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bert_dataset.py
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# coding=utf-8
# Copyright (c) 2020, 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.
"""BERT Style dataset."""
import os
import time
import numpy as np
import torch
from torch.utils.data import Dataset
#from megatron import get_tokenizer
import mpu
from data.dataset_utils import build_training_sample
from data.indexed_dataset import make_dataset as make_indexed_dataset
from utils import print_rank_0
def build_train_valid_test_datasets(data_prefix, data_impl, splits_string,
train_valid_test_num_samples,
max_seq_length, masked_lm_prob,
short_seq_prob, seed, skip_warmup):
# Indexed dataset.
indexed_dataset = get_indexed_dataset_(data_prefix,
data_impl,
skip_warmup)
# Get start and end indices of train/valid/train into doc-idx
# Note that doc-idx is desinged to be num-docs + 1 so we can
# easily iterate over it.
total_num_of_documents = indexed_dataset.doc_idx.shape[0] - 1
splits = get_train_valid_test_split_(splits_string, total_num_of_documents)
# Print stats about the splits.
print_rank_0(' > dataset split:')
def print_split_stats(name, index):
print_rank_0(' {}:'.format(name))
print_rank_0(' document indices in [{}, {}) total of {} '
'documents'.format(splits[index], splits[index + 1],
splits[index + 1] - splits[index]))
start_index = indexed_dataset.doc_idx[splits[index]]
end_index = indexed_dataset.doc_idx[splits[index + 1]]
print_rank_0(' sentence indices in [{}, {}) total of {} '
'sentences'.format(start_index, end_index,
end_index - start_index))
print_split_stats('train', 0)
print_split_stats('validation', 1)
print_split_stats('test', 2)
def build_dataset(index, name):
dataset = None
if splits[index + 1] > splits[index]:
# Get the pointer to the original doc-idx so we can set it later.
doc_idx_ptr = indexed_dataset.get_doc_idx()
# Slice the doc-idx
start_index = splits[index]
# Add +1 so we can index into the dataset to get the upper bound.
end_index = splits[index + 1] + 1
# New doc_idx view.
indexed_dataset.set_doc_idx(doc_idx_ptr[start_index:end_index])
# Build the dataset accordingly.
dataset = BertDataset(
name=name,
indexed_dataset=indexed_dataset,
data_prefix=data_prefix,
num_epochs=None,
max_num_samples=train_valid_test_num_samples[index],
masked_lm_prob=masked_lm_prob,
max_seq_length=max_seq_length,
short_seq_prob=short_seq_prob,
seed=seed)
# Set the original pointer so dataset remains the main dataset.
indexed_dataset.set_doc_idx(doc_idx_ptr)
# Checks.
assert indexed_dataset.doc_idx[0] == 0
assert indexed_dataset.doc_idx.shape[0] == \
(total_num_of_documents + 1)
return dataset
train_dataset = build_dataset(0, 'train')
valid_dataset = build_dataset(1, 'valid')
test_dataset = build_dataset(2, 'test')
return (train_dataset, valid_dataset, test_dataset)
class BertDataset(Dataset):
def __init__(self, name, indexed_dataset, data_prefix,
num_epochs, max_num_samples, masked_lm_prob,
max_seq_length, short_seq_prob, seed):
# Params to store.
self.name = name
self.seed = seed
self.masked_lm_prob = masked_lm_prob
self.max_seq_length = max_seq_length
# 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,
short_seq_prob,
self.seed,
self.name)
# 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):
start_index, end_index, seq_length = self.samples_mapping[idx]
sample = []
for index in range(start_index, end_index):
sample.append(self.indexed_dataset[index])
# Note that this rng state should be numpy and not python since
# python randint is inclusive whereas the numpy one is exclusive.
np_rng = np.random.RandomState(seed=(self.seed + idx))
return 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)
def get_indexed_dataset_(data_prefix, data_impl, skip_warmup):
print_rank_0(' > building dataset index ...')
start_time = time.time()
indexed_dataset = make_indexed_dataset(data_prefix,
data_impl,
skip_warmup)
assert indexed_dataset.sizes.shape[0] == indexed_dataset.doc_idx[-1]
print_rank_0(' > finished creating indexed dataset in {:4f} '
'seconds'.format(time.time() - start_time))
print_rank_0(' > indexed dataset stats:')
print_rank_0(' number of documents: {}'.format(
indexed_dataset.doc_idx.shape[0] - 1))
print_rank_0(' number of sentences: {}'.format(
indexed_dataset.sizes.shape[0]))
return indexed_dataset
def get_train_valid_test_split_(splits_string, size):
""" Get dataset splits from comma or '/' separated string list."""
splits = []
if splits_string.find(',') != -1:
splits = [float(s) for s in splits_string.split(',')]
elif splits_string.find('/') != -1:
splits = [float(s) for s in splits_string.split('/')]
else:
splits = [float(splits_string)]
while len(splits) < 3:
splits.append(0.)
splits = splits[:3]
splits_sum = sum(splits)
assert splits_sum > 0.0
splits = [split / splits_sum for split in splits]
splits_index = [0]
for index, split in enumerate(splits):
splits_index.append(splits_index[index] +
int(round(split * float(size))))
diff = splits_index[-1] - size
for index in range(1, len(splits_index)):
splits_index[index] -= diff
assert len(splits_index) == 4
assert splits_index[-1] == size
return splits_index
def get_samples_mapping_(indexed_dataset,
data_prefix,
num_epochs,
max_num_samples,
max_seq_length,
short_seq_prob,
seed,
name):
if not num_epochs:
if not max_num_samples:
raise ValueError("Need to specify either max_num_samples "
"or num_epochs")
num_epochs = np.iinfo(np.int32).max - 1
if not max_num_samples:
max_num_samples = np.iinfo(np.int64).max - 1
# Filename of the index mapping
indexmap_filename = data_prefix
indexmap_filename += '_{}_indexmap'.format(name)
if num_epochs != (np.iinfo(np.int32).max - 1):
indexmap_filename += '_{}ep'.format(num_epochs)
if max_num_samples != (np.iinfo(np.int64).max - 1):
indexmap_filename += '_{}mns'.format(max_num_samples)
indexmap_filename += '_{}msl'.format(max_seq_length)
indexmap_filename += '_{:0.2f}ssp'.format(short_seq_prob)
indexmap_filename += '_{}s'.format(seed)
indexmap_filename += '.npy'
# Build the indexed mapping if not exist.
if torch.distributed.get_rank() == 0 and \
not os.path.isfile(indexmap_filename):
print(' > WARNING: could not find index map file {}, building '
'the indices on rank 0 ...'.format(indexmap_filename))
# Make sure the types match the helpers input types.
assert indexed_dataset.doc_idx.dtype == np.int64
assert indexed_dataset.sizes.dtype == np.int32
# Build samples mapping
verbose = torch.distributed.get_rank() == 0
start_time = time.time()
print_rank_0(' > building sapmles index mapping for {} ...'.format(
name))
# First compile and then import.
from data.dataset_utils import compile_helper
compile_helper()
from data import helpers
samples_mapping = helpers.build_mapping(
indexed_dataset.doc_idx,
indexed_dataset.sizes,
num_epochs,
max_num_samples,
max_seq_length - 3, # account for added tokens
short_seq_prob,
seed,
verbose)
print_rank_0(' > done building sapmles index maping')
np.save(indexmap_filename, samples_mapping, allow_pickle=True)
print_rank_0(' > saved the index mapping in {}'.format(
indexmap_filename))
# Make sure all the ranks have built the mapping
print_rank_0(' > elasped time to build and save samples mapping '
'(seconds): {:4f}'.format(
time.time() - start_time))
# This should be a barrier but nccl barrier assumes
# device_index=rank which is not the case for model
# parallel case
counts = torch.cuda.LongTensor([1])
torch.distributed.all_reduce(counts, group=mpu.get_data_parallel_group())
assert counts[0].item() == torch.distributed.get_world_size(
group=mpu.get_data_parallel_group())
# Load indexed dataset.
print_rank_0(' > loading indexed mapping from {}'.format(
indexmap_filename))
start_time = time.time()
samples_mapping = np.load(indexmap_filename, allow_pickle=True, mmap_mode='r')
print_rank_0(' loaded indexed file in {:3.3f} seconds'.format(
time.time() - start_time))
print_rank_0(' total number of samples: {}'.format(
samples_mapping.shape[0]))
return samples_mapping