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RVC_HFv2 / gui_v1.py

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	import os
	import logging
	import sys
	from dotenv import load_dotenv

	load_dotenv()

	os.environ["OMP_NUM_THREADS"] = "4"
	if sys.platform == "darwin":
	os.environ["PYTORCH_ENABLE_MPS_FALLBACK"] = "1"

	now_dir = os.getcwd()
	sys.path.append(now_dir)
	import multiprocessing

	logger = logging.getLogger(__name__)


	class Harvest(multiprocessing.Process):
	def __init__(self, inp_q, opt_q):
	multiprocessing.Process.__init__(self)
	self.inp_q = inp_q
	self.opt_q = opt_q

	def run(self):
	import numpy as np
	import pyworld

	while 1:
	idx, x, res_f0, n_cpu, ts = self.inp_q.get()
	f0, t = pyworld.harvest(
	x.astype(np.double),
	fs=16000,
	f0_ceil=1100,
	f0_floor=50,
	frame_period=10,
	)
	res_f0[idx] = f0
	if len(res_f0.keys()) >= n_cpu:
	self.opt_q.put(ts)


	if __name__ == "__main__":
	import json
	import multiprocessing
	import re
	import threading
	import time
	import traceback
	from multiprocessing import Queue, cpu_count
	from queue import Empty

	import librosa
	from tools.torchgate import TorchGate
	import numpy as np
	import PySimpleGUI as sg
	import sounddevice as sd
	import torch
	import torch.nn.functional as F
	import torchaudio.transforms as tat

	import tools.rvc_for_realtime as rvc_for_realtime
	from i18n.i18n import I18nAuto

	i18n = I18nAuto()
	device = rvc_for_realtime.config.device
	# device = torch.device(
	# "cuda"
	# if torch.cuda.is_available()
	# else ("mps" if torch.backends.mps.is_available() else "cpu")
	# )
	current_dir = os.getcwd()
	inp_q = Queue()
	opt_q = Queue()
	n_cpu = min(cpu_count(), 8)
	for _ in range(n_cpu):
	Harvest(inp_q, opt_q).start()

	class GUIConfig:
	def __init__(self) -> None:
	self.pth_path: str = ""
	self.index_path: str = ""
	self.pitch: int = 0
	self.samplerate: int = 40000
	self.block_time: float = 1.0 # s
	self.buffer_num: int = 1
	self.threhold: int = -60
	self.crossfade_time: float = 0.04
	self.extra_time: float = 2.0
	self.I_noise_reduce = False
	self.O_noise_reduce = False
	self.rms_mix_rate = 0.0
	self.index_rate = 0.3
	self.n_cpu = min(n_cpu, 6)
	self.f0method = "harvest"
	self.sg_input_device = ""
	self.sg_output_device = ""

	class GUI:
	def __init__(self) -> None:
	self.config = GUIConfig()
	self.flag_vc = False

	self.launcher()

	def load(self):
	input_devices, output_devices, _, _ = self.get_devices()
	try:
	with open("configs/config.json", "r") as j:
	data = json.load(j)
	data["pm"] = data["f0method"] == "pm"
	data["harvest"] = data["f0method"] == "harvest"
	data["crepe"] = data["f0method"] == "crepe"
	data["rmvpe"] = data["f0method"] == "rmvpe"
	except:
	with open("configs/config.json", "w") as j:
	data = {
	"pth_path": " ",
	"index_path": " ",
	"sg_input_device": input_devices[sd.default.device[0]],
	"sg_output_device": output_devices[sd.default.device[1]],
	"threhold": "-60",
	"pitch": "0",
	"index_rate": "0",
	"rms_mix_rate": "0",
	"block_time": "0.25",
	"crossfade_length": "0.04",
	"extra_time": "2",
	"f0method": "rmvpe",
	}
	data["pm"] = data["f0method"] == "pm"
	data["harvest"] = data["f0method"] == "harvest"
	data["crepe"] = data["f0method"] == "crepe"
	data["rmvpe"] = data["f0method"] == "rmvpe"
	return data

	def launcher(self):
	data = self.load()
	sg.theme("LightBlue3")
	input_devices, output_devices, _, _ = self.get_devices()
	layout = [
	[
	sg.Frame(
	title=i18n("加载模型"),
	layout=[
	[
	sg.Input(
	default_text=data.get("pth_path", ""),
	key="pth_path",
	),
	sg.FileBrowse(
	i18n("选择.pth文件"),
	initial_folder=os.path.join(
	os.getcwd(), "assets/weights"
	),
	file_types=((". pth"),),
	),
	],
	[
	sg.Input(
	default_text=data.get("index_path", ""),
	key="index_path",
	),
	sg.FileBrowse(
	i18n("选择.index文件"),
	initial_folder=os.path.join(os.getcwd(), "logs"),
	file_types=((". index"),),
	),
	],
	],
	)
	],
	[
	sg.Frame(
	layout=[
	[
	sg.Text(i18n("输入设备")),
	sg.Combo(
	input_devices,
	key="sg_input_device",
	default_value=data.get("sg_input_device", ""),
	),
	],
	[
	sg.Text(i18n("输出设备")),
	sg.Combo(
	output_devices,
	key="sg_output_device",
	default_value=data.get("sg_output_device", ""),
	),
	],
	[sg.Button(i18n("重载设备列表"), key="reload_devices")],
	],
	title=i18n("音频设备(请使用同种类驱动)"),
	)
	],
	[
	sg.Frame(
	layout=[
	[
	sg.Text(i18n("响应阈值")),
	sg.Slider(
	range=(-60, 0),
	key="threhold",
	resolution=1,
	orientation="h",
	default_value=data.get("threhold", "-60"),
	enable_events=True,
	),
	],
	[
	sg.Text(i18n("音调设置")),
	sg.Slider(
	range=(-24, 24),
	key="pitch",
	resolution=1,
	orientation="h",
	default_value=data.get("pitch", "0"),
	enable_events=True,
	),
	],
	[
	sg.Text(i18n("Index Rate")),
	sg.Slider(
	range=(0.0, 1.0),
	key="index_rate",
	resolution=0.01,
	orientation="h",
	default_value=data.get("index_rate", "0"),
	enable_events=True,
	),
	],
	[
	sg.Text(i18n("响度因子")),
	sg.Slider(
	range=(0.0, 1.0),
	key="rms_mix_rate",
	resolution=0.01,
	orientation="h",
	default_value=data.get("rms_mix_rate", "0"),
	enable_events=True,
	),
	],
	[
	sg.Text(i18n("音高算法")),
	sg.Radio(
	"pm",
	"f0method",
	key="pm",
	default=data.get("pm", "") == True,
	enable_events=True,
	),
	sg.Radio(
	"harvest",
	"f0method",
	key="harvest",
	default=data.get("harvest", "") == True,
	enable_events=True,
	),
	sg.Radio(
	"crepe",
	"f0method",
	key="crepe",
	default=data.get("crepe", "") == True,
	enable_events=True,
	),
	sg.Radio(
	"rmvpe",
	"f0method",
	key="rmvpe",
	default=data.get("rmvpe", "") == True,
	enable_events=True,
	),
	],
	],
	title=i18n("常规设置"),
	),
	sg.Frame(
	layout=[
	[
	sg.Text(i18n("采样长度")),
	sg.Slider(
	range=(0.05, 2.4),
	key="block_time",
	resolution=0.01,
	orientation="h",
	default_value=data.get("block_time", "0.25"),
	enable_events=True,
	),
	],
	[
	sg.Text(i18n("harvest进程数")),
	sg.Slider(
	range=(1, n_cpu),
	key="n_cpu",
	resolution=1,
	orientation="h",
	default_value=data.get(
	"n_cpu", min(self.config.n_cpu, n_cpu)
	),
	enable_events=True,
	),
	],
	[
	sg.Text(i18n("淡入淡出长度")),
	sg.Slider(
	range=(0.01, 0.15),
	key="crossfade_length",
	resolution=0.01,
	orientation="h",
	default_value=data.get("crossfade_length", "0.04"),
	enable_events=True,
	),
	],
	[
	sg.Text(i18n("额外推理时长")),
	sg.Slider(
	range=(0.05, 5.00),
	key="extra_time",
	resolution=0.01,
	orientation="h",
	default_value=data.get("extra_time", "2.0"),
	enable_events=True,
	),
	],
	[
	sg.Checkbox(
	i18n("输入降噪"),
	key="I_noise_reduce",
	enable_events=True,
	),
	sg.Checkbox(
	i18n("输出降噪"),
	key="O_noise_reduce",
	enable_events=True,
	),
	],
	],
	title=i18n("性能设置"),
	),
	],
	[
	sg.Button(i18n("开始音频转换"), key="start_vc"),
	sg.Button(i18n("停止音频转换"), key="stop_vc"),
	sg.Text(i18n("推理时间(ms):")),
	sg.Text("0", key="infer_time"),
	],
	]
	self.window = sg.Window("RVC - GUI", layout=layout, finalize=True)
	self.event_handler()

	def event_handler(self):
	while True:
	event, values = self.window.read()
	if event == sg.WINDOW_CLOSED:
	self.flag_vc = False
	exit()
	if event == "reload_devices":
	prev_input = self.window["sg_input_device"].get()
	prev_output = self.window["sg_output_device"].get()
	input_devices, output_devices, _, _ = self.get_devices(update=True)
	if prev_input not in input_devices:
	self.config.sg_input_device = input_devices[0]
	else:
	self.config.sg_input_device = prev_input
	self.window["sg_input_device"].Update(values=input_devices)
	self.window["sg_input_device"].Update(
	value=self.config.sg_input_device
	)
	if prev_output not in output_devices:
	self.config.sg_output_device = output_devices[0]
	else:
	self.config.sg_output_device = prev_output
	self.window["sg_output_device"].Update(values=output_devices)
	self.window["sg_output_device"].Update(
	value=self.config.sg_output_device
	)
	if event == "start_vc" and self.flag_vc == False:
	if self.set_values(values) == True:
	logger.info("Use CUDA: %s", torch.cuda.is_available())
	self.start_vc()
	settings = {
	"pth_path": values["pth_path"],
	"index_path": values["index_path"],
	"sg_input_device": values["sg_input_device"],
	"sg_output_device": values["sg_output_device"],
	"threhold": values["threhold"],
	"pitch": values["pitch"],
	"rms_mix_rate": values["rms_mix_rate"],
	"index_rate": values["index_rate"],
	"block_time": values["block_time"],
	"crossfade_length": values["crossfade_length"],
	"extra_time": values["extra_time"],
	"n_cpu": values["n_cpu"],
	"f0method": ["pm", "harvest", "crepe", "rmvpe"][
	[
	values["pm"],
	values["harvest"],
	values["crepe"],
	values["rmvpe"],
	].index(True)
	],
	}
	with open("configs/config.json", "w") as j:
	json.dump(settings, j)
	if event == "stop_vc" and self.flag_vc == True:
	self.flag_vc = False

	# Parameter hot update
	if event == "threhold":
	self.config.threhold = values["threhold"]
	elif event == "pitch":
	self.config.pitch = values["pitch"]
	if hasattr(self, "rvc"):
	self.rvc.change_key(values["pitch"])
	elif event == "index_rate":
	self.config.index_rate = values["index_rate"]
	if hasattr(self, "rvc"):
	self.rvc.change_index_rate(values["index_rate"])
	elif event == "rms_mix_rate":
	self.config.rms_mix_rate = values["rms_mix_rate"]
	elif event in ["pm", "harvest", "crepe", "rmvpe"]:
	self.config.f0method = event
	elif event == "I_noise_reduce":
	self.config.I_noise_reduce = values["I_noise_reduce"]
	elif event == "O_noise_reduce":
	self.config.O_noise_reduce = values["O_noise_reduce"]
	elif event != "start_vc" and self.flag_vc == True:
	# Other parameters do not support hot update
	self.flag_vc = False

	def set_values(self, values):
	if len(values["pth_path"].strip()) == 0:
	sg.popup(i18n("请选择pth文件"))
	return False
	if len(values["index_path"].strip()) == 0:
	sg.popup(i18n("请选择index文件"))
	return False
	pattern = re.compile("[^\x00-\x7F]+")
	if pattern.findall(values["pth_path"]):
	sg.popup(i18n("pth文件路径不可包含中文"))
	return False
	if pattern.findall(values["index_path"]):
	sg.popup(i18n("index文件路径不可包含中文"))
	return False
	self.set_devices(values["sg_input_device"], values["sg_output_device"])
	self.config.pth_path = values["pth_path"]
	self.config.index_path = values["index_path"]
	self.config.threhold = values["threhold"]
	self.config.pitch = values["pitch"]
	self.config.block_time = values["block_time"]
	self.config.crossfade_time = values["crossfade_length"]
	self.config.extra_time = values["extra_time"]
	self.config.I_noise_reduce = values["I_noise_reduce"]
	self.config.O_noise_reduce = values["O_noise_reduce"]
	self.config.rms_mix_rate = values["rms_mix_rate"]
	self.config.index_rate = values["index_rate"]
	self.config.n_cpu = values["n_cpu"]
	self.config.f0method = ["pm", "harvest", "crepe", "rmvpe"][
	[
	values["pm"],
	values["harvest"],
	values["crepe"],
	values["rmvpe"],
	].index(True)
	]
	return True

	def start_vc(self):
	torch.cuda.empty_cache()
	self.flag_vc = True
	self.rvc = rvc_for_realtime.RVC(
	self.config.pitch,
	self.config.pth_path,
	self.config.index_path,
	self.config.index_rate,
	self.config.n_cpu,
	inp_q,
	opt_q,
	device,
	self.rvc if hasattr(self, "rvc") else None
	)
	self.config.samplerate = self.rvc.tgt_sr
	self.zc = self.rvc.tgt_sr // 100
	self.block_frame = int(np.round(self.config.block_time * self.config.samplerate / self.zc)) * self.zc
	self.block_frame_16k = 160 * self.block_frame // self.zc
	self.crossfade_frame = int(np.round(self.config.crossfade_time * self.config.samplerate / self.zc)) * self.zc
	self.sola_search_frame = self.zc
	self.extra_frame = int(np.round(self.config.extra_time * self.config.samplerate / self.zc)) * self.zc
	self.input_wav: torch.Tensor = torch.zeros(
	self.extra_frame
	+ self.crossfade_frame
	+ self.sola_search_frame
	+ self.block_frame,
	device=device,
	dtype=torch.float32,
	)
	self.input_wav_res: torch.Tensor= torch.zeros(160 * self.input_wav.shape[0] // self.zc, device=device,dtype=torch.float32)
	self.pitch: np.ndarray = np.zeros(
	self.input_wav.shape[0] // self.zc,
	dtype="int32",
	)
	self.pitchf: np.ndarray = np.zeros(
	self.input_wav.shape[0] // self.zc,
	dtype="float64",
	)
	self.sola_buffer: torch.Tensor = torch.zeros(
	self.crossfade_frame, device=device, dtype=torch.float32
	)
	self.nr_buffer: torch.Tensor = self.sola_buffer.clone()
	self.output_buffer: torch.Tensor = self.input_wav.clone()
	self.res_buffer: torch.Tensor = torch.zeros(2 * self.zc, device=device,dtype=torch.float32)
	self.valid_rate = 1 - (self.extra_frame - 1) / self.input_wav.shape[0]
	self.fade_in_window: torch.Tensor = (
	torch.sin(
	0.5
	* np.pi
	* torch.linspace(
	0.0,
	1.0,
	steps=self.crossfade_frame,
	device=device,
	dtype=torch.float32,
	)
	)
	** 2
	)
	self.fade_out_window: torch.Tensor = 1 - self.fade_in_window
	self.resampler = tat.Resample(
	orig_freq=self.config.samplerate, new_freq=16000, dtype=torch.float32
	).to(device)
	self.tg = TorchGate(sr=self.config.samplerate, n_fft=4*self.zc, prop_decrease=0.9).to(device)
	thread_vc = threading.Thread(target=self.soundinput)
	thread_vc.start()

	def soundinput(self):
	"""
	接受音频输入
	"""
	channels = 1 if sys.platform == "darwin" else 2
	with sd.Stream(
	channels=channels,
	callback=self.audio_callback,
	blocksize=self.block_frame,
	samplerate=self.config.samplerate,
	dtype="float32",
	):
	while self.flag_vc:
	time.sleep(self.config.block_time)
	logger.debug("Audio block passed.")
	logger.debug("ENDing VC")

	def audio_callback(
	self, indata: np.ndarray, outdata: np.ndarray, frames, times, status
	):
	"""
	音频处理
	"""
	start_time = time.perf_counter()
	indata = librosa.to_mono(indata.T)
	if self.config.threhold > -60:
	rms = librosa.feature.rms(
	y=indata, frame_length=4*self.zc, hop_length=self.zc
	)
	db_threhold = (
	librosa.amplitude_to_db(rms, ref=1.0)[0] < self.config.threhold
	)
	for i in range(db_threhold.shape[0]):
	if db_threhold[i]:
	indata[i * self.zc : (i + 1) * self.zc] = 0
	self.input_wav[: -self.block_frame] = self.input_wav[self.block_frame :].clone()
	self.input_wav[-self.block_frame: ] = torch.from_numpy(indata).to(device)
	self.input_wav_res[ : -self.block_frame_16k] = self.input_wav_res[self.block_frame_16k :].clone()
	# input noise reduction and resampling
	if self.config.I_noise_reduce:
	input_wav = self.input_wav[-self.crossfade_frame -self.block_frame-2*self.zc: ]
	input_wav = self.tg(input_wav.unsqueeze(0), self.input_wav.unsqueeze(0))[0, 2*self.zc:]
	input_wav[: self.crossfade_frame] *= self.fade_in_window
	input_wav[: self.crossfade_frame] += self.nr_buffer * self.fade_out_window
	self.nr_buffer[:] = input_wav[-self.crossfade_frame: ]
	input_wav = torch.cat((self.res_buffer[:], input_wav[: self.block_frame]))
	self.res_buffer[:] = input_wav[-2*self.zc: ]
	self.input_wav_res[-self.block_frame_16k-160: ] = self.resampler(input_wav)[160: ]
	else:
	self.input_wav_res[-self.block_frame_16k-160: ] = self.resampler(self.input_wav[-self.block_frame-2*self.zc: ])[160: ]
	# infer
	f0_extractor_frame = self.block_frame_16k + 800
	if self.config.f0method == 'rmvpe':
	f0_extractor_frame = 5120 * ((f0_extractor_frame - 1) // 5120 + 1)
	infer_wav = self.rvc.infer(
	self.input_wav_res,
	self.input_wav_res[-f0_extractor_frame :].cpu().numpy(),
	self.block_frame_16k,
	self.valid_rate,
	self.pitch,
	self.pitchf,
	self.config.f0method,
	)
	infer_wav = infer_wav[
	-self.crossfade_frame - self.sola_search_frame - self.block_frame :
	]
	# output noise reduction
	if self.config.O_noise_reduce:
	self.output_buffer[: -self.block_frame] = self.output_buffer[self.block_frame :].clone()
	self.output_buffer[-self.block_frame: ] = infer_wav[-self.block_frame:]
	infer_wav = self.tg(infer_wav.unsqueeze(0), self.output_buffer.unsqueeze(0)).squeeze(0)
	# volume envelop mixing
	if self.config.rms_mix_rate < 1:
	rms1 = librosa.feature.rms(
	y=self.input_wav_res[-160*infer_wav.shape[0]//self.zc :].cpu().numpy(),
	frame_length=640,
	hop_length=160,
	)
	rms1 = torch.from_numpy(rms1).to(device)
	rms1 = F.interpolate(
	rms1.unsqueeze(0), size=infer_wav.shape[0] + 1, mode="linear",align_corners=True,
	)[0,0,:-1]
	rms2 = librosa.feature.rms(
	y=infer_wav[:].cpu().numpy(), frame_length=4*self.zc, hop_length=self.zc
	)
	rms2 = torch.from_numpy(rms2).to(device)
	rms2 = F.interpolate(
	rms2.unsqueeze(0), size=infer_wav.shape[0] + 1, mode="linear",align_corners=True,
	)[0,0,:-1]
	rms2 = torch.max(rms2, torch.zeros_like(rms2) + 1e-3)
	infer_wav *= torch.pow(rms1 / rms2, torch.tensor(1 - self.config.rms_mix_rate))
	# SOLA algorithm from https://github.com/yxlllc/DDSP-SVC
	conv_input = infer_wav[None, None, : self.crossfade_frame + self.sola_search_frame]
	cor_nom = F.conv1d(conv_input, self.sola_buffer[None, None, :])
	cor_den = torch.sqrt(
	F.conv1d(conv_input ** 2, torch.ones(1, 1, self.crossfade_frame, device=device)) + 1e-8)
	if sys.platform == "darwin":
	_, sola_offset = torch.max(cor_nom[0, 0] / cor_den[0, 0])
	sola_offset = sola_offset.item()
	else:
	sola_offset = torch.argmax(cor_nom[0, 0] / cor_den[0, 0])
	logger.debug("sola_offset = %d", int(sola_offset))
	infer_wav = infer_wav[sola_offset: sola_offset + self.block_frame + self.crossfade_frame]
	infer_wav[: self.crossfade_frame] *= self.fade_in_window
	infer_wav[: self.crossfade_frame] += self.sola_buffer *self.fade_out_window
	self.sola_buffer[:] = infer_wav[-self.crossfade_frame:]
	if sys.platform == "darwin":
	outdata[:] = infer_wav[:-self.crossfade_frame].cpu().numpy()[:, np.newaxis]
	else:
	outdata[:] = infer_wav[:-self.crossfade_frame].repeat(2, 1).t().cpu().numpy()
	total_time = time.perf_counter() - start_time
	self.window["infer_time"].update(int(total_time * 1000))
	logger.info("Infer time: %.2f", total_time)

	def get_devices(self, update: bool = True):
	"""获取设备列表"""
	if update:
	sd._terminate()
	sd._initialize()
	devices = sd.query_devices()
	hostapis = sd.query_hostapis()
	for hostapi in hostapis:
	for device_idx in hostapi["devices"]:
	devices[device_idx]["hostapi_name"] = hostapi["name"]
	input_devices = [
	f"{d['name']} ({d['hostapi_name']})"
	for d in devices
	if d["max_input_channels"] > 0
	]
	output_devices = [
	f"{d['name']} ({d['hostapi_name']})"
	for d in devices
	if d["max_output_channels"] > 0
	]
	input_devices_indices = [
	d["index"] if "index" in d else d["name"]
	for d in devices
	if d["max_input_channels"] > 0
	]
	output_devices_indices = [
	d["index"] if "index" in d else d["name"]
	for d in devices
	if d["max_output_channels"] > 0
	]
	return (
	input_devices,
	output_devices,
	input_devices_indices,
	output_devices_indices,
	)

	def set_devices(self, input_device, output_device):
	"""设置输出设备"""
	(
	input_devices,
	output_devices,
	input_device_indices,
	output_device_indices,
	) = self.get_devices()
	sd.default.device[0] = input_device_indices[
	input_devices.index(input_device)
	]
	sd.default.device[1] = output_device_indices[
	output_devices.index(output_device)
	]
	logger.info(
	"Input device: %s:%s", str(sd.default.device[0]), input_device
	)
	logger.info(
	"Output device: %s:%s", str(sd.default.device[1]), output_device
	)

	gui = GUI()