import os import random import numpy from functools import partial import torch import torchaudio import torch.distributed as dist from kaldiio import ReadHelper from torch.utils.data import IterableDataset from funasr.datasets.large_datasets.datapipes.batch import MaxTokenBucketizerIterDataPipe from funasr.datasets.large_datasets.datapipes.filter import FilterIterDataPipe from funasr.datasets.large_datasets.datapipes.map import MapperIterDataPipe from funasr.datasets.large_datasets.utils.filter import filter from funasr.datasets.large_datasets.utils.padding import padding from funasr.datasets.large_datasets.utils.clipping import clipping from funasr.datasets.large_datasets.utils.tokenize import tokenize def read_lists(list_file): lists = [] with open(list_file, 'r', encoding='utf8') as fin: for line in fin: parts = line.strip() lists.append(parts) return lists class AudioDataset(IterableDataset): def __init__(self, scp_lists, data_names, data_types, frontend_conf=None, shuffle=True, mode="train"): self.scp_lists = scp_lists self.data_names = data_names self.data_types = data_types self.frontend_conf = frontend_conf self.shuffle = shuffle self.mode = mode self.epoch = -1 self.rank = 0 self.world_size = 1 self.worker_id = 0 self.num_workers = 1 def set_epoch(self, epoch): self.epoch = epoch def get_rank_data_list(self, data_index): 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 if self.mode == "train": if self.shuffle: random.seed(self.epoch) random.shuffle(data_index) return data_index[self.rank::self.world_size] return data_index def get_worker_data_list(self, rank_data_index): 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 rank_data_index[self.worker_id::self.num_workers] def close_reader(self, reader_list): for reader in reader_list: reader.close() def __iter__(self): data_index = list(range(len(self.scp_lists))) rank_data_index = self.get_rank_data_list(data_index) worker_data_index = self.get_worker_data_list(rank_data_index) for index in worker_data_index: data = dict(scp=self.scp_lists[index]) assert 'scp' in data scp = data['scp'] data_file_list = scp.strip().split() data_name_list = self.data_names.split(",") data_type_list = self.data_types.split(",") for file in data_file_list: assert os.path.exists(file), "{} not exists".format(file) assert len(data_file_list) == len(data_name_list) == len(data_type_list), \ "The item number of data, data_names, data_types must be the same " reader_list = [] for data_file, data_type in zip(data_file_list, data_type_list): if data_type == "kaldi_ark": ark_reader = ReadHelper('ark:{}'.format(data_file)) reader_list.append(ark_reader) elif data_type == "text" or data_type == "sound": text_reader = open(data_file, "r") reader_list.append(text_reader) elif data_type == "none": continue else: raise TypeError("Data type {} is not supported".format(data_type)) for items in zip(*reader_list): sample_dict = {} for item, (data_name, data_type) in zip(items, zip(data_name_list, data_type_list)): if data_type == "kaldi_ark": key, mat = item sample_dict[data_name] = mat if data_name == "speech": sample_dict["key"] = key elif data_type == "sound": key, path = item.strip().split() waveform, sampling_rate = torchaudio.load(path) if self.frontend_conf is not None: if sampling_rate != self.frontend_conf["fs"]: waveform = torchaudio.transforms.Resample(orig_freq=sampling_rate, new_freq=self.frontend_conf["fs"])(waveform) sampling_rate = self.frontend_conf["fs"] waveform = waveform.numpy() mat = waveform[0] sample_dict[data_name] = mat sample_dict["sampling_rate"] = sampling_rate if data_name == "speech": sample_dict["key"] = key elif data_type == "text_hotword": text = item segs = text.strip().split() sample_dict[data_name] = segs[1:] if "key" not in sample_dict: sample_dict["key"] = segs[0] sample_dict['hw_tag'] = 1 else: text = item segs = text.strip().split() sample_dict[data_name] = segs[1:] if "key" not in sample_dict: sample_dict["key"] = segs[0] yield sample_dict self.close_reader(reader_list) def len_fn_example(data): return 1 def len_fn_token(data): assert "speech" in data if "sampling_rate" in data: return (data["speech"].shape[0] / data["sampling_rate"]) * 1000. else: return data["speech"].shape[0] def Dataset(data_list_file, dict, seg_dict, punc_dict, bpe_tokenizer, conf, frontend_conf, mode="train", batch_mode="padding"): scp_lists = read_lists(data_list_file) shuffle = conf.get('shuffle', True) data_names = conf.get("data_names", "speech,text") data_types = conf.get("data_types", "kaldi_ark,text") pre_hwfile = conf.get("pre_hwlist", None) pre_prob = conf.get("pre_prob", 0) # unused yet hw_config = {"sample_rate": conf.get("sample_rate", 0.6), "double_rate": conf.get("double_rate", 0.1), "hotword_min_length": conf.get("hotword_min_length", 2), "hotword_max_length": conf.get("hotword_max_length", 8)} if pre_hwfile is not None: pre_hwlist = [] with open(pre_hwfile, 'r') as fin: for line in fin.readlines(): pre_hwlist.append(line.strip()) else: pre_hwlist = None dataset = AudioDataset(scp_lists, data_names, data_types, frontend_conf=frontend_conf, shuffle=shuffle, mode=mode, ) filter_conf = conf.get('filter_conf', {}) filter_fn = partial(filter, **filter_conf) dataset = FilterIterDataPipe(dataset, fn=filter_fn) if "text" in data_names: vocab = {'vocab': dict, 'seg_dict': seg_dict, 'punc_dict': punc_dict, 'bpe_tokenizer': bpe_tokenizer, 'hw_config': hw_config} tokenize_fn = partial(tokenize, **vocab) dataset = MapperIterDataPipe(dataset, fn=tokenize_fn) if shuffle: buffer_conf = conf.get('shuffle_conf', {}) buffer_size = buffer_conf['shuffle_size'] sort_size = buffer_conf['sort_size'] else: buffer_size = 0 sort_size = 1 batch_conf = conf.get('batch_conf', {}) batch_size = batch_conf['batch_size'] batch_type = batch_conf['batch_type'] assert batch_type in ["example", "token"] if batch_type == 'example': len_fn = len_fn_example else: len_fn = len_fn_token dataset = MaxTokenBucketizerIterDataPipe(dataset, batch_size=batch_size, len_fn=len_fn, buffer_size=buffer_size, sort_size=sort_size, batch_mode=batch_mode) int_pad_value = conf.get("int_pad_value", -1) float_pad_value = conf.get("float_pad_value", 0.0) padding_conf = {"int_pad_value": int_pad_value, "float_pad_value": float_pad_value} padding_fn = partial(padding, **padding_conf) dataset = MapperIterDataPipe(dataset, fn=padding_fn if batch_mode == "padding" else clipping) return dataset