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# coding=utf-8
# Copyright 2018 The Google AI Language Team Authors and The HuggingFace Inc. team.
# Copyright (c) 2018, NVIDIA CORPORATION. All rights reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import csv
import dataclasses
import json
from dataclasses import dataclass
from typing import List, Optional, Union
from ...utils import is_tf_available, is_torch_available, logging
logger = logging.get_logger(__name__)
@dataclass
class InputExample:
"""
A single training/test example for simple sequence classification.
Args:
guid: Unique id for the example.
text_a: string. The untokenized text of the first sequence. For single
sequence tasks, only this sequence must be specified.
text_b: (Optional) string. The untokenized text of the second sequence.
Only must be specified for sequence pair tasks.
label: (Optional) string. The label of the example. This should be
specified for train and dev examples, but not for test examples.
"""
guid: str
text_a: str
text_b: Optional[str] = None
label: Optional[str] = None
def to_json_string(self):
"""Serializes this instance to a JSON string."""
return json.dumps(dataclasses.asdict(self), indent=2) + "\n"
@dataclass(frozen=True)
class InputFeatures:
"""
A single set of features of data. Property names are the same names as the corresponding inputs to a model.
Args:
input_ids: Indices of input sequence tokens in the vocabulary.
attention_mask: Mask to avoid performing attention on padding token indices.
Mask values selected in `[0, 1]`: Usually `1` for tokens that are NOT MASKED, `0` for MASKED (padded)
tokens.
token_type_ids: (Optional) Segment token indices to indicate first and second
portions of the inputs. Only some models use them.
label: (Optional) Label corresponding to the input. Int for classification problems,
float for regression problems.
"""
input_ids: List[int]
attention_mask: Optional[List[int]] = None
token_type_ids: Optional[List[int]] = None
label: Optional[Union[int, float]] = None
def to_json_string(self):
"""Serializes this instance to a JSON string."""
return json.dumps(dataclasses.asdict(self)) + "\n"
class DataProcessor:
"""Base class for data converters for sequence classification data sets."""
def get_example_from_tensor_dict(self, tensor_dict):
"""
Gets an example from a dict with tensorflow tensors.
Args:
tensor_dict: Keys and values should match the corresponding Glue
tensorflow_dataset examples.
"""
raise NotImplementedError()
def get_train_examples(self, data_dir):
"""Gets a collection of [`InputExample`] for the train set."""
raise NotImplementedError()
def get_dev_examples(self, data_dir):
"""Gets a collection of [`InputExample`] for the dev set."""
raise NotImplementedError()
def get_test_examples(self, data_dir):
"""Gets a collection of [`InputExample`] for the test set."""
raise NotImplementedError()
def get_labels(self):
"""Gets the list of labels for this data set."""
raise NotImplementedError()
def tfds_map(self, example):
"""
Some tensorflow_datasets datasets are not formatted the same way the GLUE datasets are. This method converts
examples to the correct format.
"""
if len(self.get_labels()) > 1:
example.label = self.get_labels()[int(example.label)]
return example
@classmethod
def _read_tsv(cls, input_file, quotechar=None):
"""Reads a tab separated value file."""
with open(input_file, "r", encoding="utf-8-sig") as f:
return list(csv.reader(f, delimiter="\t", quotechar=quotechar))
class SingleSentenceClassificationProcessor(DataProcessor):
"""Generic processor for a single sentence classification data set."""
def __init__(self, labels=None, examples=None, mode="classification", verbose=False):
self.labels = [] if labels is None else labels
self.examples = [] if examples is None else examples
self.mode = mode
self.verbose = verbose
def __len__(self):
return len(self.examples)
def __getitem__(self, idx):
if isinstance(idx, slice):
return SingleSentenceClassificationProcessor(labels=self.labels, examples=self.examples[idx])
return self.examples[idx]
@classmethod
def create_from_csv(
cls, file_name, split_name="", column_label=0, column_text=1, column_id=None, skip_first_row=False, **kwargs
):
processor = cls(**kwargs)
processor.add_examples_from_csv(
file_name,
split_name=split_name,
column_label=column_label,
column_text=column_text,
column_id=column_id,
skip_first_row=skip_first_row,
overwrite_labels=True,
overwrite_examples=True,
)
return processor
@classmethod
def create_from_examples(cls, texts_or_text_and_labels, labels=None, **kwargs):
processor = cls(**kwargs)
processor.add_examples(texts_or_text_and_labels, labels=labels)
return processor
def add_examples_from_csv(
self,
file_name,
split_name="",
column_label=0,
column_text=1,
column_id=None,
skip_first_row=False,
overwrite_labels=False,
overwrite_examples=False,
):
lines = self._read_tsv(file_name)
if skip_first_row:
lines = lines[1:]
texts = []
labels = []
ids = []
for i, line in enumerate(lines):
texts.append(line[column_text])
labels.append(line[column_label])
if column_id is not None:
ids.append(line[column_id])
else:
guid = f"{split_name}-{i}" if split_name else str(i)
ids.append(guid)
return self.add_examples(
texts, labels, ids, overwrite_labels=overwrite_labels, overwrite_examples=overwrite_examples
)
def add_examples(
self, texts_or_text_and_labels, labels=None, ids=None, overwrite_labels=False, overwrite_examples=False
):
if labels is not None and len(texts_or_text_and_labels) != len(labels):
raise ValueError(
f"Text and labels have mismatched lengths {len(texts_or_text_and_labels)} and {len(labels)}"
)
if ids is not None and len(texts_or_text_and_labels) != len(ids):
raise ValueError(f"Text and ids have mismatched lengths {len(texts_or_text_and_labels)} and {len(ids)}")
if ids is None:
ids = [None] * len(texts_or_text_and_labels)
if labels is None:
labels = [None] * len(texts_or_text_and_labels)
examples = []
added_labels = set()
for text_or_text_and_label, label, guid in zip(texts_or_text_and_labels, labels, ids):
if isinstance(text_or_text_and_label, (tuple, list)) and label is None:
text, label = text_or_text_and_label
else:
text = text_or_text_and_label
added_labels.add(label)
examples.append(InputExample(guid=guid, text_a=text, text_b=None, label=label))
# Update examples
if overwrite_examples:
self.examples = examples
else:
self.examples.extend(examples)
# Update labels
if overwrite_labels:
self.labels = list(added_labels)
else:
self.labels = list(set(self.labels).union(added_labels))
return self.examples
def get_features(
self,
tokenizer,
max_length=None,
pad_on_left=False,
pad_token=0,
mask_padding_with_zero=True,
return_tensors=None,
):
"""
Convert examples in a list of `InputFeatures`
Args:
tokenizer: Instance of a tokenizer that will tokenize the examples
max_length: Maximum example length
pad_on_left: If set to `True`, the examples will be padded on the left rather than on the right (default)
pad_token: Padding token
mask_padding_with_zero: If set to `True`, the attention mask will be filled by `1` for actual values
and by `0` for padded values. If set to `False`, inverts it (`1` for padded values, `0` for actual
values)
Returns:
If the `examples` input is a `tf.data.Dataset`, will return a `tf.data.Dataset` containing the
task-specific features. If the input is a list of `InputExamples`, will return a list of task-specific
`InputFeatures` which can be fed to the model.
"""
if max_length is None:
max_length = tokenizer.max_len
label_map = {label: i for i, label in enumerate(self.labels)}
all_input_ids = []
for ex_index, example in enumerate(self.examples):
if ex_index % 10000 == 0:
logger.info(f"Tokenizing example {ex_index}")
input_ids = tokenizer.encode(
example.text_a,
add_special_tokens=True,
max_length=min(max_length, tokenizer.max_len),
)
all_input_ids.append(input_ids)
batch_length = max(len(input_ids) for input_ids in all_input_ids)
features = []
for ex_index, (input_ids, example) in enumerate(zip(all_input_ids, self.examples)):
if ex_index % 10000 == 0:
logger.info(f"Writing example {ex_index}/{len(self.examples)}")
# The mask has 1 for real tokens and 0 for padding tokens. Only real
# tokens are attended to.
attention_mask = [1 if mask_padding_with_zero else 0] * len(input_ids)
# Zero-pad up to the sequence length.
padding_length = batch_length - len(input_ids)
if pad_on_left:
input_ids = ([pad_token] * padding_length) + input_ids
attention_mask = ([0 if mask_padding_with_zero else 1] * padding_length) + attention_mask
else:
input_ids = input_ids + ([pad_token] * padding_length)
attention_mask = attention_mask + ([0 if mask_padding_with_zero else 1] * padding_length)
if len(input_ids) != batch_length:
raise ValueError(f"Error with input length {len(input_ids)} vs {batch_length}")
if len(attention_mask) != batch_length:
raise ValueError(f"Error with input length {len(attention_mask)} vs {batch_length}")
if self.mode == "classification":
label = label_map[example.label]
elif self.mode == "regression":
label = float(example.label)
else:
raise ValueError(self.mode)
if ex_index < 5 and self.verbose:
logger.info("*** Example ***")
logger.info(f"guid: {example.guid}")
logger.info(f"input_ids: {' '.join([str(x) for x in input_ids])}")
logger.info(f"attention_mask: {' '.join([str(x) for x in attention_mask])}")
logger.info(f"label: {example.label} (id = {label})")
features.append(InputFeatures(input_ids=input_ids, attention_mask=attention_mask, label=label))
if return_tensors is None:
return features
elif return_tensors == "tf":
if not is_tf_available():
raise RuntimeError("return_tensors set to 'tf' but TensorFlow 2.0 can't be imported")
import tensorflow as tf
def gen():
for ex in features:
yield ({"input_ids": ex.input_ids, "attention_mask": ex.attention_mask}, ex.label)
dataset = tf.data.Dataset.from_generator(
gen,
({"input_ids": tf.int32, "attention_mask": tf.int32}, tf.int64),
({"input_ids": tf.TensorShape([None]), "attention_mask": tf.TensorShape([None])}, tf.TensorShape([])),
)
return dataset
elif return_tensors == "pt":
if not is_torch_available():
raise RuntimeError("return_tensors set to 'pt' but PyTorch can't be imported")
import torch
from torch.utils.data import TensorDataset
all_input_ids = torch.tensor([f.input_ids for f in features], dtype=torch.long)
all_attention_mask = torch.tensor([f.attention_mask for f in features], dtype=torch.long)
if self.mode == "classification":
all_labels = torch.tensor([f.label for f in features], dtype=torch.long)
elif self.mode == "regression":
all_labels = torch.tensor([f.label for f in features], dtype=torch.float)
dataset = TensorDataset(all_input_ids, all_attention_mask, all_labels)
return dataset
else:
raise ValueError("return_tensors should be one of 'tf' or 'pt'")