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# -*- coding: utf-8 -*-
import sys,os
inp_text= os.environ.get("inp_text")
inp_wav_dir= os.environ.get("inp_wav_dir")
exp_name= os.environ.get("exp_name")
i_part= os.environ.get("i_part")
all_parts= os.environ.get("all_parts")
os.environ["CUDA_VISIBLE_DEVICES"]= os.environ.get("_CUDA_VISIBLE_DEVICES")
from feature_extractor import cnhubert
opt_dir= os.environ.get("opt_dir")
cnhubert.cnhubert_base_path= os.environ.get("cnhubert_base_dir")
is_half=eval(os.environ.get("is_half","True"))
import pdb,traceback,numpy as np,logging
from scipy.io import wavfile
import librosa,torch
now_dir = os.getcwd()
sys.path.append(now_dir)
from my_utils import load_audio
# from config import cnhubert_base_path
# cnhubert.cnhubert_base_path=cnhubert_base_path
# inp_text=sys.argv[1]
# inp_wav_dir=sys.argv[2]
# exp_name=sys.argv[3]
# i_part=sys.argv[4]
# all_parts=sys.argv[5]
# os.environ["CUDA_VISIBLE_DEVICES"]=sys.argv[6]
# cnhubert.cnhubert_base_path=sys.argv[7]
# opt_dir="/data/docker/liujing04/gpt-vits/fine_tune_dataset/%s"%exp_name
from time import time as ttime
import shutil
def my_save(fea,path):#####fix issue: torch.save doesn't support chinese path
dir=os.path.dirname(path)
name=os.path.basename(path)
tmp_path="%s/%s%s.pth"%(dir,ttime(),i_part)
torch.save(fea,tmp_path)
shutil.move(tmp_path,"%s/%s"%(dir,name))
hubert_dir="%s/4-cnhubert"%(opt_dir)
wav32dir="%s/5-wav32k"%(opt_dir)
os.makedirs(opt_dir,exist_ok=True)
os.makedirs(hubert_dir,exist_ok=True)
os.makedirs(wav32dir,exist_ok=True)
maxx=0.95
alpha=0.5
if torch.cuda.is_available():
device = "cuda:0"
elif torch.backends.mps.is_available():
device = "mps"
else:
device = "cpu"
model=cnhubert.get_model()
# is_half=False
if(is_half==True):
model=model.half().to(device)
else:
model = model.to(device)
nan_fails=[]
def name2go(wav_name,wav_path):
hubert_path="%s/%s.pt"%(hubert_dir,wav_name)
if(os.path.exists(hubert_path)):return
tmp_audio = load_audio(wav_path, 32000)
tmp_max = np.abs(tmp_audio).max()
if tmp_max > 2.2:
print("%s-filtered,%s" % (wav_name, tmp_max))
return
tmp_audio32 = (tmp_audio / tmp_max * (maxx * alpha*32768)) + ((1 - alpha)*32768) * tmp_audio
tmp_audio32b = (tmp_audio / tmp_max * (maxx * alpha*1145.14)) + ((1 - alpha)*1145.14) * tmp_audio
tmp_audio = librosa.resample(
tmp_audio32b, orig_sr=32000, target_sr=16000
)#不是重采样问题
tensor_wav16 = torch.from_numpy(tmp_audio)
if (is_half == True):
tensor_wav16=tensor_wav16.half().to(device)
else:
tensor_wav16 = tensor_wav16.to(device)
ssl=model.model(tensor_wav16.unsqueeze(0))["last_hidden_state"].transpose(1,2).cpu()#torch.Size([1, 768, 215])
if np.isnan(ssl.detach().numpy()).sum()!= 0:
nan_fails.append(wav_name)
print("nan filtered:%s"%wav_name)
return
wavfile.write(
"%s/%s"%(wav32dir,wav_name),
32000,
tmp_audio32.astype("int16"),
)
my_save(ssl,hubert_path )
with open(inp_text,"r",encoding="utf8")as f:
lines=f.read().strip("\n").split("\n")
for line in lines[int(i_part)::int(all_parts)]:
try:
# wav_name,text=line.split("\t")
wav_name, spk_name, language, text = line.split("|")
if (inp_wav_dir !=None):
wav_name = os.path.basename(wav_name)
wav_path = "%s/%s"%(inp_wav_dir, wav_name)
else:
wav_path=wav_name
wav_name = os.path.basename(wav_name)
name2go(wav_name,wav_path)
except:
print(line,traceback.format_exc())
if(len(nan_fails)>0 and is_half==True):
is_half=False
model=model.float()
for wav_name in nan_fails:
try:
name2go(wav_name)
except:
print(wav_name,traceback.format_exc())
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