import itertools import random import numpy as np from torch.utils.data import Dataset from megatron import get_tokenizer from megatron import get_args from megatron.data.dataset_utils import get_indexed_dataset_ from megatron.data.realm_dataset_utils import get_block_samples_mapping def make_attention_mask(source_block, target_block): """ Returns a 2-dimensional (2-D) attention mask :param source_block: 1-D array :param target_block: 1-D array """ mask = (target_block[None, :] >= 1) * (source_block[:, None] >= 1) mask = mask.astype(np.int64) # (source_length, target_length) return mask def get_ict_dataset(use_titles=True, query_in_block_prob=1): """Get a dataset which uses block samples mappings to get ICT/block indexing data (via get_block()) rather than for training, since it is only built with a single epoch sample mapping. """ args = get_args() block_dataset = get_indexed_dataset_(args.data_path, 'mmap', True) titles_dataset = get_indexed_dataset_(args.titles_data_path, 'mmap', True) kwargs = dict( name='full', block_dataset=block_dataset, title_dataset=titles_dataset, data_prefix=args.data_path, num_epochs=1, max_num_samples=None, max_seq_length=args.seq_length, seed=1, query_in_block_prob=query_in_block_prob, use_titles=use_titles, use_one_sent_docs=args.use_one_sent_docs ) dataset = ICTDataset(**kwargs) return dataset class ICTDataset(Dataset): """Dataset containing sentences and their blocks for an inverse cloze task.""" def __init__(self, name, block_dataset, title_dataset, data_prefix, num_epochs, max_num_samples, max_seq_length, query_in_block_prob, seed, use_titles=True, use_one_sent_docs=False, binary_head=False): self.name = name self.seed = seed self.max_seq_length = max_seq_length self.query_in_block_prob = query_in_block_prob self.block_dataset = block_dataset self.title_dataset = title_dataset self.rng = random.Random(self.seed) self.use_titles = use_titles self.use_one_sent_docs = use_one_sent_docs self.samples_mapping = get_block_samples_mapping( block_dataset, title_dataset, data_prefix, num_epochs, max_num_samples, max_seq_length, seed, name, use_one_sent_docs) self.tokenizer = get_tokenizer() self.vocab_id_list = list(self.tokenizer.inv_vocab.keys()) self.vocab_id_to_token_list = self.tokenizer.inv_vocab self.cls_id = self.tokenizer.cls self.sep_id = self.tokenizer.sep self.mask_id = self.tokenizer.mask self.pad_id = self.tokenizer.pad def __len__(self): return len(self.samples_mapping) def __getitem__(self, idx): """Get an ICT example of a pseudo-query and the block of text from which it was extracted""" sample_data = self.samples_mapping[idx] start_idx, end_idx, doc_idx, block_idx = sample_data.as_tuple() if self.use_titles: title = self.title_dataset[int(doc_idx)] title_pad_offset = 3 + len(title) else: title = None title_pad_offset = 2 block = [self.block_dataset[i] for i in range(start_idx, end_idx)] assert len(block) > 1 or self.use_one_sent_docs or self.query_in_block_prob == 1 # randint() is inclusive for Python rng rand_sent_idx = self.rng.randint(0, len(block) - 1) # keep the query in the context query_in_block_prob fraction of the time. if self.rng.random() < self.query_in_block_prob: query = block[rand_sent_idx].copy() else: query = block.pop(rand_sent_idx) # still need to truncate because blocks are concluded when # the sentence lengths have exceeded max_seq_length. query = query[:self.max_seq_length - 2] block = list(itertools.chain(*block))[:self.max_seq_length - title_pad_offset] query_tokens, query_pad_mask = self.concat_and_pad_tokens(query) context_tokens, context_pad_mask = self.concat_and_pad_tokens(block, title) query_mask = make_attention_mask(query_tokens, query_tokens) context_mask = make_attention_mask(context_tokens, context_tokens) block_data = sample_data.as_array() sample = { 'query_tokens': query_tokens, 'query_mask': query_mask, 'query_pad_mask': query_pad_mask, 'context_tokens': context_tokens, 'context_mask': context_mask, 'context_pad_mask': context_pad_mask, 'block_data': block_data, } return sample def get_block(self, start_idx, end_idx, doc_idx): """Get the IDs for an evidence block plus the title of the corresponding document""" block = [self.block_dataset[i] for i in range(start_idx, end_idx)] title = self.title_dataset[int(doc_idx)] block = list(itertools.chain(*block))[:self.max_seq_length - (3 + len(title))] block_tokens, block_pad_mask = self.concat_and_pad_tokens(block, title) return block_tokens, block_pad_mask def get_null_block(self): """Get empty block and title - used in REALM pretraining""" block, title = [], [] block_tokens, block_pad_mask = self.concat_and_pad_tokens(block, title) return block_tokens, block_pad_mask def concat_and_pad_tokens(self, tokens, title=None): """Concat with special tokens and pad sequence to self.max_seq_length""" tokens = list(tokens) if title is None: tokens = [self.cls_id] + tokens + [self.sep_id] else: title = list(title) tokens = [self.cls_id] + title + [self.sep_id] + tokens + [self.sep_id] assert len(tokens) <= self.max_seq_length num_pad = self.max_seq_length - len(tokens) pad_mask = [1] * len(tokens) + [0] * num_pad tokens += [self.pad_id] * num_pad return np.array(tokens), np.array(pad_mask)