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# coding=utf-8 | |
# Copyright 2022 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 argparse | |
import collections.abc | |
import copy | |
import inspect | |
import json | |
import multiprocessing | |
import os | |
import shutil | |
import tempfile | |
import traceback | |
from pathlib import Path | |
from check_config_docstrings import get_checkpoint_from_config_class | |
from datasets import load_dataset | |
from get_test_info import get_model_to_tester_mapping, get_tester_classes_for_model | |
from huggingface_hub import Repository, create_repo, hf_api, upload_folder | |
from transformers import ( | |
CONFIG_MAPPING, | |
FEATURE_EXTRACTOR_MAPPING, | |
IMAGE_PROCESSOR_MAPPING, | |
PROCESSOR_MAPPING, | |
TOKENIZER_MAPPING, | |
AutoTokenizer, | |
LayoutLMv3TokenizerFast, | |
PreTrainedTokenizer, | |
PreTrainedTokenizerFast, | |
logging, | |
) | |
from transformers.feature_extraction_utils import FeatureExtractionMixin | |
from transformers.file_utils import is_tf_available, is_torch_available | |
from transformers.image_processing_utils import BaseImageProcessor | |
from transformers.models.auto.configuration_auto import AutoConfig, model_type_to_module_name | |
from transformers.models.fsmt import configuration_fsmt | |
from transformers.processing_utils import ProcessorMixin, transformers_module | |
from transformers.tokenization_utils_base import PreTrainedTokenizerBase | |
# make sure tokenizer plays nice with multiprocessing | |
os.environ["TOKENIZERS_PARALLELISM"] = "false" | |
logging.set_verbosity_error() | |
logging.disable_progress_bar() | |
logger = logging.get_logger(__name__) | |
os.environ["TF_CPP_MIN_LOG_LEVEL"] = "3" | |
if not is_torch_available(): | |
raise ValueError("Please install PyTorch.") | |
if not is_tf_available(): | |
raise ValueError("Please install TensorFlow.") | |
FRAMEWORKS = ["pytorch", "tensorflow"] | |
INVALID_ARCH = [] | |
TARGET_VOCAB_SIZE = 1024 | |
data = {"training_ds": None, "testing_ds": None} | |
COMPOSITE_MODELS = { | |
"EncoderDecoderModel": "EncoderDecoderModel-bert-bert", | |
"SpeechEncoderDecoderModel": "SpeechEncoderDecoderModel-wav2vec2-bert", | |
"VisionEncoderDecoderModel": "VisionEncoderDecoderModel-vit-gpt2", | |
"VisionTextDualEncoderModel": "VisionTextDualEncoderModel-vit-bert", | |
} | |
# This list contains the model architectures for which a tiny version could not be created. | |
# Avoid to add new architectures here - unless we have verified carefully that it's (almost) impossible to create them. | |
# One such case is: no model tester class is implemented for a model type (like `MT5`) because its architecture is | |
# identical to another one (`MT5` is based on `T5`), but trained on different datasets or with different techniques. | |
UNCONVERTIBLE_MODEL_ARCHITECTURES = { | |
"BertGenerationEncoder", | |
"BertGenerationDecoder", | |
"CamembertForSequenceClassification", | |
"CamembertForMultipleChoice", | |
"CamembertForMaskedLM", | |
"CamembertForCausalLM", | |
"CamembertForTokenClassification", | |
"CamembertForQuestionAnswering", | |
"CamembertModel", | |
"TFCamembertForMultipleChoice", | |
"TFCamembertForTokenClassification", | |
"TFCamembertForQuestionAnswering", | |
"TFCamembertForSequenceClassification", | |
"TFCamembertForMaskedLM", | |
"TFCamembertModel", | |
"TFCamembertForCausalLM", | |
"DecisionTransformerModel", | |
"GraphormerModel", | |
"InformerModel", | |
"JukeboxModel", | |
"MarianForCausalLM", | |
"MaskFormerSwinModel", | |
"MaskFormerSwinBackbone", | |
"MT5Model", | |
"MT5ForConditionalGeneration", | |
"UMT5ForConditionalGeneration", | |
"TFMT5ForConditionalGeneration", | |
"TFMT5Model", | |
"QDQBertForSequenceClassification", | |
"QDQBertForMaskedLM", | |
"QDQBertModel", | |
"QDQBertForTokenClassification", | |
"QDQBertLMHeadModel", | |
"QDQBertForMultipleChoice", | |
"QDQBertForQuestionAnswering", | |
"QDQBertForNextSentencePrediction", | |
"ReformerModelWithLMHead", | |
"RetriBertModel", | |
"Speech2Text2ForCausalLM", | |
"TimeSeriesTransformerModel", | |
"TrajectoryTransformerModel", | |
"TrOCRForCausalLM", | |
"XLMProphetNetForConditionalGeneration", | |
"XLMProphetNetForCausalLM", | |
"XLMProphetNetModel", | |
"XLMRobertaModel", | |
"XLMRobertaForTokenClassification", | |
"XLMRobertaForMultipleChoice", | |
"XLMRobertaForMaskedLM", | |
"XLMRobertaForCausalLM", | |
"XLMRobertaForSequenceClassification", | |
"XLMRobertaForQuestionAnswering", | |
"TFXLMRobertaForSequenceClassification", | |
"TFXLMRobertaForMaskedLM", | |
"TFXLMRobertaForCausalLM", | |
"TFXLMRobertaForQuestionAnswering", | |
"TFXLMRobertaModel", | |
"TFXLMRobertaForMultipleChoice", | |
"TFXLMRobertaForTokenClassification", | |
} | |
def get_processor_types_from_config_class(config_class, allowed_mappings=None): | |
"""Return a tuple of processors for `config_class`. | |
We use `tuple` here to include (potentially) both slow & fast tokenizers. | |
""" | |
# To make a uniform return type | |
def _to_tuple(x): | |
if not isinstance(x, collections.abc.Sequence): | |
x = (x,) | |
else: | |
x = tuple(x) | |
return x | |
if allowed_mappings is None: | |
allowed_mappings = ["processor", "tokenizer", "image_processor", "feature_extractor"] | |
processor_types = () | |
# Check first if a model has `ProcessorMixin`. Otherwise, check if it has tokenizers, and/or an image processor or | |
# a feature extractor | |
if config_class in PROCESSOR_MAPPING and "processor" in allowed_mappings: | |
processor_types = _to_tuple(PROCESSOR_MAPPING[config_class]) | |
else: | |
if config_class in TOKENIZER_MAPPING and "tokenizer" in allowed_mappings: | |
processor_types = TOKENIZER_MAPPING[config_class] | |
if config_class in IMAGE_PROCESSOR_MAPPING and "image_processor" in allowed_mappings: | |
processor_types += _to_tuple(IMAGE_PROCESSOR_MAPPING[config_class]) | |
elif config_class in FEATURE_EXTRACTOR_MAPPING and "feature_extractor" in allowed_mappings: | |
processor_types += _to_tuple(FEATURE_EXTRACTOR_MAPPING[config_class]) | |
# Remark: some configurations have no processor at all. For example, generic composite models like | |
# `EncoderDecoderModel` is used for any (compatible) text models. Also, `DecisionTransformer` doesn't | |
# require any processor. | |
# We might get `None` for some tokenizers - remove them here. | |
processor_types = tuple(p for p in processor_types if p is not None) | |
return processor_types | |
def get_architectures_from_config_class(config_class, arch_mappings, models_to_skip=None): | |
"""Return a tuple of all possible architectures attributed to a configuration class `config_class`. | |
For example, BertConfig -> [BertModel, BertForMaskedLM, ..., BertForQuestionAnswering]. | |
""" | |
# A model architecture could appear in several mappings. For example, `BartForConditionalGeneration` is in | |
# - MODEL_FOR_PRETRAINING_MAPPING_NAMES | |
# - MODEL_WITH_LM_HEAD_MAPPING_NAMES | |
# - MODEL_FOR_MASKED_LM_MAPPING_NAMES | |
# - MODEL_FOR_SEQ_TO_SEQ_CAUSAL_LM_MAPPING_NAMES | |
# We avoid the duplication. | |
architectures = set() | |
if models_to_skip is None: | |
models_to_skip = [] | |
models_to_skip = UNCONVERTIBLE_MODEL_ARCHITECTURES.union(models_to_skip) | |
for mapping in arch_mappings: | |
if config_class in mapping: | |
models = mapping[config_class] | |
models = tuple(models) if isinstance(models, collections.abc.Sequence) else (models,) | |
for model in models: | |
if model.__name__ not in models_to_skip: | |
architectures.add(model) | |
architectures = tuple(architectures) | |
return architectures | |
def get_config_class_from_processor_class(processor_class): | |
"""Get the config class from a processor class. | |
Some config/model classes use tokenizers/feature_extractors from other models. For example, `GPT-J` uses | |
`GPT2Tokenizer`. If no checkpoint is found for a config class, or a checkpoint is found without necessary file(s) to | |
create the processor for `processor_class`, we get the config class that corresponds to `processor_class` and use it | |
to find a checkpoint in order to create the processor. | |
""" | |
processor_prefix = processor_class.__name__ | |
for postfix in ["TokenizerFast", "Tokenizer", "ImageProcessor", "FeatureExtractor", "Processor"]: | |
processor_prefix = processor_prefix.replace(postfix, "") | |
# `Wav2Vec2CTCTokenizer` -> `Wav2Vec2Config` | |
if processor_prefix == "Wav2Vec2CTC": | |
processor_prefix = "Wav2Vec2" | |
# Find the new configuration class | |
new_config_name = f"{processor_prefix}Config" | |
new_config_class = getattr(transformers_module, new_config_name) | |
return new_config_class | |
def build_processor(config_class, processor_class, allow_no_checkpoint=False): | |
"""Create a processor for `processor_class`. | |
If a processor is not able to be built with the original arguments, this method tries to change the arguments and | |
call itself recursively, by inferring a new `config_class` or a new `processor_class` from another one, in order to | |
find a checkpoint containing the necessary files to build a processor. | |
The processor is not saved here. Instead, it will be saved in `convert_processors` after further changes in | |
`convert_processors`. For each model architecture`, a copy will be created and saved along the built model. | |
""" | |
# Currently, this solely uses the docstring in the source file of `config_class` to find a checkpoint. | |
checkpoint = get_checkpoint_from_config_class(config_class) | |
if checkpoint is None: | |
# try to get the checkpoint from the config class for `processor_class`. | |
# This helps cases like `XCLIPConfig` and `VideoMAEFeatureExtractor` to find a checkpoint from `VideoMAEConfig`. | |
config_class_from_processor_class = get_config_class_from_processor_class(processor_class) | |
checkpoint = get_checkpoint_from_config_class(config_class_from_processor_class) | |
processor = None | |
try: | |
processor = processor_class.from_pretrained(checkpoint) | |
except Exception as e: | |
logger.error(f"{e.__class__.__name__}: {e}") | |
# Try to get a new processor class from checkpoint. This is helpful for a checkpoint without necessary file to load | |
# processor while `processor_class` is an Auto class. For example, `sew` has `Wav2Vec2Processor` in | |
# `PROCESSOR_MAPPING_NAMES`, its `tokenizer_class` is `AutoTokenizer`, and the checkpoint | |
# `https://huggingface.co/asapp/sew-tiny-100k` has no tokenizer file, but we can get | |
# `tokenizer_class: Wav2Vec2CTCTokenizer` from the config file. (The new processor class won't be able to load from | |
# `checkpoint`, but it helps this recursive method to find a way to build a processor). | |
if ( | |
processor is None | |
and checkpoint is not None | |
and issubclass(processor_class, (PreTrainedTokenizerBase, AutoTokenizer)) | |
): | |
try: | |
config = AutoConfig.from_pretrained(checkpoint) | |
except Exception as e: | |
logger.error(f"{e.__class__.__name__}: {e}") | |
config = None | |
if config is not None: | |
if not isinstance(config, config_class): | |
raise ValueError( | |
f"`config` (which is of type {config.__class__.__name__}) should be an instance of `config_class`" | |
f" ({config_class.__name__})!" | |
) | |
tokenizer_class = config.tokenizer_class | |
new_processor_class = None | |
if tokenizer_class is not None: | |
new_processor_class = getattr(transformers_module, tokenizer_class) | |
if new_processor_class != processor_class: | |
processor = build_processor(config_class, new_processor_class) | |
# If `tokenizer_class` is not specified in `config`, let's use `config` to get the process class via auto | |
# mappings, but only allow the tokenizer mapping being used. This is to make `Wav2Vec2Conformer` build | |
if processor is None: | |
new_processor_classes = get_processor_types_from_config_class( | |
config.__class__, allowed_mappings=["tokenizer"] | |
) | |
# Used to avoid infinite recursion between a pair of fast/slow tokenizer types | |
names = [ | |
x.__name__.replace("Fast", "") for x in [processor_class, new_processor_class] if x is not None | |
] | |
new_processor_classes = [ | |
x for x in new_processor_classes if x is not None and x.__name__.replace("Fast", "") not in names | |
] | |
if len(new_processor_classes) > 0: | |
new_processor_class = new_processor_classes[0] | |
# Let's use fast tokenizer if there is any | |
for x in new_processor_classes: | |
if x.__name__.endswith("Fast"): | |
new_processor_class = x | |
break | |
processor = build_processor(config_class, new_processor_class) | |
if processor is None: | |
# Try to build each component (tokenizer & feature extractor) of a `ProcessorMixin`. | |
if issubclass(processor_class, ProcessorMixin): | |
attrs = {} | |
for attr_name in processor_class.attributes: | |
attrs[attr_name] = [] | |
# This could be a tuple (for tokenizers). For example, `CLIPProcessor` has | |
# - feature_extractor_class = "CLIPFeatureExtractor" | |
# - tokenizer_class = ("CLIPTokenizer", "CLIPTokenizerFast") | |
attr_class_names = getattr(processor_class, f"{attr_name}_class") | |
if not isinstance(attr_class_names, tuple): | |
attr_class_names = (attr_class_names,) | |
for name in attr_class_names: | |
attr_class = getattr(transformers_module, name) | |
attr = build_processor(config_class, attr_class) | |
if attr is not None: | |
attrs[attr_name].append(attr) | |
# try to build a `ProcessorMixin`, so we can return a single value | |
if all(len(v) > 0 for v in attrs.values()): | |
try: | |
processor = processor_class(**{k: v[0] for k, v in attrs.items()}) | |
except Exception as e: | |
logger.error(f"{e.__class__.__name__}: {e}") | |
else: | |
# `checkpoint` might lack some file(s) to load a processor. For example, `facebook/hubert-base-ls960` | |
# has no tokenizer file to load `Wav2Vec2CTCTokenizer`. In this case, we try to build a processor | |
# with the configuration class (for example, `Wav2Vec2Config`) corresponding to `processor_class`. | |
config_class_from_processor_class = get_config_class_from_processor_class(processor_class) | |
if config_class_from_processor_class != config_class: | |
processor = build_processor(config_class_from_processor_class, processor_class) | |
# Try to create an image processor or a feature extractor without any checkpoint | |
if ( | |
processor is None | |
and allow_no_checkpoint | |
and (issubclass(processor_class, BaseImageProcessor) or issubclass(processor_class, FeatureExtractionMixin)) | |
): | |
try: | |
processor = processor_class() | |
except Exception as e: | |
logger.error(f"{e.__class__.__name__}: {e}") | |
# validation | |
if processor is not None: | |
if not (isinstance(processor, processor_class) or processor_class.__name__.startswith("Auto")): | |
raise ValueError( | |
f"`processor` (which is of type {processor.__class__.__name__}) should be an instance of" | |
f" {processor_class.__name__} or an Auto class!" | |
) | |
return processor | |
def get_tiny_config(config_class, model_class=None, **model_tester_kwargs): | |
"""Retrieve a tiny configuration from `config_class` using each model's `ModelTester`. | |
Args: | |
config_class: Subclass of `PreTrainedConfig`. | |
Returns: | |
An instance of `config_class` with tiny hyperparameters | |
""" | |
model_type = config_class.model_type | |
# For model type like `data2vec-vision` and `donut-swin`, we can't get the config/model file name directly via | |
# `model_type` as it would be sth. like `configuration_data2vec_vision.py`. | |
# A simple way is to use `inspect.getsourcefile(config_class)`. | |
config_source_file = inspect.getsourcefile(config_class) | |
# The modeling file name without prefix (`modeling_`) and postfix (`.py`) | |
modeling_name = config_source_file.split(os.path.sep)[-1].replace("configuration_", "").replace(".py", "") | |
try: | |
print("Importing", model_type_to_module_name(model_type)) | |
module_name = model_type_to_module_name(model_type) | |
if not modeling_name.startswith(module_name): | |
raise ValueError(f"{modeling_name} doesn't start with {module_name}!") | |
test_file = os.path.join("tests", "models", module_name, f"test_modeling_{modeling_name}.py") | |
models_to_model_testers = get_model_to_tester_mapping(test_file) | |
# Find the model tester class | |
model_tester_class = None | |
tester_classes = [] | |
if model_class is not None: | |
tester_classes = get_tester_classes_for_model(test_file, model_class) | |
else: | |
for _tester_classes in models_to_model_testers.values(): | |
tester_classes.extend(_tester_classes) | |
if len(tester_classes) > 0: | |
# sort with the length of the class names first, then the alphabetical order | |
# This is to avoid `T5EncoderOnlyModelTest` is used instead of `T5ModelTest`, which has | |
# `is_encoder_decoder=False` and causes some pipeline tests failing (also failures in `Optimum` CI). | |
# TODO: More fine grained control of the desired tester class. | |
model_tester_class = sorted(tester_classes, key=lambda x: (len(x.__name__), x.__name__))[0] | |
except ModuleNotFoundError: | |
error = f"Tiny config not created for {model_type} - cannot find the testing module from the model name." | |
raise ValueError(error) | |
if model_tester_class is None: | |
error = f"Tiny config not created for {model_type} - no model tester is found in the testing module." | |
raise ValueError(error) | |
# `parent` is an instance of `unittest.TestCase`, but we don't need it here. | |
model_tester = model_tester_class(parent=None, **model_tester_kwargs) | |
if hasattr(model_tester, "get_pipeline_config"): | |
return model_tester.get_pipeline_config() | |
elif hasattr(model_tester, "prepare_config_and_inputs"): | |
# `PoolFormer` has no `get_config` defined. Furthermore, it's better to use `prepare_config_and_inputs` even if | |
# `get_config` is defined, since there might be some extra changes in `prepare_config_and_inputs`. | |
return model_tester.prepare_config_and_inputs()[0] | |
elif hasattr(model_tester, "get_config"): | |
return model_tester.get_config() | |
else: | |
error = ( | |
f"Tiny config not created for {model_type} - the model tester {model_tester_class.__name__} lacks" | |
" necessary method to create config." | |
) | |
raise ValueError(error) | |
def convert_tokenizer(tokenizer_fast: PreTrainedTokenizerFast): | |
new_tokenizer = tokenizer_fast.train_new_from_iterator( | |
data["training_ds"]["text"], TARGET_VOCAB_SIZE, show_progress=False | |
) | |
# Make sure it at least runs | |
if not isinstance(new_tokenizer, LayoutLMv3TokenizerFast): | |
new_tokenizer(data["testing_ds"]["text"]) | |
return new_tokenizer | |
def convert_feature_extractor(feature_extractor, tiny_config): | |
to_convert = False | |
kwargs = {} | |
if hasattr(tiny_config, "image_size"): | |
kwargs["size"] = tiny_config.image_size | |
kwargs["crop_size"] = tiny_config.image_size | |
to_convert = True | |
elif ( | |
hasattr(tiny_config, "vision_config") | |
and tiny_config.vision_config is not None | |
and hasattr(tiny_config.vision_config, "image_size") | |
): | |
kwargs["size"] = tiny_config.vision_config.image_size | |
kwargs["crop_size"] = tiny_config.vision_config.image_size | |
to_convert = True | |
# Speech2TextModel specific. | |
if hasattr(tiny_config, "input_feat_per_channel"): | |
kwargs["feature_size"] = tiny_config.input_feat_per_channel | |
kwargs["num_mel_bins"] = tiny_config.input_feat_per_channel | |
to_convert = True | |
if to_convert: | |
feature_extractor = feature_extractor.__class__(**kwargs) | |
return feature_extractor | |
def convert_processors(processors, tiny_config, output_folder, result): | |
"""Change a processor to work with smaller inputs. | |
For tokenizers, we try to reduce their vocabulary size. | |
For feature extractor, we use smaller image size or change | |
other attributes using the values from `tiny_config`. See `convert_feature_extractor`. | |
This method should not fail: we catch the errors and put them in `result["warnings"]` with descriptive messages. | |
""" | |
def _sanity_check(fast_tokenizer, slow_tokenizer, keep_fast_tokenizer=False): | |
"""Set tokenizer(s) to `None` if the fast/slow tokenizers have different values for `vocab_size` or `length`. | |
If `keep_fast_tokenizer=True`, the fast tokenizer will be kept. | |
""" | |
# sanity check 1: fast and slow tokenizers should be compatible (vocab_size) | |
if fast_tokenizer is not None and slow_tokenizer is not None: | |
if fast_tokenizer.vocab_size != slow_tokenizer.vocab_size: | |
warning_messagae = ( | |
"The fast/slow tokenizers " | |
f"({fast_tokenizer.__class__.__name__}/{slow_tokenizer.__class__.__name__}) have different " | |
"vocabulary size: " | |
f"fast_tokenizer.vocab_size = {fast_tokenizer.vocab_size} and " | |
f"slow_tokenizer.vocab_size = {slow_tokenizer.vocab_size}." | |
) | |
result["warnings"].append(warning_messagae) | |
if not keep_fast_tokenizer: | |
fast_tokenizer = None | |
slow_tokenizer = None | |
# sanity check 2: fast and slow tokenizers should be compatible (length) | |
if fast_tokenizer is not None and slow_tokenizer is not None: | |
if len(fast_tokenizer) != len(slow_tokenizer): | |
warning_messagae = ( | |
f"The fast/slow tokenizers () have different length: " | |
f"len(fast_tokenizer) = {len(fast_tokenizer)} and " | |
f"len(slow_tokenizer) = {len(slow_tokenizer)}." | |
) | |
result["warnings"].append(warning_messagae) | |
if not keep_fast_tokenizer: | |
fast_tokenizer = None | |
slow_tokenizer = None | |
return fast_tokenizer, slow_tokenizer | |
tokenizers = [] | |
feature_extractors = [] | |
for processor in processors: | |
if isinstance(processor, PreTrainedTokenizerBase): | |
if processor.__class__.__name__ not in {x.__class__.__name__ for x in tokenizers}: | |
tokenizers.append(processor) | |
elif isinstance(processor, BaseImageProcessor): | |
if processor.__class__.__name__ not in {x.__class__.__name__ for x in feature_extractors}: | |
feature_extractors.append(processor) | |
elif isinstance(processor, FeatureExtractionMixin): | |
if processor.__class__.__name__ not in {x.__class__.__name__ for x in feature_extractors}: | |
feature_extractors.append(processor) | |
elif isinstance(processor, ProcessorMixin): | |
if hasattr(processor, "tokenizer"): | |
if processor.tokenizer.__class__.__name__ not in {x.__class__.__name__ for x in tokenizers}: | |
tokenizers.append(processor.tokenizer) | |
# Currently, we only have these 2 possibilities | |
if hasattr(processor, "image_processor"): | |
if processor.image_processor.__class__.__name__ not in { | |
x.__class__.__name__ for x in feature_extractors | |
}: | |
feature_extractors.append(processor.image_processor) | |
elif hasattr(processor, "feature_extractor"): | |
if processor.feature_extractor.__class__.__name__ not in { | |
x.__class__.__name__ for x in feature_extractors | |
}: | |
feature_extractors.append(processor.feature_extractor) | |
# check the built processors have the unique type | |
num_types = len({x.__class__.__name__ for x in feature_extractors}) | |
if num_types >= 2: | |
raise ValueError(f"`feature_extractors` should contain at most 1 type, but it contains {num_types} types!") | |
num_types = len({x.__class__.__name__.replace("Fast", "") for x in tokenizers}) | |
if num_types >= 2: | |
raise ValueError(f"`tokenizers` should contain at most 1 tokenizer type, but it contains {num_types} types!") | |
fast_tokenizer = None | |
slow_tokenizer = None | |
for tokenizer in tokenizers: | |
if isinstance(tokenizer, PreTrainedTokenizerFast): | |
fast_tokenizer = tokenizer | |
else: | |
slow_tokenizer = tokenizer | |
# If the (original) fast/slow tokenizers don't correspond, keep only the fast tokenizer. | |
# This doesn't necessarily imply the fast/slow tokenizers in a single Hub repo. has issues. | |
# It's more of an issue in `build_processor` which tries to get a checkpoint with as much effort as possible. | |
# For `YosoModel` (which uses `AlbertTokenizer(Fast)`), its real (Hub) checkpoint doesn't contain valid files to | |
# load the slower tokenizer (`AlbertTokenizer`), and it ends up finding the (canonical) checkpoint of `AlbertModel`, | |
# which has different vocabulary. | |
# TODO: Try to improve `build_processor`'s definition and/or usage to avoid the above situation in the first place. | |
fast_tokenizer, slow_tokenizer = _sanity_check(fast_tokenizer, slow_tokenizer, keep_fast_tokenizer=True) | |
original_fast_tokenizer, original_slow_tokenizer = fast_tokenizer, slow_tokenizer | |
if fast_tokenizer: | |
try: | |
# Wav2Vec2ForCTC , ByT5Tokenizer etc. all are already small enough and have no fast version that can | |
# be retrained | |
if fast_tokenizer.vocab_size > TARGET_VOCAB_SIZE: | |
fast_tokenizer = convert_tokenizer(fast_tokenizer) | |
except Exception: | |
result["warnings"].append( | |
( | |
f"Failed to convert the fast tokenizer for {fast_tokenizer.__class__.__name__}.", | |
traceback.format_exc(), | |
) | |
) | |
# If `fast_tokenizer` exists, `slow_tokenizer` should correspond to it. | |
if fast_tokenizer: | |
# Make sure the fast tokenizer can be saved | |
try: | |
# We don't save it to `output_folder` at this moment - only at the end of this function. | |
with tempfile.TemporaryDirectory() as tmpdir: | |
fast_tokenizer.save_pretrained(tmpdir) | |
try: | |
slow_tokenizer = AutoTokenizer.from_pretrained(tmpdir, use_fast=False) | |
except Exception: | |
result["warnings"].append( | |
( | |
f"Failed to load the slow tokenizer saved from {fast_tokenizer.__class__.__name__}.", | |
traceback.format_exc(), | |
) | |
) | |
# Let's just keep the fast version | |
slow_tokenizer = None | |
except Exception: | |
result["warnings"].append( | |
( | |
f"Failed to save the fast tokenizer for {fast_tokenizer.__class__.__name__}.", | |
traceback.format_exc(), | |
) | |
) | |
fast_tokenizer = None | |
# If the (possibly converted) fast/slow tokenizers don't correspond, set them to `None`, and use the original | |
# tokenizers. | |
fast_tokenizer, slow_tokenizer = _sanity_check(fast_tokenizer, slow_tokenizer, keep_fast_tokenizer=False) | |
# If there is any conversion failed, we keep the original tokenizers. | |
if (original_fast_tokenizer is not None and fast_tokenizer is None) or ( | |
original_slow_tokenizer is not None and slow_tokenizer is None | |
): | |
warning_messagae = ( | |
"There are some issues when converting the fast/slow tokenizers. The original tokenizers from the Hub " | |
" will be used instead." | |
) | |
result["warnings"].append(warning_messagae) | |
# Let's use the original version at the end (`original_fast_tokenizer` and `original_slow_tokenizer`) | |
fast_tokenizer = original_fast_tokenizer | |
slow_tokenizer = original_slow_tokenizer | |
# Make sure the fast tokenizer can be saved | |
if fast_tokenizer: | |
# We don't save it to `output_folder` at this moment - only at the end of this function. | |
with tempfile.TemporaryDirectory() as tmpdir: | |
try: | |
fast_tokenizer.save_pretrained(tmpdir) | |
except Exception: | |
result["warnings"].append( | |
( | |
f"Failed to save the fast tokenizer for {fast_tokenizer.__class__.__name__}.", | |
traceback.format_exc(), | |
) | |
) | |
fast_tokenizer = None | |
# Make sure the slow tokenizer can be saved | |
if slow_tokenizer: | |
# We don't save it to `output_folder` at this moment - only at the end of this function. | |
with tempfile.TemporaryDirectory() as tmpdir: | |
try: | |
slow_tokenizer.save_pretrained(tmpdir) | |
except Exception: | |
result["warnings"].append( | |
( | |
f"Failed to save the slow tokenizer for {slow_tokenizer.__class__.__name__}.", | |
traceback.format_exc(), | |
) | |
) | |
slow_tokenizer = None | |
# update feature extractors using the tiny config | |
try: | |
feature_extractors = [convert_feature_extractor(p, tiny_config) for p in feature_extractors] | |
except Exception: | |
result["warnings"].append( | |
( | |
"Failed to convert feature extractors.", | |
traceback.format_exc(), | |
) | |
) | |
feature_extractors = [] | |
if hasattr(tiny_config, "max_position_embeddings") and tiny_config.max_position_embeddings > 0: | |
if fast_tokenizer is not None: | |
if fast_tokenizer.__class__.__name__ in [ | |
"RobertaTokenizerFast", | |
"XLMRobertaTokenizerFast", | |
"LongformerTokenizerFast", | |
"MPNetTokenizerFast", | |
]: | |
fast_tokenizer.model_max_length = tiny_config.max_position_embeddings - 2 | |
else: | |
fast_tokenizer.model_max_length = tiny_config.max_position_embeddings | |
if slow_tokenizer is not None: | |
if slow_tokenizer.__class__.__name__ in [ | |
"RobertaTokenizer", | |
"XLMRobertaTokenizer", | |
"LongformerTokenizer", | |
"MPNetTokenizer", | |
]: | |
slow_tokenizer.model_max_length = tiny_config.max_position_embeddings - 2 | |
else: | |
slow_tokenizer.model_max_length = tiny_config.max_position_embeddings | |
processors = [fast_tokenizer, slow_tokenizer] + feature_extractors | |
processors = [p for p in processors if p is not None] | |
for p in processors: | |
p.save_pretrained(output_folder) | |
return processors | |
def get_checkpoint_dir(output_dir, model_arch): | |
"""Get framework-agnostic architecture name. Used to save all PT/TF/Flax models into the same directory.""" | |
arch_name = model_arch.__name__ | |
if arch_name.startswith("TF"): | |
arch_name = arch_name[2:] | |
elif arch_name.startswith("Flax"): | |
arch_name = arch_name[4:] | |
return os.path.join(output_dir, arch_name) | |
def build_model(model_arch, tiny_config, output_dir): | |
"""Create and save a model for `model_arch`. | |
Also copy the set of processors to each model (under the same model type) output folder. | |
""" | |
checkpoint_dir = get_checkpoint_dir(output_dir, model_arch) | |
processor_output_dir = os.path.join(output_dir, "processors") | |
# copy the (same set of) processors (for a model type) to the model arch. specific folder | |
if os.path.isdir(processor_output_dir): | |
shutil.copytree(processor_output_dir, checkpoint_dir, dirs_exist_ok=True) | |
tiny_config = copy.deepcopy(tiny_config) | |
if any(model_arch.__name__.endswith(x) for x in ["ForCausalLM", "LMHeadModel"]): | |
tiny_config.is_encoder_decoder = False | |
tiny_config.is_decoder = True | |
model = model_arch(config=tiny_config) | |
model.save_pretrained(checkpoint_dir) | |
model.from_pretrained(checkpoint_dir) | |
return model | |
def fill_result_with_error(result, error, trace, models_to_create): | |
"""Fill `result` with errors for all target model arch if we can't build processor""" | |
error = (error, trace) | |
result["error"] = error | |
for framework in FRAMEWORKS: | |
if framework in models_to_create: | |
result[framework] = {} | |
for model_arch in models_to_create[framework]: | |
result[framework][model_arch.__name__] = {"model": None, "checkpoint": None, "error": error} | |
result["processor"] = {p.__class__.__name__: p.__class__.__name__ for p in result["processor"].values()} | |
def upload_model(model_dir, organization, token): | |
"""Upload the tiny models""" | |
arch_name = model_dir.split(os.path.sep)[-1] | |
repo_name = f"tiny-random-{arch_name}" | |
repo_id = f"{organization}/{repo_name}" | |
repo_exist = False | |
error = None | |
try: | |
create_repo(repo_id=repo_id, exist_ok=False, repo_type="model", token=token) | |
except Exception as e: | |
error = e | |
if "You already created" in str(e): | |
error = None | |
logger.warning("Remote repository exists and will be cloned.") | |
repo_exist = True | |
try: | |
create_repo(repo_id=repo_id, exist_ok=True, repo_type="model", token=token) | |
except Exception as e: | |
error = e | |
if error is not None: | |
raise error | |
with tempfile.TemporaryDirectory() as tmpdir: | |
repo = Repository(local_dir=tmpdir, clone_from=repo_id, token=token) | |
repo.git_pull() | |
shutil.copytree(model_dir, tmpdir, dirs_exist_ok=True) | |
if repo_exist: | |
# Open a PR on the existing Hub repo. | |
hub_pr_url = upload_folder( | |
folder_path=model_dir, | |
repo_id=repo_id, | |
repo_type="model", | |
commit_message=f"Update tiny models for {arch_name}", | |
commit_description=f"Upload tiny models for {arch_name}", | |
create_pr=True, | |
token=token, | |
) | |
logger.warning(f"PR open in {hub_pr_url}.") | |
# TODO: We need this information? | |
else: | |
# Push to Hub repo directly | |
repo.git_add(auto_lfs_track=True) | |
repo.git_commit(f"Upload tiny models for {arch_name}") | |
repo.git_push(blocking=True) # this prints a progress bar with the upload | |
logger.warning(f"Tiny models {arch_name} pushed to {repo_id}.") | |
def build_composite_models(config_class, output_dir): | |
import tempfile | |
from transformers import ( | |
BertConfig, | |
BertLMHeadModel, | |
BertModel, | |
BertTokenizer, | |
BertTokenizerFast, | |
EncoderDecoderModel, | |
GPT2Config, | |
GPT2LMHeadModel, | |
GPT2Tokenizer, | |
GPT2TokenizerFast, | |
SpeechEncoderDecoderModel, | |
TFEncoderDecoderModel, | |
TFVisionEncoderDecoderModel, | |
TFVisionTextDualEncoderModel, | |
VisionEncoderDecoderModel, | |
VisionTextDualEncoderModel, | |
ViTConfig, | |
ViTFeatureExtractor, | |
ViTModel, | |
Wav2Vec2Config, | |
Wav2Vec2Model, | |
Wav2Vec2Processor, | |
) | |
# These will be removed at the end if they are empty | |
result = {"error": None, "warnings": []} | |
if config_class.model_type == "encoder-decoder": | |
encoder_config_class = BertConfig | |
decoder_config_class = BertConfig | |
encoder_processor = (BertTokenizerFast, BertTokenizer) | |
decoder_processor = (BertTokenizerFast, BertTokenizer) | |
encoder_class = BertModel | |
decoder_class = BertLMHeadModel | |
model_class = EncoderDecoderModel | |
tf_model_class = TFEncoderDecoderModel | |
elif config_class.model_type == "vision-encoder-decoder": | |
encoder_config_class = ViTConfig | |
decoder_config_class = GPT2Config | |
encoder_processor = (ViTFeatureExtractor,) | |
decoder_processor = (GPT2TokenizerFast, GPT2Tokenizer) | |
encoder_class = ViTModel | |
decoder_class = GPT2LMHeadModel | |
model_class = VisionEncoderDecoderModel | |
tf_model_class = TFVisionEncoderDecoderModel | |
elif config_class.model_type == "speech-encoder-decoder": | |
encoder_config_class = Wav2Vec2Config | |
decoder_config_class = BertConfig | |
encoder_processor = (Wav2Vec2Processor,) | |
decoder_processor = (BertTokenizerFast, BertTokenizer) | |
encoder_class = Wav2Vec2Model | |
decoder_class = BertLMHeadModel | |
model_class = SpeechEncoderDecoderModel | |
tf_model_class = None | |
elif config_class.model_type == "vision-text-dual-encoder": | |
# Not encoder-decoder, but encoder-encoder. We just keep the same name as above to make code easier | |
encoder_config_class = ViTConfig | |
decoder_config_class = BertConfig | |
encoder_processor = (ViTFeatureExtractor,) | |
decoder_processor = (BertTokenizerFast, BertTokenizer) | |
encoder_class = ViTModel | |
decoder_class = BertModel | |
model_class = VisionTextDualEncoderModel | |
tf_model_class = TFVisionTextDualEncoderModel | |
with tempfile.TemporaryDirectory() as tmpdir: | |
try: | |
# build encoder | |
models_to_create = {"processor": encoder_processor, "pytorch": (encoder_class,), "tensorflow": []} | |
encoder_output_dir = os.path.join(tmpdir, "encoder") | |
build(encoder_config_class, models_to_create, encoder_output_dir) | |
# build decoder | |
models_to_create = {"processor": decoder_processor, "pytorch": (decoder_class,), "tensorflow": []} | |
decoder_output_dir = os.path.join(tmpdir, "decoder") | |
build(decoder_config_class, models_to_create, decoder_output_dir) | |
# build encoder-decoder | |
encoder_path = os.path.join(encoder_output_dir, encoder_class.__name__) | |
decoder_path = os.path.join(decoder_output_dir, decoder_class.__name__) | |
if config_class.model_type != "vision-text-dual-encoder": | |
# Specify these explicitly for encoder-decoder like models, but not for `vision-text-dual-encoder` as it | |
# has no decoder. | |
decoder_config = decoder_config_class.from_pretrained(decoder_path) | |
decoder_config.is_decoder = True | |
decoder_config.add_cross_attention = True | |
model = model_class.from_encoder_decoder_pretrained( | |
encoder_path, | |
decoder_path, | |
decoder_config=decoder_config, | |
) | |
elif config_class.model_type == "vision-text-dual-encoder": | |
model = model_class.from_vision_text_pretrained(encoder_path, decoder_path) | |
model_path = os.path.join( | |
output_dir, | |
f"{model_class.__name__}-{encoder_config_class.model_type}-{decoder_config_class.model_type}", | |
) | |
model.save_pretrained(model_path) | |
if tf_model_class is not None: | |
model = tf_model_class.from_pretrained(model_path, from_pt=True) | |
model.save_pretrained(model_path) | |
# copy the processors | |
encoder_processor_path = os.path.join(encoder_output_dir, "processors") | |
decoder_processor_path = os.path.join(decoder_output_dir, "processors") | |
if os.path.isdir(encoder_processor_path): | |
shutil.copytree(encoder_processor_path, model_path, dirs_exist_ok=True) | |
if os.path.isdir(decoder_processor_path): | |
shutil.copytree(decoder_processor_path, model_path, dirs_exist_ok=True) | |
# fill `result` | |
result["processor"] = {x.__name__: x.__name__ for x in encoder_processor + decoder_processor} | |
result["pytorch"] = {model_class.__name__: {"model": model_class.__name__, "checkpoint": model_path}} | |
result["tensorflow"] = {} | |
if tf_model_class is not None: | |
result["tensorflow"] = { | |
tf_model_class.__name__: {"model": tf_model_class.__name__, "checkpoint": model_path} | |
} | |
except Exception: | |
result["error"] = ( | |
f"Failed to build models for {config_class.__name__}.", | |
traceback.format_exc(), | |
) | |
if not result["error"]: | |
del result["error"] | |
if not result["warnings"]: | |
del result["warnings"] | |
return result | |
def get_token_id_from_tokenizer(token_id_name, tokenizer, original_token_id): | |
"""Use `tokenizer` to get the values of `bos_token_id`, `eos_token_ids`, etc. | |
The argument `token_id_name` should be a string ending with `_token_id`, and `original_token_id` should be an | |
integer that will be return if `tokenizer` has no token corresponding to `token_id_name`. | |
""" | |
token_id = original_token_id | |
if not token_id_name.endswith("_token_id"): | |
raise ValueError(f"`token_id_name` is {token_id_name}, which doesn't end with `_token_id`!") | |
token = getattr(tokenizer, token_id_name.replace("_token_id", "_token"), None) | |
if token is not None: | |
if isinstance(tokenizer, PreTrainedTokenizerFast): | |
token_id = tokenizer._convert_token_to_id_with_added_voc(token) | |
else: | |
token_id = tokenizer._convert_token_to_id(token) | |
return token_id | |
def get_config_overrides(config_class, processors): | |
# `Bark` configuration is too special. Let's just not handle this for now. | |
if config_class.__name__ == "BarkConfig": | |
return {} | |
config_overrides = {} | |
# Check if there is any tokenizer (prefer fast version if any) | |
tokenizer = None | |
for processor in processors: | |
if isinstance(processor, PreTrainedTokenizerFast): | |
tokenizer = processor | |
break | |
elif isinstance(processor, PreTrainedTokenizer): | |
tokenizer = processor | |
if tokenizer is None: | |
return config_overrides | |
# Get some properties of the (already converted) tokenizer (smaller vocab size, special token ids, etc.) | |
# We use `len(tokenizer)` instead of `tokenizer.vocab_size` to avoid potential issues for tokenizers with non-empty | |
# `added_tokens_encoder`. One example is the `DebertaV2Tokenizer` where the mask token is the extra token. | |
vocab_size = len(tokenizer) | |
# The original checkpoint has length `35998`, but it doesn't have ids `30400` and `30514` but instead `35998` and | |
# `35999`. | |
if config_class.__name__ == "GPTSanJapaneseConfig": | |
vocab_size += 2 | |
config_overrides["vocab_size"] = vocab_size | |
# Used to create a new model tester with `tokenizer.vocab_size` in order to get the (updated) special token ids. | |
model_tester_kwargs = {"vocab_size": vocab_size} | |
# CLIP-like models have `text_model_tester` and `vision_model_tester`, and we need to pass `vocab_size` to | |
# `text_model_tester` via `text_kwargs`. The same trick is also necessary for `Flava`. | |
if config_class.__name__ in [ | |
"AlignConfig", | |
"AltCLIPConfig", | |
"ChineseCLIPConfig", | |
"CLIPSegConfig", | |
"ClapConfig", | |
"CLIPConfig", | |
"GroupViTConfig", | |
"OwlViTConfig", | |
"XCLIPConfig", | |
"FlavaConfig", | |
"BlipConfig", | |
"Blip2Config", | |
]: | |
del model_tester_kwargs["vocab_size"] | |
model_tester_kwargs["text_kwargs"] = {"vocab_size": vocab_size} | |
# `FSMTModelTester` accepts `src_vocab_size` and `tgt_vocab_size` but not `vocab_size`. | |
elif config_class.__name__ == "FSMTConfig": | |
del model_tester_kwargs["vocab_size"] | |
model_tester_kwargs["src_vocab_size"] = tokenizer.src_vocab_size | |
model_tester_kwargs["tgt_vocab_size"] = tokenizer.tgt_vocab_size | |
_tiny_config = get_tiny_config(config_class, **model_tester_kwargs) | |
# handle the possibility of `text_config` inside `_tiny_config` for clip-like models (`owlvit`, `groupvit`, etc.) | |
if hasattr(_tiny_config, "text_config"): | |
_tiny_config = _tiny_config.text_config | |
# Collect values of some special token ids | |
for attr in dir(_tiny_config): | |
if attr.endswith("_token_id"): | |
token_id = getattr(_tiny_config, attr) | |
if token_id is not None: | |
# Using the token id values from `tokenizer` instead of from `_tiny_config`. | |
token_id = get_token_id_from_tokenizer(attr, tokenizer, original_token_id=token_id) | |
config_overrides[attr] = token_id | |
if config_class.__name__ == "FSMTConfig": | |
config_overrides["src_vocab_size"] = tokenizer.src_vocab_size | |
config_overrides["tgt_vocab_size"] = tokenizer.tgt_vocab_size | |
# `FSMTConfig` has `DecoderConfig` as `decoder` attribute. | |
config_overrides["decoder"] = configuration_fsmt.DecoderConfig( | |
vocab_size=tokenizer.tgt_vocab_size, bos_token_id=config_overrides["eos_token_id"] | |
) | |
return config_overrides | |
def build(config_class, models_to_create, output_dir): | |
"""Create all models for a certain model type. | |
Args: | |
config_class (`PretrainedConfig`): | |
A subclass of `PretrainedConfig` that is used to determine `models_to_create`. | |
models_to_create (`dict`): | |
A dictionary containing the processor/model classes that we want to create the instances. These models are | |
of the same model type which is associated to `config_class`. | |
output_dir (`str`): | |
The directory to save all the checkpoints. Each model architecture will be saved in a subdirectory under | |
it. Models in different frameworks with the same architecture will be saved in the same subdirectory. | |
""" | |
if data["training_ds"] is None or data["testing_ds"] is None: | |
ds = load_dataset("wikitext", "wikitext-2-raw-v1") | |
data["training_ds"] = ds["train"] | |
data["testing_ds"] = ds["test"] | |
if config_class.model_type in [ | |
"encoder-decoder", | |
"vision-encoder-decoder", | |
"speech-encoder-decoder", | |
"vision-text-dual-encoder", | |
]: | |
return build_composite_models(config_class, output_dir) | |
result = {k: {} for k in models_to_create} | |
# These will be removed at the end if they are empty | |
result["error"] = None | |
result["warnings"] = [] | |
# Build processors | |
processor_classes = models_to_create["processor"] | |
if len(processor_classes) == 0: | |
error = f"No processor class could be found in {config_class.__name__}." | |
fill_result_with_error(result, error, None, models_to_create) | |
logger.error(result["error"][0]) | |
return result | |
for processor_class in processor_classes: | |
try: | |
processor = build_processor(config_class, processor_class, allow_no_checkpoint=True) | |
if processor is not None: | |
result["processor"][processor_class] = processor | |
except Exception: | |
error = f"Failed to build processor for {processor_class.__name__}." | |
trace = traceback.format_exc() | |
fill_result_with_error(result, error, trace, models_to_create) | |
logger.error(result["error"][0]) | |
return result | |
if len(result["processor"]) == 0: | |
error = f"No processor could be built for {config_class.__name__}." | |
fill_result_with_error(result, error, None, models_to_create) | |
logger.error(result["error"][0]) | |
return result | |
try: | |
tiny_config = get_tiny_config(config_class) | |
except Exception as e: | |
error = f"Failed to get tiny config for {config_class.__name__}: {e}" | |
trace = traceback.format_exc() | |
fill_result_with_error(result, error, trace, models_to_create) | |
logger.error(result["error"][0]) | |
return result | |
# Convert the processors (reduce vocabulary size, smaller image size, etc.) | |
processors = list(result["processor"].values()) | |
processor_output_folder = os.path.join(output_dir, "processors") | |
try: | |
processors = convert_processors(processors, tiny_config, processor_output_folder, result) | |
except Exception: | |
error = "Failed to convert the processors." | |
trace = traceback.format_exc() | |
result["warnings"].append((error, trace)) | |
if len(processors) == 0: | |
error = f"No processor is returned by `convert_processors` for {config_class.__name__}." | |
fill_result_with_error(result, error, None, models_to_create) | |
logger.error(result["error"][0]) | |
return result | |
try: | |
config_overrides = get_config_overrides(config_class, processors) | |
except Exception as e: | |
error = f"Failure occurs while calling `get_config_overrides`: {e}" | |
trace = traceback.format_exc() | |
fill_result_with_error(result, error, trace, models_to_create) | |
logger.error(result["error"][0]) | |
return result | |
# Just for us to see this easily in the report | |
if "vocab_size" in config_overrides: | |
result["vocab_size"] = config_overrides["vocab_size"] | |
# Update attributes that `vocab_size` involves | |
for k, v in config_overrides.items(): | |
if hasattr(tiny_config, k): | |
setattr(tiny_config, k, v) | |
# So far, we only have to deal with `text_config`, as `config_overrides` contains text-related attributes only. | |
elif ( | |
hasattr(tiny_config, "text_config") | |
and tiny_config.text_config is not None | |
and hasattr(tiny_config.text_config, k) | |
): | |
setattr(tiny_config.text_config, k, v) | |
# If `text_config_dict` exists, we need to update its value here too in order to # make | |
# `save_pretrained -> from_pretrained` work. | |
if hasattr(tiny_config, "text_config_dict"): | |
tiny_config.text_config_dict[k] = v | |
if result["warnings"]: | |
logger.warning(result["warnings"][0][0]) | |
# update `result["processor"]` | |
result["processor"] = {type(p).__name__: p.__class__.__name__ for p in processors} | |
for pytorch_arch in models_to_create["pytorch"]: | |
result["pytorch"][pytorch_arch.__name__] = {} | |
error = None | |
try: | |
model = build_model(pytorch_arch, tiny_config, output_dir=output_dir) | |
except Exception as e: | |
model = None | |
error = f"Failed to create the pytorch model for {pytorch_arch}: {e}" | |
trace = traceback.format_exc() | |
result["pytorch"][pytorch_arch.__name__]["model"] = model.__class__.__name__ if model is not None else None | |
result["pytorch"][pytorch_arch.__name__]["checkpoint"] = ( | |
get_checkpoint_dir(output_dir, pytorch_arch) if model is not None else None | |
) | |
if error is not None: | |
result["pytorch"][pytorch_arch.__name__]["error"] = (error, trace) | |
logger.error(f"{pytorch_arch.__name__}: {error}") | |
for tensorflow_arch in models_to_create["tensorflow"]: | |
# Make PT/TF weights compatible | |
pt_arch_name = tensorflow_arch.__name__[2:] # Remove `TF` | |
pt_arch = getattr(transformers_module, pt_arch_name) | |
result["tensorflow"][tensorflow_arch.__name__] = {} | |
error = None | |
if pt_arch.__name__ in result["pytorch"] and result["pytorch"][pt_arch.__name__]["checkpoint"] is not None: | |
ckpt = get_checkpoint_dir(output_dir, pt_arch) | |
# Use the same weights from PyTorch. | |
try: | |
model = tensorflow_arch.from_pretrained(ckpt, from_pt=True) | |
model.save_pretrained(ckpt) | |
except Exception as e: | |
# Conversion may fail. Let's not create a model with different weights to avoid confusion (for now). | |
model = None | |
error = f"Failed to convert the pytorch model to the tensorflow model for {pt_arch}: {e}" | |
trace = traceback.format_exc() | |
else: | |
try: | |
model = build_model(tensorflow_arch, tiny_config, output_dir=output_dir) | |
except Exception as e: | |
model = None | |
error = f"Failed to create the tensorflow model for {tensorflow_arch}: {e}" | |
trace = traceback.format_exc() | |
result["tensorflow"][tensorflow_arch.__name__]["model"] = ( | |
model.__class__.__name__ if model is not None else None | |
) | |
result["tensorflow"][tensorflow_arch.__name__]["checkpoint"] = ( | |
get_checkpoint_dir(output_dir, tensorflow_arch) if model is not None else None | |
) | |
if error is not None: | |
result["tensorflow"][tensorflow_arch.__name__]["error"] = (error, trace) | |
logger.error(f"{tensorflow_arch.__name__}: {error}") | |
if not result["error"]: | |
del result["error"] | |
if not result["warnings"]: | |
del result["warnings"] | |
return result | |
def build_tiny_model_summary(results, organization=None, token=None): | |
"""Build a summary: a dictionary of the form | |
{ | |
model architecture name: | |
{ | |
"tokenizer_classes": [...], | |
"processor_classes": [...], | |
"model_classes": [...], | |
} | |
.. | |
} | |
""" | |
tiny_model_summary = {} | |
for config_name in results: | |
processors = [key for key, value in results[config_name]["processor"].items()] | |
tokenizer_classes = sorted([x for x in processors if x.endswith("TokenizerFast") or x.endswith("Tokenizer")]) | |
processor_classes = sorted([x for x in processors if x not in tokenizer_classes]) | |
for framework in FRAMEWORKS: | |
if framework not in results[config_name]: | |
continue | |
for arch_name in results[config_name][framework]: | |
model_classes = [arch_name] | |
base_arch_name = arch_name[2:] if arch_name.startswith("TF") else arch_name | |
# tiny model is not created for `arch_name` | |
if results[config_name][framework][arch_name]["model"] is None: | |
model_classes = [] | |
if base_arch_name not in tiny_model_summary: | |
tiny_model_summary[base_arch_name] = {} | |
tiny_model_summary[base_arch_name].update( | |
{ | |
"tokenizer_classes": tokenizer_classes, | |
"processor_classes": processor_classes, | |
} | |
) | |
tiny_model_summary[base_arch_name]["model_classes"] = sorted( | |
tiny_model_summary[base_arch_name].get("model_classes", []) + model_classes | |
) | |
if organization is not None: | |
repo_name = f"tiny-random-{base_arch_name}" | |
# composite models' checkpoints have more precise repo. names on the Hub. | |
if base_arch_name in COMPOSITE_MODELS: | |
repo_name = f"tiny-random-{COMPOSITE_MODELS[base_arch_name]}" | |
repo_id = f"{organization}/{repo_name}" | |
try: | |
commit_hash = hf_api.repo_info(repo_id, token=token).sha | |
except Exception: | |
# The directory is not created, but processor(s) is/are included in `results`. | |
logger.warning(f"Failed to get information for {repo_id}.\n{traceback.format_exc()}") | |
del tiny_model_summary[base_arch_name] | |
continue | |
tiny_model_summary[base_arch_name]["sha"] = commit_hash | |
return tiny_model_summary | |
def build_failed_report(results, include_warning=True): | |
failed_results = {} | |
for config_name in results: | |
if "error" in results[config_name]: | |
if config_name not in failed_results: | |
failed_results[config_name] = {} | |
failed_results[config_name] = {"error": results[config_name]["error"]} | |
if include_warning and "warnings" in results[config_name]: | |
if config_name not in failed_results: | |
failed_results[config_name] = {} | |
failed_results[config_name]["warnings"] = results[config_name]["warnings"] | |
for framework in FRAMEWORKS: | |
if framework not in results[config_name]: | |
continue | |
for arch_name in results[config_name][framework]: | |
if "error" in results[config_name][framework][arch_name]: | |
if config_name not in failed_results: | |
failed_results[config_name] = {} | |
if framework not in failed_results[config_name]: | |
failed_results[config_name][framework] = {} | |
if arch_name not in failed_results[config_name][framework]: | |
failed_results[config_name][framework][arch_name] = {} | |
error = results[config_name][framework][arch_name]["error"] | |
failed_results[config_name][framework][arch_name]["error"] = error | |
return failed_results | |
def build_simple_report(results): | |
text = "" | |
failed_text = "" | |
for config_name in results: | |
for framework in FRAMEWORKS: | |
if framework not in results[config_name]: | |
continue | |
for arch_name in results[config_name][framework]: | |
if "error" in results[config_name][framework][arch_name]: | |
result = results[config_name][framework][arch_name]["error"] | |
failed_text += f"{arch_name}: {result[0]}\n" | |
else: | |
result = ("OK",) | |
text += f"{arch_name}: {result[0]}\n" | |
return text, failed_text | |
def update_tiny_model_summary_file(report_path): | |
with open(os.path.join(report_path, "tiny_model_summary.json")) as fp: | |
new_data = json.load(fp) | |
with open("tests/utils/tiny_model_summary.json") as fp: | |
data = json.load(fp) | |
for key, value in new_data.items(): | |
if key not in data: | |
data[key] = value | |
else: | |
for attr in ["tokenizer_classes", "processor_classes", "model_classes"]: | |
# we might get duplication here. We will remove them below when creating `updated_data`. | |
data[key][attr].extend(value[attr]) | |
new_sha = value.get("sha", None) | |
if new_sha is not None: | |
data[key]["sha"] = new_sha | |
updated_data = {} | |
for key in sorted(data.keys()): | |
updated_data[key] = {} | |
for attr, value in data[key].items(): | |
# deduplication and sort | |
updated_data[key][attr] = sorted(set(value)) if attr != "sha" else value | |
with open(os.path.join(report_path, "updated_tiny_model_summary.json"), "w") as fp: | |
json.dump(updated_data, fp, indent=4, ensure_ascii=False) | |
def create_tiny_models( | |
output_path, | |
all, | |
model_types, | |
models_to_skip, | |
no_check, | |
upload, | |
organization, | |
token, | |
num_workers=1, | |
): | |
clone_path = os.path.abspath(os.path.dirname(os.path.dirname(__file__))) | |
if os.getcwd() != clone_path: | |
raise ValueError(f"This script should be run from the root of the clone of `transformers` {clone_path}") | |
report_path = os.path.join(output_path, "reports") | |
os.makedirs(report_path) | |
_pytorch_arch_mappings = [ | |
x | |
for x in dir(transformers_module) | |
if x.startswith("MODEL_") and x.endswith("_MAPPING") and x != "MODEL_NAMES_MAPPING" | |
] | |
_tensorflow_arch_mappings = [ | |
x for x in dir(transformers_module) if x.startswith("TF_MODEL_") and x.endswith("_MAPPING") | |
] | |
pytorch_arch_mappings = [getattr(transformers_module, x) for x in _pytorch_arch_mappings] | |
tensorflow_arch_mappings = [getattr(transformers_module, x) for x in _tensorflow_arch_mappings] | |
config_classes = CONFIG_MAPPING.values() | |
if not all: | |
config_classes = [CONFIG_MAPPING[model_type] for model_type in model_types] | |
# A map from config classes to tuples of processors (tokenizer, feature extractor, processor) classes | |
processor_type_map = {c: get_processor_types_from_config_class(c) for c in config_classes} | |
to_create = {} | |
for c in config_classes: | |
processors = processor_type_map[c] | |
models = get_architectures_from_config_class(c, pytorch_arch_mappings, models_to_skip) | |
tf_models = get_architectures_from_config_class(c, tensorflow_arch_mappings, models_to_skip) | |
if len(models) + len(tf_models) > 0: | |
to_create[c] = {"processor": processors, "pytorch": models, "tensorflow": tf_models} | |
results = {} | |
if num_workers <= 1: | |
for c, models_to_create in list(to_create.items()): | |
print(f"Create models for {c.__name__} ...") | |
result = build(c, models_to_create, output_dir=os.path.join(output_path, c.model_type)) | |
results[c.__name__] = result | |
print("=" * 40) | |
else: | |
all_build_args = [] | |
for c, models_to_create in list(to_create.items()): | |
all_build_args.append((c, models_to_create, os.path.join(output_path, c.model_type))) | |
with multiprocessing.Pool() as pool: | |
results = pool.starmap(build, all_build_args) | |
results = {buid_args[0].__name__: result for buid_args, result in zip(all_build_args, results)} | |
if upload: | |
if organization is None: | |
raise ValueError("The argument `organization` could not be `None`. No model is uploaded") | |
to_upload = [] | |
for model_type in os.listdir(output_path): | |
# This is the directory containing the reports | |
if model_type == "reports": | |
continue | |
for arch in os.listdir(os.path.join(output_path, model_type)): | |
if arch == "processors": | |
continue | |
to_upload.append(os.path.join(output_path, model_type, arch)) | |
to_upload = sorted(to_upload) | |
upload_results = {} | |
if len(to_upload) > 0: | |
for model_dir in to_upload: | |
try: | |
upload_model(model_dir, organization, token) | |
except Exception as e: | |
error = f"Failed to upload {model_dir}. {e.__class__.__name__}: {e}" | |
logger.error(error) | |
upload_results[model_dir] = error | |
with open(os.path.join(report_path, "failed_uploads.json"), "w") as fp: | |
json.dump(upload_results, fp, indent=4) | |
# Build the tiny model summary file. The `tokenizer_classes` and `processor_classes` could be both empty lists. | |
# When using the items in this file to update the file `tests/utils/tiny_model_summary.json`, the model | |
# architectures with `tokenizer_classes` and `processor_classes` being both empty should **NOT** be added to | |
# `tests/utils/tiny_model_summary.json`. | |
tiny_model_summary = build_tiny_model_summary(results, organization=organization, token=token) | |
with open(os.path.join(report_path, "tiny_model_summary.json"), "w") as fp: | |
json.dump(tiny_model_summary, fp, indent=4) | |
with open(os.path.join(report_path, "tiny_model_creation_report.json"), "w") as fp: | |
json.dump(results, fp, indent=4) | |
# Build the warning/failure report (json format): same format as the complete `results` except this contains only | |
# warnings or errors. | |
failed_results = build_failed_report(results) | |
with open(os.path.join(report_path, "failed_report.json"), "w") as fp: | |
json.dump(failed_results, fp, indent=4) | |
simple_report, failed_report = build_simple_report(results) | |
# The simplified report: a .txt file with each line of format: | |
# {model architecture name}: {OK or error message} | |
with open(os.path.join(report_path, "simple_report.txt"), "w") as fp: | |
fp.write(simple_report) | |
# The simplified failure report: same above except this only contains line with errors | |
with open(os.path.join(report_path, "simple_failed_report.txt"), "w") as fp: | |
fp.write(failed_report) | |
update_tiny_model_summary_file(report_path=os.path.join(output_path, "reports")) | |
if __name__ == "__main__": | |
# This has to be `spawn` to avoid hanging forever! | |
multiprocessing.set_start_method("spawn") | |
def list_str(values): | |
return values.split(",") | |
parser = argparse.ArgumentParser() | |
parser.add_argument("--all", action="store_true", help="Will create all tiny models.") | |
parser.add_argument( | |
"--no_check", | |
action="store_true", | |
help="If set, will not check the validity of architectures. Use with caution.", | |
) | |
parser.add_argument( | |
"-m", | |
"--model_types", | |
type=list_str, | |
help="Comma-separated list of model type(s) from which the tiny models will be created.", | |
) | |
parser.add_argument( | |
"--models_to_skip", | |
type=list_str, | |
help=( | |
"Comma-separated list of model class names(s) from which the tiny models won't be created.\nThis is usually" | |
"the list of model classes that have their tiny versions already uploaded to the Hub." | |
), | |
) | |
parser.add_argument("--upload", action="store_true", help="If to upload the created tiny models to the Hub.") | |
parser.add_argument( | |
"--organization", | |
default=None, | |
type=str, | |
help="The organization on the Hub to which the tiny models will be uploaded.", | |
) | |
parser.add_argument( | |
"--token", default=None, type=str, help="A valid authentication token for HuggingFace Hub with write access." | |
) | |
parser.add_argument("output_path", type=Path, help="Path indicating where to store generated model.") | |
parser.add_argument("--num_workers", default=1, type=int, help="The number of workers to run.") | |
args = parser.parse_args() | |
if not args.all and not args.model_types: | |
raise ValueError("Please provide at least one model type or pass `--all` to export all architectures.") | |
create_tiny_models( | |
args.output_path, | |
args.all, | |
args.model_types, | |
args.models_to_skip, | |
args.no_check, | |
args.upload, | |
args.organization, | |
args.token, | |
args.num_workers, | |
) | |