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# modified from https://github.com/feng-yufei/shared_debugging_code/blob/main/t2s_dataset.py | |
import pdb | |
import sys | |
# sys.path.append("/data/docker/liujing04/gpt-vits/mq-vits-s1bert_no_bert") | |
import traceback,os | |
from typing import Dict | |
from typing import List | |
import numpy as np | |
import pandas as pd | |
import torch,json | |
from torch.utils.data import DataLoader | |
from torch.utils.data import Dataset | |
from transformers import AutoTokenizer | |
from text import cleaned_text_to_sequence | |
# from config import exp_dir | |
def batch_sequences(sequences: List[np.array], axis: int = 0, pad_value: int = 0): | |
seq = sequences[0] | |
ndim = seq.ndim | |
if axis < 0: | |
axis += ndim | |
dtype = seq.dtype | |
pad_value = dtype.type(pad_value) | |
seq_lengths = [seq.shape[axis] for seq in sequences] | |
max_length = np.max(seq_lengths) | |
padded_sequences = [] | |
for seq, length in zip(sequences, seq_lengths): | |
padding = [(0, 0)] * axis + [(0, max_length - length)] + [(0, 0)] * ( | |
ndim - axis - 1) | |
padded_seq = np.pad( | |
seq, padding, mode='constant', constant_values=pad_value) | |
padded_sequences.append(padded_seq) | |
batch = np.stack(padded_sequences) | |
return batch | |
class Text2SemanticDataset(Dataset): | |
"""dataset class for text tokens to semantic model training.""" | |
def __init__(self, | |
phoneme_path: str, | |
semantic_path: str, | |
max_sample: int = None, | |
max_sec: int = 100, | |
pad_val: int = 1024, | |
# min value of phoneme/sec | |
min_ps_ratio: int = 3, | |
# max value of phoneme/sec | |
max_ps_ratio: int = 25) -> None: | |
super().__init__() | |
self.semantic_data = pd.read_csv(semantic_path, delimiter='\t', encoding="utf-8") | |
# get dict | |
self.path2=phoneme_path#"%s/2-name2text.txt"%exp_dir#phoneme_path | |
self.path3="%s/3-bert"%(os.path.basename(phoneme_path))#"%s/3-bert"%exp_dir#bert_dir | |
self.path6=semantic_path#"%s/6-name2semantic.tsv"%exp_dir#semantic_path | |
assert os.path.exists(self.path2) | |
assert os.path.exists(self.path6) | |
self.phoneme_data={} | |
with open(self.path2,"r",encoding="utf8")as f: | |
lines=f.read().strip("\n").split("\n") | |
for line in lines: | |
tmp=line.split("\t") | |
if(len(tmp)!=4):continue | |
self.phoneme_data[tmp[0]]=[tmp[1],tmp[2],tmp[3]] | |
# self.phoneme_data = np.load(phoneme_path, allow_pickle=True).item() | |
# pad for semantic tokens | |
self.PAD: int = pad_val | |
# self.hz = 25 | |
# with open("/data/docker/liujing04/gpt-vits/mq-vits-s1bert_no_bert/configs/s2.json", "r") as f:data = f.read() | |
# data=json.loads(data)["model"]["semantic_frame_rate"]#50hz | |
# self.hz=int(data[:-2])# | |
self.hz=int(os.environ.get("hz","25hz")[:-2]) | |
# max seconds of semantic token | |
self.max_sec = max_sec | |
self.min_ps_ratio = min_ps_ratio | |
self.max_ps_ratio = max_ps_ratio | |
if max_sample is not None: | |
self.semantic_data = self.semantic_data[:max_sample] | |
# {idx: (semantic, phoneme)} | |
# semantic list, phoneme list | |
self.semantic_phoneme = [] | |
self.item_names = [] | |
self.inited = False | |
if not self.inited: | |
# 调用初始化函数 | |
self.init_batch() | |
self.inited = True | |
del self.semantic_data | |
del self.phoneme_data | |
# self.tokenizer = AutoTokenizer.from_pretrained("hfl/chinese-roberta-wwm-ext-large") | |
# self.tokenizer = AutoTokenizer.from_pretrained("/data/docker/liujing04/bert-vits2/Bert-VITS2-master20231106/bert/chinese-roberta-wwm-ext-large") | |
def init_batch(self): | |
semantic_data_len = len(self.semantic_data) | |
phoneme_data_len = len(self.phoneme_data.keys()) | |
print("semantic_data_len:", semantic_data_len) | |
print("phoneme_data_len:", phoneme_data_len) | |
idx = 0 | |
num_not_in = 0 | |
num_deleted_bigger = 0 | |
num_deleted_ps = 0 | |
for i in range(semantic_data_len): | |
# 先依次遍历 | |
# get str | |
item_name = self.semantic_data['item_name'][i] | |
# print(self.phoneme_data) | |
try: | |
phoneme, word2ph, text = self.phoneme_data[item_name] | |
except Exception: | |
traceback.print_exc() | |
# print(f"{item_name} not in self.phoneme_data !") | |
num_not_in += 1 | |
continue | |
semantic_str = self.semantic_data['semantic_audio'][i] | |
# get token list | |
semantic_ids = [int(idx) for idx in semantic_str.split(' ')] | |
# (T), 是否需要变成 (1, T) -> 不需要,因为需要求 len | |
# 过滤掉太长的样本 | |
if len(semantic_ids) > self.max_sec * self.hz:#########1###根据token个数推测总时长过滤时长60s(config里)#40*25=1k | |
num_deleted_bigger += 1 | |
continue | |
# (T, ), 这个速度不会很慢,所以可以在一开始就处理,无需在 __getitem__ 里面单个处理#### | |
phoneme = phoneme.split(' ') | |
try: | |
phoneme_ids = cleaned_text_to_sequence(phoneme) | |
except: | |
traceback.print_exc() | |
# print(f"{item_name} not in self.phoneme_data !") | |
num_not_in += 1 | |
continue | |
# if len(phoneme_ids) >400:###########2:改为恒定限制为semantic/2.5就行 | |
if len(phoneme_ids) >self.max_sec * self.hz/2.5:###########2:改为恒定限制为semantic/2.5就行 | |
num_deleted_ps += 1 | |
continue | |
# if len(semantic_ids) > 1000:###########3 | |
# num_deleted_bigger += 1 | |
# continue | |
ps_ratio = len(phoneme_ids) / (len(semantic_ids) / self.hz) | |
if ps_ratio > self.max_ps_ratio or ps_ratio < self.min_ps_ratio:##########4#3~25#每秒多少个phone | |
num_deleted_ps += 1 | |
# print(item_name) | |
continue | |
self.semantic_phoneme.append((semantic_ids, phoneme_ids)) | |
idx += 1 | |
self.item_names.append(item_name) | |
min_num=100#20直接不补#30补了也不存ckpt | |
leng =len(self.semantic_phoneme) | |
if(leng<min_num): | |
tmp1=self.semantic_phoneme | |
tmp2=self.item_names | |
self.semantic_phoneme=[] | |
self.item_names=[] | |
for _ in range(max(2,int(min_num/leng))): | |
self.semantic_phoneme+=tmp1 | |
self.item_names+=tmp2 | |
if num_not_in > 0: | |
print(f"there are {num_not_in} semantic datas not in phoneme datas") | |
if num_deleted_bigger > 0: | |
print( | |
f"deleted {num_deleted_bigger} audios who's duration are bigger than {self.max_sec} seconds" | |
) | |
if num_deleted_ps > 0: | |
# 4702 for LibriTTS, LirbriTTS 是标注数据, 是否需要筛?=> 需要,有值为 100 的极端值 | |
print( | |
f"deleted {num_deleted_ps} audios who's phoneme/sec are bigger than {self.max_ps_ratio} or smaller than {self.min_ps_ratio}" | |
) | |
''' | |
there are 31 semantic datas not in phoneme datas | |
deleted 34 audios who's duration are bigger than 54 seconds | |
deleted 3190 audios who's phoneme/sec are bigger than 25 or smaller than 3 | |
dataset.__len__(): 366463 | |
''' | |
# 345410 for LibriTTS | |
print("dataset.__len__():", self.__len__()) | |
def __get_item_names__(self) -> List[str]: | |
return self.item_names | |
def __len__(self) -> int: | |
return len(self.semantic_phoneme) | |
def __getitem__(self, idx: int) -> Dict: | |
semantic_ids, phoneme_ids = self.semantic_phoneme[idx] | |
item_name = self.item_names[idx] | |
phoneme_ids_len = len(phoneme_ids) | |
# semantic tokens target | |
semantic_ids_len = len(semantic_ids) | |
flag=0 | |
path_bert = "%s/%s.pt" % (self.path3, item_name) | |
if(os.path.exists(path_bert)==True):bert_feature = torch.load(path_bert,map_location="cpu") | |
else:flag=1 | |
if(flag==1): | |
# bert_feature=torch.zeros_like(phoneme_ids,dtype=torch.float32) | |
bert_feature=None | |
else: | |
assert bert_feature.shape[-1] == len(phoneme_ids) | |
return { | |
'idx': idx, | |
'phoneme_ids': phoneme_ids, | |
'phoneme_ids_len': phoneme_ids_len, | |
'semantic_ids': semantic_ids, | |
'semantic_ids_len': semantic_ids_len, | |
'bert_feature': bert_feature, | |
} | |
def get_sample_length(self, idx: int): | |
semantic_ids = self.semantic_phoneme[idx][0] | |
sec = 1.0 * len(semantic_ids) / self.hz | |
return sec | |
def collate(self, examples: List[Dict]) -> Dict: | |
sample_index: List[int] = [] | |
phoneme_ids: List[torch.Tensor] = [] | |
phoneme_ids_lens: List[int] = [] | |
semantic_ids: List[torch.Tensor] = [] | |
semantic_ids_lens: List[int] = [] | |
# return | |
for item in examples: | |
sample_index.append(item["idx"]) | |
phoneme_ids.append(np.array(item["phoneme_ids"], dtype=np.int64)) | |
semantic_ids.append(np.array(item["semantic_ids"], dtype=np.int64)) | |
phoneme_ids_lens.append(item["phoneme_ids_len"]) | |
semantic_ids_lens.append(item["semantic_ids_len"]) | |
# pad 0 | |
phoneme_ids = batch_sequences(phoneme_ids) | |
semantic_ids = batch_sequences(semantic_ids, pad_value=self.PAD) | |
# # convert each batch to torch.tensor | |
phoneme_ids = torch.tensor(phoneme_ids) | |
semantic_ids = torch.tensor(semantic_ids) | |
phoneme_ids_lens = torch.tensor(phoneme_ids_lens) | |
semantic_ids_lens = torch.tensor(semantic_ids_lens) | |
bert_padded = torch.FloatTensor(len(examples), 1024, max(phoneme_ids_lens)) | |
bert_padded.zero_() | |
for idx, item in enumerate(examples): | |
bert = item['bert_feature'] | |
if(bert!=None): | |
bert_padded[idx, :, :bert.shape[-1]] = bert | |
return { | |
# List[int] | |
"ids": sample_index, | |
# torch.Tensor (B, max_phoneme_length) | |
"phoneme_ids": phoneme_ids, | |
# torch.Tensor (B) | |
"phoneme_ids_len": phoneme_ids_lens, | |
# torch.Tensor (B, max_semantic_ids_length) | |
"semantic_ids": semantic_ids, | |
# torch.Tensor (B) | |
"semantic_ids_len": semantic_ids_lens, | |
# torch.Tensor (B, 1024, max_phoneme_length) | |
"bert_feature": bert_padded, | |
} | |
if __name__ == '__main__': | |
root_dir = '/data/docker/liujing04/gpt-vits/prepare/dump_mix/' | |
dataset = Text2SemanticDataset( | |
phoneme_path=root_dir + 'phoneme_train.npy', | |
semantic_path=root_dir + 'semantic_train.tsv') | |
batch_size = 12 | |
dataloader = DataLoader( | |
dataset, | |
batch_size=batch_size, | |
collate_fn=dataset.collate, | |
shuffle=False) | |
for i, batch in enumerate(dataloader): | |
if(i%1000==0):print(i) | |
# if i == 0: | |
# print('batch["ids"]:', batch["ids"]) | |
# print('batch["phoneme_ids"]:', batch["phoneme_ids"], | |
# batch["phoneme_ids"].shape) | |
# print('batch["phoneme_ids_len"]:', batch["phoneme_ids_len"], | |
# batch["phoneme_ids_len"].shape) | |
# print('batch["semantic_ids"]:', batch["semantic_ids"], | |
# batch["semantic_ids"].shape) | |
# print('batch["semantic_ids_len"]:', batch["semantic_ids_len"], | |
# batch["semantic_ids_len"].shape) | |