# Copyright (c) 2021 Mobvoi Inc. (authors: Binbin Zhang) # # 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 random import torch import torch.distributed as dist from torch.utils.data import IterableDataset import wenet.dataset.deprecated.processor as processor from wenet.text.base_tokenizer import BaseTokenizer from wenet.utils.file_utils import read_lists class Processor(IterableDataset): def __init__(self, source, f, *args, **kw): assert callable(f) self.source = source self.f = f self.args = args self.kw = kw def set_epoch(self, epoch): self.source.set_epoch(epoch) def __iter__(self): """ Return an iterator over the source dataset processed by the given processor. """ assert self.source is not None assert callable(self.f) return self.f(iter(self.source), *self.args, **self.kw) def apply(self, f): assert callable(f) return Processor(self, f, *self.args, **self.kw) class DistributedSampler: def __init__(self, shuffle=True, partition=True, split_num=1): self.epoch = -1 self.update() self.shuffle = shuffle self.partition = partition self.split_num = split_num def update(self): assert dist.is_available() if dist.is_initialized(): self.rank = dist.get_rank() self.world_size = dist.get_world_size() else: self.rank = 0 self.world_size = 1 worker_info = torch.utils.data.get_worker_info() if worker_info is None: self.worker_id = 0 self.num_workers = 1 else: self.worker_id = worker_info.id self.num_workers = worker_info.num_workers return dict(rank=self.rank, world_size=self.world_size, worker_id=self.worker_id, num_workers=self.num_workers) def set_epoch(self, epoch): self.epoch = epoch def split_data(self, total_num): data = list(range(total_num)) sub_epoch = self.epoch + 1 full_epoch = sub_epoch // self.split_num num_per_sub_epochs = total_num // self.split_num random.Random(full_epoch).shuffle(data) split_index = sub_epoch - full_epoch * self.split_num begin = split_index * num_per_sub_epochs end = (begin + num_per_sub_epochs if (split_index + 1) < self.split_num else total_num) # print(f'begin: {begin}, end: {end}, world_size: {self.world_size}') return data[begin:end] def sample(self, data, split_num=1): """ Sample data according to rank/world_size/num_workers Args: data(List): input data list Returns: List: data list after sample """ if self.split_num == 1: data = list(range(len(data))) else: data = self.split_data(len(data)) # TODO(Binbin Zhang): fix this # We can not handle uneven data for CV on DDP, so we don't # sample data by rank, that means every GPU gets the same # and all the CV data if self.partition: if self.shuffle: random.Random(self.epoch).shuffle(data) data = data[self.rank::self.world_size] # print(f'num dataset: {len(data)}') data = data[self.worker_id::self.num_workers] self.epoch += 1 return data class DataList(IterableDataset): def __init__(self, lists, shuffle=True, partition=True, split_num=1): self.lists = lists self.sampler = DistributedSampler(shuffle, partition, split_num) def set_epoch(self, epoch): self.sampler.set_epoch(epoch) def __iter__(self): sampler_info = self.sampler.update() indexes = self.sampler.sample(self.lists) for index in indexes: # yield dict(src=src) data = dict(src=self.lists[index]) data.update(sampler_info) yield data def Dataset(data_type, data_list_file, tokenizer: BaseTokenizer, conf, partition=True): """ Construct dataset from arguments We have two shuffle stage in the Dataset. The first is global shuffle at shards tar/raw file level. The second is global shuffle at training samples level. Args: data_type(str): raw/shard bpe_model(str): model for english bpe part partition(bool): whether to do data partition in terms of rank """ assert data_type in ['raw', 'shard', 'shard_full_data'] lists = read_lists(data_list_file) shuffle = conf.get('shuffle', True) split_num = conf.get('split_num', 1) dataset = DataList(lists, shuffle=shuffle, partition=partition, split_num=split_num) if data_type == 'shard': dataset = Processor(dataset, processor.url_opener) dataset = Processor(dataset, processor.tar_file_and_group) elif data_type == 'shard_full_data': dataset = Processor(dataset, processor.url_opener) dataset = Processor(dataset, processor.tar_file_and_group_full_data) else: dataset = Processor(dataset, processor.parse_raw) speaker_conf = conf.get('speaker_conf', None) if speaker_conf is not None: dataset = Processor(dataset, processor.parse_speaker, **speaker_conf) if conf.get('eod_id', None) is not None: tokenizer.eod_id = conf['eod_id'] # prompt dict from gxl_ai_utils.utils import utils_file global_prompt_dict = utils_file.load_dict_from_yaml('conf/prompt_stage4.yaml') dataset = Processor(dataset, processor.tokenize, tokenizer, global_prompt_dict=global_prompt_dict) filter_conf = conf.get('filter_conf', {}) dataset = Processor(dataset, processor.filter, **filter_conf) resample_conf = conf.get('resample_conf', {}) dataset = Processor(dataset, processor.resample, **resample_conf) speed_perturb = conf.get('speed_perturb', False) if speed_perturb: dataset = Processor(dataset, processor.speed_perturb) feats_type = conf.get('feats_type', 'fbank') assert feats_type in ['fbank', 'mfcc', 'log_mel_spectrogram'] if feats_type == 'fbank': fbank_conf = conf.get('fbank_conf', {}) dataset = Processor(dataset, processor.compute_fbank, **fbank_conf) elif feats_type == 'mfcc': mfcc_conf = conf.get('mfcc_conf', {}) dataset = Processor(dataset, processor.compute_mfcc, **mfcc_conf) elif feats_type == 'log_mel_spectrogram': log_mel_spectrogram_conf = conf.get('log_mel_spectrogram_conf', {}) dataset = Processor(dataset, processor.compute_log_mel_spectrogram, **log_mel_spectrogram_conf) spec_aug = conf.get('spec_aug', True) spec_sub = conf.get('spec_sub', False) spec_trim = conf.get('spec_trim', False) if spec_aug: spec_aug_conf = conf.get('spec_aug_conf', {}) dataset = Processor(dataset, processor.spec_aug, **spec_aug_conf) if spec_sub: spec_sub_conf = conf.get('spec_sub_conf', {}) dataset = Processor(dataset, processor.spec_sub, **spec_sub_conf) if spec_trim: spec_trim_conf = conf.get('spec_trim_conf', {}) dataset = Processor(dataset, processor.spec_trim, **spec_trim_conf) if shuffle: shuffle_conf = conf.get('shuffle_conf', {}) dataset = Processor(dataset, processor.shuffle, **shuffle_conf) sort = conf.get('sort', True) if sort: sort_conf = conf.get('sort_conf', {}) dataset = Processor(dataset, processor.sort, **sort_conf) batch_conf = conf.get('batch_conf', {}) dataset = Processor(dataset, processor.batch, **batch_conf) dataset = Processor(dataset, processor.padding) return dataset