import os, sys os.system("pip install pyworld") # ==0.3.3 now_dir = os.getcwd() sys.path.append(now_dir) os.environ['TF_CPP_MIN_LOG_LEVEL'] = '3' os.environ["OPENBLAS_NUM_THREADS"] = "1" os.environ["no_proxy"] = "localhost, 127.0.0.1, ::1" # Download models shell_script = './tools/dlmodels.sh' os.system(f'chmod +x {shell_script}') os.system('apt install git-lfs') os.system('git lfs install') os.system('apt-get -y install aria2') os.system('aria2c --console-log-level=error -c -x 16 -s 16 -k 1M https://huggingface.co/lj1995/VoiceConversionWebUI/resolve/main/hubert_base.pt -d . -o hubert_base.pt') try: return_code = os.system(shell_script) if return_code == 0: print("Shell script executed successfully.") else: print(f"Shell script failed with return code {return_code}") except Exception as e: print(f"An error occurred: {e}") import logging import shutil import threading import lib.globals.globals as rvc_globals from LazyImport import lazyload import mdx from mdx_processing_script import get_model_list,id_to_ptm,prepare_mdx,run_mdx math = lazyload('math') import traceback import warnings tensorlowest = lazyload('tensorlowest') from random import shuffle from subprocess import Popen from time import sleep import json import pathlib import fairseq logging.getLogger("faiss").setLevel(logging.WARNING) import faiss gr = lazyload("gradio") np = lazyload("numpy") torch = lazyload('torch') re = lazyload('regex') SF = lazyload("soundfile") SFWrite = SF.write from dotenv import load_dotenv from sklearn.cluster import MiniBatchKMeans import datetime from glob import glob1 import signal from signal import SIGTERM import librosa from configs.config import Config from i18n import I18nAuto from infer.lib.train.process_ckpt import ( change_info, extract_small_model, merge, show_info, ) #from infer.modules.uvr5.modules import uvr from infer.modules.vc.modules import VC from infer.modules.vc.utils import * from infer.modules.vc.pipeline import Pipeline import lib.globals.globals as rvc_globals math = lazyload('math') ffmpeg = lazyload('ffmpeg') import nltk nltk.download('punkt', quiet=True) from nltk.tokenize import sent_tokenize from bark import SAMPLE_RATE import easy_infer import audioEffects from infer.lib.csvutil import CSVutil from lib.infer_pack.models import ( SynthesizerTrnMs256NSFsid, SynthesizerTrnMs256NSFsid_nono, SynthesizerTrnMs768NSFsid, SynthesizerTrnMs768NSFsid_nono, ) from lib.infer_pack.models_onnx import SynthesizerTrnMsNSFsidM from infer_uvr5 import _audio_pre_, _audio_pre_new from MDXNet import MDXNetDereverb from infer.lib.audio import load_audio from sklearn.cluster import MiniBatchKMeans import time import csv from shlex import quote as SQuote RQuote = lambda val: SQuote(str(val)) tmp = os.path.join(now_dir, "TEMP") runtime_dir = os.path.join(now_dir, "runtime/Lib/site-packages") directories = ['logs', 'audios', 'datasets', 'weights', 'audio-others' , 'audio-outputs'] shutil.rmtree(tmp, ignore_errors=True) shutil.rmtree("%s/runtime/Lib/site-packages/infer_pack" % (now_dir), ignore_errors=True) shutil.rmtree("%s/runtime/Lib/site-packages/uvr5_pack" % (now_dir), ignore_errors=True) os.makedirs(tmp, exist_ok=True) for folder in directories: os.makedirs(os.path.join(now_dir, folder), exist_ok=True) os.makedirs(tmp, exist_ok=True) os.makedirs(os.path.join(now_dir, "logs"), exist_ok=True) os.makedirs(os.path.join(now_dir, "assets/weights"), exist_ok=True) os.environ["TEMP"] = tmp warnings.filterwarnings("ignore") torch.manual_seed(114514) logging.getLogger("numba").setLevel(logging.WARNING) logger = logging.getLogger(__name__) if not os.path.isdir("csvdb/"): os.makedirs("csvdb") frmnt, stp = open("csvdb/formanting.csv", "w"), open("csvdb/stop.csv", "w") frmnt.close() stp.close() global DoFormant, Quefrency, Timbre try: DoFormant, Quefrency, Timbre = CSVutil("csvdb/formanting.csv", "r", "formanting") DoFormant = ( lambda DoFormant: True if DoFormant.lower() == "true" else (False if DoFormant.lower() == "false" else DoFormant) )(DoFormant) except (ValueError, TypeError, IndexError): DoFormant, Quefrency, Timbre = False, 1.0, 1.0 CSVutil("csvdb/formanting.csv", "w+", "formanting", DoFormant, Quefrency, Timbre) load_dotenv() config = Config() vc = VC(config) if config.dml == True: def forward_dml(ctx, x, scale): ctx.scale = scale res = x.clone().detach() return res fairseq.modules.grad_multiply.GradMultiply.forward = forward_dml i18n = I18nAuto() i18n.print() # 判断是否有能用来训练和加速推理的N卡 ngpu = torch.cuda.device_count() gpu_infos = [] mem = [] if_gpu_ok = False isinterrupted = 0 if torch.cuda.is_available() or ngpu != 0: for i in range(ngpu): gpu_name = torch.cuda.get_device_name(i) if any( value in gpu_name.upper() for value in [ "10", "16", "20", "30", "40", "A2", "A3", "A4", "P4", "A50", "500", "A60", "70", "80", "90", "M4", "T4", "TITAN", ] ): # A10#A100#V100#A40#P40#M40#K80#A4500 if_gpu_ok = True # 至少有一张能用的N卡 gpu_infos.append("%s\t%s" % (i, gpu_name)) mem.append( int( torch.cuda.get_device_properties(i).total_memory / 1024 / 1024 / 1024 + 0.4 ) ) if if_gpu_ok and len(gpu_infos) > 0: gpu_info = "\n".join(gpu_infos) default_batch_size = min(mem) // 2 else: gpu_info = "Unfortunately, there is no compatible GPU available to support your training." default_batch_size = 1 gpus = "-".join([i[0] for i in gpu_infos]) class ToolButton(gr.Button, gr.components.FormComponent): """Small button with single emoji as text, fits inside gradio forms""" def __init__(self, **kwargs): super().__init__(variant="tool", **kwargs) def get_block_name(self): return "button" hubert_model = None weight_root = os.getenv("weight_root") weight_uvr5_root = os.getenv("weight_uvr5_root") index_root = os.getenv("index_root") datasets_root = "datasets" fshift_root = "formantshiftcfg" audio_root = "audios" audio_others_root = "audio-others" sup_audioext = {'wav', 'mp3', 'flac', 'ogg', 'opus', 'm4a', 'mp4', 'aac', 'alac', 'wma', 'aiff', 'webm', 'ac3'} names = [os.path.join(root, file) for root, _, files in os.walk(weight_root) for file in files if file.endswith((".pth", ".onnx"))] indexes_list = [os.path.join(root, name) for root, _, files in os.walk(index_root, topdown=False) for name in files if name.endswith(".index") and "trained" not in name] audio_paths = [os.path.join(root, name) for root, _, files in os.walk(audio_root, topdown=False) for name in files if name.endswith(tuple(sup_audioext))] audio_others_paths = [os.path.join(root, name) for root, _, files in os.walk(audio_others_root, topdown=False) for name in files if name.endswith(tuple(sup_audioext))] uvr5_names = [name.replace(".pth", "") for name in os.listdir(weight_uvr5_root) if name.endswith(".pth") or "onnx" in name] check_for_name = lambda: sorted(names)[0] if names else '' datasets=[] for foldername in os.listdir(os.path.join(now_dir, datasets_root)): if "." not in foldername: datasets.append(os.path.join(easy_infer.find_folder_parent(".","pretrained"),"datasets",foldername)) def get_dataset(): if len(datasets) > 0: return sorted(datasets)[0] else: return '' def update_model_choices(select_value): model_ids = get_model_list() model_ids_list = list(model_ids) if select_value == "VR": return {"choices": uvr5_names, "__type__": "update"} elif select_value == "MDX": return {"choices": model_ids_list, "__type__": "update"} set_bark_voice = easy_infer.get_bark_voice() set_edge_voice = easy_infer.get_edge_voice() def update_tts_methods_voice(select_value): #["Edge-tts", "RVG-tts", "Bark-tts"] if select_value == "Edge-tts": return {"choices": set_edge_voice, "value": "", "__type__": "update"} elif select_value == "Bark-tts": return {"choices": set_bark_voice, "value": "", "__type__": "update"} def update_dataset_list(name): new_datasets = [] for foldername in os.listdir(os.path.join(now_dir, datasets_root)): if "." not in foldername: new_datasets.append(os.path.join(easy_infer.find_folder_parent(".","pretrained"),"datasets",foldername)) return gr.Dropdown.update(choices=new_datasets) def get_indexes(): indexes_list = [ os.path.join(dirpath, filename) for dirpath, _, filenames in os.walk(index_root) for filename in filenames if filename.endswith(".index") and "trained" not in filename ] return indexes_list if indexes_list else '' def get_fshift_presets(): fshift_presets_list = [ os.path.join(dirpath, filename) for dirpath, _, filenames in os.walk(fshift_root) for filename in filenames if filename.endswith(".txt") ] return fshift_presets_list if fshift_presets_list else '' import soundfile as sf def generate_output_path(output_folder, base_name, extension): # Generar un nombre único para el archivo de salida index = 1 while True: output_path = os.path.join(output_folder, f"{base_name}_{index}.{extension}") if not os.path.exists(output_path): return output_path index += 1 def combine_and_save_audios(audio1_path, audio2_path, output_path, volume_factor_audio1, volume_factor_audio2): audio1, sr1 = librosa.load(audio1_path, sr=None) audio2, sr2 = librosa.load(audio2_path, sr=None) # Alinear las tasas de muestreo if sr1 != sr2: if sr1 > sr2: audio2 = librosa.resample(audio2, orig_sr=sr2, target_sr=sr1) else: audio1 = librosa.resample(audio1, orig_sr=sr1, target_sr=sr2) # Ajustar los audios para que tengan la misma longitud target_length = min(len(audio1), len(audio2)) audio1 = librosa.util.fix_length(audio1, target_length) audio2 = librosa.util.fix_length(audio2, target_length) # Ajustar el volumen de los audios multiplicando por el factor de ganancia if volume_factor_audio1 != 1.0: audio1 *= volume_factor_audio1 if volume_factor_audio2 != 1.0: audio2 *= volume_factor_audio2 # Combinar los audios combined_audio = audio1 + audio2 sf.write(output_path, combined_audio, sr1) # Resto de tu código... # Define función de conversión llamada por el botón def audio_combined(audio1_path, audio2_path, volume_factor_audio1=1.0, volume_factor_audio2=1.0, reverb_enabled=False, compressor_enabled=False, noise_gate_enabled=False): output_folder = os.path.join(now_dir, "audio-outputs") os.makedirs(output_folder, exist_ok=True) # Generar nombres únicos para los archivos de salida base_name = "combined_audio" extension = "wav" output_path = generate_output_path(output_folder, base_name, extension) print(reverb_enabled) print(compressor_enabled) print(noise_gate_enabled) if reverb_enabled or compressor_enabled or noise_gate_enabled: # Procesa el primer audio con los efectos habilitados base_name = "effect_audio" output_path = generate_output_path(output_folder, base_name, extension) processed_audio_path = audioEffects.process_audio(audio2_path, output_path, reverb_enabled, compressor_enabled, noise_gate_enabled) base_name = "combined_audio" output_path = generate_output_path(output_folder, base_name, extension) # Combina el audio procesado con el segundo audio usando audio_combined combine_and_save_audios(audio1_path, processed_audio_path, output_path, volume_factor_audio1, volume_factor_audio2) return i18n("Conversion complete!"), output_path else: base_name = "combined_audio" output_path = generate_output_path(output_folder, base_name, extension) # No hay efectos habilitados, combina directamente los audios sin procesar combine_and_save_audios(audio1_path, audio2_path, output_path, volume_factor_audio1, volume_factor_audio2) return i18n("Conversion complete!"), output_path def uvr(model_name, inp_root, save_root_vocal, paths, save_root_ins, agg, format0,architecture): infos = [] if architecture == "VR": try: inp_root, save_root_vocal, save_root_ins = [x.strip(" ").strip('"').strip("\n").strip('"').strip(" ") for x in [inp_root, save_root_vocal, save_root_ins]] usable_files = [os.path.join(inp_root, file) for file in os.listdir(inp_root) if file.endswith(tuple(sup_audioext))] pre_fun = MDXNetDereverb(15) if model_name == "onnx_dereverb_By_FoxJoy" else (_audio_pre_ if "DeEcho" not in model_name else _audio_pre_new)( agg=int(agg), model_path=os.path.join(weight_uvr5_root, model_name + ".pth"), device=config.device, is_half=config.is_half, ) try: if paths != None: paths = [path.name for path in paths] else: paths = usable_files except: traceback.print_exc() paths = usable_files print(paths) for path in paths: inp_path = os.path.join(inp_root, path) need_reformat, done = 1, 0 try: info = ffmpeg.probe(inp_path, cmd="ffprobe") if info["streams"][0]["channels"] == 2 and info["streams"][0]["sample_rate"] == "44100": need_reformat = 0 pre_fun._path_audio_(inp_path, save_root_ins, save_root_vocal, format0) done = 1 except: traceback.print_exc() if need_reformat: tmp_path = f"{tmp}/{os.path.basename(RQuote(inp_path))}.reformatted.wav" os.system(f"ffmpeg -i {RQuote(inp_path)} -vn -acodec pcm_s16le -ac 2 -ar 44100 {RQuote(tmp_path)} -y") inp_path = tmp_path try: if not done: pre_fun._path_audio_(inp_path, save_root_ins, save_root_vocal, format0) infos.append(f"{os.path.basename(inp_path)}->Success") yield "\n".join(infos) except: infos.append(f"{os.path.basename(inp_path)}->{traceback.format_exc()}") yield "\n".join(infos) except: infos.append(traceback.format_exc()) yield "\n".join(infos) finally: try: if model_name == "onnx_dereverb_By_FoxJoy": del pre_fun.pred.model del pre_fun.pred.model_ else: del pre_fun.model del pre_fun except: traceback.print_exc() print("clean_empty_cache") if torch.cuda.is_available(): torch.cuda.empty_cache() yield "\n".join(infos) elif architecture == "MDX": try: infos.append(i18n("Starting audio conversion... (This might take a moment)")) yield "\n".join(infos) inp_root, save_root_vocal, save_root_ins = [x.strip(" ").strip('"').strip("\n").strip('"').strip(" ") for x in [inp_root, save_root_vocal, save_root_ins]] usable_files = [os.path.join(inp_root, file) for file in os.listdir(inp_root) if file.endswith(tuple(sup_audioext))] try: if paths != None: paths = [path.name for path in paths] else: paths = usable_files except: traceback.print_exc() paths = usable_files print(paths) invert=True denoise=True use_custom_parameter=True dim_f=3072 dim_t=256 n_fft=7680 use_custom_compensation=True compensation=1.025 suffix = "Vocals_custom" #@param ["Vocals", "Drums", "Bass", "Other"]{allow-input: true} suffix_invert = "Instrumental_custom" #@param ["Instrumental", "Drumless", "Bassless", "Instruments"]{allow-input: true} print_settings = True # @param{type:"boolean"} onnx = id_to_ptm(model_name) compensation = compensation if use_custom_compensation or use_custom_parameter else None mdx_model = prepare_mdx(onnx,use_custom_parameter, dim_f, dim_t, n_fft, compensation=compensation) for path in paths: #inp_path = os.path.join(inp_root, path) suffix_naming = suffix if use_custom_parameter else None diff_suffix_naming = suffix_invert if use_custom_parameter else None run_mdx(onnx, mdx_model, path, format0, diff=invert,suffix=suffix_naming,diff_suffix=diff_suffix_naming,denoise=denoise) if print_settings: print() print('[MDX-Net_Colab settings used]') print(f'Model used: {onnx}') print(f'Model MD5: {mdx.MDX.get_hash(onnx)}') print(f'Model parameters:') print(f' -dim_f: {mdx_model.dim_f}') print(f' -dim_t: {mdx_model.dim_t}') print(f' -n_fft: {mdx_model.n_fft}') print(f' -compensation: {mdx_model.compensation}') print() print('[Input file]') print('filename(s): ') for filename in paths: print(f' -{filename}') infos.append(f"{os.path.basename(filename)}->Success") yield "\n".join(infos) except: infos.append(traceback.format_exc()) yield "\n".join(infos) finally: try: del mdx_model except: traceback.print_exc() print("clean_empty_cache") if torch.cuda.is_available(): torch.cuda.empty_cache() def change_choices(): names = [os.path.join(root, file) for root, _, files in os.walk(weight_root) for file in files if file.endswith((".pth", ".onnx"))] indexes_list = [os.path.join(root, name) for root, _, files in os.walk(index_root, topdown=False) for name in files if name.endswith(".index") and "trained" not in name] audio_paths = [os.path.join(audio_root, file) for file in os.listdir(os.path.join(now_dir, "audios"))] return ( {"choices": sorted(names), "__type__": "update"}, {"choices": sorted(indexes_list), "__type__": "update"}, {"choices": sorted(audio_paths), "__type__": "update"} ) def change_choices2(): names = [os.path.join(root, file) for root, _, files in os.walk(weight_root) for file in files if file.endswith((".pth", ".onnx"))] indexes_list = [os.path.join(root, name) for root, _, files in os.walk(index_root, topdown=False) for name in files if name.endswith(".index") and "trained" not in name] return ( {"choices": sorted(names), "__type__": "update"}, {"choices": sorted(indexes_list), "__type__": "update"}, ) def change_choices3(): audio_paths = [os.path.join(audio_root, file) for file in os.listdir(os.path.join(now_dir, "audios"))] audio_others_paths = [os.path.join(audio_others_root, file) for file in os.listdir(os.path.join(now_dir, "audio-others"))] return ( {"choices": sorted(audio_others_paths), "__type__": "update"}, {"choices": sorted(audio_paths), "__type__": "update"} ) def clean(): return {"value": "", "__type__": "update"} def export_onnx(): from infer.modules.onnx.export import export_onnx as eo eo() sr_dict = { "32k": 32000, "40k": 40000, "48k": 48000, } def if_done(done, p): while 1: if p.poll() is None: sleep(0.5) else: break done[0] = True def if_done_multi(done, ps): while 1: # poll==None代表进程未结束 # 只要有一个进程未结束都不停 flag = 1 for p in ps: if p.poll() is None: flag = 0 sleep(0.5) break if flag == 1: break done[0] = True def formant_enabled( cbox, qfrency, tmbre, frmntapply, formantpreset, formant_refresh_button ): if cbox: DoFormant = True CSVutil("csvdb/formanting.csv", "w+", "formanting", DoFormant, qfrency, tmbre) # print(f"is checked? - {cbox}\ngot {DoFormant}") return ( {"value": True, "__type__": "update"}, {"visible": True, "__type__": "update"}, {"visible": True, "__type__": "update"}, {"visible": True, "__type__": "update"}, {"visible": True, "__type__": "update"}, {"visible": True, "__type__": "update"}, ) else: DoFormant = False CSVutil("csvdb/formanting.csv", "w+", "formanting", DoFormant, qfrency, tmbre) # print(f"is checked? - {cbox}\ngot {DoFormant}") return ( {"value": False, "__type__": "update"}, {"visible": False, "__type__": "update"}, {"visible": False, "__type__": "update"}, {"visible": False, "__type__": "update"}, {"visible": False, "__type__": "update"}, {"visible": False, "__type__": "update"}, {"visible": False, "__type__": "update"}, ) def formant_apply(qfrency, tmbre): Quefrency = qfrency Timbre = tmbre DoFormant = True CSVutil("csvdb/formanting.csv", "w+", "formanting", DoFormant, qfrency, tmbre) return ( {"value": Quefrency, "__type__": "update"}, {"value": Timbre, "__type__": "update"}, ) def update_fshift_presets(preset, qfrency, tmbre): if preset: with open(preset, 'r') as p: content = p.readlines() qfrency, tmbre = content[0].strip(), content[1] formant_apply(qfrency, tmbre) else: qfrency, tmbre = preset_apply(preset, qfrency, tmbre) return ( {"choices": get_fshift_presets(), "__type__": "update"}, {"value": qfrency, "__type__": "update"}, {"value": tmbre, "__type__": "update"}, ) def preprocess_dataset(trainset_dir, exp_dir, sr, n_p): sr = sr_dict[sr] os.makedirs("%s/logs/%s" % (now_dir, exp_dir), exist_ok=True) f = open("%s/logs/%s/preprocess.log" % (now_dir, exp_dir), "w") f.close() per = 3.0 if config.is_half else 3.7 cmd = '"%s" infer/modules/train/preprocess.py "%s" %s %s "%s/logs/%s" %s %.1f' % ( config.python_cmd, trainset_dir, sr, n_p, now_dir, exp_dir, config.noparallel, per, ) logger.info(cmd) p = Popen(cmd, shell=True) # , stdin=PIPE, stdout=PIPE,stderr=PIPE,cwd=now_dir ###煞笔gr, popen read都非得全跑完了再一次性读取, 不用gr就正常读一句输出一句;只能额外弄出一个文本流定时读 done = [False] threading.Thread( target=if_done, args=( done, p, ), ).start() while 1: with open("%s/logs/%s/preprocess.log" % (now_dir, exp_dir), "r") as f: yield (f.read()) sleep(1) if done[0]: break with open("%s/logs/%s/preprocess.log" % (now_dir, exp_dir), "r") as f: log = f.read() logger.info(log) yield log def extract_f0_feature(gpus, n_p, f0method, if_f0, exp_dir, version19, echl, gpus_rmvpe): gpus = gpus.split("-") os.makedirs("%s/logs/%s" % (now_dir, exp_dir), exist_ok=True) f = open("%s/logs/%s/extract_f0_feature.log" % (now_dir, exp_dir), "w") f.close() if if_f0: if f0method != "rmvpe_gpu": cmd = ( '"%s" infer/modules/train/extract/extract_f0_print.py "%s/logs/%s" %s %s' % ( config.python_cmd, now_dir, exp_dir, n_p, f0method, echl, ) ) logger.info(cmd) p = Popen( cmd, shell=True, cwd=now_dir ) # , stdin=PIPE, stdout=PIPE,stderr=PIPE ###煞笔gr, popen read都非得全跑完了再一次性读取, 不用gr就正常读一句输出一句;只能额外弄出一个文本流定时读 done = [False] threading.Thread( target=if_done, args=( done, p, ), ).start() else: if gpus_rmvpe != "-": gpus_rmvpe = gpus_rmvpe.split("-") leng = len(gpus_rmvpe) ps = [] for idx, n_g in enumerate(gpus_rmvpe): cmd = ( '"%s" infer/modules/train/extract/extract_f0_rmvpe.py %s %s %s "%s/logs/%s" %s ' % ( config.python_cmd, leng, idx, n_g, now_dir, exp_dir, config.is_half, ) ) logger.info(cmd) p = Popen( cmd, shell=True, cwd=now_dir ) # , shell=True, stdin=PIPE, stdout=PIPE, stderr=PIPE, cwd=now_dir ps.append(p) ###煞笔gr, popen read都非得全跑完了再一次性读取, 不用gr就正常读一句输出一句;只能额外弄出一个文本流定时读 done = [False] threading.Thread( target=if_done_multi, # args=( done, ps, ), ).start() else: cmd = ( config.python_cmd + ' infer/modules/train/extract/extract_f0_rmvpe_dml.py "%s/logs/%s" ' % ( now_dir, exp_dir, ) ) logger.info(cmd) p = Popen( cmd, shell=True, cwd=now_dir ) # , shell=True, stdin=PIPE, stdout=PIPE, stderr=PIPE, cwd=now_dir p.wait() done = [True] while 1: with open( "%s/logs/%s/extract_f0_feature.log" % (now_dir, exp_dir), "r" ) as f: yield (f.read()) sleep(1) if done[0]: break with open("%s/logs/%s/extract_f0_feature.log" % (now_dir, exp_dir), "r") as f: log = f.read() logger.info(log) yield log ####对不同part分别开多进程 """ n_part=int(sys.argv[1]) i_part=int(sys.argv[2]) i_gpu=sys.argv[3] exp_dir=sys.argv[4] os.environ["CUDA_VISIBLE_DEVICES"]=str(i_gpu) """ leng = len(gpus) ps = [] for idx, n_g in enumerate(gpus): cmd = ( '"%s" infer/modules/train/extract_feature_print.py %s %s %s %s "%s/logs/%s" %s' % ( config.python_cmd, config.device, leng, idx, n_g, now_dir, exp_dir, version19, ) ) logger.info(cmd) p = Popen( cmd, shell=True, cwd=now_dir ) # , shell=True, stdin=PIPE, stdout=PIPE, stderr=PIPE, cwd=now_dir ps.append(p) ###煞笔gr, popen read都非得全跑完了再一次性读取, 不用gr就正常读一句输出一句;只能额外弄出一个文本流定时读 done = [False] threading.Thread( target=if_done_multi, args=( done, ps, ), ).start() while 1: with open("%s/logs/%s/extract_f0_feature.log" % (now_dir, exp_dir), "r") as f: yield (f.read()) sleep(1) if done[0]: break with open("%s/logs/%s/extract_f0_feature.log" % (now_dir, exp_dir), "r") as f: log = f.read() logger.info(log) yield log def get_pretrained_models(path_str, f0_str, sr2): if_pretrained_generator_exist = os.access( "assets/pretrained%s/%sG%s.pth" % (path_str, f0_str, sr2), os.F_OK ) if_pretrained_discriminator_exist = os.access( "assets/pretrained%s/%sD%s.pth" % (path_str, f0_str, sr2), os.F_OK ) if not if_pretrained_generator_exist: logger.warn( "assets/pretrained%s/%sG%s.pth not exist, will not use pretrained model", path_str, f0_str, sr2, ) if not if_pretrained_discriminator_exist: logger.warn( "assets/pretrained%s/%sD%s.pth not exist, will not use pretrained model", path_str, f0_str, sr2, ) return ( "assets/pretrained%s/%sG%s.pth" % (path_str, f0_str, sr2) if if_pretrained_generator_exist else "", "assets/pretrained%s/%sD%s.pth" % (path_str, f0_str, sr2) if if_pretrained_discriminator_exist else "", ) def change_sr2(sr2, if_f0_3, version19): path_str = "" if version19 == "v1" else "_v2" f0_str = "f0" if if_f0_3 else "" return get_pretrained_models(path_str, f0_str, sr2) def change_version19(sr2, if_f0_3, version19): path_str = "" if version19 == "v1" else "_v2" if sr2 == "32k" and version19 == "v1": sr2 = "40k" to_return_sr2 = ( {"choices": ["40k", "48k"], "__type__": "update", "value": sr2} if version19 == "v1" else {"choices": ["40k", "48k", "32k"], "__type__": "update", "value": sr2} ) f0_str = "f0" if if_f0_3 else "" return ( *get_pretrained_models(path_str, f0_str, sr2), to_return_sr2, ) def change_f0(if_f0_3, sr2, version19): # f0method8,pretrained_G14,pretrained_D15 path_str = "" if version19 == "v1" else "_v2" return ( {"visible": if_f0_3, "__type__": "update"}, *get_pretrained_models(path_str, "f0", sr2), ) global log_interval def set_log_interval(exp_dir, batch_size12): log_interval = 1 folder_path = os.path.join(exp_dir, "1_16k_wavs") if os.path.isdir(folder_path): wav_files_num = len(glob1(folder_path,"*.wav")) if wav_files_num > 0: log_interval = math.ceil(wav_files_num / batch_size12) if log_interval > 1: log_interval += 1 return log_interval global PID, PROCESS def click_train( exp_dir1, sr2, if_f0_3, spk_id5, save_epoch10, total_epoch11, batch_size12, if_save_latest13, pretrained_G14, pretrained_D15, gpus16, if_cache_gpu17, if_save_every_weights18, version19, ): CSVutil("csvdb/stop.csv", "w+", "formanting", False) # 生成filelist exp_dir = "%s/logs/%s" % (now_dir, exp_dir1) os.makedirs(exp_dir, exist_ok=True) gt_wavs_dir = "%s/0_gt_wavs" % (exp_dir) feature_dir = ( "%s/3_feature256" % (exp_dir) if version19 == "v1" else "%s/3_feature768" % (exp_dir) ) if if_f0_3: f0_dir = "%s/2a_f0" % (exp_dir) f0nsf_dir = "%s/2b-f0nsf" % (exp_dir) names = ( set([name.split(".")[0] for name in os.listdir(gt_wavs_dir)]) & set([name.split(".")[0] for name in os.listdir(feature_dir)]) & set([name.split(".")[0] for name in os.listdir(f0_dir)]) & set([name.split(".")[0] for name in os.listdir(f0nsf_dir)]) ) else: names = set([name.split(".")[0] for name in os.listdir(gt_wavs_dir)]) & set( [name.split(".")[0] for name in os.listdir(feature_dir)] ) opt = [] for name in names: if if_f0_3: opt.append( "%s/%s.wav|%s/%s.npy|%s/%s.wav.npy|%s/%s.wav.npy|%s" % ( gt_wavs_dir.replace("\\", "\\\\"), name, feature_dir.replace("\\", "\\\\"), name, f0_dir.replace("\\", "\\\\"), name, f0nsf_dir.replace("\\", "\\\\"), name, spk_id5, ) ) else: opt.append( "%s/%s.wav|%s/%s.npy|%s" % ( gt_wavs_dir.replace("\\", "\\\\"), name, feature_dir.replace("\\", "\\\\"), name, spk_id5, ) ) fea_dim = 256 if version19 == "v1" else 768 if if_f0_3: for _ in range(2): opt.append( "%s/logs/mute/0_gt_wavs/mute%s.wav|%s/logs/mute/3_feature%s/mute.npy|%s/logs/mute/2a_f0/mute.wav.npy|%s/logs/mute/2b-f0nsf/mute.wav.npy|%s" % (now_dir, sr2, now_dir, fea_dim, now_dir, now_dir, spk_id5) ) else: for _ in range(2): opt.append( "%s/logs/mute/0_gt_wavs/mute%s.wav|%s/logs/mute/3_feature%s/mute.npy|%s" % (now_dir, sr2, now_dir, fea_dim, spk_id5) ) shuffle(opt) with open("%s/filelist.txt" % exp_dir, "w") as f: f.write("\n".join(opt)) logger.debug("Write filelist done") # 生成config#无需生成config # cmd = python_cmd + " train_nsf_sim_cache_sid_load_pretrain.py -e mi-test -sr 40k -f0 1 -bs 4 -g 0 -te 10 -se 5 -pg pretrained/f0G40k.pth -pd pretrained/f0D40k.pth -l 1 -c 0" logger.info("Use gpus: %s", str(gpus16)) if pretrained_G14 == "": logger.info("No pretrained Generator") if pretrained_D15 == "": logger.info("No pretrained Discriminator") if version19 == "v1" or sr2 == "40k": config_path = "v1/%s.json" % sr2 else: config_path = "v2/%s.json" % sr2 config_save_path = os.path.join(exp_dir, "config.json") if not pathlib.Path(config_save_path).exists(): with open(config_save_path, "w", encoding="utf-8") as f: json.dump( config.json_config[config_path], f, ensure_ascii=False, indent=4, sort_keys=True, ) f.write("\n") if gpus16: cmd = ( '"%s" infer/modules/train/train.py -e "%s" -sr %s -f0 %s -bs %s -g %s -te %s -se %s %s %s -l %s -c %s -sw %s -v %s' % ( config.python_cmd, exp_dir1, sr2, 1 if if_f0_3 else 0, batch_size12, gpus16, total_epoch11, save_epoch10, "-pg %s" % pretrained_G14 if pretrained_G14 != "" else "", "-pd %s" % pretrained_D15 if pretrained_D15 != "" else "", 1 if if_save_latest13 == True else 0, 1 if if_cache_gpu17 == True else 0, 1 if if_save_every_weights18 == True else 0, version19, ) ) else: cmd = ( '"%s" infer/modules/train/train.py -e "%s" -sr %s -f0 %s -bs %s -te %s -se %s %s %s -l %s -c %s -sw %s -v %s' % ( config.python_cmd, exp_dir1, sr2, 1 if if_f0_3 else 0, batch_size12, total_epoch11, save_epoch10, "-pg %s" % pretrained_G14 if pretrained_G14 != "" else "", "-pd %s" % pretrained_D15 if pretrained_D15 != "" else "", 1 if if_save_latest13 == True else 0, 1 if if_cache_gpu17 == True else 0, 1 if if_save_every_weights18 == True else 0, version19, ) ) logger.info(cmd) global p p = Popen(cmd, shell=True, cwd=now_dir) global PID PID = p.pid p.wait() return i18n("Training is done, check train.log"), {"visible": False, "__type__": "update"}, {"visible": True, "__type__": "update"} def train_index(exp_dir1, version19): # exp_dir = "%s/logs/%s" % (now_dir, exp_dir1) exp_dir = "logs/%s" % (exp_dir1) os.makedirs(exp_dir, exist_ok=True) feature_dir = ( "%s/3_feature256" % (exp_dir) if version19 == "v1" else "%s/3_feature768" % (exp_dir) ) if not os.path.exists(feature_dir): return "请先进行特征提取!" listdir_res = list(os.listdir(feature_dir)) if len(listdir_res) == 0: return "请先进行特征提取!" infos = [] npys = [] for name in sorted(listdir_res): phone = np.load("%s/%s" % (feature_dir, name)) npys.append(phone) big_npy = np.concatenate(npys, 0) big_npy_idx = np.arange(big_npy.shape[0]) np.random.shuffle(big_npy_idx) big_npy = big_npy[big_npy_idx] if big_npy.shape[0] > 2e5: infos.append("Trying doing kmeans %s shape to 10k centers." % big_npy.shape[0]) yield "\n".join(infos) try: big_npy = ( MiniBatchKMeans( n_clusters=10000, verbose=True, batch_size=256 * config.n_cpu, compute_labels=False, init="random", ) .fit(big_npy) .cluster_centers_ ) except: info = traceback.format_exc() logger.info(info) infos.append(info) yield "\n".join(infos) np.save("%s/total_fea.npy" % exp_dir, big_npy) n_ivf = min(int(16 * np.sqrt(big_npy.shape[0])), big_npy.shape[0] // 39) infos.append("%s,%s" % (big_npy.shape, n_ivf)) yield "\n".join(infos) index = faiss.index_factory(256 if version19 == "v1" else 768, "IVF%s,Flat" % n_ivf) # index = faiss.index_factory(256if version19=="v1"else 768, "IVF%s,PQ128x4fs,RFlat"%n_ivf) infos.append("training") yield "\n".join(infos) index_ivf = faiss.extract_index_ivf(index) # index_ivf.nprobe = 1 index.train(big_npy) faiss.write_index( index, "%s/trained_IVF%s_Flat_nprobe_%s_%s_%s.index" % (exp_dir, n_ivf, index_ivf.nprobe, exp_dir1, version19), ) infos.append("adding") yield "\n".join(infos) batch_size_add = 8192 for i in range(0, big_npy.shape[0], batch_size_add): index.add(big_npy[i : i + batch_size_add]) faiss.write_index( index, "%s/added_IVF%s_Flat_nprobe_%s_%s_%s.index" % (exp_dir, n_ivf, index_ivf.nprobe, exp_dir1, version19), ) infos.append( "Successful Index Construction,added_IVF%s_Flat_nprobe_%s_%s_%s.index" % (n_ivf, index_ivf.nprobe, exp_dir1, version19) ) # faiss.write_index(index, '%s/added_IVF%s_Flat_FastScan_%s.index'%(exp_dir,n_ivf,version19)) # infos.append("成功构建索引,added_IVF%s_Flat_FastScan_%s.index"%(n_ivf,version19)) yield "\n".join(infos) def change_info_(ckpt_path): if not os.path.exists(ckpt_path.replace(os.path.basename(ckpt_path), "train.log")): return {"__type__": "update"}, {"__type__": "update"}, {"__type__": "update"} try: with open( ckpt_path.replace(os.path.basename(ckpt_path), "train.log"), "r" ) as f: info = eval(f.read().strip("\n").split("\n")[0].split("\t")[-1]) sr, f0 = info["sample_rate"], info["if_f0"] version = "v2" if ("version" in info and info["version"] == "v2") else "v1" return sr, str(f0), version except: traceback.print_exc() return {"__type__": "update"}, {"__type__": "update"}, {"__type__": "update"} F0GPUVisible = config.dml == False def change_f0_method(f0method8): if f0method8 == "rmvpe_gpu": visible = F0GPUVisible else: visible = False return {"visible": visible, "__type__": "update"} def export_onnx(model_path, exported_path): device = torch.device("cpu") checkpoint = torch.load(model_path, map_location=device) vec_channels = 256 if checkpoint.get("version", "v1") == "v1" else 768 test_inputs = { "phone": torch.rand(1, 200, vec_channels), "phone_lengths": torch.LongTensor([200]), "pitch": torch.randint(5, 255, (1, 200)), "pitchf": torch.rand(1, 200), "ds": torch.zeros(1).long(), "rnd": torch.rand(1, 192, 200) } checkpoint["config"][-3] = checkpoint["weight"]["emb_g.weight"].shape[0] net_g = SynthesizerTrnMsNSFsidM(*checkpoint["config"], is_half=False, version=checkpoint.get("version", "v1")) net_g.load_state_dict(checkpoint["weight"], strict=False) net_g = net_g.to(device) dynamic_axes = {"phone": [1], "pitch": [1], "pitchf": [1], "rnd": [2]} torch.onnx.export( net_g, tuple(value.to(device) for value in test_inputs.values()), exported_path, dynamic_axes=dynamic_axes, do_constant_folding=False, opset_version=13, verbose=False, input_names=list(test_inputs.keys()), output_names=["audio"], ) return "Finished" import re as regex import scipy.io.wavfile as wavfile cli_current_page = "HOME" def cli_split_command(com): exp = r'(?:(?<=\s)|^)"(.*?)"(?=\s|$)|(\S+)' split_array = regex.findall(exp, com) split_array = [group[0] if group[0] else group[1] for group in split_array] return split_array def execute_generator_function(genObject): for _ in genObject: pass def cli_infer(com): # get VC first com = cli_split_command(com) model_name = com[0] source_audio_path = com[1] output_file_name = com[2] feature_index_path = com[3] f0_file = None # Not Implemented Yet # Get parameters for inference speaker_id = int(com[4]) transposition = float(com[5]) f0_method = com[6] crepe_hop_length = int(com[7]) harvest_median_filter = int(com[8]) resample = int(com[9]) mix = float(com[10]) feature_ratio = float(com[11]) protection_amnt = float(com[12]) protect1 = 0.5 if com[14] == "False" or com[14] == "false": DoFormant = False Quefrency = 0.0 Timbre = 0.0 CSVutil( "csvdb/formanting.csv", "w+", "formanting", DoFormant, Quefrency, Timbre ) else: DoFormant = True Quefrency = float(com[15]) Timbre = float(com[16]) CSVutil( "csvdb/formanting.csv", "w+", "formanting", DoFormant, Quefrency, Timbre ) print("Mangio-RVC-Fork Infer-CLI: Starting the inference...") vc_data = vc.get_vc(model_name, protection_amnt, protect1) print(vc_data) print("Mangio-RVC-Fork Infer-CLI: Performing inference...") conversion_data = vc.vc_single( speaker_id, source_audio_path, source_audio_path, transposition, f0_file, f0_method, feature_index_path, feature_index_path, feature_ratio, harvest_median_filter, resample, mix, protection_amnt, crepe_hop_length, ) if "Success." in conversion_data[0]: print( "Mangio-RVC-Fork Infer-CLI: Inference succeeded. Writing to %s/%s..." % ("audio-outputs", output_file_name) ) wavfile.write( "%s/%s" % ("audio-outputs", output_file_name), conversion_data[1][0], conversion_data[1][1], ) print( "Mangio-RVC-Fork Infer-CLI: Finished! Saved output to %s/%s" % ("audio-outputs", output_file_name) ) else: print("Mangio-RVC-Fork Infer-CLI: Inference failed. Here's the traceback: ") print(conversion_data[0]) def cli_pre_process(com): com = cli_split_command(com) model_name = com[0] trainset_directory = com[1] sample_rate = com[2] num_processes = int(com[3]) print("Mangio-RVC-Fork Pre-process: Starting...") generator = preprocess_dataset( trainset_directory, model_name, sample_rate, num_processes ) execute_generator_function(generator) print("Mangio-RVC-Fork Pre-process: Finished") def cli_extract_feature(com): com = cli_split_command(com) model_name = com[0] gpus = com[1] num_processes = int(com[2]) has_pitch_guidance = True if (int(com[3]) == 1) else False f0_method = com[4] crepe_hop_length = int(com[5]) version = com[6] # v1 or v2 print("Mangio-RVC-CLI: Extract Feature Has Pitch: " + str(has_pitch_guidance)) print("Mangio-RVC-CLI: Extract Feature Version: " + str(version)) print("Mangio-RVC-Fork Feature Extraction: Starting...") generator = extract_f0_feature( gpus, num_processes, f0_method, has_pitch_guidance, model_name, version, crepe_hop_length, ) execute_generator_function(generator) print("Mangio-RVC-Fork Feature Extraction: Finished") def cli_train(com): com = cli_split_command(com) model_name = com[0] sample_rate = com[1] has_pitch_guidance = True if (int(com[2]) == 1) else False speaker_id = int(com[3]) save_epoch_iteration = int(com[4]) total_epoch = int(com[5]) # 10000 batch_size = int(com[6]) gpu_card_slot_numbers = com[7] if_save_latest = True if (int(com[8]) == 1) else False if_cache_gpu = True if (int(com[9]) == 1) else False if_save_every_weight = True if (int(com[10]) == 1) else False version = com[11] pretrained_base = "pretrained/" if version == "v1" else "pretrained_v2/" g_pretrained_path = "%sf0G%s.pth" % (pretrained_base, sample_rate) d_pretrained_path = "%sf0D%s.pth" % (pretrained_base, sample_rate) print("Mangio-RVC-Fork Train-CLI: Training...") click_train( model_name, sample_rate, has_pitch_guidance, speaker_id, save_epoch_iteration, total_epoch, batch_size, if_save_latest, g_pretrained_path, d_pretrained_path, gpu_card_slot_numbers, if_cache_gpu, if_save_every_weight, version, ) def cli_train_feature(com): com = cli_split_command(com) model_name = com[0] version = com[1] print("Mangio-RVC-Fork Train Feature Index-CLI: Training... Please wait") generator = train_index(model_name, version) execute_generator_function(generator) print("Mangio-RVC-Fork Train Feature Index-CLI: Done!") def cli_extract_model(com): com = cli_split_command(com) model_path = com[0] save_name = com[1] sample_rate = com[2] has_pitch_guidance = com[3] info = com[4] version = com[5] extract_small_model_process = extract_small_model( model_path, save_name, sample_rate, has_pitch_guidance, info, version ) if extract_small_model_process == "Success.": print("Mangio-RVC-Fork Extract Small Model: Success!") else: print(str(extract_small_model_process)) print("Mangio-RVC-Fork Extract Small Model: Failed!") def preset_apply(preset, qfer, tmbr): if str(preset) != "": with open(str(preset), "r") as p: content = p.readlines() qfer, tmbr = content[0].split("\n")[0], content[1] formant_apply(qfer, tmbr) else: pass return ( {"value": qfer, "__type__": "update"}, {"value": tmbr, "__type__": "update"}, ) def print_page_details(): if cli_current_page == "HOME": print( "\n go home : Takes you back to home with a navigation list." "\n go infer : Takes you to inference command execution." "\n go pre-process : Takes you to training step.1) pre-process command execution." "\n go extract-feature : Takes you to training step.2) extract-feature command execution." "\n go train : Takes you to training step.3) being or continue training command execution." "\n go train-feature : Takes you to the train feature index command execution." "\n go extract-model : Takes you to the extract small model command execution." ) elif cli_current_page == "INFER": print( "\n arg 1) model name with .pth in ./weights: mi-test.pth" "\n arg 2) source audio path: myFolder\\MySource.wav" "\n arg 3) output file name to be placed in './audio-outputs': MyTest.wav" "\n arg 4) feature index file path: logs/mi-test/added_IVF3042_Flat_nprobe_1.index" "\n arg 5) speaker id: 0" "\n arg 6) transposition: 0" "\n arg 7) f0 method: harvest (pm, harvest, crepe, crepe-tiny, hybrid[x,x,x,x], mangio-crepe, mangio-crepe-tiny, rmvpe)" "\n arg 8) crepe hop length: 160" "\n arg 9) harvest median filter radius: 3 (0-7)" "\n arg 10) post resample rate: 0" "\n arg 11) mix volume envelope: 1" "\n arg 12) feature index ratio: 0.78 (0-1)" "\n arg 13) Voiceless Consonant Protection (Less Artifact): 0.33 (Smaller number = more protection. 0.50 means Dont Use.)" "\n arg 14) Whether to formant shift the inference audio before conversion: False (if set to false, you can ignore setting the quefrency and timbre values for formanting)" "\n arg 15)* Quefrency for formanting: 8.0 (no need to set if arg14 is False/false)" "\n arg 16)* Timbre for formanting: 1.2 (no need to set if arg14 is False/false) \n" "\nExample: mi-test.pth saudio/Sidney.wav myTest.wav logs/mi-test/added_index.index 0 -2 harvest 160 3 0 1 0.95 0.33 0.45 True 8.0 1.2" ) elif cli_current_page == "PRE-PROCESS": print( "\n arg 1) Model folder name in ./logs: mi-test" "\n arg 2) Trainset directory: mydataset (or) E:\\my-data-set" "\n arg 3) Sample rate: 40k (32k, 40k, 48k)" "\n arg 4) Number of CPU threads to use: 8 \n" "\nExample: mi-test mydataset 40k 24" ) elif cli_current_page == "EXTRACT-FEATURE": print( "\n arg 1) Model folder name in ./logs: mi-test" "\n arg 2) Gpu card slot: 0 (0-1-2 if using 3 GPUs)" "\n arg 3) Number of CPU threads to use: 8" "\n arg 4) Has Pitch Guidance?: 1 (0 for no, 1 for yes)" "\n arg 5) f0 Method: harvest (pm, harvest, dio, crepe)" "\n arg 6) Crepe hop length: 128" "\n arg 7) Version for pre-trained models: v2 (use either v1 or v2)\n" "\nExample: mi-test 0 24 1 harvest 128 v2" ) elif cli_current_page == "TRAIN": print( "\n arg 1) Model folder name in ./logs: mi-test" "\n arg 2) Sample rate: 40k (32k, 40k, 48k)" "\n arg 3) Has Pitch Guidance?: 1 (0 for no, 1 for yes)" "\n arg 4) speaker id: 0" "\n arg 5) Save epoch iteration: 50" "\n arg 6) Total epochs: 10000" "\n arg 7) Batch size: 8" "\n arg 8) Gpu card slot: 0 (0-1-2 if using 3 GPUs)" "\n arg 9) Save only the latest checkpoint: 0 (0 for no, 1 for yes)" "\n arg 10) Whether to cache training set to vram: 0 (0 for no, 1 for yes)" "\n arg 11) Save extracted small model every generation?: 0 (0 for no, 1 for yes)" "\n arg 12) Model architecture version: v2 (use either v1 or v2)\n" "\nExample: mi-test 40k 1 0 50 10000 8 0 0 0 0 v2" ) elif cli_current_page == "TRAIN-FEATURE": print( "\n arg 1) Model folder name in ./logs: mi-test" "\n arg 2) Model architecture version: v2 (use either v1 or v2)\n" "\nExample: mi-test v2" ) elif cli_current_page == "EXTRACT-MODEL": print( "\n arg 1) Model Path: logs/mi-test/G_168000.pth" "\n arg 2) Model save name: MyModel" "\n arg 3) Sample rate: 40k (32k, 40k, 48k)" "\n arg 4) Has Pitch Guidance?: 1 (0 for no, 1 for yes)" '\n arg 5) Model information: "My Model"' "\n arg 6) Model architecture version: v2 (use either v1 or v2)\n" '\nExample: logs/mi-test/G_168000.pth MyModel 40k 1 "Created by Cole Mangio" v2' ) def change_page(page): global cli_current_page cli_current_page = page return 0 def execute_command(com): if com == "go home": return change_page("HOME") elif com == "go infer": return change_page("INFER") elif com == "go pre-process": return change_page("PRE-PROCESS") elif com == "go extract-feature": return change_page("EXTRACT-FEATURE") elif com == "go train": return change_page("TRAIN") elif com == "go train-feature": return change_page("TRAIN-FEATURE") elif com == "go extract-model": return change_page("EXTRACT-MODEL") else: if com[:3] == "go ": print("page '%s' does not exist!" % com[3:]) return 0 if cli_current_page == "INFER": cli_infer(com) elif cli_current_page == "PRE-PROCESS": cli_pre_process(com) elif cli_current_page == "EXTRACT-FEATURE": cli_extract_feature(com) elif cli_current_page == "TRAIN": cli_train(com) elif cli_current_page == "TRAIN-FEATURE": cli_train_feature(com) elif cli_current_page == "EXTRACT-MODEL": cli_extract_model(com) def cli_navigation_loop(): while True: print("\nYou are currently in '%s':" % cli_current_page) print_page_details() command = input("%s: " % cli_current_page) try: execute_command(command) except: print(traceback.format_exc()) if config.is_cli: print("\n\nMangio-RVC-Fork v2 CLI App!\n") print( "Welcome to the CLI version of RVC. Please read the documentation on https://github.com/Mangio621/Mangio-RVC-Fork (README.MD) to understand how to use this app.\n" ) cli_navigation_loop() def switch_pitch_controls(f0method0): is_visible = f0method0 != 'rmvpe' if rvc_globals.NotesOrHertz: return ( {"visible": False, "__type__": "update"}, {"visible": is_visible, "__type__": "update"}, {"visible": False, "__type__": "update"}, {"visible": is_visible, "__type__": "update"} ) else: return ( {"visible": is_visible, "__type__": "update"}, {"visible": False, "__type__": "update"}, {"visible": is_visible, "__type__": "update"}, {"visible": False, "__type__": "update"} ) def match_index(sid0): picked = False # folder = sid0.split('.')[0] # folder = re.split(r'. |_', sid0)[0] folder = sid0.split(".")[0].split("_")[0] # folder_test = sid0.split('.')[0].split('_')[0].split('-')[0] parent_dir = "./logs/" + folder # print(parent_dir) if os.path.exists(parent_dir): # print('path exists') for filename in os.listdir(parent_dir.replace("\\", "/")): if filename.endswith(".index"): for i in range(len(indexes_list)): if indexes_list[i] == ( os.path.join(("./logs/" + folder), filename).replace("\\", "/") ): # print('regular index found') break else: if indexes_list[i] == ( os.path.join( ("./logs/" + folder.lower()), filename ).replace("\\", "/") ): # print('lowered index found') parent_dir = "./logs/" + folder.lower() break # elif (indexes_list[i]).casefold() == ((os.path.join(("./logs/" + folder), filename).replace('\\','/')).casefold()): # print('8') # parent_dir = "./logs/" + folder.casefold() # break # elif (indexes_list[i]) == ((os.path.join(("./logs/" + folder_test), filename).replace('\\','/'))): # parent_dir = "./logs/" + folder_test # print(parent_dir) # break # elif (indexes_list[i]) == (os.path.join(("./logs/" + folder_test.lower()), filename).replace('\\','/')): # parent_dir = "./logs/" + folder_test # print(parent_dir) # break # else: # #print('couldnt find index') # continue # print('all done') index_path = os.path.join( parent_dir.replace("\\", "/"), filename.replace("\\", "/") ).replace("\\", "/") # print(index_path) return (index_path, index_path) else: # print('nothing found') return ("", "") def stoptraining(mim): if int(mim) == 1: CSVutil("csvdb/stop.csv", "w+", "stop", "True") # p.terminate() # p.kill() try: os.kill(PID, signal.SIGTERM) except Exception as e: print(f"Couldn't click due to {e}") pass else: pass return ( {"visible": False, "__type__": "update"}, {"visible": True, "__type__": "update"}, ) weights_dir = 'weights/' def note_to_hz(note_name): SEMITONES = {'C': -9, 'C#': -8, 'D': -7, 'D#': -6, 'E': -5, 'F': -4, 'F#': -3, 'G': -2, 'G#': -1, 'A': 0, 'A#': 1, 'B': 2} pitch_class, octave = note_name[:-1], int(note_name[-1]) semitone = SEMITONES[pitch_class] note_number = 12 * (octave - 4) + semitone frequency = 440.0 * (2.0 ** (1.0/12)) ** note_number return frequency def save_to_wav(record_button): if record_button is None: pass else: path_to_file=record_button new_name = datetime.datetime.now().strftime("%Y-%m-%d_%H-%M-%S")+'.wav' new_path='./audios/'+new_name shutil.move(path_to_file,new_path) return new_name def save_to_wav2_edited(dropbox): if dropbox is None: pass else: file_path = dropbox.name target_path = os.path.join('audios', os.path.basename(file_path)) if os.path.exists(target_path): os.remove(target_path) print('Replacing old dropdown file...') shutil.move(file_path, target_path) return def save_to_wav2(dropbox): file_path = dropbox.name target_path = os.path.join('audios', os.path.basename(file_path)) if os.path.exists(target_path): os.remove(target_path) print('Replacing old dropdown file...') shutil.move(file_path, target_path) return target_path from gtts import gTTS import edge_tts import asyncio def custom_voice( _values, # filter indices audio_files, # all audio files model_voice_path='', transpose=0, f0method='pm', index_rate_=float(0.66), crepe_hop_length_=float(64), f0_autotune=False, file_index='', file_index2='', ): vc.get_vc(model_voice_path) for _value_item in _values: filename = "audio2/"+audio_files[_value_item] if _value_item != "converted_tts" else audio_files[0] #filename = "audio2/"+audio_files[_value_item] try: print(audio_files[_value_item], model_voice_path) except: pass info_, (sample_, audio_output_) = vc.vc_single_dont_save( sid=0, input_audio_path0=filename, #f"audio2/{filename}", input_audio_path1=filename, #f"audio2/{filename}", f0_up_key=transpose, # transpose for m to f and reverse 0 12 f0_file=None, f0_method= f0method, file_index= file_index, # dir pwd? file_index2= file_index2, # file_big_npy1, index_rate= index_rate_, filter_radius= int(3), resample_sr= int(0), rms_mix_rate= float(0.25), protect= float(0.33), crepe_hop_length= crepe_hop_length_, f0_autotune=f0_autotune, f0_min=50, note_min=50, f0_max=1100, note_max=1100 ) sf.write( file= filename, #f"audio2/{filename}", samplerate=sample_, data=audio_output_ ) def cast_to_device(tensor, device): try: return tensor.to(device) except Exception as e: print(e) return tensor def __bark__(text, voice_preset): os.makedirs(os.path.join(now_dir,"tts"), exist_ok=True) from transformers import AutoProcessor, BarkModel device = "cuda:0" if torch.cuda.is_available() else "cpu" dtype = torch.float32 if "cpu" in device else torch.float16 bark_processor = AutoProcessor.from_pretrained( "suno/bark", cache_dir=os.path.join(now_dir,"tts","suno/bark"), torch_dtype=dtype) bark_model = BarkModel.from_pretrained( "suno/bark", cache_dir=os.path.join(now_dir,"tts","suno/bark"), torch_dtype=dtype).to(device) # bark_model.enable_cpu_offload() inputs = bark_processor( text=[text], return_tensors="pt", voice_preset=voice_preset ) tensor_dict = {k: cast_to_device(v,device) if hasattr(v,"to") else v for k, v in inputs.items()} speech_values = bark_model.generate(**tensor_dict, do_sample=True) sampling_rate = bark_model.generation_config.sample_rate speech = speech_values.cpu().numpy().squeeze() return speech, sampling_rate def make_test( tts_text, tts_voice, model_path, index_path, transpose, f0_method, index_rate, crepe_hop_length, f0_autotune, tts_method ): if tts_voice == None: return filename = os.path.join(now_dir, "audio-outputs", "converted_tts.wav") if "SET_LIMIT" == os.getenv("DEMO"): if len(tts_text) > 60: tts_text = tts_text[:60] print("DEMO; limit to 60 characters") language = tts_voice[:2] if tts_method == "Edge-tts": try: #nest_asyncio.apply() # gradio;not asyncio.run(edge_tts.Communicate(tts_text, "-".join(tts_voice.split('-')[:-1])).save(filename)) except: try: tts = gTTS(tts_text, lang=language) tts.save(filename) tts.save print(f'No audio was received. Please change the tts voice for {tts_voice}. USING gTTS.') except: tts = gTTS('a', lang=language) tts.save(filename) print('Error: Audio will be replaced.') os.system("cp audio-outputs/converted_tts.wav audio-outputs/real_tts.wav") custom_voice( ["converted_tts"], # filter indices ["audio-outputs/converted_tts.wav"], # all audio files model_voice_path=model_path, transpose=transpose, f0method=f0_method, index_rate_=index_rate, crepe_hop_length_=crepe_hop_length, f0_autotune=f0_autotune, file_index='', file_index2=index_path, ) return os.path.join(now_dir, "audio-outputs", "converted_tts.wav"), os.path.join(now_dir, "audio-outputs", "real_tts.wav") elif tts_method == "Bark-tts": try: script = tts_text.replace("\n", " ").strip() sentences = sent_tokenize(script) print(sentences) silence = np.zeros(int(0.25 * SAMPLE_RATE)) pieces = [] nombre_archivo = os.path.join(now_dir, "audio-outputs", "bark_out.wav") for sentence in sentences: audio_array , _ = __bark__(sentence, tts_voice.split("-")[0]) pieces += [audio_array, silence.copy()] sf.write( file= nombre_archivo, samplerate=SAMPLE_RATE, data=np.concatenate(pieces) ) vc.get_vc(model_path) info_, (sample_, audio_output_) = vc.vc_single_dont_save( sid=0, input_audio_path0=os.path.join(now_dir, "audio-outputs", "bark_out.wav"), #f"audio2/{filename}", input_audio_path1=os.path.join(now_dir, "audio-outputs", "bark_out.wav"), #f"audio2/{filename}", f0_up_key=transpose, # transpose for m to f and reverse 0 12 f0_file=None, f0_method=f0_method, file_index= '', # dir pwd? file_index2= index_path, # file_big_npy1, index_rate= index_rate, filter_radius= int(3), resample_sr= int(0), rms_mix_rate= float(0.25), protect= float(0.33), crepe_hop_length= crepe_hop_length, f0_autotune=f0_autotune, f0_min=50, note_min=50, f0_max=1100, note_max=1100 ) wavfile.write(os.path.join(now_dir, "audio-outputs", "converted_bark.wav"), rate=sample_, data=audio_output_) return os.path.join(now_dir, "audio-outputs", "converted_bark.wav"), nombre_archivo except Exception as e: print(f"{e}") return None, None def GradioSetup(UTheme=gr.themes.Soft()): default_weight = names[0] if names else '' with gr.Blocks(theme='JohnSmith9982/small_and_pretty', title="Applio") as app: gr.HTML("