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# coding=utf-8 | |
# Copyright 2019 HuggingFace Inc. | |
# | |
# Licensed under the Apache License, Version 2.0 (the "License"); | |
# you may not use this file except in compliance with the License. | |
# You may obtain a copy of the License at | |
# | |
# http://www.apache.org/licenses/LICENSE-2.0 | |
# | |
# Unless required by applicable law or agreed to in writing, software | |
# distributed under the License is distributed on an "AS IS" BASIS, | |
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. | |
# See the License for the specific language governing permissions and | |
# limitations under the License. | |
import inspect | |
import itertools | |
import json | |
import os | |
import pickle | |
import re | |
import shutil | |
import sys | |
import tempfile | |
import unittest | |
import unittest.mock as mock | |
from collections import OrderedDict | |
from itertools import takewhile | |
from pathlib import Path | |
from typing import TYPE_CHECKING, Any, Dict, List, Tuple, Union | |
from huggingface_hub import HfFolder, delete_repo | |
from huggingface_hub.file_download import http_get | |
from parameterized import parameterized | |
from requests.exceptions import HTTPError | |
from transformers import ( | |
AlbertTokenizer, | |
AlbertTokenizerFast, | |
AutoTokenizer, | |
BertTokenizer, | |
BertTokenizerFast, | |
GPT2TokenizerFast, | |
PreTrainedTokenizer, | |
PreTrainedTokenizerBase, | |
PreTrainedTokenizerFast, | |
SpecialTokensMixin, | |
Trainer, | |
TrainingArguments, | |
is_flax_available, | |
is_tf_available, | |
is_tokenizers_available, | |
is_torch_available, | |
logging, | |
) | |
from transformers.testing_utils import ( | |
TOKEN, | |
USER, | |
check_json_file_has_correct_format, | |
get_tests_dir, | |
is_pt_tf_cross_test, | |
is_staging_test, | |
require_tf, | |
require_tokenizers, | |
require_torch, | |
slow, | |
) | |
from transformers.tokenization_utils import AddedToken, Trie | |
if is_torch_available(): | |
import torch.nn as nn | |
if TYPE_CHECKING: | |
from transformers import PretrainedConfig, PreTrainedModel, TFPreTrainedModel | |
sys.path.append(str(Path(__file__).parent.parent / "utils")) | |
from test_module.custom_tokenization import CustomTokenizer # noqa E402 | |
if is_tokenizers_available(): | |
from test_module.custom_tokenization_fast import CustomTokenizerFast | |
logger = logging.get_logger(__name__) | |
NON_ENGLISH_TAGS = ["chinese", "dutch", "french", "finnish", "german", "multilingual"] | |
SMALL_TRAINING_CORPUS = [ | |
["This is the first sentence.", "This is the second one."], | |
["This sentence (contains #) over symbols and numbers 12 3.", "But not this one."], | |
] | |
def filter_non_english(_, pretrained_name: str): | |
"""Filter all the model for non-english language""" | |
return not any([lang in pretrained_name for lang in NON_ENGLISH_TAGS]) | |
def filter_roberta_detectors(_, pretrained_name: str): | |
return "detector" not in pretrained_name | |
def merge_model_tokenizer_mappings( | |
model_mapping: Dict["PretrainedConfig", Union["PreTrainedModel", "TFPreTrainedModel"]], | |
tokenizer_mapping: Dict["PretrainedConfig", Tuple["PreTrainedTokenizer", "PreTrainedTokenizerFast"]], | |
) -> Dict[ | |
Union["PreTrainedTokenizer", "PreTrainedTokenizerFast"], | |
Tuple["PretrainedConfig", Union["PreTrainedModel", "TFPreTrainedModel"]], | |
]: | |
configurations = list(model_mapping.keys()) | |
model_tokenizer_mapping = OrderedDict([]) | |
for configuration in configurations: | |
if configuration in model_mapping and configuration in tokenizer_mapping: | |
model = model_mapping[configuration] | |
tokenizer = tokenizer_mapping[configuration][0] | |
tokenizer_fast = tokenizer_mapping[configuration][1] | |
if tokenizer is not None: | |
if configuration.__name__.startswith(tokenizer.__name__.replace("Tokenizer", "")): | |
model_tokenizer_mapping.update({tokenizer: (configuration, model)}) | |
if tokenizer_fast is not None: | |
if configuration.__name__.startswith(tokenizer_fast.__name__.replace("TokenizerFast", "")): | |
model_tokenizer_mapping.update({tokenizer_fast: (configuration, model)}) | |
return model_tokenizer_mapping | |
class TokenizerTesterMixin: | |
tokenizer_class = None | |
rust_tokenizer_class = None | |
test_slow_tokenizer = True | |
test_rust_tokenizer = True | |
space_between_special_tokens = False | |
from_pretrained_kwargs = None | |
from_pretrained_filter = None | |
from_pretrained_vocab_key = "vocab_file" | |
test_seq2seq = True | |
# set to True to test a sentencepiece tokenizer | |
test_sentencepiece = False | |
# set to True to ignore casing when testing a sentencepiece tokenizer | |
# test_sentencepiece must also be set to True | |
test_sentencepiece_ignore_case = False | |
def setUp(self) -> None: | |
# Tokenizer.filter makes it possible to filter which Tokenizer to case based on all the | |
# information available in Tokenizer (name, rust class, python class, vocab key name) | |
if self.test_rust_tokenizer: | |
tokenizers_list = [ | |
( | |
self.rust_tokenizer_class, | |
pretrained_name, | |
self.from_pretrained_kwargs if self.from_pretrained_kwargs is not None else {}, | |
) | |
for pretrained_name in self.rust_tokenizer_class.pretrained_vocab_files_map[ | |
self.from_pretrained_vocab_key | |
].keys() | |
if self.from_pretrained_filter is None | |
or (self.from_pretrained_filter is not None and self.from_pretrained_filter(pretrained_name)) | |
] | |
self.tokenizers_list = tokenizers_list[:1] # Let's just test the first pretrained vocab for speed | |
else: | |
self.tokenizers_list = [] | |
with open(f"{get_tests_dir()}/fixtures/sample_text.txt", encoding="utf-8") as f_data: | |
self._data = f_data.read().replace("\n\n", "\n").strip() | |
self.tmpdirname = tempfile.mkdtemp() | |
def tearDown(self): | |
shutil.rmtree(self.tmpdirname) | |
def get_input_output_texts(self, tokenizer): | |
input_txt = self.get_clean_sequence(tokenizer)[0] | |
return input_txt, input_txt | |
def get_clean_sequence(self, tokenizer, with_prefix_space=False, max_length=20, min_length=5) -> Tuple[str, list]: | |
toks = [(i, tokenizer.decode([i], clean_up_tokenization_spaces=False)) for i in range(len(tokenizer))] | |
toks = list(filter(lambda t: re.match(r"^[ a-zA-Z]+$", t[1]), toks)) | |
toks = list(filter(lambda t: [t[0]] == tokenizer.encode(t[1], add_special_tokens=False), toks)) | |
if max_length is not None and len(toks) > max_length: | |
toks = toks[:max_length] | |
if min_length is not None and len(toks) < min_length and len(toks) > 0: | |
while len(toks) < min_length: | |
toks = toks + toks | |
# toks_str = [t[1] for t in toks] | |
toks_ids = [t[0] for t in toks] | |
# Ensure consistency | |
output_txt = tokenizer.decode(toks_ids, clean_up_tokenization_spaces=False) | |
if " " not in output_txt and len(toks_ids) > 1: | |
output_txt = ( | |
tokenizer.decode([toks_ids[0]], clean_up_tokenization_spaces=False) | |
+ " " | |
+ tokenizer.decode(toks_ids[1:], clean_up_tokenization_spaces=False) | |
) | |
if with_prefix_space: | |
output_txt = " " + output_txt | |
output_ids = tokenizer.encode(output_txt, add_special_tokens=False) | |
return output_txt, output_ids | |
def get_tokenizers(self, fast=True, **kwargs) -> List[PreTrainedTokenizerBase]: | |
if fast and self.test_rust_tokenizer and self.test_slow_tokenizer: | |
return [self.get_tokenizer(**kwargs), self.get_rust_tokenizer(**kwargs)] | |
elif fast and self.test_rust_tokenizer: | |
return [self.get_rust_tokenizer(**kwargs)] | |
elif self.test_slow_tokenizer: | |
return [self.get_tokenizer(**kwargs)] | |
else: | |
raise ValueError("This tokenizer class has no tokenizer to be tested.") | |
def get_tokenizer(self, **kwargs) -> PreTrainedTokenizer: | |
return self.tokenizer_class.from_pretrained(self.tmpdirname, **kwargs) | |
def get_rust_tokenizer(self, **kwargs) -> PreTrainedTokenizerFast: | |
return self.rust_tokenizer_class.from_pretrained(self.tmpdirname, **kwargs) | |
def tokenizer_integration_test_util( | |
self, | |
expected_encoding: Dict, | |
model_name: str, | |
revision: str = None, | |
sequences: List[str] = None, | |
decode_kwargs: Dict[str, Any] = None, | |
padding: bool = True, | |
): | |
""" | |
Util for integration test. | |
Text is tokenized and then reverted back to text. Both results are then checked. | |
Args: | |
expected_encoding: | |
The expected result of the tokenizer output. | |
model_name: | |
The model name of the tokenizer to load and use. | |
revision: | |
The full git revision number of the model. This is to pin the | |
tokenizer config and to avoid that tests start to fail if the | |
config gets changed upstream. | |
sequences: | |
Can overwrite the texts that are used to check the tokenizer. | |
This is useful if the tokenizer supports non english languages | |
like france. | |
decode_kwargs: | |
Additional args for the ``decode`` function which reverts the | |
tokenized text back to a string. | |
padding: | |
Activates and controls padding of the tokenizer. | |
""" | |
decode_kwargs = {} if decode_kwargs is None else decode_kwargs | |
if sequences is None: | |
sequences = [ | |
"Transformers (formerly known as pytorch-transformers and pytorch-pretrained-bert) provides " | |
"general-purpose architectures (BERT, GPT-2, RoBERTa, XLM, DistilBert, XLNet...) for Natural " | |
"Language Understanding (NLU) and Natural Language Generation (NLG) with over 32+ pretrained " | |
"models in 100+ languages and deep interoperability between Jax, PyTorch and TensorFlow.", | |
"BERT is designed to pre-train deep bidirectional representations from unlabeled text by jointly " | |
"conditioning on both left and right context in all layers.", | |
"The quick brown fox jumps over the lazy dog.", | |
] | |
if self.test_sentencepiece_ignore_case: | |
sequences = [sequence.lower() for sequence in sequences] | |
tokenizer_classes = [self.tokenizer_class] | |
if self.test_rust_tokenizer: | |
tokenizer_classes.append(self.rust_tokenizer_class) | |
for tokenizer_class in tokenizer_classes: | |
tokenizer = tokenizer_class.from_pretrained( | |
model_name, | |
revision=revision, # to pin the tokenizer version | |
) | |
encoding = tokenizer(sequences, padding=padding) | |
decoded_sequences = [ | |
tokenizer.decode(seq, skip_special_tokens=True, **decode_kwargs) for seq in encoding["input_ids"] | |
] | |
encoding_data = encoding.data | |
self.assertDictEqual(encoding_data, expected_encoding) | |
for expected, decoded in zip(sequences, decoded_sequences): | |
if self.test_sentencepiece_ignore_case: | |
expected = expected.lower() | |
self.assertEqual(expected, decoded) | |
def assert_padded_input_match(self, input_r: list, input_p: list, max_length: int, pad_token_id: int): | |
# Ensure we match max_length | |
self.assertEqual(len(input_r), max_length) | |
self.assertEqual(len(input_p), max_length) | |
# Ensure the number of padded tokens is the same | |
padded_tokens_r = list(takewhile(lambda i: i == pad_token_id, reversed(input_r))) | |
padded_tokens_p = list(takewhile(lambda i: i == pad_token_id, reversed(input_p))) | |
self.assertSequenceEqual(padded_tokens_r, padded_tokens_p) | |
def assert_batch_padded_input_match( | |
self, | |
input_r: dict, | |
input_p: dict, | |
max_length: int, | |
pad_token_id: int, | |
model_main_input_name: str = "input_ids", | |
): | |
for i_r in input_r.values(): | |
self.assertEqual(len(i_r), 2), self.assertEqual(len(i_r[0]), max_length), self.assertEqual( | |
len(i_r[1]), max_length | |
) | |
self.assertEqual(len(i_r), 2), self.assertEqual(len(i_r[0]), max_length), self.assertEqual( | |
len(i_r[1]), max_length | |
) | |
for i_r, i_p in zip(input_r[model_main_input_name], input_p[model_main_input_name]): | |
self.assert_padded_input_match(i_r, i_p, max_length, pad_token_id) | |
for i_r, i_p in zip(input_r["attention_mask"], input_p["attention_mask"]): | |
self.assertSequenceEqual(i_r, i_p) | |
def convert_batch_encode_plus_format_to_encode_plus(batch_encode_plus_sequences): | |
# Switch from batch_encode_plus format: {'input_ids': [[...], [...]], ...} | |
# to the list of examples/ encode_plus format: [{'input_ids': [...], ...}, {'input_ids': [...], ...}] | |
return [ | |
{value: batch_encode_plus_sequences[value][i] for value in batch_encode_plus_sequences.keys()} | |
for i in range(len(batch_encode_plus_sequences["input_ids"])) | |
] | |
# TODO: this test can be combined with `test_sentencepiece_tokenize_and_convert_tokens_to_string` after the latter is extended to all tokenizers. | |
def test_tokenize_special_tokens(self): | |
"""Test `tokenize` with special tokens.""" | |
tokenizers = self.get_tokenizers(fast=True, do_lower_case=True) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
SPECIAL_TOKEN_1 = "[SPECIAL_TOKEN_1]" | |
SPECIAL_TOKEN_2 = "[SPECIAL_TOKEN_2]" | |
# TODO: | |
# Can we combine `unique_no_split_tokens` and `all_special_tokens`(and properties related to it) | |
# with one variable(property) for a better maintainability? | |
# `add_tokens` method stores special tokens only in `tokenizer.unique_no_split_tokens`. (in tokenization_utils.py) | |
tokenizer.add_tokens([SPECIAL_TOKEN_1], special_tokens=True) | |
# `add_special_tokens` method stores special tokens in `tokenizer.additional_special_tokens`, | |
# which also occur in `tokenizer.all_special_tokens`. (in tokenization_utils_base.py) | |
tokenizer.add_special_tokens({"additional_special_tokens": [SPECIAL_TOKEN_2]}) | |
token_1 = tokenizer.tokenize(SPECIAL_TOKEN_1) | |
token_2 = tokenizer.tokenize(SPECIAL_TOKEN_2) | |
self.assertEqual(len(token_1), 1) | |
self.assertEqual(len(token_2), 1) | |
self.assertEqual(token_1[0], SPECIAL_TOKEN_1) | |
self.assertEqual(token_2[0], SPECIAL_TOKEN_2) | |
# TODO: this test could be extended to all tokenizers - not just the sentencepiece | |
def test_sentencepiece_tokenize_and_convert_tokens_to_string(self): | |
"""Test ``_tokenize`` and ``convert_tokens_to_string``.""" | |
if not self.test_sentencepiece: | |
return | |
tokenizer = self.get_tokenizer() | |
text = "This is text to test the tokenizer." | |
if self.test_sentencepiece_ignore_case: | |
text = text.lower() | |
tokens = tokenizer.tokenize(text) | |
self.assertTrue(len(tokens) > 0) | |
# check if converting back to original text works | |
reverse_text = tokenizer.convert_tokens_to_string(tokens) | |
if self.test_sentencepiece_ignore_case: | |
reverse_text = reverse_text.lower() | |
self.assertEqual(reverse_text, text) | |
special_tokens = tokenizer.all_special_tokens | |
special_tokens_string = tokenizer.convert_tokens_to_string(special_tokens) | |
for special_token in special_tokens: | |
self.assertIn(special_token, special_tokens_string) | |
if self.test_rust_tokenizer: | |
rust_tokenizer = self.get_rust_tokenizer() | |
special_tokens_string_rust = rust_tokenizer.convert_tokens_to_string(special_tokens) | |
self.assertEqual(special_tokens_string, special_tokens_string_rust) | |
def test_sentencepiece_tokenize_and_decode(self): | |
if not self.test_sentencepiece: | |
return | |
text = "This is text to test the tokenizer." | |
if self.test_rust_tokenizer: | |
tokenizer = self.get_tokenizer() | |
rust_tokenizer = self.get_rust_tokenizer() | |
slow_ids = tokenizer(text).input_ids | |
fast_ids = rust_tokenizer(text).input_ids | |
self.assertEqual(slow_ids, fast_ids) | |
slow_decoded = tokenizer.decode(slow_ids) | |
fast_decoded = rust_tokenizer.decode(slow_ids) | |
self.assertEqual(slow_decoded, fast_decoded) | |
def test_subword_regularization_tokenizer(self) -> None: | |
if not self.test_sentencepiece: | |
return | |
# Subword regularization is only available for the slow tokenizer. | |
sp_model_kwargs = {"enable_sampling": True, "alpha": 0.1, "nbest_size": -1} | |
tokenizer = self.get_tokenizer(sp_model_kwargs=sp_model_kwargs) | |
self.assertTrue(hasattr(tokenizer, "sp_model_kwargs")) | |
self.assertIsNotNone(tokenizer.sp_model_kwargs) | |
self.assertTrue(isinstance(tokenizer.sp_model_kwargs, dict)) | |
self.assertEqual(tokenizer.sp_model_kwargs, sp_model_kwargs) | |
self.check_subword_sampling(tokenizer) | |
def test_pickle_subword_regularization_tokenizer(self) -> None: | |
if not self.test_sentencepiece: | |
return | |
"""Google pickle __getstate__ __setstate__ if you are struggling with this.""" | |
# Subword regularization is only available for the slow tokenizer. | |
sp_model_kwargs = {"enable_sampling": True, "alpha": 0.1, "nbest_size": -1} | |
tokenizer = self.get_tokenizer(sp_model_kwargs=sp_model_kwargs) | |
tokenizer_bin = pickle.dumps(tokenizer) | |
del tokenizer | |
tokenizer_new = pickle.loads(tokenizer_bin) | |
self.assertTrue(hasattr(tokenizer_new, "sp_model_kwargs")) | |
self.assertIsNotNone(tokenizer_new.sp_model_kwargs) | |
self.assertTrue(isinstance(tokenizer_new.sp_model_kwargs, dict)) | |
self.assertEqual(tokenizer_new.sp_model_kwargs, sp_model_kwargs) | |
self.check_subword_sampling(tokenizer_new) | |
def test_save_sentencepiece_tokenizer(self) -> None: | |
if not self.test_sentencepiece or not self.test_slow_tokenizer: | |
return | |
# We want to verify that we will be able to save the tokenizer even if the original files that were used to | |
# build the tokenizer have been deleted in the meantime. | |
text = "This is text to test the tokenizer." | |
tokenizer_slow_1 = self.get_tokenizer() | |
encoding_tokenizer_slow_1 = tokenizer_slow_1(text) | |
tmpdirname_1 = tempfile.mkdtemp() | |
tmpdirname_2 = tempfile.mkdtemp() | |
tokenizer_slow_1.save_pretrained(tmpdirname_1) | |
tokenizer_slow_2 = self.tokenizer_class.from_pretrained(tmpdirname_1) | |
encoding_tokenizer_slow_2 = tokenizer_slow_2(text) | |
shutil.rmtree(tmpdirname_1) | |
tokenizer_slow_2.save_pretrained(tmpdirname_2) | |
tokenizer_slow_3 = self.tokenizer_class.from_pretrained(tmpdirname_2) | |
encoding_tokenizer_slow_3 = tokenizer_slow_3(text) | |
shutil.rmtree(tmpdirname_2) | |
self.assertEqual(encoding_tokenizer_slow_1, encoding_tokenizer_slow_2) | |
self.assertEqual(encoding_tokenizer_slow_1, encoding_tokenizer_slow_3) | |
def test_model_input_names_signature(self): | |
accepted_model_main_input_names = [ | |
"input_ids", # nlp models | |
"input_values", # speech models | |
] | |
tokenizers = self.get_tokenizers() | |
for tokenizer in tokenizers: | |
# first name of model_input_names has to correspond to main model input name | |
# to make sure `tokenizer.pad(...)` works correctly | |
self.assertTrue(tokenizer.model_input_names[0] in accepted_model_main_input_names) | |
def test_rust_tokenizer_signature(self): | |
if not self.test_rust_tokenizer: | |
return | |
signature = inspect.signature(self.rust_tokenizer_class.__init__) | |
self.assertIn("tokenizer_file", signature.parameters) | |
self.assertIsNone(signature.parameters["tokenizer_file"].default) | |
def test_tokenizer_slow_store_full_signature(self): | |
if not self.test_slow_tokenizer: | |
return | |
signature = inspect.signature(self.tokenizer_class.__init__) | |
tokenizer = self.get_tokenizer() | |
for parameter_name, parameter in signature.parameters.items(): | |
if parameter.default != inspect.Parameter.empty: | |
self.assertIn(parameter_name, tokenizer.init_kwargs) | |
def test_tokenizer_fast_store_full_signature(self): | |
if not self.test_rust_tokenizer: | |
return | |
signature = inspect.signature(self.rust_tokenizer_class.__init__) | |
tokenizer = self.get_rust_tokenizer() | |
for parameter_name, parameter in signature.parameters.items(): | |
if parameter.default != inspect.Parameter.empty and parameter_name not in [ | |
"vocab_file", | |
"merges_file", | |
"tokenizer_file", | |
]: | |
self.assertIn(parameter_name, tokenizer.init_kwargs) | |
def test_rust_and_python_full_tokenizers(self): | |
if not self.test_rust_tokenizer: | |
return | |
if not self.test_slow_tokenizer: | |
# as we don't have a slow version, we can't compare the outputs between slow and fast versions | |
return | |
tokenizer = self.get_tokenizer() | |
rust_tokenizer = self.get_rust_tokenizer() | |
sequence, _ = self.get_input_output_texts(tokenizer) | |
# We don't have an exact equivalence on `tokenize()` between Rust and Slow | |
# Slow tokenizer only split tokens, Rust tokenizers will replace with <unk> | |
# tokens = tokenizer.tokenize(sequence) | |
# rust_tokens = rust_tokenizer.tokenize(sequence) | |
# self.assertListEqual(tokens, rust_tokens) | |
ids = tokenizer.encode(sequence, add_special_tokens=False) | |
rust_ids = rust_tokenizer.encode(sequence, add_special_tokens=False) | |
self.assertListEqual(ids, rust_ids) | |
ids = tokenizer.encode(sequence, add_special_tokens=True) | |
rust_ids = rust_tokenizer.encode(sequence, add_special_tokens=True) | |
self.assertListEqual(ids, rust_ids) | |
def test_tokenizers_common_properties(self): | |
tokenizers = self.get_tokenizers() | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
attributes_list = [ | |
"bos_token", | |
"eos_token", | |
"unk_token", | |
"sep_token", | |
"pad_token", | |
"cls_token", | |
"mask_token", | |
] | |
for attr in attributes_list: | |
self.assertTrue(hasattr(tokenizer, attr)) | |
self.assertTrue(hasattr(tokenizer, attr + "_id")) | |
self.assertTrue(hasattr(tokenizer, "additional_special_tokens")) | |
self.assertTrue(hasattr(tokenizer, "additional_special_tokens_ids")) | |
attributes_list = [ | |
"model_max_length", | |
"init_inputs", | |
"init_kwargs", | |
] | |
if not isinstance(tokenizer, PreTrainedTokenizerFast): | |
attributes_list += [ | |
"added_tokens_encoder", | |
"added_tokens_decoder", | |
] | |
for attr in attributes_list: | |
self.assertTrue(hasattr(tokenizer, attr)) | |
def test_tokenizers_common_ids_setters(self): | |
tokenizers = self.get_tokenizers() | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
attributes_list = [ | |
"bos_token", | |
"eos_token", | |
"unk_token", | |
"sep_token", | |
"pad_token", | |
"cls_token", | |
"mask_token", | |
] | |
vocab = tokenizer.get_vocab() | |
token_id_to_test_setters = next(iter(vocab.values())) | |
token_to_test_setters = tokenizer.convert_ids_to_tokens( | |
token_id_to_test_setters, skip_special_tokens=False | |
) | |
for attr in attributes_list: | |
setattr(tokenizer, attr + "_id", None) | |
self.assertEqual(getattr(tokenizer, attr), None) | |
self.assertEqual(getattr(tokenizer, attr + "_id"), None) | |
setattr(tokenizer, attr + "_id", token_id_to_test_setters) | |
self.assertEqual(getattr(tokenizer, attr), token_to_test_setters) | |
self.assertEqual(getattr(tokenizer, attr + "_id"), token_id_to_test_setters) | |
setattr(tokenizer, "additional_special_tokens_ids", []) | |
self.assertListEqual(getattr(tokenizer, "additional_special_tokens"), []) | |
self.assertListEqual(getattr(tokenizer, "additional_special_tokens_ids"), []) | |
setattr(tokenizer, "additional_special_tokens_ids", [token_id_to_test_setters]) | |
self.assertListEqual(getattr(tokenizer, "additional_special_tokens"), [token_to_test_setters]) | |
self.assertListEqual(getattr(tokenizer, "additional_special_tokens_ids"), [token_id_to_test_setters]) | |
def test_tokenizers_special_tokens_properties_unset(self, verbose): | |
tokenizers = self.get_tokenizers(verbose=verbose) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
attributes_list = [ | |
"bos_token", | |
"eos_token", | |
"unk_token", | |
"sep_token", | |
"pad_token", | |
"cls_token", | |
"mask_token", | |
"additional_special_tokens", | |
] | |
for attr in attributes_list: | |
setattr(tokenizer, attr, None) | |
self.assertIsNone(getattr(tokenizer, attr)) | |
def test_save_and_load_tokenizer(self): | |
# safety check on max_len default value so we are sure the test works | |
tokenizers = self.get_tokenizers() | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
self.assertNotEqual(tokenizer.model_max_length, 42) | |
# Now let's start the test | |
tokenizers = self.get_tokenizers() | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
# Isolate this from the other tests because we save additional tokens/etc | |
tmpdirname = tempfile.mkdtemp() | |
sample_text = " He is very happy, UNwant\u00E9d,running" | |
before_tokens = tokenizer.encode(sample_text, add_special_tokens=False) | |
before_vocab = tokenizer.get_vocab() | |
tokenizer.save_pretrained(tmpdirname) | |
after_tokenizer = tokenizer.__class__.from_pretrained(tmpdirname) | |
after_tokens = after_tokenizer.encode(sample_text, add_special_tokens=False) | |
after_vocab = after_tokenizer.get_vocab() | |
self.assertListEqual(before_tokens, after_tokens) | |
self.assertDictEqual(before_vocab, after_vocab) | |
shutil.rmtree(tmpdirname) | |
tokenizers = self.get_tokenizers(model_max_length=42) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
# Isolate this from the other tests because we save additional tokens/etc | |
tmpdirname = tempfile.mkdtemp() | |
sample_text = " He is very happy, UNwant\u00E9d,running" | |
tokenizer.add_tokens(["bim", "bambam"]) | |
additional_special_tokens = tokenizer.additional_special_tokens | |
additional_special_tokens.append("new_additional_special_token") | |
tokenizer.add_special_tokens({"additional_special_tokens": additional_special_tokens}) | |
before_tokens = tokenizer.encode(sample_text, add_special_tokens=False) | |
before_vocab = tokenizer.get_vocab() | |
tokenizer.save_pretrained(tmpdirname) | |
after_tokenizer = tokenizer.__class__.from_pretrained(tmpdirname) | |
after_tokens = after_tokenizer.encode(sample_text, add_special_tokens=False) | |
after_vocab = after_tokenizer.get_vocab() | |
self.assertListEqual(before_tokens, after_tokens) | |
self.assertDictEqual(before_vocab, after_vocab) | |
self.assertIn("bim", after_vocab) | |
self.assertIn("bambam", after_vocab) | |
self.assertIn("new_additional_special_token", after_tokenizer.additional_special_tokens) | |
self.assertEqual(after_tokenizer.model_max_length, 42) | |
tokenizer = tokenizer.__class__.from_pretrained(tmpdirname, model_max_length=43) | |
self.assertEqual(tokenizer.model_max_length, 43) | |
shutil.rmtree(tmpdirname) | |
# Test that we can also use the non-legacy saving format for fast tokenizers | |
tokenizers = self.get_tokenizers(model_max_length=42) | |
for tokenizer in tokenizers: | |
if not tokenizer.is_fast: | |
continue | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
# Isolate this from the other tests because we save additional tokens/etc | |
tmpdirname = tempfile.mkdtemp() | |
sample_text = " He is very happy, UNwant\u00E9d,running" | |
tokenizer.add_tokens(["bim", "bambam"]) | |
additional_special_tokens = tokenizer.additional_special_tokens | |
additional_special_tokens.append("new_additional_special_token") | |
tokenizer.add_special_tokens({"additional_special_tokens": additional_special_tokens}) | |
before_tokens = tokenizer.encode(sample_text, add_special_tokens=False) | |
before_vocab = tokenizer.get_vocab() | |
tokenizer.save_pretrained(tmpdirname) | |
after_tokenizer = tokenizer.__class__.from_pretrained(tmpdirname) | |
after_tokens = after_tokenizer.encode(sample_text, add_special_tokens=False) | |
after_vocab = after_tokenizer.get_vocab() | |
self.assertListEqual(before_tokens, after_tokens) | |
self.assertDictEqual(before_vocab, after_vocab) | |
self.assertIn("bim", after_vocab) | |
self.assertIn("bambam", after_vocab) | |
self.assertIn("new_additional_special_token", after_tokenizer.additional_special_tokens) | |
self.assertEqual(after_tokenizer.model_max_length, 42) | |
tokenizer = tokenizer.__class__.from_pretrained(tmpdirname, model_max_length=43) | |
self.assertEqual(tokenizer.model_max_length, 43) | |
shutil.rmtree(tmpdirname) | |
def test_pickle_tokenizer(self): | |
"""Google pickle __getstate__ __setstate__ if you are struggling with this.""" | |
tokenizers = self.get_tokenizers() | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
self.assertIsNotNone(tokenizer) | |
text = "Munich and Berlin are nice cities" | |
subwords = tokenizer.tokenize(text) | |
filename = os.path.join(self.tmpdirname, "tokenizer.bin") | |
with open(filename, "wb") as handle: | |
pickle.dump(tokenizer, handle) | |
with open(filename, "rb") as handle: | |
tokenizer_new = pickle.load(handle) | |
subwords_loaded = tokenizer_new.tokenize(text) | |
self.assertListEqual(subwords, subwords_loaded) | |
def test_pickle_added_tokens(self): | |
tok1 = AddedToken("<s>", rstrip=True, lstrip=True, normalized=False, single_word=True) | |
tok2 = pickle.loads(pickle.dumps(tok1)) | |
self.assertEqual(tok1.__getstate__(), tok2.__getstate__()) | |
def test_added_tokens_do_lower_case(self): | |
tokenizers = self.get_tokenizers(do_lower_case=True) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
if not hasattr(tokenizer, "do_lower_case") or not tokenizer.do_lower_case: | |
continue | |
special_token = tokenizer.all_special_tokens[0] | |
text = special_token + " aaaaa bbbbbb low cccccccccdddddddd l " + special_token | |
text2 = special_token + " AAAAA BBBBBB low CCCCCCCCCDDDDDDDD l " + special_token | |
toks_before_adding = tokenizer.tokenize(text) # toks before adding new_toks | |
new_toks = ["aaaaa bbbbbb", "cccccccccdddddddd", "AAAAA BBBBBB", "CCCCCCCCCDDDDDDDD"] | |
added = tokenizer.add_tokens([AddedToken(tok, lstrip=True, rstrip=True) for tok in new_toks]) | |
toks_after_adding = tokenizer.tokenize(text) | |
toks_after_adding2 = tokenizer.tokenize(text2) | |
# Rust tokenizers dont't lowercase added tokens at the time calling `tokenizer.add_tokens`, | |
# while python tokenizers do, so new_toks 0 and 2 would be treated as the same, so do new_toks 1 and 3. | |
self.assertIn(added, [2, 4]) | |
self.assertListEqual(toks_after_adding, toks_after_adding2) | |
self.assertTrue( | |
len(toks_before_adding) > len(toks_after_adding), # toks_before_adding should be longer | |
) | |
# Check that none of the special tokens are lowercased | |
sequence_with_special_tokens = "A " + " yEs ".join(tokenizer.all_special_tokens) + " B" | |
# Convert the tokenized list to str as some special tokens are tokenized like normal tokens | |
# which have a prefix spacee e.g. the mask token of Albert, and cannot match the original | |
# special tokens exactly. | |
tokenized_sequence = "".join(tokenizer.tokenize(sequence_with_special_tokens)) | |
for special_token in tokenizer.all_special_tokens: | |
self.assertTrue(special_token in tokenized_sequence) | |
tokenizers = self.get_tokenizers(do_lower_case=True) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
if hasattr(tokenizer, "do_lower_case") and tokenizer.do_lower_case: | |
continue | |
special_token = tokenizer.all_special_tokens[0] | |
text = special_token + " aaaaa bbbbbb low cccccccccdddddddd l " + special_token | |
text2 = special_token + " AAAAA BBBBBB low CCCCCCCCCDDDDDDDD l " + special_token | |
toks_before_adding = tokenizer.tokenize(text) # toks before adding new_toks | |
new_toks = ["aaaaa bbbbbb", "cccccccccdddddddd", "AAAAA BBBBBB", "CCCCCCCCCDDDDDDDD"] | |
added = tokenizer.add_tokens([AddedToken(tok, lstrip=True, rstrip=True) for tok in new_toks]) | |
self.assertIn(added, [2, 4]) | |
toks_after_adding = tokenizer.tokenize(text) | |
toks_after_adding2 = tokenizer.tokenize(text2) | |
self.assertEqual(len(toks_after_adding), len(toks_after_adding2)) # Length should still be the same | |
self.assertNotEqual( | |
toks_after_adding[1], toks_after_adding2[1] | |
) # But at least the first non-special tokens should differ | |
self.assertTrue( | |
len(toks_before_adding) > len(toks_after_adding), # toks_before_adding should be longer | |
) | |
def test_add_tokens_tokenizer(self): | |
tokenizers = self.get_tokenizers(do_lower_case=False) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
vocab_size = tokenizer.vocab_size | |
all_size = len(tokenizer) | |
self.assertNotEqual(vocab_size, 0) | |
# We usually have added tokens from the start in tests because our vocab fixtures are | |
# smaller than the original vocabs - let's not assert this | |
# self.assertEqual(vocab_size, all_size) | |
new_toks = ["aaaaa bbbbbb", "cccccccccdddddddd"] | |
added_toks = tokenizer.add_tokens(new_toks) | |
vocab_size_2 = tokenizer.vocab_size | |
all_size_2 = len(tokenizer) | |
self.assertNotEqual(vocab_size_2, 0) | |
self.assertEqual(vocab_size, vocab_size_2) | |
self.assertEqual(added_toks, len(new_toks)) | |
self.assertEqual(all_size_2, all_size + len(new_toks)) | |
tokens = tokenizer.encode("aaaaa bbbbbb low cccccccccdddddddd l", add_special_tokens=False) | |
self.assertGreaterEqual(len(tokens), 4) | |
self.assertGreater(tokens[0], tokenizer.vocab_size - 1) | |
self.assertGreater(tokens[-2], tokenizer.vocab_size - 1) | |
new_toks_2 = {"eos_token": ">>>>|||<||<<|<<", "pad_token": "<<<<<|||>|>>>>|>"} | |
added_toks_2 = tokenizer.add_special_tokens(new_toks_2) | |
vocab_size_3 = tokenizer.vocab_size | |
all_size_3 = len(tokenizer) | |
self.assertNotEqual(vocab_size_3, 0) | |
self.assertEqual(vocab_size, vocab_size_3) | |
self.assertEqual(added_toks_2, len(new_toks_2)) | |
self.assertEqual(all_size_3, all_size_2 + len(new_toks_2)) | |
tokens = tokenizer.encode( | |
">>>>|||<||<<|<< aaaaabbbbbb low cccccccccdddddddd <<<<<|||>|>>>>|> l", add_special_tokens=False | |
) | |
self.assertGreaterEqual(len(tokens), 6) | |
self.assertGreater(tokens[0], tokenizer.vocab_size - 1) | |
self.assertGreater(tokens[0], tokens[1]) | |
self.assertGreater(tokens[-2], tokenizer.vocab_size - 1) | |
self.assertGreater(tokens[-2], tokens[-3]) | |
self.assertEqual(tokens[0], tokenizer.eos_token_id) | |
self.assertEqual(tokens[-2], tokenizer.pad_token_id) | |
def test_add_special_tokens(self): | |
tokenizers = self.get_tokenizers(do_lower_case=False) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
input_text, ids = self.get_clean_sequence(tokenizer) | |
special_token = "[SPECIAL_TOKEN]" | |
tokenizer.add_special_tokens({"cls_token": special_token}) | |
encoded_special_token = tokenizer.encode(special_token, add_special_tokens=False) | |
self.assertEqual(len(encoded_special_token), 1) | |
text = tokenizer.decode(ids + encoded_special_token, clean_up_tokenization_spaces=False) | |
encoded = tokenizer.encode(text, add_special_tokens=False) | |
input_encoded = tokenizer.encode(input_text, add_special_tokens=False) | |
special_token_id = tokenizer.encode(special_token, add_special_tokens=False) | |
self.assertEqual(encoded, input_encoded + special_token_id) | |
decoded = tokenizer.decode(encoded, skip_special_tokens=True) | |
self.assertTrue(special_token not in decoded) | |
def test_internal_consistency(self): | |
tokenizers = self.get_tokenizers() | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
input_text, output_text = self.get_input_output_texts(tokenizer) | |
tokens = tokenizer.tokenize(input_text) | |
ids = tokenizer.convert_tokens_to_ids(tokens) | |
ids_2 = tokenizer.encode(input_text, add_special_tokens=False) | |
self.assertListEqual(ids, ids_2) | |
tokens_2 = tokenizer.convert_ids_to_tokens(ids) | |
self.assertNotEqual(len(tokens_2), 0) | |
text_2 = tokenizer.decode(ids) | |
self.assertIsInstance(text_2, str) | |
self.assertEqual(text_2, output_text) | |
def test_encode_decode_with_spaces(self): | |
tokenizers = self.get_tokenizers(do_lower_case=False) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
new_toks = [ | |
AddedToken("[ABC]", normalized=False), | |
AddedToken("[DEF]", normalized=False), | |
AddedToken("GHI IHG", normalized=False), | |
] | |
tokenizer.add_tokens(new_toks) | |
input = "[ABC][DEF][ABC]GHI IHG[DEF]" | |
if self.space_between_special_tokens: | |
output = "[ABC] [DEF] [ABC] GHI IHG [DEF]" | |
else: | |
output = input | |
encoded = tokenizer.encode(input, add_special_tokens=False) | |
decoded = tokenizer.decode(encoded, spaces_between_special_tokens=self.space_between_special_tokens) | |
self.assertIn(decoded, [output, output.lower()]) | |
def test_pretrained_model_lists(self): | |
# We should have at least one default checkpoint for each tokenizer | |
# We should specify the max input length as well (used in some part to list the pretrained checkpoints) | |
self.assertGreaterEqual(len(self.tokenizer_class.pretrained_vocab_files_map), 1) | |
self.assertGreaterEqual(len(list(self.tokenizer_class.pretrained_vocab_files_map.values())[0]), 1) | |
self.assertEqual( | |
len(list(self.tokenizer_class.pretrained_vocab_files_map.values())[0]), | |
len(self.tokenizer_class.max_model_input_sizes), | |
) | |
weights_list = list(self.tokenizer_class.max_model_input_sizes.keys()) | |
weights_lists_2 = [] | |
for file_id, map_list in self.tokenizer_class.pretrained_vocab_files_map.items(): | |
weights_lists_2.append(list(map_list.keys())) | |
for weights_list_2 in weights_lists_2: | |
self.assertListEqual(weights_list, weights_list_2) | |
def test_mask_output(self): | |
tokenizers = self.get_tokenizers(do_lower_case=False) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
if ( | |
tokenizer.build_inputs_with_special_tokens.__qualname__.split(".")[0] != "PreTrainedTokenizer" | |
and "token_type_ids" in tokenizer.model_input_names | |
): | |
seq_0 = "Test this method." | |
seq_1 = "With these inputs." | |
information = tokenizer.encode_plus(seq_0, seq_1, add_special_tokens=True) | |
sequences, mask = information["input_ids"], information["token_type_ids"] | |
self.assertEqual(len(sequences), len(mask)) | |
def test_token_type_ids(self): | |
tokenizers = self.get_tokenizers() | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
seq_0 = "Test this method." | |
# We want to have sequence 0 and sequence 1 are tagged | |
# respectively with 0 and 1 token_ids | |
# (regardless of whether the model use token type ids) | |
# We use this assumption in the QA pipeline among other place | |
output = tokenizer(seq_0, return_token_type_ids=True) | |
self.assertIn(0, output["token_type_ids"]) | |
def test_sequence_ids(self): | |
tokenizers = self.get_tokenizers() | |
for tokenizer in tokenizers: | |
if not tokenizer.is_fast: | |
continue | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
seq_0 = "Test this method." | |
seq_1 = "With these inputs." | |
# We want to have sequence 0 and sequence 1 are tagged | |
# respectively with 0 and 1 token_ids | |
# (regardless of whether the model use token type ids) | |
# We use this assumption in the QA pipeline among other place | |
output = tokenizer(seq_0) | |
self.assertIn(0, output.sequence_ids()) | |
output = tokenizer(seq_0, seq_1) | |
self.assertIn(0, output.sequence_ids()) | |
self.assertIn(1, output.sequence_ids()) | |
if tokenizer.num_special_tokens_to_add(pair=True): | |
self.assertIn(None, output.sequence_ids()) | |
def test_number_of_added_tokens(self): | |
tokenizers = self.get_tokenizers(do_lower_case=False) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
seq_0 = "Test this method." | |
seq_1 = "With these inputs." | |
sequences = tokenizer.encode(seq_0, seq_1, add_special_tokens=False) | |
attached_sequences = tokenizer.encode(seq_0, seq_1, add_special_tokens=True) | |
# Method is implemented (e.g. not GPT-2) | |
if len(attached_sequences) != 2: | |
self.assertEqual( | |
tokenizer.num_special_tokens_to_add(pair=True), len(attached_sequences) - len(sequences) | |
) | |
def test_maximum_encoding_length_single_input(self): | |
tokenizers = self.get_tokenizers(do_lower_case=False, model_max_length=100) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
seq_0, ids = self.get_clean_sequence(tokenizer, max_length=20) | |
sequence = tokenizer.encode(seq_0, add_special_tokens=False) | |
total_length = len(sequence) | |
self.assertGreater( | |
total_length, 4, "Issue with the testing sequence, please update it, it's too short" | |
) | |
# Test with max model input length | |
model_max_length = tokenizer.model_max_length | |
self.assertEqual(model_max_length, 100) | |
seq_1 = seq_0 * model_max_length | |
sequence1 = tokenizer(seq_1, add_special_tokens=False) | |
total_length1 = len(sequence1["input_ids"]) | |
self.assertGreater( | |
total_length1, | |
model_max_length, | |
"Issue with the testing sequence, please update it, it's too short", | |
) | |
# Simple | |
padding_strategies = ( | |
[False, True, "longest"] if tokenizer.pad_token and tokenizer.pad_token_id >= 0 else [False] | |
) | |
for padding_state in padding_strategies: | |
with self.subTest(f"Padding: {padding_state}"): | |
for truncation_state in [True, "longest_first", "only_first"]: | |
with self.subTest(f"Truncation: {truncation_state}"): | |
output = tokenizer(seq_1, padding=padding_state, truncation=truncation_state) | |
self.assertEqual(len(output["input_ids"]), model_max_length) | |
output = tokenizer([seq_1], padding=padding_state, truncation=truncation_state) | |
self.assertEqual(len(output["input_ids"][0]), model_max_length) | |
# Simple with no truncation | |
# Reset warnings | |
tokenizer.deprecation_warnings = {} | |
with self.assertLogs("transformers", level="WARNING") as cm: | |
output = tokenizer(seq_1, padding=padding_state, truncation=False) | |
self.assertNotEqual(len(output["input_ids"]), model_max_length) | |
self.assertEqual(len(cm.records), 1) | |
self.assertTrue( | |
cm.records[0].message.startswith( | |
"Token indices sequence length is longer than the specified maximum sequence length" | |
" for this model" | |
) | |
) | |
tokenizer.deprecation_warnings = {} | |
with self.assertLogs("transformers", level="WARNING") as cm: | |
output = tokenizer([seq_1], padding=padding_state, truncation=False) | |
self.assertNotEqual(len(output["input_ids"][0]), model_max_length) | |
self.assertEqual(len(cm.records), 1) | |
self.assertTrue( | |
cm.records[0].message.startswith( | |
"Token indices sequence length is longer than the specified maximum sequence length" | |
" for this model" | |
) | |
) | |
# Overflowing tokens | |
stride = 2 | |
information = tokenizer( | |
seq_0, | |
max_length=total_length - 2, | |
add_special_tokens=False, | |
stride=stride, | |
truncation="longest_first", | |
return_overflowing_tokens=True, | |
# add_prefix_space=False, | |
) | |
# Overflowing tokens are handled quite differently in slow and fast tokenizers | |
if isinstance(tokenizer, PreTrainedTokenizerFast): | |
truncated_sequence = information["input_ids"][0] | |
overflowing_tokens = information["input_ids"][1] | |
self.assertEqual(len(information["input_ids"]), 2) | |
self.assertEqual(len(truncated_sequence), total_length - 2) | |
self.assertEqual(truncated_sequence, sequence[:-2]) | |
self.assertEqual(len(overflowing_tokens), 2 + stride) | |
self.assertEqual(overflowing_tokens, sequence[-(2 + stride) :]) | |
else: | |
truncated_sequence = information["input_ids"] | |
overflowing_tokens = information["overflowing_tokens"] | |
self.assertEqual(len(truncated_sequence), total_length - 2) | |
self.assertEqual(truncated_sequence, sequence[:-2]) | |
self.assertEqual(len(overflowing_tokens), 2 + stride) | |
self.assertEqual(overflowing_tokens, sequence[-(2 + stride) :]) | |
def test_maximum_encoding_length_pair_input(self): | |
tokenizers = self.get_tokenizers(do_lower_case=False, model_max_length=100) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
# Build a sequence from our model's vocabulary | |
stride = 2 | |
seq_0, ids = self.get_clean_sequence(tokenizer, max_length=20) | |
if len(ids) <= 2 + stride: | |
seq_0 = (seq_0 + " ") * (2 + stride) | |
ids = None | |
seq0_tokens = tokenizer.encode(seq_0, add_special_tokens=False) | |
self.assertGreater(len(seq0_tokens), 2 + stride) | |
seq_1 = "This is another sentence to be encoded." | |
seq1_tokens = tokenizer.encode(seq_1, add_special_tokens=False) | |
if abs(len(seq0_tokens) - len(seq1_tokens)) <= 2: | |
seq1_tokens = seq1_tokens + seq1_tokens | |
seq_1 = tokenizer.decode(seq1_tokens, clean_up_tokenization_spaces=False) | |
seq1_tokens = tokenizer.encode(seq_1, add_special_tokens=False) | |
self.assertGreater(len(seq1_tokens), 2 + stride) | |
smallest = seq1_tokens if len(seq0_tokens) > len(seq1_tokens) else seq0_tokens | |
# We are not using the special tokens - a bit too hard to test all the tokenizers with this | |
# TODO try this again later | |
sequence = tokenizer.encode(seq_0, seq_1, add_special_tokens=False) # , add_prefix_space=False) | |
# Test with max model input length | |
model_max_length = tokenizer.model_max_length | |
self.assertEqual(model_max_length, 100) | |
seq_2 = seq_0 * model_max_length | |
self.assertGreater(len(seq_2), model_max_length) | |
sequence1 = tokenizer(seq_1, add_special_tokens=False) | |
total_length1 = len(sequence1["input_ids"]) | |
sequence2 = tokenizer(seq_2, seq_1, add_special_tokens=False) | |
total_length2 = len(sequence2["input_ids"]) | |
self.assertLess( | |
total_length1, model_max_length - 10, "Issue with the testing sequence, please update it." | |
) | |
self.assertGreater( | |
total_length2, model_max_length, "Issue with the testing sequence, please update it." | |
) | |
# Simple | |
padding_strategies = ( | |
[False, True, "longest"] if tokenizer.pad_token and tokenizer.pad_token_id >= 0 else [False] | |
) | |
for padding_state in padding_strategies: | |
with self.subTest(f"{tokenizer.__class__.__name__} Padding: {padding_state}"): | |
for truncation_state in [True, "longest_first", "only_first"]: | |
with self.subTest(f"{tokenizer.__class__.__name__} Truncation: {truncation_state}"): | |
output = tokenizer(seq_2, seq_1, padding=padding_state, truncation=truncation_state) | |
self.assertEqual(len(output["input_ids"]), model_max_length) | |
output = tokenizer( | |
[seq_2], [seq_1], padding=padding_state, truncation=truncation_state | |
) | |
self.assertEqual(len(output["input_ids"][0]), model_max_length) | |
# Simple | |
output = tokenizer(seq_1, seq_2, padding=padding_state, truncation="only_second") | |
self.assertEqual(len(output["input_ids"]), model_max_length) | |
output = tokenizer([seq_1], [seq_2], padding=padding_state, truncation="only_second") | |
self.assertEqual(len(output["input_ids"][0]), model_max_length) | |
# Simple with no truncation | |
# Reset warnings | |
tokenizer.deprecation_warnings = {} | |
with self.assertLogs("transformers", level="WARNING") as cm: | |
output = tokenizer(seq_1, seq_2, padding=padding_state, truncation=False) | |
self.assertNotEqual(len(output["input_ids"]), model_max_length) | |
self.assertEqual(len(cm.records), 1) | |
self.assertTrue( | |
cm.records[0].message.startswith( | |
"Token indices sequence length is longer than the specified maximum sequence length" | |
" for this model" | |
) | |
) | |
tokenizer.deprecation_warnings = {} | |
with self.assertLogs("transformers", level="WARNING") as cm: | |
output = tokenizer([seq_1], [seq_2], padding=padding_state, truncation=False) | |
self.assertNotEqual(len(output["input_ids"][0]), model_max_length) | |
self.assertEqual(len(cm.records), 1) | |
self.assertTrue( | |
cm.records[0].message.startswith( | |
"Token indices sequence length is longer than the specified maximum sequence length" | |
" for this model" | |
) | |
) | |
truncated_first_sequence = tokenizer.encode(seq_0, add_special_tokens=False)[:-2] + tokenizer.encode( | |
seq_1, add_special_tokens=False | |
) | |
truncated_second_sequence = ( | |
tokenizer.encode(seq_0, add_special_tokens=False) | |
+ tokenizer.encode(seq_1, add_special_tokens=False)[:-2] | |
) | |
truncated_longest_sequence = ( | |
truncated_first_sequence if len(seq0_tokens) > len(seq1_tokens) else truncated_second_sequence | |
) | |
overflow_first_sequence = tokenizer.encode(seq_0, add_special_tokens=False)[ | |
-(2 + stride) : | |
] + tokenizer.encode(seq_1, add_special_tokens=False) | |
overflow_second_sequence = ( | |
tokenizer.encode(seq_0, add_special_tokens=False) | |
+ tokenizer.encode(seq_1, add_special_tokens=False)[-(2 + stride) :] | |
) | |
overflow_longest_sequence = ( | |
overflow_first_sequence if len(seq0_tokens) > len(seq1_tokens) else overflow_second_sequence | |
) | |
# Overflowing tokens are handled quite differently in slow and fast tokenizers | |
if isinstance(tokenizer, PreTrainedTokenizerFast): | |
information = tokenizer( | |
seq_0, | |
seq_1, | |
max_length=len(sequence) - 2, | |
add_special_tokens=False, | |
stride=stride, | |
truncation="longest_first", | |
return_overflowing_tokens=True, | |
# add_prefix_space=False, | |
) | |
truncated_sequence = information["input_ids"][0] | |
overflowing_tokens = information["input_ids"][1] | |
self.assertEqual(len(information["input_ids"]), 2) | |
self.assertEqual(len(truncated_sequence), len(sequence) - 2) | |
self.assertEqual(truncated_sequence, truncated_longest_sequence) | |
self.assertEqual(len(overflowing_tokens), 2 + stride + len(smallest)) | |
self.assertEqual(overflowing_tokens, overflow_longest_sequence) | |
else: | |
# No overflowing tokens when using 'longest' in python tokenizers | |
with self.assertRaises(ValueError) as context: | |
information = tokenizer( | |
seq_0, | |
seq_1, | |
max_length=len(sequence) - 2, | |
add_special_tokens=False, | |
stride=stride, | |
truncation="longest_first", | |
return_overflowing_tokens=True, | |
# add_prefix_space=False, | |
) | |
self.assertTrue( | |
context.exception.args[0].startswith( | |
"Not possible to return overflowing tokens for pair of sequences with the " | |
"`longest_first`. Please select another truncation strategy than `longest_first`, " | |
"for instance `only_second` or `only_first`." | |
) | |
) | |
# Overflowing tokens are handled quite differently in slow and fast tokenizers | |
if isinstance(tokenizer, PreTrainedTokenizerFast): | |
information = tokenizer( | |
seq_0, | |
seq_1, | |
max_length=len(sequence) - 2, | |
add_special_tokens=False, | |
stride=stride, | |
truncation=True, | |
return_overflowing_tokens=True, | |
# add_prefix_space=False, | |
) | |
truncated_sequence = information["input_ids"][0] | |
overflowing_tokens = information["input_ids"][1] | |
self.assertEqual(len(information["input_ids"]), 2) | |
self.assertEqual(len(truncated_sequence), len(sequence) - 2) | |
self.assertEqual(truncated_sequence, truncated_longest_sequence) | |
self.assertEqual(len(overflowing_tokens), 2 + stride + len(smallest)) | |
self.assertEqual(overflowing_tokens, overflow_longest_sequence) | |
else: | |
# No overflowing tokens when using 'longest' in python tokenizers | |
with self.assertRaises(ValueError) as context: | |
information = tokenizer( | |
seq_0, | |
seq_1, | |
max_length=len(sequence) - 2, | |
add_special_tokens=False, | |
stride=stride, | |
truncation=True, | |
return_overflowing_tokens=True, | |
# add_prefix_space=False, | |
) | |
self.assertTrue( | |
context.exception.args[0].startswith( | |
"Not possible to return overflowing tokens for pair of sequences with the " | |
"`longest_first`. Please select another truncation strategy than `longest_first`, " | |
"for instance `only_second` or `only_first`." | |
) | |
) | |
information_first_truncated = tokenizer( | |
seq_0, | |
seq_1, | |
max_length=len(sequence) - 2, | |
add_special_tokens=False, | |
stride=stride, | |
truncation="only_first", | |
return_overflowing_tokens=True, | |
# add_prefix_space=False, | |
) | |
# Overflowing tokens are handled quite differently in slow and fast tokenizers | |
if isinstance(tokenizer, PreTrainedTokenizerFast): | |
truncated_sequence = information_first_truncated["input_ids"][0] | |
overflowing_tokens = information_first_truncated["input_ids"][1] | |
self.assertEqual(len(information_first_truncated["input_ids"]), 2) | |
self.assertEqual(len(truncated_sequence), len(sequence) - 2) | |
self.assertEqual(truncated_sequence, truncated_first_sequence) | |
self.assertEqual(len(overflowing_tokens), 2 + stride + len(seq1_tokens)) | |
self.assertEqual(overflowing_tokens, overflow_first_sequence) | |
else: | |
truncated_sequence = information_first_truncated["input_ids"] | |
overflowing_tokens = information_first_truncated["overflowing_tokens"] | |
self.assertEqual(len(truncated_sequence), len(sequence) - 2) | |
self.assertEqual(truncated_sequence, truncated_first_sequence) | |
self.assertEqual(len(overflowing_tokens), 2 + stride) | |
self.assertEqual(overflowing_tokens, seq0_tokens[-(2 + stride) :]) | |
information_second_truncated = tokenizer( | |
seq_0, | |
seq_1, | |
max_length=len(sequence) - 2, | |
add_special_tokens=False, | |
stride=stride, | |
truncation="only_second", | |
return_overflowing_tokens=True, | |
# add_prefix_space=False, | |
) | |
# Overflowing tokens are handled quite differently in slow and fast tokenizers | |
if isinstance(tokenizer, PreTrainedTokenizerFast): | |
truncated_sequence = information_second_truncated["input_ids"][0] | |
overflowing_tokens = information_second_truncated["input_ids"][1] | |
self.assertEqual(len(information_second_truncated["input_ids"]), 2) | |
self.assertEqual(len(truncated_sequence), len(sequence) - 2) | |
self.assertEqual(truncated_sequence, truncated_second_sequence) | |
self.assertEqual(len(overflowing_tokens), 2 + stride + len(seq0_tokens)) | |
self.assertEqual(overflowing_tokens, overflow_second_sequence) | |
else: | |
truncated_sequence = information_second_truncated["input_ids"] | |
overflowing_tokens = information_second_truncated["overflowing_tokens"] | |
self.assertEqual(len(truncated_sequence), len(sequence) - 2) | |
self.assertEqual(truncated_sequence, truncated_second_sequence) | |
self.assertEqual(len(overflowing_tokens), 2 + stride) | |
self.assertEqual(overflowing_tokens, seq1_tokens[-(2 + stride) :]) | |
# def test_encode_input_type(self): | |
# tokenizers = self.get_tokenizers(do_lower_case=False) | |
# for tokenizer in tokenizers: | |
# with self.subTest(f"{tokenizer.__class__.__name__}"): | |
# sequence = "Let's encode this sequence" | |
# tokens = sequence.split() # tokenizer.tokenize(sequence) | |
# # input_ids = tokenizer.convert_tokens_to_ids(tokens) | |
# formatted_input = tokenizer.encode(sequence, add_special_tokens=True, add_prefix_space=False) | |
# self.assertEqual( | |
# tokenizer.encode(tokens, is_split_into_words=True, add_special_tokens=True), formatted_input | |
# ) | |
# # This is not supported with the Rust tokenizers | |
# # self.assertEqual(tokenizer.encode(input_ids, add_special_tokens=True), formatted_input) | |
# def test_swap_special_token(self): | |
# tokenizers = self.get_tokenizers(do_lower_case=False) | |
# for tokenizer in tokenizers: | |
# with self.subTest(f"{tokenizer.__class__.__name__}"): | |
# # Our mask token | |
# mask = "<mask>" | |
# # We take a single word in the middle of the vocabulary | |
# all_tokens = sorted(tokenizer.get_vocab().keys()) | |
# word = tokenizer.decode(tokenizer.encode(all_tokens[len(all_tokens)//2], add_special_tokens=False)[:1]) | |
# sequence_0 = "Encode " + word + " sequence" | |
# sequence_masked_0 = "Encode " + mask + " sequence" | |
# sequence_1 = word + " this sequence" | |
# sequence_masked_1 = mask + " this sequence" | |
# # Add tokens so that masked token isn't split | |
# # tokens = [AddedToken(t, lstrip=True, normalized=False) for t in sequence.split()] | |
# # tokenizer.add_tokens(tokens) | |
# tokenizer.add_special_tokens( | |
# {"mask_token": AddedToken(mask, normalized=False)} | |
# ) # Eat left space on Byte-level BPE tokenizers | |
# mask_ind = tokenizer.convert_tokens_to_ids(mask) | |
# # Test first masked sequence | |
# encoded_0 = tokenizer.encode(sequence_0, add_special_tokens=False) | |
# encoded_masked = tokenizer.encode(sequence_masked_0, add_special_tokens=False) | |
# self.assertEqual(len(encoded_masked), len(encoded_0)) | |
# mask_loc = encoded_masked.index(mask_ind) | |
# encoded_masked[mask_loc] = encoded_0[mask_loc] | |
# self.assertEqual(encoded_masked, encoded_0) | |
# # Test second masked sequence | |
# encoded_1 = tokenizer.encode(sequence_1, add_special_tokens=False) | |
# encoded_masked = tokenizer.encode(sequence_masked_1, add_special_tokens=False) | |
# self.assertEqual(len(encoded_masked), len(encoded_1)) | |
# mask_loc = encoded_masked.index(mask_ind) | |
# encoded_masked[mask_loc] = encoded_1[mask_loc] | |
# self.assertEqual(encoded_masked, encoded_1) | |
def test_special_tokens_mask(self): | |
tokenizers = self.get_tokenizers(do_lower_case=False) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
sequence_0 = "Encode this." | |
# Testing single inputs | |
encoded_sequence = tokenizer.encode(sequence_0, add_special_tokens=False) | |
encoded_sequence_dict = tokenizer.encode_plus( | |
sequence_0, add_special_tokens=True, return_special_tokens_mask=True # , add_prefix_space=False | |
) | |
encoded_sequence_w_special = encoded_sequence_dict["input_ids"] | |
special_tokens_mask = encoded_sequence_dict["special_tokens_mask"] | |
self.assertEqual(len(special_tokens_mask), len(encoded_sequence_w_special)) | |
filtered_sequence = [x for i, x in enumerate(encoded_sequence_w_special) if not special_tokens_mask[i]] | |
self.assertEqual(encoded_sequence, filtered_sequence) | |
def test_special_tokens_mask_input_pairs(self): | |
tokenizers = self.get_tokenizers(do_lower_case=False) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
sequence_0 = "Encode this." | |
sequence_1 = "This one too please." | |
encoded_sequence = tokenizer.encode(sequence_0, add_special_tokens=False) | |
encoded_sequence += tokenizer.encode(sequence_1, add_special_tokens=False) | |
encoded_sequence_dict = tokenizer.encode_plus( | |
sequence_0, | |
sequence_1, | |
add_special_tokens=True, | |
return_special_tokens_mask=True, | |
# add_prefix_space=False, | |
) | |
encoded_sequence_w_special = encoded_sequence_dict["input_ids"] | |
special_tokens_mask = encoded_sequence_dict["special_tokens_mask"] | |
self.assertEqual(len(special_tokens_mask), len(encoded_sequence_w_special)) | |
filtered_sequence = [ | |
(x if not special_tokens_mask[i] else None) for i, x in enumerate(encoded_sequence_w_special) | |
] | |
filtered_sequence = [x for x in filtered_sequence if x is not None] | |
self.assertEqual(encoded_sequence, filtered_sequence) | |
def test_padding_side_in_kwargs(self): | |
for tokenizer, pretrained_name, kwargs in self.tokenizers_list: | |
with self.subTest(f"{tokenizer.__class__.__name__} ({pretrained_name})"): | |
if self.test_rust_tokenizer: | |
tokenizer_r = self.rust_tokenizer_class.from_pretrained( | |
pretrained_name, padding_side="left", **kwargs | |
) | |
self.assertEqual(tokenizer_r.padding_side, "left") | |
tokenizer_r = self.rust_tokenizer_class.from_pretrained( | |
pretrained_name, padding_side="right", **kwargs | |
) | |
self.assertEqual(tokenizer_r.padding_side, "right") | |
self.assertRaises( | |
ValueError, | |
self.rust_tokenizer_class.from_pretrained, | |
pretrained_name, | |
padding_side="unauthorized", | |
**kwargs, | |
) | |
if self.test_slow_tokenizer: | |
tokenizer_p = self.tokenizer_class.from_pretrained(pretrained_name, padding_side="left", **kwargs) | |
self.assertEqual(tokenizer_p.padding_side, "left") | |
tokenizer_p = self.tokenizer_class.from_pretrained(pretrained_name, padding_side="right", **kwargs) | |
self.assertEqual(tokenizer_p.padding_side, "right") | |
self.assertRaises( | |
ValueError, | |
self.tokenizer_class.from_pretrained, | |
pretrained_name, | |
padding_side="unauthorized", | |
**kwargs, | |
) | |
def test_truncation_side_in_kwargs(self): | |
for tokenizer, pretrained_name, kwargs in self.tokenizers_list: | |
with self.subTest(f"{tokenizer.__class__.__name__} ({pretrained_name})"): | |
if self.test_rust_tokenizer: | |
tokenizer_r = self.rust_tokenizer_class.from_pretrained( | |
pretrained_name, truncation_side="left", **kwargs | |
) | |
self.assertEqual(tokenizer_r.truncation_side, "left") | |
tokenizer_r = self.rust_tokenizer_class.from_pretrained( | |
pretrained_name, truncation_side="right", **kwargs | |
) | |
self.assertEqual(tokenizer_r.truncation_side, "right") | |
self.assertRaises( | |
ValueError, | |
self.rust_tokenizer_class.from_pretrained, | |
pretrained_name, | |
truncation_side="unauthorized", | |
**kwargs, | |
) | |
if self.test_slow_tokenizer: | |
tokenizer_p = self.tokenizer_class.from_pretrained( | |
pretrained_name, truncation_side="left", **kwargs | |
) | |
self.assertEqual(tokenizer_p.truncation_side, "left") | |
tokenizer_p = self.tokenizer_class.from_pretrained( | |
pretrained_name, truncation_side="right", **kwargs | |
) | |
self.assertEqual(tokenizer_p.truncation_side, "right") | |
self.assertRaises( | |
ValueError, | |
self.tokenizer_class.from_pretrained, | |
pretrained_name, | |
truncation_side="unauthorized", | |
**kwargs, | |
) | |
def test_right_and_left_padding(self): | |
tokenizers = self.get_tokenizers(do_lower_case=False) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
sequence = "Sequence" | |
padding_size = 10 | |
# check correct behaviour if no pad_token_id exists and add it eventually | |
self._check_no_pad_token_padding(tokenizer, sequence) | |
padding_idx = tokenizer.pad_token_id | |
# RIGHT PADDING - Check that it correctly pads when a maximum length is specified along with the padding flag set to True | |
tokenizer.padding_side = "right" | |
encoded_sequence = tokenizer.encode(sequence) | |
sequence_length = len(encoded_sequence) | |
padded_sequence = tokenizer.encode( | |
sequence, max_length=sequence_length + padding_size, padding="max_length" | |
) | |
padded_sequence_length = len(padded_sequence) | |
self.assertEqual(sequence_length + padding_size, padded_sequence_length) | |
self.assertEqual(encoded_sequence + [padding_idx] * padding_size, padded_sequence) | |
# LEFT PADDING - Check that it correctly pads when a maximum length is specified along with the padding flag set to True | |
tokenizer.padding_side = "left" | |
encoded_sequence = tokenizer.encode(sequence) | |
sequence_length = len(encoded_sequence) | |
padded_sequence = tokenizer.encode( | |
sequence, max_length=sequence_length + padding_size, padding="max_length" | |
) | |
padded_sequence_length = len(padded_sequence) | |
self.assertEqual(sequence_length + padding_size, padded_sequence_length) | |
self.assertEqual([padding_idx] * padding_size + encoded_sequence, padded_sequence) | |
# RIGHT & LEFT PADDING - Check that nothing is done for 'longest' and 'no_padding' | |
encoded_sequence = tokenizer.encode(sequence) | |
sequence_length = len(encoded_sequence) | |
tokenizer.padding_side = "right" | |
padded_sequence_right = tokenizer.encode(sequence, padding=True) | |
padded_sequence_right_length = len(padded_sequence_right) | |
self.assertEqual(sequence_length, padded_sequence_right_length) | |
self.assertEqual(encoded_sequence, padded_sequence_right) | |
tokenizer.padding_side = "left" | |
padded_sequence_left = tokenizer.encode(sequence, padding="longest") | |
padded_sequence_left_length = len(padded_sequence_left) | |
self.assertEqual(sequence_length, padded_sequence_left_length) | |
self.assertEqual(encoded_sequence, padded_sequence_left) | |
tokenizer.padding_side = "right" | |
padded_sequence_right = tokenizer.encode(sequence) | |
padded_sequence_right_length = len(padded_sequence_right) | |
self.assertEqual(sequence_length, padded_sequence_right_length) | |
self.assertEqual(encoded_sequence, padded_sequence_right) | |
tokenizer.padding_side = "left" | |
padded_sequence_left = tokenizer.encode(sequence, padding=False) | |
padded_sequence_left_length = len(padded_sequence_left) | |
self.assertEqual(sequence_length, padded_sequence_left_length) | |
self.assertEqual(encoded_sequence, padded_sequence_left) | |
def test_right_and_left_truncation(self): | |
tokenizers = self.get_tokenizers(do_lower_case=False) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
sequence = "This is a test sequence" | |
# RIGHT PADDING - Check that it correctly pads when a maximum length is specified along with the padding flag set to True | |
truncation_size = 3 | |
tokenizer.truncation_side = "right" | |
encoded_sequence = tokenizer.encode(sequence, add_special_tokens=False) | |
sequence_length = len(encoded_sequence) | |
# Remove EOS/BOS tokens | |
truncated_sequence = tokenizer.encode( | |
sequence, max_length=sequence_length - truncation_size, truncation=True, add_special_tokens=False | |
) | |
truncated_sequence_length = len(truncated_sequence) | |
self.assertEqual(sequence_length, truncated_sequence_length + truncation_size) | |
self.assertEqual(encoded_sequence[:-truncation_size], truncated_sequence) | |
# LEFT PADDING - Check that it correctly pads when a maximum length is specified along with the truncation flag set to True | |
tokenizer.truncation_side = "left" | |
sequence_length = len(encoded_sequence) | |
truncated_sequence = tokenizer.encode( | |
sequence, max_length=sequence_length - truncation_size, truncation=True, add_special_tokens=False | |
) | |
truncated_sequence_length = len(truncated_sequence) | |
self.assertEqual(sequence_length, truncated_sequence_length + truncation_size) | |
self.assertEqual(encoded_sequence[truncation_size:], truncated_sequence) | |
# RIGHT & LEFT PADDING - Check that nothing is done for 'longest' and 'no_truncation' | |
sequence_length = len(encoded_sequence) | |
tokenizer.truncation_side = "right" | |
truncated_sequence_right = tokenizer.encode(sequence, truncation=True, add_special_tokens=False) | |
truncated_sequence_right_length = len(truncated_sequence_right) | |
self.assertEqual(sequence_length, truncated_sequence_right_length) | |
self.assertEqual(encoded_sequence, truncated_sequence_right) | |
tokenizer.truncation_side = "left" | |
truncated_sequence_left = tokenizer.encode( | |
sequence, truncation="longest_first", add_special_tokens=False | |
) | |
truncated_sequence_left_length = len(truncated_sequence_left) | |
self.assertEqual(sequence_length, truncated_sequence_left_length) | |
self.assertEqual(encoded_sequence, truncated_sequence_left) | |
tokenizer.truncation_side = "right" | |
truncated_sequence_right = tokenizer.encode(sequence, add_special_tokens=False) | |
truncated_sequence_right_length = len(truncated_sequence_right) | |
self.assertEqual(sequence_length, truncated_sequence_right_length) | |
self.assertEqual(encoded_sequence, truncated_sequence_right) | |
tokenizer.truncation_side = "left" | |
truncated_sequence_left = tokenizer.encode(sequence, truncation=False, add_special_tokens=False) | |
truncated_sequence_left_length = len(truncated_sequence_left) | |
self.assertEqual(sequence_length, truncated_sequence_left_length) | |
self.assertEqual(encoded_sequence, truncated_sequence_left) | |
def test_padding_to_max_length(self): | |
"""We keep this test for backward compatibility but it should be remove when `pad_to_max_length` is deprecated.""" | |
tokenizers = self.get_tokenizers(do_lower_case=False) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
sequence = "Sequence" | |
padding_size = 10 | |
# check correct behaviour if no pad_token_id exists and add it eventually | |
self._check_no_pad_token_padding(tokenizer, sequence) | |
padding_idx = tokenizer.pad_token_id | |
# Check that it correctly pads when a maximum length is specified along with the padding flag set to True | |
tokenizer.padding_side = "right" | |
encoded_sequence = tokenizer.encode(sequence) | |
sequence_length = len(encoded_sequence) | |
# FIXME: the next line should be padding(max_length) to avoid warning | |
padded_sequence = tokenizer.encode( | |
sequence, max_length=sequence_length + padding_size, pad_to_max_length=True | |
) | |
padded_sequence_length = len(padded_sequence) | |
self.assertEqual(sequence_length + padding_size, padded_sequence_length) | |
self.assertEqual(encoded_sequence + [padding_idx] * padding_size, padded_sequence) | |
# Check that nothing is done when a maximum length is not specified | |
encoded_sequence = tokenizer.encode(sequence) | |
sequence_length = len(encoded_sequence) | |
tokenizer.padding_side = "right" | |
padded_sequence_right = tokenizer.encode(sequence, pad_to_max_length=True) | |
padded_sequence_right_length = len(padded_sequence_right) | |
self.assertEqual(sequence_length, padded_sequence_right_length) | |
self.assertEqual(encoded_sequence, padded_sequence_right) | |
def test_padding_to_multiple_of(self): | |
tokenizers = self.get_tokenizers() | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
if tokenizer.pad_token is None: | |
self.skipTest("No padding token.") | |
else: | |
empty_tokens = tokenizer("", padding=True, pad_to_multiple_of=8) | |
normal_tokens = tokenizer("This is a sample input", padding=True, pad_to_multiple_of=8) | |
for key, value in empty_tokens.items(): | |
self.assertEqual(len(value) % 8, 0, f"BatchEncoding.{key} is not multiple of 8") | |
for key, value in normal_tokens.items(): | |
self.assertEqual(len(value) % 8, 0, f"BatchEncoding.{key} is not multiple of 8") | |
normal_tokens = tokenizer("This", pad_to_multiple_of=8) | |
for key, value in normal_tokens.items(): | |
self.assertNotEqual(len(value) % 8, 0, f"BatchEncoding.{key} is not multiple of 8") | |
# Should also work with truncation | |
normal_tokens = tokenizer("This", padding=True, truncation=True, pad_to_multiple_of=8) | |
for key, value in normal_tokens.items(): | |
self.assertEqual(len(value) % 8, 0, f"BatchEncoding.{key} is not multiple of 8") | |
# truncation to something which is not a multiple of pad_to_multiple_of raises an error | |
self.assertRaises( | |
ValueError, | |
tokenizer.__call__, | |
"This", | |
padding=True, | |
truncation=True, | |
max_length=12, | |
pad_to_multiple_of=8, | |
) | |
def test_padding_with_attention_mask(self): | |
tokenizers = self.get_tokenizers() | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
if tokenizer.pad_token is None: | |
self.skipTest("No padding token.") | |
if "attention_mask" not in tokenizer.model_input_names: | |
self.skipTest("This model does not use attention mask.") | |
features = [ | |
{"input_ids": [1, 2, 3, 4, 5, 6], "attention_mask": [1, 1, 1, 1, 1, 0]}, | |
{"input_ids": [1, 2, 3], "attention_mask": [1, 1, 0]}, | |
] | |
padded_features = tokenizer.pad(features) | |
if tokenizer.padding_side == "right": | |
self.assertListEqual(padded_features["attention_mask"], [[1, 1, 1, 1, 1, 0], [1, 1, 0, 0, 0, 0]]) | |
else: | |
self.assertListEqual(padded_features["attention_mask"], [[1, 1, 1, 1, 1, 0], [0, 0, 0, 1, 1, 0]]) | |
def test_encode_plus_with_padding(self): | |
tokenizers = self.get_tokenizers(do_lower_case=False) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
sequence = "Sequence" | |
# check correct behaviour if no pad_token_id exists and add it eventually | |
self._check_no_pad_token_padding(tokenizer, sequence) | |
padding_size = 10 | |
padding_idx = tokenizer.pad_token_id | |
token_type_padding_idx = tokenizer.pad_token_type_id | |
encoded_sequence = tokenizer.encode_plus(sequence, return_special_tokens_mask=True) | |
input_ids = encoded_sequence["input_ids"] | |
special_tokens_mask = encoded_sequence["special_tokens_mask"] | |
sequence_length = len(input_ids) | |
# Test 'longest' and 'no_padding' don't do anything | |
tokenizer.padding_side = "right" | |
not_padded_sequence = tokenizer.encode_plus( | |
sequence, | |
padding=True, | |
return_special_tokens_mask=True, | |
) | |
not_padded_input_ids = not_padded_sequence["input_ids"] | |
not_padded_special_tokens_mask = not_padded_sequence["special_tokens_mask"] | |
not_padded_sequence_length = len(not_padded_input_ids) | |
self.assertEqual(sequence_length, not_padded_sequence_length) | |
self.assertEqual(input_ids, not_padded_input_ids) | |
self.assertEqual(special_tokens_mask, not_padded_special_tokens_mask) | |
not_padded_sequence = tokenizer.encode_plus( | |
sequence, | |
padding=False, | |
return_special_tokens_mask=True, | |
) | |
not_padded_input_ids = not_padded_sequence["input_ids"] | |
not_padded_special_tokens_mask = not_padded_sequence["special_tokens_mask"] | |
not_padded_sequence_length = len(not_padded_input_ids) | |
self.assertEqual(sequence_length, not_padded_sequence_length) | |
self.assertEqual(input_ids, not_padded_input_ids) | |
self.assertEqual(special_tokens_mask, not_padded_special_tokens_mask) | |
# Test right padding | |
tokenizer.padding_side = "right" | |
right_padded_sequence = tokenizer.encode_plus( | |
sequence, | |
max_length=sequence_length + padding_size, | |
padding="max_length", | |
return_special_tokens_mask=True, | |
) | |
right_padded_input_ids = right_padded_sequence["input_ids"] | |
right_padded_special_tokens_mask = right_padded_sequence["special_tokens_mask"] | |
right_padded_sequence_length = len(right_padded_input_ids) | |
self.assertEqual(sequence_length + padding_size, right_padded_sequence_length) | |
self.assertEqual(input_ids + [padding_idx] * padding_size, right_padded_input_ids) | |
self.assertEqual(special_tokens_mask + [1] * padding_size, right_padded_special_tokens_mask) | |
# Test left padding | |
tokenizer.padding_side = "left" | |
left_padded_sequence = tokenizer.encode_plus( | |
sequence, | |
max_length=sequence_length + padding_size, | |
padding="max_length", | |
return_special_tokens_mask=True, | |
) | |
left_padded_input_ids = left_padded_sequence["input_ids"] | |
left_padded_special_tokens_mask = left_padded_sequence["special_tokens_mask"] | |
left_padded_sequence_length = len(left_padded_input_ids) | |
self.assertEqual(sequence_length + padding_size, left_padded_sequence_length) | |
self.assertEqual([padding_idx] * padding_size + input_ids, left_padded_input_ids) | |
self.assertEqual([1] * padding_size + special_tokens_mask, left_padded_special_tokens_mask) | |
if "token_type_ids" in tokenizer.model_input_names: | |
token_type_ids = encoded_sequence["token_type_ids"] | |
left_padded_token_type_ids = left_padded_sequence["token_type_ids"] | |
right_padded_token_type_ids = right_padded_sequence["token_type_ids"] | |
self.assertEqual( | |
token_type_ids + [token_type_padding_idx] * padding_size, right_padded_token_type_ids | |
) | |
self.assertEqual( | |
[token_type_padding_idx] * padding_size + token_type_ids, left_padded_token_type_ids | |
) | |
if "attention_mask" in tokenizer.model_input_names: | |
attention_mask = encoded_sequence["attention_mask"] | |
right_padded_attention_mask = right_padded_sequence["attention_mask"] | |
left_padded_attention_mask = left_padded_sequence["attention_mask"] | |
self.assertEqual(attention_mask + [0] * padding_size, right_padded_attention_mask) | |
self.assertEqual([0] * padding_size + attention_mask, left_padded_attention_mask) | |
def test_padding_warning_message_fast_tokenizer(self): | |
if not self.test_rust_tokenizer: | |
return | |
sequence = "This is a text" | |
tokenizer_fast = self.get_rust_tokenizer() | |
# check correct behaviour if no pad_token_id exists and add it eventually | |
self._check_no_pad_token_padding(tokenizer_fast, sequence) | |
encoding_fast = tokenizer_fast(sequence) | |
with self.assertLogs("transformers", level="WARNING") as cm: | |
tokenizer_fast.pad(encoding_fast) | |
self.assertEqual(len(cm.records), 1) | |
self.assertIn( | |
"Please note that with a fast tokenizer, using the `__call__` method is faster than using a method to" | |
" encode the text followed by a call to the `pad` method to get a padded encoding.", | |
cm.records[0].message, | |
) | |
if not self.test_slow_tokenizer: | |
return | |
tokenizer_slow = self.get_tokenizer() | |
# check correct behaviour if no pad_token_id exists and add it eventually | |
self._check_no_pad_token_padding(tokenizer_slow, sequence) | |
encoding_slow = tokenizer_slow(sequence) | |
with self.assertLogs(level="WARNING") as cm: | |
# We want to assert there are no warnings, but the 'assertLogs' method does not support that. | |
# Therefore, we are adding a dummy warning, and then we will assert it is the only warning. | |
logger.warning("Dummy warning") | |
tokenizer_slow.pad(encoding_slow) | |
self.assertEqual(len(cm.records), 1) | |
self.assertIn( | |
"Dummy warning", | |
cm.records[0].message, | |
) | |
def test_separate_tokenizers(self): | |
# This tests that tokenizers don't impact others. Unfortunately the case where it fails is when | |
# we're loading an S3 configuration from a pre-trained identifier, and we have no way of testing those today. | |
tokenizers = self.get_tokenizers(random_argument=True) | |
new_tokenizers = self.get_tokenizers(random_argument=False) | |
for tokenizer, new_tokenizer in zip(tokenizers, new_tokenizers): | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
self.assertTrue(tokenizer.init_kwargs["random_argument"]) | |
self.assertTrue(tokenizer.init_kwargs["random_argument"]) | |
self.assertFalse(new_tokenizer.init_kwargs["random_argument"]) | |
def test_get_vocab(self): | |
tokenizers = self.get_tokenizers(do_lower_case=False) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
vocab_dict = tokenizer.get_vocab() | |
self.assertIsInstance(vocab_dict, dict) | |
self.assertGreaterEqual(len(tokenizer), len(vocab_dict)) | |
vocab = [tokenizer.convert_ids_to_tokens(i) for i in range(len(tokenizer))] | |
self.assertEqual(len(vocab), len(tokenizer)) | |
tokenizer.add_tokens(["asdfasdfasdfasdf"]) | |
vocab = [tokenizer.convert_ids_to_tokens(i) for i in range(len(tokenizer))] | |
self.assertEqual(len(vocab), len(tokenizer)) | |
def test_conversion_reversible(self): | |
tokenizers = self.get_tokenizers(do_lower_case=False) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
vocab = tokenizer.get_vocab() | |
for word, ind in vocab.items(): | |
if word == tokenizer.unk_token: | |
continue | |
self.assertEqual(tokenizer.convert_tokens_to_ids(word), ind) | |
self.assertEqual(tokenizer.convert_ids_to_tokens(ind), word) | |
def test_call(self): | |
# Tests that all call wrap to encode_plus and batch_encode_plus | |
tokenizers = self.get_tokenizers(do_lower_case=False) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
sequences = [ | |
"Testing batch encode plus", | |
"Testing batch encode plus with different sequence lengths", | |
"Testing batch encode plus with different sequence lengths correctly pads", | |
] | |
# Test not batched | |
encoded_sequences_1 = tokenizer.encode_plus(sequences[0]) | |
encoded_sequences_2 = tokenizer(sequences[0]) | |
self.assertEqual(encoded_sequences_1, encoded_sequences_2) | |
# Test not batched pairs | |
encoded_sequences_1 = tokenizer.encode_plus(sequences[0], sequences[1]) | |
encoded_sequences_2 = tokenizer(sequences[0], sequences[1]) | |
self.assertEqual(encoded_sequences_1, encoded_sequences_2) | |
# Test batched | |
encoded_sequences_1 = tokenizer.batch_encode_plus(sequences) | |
encoded_sequences_2 = tokenizer(sequences) | |
self.assertEqual(encoded_sequences_1, encoded_sequences_2) | |
# Test batched pairs | |
encoded_sequences_1 = tokenizer.batch_encode_plus(list(zip(sequences, sequences))) | |
encoded_sequences_2 = tokenizer(sequences, sequences) | |
self.assertEqual(encoded_sequences_1, encoded_sequences_2) | |
def test_batch_encode_plus_batch_sequence_length(self): | |
# Tests that all encoded values have the correct size | |
tokenizers = self.get_tokenizers(do_lower_case=False) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
sequences = [ | |
"Testing batch encode plus", | |
"Testing batch encode plus with different sequence lengths", | |
"Testing batch encode plus with different sequence lengths correctly pads", | |
] | |
encoded_sequences = [tokenizer.encode_plus(sequence) for sequence in sequences] | |
encoded_sequences_batch = tokenizer.batch_encode_plus(sequences, padding=False) | |
self.assertListEqual( | |
encoded_sequences, self.convert_batch_encode_plus_format_to_encode_plus(encoded_sequences_batch) | |
) | |
maximum_length = len( | |
max([encoded_sequence["input_ids"] for encoded_sequence in encoded_sequences], key=len) | |
) | |
# check correct behaviour if no pad_token_id exists and add it eventually | |
self._check_no_pad_token_padding(tokenizer, sequences) | |
encoded_sequences_padded = [ | |
tokenizer.encode_plus(sequence, max_length=maximum_length, padding="max_length") | |
for sequence in sequences | |
] | |
encoded_sequences_batch_padded = tokenizer.batch_encode_plus(sequences, padding=True) | |
self.assertListEqual( | |
encoded_sequences_padded, | |
self.convert_batch_encode_plus_format_to_encode_plus(encoded_sequences_batch_padded), | |
) | |
# check 'longest' is unsensitive to a max length | |
encoded_sequences_batch_padded_1 = tokenizer.batch_encode_plus(sequences, padding=True) | |
encoded_sequences_batch_padded_2 = tokenizer.batch_encode_plus( | |
sequences, max_length=maximum_length + 10, padding="longest" | |
) | |
for key in encoded_sequences_batch_padded_1.keys(): | |
self.assertListEqual( | |
encoded_sequences_batch_padded_1[key], | |
encoded_sequences_batch_padded_2[key], | |
) | |
# check 'no_padding' is unsensitive to a max length | |
encoded_sequences_batch_padded_1 = tokenizer.batch_encode_plus(sequences, padding=False) | |
encoded_sequences_batch_padded_2 = tokenizer.batch_encode_plus( | |
sequences, max_length=maximum_length + 10, padding=False | |
) | |
for key in encoded_sequences_batch_padded_1.keys(): | |
self.assertListEqual( | |
encoded_sequences_batch_padded_1[key], | |
encoded_sequences_batch_padded_2[key], | |
) | |
def test_added_token_are_matched_longest_first(self): | |
if not self.test_slow_tokenizer: | |
self.skipTest("This test is only for slow tokenizers") | |
return | |
tokenizers = self.get_tokenizers(fast=False) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
try: | |
tokenizer.add_tokens([AddedToken("extra_id_1")]) | |
tokenizer.add_tokens([AddedToken("extra_id_100")]) | |
except Exception: | |
# Canine cannot add tokens which are not codepoints | |
self.skipTest("Cannot add those Added tokens") | |
# XXX: This used to split on `extra_id_1` first we're matching | |
# longest first now. | |
tokens = tokenizer.tokenize("This is some extra_id_100") | |
self.assertIn("extra_id_100", tokens) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
tokenizer.add_tokens([AddedToken("extra_id_100")]) | |
tokenizer.add_tokens([AddedToken("extra_id_1")]) | |
tokens = tokenizer.tokenize("This is some extra_id_100") | |
self.assertIn("extra_id_100", tokens) | |
def test_added_token_serializable(self): | |
tokenizers = self.get_tokenizers(do_lower_case=False) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
new_token = AddedToken("new_token", lstrip=True) | |
tokenizer.add_special_tokens({"additional_special_tokens": [new_token]}) | |
with tempfile.TemporaryDirectory() as tmp_dir_name: | |
tokenizer.save_pretrained(tmp_dir_name) | |
tokenizer.from_pretrained(tmp_dir_name) | |
def test_batch_encode_plus_padding(self): | |
# Test that padded sequences are equivalent between batch_encode_plus and encode_plus | |
# Right padding tests | |
tokenizers = self.get_tokenizers(do_lower_case=False) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
sequences = [ | |
"Testing batch encode plus", | |
"Testing batch encode plus with different sequence lengths", | |
"Testing batch encode plus with different sequence lengths correctly pads", | |
] | |
max_length = 100 | |
# check correct behaviour if no pad_token_id exists and add it eventually | |
self._check_no_pad_token_padding(tokenizer, sequences) | |
encoded_sequences = [ | |
tokenizer.encode_plus(sequence, max_length=max_length, padding="max_length") | |
for sequence in sequences | |
] | |
encoded_sequences_batch = tokenizer.batch_encode_plus( | |
sequences, max_length=max_length, padding="max_length" | |
) | |
self.assertListEqual( | |
encoded_sequences, self.convert_batch_encode_plus_format_to_encode_plus(encoded_sequences_batch) | |
) | |
# Left padding tests | |
tokenizers = self.get_tokenizers(do_lower_case=False) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
tokenizer.padding_side = "left" | |
sequences = [ | |
"Testing batch encode plus", | |
"Testing batch encode plus with different sequence lengths", | |
"Testing batch encode plus with different sequence lengths correctly pads", | |
] | |
max_length = 100 | |
# check correct behaviour if no pad_token_id exists and add it eventually | |
self._check_no_pad_token_padding(tokenizer, sequences) | |
encoded_sequences = [ | |
tokenizer.encode_plus(sequence, max_length=max_length, padding="max_length") | |
for sequence in sequences | |
] | |
encoded_sequences_batch = tokenizer.batch_encode_plus( | |
sequences, max_length=max_length, padding="max_length" | |
) | |
self.assertListEqual( | |
encoded_sequences, self.convert_batch_encode_plus_format_to_encode_plus(encoded_sequences_batch) | |
) | |
def test_pretokenized_inputs(self): | |
# Test when inputs are pretokenized | |
tokenizers = self.get_tokenizers(do_lower_case=False) # , add_prefix_space=True) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
if hasattr(tokenizer, "add_prefix_space") and not tokenizer.add_prefix_space: | |
continue | |
# Prepare a sequence from our tokenizer vocabulary | |
sequence, ids = self.get_clean_sequence(tokenizer, with_prefix_space=True, max_length=20) | |
# sequence = " " + sequence # To be sure the byte-level tokenizers are feeling good | |
token_sequence = sequence.split() | |
# sequence_no_prefix_space = sequence.strip() | |
# Test encode for pretokenized inputs | |
output = tokenizer.encode(token_sequence, is_split_into_words=True, add_special_tokens=False) | |
output_sequence = tokenizer.encode(sequence, add_special_tokens=False) | |
self.assertEqual(output, output_sequence) | |
output = tokenizer.encode(token_sequence, is_split_into_words=True, add_special_tokens=True) | |
output_sequence = tokenizer.encode(sequence, add_special_tokens=True) | |
self.assertEqual(output, output_sequence) | |
# Test encode_plus for pretokenized inputs | |
output = tokenizer.encode_plus(token_sequence, is_split_into_words=True, add_special_tokens=False) | |
output_sequence = tokenizer.encode_plus(sequence, add_special_tokens=False) | |
for key in output.keys(): | |
self.assertEqual(output[key], output_sequence[key]) | |
output = tokenizer.encode_plus(token_sequence, is_split_into_words=True, add_special_tokens=True) | |
output_sequence = tokenizer.encode_plus(sequence, add_special_tokens=True) | |
for key in output.keys(): | |
self.assertEqual(output[key], output_sequence[key]) | |
# Test batch_encode_plus for pretokenized inputs | |
sequence_batch = [sequence.strip()] * 2 + [sequence.strip() + " " + sequence.strip()] | |
token_sequence_batch = [s.split() for s in sequence_batch] | |
sequence_batch_cleaned_up_spaces = [" " + " ".join(s) for s in token_sequence_batch] | |
output = tokenizer.batch_encode_plus( | |
token_sequence_batch, is_split_into_words=True, add_special_tokens=False | |
) | |
output_sequence = tokenizer.batch_encode_plus( | |
sequence_batch_cleaned_up_spaces, add_special_tokens=False | |
) | |
for key in output.keys(): | |
self.assertEqual(output[key], output_sequence[key]) | |
output = tokenizer.batch_encode_plus( | |
token_sequence_batch, is_split_into_words=True, add_special_tokens=True | |
) | |
output_sequence = tokenizer.batch_encode_plus( | |
sequence_batch_cleaned_up_spaces, add_special_tokens=True | |
) | |
for key in output.keys(): | |
self.assertEqual(output[key], output_sequence[key]) | |
# Test encode for pretokenized inputs pairs | |
output = tokenizer.encode( | |
token_sequence, token_sequence, is_split_into_words=True, add_special_tokens=False | |
) | |
output_sequence = tokenizer.encode(sequence, sequence, add_special_tokens=False) | |
self.assertEqual(output, output_sequence) | |
output = tokenizer.encode( | |
token_sequence, token_sequence, is_split_into_words=True, add_special_tokens=True | |
) | |
output_sequence = tokenizer.encode(sequence, sequence, add_special_tokens=True) | |
self.assertEqual(output, output_sequence) | |
# Test encode_plus for pretokenized inputs pairs | |
output = tokenizer.encode_plus( | |
token_sequence, token_sequence, is_split_into_words=True, add_special_tokens=False | |
) | |
output_sequence = tokenizer.encode_plus(sequence, sequence, add_special_tokens=False) | |
for key in output.keys(): | |
self.assertEqual(output[key], output_sequence[key]) | |
output = tokenizer.encode_plus( | |
token_sequence, token_sequence, is_split_into_words=True, add_special_tokens=True | |
) | |
output_sequence = tokenizer.encode_plus(sequence, sequence, add_special_tokens=True) | |
for key in output.keys(): | |
self.assertEqual(output[key], output_sequence[key]) | |
# Test batch_encode_plus for pretokenized inputs pairs | |
sequence_pair_batch = [(sequence.strip(), sequence.strip())] * 2 + [ | |
(sequence.strip() + " " + sequence.strip(), sequence.strip()) | |
] | |
token_sequence_pair_batch = [tuple(s.split() for s in pair) for pair in sequence_pair_batch] | |
sequence_pair_batch_cleaned_up_spaces = [ | |
tuple(" " + " ".join(s) for s in pair) for pair in token_sequence_pair_batch | |
] | |
output = tokenizer.batch_encode_plus( | |
token_sequence_pair_batch, is_split_into_words=True, add_special_tokens=False | |
) | |
output_sequence = tokenizer.batch_encode_plus( | |
sequence_pair_batch_cleaned_up_spaces, add_special_tokens=False | |
) | |
for key in output.keys(): | |
self.assertEqual(output[key], output_sequence[key]) | |
output = tokenizer.batch_encode_plus( | |
token_sequence_pair_batch, is_split_into_words=True, add_special_tokens=True | |
) | |
output_sequence = tokenizer.batch_encode_plus( | |
sequence_pair_batch_cleaned_up_spaces, add_special_tokens=True | |
) | |
for key in output.keys(): | |
self.assertEqual(output[key], output_sequence[key]) | |
def test_prepare_for_model(self): | |
tokenizers = self.get_tokenizers(do_lower_case=False) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
string_sequence = "Testing the prepare_for_model method." | |
ids = tokenizer.encode(string_sequence, add_special_tokens=False) | |
prepared_input_dict = tokenizer.prepare_for_model(ids, add_special_tokens=True) | |
input_dict = tokenizer.encode_plus(string_sequence, add_special_tokens=True) | |
self.assertEqual(input_dict, prepared_input_dict) | |
def test_batch_encode_plus_overflowing_tokens(self): | |
tokenizers = self.get_tokenizers(do_lower_case=False) | |
for tokenizer in tokenizers: | |
string_sequences = ["Testing the prepare_for_model method.", "Test"] | |
if tokenizer.pad_token is None: | |
tokenizer.add_special_tokens({"pad_token": "[PAD]"}) | |
tokenizer.batch_encode_plus( | |
string_sequences, return_overflowing_tokens=True, truncation=True, padding=True, max_length=3 | |
) | |
def test_batch_encode_plus_tensors(self): | |
tokenizers = self.get_tokenizers(do_lower_case=False) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
sequences = [ | |
"Testing batch encode plus", | |
"Testing batch encode plus with different sequence lengths", | |
"Testing batch encode plus with different sequence lengths correctly pads", | |
] | |
# A Tensor cannot be build by sequences which are not the same size | |
self.assertRaises(ValueError, tokenizer.batch_encode_plus, sequences, return_tensors="pt") | |
self.assertRaises(ValueError, tokenizer.batch_encode_plus, sequences, return_tensors="tf") | |
if tokenizer.pad_token_id is None: | |
self.assertRaises( | |
ValueError, | |
tokenizer.batch_encode_plus, | |
sequences, | |
padding=True, | |
return_tensors="pt", | |
) | |
self.assertRaises( | |
ValueError, | |
tokenizer.batch_encode_plus, | |
sequences, | |
padding="longest", | |
return_tensors="tf", | |
) | |
else: | |
pytorch_tensor = tokenizer.batch_encode_plus(sequences, padding=True, return_tensors="pt") | |
tensorflow_tensor = tokenizer.batch_encode_plus(sequences, padding="longest", return_tensors="tf") | |
encoded_sequences = tokenizer.batch_encode_plus(sequences, padding=True) | |
for key in encoded_sequences.keys(): | |
pytorch_value = pytorch_tensor[key].tolist() | |
tensorflow_value = tensorflow_tensor[key].numpy().tolist() | |
encoded_value = encoded_sequences[key] | |
self.assertEqual(pytorch_value, tensorflow_value, encoded_value) | |
def _check_no_pad_token_padding(self, tokenizer, sequences): | |
# if tokenizer does not have pad_token_id, an error should be thrown | |
if tokenizer.pad_token_id is None: | |
with self.assertRaises(ValueError): | |
if isinstance(sequences, list): | |
tokenizer.batch_encode_plus(sequences, padding="longest") | |
else: | |
tokenizer.encode_plus(sequences, padding=True) | |
# add pad_token_id to pass subsequent tests | |
tokenizer.add_special_tokens({"pad_token": "<PAD>"}) | |
def check_subword_sampling( | |
self, | |
tokenizer: PreTrainedTokenizer, | |
text: str = None, | |
) -> None: | |
""" | |
Check if the tokenizer generates different results when subword regularization is enabled. | |
Subword regularization augments training data with subword sampling. | |
This has a random component. | |
Args: | |
tokenizer: The tokenizer to check. | |
text: The text to use for the checks. | |
""" | |
text = "This is a test for subword regularization." if text is None else text | |
if self.test_sentencepiece_ignore_case: | |
text = text.lower() | |
tokens_list = [] | |
for _ in range(5): | |
tokens_list.append(tokenizer.tokenize(text)) | |
# the list of different pairs of tokens_list | |
combinations = itertools.combinations(tokens_list, 2) | |
# check of sampling is done | |
subword_sampling_found = False | |
for combination in combinations: | |
if combination[0] != combination[1]: | |
subword_sampling_found = True | |
self.assertTrue(subword_sampling_found) | |
# check if converting back to original text works | |
for tokens in tokens_list: | |
if self.test_sentencepiece_ignore_case: | |
self.assertEqual(text, tokenizer.convert_tokens_to_string(tokens).lower()) | |
else: | |
self.assertEqual(text, tokenizer.convert_tokens_to_string(tokens)) | |
def test_torch_encode_plus_sent_to_model(self): | |
import torch | |
from transformers import MODEL_MAPPING, TOKENIZER_MAPPING | |
MODEL_TOKENIZER_MAPPING = merge_model_tokenizer_mappings(MODEL_MAPPING, TOKENIZER_MAPPING) | |
tokenizers = self.get_tokenizers(do_lower_case=False) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
if tokenizer.__class__ not in MODEL_TOKENIZER_MAPPING: | |
return | |
config_class, model_class = MODEL_TOKENIZER_MAPPING[tokenizer.__class__] | |
config = config_class() | |
if config.is_encoder_decoder or config.pad_token_id is None: | |
return | |
model = model_class(config) | |
# Make sure the model contains at least the full vocabulary size in its embedding matrix | |
is_using_common_embeddings = hasattr(model.get_input_embeddings(), "weight") | |
if is_using_common_embeddings: | |
self.assertGreaterEqual(model.get_input_embeddings().weight.shape[0], len(tokenizer)) | |
# Build sequence | |
first_ten_tokens = list(tokenizer.get_vocab().keys())[:10] | |
sequence = " ".join(first_ten_tokens) | |
encoded_sequence = tokenizer.encode_plus(sequence, return_tensors="pt") | |
# Ensure that the BatchEncoding.to() method works. | |
encoded_sequence.to(model.device) | |
batch_encoded_sequence = tokenizer.batch_encode_plus([sequence, sequence], return_tensors="pt") | |
# This should not fail | |
with torch.no_grad(): # saves some time | |
model(**encoded_sequence) | |
model(**batch_encoded_sequence) | |
# if self.test_rust_tokenizer: | |
# fast_tokenizer = self.get_rust_tokenizer() | |
# encoded_sequence_fast = fast_tokenizer.encode_plus(sequence, return_tensors="pt") | |
# batch_encoded_sequence_fast = fast_tokenizer.batch_encode_plus([sequence, sequence], return_tensors="pt") | |
# # This should not fail | |
# model(**encoded_sequence_fast) | |
# model(**batch_encoded_sequence_fast) | |
def test_tf_encode_plus_sent_to_model(self): | |
from transformers import TF_MODEL_MAPPING, TOKENIZER_MAPPING | |
MODEL_TOKENIZER_MAPPING = merge_model_tokenizer_mappings(TF_MODEL_MAPPING, TOKENIZER_MAPPING) | |
tokenizers = self.get_tokenizers(do_lower_case=False) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
if tokenizer.__class__ not in MODEL_TOKENIZER_MAPPING: | |
return | |
config_class, model_class = MODEL_TOKENIZER_MAPPING[tokenizer.__class__] | |
config = config_class() | |
if config.is_encoder_decoder or config.pad_token_id is None: | |
return | |
model = model_class(config) | |
# Make sure the model contains at least the full vocabulary size in its embedding matrix | |
self.assertGreaterEqual(model.config.vocab_size, len(tokenizer)) | |
# Build sequence | |
first_ten_tokens = list(tokenizer.get_vocab().keys())[:10] | |
sequence = " ".join(first_ten_tokens) | |
encoded_sequence = tokenizer.encode_plus(sequence, return_tensors="tf") | |
batch_encoded_sequence = tokenizer.batch_encode_plus([sequence, sequence], return_tensors="tf") | |
# This should not fail | |
model(encoded_sequence) | |
model(batch_encoded_sequence) | |
# TODO: Check if require_torch is the best to test for numpy here ... Maybe move to require_flax when available | |
def test_np_encode_plus_sent_to_model(self): | |
from transformers import MODEL_MAPPING, TOKENIZER_MAPPING | |
MODEL_TOKENIZER_MAPPING = merge_model_tokenizer_mappings(MODEL_MAPPING, TOKENIZER_MAPPING) | |
tokenizers = self.get_tokenizers() | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
if tokenizer.__class__ not in MODEL_TOKENIZER_MAPPING: | |
return | |
config_class, model_class = MODEL_TOKENIZER_MAPPING[tokenizer.__class__] | |
config = config_class() | |
if config.is_encoder_decoder or config.pad_token_id is None: | |
return | |
# Build sequence | |
first_ten_tokens = list(tokenizer.get_vocab().keys())[:10] | |
sequence = " ".join(first_ten_tokens) | |
encoded_sequence = tokenizer.encode_plus(sequence, return_tensors="np") | |
batch_encoded_sequence = tokenizer.batch_encode_plus([sequence, sequence], return_tensors="np") | |
# TODO: add forward through JAX/Flax when PR is merged | |
# This is currently here to make ruff happy ! | |
if encoded_sequence is None: | |
raise ValueError("Cannot convert list to numpy tensor on encode_plus()") | |
if batch_encoded_sequence is None: | |
raise ValueError("Cannot convert list to numpy tensor on batch_encode_plus()") | |
if self.test_rust_tokenizer: | |
fast_tokenizer = self.get_rust_tokenizer() | |
encoded_sequence_fast = fast_tokenizer.encode_plus(sequence, return_tensors="np") | |
batch_encoded_sequence_fast = fast_tokenizer.batch_encode_plus( | |
[sequence, sequence], return_tensors="np" | |
) | |
# TODO: add forward through JAX/Flax when PR is merged | |
# This is currently here to make ruff happy ! | |
if encoded_sequence_fast is None: | |
raise ValueError("Cannot convert list to numpy tensor on encode_plus() (fast)") | |
if batch_encoded_sequence_fast is None: | |
raise ValueError("Cannot convert list to numpy tensor on batch_encode_plus() (fast)") | |
def test_prepare_seq2seq_batch(self): | |
if not self.test_seq2seq: | |
return | |
tokenizers = self.get_tokenizers() | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
# Longer text that will definitely require truncation. | |
src_text = [ | |
" UN Chief Says There Is No Military Solution in Syria", | |
" Secretary-General Ban Ki-moon says his response to Russia's stepped up military support for" | |
" Syria is that 'there is no military solution' to the nearly five-year conflict and more weapons" | |
" will only worsen the violence and misery for millions of people.", | |
] | |
tgt_text = [ | |
"Şeful ONU declară că nu există o soluţie militară în Siria", | |
"Secretarul General Ban Ki-moon declară că răspunsul său la intensificarea sprijinului militar al" | |
' Rusiei pentru Siria este că "nu există o soluţie militară" la conflictul de aproape cinci ani şi' | |
" că noi arme nu vor face decât să înrăutăţească violenţele şi mizeria pentru milioane de oameni.", | |
] | |
try: | |
batch = tokenizer.prepare_seq2seq_batch( | |
src_texts=src_text, | |
tgt_texts=tgt_text, | |
max_length=3, | |
max_target_length=10, | |
return_tensors="pt", | |
src_lang="en_XX", # this should be ignored (for all but mbart) but not cause an error | |
) | |
except NotImplementedError: | |
return | |
self.assertEqual(batch.input_ids.shape[1], 3) | |
self.assertEqual(batch.labels.shape[1], 10) | |
# max_target_length will default to max_length if not specified | |
batch = tokenizer.prepare_seq2seq_batch( | |
src_text, tgt_texts=tgt_text, max_length=3, return_tensors="pt" | |
) | |
self.assertEqual(batch.input_ids.shape[1], 3) | |
self.assertEqual(batch.labels.shape[1], 3) | |
batch_encoder_only = tokenizer.prepare_seq2seq_batch( | |
src_texts=src_text, max_length=3, max_target_length=10, return_tensors="pt" | |
) | |
self.assertEqual(batch_encoder_only.input_ids.shape[1], 3) | |
self.assertEqual(batch_encoder_only.attention_mask.shape[1], 3) | |
self.assertNotIn("decoder_input_ids", batch_encoder_only) | |
def test_is_fast(self): | |
for tokenizer, pretrained_name, kwargs in self.tokenizers_list: | |
with self.subTest(f"{tokenizer.__class__.__name__} ({pretrained_name})"): | |
tokenizer_r = self.rust_tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
# Check is_fast is set correctly | |
self.assertTrue(tokenizer_r.is_fast) | |
if self.test_slow_tokenizer: | |
tokenizer_p = self.tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
self.assertFalse(tokenizer_p.is_fast) | |
def test_fast_only_inputs(self): | |
for tokenizer, pretrained_name, kwargs in self.tokenizers_list: | |
with self.subTest(f"{tokenizer.__class__.__name__} ({pretrained_name})"): | |
tokenizer_r = self.rust_tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
# Ensure None raise an error | |
self.assertRaises(TypeError, tokenizer_r.tokenize, None) | |
self.assertRaises(TypeError, tokenizer_r.encode, None) | |
self.assertRaises(TypeError, tokenizer_r.encode_plus, None) | |
self.assertRaises(TypeError, tokenizer_r.batch_encode_plus, None) | |
def test_alignement_methods(self): | |
for tokenizer, pretrained_name, kwargs in self.tokenizers_list: | |
with self.subTest(f"{tokenizer.__class__.__name__} ({pretrained_name})"): | |
tokenizer_r = self.rust_tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
words = ["Wonderful", "no", "inspiration", "example", "with", "subtoken"] | |
text = " ".join(words) | |
batch_size = 3 | |
encoding = tokenizer_r.encode_plus(text, add_special_tokens=False) | |
batch_encoding = tokenizer_r.batch_encode_plus([text] * batch_size, add_special_tokens=False) | |
num_tokens = len(encoding["input_ids"]) | |
last_word_index = len(words) - 1 | |
last_token_index = num_tokens - 1 | |
last_batch_index = batch_size - 1 | |
last_char_index = len(text) - 1 | |
# words, tokens | |
self.assertEqual(len(encoding.words(0)), num_tokens) | |
self.assertEqual(max(encoding.words(0)), last_word_index) | |
self.assertEqual(min(encoding.words(0)), 0) | |
self.assertEqual(len(batch_encoding.words(last_batch_index)), num_tokens) | |
self.assertEqual(max(batch_encoding.words(last_batch_index)), last_word_index) | |
self.assertEqual(min(batch_encoding.words(last_batch_index)), 0) | |
self.assertEqual(len(encoding.tokens(0)), num_tokens) | |
# Assert token_to_word | |
self.assertEqual(encoding.token_to_word(0), 0) | |
self.assertEqual(encoding.token_to_word(0, 0), 0) | |
self.assertEqual(encoding.token_to_word(last_token_index), last_word_index) | |
self.assertEqual(encoding.token_to_word(0, last_token_index), last_word_index) | |
self.assertEqual(batch_encoding.token_to_word(1, 0), 0) | |
self.assertEqual(batch_encoding.token_to_word(0, last_token_index), last_word_index) | |
self.assertEqual(batch_encoding.token_to_word(last_batch_index, last_token_index), last_word_index) | |
# Assert word_to_tokens | |
self.assertEqual(encoding.word_to_tokens(0).start, 0) | |
self.assertEqual(encoding.word_to_tokens(0, 0).start, 0) | |
self.assertEqual(encoding.word_to_tokens(last_word_index).end, last_token_index + 1) | |
self.assertEqual(encoding.word_to_tokens(0, last_word_index).end, last_token_index + 1) | |
self.assertEqual(batch_encoding.word_to_tokens(1, 0).start, 0) | |
self.assertEqual(batch_encoding.word_to_tokens(0, last_word_index).end, last_token_index + 1) | |
self.assertEqual( | |
batch_encoding.word_to_tokens(last_batch_index, last_word_index).end, last_token_index + 1 | |
) | |
# Assert token_to_chars | |
self.assertEqual(encoding.token_to_chars(0).start, 0) | |
self.assertEqual(encoding.token_to_chars(0, 0).start, 0) | |
self.assertEqual(encoding.token_to_chars(last_token_index).end, last_char_index + 1) | |
self.assertEqual(encoding.token_to_chars(0, last_token_index).end, last_char_index + 1) | |
self.assertEqual(batch_encoding.token_to_chars(1, 0).start, 0) | |
self.assertEqual(batch_encoding.token_to_chars(0, last_token_index).end, last_char_index + 1) | |
self.assertEqual( | |
batch_encoding.token_to_chars(last_batch_index, last_token_index).end, last_char_index + 1 | |
) | |
# Assert char_to_token | |
self.assertEqual(encoding.char_to_token(0), 0) | |
self.assertEqual(encoding.char_to_token(0, 0), 0) | |
self.assertEqual(encoding.char_to_token(last_char_index), last_token_index) | |
self.assertEqual(encoding.char_to_token(0, last_char_index), last_token_index) | |
self.assertEqual(batch_encoding.char_to_token(1, 0), 0) | |
self.assertEqual(batch_encoding.char_to_token(0, last_char_index), last_token_index) | |
self.assertEqual(batch_encoding.char_to_token(last_batch_index, last_char_index), last_token_index) | |
# Assert char_to_word | |
self.assertEqual(encoding.char_to_word(0), 0) | |
self.assertEqual(encoding.char_to_word(0, 0), 0) | |
self.assertEqual(encoding.char_to_word(last_char_index), last_word_index) | |
self.assertEqual(encoding.char_to_word(0, last_char_index), last_word_index) | |
self.assertEqual(batch_encoding.char_to_word(1, 0), 0) | |
self.assertEqual(batch_encoding.char_to_word(0, last_char_index), last_word_index) | |
self.assertEqual(batch_encoding.char_to_word(last_batch_index, last_char_index), last_word_index) | |
# Assert word_to_chars | |
self.assertEqual(encoding.word_to_chars(0).start, 0) | |
self.assertEqual(encoding.word_to_chars(0, 0).start, 0) | |
self.assertEqual(encoding.word_to_chars(last_word_index).end, last_char_index + 1) | |
self.assertEqual(encoding.word_to_chars(0, last_word_index).end, last_char_index + 1) | |
self.assertEqual(batch_encoding.word_to_chars(1, 0).start, 0) | |
self.assertEqual(batch_encoding.word_to_chars(0, last_word_index).end, last_char_index + 1) | |
self.assertEqual( | |
batch_encoding.word_to_chars(last_batch_index, last_word_index).end, last_char_index + 1 | |
) | |
# Assert token_to_sequence | |
self.assertEqual(encoding.token_to_sequence(num_tokens // 2), 0) | |
self.assertEqual(encoding.token_to_sequence(0, num_tokens // 2), 0) | |
self.assertEqual(batch_encoding.token_to_sequence(1, num_tokens // 2), 0) | |
self.assertEqual(batch_encoding.token_to_sequence(0, num_tokens // 2), 0) | |
self.assertEqual(batch_encoding.token_to_sequence(last_batch_index, num_tokens // 2), 0) | |
# Pair of input sequences | |
words = ["Wonderful", "no", "inspiration", "example", "with", "subtoken"] | |
text = " ".join(words) | |
pair_words = ["Amazing", "example", "full", "of", "inspiration"] | |
pair_text = " ".join(pair_words) | |
batch_size = 3 | |
index_word_in_first_seq = words.index("inspiration") | |
index_word_in_pair_seq = pair_words.index("inspiration") | |
index_char_in_first_seq = text.find("inspiration") | |
index_char_in_pair_seq = pair_text.find("inspiration") | |
pair_encoding = tokenizer_r.encode_plus(text, pair_text, add_special_tokens=False) | |
pair_batch_encoding = tokenizer_r.batch_encode_plus( | |
[(text, pair_text)] * batch_size, add_special_tokens=False | |
) | |
num_tokens = len(encoding["input_ids"]) | |
last_word_index = len(words) - 1 | |
last_token_index = num_tokens - 1 | |
last_batch_index = batch_size - 1 | |
last_char_index = len(text) - 1 | |
# Assert word_to_tokens | |
self.assertNotEqual( | |
pair_encoding.word_to_tokens(index_word_in_first_seq, sequence_index=0).start, | |
pair_encoding.word_to_tokens(index_word_in_pair_seq, sequence_index=1).start, | |
) | |
self.assertEqual( | |
pair_encoding["input_ids"][ | |
pair_encoding.word_to_tokens(index_word_in_first_seq, sequence_index=0).start | |
], | |
pair_encoding["input_ids"][ | |
pair_encoding.word_to_tokens(index_word_in_pair_seq, sequence_index=1).start | |
], | |
) | |
self.assertNotEqual( | |
pair_batch_encoding.word_to_tokens(1, index_word_in_first_seq, sequence_index=0).start, | |
pair_batch_encoding.word_to_tokens(1, index_word_in_pair_seq, sequence_index=1).start, | |
) | |
self.assertEqual( | |
pair_batch_encoding["input_ids"][1][ | |
pair_batch_encoding.word_to_tokens(1, index_word_in_first_seq, sequence_index=0).start | |
], | |
pair_batch_encoding["input_ids"][1][ | |
pair_batch_encoding.word_to_tokens(1, index_word_in_pair_seq, sequence_index=1).start | |
], | |
) | |
# Assert char_to_token | |
self.assertNotEqual( | |
pair_encoding.char_to_token(index_char_in_first_seq, sequence_index=0), | |
pair_encoding.char_to_token(index_char_in_pair_seq, sequence_index=1), | |
) | |
self.assertEqual( | |
pair_encoding["input_ids"][pair_encoding.char_to_token(index_char_in_first_seq, sequence_index=0)], | |
pair_encoding["input_ids"][pair_encoding.char_to_token(index_char_in_pair_seq, sequence_index=1)], | |
) | |
self.assertNotEqual( | |
pair_batch_encoding.char_to_token(1, index_char_in_first_seq, sequence_index=0), | |
pair_batch_encoding.char_to_token(1, index_char_in_pair_seq, sequence_index=1), | |
) | |
self.assertEqual( | |
pair_batch_encoding["input_ids"][1][ | |
pair_batch_encoding.char_to_token(1, index_char_in_first_seq, sequence_index=0) | |
], | |
pair_batch_encoding["input_ids"][1][ | |
pair_batch_encoding.char_to_token(1, index_char_in_pair_seq, sequence_index=1) | |
], | |
) | |
# Assert char_to_word | |
self.assertNotEqual( | |
pair_encoding.char_to_word(index_char_in_first_seq, sequence_index=0), | |
pair_encoding.char_to_word(index_char_in_pair_seq, sequence_index=1), | |
) | |
self.assertEqual( | |
words[pair_encoding.char_to_word(index_char_in_first_seq, sequence_index=0)], | |
pair_words[pair_encoding.char_to_word(index_char_in_pair_seq, sequence_index=1)], | |
) | |
self.assertNotEqual( | |
pair_batch_encoding.char_to_word(1, index_char_in_first_seq, sequence_index=0), | |
pair_batch_encoding.char_to_word(1, index_char_in_pair_seq, sequence_index=1), | |
) | |
self.assertEqual( | |
words[pair_batch_encoding.char_to_word(1, index_char_in_first_seq, sequence_index=0)], | |
pair_words[pair_batch_encoding.char_to_word(1, index_char_in_pair_seq, sequence_index=1)], | |
) | |
# Assert word_to_chars | |
self.assertNotEqual( | |
pair_encoding.word_to_chars(index_word_in_first_seq, sequence_index=0).start, | |
pair_encoding.word_to_chars(index_word_in_pair_seq, sequence_index=1).start, | |
) | |
self.assertEqual( | |
text[pair_encoding.word_to_chars(index_word_in_first_seq, sequence_index=0).start], | |
pair_text[pair_encoding.word_to_chars(index_word_in_pair_seq, sequence_index=1).start], | |
) | |
self.assertNotEqual( | |
pair_batch_encoding.word_to_chars(1, index_word_in_first_seq, sequence_index=0).start, | |
pair_batch_encoding.word_to_chars(1, index_word_in_pair_seq, sequence_index=1).start, | |
) | |
self.assertEqual( | |
text[pair_batch_encoding.word_to_chars(1, index_word_in_first_seq, sequence_index=0).start], | |
pair_text[pair_batch_encoding.word_to_chars(1, index_word_in_pair_seq, sequence_index=1).start], | |
) | |
# Assert token_to_sequence | |
pair_encoding = tokenizer_r.encode_plus(text, pair_text, add_special_tokens=True) | |
pair_sequence_ids = [ | |
pair_encoding.token_to_sequence(i) for i in range(len(pair_encoding["input_ids"])) | |
] | |
self.assertIn(0, pair_sequence_ids) | |
self.assertIn(1, pair_sequence_ids) | |
if tokenizer_r.num_special_tokens_to_add(pair=True): | |
self.assertIn(None, pair_sequence_ids) | |
pair_batch_encoding = tokenizer_r.batch_encode_plus( | |
[(text, pair_text)] * batch_size, add_special_tokens=True | |
) | |
pair_batch_sequence_ids = [ | |
pair_batch_encoding.token_to_sequence(1, i) | |
for i in range(len(pair_batch_encoding["input_ids"][0])) | |
] | |
self.assertIn(0, pair_batch_sequence_ids) | |
self.assertIn(1, pair_batch_sequence_ids) | |
if tokenizer_r.num_special_tokens_to_add(pair=True): | |
self.assertIn(None, pair_batch_sequence_ids) | |
def test_tokenization_python_rust_equals(self): | |
if not self.test_slow_tokenizer: | |
# as we don't have a slow version, we can't compare the outputs between slow and fast versions | |
return | |
for tokenizer, pretrained_name, kwargs in self.tokenizers_list: | |
with self.subTest(f"{tokenizer.__class__.__name__} ({pretrained_name})"): | |
tokenizer_r = self.rust_tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
tokenizer_p = self.tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
# Ensure basic input match | |
input_p = tokenizer_p.encode_plus(self._data) | |
input_r = tokenizer_r.encode_plus(self._data) | |
for key in filter(lambda x: x in ["input_ids", "token_type_ids", "attention_mask"], input_p.keys()): | |
self.assertSequenceEqual(input_p[key], input_r[key]) | |
input_pairs_p = tokenizer_p.encode_plus(self._data, self._data) | |
input_pairs_r = tokenizer_r.encode_plus(self._data, self._data) | |
for key in filter(lambda x: x in ["input_ids", "token_type_ids", "attention_mask"], input_p.keys()): | |
self.assertSequenceEqual(input_pairs_p[key], input_pairs_r[key]) | |
# Ensure truncation match | |
input_p = tokenizer_p.encode_plus(self._data, max_length=512, truncation=True) | |
input_r = tokenizer_r.encode_plus(self._data, max_length=512, truncation=True) | |
for key in filter(lambda x: x in ["input_ids", "token_type_ids", "attention_mask"], input_p.keys()): | |
self.assertSequenceEqual(input_p[key], input_r[key]) | |
# Ensure truncation with stride match | |
input_p = tokenizer_p.encode_plus( | |
self._data, max_length=512, truncation=True, stride=3, return_overflowing_tokens=True | |
) | |
input_r = tokenizer_r.encode_plus( | |
self._data, max_length=512, truncation=True, stride=3, return_overflowing_tokens=True | |
) | |
for key in filter(lambda x: x in ["input_ids", "token_type_ids", "attention_mask"], input_p.keys()): | |
self.assertSequenceEqual(input_p[key], input_r[key][0]) | |
def test_num_special_tokens_to_add_equal(self): | |
if not self.test_slow_tokenizer: | |
# as we don't have a slow version, we can't compare the outputs between slow and fast versions | |
return | |
for tokenizer, pretrained_name, kwargs in self.tokenizers_list: | |
with self.subTest(f"{tokenizer.__class__.__name__} ({pretrained_name})"): | |
tokenizer_r = self.rust_tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
tokenizer_p = self.tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
# Check we have the same number of added_tokens for both pair and non-pair inputs. | |
self.assertEqual( | |
tokenizer_r.num_special_tokens_to_add(False), tokenizer_p.num_special_tokens_to_add(False) | |
) | |
self.assertEqual( | |
tokenizer_r.num_special_tokens_to_add(True), tokenizer_p.num_special_tokens_to_add(True) | |
) | |
def test_max_length_equal(self): | |
if not self.test_slow_tokenizer: | |
# as we don't have a slow version, we can't compare the outputs between slow and fast versions | |
return | |
for tokenizer, pretrained_name, kwargs in self.tokenizers_list: | |
with self.subTest(f"{tokenizer.__class__.__name__} ({pretrained_name})"): | |
tokenizer_r = self.rust_tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
tokenizer_p = self.tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
# Check we have the correct max_length for both pair and non-pair inputs. | |
self.assertEqual(tokenizer_r.max_len_single_sentence, tokenizer_p.max_len_single_sentence) | |
self.assertEqual(tokenizer_r.max_len_sentences_pair, tokenizer_p.max_len_sentences_pair) | |
def test_special_tokens_map_equal(self): | |
if not self.test_slow_tokenizer: | |
# as we don't have a slow version, we can't compare the outputs between slow and fast versions | |
return | |
for tokenizer, pretrained_name, kwargs in self.tokenizers_list: | |
with self.subTest(f"{tokenizer.__class__.__name__} ({pretrained_name})"): | |
tokenizer_r = self.rust_tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
tokenizer_p = self.tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
# Assert the set of special tokens match. | |
self.assertSequenceEqual( | |
tokenizer_p.special_tokens_map.items(), | |
tokenizer_r.special_tokens_map.items(), | |
) | |
def test_add_tokens(self): | |
for tokenizer, pretrained_name, kwargs in self.tokenizers_list: | |
with self.subTest(f"{tokenizer.__class__.__name__} ({pretrained_name})"): | |
tokenizer_r = self.rust_tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
vocab_size = len(tokenizer_r) | |
self.assertEqual(tokenizer_r.add_tokens(""), 0) | |
self.assertEqual(tokenizer_r.add_tokens("testoken"), 1) | |
self.assertEqual(tokenizer_r.add_tokens(["testoken1", "testtoken2"]), 2) | |
self.assertEqual(len(tokenizer_r), vocab_size + 3) | |
self.assertEqual(tokenizer_r.add_special_tokens({}), 0) | |
self.assertEqual(tokenizer_r.add_special_tokens({"bos_token": "[BOS]", "eos_token": "[EOS]"}), 2) | |
self.assertRaises( | |
AssertionError, tokenizer_r.add_special_tokens, {"additional_special_tokens": "<testtoken1>"} | |
) | |
self.assertEqual(tokenizer_r.add_special_tokens({"additional_special_tokens": ["<testtoken2>"]}), 1) | |
self.assertEqual( | |
tokenizer_r.add_special_tokens({"additional_special_tokens": ["<testtoken3>", "<testtoken4>"]}), 2 | |
) | |
self.assertIn("<testtoken3>", tokenizer_r.special_tokens_map["additional_special_tokens"]) | |
self.assertIsInstance(tokenizer_r.special_tokens_map["additional_special_tokens"], list) | |
self.assertGreaterEqual(len(tokenizer_r.special_tokens_map["additional_special_tokens"]), 2) | |
self.assertEqual(len(tokenizer_r), vocab_size + 8) | |
def test_offsets_mapping(self): | |
for tokenizer, pretrained_name, kwargs in self.tokenizers_list: | |
with self.subTest(f"{tokenizer.__class__.__name__} ({pretrained_name})"): | |
tokenizer_r = self.rust_tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
text = "Wonderful no inspiration example with subtoken" | |
pair = "Along with an awesome pair" | |
# No pair | |
tokens_with_offsets = tokenizer_r.encode_plus( | |
text, return_special_tokens_mask=True, return_offsets_mapping=True, add_special_tokens=True | |
) | |
added_tokens = tokenizer_r.num_special_tokens_to_add(False) | |
offsets = tokens_with_offsets["offset_mapping"] | |
# Assert there is the same number of tokens and offsets | |
self.assertEqual(len(offsets), len(tokens_with_offsets["input_ids"])) | |
# Assert there is online added_tokens special_tokens | |
self.assertEqual(sum(tokens_with_offsets["special_tokens_mask"]), added_tokens) | |
# Pairs | |
tokens_with_offsets = tokenizer_r.encode_plus( | |
text, pair, return_special_tokens_mask=True, return_offsets_mapping=True, add_special_tokens=True | |
) | |
added_tokens = tokenizer_r.num_special_tokens_to_add(True) | |
offsets = tokens_with_offsets["offset_mapping"] | |
# Assert there is the same number of tokens and offsets | |
self.assertEqual(len(offsets), len(tokens_with_offsets["input_ids"])) | |
# Assert there is online added_tokens special_tokens | |
self.assertEqual(sum(tokens_with_offsets["special_tokens_mask"]), added_tokens) | |
def test_batch_encode_dynamic_overflowing(self): | |
""" | |
When calling batch_encode with multiple sequence it can returns different number of | |
overflowing encoding for each sequence: | |
[ | |
Sequence 1: [Encoding 1, Encoding 2], | |
Sequence 2: [Encoding 1], | |
Sequence 3: [Encoding 1, Encoding 2, ... Encoding N] | |
] | |
This needs to be padded so that it can represented as a tensor | |
""" | |
for tokenizer, pretrained_name, kwargs in self.tokenizers_list: | |
tokenizer = self.rust_tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
with self.subTest(f"{tokenizer.__class__.__name__} ({pretrained_name}, {tokenizer.__class__.__name__})"): | |
if is_torch_available(): | |
returned_tensor = "pt" | |
elif is_tf_available(): | |
returned_tensor = "tf" | |
elif is_flax_available(): | |
returned_tensor = "jax" | |
else: | |
return | |
if not tokenizer.pad_token or tokenizer.pad_token_id < 0: | |
return | |
tokens = tokenizer.encode_plus( | |
"HuggingFace is solving NLP one commit at a time", | |
max_length=6, | |
padding=True, | |
truncation=True, | |
return_tensors=returned_tensor, | |
return_overflowing_tokens=True, | |
) | |
for key in filter(lambda x: "overflow_to_sample_mapping" not in x, tokens.keys()): | |
self.assertEqual(len(tokens[key].shape), 2) | |
# Mono sample | |
tokens = tokenizer.batch_encode_plus( | |
["HuggingFace is solving NLP one commit at a time"], | |
max_length=6, | |
padding=True, | |
truncation="only_first", | |
return_tensors=returned_tensor, | |
return_overflowing_tokens=True, | |
) | |
for key in filter(lambda x: "overflow_to_sample_mapping" not in x, tokens.keys()): | |
self.assertEqual(len(tokens[key].shape), 2) | |
self.assertEqual(tokens[key].shape[-1], 6) | |
# Multi sample | |
tokens = tokenizer.batch_encode_plus( | |
["HuggingFace is solving NLP one commit at a time", "Very tiny input"], | |
max_length=6, | |
padding=True, | |
truncation="only_first", | |
return_tensors=returned_tensor, | |
return_overflowing_tokens=True, | |
) | |
for key in filter(lambda x: "overflow_to_sample_mapping" not in x, tokens.keys()): | |
self.assertEqual(len(tokens[key].shape), 2) | |
self.assertEqual(tokens[key].shape[-1], 6) | |
def test_compare_pretokenized_inputs(self): | |
if not self.test_slow_tokenizer: | |
# as we don't have a slow version, we can't compare the outputs between slow and fast versions | |
return | |
for tokenizer, pretrained_name, kwargs in self.tokenizers_list: | |
with self.subTest(f"{tokenizer.__class__.__name__} ({pretrained_name})"): | |
tokenizer_r = self.rust_tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
tokenizer_p = self.tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
if hasattr(tokenizer_p, "add_prefix_space") and not tokenizer_p.add_prefix_space: | |
continue # Too hard to test for now | |
# Input string | |
pretokenized_input_simple = "This is a sample input".split() | |
pretokenized_input_pair = "This is a sample pair".split() | |
# Test encode for pretokenized inputs | |
output_r = tokenizer_r.encode( | |
pretokenized_input_simple, is_split_into_words=True, add_special_tokens=False | |
) | |
output_p = tokenizer_p.encode( | |
pretokenized_input_simple, is_split_into_words=True, add_special_tokens=False | |
) | |
self.assertEqual(output_p, output_r) | |
kwargs = { | |
"is_split_into_words": True, | |
# "return_token_type_ids": True, # Use the defaults for each tokenizers | |
# "return_attention_mask": True, # Use the defaults for each tokenizers | |
"return_overflowing_tokens": False, | |
"return_special_tokens_mask": True, | |
"return_offsets_mapping": False, # Not implemented in python tokenizers | |
# "add_special_tokens": False, | |
} | |
batch_kwargs = { | |
"is_split_into_words": True, | |
# "return_token_type_ids": True, # Use the defaults for each tokenizers | |
# "return_attention_mask": True, # Use the defaults for each tokenizers | |
"return_overflowing_tokens": False, | |
"return_special_tokens_mask": True, | |
"return_offsets_mapping": False, # Not implemented in python tokenizers | |
# "add_special_tokens": False, | |
} | |
# Test encode_plus for pretokenized inputs | |
output_r = tokenizer_r.encode_plus(pretokenized_input_simple, **kwargs) | |
output_p = tokenizer_p.encode_plus(pretokenized_input_simple, **kwargs) | |
for key in output_p.keys(): | |
self.assertEqual(output_p[key], output_r[key]) | |
# Test batch_encode_plus for pretokenized inputs | |
input_batch = ([pretokenized_input_simple] * 2) + [pretokenized_input_simple + pretokenized_input_pair] | |
output_r = tokenizer_r.batch_encode_plus(input_batch, **batch_kwargs) | |
output_p = tokenizer_p.batch_encode_plus(input_batch, **batch_kwargs) | |
for key in output_p.keys(): | |
self.assertEqual(output_p[key], output_r[key]) | |
# Test encode for pretokenized inputs pairs | |
output_r = tokenizer_r.encode( | |
pretokenized_input_simple, pretokenized_input_pair, is_split_into_words=True | |
) | |
output_p = tokenizer_p.encode( | |
pretokenized_input_simple, pretokenized_input_pair, is_split_into_words=True | |
) | |
self.assertEqual(output_p, output_r) | |
# Test encode_plus for pretokenized inputs | |
output_r = tokenizer_r.encode_plus(pretokenized_input_simple, pretokenized_input_pair, **kwargs) | |
output_p = tokenizer_p.encode_plus(pretokenized_input_simple, pretokenized_input_pair, **kwargs) | |
for key in output_p.keys(): | |
self.assertEqual(output_p[key], output_r[key]) | |
# Test batch_encode_plus for pretokenized inputs | |
input_batch_pair = ([pretokenized_input_simple, pretokenized_input_pair] * 2) + [ | |
pretokenized_input_simple + pretokenized_input_pair, | |
pretokenized_input_pair, | |
] | |
output_r = tokenizer_r.batch_encode_plus(input_batch_pair, **batch_kwargs) | |
output_p = tokenizer_p.batch_encode_plus(input_batch_pair, **batch_kwargs) | |
for key in output_p.keys(): | |
self.assertEqual(output_p[key], output_r[key]) | |
def test_create_token_type_ids(self): | |
if not self.test_slow_tokenizer: | |
# as we don't have a slow version, we can't compare the outputs between slow and fast versions | |
return | |
for tokenizer, pretrained_name, kwargs in self.tokenizers_list: | |
with self.subTest(f"{tokenizer.__class__.__name__} ({pretrained_name})"): | |
tokenizer_r = self.rust_tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
tokenizer_p = self.tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
input_simple = [1, 2, 3] | |
input_pair = [1, 2, 3] | |
# Generate output | |
output_r = tokenizer_r.create_token_type_ids_from_sequences(input_simple) | |
output_p = tokenizer_p.create_token_type_ids_from_sequences(input_simple) | |
self.assertEqual(output_p, output_r) | |
# Generate pair output | |
output_r = tokenizer_r.create_token_type_ids_from_sequences(input_simple, input_pair) | |
output_p = tokenizer_p.create_token_type_ids_from_sequences(input_simple, input_pair) | |
self.assertEqual(output_p, output_r) | |
def test_build_inputs_with_special_tokens(self): | |
if not self.test_slow_tokenizer: | |
# as we don't have a slow version, we can't compare the outputs between slow and fast versions | |
return | |
for tokenizer, pretrained_name, kwargs in self.tokenizers_list: | |
with self.subTest(f"{tokenizer.__class__.__name__} ({pretrained_name})"): | |
tokenizer_r = self.rust_tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
tokenizer_p = self.tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
# # Input string | |
# input_simple = tokenizer_p.tokenize("This is a sample input", add_special_tokens=False) | |
# input_pair = tokenizer_p.tokenize("This is a sample pair", add_special_tokens=False) | |
# # Generate output | |
# output_r = tokenizer_r.build_inputs_with_special_tokens(input_simple) | |
# output_p = tokenizer_p.build_inputs_with_special_tokens(input_simple) | |
# self.assertEqual(output_p, output_r) | |
# # Generate pair output | |
# output_r = tokenizer_r.build_inputs_with_special_tokens(input_simple, input_pair) | |
# output_p = tokenizer_p.build_inputs_with_special_tokens(input_simple, input_pair) | |
# self.assertEqual(output_p, output_r) | |
# Input tokens id | |
input_simple = tokenizer_p.encode("This is a sample input", add_special_tokens=False) | |
input_pair = tokenizer_p.encode("This is a sample pair", add_special_tokens=False) | |
# Generate output | |
output_r = tokenizer_r.build_inputs_with_special_tokens(input_simple) | |
output_p = tokenizer_p.build_inputs_with_special_tokens(input_simple) | |
self.assertEqual(output_p, output_r) | |
# Generate pair output | |
output_r = tokenizer_r.build_inputs_with_special_tokens(input_simple, input_pair) | |
output_p = tokenizer_p.build_inputs_with_special_tokens(input_simple, input_pair) | |
self.assertEqual(output_p, output_r) | |
def test_padding(self, max_length=50): | |
if not self.test_slow_tokenizer: | |
# as we don't have a slow version, we can't compare the outputs between slow and fast versions | |
return | |
for tokenizer, pretrained_name, kwargs in self.tokenizers_list: | |
with self.subTest(f"{tokenizer.__class__.__name__} ({pretrained_name})"): | |
tokenizer_r = self.rust_tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
tokenizer_p = self.tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
self.assertEqual(tokenizer_p.pad_token_id, tokenizer_r.pad_token_id) | |
pad_token_id = tokenizer_p.pad_token_id | |
# Encode - Simple input | |
input_r = tokenizer_r.encode("This is a simple input", max_length=max_length, pad_to_max_length=True) | |
input_p = tokenizer_p.encode("This is a simple input", max_length=max_length, pad_to_max_length=True) | |
self.assert_padded_input_match(input_r, input_p, max_length, pad_token_id) | |
input_r = tokenizer_r.encode("This is a simple input", max_length=max_length, padding="max_length") | |
input_p = tokenizer_p.encode("This is a simple input", max_length=max_length, padding="max_length") | |
self.assert_padded_input_match(input_r, input_p, max_length, pad_token_id) | |
input_r = tokenizer_r.encode("This is a simple input", padding="longest") | |
input_p = tokenizer_p.encode("This is a simple input", padding=True) | |
self.assert_padded_input_match(input_r, input_p, len(input_r), pad_token_id) | |
# Encode - Pair input | |
input_r = tokenizer_r.encode( | |
"This is a simple input", "This is a pair", max_length=max_length, pad_to_max_length=True | |
) | |
input_p = tokenizer_p.encode( | |
"This is a simple input", "This is a pair", max_length=max_length, pad_to_max_length=True | |
) | |
self.assert_padded_input_match(input_r, input_p, max_length, pad_token_id) | |
input_r = tokenizer_r.encode( | |
"This is a simple input", "This is a pair", max_length=max_length, padding="max_length" | |
) | |
input_p = tokenizer_p.encode( | |
"This is a simple input", "This is a pair", max_length=max_length, padding="max_length" | |
) | |
self.assert_padded_input_match(input_r, input_p, max_length, pad_token_id) | |
input_r = tokenizer_r.encode("This is a simple input", "This is a pair", padding=True) | |
input_p = tokenizer_p.encode("This is a simple input", "This is a pair", padding="longest") | |
self.assert_padded_input_match(input_r, input_p, len(input_r), pad_token_id) | |
# Encode_plus - Simple input | |
input_r = tokenizer_r.encode_plus( | |
"This is a simple input", max_length=max_length, pad_to_max_length=True | |
) | |
input_p = tokenizer_p.encode_plus( | |
"This is a simple input", max_length=max_length, pad_to_max_length=True | |
) | |
self.assert_padded_input_match(input_r["input_ids"], input_p["input_ids"], max_length, pad_token_id) | |
self.assertSequenceEqual(input_r["attention_mask"], input_p["attention_mask"]) | |
input_r = tokenizer_r.encode_plus( | |
"This is a simple input", max_length=max_length, padding="max_length" | |
) | |
input_p = tokenizer_p.encode_plus( | |
"This is a simple input", max_length=max_length, padding="max_length" | |
) | |
self.assert_padded_input_match(input_r["input_ids"], input_p["input_ids"], max_length, pad_token_id) | |
self.assertSequenceEqual(input_r["attention_mask"], input_p["attention_mask"]) | |
input_r = tokenizer_r.encode_plus("This is a simple input", padding="longest") | |
input_p = tokenizer_p.encode_plus("This is a simple input", padding=True) | |
self.assert_padded_input_match( | |
input_r["input_ids"], input_p["input_ids"], len(input_r["input_ids"]), pad_token_id | |
) | |
self.assertSequenceEqual(input_r["attention_mask"], input_p["attention_mask"]) | |
# Encode_plus - Pair input | |
input_r = tokenizer_r.encode_plus( | |
"This is a simple input", "This is a pair", max_length=max_length, pad_to_max_length=True | |
) | |
input_p = tokenizer_p.encode_plus( | |
"This is a simple input", "This is a pair", max_length=max_length, pad_to_max_length=True | |
) | |
self.assert_padded_input_match(input_r["input_ids"], input_p["input_ids"], max_length, pad_token_id) | |
self.assertSequenceEqual(input_r["attention_mask"], input_p["attention_mask"]) | |
input_r = tokenizer_r.encode_plus( | |
"This is a simple input", "This is a pair", max_length=max_length, padding="max_length" | |
) | |
input_p = tokenizer_p.encode_plus( | |
"This is a simple input", "This is a pair", max_length=max_length, padding="max_length" | |
) | |
self.assert_padded_input_match(input_r["input_ids"], input_p["input_ids"], max_length, pad_token_id) | |
self.assertSequenceEqual(input_r["attention_mask"], input_p["attention_mask"]) | |
input_r = tokenizer_r.encode_plus("This is a simple input", "This is a pair", padding="longest") | |
input_p = tokenizer_p.encode_plus("This is a simple input", "This is a pair", padding=True) | |
self.assert_padded_input_match( | |
input_r["input_ids"], input_p["input_ids"], len(input_r["input_ids"]), pad_token_id | |
) | |
self.assertSequenceEqual(input_r["attention_mask"], input_p["attention_mask"]) | |
# Batch_encode_plus - Simple input | |
input_r = tokenizer_r.batch_encode_plus( | |
["This is a simple input 1", "This is a simple input 2"], | |
max_length=max_length, | |
pad_to_max_length=True, | |
) | |
input_p = tokenizer_p.batch_encode_plus( | |
["This is a simple input 1", "This is a simple input 2"], | |
max_length=max_length, | |
pad_to_max_length=True, | |
) | |
self.assert_batch_padded_input_match(input_r, input_p, max_length, pad_token_id) | |
input_r = tokenizer_r.batch_encode_plus( | |
["This is a simple input 1", "This is a simple input 2"], | |
max_length=max_length, | |
padding="max_length", | |
) | |
input_p = tokenizer_p.batch_encode_plus( | |
["This is a simple input 1", "This is a simple input 2"], | |
max_length=max_length, | |
padding="max_length", | |
) | |
self.assert_batch_padded_input_match(input_r, input_p, max_length, pad_token_id) | |
input_r = tokenizer_r.batch_encode_plus( | |
["This is a simple input 1", "This is a simple input 2"], | |
max_length=max_length, | |
padding="longest", | |
) | |
input_p = tokenizer_p.batch_encode_plus( | |
["This is a simple input 1", "This is a simple input 2"], | |
max_length=max_length, | |
padding=True, | |
) | |
self.assert_batch_padded_input_match(input_r, input_p, len(input_r["input_ids"][0]), pad_token_id) | |
input_r = tokenizer_r.batch_encode_plus( | |
["This is a simple input 1", "This is a simple input 2"], padding="longest" | |
) | |
input_p = tokenizer_p.batch_encode_plus( | |
["This is a simple input 1", "This is a simple input 2"], padding=True | |
) | |
self.assert_batch_padded_input_match(input_r, input_p, len(input_r["input_ids"][0]), pad_token_id) | |
# Batch_encode_plus - Pair input | |
input_r = tokenizer_r.batch_encode_plus( | |
[ | |
("This is a simple input 1", "This is a simple input 2"), | |
("This is a simple pair 1", "This is a simple pair 2"), | |
], | |
max_length=max_length, | |
truncation=True, | |
padding="max_length", | |
) | |
input_p = tokenizer_p.batch_encode_plus( | |
[ | |
("This is a simple input 1", "This is a simple input 2"), | |
("This is a simple pair 1", "This is a simple pair 2"), | |
], | |
max_length=max_length, | |
truncation=True, | |
padding="max_length", | |
) | |
self.assert_batch_padded_input_match(input_r, input_p, max_length, pad_token_id) | |
input_r = tokenizer_r.batch_encode_plus( | |
[ | |
("This is a simple input 1", "This is a simple input 2"), | |
("This is a simple pair 1", "This is a simple pair 2"), | |
], | |
padding=True, | |
) | |
input_p = tokenizer_p.batch_encode_plus( | |
[ | |
("This is a simple input 1", "This is a simple input 2"), | |
("This is a simple pair 1", "This is a simple pair 2"), | |
], | |
padding="longest", | |
) | |
self.assert_batch_padded_input_match(input_r, input_p, len(input_r["input_ids"][0]), pad_token_id) | |
# Using pad on single examples after tokenization | |
input_r = tokenizer_r.encode_plus("This is a input 1") | |
input_r = tokenizer_r.pad(input_r) | |
input_p = tokenizer_p.encode_plus("This is a input 1") | |
input_p = tokenizer_p.pad(input_p) | |
self.assert_padded_input_match( | |
input_r["input_ids"], input_p["input_ids"], len(input_r["input_ids"]), pad_token_id | |
) | |
# Using pad on single examples after tokenization | |
input_r = tokenizer_r.encode_plus("This is a input 1") | |
input_r = tokenizer_r.pad(input_r, max_length=max_length, padding="max_length") | |
input_p = tokenizer_p.encode_plus("This is a input 1") | |
input_p = tokenizer_p.pad(input_p, max_length=max_length, padding="max_length") | |
self.assert_padded_input_match(input_r["input_ids"], input_p["input_ids"], max_length, pad_token_id) | |
# Using pad after tokenization | |
input_r = tokenizer_r.batch_encode_plus( | |
["This is a input 1", "This is a much longer input whilch should be padded"] | |
) | |
input_r = tokenizer_r.pad(input_r) | |
input_p = tokenizer_p.batch_encode_plus( | |
["This is a input 1", "This is a much longer input whilch should be padded"] | |
) | |
input_p = tokenizer_p.pad(input_p) | |
self.assert_batch_padded_input_match(input_r, input_p, len(input_r["input_ids"][0]), pad_token_id) | |
# Using pad after tokenization | |
input_r = tokenizer_r.batch_encode_plus( | |
["This is a input 1", "This is a much longer input whilch should be padded"] | |
) | |
input_r = tokenizer_r.pad(input_r, max_length=max_length, padding="max_length") | |
input_p = tokenizer_p.batch_encode_plus( | |
["This is a input 1", "This is a much longer input whilch should be padded"] | |
) | |
input_p = tokenizer_p.pad(input_p, max_length=max_length, padding="max_length") | |
self.assert_batch_padded_input_match(input_r, input_p, max_length, pad_token_id) | |
# Test padding nested empty lists (in some use-cases, there is no any token id in the `input_ids` list). | |
input_r = tokenizer_r.pad({"input_ids": [[], []]}, max_length=max_length, padding="max_length") | |
input_p = tokenizer_p.pad({"input_ids": [[], []]}, max_length=max_length, padding="max_length") | |
self.assert_batch_padded_input_match(input_r, input_p, max_length, pad_token_id) | |
def test_padding_different_model_input_name(self): | |
if not self.test_slow_tokenizer: | |
# as we don't have a slow version, we can't compare the outputs between slow and fast versions | |
return | |
for tokenizer, pretrained_name, kwargs in self.tokenizers_list: | |
with self.subTest(f"{tokenizer.__class__.__name__} ({pretrained_name})"): | |
tokenizer_r = self.rust_tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
tokenizer_p = self.tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
self.assertEqual(tokenizer_p.pad_token_id, tokenizer_r.pad_token_id) | |
pad_token_id = tokenizer_p.pad_token_id | |
input_r = tokenizer_r.batch_encode_plus( | |
["This is a input 1", "This is a much longer input whilch should be padded"] | |
) | |
input_p = tokenizer_r.batch_encode_plus( | |
["This is a input 1", "This is a much longer input whilch should be padded"] | |
) | |
# rename encoded batch to "inputs" | |
input_r["inputs"] = input_r[tokenizer_r.model_input_names[0]] | |
del input_r[tokenizer_r.model_input_names[0]] | |
input_p["inputs"] = input_p[tokenizer_p.model_input_names[0]] | |
del input_p[tokenizer_p.model_input_names[0]] | |
# Renaming `input_ids` to `inputs` | |
tokenizer_r.model_input_names = ["inputs"] + tokenizer_r.model_input_names[1:] | |
tokenizer_p.model_input_names = ["inputs"] + tokenizer_p.model_input_names[1:] | |
input_r = tokenizer_r.pad(input_r, padding="longest") | |
input_p = tokenizer_r.pad(input_p, padding="longest") | |
max_length = len(input_p["inputs"][0]) | |
self.assert_batch_padded_input_match( | |
input_r, input_p, max_length, pad_token_id, model_main_input_name="inputs" | |
) | |
def test_save_pretrained(self): | |
if not self.test_slow_tokenizer: | |
# as we don't have a slow version, we can't compare the outputs between slow and fast versions | |
return | |
for tokenizer, pretrained_name, kwargs in self.tokenizers_list: | |
with self.subTest(f"{tokenizer.__class__.__name__} ({pretrained_name})"): | |
tokenizer_r = self.rust_tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
tokenizer_p = self.tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
tmpdirname2 = tempfile.mkdtemp() | |
tokenizer_r_files = tokenizer_r.save_pretrained(tmpdirname2) | |
tokenizer_p_files = tokenizer_p.save_pretrained(tmpdirname2) | |
# make sure that all ".json" files are saved in the correct format | |
for file_path in tokenizer_r_files + tokenizer_p_files: | |
if os.path.exists(file_path) and file_path.endswith(".json"): | |
check_json_file_has_correct_format(file_path) | |
# Checks it save with the same files + the tokenizer.json file for the fast one | |
self.assertTrue(any("tokenizer.json" in f for f in tokenizer_r_files)) | |
tokenizer_r_files = tuple(f for f in tokenizer_r_files if "tokenizer.json" not in f) | |
self.assertSequenceEqual(tokenizer_r_files, tokenizer_p_files) | |
# Checks everything loads correctly in the same way | |
tokenizer_rp = tokenizer_r.from_pretrained(tmpdirname2) | |
tokenizer_pp = tokenizer_p.from_pretrained(tmpdirname2) | |
# Check special tokens are set accordingly on Rust and Python | |
for key in tokenizer_pp.special_tokens_map: | |
self.assertTrue(hasattr(tokenizer_rp, key)) | |
# self.assertEqual(getattr(tokenizer_rp, key), getattr(tokenizer_pp, key)) | |
# self.assertEqual(getattr(tokenizer_rp, key + "_id"), getattr(tokenizer_pp, key + "_id")) | |
shutil.rmtree(tmpdirname2) | |
# Save tokenizer rust, legacy_format=True | |
tmpdirname2 = tempfile.mkdtemp() | |
tokenizer_r_files = tokenizer_r.save_pretrained(tmpdirname2, legacy_format=True) | |
tokenizer_p_files = tokenizer_p.save_pretrained(tmpdirname2) | |
# Checks it save with the same files | |
self.assertSequenceEqual(tokenizer_r_files, tokenizer_p_files) | |
# Checks everything loads correctly in the same way | |
tokenizer_rp = tokenizer_r.from_pretrained(tmpdirname2) | |
tokenizer_pp = tokenizer_p.from_pretrained(tmpdirname2) | |
# Check special tokens are set accordingly on Rust and Python | |
for key in tokenizer_pp.special_tokens_map: | |
self.assertTrue(hasattr(tokenizer_rp, key)) | |
shutil.rmtree(tmpdirname2) | |
# Save tokenizer rust, legacy_format=False | |
tmpdirname2 = tempfile.mkdtemp() | |
tokenizer_r_files = tokenizer_r.save_pretrained(tmpdirname2, legacy_format=False) | |
tokenizer_p_files = tokenizer_p.save_pretrained(tmpdirname2) | |
# Checks it saved the tokenizer.json file | |
self.assertTrue(any("tokenizer.json" in f for f in tokenizer_r_files)) | |
# Checks everything loads correctly in the same way | |
tokenizer_rp = tokenizer_r.from_pretrained(tmpdirname2) | |
tokenizer_pp = tokenizer_p.from_pretrained(tmpdirname2) | |
# Check special tokens are set accordingly on Rust and Python | |
for key in tokenizer_pp.special_tokens_map: | |
self.assertTrue(hasattr(tokenizer_rp, key)) | |
shutil.rmtree(tmpdirname2) | |
def test_embeded_special_tokens(self): | |
if not self.test_slow_tokenizer: | |
# as we don't have a slow version, we can't compare the outputs between slow and fast versions | |
return | |
for tokenizer, pretrained_name, kwargs in self.tokenizers_list: | |
with self.subTest(f"{tokenizer.__class__.__name__} ({pretrained_name})"): | |
tokenizer_r = self.rust_tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
tokenizer_p = self.tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
sentence = "A, <mask> AllenNLP sentence." | |
tokens_r = tokenizer_r.encode_plus( | |
sentence, | |
add_special_tokens=True, | |
) | |
tokens_p = tokenizer_p.encode_plus( | |
sentence, | |
add_special_tokens=True, | |
) | |
for key in tokens_p.keys(): | |
self.assertEqual(tokens_r[key], tokens_p[key]) | |
if "token_type_ids" in tokens_r: | |
self.assertEqual(sum(tokens_r["token_type_ids"]), sum(tokens_p["token_type_ids"])) | |
tokens_r = tokenizer_r.convert_ids_to_tokens(tokens_r["input_ids"]) | |
tokens_p = tokenizer_p.convert_ids_to_tokens(tokens_p["input_ids"]) | |
self.assertSequenceEqual(tokens_r, tokens_p) | |
def test_compare_add_special_tokens(self): | |
for tokenizer, pretrained_name, kwargs in self.tokenizers_list: | |
with self.subTest(f"{tokenizer.__class__.__name__} ({pretrained_name})"): | |
tokenizer_r = self.rust_tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
simple_num_special_tokens_to_add = tokenizer_r.num_special_tokens_to_add(pair=False) | |
# pair_num_special_tokens_to_add = tokenizer_r.num_special_tokens_to_add(pair=True) | |
for text in ["", " "]: | |
# tokenize() | |
no_special_tokens = tokenizer_r.tokenize(text, add_special_tokens=False) | |
with_special_tokens = tokenizer_r.tokenize(text, add_special_tokens=True) | |
self.assertEqual( | |
len(no_special_tokens), len(with_special_tokens) - simple_num_special_tokens_to_add | |
) | |
# encode() | |
no_special_tokens = tokenizer_r.encode(text, add_special_tokens=False) | |
with_special_tokens = tokenizer_r.encode(text, add_special_tokens=True) | |
self.assertEqual( | |
len(no_special_tokens), len(with_special_tokens) - simple_num_special_tokens_to_add | |
) | |
# encode_plus() | |
no_special_tokens = tokenizer_r.encode_plus(text, add_special_tokens=False) | |
with_special_tokens = tokenizer_r.encode_plus(text, add_special_tokens=True) | |
for key in no_special_tokens.keys(): | |
self.assertEqual( | |
len(no_special_tokens[key]), | |
len(with_special_tokens[key]) - simple_num_special_tokens_to_add, | |
) | |
# # batch_encode_plus | |
no_special_tokens = tokenizer_r.batch_encode_plus([text, text], add_special_tokens=False) | |
with_special_tokens = tokenizer_r.batch_encode_plus([text, text], add_special_tokens=True) | |
for key in no_special_tokens.keys(): | |
for i_no, i_with in zip(no_special_tokens[key], with_special_tokens[key]): | |
self.assertEqual(len(i_no), len(i_with) - simple_num_special_tokens_to_add) | |
def test_compare_prepare_for_model(self): | |
if not self.test_slow_tokenizer: | |
# as we don't have a slow version, we can't compare the outputs between slow and fast versions | |
return | |
for tokenizer, pretrained_name, kwargs in self.tokenizers_list: | |
with self.subTest(f"{tokenizer.__class__.__name__} ({pretrained_name})"): | |
tokenizer_r = self.rust_tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
tokenizer_p = self.tokenizer_class.from_pretrained(pretrained_name, **kwargs) | |
string_sequence = "Asserting that both tokenizers are equal" | |
python_output = tokenizer_p.prepare_for_model( | |
tokenizer_p.encode(string_sequence, add_special_tokens=False) | |
) | |
rust_output = tokenizer_r.prepare_for_model( | |
tokenizer_r.encode(string_sequence, add_special_tokens=False) | |
) | |
for key in python_output: | |
self.assertEqual(python_output[key], rust_output[key]) | |
def test_special_tokens_initialization(self): | |
for tokenizer, pretrained_name, kwargs in self.tokenizers_list: | |
with self.subTest(f"{tokenizer.__class__.__name__} ({pretrained_name})"): | |
added_tokens = [AddedToken("<special>", lstrip=True)] | |
tokenizer_r = self.rust_tokenizer_class.from_pretrained( | |
pretrained_name, additional_special_tokens=added_tokens, **kwargs | |
) | |
r_output = tokenizer_r.encode("Hey this is a <special> token") | |
special_token_id = tokenizer_r.encode("<special>", add_special_tokens=False)[0] | |
self.assertTrue(special_token_id in r_output) | |
if self.test_slow_tokenizer: | |
tokenizer_cr = self.rust_tokenizer_class.from_pretrained( | |
pretrained_name, additional_special_tokens=added_tokens, **kwargs, from_slow=True | |
) | |
tokenizer_p = self.tokenizer_class.from_pretrained( | |
pretrained_name, additional_special_tokens=added_tokens, **kwargs | |
) | |
p_output = tokenizer_p.encode("Hey this is a <special> token") | |
cr_output = tokenizer_cr.encode("Hey this is a <special> token") | |
self.assertEqual(p_output, r_output) | |
self.assertEqual(cr_output, r_output) | |
self.assertTrue(special_token_id in p_output) | |
self.assertTrue(special_token_id in cr_output) | |
def test_special_tokens_initialization_with_non_empty_additional_special_tokens(self): | |
tokenizer_list = [] | |
if self.test_slow_tokenizer: | |
tokenizer_list.append((self.tokenizer_class, self.get_tokenizer())) | |
if self.test_rust_tokenizer: | |
tokenizer_list.append((self.rust_tokenizer_class, self.get_rust_tokenizer())) | |
for tokenizer_class, tokenizer_utils in tokenizer_list: | |
with tempfile.TemporaryDirectory() as tmp_dir: | |
tokenizer_utils.save_pretrained(tmp_dir) | |
with open(os.path.join(tmp_dir, "special_tokens_map.json"), encoding="utf-8") as json_file: | |
special_tokens_map = json.load(json_file) | |
with open(os.path.join(tmp_dir, "tokenizer_config.json"), encoding="utf-8") as json_file: | |
tokenizer_config = json.load(json_file) | |
special_tokens_map["additional_special_tokens"] = ["an_additional_special_token"] | |
tokenizer_config["additional_special_tokens"] = ["an_additional_special_token"] | |
with open(os.path.join(tmp_dir, "special_tokens_map.json"), "w", encoding="utf-8") as outfile: | |
json.dump(special_tokens_map, outfile) | |
with open(os.path.join(tmp_dir, "tokenizer_config.json"), "w", encoding="utf-8") as outfile: | |
json.dump(tokenizer_config, outfile) | |
# the following checks allow us to verify that our test works as expected, i.e. that the tokenizer takes | |
# into account the new value of additional_special_tokens given in the "tokenizer_config.json" and | |
# "special_tokens_map.json" files | |
tokenizer_without_change_in_init = tokenizer_class.from_pretrained( | |
tmp_dir, | |
) | |
self.assertIn( | |
"an_additional_special_token", tokenizer_without_change_in_init.additional_special_tokens | |
) | |
self.assertIn("an_additional_special_token", tokenizer_without_change_in_init.get_vocab()) | |
self.assertEqual( | |
["an_additional_special_token"], | |
tokenizer_without_change_in_init.convert_ids_to_tokens( | |
tokenizer_without_change_in_init.convert_tokens_to_ids(["an_additional_special_token"]) | |
), | |
) | |
# Now we test that we can change the value of additional_special_tokens in the from_pretrained | |
new_added_tokens = [AddedToken("a_new_additional_special_token", lstrip=True)] | |
tokenizer = tokenizer_class.from_pretrained( | |
tmp_dir, | |
additional_special_tokens=new_added_tokens, | |
) | |
self.assertIn("a_new_additional_special_token", tokenizer.additional_special_tokens) | |
self.assertEqual( | |
["a_new_additional_special_token"], | |
tokenizer.convert_ids_to_tokens( | |
tokenizer.convert_tokens_to_ids(["a_new_additional_special_token"]) | |
), | |
) | |
def test_training_new_tokenizer(self): | |
# This feature only exists for fast tokenizers | |
if not self.test_rust_tokenizer: | |
return | |
tokenizer = self.get_rust_tokenizer() | |
new_tokenizer = tokenizer.train_new_from_iterator(SMALL_TRAINING_CORPUS, 100) | |
# Test we can use the new tokenizer with something not seen during training | |
inputs = new_tokenizer(["This is the first sentence", "This sentence is different 🤗."]) | |
self.assertEqual(len(inputs["input_ids"]), 2) | |
decoded_input = new_tokenizer.decode(inputs["input_ids"][0], skip_special_tokens=True) | |
expected_result = "This is the first sentence" | |
if tokenizer.backend_tokenizer.normalizer is not None: | |
expected_result = tokenizer.backend_tokenizer.normalizer.normalize_str(expected_result) | |
self.assertEqual(expected_result, decoded_input) | |
# We check that the parameters of the tokenizer remained the same | |
# Check we have the same number of added_tokens for both pair and non-pair inputs. | |
self.assertEqual(tokenizer.num_special_tokens_to_add(False), new_tokenizer.num_special_tokens_to_add(False)) | |
self.assertEqual(tokenizer.num_special_tokens_to_add(True), new_tokenizer.num_special_tokens_to_add(True)) | |
# Check we have the correct max_length for both pair and non-pair inputs. | |
self.assertEqual(tokenizer.max_len_single_sentence, new_tokenizer.max_len_single_sentence) | |
self.assertEqual(tokenizer.max_len_sentences_pair, new_tokenizer.max_len_sentences_pair) | |
# Assert the set of special tokens match as we didn't ask to change them | |
self.assertSequenceEqual( | |
tokenizer.all_special_tokens_extended, | |
new_tokenizer.all_special_tokens_extended, | |
) | |
self.assertDictEqual(tokenizer.special_tokens_map, new_tokenizer.special_tokens_map) | |
def test_training_new_tokenizer_with_special_tokens_change(self): | |
# This feature only exists for fast tokenizers | |
if not self.test_rust_tokenizer: | |
return | |
tokenizer = self.get_rust_tokenizer() | |
# Test with a special tokens map | |
class_signature = inspect.signature(tokenizer.__class__) | |
if "cls_token" in class_signature.parameters: | |
new_tokenizer = tokenizer.train_new_from_iterator( | |
SMALL_TRAINING_CORPUS, 100, special_tokens_map={tokenizer.cls_token: "<cls>"} | |
) | |
cls_id = new_tokenizer.get_vocab()["<cls>"] | |
self.assertEqual(new_tokenizer.cls_token, "<cls>") | |
self.assertEqual(new_tokenizer.cls_token_id, cls_id) | |
# Create a new mapping from the special tokens defined in the original tokenizer | |
special_tokens_list = SpecialTokensMixin.SPECIAL_TOKENS_ATTRIBUTES.copy() | |
special_tokens_list.remove("additional_special_tokens") | |
special_tokens_map = {} | |
for token in special_tokens_list: | |
# Get the private one to avoid unnecessary warnings. | |
if getattr(tokenizer, f"_{token}") is not None: | |
special_token = getattr(tokenizer, token) | |
special_tokens_map[special_token] = f"{special_token}a" | |
# Train new tokenizer | |
new_tokenizer = tokenizer.train_new_from_iterator( | |
SMALL_TRAINING_CORPUS, 100, special_tokens_map=special_tokens_map | |
) | |
# Check the changes | |
for token in special_tokens_list: | |
# Get the private one to avoid unnecessary warnings. | |
if getattr(tokenizer, f"_{token}") is None: | |
continue | |
special_token = getattr(tokenizer, token) | |
if special_token in special_tokens_map: | |
new_special_token = getattr(new_tokenizer, token) | |
self.assertEqual(special_tokens_map[special_token], new_special_token) | |
new_id = new_tokenizer.get_vocab()[new_special_token] | |
self.assertEqual(getattr(new_tokenizer, f"{token}_id"), new_id) | |
# Check if the AddedToken / string format has been kept | |
for special_token in tokenizer.all_special_tokens_extended: | |
if isinstance(special_token, AddedToken) and special_token.content not in special_tokens_map: | |
# The special token must appear identically in the list of the new tokenizer. | |
self.assertTrue( | |
special_token in new_tokenizer.all_special_tokens_extended, | |
f"'{special_token}' should be in {new_tokenizer.all_special_tokens_extended}", | |
) | |
elif isinstance(special_token, AddedToken): | |
# The special token must appear in the list of the new tokenizer as an object of type AddedToken with | |
# the same parameters as the old AddedToken except the content that the user has requested to change. | |
special_token_str = special_token.content | |
new_special_token_str = special_tokens_map[special_token_str] | |
find = False | |
for candidate in new_tokenizer.all_special_tokens_extended: | |
if ( | |
isinstance(candidate, AddedToken) | |
and candidate.content == new_special_token_str | |
and candidate.lstrip == special_token.lstrip | |
and candidate.rstrip == special_token.rstrip | |
and candidate.normalized == special_token.normalized | |
and candidate.single_word == special_token.single_word | |
): | |
find = True | |
break | |
self.assertTrue( | |
find, | |
f"'{new_special_token_str}' doesn't appear in the list " | |
f"'{new_tokenizer.all_special_tokens_extended}' as an AddedToken with the same parameters as " | |
f"'{special_token}' in the list {tokenizer.all_special_tokens_extended}", | |
) | |
elif special_token not in special_tokens_map: | |
# The special token must appear identically in the list of the new tokenizer. | |
self.assertTrue( | |
special_token in new_tokenizer.all_special_tokens_extended, | |
f"'{special_token}' should be in {new_tokenizer.all_special_tokens_extended}", | |
) | |
else: | |
# The special token must appear in the list of the new tokenizer as an object of type string. | |
self.assertTrue(special_tokens_map[special_token] in new_tokenizer.all_special_tokens_extended) | |
# Test we can use the new tokenizer with something not seen during training | |
inputs = new_tokenizer(["This is the first sentence", "This sentence is different 🤗."]) | |
self.assertEqual(len(inputs["input_ids"]), 2) | |
decoded_input = new_tokenizer.decode(inputs["input_ids"][0], skip_special_tokens=True) | |
expected_result = "This is the first sentence" | |
if tokenizer.backend_tokenizer.normalizer is not None: | |
expected_result = tokenizer.backend_tokenizer.normalizer.normalize_str(expected_result) | |
self.assertEqual(expected_result, decoded_input) | |
def test_tokenizer_mismatch_warning(self): | |
for tokenizer, pretrained_name, kwargs in self.tokenizers_list: | |
with self.subTest(f"{tokenizer.__class__.__name__} ({pretrained_name})"): | |
with self.assertLogs("transformers", level="WARNING") as cm: | |
try: | |
if self.tokenizer_class == BertTokenizer: | |
AlbertTokenizer.from_pretrained(pretrained_name) | |
else: | |
BertTokenizer.from_pretrained(pretrained_name) | |
except EnvironmentError as e: | |
# Some tokenizer will raised an error before reaching the logged warning because there are no | |
# corresponding files to load | |
error_message = str(e) | |
except (TypeError, AttributeError): | |
# Some tokenizers cannot be loaded into the target tokenizer at all and errors are returned, | |
# here we just check that the warning has been logged before the error is raised | |
pass | |
finally: | |
logged_msg_target = ( | |
"The tokenizer class you load from this checkpoint is not the same type as the class " | |
"this function is called from." | |
) | |
raised_error_msg_target = "Can't load tokenizer for" | |
self.assertTrue( | |
cm.records[0].message.startswith(logged_msg_target) | |
if len(cm.records) > 0 | |
else False or raised_error_msg_target in error_message | |
) | |
try: | |
if self.rust_tokenizer_class == BertTokenizerFast: | |
AlbertTokenizerFast.from_pretrained(pretrained_name) | |
else: | |
BertTokenizerFast.from_pretrained(pretrained_name) | |
except (TypeError, AttributeError): | |
# Some tokenizers cannot be loaded into the target tokenizer at all and errors are returned, | |
# here we just check that the warning has been logged before the error is raised | |
pass | |
finally: | |
self.assertTrue( | |
cm.records[0].message.startswith( | |
"The tokenizer class you load from this checkpoint is not the same type as the class" | |
" this function is called from." | |
) | |
) | |
def test_saving_tokenizer_trainer(self): | |
for tokenizer, pretrained_name, kwargs in self.tokenizers_list: | |
with self.subTest(f"{tokenizer.__class__.__name__} ({pretrained_name})"): | |
with tempfile.TemporaryDirectory() as tmp_dir: | |
# Save the fast tokenizer files in a temporary directory | |
tokenizer_old = self.rust_tokenizer_class.from_pretrained(pretrained_name, **kwargs, use_fast=True) | |
tokenizer_old.save_pretrained(tmp_dir, legacy_format=False) # save only fast version | |
# Initialize toy model for the trainer | |
model = nn.Module() | |
# Load tokenizer from a folder without legacy files | |
tokenizer = self.rust_tokenizer_class.from_pretrained(tmp_dir) | |
training_args = TrainingArguments(output_dir=tmp_dir, do_train=True, no_cuda=True) | |
trainer = Trainer(model=model, args=training_args, tokenizer=tokenizer) | |
# Should not raise an error | |
trainer.save_model(os.path.join(tmp_dir, "checkpoint")) | |
self.assertIn("tokenizer.json", os.listdir(os.path.join(tmp_dir, "checkpoint"))) | |
def test_convert_tokens_to_string_format(self): | |
tokenizers = self.get_tokenizers(fast=True, do_lower_case=True) | |
for tokenizer in tokenizers: | |
with self.subTest(f"{tokenizer.__class__.__name__}"): | |
tokens = ["this", "is", "a", "test"] | |
string = tokenizer.convert_tokens_to_string(tokens) | |
self.assertIsInstance(string, str) | |
def test_save_slow_from_fast_and_reload_fast(self): | |
if not self.test_slow_tokenizer or not self.test_rust_tokenizer: | |
# we need both slow and fast versions | |
return | |
for tokenizer, pretrained_name, kwargs in self.tokenizers_list: | |
with self.subTest(f"{tokenizer.__class__.__name__} ({pretrained_name})"): | |
with tempfile.TemporaryDirectory() as tmp_dir_1: | |
# Here we check that even if we have initialized a fast tokenizer with a tokenizer_file we can | |
# still save only the slow version and use these saved files to rebuild a tokenizer | |
tokenizer_fast_old_1 = self.rust_tokenizer_class.from_pretrained( | |
pretrained_name, **kwargs, use_fast=True | |
) | |
tokenizer_file = os.path.join(tmp_dir_1, "tokenizer.json") | |
tokenizer_fast_old_1.backend_tokenizer.save(tokenizer_file) | |
tokenizer_fast_old_2 = self.rust_tokenizer_class.from_pretrained( | |
pretrained_name, **kwargs, use_fast=True, tokenizer_file=tokenizer_file | |
) | |
tokenizer_fast_old_2.save_pretrained(tmp_dir_1, legacy_format=True) # save only slow version | |
tokenizer_slow = self.tokenizer_class.from_pretrained(tmp_dir_1) | |
with tempfile.TemporaryDirectory() as tmp_dir_2: | |
tokenizer_slow.save_pretrained(tmp_dir_2) | |
# Should not raise an error | |
self.rust_tokenizer_class.from_pretrained(tmp_dir_2) | |
def test_clean_up_tokenization_spaces(self): | |
tokenizer = BertTokenizer.from_pretrained("bert-base-uncased") | |
assert tokenizer.clean_up_tokenization_spaces is True | |
tokens = tokenizer.encode("This shouldn't be! He'll go.") | |
decoded = tokenizer.decode(tokens) | |
assert decoded == "[CLS] this shouldn't be! he'll go. [SEP]" | |
tokenizer.clean_up_tokenization_spaces = False | |
decoded = tokenizer.decode(tokens) | |
assert decoded == "[CLS] this shouldn ' t be ! he ' ll go . [SEP]" | |
assert decoded == tokenizer.decode(tokens, clean_up_tokenization_spaces=False) | |
# Fast from slow | |
with tempfile.TemporaryDirectory() as tmp_dir_2: | |
tokenizer.save_pretrained(tmp_dir_2) | |
tokenizer_fast = BertTokenizerFast.from_pretrained(tmp_dir_2) | |
del tokenizer | |
assert tokenizer_fast.clean_up_tokenization_spaces is False | |
decoded = tokenizer_fast.decode(tokens) | |
# fast and slow don't have the same output when we don't cleanup | |
# tokenization space. Here `be!` vs `be !` and `go.` vs `go .` | |
assert decoded == "[CLS] this shouldn ' t be! he ' ll go. [SEP]" | |
tokenizer_fast.clean_up_tokenization_spaces = True | |
assert tokenizer_fast.clean_up_tokenization_spaces is True | |
decoded = tokenizer_fast.decode(tokens) | |
assert decoded == "[CLS] this shouldn't be! he'll go. [SEP]" | |
# Slow from fast | |
with tempfile.TemporaryDirectory() as tmp_dir_2: | |
tokenizer_fast.clean_up_tokenization_spaces = False | |
tokenizer_fast.save_pretrained(tmp_dir_2) | |
tokenizer = BertTokenizer.from_pretrained(tmp_dir_2) | |
assert tokenizer.clean_up_tokenization_spaces is False | |
decoded = tokenizer.decode(tokens) | |
assert decoded == "[CLS] this shouldn ' t be ! he ' ll go . [SEP]" | |
tokenizer.clean_up_tokenization_spaces = True | |
decoded = tokenizer.decode(tokens) | |
assert decoded == "[CLS] this shouldn't be! he'll go. [SEP]" | |
class TokenizerUtilTester(unittest.TestCase): | |
def test_cached_files_are_used_when_internet_is_down(self): | |
# A mock response for an HTTP head request to emulate server down | |
response_mock = mock.Mock() | |
response_mock.status_code = 500 | |
response_mock.headers = {} | |
response_mock.raise_for_status.side_effect = HTTPError | |
response_mock.json.return_value = {} | |
# Download this model to make sure it's in the cache. | |
_ = BertTokenizer.from_pretrained("hf-internal-testing/tiny-random-bert") | |
# Under the mock environment we get a 500 error when trying to reach the tokenizer. | |
with mock.patch("requests.request", return_value=response_mock) as mock_head: | |
_ = BertTokenizer.from_pretrained("hf-internal-testing/tiny-random-bert") | |
# This check we did call the fake head request | |
mock_head.assert_called() | |
def test_cached_files_are_used_when_internet_is_down_missing_files(self): | |
# A mock response for an HTTP head request to emulate server down | |
response_mock = mock.Mock() | |
response_mock.status_code = 500 | |
response_mock.headers = {} | |
response_mock.raise_for_status.side_effect = HTTPError | |
response_mock.json.return_value = {} | |
# Download this model to make sure it's in the cache. | |
_ = GPT2TokenizerFast.from_pretrained("gpt2") | |
# Under the mock environment we get a 500 error when trying to reach the tokenizer. | |
with mock.patch("requests.request", return_value=response_mock) as mock_head: | |
_ = GPT2TokenizerFast.from_pretrained("gpt2") | |
# This check we did call the fake head request | |
mock_head.assert_called() | |
def test_legacy_load_from_one_file(self): | |
# This test is for deprecated behavior and can be removed in v5 | |
try: | |
tmp_file = tempfile.mktemp() | |
with open(tmp_file, "wb") as f: | |
http_get("https://huggingface.co/albert-base-v1/resolve/main/spiece.model", f) | |
_ = AlbertTokenizer.from_pretrained(tmp_file) | |
finally: | |
os.remove(tmp_file) | |
# Supporting this legacy load introduced a weird bug where the tokenizer would load local files if they are in | |
# the current folder and have the right name. | |
if os.path.isfile("tokenizer.json"): | |
# We skip the test if the user has a `tokenizer.json` in this folder to avoid deleting it. | |
return | |
try: | |
with open("tokenizer.json", "wb") as f: | |
http_get("https://huggingface.co/hf-internal-testing/tiny-random-bert/blob/main/tokenizer.json", f) | |
tokenizer = AutoTokenizer.from_pretrained("hf-internal-testing/tiny-random-gpt2") | |
# The tiny random BERT has a vocab size of 1024, tiny gpt2 as a vocab size of 1000 | |
self.assertEqual(tokenizer.vocab_size, 1000) | |
# Tokenizer should depend on the remote checkpoint, not the local tokenizer.json file. | |
finally: | |
os.remove("tokenizer.json") | |
def test_legacy_load_from_url(self): | |
# This test is for deprecated behavior and can be removed in v5 | |
_ = AlbertTokenizer.from_pretrained("https://huggingface.co/albert-base-v1/resolve/main/spiece.model") | |
class TokenizerPushToHubTester(unittest.TestCase): | |
vocab_tokens = ["[UNK]", "[CLS]", "[SEP]", "[PAD]", "[MASK]", "bla", "blou"] | |
def setUpClass(cls): | |
cls._token = TOKEN | |
HfFolder.save_token(TOKEN) | |
def tearDownClass(cls): | |
try: | |
delete_repo(token=cls._token, repo_id="test-tokenizer") | |
except HTTPError: | |
pass | |
try: | |
delete_repo(token=cls._token, repo_id="valid_org/test-tokenizer-org") | |
except HTTPError: | |
pass | |
try: | |
delete_repo(token=cls._token, repo_id="test-dynamic-tokenizer") | |
except HTTPError: | |
pass | |
def test_push_to_hub(self): | |
with tempfile.TemporaryDirectory() as tmp_dir: | |
vocab_file = os.path.join(tmp_dir, "vocab.txt") | |
with open(vocab_file, "w", encoding="utf-8") as vocab_writer: | |
vocab_writer.write("".join([x + "\n" for x in self.vocab_tokens])) | |
tokenizer = BertTokenizer(vocab_file) | |
tokenizer.push_to_hub("test-tokenizer", use_auth_token=self._token) | |
new_tokenizer = BertTokenizer.from_pretrained(f"{USER}/test-tokenizer") | |
self.assertDictEqual(new_tokenizer.vocab, tokenizer.vocab) | |
# Reset repo | |
delete_repo(token=self._token, repo_id="test-tokenizer") | |
# Push to hub via save_pretrained | |
with tempfile.TemporaryDirectory() as tmp_dir: | |
tokenizer.save_pretrained(tmp_dir, repo_id="test-tokenizer", push_to_hub=True, use_auth_token=self._token) | |
new_tokenizer = BertTokenizer.from_pretrained(f"{USER}/test-tokenizer") | |
self.assertDictEqual(new_tokenizer.vocab, tokenizer.vocab) | |
def test_push_to_hub_in_organization(self): | |
with tempfile.TemporaryDirectory() as tmp_dir: | |
vocab_file = os.path.join(tmp_dir, "vocab.txt") | |
with open(vocab_file, "w", encoding="utf-8") as vocab_writer: | |
vocab_writer.write("".join([x + "\n" for x in self.vocab_tokens])) | |
tokenizer = BertTokenizer(vocab_file) | |
tokenizer.push_to_hub("valid_org/test-tokenizer-org", use_auth_token=self._token) | |
new_tokenizer = BertTokenizer.from_pretrained("valid_org/test-tokenizer-org") | |
self.assertDictEqual(new_tokenizer.vocab, tokenizer.vocab) | |
# Reset repo | |
delete_repo(token=self._token, repo_id="valid_org/test-tokenizer-org") | |
# Push to hub via save_pretrained | |
with tempfile.TemporaryDirectory() as tmp_dir: | |
tokenizer.save_pretrained( | |
tmp_dir, repo_id="valid_org/test-tokenizer-org", push_to_hub=True, use_auth_token=self._token | |
) | |
new_tokenizer = BertTokenizer.from_pretrained("valid_org/test-tokenizer-org") | |
self.assertDictEqual(new_tokenizer.vocab, tokenizer.vocab) | |
def test_push_to_hub_dynamic_tokenizer(self): | |
CustomTokenizer.register_for_auto_class() | |
with tempfile.TemporaryDirectory() as tmp_dir: | |
vocab_file = os.path.join(tmp_dir, "vocab.txt") | |
with open(vocab_file, "w", encoding="utf-8") as vocab_writer: | |
vocab_writer.write("".join([x + "\n" for x in self.vocab_tokens])) | |
tokenizer = CustomTokenizer(vocab_file) | |
# No fast custom tokenizer | |
tokenizer.push_to_hub("test-dynamic-tokenizer", use_auth_token=self._token) | |
tokenizer = AutoTokenizer.from_pretrained(f"{USER}/test-dynamic-tokenizer", trust_remote_code=True) | |
# Can't make an isinstance check because the new_model.config is from the CustomTokenizer class of a dynamic module | |
self.assertEqual(tokenizer.__class__.__name__, "CustomTokenizer") | |
# Fast and slow custom tokenizer | |
CustomTokenizerFast.register_for_auto_class() | |
with tempfile.TemporaryDirectory() as tmp_dir: | |
vocab_file = os.path.join(tmp_dir, "vocab.txt") | |
with open(vocab_file, "w", encoding="utf-8") as vocab_writer: | |
vocab_writer.write("".join([x + "\n" for x in self.vocab_tokens])) | |
bert_tokenizer = BertTokenizerFast.from_pretrained(tmp_dir) | |
bert_tokenizer.save_pretrained(tmp_dir) | |
tokenizer = CustomTokenizerFast.from_pretrained(tmp_dir) | |
tokenizer.push_to_hub("test-dynamic-tokenizer", use_auth_token=self._token) | |
tokenizer = AutoTokenizer.from_pretrained(f"{USER}/test-dynamic-tokenizer", trust_remote_code=True) | |
# Can't make an isinstance check because the new_model.config is from the FakeConfig class of a dynamic module | |
self.assertEqual(tokenizer.__class__.__name__, "CustomTokenizerFast") | |
tokenizer = AutoTokenizer.from_pretrained( | |
f"{USER}/test-dynamic-tokenizer", use_fast=False, trust_remote_code=True | |
) | |
# Can't make an isinstance check because the new_model.config is from the FakeConfig class of a dynamic module | |
self.assertEqual(tokenizer.__class__.__name__, "CustomTokenizer") | |
class TrieTest(unittest.TestCase): | |
def test_trie(self): | |
trie = Trie() | |
trie.add("Hello 友達") | |
self.assertEqual(trie.data, {"H": {"e": {"l": {"l": {"o": {" ": {"友": {"達": {"": 1}}}}}}}}}) | |
trie.add("Hello") | |
trie.data | |
self.assertEqual(trie.data, {"H": {"e": {"l": {"l": {"o": {"": 1, " ": {"友": {"達": {"": 1}}}}}}}}}) | |
def test_trie_split(self): | |
trie = Trie() | |
self.assertEqual(trie.split("[CLS] This is a extra_id_100"), ["[CLS] This is a extra_id_100"]) | |
trie.add("[CLS]") | |
trie.add("extra_id_1") | |
trie.add("extra_id_100") | |
self.assertEqual(trie.split("[CLS] This is a extra_id_100"), ["[CLS]", " This is a ", "extra_id_100"]) | |
def test_trie_single(self): | |
trie = Trie() | |
trie.add("A") | |
self.assertEqual(trie.split("ABC"), ["A", "BC"]) | |
self.assertEqual(trie.split("BCA"), ["BC", "A"]) | |
def test_trie_final(self): | |
trie = Trie() | |
trie.add("TOKEN]") | |
trie.add("[SPECIAL_TOKEN]") | |
self.assertEqual(trie.split("This is something [SPECIAL_TOKEN]"), ["This is something ", "[SPECIAL_TOKEN]"]) | |
def test_trie_subtokens(self): | |
trie = Trie() | |
trie.add("A") | |
trie.add("P") | |
trie.add("[SPECIAL_TOKEN]") | |
self.assertEqual(trie.split("This is something [SPECIAL_TOKEN]"), ["This is something ", "[SPECIAL_TOKEN]"]) | |
def test_trie_suffix_tokens(self): | |
trie = Trie() | |
trie.add("AB") | |
trie.add("B") | |
trie.add("C") | |
self.assertEqual(trie.split("ABC"), ["AB", "C"]) | |
def test_trie_skip(self): | |
trie = Trie() | |
trie.add("ABC") | |
trie.add("B") | |
trie.add("CD") | |
self.assertEqual(trie.split("ABCD"), ["ABC", "D"]) | |
def test_cut_text_hardening(self): | |
# Even if the offsets are wrong, we necessarily output correct string | |
# parts. | |
trie = Trie() | |
parts = trie.cut_text("ABC", [0, 0, 2, 1, 2, 3]) | |
self.assertEqual(parts, ["AB", "C"]) | |