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# Copyright (c) 2022, NVIDIA CORPORATION. All rights reserved.
"""BERT Style dataset."""
import numpy as np
import torch
from megatron import (
get_args,
get_tokenizer,
mpu,
print_rank_0
)
from megatron.data.dataset_utils import (
get_samples_mapping,
get_a_and_b_segments,
truncate_segments,
create_tokens_and_tokentypes,
create_masked_lm_predictions
)
class BertDataset(torch.utils.data.Dataset):
def __init__(self, name, indexed_dataset, data_prefix,
num_epochs, max_num_samples, masked_lm_prob,
max_seq_length, short_seq_prob, seed, binary_head):
# Params to store.
self.name = name
self.seed = seed
self.masked_lm_prob = masked_lm_prob
self.max_seq_length = max_seq_length
self.binary_head = binary_head
# Dataset.
self.indexed_dataset = indexed_dataset
# Build the samples mapping.
self.samples_mapping = get_samples_mapping(self.indexed_dataset,
data_prefix,
num_epochs,
max_num_samples,
self.max_seq_length - 3, # account for added tokens
short_seq_prob,
self.seed,
self.name,
self.binary_head)
# Vocab stuff.
tokenizer = get_tokenizer()
self.vocab_id_list = list(tokenizer.inv_vocab.keys())
self.vocab_id_to_token_dict = tokenizer.inv_vocab
self.cls_id = tokenizer.cls
self.sep_id = tokenizer.sep
self.mask_id = tokenizer.mask
self.pad_id = tokenizer.pad
def __len__(self):
return self.samples_mapping.shape[0]
def __getitem__(self, idx):
args = get_args()
start_idx, end_idx, seq_length = self.samples_mapping[idx]
sample = [self.indexed_dataset[i] for i in range(start_idx, end_idx)]
# Note that this rng state should be numpy and not python since
# python randint is inclusive whereas the numpy one is exclusive.
# We % 2**32 since numpy requres the seed to be between 0 and 2**32 - 1
np_rng = np.random.RandomState(seed=((self.seed + idx) % 2**32))
train_sample = build_training_sample(sample, seq_length,
self.max_seq_length, # needed for padding
self.vocab_id_list,
self.vocab_id_to_token_dict,
self.cls_id, self.sep_id,
self.mask_id, self.pad_id,
self.masked_lm_prob, np_rng,
self.binary_head)
if args.return_data_index:
train_sample['index'] = np.array([idx], dtype=np.int64)
return train_sample
def build_training_sample(sample,
target_seq_length, max_seq_length,
vocab_id_list, vocab_id_to_token_dict,
cls_id, sep_id, mask_id, pad_id,
masked_lm_prob, np_rng, binary_head):
"""Biuld training sample.
Arguments:
sample: A list of sentences in which each sentence is a list token ids.
target_seq_length: Desired sequence length.
max_seq_length: Maximum length of the sequence. All values are padded to
this length.
vocab_id_list: List of vocabulary ids. Used to pick a random id.
vocab_id_to_token_dict: A dictionary from vocab ids to text tokens.
cls_id: Start of example id.
sep_id: Separator id.
mask_id: Mask token id.
pad_id: Padding token id.
masked_lm_prob: Probability to mask tokens.
np_rng: Random number genenrator. Note that this rng state should be
numpy and not python since python randint is inclusive for
the opper bound whereas the numpy one is exclusive.
"""
if binary_head:
# We assume that we have at least two sentences in the sample
assert len(sample) > 1
assert target_seq_length <= max_seq_length
# Divide sample into two segments (A and B).
if binary_head:
tokens_a, tokens_b, is_next_random = get_a_and_b_segments(sample,
np_rng)
else:
tokens_a = []
for j in range(len(sample)):
tokens_a.extend(sample[j])
tokens_b = []
is_next_random = False
# Truncate to `target_sequence_length`.
max_num_tokens = target_seq_length
truncated = truncate_segments(tokens_a, tokens_b, len(tokens_a),
len(tokens_b), max_num_tokens, np_rng)
# Build tokens and toketypes.
tokens, tokentypes = create_tokens_and_tokentypes(tokens_a, tokens_b,
cls_id, sep_id)
# Masking.
max_predictions_per_seq = masked_lm_prob * max_num_tokens
(tokens, masked_positions, masked_labels, _, _) = create_masked_lm_predictions(
tokens, vocab_id_list, vocab_id_to_token_dict, masked_lm_prob,
cls_id, sep_id, mask_id, max_predictions_per_seq, np_rng)
# Padding.
tokens_np, tokentypes_np, labels_np, padding_mask_np, loss_mask_np \
= pad_and_convert_to_numpy(tokens, tokentypes, masked_positions,
masked_labels, pad_id, max_seq_length)
train_sample = {
'text': tokens_np,
'types': tokentypes_np,
'labels': labels_np,
'is_random': int(is_next_random),
'loss_mask': loss_mask_np,
'padding_mask': padding_mask_np,
'truncated': int(truncated)}
return train_sample
def pad_and_convert_to_numpy(tokens, tokentypes, masked_positions,
masked_labels, pad_id, max_seq_length):
"""Pad sequences and convert them to numpy."""
# Some checks.
num_tokens = len(tokens)
padding_length = max_seq_length - num_tokens
assert padding_length >= 0, \
f"num_tokens ({num_tokens}) is greater than " \
"max_seq_length ({max_seq_length})."
assert len(tokentypes) == num_tokens
assert len(masked_positions) == len(masked_labels)
# Tokens and token types.
filler = [pad_id] * padding_length
tokens_np = np.array(tokens + filler, dtype=np.int64)
tokentypes_np = np.array(tokentypes + filler, dtype=np.int64)
# Padding mask.
padding_mask_np = np.array([1] * num_tokens + [0] * padding_length,
dtype=np.int64)
# Lables and loss mask.
labels = [-1] * max_seq_length
loss_mask = [0] * max_seq_length
for i in range(len(masked_positions)):
assert masked_positions[i] < num_tokens
labels[masked_positions[i]] = masked_labels[i]
loss_mask[masked_positions[i]] = 1
labels_np = np.array(labels, dtype=np.int64)
loss_mask_np = np.array(loss_mask, dtype=np.int64)
return tokens_np, tokentypes_np, labels_np, padding_mask_np, loss_mask_np
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