias'''),
] )
# if just the base model, we should remove "vit" from all keys that start with "vit"
UpperCAmelCase_ = [(pair[0], pair[1][4:]) if pair[1].startswith('''vit''' ) else pair for pair in rename_keys]
else:
# layernorm + classification head
rename_keys.extend(
[
('''norm.weight''', '''vit.layernorm.weight'''),
('''norm.bias''', '''vit.layernorm.bias'''),
('''head.weight''', '''classifier.weight'''),
('''head.bias''', '''classifier.bias'''),
] )
return rename_keys
def A (__A : Tuple , __A : Any , __A : Tuple=False ) -> Tuple:
"""simple docstring"""
for i in range(config.num_hidden_layers ):
if base_model:
UpperCAmelCase_ = ''''''
else:
UpperCAmelCase_ = '''vit.'''
# read in weights + bias of input projection layer (in timm, this is a single matrix + bias)
UpperCAmelCase_ = state_dict.pop(F"""blocks.{i}.attn.qkv.weight""" )
UpperCAmelCase_ = state_dict.pop(F"""blocks.{i}.attn.qkv.bias""" )
# next, add query, keys and values (in that order) to the state dict
UpperCAmelCase_ = in_proj_weight[
: config.hidden_size, :
]
UpperCAmelCase_ = in_proj_bias[: config.hidden_size]
UpperCAmelCase_ = in_proj_weight[
config.hidden_size : config.hidden_size * 2, :
]
UpperCAmelCase_ = in_proj_bias[
config.hidden_size : config.hidden_size * 2
]
UpperCAmelCase_ = in_proj_weight[
-config.hidden_size :, :
]
UpperCAmelCase_ = in_proj_bias[-config.hidden_size :]
def A (__A : Optional[Any] ) -> Union[str, Any]:
"""simple docstring"""
UpperCAmelCase_ = ['''head.weight''', '''head.bias''']
for k in ignore_keys:
state_dict.pop(__A , __A )
def A (__A : Union[str, Any] , __A : Optional[int] , __A : Optional[Any] ) -> int:
"""simple docstring"""
UpperCAmelCase_ = dct.pop(__A )
UpperCAmelCase_ = val
def A () -> List[Any]:
"""simple docstring"""
UpperCAmelCase_ = '''http://images.cocodataset.org/val2017/000000039769.jpg'''
UpperCAmelCase_ = Image.open(requests.get(__A , stream=__A ).raw )
return im
@torch.no_grad()
def A (__A : Optional[Any] , __A : Optional[int] ) -> List[str]:
"""simple docstring"""
UpperCAmelCase_ = ViTConfig()
UpperCAmelCase_ = False
# dataset (ImageNet-21k only or also fine-tuned on ImageNet 2012), patch_size and image_size
if vit_name[-5:] == "in21k":
UpperCAmelCase_ = True
UpperCAmelCase_ = int(vit_name[-12:-10] )
UpperCAmelCase_ = int(vit_name[-9:-6] )
else:
UpperCAmelCase_ = 1000
UpperCAmelCase_ = '''huggingface/label-files'''
UpperCAmelCase_ = '''imagenet-1k-id2label.json'''
UpperCAmelCase_ = json.load(open(hf_hub_download(__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_ = int(vit_name[-6:-4] )
UpperCAmelCase_ = int(vit_name[-3:] )
# size of the architecture
if "deit" in vit_name:
if vit_name[9:].startswith('''tiny''' ):
UpperCAmelCase_ = 192
UpperCAmelCase_ = 768
UpperCAmelCase_ = 12
UpperCAmelCase_ = 3
elif vit_name[9:].startswith('''small''' ):
UpperCAmelCase_ = 384
UpperCAmelCase_ = 1536
UpperCAmelCase_ = 12
UpperCAmelCase_ = 6
else:
pass
else:
if vit_name[4:].startswith('''small''' ):
UpperCAmelCase_ = 768
UpperCAmelCase_ = 2304
UpperCAmelCase_ = 8
UpperCAmelCase_ = 8
elif vit_name[4:].startswith('''base''' ):
pass
elif vit_name[4:].startswith('''large''' ):
UpperCAmelCase_ = 1024
UpperCAmelCase_ = 4096
UpperCAmelCase_ = 24
UpperCAmelCase_ = 16
elif vit_name[4:].startswith('''huge''' ):
UpperCAmelCase_ = 1280
UpperCAmelCase_ = 5120
UpperCAmelCase_ = 32
UpperCAmelCase_ = 16
# load original model from timm
UpperCAmelCase_ = timm.create_model(__A , pretrained=__A )
timm_model.eval()
# load state_dict of original model, remove and rename some keys
UpperCAmelCase_ = timm_model.state_dict()
if base_model:
remove_classification_head_(__A )
UpperCAmelCase_ = create_rename_keys(__A , __A )
for src, dest in rename_keys:
rename_key(__A , __A , __A )
read_in_q_k_v(__A , __A , __A )
# load HuggingFace model
if vit_name[-5:] == "in21k":
UpperCAmelCase_ = ViTModel(__A ).eval()
else:
UpperCAmelCase_ = ViTForImageClassification(__A ).eval()
model.load_state_dict(__A )
# Check outputs on an image, prepared by ViTImageProcessor/DeiTImageProcessor
if "deit" in vit_name:
UpperCAmelCase_ = DeiTImageProcessor(size=config.image_size )
else:
UpperCAmelCase_ = ViTImageProcessor(size=config.image_size )
UpperCAmelCase_ = image_processor(images=prepare_img() , return_tensors='''pt''' )
UpperCAmelCase_ = encoding['''pixel_values''']
UpperCAmelCase_ = model(__A )
if base_model:
UpperCAmelCase_ = timm_model.forward_features(__A )
assert timm_pooled_output.shape == outputs.pooler_output.shape
assert torch.allclose(__A , outputs.pooler_output , atol=1E-3 )
else:
UpperCAmelCase_ = timm_model(__A )
assert timm_logits.shape == outputs.logits.shape
assert torch.allclose(__A , outputs.logits , atol=1E-3 )
Path(__A ).mkdir(exist_ok=__A )
print(F"""Saving model {vit_name} to {pytorch_dump_folder_path}""" )
model.save_pretrained(__A )
print(F"""Saving image processor to {pytorch_dump_folder_path}""" )
image_processor.save_pretrained(__A )
if __name__ == "__main__":
snake_case_ : Tuple = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
"--vit_name",
default="vit_base_patch16_224",
type=str,
help="Name of the ViT timm model you'd like to convert.",
)
parser.add_argument(
"--pytorch_dump_folder_path", default=None, type=str, help="Path to the output PyTorch model directory."
)
snake_case_ : List[str] = parser.parse_args()
convert_vit_checkpoint(args.vit_name, args.pytorch_dump_folder_path)
| 51
|
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
| 1
|
import inspect
import unittest
import numpy as np
from tests.test_modeling_common import floats_tensor
from transformers import DetrConfig, MaskFormerConfig, SwinConfig, is_torch_available, is_vision_available
from transformers.testing_utils import require_torch, require_torch_multi_gpu, require_vision, slow, torch_device
from transformers.utils import cached_property
from ...test_configuration_common import ConfigTester
from ...test_modeling_common import ModelTesterMixin
from ...test_pipeline_mixin import PipelineTesterMixin
if is_torch_available():
import torch
from transformers import MaskFormerForInstanceSegmentation, MaskFormerModel
if is_vision_available():
from transformers import MaskFormerImageProcessor
if is_vision_available():
from PIL import Image
class __snake_case :
def __init__( self : List[str] , _snake_case : Union[str, Any] , _snake_case : List[str]=2 , _snake_case : Any=True , _snake_case : Any=False , _snake_case : List[str]=10 , _snake_case : Any=3 , _snake_case : Union[str, Any]=32 * 4 , _snake_case : List[Any]=32 * 6 , _snake_case : Tuple=4 , _snake_case : Dict=32 , ):
"""simple docstring"""
UpperCAmelCase_ = parent
UpperCAmelCase_ = batch_size
UpperCAmelCase_ = is_training
UpperCAmelCase_ = use_auxiliary_loss
UpperCAmelCase_ = num_queries
UpperCAmelCase_ = num_channels
UpperCAmelCase_ = min_size
UpperCAmelCase_ = max_size
UpperCAmelCase_ = num_labels
UpperCAmelCase_ = mask_feature_size
def lowerCamelCase ( self : Any):
"""simple docstring"""
UpperCAmelCase_ = floats_tensor([self.batch_size, self.num_channels, self.min_size, self.max_size]).to(
_snake_case)
UpperCAmelCase_ = torch.ones([self.batch_size, self.min_size, self.max_size] , device=_snake_case)
UpperCAmelCase_ = (
torch.rand([self.batch_size, self.num_labels, self.min_size, self.max_size] , device=_snake_case) > 0.5
).float()
UpperCAmelCase_ = (torch.rand((self.batch_size, self.num_labels) , device=_snake_case) > 0.5).long()
UpperCAmelCase_ = self.get_config()
return config, pixel_values, pixel_mask, mask_labels, class_labels
def lowerCamelCase ( self : Any):
"""simple docstring"""
return MaskFormerConfig.from_backbone_and_decoder_configs(
backbone_config=SwinConfig(
depths=[1, 1, 1, 1] , ) , decoder_config=DetrConfig(
decoder_ffn_dim=128 , num_queries=self.num_queries , decoder_attention_heads=2 , d_model=self.mask_feature_size , ) , mask_feature_size=self.mask_feature_size , fpn_feature_size=self.mask_feature_size , num_channels=self.num_channels , num_labels=self.num_labels , )
def lowerCamelCase ( self : int):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = self.prepare_config_and_inputs()
UpperCAmelCase_ = {'''pixel_values''': pixel_values, '''pixel_mask''': pixel_mask}
return config, inputs_dict
def lowerCamelCase ( self : str , _snake_case : List[Any] , _snake_case : List[str]):
"""simple docstring"""
UpperCAmelCase_ = output.encoder_hidden_states
UpperCAmelCase_ = output.pixel_decoder_hidden_states
UpperCAmelCase_ = output.transformer_decoder_hidden_states
self.parent.assertTrue(len(_snake_case) , len(config.backbone_config.depths))
self.parent.assertTrue(len(_snake_case) , len(config.backbone_config.depths))
self.parent.assertTrue(len(_snake_case) , config.decoder_config.decoder_layers)
def lowerCamelCase ( self : Union[str, Any] , _snake_case : List[str] , _snake_case : int , _snake_case : Optional[Any] , _snake_case : str=False):
"""simple docstring"""
with torch.no_grad():
UpperCAmelCase_ = MaskFormerModel(config=_snake_case)
model.to(_snake_case)
model.eval()
UpperCAmelCase_ = model(pixel_values=_snake_case , pixel_mask=_snake_case)
UpperCAmelCase_ = model(_snake_case , output_hidden_states=_snake_case)
# the correct shape of output.transformer_decoder_hidden_states ensure the correcteness of the
# encoder and pixel decoder
self.parent.assertEqual(
output.transformer_decoder_last_hidden_state.shape , (self.batch_size, self.num_queries, self.mask_feature_size) , )
# let's ensure the other two hidden state exists
self.parent.assertTrue(output.pixel_decoder_last_hidden_state is not None)
self.parent.assertTrue(output.encoder_last_hidden_state is not None)
if output_hidden_states:
self.check_output_hidden_state(_snake_case , _snake_case)
def lowerCamelCase ( self : List[Any] , _snake_case : List[Any] , _snake_case : List[Any] , _snake_case : str , _snake_case : Optional[int] , _snake_case : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = MaskFormerForInstanceSegmentation(config=_snake_case)
model.to(_snake_case)
model.eval()
def comm_check_on_output(_snake_case : Tuple):
# let's still check that all the required stuff is there
self.parent.assertTrue(result.transformer_decoder_last_hidden_state is not None)
self.parent.assertTrue(result.pixel_decoder_last_hidden_state is not None)
self.parent.assertTrue(result.encoder_last_hidden_state is not None)
# okay, now we need to check the logits shape
# due to the encoder compression, masks have a //4 spatial size
self.parent.assertEqual(
result.masks_queries_logits.shape , (self.batch_size, self.num_queries, self.min_size // 4, self.max_size // 4) , )
# + 1 for null class
self.parent.assertEqual(
result.class_queries_logits.shape , (self.batch_size, self.num_queries, self.num_labels + 1))
with torch.no_grad():
UpperCAmelCase_ = model(pixel_values=_snake_case , pixel_mask=_snake_case)
UpperCAmelCase_ = model(_snake_case)
comm_check_on_output(_snake_case)
UpperCAmelCase_ = model(
pixel_values=_snake_case , pixel_mask=_snake_case , mask_labels=_snake_case , class_labels=_snake_case)
comm_check_on_output(_snake_case)
self.parent.assertTrue(result.loss is not None)
self.parent.assertEqual(result.loss.shape , torch.Size([1]))
@require_torch
class __snake_case ( a , a , unittest.TestCase ):
UpperCAmelCase__ : Union[str, Any] = (MaskFormerModel, MaskFormerForInstanceSegmentation) if is_torch_available() else ()
UpperCAmelCase__ : Optional[Any] = (
{'''feature-extraction''': MaskFormerModel, '''image-segmentation''': MaskFormerForInstanceSegmentation}
if is_torch_available()
else {}
)
UpperCAmelCase__ : Dict = False
UpperCAmelCase__ : List[str] = False
UpperCAmelCase__ : Optional[Any] = False
UpperCAmelCase__ : Union[str, Any] = False
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = MaskFormerModelTester(self)
UpperCAmelCase_ = ConfigTester(self , config_class=_snake_case , has_text_modality=_snake_case)
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
self.config_tester.run_common_tests()
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_common()
self.model_tester.create_and_check_maskformer_model(_snake_case , **_snake_case , output_hidden_states=_snake_case)
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_maskformer_instance_segmentation_head_model(*_snake_case)
@unittest.skip(reason='''MaskFormer does not use inputs_embeds''')
def lowerCamelCase ( self : Dict):
"""simple docstring"""
pass
@unittest.skip(reason='''MaskFormer does not have a get_input_embeddings method''')
def lowerCamelCase ( self : int):
"""simple docstring"""
pass
@unittest.skip(reason='''MaskFormer is not a generative model''')
def lowerCamelCase ( self : str):
"""simple docstring"""
pass
@unittest.skip(reason='''MaskFormer does not use token embeddings''')
def lowerCamelCase ( self : int):
"""simple docstring"""
pass
@require_torch_multi_gpu
@unittest.skip(
reason='''MaskFormer has some layers using `add_module` which doesn\'t work well with `nn.DataParallel`''')
def lowerCamelCase ( self : Any):
"""simple docstring"""
pass
@unittest.skip('''Will be fixed soon by reducing the size of the model used for common tests.''')
def lowerCamelCase ( self : str):
"""simple docstring"""
pass
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
UpperCAmelCase_ = model_class(_snake_case)
UpperCAmelCase_ = inspect.signature(model.forward)
# signature.parameters is an OrderedDict => so arg_names order is deterministic
UpperCAmelCase_ = [*signature.parameters.keys()]
UpperCAmelCase_ = ['''pixel_values''']
self.assertListEqual(arg_names[:1] , _snake_case)
@slow
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
for model_name in ["facebook/maskformer-swin-small-coco"]:
UpperCAmelCase_ = MaskFormerModel.from_pretrained(_snake_case)
self.assertIsNotNone(_snake_case)
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = (self.model_tester.min_size,) * 2
UpperCAmelCase_ = {
'''pixel_values''': torch.randn((2, 3, *size) , device=_snake_case),
'''mask_labels''': torch.randn((2, 10, *size) , device=_snake_case),
'''class_labels''': torch.zeros(2 , 10 , device=_snake_case).long(),
}
UpperCAmelCase_ = MaskFormerForInstanceSegmentation(MaskFormerConfig()).to(_snake_case)
UpperCAmelCase_ = model(**_snake_case)
self.assertTrue(outputs.loss is not None)
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_common()
self.model_tester.create_and_check_maskformer_model(_snake_case , **_snake_case , output_hidden_states=_snake_case)
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
UpperCAmelCase_ = model_class(_snake_case).to(_snake_case)
UpperCAmelCase_ = model(**_snake_case , output_attentions=_snake_case)
self.assertTrue(outputs.attentions is not None)
def lowerCamelCase ( self : int):
"""simple docstring"""
if not self.model_tester.is_training:
return
# only MaskFormerForInstanceSegmentation has the loss
UpperCAmelCase_ = self.all_model_classes[1]
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
UpperCAmelCase_ = model_class(_snake_case)
model.to(_snake_case)
model.train()
UpperCAmelCase_ = model(_snake_case , mask_labels=_snake_case , class_labels=_snake_case).loss
loss.backward()
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = self.all_model_classes[1]
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
UpperCAmelCase_ = True
UpperCAmelCase_ = True
UpperCAmelCase_ = model_class(_snake_case)
model.to(_snake_case)
model.train()
UpperCAmelCase_ = model(_snake_case , mask_labels=_snake_case , class_labels=_snake_case)
UpperCAmelCase_ = outputs.encoder_hidden_states[0]
encoder_hidden_states.retain_grad()
UpperCAmelCase_ = outputs.pixel_decoder_hidden_states[0]
pixel_decoder_hidden_states.retain_grad()
# we requires_grad=True in inputs_embeds (line 2152), the original implementation don't
UpperCAmelCase_ = outputs.transformer_decoder_hidden_states[0]
transformer_decoder_hidden_states.retain_grad()
UpperCAmelCase_ = outputs.attentions[0]
attentions.retain_grad()
outputs.loss.backward(retain_graph=_snake_case)
self.assertIsNotNone(encoder_hidden_states.grad)
self.assertIsNotNone(pixel_decoder_hidden_states.grad)
self.assertIsNotNone(transformer_decoder_hidden_states.grad)
self.assertIsNotNone(attentions.grad)
snake_case_ : Dict = 1e-4
def A () -> Union[str, Any]:
"""simple docstring"""
UpperCAmelCase_ = Image.open('''./tests/fixtures/tests_samples/COCO/000000039769.png''' )
return image
@require_vision
@slow
class __snake_case ( unittest.TestCase ):
@cached_property
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
return (
MaskFormerImageProcessor.from_pretrained('''facebook/maskformer-swin-small-coco''')
if is_vision_available()
else None
)
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = MaskFormerModel.from_pretrained('''facebook/maskformer-swin-small-coco''').to(_snake_case)
UpperCAmelCase_ = self.default_image_processor
UpperCAmelCase_ = prepare_img()
UpperCAmelCase_ = image_processor(_snake_case , return_tensors='''pt''').to(_snake_case)
UpperCAmelCase_ = inputs['''pixel_values'''].shape
# check size is divisible by 32
self.assertTrue((inputs_shape[-1] % 32) == 0 and (inputs_shape[-2] % 32) == 0)
# check size
self.assertEqual(_snake_case , (1, 3, 800, 1088))
with torch.no_grad():
UpperCAmelCase_ = model(**_snake_case)
UpperCAmelCase_ = torch.tensor(
[[-0.0_4_8_2, 0.9_2_2_8, 0.4_9_5_1], [-0.2_5_4_7, 0.8_0_1_7, 0.8_5_2_7], [-0.0_0_6_9, 0.3_3_8_5, -0.0_0_8_9]]).to(_snake_case)
self.assertTrue(
torch.allclose(
outputs.encoder_last_hidden_state[0, 0, :3, :3] , _snake_case , atol=_snake_case))
UpperCAmelCase_ = torch.tensor(
[[-0.8_4_2_2, -0.8_4_3_4, -0.9_7_1_8], [-1.0_1_4_4, -0.5_5_6_5, -0.4_1_9_5], [-1.0_0_3_8, -0.4_4_8_4, -0.1_9_6_1]]).to(_snake_case)
self.assertTrue(
torch.allclose(
outputs.pixel_decoder_last_hidden_state[0, 0, :3, :3] , _snake_case , atol=_snake_case))
UpperCAmelCase_ = torch.tensor(
[[0.2_8_5_2, -0.0_1_5_9, 0.9_7_3_5], [0.6_2_5_4, 0.1_8_5_8, 0.8_5_2_9], [-0.0_6_8_0, -0.4_1_1_6, 1.8_4_1_3]]).to(_snake_case)
self.assertTrue(
torch.allclose(
outputs.transformer_decoder_last_hidden_state[0, :3, :3] , _snake_case , atol=_snake_case))
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = (
MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''')
.to(_snake_case)
.eval()
)
UpperCAmelCase_ = self.default_image_processor
UpperCAmelCase_ = prepare_img()
UpperCAmelCase_ = image_processor(_snake_case , return_tensors='''pt''').to(_snake_case)
UpperCAmelCase_ = inputs['''pixel_values'''].shape
# check size is divisible by 32
self.assertTrue((inputs_shape[-1] % 32) == 0 and (inputs_shape[-2] % 32) == 0)
# check size
self.assertEqual(_snake_case , (1, 3, 800, 1088))
with torch.no_grad():
UpperCAmelCase_ = model(**_snake_case)
# masks_queries_logits
UpperCAmelCase_ = outputs.masks_queries_logits
self.assertEqual(
masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , )
UpperCAmelCase_ = [
[-1.3_7_3_7_1_2_4, -1.7_7_2_4_9_3_7, -1.9_3_6_4_2_3_3],
[-1.5_9_7_7_2_8_1, -1.9_8_6_7_9_3_9, -2.1_5_2_3_6_9_5],
[-1.5_7_9_5_3_9_8, -1.9_2_6_9_8_3_2, -2.0_9_3_9_4_2],
]
UpperCAmelCase_ = torch.tensor(_snake_case).to(_snake_case)
self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , _snake_case , atol=_snake_case))
# class_queries_logits
UpperCAmelCase_ = outputs.class_queries_logits
self.assertEqual(
class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1))
UpperCAmelCase_ = torch.tensor(
[
[1.65_12e00, -5.25_72e00, -3.35_19e00],
[3.61_69e-02, -5.90_25e00, -2.93_13e00],
[1.07_66e-04, -7.76_30e00, -5.12_63e00],
]).to(_snake_case)
self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , _snake_case , atol=_snake_case))
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = (
MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-resnet101-coco-stuff''')
.to(_snake_case)
.eval()
)
UpperCAmelCase_ = self.default_image_processor
UpperCAmelCase_ = prepare_img()
UpperCAmelCase_ = image_processor(_snake_case , return_tensors='''pt''').to(_snake_case)
UpperCAmelCase_ = inputs['''pixel_values'''].shape
# check size is divisible by 32
self.assertTrue((inputs_shape[-1] % 32) == 0 and (inputs_shape[-2] % 32) == 0)
# check size
self.assertEqual(_snake_case , (1, 3, 800, 1088))
with torch.no_grad():
UpperCAmelCase_ = model(**_snake_case)
# masks_queries_logits
UpperCAmelCase_ = outputs.masks_queries_logits
self.assertEqual(
masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , )
UpperCAmelCase_ = [[-0.9_0_4_6, -2.6_3_6_6, -4.6_0_6_2], [-3.4_1_7_9, -5.7_8_9_0, -8.8_0_5_7], [-4.9_1_7_9, -7.6_5_6_0, -1_0.7_7_1_1]]
UpperCAmelCase_ = torch.tensor(_snake_case).to(_snake_case)
self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , _snake_case , atol=_snake_case))
# class_queries_logits
UpperCAmelCase_ = outputs.class_queries_logits
self.assertEqual(
class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1))
UpperCAmelCase_ = torch.tensor(
[[4.7_1_8_8, -3.2_5_8_5, -2.8_8_5_7], [6.6_8_7_1, -2.9_1_8_1, -1.2_4_8_7], [7.2_4_4_9, -2.2_7_6_4, -2.1_8_7_4]]).to(_snake_case)
self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , _snake_case , atol=_snake_case))
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = (
MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''')
.to(_snake_case)
.eval()
)
UpperCAmelCase_ = self.default_image_processor
UpperCAmelCase_ = image_processor(
[np.zeros((3, 800, 1333)), np.zeros((3, 800, 1333))] , segmentation_maps=[np.zeros((384, 384)).astype(np.floataa), np.zeros((384, 384)).astype(np.floataa)] , return_tensors='''pt''' , )
UpperCAmelCase_ = inputs['''pixel_values'''].to(_snake_case)
UpperCAmelCase_ = [el.to(_snake_case) for el in inputs['''mask_labels''']]
UpperCAmelCase_ = [el.to(_snake_case) for el in inputs['''class_labels''']]
with torch.no_grad():
UpperCAmelCase_ = model(**_snake_case)
self.assertTrue(outputs.loss is not None)
| 51
|
from ...configuration_utils import PretrainedConfig
from ...utils import logging
snake_case_ : Any = logging.get_logger(__name__)
snake_case_ : Optional[Any] = {
"tiiuae/falcon-40b": "https://huggingface.co/tiiuae/falcon-40b/resolve/main/config.json",
"tiiuae/falcon-7b": "https://huggingface.co/tiiuae/falcon-7b/resolve/main/config.json",
}
class __snake_case ( a ):
UpperCAmelCase__ : Optional[Any] = '''falcon'''
UpperCAmelCase__ : List[Any] = ['''past_key_values''']
def __init__( self : Union[str, Any] , _snake_case : List[str]=65024 , _snake_case : int=4544 , _snake_case : int=32 , _snake_case : Any=71 , _snake_case : int=1e-5 , _snake_case : Dict=0.0_2 , _snake_case : int=True , _snake_case : List[Any]=0.0 , _snake_case : Tuple=0.0 , _snake_case : int=None , _snake_case : Tuple=False , _snake_case : Any=False , _snake_case : str=True , _snake_case : Any=True , _snake_case : List[str]=False , _snake_case : Tuple=11 , _snake_case : Dict=11 , **_snake_case : Optional[int] , ):
"""simple docstring"""
UpperCAmelCase_ = vocab_size
# Backward compatibility with n_embed kwarg
UpperCAmelCase_ = kwargs.pop('''n_embed''' , _snake_case)
UpperCAmelCase_ = hidden_size if n_embed is None else n_embed
UpperCAmelCase_ = num_hidden_layers
UpperCAmelCase_ = num_attention_heads
UpperCAmelCase_ = layer_norm_epsilon
UpperCAmelCase_ = initializer_range
UpperCAmelCase_ = use_cache
UpperCAmelCase_ = hidden_dropout
UpperCAmelCase_ = attention_dropout
UpperCAmelCase_ = bos_token_id
UpperCAmelCase_ = eos_token_id
UpperCAmelCase_ = num_attention_heads if num_kv_heads is None else num_kv_heads
UpperCAmelCase_ = alibi
UpperCAmelCase_ = new_decoder_architecture
UpperCAmelCase_ = multi_query # Ignored when new_decoder_architecture is True
UpperCAmelCase_ = parallel_attn
UpperCAmelCase_ = bias
super().__init__(bos_token_id=_snake_case , eos_token_id=_snake_case , **_snake_case)
@property
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
return self.hidden_size // self.num_attention_heads
@property
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
return not self.alibi
| 51
| 1
|
import os
from typing import List, Optional, Union
from ...tokenization_utils import PreTrainedTokenizer
from ...tokenization_utils_base import AddedToken
from ...utils import logging
snake_case_ : Dict = logging.get_logger(__name__)
snake_case_ : Any = {"vocab_file": "vocab.txt"}
snake_case_ : List[Any] = {
"vocab_file": {
"facebook/esm2_t6_8M_UR50D": "https://huggingface.co/facebook/esm2_t6_8M_UR50D/resolve/main/vocab.txt",
"facebook/esm2_t12_35M_UR50D": "https://huggingface.co/facebook/esm2_t12_35M_UR50D/resolve/main/vocab.txt",
},
}
snake_case_ : Union[str, Any] = {
"facebook/esm2_t6_8M_UR50D": 1024,
"facebook/esm2_t12_35M_UR50D": 1024,
}
def A (__A : Optional[int] ) -> Dict:
"""simple docstring"""
with open(__A , '''r''' ) as f:
UpperCAmelCase_ = f.read().splitlines()
return [l.strip() for l in lines]
class __snake_case ( a ):
UpperCAmelCase__ : List[Any] = VOCAB_FILES_NAMES
UpperCAmelCase__ : Union[str, Any] = PRETRAINED_VOCAB_FILES_MAP
UpperCAmelCase__ : Optional[int] = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
UpperCAmelCase__ : Any = ['''input_ids''', '''attention_mask''']
def __init__( self : Any , _snake_case : int , _snake_case : Tuple="<unk>" , _snake_case : List[str]="<cls>" , _snake_case : str="<pad>" , _snake_case : str="<mask>" , _snake_case : Optional[Any]="<eos>" , **_snake_case : Dict , ):
"""simple docstring"""
super().__init__(**_snake_case)
UpperCAmelCase_ = load_vocab_file(_snake_case)
UpperCAmelCase_ = dict(enumerate(self.all_tokens))
UpperCAmelCase_ = {tok: ind for ind, tok in enumerate(self.all_tokens)}
UpperCAmelCase_ = unk_token
UpperCAmelCase_ = cls_token
UpperCAmelCase_ = pad_token
UpperCAmelCase_ = mask_token
UpperCAmelCase_ = eos_token
UpperCAmelCase_ = self.all_tokens
self._create_trie(self.unique_no_split_tokens)
def lowerCamelCase ( self : str , _snake_case : int):
"""simple docstring"""
return self._id_to_token.get(_snake_case , self.unk_token)
def lowerCamelCase ( self : Union[str, Any] , _snake_case : str):
"""simple docstring"""
return self._token_to_id.get(_snake_case , self._token_to_id.get(self.unk_token))
def lowerCamelCase ( self : List[Any] , _snake_case : List[Any] , **_snake_case : int):
"""simple docstring"""
return text.split()
def lowerCamelCase ( self : int , _snake_case : Optional[Any]=False):
"""simple docstring"""
return len(self._id_to_token)
def lowerCamelCase ( self : str):
"""simple docstring"""
return {token: i for i, token in enumerate(self.all_tokens)}
def lowerCamelCase ( self : Dict , _snake_case : str):
"""simple docstring"""
return self._token_to_id.get(_snake_case , self._token_to_id.get(self.unk_token))
def lowerCamelCase ( self : Tuple , _snake_case : int):
"""simple docstring"""
return self._id_to_token.get(_snake_case , self.unk_token)
def lowerCamelCase ( self : Dict , _snake_case : List[int] , _snake_case : Optional[List[int]] = None):
"""simple docstring"""
UpperCAmelCase_ = [self.cls_token_id]
UpperCAmelCase_ = [self.eos_token_id] # No sep token in ESM vocabulary
if token_ids_a is None:
if self.eos_token_id is None:
return cls + token_ids_a
else:
return cls + token_ids_a + sep
elif self.eos_token_id is None:
raise ValueError('''Cannot tokenize multiple sequences when EOS token is not set!''')
return cls + token_ids_a + sep + token_ids_a + sep # Multiple inputs always have an EOS token
def lowerCamelCase ( self : Tuple , _snake_case : List , _snake_case : Optional[List] = None , _snake_case : bool = False):
"""simple docstring"""
if already_has_special_tokens:
if token_ids_a is not None:
raise ValueError(
'''You should not supply a second sequence if the provided sequence of '''
'''ids is already formatted with special tokens for the model.''')
return [1 if token in self.all_special_ids else 0 for token in token_ids_a]
UpperCAmelCase_ = [1] + ([0] * len(_snake_case)) + [1]
if token_ids_a is not None:
mask += [0] * len(_snake_case) + [1]
return mask
def lowerCamelCase ( self : Any , _snake_case : List[str] , _snake_case : List[str]):
"""simple docstring"""
UpperCAmelCase_ = os.path.join(_snake_case , (filename_prefix + '''-''' if filename_prefix else '''''') + '''vocab.txt''')
with open(_snake_case , '''w''') as f:
f.write('''\n'''.join(self.all_tokens))
return (vocab_file,)
@property
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
return self.get_vocab_size(with_added_tokens=_snake_case)
def lowerCamelCase ( self : Optional[Any] , _snake_case : Union[List[str], List[AddedToken]] , _snake_case : bool = False):
"""simple docstring"""
return super()._add_tokens(_snake_case , special_tokens=_snake_case)
| 51
|
from __future__ import annotations
import time
from math import sqrt
# 1 for manhattan, 0 for euclidean
snake_case_ : str = 0
snake_case_ : Union[str, Any] = [
[0, 0, 0, 0, 0, 0, 0],
[0, 1, 0, 0, 0, 0, 0], # 0 are free path whereas 1's are obstacles
[0, 0, 0, 0, 0, 0, 0],
[0, 0, 1, 0, 0, 0, 0],
[1, 0, 1, 0, 0, 0, 0],
[0, 0, 0, 0, 0, 0, 0],
[0, 0, 0, 0, 1, 0, 0],
]
snake_case_ : str = [[-1, 0], [0, -1], [1, 0], [0, 1]] # up, left, down, right
snake_case_ : List[Any] = tuple[int, int]
class __snake_case :
def __init__( self : Any , _snake_case : int , _snake_case : int , _snake_case : int , _snake_case : int , _snake_case : int , _snake_case : Node | None , ):
"""simple docstring"""
UpperCAmelCase_ = pos_x
UpperCAmelCase_ = pos_y
UpperCAmelCase_ = (pos_y, pos_x)
UpperCAmelCase_ = goal_x
UpperCAmelCase_ = goal_y
UpperCAmelCase_ = g_cost
UpperCAmelCase_ = parent
UpperCAmelCase_ = self.calculate_heuristic()
UpperCAmelCase_ = self.g_cost + self.h_cost
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = self.pos_x - self.goal_x
UpperCAmelCase_ = self.pos_y - self.goal_y
if HEURISTIC == 1:
return abs(_snake_case) + abs(_snake_case)
else:
return sqrt(dy**2 + dx**2)
def __lt__( self : Union[str, Any] , _snake_case : Node):
"""simple docstring"""
return self.f_cost < other.f_cost
class __snake_case :
def __init__( self : str , _snake_case : TPosition , _snake_case : TPosition):
"""simple docstring"""
UpperCAmelCase_ = Node(start[1] , start[0] , goal[1] , goal[0] , 0 , _snake_case)
UpperCAmelCase_ = Node(goal[1] , goal[0] , goal[1] , goal[0] , 99999 , _snake_case)
UpperCAmelCase_ = [self.start]
UpperCAmelCase_ = []
UpperCAmelCase_ = False
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
while self.open_nodes:
# Open Nodes are sorted using __lt__
self.open_nodes.sort()
UpperCAmelCase_ = self.open_nodes.pop(0)
if current_node.pos == self.target.pos:
return self.retrace_path(_snake_case)
self.closed_nodes.append(_snake_case)
UpperCAmelCase_ = self.get_successors(_snake_case)
for child_node in successors:
if child_node in self.closed_nodes:
continue
if child_node not in self.open_nodes:
self.open_nodes.append(_snake_case)
else:
# retrieve the best current path
UpperCAmelCase_ = self.open_nodes.pop(self.open_nodes.index(_snake_case))
if child_node.g_cost < better_node.g_cost:
self.open_nodes.append(_snake_case)
else:
self.open_nodes.append(_snake_case)
return [self.start.pos]
def lowerCamelCase ( self : Tuple , _snake_case : Node):
"""simple docstring"""
UpperCAmelCase_ = []
for action in delta:
UpperCAmelCase_ = parent.pos_x + action[1]
UpperCAmelCase_ = parent.pos_y + action[0]
if not (0 <= pos_x <= len(grid[0]) - 1 and 0 <= pos_y <= len(_snake_case) - 1):
continue
if grid[pos_y][pos_x] != 0:
continue
successors.append(
Node(
_snake_case , _snake_case , self.target.pos_y , self.target.pos_x , parent.g_cost + 1 , _snake_case , ))
return successors
def lowerCamelCase ( self : Any , _snake_case : Node | None):
"""simple docstring"""
UpperCAmelCase_ = node
UpperCAmelCase_ = []
while current_node is not None:
path.append((current_node.pos_y, current_node.pos_x))
UpperCAmelCase_ = current_node.parent
path.reverse()
return path
class __snake_case :
def __init__( self : Any , _snake_case : TPosition , _snake_case : TPosition):
"""simple docstring"""
UpperCAmelCase_ = AStar(_snake_case , _snake_case)
UpperCAmelCase_ = AStar(_snake_case , _snake_case)
UpperCAmelCase_ = False
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
while self.fwd_astar.open_nodes or self.bwd_astar.open_nodes:
self.fwd_astar.open_nodes.sort()
self.bwd_astar.open_nodes.sort()
UpperCAmelCase_ = self.fwd_astar.open_nodes.pop(0)
UpperCAmelCase_ = self.bwd_astar.open_nodes.pop(0)
if current_bwd_node.pos == current_fwd_node.pos:
return self.retrace_bidirectional_path(
_snake_case , _snake_case)
self.fwd_astar.closed_nodes.append(_snake_case)
self.bwd_astar.closed_nodes.append(_snake_case)
UpperCAmelCase_ = current_bwd_node
UpperCAmelCase_ = current_fwd_node
UpperCAmelCase_ = {
self.fwd_astar: self.fwd_astar.get_successors(_snake_case),
self.bwd_astar: self.bwd_astar.get_successors(_snake_case),
}
for astar in [self.fwd_astar, self.bwd_astar]:
for child_node in successors[astar]:
if child_node in astar.closed_nodes:
continue
if child_node not in astar.open_nodes:
astar.open_nodes.append(_snake_case)
else:
# retrieve the best current path
UpperCAmelCase_ = astar.open_nodes.pop(
astar.open_nodes.index(_snake_case))
if child_node.g_cost < better_node.g_cost:
astar.open_nodes.append(_snake_case)
else:
astar.open_nodes.append(_snake_case)
return [self.fwd_astar.start.pos]
def lowerCamelCase ( self : int , _snake_case : Node , _snake_case : Node):
"""simple docstring"""
UpperCAmelCase_ = self.fwd_astar.retrace_path(_snake_case)
UpperCAmelCase_ = self.bwd_astar.retrace_path(_snake_case)
bwd_path.pop()
bwd_path.reverse()
UpperCAmelCase_ = fwd_path + bwd_path
return path
if __name__ == "__main__":
# all coordinates are given in format [y,x]
snake_case_ : Any = (0, 0)
snake_case_ : Union[str, Any] = (len(grid) - 1, len(grid[0]) - 1)
for elem in grid:
print(elem)
snake_case_ : str = time.time()
snake_case_ : List[str] = AStar(init, goal)
snake_case_ : Optional[int] = a_star.search()
snake_case_ : Optional[Any] = time.time() - start_time
print(f"AStar execution time = {end_time:f} seconds")
snake_case_ : int = time.time()
snake_case_ : Dict = BidirectionalAStar(init, goal)
snake_case_ : str = time.time() - bd_start_time
print(f"BidirectionalAStar execution time = {bd_end_time:f} seconds")
| 51
| 1
|
import json
from typing import TYPE_CHECKING, List, Optional, Tuple
from tokenizers import pre_tokenizers
from ...tokenization_utils_fast import PreTrainedTokenizerFast
from ...utils import logging
if TYPE_CHECKING:
from transformers.pipelines.conversational import Conversation
snake_case_ : Tuple = logging.get_logger(__name__)
snake_case_ : Any = {"vocab_file": "vocab.json", "merges_file": "merges.txt", "tokenizer_file": "tokenizer.json"}
snake_case_ : List[Any] = {
"tokenizer_file": {
"EleutherAI/gpt-neox-20b": "https://huggingface.co/EleutherAI/gpt-neox-20b/resolve/main/tokenizer.json",
},
}
snake_case_ : Optional[Any] = {
"gpt-neox-20b": 2048,
}
class __snake_case ( a ):
UpperCAmelCase__ : Optional[int] = VOCAB_FILES_NAMES
UpperCAmelCase__ : Dict = PRETRAINED_VOCAB_FILES_MAP
UpperCAmelCase__ : int = PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES
UpperCAmelCase__ : int = ['''input_ids''', '''attention_mask''']
def __init__( self : Optional[Any] , _snake_case : int=None , _snake_case : List[Any]=None , _snake_case : Optional[int]=None , _snake_case : Optional[int]="<|endoftext|>" , _snake_case : Optional[Any]="<|endoftext|>" , _snake_case : str="<|endoftext|>" , _snake_case : Union[str, Any]=False , **_snake_case : Dict , ):
"""simple docstring"""
super().__init__(
_snake_case , _snake_case , tokenizer_file=_snake_case , unk_token=_snake_case , bos_token=_snake_case , eos_token=_snake_case , add_prefix_space=_snake_case , **_snake_case , )
UpperCAmelCase_ = json.loads(self.backend_tokenizer.pre_tokenizer.__getstate__())
if pre_tok_state.get('''add_prefix_space''' , _snake_case) != add_prefix_space:
UpperCAmelCase_ = getattr(_snake_case , pre_tok_state.pop('''type'''))
UpperCAmelCase_ = add_prefix_space
UpperCAmelCase_ = pre_tok_class(**_snake_case)
UpperCAmelCase_ = add_prefix_space
def lowerCamelCase ( self : str , _snake_case : str , _snake_case : Optional[str] = None):
"""simple docstring"""
UpperCAmelCase_ = self._tokenizer.model.save(_snake_case , name=_snake_case)
return tuple(_snake_case)
def lowerCamelCase ( self : Dict , _snake_case : "Conversation"):
"""simple docstring"""
UpperCAmelCase_ = []
for is_user, text in conversation.iter_texts():
input_ids.extend(self.encode(_snake_case , add_special_tokens=_snake_case) + [self.eos_token_id])
if len(_snake_case) > self.model_max_length:
UpperCAmelCase_ = input_ids[-self.model_max_length :]
return input_ids
| 51
|
import inspect
import unittest
import numpy as np
from tests.test_modeling_common import floats_tensor
from transformers import DetrConfig, MaskFormerConfig, SwinConfig, is_torch_available, is_vision_available
from transformers.testing_utils import require_torch, require_torch_multi_gpu, require_vision, slow, torch_device
from transformers.utils import cached_property
from ...test_configuration_common import ConfigTester
from ...test_modeling_common import ModelTesterMixin
from ...test_pipeline_mixin import PipelineTesterMixin
if is_torch_available():
import torch
from transformers import MaskFormerForInstanceSegmentation, MaskFormerModel
if is_vision_available():
from transformers import MaskFormerImageProcessor
if is_vision_available():
from PIL import Image
class __snake_case :
def __init__( self : List[str] , _snake_case : Union[str, Any] , _snake_case : List[str]=2 , _snake_case : Any=True , _snake_case : Any=False , _snake_case : List[str]=10 , _snake_case : Any=3 , _snake_case : Union[str, Any]=32 * 4 , _snake_case : List[Any]=32 * 6 , _snake_case : Tuple=4 , _snake_case : Dict=32 , ):
"""simple docstring"""
UpperCAmelCase_ = parent
UpperCAmelCase_ = batch_size
UpperCAmelCase_ = is_training
UpperCAmelCase_ = use_auxiliary_loss
UpperCAmelCase_ = num_queries
UpperCAmelCase_ = num_channels
UpperCAmelCase_ = min_size
UpperCAmelCase_ = max_size
UpperCAmelCase_ = num_labels
UpperCAmelCase_ = mask_feature_size
def lowerCamelCase ( self : Any):
"""simple docstring"""
UpperCAmelCase_ = floats_tensor([self.batch_size, self.num_channels, self.min_size, self.max_size]).to(
_snake_case)
UpperCAmelCase_ = torch.ones([self.batch_size, self.min_size, self.max_size] , device=_snake_case)
UpperCAmelCase_ = (
torch.rand([self.batch_size, self.num_labels, self.min_size, self.max_size] , device=_snake_case) > 0.5
).float()
UpperCAmelCase_ = (torch.rand((self.batch_size, self.num_labels) , device=_snake_case) > 0.5).long()
UpperCAmelCase_ = self.get_config()
return config, pixel_values, pixel_mask, mask_labels, class_labels
def lowerCamelCase ( self : Any):
"""simple docstring"""
return MaskFormerConfig.from_backbone_and_decoder_configs(
backbone_config=SwinConfig(
depths=[1, 1, 1, 1] , ) , decoder_config=DetrConfig(
decoder_ffn_dim=128 , num_queries=self.num_queries , decoder_attention_heads=2 , d_model=self.mask_feature_size , ) , mask_feature_size=self.mask_feature_size , fpn_feature_size=self.mask_feature_size , num_channels=self.num_channels , num_labels=self.num_labels , )
def lowerCamelCase ( self : int):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = self.prepare_config_and_inputs()
UpperCAmelCase_ = {'''pixel_values''': pixel_values, '''pixel_mask''': pixel_mask}
return config, inputs_dict
def lowerCamelCase ( self : str , _snake_case : List[Any] , _snake_case : List[str]):
"""simple docstring"""
UpperCAmelCase_ = output.encoder_hidden_states
UpperCAmelCase_ = output.pixel_decoder_hidden_states
UpperCAmelCase_ = output.transformer_decoder_hidden_states
self.parent.assertTrue(len(_snake_case) , len(config.backbone_config.depths))
self.parent.assertTrue(len(_snake_case) , len(config.backbone_config.depths))
self.parent.assertTrue(len(_snake_case) , config.decoder_config.decoder_layers)
def lowerCamelCase ( self : Union[str, Any] , _snake_case : List[str] , _snake_case : int , _snake_case : Optional[Any] , _snake_case : str=False):
"""simple docstring"""
with torch.no_grad():
UpperCAmelCase_ = MaskFormerModel(config=_snake_case)
model.to(_snake_case)
model.eval()
UpperCAmelCase_ = model(pixel_values=_snake_case , pixel_mask=_snake_case)
UpperCAmelCase_ = model(_snake_case , output_hidden_states=_snake_case)
# the correct shape of output.transformer_decoder_hidden_states ensure the correcteness of the
# encoder and pixel decoder
self.parent.assertEqual(
output.transformer_decoder_last_hidden_state.shape , (self.batch_size, self.num_queries, self.mask_feature_size) , )
# let's ensure the other two hidden state exists
self.parent.assertTrue(output.pixel_decoder_last_hidden_state is not None)
self.parent.assertTrue(output.encoder_last_hidden_state is not None)
if output_hidden_states:
self.check_output_hidden_state(_snake_case , _snake_case)
def lowerCamelCase ( self : List[Any] , _snake_case : List[Any] , _snake_case : List[Any] , _snake_case : str , _snake_case : Optional[int] , _snake_case : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = MaskFormerForInstanceSegmentation(config=_snake_case)
model.to(_snake_case)
model.eval()
def comm_check_on_output(_snake_case : Tuple):
# let's still check that all the required stuff is there
self.parent.assertTrue(result.transformer_decoder_last_hidden_state is not None)
self.parent.assertTrue(result.pixel_decoder_last_hidden_state is not None)
self.parent.assertTrue(result.encoder_last_hidden_state is not None)
# okay, now we need to check the logits shape
# due to the encoder compression, masks have a //4 spatial size
self.parent.assertEqual(
result.masks_queries_logits.shape , (self.batch_size, self.num_queries, self.min_size // 4, self.max_size // 4) , )
# + 1 for null class
self.parent.assertEqual(
result.class_queries_logits.shape , (self.batch_size, self.num_queries, self.num_labels + 1))
with torch.no_grad():
UpperCAmelCase_ = model(pixel_values=_snake_case , pixel_mask=_snake_case)
UpperCAmelCase_ = model(_snake_case)
comm_check_on_output(_snake_case)
UpperCAmelCase_ = model(
pixel_values=_snake_case , pixel_mask=_snake_case , mask_labels=_snake_case , class_labels=_snake_case)
comm_check_on_output(_snake_case)
self.parent.assertTrue(result.loss is not None)
self.parent.assertEqual(result.loss.shape , torch.Size([1]))
@require_torch
class __snake_case ( a , a , unittest.TestCase ):
UpperCAmelCase__ : Union[str, Any] = (MaskFormerModel, MaskFormerForInstanceSegmentation) if is_torch_available() else ()
UpperCAmelCase__ : Optional[Any] = (
{'''feature-extraction''': MaskFormerModel, '''image-segmentation''': MaskFormerForInstanceSegmentation}
if is_torch_available()
else {}
)
UpperCAmelCase__ : Dict = False
UpperCAmelCase__ : List[str] = False
UpperCAmelCase__ : Optional[Any] = False
UpperCAmelCase__ : Union[str, Any] = False
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = MaskFormerModelTester(self)
UpperCAmelCase_ = ConfigTester(self , config_class=_snake_case , has_text_modality=_snake_case)
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
self.config_tester.run_common_tests()
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_common()
self.model_tester.create_and_check_maskformer_model(_snake_case , **_snake_case , output_hidden_states=_snake_case)
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_maskformer_instance_segmentation_head_model(*_snake_case)
@unittest.skip(reason='''MaskFormer does not use inputs_embeds''')
def lowerCamelCase ( self : Dict):
"""simple docstring"""
pass
@unittest.skip(reason='''MaskFormer does not have a get_input_embeddings method''')
def lowerCamelCase ( self : int):
"""simple docstring"""
pass
@unittest.skip(reason='''MaskFormer is not a generative model''')
def lowerCamelCase ( self : str):
"""simple docstring"""
pass
@unittest.skip(reason='''MaskFormer does not use token embeddings''')
def lowerCamelCase ( self : int):
"""simple docstring"""
pass
@require_torch_multi_gpu
@unittest.skip(
reason='''MaskFormer has some layers using `add_module` which doesn\'t work well with `nn.DataParallel`''')
def lowerCamelCase ( self : Any):
"""simple docstring"""
pass
@unittest.skip('''Will be fixed soon by reducing the size of the model used for common tests.''')
def lowerCamelCase ( self : str):
"""simple docstring"""
pass
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
UpperCAmelCase_ = model_class(_snake_case)
UpperCAmelCase_ = inspect.signature(model.forward)
# signature.parameters is an OrderedDict => so arg_names order is deterministic
UpperCAmelCase_ = [*signature.parameters.keys()]
UpperCAmelCase_ = ['''pixel_values''']
self.assertListEqual(arg_names[:1] , _snake_case)
@slow
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
for model_name in ["facebook/maskformer-swin-small-coco"]:
UpperCAmelCase_ = MaskFormerModel.from_pretrained(_snake_case)
self.assertIsNotNone(_snake_case)
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = (self.model_tester.min_size,) * 2
UpperCAmelCase_ = {
'''pixel_values''': torch.randn((2, 3, *size) , device=_snake_case),
'''mask_labels''': torch.randn((2, 10, *size) , device=_snake_case),
'''class_labels''': torch.zeros(2 , 10 , device=_snake_case).long(),
}
UpperCAmelCase_ = MaskFormerForInstanceSegmentation(MaskFormerConfig()).to(_snake_case)
UpperCAmelCase_ = model(**_snake_case)
self.assertTrue(outputs.loss is not None)
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_common()
self.model_tester.create_and_check_maskformer_model(_snake_case , **_snake_case , output_hidden_states=_snake_case)
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs_for_common()
for model_class in self.all_model_classes:
UpperCAmelCase_ = model_class(_snake_case).to(_snake_case)
UpperCAmelCase_ = model(**_snake_case , output_attentions=_snake_case)
self.assertTrue(outputs.attentions is not None)
def lowerCamelCase ( self : int):
"""simple docstring"""
if not self.model_tester.is_training:
return
# only MaskFormerForInstanceSegmentation has the loss
UpperCAmelCase_ = self.all_model_classes[1]
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
UpperCAmelCase_ = model_class(_snake_case)
model.to(_snake_case)
model.train()
UpperCAmelCase_ = model(_snake_case , mask_labels=_snake_case , class_labels=_snake_case).loss
loss.backward()
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = self.all_model_classes[1]
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
UpperCAmelCase_ = True
UpperCAmelCase_ = True
UpperCAmelCase_ = model_class(_snake_case)
model.to(_snake_case)
model.train()
UpperCAmelCase_ = model(_snake_case , mask_labels=_snake_case , class_labels=_snake_case)
UpperCAmelCase_ = outputs.encoder_hidden_states[0]
encoder_hidden_states.retain_grad()
UpperCAmelCase_ = outputs.pixel_decoder_hidden_states[0]
pixel_decoder_hidden_states.retain_grad()
# we requires_grad=True in inputs_embeds (line 2152), the original implementation don't
UpperCAmelCase_ = outputs.transformer_decoder_hidden_states[0]
transformer_decoder_hidden_states.retain_grad()
UpperCAmelCase_ = outputs.attentions[0]
attentions.retain_grad()
outputs.loss.backward(retain_graph=_snake_case)
self.assertIsNotNone(encoder_hidden_states.grad)
self.assertIsNotNone(pixel_decoder_hidden_states.grad)
self.assertIsNotNone(transformer_decoder_hidden_states.grad)
self.assertIsNotNone(attentions.grad)
snake_case_ : Dict = 1e-4
def A () -> Union[str, Any]:
"""simple docstring"""
UpperCAmelCase_ = Image.open('''./tests/fixtures/tests_samples/COCO/000000039769.png''' )
return image
@require_vision
@slow
class __snake_case ( unittest.TestCase ):
@cached_property
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
return (
MaskFormerImageProcessor.from_pretrained('''facebook/maskformer-swin-small-coco''')
if is_vision_available()
else None
)
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = MaskFormerModel.from_pretrained('''facebook/maskformer-swin-small-coco''').to(_snake_case)
UpperCAmelCase_ = self.default_image_processor
UpperCAmelCase_ = prepare_img()
UpperCAmelCase_ = image_processor(_snake_case , return_tensors='''pt''').to(_snake_case)
UpperCAmelCase_ = inputs['''pixel_values'''].shape
# check size is divisible by 32
self.assertTrue((inputs_shape[-1] % 32) == 0 and (inputs_shape[-2] % 32) == 0)
# check size
self.assertEqual(_snake_case , (1, 3, 800, 1088))
with torch.no_grad():
UpperCAmelCase_ = model(**_snake_case)
UpperCAmelCase_ = torch.tensor(
[[-0.0_4_8_2, 0.9_2_2_8, 0.4_9_5_1], [-0.2_5_4_7, 0.8_0_1_7, 0.8_5_2_7], [-0.0_0_6_9, 0.3_3_8_5, -0.0_0_8_9]]).to(_snake_case)
self.assertTrue(
torch.allclose(
outputs.encoder_last_hidden_state[0, 0, :3, :3] , _snake_case , atol=_snake_case))
UpperCAmelCase_ = torch.tensor(
[[-0.8_4_2_2, -0.8_4_3_4, -0.9_7_1_8], [-1.0_1_4_4, -0.5_5_6_5, -0.4_1_9_5], [-1.0_0_3_8, -0.4_4_8_4, -0.1_9_6_1]]).to(_snake_case)
self.assertTrue(
torch.allclose(
outputs.pixel_decoder_last_hidden_state[0, 0, :3, :3] , _snake_case , atol=_snake_case))
UpperCAmelCase_ = torch.tensor(
[[0.2_8_5_2, -0.0_1_5_9, 0.9_7_3_5], [0.6_2_5_4, 0.1_8_5_8, 0.8_5_2_9], [-0.0_6_8_0, -0.4_1_1_6, 1.8_4_1_3]]).to(_snake_case)
self.assertTrue(
torch.allclose(
outputs.transformer_decoder_last_hidden_state[0, :3, :3] , _snake_case , atol=_snake_case))
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = (
MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''')
.to(_snake_case)
.eval()
)
UpperCAmelCase_ = self.default_image_processor
UpperCAmelCase_ = prepare_img()
UpperCAmelCase_ = image_processor(_snake_case , return_tensors='''pt''').to(_snake_case)
UpperCAmelCase_ = inputs['''pixel_values'''].shape
# check size is divisible by 32
self.assertTrue((inputs_shape[-1] % 32) == 0 and (inputs_shape[-2] % 32) == 0)
# check size
self.assertEqual(_snake_case , (1, 3, 800, 1088))
with torch.no_grad():
UpperCAmelCase_ = model(**_snake_case)
# masks_queries_logits
UpperCAmelCase_ = outputs.masks_queries_logits
self.assertEqual(
masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , )
UpperCAmelCase_ = [
[-1.3_7_3_7_1_2_4, -1.7_7_2_4_9_3_7, -1.9_3_6_4_2_3_3],
[-1.5_9_7_7_2_8_1, -1.9_8_6_7_9_3_9, -2.1_5_2_3_6_9_5],
[-1.5_7_9_5_3_9_8, -1.9_2_6_9_8_3_2, -2.0_9_3_9_4_2],
]
UpperCAmelCase_ = torch.tensor(_snake_case).to(_snake_case)
self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , _snake_case , atol=_snake_case))
# class_queries_logits
UpperCAmelCase_ = outputs.class_queries_logits
self.assertEqual(
class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1))
UpperCAmelCase_ = torch.tensor(
[
[1.65_12e00, -5.25_72e00, -3.35_19e00],
[3.61_69e-02, -5.90_25e00, -2.93_13e00],
[1.07_66e-04, -7.76_30e00, -5.12_63e00],
]).to(_snake_case)
self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , _snake_case , atol=_snake_case))
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = (
MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-resnet101-coco-stuff''')
.to(_snake_case)
.eval()
)
UpperCAmelCase_ = self.default_image_processor
UpperCAmelCase_ = prepare_img()
UpperCAmelCase_ = image_processor(_snake_case , return_tensors='''pt''').to(_snake_case)
UpperCAmelCase_ = inputs['''pixel_values'''].shape
# check size is divisible by 32
self.assertTrue((inputs_shape[-1] % 32) == 0 and (inputs_shape[-2] % 32) == 0)
# check size
self.assertEqual(_snake_case , (1, 3, 800, 1088))
with torch.no_grad():
UpperCAmelCase_ = model(**_snake_case)
# masks_queries_logits
UpperCAmelCase_ = outputs.masks_queries_logits
self.assertEqual(
masks_queries_logits.shape , (1, model.config.decoder_config.num_queries, inputs_shape[-2] // 4, inputs_shape[-1] // 4) , )
UpperCAmelCase_ = [[-0.9_0_4_6, -2.6_3_6_6, -4.6_0_6_2], [-3.4_1_7_9, -5.7_8_9_0, -8.8_0_5_7], [-4.9_1_7_9, -7.6_5_6_0, -1_0.7_7_1_1]]
UpperCAmelCase_ = torch.tensor(_snake_case).to(_snake_case)
self.assertTrue(torch.allclose(masks_queries_logits[0, 0, :3, :3] , _snake_case , atol=_snake_case))
# class_queries_logits
UpperCAmelCase_ = outputs.class_queries_logits
self.assertEqual(
class_queries_logits.shape , (1, model.config.decoder_config.num_queries, model.config.num_labels + 1))
UpperCAmelCase_ = torch.tensor(
[[4.7_1_8_8, -3.2_5_8_5, -2.8_8_5_7], [6.6_8_7_1, -2.9_1_8_1, -1.2_4_8_7], [7.2_4_4_9, -2.2_7_6_4, -2.1_8_7_4]]).to(_snake_case)
self.assertTrue(torch.allclose(outputs.class_queries_logits[0, :3, :3] , _snake_case , atol=_snake_case))
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = (
MaskFormerForInstanceSegmentation.from_pretrained('''facebook/maskformer-swin-small-coco''')
.to(_snake_case)
.eval()
)
UpperCAmelCase_ = self.default_image_processor
UpperCAmelCase_ = image_processor(
[np.zeros((3, 800, 1333)), np.zeros((3, 800, 1333))] , segmentation_maps=[np.zeros((384, 384)).astype(np.floataa), np.zeros((384, 384)).astype(np.floataa)] , return_tensors='''pt''' , )
UpperCAmelCase_ = inputs['''pixel_values'''].to(_snake_case)
UpperCAmelCase_ = [el.to(_snake_case) for el in inputs['''mask_labels''']]
UpperCAmelCase_ = [el.to(_snake_case) for el in inputs['''class_labels''']]
with torch.no_grad():
UpperCAmelCase_ = model(**_snake_case)
self.assertTrue(outputs.loss is not None)
| 51
| 1
|
snake_case_ : Dict = {
"Pillow": "Pillow",
"accelerate": "accelerate>=0.11.0",
"compel": "compel==0.1.8",
"black": "black~=23.1",
"datasets": "datasets",
"filelock": "filelock",
"flax": "flax>=0.4.1",
"hf-doc-builder": "hf-doc-builder>=0.3.0",
"huggingface-hub": "huggingface-hub>=0.13.2",
"requests-mock": "requests-mock==1.10.0",
"importlib_metadata": "importlib_metadata",
"invisible-watermark": "invisible-watermark",
"isort": "isort>=5.5.4",
"jax": "jax>=0.2.8,!=0.3.2",
"jaxlib": "jaxlib>=0.1.65",
"Jinja2": "Jinja2",
"k-diffusion": "k-diffusion>=0.0.12",
"torchsde": "torchsde",
"note_seq": "note_seq",
"librosa": "librosa",
"numpy": "numpy",
"omegaconf": "omegaconf",
"parameterized": "parameterized",
"protobuf": "protobuf>=3.20.3,<4",
"pytest": "pytest",
"pytest-timeout": "pytest-timeout",
"pytest-xdist": "pytest-xdist",
"ruff": "ruff>=0.0.241",
"safetensors": "safetensors",
"sentencepiece": "sentencepiece>=0.1.91,!=0.1.92",
"scipy": "scipy",
"onnx": "onnx",
"regex": "regex!=2019.12.17",
"requests": "requests",
"tensorboard": "tensorboard",
"torch": "torch>=1.4",
"torchvision": "torchvision",
"transformers": "transformers>=4.25.1",
"urllib3": "urllib3<=2.0.0",
}
| 51
|
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 A (__A : Optional[int] , __A : int , __A : str=None ) -> List[Any]:
"""simple docstring"""
assert torch_layer.weight.shape == weight.shape, F"""{torch_layer} layer.weight does not match"""
UpperCAmelCase_ = nn.Parameter(__A )
if bias is not None:
assert torch_layer.bias.shape == bias.shape, F"""{torch_layer} layer.bias does not match"""
UpperCAmelCase_ = nn.Parameter(__A )
def A (__A : Tuple , __A : Dict , __A : str ) -> Tuple:
"""simple docstring"""
UpperCAmelCase_ = np.asarray(weights[0] )
UpperCAmelCase_ = np.asarray(weights[1] )
UpperCAmelCase_ = np.asarray(weights[2] )
set_param(
torch_layer.self_attention.query_key , torch.tensor(__A ).transpose(1 , 2 ).contiguous().view(-1 , __A ) , )
set_param(
torch_layer.self_attention.value , torch.tensor(__A ).transpose(1 , 2 ).contiguous().view(-1 , __A ) , )
set_param(
torch_layer.output.dense , torch.tensor(__A ).view(-1 , __A ).contiguous().transpose(0 , 1 ) , )
def A (__A : Optional[Any] , __A : Any , __A : List[Any] ) -> int:
"""simple docstring"""
UpperCAmelCase_ = np.asarray(weights[0] )
UpperCAmelCase_ = np.asarray(weights[1] )
UpperCAmelCase_ = np.asarray(weights[2] )
UpperCAmelCase_ = np.asarray(weights[3] )
set_param(
torch_layer.self_attention.query , torch.tensor(__A ).transpose(1 , 2 ).contiguous().view(-1 , __A ) , )
set_param(
torch_layer.self_attention.key , torch.tensor(__A ).transpose(1 , 2 ).contiguous().view(-1 , __A ) , )
set_param(
torch_layer.self_attention.value , torch.tensor(__A ).transpose(1 , 2 ).contiguous().view(-1 , __A ) , )
set_param(
torch_layer.output.dense , torch.tensor(__A ).view(-1 , __A ).contiguous().transpose(0 , 1 ) , )
def A (__A : int , __A : Union[str, Any] , __A : List[str] ) -> List[Any]:
"""simple docstring"""
UpperCAmelCase_ = weights[0][0][0]
UpperCAmelCase_ = np.asarray(layer_norm_a[0] )
UpperCAmelCase_ = np.asarray(layer_norm_a[1] )
set_param(
torch_block.attention.layer_norm , torch.tensor(__A ) , torch.tensor(__A ) , )
# lsh weights + output
UpperCAmelCase_ = weights[0][1]
if len(__A ) < 4:
set_layer_weights_in_torch_lsh(__A , torch_block.attention , __A )
else:
set_layer_weights_in_torch_local(__A , torch_block.attention , __A )
# intermediate weighs
UpperCAmelCase_ = weights[2][0][1][2]
# Chunked Feed Forward
if len(__A ) == 4:
UpperCAmelCase_ = intermediate_weights[2]
# layernorm 2
UpperCAmelCase_ = np.asarray(intermediate_weights[0][0] )
UpperCAmelCase_ = np.asarray(intermediate_weights[0][1] )
set_param(
torch_block.feed_forward.layer_norm , torch.tensor(__A ) , torch.tensor(__A ) , )
# intermediate dense
UpperCAmelCase_ = np.asarray(intermediate_weights[1][0] )
UpperCAmelCase_ = np.asarray(intermediate_weights[1][1] )
set_param(
torch_block.feed_forward.dense.dense , torch.tensor(__A ).transpose(0 , 1 ).contiguous() , torch.tensor(__A ) , )
# intermediate out
UpperCAmelCase_ = np.asarray(intermediate_weights[4][0] )
UpperCAmelCase_ = np.asarray(intermediate_weights[4][1] )
set_param(
torch_block.feed_forward.output.dense , torch.tensor(__A ).transpose(0 , 1 ).contiguous() , torch.tensor(__A ) , )
def A (__A : Optional[int] , __A : Tuple , __A : Any ) -> Tuple:
"""simple docstring"""
UpperCAmelCase_ = torch_model.reformer
# word embeds
UpperCAmelCase_ = np.asarray(weights[1] )
set_param(
torch_model_reformer.embeddings.word_embeddings , torch.tensor(__A ) , )
if isinstance(weights[3] , __A ):
UpperCAmelCase_ = torch_model_reformer.embeddings.position_embeddings
for emb_idx in range(len(position_embeddings.weights ) ):
UpperCAmelCase_ = 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"""
UpperCAmelCase_ = nn.Parameter(torch.tensor(__A ) )
UpperCAmelCase_ = weights[5]
assert len(torch_model_reformer.encoder.layers ) * 4 == len(
__A ), "HF and trax model do not have the same number of layers"
for layer_idx, layer in enumerate(torch_model_reformer.encoder.layers ):
UpperCAmelCase_ = trax_layer_weights[4 * layer_idx : 4 * (layer_idx + 1)]
set_block_weights_in_torch(__A , __A , __A )
# output layer norm
UpperCAmelCase_ = np.asarray(weights[7][0] )
UpperCAmelCase_ = np.asarray(weights[7][1] )
set_param(
torch_model_reformer.encoder.layer_norm , torch.tensor(__A ) , torch.tensor(__A ) , )
# output embeddings
UpperCAmelCase_ = np.asarray(weights[9][0] )
UpperCAmelCase_ = np.asarray(weights[9][1] )
set_param(
torch_model.lm_head.decoder , torch.tensor(__A ).transpose(0 , 1 ).contiguous() , torch.tensor(__A ) , )
def A (__A : Tuple , __A : int , __A : str ) -> Union[str, Any]:
"""simple docstring"""
UpperCAmelCase_ = ReformerConfig.from_json_file(__A )
print(F"""Building PyTorch model from configuration: {config}""" )
UpperCAmelCase_ = ReformerModelWithLMHead(__A )
with open(__A , '''rb''' ) as f:
UpperCAmelCase_ = pickle.load(__A )['''weights''']
set_model_weights_in_torch(__A , __A , config.hidden_size )
# Save pytorch-model
print(F"""Save PyTorch model to {pytorch_dump_path}""" )
torch.save(model.state_dict() , __A )
if __name__ == "__main__":
snake_case_ : Optional[Any] = 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."
)
snake_case_ : List[Any] = parser.parse_args()
convert_trax_checkpoint_to_pytorch(args.trax_model_pkl_path, args.config_file, args.pytorch_dump_path)
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|
from argparse import ArgumentParser
from . import BaseTransformersCLICommand
def A (__A : Any ) -> Tuple:
"""simple docstring"""
return DownloadCommand(args.model , args.cache_dir , args.force , args.trust_remote_code )
class __snake_case ( a ):
@staticmethod
def lowerCamelCase ( _snake_case : ArgumentParser):
"""simple docstring"""
UpperCAmelCase_ = parser.add_parser('''download''')
download_parser.add_argument(
'''--cache-dir''' , type=_snake_case , default=_snake_case , help='''Path to location to store the models''')
download_parser.add_argument(
'''--force''' , action='''store_true''' , help='''Force the model to be download even if already in cache-dir''')
download_parser.add_argument(
'''--trust-remote-code''' , action='''store_true''' , help='''Whether or not to allow for custom models defined on the Hub in their own modeling files. Use only if you\'ve reviewed the code as it will execute on your local machine''' , )
download_parser.add_argument('''model''' , type=_snake_case , help='''Name of the model to download''')
download_parser.set_defaults(func=_snake_case)
def __init__( self : Tuple , _snake_case : str , _snake_case : str , _snake_case : bool , _snake_case : bool):
"""simple docstring"""
UpperCAmelCase_ = model
UpperCAmelCase_ = cache
UpperCAmelCase_ = force
UpperCAmelCase_ = trust_remote_code
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
from ..models.auto import AutoModel, AutoTokenizer
AutoModel.from_pretrained(
self._model , cache_dir=self._cache , force_download=self._force , trust_remote_code=self._trust_remote_code)
AutoTokenizer.from_pretrained(
self._model , cache_dir=self._cache , force_download=self._force , trust_remote_code=self._trust_remote_code)
| 51
|
# This model implementation is heavily inspired by https://github.com/haofanwang/ControlNet-for-Diffusers/
import gc
import random
import tempfile
import unittest
import numpy as np
import torch
from PIL import Image
from transformers import CLIPTextConfig, CLIPTextModel, CLIPTokenizer
from diffusers import (
AutoencoderKL,
ControlNetModel,
DDIMScheduler,
StableDiffusionControlNetImgaImgPipeline,
UNetaDConditionModel,
)
from diffusers.pipelines.stable_diffusion.pipeline_stable_diffusion_controlnet import MultiControlNetModel
from diffusers.utils import floats_tensor, load_image, load_numpy, randn_tensor, slow, torch_device
from diffusers.utils.import_utils import is_xformers_available
from diffusers.utils.testing_utils import enable_full_determinism, require_torch_gpu
from ..pipeline_params import (
IMAGE_TO_IMAGE_IMAGE_PARAMS,
TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS,
TEXT_GUIDED_IMAGE_VARIATION_PARAMS,
)
from ..test_pipelines_common import (
PipelineKarrasSchedulerTesterMixin,
PipelineLatentTesterMixin,
PipelineTesterMixin,
)
enable_full_determinism()
class __snake_case ( a , a , a , unittest.TestCase ):
UpperCAmelCase__ : List[Any] = StableDiffusionControlNetImgaImgPipeline
UpperCAmelCase__ : Optional[Any] = TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {'''height''', '''width'''}
UpperCAmelCase__ : Optional[Any] = TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS
UpperCAmelCase__ : Union[str, Any] = IMAGE_TO_IMAGE_IMAGE_PARAMS.union({'''control_image'''} )
UpperCAmelCase__ : Optional[Any] = IMAGE_TO_IMAGE_IMAGE_PARAMS
def lowerCamelCase ( self : int):
"""simple docstring"""
torch.manual_seed(0)
UpperCAmelCase_ = UNetaDConditionModel(
block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , up_block_types=('''CrossAttnUpBlock2D''', '''UpBlock2D''') , cross_attention_dim=32 , )
torch.manual_seed(0)
UpperCAmelCase_ = ControlNetModel(
block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , )
torch.manual_seed(0)
UpperCAmelCase_ = DDIMScheduler(
beta_start=0.0_0_0_8_5 , beta_end=0.0_1_2 , beta_schedule='''scaled_linear''' , clip_sample=_snake_case , set_alpha_to_one=_snake_case , )
torch.manual_seed(0)
UpperCAmelCase_ = AutoencoderKL(
block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=['''DownEncoderBlock2D''', '''DownEncoderBlock2D'''] , up_block_types=['''UpDecoderBlock2D''', '''UpDecoderBlock2D'''] , latent_channels=4 , )
torch.manual_seed(0)
UpperCAmelCase_ = CLIPTextConfig(
bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1e-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1000 , )
UpperCAmelCase_ = CLIPTextModel(_snake_case)
UpperCAmelCase_ = CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''')
UpperCAmelCase_ = {
'''unet''': unet,
'''controlnet''': controlnet,
'''scheduler''': scheduler,
'''vae''': vae,
'''text_encoder''': text_encoder,
'''tokenizer''': tokenizer,
'''safety_checker''': None,
'''feature_extractor''': None,
}
return components
def lowerCamelCase ( self : Union[str, Any] , _snake_case : Any , _snake_case : Dict=0):
"""simple docstring"""
if str(_snake_case).startswith('''mps'''):
UpperCAmelCase_ = torch.manual_seed(_snake_case)
else:
UpperCAmelCase_ = torch.Generator(device=_snake_case).manual_seed(_snake_case)
UpperCAmelCase_ = 2
UpperCAmelCase_ = randn_tensor(
(1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=_snake_case , device=torch.device(_snake_case) , )
UpperCAmelCase_ = floats_tensor(control_image.shape , rng=random.Random(_snake_case)).to(_snake_case)
UpperCAmelCase_ = image.cpu().permute(0 , 2 , 3 , 1)[0]
UpperCAmelCase_ = Image.fromarray(np.uinta(_snake_case)).convert('''RGB''').resize((64, 64))
UpperCAmelCase_ = {
'''prompt''': '''A painting of a squirrel eating a burger''',
'''generator''': generator,
'''num_inference_steps''': 2,
'''guidance_scale''': 6.0,
'''output_type''': '''numpy''',
'''image''': image,
'''control_image''': control_image,
}
return inputs
def lowerCamelCase ( self : Any):
"""simple docstring"""
return self._test_attention_slicing_forward_pass(expected_max_diff=2e-3)
@unittest.skipIf(
torch_device != '''cuda''' or not is_xformers_available() , reason='''XFormers attention is only available with CUDA and `xformers` installed''' , )
def lowerCamelCase ( self : Any):
"""simple docstring"""
self._test_xformers_attention_forwardGenerator_pass(expected_max_diff=2e-3)
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
self._test_inference_batch_single_identical(expected_max_diff=2e-3)
class __snake_case ( a , a , unittest.TestCase ):
UpperCAmelCase__ : str = StableDiffusionControlNetImgaImgPipeline
UpperCAmelCase__ : List[str] = TEXT_GUIDED_IMAGE_VARIATION_PARAMS - {'''height''', '''width'''}
UpperCAmelCase__ : Optional[Any] = TEXT_GUIDED_IMAGE_VARIATION_BATCH_PARAMS
UpperCAmelCase__ : str = frozenset([] ) # TO_DO: add image_params once refactored VaeImageProcessor.preprocess
def lowerCamelCase ( self : str):
"""simple docstring"""
torch.manual_seed(0)
UpperCAmelCase_ = UNetaDConditionModel(
block_out_channels=(32, 64) , layers_per_block=2 , sample_size=32 , in_channels=4 , out_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , up_block_types=('''CrossAttnUpBlock2D''', '''UpBlock2D''') , cross_attention_dim=32 , )
torch.manual_seed(0)
def init_weights(_snake_case : Optional[int]):
if isinstance(_snake_case , torch.nn.Convad):
torch.nn.init.normal(m.weight)
m.bias.data.fill_(1.0)
UpperCAmelCase_ = ControlNetModel(
block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , )
controlneta.controlnet_down_blocks.apply(_snake_case)
torch.manual_seed(0)
UpperCAmelCase_ = ControlNetModel(
block_out_channels=(32, 64) , layers_per_block=2 , in_channels=4 , down_block_types=('''DownBlock2D''', '''CrossAttnDownBlock2D''') , cross_attention_dim=32 , conditioning_embedding_out_channels=(16, 32) , )
controlneta.controlnet_down_blocks.apply(_snake_case)
torch.manual_seed(0)
UpperCAmelCase_ = DDIMScheduler(
beta_start=0.0_0_0_8_5 , beta_end=0.0_1_2 , beta_schedule='''scaled_linear''' , clip_sample=_snake_case , set_alpha_to_one=_snake_case , )
torch.manual_seed(0)
UpperCAmelCase_ = AutoencoderKL(
block_out_channels=[32, 64] , in_channels=3 , out_channels=3 , down_block_types=['''DownEncoderBlock2D''', '''DownEncoderBlock2D'''] , up_block_types=['''UpDecoderBlock2D''', '''UpDecoderBlock2D'''] , latent_channels=4 , )
torch.manual_seed(0)
UpperCAmelCase_ = CLIPTextConfig(
bos_token_id=0 , eos_token_id=2 , hidden_size=32 , intermediate_size=37 , layer_norm_eps=1e-05 , num_attention_heads=4 , num_hidden_layers=5 , pad_token_id=1 , vocab_size=1000 , )
UpperCAmelCase_ = CLIPTextModel(_snake_case)
UpperCAmelCase_ = CLIPTokenizer.from_pretrained('''hf-internal-testing/tiny-random-clip''')
UpperCAmelCase_ = MultiControlNetModel([controlneta, controlneta])
UpperCAmelCase_ = {
'''unet''': unet,
'''controlnet''': controlnet,
'''scheduler''': scheduler,
'''vae''': vae,
'''text_encoder''': text_encoder,
'''tokenizer''': tokenizer,
'''safety_checker''': None,
'''feature_extractor''': None,
}
return components
def lowerCamelCase ( self : int , _snake_case : Union[str, Any] , _snake_case : str=0):
"""simple docstring"""
if str(_snake_case).startswith('''mps'''):
UpperCAmelCase_ = torch.manual_seed(_snake_case)
else:
UpperCAmelCase_ = torch.Generator(device=_snake_case).manual_seed(_snake_case)
UpperCAmelCase_ = 2
UpperCAmelCase_ = [
randn_tensor(
(1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=_snake_case , device=torch.device(_snake_case) , ),
randn_tensor(
(1, 3, 32 * controlnet_embedder_scale_factor, 32 * controlnet_embedder_scale_factor) , generator=_snake_case , device=torch.device(_snake_case) , ),
]
UpperCAmelCase_ = floats_tensor(control_image[0].shape , rng=random.Random(_snake_case)).to(_snake_case)
UpperCAmelCase_ = image.cpu().permute(0 , 2 , 3 , 1)[0]
UpperCAmelCase_ = Image.fromarray(np.uinta(_snake_case)).convert('''RGB''').resize((64, 64))
UpperCAmelCase_ = {
'''prompt''': '''A painting of a squirrel eating a burger''',
'''generator''': generator,
'''num_inference_steps''': 2,
'''guidance_scale''': 6.0,
'''output_type''': '''numpy''',
'''image''': image,
'''control_image''': control_image,
}
return inputs
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = self.get_dummy_components()
UpperCAmelCase_ = self.pipeline_class(**_snake_case)
pipe.to(_snake_case)
UpperCAmelCase_ = 1_0.0
UpperCAmelCase_ = 4
UpperCAmelCase_ = self.get_dummy_inputs(_snake_case)
UpperCAmelCase_ = steps
UpperCAmelCase_ = scale
UpperCAmelCase_ = pipe(**_snake_case)[0]
UpperCAmelCase_ = self.get_dummy_inputs(_snake_case)
UpperCAmelCase_ = steps
UpperCAmelCase_ = scale
UpperCAmelCase_ = pipe(**_snake_case , control_guidance_start=0.1 , control_guidance_end=0.2)[0]
UpperCAmelCase_ = self.get_dummy_inputs(_snake_case)
UpperCAmelCase_ = steps
UpperCAmelCase_ = scale
UpperCAmelCase_ = pipe(**_snake_case , control_guidance_start=[0.1, 0.3] , control_guidance_end=[0.2, 0.7])[0]
UpperCAmelCase_ = self.get_dummy_inputs(_snake_case)
UpperCAmelCase_ = steps
UpperCAmelCase_ = scale
UpperCAmelCase_ = pipe(**_snake_case , control_guidance_start=0.4 , control_guidance_end=[0.5, 0.8])[0]
# make sure that all outputs are different
assert np.sum(np.abs(output_a - output_a)) > 1e-3
assert np.sum(np.abs(output_a - output_a)) > 1e-3
assert np.sum(np.abs(output_a - output_a)) > 1e-3
def lowerCamelCase ( self : Dict):
"""simple docstring"""
return self._test_attention_slicing_forward_pass(expected_max_diff=2e-3)
@unittest.skipIf(
torch_device != '''cuda''' or not is_xformers_available() , reason='''XFormers attention is only available with CUDA and `xformers` installed''' , )
def lowerCamelCase ( self : int):
"""simple docstring"""
self._test_xformers_attention_forwardGenerator_pass(expected_max_diff=2e-3)
def lowerCamelCase ( self : int):
"""simple docstring"""
self._test_inference_batch_single_identical(expected_max_diff=2e-3)
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = self.get_dummy_components()
UpperCAmelCase_ = self.pipeline_class(**_snake_case)
pipe.to(_snake_case)
pipe.set_progress_bar_config(disable=_snake_case)
with tempfile.TemporaryDirectory() as tmpdir:
try:
# save_pretrained is not implemented for Multi-ControlNet
pipe.save_pretrained(_snake_case)
except NotImplementedError:
pass
@slow
@require_torch_gpu
class __snake_case ( unittest.TestCase ):
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
super().tearDown()
gc.collect()
torch.cuda.empty_cache()
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
UpperCAmelCase_ = ControlNetModel.from_pretrained('''lllyasviel/sd-controlnet-canny''')
UpperCAmelCase_ = StableDiffusionControlNetImgaImgPipeline.from_pretrained(
'''runwayml/stable-diffusion-v1-5''' , safety_checker=_snake_case , controlnet=_snake_case)
pipe.enable_model_cpu_offload()
pipe.set_progress_bar_config(disable=_snake_case)
UpperCAmelCase_ = torch.Generator(device='''cpu''').manual_seed(0)
UpperCAmelCase_ = '''evil space-punk bird'''
UpperCAmelCase_ = load_image(
'''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd_controlnet/bird_canny.png''').resize((512, 512))
UpperCAmelCase_ = load_image(
'''https://huggingface.co/lllyasviel/sd-controlnet-canny/resolve/main/images/bird.png''').resize((512, 512))
UpperCAmelCase_ = pipe(
_snake_case , _snake_case , control_image=_snake_case , generator=_snake_case , output_type='''np''' , num_inference_steps=50 , strength=0.6 , )
UpperCAmelCase_ = output.images[0]
assert image.shape == (512, 512, 3)
UpperCAmelCase_ = load_numpy(
'''https://huggingface.co/datasets/hf-internal-testing/diffusers-images/resolve/main/sd_controlnet/img2img.npy''')
assert np.abs(expected_image - image).max() < 9e-2
| 51
| 1
|
import random
import timeit
from functools import wraps
from typing import Callable, Optional
from ..configuration_utils import PretrainedConfig
from ..models.auto.modeling_tf_auto import TF_MODEL_MAPPING, TF_MODEL_WITH_LM_HEAD_MAPPING
from ..utils import is_pyanvml_available, is_tf_available, logging
from .benchmark_utils import (
Benchmark,
Memory,
MemorySummary,
measure_peak_memory_cpu,
start_memory_tracing,
stop_memory_tracing,
)
if is_tf_available():
import tensorflow as tf
from tensorflow.python.framework.errors_impl import ResourceExhaustedError
from .benchmark_args_tf import TensorFlowBenchmarkArguments
if is_pyanvml_available():
import pyanvml.pyanvml as nvml
snake_case_ : Tuple = logging.get_logger(__name__)
def A (__A : bool , __A : bool ) -> Optional[Any]:
"""simple docstring"""
def run_func(__A : Optional[Any] ):
@wraps(__A )
def run_in_eager_mode(*__A : Dict , **__A : List[Any] ):
return func(*__A , **__A )
@wraps(__A )
@tf.function(experimental_compile=__A )
def run_in_graph_mode(*__A : Optional[Any] , **__A : Any ):
return func(*__A , **__A )
if do_eager_mode is True:
if use_xla is not False:
raise ValueError(
'''Cannot run model in XLA, if `args.eager_mode` is set to `True`. Please set `args.eager_mode=False`.''' )
return run_in_eager_mode
else:
return run_in_graph_mode
return run_func
def A (__A : int , __A : int , __A : int ) -> ["tf.Tensor"]:
"""simple docstring"""
UpperCAmelCase_ = random.Random()
UpperCAmelCase_ = [rng.randint(0 , vocab_size - 1 ) for i in range(batch_size * sequence_length )]
return tf.constant(__A , shape=(batch_size, sequence_length) , dtype=tf.intaa )
class __snake_case ( a ):
UpperCAmelCase__ : TensorFlowBenchmarkArguments
UpperCAmelCase__ : PretrainedConfig
UpperCAmelCase__ : str = "TensorFlow"
@property
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
return tf.__version__
def lowerCamelCase ( self : Dict , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = self.args.strategy
if strategy is None:
raise ValueError('''A device strategy has to be initialized before using TensorFlow.''')
UpperCAmelCase_ = self._prepare_inference_func(_snake_case , _snake_case , _snake_case)
return self._measure_speed(_inference)
def lowerCamelCase ( self : Any , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = self.args.strategy
if strategy is None:
raise ValueError('''A device strategy has to be initialized before using TensorFlow.''')
UpperCAmelCase_ = self._prepare_train_func(_snake_case , _snake_case , _snake_case)
return self._measure_speed(_train)
def lowerCamelCase ( self : Any , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
if self.args.is_gpu:
tf.config.experimental.set_memory_growth(self.args.gpu_list[self.args.device_idx] , _snake_case)
UpperCAmelCase_ = self.args.strategy
if strategy is None:
raise ValueError('''A device strategy has to be initialized before using TensorFlow.''')
UpperCAmelCase_ = self._prepare_inference_func(_snake_case , _snake_case , _snake_case)
return self._measure_memory(_inference)
def lowerCamelCase ( self : Optional[Any] , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
if self.args.is_gpu:
tf.config.experimental.set_memory_growth(self.args.gpu_list[self.args.device_idx] , _snake_case)
UpperCAmelCase_ = self.args.strategy
if strategy is None:
raise ValueError('''A device strategy has to be initialized before using TensorFlow.''')
UpperCAmelCase_ = self._prepare_train_func(_snake_case , _snake_case , _snake_case)
return self._measure_memory(_train)
def lowerCamelCase ( self : Optional[int] , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = self.config_dict[model_name]
if self.args.fpaa:
raise NotImplementedError('''Mixed precision is currently not supported.''')
UpperCAmelCase_ = (
hasattr(_snake_case , '''architectures''')
and isinstance(config.architectures , _snake_case)
and len(config.architectures) > 0
)
if not self.args.only_pretrain_model and has_model_class_in_config:
try:
UpperCAmelCase_ = '''TF''' + config.architectures[0] # prepend 'TF' for tensorflow model
UpperCAmelCase_ = __import__('''transformers''' , fromlist=[model_class])
UpperCAmelCase_ = getattr(_snake_case , _snake_case)
UpperCAmelCase_ = model_cls(_snake_case)
except ImportError:
raise ImportError(
F"""{model_class} does not exist. If you just want to test the pretrained model, you might want to"""
''' set `--only_pretrain_model` or `args.only_pretrain_model=True`.''')
else:
UpperCAmelCase_ = TF_MODEL_MAPPING[config.__class__](_snake_case)
# encoder-decoder has vocab size saved differently
UpperCAmelCase_ = config.vocab_size if hasattr(_snake_case , '''vocab_size''') else config.encoder.vocab_size
UpperCAmelCase_ = random_input_ids(_snake_case , _snake_case , _snake_case)
@run_with_tf_optimizations(self.args.eager_mode , self.args.use_xla)
def encoder_decoder_forward():
return model(_snake_case , decoder_input_ids=_snake_case , training=_snake_case)
@run_with_tf_optimizations(self.args.eager_mode , self.args.use_xla)
def encoder_forward():
return model(_snake_case , training=_snake_case)
UpperCAmelCase_ = encoder_decoder_forward if config.is_encoder_decoder else encoder_forward
return _inference
def lowerCamelCase ( self : Optional[Any] , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = self.config_dict[model_name]
if self.args.eager_mode is not False:
raise ValueError('''Training cannot be done in eager mode. Please make sure that `args.eager_mode = False`.''')
if self.args.fpaa:
raise NotImplementedError('''Mixed precision is currently not supported.''')
UpperCAmelCase_ = (
hasattr(_snake_case , '''architectures''')
and isinstance(config.architectures , _snake_case)
and len(config.architectures) > 0
)
if not self.args.only_pretrain_model and has_model_class_in_config:
try:
UpperCAmelCase_ = '''TF''' + config.architectures[0] # prepend 'TF' for tensorflow model
UpperCAmelCase_ = __import__('''transformers''' , fromlist=[model_class])
UpperCAmelCase_ = getattr(_snake_case , _snake_case)
UpperCAmelCase_ = model_cls(_snake_case)
except ImportError:
raise ImportError(
F"""{model_class} does not exist. If you just want to test the pretrained model, you might want to"""
''' set `--only_pretrain_model` or `args.only_pretrain_model=True`.''')
else:
UpperCAmelCase_ = TF_MODEL_WITH_LM_HEAD_MAPPING[config.__class__](_snake_case)
# encoder-decoder has vocab size saved differently
UpperCAmelCase_ = config.vocab_size if hasattr(_snake_case , '''vocab_size''') else config.encoder.vocab_size
UpperCAmelCase_ = random_input_ids(_snake_case , _snake_case , _snake_case)
@run_with_tf_optimizations(self.args.eager_mode , self.args.use_xla)
def encoder_decoder_train():
UpperCAmelCase_ = model(_snake_case , decoder_input_ids=_snake_case , labels=_snake_case , training=_snake_case)[0]
UpperCAmelCase_ = tf.gradients(_snake_case , model.trainable_variables)
return gradients
@run_with_tf_optimizations(self.args.eager_mode , self.args.use_xla)
def encoder_train():
UpperCAmelCase_ = model(_snake_case , labels=_snake_case , training=_snake_case)[0]
UpperCAmelCase_ = tf.gradients(_snake_case , model.trainable_variables)
return gradients
UpperCAmelCase_ = encoder_decoder_train if config.is_encoder_decoder else encoder_train
return _train
def lowerCamelCase ( self : Any , _snake_case : Optional[Any]):
"""simple docstring"""
with self.args.strategy.scope():
try:
if self.args.is_tpu or self.args.use_xla:
# run additional 10 times to stabilize compilation for tpu
logger.info('''Do inference on TPU. Running model 5 times to stabilize compilation''')
timeit.repeat(_snake_case , repeat=1 , number=5)
# as written in https://docs.python.org/2/library/timeit.html#timeit.Timer.repeat, min should be taken rather than the average
UpperCAmelCase_ = timeit.repeat(
_snake_case , repeat=self.args.repeat , number=10 , )
return min(_snake_case) / 1_0.0
except ResourceExhaustedError as e:
self.print_fn(F"""Doesn't fit on GPU. {e}""")
def lowerCamelCase ( self : Dict , _snake_case : Callable[[], None]):
"""simple docstring"""
logger.info(
'''Note that TensorFlow allocates more memory than '''
'''it might need to speed up computation. '''
'''The memory reported here corresponds to the memory '''
'''reported by `nvidia-smi`, which can vary depending '''
'''on total available memory on the GPU that is used.''')
with self.args.strategy.scope():
try:
if self.args.trace_memory_line_by_line:
if not self.args.eager_mode:
raise ValueError(
'''`args.eager_mode` is set to `False`. Make sure to run model in eager mode to measure memory'''
''' consumption line by line.''')
UpperCAmelCase_ = start_memory_tracing('''transformers''')
if self.args.is_tpu:
# tpu
raise NotImplementedError(
'''Memory Benchmarking is currently not implemented for TPU. Please disable memory benchmarking'''
''' with `args.memory=False`''')
elif self.args.is_gpu:
# gpu
if not is_pyanvml_available():
logger.warning(
'''py3nvml not installed, we won\'t log GPU memory usage. '''
'''Install py3nvml (pip install py3nvml) to log information about GPU.''')
UpperCAmelCase_ = '''N/A'''
else:
logger.info(
'''Measuring total GPU usage on GPU device. Make sure to not have additional processes'''
''' running on the same GPU.''')
# init nvml
nvml.nvmlInit()
func()
UpperCAmelCase_ = nvml.nvmlDeviceGetHandleByIndex(self.args.device_idx)
UpperCAmelCase_ = nvml.nvmlDeviceGetMemoryInfo(_snake_case)
UpperCAmelCase_ = meminfo.used
UpperCAmelCase_ = Memory(_snake_case)
# shutdown nvml
nvml.nvmlShutdown()
else:
# cpu
if self.args.trace_memory_line_by_line:
logger.info(
'''When enabling line by line tracing, the max peak memory for CPU is inaccurate in'''
''' TensorFlow.''')
UpperCAmelCase_ = None
else:
UpperCAmelCase_ = measure_peak_memory_cpu(_snake_case)
UpperCAmelCase_ = Memory(_snake_case) if isinstance(_snake_case , _snake_case) else memory_bytes
if self.args.trace_memory_line_by_line:
UpperCAmelCase_ = stop_memory_tracing(_snake_case)
if memory is None:
UpperCAmelCase_ = summary.total
else:
UpperCAmelCase_ = None
return memory, summary
except ResourceExhaustedError as e:
self.print_fn(F"""Doesn't fit on GPU. {e}""")
return "N/A", None
| 51
|
import random
import timeit
from functools import wraps
from typing import Callable, Optional
from ..configuration_utils import PretrainedConfig
from ..models.auto.modeling_tf_auto import TF_MODEL_MAPPING, TF_MODEL_WITH_LM_HEAD_MAPPING
from ..utils import is_pyanvml_available, is_tf_available, logging
from .benchmark_utils import (
Benchmark,
Memory,
MemorySummary,
measure_peak_memory_cpu,
start_memory_tracing,
stop_memory_tracing,
)
if is_tf_available():
import tensorflow as tf
from tensorflow.python.framework.errors_impl import ResourceExhaustedError
from .benchmark_args_tf import TensorFlowBenchmarkArguments
if is_pyanvml_available():
import pyanvml.pyanvml as nvml
snake_case_ : Tuple = logging.get_logger(__name__)
def A (__A : bool , __A : bool ) -> Optional[Any]:
"""simple docstring"""
def run_func(__A : Optional[Any] ):
@wraps(__A )
def run_in_eager_mode(*__A : Dict , **__A : List[Any] ):
return func(*__A , **__A )
@wraps(__A )
@tf.function(experimental_compile=__A )
def run_in_graph_mode(*__A : Optional[Any] , **__A : Any ):
return func(*__A , **__A )
if do_eager_mode is True:
if use_xla is not False:
raise ValueError(
'''Cannot run model in XLA, if `args.eager_mode` is set to `True`. Please set `args.eager_mode=False`.''' )
return run_in_eager_mode
else:
return run_in_graph_mode
return run_func
def A (__A : int , __A : int , __A : int ) -> ["tf.Tensor"]:
"""simple docstring"""
UpperCAmelCase_ = random.Random()
UpperCAmelCase_ = [rng.randint(0 , vocab_size - 1 ) for i in range(batch_size * sequence_length )]
return tf.constant(__A , shape=(batch_size, sequence_length) , dtype=tf.intaa )
class __snake_case ( a ):
UpperCAmelCase__ : TensorFlowBenchmarkArguments
UpperCAmelCase__ : PretrainedConfig
UpperCAmelCase__ : str = "TensorFlow"
@property
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
return tf.__version__
def lowerCamelCase ( self : Dict , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = self.args.strategy
if strategy is None:
raise ValueError('''A device strategy has to be initialized before using TensorFlow.''')
UpperCAmelCase_ = self._prepare_inference_func(_snake_case , _snake_case , _snake_case)
return self._measure_speed(_inference)
def lowerCamelCase ( self : Any , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = self.args.strategy
if strategy is None:
raise ValueError('''A device strategy has to be initialized before using TensorFlow.''')
UpperCAmelCase_ = self._prepare_train_func(_snake_case , _snake_case , _snake_case)
return self._measure_speed(_train)
def lowerCamelCase ( self : Any , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
if self.args.is_gpu:
tf.config.experimental.set_memory_growth(self.args.gpu_list[self.args.device_idx] , _snake_case)
UpperCAmelCase_ = self.args.strategy
if strategy is None:
raise ValueError('''A device strategy has to be initialized before using TensorFlow.''')
UpperCAmelCase_ = self._prepare_inference_func(_snake_case , _snake_case , _snake_case)
return self._measure_memory(_inference)
def lowerCamelCase ( self : Optional[Any] , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
if self.args.is_gpu:
tf.config.experimental.set_memory_growth(self.args.gpu_list[self.args.device_idx] , _snake_case)
UpperCAmelCase_ = self.args.strategy
if strategy is None:
raise ValueError('''A device strategy has to be initialized before using TensorFlow.''')
UpperCAmelCase_ = self._prepare_train_func(_snake_case , _snake_case , _snake_case)
return self._measure_memory(_train)
def lowerCamelCase ( self : Optional[int] , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = self.config_dict[model_name]
if self.args.fpaa:
raise NotImplementedError('''Mixed precision is currently not supported.''')
UpperCAmelCase_ = (
hasattr(_snake_case , '''architectures''')
and isinstance(config.architectures , _snake_case)
and len(config.architectures) > 0
)
if not self.args.only_pretrain_model and has_model_class_in_config:
try:
UpperCAmelCase_ = '''TF''' + config.architectures[0] # prepend 'TF' for tensorflow model
UpperCAmelCase_ = __import__('''transformers''' , fromlist=[model_class])
UpperCAmelCase_ = getattr(_snake_case , _snake_case)
UpperCAmelCase_ = model_cls(_snake_case)
except ImportError:
raise ImportError(
F"""{model_class} does not exist. If you just want to test the pretrained model, you might want to"""
''' set `--only_pretrain_model` or `args.only_pretrain_model=True`.''')
else:
UpperCAmelCase_ = TF_MODEL_MAPPING[config.__class__](_snake_case)
# encoder-decoder has vocab size saved differently
UpperCAmelCase_ = config.vocab_size if hasattr(_snake_case , '''vocab_size''') else config.encoder.vocab_size
UpperCAmelCase_ = random_input_ids(_snake_case , _snake_case , _snake_case)
@run_with_tf_optimizations(self.args.eager_mode , self.args.use_xla)
def encoder_decoder_forward():
return model(_snake_case , decoder_input_ids=_snake_case , training=_snake_case)
@run_with_tf_optimizations(self.args.eager_mode , self.args.use_xla)
def encoder_forward():
return model(_snake_case , training=_snake_case)
UpperCAmelCase_ = encoder_decoder_forward if config.is_encoder_decoder else encoder_forward
return _inference
def lowerCamelCase ( self : Optional[Any] , _snake_case : str , _snake_case : int , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = self.config_dict[model_name]
if self.args.eager_mode is not False:
raise ValueError('''Training cannot be done in eager mode. Please make sure that `args.eager_mode = False`.''')
if self.args.fpaa:
raise NotImplementedError('''Mixed precision is currently not supported.''')
UpperCAmelCase_ = (
hasattr(_snake_case , '''architectures''')
and isinstance(config.architectures , _snake_case)
and len(config.architectures) > 0
)
if not self.args.only_pretrain_model and has_model_class_in_config:
try:
UpperCAmelCase_ = '''TF''' + config.architectures[0] # prepend 'TF' for tensorflow model
UpperCAmelCase_ = __import__('''transformers''' , fromlist=[model_class])
UpperCAmelCase_ = getattr(_snake_case , _snake_case)
UpperCAmelCase_ = model_cls(_snake_case)
except ImportError:
raise ImportError(
F"""{model_class} does not exist. If you just want to test the pretrained model, you might want to"""
''' set `--only_pretrain_model` or `args.only_pretrain_model=True`.''')
else:
UpperCAmelCase_ = TF_MODEL_WITH_LM_HEAD_MAPPING[config.__class__](_snake_case)
# encoder-decoder has vocab size saved differently
UpperCAmelCase_ = config.vocab_size if hasattr(_snake_case , '''vocab_size''') else config.encoder.vocab_size
UpperCAmelCase_ = random_input_ids(_snake_case , _snake_case , _snake_case)
@run_with_tf_optimizations(self.args.eager_mode , self.args.use_xla)
def encoder_decoder_train():
UpperCAmelCase_ = model(_snake_case , decoder_input_ids=_snake_case , labels=_snake_case , training=_snake_case)[0]
UpperCAmelCase_ = tf.gradients(_snake_case , model.trainable_variables)
return gradients
@run_with_tf_optimizations(self.args.eager_mode , self.args.use_xla)
def encoder_train():
UpperCAmelCase_ = model(_snake_case , labels=_snake_case , training=_snake_case)[0]
UpperCAmelCase_ = tf.gradients(_snake_case , model.trainable_variables)
return gradients
UpperCAmelCase_ = encoder_decoder_train if config.is_encoder_decoder else encoder_train
return _train
def lowerCamelCase ( self : Any , _snake_case : Optional[Any]):
"""simple docstring"""
with self.args.strategy.scope():
try:
if self.args.is_tpu or self.args.use_xla:
# run additional 10 times to stabilize compilation for tpu
logger.info('''Do inference on TPU. Running model 5 times to stabilize compilation''')
timeit.repeat(_snake_case , repeat=1 , number=5)
# as written in https://docs.python.org/2/library/timeit.html#timeit.Timer.repeat, min should be taken rather than the average
UpperCAmelCase_ = timeit.repeat(
_snake_case , repeat=self.args.repeat , number=10 , )
return min(_snake_case) / 1_0.0
except ResourceExhaustedError as e:
self.print_fn(F"""Doesn't fit on GPU. {e}""")
def lowerCamelCase ( self : Dict , _snake_case : Callable[[], None]):
"""simple docstring"""
logger.info(
'''Note that TensorFlow allocates more memory than '''
'''it might need to speed up computation. '''
'''The memory reported here corresponds to the memory '''
'''reported by `nvidia-smi`, which can vary depending '''
'''on total available memory on the GPU that is used.''')
with self.args.strategy.scope():
try:
if self.args.trace_memory_line_by_line:
if not self.args.eager_mode:
raise ValueError(
'''`args.eager_mode` is set to `False`. Make sure to run model in eager mode to measure memory'''
''' consumption line by line.''')
UpperCAmelCase_ = start_memory_tracing('''transformers''')
if self.args.is_tpu:
# tpu
raise NotImplementedError(
'''Memory Benchmarking is currently not implemented for TPU. Please disable memory benchmarking'''
''' with `args.memory=False`''')
elif self.args.is_gpu:
# gpu
if not is_pyanvml_available():
logger.warning(
'''py3nvml not installed, we won\'t log GPU memory usage. '''
'''Install py3nvml (pip install py3nvml) to log information about GPU.''')
UpperCAmelCase_ = '''N/A'''
else:
logger.info(
'''Measuring total GPU usage on GPU device. Make sure to not have additional processes'''
''' running on the same GPU.''')
# init nvml
nvml.nvmlInit()
func()
UpperCAmelCase_ = nvml.nvmlDeviceGetHandleByIndex(self.args.device_idx)
UpperCAmelCase_ = nvml.nvmlDeviceGetMemoryInfo(_snake_case)
UpperCAmelCase_ = meminfo.used
UpperCAmelCase_ = Memory(_snake_case)
# shutdown nvml
nvml.nvmlShutdown()
else:
# cpu
if self.args.trace_memory_line_by_line:
logger.info(
'''When enabling line by line tracing, the max peak memory for CPU is inaccurate in'''
''' TensorFlow.''')
UpperCAmelCase_ = None
else:
UpperCAmelCase_ = measure_peak_memory_cpu(_snake_case)
UpperCAmelCase_ = Memory(_snake_case) if isinstance(_snake_case , _snake_case) else memory_bytes
if self.args.trace_memory_line_by_line:
UpperCAmelCase_ = stop_memory_tracing(_snake_case)
if memory is None:
UpperCAmelCase_ = summary.total
else:
UpperCAmelCase_ = None
return memory, summary
except ResourceExhaustedError as e:
self.print_fn(F"""Doesn't fit on GPU. {e}""")
return "N/A", None
| 51
| 1
|
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_ : str = logging.get_logger(__name__) # pylint: disable=invalid-name
class __snake_case ( a ):
def __init__( self : Any , _snake_case : WhisperForConditionalGeneration , _snake_case : WhisperProcessor , _snake_case : AutoencoderKL , _snake_case : CLIPTextModel , _snake_case : CLIPTokenizer , _snake_case : UNetaDConditionModel , _snake_case : Union[DDIMScheduler, PNDMScheduler, LMSDiscreteScheduler] , _snake_case : StableDiffusionSafetyChecker , _snake_case : CLIPImageProcessor , ):
"""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=_snake_case , speech_processor=_snake_case , vae=_snake_case , text_encoder=_snake_case , tokenizer=_snake_case , unet=_snake_case , scheduler=_snake_case , feature_extractor=_snake_case , )
def lowerCamelCase ( self : Optional[int] , _snake_case : Optional[Union[str, int]] = "auto"):
"""simple docstring"""
if slice_size == "auto":
UpperCAmelCase_ = self.unet.config.attention_head_dim // 2
self.unet.set_attention_slice(_snake_case)
def lowerCamelCase ( self : Any):
"""simple docstring"""
self.enable_attention_slicing(_snake_case)
@torch.no_grad()
def __call__( self : Optional[Any] , _snake_case : str , _snake_case : Optional[Any]=16000 , _snake_case : int = 512 , _snake_case : int = 512 , _snake_case : int = 50 , _snake_case : float = 7.5 , _snake_case : Optional[Union[str, List[str]]] = None , _snake_case : Optional[int] = 1 , _snake_case : float = 0.0 , _snake_case : Optional[torch.Generator] = None , _snake_case : Optional[torch.FloatTensor] = None , _snake_case : Optional[str] = "pil" , _snake_case : bool = True , _snake_case : Optional[Callable[[int, int, torch.FloatTensor], None]] = None , _snake_case : int = 1 , **_snake_case : str , ):
"""simple docstring"""
UpperCAmelCase_ = self.speech_processor.feature_extractor(
_snake_case , return_tensors='''pt''' , sampling_rate=_snake_case).input_features.to(self.device)
UpperCAmelCase_ = self.speech_model.generate(_snake_case , max_length=480000)
UpperCAmelCase_ = self.speech_processor.tokenizer.batch_decode(_snake_case , skip_special_tokens=_snake_case , normalize=_snake_case)[
0
]
if isinstance(_snake_case , _snake_case):
UpperCAmelCase_ = 1
elif isinstance(_snake_case , _snake_case):
UpperCAmelCase_ = len(_snake_case)
else:
raise ValueError(F"""`prompt` has to be of type `str` or `list` but is {type(_snake_case)}""")
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(_snake_case , _snake_case) or callback_steps <= 0)
):
raise ValueError(
F"""`callback_steps` has to be a positive integer but is {callback_steps} of type"""
F""" {type(_snake_case)}.""")
# get prompt text embeddings
UpperCAmelCase_ = self.tokenizer(
_snake_case , padding='''max_length''' , max_length=self.tokenizer.model_max_length , return_tensors='''pt''' , )
UpperCAmelCase_ = text_inputs.input_ids
if text_input_ids.shape[-1] > self.tokenizer.model_max_length:
UpperCAmelCase_ = 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_ = text_input_ids[:, : self.tokenizer.model_max_length]
UpperCAmelCase_ = 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_ = text_embeddings.shape
UpperCAmelCase_ = text_embeddings.repeat(1 , _snake_case , 1)
UpperCAmelCase_ = text_embeddings.view(bs_embed * num_images_per_prompt , _snake_case , -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_ = guidance_scale > 1.0
# get unconditional embeddings for classifier free guidance
if do_classifier_free_guidance:
UpperCAmelCase_ = 42
if negative_prompt is None:
UpperCAmelCase_ = [''''''] * batch_size
elif type(_snake_case) is not type(_snake_case):
raise TypeError(
F"""`negative_prompt` should be the same type to `prompt`, but got {type(_snake_case)} !="""
F""" {type(_snake_case)}.""")
elif isinstance(_snake_case , _snake_case):
UpperCAmelCase_ = [negative_prompt]
elif batch_size != len(_snake_case):
raise ValueError(
F"""`negative_prompt`: {negative_prompt} has batch size {len(_snake_case)}, but `prompt`:"""
F""" {prompt} has batch size {batch_size}. Please make sure that passed `negative_prompt` matches"""
''' the batch size of `prompt`.''')
else:
UpperCAmelCase_ = negative_prompt
UpperCAmelCase_ = text_input_ids.shape[-1]
UpperCAmelCase_ = self.tokenizer(
_snake_case , padding='''max_length''' , max_length=_snake_case , truncation=_snake_case , return_tensors='''pt''' , )
UpperCAmelCase_ = self.text_encoder(uncond_input.input_ids.to(self.device))[0]
# duplicate unconditional embeddings for each generation per prompt, using mps friendly method
UpperCAmelCase_ = uncond_embeddings.shape[1]
UpperCAmelCase_ = uncond_embeddings.repeat(1 , _snake_case , 1)
UpperCAmelCase_ = uncond_embeddings.view(batch_size * num_images_per_prompt , _snake_case , -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_ = 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_ = (batch_size * num_images_per_prompt, self.unet.config.in_channels, height // 8, width // 8)
UpperCAmelCase_ = text_embeddings.dtype
if latents is None:
if self.device.type == "mps":
# randn does not exist on mps
UpperCAmelCase_ = torch.randn(_snake_case , generator=_snake_case , device='''cpu''' , dtype=_snake_case).to(
self.device)
else:
UpperCAmelCase_ = torch.randn(_snake_case , generator=_snake_case , device=self.device , dtype=_snake_case)
else:
if latents.shape != latents_shape:
raise ValueError(F"""Unexpected latents shape, got {latents.shape}, expected {latents_shape}""")
UpperCAmelCase_ = latents.to(self.device)
# set timesteps
self.scheduler.set_timesteps(_snake_case)
# Some schedulers like PNDM have timesteps as arrays
# It's more optimized to move all timesteps to correct device beforehand
UpperCAmelCase_ = self.scheduler.timesteps.to(self.device)
# scale the initial noise by the standard deviation required by the scheduler
UpperCAmelCase_ = 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_ = '''eta''' in set(inspect.signature(self.scheduler.step).parameters.keys())
UpperCAmelCase_ = {}
if accepts_eta:
UpperCAmelCase_ = eta
for i, t in enumerate(self.progress_bar(_snake_case)):
# expand the latents if we are doing classifier free guidance
UpperCAmelCase_ = torch.cat([latents] * 2) if do_classifier_free_guidance else latents
UpperCAmelCase_ = self.scheduler.scale_model_input(_snake_case , _snake_case)
# predict the noise residual
UpperCAmelCase_ = self.unet(_snake_case , _snake_case , encoder_hidden_states=_snake_case).sample
# perform guidance
if do_classifier_free_guidance:
UpperCAmelCase_ , UpperCAmelCase_ = noise_pred.chunk(2)
UpperCAmelCase_ = noise_pred_uncond + guidance_scale * (noise_pred_text - noise_pred_uncond)
# compute the previous noisy sample x_t -> x_t-1
UpperCAmelCase_ = self.scheduler.step(_snake_case , _snake_case , _snake_case , **_snake_case).prev_sample
# call the callback, if provided
if callback is not None and i % callback_steps == 0:
callback(_snake_case , _snake_case , _snake_case)
UpperCAmelCase_ = 1 / 0.1_8_2_1_5 * latents
UpperCAmelCase_ = self.vae.decode(_snake_case).sample
UpperCAmelCase_ = (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_ = image.cpu().permute(0 , 2 , 3 , 1).float().numpy()
if output_type == "pil":
UpperCAmelCase_ = self.numpy_to_pil(_snake_case)
if not return_dict:
return image
return StableDiffusionPipelineOutput(images=_snake_case , nsfw_content_detected=_snake_case)
| 51
|
import hashlib
import unittest
from transformers import MODEL_FOR_DEPTH_ESTIMATION_MAPPING, is_torch_available, is_vision_available
from transformers.pipelines import DepthEstimationPipeline, pipeline
from transformers.testing_utils import (
is_pipeline_test,
nested_simplify,
require_tf,
require_timm,
require_torch,
require_vision,
slow,
)
from .test_pipelines_common import ANY
if is_torch_available():
import torch
if is_vision_available():
from PIL import Image
else:
class __snake_case :
@staticmethod
def lowerCamelCase ( *_snake_case : Optional[int] , **_snake_case : int):
"""simple docstring"""
pass
def A (__A : Image ) -> str:
"""simple docstring"""
UpperCAmelCase_ = hashlib.mda(image.tobytes() )
return m.hexdigest()
@is_pipeline_test
@require_vision
@require_timm
@require_torch
class __snake_case ( unittest.TestCase ):
UpperCAmelCase__ : Tuple = MODEL_FOR_DEPTH_ESTIMATION_MAPPING
def lowerCamelCase ( self : Tuple , _snake_case : Optional[Any] , _snake_case : Optional[Any] , _snake_case : List[str]):
"""simple docstring"""
UpperCAmelCase_ = DepthEstimationPipeline(model=_snake_case , image_processor=_snake_case)
return depth_estimator, [
"./tests/fixtures/tests_samples/COCO/000000039769.png",
"./tests/fixtures/tests_samples/COCO/000000039769.png",
]
def lowerCamelCase ( self : str , _snake_case : Optional[int] , _snake_case : List[str]):
"""simple docstring"""
UpperCAmelCase_ = depth_estimator('''./tests/fixtures/tests_samples/COCO/000000039769.png''')
self.assertEqual({'''predicted_depth''': ANY(torch.Tensor), '''depth''': ANY(Image.Image)} , _snake_case)
import datasets
UpperCAmelCase_ = datasets.load_dataset('''hf-internal-testing/fixtures_image_utils''' , '''image''' , split='''test''')
UpperCAmelCase_ = depth_estimator(
[
Image.open('''./tests/fixtures/tests_samples/COCO/000000039769.png'''),
'''http://images.cocodataset.org/val2017/000000039769.jpg''',
# RGBA
dataset[0]['''file'''],
# LA
dataset[1]['''file'''],
# L
dataset[2]['''file'''],
])
self.assertEqual(
[
{'''predicted_depth''': ANY(torch.Tensor), '''depth''': ANY(Image.Image)},
{'''predicted_depth''': ANY(torch.Tensor), '''depth''': ANY(Image.Image)},
{'''predicted_depth''': ANY(torch.Tensor), '''depth''': ANY(Image.Image)},
{'''predicted_depth''': ANY(torch.Tensor), '''depth''': ANY(Image.Image)},
{'''predicted_depth''': ANY(torch.Tensor), '''depth''': ANY(Image.Image)},
] , _snake_case , )
@require_tf
@unittest.skip('''Depth estimation is not implemented in TF''')
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
pass
@slow
@require_torch
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = '''Intel/dpt-large'''
UpperCAmelCase_ = pipeline('''depth-estimation''' , model=_snake_case)
UpperCAmelCase_ = depth_estimator('''http://images.cocodataset.org/val2017/000000039769.jpg''')
UpperCAmelCase_ = hashimage(outputs['''depth'''])
# This seems flaky.
# self.assertEqual(outputs["depth"], "1a39394e282e9f3b0741a90b9f108977")
self.assertEqual(nested_simplify(outputs['''predicted_depth'''].max().item()) , 2_9.3_0_4)
self.assertEqual(nested_simplify(outputs['''predicted_depth'''].min().item()) , 2.6_6_2)
@require_torch
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
self.skipTest('''There is not hf-internal-testing tiny model for either GLPN nor DPT''')
| 51
| 1
|
import os
snake_case_ : Any = {"I": 1, "V": 5, "X": 10, "L": 50, "C": 100, "D": 500, "M": 1000}
def A (__A : str ) -> int:
"""simple docstring"""
UpperCAmelCase_ = 0
UpperCAmelCase_ = 0
while index < len(__A ) - 1:
UpperCAmelCase_ = SYMBOLS[numerals[index]]
UpperCAmelCase_ = SYMBOLS[numerals[index + 1]]
if current_value < next_value:
total_value -= current_value
else:
total_value += current_value
index += 1
total_value += SYMBOLS[numerals[index]]
return total_value
def A (__A : int ) -> str:
"""simple docstring"""
UpperCAmelCase_ = ''''''
UpperCAmelCase_ = num // 1000
numerals += m_count * "M"
num %= 1000
UpperCAmelCase_ = num // 100
if c_count == 9:
numerals += "CM"
c_count -= 9
elif c_count == 4:
numerals += "CD"
c_count -= 4
if c_count >= 5:
numerals += "D"
c_count -= 5
numerals += c_count * "C"
num %= 100
UpperCAmelCase_ = num // 10
if x_count == 9:
numerals += "XC"
x_count -= 9
elif x_count == 4:
numerals += "XL"
x_count -= 4
if x_count >= 5:
numerals += "L"
x_count -= 5
numerals += x_count * "X"
num %= 10
if num == 9:
numerals += "IX"
num -= 9
elif num == 4:
numerals += "IV"
num -= 4
if num >= 5:
numerals += "V"
num -= 5
numerals += num * "I"
return numerals
def A (__A : str = "/p089_roman.txt" ) -> int:
"""simple docstring"""
UpperCAmelCase_ = 0
with open(os.path.dirname(__A ) + roman_numerals_filename ) as filea:
UpperCAmelCase_ = filea.readlines()
for line in lines:
UpperCAmelCase_ = line.strip()
UpperCAmelCase_ = parse_roman_numerals(__A )
UpperCAmelCase_ = generate_roman_numerals(__A )
savings += len(__A ) - len(__A )
return savings
if __name__ == "__main__":
print(f"{solution() = }")
| 51
|
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
snake_case_ : int = {
"configuration_deberta": ["DEBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP", "DebertaConfig", "DebertaOnnxConfig"],
"tokenization_deberta": ["DebertaTokenizer"],
}
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : int = ["DebertaTokenizerFast"]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : List[str] = [
"DEBERTA_PRETRAINED_MODEL_ARCHIVE_LIST",
"DebertaForMaskedLM",
"DebertaForQuestionAnswering",
"DebertaForSequenceClassification",
"DebertaForTokenClassification",
"DebertaModel",
"DebertaPreTrainedModel",
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Any = [
"TF_DEBERTA_PRETRAINED_MODEL_ARCHIVE_LIST",
"TFDebertaForMaskedLM",
"TFDebertaForQuestionAnswering",
"TFDebertaForSequenceClassification",
"TFDebertaForTokenClassification",
"TFDebertaModel",
"TFDebertaPreTrainedModel",
]
if TYPE_CHECKING:
from .configuration_deberta import DEBERTA_PRETRAINED_CONFIG_ARCHIVE_MAP, DebertaConfig, DebertaOnnxConfig
from .tokenization_deberta import DebertaTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_deberta_fast import DebertaTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_deberta import (
DEBERTA_PRETRAINED_MODEL_ARCHIVE_LIST,
DebertaForMaskedLM,
DebertaForQuestionAnswering,
DebertaForSequenceClassification,
DebertaForTokenClassification,
DebertaModel,
DebertaPreTrainedModel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_deberta import (
TF_DEBERTA_PRETRAINED_MODEL_ARCHIVE_LIST,
TFDebertaForMaskedLM,
TFDebertaForQuestionAnswering,
TFDebertaForSequenceClassification,
TFDebertaForTokenClassification,
TFDebertaModel,
TFDebertaPreTrainedModel,
)
else:
import sys
snake_case_ : Dict = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 51
| 1
|
import copy
from typing import Dict, Optional
from ...configuration_utils import PretrainedConfig
from ...utils import logging
from ..auto import CONFIG_MAPPING
from ..detr import DetrConfig
from ..swin import SwinConfig
snake_case_ : Optional[int] = {
"facebook/maskformer-swin-base-ade": (
"https://huggingface.co/facebook/maskformer-swin-base-ade/blob/main/config.json"
)
# See all MaskFormer models at https://huggingface.co/models?filter=maskformer
}
snake_case_ : List[str] = logging.get_logger(__name__)
class __snake_case ( a ):
UpperCAmelCase__ : List[str] = '''maskformer'''
UpperCAmelCase__ : Optional[Any] = {'''hidden_size''': '''mask_feature_size'''}
UpperCAmelCase__ : List[str] = ['''resnet''', '''swin''']
UpperCAmelCase__ : List[str] = ['''detr''']
def __init__( self : Optional[int] , _snake_case : int = 256 , _snake_case : int = 256 , _snake_case : float = 0.1 , _snake_case : bool = False , _snake_case : Optional[Dict] = None , _snake_case : Optional[Dict] = None , _snake_case : float = 0.0_2 , _snake_case : float = 1.0 , _snake_case : float = 1.0 , _snake_case : float = 1.0 , _snake_case : float = 2_0.0 , _snake_case : Optional[bool] = None , **_snake_case : List[str] , ):
"""simple docstring"""
if backbone_config is None:
# fall back to https://huggingface.co/microsoft/swin-base-patch4-window12-384-in22k
UpperCAmelCase_ = SwinConfig(
image_size=384 , in_channels=3 , patch_size=4 , embed_dim=128 , depths=[2, 2, 18, 2] , num_heads=[4, 8, 16, 32] , window_size=12 , drop_path_rate=0.3 , out_features=['''stage1''', '''stage2''', '''stage3''', '''stage4'''] , )
if isinstance(_snake_case , _snake_case):
UpperCAmelCase_ = backbone_config.pop('''model_type''')
UpperCAmelCase_ = CONFIG_MAPPING[backbone_model_type]
UpperCAmelCase_ = config_class.from_dict(_snake_case)
# verify that the backbone is supported
if backbone_config.model_type not in self.backbones_supported:
logger.warning_once(
F"""Backbone {backbone_config.model_type} is not a supported model and may not be compatible with MaskFormer. """
F"""Supported model types: {",".join(self.backbones_supported)}""")
if decoder_config is None:
# fall back to https://huggingface.co/facebook/detr-resnet-50
UpperCAmelCase_ = DetrConfig()
else:
# verify that the decoder is supported
UpperCAmelCase_ = (
decoder_config.pop('''model_type''') if isinstance(_snake_case , _snake_case) else decoder_config.model_type
)
if decoder_type not in self.decoders_supported:
raise ValueError(
F"""Transformer Decoder {decoder_type} not supported, please use one of"""
F""" {",".join(self.decoders_supported)}""")
if isinstance(_snake_case , _snake_case):
UpperCAmelCase_ = CONFIG_MAPPING[decoder_type]
UpperCAmelCase_ = config_class.from_dict(_snake_case)
UpperCAmelCase_ = backbone_config
UpperCAmelCase_ = decoder_config
# main feature dimension for the model
UpperCAmelCase_ = fpn_feature_size
UpperCAmelCase_ = mask_feature_size
# initializer
UpperCAmelCase_ = init_std
UpperCAmelCase_ = init_xavier_std
# Hungarian matcher && loss
UpperCAmelCase_ = cross_entropy_weight
UpperCAmelCase_ = dice_weight
UpperCAmelCase_ = mask_weight
UpperCAmelCase_ = use_auxiliary_loss
UpperCAmelCase_ = no_object_weight
UpperCAmelCase_ = output_auxiliary_logits
UpperCAmelCase_ = self.decoder_config.encoder_attention_heads
UpperCAmelCase_ = self.decoder_config.num_hidden_layers
super().__init__(**_snake_case)
@classmethod
def lowerCamelCase ( cls : List[Any] , _snake_case : PretrainedConfig , _snake_case : PretrainedConfig , **_snake_case : Any):
"""simple docstring"""
return cls(
backbone_config=_snake_case , decoder_config=_snake_case , **_snake_case , )
def lowerCamelCase ( self : Dict):
"""simple docstring"""
UpperCAmelCase_ = copy.deepcopy(self.__dict__)
UpperCAmelCase_ = self.backbone_config.to_dict()
UpperCAmelCase_ = self.decoder_config.to_dict()
UpperCAmelCase_ = self.__class__.model_type
return output
| 51
|
from typing import TYPE_CHECKING
from ...file_utils import _LazyModule, is_tokenizers_available, is_torch_available
from ...utils import OptionalDependencyNotAvailable
snake_case_ : Union[str, Any] = {"configuration_gpt_neox": ["GPT_NEOX_PRETRAINED_CONFIG_ARCHIVE_MAP", "GPTNeoXConfig"]}
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Dict = ["GPTNeoXTokenizerFast"]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : 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
snake_case_ : Optional[int] = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 51
| 1
|
from .glue import GlueDataset, GlueDataTrainingArguments
from .language_modeling import (
LineByLineTextDataset,
LineByLineWithRefDataset,
LineByLineWithSOPTextDataset,
TextDataset,
TextDatasetForNextSentencePrediction,
)
from .squad import SquadDataset, SquadDataTrainingArguments
| 51
|
def A (__A : list , __A : int , __A : int = 0 , __A : int = 0 ) -> int:
"""simple docstring"""
UpperCAmelCase_ = right or len(__A ) - 1
if left > right:
return -1
elif list_data[left] == key:
return left
elif list_data[right] == key:
return right
else:
return search(__A , __A , left + 1 , right - 1 )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 51
| 1
|
import argparse
import requests
import torch
from PIL import Image
from transformers import SwinConfig, SwinForMaskedImageModeling, ViTImageProcessor
def A (__A : Dict ) -> List[Any]:
"""simple docstring"""
UpperCAmelCase_ = SwinConfig(image_size=192 )
if "base" in model_name:
UpperCAmelCase_ = 6
UpperCAmelCase_ = 128
UpperCAmelCase_ = (2, 2, 18, 2)
UpperCAmelCase_ = (4, 8, 16, 32)
elif "large" in model_name:
UpperCAmelCase_ = 12
UpperCAmelCase_ = 192
UpperCAmelCase_ = (2, 2, 18, 2)
UpperCAmelCase_ = (6, 12, 24, 48)
else:
raise ValueError('''Model not supported, only supports base and large variants''' )
UpperCAmelCase_ = window_size
UpperCAmelCase_ = embed_dim
UpperCAmelCase_ = depths
UpperCAmelCase_ = num_heads
return config
def A (__A : Dict ) -> str:
"""simple docstring"""
if "encoder.mask_token" in name:
UpperCAmelCase_ = name.replace('''encoder.mask_token''' , '''embeddings.mask_token''' )
if "encoder.patch_embed.proj" in name:
UpperCAmelCase_ = name.replace('''encoder.patch_embed.proj''' , '''embeddings.patch_embeddings.projection''' )
if "encoder.patch_embed.norm" in name:
UpperCAmelCase_ = name.replace('''encoder.patch_embed.norm''' , '''embeddings.norm''' )
if "attn.proj" in name:
UpperCAmelCase_ = name.replace('''attn.proj''' , '''attention.output.dense''' )
if "attn" in name:
UpperCAmelCase_ = name.replace('''attn''' , '''attention.self''' )
if "norm1" in name:
UpperCAmelCase_ = name.replace('''norm1''' , '''layernorm_before''' )
if "norm2" in name:
UpperCAmelCase_ = name.replace('''norm2''' , '''layernorm_after''' )
if "mlp.fc1" in name:
UpperCAmelCase_ = name.replace('''mlp.fc1''' , '''intermediate.dense''' )
if "mlp.fc2" in name:
UpperCAmelCase_ = name.replace('''mlp.fc2''' , '''output.dense''' )
if name == "encoder.norm.weight":
UpperCAmelCase_ = '''layernorm.weight'''
if name == "encoder.norm.bias":
UpperCAmelCase_ = '''layernorm.bias'''
if "decoder" in name:
pass
else:
UpperCAmelCase_ = '''swin.''' + name
return name
def A (__A : Dict , __A : List[Any] ) -> Any:
"""simple docstring"""
for key in orig_state_dict.copy().keys():
UpperCAmelCase_ = orig_state_dict.pop(__A )
if "attn_mask" in key:
pass
elif "qkv" in key:
UpperCAmelCase_ = key.split('''.''' )
UpperCAmelCase_ = int(key_split[2] )
UpperCAmelCase_ = int(key_split[4] )
UpperCAmelCase_ = model.swin.encoder.layers[layer_num].blocks[block_num].attention.self.all_head_size
if "weight" in key:
UpperCAmelCase_ = val[:dim, :]
UpperCAmelCase_ = val[
dim : dim * 2, :
]
UpperCAmelCase_ = val[-dim:, :]
else:
UpperCAmelCase_ = val[
:dim
]
UpperCAmelCase_ = val[
dim : dim * 2
]
UpperCAmelCase_ = val[
-dim:
]
else:
UpperCAmelCase_ = val
return orig_state_dict
def A (__A : str , __A : Tuple , __A : List[str] , __A : List[str] ) -> Union[str, Any]:
"""simple docstring"""
UpperCAmelCase_ = torch.load(__A , map_location='''cpu''' )['''model''']
UpperCAmelCase_ = get_swin_config(__A )
UpperCAmelCase_ = SwinForMaskedImageModeling(__A )
model.eval()
UpperCAmelCase_ = convert_state_dict(__A , __A )
model.load_state_dict(__A )
UpperCAmelCase_ = '''http://images.cocodataset.org/val2017/000000039769.jpg'''
UpperCAmelCase_ = ViTImageProcessor(size={'''height''': 192, '''width''': 192} )
UpperCAmelCase_ = Image.open(requests.get(__A , stream=__A ).raw )
UpperCAmelCase_ = image_processor(images=__A , return_tensors='''pt''' )
with torch.no_grad():
UpperCAmelCase_ = model(**__A ).logits
print(outputs.keys() )
print('''Looks ok!''' )
if pytorch_dump_folder_path is not None:
print(F"""Saving model {model_name} to {pytorch_dump_folder_path}""" )
model.save_pretrained(__A )
print(F"""Saving image processor to {pytorch_dump_folder_path}""" )
image_processor.save_pretrained(__A )
if push_to_hub:
print(F"""Pushing model and image processor for {model_name} to hub""" )
model.push_to_hub(F"""microsoft/{model_name}""" )
image_processor.push_to_hub(F"""microsoft/{model_name}""" )
if __name__ == "__main__":
snake_case_ : Any = argparse.ArgumentParser()
# Required parameters
parser.add_argument(
"--model_name",
default="swin-base-simmim-window6-192",
type=str,
choices=["swin-base-simmim-window6-192", "swin-large-simmim-window12-192"],
help="Name of the Swin SimMIM model you'd like to convert.",
)
parser.add_argument(
"--checkpoint_path",
default="/Users/nielsrogge/Documents/SwinSimMIM/simmim_pretrain__swin_base__img192_window6__100ep.pth",
type=str,
help="Path to the original PyTorch checkpoint (.pth file).",
)
parser.add_argument(
"--pytorch_dump_folder_path", default=None, type=str, help="Path to the output PyTorch model directory."
)
parser.add_argument(
"--push_to_hub", action="store_true", help="Whether or not to push the converted model to the 🤗 hub."
)
snake_case_ : int = parser.parse_args()
convert_swin_checkpoint(args.model_name, args.checkpoint_path, args.pytorch_dump_folder_path, args.push_to_hub)
| 51
|
from ...configuration_utils import PretrainedConfig
from ...utils import logging
snake_case_ : int = logging.get_logger(__name__)
snake_case_ : str = {}
class __snake_case ( a ):
UpperCAmelCase__ : str = '''llama'''
UpperCAmelCase__ : Dict = ['''past_key_values''']
def __init__( self : str , _snake_case : List[str]=32000 , _snake_case : int=4096 , _snake_case : List[str]=11008 , _snake_case : Optional[int]=32 , _snake_case : List[Any]=32 , _snake_case : Tuple=None , _snake_case : int="silu" , _snake_case : List[Any]=2048 , _snake_case : List[str]=0.0_2 , _snake_case : Any=1e-6 , _snake_case : List[str]=True , _snake_case : Optional[Any]=0 , _snake_case : Dict=1 , _snake_case : List[Any]=2 , _snake_case : str=1 , _snake_case : Union[str, Any]=False , _snake_case : str=None , **_snake_case : List[Any] , ):
"""simple docstring"""
UpperCAmelCase_ = vocab_size
UpperCAmelCase_ = max_position_embeddings
UpperCAmelCase_ = hidden_size
UpperCAmelCase_ = intermediate_size
UpperCAmelCase_ = num_hidden_layers
UpperCAmelCase_ = num_attention_heads
# for backward compatibility
if num_key_value_heads is None:
UpperCAmelCase_ = num_attention_heads
UpperCAmelCase_ = num_key_value_heads
UpperCAmelCase_ = hidden_act
UpperCAmelCase_ = initializer_range
UpperCAmelCase_ = rms_norm_eps
UpperCAmelCase_ = pretraining_tp
UpperCAmelCase_ = use_cache
UpperCAmelCase_ = rope_scaling
self._rope_scaling_validation()
super().__init__(
pad_token_id=_snake_case , bos_token_id=_snake_case , eos_token_id=_snake_case , tie_word_embeddings=_snake_case , **_snake_case , )
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
if self.rope_scaling is None:
return
if not isinstance(self.rope_scaling , _snake_case) or len(self.rope_scaling) != 2:
raise ValueError(
'''`rope_scaling` must be a dictionary with with two fields, `name` and `factor`, '''
F"""got {self.rope_scaling}""")
UpperCAmelCase_ = self.rope_scaling.get('''type''' , _snake_case)
UpperCAmelCase_ = self.rope_scaling.get('''factor''' , _snake_case)
if rope_scaling_type is None or rope_scaling_type not in ["linear", "dynamic"]:
raise ValueError(
F"""`rope_scaling`'s name field must be one of ['linear', 'dynamic'], got {rope_scaling_type}""")
if rope_scaling_factor is None or not isinstance(_snake_case , _snake_case) or rope_scaling_factor <= 1.0:
raise ValueError(F"""`rope_scaling`'s factor field must be an float > 1, got {rope_scaling_factor}""")
| 51
| 1
|
import unittest
from transformers import is_flax_available
from transformers.testing_utils import require_flax, require_sentencepiece, require_tokenizers, require_torch, slow
if is_flax_available():
import optax
from flax.training.common_utils import onehot
from transformers import AutoTokenizer, FlaxMTaForConditionalGeneration
from transformers.models.ta.modeling_flax_ta import shift_tokens_right
@require_torch
@require_sentencepiece
@require_tokenizers
@require_flax
class __snake_case ( unittest.TestCase ):
@slow
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = FlaxMTaForConditionalGeneration.from_pretrained('''google/mt5-small''')
UpperCAmelCase_ = AutoTokenizer.from_pretrained('''google/mt5-small''')
UpperCAmelCase_ = tokenizer('''Hello there''' , return_tensors='''np''').input_ids
UpperCAmelCase_ = tokenizer('''Hi I am''' , return_tensors='''np''').input_ids
UpperCAmelCase_ = shift_tokens_right(_snake_case , model.config.pad_token_id , model.config.decoder_start_token_id)
UpperCAmelCase_ = model(_snake_case , decoder_input_ids=_snake_case).logits
UpperCAmelCase_ = optax.softmax_cross_entropy(_snake_case , onehot(_snake_case , logits.shape[-1])).mean()
UpperCAmelCase_ = -(labels.shape[-1] * loss.item())
UpperCAmelCase_ = -8_4.9_1_2_7
self.assertTrue(abs(mtf_score - EXPECTED_SCORE) < 1e-4)
| 51
|
from collections import OrderedDict
from typing import Any, List, Mapping, Optional
from ... import PreTrainedTokenizer, TensorType, is_torch_available
from ...configuration_utils import PretrainedConfig
from ...onnx import OnnxConfigWithPast, PatchingSpec
from ...utils import logging
snake_case_ : List[str] = logging.get_logger(__name__)
snake_case_ : Tuple = {
"Salesforce/codegen-350M-nl": "https://huggingface.co/Salesforce/codegen-350M-nl/resolve/main/config.json",
"Salesforce/codegen-350M-multi": "https://huggingface.co/Salesforce/codegen-350M-multi/resolve/main/config.json",
"Salesforce/codegen-350M-mono": "https://huggingface.co/Salesforce/codegen-350M-mono/resolve/main/config.json",
"Salesforce/codegen-2B-nl": "https://huggingface.co/Salesforce/codegen-2B-nl/resolve/main/config.json",
"Salesforce/codegen-2B-multi": "https://huggingface.co/Salesforce/codegen-2B-multi/resolve/main/config.json",
"Salesforce/codegen-2B-mono": "https://huggingface.co/Salesforce/codegen-2B-mono/resolve/main/config.json",
"Salesforce/codegen-6B-nl": "https://huggingface.co/Salesforce/codegen-6B-nl/resolve/main/config.json",
"Salesforce/codegen-6B-multi": "https://huggingface.co/Salesforce/codegen-6B-multi/resolve/main/config.json",
"Salesforce/codegen-6B-mono": "https://huggingface.co/Salesforce/codegen-6B-mono/resolve/main/config.json",
"Salesforce/codegen-16B-nl": "https://huggingface.co/Salesforce/codegen-16B-nl/resolve/main/config.json",
"Salesforce/codegen-16B-multi": "https://huggingface.co/Salesforce/codegen-16B-multi/resolve/main/config.json",
"Salesforce/codegen-16B-mono": "https://huggingface.co/Salesforce/codegen-16B-mono/resolve/main/config.json",
}
class __snake_case ( a ):
UpperCAmelCase__ : str = '''codegen'''
UpperCAmelCase__ : int = {
'''max_position_embeddings''': '''n_positions''',
'''hidden_size''': '''n_embd''',
'''num_attention_heads''': '''n_head''',
'''num_hidden_layers''': '''n_layer''',
}
def __init__( self : Union[str, Any] , _snake_case : Union[str, Any]=50400 , _snake_case : Optional[int]=2048 , _snake_case : Union[str, Any]=2048 , _snake_case : List[str]=4096 , _snake_case : Any=28 , _snake_case : List[str]=16 , _snake_case : int=64 , _snake_case : Tuple=None , _snake_case : Dict="gelu_new" , _snake_case : Union[str, Any]=0.0 , _snake_case : Optional[Any]=0.0 , _snake_case : List[Any]=0.0 , _snake_case : List[Any]=1e-5 , _snake_case : List[str]=0.0_2 , _snake_case : Optional[Any]=True , _snake_case : int=50256 , _snake_case : Tuple=50256 , _snake_case : int=False , **_snake_case : Any , ):
"""simple docstring"""
UpperCAmelCase_ = vocab_size
UpperCAmelCase_ = n_ctx
UpperCAmelCase_ = n_positions
UpperCAmelCase_ = n_embd
UpperCAmelCase_ = n_layer
UpperCAmelCase_ = n_head
UpperCAmelCase_ = n_inner
UpperCAmelCase_ = rotary_dim
UpperCAmelCase_ = activation_function
UpperCAmelCase_ = resid_pdrop
UpperCAmelCase_ = embd_pdrop
UpperCAmelCase_ = attn_pdrop
UpperCAmelCase_ = layer_norm_epsilon
UpperCAmelCase_ = initializer_range
UpperCAmelCase_ = use_cache
UpperCAmelCase_ = bos_token_id
UpperCAmelCase_ = eos_token_id
super().__init__(
bos_token_id=_snake_case , eos_token_id=_snake_case , tie_word_embeddings=_snake_case , **_snake_case)
class __snake_case ( a ):
def __init__( self : Tuple , _snake_case : PretrainedConfig , _snake_case : str = "default" , _snake_case : List[PatchingSpec] = None , _snake_case : bool = False , ):
"""simple docstring"""
super().__init__(_snake_case , task=_snake_case , patching_specs=_snake_case , use_past=_snake_case)
if not getattr(self._config , '''pad_token_id''' , _snake_case):
# TODO: how to do that better?
UpperCAmelCase_ = 0
@property
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = OrderedDict({'''input_ids''': {0: '''batch''', 1: '''sequence'''}})
if self.use_past:
self.fill_with_past_key_values_(_snake_case , direction='''inputs''')
UpperCAmelCase_ = {0: '''batch''', 1: '''past_sequence + sequence'''}
else:
UpperCAmelCase_ = {0: '''batch''', 1: '''sequence'''}
return common_inputs
@property
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
return self._config.n_layer
@property
def lowerCamelCase ( self : int):
"""simple docstring"""
return self._config.n_head
def lowerCamelCase ( self : Optional[int] , _snake_case : PreTrainedTokenizer , _snake_case : int = -1 , _snake_case : int = -1 , _snake_case : bool = False , _snake_case : Optional[TensorType] = None , ):
"""simple docstring"""
UpperCAmelCase_ = super(_snake_case , self).generate_dummy_inputs(
_snake_case , batch_size=_snake_case , seq_length=_snake_case , is_pair=_snake_case , framework=_snake_case)
# We need to order the input in the way they appears in the forward()
UpperCAmelCase_ = 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
UpperCAmelCase_ , UpperCAmelCase_ = common_inputs['''input_ids'''].shape
# Not using the same length for past_key_values
UpperCAmelCase_ = seqlen + 2
UpperCAmelCase_ = (
batch,
self.num_attention_heads,
past_key_values_length,
self._config.hidden_size // self.num_attention_heads,
)
UpperCAmelCase_ = [
(torch.zeros(_snake_case), torch.zeros(_snake_case)) for _ in range(self.num_layers)
]
UpperCAmelCase_ = common_inputs['''attention_mask''']
if self.use_past:
UpperCAmelCase_ = ordered_inputs['''attention_mask'''].dtype
UpperCAmelCase_ = torch.cat(
[ordered_inputs['''attention_mask'''], torch.ones(_snake_case , _snake_case , dtype=_snake_case)] , dim=1)
return ordered_inputs
@property
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
return 13
| 51
| 1
|
def A (__A : list , __A : list ) -> float:
"""simple docstring"""
_validate_point(__A )
_validate_point(__A )
if len(__A ) != len(__A ):
raise ValueError('''Both points must be in the same n-dimensional space''' )
return float(sum(abs(a - b ) for a, b in zip(__A , __A ) ) )
def A (__A : list[float] ) -> None:
"""simple docstring"""
if point:
if isinstance(__A , __A ):
for item in point:
if not isinstance(__A , (int, float) ):
UpperCAmelCase_ = (
'''Expected a list of numbers as input, found '''
F"""{type(__A ).__name__}"""
)
raise TypeError(__A )
else:
UpperCAmelCase_ = F"""Expected a list of numbers as input, found {type(__A ).__name__}"""
raise TypeError(__A )
else:
raise ValueError('''Missing an input''' )
def A (__A : list , __A : list ) -> float:
"""simple docstring"""
_validate_point(__A )
_validate_point(__A )
if len(__A ) != len(__A ):
raise ValueError('''Both points must be in the same n-dimensional space''' )
return float(sum(abs(x - y ) for x, y in zip(__A , __A ) ) )
if __name__ == "__main__":
import doctest
doctest.testmod()
| 51
|
import os
import unittest
from transformers.models.phobert.tokenization_phobert import VOCAB_FILES_NAMES, PhobertTokenizer
from ...test_tokenization_common import TokenizerTesterMixin
class __snake_case ( a , unittest.TestCase ):
UpperCAmelCase__ : Any = PhobertTokenizer
UpperCAmelCase__ : List[str] = False
def lowerCamelCase ( self : str):
"""simple docstring"""
super().setUp()
# Adapted from Sennrich et al. 2015 and https://github.com/rsennrich/subword-nmt
UpperCAmelCase_ = ['''T@@''', '''i''', '''I''', '''R@@''', '''r''', '''e@@''']
UpperCAmelCase_ = dict(zip(_snake_case , range(len(_snake_case))))
UpperCAmelCase_ = ['''#version: 0.2''', '''l à</w>''']
UpperCAmelCase_ = {'''unk_token''': '''<unk>'''}
UpperCAmelCase_ = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['''vocab_file'''])
UpperCAmelCase_ = os.path.join(self.tmpdirname , VOCAB_FILES_NAMES['''merges_file'''])
with open(self.vocab_file , '''w''' , encoding='''utf-8''') as fp:
for token in vocab_tokens:
fp.write(F"""{token} {vocab_tokens[token]}\n""")
with open(self.merges_file , '''w''' , encoding='''utf-8''') as fp:
fp.write('''\n'''.join(_snake_case))
def lowerCamelCase ( self : int , **_snake_case : Any):
"""simple docstring"""
kwargs.update(self.special_tokens_map)
return PhobertTokenizer.from_pretrained(self.tmpdirname , **_snake_case)
def lowerCamelCase ( self : Optional[Any] , _snake_case : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = '''Tôi là VinAI Research'''
UpperCAmelCase_ = '''T<unk> i <unk> <unk> <unk> <unk> <unk> <unk> I Re<unk> e<unk> <unk> <unk> <unk>'''
return input_text, output_text
def lowerCamelCase ( self : List[str]):
"""simple docstring"""
UpperCAmelCase_ = PhobertTokenizer(self.vocab_file , self.merges_file , **self.special_tokens_map)
UpperCAmelCase_ = '''Tôi là VinAI Research'''
UpperCAmelCase_ = '''T@@ ô@@ i l@@ à V@@ i@@ n@@ A@@ I R@@ e@@ s@@ e@@ a@@ r@@ c@@ h'''.split()
UpperCAmelCase_ = tokenizer.tokenize(_snake_case)
print(_snake_case)
self.assertListEqual(_snake_case , _snake_case)
UpperCAmelCase_ = tokens + [tokenizer.unk_token]
UpperCAmelCase_ = [4, 3, 5, 3, 3, 3, 3, 3, 3, 6, 7, 9, 3, 9, 3, 3, 3, 3, 3]
self.assertListEqual(tokenizer.convert_tokens_to_ids(_snake_case) , _snake_case)
| 51
| 1
|
import unittest
from transformers import LiltConfig, is_torch_available
from transformers.testing_utils import require_torch, slow, torch_device
from ...generation.test_utils import GenerationTesterMixin
from ...test_configuration_common import ConfigTester
from ...test_modeling_common import ModelTesterMixin, ids_tensor
from ...test_pipeline_mixin import PipelineTesterMixin
if is_torch_available():
import torch
from transformers import (
LiltForQuestionAnswering,
LiltForSequenceClassification,
LiltForTokenClassification,
LiltModel,
)
from transformers.models.lilt.modeling_lilt import LILT_PRETRAINED_MODEL_ARCHIVE_LIST
class __snake_case :
def __init__( self : Tuple , _snake_case : Tuple , _snake_case : List[Any]=13 , _snake_case : Dict=7 , _snake_case : List[str]=True , _snake_case : Dict=True , _snake_case : int=True , _snake_case : Tuple=True , _snake_case : Any=99 , _snake_case : Dict=24 , _snake_case : List[Any]=2 , _snake_case : Optional[int]=6 , _snake_case : str=37 , _snake_case : List[str]="gelu" , _snake_case : int=0.1 , _snake_case : Any=0.1 , _snake_case : Optional[Any]=512 , _snake_case : List[Any]=16 , _snake_case : Dict=2 , _snake_case : Dict=0.0_2 , _snake_case : Optional[int]=3 , _snake_case : str=None , _snake_case : List[str]=1000 , ):
"""simple docstring"""
UpperCAmelCase_ = parent
UpperCAmelCase_ = batch_size
UpperCAmelCase_ = seq_length
UpperCAmelCase_ = is_training
UpperCAmelCase_ = use_input_mask
UpperCAmelCase_ = use_token_type_ids
UpperCAmelCase_ = use_labels
UpperCAmelCase_ = vocab_size
UpperCAmelCase_ = hidden_size
UpperCAmelCase_ = num_hidden_layers
UpperCAmelCase_ = num_attention_heads
UpperCAmelCase_ = intermediate_size
UpperCAmelCase_ = hidden_act
UpperCAmelCase_ = hidden_dropout_prob
UpperCAmelCase_ = attention_probs_dropout_prob
UpperCAmelCase_ = max_position_embeddings
UpperCAmelCase_ = type_vocab_size
UpperCAmelCase_ = type_sequence_label_size
UpperCAmelCase_ = initializer_range
UpperCAmelCase_ = num_labels
UpperCAmelCase_ = scope
UpperCAmelCase_ = range_bbox
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = ids_tensor([self.batch_size, self.seq_length] , self.vocab_size)
UpperCAmelCase_ = ids_tensor([self.batch_size, self.seq_length, 4] , self.range_bbox)
# Ensure that bbox is legal
for i in range(bbox.shape[0]):
for j in range(bbox.shape[1]):
if bbox[i, j, 3] < bbox[i, j, 1]:
UpperCAmelCase_ = bbox[i, j, 3]
UpperCAmelCase_ = bbox[i, j, 1]
UpperCAmelCase_ = t
if bbox[i, j, 2] < bbox[i, j, 0]:
UpperCAmelCase_ = bbox[i, j, 2]
UpperCAmelCase_ = bbox[i, j, 0]
UpperCAmelCase_ = t
UpperCAmelCase_ = None
if self.use_input_mask:
UpperCAmelCase_ = ids_tensor([self.batch_size, self.seq_length] , vocab_size=2)
UpperCAmelCase_ = None
if self.use_token_type_ids:
UpperCAmelCase_ = ids_tensor([self.batch_size, self.seq_length] , self.type_vocab_size)
UpperCAmelCase_ = None
UpperCAmelCase_ = None
if self.use_labels:
UpperCAmelCase_ = ids_tensor([self.batch_size] , self.type_sequence_label_size)
UpperCAmelCase_ = ids_tensor([self.batch_size, self.seq_length] , self.num_labels)
UpperCAmelCase_ = self.get_config()
return config, input_ids, bbox, token_type_ids, input_mask, sequence_labels, token_labels
def lowerCamelCase ( self : Any):
"""simple docstring"""
return LiltConfig(
vocab_size=self.vocab_size , hidden_size=self.hidden_size , num_hidden_layers=self.num_hidden_layers , num_attention_heads=self.num_attention_heads , intermediate_size=self.intermediate_size , hidden_act=self.hidden_act , hidden_dropout_prob=self.hidden_dropout_prob , attention_probs_dropout_prob=self.attention_probs_dropout_prob , max_position_embeddings=self.max_position_embeddings , type_vocab_size=self.type_vocab_size , initializer_range=self.initializer_range , )
def lowerCamelCase ( self : str , _snake_case : Dict , _snake_case : int , _snake_case : Union[str, Any] , _snake_case : List[Any] , _snake_case : Tuple , _snake_case : Dict , _snake_case : int , ):
"""simple docstring"""
UpperCAmelCase_ = LiltModel(config=_snake_case)
model.to(_snake_case)
model.eval()
UpperCAmelCase_ = model(_snake_case , bbox=_snake_case , attention_mask=_snake_case , token_type_ids=_snake_case)
UpperCAmelCase_ = model(_snake_case , bbox=_snake_case , token_type_ids=_snake_case)
UpperCAmelCase_ = model(_snake_case , bbox=_snake_case)
self.parent.assertEqual(result.last_hidden_state.shape , (self.batch_size, self.seq_length, self.hidden_size))
self.parent.assertEqual(result.pooler_output.shape , (self.batch_size, self.hidden_size))
def lowerCamelCase ( self : List[str] , _snake_case : Tuple , _snake_case : Dict , _snake_case : Tuple , _snake_case : int , _snake_case : Tuple , _snake_case : str , _snake_case : Tuple , ):
"""simple docstring"""
UpperCAmelCase_ = self.num_labels
UpperCAmelCase_ = LiltForTokenClassification(config=_snake_case)
model.to(_snake_case)
model.eval()
UpperCAmelCase_ = model(
_snake_case , bbox=_snake_case , attention_mask=_snake_case , token_type_ids=_snake_case , labels=_snake_case)
self.parent.assertEqual(result.logits.shape , (self.batch_size, self.seq_length, self.num_labels))
def lowerCamelCase ( self : Any , _snake_case : List[Any] , _snake_case : List[str] , _snake_case : str , _snake_case : int , _snake_case : str , _snake_case : Optional[Any] , _snake_case : Optional[int] , ):
"""simple docstring"""
UpperCAmelCase_ = LiltForQuestionAnswering(config=_snake_case)
model.to(_snake_case)
model.eval()
UpperCAmelCase_ = model(
_snake_case , bbox=_snake_case , attention_mask=_snake_case , token_type_ids=_snake_case , start_positions=_snake_case , end_positions=_snake_case , )
self.parent.assertEqual(result.start_logits.shape , (self.batch_size, self.seq_length))
self.parent.assertEqual(result.end_logits.shape , (self.batch_size, self.seq_length))
def lowerCamelCase ( self : int):
"""simple docstring"""
UpperCAmelCase_ = self.prepare_config_and_inputs()
(
(
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) , (
UpperCAmelCase_
) ,
) = config_and_inputs
UpperCAmelCase_ = {
'''input_ids''': input_ids,
'''bbox''': bbox,
'''token_type_ids''': token_type_ids,
'''attention_mask''': input_mask,
}
return config, inputs_dict
@require_torch
class __snake_case ( a , a , a , unittest.TestCase ):
UpperCAmelCase__ : Tuple = (
(
LiltModel,
LiltForSequenceClassification,
LiltForTokenClassification,
LiltForQuestionAnswering,
)
if is_torch_available()
else ()
)
UpperCAmelCase__ : Tuple = (
{
'''feature-extraction''': LiltModel,
'''question-answering''': LiltForQuestionAnswering,
'''text-classification''': LiltForSequenceClassification,
'''token-classification''': LiltForTokenClassification,
'''zero-shot''': LiltForSequenceClassification,
}
if is_torch_available()
else {}
)
UpperCAmelCase__ : Union[str, Any] = False
UpperCAmelCase__ : str = False
def lowerCamelCase ( self : Optional[int] , _snake_case : List[Any] , _snake_case : List[Any] , _snake_case : str , _snake_case : Dict , _snake_case : Any):
"""simple docstring"""
return True
def lowerCamelCase ( self : Dict):
"""simple docstring"""
UpperCAmelCase_ = LiltModelTester(self)
UpperCAmelCase_ = ConfigTester(self , config_class=_snake_case , hidden_size=37)
def lowerCamelCase ( self : str):
"""simple docstring"""
self.config_tester.run_common_tests()
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_model(*_snake_case)
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
for type in ["absolute", "relative_key", "relative_key_query"]:
UpperCAmelCase_ = type
self.model_tester.create_and_check_model(*_snake_case)
def lowerCamelCase ( self : Any):
"""simple docstring"""
UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_token_classification(*_snake_case)
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = self.model_tester.prepare_config_and_inputs()
self.model_tester.create_and_check_for_question_answering(*_snake_case)
@slow
def lowerCamelCase ( self : int):
"""simple docstring"""
for model_name in LILT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
UpperCAmelCase_ = LiltModel.from_pretrained(_snake_case)
self.assertIsNotNone(_snake_case)
@require_torch
@slow
class __snake_case ( unittest.TestCase ):
def lowerCamelCase ( self : int):
"""simple docstring"""
UpperCAmelCase_ = LiltModel.from_pretrained('''SCUT-DLVCLab/lilt-roberta-en-base''').to(_snake_case)
UpperCAmelCase_ = torch.tensor([[1, 2]] , device=_snake_case)
UpperCAmelCase_ = torch.tensor([[[1, 2, 3, 4], [5, 6, 7, 8]]] , device=_snake_case)
# forward pass
with torch.no_grad():
UpperCAmelCase_ = model(input_ids=_snake_case , bbox=_snake_case)
UpperCAmelCase_ = torch.Size([1, 2, 768])
UpperCAmelCase_ = torch.tensor(
[[-0.0_6_5_3, 0.0_9_5_0, -0.0_0_6_1], [-0.0_5_4_5, 0.0_9_2_6, -0.0_3_2_4]] , device=_snake_case , )
self.assertTrue(outputs.last_hidden_state.shape , _snake_case)
self.assertTrue(torch.allclose(outputs.last_hidden_state[0, :, :3] , _snake_case , atol=1e-3))
| 51
|
from typing import List, Optional, TypeVar
from .arrow_dataset import Dataset, _concatenate_map_style_datasets, _interleave_map_style_datasets
from .dataset_dict import DatasetDict, IterableDatasetDict
from .info import DatasetInfo
from .iterable_dataset import IterableDataset, _concatenate_iterable_datasets, _interleave_iterable_datasets
from .splits import NamedSplit
from .utils import logging
from .utils.py_utils import Literal
snake_case_ : Any = logging.get_logger(__name__)
snake_case_ : Optional[int] = TypeVar("DatasetType", Dataset, IterableDataset)
def A (__A : List[DatasetType] , __A : Optional[List[float]] = None , __A : Optional[int] = None , __A : Optional[DatasetInfo] = None , __A : Optional[NamedSplit] = None , __A : Literal["first_exhausted", "all_exhausted"] = "first_exhausted" , ) -> DatasetType:
"""simple docstring"""
from .arrow_dataset import Dataset
from .iterable_dataset import IterableDataset
if not datasets:
raise ValueError('''Unable to interleave an empty list of datasets.''' )
for i, dataset in enumerate(__A ):
if not isinstance(__A , (Dataset, IterableDataset) ):
if isinstance(__A , (DatasetDict, IterableDatasetDict) ):
if not dataset:
raise ValueError(
F"""Expected a list of Dataset objects or a list of IterableDataset objects, but element at position {i} """
'''is an empty dataset dictionary.''' )
raise ValueError(
F"""Dataset at position {i} has at least one split: {list(__A )}\n"""
F"""Please pick one to interleave with the other datasets, for example: dataset['{next(iter(__A ) )}']""" )
raise ValueError(
F"""Expected a list of Dataset objects or a list of IterableDataset objects, but element at position {i} is a {type(__A ).__name__}.""" )
if i == 0:
UpperCAmelCase_ , UpperCAmelCase_ = (
(Dataset, IterableDataset) if isinstance(__A , __A ) else (IterableDataset, Dataset)
)
elif not isinstance(__A , __A ):
raise ValueError(
F"""Unable to interleave a {dataset_type.__name__} (at position 0) with a {other_type.__name__} (at position {i}). Expected a list of Dataset objects or a list of IterableDataset objects.""" )
if stopping_strategy not in ["first_exhausted", "all_exhausted"]:
raise ValueError(F"""{stopping_strategy} is not supported. Please enter a valid stopping_strategy.""" )
if dataset_type is Dataset:
return _interleave_map_style_datasets(
__A , __A , __A , info=__A , split=__A , stopping_strategy=__A )
else:
return _interleave_iterable_datasets(
__A , __A , __A , info=__A , split=__A , stopping_strategy=__A )
def A (__A : List[DatasetType] , __A : Optional[DatasetInfo] = None , __A : Optional[NamedSplit] = None , __A : int = 0 , ) -> DatasetType:
"""simple docstring"""
if not dsets:
raise ValueError('''Unable to concatenate an empty list of datasets.''' )
for i, dataset in enumerate(__A ):
if not isinstance(__A , (Dataset, IterableDataset) ):
if isinstance(__A , (DatasetDict, IterableDatasetDict) ):
if not dataset:
raise ValueError(
F"""Expected a list of Dataset objects or a list of IterableDataset objects, but element at position {i} """
'''is an empty dataset dictionary.''' )
raise ValueError(
F"""Dataset at position {i} has at least one split: {list(__A )}\n"""
F"""Please pick one to interleave with the other datasets, for example: dataset['{next(iter(__A ) )}']""" )
raise ValueError(
F"""Expected a list of Dataset objects or a list of IterableDataset objects, but element at position {i} is a {type(__A ).__name__}.""" )
if i == 0:
UpperCAmelCase_ , UpperCAmelCase_ = (
(Dataset, IterableDataset) if isinstance(__A , __A ) else (IterableDataset, Dataset)
)
elif not isinstance(__A , __A ):
raise ValueError(
F"""Unable to interleave a {dataset_type.__name__} (at position 0) with a {other_type.__name__} (at position {i}). Expected a list of Dataset objects or a list of IterableDataset objects.""" )
if dataset_type is Dataset:
return _concatenate_map_style_datasets(__A , info=__A , split=__A , axis=__A )
else:
return _concatenate_iterable_datasets(__A , info=__A , split=__A , axis=__A )
| 51
| 1
|
def A (__A : int , __A : int ) -> bool:
"""simple docstring"""
return numa ^ numa < 0
if __name__ == "__main__":
import doctest
doctest.testmod()
| 51
|
import json
import os
import re
import shutil
import tempfile
import unittest
from typing import Tuple
from transformers import AddedToken, BatchEncoding, ByTaTokenizer
from transformers.utils import cached_property, is_tf_available, is_torch_available
from ...test_tokenization_common import TokenizerTesterMixin
if is_torch_available():
snake_case_ : Optional[Any] = "pt"
elif is_tf_available():
snake_case_ : Union[str, Any] = "tf"
else:
snake_case_ : str = "jax"
class __snake_case ( a , unittest.TestCase ):
UpperCAmelCase__ : List[Any] = ByTaTokenizer
UpperCAmelCase__ : int = False
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
super().setUp()
UpperCAmelCase_ = ByTaTokenizer()
tokenizer.save_pretrained(self.tmpdirname)
@cached_property
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
return ByTaTokenizer.from_pretrained('''google/byt5-small''')
def lowerCamelCase ( self : List[str] , **_snake_case : Union[str, Any]):
"""simple docstring"""
return self.tokenizer_class.from_pretrained(self.tmpdirname , **_snake_case)
def lowerCamelCase ( self : Dict , _snake_case : int , _snake_case : Tuple=False , _snake_case : Dict=20 , _snake_case : Optional[Any]=5):
"""simple docstring"""
UpperCAmelCase_ = []
for i in range(len(_snake_case)):
try:
UpperCAmelCase_ = tokenizer.decode([i] , clean_up_tokenization_spaces=_snake_case)
except UnicodeDecodeError:
pass
toks.append((i, tok))
UpperCAmelCase_ = list(filter(lambda _snake_case: re.match(r'''^[ a-zA-Z]+$''' , t[1]) , _snake_case))
UpperCAmelCase_ = list(filter(lambda _snake_case: [t[0]] == tokenizer.encode(t[1] , add_special_tokens=_snake_case) , _snake_case))
if max_length is not None and len(_snake_case) > max_length:
UpperCAmelCase_ = toks[:max_length]
if min_length is not None and len(_snake_case) < min_length and len(_snake_case) > 0:
while len(_snake_case) < min_length:
UpperCAmelCase_ = toks + toks
# toks_str = [t[1] for t in toks]
UpperCAmelCase_ = [t[0] for t in toks]
# Ensure consistency
UpperCAmelCase_ = tokenizer.decode(_snake_case , clean_up_tokenization_spaces=_snake_case)
if " " not in output_txt and len(_snake_case) > 1:
UpperCAmelCase_ = (
tokenizer.decode([toks_ids[0]] , clean_up_tokenization_spaces=_snake_case)
+ ''' '''
+ tokenizer.decode(toks_ids[1:] , clean_up_tokenization_spaces=_snake_case)
)
if with_prefix_space:
UpperCAmelCase_ = ''' ''' + output_txt
UpperCAmelCase_ = tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
return output_txt, output_ids
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = tokenizer(['''hi</s>''', '''I went to the gym</s>''', '''</s>'''])
UpperCAmelCase_ = tokenizer(['''hi''', '''I went to the gym''', ''''''])
self.assertListEqual(batch_with_eos_added['''input_ids'''] , batch_without_eos_added['''input_ids'''])
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = '''Unicode €.'''
UpperCAmelCase_ = tokenizer(_snake_case)
UpperCAmelCase_ = [88, 113, 108, 102, 114, 103, 104, 35, 229, 133, 175, 49, 1]
self.assertEqual(encoded['''input_ids'''] , _snake_case)
# decoding
UpperCAmelCase_ = tokenizer.decode(_snake_case)
self.assertEqual(_snake_case , '''Unicode €.</s>''')
UpperCAmelCase_ = tokenizer('''e è é ê ë''')
UpperCAmelCase_ = [104, 35, 198, 171, 35, 198, 172, 35, 198, 173, 35, 198, 174, 1]
self.assertEqual(encoded['''input_ids'''] , _snake_case)
# decoding
UpperCAmelCase_ = tokenizer.decode(_snake_case)
self.assertEqual(_snake_case , '''e è é ê ë</s>''')
# encode/decode, but with `encode` instead of `__call__`
self.assertEqual(tokenizer.decode(tokenizer.encode('''e è é ê ë''')) , '''e è é ê ë</s>''')
def lowerCamelCase ( self : Any):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = ['''A long paragraph for summarization.''', '''Another paragraph for summarization.''']
# fmt: off
UpperCAmelCase_ = [68, 35, 111, 114, 113, 106, 35, 115, 100, 117, 100, 106, 117, 100, 115, 107, 35, 105, 114, 117, 35, 118, 120, 112, 112, 100, 117, 108, 125, 100, 119, 108, 114, 113, 49, 1, 0]
# fmt: on
UpperCAmelCase_ = tokenizer(_snake_case , padding=_snake_case , return_tensors=_snake_case)
self.assertIsInstance(_snake_case , _snake_case)
if FRAMEWORK != "jax":
UpperCAmelCase_ = list(batch.input_ids.numpy()[0])
else:
UpperCAmelCase_ = list(batch.input_ids.tolist()[0])
self.assertListEqual(_snake_case , _snake_case)
self.assertEqual((2, 37) , batch.input_ids.shape)
self.assertEqual((2, 37) , batch.attention_mask.shape)
def lowerCamelCase ( self : Optional[Any]):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = ['''A long paragraph for summarization.''', '''Another paragraph for summarization.''']
UpperCAmelCase_ = tokenizer(_snake_case , padding=_snake_case , return_tensors=_snake_case)
# check if input_ids are returned and no decoder_input_ids
self.assertIn('''input_ids''' , _snake_case)
self.assertIn('''attention_mask''' , _snake_case)
self.assertNotIn('''decoder_input_ids''' , _snake_case)
self.assertNotIn('''decoder_attention_mask''' , _snake_case)
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = [
'''Summary of the text.''',
'''Another summary.''',
]
UpperCAmelCase_ = tokenizer(
text_target=_snake_case , max_length=32 , padding='''max_length''' , truncation=_snake_case , return_tensors=_snake_case)
self.assertEqual(32 , targets['''input_ids'''].shape[1])
def lowerCamelCase ( self : int):
"""simple docstring"""
UpperCAmelCase_ = self.ta_base_tokenizer
UpperCAmelCase_ = ['''A long paragraph for summarization. </s>''']
UpperCAmelCase_ = ['''Summary of the text. </s>''']
# fmt: off
UpperCAmelCase_ = [68, 35, 111, 114, 113, 106, 35, 115, 100, 117, 100, 106, 117, 100, 115, 107, 35, 105, 114, 117, 35, 118, 120, 112, 112, 100, 117, 108, 125, 100, 119, 108, 114, 113, 49, 35, 1]
UpperCAmelCase_ = [86, 120, 112, 112, 100, 117, 124, 35, 114, 105, 35, 119, 107, 104, 35, 119, 104, 123, 119, 49, 35, 1]
# fmt: on
UpperCAmelCase_ = tokenizer(_snake_case , text_target=_snake_case)
self.assertEqual(_snake_case , batch['''input_ids'''][0])
self.assertEqual(_snake_case , batch['''labels'''][0])
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = self.get_tokenizers()
for tokenizer in tokenizers:
with self.subTest(F"""{tokenizer.__class__.__name__}"""):
self.assertNotEqual(tokenizer.model_max_length , 42)
# Now let's start the test
UpperCAmelCase_ = self.get_tokenizers()
for tokenizer in tokenizers:
with self.subTest(F"""{tokenizer.__class__.__name__}"""):
# Isolate this from the other tests because we save additional tokens/etc
UpperCAmelCase_ = tempfile.mkdtemp()
UpperCAmelCase_ = ''' He is very happy, UNwant\u00E9d,running'''
UpperCAmelCase_ = tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
tokenizer.save_pretrained(_snake_case)
UpperCAmelCase_ = tokenizer.__class__.from_pretrained(_snake_case)
UpperCAmelCase_ = after_tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
self.assertListEqual(_snake_case , _snake_case)
shutil.rmtree(_snake_case)
UpperCAmelCase_ = self.get_tokenizers(model_max_length=42)
for tokenizer in tokenizers:
with self.subTest(F"""{tokenizer.__class__.__name__}"""):
# Isolate this from the other tests because we save additional tokens/etc
UpperCAmelCase_ = tempfile.mkdtemp()
UpperCAmelCase_ = ''' He is very happy, UNwant\u00E9d,running'''
tokenizer.add_tokens(['''bim''', '''bambam'''])
UpperCAmelCase_ = tokenizer.additional_special_tokens
additional_special_tokens.append('''new_additional_special_token''')
tokenizer.add_special_tokens({'''additional_special_tokens''': additional_special_tokens})
UpperCAmelCase_ = tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
tokenizer.save_pretrained(_snake_case)
UpperCAmelCase_ = tokenizer.__class__.from_pretrained(_snake_case)
UpperCAmelCase_ = after_tokenizer.encode(_snake_case , add_special_tokens=_snake_case)
self.assertListEqual(_snake_case , _snake_case)
self.assertIn('''new_additional_special_token''' , after_tokenizer.additional_special_tokens)
self.assertEqual(after_tokenizer.model_max_length , 42)
UpperCAmelCase_ = tokenizer.__class__.from_pretrained(_snake_case , model_max_length=43)
self.assertEqual(tokenizer.model_max_length , 43)
shutil.rmtree(_snake_case)
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
UpperCAmelCase_ = []
if self.test_slow_tokenizer:
tokenizer_list.append((self.tokenizer_class, self.get_tokenizer()))
if self.test_rust_tokenizer:
tokenizer_list.append((self.rust_tokenizer_class, self.get_rust_tokenizer()))
for tokenizer_class, tokenizer_utils in tokenizer_list:
with tempfile.TemporaryDirectory() as tmp_dir:
tokenizer_utils.save_pretrained(_snake_case)
with open(os.path.join(_snake_case , '''special_tokens_map.json''') , encoding='''utf-8''') as json_file:
UpperCAmelCase_ = json.load(_snake_case)
with open(os.path.join(_snake_case , '''tokenizer_config.json''') , encoding='''utf-8''') as json_file:
UpperCAmelCase_ = json.load(_snake_case)
UpperCAmelCase_ = [F"""<extra_id_{i}>""" for i in range(125)]
UpperCAmelCase_ = added_tokens_extra_ids + [
'''an_additional_special_token'''
]
UpperCAmelCase_ = added_tokens_extra_ids + [
'''an_additional_special_token'''
]
with open(os.path.join(_snake_case , '''special_tokens_map.json''') , '''w''' , encoding='''utf-8''') as outfile:
json.dump(_snake_case , _snake_case)
with open(os.path.join(_snake_case , '''tokenizer_config.json''') , '''w''' , encoding='''utf-8''') as outfile:
json.dump(_snake_case , _snake_case)
# the following checks allow us to verify that our test works as expected, i.e. that the tokenizer takes
# into account the new value of additional_special_tokens given in the "tokenizer_config.json" and
# "special_tokens_map.json" files
UpperCAmelCase_ = tokenizer_class.from_pretrained(
_snake_case , )
self.assertIn(
'''an_additional_special_token''' , tokenizer_without_change_in_init.additional_special_tokens)
# self.assertIn("an_additional_special_token",tokenizer_without_change_in_init.get_vocab()) # ByT5Tokenization no vocab
self.assertEqual(
['''an_additional_special_token'''] , tokenizer_without_change_in_init.convert_ids_to_tokens(
tokenizer_without_change_in_init.convert_tokens_to_ids(['''an_additional_special_token'''])) , )
# Now we test that we can change the value of additional_special_tokens in the from_pretrained
UpperCAmelCase_ = added_tokens_extra_ids + [AddedToken('''a_new_additional_special_token''' , lstrip=_snake_case)]
UpperCAmelCase_ = tokenizer_class.from_pretrained(
_snake_case , additional_special_tokens=_snake_case , )
self.assertIn('''a_new_additional_special_token''' , tokenizer.additional_special_tokens)
self.assertEqual(
['''a_new_additional_special_token'''] , tokenizer.convert_ids_to_tokens(
tokenizer.convert_tokens_to_ids(['''a_new_additional_special_token'''])) , )
def lowerCamelCase ( self : Any):
"""simple docstring"""
UpperCAmelCase_ = []
if self.test_slow_tokenizer:
tokenizer_list.append((self.tokenizer_class, self.get_tokenizer()))
if self.test_rust_tokenizer:
tokenizer_list.append((self.rust_tokenizer_class, self.get_rust_tokenizer()))
for tokenizer_class, tokenizer_utils in tokenizer_list:
with tempfile.TemporaryDirectory() as tmp_dir:
tokenizer_utils.save_pretrained(_snake_case)
UpperCAmelCase_ = tokenizer_class.from_pretrained(_snake_case)
self.assertTrue(tokenizer.decode([255]) == '''''')
def lowerCamelCase ( self : int):
"""simple docstring"""
pass
def lowerCamelCase ( self : Optional[int]):
"""simple docstring"""
pass
def lowerCamelCase ( self : Dict):
"""simple docstring"""
pass
def lowerCamelCase ( self : List[Any]):
"""simple docstring"""
pass
def lowerCamelCase ( self : Tuple):
"""simple docstring"""
UpperCAmelCase_ = self.get_tokenizers(fast=_snake_case , do_lower_case=_snake_case)
for tokenizer in tokenizers:
with self.subTest(F"""{tokenizer.__class__.__name__}"""):
UpperCAmelCase_ = ['''t''', '''h''', '''i''', '''s''', ''' ''', '''i''', '''s''', ''' ''', '''a''', ''' ''', '''t''', '''e''', '''x''', '''t''', '''</s>''']
UpperCAmelCase_ = tokenizer.convert_tokens_to_string(_snake_case)
self.assertIsInstance(_snake_case , _snake_case)
def lowerCamelCase ( self : Union[str, Any]):
"""simple docstring"""
UpperCAmelCase_ = self.get_tokenizers()
for tokenizer in tokenizers:
with self.subTest(F"""{tokenizer.__class__.__name__}"""):
UpperCAmelCase_ = [
'''bos_token''',
'''eos_token''',
'''unk_token''',
'''sep_token''',
'''pad_token''',
'''cls_token''',
'''mask_token''',
]
UpperCAmelCase_ = 0
UpperCAmelCase_ = tokenizer.convert_ids_to_tokens(
_snake_case , skip_special_tokens=_snake_case)
for attr in attributes_list:
setattr(_snake_case , attr + '''_id''' , _snake_case)
self.assertEqual(getattr(_snake_case , _snake_case) , _snake_case)
self.assertEqual(getattr(_snake_case , attr + '''_id''') , _snake_case)
setattr(_snake_case , attr + '''_id''' , _snake_case)
self.assertEqual(getattr(_snake_case , _snake_case) , _snake_case)
self.assertEqual(getattr(_snake_case , attr + '''_id''') , _snake_case)
setattr(_snake_case , '''additional_special_tokens_ids''' , [])
self.assertListEqual(getattr(_snake_case , '''additional_special_tokens''') , [])
self.assertListEqual(getattr(_snake_case , '''additional_special_tokens_ids''') , [])
setattr(_snake_case , '''additional_special_tokens_ids''' , [token_id_to_test_setters])
self.assertListEqual(getattr(_snake_case , '''additional_special_tokens''') , [token_to_test_setters])
self.assertListEqual(getattr(_snake_case , '''additional_special_tokens_ids''') , [token_id_to_test_setters])
| 51
| 1
|
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
snake_case_ : List[Any] = data_utils.TransfoXLTokenizer
snake_case_ : int = data_utils.TransfoXLCorpus
snake_case_ : List[Any] = data_utils
snake_case_ : int = data_utils
def A (__A : Dict , __A : List[Any] , __A : Union[str, Any] , __A : Tuple ) -> Union[str, Any]:
"""simple docstring"""
if transfo_xl_dataset_file:
# Convert a pre-processed corpus (see original TensorFlow repo)
with open(__A , '''rb''' ) as fp:
UpperCAmelCase_ = pickle.load(__A , encoding='''latin1''' )
# Save vocabulary and dataset cache as Dictionaries (should be better than pickles for the long-term)
UpperCAmelCase_ = pytorch_dump_folder_path + '''/''' + VOCAB_FILES_NAMES['''pretrained_vocab_file''']
print(F"""Save vocabulary to {pytorch_vocab_dump_path}""" )
UpperCAmelCase_ = corpus.vocab.__dict__
torch.save(__A , __A )
UpperCAmelCase_ = corpus.__dict__
corpus_dict_no_vocab.pop('''vocab''' , __A )
UpperCAmelCase_ = 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
UpperCAmelCase_ = os.path.abspath(__A )
UpperCAmelCase_ = 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 == "":
UpperCAmelCase_ = TransfoXLConfig()
else:
UpperCAmelCase_ = TransfoXLConfig.from_json_file(__A )
print(F"""Building PyTorch model from configuration: {config}""" )
UpperCAmelCase_ = TransfoXLLMHeadModel(__A )
UpperCAmelCase_ = load_tf_weights_in_transfo_xl(__A , __A , __A )
# Save pytorch-model
UpperCAmelCase_ = os.path.join(__A , __A )
UpperCAmelCase_ = 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__":
snake_case_ : List[str] = 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.",
)
snake_case_ : int = 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,
)
| 51
|
from typing import TYPE_CHECKING
from ...utils import (
OptionalDependencyNotAvailable,
_LazyModule,
is_flax_available,
is_sentencepiece_available,
is_tf_available,
is_tokenizers_available,
is_torch_available,
)
snake_case_ : Dict = {"configuration_mbart": ["MBART_PRETRAINED_CONFIG_ARCHIVE_MAP", "MBartConfig", "MBartOnnxConfig"]}
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Tuple = ["MBartTokenizer"]
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : str = ["MBartTokenizerFast"]
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : List[Any] = [
"MBART_PRETRAINED_MODEL_ARCHIVE_LIST",
"MBartForCausalLM",
"MBartForConditionalGeneration",
"MBartForQuestionAnswering",
"MBartForSequenceClassification",
"MBartModel",
"MBartPreTrainedModel",
]
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : Any = [
"TFMBartForConditionalGeneration",
"TFMBartModel",
"TFMBartPreTrainedModel",
]
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
snake_case_ : List[str] = [
"FlaxMBartForConditionalGeneration",
"FlaxMBartForQuestionAnswering",
"FlaxMBartForSequenceClassification",
"FlaxMBartModel",
"FlaxMBartPreTrainedModel",
]
if TYPE_CHECKING:
from .configuration_mbart import MBART_PRETRAINED_CONFIG_ARCHIVE_MAP, MBartConfig, MBartOnnxConfig
try:
if not is_sentencepiece_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_mbart import MBartTokenizer
try:
if not is_tokenizers_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .tokenization_mbart_fast import MBartTokenizerFast
try:
if not is_torch_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_mbart import (
MBART_PRETRAINED_MODEL_ARCHIVE_LIST,
MBartForCausalLM,
MBartForConditionalGeneration,
MBartForQuestionAnswering,
MBartForSequenceClassification,
MBartModel,
MBartPreTrainedModel,
)
try:
if not is_tf_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_tf_mbart import TFMBartForConditionalGeneration, TFMBartModel, TFMBartPreTrainedModel
try:
if not is_flax_available():
raise OptionalDependencyNotAvailable()
except OptionalDependencyNotAvailable:
pass
else:
from .modeling_flax_mbart import (
FlaxMBartForConditionalGeneration,
FlaxMBartForQuestionAnswering,
FlaxMBartForSequenceClassification,
FlaxMBartModel,
FlaxMBartPreTrainedModel,
)
else:
import sys
snake_case_ : Any = _LazyModule(__name__, globals()["__file__"], _import_structure, module_spec=__spec__)
| 51
| 1
|
import inspect
import tempfile
from collections import OrderedDict, UserDict
from collections.abc import MutableMapping
from contextlib import ExitStack, contextmanager
from dataclasses import fields
from enum import Enum
from typing import Any, ContextManager, List, Tuple
import numpy as np
from .import_utils import is_flax_available, is_tf_available, is_torch_available, is_torch_fx_proxy
if is_flax_available():
import jax.numpy as jnp
class __snake_case ( a ):
def __get__( self : List[str] , _snake_case : Union[str, Any] , _snake_case : int=None):
"""simple docstring"""
if obj is None:
return self
if self.fget is None:
raise AttributeError('''unreadable attribute''')
UpperCAmelCase_ = '''__cached_''' + self.fget.__name__
UpperCAmelCase_ = getattr(_snake_case , _snake_case , _snake_case)
if cached is None:
UpperCAmelCase_ = self.fget(_snake_case)
setattr(_snake_case , _snake_case , _snake_case)
return cached
def A (__A : Tuple ) -> str:
"""simple docstring"""
UpperCAmelCase_ = val.lower()
if val in {"y", "yes", "t", "true", "on", "1"}:
return 1
if val in {"n", "no", "f", "false", "off", "0"}:
return 0
raise ValueError(F"""invalid truth value {val!r}""" )
def A (__A : Tuple ) -> str:
"""simple docstring"""
if is_torch_fx_proxy(__A ):
return True
if is_torch_available():
import torch
if isinstance(__A , torch.Tensor ):
return True
if is_tf_available():
import tensorflow as tf
if isinstance(__A , tf.Tensor ):
return True
if is_flax_available():
import jax.numpy as jnp
from jax.core import Tracer
if isinstance(__A , (jnp.ndarray, Tracer) ):
return True
return isinstance(__A , np.ndarray )
def A (__A : str ) -> Dict:
"""simple docstring"""
return isinstance(__A , np.ndarray )
def A (__A : Dict ) -> Any:
"""simple docstring"""
return _is_numpy(__A )
def A (__A : Union[str, Any] ) -> int:
"""simple docstring"""
import torch
return isinstance(__A , torch.Tensor )
def A (__A : Any ) -> List[str]:
"""simple docstring"""
return False if not is_torch_available() else _is_torch(__A )
def A (__A : Optional[int] ) -> List[str]:
"""simple docstring"""
import torch
return isinstance(__A , torch.device )
def A (__A : Union[str, Any] ) -> Any:
"""simple docstring"""
return False if not is_torch_available() else _is_torch_device(__A )
def A (__A : Union[str, Any] ) -> Tuple:
"""simple docstring"""
import torch
if isinstance(__A , __A ):
if hasattr(__A , __A ):
UpperCAmelCase_ = getattr(__A , __A )
else:
return False
return isinstance(__A , torch.dtype )
def A (__A : Optional[Any] ) -> Tuple:
"""simple docstring"""
return False if not is_torch_available() else _is_torch_dtype(__A )
def A (__A : Union[str, Any] ) -> List[Any]:
"""simple docstring"""
import tensorflow as tf
return isinstance(__A , tf.Tensor )
def A (__A : Tuple ) -> int:
"""simple docstring"""
return False if not is_tf_available() else _is_tensorflow(__A )
def A (__A : Tuple ) -> int:
"""simple docstring"""
import tensorflow as tf
# the `is_symbolic_tensor` predicate is only available starting with TF 2.14
if hasattr(__A , '''is_symbolic_tensor''' ):
return tf.is_symbolic_tensor(__A )
return type(__A ) == tf.Tensor
def A (__A : Union[str, Any] ) -> Union[str, Any]:
"""simple docstring"""
return False if not is_tf_available() else _is_tf_symbolic_tensor(__A )
def A (__A : Optional[Any] ) -> str:
"""simple docstring"""
import jax.numpy as jnp # noqa: F811
return isinstance(__A , jnp.ndarray )
def A (__A : int ) -> Optional[Any]:
"""simple docstring"""
return False if not is_flax_available() else _is_jax(__A )
def A (__A : List[str] ) -> int:
"""simple docstring"""
if isinstance(__A , (dict, UserDict) ):
return {k: to_py_obj(__A ) for k, v in obj.items()}
elif isinstance(__A , (list, tuple) ):
return [to_py_obj(__A ) for o in obj]
elif is_tf_tensor(__A ):
return obj.numpy().tolist()
elif is_torch_tensor(__A ):
return obj.detach().cpu().tolist()
elif is_jax_tensor(__A ):
return np.asarray(__A ).tolist()
elif isinstance(__A , (np.ndarray, np.number) ): # tolist also works on 0d np arrays
return obj.tolist()
else:
return obj
def A (__A : Dict ) -> List[Any]:
"""simple docstring"""
if isinstance(__A , (dict, UserDict) ):
return {k: to_numpy(__A ) for k, v in obj.items()}
elif isinstance(__A , (list, tuple) ):
return np.array(__A )
elif is_tf_tensor(__A ):
return obj.numpy()
elif is_torch_tensor(__A ):
return obj.detach().cpu().numpy()
elif is_jax_tensor(__A ):
return np.asarray(__A )
else:
return obj
class __snake_case ( a ):
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = fields(self)
# Safety and consistency checks
if not len(_snake_case):
raise ValueError(F"""{self.__class__.__name__} has no fields.""")
if not all(field.default is None for field in class_fields[1:]):
raise ValueError(F"""{self.__class__.__name__} should not have more than one required field.""")
UpperCAmelCase_ = getattr(self , class_fields[0].name)
UpperCAmelCase_ = all(getattr(self , field.name) is None for field in class_fields[1:])
if other_fields_are_none and not is_tensor(_snake_case):
if isinstance(_snake_case , _snake_case):
UpperCAmelCase_ = first_field.items()
UpperCAmelCase_ = True
else:
try:
UpperCAmelCase_ = iter(_snake_case)
UpperCAmelCase_ = True
except TypeError:
UpperCAmelCase_ = False
# if we provided an iterator as first field and the iterator is a (key, value) iterator
# set the associated fields
if first_field_iterator:
for idx, element in enumerate(_snake_case):
if (
not isinstance(_snake_case , (list, tuple))
or not len(_snake_case) == 2
or not isinstance(element[0] , _snake_case)
):
if idx == 0:
# If we do not have an iterator of key/values, set it as attribute
UpperCAmelCase_ = first_field
else:
# If we have a mixed iterator, raise an error
raise ValueError(
F"""Cannot set key/value for {element}. It needs to be a tuple (key, value).""")
break
setattr(self , element[0] , element[1])
if element[1] is not None:
UpperCAmelCase_ = element[1]
elif first_field is not None:
UpperCAmelCase_ = first_field
else:
for field in class_fields:
UpperCAmelCase_ = getattr(self , field.name)
if v is not None:
UpperCAmelCase_ = v
def __delitem__( self : Tuple , *_snake_case : str , **_snake_case : Dict):
"""simple docstring"""
raise Exception(F"""You cannot use ``__delitem__`` on a {self.__class__.__name__} instance.""")
def lowerCamelCase ( self : int , *_snake_case : Optional[int] , **_snake_case : Dict):
"""simple docstring"""
raise Exception(F"""You cannot use ``setdefault`` on a {self.__class__.__name__} instance.""")
def lowerCamelCase ( self : Dict , *_snake_case : Optional[int] , **_snake_case : Optional[int]):
"""simple docstring"""
raise Exception(F"""You cannot use ``pop`` on a {self.__class__.__name__} instance.""")
def lowerCamelCase ( self : Optional[int] , *_snake_case : int , **_snake_case : Optional[Any]):
"""simple docstring"""
raise Exception(F"""You cannot use ``update`` on a {self.__class__.__name__} instance.""")
def __getitem__( self : Any , _snake_case : Optional[int]):
"""simple docstring"""
if isinstance(_snake_case , _snake_case):
UpperCAmelCase_ = dict(self.items())
return inner_dict[k]
else:
return self.to_tuple()[k]
def __setattr__( self : List[Any] , _snake_case : List[Any] , _snake_case : List[str]):
"""simple docstring"""
if name in self.keys() and value is not None:
# Don't call self.__setitem__ to avoid recursion errors
super().__setitem__(_snake_case , _snake_case)
super().__setattr__(_snake_case , _snake_case)
def __setitem__( self : Dict , _snake_case : Optional[Any] , _snake_case : List[str]):
"""simple docstring"""
super().__setitem__(_snake_case , _snake_case)
# Don't call self.__setattr__ to avoid recursion errors
super().__setattr__(_snake_case , _snake_case)
def lowerCamelCase ( self : Dict):
"""simple docstring"""
return tuple(self[k] for k in self.keys())
class __snake_case ( a , a ):
@classmethod
def lowerCamelCase ( cls : List[Any] , _snake_case : Optional[Any]):
"""simple docstring"""
raise ValueError(
F"""{value} is not a valid {cls.__name__}, please select one of {list(cls._valueamember_map_.keys())}""")
class __snake_case ( a ):
UpperCAmelCase__ : Tuple = '''longest'''
UpperCAmelCase__ : Dict = '''max_length'''
UpperCAmelCase__ : List[Any] = '''do_not_pad'''
class __snake_case ( a ):
UpperCAmelCase__ : str = '''pt'''
UpperCAmelCase__ : List[str] = '''tf'''
UpperCAmelCase__ : List[str] = '''np'''
UpperCAmelCase__ : Optional[Any] = '''jax'''
class __snake_case :
def __init__( self : List[str] , _snake_case : List[ContextManager]):
"""simple docstring"""
UpperCAmelCase_ = context_managers
UpperCAmelCase_ = ExitStack()
def __enter__( self : str):
"""simple docstring"""
for context_manager in self.context_managers:
self.stack.enter_context(_snake_case)
def __exit__( self : int , *_snake_case : List[str] , **_snake_case : Optional[Any]):
"""simple docstring"""
self.stack.__exit__(*_snake_case , **_snake_case)
def A (__A : List[Any] ) -> str:
"""simple docstring"""
UpperCAmelCase_ = infer_framework(__A )
if framework == "tf":
UpperCAmelCase_ = inspect.signature(model_class.call ) # TensorFlow models
elif framework == "pt":
UpperCAmelCase_ = inspect.signature(model_class.forward ) # PyTorch models
else:
UpperCAmelCase_ = inspect.signature(model_class.__call__ ) # Flax models
for p in signature.parameters:
if p == "return_loss" and signature.parameters[p].default is True:
return True
return False
def A (__A : Union[str, Any] ) -> int:
"""simple docstring"""
UpperCAmelCase_ = model_class.__name__
UpperCAmelCase_ = infer_framework(__A )
if framework == "tf":
UpperCAmelCase_ = inspect.signature(model_class.call ) # TensorFlow models
elif framework == "pt":
UpperCAmelCase_ = inspect.signature(model_class.forward ) # PyTorch models
else:
UpperCAmelCase_ = inspect.signature(model_class.__call__ ) # Flax models
if "QuestionAnswering" in model_name:
return [p for p in signature.parameters if "label" in p or p in ("start_positions", "end_positions")]
else:
return [p for p in signature.parameters if "label" in p]
def A (__A : MutableMapping , __A : str = "" , __A : str = "." ) -> Optional[Any]:
"""simple docstring"""
def _flatten_dict(__A : Optional[Any] , __A : int="" , __A : Any="." ):
for k, v in d.items():
UpperCAmelCase_ = str(__A ) + delimiter + str(__A ) if parent_key else k
if v and isinstance(__A , __A ):
yield from flatten_dict(__A , __A , delimiter=__A ).items()
else:
yield key, v
return dict(_flatten_dict(__A , __A , __A ) )
@contextmanager
def A (__A : Dict , __A : bool = False ) -> str:
"""simple docstring"""
if use_temp_dir:
with tempfile.TemporaryDirectory() as tmp_dir:
yield tmp_dir
else:
yield working_dir
def A (__A : List[str] , __A : Optional[int]=None ) -> Any:
"""simple docstring"""
if is_numpy_array(__A ):
return np.transpose(__A , axes=__A )
elif is_torch_tensor(__A ):
return array.T if axes is None else array.permute(*__A )
elif is_tf_tensor(__A ):
import tensorflow as tf
return tf.transpose(__A , perm=__A )
elif is_jax_tensor(__A ):
return jnp.transpose(__A , axes=__A )
else:
raise ValueError(F"""Type not supported for transpose: {type(__A )}.""" )
def A (__A : str , __A : List[Any] ) -> Union[str, Any]:
"""simple docstring"""
if is_numpy_array(__A ):
return np.reshape(__A , __A )
elif is_torch_tensor(__A ):
return array.reshape(*__A )
elif is_tf_tensor(__A ):
import tensorflow as tf
return tf.reshape(__A , __A )
elif is_jax_tensor(__A ):
return jnp.reshape(__A , __A )
else:
raise ValueError(F"""Type not supported for reshape: {type(__A )}.""" )
def A (__A : List[str] , __A : Dict=None ) -> int:
"""simple docstring"""
if is_numpy_array(__A ):
return np.squeeze(__A , axis=__A )
elif is_torch_tensor(__A ):
return array.squeeze() if axis is None else array.squeeze(dim=__A )
elif is_tf_tensor(__A ):
import tensorflow as tf
return tf.squeeze(__A , axis=__A )
elif is_jax_tensor(__A ):
return jnp.squeeze(__A , axis=__A )
else:
raise ValueError(F"""Type not supported for squeeze: {type(__A )}.""" )
def A (__A : str , __A : Dict ) -> List[str]:
"""simple docstring"""
if is_numpy_array(__A ):
return np.expand_dims(__A , __A )
elif is_torch_tensor(__A ):
return array.unsqueeze(dim=__A )
elif is_tf_tensor(__A ):
import tensorflow as tf
return tf.expand_dims(__A , axis=__A )
elif is_jax_tensor(__A ):
return jnp.expand_dims(__A , axis=__A )
else:
raise ValueError(F"""Type not supported for expand_dims: {type(__A )}.""" )
def A (__A : List[str] ) -> Optional[Any]:
"""simple docstring"""
if is_numpy_array(__A ):
return np.size(__A )
elif is_torch_tensor(__A ):
return array.numel()
elif is_tf_tensor(__A ):
import tensorflow as tf
return tf.size(__A )
elif is_jax_tensor(__A ):
return array.size
else:
raise ValueError(F"""Type not supported for expand_dims: {type(__A )}.""" )
def A (__A : int , __A : Dict ) -> Dict:
"""simple docstring"""
for key, value in auto_map.items():
if isinstance(__A , (tuple, list) ):
UpperCAmelCase_ = [F"""{repo_id}--{v}""" if (v is not None and '''--''' not in v) else v for v in value]
elif value is not None and "--" not in value:
UpperCAmelCase_ = F"""{repo_id}--{value}"""
return auto_map
def A (__A : List[str] ) -> List[str]:
"""simple docstring"""
for base_class in inspect.getmro(__A ):
UpperCAmelCase_ = base_class.__module__
UpperCAmelCase_ = base_class.__name__
if module.startswith('''tensorflow''' ) or module.startswith('''keras''' ) or name == "TFPreTrainedModel":
return "tf"
elif module.startswith('''torch''' ) or name == "PreTrainedModel":
return "pt"
elif module.startswith('''flax''' ) or module.startswith('''jax''' ) or name == "FlaxPreTrainedModel":
return "flax"
else:
raise TypeError(F"""Could not infer framework from class {model_class}.""" )
| 51
|
import warnings
from typing import List, Optional, Union
from ...image_utils import ImageInput
from ...processing_utils import ProcessorMixin
from ...tokenization_utils_base import BatchEncoding, PaddingStrategy, PreTokenizedInput, TextInput, TruncationStrategy
from ...utils import TensorType
class __snake_case ( a ):
UpperCAmelCase__ : Dict = ['''image_processor''', '''tokenizer''']
UpperCAmelCase__ : Dict = '''FlavaImageProcessor'''
UpperCAmelCase__ : Dict = ('''BertTokenizer''', '''BertTokenizerFast''')
def __init__( self : Union[str, Any] , _snake_case : List[str]=None , _snake_case : str=None , **_snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = None
if "feature_extractor" in kwargs:
warnings.warn(
'''The `feature_extractor` argument is deprecated and will be removed in v5, use `image_processor`'''
''' instead.''' , _snake_case , )
UpperCAmelCase_ = kwargs.pop('''feature_extractor''')
UpperCAmelCase_ = image_processor if image_processor is not None else feature_extractor
if image_processor is None:
raise ValueError('''You need to specify an `image_processor`.''')
if tokenizer is None:
raise ValueError('''You need to specify a `tokenizer`.''')
super().__init__(_snake_case , _snake_case)
UpperCAmelCase_ = self.image_processor
def __call__( self : List[Any] , _snake_case : Optional[ImageInput] = None , _snake_case : Optional[Union[TextInput, PreTokenizedInput, List[TextInput], List[PreTokenizedInput]]] = None , _snake_case : bool = True , _snake_case : Union[bool, str, PaddingStrategy] = False , _snake_case : Union[bool, str, TruncationStrategy] = False , _snake_case : Optional[int] = None , _snake_case : int = 0 , _snake_case : Optional[int] = None , _snake_case : Optional[bool] = None , _snake_case : Optional[bool] = None , _snake_case : Optional[bool] = None , _snake_case : Optional[bool] = None , _snake_case : bool = False , _snake_case : bool = False , _snake_case : bool = False , _snake_case : bool = False , _snake_case : bool = True , _snake_case : Optional[Union[str, TensorType]] = None , **_snake_case : Any , ):
"""simple docstring"""
if text is None and images is None:
raise ValueError('''You have to specify either text or images. Both cannot be none.''')
if text is not None:
UpperCAmelCase_ = self.tokenizer(
text=_snake_case , add_special_tokens=_snake_case , padding=_snake_case , truncation=_snake_case , max_length=_snake_case , stride=_snake_case , pad_to_multiple_of=_snake_case , return_token_type_ids=_snake_case , return_attention_mask=_snake_case , return_overflowing_tokens=_snake_case , return_special_tokens_mask=_snake_case , return_offsets_mapping=_snake_case , return_length=_snake_case , verbose=_snake_case , return_tensors=_snake_case , **_snake_case , )
if images is not None:
UpperCAmelCase_ = self.image_processor(
_snake_case , return_image_mask=_snake_case , return_codebook_pixels=_snake_case , return_tensors=_snake_case , **_snake_case , )
if text is not None and images is not None:
encoding.update(_snake_case)
return encoding
elif text is not None:
return encoding
else:
return BatchEncoding(data=dict(**_snake_case) , tensor_type=_snake_case)
def lowerCamelCase ( self : Any , *_snake_case : Optional[Any] , **_snake_case : int):
"""simple docstring"""
return self.tokenizer.batch_decode(*_snake_case , **_snake_case)
def lowerCamelCase ( self : Optional[int] , *_snake_case : int , **_snake_case : Dict):
"""simple docstring"""
return self.tokenizer.decode(*_snake_case , **_snake_case)
@property
def lowerCamelCase ( self : str):
"""simple docstring"""
UpperCAmelCase_ = self.tokenizer.model_input_names
UpperCAmelCase_ = self.image_processor.model_input_names
return list(dict.fromkeys(tokenizer_input_names + image_processor_input_names))
@property
def lowerCamelCase ( self : str):
"""simple docstring"""
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 lowerCamelCase ( self : Any):
"""simple docstring"""
warnings.warn(
'''`feature_extractor` is deprecated and will be removed in v5. Use `image_processor` instead.''' , _snake_case , )
return self.image_processor
| 51
| 1
|
class __snake_case :
def __init__( self : Optional[int] , _snake_case : str = "" , _snake_case : bool = False):
"""simple docstring"""
UpperCAmelCase_ = {}
# A node will be a leaf if the tree contains its word
UpperCAmelCase_ = is_leaf
UpperCAmelCase_ = prefix
def lowerCamelCase ( self : Union[str, Any] , _snake_case : str):
"""simple docstring"""
UpperCAmelCase_ = 0
for q, w in zip(self.prefix , _snake_case):
if q != w:
break
x += 1
return self.prefix[:x], self.prefix[x:], word[x:]
def lowerCamelCase ( self : Optional[Any] , _snake_case : list[str]):
"""simple docstring"""
for word in words:
self.insert(_snake_case)
def lowerCamelCase ( self : List[Any] , _snake_case : str):
"""simple docstring"""
if self.prefix == word:
UpperCAmelCase_ = True
# Case 2: The node has no edges that have a prefix to the word
# Solution: We create an edge from the current node to a new one
# containing the word
elif word[0] not in self.nodes:
UpperCAmelCase_ = RadixNode(prefix=_snake_case , is_leaf=_snake_case)
else:
UpperCAmelCase_ = self.nodes[word[0]]
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = incoming_node.match(
_snake_case)
# Case 3: The node prefix is equal to the matching
# Solution: We insert remaining word on the next node
if remaining_prefix == "":
self.nodes[matching_string[0]].insert(_snake_case)
# Case 4: The word is greater equal to the matching
# Solution: Create a node in between both nodes, change
# prefixes and add the new node for the remaining word
else:
UpperCAmelCase_ = remaining_prefix
UpperCAmelCase_ = self.nodes[matching_string[0]]
UpperCAmelCase_ = RadixNode(_snake_case , _snake_case)
UpperCAmelCase_ = aux_node
if remaining_word == "":
UpperCAmelCase_ = True
else:
self.nodes[matching_string[0]].insert(_snake_case)
def lowerCamelCase ( self : Any , _snake_case : str):
"""simple docstring"""
UpperCAmelCase_ = self.nodes.get(word[0] , _snake_case)
if not incoming_node:
return False
else:
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = incoming_node.match(
_snake_case)
# If there is remaining prefix, the word can't be on the tree
if remaining_prefix != "":
return False
# This applies when the word and the prefix are equal
elif remaining_word == "":
return incoming_node.is_leaf
# We have word remaining so we check the next node
else:
return incoming_node.find(_snake_case)
def lowerCamelCase ( self : Optional[int] , _snake_case : str):
"""simple docstring"""
UpperCAmelCase_ = self.nodes.get(word[0] , _snake_case)
if not incoming_node:
return False
else:
UpperCAmelCase_ , UpperCAmelCase_ , UpperCAmelCase_ = incoming_node.match(
_snake_case)
# If there is remaining prefix, the word can't be on the tree
if remaining_prefix != "":
return False
# We have word remaining so we check the next node
elif remaining_word != "":
return incoming_node.delete(_snake_case)
else:
# If it is not a leaf, we don't have to delete
if not incoming_node.is_leaf:
return False
else:
# We delete the nodes if no edges go from it
if len(incoming_node.nodes) == 0:
del self.nodes[word[0]]
# We merge the current node with its only child
if len(self.nodes) == 1 and not self.is_leaf:
UpperCAmelCase_ = list(self.nodes.values())[0]
UpperCAmelCase_ = merging_node.is_leaf
self.prefix += merging_node.prefix
UpperCAmelCase_ = merging_node.nodes
# If there is more than 1 edge, we just mark it as non-leaf
elif len(incoming_node.nodes) > 1:
UpperCAmelCase_ = False
# If there is 1 edge, we merge it with its child
else:
UpperCAmelCase_ = list(incoming_node.nodes.values())[0]
UpperCAmelCase_ = merging_node.is_leaf
incoming_node.prefix += merging_node.prefix
UpperCAmelCase_ = merging_node.nodes
return True
def lowerCamelCase ( self : Tuple , _snake_case : int = 0):
"""simple docstring"""
if self.prefix != "":
print('''-''' * height , self.prefix , ''' (leaf)''' if self.is_leaf else '''''')
for value in self.nodes.values():
value.print_tree(height + 1)
def A () -> bool:
"""simple docstring"""
UpperCAmelCase_ = '''banana bananas bandana band apple all beast'''.split()
UpperCAmelCase_ = RadixNode()
root.insert_many(__A )
assert all(root.find(__A ) for word in words )
assert not root.find('''bandanas''' )
assert not root.find('''apps''' )
root.delete('''all''' )
assert not root.find('''all''' )
root.delete('''banana''' )
assert not root.find('''banana''' )
assert root.find('''bananas''' )
return True
def A () -> None:
"""simple docstring"""
assert test_trie()
def A () -> None:
"""simple docstring"""
UpperCAmelCase_ = RadixNode()
UpperCAmelCase_ = '''banana bananas bandanas bandana band apple all beast'''.split()
root.insert_many(__A )
print('''Words:''' , __A )
print('''Tree:''' )
root.print_tree()
if __name__ == "__main__":
main()
| 51
|
from diffusers.utils.testing_utils import require_onnxruntime
@require_onnxruntime
class __snake_case :
pass
| 51
| 1
|
# Copyright 2023 The HuggingFace Inc. team. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import re
from ..utils import cached_file
# docstyle-ignore
snake_case_ : Tuple = "\nHuman: <<task>>\n\nAssistant: "
snake_case_ : List[str] = "huggingface-tools/default-prompts"
snake_case_ : int = {"chat": "chat_prompt_template.txt", "run": "run_prompt_template.txt"}
def A (__A : Tuple , __A : List[str] , __A : Any="run" ) -> Tuple:
"""simple docstring"""
if prompt_or_repo_id is None:
UpperCAmelCase_ = DEFAULT_PROMPTS_REPO
# prompt is considered a repo ID when it does not contain any kind of space
if re.search('''\\s''' , __A ) is not None:
return prompt_or_repo_id
UpperCAmelCase_ = cached_file(
__A , PROMPT_FILES[mode] , repo_type='''dataset''' , user_agent={'''agent''': agent_name} )
with open(__A , '''r''' , encoding='''utf-8''' ) as f:
return f.read()
| 51
|
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
snake_case_ : List[Any] = data_utils.TransfoXLTokenizer
snake_case_ : int = data_utils.TransfoXLCorpus
snake_case_ : List[Any] = data_utils
snake_case_ : int = data_utils
def A (__A : Dict , __A : List[Any] , __A : Union[str, Any] , __A : Tuple ) -> Union[str, Any]:
"""simple docstring"""
if transfo_xl_dataset_file:
# Convert a pre-processed corpus (see original TensorFlow repo)
with open(__A , '''rb''' ) as fp:
UpperCAmelCase_ = pickle.load(__A , encoding='''latin1''' )
# Save vocabulary and dataset cache as Dictionaries (should be better than pickles for the long-term)
UpperCAmelCase_ = pytorch_dump_folder_path + '''/''' + VOCAB_FILES_NAMES['''pretrained_vocab_file''']
print(F"""Save vocabulary to {pytorch_vocab_dump_path}""" )
UpperCAmelCase_ = corpus.vocab.__dict__
torch.save(__A , __A )
UpperCAmelCase_ = corpus.__dict__
corpus_dict_no_vocab.pop('''vocab''' , __A )
UpperCAmelCase_ = 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
UpperCAmelCase_ = os.path.abspath(__A )
UpperCAmelCase_ = 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 == "":
UpperCAmelCase_ = TransfoXLConfig()
else:
UpperCAmelCase_ = TransfoXLConfig.from_json_file(__A )
print(F"""Building PyTorch model from configuration: {config}""" )
UpperCAmelCase_ = TransfoXLLMHeadModel(__A )
UpperCAmelCase_ = load_tf_weights_in_transfo_xl(__A , __A , __A )
# Save pytorch-model
UpperCAmelCase_ = os.path.join(__A , __A )
UpperCAmelCase_ = 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__":
snake_case_ : List[str] = 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.",
)
snake_case_ : int = 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,
)
| 51
| 1
|
import sys
from typing import Tuple
import numpy as np
import torch
from PIL import Image
from torch import nn
from transformers.image_utils import PILImageResampling
from utils import img_tensorize
class __snake_case :
def __init__( self : int , _snake_case : Tuple , _snake_case : Union[str, Any]=sys.maxsize):
"""simple docstring"""
UpperCAmelCase_ = '''bilinear'''
UpperCAmelCase_ = max_size
UpperCAmelCase_ = short_edge_length
def __call__( self : Tuple , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = []
for img in imgs:
UpperCAmelCase_ , UpperCAmelCase_ = img.shape[:2]
# later: provide list and randomly choose index for resize
UpperCAmelCase_ = np.random.randint(self.short_edge_length[0] , self.short_edge_length[1] + 1)
if size == 0:
return img
UpperCAmelCase_ = size * 1.0 / min(_snake_case , _snake_case)
if h < w:
UpperCAmelCase_ , UpperCAmelCase_ = size, scale * w
else:
UpperCAmelCase_ , UpperCAmelCase_ = scale * h, size
if max(_snake_case , _snake_case) > self.max_size:
UpperCAmelCase_ = self.max_size * 1.0 / max(_snake_case , _snake_case)
UpperCAmelCase_ = newh * scale
UpperCAmelCase_ = neww * scale
UpperCAmelCase_ = int(neww + 0.5)
UpperCAmelCase_ = int(newh + 0.5)
if img.dtype == np.uinta:
UpperCAmelCase_ = Image.fromarray(_snake_case)
UpperCAmelCase_ = pil_image.resize((neww, newh) , PILImageResampling.BILINEAR)
UpperCAmelCase_ = np.asarray(_snake_case)
else:
UpperCAmelCase_ = img.permute(2 , 0 , 1).unsqueeze(0) # 3, 0, 1) # hw(c) -> nchw
UpperCAmelCase_ = nn.functional.interpolate(
_snake_case , (newh, neww) , mode=self.interp_method , align_corners=_snake_case).squeeze(0)
img_augs.append(_snake_case)
return img_augs
class __snake_case :
def __init__( self : Tuple , _snake_case : int):
"""simple docstring"""
UpperCAmelCase_ = ResizeShortestEdge([cfg.INPUT.MIN_SIZE_TEST, cfg.INPUT.MIN_SIZE_TEST] , cfg.INPUT.MAX_SIZE_TEST)
UpperCAmelCase_ = cfg.INPUT.FORMAT
UpperCAmelCase_ = cfg.SIZE_DIVISIBILITY
UpperCAmelCase_ = cfg.PAD_VALUE
UpperCAmelCase_ = cfg.INPUT.MAX_SIZE_TEST
UpperCAmelCase_ = cfg.MODEL.DEVICE
UpperCAmelCase_ = torch.tensor(cfg.MODEL.PIXEL_STD).to(self.device).view(len(cfg.MODEL.PIXEL_STD) , 1 , 1)
UpperCAmelCase_ = torch.tensor(cfg.MODEL.PIXEL_MEAN).to(self.device).view(len(cfg.MODEL.PIXEL_STD) , 1 , 1)
UpperCAmelCase_ = lambda _snake_case: (x - self.pixel_mean) / self.pixel_std
def lowerCamelCase ( self : str , _snake_case : List[str]):
"""simple docstring"""
UpperCAmelCase_ = tuple(max(_snake_case) for s in zip(*[img.shape for img in images]))
UpperCAmelCase_ = [im.shape[-2:] for im in images]
UpperCAmelCase_ = [
nn.functional.pad(
_snake_case , [0, max_size[-1] - size[1], 0, max_size[-2] - size[0]] , value=self.pad_value , )
for size, im in zip(_snake_case , _snake_case)
]
return torch.stack(_snake_case), torch.tensor(_snake_case)
def __call__( self : str , _snake_case : List[str] , _snake_case : int=False):
"""simple docstring"""
with torch.no_grad():
if not isinstance(_snake_case , _snake_case):
UpperCAmelCase_ = [images]
if single_image:
assert len(_snake_case) == 1
for i in range(len(_snake_case)):
if isinstance(images[i] , torch.Tensor):
images.insert(_snake_case , images.pop(_snake_case).to(self.device).float())
elif not isinstance(images[i] , torch.Tensor):
images.insert(
_snake_case , torch.as_tensor(img_tensorize(images.pop(_snake_case) , input_format=self.input_format))
.to(self.device)
.float() , )
# resize smallest edge
UpperCAmelCase_ = torch.tensor([im.shape[:2] for im in images])
UpperCAmelCase_ = self.aug(_snake_case)
# transpose images and convert to torch tensors
# images = [torch.as_tensor(i.astype("float32")).permute(2, 0, 1).to(self.device) for i in images]
# now normalize before pad to avoid useless arithmetic
UpperCAmelCase_ = [self.normalizer(_snake_case) for x in images]
# now pad them to do the following operations
UpperCAmelCase_ , UpperCAmelCase_ = self.pad(_snake_case)
# Normalize
if self.size_divisibility > 0:
raise NotImplementedError()
# pad
UpperCAmelCase_ = torch.true_divide(_snake_case , _snake_case)
if single_image:
return images[0], sizes[0], scales_yx[0]
else:
return images, sizes, scales_yx
def A (__A : Optional[Any] , __A : Optional[int] ) -> List[Any]:
"""simple docstring"""
boxes[:, 0::2] *= scale_yx[:, 1]
boxes[:, 1::2] *= scale_yx[:, 0]
return boxes
def A (__A : int , __A : Tuple[int, int] ) -> Tuple:
"""simple docstring"""
assert torch.isfinite(__A ).all(), "Box tensor contains infinite or NaN!"
UpperCAmelCase_ , UpperCAmelCase_ = box_size
tensor[:, 0].clamp_(min=0 , max=__A )
tensor[:, 1].clamp_(min=0 , max=__A )
tensor[:, 2].clamp_(min=0 , max=__A )
tensor[:, 3].clamp_(min=0 , max=__A )
| 51
|
from typing import Optional, Tuple, Union
import torch
from einops import rearrange, reduce
from diffusers import DDIMScheduler, DDPMScheduler, DiffusionPipeline, ImagePipelineOutput, UNetaDConditionModel
from diffusers.schedulers.scheduling_ddim import DDIMSchedulerOutput
from diffusers.schedulers.scheduling_ddpm import DDPMSchedulerOutput
snake_case_ : List[str] = 8
def A (__A : Union[str, Any] , __A : List[Any]=BITS ) -> Tuple:
"""simple docstring"""
UpperCAmelCase_ = x.device
UpperCAmelCase_ = (x * 255).int().clamp(0 , 255 )
UpperCAmelCase_ = 2 ** torch.arange(bits - 1 , -1 , -1 , device=__A )
UpperCAmelCase_ = rearrange(__A , '''d -> d 1 1''' )
UpperCAmelCase_ = rearrange(__A , '''b c h w -> b c 1 h w''' )
UpperCAmelCase_ = ((x & mask) != 0).float()
UpperCAmelCase_ = rearrange(__A , '''b c d h w -> b (c d) h w''' )
UpperCAmelCase_ = bits * 2 - 1
return bits
def A (__A : Dict , __A : Tuple=BITS ) -> List[str]:
"""simple docstring"""
UpperCAmelCase_ = x.device
UpperCAmelCase_ = (x > 0).int()
UpperCAmelCase_ = 2 ** torch.arange(bits - 1 , -1 , -1 , device=__A , dtype=torch.intaa )
UpperCAmelCase_ = rearrange(__A , '''d -> d 1 1''' )
UpperCAmelCase_ = rearrange(__A , '''b (c d) h w -> b c d h w''' , d=8 )
UpperCAmelCase_ = reduce(x * mask , '''b c d h w -> b c h w''' , '''sum''' )
return (dec / 255).clamp(0.0 , 1.0 )
def A (self : List[Any] , __A : torch.FloatTensor , __A : int , __A : torch.FloatTensor , __A : float = 0.0 , __A : bool = True , __A : Tuple=None , __A : bool = True , ) -> Union[DDIMSchedulerOutput, Tuple]:
"""simple docstring"""
if self.num_inference_steps is None:
raise ValueError(
'''Number of inference steps is \'None\', you need to run \'set_timesteps\' after creating the scheduler''' )
# See formulas (12) and (16) of DDIM paper https://arxiv.org/pdf/2010.02502.pdf
# Ideally, read DDIM paper in-detail understanding
# Notation (<variable name> -> <name in paper>
# - pred_noise_t -> e_theta(x_t, t)
# - pred_original_sample -> f_theta(x_t, t) or x_0
# - std_dev_t -> sigma_t
# - eta -> η
# - pred_sample_direction -> "direction pointing to x_t"
# - pred_prev_sample -> "x_t-1"
# 1. get previous step value (=t-1)
UpperCAmelCase_ = timestep - self.config.num_train_timesteps // self.num_inference_steps
# 2. compute alphas, betas
UpperCAmelCase_ = self.alphas_cumprod[timestep]
UpperCAmelCase_ = self.alphas_cumprod[prev_timestep] if prev_timestep >= 0 else self.final_alpha_cumprod
UpperCAmelCase_ = 1 - alpha_prod_t
# 3. compute predicted original sample from predicted noise also called
# "predicted x_0" of formula (12) from https://arxiv.org/pdf/2010.02502.pdf
UpperCAmelCase_ = (sample - beta_prod_t ** 0.5 * model_output) / alpha_prod_t ** 0.5
# 4. Clip "predicted x_0"
UpperCAmelCase_ = self.bit_scale
if self.config.clip_sample:
UpperCAmelCase_ = torch.clamp(__A , -scale , __A )
# 5. compute variance: "sigma_t(η)" -> see formula (16)
# σ_t = sqrt((1 − α_t−1)/(1 − α_t)) * sqrt(1 − α_t/α_t−1)
UpperCAmelCase_ = self._get_variance(__A , __A )
UpperCAmelCase_ = eta * variance ** 0.5
if use_clipped_model_output:
# the model_output is always re-derived from the clipped x_0 in Glide
UpperCAmelCase_ = (sample - alpha_prod_t ** 0.5 * pred_original_sample) / beta_prod_t ** 0.5
# 6. compute "direction pointing to x_t" of formula (12) from https://arxiv.org/pdf/2010.02502.pdf
UpperCAmelCase_ = (1 - alpha_prod_t_prev - std_dev_t**2) ** 0.5 * model_output
# 7. compute x_t without "random noise" of formula (12) from https://arxiv.org/pdf/2010.02502.pdf
UpperCAmelCase_ = alpha_prod_t_prev ** 0.5 * pred_original_sample + pred_sample_direction
if eta > 0:
# randn_like does not support generator https://github.com/pytorch/pytorch/issues/27072
UpperCAmelCase_ = model_output.device if torch.is_tensor(__A ) else '''cpu'''
UpperCAmelCase_ = torch.randn(model_output.shape , dtype=model_output.dtype , generator=__A ).to(__A )
UpperCAmelCase_ = self._get_variance(__A , __A ) ** 0.5 * eta * noise
UpperCAmelCase_ = prev_sample + variance
if not return_dict:
return (prev_sample,)
return DDIMSchedulerOutput(prev_sample=__A , pred_original_sample=__A )
def A (self : Optional[int] , __A : torch.FloatTensor , __A : int , __A : torch.FloatTensor , __A : int="epsilon" , __A : Optional[Any]=None , __A : bool = True , ) -> Union[DDPMSchedulerOutput, Tuple]:
"""simple docstring"""
UpperCAmelCase_ = timestep
if model_output.shape[1] == sample.shape[1] * 2 and self.variance_type in ["learned", "learned_range"]:
UpperCAmelCase_ , UpperCAmelCase_ = torch.split(__A , sample.shape[1] , dim=1 )
else:
UpperCAmelCase_ = None
# 1. compute alphas, betas
UpperCAmelCase_ = self.alphas_cumprod[t]
UpperCAmelCase_ = self.alphas_cumprod[t - 1] if t > 0 else self.one
UpperCAmelCase_ = 1 - alpha_prod_t
UpperCAmelCase_ = 1 - alpha_prod_t_prev
# 2. compute predicted original sample from predicted noise also called
# "predicted x_0" of formula (15) from https://arxiv.org/pdf/2006.11239.pdf
if prediction_type == "epsilon":
UpperCAmelCase_ = (sample - beta_prod_t ** 0.5 * model_output) / alpha_prod_t ** 0.5
elif prediction_type == "sample":
UpperCAmelCase_ = model_output
else:
raise ValueError(F"""Unsupported prediction_type {prediction_type}.""" )
# 3. Clip "predicted x_0"
UpperCAmelCase_ = self.bit_scale
if self.config.clip_sample:
UpperCAmelCase_ = torch.clamp(__A , -scale , __A )
# 4. Compute coefficients for pred_original_sample x_0 and current sample x_t
# See formula (7) from https://arxiv.org/pdf/2006.11239.pdf
UpperCAmelCase_ = (alpha_prod_t_prev ** 0.5 * self.betas[t]) / beta_prod_t
UpperCAmelCase_ = self.alphas[t] ** 0.5 * beta_prod_t_prev / beta_prod_t
# 5. Compute predicted previous sample µ_t
# See formula (7) from https://arxiv.org/pdf/2006.11239.pdf
UpperCAmelCase_ = pred_original_sample_coeff * pred_original_sample + current_sample_coeff * sample
# 6. Add noise
UpperCAmelCase_ = 0
if t > 0:
UpperCAmelCase_ = torch.randn(
model_output.size() , dtype=model_output.dtype , layout=model_output.layout , generator=__A ).to(model_output.device )
UpperCAmelCase_ = (self._get_variance(__A , predicted_variance=__A ) ** 0.5) * noise
UpperCAmelCase_ = pred_prev_sample + variance
if not return_dict:
return (pred_prev_sample,)
return DDPMSchedulerOutput(prev_sample=__A , pred_original_sample=__A )
class __snake_case ( a ):
def __init__( self : Union[str, Any] , _snake_case : UNetaDConditionModel , _snake_case : Union[DDIMScheduler, DDPMScheduler] , _snake_case : Optional[float] = 1.0 , ):
"""simple docstring"""
super().__init__()
UpperCAmelCase_ = bit_scale
UpperCAmelCase_ = (
ddim_bit_scheduler_step if isinstance(_snake_case , _snake_case) else ddpm_bit_scheduler_step
)
self.register_modules(unet=_snake_case , scheduler=_snake_case)
@torch.no_grad()
def __call__( self : Union[str, Any] , _snake_case : Optional[int] = 256 , _snake_case : Optional[int] = 256 , _snake_case : Optional[int] = 50 , _snake_case : Optional[torch.Generator] = None , _snake_case : Optional[int] = 1 , _snake_case : Optional[str] = "pil" , _snake_case : bool = True , **_snake_case : Optional[Any] , ):
"""simple docstring"""
UpperCAmelCase_ = torch.randn(
(batch_size, self.unet.config.in_channels, height, width) , generator=_snake_case , )
UpperCAmelCase_ = decimal_to_bits(_snake_case) * self.bit_scale
UpperCAmelCase_ = latents.to(self.device)
self.scheduler.set_timesteps(_snake_case)
for t in self.progress_bar(self.scheduler.timesteps):
# predict the noise residual
UpperCAmelCase_ = self.unet(_snake_case , _snake_case).sample
# compute the previous noisy sample x_t -> x_t-1
UpperCAmelCase_ = self.scheduler.step(_snake_case , _snake_case , _snake_case).prev_sample
UpperCAmelCase_ = bits_to_decimal(_snake_case)
if output_type == "pil":
UpperCAmelCase_ = self.numpy_to_pil(_snake_case)
if not return_dict:
return (image,)
return ImagePipelineOutput(images=_snake_case)
| 51
| 1
|
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