# Copyright 2020 The HuggingFace Team, the AllenNLP library authors. 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.
"""
Utilities for working with the local dataset cache. Parts of this file is adapted from the AllenNLP library at
https://github.com/allenai/allennlp.
"""
import copy
import fnmatch
import functools
import importlib.util
import io
import json
import os
import re
import shutil
import subprocess
import sys
import tarfile
import tempfile
import types
from collections import OrderedDict, UserDict
from contextlib import ExitStack, contextmanager
from dataclasses import fields
from enum import Enum
from functools import partial, wraps
from hashlib import sha256
from itertools import chain
from pathlib import Path
from types import ModuleType
from typing import Any, BinaryIO, ContextManager, Dict, List, Optional, Tuple, Union
from urllib.parse import urlparse
from uuid import uuid4
from zipfile import ZipFile, is_zipfile
import numpy as np
from packaging import version
from tqdm.auto import tqdm
import requests
from filelock import FileLock
from huggingface_hub import HfFolder, Repository, create_repo, list_repo_files, whoami
from transformers.utils.versions import importlib_metadata
from . import __version__
from .utils import logging
logger = logging.get_logger(__name__) # pylint: disable=invalid-name
ENV_VARS_TRUE_VALUES = {"1", "ON", "YES", "TRUE"}
ENV_VARS_TRUE_AND_AUTO_VALUES = ENV_VARS_TRUE_VALUES.union({"AUTO"})
USE_TF = os.environ.get("USE_TF", "AUTO").upper()
USE_TORCH = os.environ.get("USE_TORCH", "AUTO").upper()
USE_JAX = os.environ.get("USE_FLAX", "AUTO").upper()
if USE_TORCH in ENV_VARS_TRUE_AND_AUTO_VALUES and USE_TF not in ENV_VARS_TRUE_VALUES:
_torch_available = importlib.util.find_spec("torch") is not None
if _torch_available:
try:
_torch_version = importlib_metadata.version("torch")
logger.info(f"PyTorch version {_torch_version} available.")
except importlib_metadata.PackageNotFoundError:
_torch_available = False
else:
logger.info("Disabling PyTorch because USE_TF is set")
_torch_available = False
if USE_TF in ENV_VARS_TRUE_AND_AUTO_VALUES and USE_TORCH not in ENV_VARS_TRUE_VALUES:
_tf_available = importlib.util.find_spec("tensorflow") is not None
if _tf_available:
candidates = (
"tensorflow",
"tensorflow-cpu",
"tensorflow-gpu",
"tf-nightly",
"tf-nightly-cpu",
"tf-nightly-gpu",
"intel-tensorflow",
"intel-tensorflow-avx512",
"tensorflow-rocm",
"tensorflow-macos",
)
_tf_version = None
# For the metadata, we have to look for both tensorflow and tensorflow-cpu
for pkg in candidates:
try:
_tf_version = importlib_metadata.version(pkg)
break
except importlib_metadata.PackageNotFoundError:
pass
_tf_available = _tf_version is not None
if _tf_available:
if version.parse(_tf_version) < version.parse("2"):
logger.info(f"TensorFlow found but with version {_tf_version}. Transformers requires version 2 minimum.")
_tf_available = False
else:
logger.info(f"TensorFlow version {_tf_version} available.")
else:
logger.info("Disabling Tensorflow because USE_TORCH is set")
_tf_available = False
if USE_JAX in ENV_VARS_TRUE_AND_AUTO_VALUES:
_flax_available = importlib.util.find_spec("jax") is not None and importlib.util.find_spec("flax") is not None
if _flax_available:
try:
_jax_version = importlib_metadata.version("jax")
_flax_version = importlib_metadata.version("flax")
logger.info(f"JAX version {_jax_version}, Flax version {_flax_version} available.")
except importlib_metadata.PackageNotFoundError:
_flax_available = False
else:
_flax_available = False
_datasets_available = importlib.util.find_spec("datasets") is not None
try:
# Check we're not importing a "datasets" directory somewhere but the actual library by trying to grab the version
# AND checking it has an author field in the metadata that is HuggingFace.
_ = importlib_metadata.version("datasets")
_datasets_metadata = importlib_metadata.metadata("datasets")
if _datasets_metadata.get("author", "") != "HuggingFace Inc.":
_datasets_available = False
except importlib_metadata.PackageNotFoundError:
_datasets_available = False
_detectron2_available = importlib.util.find_spec("detectron2") is not None
try:
_detectron2_version = importlib_metadata.version("detectron2")
logger.debug(f"Successfully imported detectron2 version {_detectron2_version}")
except importlib_metadata.PackageNotFoundError:
_detectron2_available = False
_faiss_available = importlib.util.find_spec("faiss") is not None
try:
_faiss_version = importlib_metadata.version("faiss")
logger.debug(f"Successfully imported faiss version {_faiss_version}")
except importlib_metadata.PackageNotFoundError:
try:
_faiss_version = importlib_metadata.version("faiss-cpu")
logger.debug(f"Successfully imported faiss version {_faiss_version}")
except importlib_metadata.PackageNotFoundError:
_faiss_available = False
coloredlogs = importlib.util.find_spec("coloredlogs") is not None
try:
_coloredlogs_available = importlib_metadata.version("coloredlogs")
logger.debug(f"Successfully imported sympy version {_coloredlogs_available}")
except importlib_metadata.PackageNotFoundError:
_coloredlogs_available = False
sympy_available = importlib.util.find_spec("sympy") is not None
try:
_sympy_available = importlib_metadata.version("sympy")
logger.debug(f"Successfully imported sympy version {_sympy_available}")
except importlib_metadata.PackageNotFoundError:
_sympy_available = False
_keras2onnx_available = importlib.util.find_spec("keras2onnx") is not None
try:
_keras2onnx_version = importlib_metadata.version("keras2onnx")
logger.debug(f"Successfully imported keras2onnx version {_keras2onnx_version}")
except importlib_metadata.PackageNotFoundError:
_keras2onnx_available = False
_onnx_available = importlib.util.find_spec("onnxruntime") is not None
try:
_onxx_version = importlib_metadata.version("onnx")
logger.debug(f"Successfully imported onnx version {_onxx_version}")
except importlib_metadata.PackageNotFoundError:
_onnx_available = False
_scatter_available = importlib.util.find_spec("torch_scatter") is not None
try:
_scatter_version = importlib_metadata.version("torch_scatter")
logger.debug(f"Successfully imported torch-scatter version {_scatter_version}")
except importlib_metadata.PackageNotFoundError:
_scatter_available = False
_pytorch_quantization_available = importlib.util.find_spec("pytorch_quantization") is not None
try:
_pytorch_quantization_version = importlib_metadata.version("pytorch_quantization")
logger.debug(f"Successfully imported pytorch-quantization version {_pytorch_quantization_version}")
except importlib_metadata.PackageNotFoundError:
_pytorch_quantization_available = False
_soundfile_available = importlib.util.find_spec("soundfile") is not None
try:
_soundfile_version = importlib_metadata.version("soundfile")
logger.debug(f"Successfully imported soundfile version {_soundfile_version}")
except importlib_metadata.PackageNotFoundError:
_soundfile_available = False
_tensorflow_probability_available = importlib.util.find_spec("tensorflow_probability") is not None
try:
_tensorflow_probability_version = importlib_metadata.version("tensorflow_probability")
logger.debug(f"Successfully imported tensorflow-probability version {_tensorflow_probability_version}")
except importlib_metadata.PackageNotFoundError:
_tensorflow_probability_available = False
_timm_available = importlib.util.find_spec("timm") is not None
try:
_timm_version = importlib_metadata.version("timm")
logger.debug(f"Successfully imported timm version {_timm_version}")
except importlib_metadata.PackageNotFoundError:
_timm_available = False
_torchaudio_available = importlib.util.find_spec("torchaudio") is not None
try:
_torchaudio_version = importlib_metadata.version("torchaudio")
logger.debug(f"Successfully imported torchaudio version {_torchaudio_version}")
except importlib_metadata.PackageNotFoundError:
_torchaudio_available = False
_phonemizer_available = importlib.util.find_spec("phonemizer") is not None
try:
_phonemizer_version = importlib_metadata.version("phonemizer")
logger.debug(f"Successfully imported phonemizer version {_phonemizer_version}")
except importlib_metadata.PackageNotFoundError:
_phonemizer_available = False
_pyctcdecode_available = importlib.util.find_spec("pyctcdecode") is not None
try:
_pyctcdecode_version = importlib_metadata.version("pyctcdecode")
logger.debug(f"Successfully imported pyctcdecode version {_pyctcdecode_version}")
except importlib_metadata.PackageNotFoundError:
_pyctcdecode_available = False
_librosa_available = importlib.util.find_spec("librosa") is not None
try:
_librosa_version = importlib_metadata.version("librosa")
logger.debug(f"Successfully imported librosa version {_librosa_version}")
except importlib_metadata.PackageNotFoundError:
_librosa_available = False
torch_cache_home = os.getenv("TORCH_HOME", os.path.join(os.getenv("XDG_CACHE_HOME", "~/.cache"), "torch"))
old_default_cache_path = os.path.join(torch_cache_home, "transformers")
# New default cache, shared with the Datasets library
hf_cache_home = os.path.expanduser(
os.getenv("HF_HOME", os.path.join(os.getenv("XDG_CACHE_HOME", "~/.cache"), "huggingface"))
)
default_cache_path = os.path.join(hf_cache_home, "transformers")
# Onetime move from the old location to the new one if no ENV variable has been set.
if (
os.path.isdir(old_default_cache_path)
and not os.path.isdir(default_cache_path)
and "PYTORCH_PRETRAINED_BERT_CACHE" not in os.environ
and "PYTORCH_TRANSFORMERS_CACHE" not in os.environ
and "TRANSFORMERS_CACHE" not in os.environ
):
logger.warning(
"In Transformers v4.0.0, the default path to cache downloaded models changed from "
"'~/.cache/torch/transformers' to '~/.cache/huggingface/transformers'. Since you don't seem to have overridden "
"and '~/.cache/torch/transformers' is a directory that exists, we're moving it to "
"'~/.cache/huggingface/transformers' to avoid redownloading models you have already in the cache. You should "
"only see this message once."
)
shutil.move(old_default_cache_path, default_cache_path)
PYTORCH_PRETRAINED_BERT_CACHE = os.getenv("PYTORCH_PRETRAINED_BERT_CACHE", default_cache_path)
PYTORCH_TRANSFORMERS_CACHE = os.getenv("PYTORCH_TRANSFORMERS_CACHE", PYTORCH_PRETRAINED_BERT_CACHE)
TRANSFORMERS_CACHE = os.getenv("TRANSFORMERS_CACHE", PYTORCH_TRANSFORMERS_CACHE)
HF_MODULES_CACHE = os.getenv("HF_MODULES_CACHE", os.path.join(hf_cache_home, "modules"))
TRANSFORMERS_DYNAMIC_MODULE_NAME = "transformers_modules"
SESSION_ID = uuid4().hex
DISABLE_TELEMETRY = os.getenv("DISABLE_TELEMETRY", False) in ENV_VARS_TRUE_VALUES
WEIGHTS_NAME = "pytorch_model.bin"
TF2_WEIGHTS_NAME = "tf_model.h5"
TF_WEIGHTS_NAME = "model.ckpt"
FLAX_WEIGHTS_NAME = "flax_model.msgpack"
CONFIG_NAME = "config.json"
FEATURE_EXTRACTOR_NAME = "preprocessor_config.json"
MODEL_CARD_NAME = "modelcard.json"
SENTENCEPIECE_UNDERLINE = "▁"
SPIECE_UNDERLINE = SENTENCEPIECE_UNDERLINE # Kept for backward compatibility
MULTIPLE_CHOICE_DUMMY_INPUTS = [
[[0, 1, 0, 1], [1, 0, 0, 1]]
] * 2 # Needs to have 0s and 1s only since XLM uses it for langs too.
DUMMY_INPUTS = [[7, 6, 0, 0, 1], [1, 2, 3, 0, 0], [0, 0, 0, 4, 5]]
DUMMY_MASK = [[1, 1, 1, 1, 1], [1, 1, 1, 0, 0], [0, 0, 0, 1, 1]]
S3_BUCKET_PREFIX = "https://s3.amazonaws.com/models.huggingface.co/bert"
CLOUDFRONT_DISTRIB_PREFIX = "https://cdn.huggingface.co"
_staging_mode = os.environ.get("HUGGINGFACE_CO_STAGING", "NO").upper() in ENV_VARS_TRUE_VALUES
_default_endpoint = "https://moon-staging.huggingface.co" if _staging_mode else "https://huggingface.co"
HUGGINGFACE_CO_RESOLVE_ENDPOINT = os.environ.get("HUGGINGFACE_CO_RESOLVE_ENDPOINT", _default_endpoint)
HUGGINGFACE_CO_PREFIX = HUGGINGFACE_CO_RESOLVE_ENDPOINT + "/{model_id}/resolve/{revision}/{filename}"
# This is the version of torch required to run torch.fx features and torch.onnx with dictionary inputs.
TORCH_FX_REQUIRED_VERSION = version.parse("1.9")
TORCH_ONNX_DICT_INPUTS_MINIMUM_VERSION = version.parse("1.8")
_is_offline_mode = True if os.environ.get("TRANSFORMERS_OFFLINE", "0").upper() in ENV_VARS_TRUE_VALUES else False
def is_offline_mode():
return _is_offline_mode
def is_torch_available():
return _torch_available
def is_pyctcdecode_available():
return _pyctcdecode_available
def is_librosa_available():
return _librosa_available
def is_torch_cuda_available():
if is_torch_available():
import torch
return torch.cuda.is_available()
else:
return False
def is_torch_bf16_available():
if not is_torch_available():
return False
import torch
# since currently no utility function is available we build our own.
# some bits come from https://github.com/pytorch/pytorch/blob/2289a12f21c54da93bf5d696e3f9aea83dd9c10d/torch/testing/_internal/common_cuda.py#L51
# with additional check for torch version
# to succeed:
# 1. the hardware needs to support bf16 (arch >= Ampere)
# 2. torch >= 1.10 (1.9 should be enough for AMP API has changed in 1.10, so using 1.10 as minimal)
# 3. CUDA >= 11
# 4. torch.autocast exists
# XXX: one problem here is that it may give invalid results on mixed gpus setup, so it's
# really only correct for the 0th gpu (or currently set default device if different from 0)
if not torch.cuda.is_available() or torch.version.cuda is None:
return False
if torch.cuda.get_device_properties(torch.cuda.current_device()).major < 8:
return False
if int(torch.version.cuda.split(".")[0]) < 11:
return False
if version.parse(torch.__version__) < version.parse("1.10"):
return False
if not hasattr(torch, "autocast"):
return False
return True
def is_torch_tf32_available():
if not is_torch_available():
return False
import torch
if not torch.cuda.is_available() or torch.version.cuda is None:
return False
if torch.cuda.get_device_properties(torch.cuda.current_device()).major < 8:
return False
if int(torch.version.cuda.split(".")[0]) < 11:
return False
if version.parse(torch.__version__) < version.parse("1.7"):
return False
return True
_torch_fx_available = _torch_onnx_dict_inputs_support_available = False
if _torch_available:
torch_version = version.parse(importlib_metadata.version("torch"))
_torch_fx_available = (torch_version.major, torch_version.minor) == (
TORCH_FX_REQUIRED_VERSION.major,
TORCH_FX_REQUIRED_VERSION.minor,
)
_torch_onnx_dict_inputs_support_available = torch_version >= TORCH_ONNX_DICT_INPUTS_MINIMUM_VERSION
def is_torch_fx_available():
return _torch_fx_available
def is_torch_onnx_dict_inputs_support_available():
return _torch_onnx_dict_inputs_support_available
def is_tf_available():
return _tf_available
def is_coloredlogs_available():
return _coloredlogs_available
def is_keras2onnx_available():
return _keras2onnx_available
def is_onnx_available():
return _onnx_available
def is_flax_available():
return _flax_available
def is_torch_tpu_available():
if not _torch_available:
return False
# This test is probably enough, but just in case, we unpack a bit.
if importlib.util.find_spec("torch_xla") is None:
return False
if importlib.util.find_spec("torch_xla.core") is None:
return False
return importlib.util.find_spec("torch_xla.core.xla_model") is not None
def is_datasets_available():
return _datasets_available
def is_detectron2_available():
return _detectron2_available
def is_rjieba_available():
return importlib.util.find_spec("rjieba") is not None
def is_psutil_available():
return importlib.util.find_spec("psutil") is not None
def is_py3nvml_available():
return importlib.util.find_spec("py3nvml") is not None
def is_apex_available():
return importlib.util.find_spec("apex") is not None
def is_faiss_available():
return _faiss_available
def is_scipy_available():
return importlib.util.find_spec("scipy") is not None
def is_sklearn_available():
if importlib.util.find_spec("sklearn") is None:
return False
return is_scipy_available() and importlib.util.find_spec("sklearn.metrics")
def is_sentencepiece_available():
return importlib.util.find_spec("sentencepiece") is not None
def is_protobuf_available():
if importlib.util.find_spec("google") is None:
return False
return importlib.util.find_spec("google.protobuf") is not None
def is_tokenizers_available():
return importlib.util.find_spec("tokenizers") is not None
def is_vision_available():
return importlib.util.find_spec("PIL") is not None
def is_pytesseract_available():
return importlib.util.find_spec("pytesseract") is not None
def is_in_notebook():
try:
# Test adapted from tqdm.autonotebook: https://github.com/tqdm/tqdm/blob/master/tqdm/autonotebook.py
get_ipython = sys.modules["IPython"].get_ipython
if "IPKernelApp" not in get_ipython().config:
raise ImportError("console")
if "VSCODE_PID" in os.environ:
raise ImportError("vscode")
return importlib.util.find_spec("IPython") is not None
except (AttributeError, ImportError, KeyError):
return False
def is_scatter_available():
return _scatter_available
def is_pytorch_quantization_available():
return _pytorch_quantization_available
def is_tensorflow_probability_available():
return _tensorflow_probability_available
def is_pandas_available():
return importlib.util.find_spec("pandas") is not None
def is_sagemaker_dp_enabled():
# Get the sagemaker specific env variable.
sagemaker_params = os.getenv("SM_FRAMEWORK_PARAMS", "{}")
try:
# Parse it and check the field "sagemaker_distributed_dataparallel_enabled".
sagemaker_params = json.loads(sagemaker_params)
if not sagemaker_params.get("sagemaker_distributed_dataparallel_enabled", False):
return False
except json.JSONDecodeError:
return False
# Lastly, check if the `smdistributed` module is present.
return importlib.util.find_spec("smdistributed") is not None
def is_sagemaker_mp_enabled():
# Get the sagemaker specific mp parameters from smp_options variable.
smp_options = os.getenv("SM_HP_MP_PARAMETERS", "{}")
try:
# Parse it and check the field "partitions" is included, it is required for model parallel.
smp_options = json.loads(smp_options)
if "partitions" not in smp_options:
return False
except json.JSONDecodeError:
return False
# Get the sagemaker specific framework parameters from mpi_options variable.
mpi_options = os.getenv("SM_FRAMEWORK_PARAMS", "{}")
try:
# Parse it and check the field "sagemaker_distributed_dataparallel_enabled".
mpi_options = json.loads(mpi_options)
if not mpi_options.get("sagemaker_mpi_enabled", False):
return False
except json.JSONDecodeError:
return False
# Lastly, check if the `smdistributed` module is present.
return importlib.util.find_spec("smdistributed") is not None
def is_training_run_on_sagemaker():
return "SAGEMAKER_JOB_NAME" in os.environ
def is_soundfile_availble():
return _soundfile_available
def is_timm_available():
return _timm_available
def is_torchaudio_available():
return _torchaudio_available
def is_speech_available():
# For now this depends on torchaudio but the exact dependency might evolve in the future.
return _torchaudio_available
def is_phonemizer_available():
return _phonemizer_available
def torch_only_method(fn):
def wrapper(*args, **kwargs):
if not _torch_available:
raise ImportError(
"You need to install pytorch to use this method or class, "
"or activate it with environment variables USE_TORCH=1 and USE_TF=0."
)
else:
return fn(*args, **kwargs)
return wrapper
# docstyle-ignore
DATASETS_IMPORT_ERROR = """
{0} requires the 🤗 Datasets library but it was not found in your environment. You can install it with:
```
pip install datasets
```
In a notebook or a colab, you can install it by executing a cell with
```
!pip install datasets
```
then restarting your kernel.
Note that if you have a local folder named `datasets` or a local python file named `datasets.py` in your current
working directory, python may try to import this instead of the 🤗 Datasets library. You should rename this folder or
that python file if that's the case.
"""
# docstyle-ignore
TOKENIZERS_IMPORT_ERROR = """
{0} requires the 🤗 Tokenizers library but it was not found in your environment. You can install it with:
```
pip install tokenizers
```
In a notebook or a colab, you can install it by executing a cell with
```
!pip install tokenizers
```
"""
# docstyle-ignore
SENTENCEPIECE_IMPORT_ERROR = """
{0} requires the SentencePiece library but it was not found in your environment. Checkout the instructions on the
installation page of its repo: https://github.com/google/sentencepiece#installation and follow the ones
that match your environment.
"""
# docstyle-ignore
PROTOBUF_IMPORT_ERROR = """
{0} requires the protobuf library but it was not found in your environment. Checkout the instructions on the
installation page of its repo: https://github.com/protocolbuffers/protobuf/tree/master/python#installation and follow the ones
that match your environment.
"""
# docstyle-ignore
FAISS_IMPORT_ERROR = """
{0} requires the faiss library but it was not found in your environment. Checkout the instructions on the
installation page of its repo: https://github.com/facebookresearch/faiss/blob/master/INSTALL.md and follow the ones
that match your environment.
"""
# docstyle-ignore
PYTORCH_IMPORT_ERROR = """
{0} requires the PyTorch library but it was not found in your environment. Checkout the instructions on the
installation page: https://pytorch.org/get-started/locally/ and follow the ones that match your environment.
"""
# docstyle-ignore
SKLEARN_IMPORT_ERROR = """
{0} requires the scikit-learn library but it was not found in your environment. You can install it with:
```
pip install -U scikit-learn
```
In a notebook or a colab, you can install it by executing a cell with
```
!pip install -U scikit-learn
```
"""
# docstyle-ignore
TENSORFLOW_IMPORT_ERROR = """
{0} requires the TensorFlow library but it was not found in your environment. Checkout the instructions on the
installation page: https://www.tensorflow.org/install and follow the ones that match your environment.
"""
# docstyle-ignore
DETECTRON2_IMPORT_ERROR = """
{0} requires the detectron2 library but it was not found in your environment. Checkout the instructions on the
installation page: https://github.com/facebookresearch/detectron2/blob/master/INSTALL.md and follow the ones
that match your environment.
"""
# docstyle-ignore
FLAX_IMPORT_ERROR = """
{0} requires the FLAX library but it was not found in your environment. Checkout the instructions on the
installation page: https://github.com/google/flax and follow the ones that match your environment.
"""
# docstyle-ignore
SCATTER_IMPORT_ERROR = """
{0} requires the torch-scatter library but it was not found in your environment. You can install it with pip as
explained here: https://github.com/rusty1s/pytorch_scatter.
"""
# docstyle-ignore
PYTORCH_QUANTIZATION_IMPORT_ERROR = """
{0} requires the pytorch-quantization library but it was not found in your environment. You can install it with pip:
`pip install pytorch-quantization --extra-index-url https://pypi.ngc.nvidia.com`
"""
# docstyle-ignore
TENSORFLOW_PROBABILITY_IMPORT_ERROR = """
{0} requires the tensorflow_probability library but it was not found in your environment. You can install it with pip as
explained here: https://github.com/tensorflow/probability.
"""
# docstyle-ignore
PANDAS_IMPORT_ERROR = """
{0} requires the pandas library but it was not found in your environment. You can install it with pip as
explained here: https://pandas.pydata.org/pandas-docs/stable/getting_started/install.html.
"""
# docstyle-ignore
PHONEMIZER_IMPORT_ERROR = """
{0} requires the phonemizer library but it was not found in your environment. You can install it with pip:
`pip install phonemizer`
"""
# docstyle-ignore
SCIPY_IMPORT_ERROR = """
{0} requires the scipy library but it was not found in your environment. You can install it with pip:
`pip install scipy`
"""
# docstyle-ignore
SPEECH_IMPORT_ERROR = """
{0} requires the torchaudio library but it was not found in your environment. You can install it with pip:
`pip install torchaudio`
"""
# docstyle-ignore
TIMM_IMPORT_ERROR = """
{0} requires the timm library but it was not found in your environment. You can install it with pip:
`pip install timm`
"""
# docstyle-ignore
VISION_IMPORT_ERROR = """
{0} requires the PIL library but it was not found in your environment. You can install it with pip:
`pip install pillow`
"""
# docstyle-ignore
PYTESSERACT_IMPORT_ERROR = """
{0} requires the PyTesseract library but it was not found in your environment. You can install it with pip:
`pip install pytesseract`
"""
# docstyle-ignore
PYCTCDECODE_IMPORT_ERROR = """
{0} requires the pyctcdecode library but it was not found in your environment. You can install it with pip:
`pip install pyctcdecode`
"""
BACKENDS_MAPPING = OrderedDict(
[
("datasets", (is_datasets_available, DATASETS_IMPORT_ERROR)),
("detectron2", (is_detectron2_available, DETECTRON2_IMPORT_ERROR)),
("faiss", (is_faiss_available, FAISS_IMPORT_ERROR)),
("flax", (is_flax_available, FLAX_IMPORT_ERROR)),
("pandas", (is_pandas_available, PANDAS_IMPORT_ERROR)),
("phonemizer", (is_phonemizer_available, PHONEMIZER_IMPORT_ERROR)),
("protobuf", (is_protobuf_available, PROTOBUF_IMPORT_ERROR)),
("pyctcdecode", (is_pyctcdecode_available, PYCTCDECODE_IMPORT_ERROR)),
("pytesseract", (is_pytesseract_available, PYTESSERACT_IMPORT_ERROR)),
("scatter", (is_scatter_available, SCATTER_IMPORT_ERROR)),
("pytorch_quantization", (is_pytorch_quantization_available, PYTORCH_QUANTIZATION_IMPORT_ERROR)),
("sentencepiece", (is_sentencepiece_available, SENTENCEPIECE_IMPORT_ERROR)),
("sklearn", (is_sklearn_available, SKLEARN_IMPORT_ERROR)),
("speech", (is_speech_available, SPEECH_IMPORT_ERROR)),
("tensorflow_probability", (is_tensorflow_probability_available, TENSORFLOW_PROBABILITY_IMPORT_ERROR)),
("tf", (is_tf_available, TENSORFLOW_IMPORT_ERROR)),
("timm", (is_timm_available, TIMM_IMPORT_ERROR)),
("tokenizers", (is_tokenizers_available, TOKENIZERS_IMPORT_ERROR)),
("torch", (is_torch_available, PYTORCH_IMPORT_ERROR)),
("vision", (is_vision_available, VISION_IMPORT_ERROR)),
("scipy", (is_scipy_available, SCIPY_IMPORT_ERROR)),
]
)
def requires_backends(obj, backends):
if not isinstance(backends, (list, tuple)):
backends = [backends]
name = obj.__name__ if hasattr(obj, "__name__") else obj.__class__.__name__
if not all(BACKENDS_MAPPING[backend][0]() for backend in backends):
raise ImportError("".join([BACKENDS_MAPPING[backend][1].format(name) for backend in backends]))
def add_start_docstrings(*docstr):
def docstring_decorator(fn):
fn.__doc__ = "".join(docstr) + (fn.__doc__ if fn.__doc__ is not None else "")
return fn
return docstring_decorator
def add_start_docstrings_to_model_forward(*docstr):
def docstring_decorator(fn):
docstring = "".join(docstr) + (fn.__doc__ if fn.__doc__ is not None else "")
class_name = f"[`{fn.__qualname__.split('.')[0]}`]"
intro = f" The {class_name} forward method, overrides the `__call__` special method."
note = r"""
<Tip>
Although the recipe for forward pass needs to be defined within this function, one should call the [`Module`]
instance afterwards instead of this since the former takes care of running the pre and post processing steps while
the latter silently ignores them.
</Tip>
"""
fn.__doc__ = intro + note + docstring
return fn
return docstring_decorator
def add_end_docstrings(*docstr):
def docstring_decorator(fn):
fn.__doc__ = fn.__doc__ + "".join(docstr)
return fn
return docstring_decorator
PT_RETURN_INTRODUCTION = r"""
Returns:
[`{full_output_type}`] or `tuple(torch.FloatTensor)`: A [`{full_output_type}`] or a tuple of
`torch.FloatTensor` (if `return_dict=False` is passed or when `config.return_dict=False`) comprising various
elements depending on the configuration ([`{config_class}`]) and inputs.
"""
TF_RETURN_INTRODUCTION = r"""
Returns:
[`{full_output_type}`] or `tuple(tf.Tensor)`: A [`{full_output_type}`] or a tuple of `tf.Tensor` (if
`return_dict=False` is passed or when `config.return_dict=False`) comprising various elements depending on the
configuration ([`{config_class}`]) and inputs.
"""
def _get_indent(t):
"""Returns the indentation in the first line of t"""
search = re.search(r"^(\s*)\S", t)
return "" if search is None else search.groups()[0]
def _convert_output_args_doc(output_args_doc):
"""Convert output_args_doc to display properly."""
# Split output_arg_doc in blocks argument/description
indent = _get_indent(output_args_doc)
blocks = []
current_block = ""
for line in output_args_doc.split("\n"):
# If the indent is the same as the beginning, the line is the name of new arg.
if _get_indent(line) == indent:
if len(current_block) > 0:
blocks.append(current_block[:-1])
current_block = f"{line}\n"
else:
# Otherwise it's part of the description of the current arg.
# We need to remove 2 spaces to the indentation.
current_block += f"{line[2:]}\n"
blocks.append(current_block[:-1])
# Format each block for proper rendering
for i in range(len(blocks)):
blocks[i] = re.sub(r"^(\s+)(\S+)(\s+)", r"\1- **\2**\3", blocks[i])
blocks[i] = re.sub(r":\s*\n\s*(\S)", r" -- \1", blocks[i])
return "\n".join(blocks)
def _prepare_output_docstrings(output_type, config_class, min_indent=None):
"""
Prepares the return part of the docstring using `output_type`.
"""
output_docstring = output_type.__doc__
# Remove the head of the docstring to keep the list of args only
lines = output_docstring.split("\n")
i = 0
while i < len(lines) and re.search(r"^\s*(Args|Parameters):\s*$", lines[i]) is None:
i += 1
if i < len(lines):
params_docstring = "\n".join(lines[(i + 1) :])
params_docstring = _convert_output_args_doc(params_docstring)
# Add the return introduction
full_output_type = f"{output_type.__module__}.{output_type.__name__}"
intro = TF_RETURN_INTRODUCTION if output_type.__name__.startswith("TF") else PT_RETURN_INTRODUCTION
intro = intro.format(full_output_type=full_output_type, config_class=config_class)
result = intro + params_docstring
# Apply minimum indent if necessary
if min_indent is not None:
lines = result.split("\n")
# Find the indent of the first nonempty line
i = 0
while len(lines[i]) == 0:
i += 1
indent = len(_get_indent(lines[i]))
# If too small, add indentation to all nonempty lines
if indent < min_indent:
to_add = " " * (min_indent - indent)
lines = [(f"{to_add}{line}" if len(line) > 0 else line) for line in lines]
result = "\n".join(lines)
return result
PT_TOKEN_CLASSIFICATION_SAMPLE = r"""
Example:
```python
>>> from transformers import {processor_class}, {model_class}
>>> import torch
>>> tokenizer = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> inputs = tokenizer("Hello, my dog is cute", return_tensors="pt")
>>> labels = torch.tensor([1] * inputs["input_ids"].size(1)).unsqueeze(0) # Batch size 1
>>> outputs = model(**inputs, labels=labels)
>>> loss = outputs.loss
>>> logits = outputs.logits
```
"""
PT_QUESTION_ANSWERING_SAMPLE = r"""
Example:
```python
>>> from transformers import {processor_class}, {model_class}
>>> import torch
>>> tokenizer = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> question, text = "Who was Jim Henson?", "Jim Henson was a nice puppet"
>>> inputs = tokenizer(question, text, return_tensors='pt')
>>> start_positions = torch.tensor([1])
>>> end_positions = torch.tensor([3])
>>> outputs = model(**inputs, start_positions=start_positions, end_positions=end_positions)
>>> loss = outputs.loss
>>> start_scores = outputs.start_logits
>>> end_scores = outputs.end_logits
```
"""
PT_SEQUENCE_CLASSIFICATION_SAMPLE = r"""
Example of single-label classification:
```python
>>> from transformers import {processor_class}, {model_class}
>>> import torch
>>> tokenizer = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> inputs = tokenizer("Hello, my dog is cute", return_tensors="pt")
>>> labels = torch.tensor([1]).unsqueeze(0) # Batch size 1
>>> outputs = model(**inputs, labels=labels)
>>> loss = outputs.loss
>>> logits = outputs.logits
```
Example of multi-label classification:
```python
>>> from transformers import {processor_class}, {model_class}
>>> import torch
>>> tokenizer = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}', problem_type="multi_label_classification")
>>> inputs = tokenizer("Hello, my dog is cute", return_tensors="pt")
>>> labels = torch.tensor([[1, 1]], dtype=torch.float) # need dtype=float for BCEWithLogitsLoss
>>> outputs = model(**inputs, labels=labels)
>>> loss = outputs.loss
>>> logits = outputs.logits
```
"""
PT_MASKED_LM_SAMPLE = r"""
Example:
```python
>>> from transformers import {processor_class}, {model_class}
>>> import torch
>>> tokenizer = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> inputs = tokenizer("The capital of France is {mask}.", return_tensors="pt")
>>> labels = tokenizer("The capital of France is Paris.", return_tensors="pt")["input_ids"]
>>> outputs = model(**inputs, labels=labels)
>>> loss = outputs.loss
>>> logits = outputs.logits
```
"""
PT_BASE_MODEL_SAMPLE = r"""
Example:
```python
>>> from transformers import {processor_class}, {model_class}
>>> import torch
>>> tokenizer = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> inputs = tokenizer("Hello, my dog is cute", return_tensors="pt")
>>> outputs = model(**inputs)
>>> last_hidden_states = outputs.last_hidden_state
```
"""
PT_MULTIPLE_CHOICE_SAMPLE = r"""
Example:
```python
>>> from transformers import {processor_class}, {model_class}
>>> import torch
>>> tokenizer = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> prompt = "In Italy, pizza served in formal settings, such as at a restaurant, is presented unsliced."
>>> choice0 = "It is eaten with a fork and a knife."
>>> choice1 = "It is eaten while held in the hand."
>>> labels = torch.tensor(0).unsqueeze(0) # choice0 is correct (according to Wikipedia ;)), batch size 1
>>> encoding = tokenizer([prompt, prompt], [choice0, choice1], return_tensors='pt', padding=True)
>>> outputs = model(**{{k: v.unsqueeze(0) for k,v in encoding.items()}}, labels=labels) # batch size is 1
>>> # the linear classifier still needs to be trained
>>> loss = outputs.loss
>>> logits = outputs.logits
```
"""
PT_CAUSAL_LM_SAMPLE = r"""
Example:
```python
>>> import torch
>>> from transformers import {processor_class}, {model_class}
>>> tokenizer = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> inputs = tokenizer("Hello, my dog is cute", return_tensors="pt")
>>> outputs = model(**inputs, labels=inputs["input_ids"])
>>> loss = outputs.loss
>>> logits = outputs.logits
```
"""
PT_SPEECH_BASE_MODEL_SAMPLE = r"""
Example:
```python
>>> from transformers import {processor_class}, {model_class}
>>> from datasets import load_dataset
>>> dataset = load_dataset("hf-internal-testing/librispeech_asr_demo", "clean", split="validation")
>>> sampling_rate = dataset.features["audio"].sampling_rate
>>> processor = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> # audio file is decoded on the fly
>>> inputs = processor(dataset[0]["audio"]["array"], sampling_rate=sampling_rate, return_tensors="pt")
>>> outputs = model(**inputs)
>>> last_hidden_states = outputs.last_hidden_state
```
"""
PT_SPEECH_CTC_SAMPLE = r"""
Example:
```python
>>> from transformers import {processor_class}, {model_class}
>>> from datasets import load_dataset
>>> import torch
>>> dataset = load_dataset("hf-internal-testing/librispeech_asr_demo", "clean", split="validation")
>>> sampling_rate = dataset.features["audio"].sampling_rate
>>> processor = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> # audio file is decoded on the fly
>>> inputs = processor(dataset[0]["audio"]["array"], sampling_rate=sampling_rate, return_tensors="pt")
>>> logits = model(**inputs).logits
>>> predicted_ids = torch.argmax(logits, dim=-1)
>>> # transcribe speech
>>> transcription = processor.batch_decode(predicted_ids)
>>> # compute loss
>>> with processor.as_target_processor():
... inputs["labels"] = processor(dataset[0]["text"], return_tensors="pt").input_ids
>>> loss = model(**inputs).loss
```
"""
PT_SPEECH_SEQ_CLASS_SAMPLE = r"""
Example:
```python
>>> from transformers import {processor_class}, {model_class}
>>> from datasets import load_dataset
>>> import torch
>>> dataset = load_dataset("hf-internal-testing/librispeech_asr_demo", "clean", split="validation")
>>> sampling_rate = dataset.features["audio"].sampling_rate
>>> feature_extractor = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> # audio file is decoded on the fly
>>> inputs = feature_extractor(dataset[0]["audio"]["array"], return_tensors="pt")
>>> logits = model(**inputs).logits >>> predicted_class_ids = torch.argmax(logits, dim=-1)
>>> predicted_label = model.config.id2label[predicted_class_ids]
>>> # compute loss - target_label is e.g. "down"
>>> target_label = model.config.id2label[0]
>>> inputs["labels"] = torch.tensor([model.config.label2id[target_label]])
>>> loss = model(**inputs).loss
```
"""
PT_SPEECH_FRAME_CLASS_SAMPLE = r"""
Example:
```python
>>> from transformers import {processor_class}, {model_class}
>>> from datasets import load_dataset
>>> import torch
>>> dataset = load_dataset("hf-internal-testing/librispeech_asr_demo", "clean", split="validation")
>>> sampling_rate = dataset.features["audio"].sampling_rate
>>> feature_extractor = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> # audio file is decoded on the fly
>>> inputs = feature_extractor(dataset[0]["audio"]["array"], return_tensors="pt")
>>> logits = model(**inputs).logits
>>> probabilities = torch.sigmoid(logits[0])
>>> # labels is a one-hot array of shape (num_frames, num_speakers)
>>> labels = (probabilities > 0.5).long()
```
"""
PT_SPEECH_XVECTOR_SAMPLE = r"""
Example:
```python
>>> from transformers import {processor_class}, {model_class}
>>> from datasets import load_dataset
>>> import torch
>>> dataset = load_dataset("hf-internal-testing/librispeech_asr_demo", "clean", split="validation")
>>> sampling_rate = dataset.features["audio"].sampling_rate
>>> feature_extractor = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> # audio file is decoded on the fly
>>> inputs = feature_extractor(dataset[:2]["audio"]["array"], return_tensors="pt")
>>> embeddings = model(**inputs).embeddings
>>> embeddings = torch.nn.functional.normalize(embeddings, dim=-1).cpu()
>>> # the resulting embeddings can be used for cosine similarity-based retrieval
>>> cosine_sim = torch.nn.CosineSimilarity(dim=-1)
>>> similarity = cosine_sim(embeddings[0], embeddings[1])
>>> threshold = 0.7 # the optimal threshold is dataset-dependent
>>> if similarity < threshold:
... print("Speakers are not the same!")
```
"""
PT_SAMPLE_DOCSTRINGS = {
"SequenceClassification": PT_SEQUENCE_CLASSIFICATION_SAMPLE,
"QuestionAnswering": PT_QUESTION_ANSWERING_SAMPLE,
"TokenClassification": PT_TOKEN_CLASSIFICATION_SAMPLE,
"MultipleChoice": PT_MULTIPLE_CHOICE_SAMPLE,
"MaskedLM": PT_MASKED_LM_SAMPLE,
"LMHead": PT_CAUSAL_LM_SAMPLE,
"BaseModel": PT_BASE_MODEL_SAMPLE,
"SpeechBaseModel": PT_SPEECH_BASE_MODEL_SAMPLE,
"CTC": PT_SPEECH_CTC_SAMPLE,
"AudioClassification": PT_SPEECH_SEQ_CLASS_SAMPLE,
"AudioFrameClassification": PT_SPEECH_FRAME_CLASS_SAMPLE,
"AudioXVector": PT_SPEECH_XVECTOR_SAMPLE,
}
TF_TOKEN_CLASSIFICATION_SAMPLE = r"""
Example:
```python
>>> from transformers import {processor_class}, {model_class}
>>> import tensorflow as tf
>>> tokenizer = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> inputs = tokenizer("Hello, my dog is cute", return_tensors="tf")
>>> input_ids = inputs["input_ids"]
>>> inputs["labels"] = tf.reshape(tf.constant([1] * tf.size(input_ids).numpy()), (-1, tf.size(input_ids))) # Batch size 1
>>> outputs = model(inputs)
>>> loss = outputs.loss
>>> logits = outputs.logits
```
"""
TF_QUESTION_ANSWERING_SAMPLE = r"""
Example:
```python
>>> from transformers import {processor_class}, {model_class}
>>> import tensorflow as tf
>>> tokenizer = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> question, text = "Who was Jim Henson?", "Jim Henson was a nice puppet"
>>> input_dict = tokenizer(question, text, return_tensors='tf')
>>> outputs = model(input_dict)
>>> start_logits = outputs.start_logits
>>> end_logits = outputs.end_logits
>>> all_tokens = tokenizer.convert_ids_to_tokens(input_dict["input_ids"].numpy()[0])
>>> answer = ' '.join(all_tokens[tf.math.argmax(start_logits, 1)[0] : tf.math.argmax(end_logits, 1)[0]+1])
```
"""
TF_SEQUENCE_CLASSIFICATION_SAMPLE = r"""
Example:
```python
>>> from transformers import {processor_class}, {model_class}
>>> import tensorflow as tf
>>> tokenizer = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> inputs = tokenizer("Hello, my dog is cute", return_tensors="tf")
>>> inputs["labels"] = tf.reshape(tf.constant(1), (-1, 1)) # Batch size 1
>>> outputs = model(inputs)
>>> loss = outputs.loss
>>> logits = outputs.logits
```
"""
TF_MASKED_LM_SAMPLE = r"""
Example:
```python
>>> from transformers import {processor_class}, {model_class}
>>> import tensorflow as tf
>>> tokenizer = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> inputs = tokenizer("The capital of France is {mask}.", return_tensors="tf")
>>> inputs["labels"] = tokenizer("The capital of France is Paris.", return_tensors="tf")["input_ids"]
>>> outputs = model(inputs)
>>> loss = outputs.loss
>>> logits = outputs.logits
```
"""
TF_BASE_MODEL_SAMPLE = r"""
Example:
```python
>>> from transformers import {processor_class}, {model_class}
>>> import tensorflow as tf
>>> tokenizer = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> inputs = tokenizer("Hello, my dog is cute", return_tensors="tf")
>>> outputs = model(inputs)
>>> last_hidden_states = outputs.last_hidden_state
```
"""
TF_MULTIPLE_CHOICE_SAMPLE = r"""
Example:
```python
>>> from transformers import {processor_class}, {model_class}
>>> import tensorflow as tf
>>> tokenizer = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> prompt = "In Italy, pizza served in formal settings, such as at a restaurant, is presented unsliced."
>>> choice0 = "It is eaten with a fork and a knife."
>>> choice1 = "It is eaten while held in the hand."
>>> encoding = tokenizer([prompt, prompt], [choice0, choice1], return_tensors='tf', padding=True)
>>> inputs = {{k: tf.expand_dims(v, 0) for k, v in encoding.items()}}
>>> outputs = model(inputs) # batch size is 1
>>> # the linear classifier still needs to be trained
>>> logits = outputs.logits
```
"""
TF_CAUSAL_LM_SAMPLE = r"""
Example:
```python
>>> from transformers import {processor_class}, {model_class}
>>> import tensorflow as tf
>>> tokenizer = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> inputs = tokenizer("Hello, my dog is cute", return_tensors="tf")
>>> outputs = model(inputs)
>>> logits = outputs.logits
```
"""
TF_SAMPLE_DOCSTRINGS = {
"SequenceClassification": TF_SEQUENCE_CLASSIFICATION_SAMPLE,
"QuestionAnswering": TF_QUESTION_ANSWERING_SAMPLE,
"TokenClassification": TF_TOKEN_CLASSIFICATION_SAMPLE,
"MultipleChoice": TF_MULTIPLE_CHOICE_SAMPLE,
"MaskedLM": TF_MASKED_LM_SAMPLE,
"LMHead": TF_CAUSAL_LM_SAMPLE,
"BaseModel": TF_BASE_MODEL_SAMPLE,
}
FLAX_TOKEN_CLASSIFICATION_SAMPLE = r"""
Example:
```python
>>> from transformers import {processor_class}, {model_class}
>>> tokenizer = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> inputs = tokenizer("Hello, my dog is cute", return_tensors='jax')
>>> outputs = model(**inputs)
>>> logits = outputs.logits
```
"""
FLAX_QUESTION_ANSWERING_SAMPLE = r"""
Example:
```python
>>> from transformers import {processor_class}, {model_class}
>>> tokenizer = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> question, text = "Who was Jim Henson?", "Jim Henson was a nice puppet"
>>> inputs = tokenizer(question, text, return_tensors='jax')
>>> outputs = model(**inputs)
>>> start_scores = outputs.start_logits
>>> end_scores = outputs.end_logits
```
"""
FLAX_SEQUENCE_CLASSIFICATION_SAMPLE = r"""
Example:
```python
>>> from transformers import {processor_class}, {model_class}
>>> tokenizer = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> inputs = tokenizer("Hello, my dog is cute", return_tensors='jax')
>>> outputs = model(**inputs)
>>> logits = outputs.logits
```
"""
FLAX_MASKED_LM_SAMPLE = r"""
Example:
```python
>>> from transformers import {processor_class}, {model_class}
>>> tokenizer = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> inputs = tokenizer("The capital of France is {mask}.", return_tensors='jax')
>>> outputs = model(**inputs)
>>> logits = outputs.logits
```
"""
FLAX_BASE_MODEL_SAMPLE = r"""
Example:
```python
>>> from transformers import {processor_class}, {model_class}
>>> tokenizer = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> inputs = tokenizer("Hello, my dog is cute", return_tensors='jax')
>>> outputs = model(**inputs)
>>> last_hidden_states = outputs.last_hidden_state
```
"""
FLAX_MULTIPLE_CHOICE_SAMPLE = r"""
Example:
```python
>>> from transformers import {processor_class}, {model_class}
>>> tokenizer = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> prompt = "In Italy, pizza served in formal settings, such as at a restaurant, is presented unsliced."
>>> choice0 = "It is eaten with a fork and a knife."
>>> choice1 = "It is eaten while held in the hand."
>>> encoding = tokenizer([prompt, prompt], [choice0, choice1], return_tensors='jax', padding=True)
>>> outputs = model(**{{k: v[None, :] for k,v in encoding.items()}})
>>> logits = outputs.logits
```
"""
FLAX_CAUSAL_LM_SAMPLE = r"""
Example:
```python
>>> from transformers import {processor_class}, {model_class}
>>> tokenizer = {processor_class}.from_pretrained('{checkpoint}')
>>> model = {model_class}.from_pretrained('{checkpoint}')
>>> inputs = tokenizer("Hello, my dog is cute", return_tensors="np")
>>> outputs = model(**inputs)
>>> # retrieve logts for next token
>>> next_token_logits = outputs.logits[:, -1]
```
"""
FLAX_SAMPLE_DOCSTRINGS = {
"SequenceClassification": FLAX_SEQUENCE_CLASSIFICATION_SAMPLE,
"QuestionAnswering": FLAX_QUESTION_ANSWERING_SAMPLE,
"TokenClassification": FLAX_TOKEN_CLASSIFICATION_SAMPLE,
"MultipleChoice": FLAX_MULTIPLE_CHOICE_SAMPLE,
"MaskedLM": FLAX_MASKED_LM_SAMPLE,
"BaseModel": FLAX_BASE_MODEL_SAMPLE,
"LMHead": FLAX_CAUSAL_LM_SAMPLE,
}
def add_code_sample_docstrings(
*docstr,
processor_class=None,
checkpoint=None,
output_type=None,
config_class=None,
mask=None,
model_cls=None,
modality=None
):
def docstring_decorator(fn):
# model_class defaults to function's class if not specified otherwise
model_class = fn.__qualname__.split(".")[0] if model_cls is None else model_cls
if model_class[:2] == "TF":
sample_docstrings = TF_SAMPLE_DOCSTRINGS
elif model_class[:4] == "Flax":
sample_docstrings = FLAX_SAMPLE_DOCSTRINGS
else:
sample_docstrings = PT_SAMPLE_DOCSTRINGS
doc_kwargs = dict(model_class=model_class, processor_class=processor_class, checkpoint=checkpoint)
if "SequenceClassification" in model_class and modality == "audio":
code_sample = sample_docstrings["AudioClassification"]
elif "SequenceClassification" in model_class:
code_sample = sample_docstrings["SequenceClassification"]
elif "QuestionAnswering" in model_class:
code_sample = sample_docstrings["QuestionAnswering"]
elif "TokenClassification" in model_class:
code_sample = sample_docstrings["TokenClassification"]
elif "MultipleChoice" in model_class:
code_sample = sample_docstrings["MultipleChoice"]
elif "MaskedLM" in model_class or model_class in ["FlaubertWithLMHeadModel", "XLMWithLMHeadModel"]:
doc_kwargs["mask"] = "[MASK]" if mask is None else mask
code_sample = sample_docstrings["MaskedLM"]
elif "LMHead" in model_class or "CausalLM" in model_class:
code_sample = sample_docstrings["LMHead"]
elif "CTC" in model_class:
code_sample = sample_docstrings["CTC"]
elif "AudioFrameClassification" in model_class:
code_sample = sample_docstrings["AudioFrameClassification"]
elif "XVector" in model_class and modality == "audio":
code_sample = sample_docstrings["AudioXVector"]
elif "Model" in model_class and modality == "audio":
code_sample = sample_docstrings["SpeechBaseModel"]
elif "Model" in model_class or "Encoder" in model_class:
code_sample = sample_docstrings["BaseModel"]
else:
raise ValueError(f"Docstring can't be built for model {model_class}")
func_doc = (fn.__doc__ or "") + "".join(docstr)
output_doc = "" if output_type is None else _prepare_output_docstrings(output_type, config_class)
built_doc = code_sample.format(**doc_kwargs)
fn.__doc__ = func_doc + output_doc + built_doc
return fn
return docstring_decorator
def replace_return_docstrings(output_type=None, config_class=None):
def docstring_decorator(fn):
func_doc = fn.__doc__
lines = func_doc.split("\n")
i = 0
while i < len(lines) and re.search(r"^\s*Returns?:\s*$", lines[i]) is None:
i += 1
if i < len(lines):
indent = len(_get_indent(lines[i]))
lines[i] = _prepare_output_docstrings(output_type, config_class, min_indent=indent)
func_doc = "\n".join(lines)
else:
raise ValueError(
f"The function {fn} should have an empty 'Return:' or 'Returns:' in its docstring as placeholder, "
f"current docstring is:\n{func_doc}"
)
fn.__doc__ = func_doc
return fn
return docstring_decorator
def is_remote_url(url_or_filename):
parsed = urlparse(url_or_filename)
return parsed.scheme in ("http", "https")
def hf_bucket_url(
model_id: str, filename: str, subfolder: Optional[str] = None, revision: Optional[str] = None, mirror=None
) -> str:
"""
Resolve a model identifier, a file name, and an optional revision id, to a huggingface.co-hosted url, redirecting
to Cloudfront (a Content Delivery Network, or CDN) for large files.
Cloudfront is replicated over the globe so downloads are way faster for the end user (and it also lowers our
bandwidth costs).
Cloudfront aggressively caches files by default (default TTL is 24 hours), however this is not an issue here
because we migrated to a git-based versioning system on huggingface.co, so we now store the files on S3/Cloudfront
in a content-addressable way (i.e., the file name is its hash). Using content-addressable filenames means cache
can't ever be stale.
In terms of client-side caching from this library, we base our caching on the objects' ETag. An object' ETag is:
its sha1 if stored in git, or its sha256 if stored in git-lfs. Files cached locally from transformers before v3.5.0
are not shared with those new files, because the cached file's name contains a hash of the url (which changed).
"""
if subfolder is not None:
filename = f"{subfolder}/{filename}"
if mirror:
if mirror in ["tuna", "bfsu"]:
raise ValueError("The Tuna and BFSU mirrors are no longer available. Try removing the mirror argument.")
legacy_format = "/" not in model_id
if legacy_format:
return f"{mirror}/{model_id}-{filename}"
else:
return f"{mirror}/{model_id}/{filename}"
if revision is None:
revision = "main"
return HUGGINGFACE_CO_PREFIX.format(model_id=model_id, revision=revision, filename=filename)
def url_to_filename(url: str, etag: Optional[str] = None) -> str:
"""
Convert `url` into a hashed filename in a repeatable way. If `etag` is specified, append its hash to the url's,
delimited by a period. If the url ends with .h5 (Keras HDF5 weights) adds '.h5' to the name so that TF 2.0 can
identify it as a HDF5 file (see
https://github.com/tensorflow/tensorflow/blob/00fad90125b18b80fe054de1055770cfb8fe4ba3/tensorflow/python/keras/engine/network.py#L1380)
"""
url_bytes = url.encode("utf-8")
filename = sha256(url_bytes).hexdigest()
if etag:
etag_bytes = etag.encode("utf-8")
filename += "." + sha256(etag_bytes).hexdigest()
if url.endswith(".h5"):
filename += ".h5"
return filename
def filename_to_url(filename, cache_dir=None):
"""
Return the url and etag (which may be `None`) stored for *filename*. Raise `EnvironmentError` if *filename* or its
stored metadata do not exist.
"""
if cache_dir is None:
cache_dir = TRANSFORMERS_CACHE
if isinstance(cache_dir, Path):
cache_dir = str(cache_dir)
cache_path = os.path.join(cache_dir, filename)
if not os.path.exists(cache_path):
raise EnvironmentError(f"file {cache_path} not found")
meta_path = cache_path + ".json"
if not os.path.exists(meta_path):
raise EnvironmentError(f"file {meta_path} not found")
with open(meta_path, encoding="utf-8") as meta_file:
metadata = json.load(meta_file)
url = metadata["url"]
etag = metadata["etag"]
return url, etag
def get_cached_models(cache_dir: Union[str, Path] = None) -> List[Tuple]:
"""
Returns a list of tuples representing model binaries that are cached locally. Each tuple has shape `(model_url,
etag, size_MB)`. Filenames in `cache_dir` are use to get the metadata for each model, only urls ending with *.bin*
are added.
Args:
cache_dir (`Union[str, Path]`, *optional*):
The cache directory to search for models within. Will default to the transformers cache if unset.
Returns:
List[Tuple]: List of tuples each with shape `(model_url, etag, size_MB)`
"""
if cache_dir is None:
cache_dir = TRANSFORMERS_CACHE
elif isinstance(cache_dir, Path):
cache_dir = str(cache_dir)
cached_models = []
for file in os.listdir(cache_dir):
if file.endswith(".json"):
meta_path = os.path.join(cache_dir, file)
with open(meta_path, encoding="utf-8") as meta_file:
metadata = json.load(meta_file)
url = metadata["url"]
etag = metadata["etag"]
if url.endswith(".bin"):
size_MB = os.path.getsize(meta_path.strip(".json")) / 1e6
cached_models.append((url, etag, size_MB))
return cached_models
def cached_path(
url_or_filename,
cache_dir=None,
force_download=False,
proxies=None,
resume_download=False,
user_agent: Union[Dict, str, None] = None,
extract_compressed_file=False,
force_extract=False,
use_auth_token: Union[bool, str, None] = None,
local_files_only=False,
) -> Optional[str]:
"""
Given something that might be a URL (or might be a local path), determine which. If it's a URL, download the file
and cache it, and return the path to the cached file. If it's already a local path, make sure the file exists and
then return the path
Args:
cache_dir: specify a cache directory to save the file to (overwrite the default cache dir).
force_download: if True, re-download the file even if it's already cached in the cache dir.
resume_download: if True, resume the download if incompletely received file is found.
user_agent: Optional string or dict that will be appended to the user-agent on remote requests.
use_auth_token: Optional string or boolean to use as Bearer token for remote files. If True,
will get token from ~/.huggingface.
extract_compressed_file: if True and the path point to a zip or tar file, extract the compressed
file in a folder along the archive.
force_extract: if True when extract_compressed_file is True and the archive was already extracted,
re-extract the archive and override the folder where it was extracted.
Return:
Local path (string) of file or if networking is off, last version of file cached on disk.
Raises:
In case of non-recoverable file (non-existent or inaccessible url + no cache on disk).
"""
if cache_dir is None:
cache_dir = TRANSFORMERS_CACHE
if isinstance(url_or_filename, Path):
url_or_filename = str(url_or_filename)
if isinstance(cache_dir, Path):
cache_dir = str(cache_dir)
if is_offline_mode() and not local_files_only:
logger.info("Offline mode: forcing local_files_only=True")
local_files_only = True
if is_remote_url(url_or_filename):
# URL, so get it from the cache (downloading if necessary)
output_path = get_from_cache(
url_or_filename,
cache_dir=cache_dir,
force_download=force_download,
proxies=proxies,
resume_download=resume_download,
user_agent=user_agent,
use_auth_token=use_auth_token,
local_files_only=local_files_only,
)
elif os.path.exists(url_or_filename):
# File, and it exists.
output_path = url_or_filename
elif urlparse(url_or_filename).scheme == "":
# File, but it doesn't exist.
raise EnvironmentError(f"file {url_or_filename} not found")
else:
# Something unknown
raise ValueError(f"unable to parse {url_or_filename} as a URL or as a local path")
if extract_compressed_file:
if not is_zipfile(output_path) and not tarfile.is_tarfile(output_path):
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/"
output_dir, output_file = os.path.split(output_path)
output_extract_dir_name = output_file.replace(".", "-") + "-extracted"
output_path_extracted = os.path.join(output_dir, output_extract_dir_name)
if os.path.isdir(output_path_extracted) and os.listdir(output_path_extracted) and not force_extract:
return output_path_extracted
# Prevent parallel extractions
lock_path = output_path + ".lock"
with FileLock(lock_path):
shutil.rmtree(output_path_extracted, ignore_errors=True)
os.makedirs(output_path_extracted)
if is_zipfile(output_path):
with ZipFile(output_path, "r") as zip_file:
zip_file.extractall(output_path_extracted)
zip_file.close()
elif tarfile.is_tarfile(output_path):
tar_file = tarfile.open(output_path)
tar_file.extractall(output_path_extracted)
tar_file.close()
else:
raise EnvironmentError(f"Archive format of {output_path} could not be identified")
return output_path_extracted
return output_path
def define_sagemaker_information():
try:
instance_data = requests.get(os.environ["ECS_CONTAINER_METADATA_URI"]).json()
dlc_container_used = instance_data["Image"]
dlc_tag = instance_data["Image"].split(":")[1]
except Exception:
dlc_container_used = None
dlc_tag = None
sagemaker_params = json.loads(os.getenv("SM_FRAMEWORK_PARAMS", "{}"))
runs_distributed_training = True if "sagemaker_distributed_dataparallel_enabled" in sagemaker_params else False
account_id = os.getenv("TRAINING_JOB_ARN").split(":")[4] if "TRAINING_JOB_ARN" in os.environ else None
sagemaker_object = {
"sm_framework": os.getenv("SM_FRAMEWORK_MODULE", None),
"sm_region": os.getenv("AWS_REGION", None),
"sm_number_gpu": os.getenv("SM_NUM_GPUS", 0),
"sm_number_cpu": os.getenv("SM_NUM_CPUS", 0),
"sm_distributed_training": runs_distributed_training,
"sm_deep_learning_container": dlc_container_used,
"sm_deep_learning_container_tag": dlc_tag,
"sm_account_id": account_id,
}
return sagemaker_object
def http_user_agent(user_agent: Union[Dict, str, None] = None) -> str:
"""
Formats a user-agent string with basic info about a request.
"""
ua = f"transformers/{__version__}; python/{sys.version.split()[0]}; session_id/{SESSION_ID}"
if is_torch_available():
ua += f"; torch/{_torch_version}"
if is_tf_available():
ua += f"; tensorflow/{_tf_version}"
if DISABLE_TELEMETRY:
return ua + "; telemetry/off"
if is_training_run_on_sagemaker():
ua += "; " + "; ".join(f"{k}/{v}" for k, v in define_sagemaker_information().items())
# CI will set this value to True
if os.environ.get("TRANSFORMERS_IS_CI", "").upper() in ENV_VARS_TRUE_VALUES:
ua += "; is_ci/true"
if isinstance(user_agent, dict):
ua += "; " + "; ".join(f"{k}/{v}" for k, v in user_agent.items())
elif isinstance(user_agent, str):
ua += "; " + user_agent
return ua
def http_get(url: str, temp_file: BinaryIO, proxies=None, resume_size=0, headers: Optional[Dict[str, str]] = None):
"""
Download remote file. Do not gobble up errors.
"""
headers = copy.deepcopy(headers)
if resume_size > 0:
headers["Range"] = f"bytes={resume_size}-"
r = requests.get(url, stream=True, proxies=proxies, headers=headers)
r.raise_for_status()
content_length = r.headers.get("Content-Length")
total = resume_size + int(content_length) if content_length is not None else None
progress = tqdm(
unit="B",
unit_scale=True,
unit_divisor=1024,
total=total,
initial=resume_size,
desc="Downloading",
disable=bool(logging.get_verbosity() == logging.NOTSET),
)
for chunk in r.iter_content(chunk_size=1024):
if chunk: # filter out keep-alive new chunks
progress.update(len(chunk))
temp_file.write(chunk)
progress.close()
def get_from_cache(
url: str,
cache_dir=None,
force_download=False,
proxies=None,
etag_timeout=10,
resume_download=False,
user_agent: Union[Dict, str, None] = None,
use_auth_token: Union[bool, str, None] = None,
local_files_only=False,
) -> Optional[str]:
"""
Given a URL, look for the corresponding file in the local cache. If it's not there, download it. Then return the
path to the cached file.
Return:
Local path (string) of file or if networking is off, last version of file cached on disk.
Raises:
In case of non-recoverable file (non-existent or inaccessible url + no cache on disk).
"""
if cache_dir is None:
cache_dir = TRANSFORMERS_CACHE
if isinstance(cache_dir, Path):
cache_dir = str(cache_dir)
os.makedirs(cache_dir, exist_ok=True)
headers = {"user-agent": http_user_agent(user_agent)}
if isinstance(use_auth_token, str):
headers["authorization"] = f"Bearer {use_auth_token}"
elif use_auth_token:
token = HfFolder.get_token()
if token is None:
raise EnvironmentError("You specified use_auth_token=True, but a huggingface token was not found.")
headers["authorization"] = f"Bearer {token}"
url_to_download = url
etag = None
if not local_files_only:
try:
r = requests.head(url, headers=headers, allow_redirects=False, proxies=proxies, timeout=etag_timeout)
r.raise_for_status()
etag = r.headers.get("X-Linked-Etag") or r.headers.get("ETag")
# We favor a custom header indicating the etag of the linked resource, and
# we fallback to the regular etag header.
# If we don't have any of those, raise an error.
if etag is None:
raise OSError(
"Distant resource does not have an ETag, we won't be able to reliably ensure reproducibility."
)
# In case of a redirect,
# save an extra redirect on the request.get call,
# and ensure we download the exact atomic version even if it changed
# between the HEAD and the GET (unlikely, but hey).
if 300 <= r.status_code <= 399:
url_to_download = r.headers["Location"]
except (requests.exceptions.SSLError, requests.exceptions.ProxyError):
# Actually raise for those subclasses of ConnectionError
raise
except (requests.exceptions.ConnectionError, requests.exceptions.Timeout):
# Otherwise, our Internet connection is down.
# etag is None
pass
filename = url_to_filename(url, etag)
# get cache path to put the file
cache_path = os.path.join(cache_dir, filename)
# etag is None == we don't have a connection or we passed local_files_only.
# try to get the last downloaded one
if etag is None:
if os.path.exists(cache_path):
return cache_path
else:
matching_files = [
file
for file in fnmatch.filter(os.listdir(cache_dir), filename.split(".")[0] + ".*")
if not file.endswith(".json") and not file.endswith(".lock")
]
if len(matching_files) > 0:
return os.path.join(cache_dir, 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 FileNotFoundError(
"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."
)
else:
raise ValueError(
"Connection error, and we cannot find the requested files in the cached path."
" Please try again or make sure your Internet connection is on."
)
# From now on, etag is not None.
if os.path.exists(cache_path) and not force_download:
return cache_path
# Prevent parallel downloads of the same file with a lock.
lock_path = cache_path + ".lock"
with FileLock(lock_path):
# If the download just completed while the lock was activated.
if os.path.exists(cache_path) and not force_download:
# Even if returning early like here, the lock will be released.
return cache_path
if resume_download:
incomplete_path = cache_path + ".incomplete"
@contextmanager
def _resumable_file_manager() -> "io.BufferedWriter":
with open(incomplete_path, "ab") as f:
yield f
temp_file_manager = _resumable_file_manager
if os.path.exists(incomplete_path):
resume_size = os.stat(incomplete_path).st_size
else:
resume_size = 0
else:
temp_file_manager = partial(tempfile.NamedTemporaryFile, mode="wb", dir=cache_dir, delete=False)
resume_size = 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:
logger.info(f"{url} not found in cache or force_download set to True, downloading to {temp_file.name}")
http_get(url_to_download, temp_file, proxies=proxies, resume_size=resume_size, headers=headers)
logger.info(f"storing {url} in cache at {cache_path}")
os.replace(temp_file.name, cache_path)
# NamedTemporaryFile creates a file with hardwired 0600 perms (ignoring umask), so fixing it.
umask = os.umask(0o666)
os.umask(umask)
os.chmod(cache_path, 0o666 & ~umask)
logger.info(f"creating metadata file for {cache_path}")
meta = {"url": url, "etag": etag}
meta_path = cache_path + ".json"
with open(meta_path, "w") as meta_file:
json.dump(meta, meta_file)
return cache_path
def get_list_of_files(
path_or_repo: Union[str, os.PathLike],
revision: Optional[str] = None,
use_auth_token: Optional[Union[bool, str]] = None,
local_files_only: bool = False,
) -> List[str]:
"""
Gets the list of files inside `path_or_repo`.
Args:
path_or_repo (`str` or `os.PathLike`):
Can be either the id of a repo on huggingface.co or a path to a *directory*.
revision (`str`, *optional*, defaults to `"main"`):
The specific model version to use. It can be a branch name, a tag name, or a commit id, since we use a
git-based system for storing models and other artifacts on huggingface.co, so `revision` can be any
identifier allowed by git.
use_auth_token (`str` or *bool*, *optional*):
The token to use as HTTP bearer authorization for remote files. If `True`, will use the token generated
when running `transformers-cli login` (stored in `~/.huggingface`).
local_files_only (`bool`, *optional*, defaults to `False`):
Whether or not to only rely on local files and not to attempt to download any files.
Returns:
`List[str]`: The list of files available in `path_or_repo`.
"""
path_or_repo = str(path_or_repo)
# If path_or_repo is a folder, we just return what is inside (subdirectories included).
if os.path.isdir(path_or_repo):
list_of_files = []
for path, dir_names, file_names in os.walk(path_or_repo):
list_of_files.extend([os.path.join(path, f) for f in file_names])
return list_of_files
# Can't grab the files if we are on offline mode.
if is_offline_mode() or local_files_only:
return []
# Otherwise we grab the token and use the list_repo_files method.
if isinstance(use_auth_token, str):
token = use_auth_token
elif use_auth_token is True:
token = HfFolder.get_token()
else:
token = None
return list_repo_files(path_or_repo, revision=revision, token=token)
class cached_property(property):
"""
Descriptor that mimics @property but caches output in member variable.
From tensorflow_datasets
Built-in in functools from Python 3.8.
"""
def __get__(self, obj, objtype=None):
# See docs.python.org/3/howto/descriptor.html#properties
if obj is None:
return self
if self.fget is None:
raise AttributeError("unreadable attribute")
attr = "__cached_" + self.fget.__name__
cached = getattr(obj, attr, None)
if cached is None:
cached = self.fget(obj)
setattr(obj, attr, cached)
return cached
def torch_required(func):
# Chose a different decorator name than in tests so it's clear they are not the same.
@wraps(func)
def wrapper(*args, **kwargs):
if is_torch_available():
return func(*args, **kwargs)
else:
raise ImportError(f"Method `{func.__name__}` requires PyTorch.")
return wrapper
def tf_required(func):
# Chose a different decorator name than in tests so it's clear they are not the same.
@wraps(func)
def wrapper(*args, **kwargs):
if is_tf_available():
return func(*args, **kwargs)
else:
raise ImportError(f"Method `{func.__name__}` requires TF.")
return wrapper
def is_torch_fx_proxy(x):
if is_torch_fx_available():
import torch.fx
return isinstance(x, torch.fx.Proxy)
return False
def is_tensor(x):
"""
Tests if `x` is a `torch.Tensor`, `tf.Tensor`, `jaxlib.xla_extension.DeviceArray` or `np.ndarray`.
"""
if is_torch_fx_proxy(x):
return True
if is_torch_available():
import torch
if isinstance(x, torch.Tensor):
return True
if is_tf_available():
import tensorflow as tf
if isinstance(x, tf.Tensor):
return True
if is_flax_available():
import jax.numpy as jnp
from jax.core import Tracer
if isinstance(x, (jnp.ndarray, Tracer)):
return True
return isinstance(x, np.ndarray)
def _is_numpy(x):
return isinstance(x, np.ndarray)
def _is_torch(x):
import torch
return isinstance(x, torch.Tensor)
def _is_torch_device(x):
import torch
return isinstance(x, torch.device)
def _is_tensorflow(x):
import tensorflow as tf
return isinstance(x, tf.Tensor)
def _is_jax(x):
import jax.numpy as jnp # noqa: F811
return isinstance(x, jnp.ndarray)
def to_py_obj(obj):
"""
Convert a TensorFlow tensor, PyTorch tensor, Numpy array or python list to a python list.
"""
if isinstance(obj, (dict, UserDict)):
return {k: to_py_obj(v) for k, v in obj.items()}
elif isinstance(obj, (list, tuple)):
return [to_py_obj(o) for o in obj]
elif is_tf_available() and _is_tensorflow(obj):
return obj.numpy().tolist()
elif is_torch_available() and _is_torch(obj):
return obj.detach().cpu().tolist()
elif is_flax_available() and _is_jax(obj):
return np.asarray(obj).tolist()
elif isinstance(obj, (np.ndarray, np.number)): # tolist also works on 0d np arrays
return obj.tolist()
else:
return obj
def to_numpy(obj):
"""
Convert a TensorFlow tensor, PyTorch tensor, Numpy array or python list to a Numpy array.
"""
if isinstance(obj, (dict, UserDict)):
return {k: to_numpy(v) for k, v in obj.items()}
elif isinstance(obj, (list, tuple)):
return np.array(obj)
elif is_tf_available() and _is_tensorflow(obj):
return obj.numpy()
elif is_torch_available() and _is_torch(obj):
return obj.detach().cpu().numpy()
elif is_flax_available() and _is_jax(obj):
return np.asarray(obj)
else:
return obj
class ModelOutput(OrderedDict):
"""
Base class for all model outputs as dataclass. Has a `__getitem__` that allows indexing by integer or slice (like a
tuple) or strings (like a dictionary) that will ignore the `None` attributes. Otherwise behaves like a regular
python dictionary.
<Tip warning={true}>
You can't unpack a `ModelOutput` directly. Use the [`~file_utils.ModelOutput.to_tuple`] method to convert it to a
tuple before.
</Tip>
"""
def __post_init__(self):
class_fields = fields(self)
# Safety and consistency checks
if not len(class_fields):
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.")
first_field = getattr(self, class_fields[0].name)
other_fields_are_none = all(getattr(self, field.name) is None for field in class_fields[1:])
if other_fields_are_none and not is_tensor(first_field):
if isinstance(first_field, dict):
iterator = first_field.items()
first_field_iterator = True
else:
try:
iterator = iter(first_field)
first_field_iterator = True
except TypeError:
first_field_iterator = 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 element in iterator:
if (
not isinstance(element, (list, tuple))
or not len(element) == 2
or not isinstance(element[0], str)
):
break
setattr(self, element[0], element[1])
if element[1] is not None:
self[element[0]] = element[1]
elif first_field is not None:
self[class_fields[0].name] = first_field
else:
for field in class_fields:
v = getattr(self, field.name)
if v is not None:
self[field.name] = v
def __delitem__(self, *args, **kwargs):
raise Exception(f"You cannot use ``__delitem__`` on a {self.__class__.__name__} instance.")
def setdefault(self, *args, **kwargs):
raise Exception(f"You cannot use ``setdefault`` on a {self.__class__.__name__} instance.")
def pop(self, *args, **kwargs):
raise Exception(f"You cannot use ``pop`` on a {self.__class__.__name__} instance.")
def update(self, *args, **kwargs):
raise Exception(f"You cannot use ``update`` on a {self.__class__.__name__} instance.")
def __getitem__(self, k):
if isinstance(k, str):
inner_dict = {k: v for (k, v) in self.items()}
return inner_dict[k]
else:
return self.to_tuple()[k]
def __setattr__(self, name, value):
if name in self.keys() and value is not None:
# Don't call self.__setitem__ to avoid recursion errors
super().__setitem__(name, value)
super().__setattr__(name, value)
def __setitem__(self, key, value):
# Will raise a KeyException if needed
super().__setitem__(key, value)
# Don't call self.__setattr__ to avoid recursion errors
super().__setattr__(key, value)
def to_tuple(self) -> Tuple[Any]:
"""
Convert self to a tuple containing all the attributes/keys that are not `None`.
"""
return tuple(self[k] for k in self.keys())
class ExplicitEnum(Enum):
"""
Enum with more explicit error message for missing values.
"""
@classmethod
def _missing_(cls, value):
raise ValueError(
f"{value} is not a valid {cls.__name__}, please select one of {list(cls._value2member_map_.keys())}"
)
class PaddingStrategy(ExplicitEnum):
"""
Possible values for the `padding` argument in [`PreTrainedTokenizerBase.__call__`]. Useful for tab-completion in an
IDE.
"""
LONGEST = "longest"
MAX_LENGTH = "max_length"
DO_NOT_PAD = "do_not_pad"
class TensorType(ExplicitEnum):
"""
Possible values for the `return_tensors` argument in [`PreTrainedTokenizerBase.__call__`]. Useful for
tab-completion in an IDE.
"""
PYTORCH = "pt"
TENSORFLOW = "tf"
NUMPY = "np"
JAX = "jax"
class _LazyModule(ModuleType):
"""
Module class that surfaces all objects but only performs associated imports when the objects are requested.
"""
# Very heavily inspired by optuna.integration._IntegrationModule
# https://github.com/optuna/optuna/blob/master/optuna/integration/__init__.py
def __init__(self, name, module_file, import_structure, module_spec=None, extra_objects=None):
super().__init__(name)
self._modules = set(import_structure.keys())
self._class_to_module = {}
for key, values in import_structure.items():
for value in values:
self._class_to_module[value] = key
# Needed for autocompletion in an IDE
self.__all__ = list(import_structure.keys()) + list(chain(*import_structure.values()))
self.__file__ = module_file
self.__spec__ = module_spec
self.__path__ = [os.path.dirname(module_file)]
self._objects = {} if extra_objects is None else extra_objects
self._name = name
self._import_structure = import_structure
# Needed for autocompletion in an IDE
def __dir__(self):
result = super().__dir__()
# The elements of self.__all__ that are submodules may or may not be in the dir already, depending on whether
# they have been accessed or not. So we only add the elements of self.__all__ that are not already in the dir.
for attr in self.__all__:
if attr not in result:
result.append(attr)
return result
def __getattr__(self, name: str) -> Any:
if name in self._objects:
return self._objects[name]
if name in self._modules:
value = self._get_module(name)
elif name in self._class_to_module.keys():
module = self._get_module(self._class_to_module[name])
value = getattr(module, name)
else:
raise AttributeError(f"module {self.__name__} has no attribute {name}")
setattr(self, name, value)
return value
def _get_module(self, module_name: str):
try:
return importlib.import_module("." + module_name, self.__name__)
except Exception as e:
raise RuntimeError(
f"Failed to import {self.__name__}.{module_name} because of the following error (look up to see its traceback):\n{e}"
) from e
def __reduce__(self):
return (self.__class__, (self._name, self.__file__, self._import_structure))
def copy_func(f):
"""Returns a copy of a function f."""
# Based on http://stackoverflow.com/a/6528148/190597 (Glenn Maynard)
g = types.FunctionType(f.__code__, f.__globals__, name=f.__name__, argdefs=f.__defaults__, closure=f.__closure__)
g = functools.update_wrapper(g, f)
g.__kwdefaults__ = f.__kwdefaults__
return g
def is_local_clone(repo_path, repo_url):
"""
Checks if the folder in `repo_path` is a local clone of `repo_url`.
"""
# First double-check that `repo_path` is a git repo
if not os.path.exists(os.path.join(repo_path, ".git")):
return False
test_git = subprocess.run("git branch".split(), cwd=repo_path)
if test_git.returncode != 0:
return False
# Then look at its remotes
remotes = subprocess.run(
"git remote -v".split(),
stderr=subprocess.PIPE,
stdout=subprocess.PIPE,
check=True,
encoding="utf-8",
cwd=repo_path,
).stdout
return repo_url in remotes.split()
class PushToHubMixin:
"""
A Mixin containing the functionality to push a model or tokenizer to the hub.
"""
def push_to_hub(
self,
repo_path_or_name: Optional[str] = None,
repo_url: Optional[str] = None,
use_temp_dir: bool = False,
commit_message: Optional[str] = None,
organization: Optional[str] = None,
private: Optional[bool] = None,
use_auth_token: Optional[Union[bool, str]] = None,
**model_card_kwargs
) -> str:
"""
Upload the {object_files} to the 🤗 Model Hub while synchronizing a local clone of the repo in
`repo_path_or_name`.
Parameters:
repo_path_or_name (`str`, *optional*):
Can either be a repository name for your {object} in the Hub or a path to a local folder (in which case
the repository will have the name of that local folder). If not specified, will default to the name
given by `repo_url` and a local directory with that name will be created.
repo_url (`str`, *optional*):
Specify this in case you want to push to an existing repository in the hub. If unspecified, a new
repository will be created in your namespace (unless you specify an `organization`) with `repo_name`.
use_temp_dir (`bool`, *optional*, defaults to `False`):
Whether or not to clone the distant repo in a temporary directory or in `repo_path_or_name` inside the
current working directory. This will slow things down if you are making changes in an existing repo
since you will need to clone the repo before every push.
commit_message (`str`, *optional*):
Message to commit while pushing. Will default to `"add {object}"`.
organization (`str`, *optional*):
Organization in which you want to push your {object} (you must be a member of this organization).
private (`bool`, *optional*):
Whether or not the repository created should be private (requires a paying subscription).
use_auth_token (`bool` or `str`, *optional*):
The token to use as HTTP bearer authorization for remote files. If `True`, will use the token generated
when running `transformers-cli login` (stored in `~/.huggingface`). Will default to `True` if
`repo_url` is not specified.
Returns:
`str`: The url of the commit of your {object} in the given repository.
Examples:
```python
from transformers import {object_class}
{object} = {object_class}.from_pretrained("bert-base-cased")
# Push the {object} to your namespace with the name "my-finetuned-bert" and have a local clone in the
# *my-finetuned-bert* folder.
{object}.push_to_hub("my-finetuned-bert")
# Push the {object} to your namespace with the name "my-finetuned-bert" with no local clone.
{object}.push_to_hub("my-finetuned-bert", use_temp_dir=True)
# Push the {object} to an organization with the name "my-finetuned-bert" and have a local clone in the
# *my-finetuned-bert* folder.
{object}.push_to_hub("my-finetuned-bert", organization="huggingface")
# Make a change to an existing repo that has been cloned locally in *my-finetuned-bert*.
{object}.push_to_hub("my-finetuned-bert", repo_url="https://huggingface.co/sgugger/my-finetuned-bert")
```
"""
if use_temp_dir:
# Make sure we use the right `repo_name` for the `repo_url` before replacing it.
if repo_url is None:
if use_auth_token is None:
use_auth_token = True
repo_name = Path(repo_path_or_name).name
repo_url = self._get_repo_url_from_name(
repo_name, organization=organization, private=private, use_auth_token=use_auth_token
)
repo_path_or_name = tempfile.mkdtemp()
# Create or clone the repo. If the repo is already cloned, this just retrieves the path to the repo.
repo = self._create_or_get_repo(
repo_path_or_name=repo_path_or_name,
repo_url=repo_url,
organization=organization,
private=private,
use_auth_token=use_auth_token,
)
# Save the files in the cloned repo
self.save_pretrained(repo_path_or_name)
if hasattr(self, "history") and hasattr(self, "create_model_card"):
# This is a Keras model and we might be able to fish out its History and make a model card out of it
base_model_card_args = {
"output_dir": repo_path_or_name,
"model_name": Path(repo_path_or_name).name,
}
base_model_card_args.update(model_card_kwargs)
self.create_model_card(**base_model_card_args)
# Commit and push!
url = self._push_to_hub(repo, commit_message=commit_message)
# Clean up! Clean up! Everybody everywhere!
if use_temp_dir:
shutil.rmtree(repo_path_or_name)
return url
@staticmethod
def _get_repo_url_from_name(
repo_name: str,
organization: Optional[str] = None,
private: bool = None,
use_auth_token: Optional[Union[bool, str]] = None,
) -> str:
if isinstance(use_auth_token, str):
token = use_auth_token
elif use_auth_token:
token = HfFolder.get_token()
if token is None:
raise ValueError(
"You must login to the Hugging Face hub on this computer by typing `transformers-cli login` and "
"entering your credentials to use `use_auth_token=True`. Alternatively, you can pass your own "
"token as the `use_auth_token` argument."
)
else:
token = None
# Special provision for the test endpoint (CI)
return create_repo(
token,
repo_name,
organization=organization,
private=private,
repo_type=None,
exist_ok=True,
)
@classmethod
def _create_or_get_repo(
cls,
repo_path_or_name: Optional[str] = None,
repo_url: Optional[str] = None,
organization: Optional[str] = None,
private: bool = None,
use_auth_token: Optional[Union[bool, str]] = None,
) -> Repository:
if repo_path_or_name is None and repo_url is None:
raise ValueError("You need to specify a `repo_path_or_name` or a `repo_url`.")
if use_auth_token is None and repo_url is None:
use_auth_token = True
if repo_path_or_name is None:
repo_path_or_name = repo_url.split("/")[-1]
if repo_url is None and not os.path.exists(repo_path_or_name):
repo_name = Path(repo_path_or_name).name
repo_url = cls._get_repo_url_from_name(
repo_name, organization=organization, private=private, use_auth_token=use_auth_token
)
# Create a working directory if it does not exist.
if not os.path.exists(repo_path_or_name):
os.makedirs(repo_path_or_name)
repo = Repository(repo_path_or_name, clone_from=repo_url, use_auth_token=use_auth_token)
repo.git_pull()
return repo
@classmethod
def _push_to_hub(cls, repo: Repository, commit_message: Optional[str] = None) -> str:
if commit_message is None:
if "Tokenizer" in cls.__name__:
commit_message = "add tokenizer"
elif "Config" in cls.__name__:
commit_message = "add config"
else:
commit_message = "add model"
return repo.push_to_hub(commit_message=commit_message)
def get_full_repo_name(model_id: str, organization: Optional[str] = None, token: Optional[str] = None):
if token is None:
token = HfFolder.get_token()
if organization is None:
username = whoami(token)["name"]
return f"{username}/{model_id}"
else:
return f"{organization}/{model_id}"
class ContextManagers:
"""
Wrapper for `contextlib.ExitStack` which enters a collection of context managers. Adaptation of `ContextManagers`
in the `fastcore` library.
"""
def __init__(self, context_managers: List[ContextManager]):
self.context_managers = context_managers
self.stack = ExitStack()
def __enter__(self):
for context_manager in self.context_managers:
self.stack.enter_context(context_manager)
def __exit__(self, *args, **kwargs):
self.stack.__exit__(*args, **kwargs)