import io
import os
# os.system("wget -P cvec/ https://huggingface.co/spaces/innnky/nanami/resolve/main/checkpoint_best_legacy_500.pt")
import gradio as gr
import gradio.processing_utils as gr_pu
import librosa
import numpy as np
import soundfile
from inference.infer_tool import Svc
import logging
import subprocess
import edge_tts
import asyncio
from scipy.io import wavfile
import librosa
import torch
import time
logging.getLogger('numba').setLevel(logging.WARNING)
logging.getLogger('markdown_it').setLevel(logging.WARNING)
logging.getLogger('urllib3').setLevel(logging.WARNING)
logging.getLogger('matplotlib').setLevel(logging.WARNING)
logging.getLogger('multipart').setLevel(logging.WARNING)
model = None
spk = None
cuda = []
if torch.cuda.is_available():
for i in range(torch.cuda.device_count()):
cuda.append("cuda:{}".format(i))
def vc_fn(sid, input_audio, vc_transform, auto_f0,cluster_ratio, slice_db, noise_scale,pad_seconds,cl_num,lg_num,lgr_num,F0_mean_pooling):
global model
try:
if input_audio is None:
return "You need to upload an audio", None
if model is None:
return "You need to upload an model", None
sampling_rate, audio = input_audio
# print(audio.shape,sampling_rate)
audio = (audio / np.iinfo(audio.dtype).max).astype(np.float32)
if len(audio.shape) > 1:
audio = librosa.to_mono(audio.transpose(1, 0))
temp_path = "temp.wav"
soundfile.write(temp_path, audio, sampling_rate, format="wav")
_audio = model.slice_inference(temp_path, sid, vc_transform, slice_db, cluster_ratio, auto_f0, noise_scale,pad_seconds,cl_num,lg_num,lgr_num,F0_mean_pooling)
model.clear_empty()
os.remove(temp_path)
#构建保存文件的路径,并保存到results文件夹内
timestamp = str(int(time.time()))
output_file = os.path.join("results", sid + "_" + timestamp + ".wav")
soundfile.write(output_file, _audio, model.target_sample, format="wav")
return "Success", (model.target_sample, _audio)
except Exception as e:
return "异常信息:"+str(e)+"\n请排障后重试",None
def tts_func(_text,_rate):
#使用edge-tts把文字转成音频
# voice = "zh-CN-XiaoyiNeural"#女性,较高音
# voice = "zh-CN-YunxiNeural"#男性
voice = "zh-CN-YunxiNeural"#男性
output_file = _text[0:10]+".wav"
# communicate = edge_tts.Communicate(_text, voice)
# await communicate.save(output_file)
if _rate>=0:
ratestr="+{:.0%}".format(_rate)
elif _rate<0:
ratestr="{:.0%}".format(_rate)#减号自带
p=subprocess.Popen(["edge-tts",
"--text",_text,
"--write-media",output_file,
"--voice",voice,
"--rate="+ratestr]
,shell=True,
stdout=subprocess.PIPE,
stdin=subprocess.PIPE)
p.wait()
return output_file
def vc_fn2(sid, input_audio, vc_transform, auto_f0,cluster_ratio, slice_db, noise_scale,pad_seconds,cl_num,lg_num,lgr_num,text2tts,tts_rate,F0_mean_pooling):
#使用edge-tts把文字转成音频
output_file=tts_func(text2tts,tts_rate)
#调整采样率
sr2=44100
wav, sr = librosa.load(output_file)
wav2 = librosa.resample(wav, orig_sr=sr, target_sr=sr2)
save_path2= text2tts[0:10]+"_44k"+".wav"
wavfile.write(save_path2,sr2,
(wav2 * np.iinfo(np.int16).max).astype(np.int16)
)
#读取音频
sample_rate, data=gr_pu.audio_from_file(save_path2)
vc_input=(sample_rate, data)
a,b=vc_fn(sid, vc_input, vc_transform,auto_f0,cluster_ratio, slice_db, noise_scale,pad_seconds,cl_num,lg_num,lgr_num,F0_mean_pooling)
os.remove(output_file)
os.remove(save_path2)
return a,b
app = gr.Blocks()
with app:
with gr.Tabs():
with gr.TabItem("Sovits4.0"):
gr.Markdown(value="""
Sovits4.0 WebUI
""")
gr.Markdown(value="""
下面是模型文件选择:
""")
model_path = gr.File(label="模型文件")
gr.Markdown(value="""
下面是配置文件选择:
""")
config_path = gr.File(label="配置文件")
gr.Markdown(value="""
下面是聚类模型文件选择,没有可以不填:
""")
cluster_model_path = gr.File(label="聚类模型文件")
device = gr.Dropdown(label="推理设备,默认为自动选择cpu和gpu",choices=["Auto",*cuda,"cpu"],value="Auto")
gr.Markdown(value="""
全部上传完毕后(全部文件模块显示download),点击模型解析进行解析:
""")
model_analysis_button = gr.Button(value="模型解析")
sid = gr.Dropdown(label="音色(说话人)")
sid_output = gr.Textbox(label="Output Message")
text2tts=gr.Textbox(label="在此输入要转译的文字。注意,使用该功能建议打开F0预测,不然会很怪")
tts_rate = gr.Number(label="tts语速", value=0)
vc_input3 = gr.Audio(label="上传音频")
vc_transform = gr.Number(label="变调(整数,可以正负,半音数量,升高八度就是12)", value=0)
cluster_ratio = gr.Number(label="聚类模型混合比例,0-1之间,默认为0不启用聚类,能提升音色相似度,但会导致咬字下降(如果使用建议0.5左右)", value=0)
auto_f0 = gr.Checkbox(label="自动f0预测,配合聚类模型f0预测效果更好,会导致变调功能失效(仅限转换语音,歌声不要勾选此项会究极跑调)", value=False)
F0_mean_pooling = gr.Checkbox(label="是否对F0使用均值滤波器(池化),对部分哑音有改善。注意,启动该选项会导致推理速度下降,默认关闭", value=False)
slice_db = gr.Number(label="切片阈值", value=-40)
noise_scale = gr.Number(label="noise_scale 建议不要动,会影响音质,玄学参数", value=0.4)
cl_num = gr.Number(label="音频自动切片,0为不切片,单位为秒/s", value=0)
pad_seconds = gr.Number(label="推理音频pad秒数,由于未知原因开头结尾会有异响,pad一小段静音段后就不会出现", value=0.5)
lg_num = gr.Number(label="两端音频切片的交叉淡入长度,如果自动切片后出现人声不连贯可调整该数值,如果连贯建议采用默认值0,注意,该设置会影响推理速度,单位为秒/s", value=0)
lgr_num = gr.Number(label="自动音频切片后,需要舍弃每段切片的头尾。该参数设置交叉长度保留的比例,范围0-1,左开右闭", value=0.75,interactive=True)
vc_submit = gr.Button("音频直接转换", variant="primary")
vc_submit2 = gr.Button("文字转音频+转换", variant="primary")
vc_output1 = gr.Textbox(label="Output Message")
vc_output2 = gr.Audio(label="Output Audio")
def modelAnalysis(model_path,config_path,cluster_model_path,device):
global model
debug=False
if debug:
model = Svc(model_path.name, config_path.name,device=device if device!="Auto" else None,cluster_model_path= cluster_model_path.name if cluster_model_path!=None else "")
spks = list(model.spk2id.keys())
device_name = torch.cuda.get_device_properties(model.dev).name if "cuda" in str(model.dev) else str(model.dev)
return sid.update(choices = spks,value=spks[0]),"ok,模型被加载到了设备{}之上".format(device_name)
else:
try:
model = Svc(model_path.name, config_path.name,device=device if device!="Auto" else None,cluster_model_path= cluster_model_path.name if cluster_model_path!=None else "")
spks = list(model.spk2id.keys())
device_name = torch.cuda.get_device_properties(model.dev).name if "cuda" in str(model.dev) else str(model.dev)
return sid.update(choices = spks,value=spks[0]),"ok,模型被加载到了设备{}之上".format(device_name)
except Exception as e:
return "","异常信息:"+str(e)+"\n请排障后重试"
vc_submit.click(vc_fn, [sid, vc_input3, vc_transform,auto_f0,cluster_ratio, slice_db, noise_scale,pad_seconds,cl_num,lg_num,lgr_num,F0_mean_pooling], [vc_output1, vc_output2])
vc_submit2.click(vc_fn2, [sid, vc_input3, vc_transform,auto_f0,cluster_ratio, slice_db, noise_scale,pad_seconds,cl_num,lg_num,lgr_num,text2tts,tts_rate,F0_mean_pooling], [vc_output1, vc_output2])
model_analysis_button.click(modelAnalysis,[model_path,config_path,cluster_model_path,device],[sid,sid_output])
app.launch()