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tokenizer.py
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tokenizer.py
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from typing import List, Optional, Tuple, Dict, Union, Any, overload, Sequence, NamedTuple
import collections
import os
import re
import unicodedata
import itertools
import requests
import copy
import json
from contextlib import contextmanager
from collections import OrderedDict, UserDict
from enum import Enum
import numpy as np
from utils import cached_path, hf_bucket_url, is_remote_url, is_tf_available, is_torch_available
from tokenizers import AddedToken
from tokenizers import Encoding as EncodingFast
VERY_LARGE_INTEGER = int(1e30) # This is used to set the max input length for a model with infinite size input
LARGE_INTEGER = int(1e20) # This is used when we need something big but slightly smaller than VERY_LARGE_INTEGER
SPECIAL_TOKENS_MAP_FILE = "special_tokens_map.json"
ADDED_TOKENS_FILE = "added_tokens.json"
TOKENIZER_CONFIG_FILE = "tokenizer_config.json"
FULL_TOKENIZER_FILE = "tokenizer.json"
VOCAB_FILES_NAMES = {"vocab_file": "vocab.txt"}
PRETRAINED_VOCAB_FILES_MAP = {
"vocab_file": {
"bert-base-uncased": "https://huggingface.co/bert-base-uncased/resolve/main/vocab.txt"
}
}
PRETRAINED_POSITIONAL_EMBEDDINGS_SIZES = {
"bert-base-uncased": 512
}
PRETRAINED_INIT_CONFIGURATION = {
"bert-base-uncased": {"do_lower_case": True}
}
TextInput = str
PreTokenizedInput = List[str]
EncodedInput = List[int]
TextInputPair = Tuple[str, str]
PreTokenizedInputPair = Tuple[List[str], List[str]]
EncodedInputPair = Tuple[List[int], List[int]]
class ExplicitEnum(Enum):
@classmethod
def _missing_(cls, value):
raise ValueError(
"%r is not a valid %s, please select one of %s"
% (value, cls.__name__, str(list(cls._value2member_map_.keys())))
)
class TruncationStrategy(ExplicitEnum):
ONLY_FIRST = "only_first"
ONLY_SECOND = "only_second"
LONGEST_FIRST = "longest_first"
DO_NOT_TRUNCATE = "do_not_truncate"
class PaddingStrategy(ExplicitEnum):
LONGEST = "longest"
MAX_LENGTH = "max_length"
DO_NOT_PAD = "do_not_pad"
class TensorType(ExplicitEnum):
PYTORCH = "pt"
TENSORFLOW = "tf"
NUMPY = "np"
JAX = "jax"
class CharSpan(NamedTuple):
start: int
end: int
class TokenSpan(NamedTuple):
start: int
end: int
def to_py_obj(obj):
"""
Convert a TensorFlow tensor, PyTorch tensor, Numpy array or python list to a python list.
"""
if isinstance(obj, (dict, BatchEncoding)):
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 isinstance(obj, np.ndarray):
return obj.tolist()
else:
return obj
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_end_of_word(text):
last_char = text[-1]
return bool(_is_control(last_char) | _is_punctuation(last_char) | _is_whitespace(last_char))
def _is_start_of_word(text):
first_char = text[0]
return bool(_is_control(first_char) | _is_punctuation(first_char) | _is_whitespace(first_char))
def _is_punctuation(char):
cp = ord(char)
# We treat all non-letter/number ASCII as punctuation.
# Characters such as "^", "$", and "`" are not in the Unicode
# Punctuation class but we treat them as punctuation anyways, for
# consistency.
if (cp >= 33 and cp <= 47) or (cp >= 58 and cp <= 64) or (cp >= 91 and cp <= 96) or (cp >= 123 and cp <= 126):
return True
cat = unicodedata.category(char)
if cat.startswith("P"):
return True
return False
def _is_whitespace(char):
# \t, \n, and \r are technically control characters but we treat them
# as whitespace since they are generally considered as such.
if char == " " or char == "\t" or char == "\n" or char == "\r":
return True
cat = unicodedata.category(char)
if cat == "Zs":
return True
return False
def _is_control(char):
# These are technically control characters but we count them as whitespace
# characters.
if char == "\t" or char == "\n" or char == "\r":
return False
cat = unicodedata.category(char)
if cat.startswith("C"):
return True
return False
def load_vocab(vocab_file):
vocab = collections.OrderedDict()
with open(vocab_file, "r", encoding="utf-8") as reader:
tokens = reader.readlines()
for index, token in enumerate(tokens):
token = token.rstrip("\n")
vocab[token] = index
return vocab
def whitespace_tokenize(text):
text = text.strip()
if not text:
return []
tokens = text.split()
return tokens
class BatchEncoding(UserDict):
def __init__(
self,
data: Optional[Dict[str, Any]] = None,
encoding: Optional[Union[EncodingFast, Sequence[EncodingFast]]] = None,
tensor_type: Union[None, str, TensorType] = None,
prepend_batch_axis: bool = False,
n_sequences: Optional[int] = None,
):
super().__init__(data)
if isinstance(encoding, EncodingFast):
encoding = [encoding]
self._encodings = encoding
if n_sequences is None and encoding is not None and len(encoding):
n_sequences = encoding[0].n_sequences
self._n_sequences = n_sequences
self.convert_to_tensors(tensor_type=tensor_type, prepend_batch_axis=prepend_batch_axis)
@property
def n_sequences(self) -> Optional[int]:
return self._n_sequences
@property
def is_fast(self) -> bool:
return self._encodings is not None
def __getitem__(self, item: Union[int, str]) -> Union[Any, EncodingFast]:
if isinstance(item, str):
return self.data[item]
elif self._encodings is not None:
return self._encodings[item]
else:
raise KeyError(
"Indexing with integers (to access backend Encoding for a given batch index) "
"is not available when using Python based tokenizers"
)
def __getattr__(self, item: str):
try:
return self.data[item]
except KeyError:
raise AttributeError
def __getstate__(self):
return {"data": self.data, "encodings": self._encodings}
def __setstate__(self, state):
if "data" in state:
self.data = state["data"]
if "encodings" in state:
self._encodings = state["encodings"]
def keys(self):
return self.data.keys()
def values(self):
return self.data.values()
def items(self):
return self.data.items()
# After this point:
# Extended properties and methods only available for fast (Rust-based) tokenizers
# provided by HuggingFace tokenizers library.
@property
def encodings(self) -> Optional[List[EncodingFast]]:
return self._encodings
def tokens(self, batch_index: int = 0) -> List[str]:
if not self._encodings:
raise ValueError("tokens() is not available when using Python-based tokenizers")
return self._encodings[batch_index].tokens
def sequence_ids(self, batch_index: int = 0) -> List[Optional[int]]:
if not self._encodings:
raise ValueError("sequence_ids() is not available when using Python-based tokenizers")
return self._encodings[batch_index].sequence_ids
def words(self, batch_index: int = 0) -> List[Optional[int]]:
if not self._encodings:
raise ValueError("words() is not available when using Python-based tokenizers")
return self.word_ids(batch_index)
def word_ids(self, batch_index: int = 0) -> List[Optional[int]]:
if not self._encodings:
raise ValueError("word_ids() is not available when using Python-based tokenizers")
return self._encodings[batch_index].word_ids
def token_to_sequence(self, batch_or_token_index: int, token_index: Optional[int] = None) -> int:
if not self._encodings:
raise ValueError("token_to_sequence() is not available when using Python based tokenizers")
if token_index is not None:
batch_index = batch_or_token_index
else:
batch_index = 0
token_index = batch_or_token_index
if batch_index < 0:
batch_index = self._batch_size + batch_index
if token_index < 0:
token_index = self._seq_len + token_index
return self._encodings[batch_index].token_to_sequence(token_index)
def token_to_word(self, batch_or_token_index: int, token_index: Optional[int] = None) -> int:
if not self._encodings:
raise ValueError("token_to_word() is not available when using Python based tokenizers")
if token_index is not None:
batch_index = batch_or_token_index
else:
batch_index = 0
token_index = batch_or_token_index
if batch_index < 0:
batch_index = self._batch_size + batch_index
if token_index < 0:
token_index = self._seq_len + token_index
return self._encodings[batch_index].token_to_word(token_index)
def word_to_tokens(
self, batch_or_word_index: int, word_index: Optional[int] = None, sequence_index: int = 0
) -> Optional[TokenSpan]:
if not self._encodings:
raise ValueError("word_to_tokens() is not available when using Python based tokenizers")
if word_index is not None:
batch_index = batch_or_word_index
else:
batch_index = 0
word_index = batch_or_word_index
if batch_index < 0:
batch_index = self._batch_size + batch_index
if word_index < 0:
word_index = self._seq_len + word_index
span = self._encodings[batch_index].word_to_tokens(word_index, sequence_index)
return TokenSpan(*span) if span is not None else None
def token_to_chars(self, batch_or_token_index: int, token_index: Optional[int] = None) -> CharSpan:
if not self._encodings:
raise ValueError("token_to_chars() is not available when using Python based tokenizers")
if token_index is not None:
batch_index = batch_or_token_index
else:
batch_index = 0
token_index = batch_or_token_index
return CharSpan(*(self._encodings[batch_index].token_to_chars(token_index)))
def char_to_token(
self, batch_or_char_index: int, char_index: Optional[int] = None, sequence_index: int = 0
) -> int:
if not self._encodings:
raise ValueError("char_to_token() is not available when using Python based tokenizers")
if char_index is not None:
batch_index = batch_or_char_index
else:
batch_index = 0
char_index = batch_or_char_index
return self._encodings[batch_index].char_to_token(char_index, sequence_index)
def word_to_chars(
self, batch_or_word_index: int, word_index: Optional[int] = None, sequence_index: int = 0
) -> CharSpan:
if not self._encodings:
raise ValueError("word_to_chars() is not available when using Python based tokenizers")
if word_index is not None:
batch_index = batch_or_word_index
else:
batch_index = 0
word_index = batch_or_word_index
return CharSpan(*(self._encodings[batch_index].word_to_chars(word_index, sequence_index)))
def char_to_word(self, batch_or_char_index: int, char_index: Optional[int] = None, sequence_index: int = 0) -> int:
if not self._encodings:
raise ValueError("char_to_word() is not available when using Python based tokenizers")
if char_index is not None:
batch_index = batch_or_char_index
else:
batch_index = 0
char_index = batch_or_char_index
return self._encodings[batch_index].char_to_word(char_index, sequence_index)
def convert_to_tensors(
self, tensor_type: Optional[Union[str, TensorType]] = None, prepend_batch_axis: bool = False
):
if tensor_type is None:
return self
# Convert to TensorType
if not isinstance(tensor_type, TensorType):
tensor_type = TensorType(tensor_type)
# Get a function reference for the correct framework
if tensor_type == TensorType.TENSORFLOW:
if not is_tf_available():
raise ImportError(
"Unable to convert output to TensorFlow tensors format, TensorFlow is not installed."
)
import tensorflow as tf
as_tensor = tf.constant
is_tensor = tf.is_tensor
elif tensor_type == TensorType.PYTORCH:
if not is_torch_available():
raise ImportError("Unable to convert output to PyTorch tensors format, PyTorch is not installed.")
import torch
as_tensor = torch.tensor
is_tensor = torch.is_tensor
elif tensor_type == TensorType.JAX:
if not is_flax_available():
raise ImportError("Unable to convert output to JAX tensors format, JAX is not installed.")
import jax.numpy as jnp # noqa: F811
as_tensor = jnp.array
is_tensor = _is_jax
else:
as_tensor = np.asarray
is_tensor = _is_numpy
# (mfuntowicz: This code is unreachable)
# else:
# raise ImportError(
# "Unable to convert output to tensors format {}".format(tensor_type)
# )
# Do the tensor conversion in batch
for key, value in self.items():
try:
if prepend_batch_axis:
value = [value]
if not is_tensor(value):
tensor = as_tensor(value)
# Removing this for now in favor of controlling the shape with `prepend_batch_axis`
# # at-least2d
# if tensor.ndim > 2:
# tensor = tensor.squeeze(0)
# elif tensor.ndim < 2:
# tensor = tensor[None, :]
self[key] = tensor
except: # noqa E722
if key == "overflowing_tokens":
raise ValueError(
"Unable to create tensor returning overflowing tokens of different lengths. "
"Please see if a fast version of this tokenizer is available to have this feature available."
)
raise ValueError(
"Unable to create tensor, you should probably activate truncation and/or padding "
"with 'padding=True' 'truncation=True' to have batched tensors with the same length."
)
return self
def to(self, device: Union[str, "torch.device"]) -> "BatchEncoding":
# This check catches things like APEX blindly calling "to" on all inputs to a module
# Otherwise it passes the casts down and casts the LongTensor containing the token idxs
# into a HalfTensor
if isinstance(device, str) or _is_torch_device(device) or isinstance(device, int):
self.data = {k: v.to(device=device) for k, v in self.data.items()}
return self
class SpecialTokensMixin:
SPECIAL_TOKENS_ATTRIBUTES = [
"bos_token",
"eos_token",
"unk_token",
"sep_token",
"pad_token",
"cls_token",
"mask_token",
"additional_special_tokens",
]
def __init__(self, verbose=True, **kwargs):
self._bos_token = None
self._eos_token = None
self._unk_token = None
self._sep_token = None
self._pad_token = None
self._cls_token = None
self._mask_token = None
self._pad_token_type_id = 0
self._additional_special_tokens = []
self.verbose = verbose
# We directly set the hidden value to allow initialization with special tokens
# which are not yet in the vocabulary. Necessary for serialization/de-serialization
# TODO clean this up at some point (probably by switching to fast tokenizers)
for key, value in kwargs.items():
if value is None:
continue
if key in self.SPECIAL_TOKENS_ATTRIBUTES:
if key == "additional_special_tokens":
assert isinstance(value, (list, tuple)), f"Value {value} is not a list or tuple"
assert all(isinstance(t, str) for t in value), "One of the tokens is not a string"
setattr(self, key, value)
elif isinstance(value, (str, AddedToken)):
setattr(self, key, value)
else:
raise TypeError(
"special token {} has to be either str or AddedToken but got: {}".format(key, type(value))
)
def sanitize_special_tokens(self) -> int:
return self.add_tokens(self.all_special_tokens_extended, special_tokens=True)
def add_special_tokens(self, special_tokens_dict: Dict[str, Union[str, AddedToken]]) -> int:
if not special_tokens_dict:
return 0
added_tokens = 0
for key, value in special_tokens_dict.items():
assert key in self.SPECIAL_TOKENS_ATTRIBUTES, f"Key {key} is not a special token"
setattr(self, key, value)
if key == "additional_special_tokens":
assert isinstance(value, (list, tuple)) and all(
isinstance(t, (str, AddedToken)) for t in value
), f"Tokens {value} for key {key} should all be str or AddedToken instances"
added_tokens += self.add_tokens(value, special_tokens=True)
else:
assert isinstance(
value, (str, AddedToken)
), f"Token {value} for key {key} should be a str or an AddedToken instance"
added_tokens += self.add_tokens([value], special_tokens=True)
return added_tokens
def add_tokens(
self, new_tokens: Union[str, AddedToken, List[Union[str, AddedToken]]], special_tokens: bool = False
) -> int:
if not new_tokens:
return 0
if not isinstance(new_tokens, (list, tuple)):
new_tokens = [new_tokens]
return self._add_tokens(new_tokens, special_tokens=special_tokens)
def _add_tokens(self, new_tokens: Union[List[str], List[AddedToken]], special_tokens: bool = False) -> int:
raise NotImplementedError
@property
def bos_token(self) -> str:
if self._bos_token is None and self.verbose:
return None
return str(self._bos_token)
@property
def eos_token(self) -> str:
if self._eos_token is None and self.verbose:
return None
return str(self._eos_token)
@property
def unk_token(self) -> str:
if self._unk_token is None and self.verbose:
return None
return str(self._unk_token)
@property
def sep_token(self) -> str:
if self._sep_token is None and self.verbose:
return None
return str(self._sep_token)
@property
def pad_token(self) -> str:
if self._pad_token is None and self.verbose:
return None
return str(self._pad_token)
@property
def cls_token(self) -> str:
if self._cls_token is None and self.verbose:
return None
return str(self._cls_token)
@property
def mask_token(self) -> str:
if self._mask_token is None and self.verbose:
return None
return str(self._mask_token)
@property
def additional_special_tokens(self) -> List[str]:
if self._additional_special_tokens is None and self.verbose:
return None
return [str(tok) for tok in self._additional_special_tokens]
@bos_token.setter
def bos_token(self, value):
self._bos_token = value
@eos_token.setter
def eos_token(self, value):
self._eos_token = value
@unk_token.setter
def unk_token(self, value):
self._unk_token = value
@sep_token.setter
def sep_token(self, value):
self._sep_token = value
@pad_token.setter
def pad_token(self, value):
self._pad_token = value
@cls_token.setter
def cls_token(self, value):
self._cls_token = value
@mask_token.setter
def mask_token(self, value):
self._mask_token = value
@additional_special_tokens.setter
def additional_special_tokens(self, value):
self._additional_special_tokens = value
@property
def bos_token_id(self) -> Optional[int]:
if self._bos_token is None:
return None
return self.convert_tokens_to_ids(self.bos_token)
@property
def eos_token_id(self) -> Optional[int]:
if self._eos_token is None:
return None
return self.convert_tokens_to_ids(self.eos_token)
@property
def unk_token_id(self) -> Optional[int]:
if self._unk_token is None:
return None
return self.convert_tokens_to_ids(self.unk_token)
@property
def sep_token_id(self) -> Optional[int]:
if self._sep_token is None:
return None
return self.convert_tokens_to_ids(self.sep_token)
@property
def pad_token_id(self) -> Optional[int]:
if self._pad_token is None:
return None
return self.convert_tokens_to_ids(self.pad_token)
@property
def pad_token_type_id(self) -> int:
return self._pad_token_type_id
@property
def cls_token_id(self) -> Optional[int]:
if self._cls_token is None:
return None
return self.convert_tokens_to_ids(self.cls_token)
@property
def mask_token_id(self) -> Optional[int]:
if self._mask_token is None:
return None
return self.convert_tokens_to_ids(self.mask_token)
@property
def additional_special_tokens_ids(self) -> List[int]:
return self.convert_tokens_to_ids(self.additional_special_tokens)
@bos_token_id.setter
def bos_token_id(self, value):
self._bos_token = self.convert_tokens_to_ids(value)
@eos_token_id.setter
def eos_token_id(self, value):
self._eos_token = self.convert_tokens_to_ids(value)
@unk_token_id.setter
def unk_token_id(self, value):
self._unk_token = self.convert_tokens_to_ids(value)
@sep_token_id.setter
def sep_token_id(self, value):
self._sep_token = self.convert_tokens_to_ids(value)
@pad_token_id.setter
def pad_token_id(self, value):
self._pad_token = self.convert_tokens_to_ids(value)
@cls_token_id.setter
def cls_token_id(self, value):
self._cls_token = self.convert_tokens_to_ids(value)
@mask_token_id.setter
def mask_token_id(self, value):
self._mask_token = self.convert_tokens_to_ids(value)
@additional_special_tokens_ids.setter
def additional_special_tokens_ids(self, values):
self._additional_special_tokens = [self.convert_tokens_to_ids(value) for value in values]
@property
def special_tokens_map(self) -> Dict[str, Union[str, List[str]]]:
set_attr = {}
for attr in self.SPECIAL_TOKENS_ATTRIBUTES:
attr_value = getattr(self, "_" + attr)
if attr_value:
set_attr[attr] = str(attr_value)
return set_attr
@property
def special_tokens_map_extended(self) -> Dict[str, Union[str, AddedToken, List[Union[str, AddedToken]]]]:
set_attr = {}
for attr in self.SPECIAL_TOKENS_ATTRIBUTES:
attr_value = getattr(self, "_" + attr)
if attr_value:
set_attr[attr] = attr_value
return set_attr
@property
def all_special_tokens(self) -> List[str]:
all_toks = [str(s) for s in self.all_special_tokens_extended]
return all_toks
@property
def all_special_tokens_extended(self) -> List[Union[str, AddedToken]]:
all_toks = []
set_attr = self.special_tokens_map_extended
for attr_value in set_attr.values():
all_toks = all_toks + (list(attr_value) if isinstance(attr_value, (list, tuple)) else [attr_value])
all_toks = list(OrderedDict.fromkeys(all_toks))
return all_toks
@property
def all_special_ids(self) -> List[int]:
all_toks = self.all_special_tokens
all_ids = self.convert_tokens_to_ids(all_toks)
return all_ids
class PreTrainedTokenizerBase(SpecialTokensMixin):
vocab_files_names: Dict[str, str] = {}
pretrained_vocab_files_map: Dict[str, Dict[str, str]] = {}
pretrained_init_configuration: Dict[str, Dict[str, Any]] = {}
max_model_input_sizes: Dict[str, Optional[int]] = {}
# first name has to correspond to main model input name
# to make sure `tokenizer.pad(...)` works correctly
model_input_names: List[str] = ["input_ids", "token_type_ids", "attention_mask"]
padding_side: str = "right"
slow_tokenizer_class = None
def __init__(self, **kwargs):
# inputs and kwargs for saving and re-loading (see ``from_pretrained`` and ``save_pretrained``)
self.init_inputs = ()
self.init_kwargs = copy.deepcopy(kwargs)
self.name_or_path = kwargs.pop("name_or_path", "")
# For backward compatibility we fallback to set model_max_length from max_len if provided
model_max_length = kwargs.pop("model_max_length", kwargs.pop("max_len", None))
self.model_max_length = model_max_length if model_max_length is not None else VERY_LARGE_INTEGER
# Padding side is right by default and overridden in subclasses. If specified in the kwargs, it is changed.
self.padding_side = kwargs.pop("padding_side", self.padding_side)
assert self.padding_side in [
"right",
"left",
], f"Padding side should be selected between 'right' and 'left', current value: {self.padding_side}"
self.model_input_names = kwargs.pop("model_input_names", self.model_input_names)
self.deprecation_warnings = (
{}
) # Use to store when we have already noticed a deprecation warning (avoid overlogging).
super().__init__(**kwargs)
@property
def max_len_single_sentence(self) -> int:
return self.model_max_length - self.num_special_tokens_to_add(pair=False)
@property
def max_len_sentences_pair(self) -> int:
return self.model_max_length - self.num_special_tokens_to_add(pair=True)
@max_len_single_sentence.setter
def max_len_single_sentence(self, value) -> int:
# For backward compatibility, allow to try to setup 'max_len_single_sentence'.
if value == self.model_max_length - self.num_special_tokens_to_add(pair=False) and self.verbose:
self.deprecation_warnings["max_len_single_sentence"] = True
else:
raise ValueError(
"Setting 'max_len_single_sentence' is now deprecated. " "This value is automatically set up."
)
@max_len_sentences_pair.setter
def max_len_sentences_pair(self, value) -> int:
# For backward compatibility, allow to try to setup 'max_len_sentences_pair'.
if value == self.model_max_length - self.num_special_tokens_to_add(pair=True) and self.verbose:
self.deprecation_warnings["max_len_sentences_pair"] = True
else:
raise ValueError(
"Setting 'max_len_sentences_pair' is now deprecated. " "This value is automatically set up."
)
def __repr__(self) -> str:
return (
f"{'PreTrainedTokenizerFast' if self.is_fast else 'PreTrainedTokenizer'}(name_or_path='{self.name_or_path}', "
f"vocab_size={self.vocab_size}, model_max_len={self.model_max_length}, is_fast={self.is_fast}, "
f"padding_side='{self.padding_side}', special_tokens={self.special_tokens_map_extended})"
)
def get_vocab(self) -> Dict[str, int]:
raise NotImplementedError()
@classmethod
def from_pretrained(cls, pretrained_model_name_or_path: Union[str, os.PathLike], *init_inputs, **kwargs):
cache_dir = kwargs.pop("cache_dir", None)
force_download = kwargs.pop("force_download", False)
resume_download = kwargs.pop("resume_download", False)
proxies = kwargs.pop("proxies", None)
local_files_only = kwargs.pop("local_files_only", False)
use_auth_token = kwargs.pop("use_auth_token", None)
revision = kwargs.pop("revision", None)
subfolder = kwargs.pop("subfolder", None)
s3_models = list(cls.max_model_input_sizes.keys())
pretrained_model_name_or_path = str(pretrained_model_name_or_path)
vocab_files = {}
init_configuration = {}
if pretrained_model_name_or_path in s3_models:
# Get the vocabulary from AWS S3 bucket
for file_id, map_list in cls.pretrained_vocab_files_map.items():
vocab_files[file_id] = map_list[pretrained_model_name_or_path]
if (
cls.pretrained_init_configuration
and pretrained_model_name_or_path in cls.pretrained_init_configuration
):
init_configuration = cls.pretrained_init_configuration[pretrained_model_name_or_path].copy()
else:
# Get the vocabulary from local files
if os.path.isfile(pretrained_model_name_or_path) or is_remote_url(pretrained_model_name_or_path):
if len(cls.vocab_files_names) > 1:
raise ValueError(
"Calling {}.from_pretrained() with the path to a single file or url is not supported."
"Use a model identifier or the path to a directory instead.".format(cls.__name__)
)
file_id = list(cls.vocab_files_names.keys())[0]
vocab_files[file_id] = pretrained_model_name_or_path
else:
# At this point pretrained_model_name_or_path is either a directory or a model identifier name
additional_files_names = {
"added_tokens_file": ADDED_TOKENS_FILE,
"special_tokens_map_file": SPECIAL_TOKENS_MAP_FILE,
"tokenizer_config_file": TOKENIZER_CONFIG_FILE,
"tokenizer_file": FULL_TOKENIZER_FILE,
}
# Look for the tokenizer files
for file_id, file_name in {**cls.vocab_files_names, **additional_files_names}.items():
if os.path.isdir(pretrained_model_name_or_path):
if subfolder is not None:
full_file_name = os.path.join(pretrained_model_name_or_path, subfolder, file_name)
else:
full_file_name = os.path.join(pretrained_model_name_or_path, file_name)
if not os.path.exists(full_file_name):
full_file_name = None
else:
full_file_name = hf_bucket_url(
pretrained_model_name_or_path,
filename=file_name,
subfolder=subfolder,
revision=revision,
mirror=None,
)
vocab_files[file_id] = full_file_name
# Get files from url, cache, or disk depending on the case
resolved_vocab_files = {}
unresolved_files = []
for file_id, file_path in vocab_files.items():
if file_path is None:
resolved_vocab_files[file_id] = None
else:
try:
try:
resolved_vocab_files[file_id] = cached_path(
file_path,
cache_dir=cache_dir,
force_download=force_download,
proxies=proxies,
resume_download=resume_download,
local_files_only=local_files_only,
use_auth_token=use_auth_token,
)
except FileNotFoundError as error:
if local_files_only:
unresolved_files.append(file_id)
else:
raise error
except requests.exceptions.HTTPError as err:
if "404 Client Error" in str(err):
resolved_vocab_files[file_id] = None
else:
raise err
if all(full_file_name is None for full_file_name in resolved_vocab_files.values()):
msg = (
f"Can't load tokenizer for '{pretrained_model_name_or_path}'. Make sure that:\n\n"
f"- '{pretrained_model_name_or_path}' is a correct model identifier listed on 'https://huggingface.co/models'\n\n"
f"- or '{pretrained_model_name_or_path}' is the correct path to a directory containing relevant tokenizer files\n\n"
)
raise EnvironmentError(msg)
for file_id, file_path in vocab_files.items():
if file_id not in resolved_vocab_files:
continue
return cls._from_pretrained(
resolved_vocab_files, pretrained_model_name_or_path, init_configuration, *init_inputs, **kwargs
)
@classmethod
def _from_pretrained(
cls, resolved_vocab_files, pretrained_model_name_or_path, init_configuration, *init_inputs, **kwargs
):
# We instantiate fast tokenizers based on a slow tokenizer if we don't have access to the tokenizer.json
# file or if `from_slow` is set to True.
from_slow = kwargs.get("from_slow", False)
has_tokenizer_file = resolved_vocab_files.get("tokenizer_file", None) is not None
if (from_slow or not has_tokenizer_file) and cls.slow_tokenizer_class is not None:
slow_tokenizer = (cls.slow_tokenizer_class)._from_pretrained(
copy.deepcopy(resolved_vocab_files),
pretrained_model_name_or_path,
copy.deepcopy(init_configuration),
*init_inputs,
**(copy.deepcopy(kwargs)),
)
else:
slow_tokenizer = None
# Prepare tokenizer initialization kwargs
# Did we saved some inputs and kwargs to reload ?
tokenizer_config_file = resolved_vocab_files.pop("tokenizer_config_file", None)
if tokenizer_config_file is not None:
with open(tokenizer_config_file, encoding="utf-8") as tokenizer_config_handle:
init_kwargs = json.load(tokenizer_config_handle)
saved_init_inputs = init_kwargs.pop("init_inputs", ())
if not init_inputs:
init_inputs = saved_init_inputs
else:
init_kwargs = init_configuration
# Update with newly provided kwargs
init_kwargs.update(kwargs)
# Convert AddedTokens serialized as dict to class instances
def convert_added_tokens(obj: Union[AddedToken, Any]):
if isinstance(obj, dict) and "__type" in obj and obj["__type"] == "AddedToken":
obj.pop("__type")
return AddedToken(**obj)
elif isinstance(obj, (list, tuple)):
return list(convert_added_tokens(o) for o in obj)
elif isinstance(obj, dict):
return {k: convert_added_tokens(v) for k, v in obj.items()}
return obj
init_kwargs = convert_added_tokens(init_kwargs)
# Set max length if needed
if pretrained_model_name_or_path in cls.max_model_input_sizes:
# if we're using a pretrained model, ensure the tokenizer
# wont index sequences longer than the number of positional embeddings
model_max_length = cls.max_model_input_sizes[pretrained_model_name_or_path]
if model_max_length is not None and isinstance(model_max_length, (int, float)):
init_kwargs["model_max_length"] = min(init_kwargs.get("model_max_length", int(1e30)), model_max_length)
# Merge resolved_vocab_files arguments in init_kwargs.
added_tokens_file = resolved_vocab_files.pop("added_tokens_file", None)
for args_name, file_path in resolved_vocab_files.items():
if args_name not in init_kwargs:
init_kwargs[args_name] = file_path
if slow_tokenizer is not None:
init_kwargs["__slow_tokenizer"] = slow_tokenizer
init_kwargs["name_or_path"] = pretrained_model_name_or_path
# Instantiate tokenizer.
try:
tokenizer = cls(*init_inputs, **init_kwargs)
except OSError:
raise OSError(
"Unable to load vocabulary from file. "
"Please check that the provided vocabulary is accessible and not corrupted."
)
# Save inputs and kwargs for saving and re-loading with ``save_pretrained``
# Removed: Now done at the base class level
# tokenizer.init_inputs = init_inputs
# tokenizer.init_kwargs = init_kwargs
# If there is a complementary special token map, load it
special_tokens_map_file = resolved_vocab_files.pop("special_tokens_map_file", None)
if special_tokens_map_file is not None:
with open(special_tokens_map_file, encoding="utf-8") as special_tokens_map_handle:
special_tokens_map = json.load(special_tokens_map_handle)
for key, value in special_tokens_map.items():
if isinstance(value, dict):
value = AddedToken(**value)
elif isinstance(value, list):
value = [AddedToken(**token) if isinstance(token, dict) else token for token in value]