import os if 'XDG_CACHE_HOME' not in os.environ: os.environ['XDG_CACHE_HOME'] = os.path.realpath(os.path.join(os.getcwd(), './models/')) if 'TORTOISE_MODELS_DIR' not in os.environ: os.environ['TORTOISE_MODELS_DIR'] = os.path.realpath(os.path.join(os.getcwd(), './models/tortoise/')) if 'TRANSFORMERS_CACHE' not in os.environ: os.environ['TRANSFORMERS_CACHE'] = os.path.realpath(os.path.join(os.getcwd(), './models/transformers/')) import argparse import time import json import base64 import re import urllib.request import signal import gc import subprocess import yaml import tqdm import torch import torchaudio import music_tag import gradio as gr import gradio.utils import pandas as pd from datetime import datetime from datetime import timedelta from tortoise.api import TextToSpeech, MODELS, get_model_path from tortoise.utils.audio import load_audio, load_voice, load_voices, get_voice_dir from tortoise.utils.text import split_and_recombine_text from tortoise.utils.device import get_device_name, set_device_name MODELS['dvae.pth'] = "https://huggingface.co/jbetker/tortoise-tts-v2/resolve/3704aea61678e7e468a06d8eea121dba368a798e/.models/dvae.pth" args = None tts = None tts_loading = False webui = None voicefixer = None whisper_model = None training_state = None def generate( text, delimiter, emotion, prompt, voice, mic_audio, voice_latents_chunks, seed, candidates, num_autoregressive_samples, diffusion_iterations, temperature, diffusion_sampler, breathing_room, cvvp_weight, top_p, diffusion_temperature, length_penalty, repetition_penalty, cond_free_k, experimental_checkboxes, progress=None ): global args global tts unload_whisper() unload_voicefixer() if not tts: # should check if it's loading or unloaded, and load it if it's unloaded if tts_loading: raise Exception("TTS is still initializing...") load_tts() do_gc() if voice != "microphone": voices = [voice] else: voices = [] if voice == "microphone": if mic_audio is None: raise Exception("Please provide audio from mic when choosing `microphone` as a voice input") mic = load_audio(mic_audio, tts.input_sample_rate) voice_samples, conditioning_latents = [mic], None elif voice == "random": voice_samples, conditioning_latents = None, tts.get_random_conditioning_latents() else: progress(0, desc="Loading voice...") voice_samples, conditioning_latents = load_voice(voice) if voice_samples and len(voice_samples) > 0: sample_voice = torch.cat(voice_samples, dim=-1).squeeze().cpu() conditioning_latents = tts.get_conditioning_latents(voice_samples, return_mels=not args.latents_lean_and_mean, progress=progress, slices=voice_latents_chunks, force_cpu=args.force_cpu_for_conditioning_latents) if len(conditioning_latents) == 4: conditioning_latents = (conditioning_latents[0], conditioning_latents[1], conditioning_latents[2], None) if voice != "microphone": torch.save(conditioning_latents, f'{get_voice_dir()}/{voice}/cond_latents.pth') voice_samples = None else: if conditioning_latents is not None: sample_voice, _ = load_voice(voice, load_latents=False) if sample_voice and len(sample_voice) > 0: sample_voice = torch.cat(sample_voice, dim=-1).squeeze().cpu() else: sample_voice = None if seed == 0: seed = None if conditioning_latents is not None and len(conditioning_latents) == 2 and cvvp_weight > 0: print("Requesting weighing against CVVP weight, but voice latents are missing some extra data. Please regenerate your voice latents.") cvvp_weight = 0 settings = { 'temperature': float(temperature), 'top_p': float(top_p), 'diffusion_temperature': float(diffusion_temperature), 'length_penalty': float(length_penalty), 'repetition_penalty': float(repetition_penalty), 'cond_free_k': float(cond_free_k), 'num_autoregressive_samples': num_autoregressive_samples, 'sample_batch_size': args.sample_batch_size, 'diffusion_iterations': diffusion_iterations, 'voice_samples': voice_samples, 'conditioning_latents': conditioning_latents, 'use_deterministic_seed': seed, 'return_deterministic_state': True, 'k': candidates, 'diffusion_sampler': diffusion_sampler, 'breathing_room': breathing_room, 'progress': progress, 'half_p': "Half Precision" in experimental_checkboxes, 'cond_free': "Conditioning-Free" in experimental_checkboxes, 'cvvp_amount': cvvp_weight, } # clamp it down for the insane users who want this # it would be wiser to enforce the sample size to the batch size, but this is what the user wants sample_batch_size = args.sample_batch_size if not sample_batch_size: sample_batch_size = tts.autoregressive_batch_size if num_autoregressive_samples < sample_batch_size: settings['sample_batch_size'] = num_autoregressive_samples if delimiter is None: delimiter = "\n" elif delimiter == "\\n": delimiter = "\n" if delimiter and delimiter != "" and delimiter in text: texts = text.split(delimiter) else: texts = split_and_recombine_text(text) full_start_time = time.time() outdir = f"./results/{voice}/" os.makedirs(outdir, exist_ok=True) audio_cache = {} resample = None if tts.output_sample_rate != args.output_sample_rate: resampler = torchaudio.transforms.Resample( tts.output_sample_rate, args.output_sample_rate, lowpass_filter_width=16, rolloff=0.85, resampling_method="kaiser_window", beta=8.555504641634386, ) volume_adjust = torchaudio.transforms.Vol(gain=args.output_volume, gain_type="amplitude") if args.output_volume != 1 else None idx = 0 idx_cache = {} for i, file in enumerate(os.listdir(outdir)): filename = os.path.basename(file) extension = os.path.splitext(filename)[1] if extension != ".json" and extension != ".wav": continue match = re.findall(rf"^{voice}_(\d+)(?:.+?)?{extension}$", filename) key = int(match[0]) idx_cache[key] = True if len(idx_cache) > 0: keys = sorted(list(idx_cache.keys())) idx = keys[-1] + 1 idx = pad(idx, 4) def get_name(line=0, candidate=0, combined=False): name = f"{idx}" if combined: name = f"{name}_combined" elif len(texts) > 1: name = f"{name}_{line}" if candidates > 1: name = f"{name}_{candidate}" return name for line, cut_text in enumerate(texts): if emotion == "Custom": if prompt and prompt.strip() != "": cut_text = f"[{prompt},] {cut_text}" else: cut_text = f"[I am really {emotion.lower()},] {cut_text}" progress.msg_prefix = f'[{str(line+1)}/{str(len(texts))}]' print(f"{progress.msg_prefix} Generating line: {cut_text}") start_time = time.time() gen, additionals = tts.tts(cut_text, **settings ) seed = additionals[0] run_time = time.time()-start_time print(f"Generating line took {run_time} seconds") if not isinstance(gen, list): gen = [gen] for j, g in enumerate(gen): audio = g.squeeze(0).cpu() name = get_name(line=line, candidate=j) audio_cache[name] = { 'audio': audio, 'text': cut_text, 'time': run_time } # save here in case some error happens mid-batch torchaudio.save(f'{outdir}/{voice}_{name}.wav', audio, tts.output_sample_rate) del gen do_gc() for k in audio_cache: audio = audio_cache[k]['audio'] if resampler is not None: audio = resampler(audio) if volume_adjust is not None: audio = volume_adjust(audio) audio_cache[k]['audio'] = audio torchaudio.save(f'{outdir}/{voice}_{k}.wav', audio, args.output_sample_rate) output_voices = [] for candidate in range(candidates): if len(texts) > 1: audio_clips = [] for line in range(len(texts)): name = get_name(line=line, candidate=candidate) audio = audio_cache[name]['audio'] audio_clips.append(audio) name = get_name(candidate=candidate, combined=True) audio = torch.cat(audio_clips, dim=-1) torchaudio.save(f'{outdir}/{voice}_{name}.wav', audio, args.output_sample_rate) audio = audio.squeeze(0).cpu() audio_cache[name] = { 'audio': audio, 'text': text, 'time': time.time()-full_start_time, 'output': True } else: name = get_name(candidate=candidate) audio_cache[name]['output'] = True info = { 'text': text, 'delimiter': '\\n' if delimiter and delimiter == "\n" else delimiter, 'emotion': emotion, 'prompt': prompt, 'voice': voice, 'seed': seed, 'candidates': candidates, 'num_autoregressive_samples': num_autoregressive_samples, 'diffusion_iterations': diffusion_iterations, 'temperature': temperature, 'diffusion_sampler': diffusion_sampler, 'breathing_room': breathing_room, 'cvvp_weight': cvvp_weight, 'top_p': top_p, 'diffusion_temperature': diffusion_temperature, 'length_penalty': length_penalty, 'repetition_penalty': repetition_penalty, 'cond_free_k': cond_free_k, 'experimentals': experimental_checkboxes, 'time': time.time()-full_start_time, 'datetime': datetime.now().isoformat(), 'model': tts.autoregressive_model_path, 'model_hash': tts.autoregressive_model_hash if hasattr(tts, 'autoregressive_model_hash') else None, } """ # kludgy yucky codesmells for name in audio_cache: if 'output' not in audio_cache[name]: continue #output_voices.append(f'{outdir}/{voice}_{name}.wav') output_voices.append(name) if not args.embed_output_metadata: with open(f'{outdir}/{voice}_{name}.json', 'w', encoding="utf-8") as f: f.write(json.dumps(info, indent='\t') ) """ if args.voice_fixer: if not voicefixer: progress(0, "Loading voicefix...") load_voicefixer() fixed_cache = {} for name in progress.tqdm(audio_cache, desc="Running voicefix..."): del audio_cache[name]['audio'] if 'output' not in audio_cache[name] or not audio_cache[name]['output']: continue path = f'{outdir}/{voice}_{name}.wav' fixed = f'{outdir}/{voice}_{name}_fixed.wav' voicefixer.restore( input=path, output=fixed, cuda=get_device_name() == "cuda" and args.voice_fixer_use_cuda, #mode=mode, ) fixed_cache[f'{name}_fixed'] = { 'text': audio_cache[name]['text'], 'time': audio_cache[name]['time'], 'output': True } audio_cache[name]['output'] = False for name in fixed_cache: audio_cache[name] = fixed_cache[name] for name in audio_cache: if 'output' not in audio_cache[name] or not audio_cache[name]['output']: if args.prune_nonfinal_outputs: audio_cache[name]['pruned'] = True os.remove(f'{outdir}/{voice}_{name}.wav') continue output_voices.append(f'{outdir}/{voice}_{name}.wav') if not args.embed_output_metadata: with open(f'{outdir}/{voice}_{name}.json', 'w', encoding="utf-8") as f: f.write(json.dumps(info, indent='\t') ) if voice and voice != "random" and conditioning_latents is not None: with open(f'{get_voice_dir()}/{voice}/cond_latents.pth', 'rb') as f: info['latents'] = base64.b64encode(f.read()).decode("ascii") if args.embed_output_metadata: for name in progress.tqdm(audio_cache, desc="Embedding metadata..."): if 'pruned' in audio_cache[name] and audio_cache[name]['pruned']: continue info['text'] = audio_cache[name]['text'] info['time'] = audio_cache[name]['time'] metadata = music_tag.load_file(f"{outdir}/{voice}_{name}.wav") metadata['lyrics'] = json.dumps(info) metadata.save() if sample_voice is not None: sample_voice = (tts.input_sample_rate, sample_voice.numpy()) print(f"Generation took {info['time']} seconds, saved to '{output_voices[0]}'\n") info['seed'] = settings['use_deterministic_seed'] if 'latents' in info: del info['latents'] os.makedirs('./config/', exist_ok=True) with open(f'./config/generate.json', 'w', encoding="utf-8") as f: f.write(json.dumps(info, indent='\t') ) stats = [ [ seed, "{:.3f}".format(info['time']) ] ] return ( sample_voice, output_voices, stats, ) def cancel_generate(): import tortoise.api tortoise.api.STOP_SIGNAL = True def compute_latents(voice, voice_latents_chunks, progress=gr.Progress(track_tqdm=True)): global tts global args unload_whisper() unload_voicefixer() if not tts: if tts_loading: raise Exception("TTS is still initializing...") load_tts() voice_samples, conditioning_latents = load_voice(voice, load_latents=False) if voice_samples is None: return conditioning_latents = tts.get_conditioning_latents(voice_samples, return_mels=not args.latents_lean_and_mean, progress=progress, slices=voice_latents_chunks, force_cpu=args.force_cpu_for_conditioning_latents) if len(conditioning_latents) == 4: conditioning_latents = (conditioning_latents[0], conditioning_latents[1], conditioning_latents[2], None) torch.save(conditioning_latents, f'{get_voice_dir()}/{voice}/cond_latents.pth') return voice # superfluous, but it cleans up some things class TrainingState(): def __init__(self, config_path, keep_x_past_datasets=0): self.cmd = ['train.bat', config_path] if os.name == "nt" else ['bash', './train.sh', config_path] # parse config to get its iteration with open(config_path, 'r') as file: self.config = yaml.safe_load(file) self.dataset_dir = f"./training/{self.config['name']}/" self.batch_size = self.config['datasets']['train']['batch_size'] self.dataset_path = self.config['datasets']['train']['path'] with open(self.dataset_path, 'r', encoding="utf-8") as f: self.dataset_size = len(f.readlines()) self.it = 0 self.its = self.config['train']['niter'] self.epoch = 0 self.epochs = int(self.its*self.batch_size/self.dataset_size) self.checkpoint = 0 self.checkpoints = int(self.its / self.config['logger']['save_checkpoint_freq']) self.buffer = [] self.open_state = False self.training_started = False self.info = {} self.status = "..." self.epoch_rate = "" self.epoch_time_start = 0 self.epoch_time_end = 0 self.epoch_time_deltas = 0 self.epoch_taken = 0 self.it_rate = "" self.it_time_start = 0 self.it_time_end = 0 self.it_time_deltas = 0 self.it_taken = 0 self.last_step = 0 self.eta = "?" self.eta_hhmmss = "?" self.losses = [] self.load_losses() self.cleanup_old(keep=keep_x_past_datasets) self.spawn_process() def spawn_process(self): print("Spawning process: ", " ".join(self.cmd)) self.process = subprocess.Popen(self.cmd, stdout=subprocess.PIPE, stderr=subprocess.STDOUT, universal_newlines=True) def load_losses(self): if not os.path.isdir(self.dataset_dir): return logs = sorted([f'{self.dataset_dir}/{d}' for d in os.listdir(self.dataset_dir) if d[-4:] == ".log" ]) infos = {} for log in logs: with open(log, 'r', encoding="utf-8") as f: lines = f.readlines() for line in lines: if line.find('INFO: [epoch:') >= 0: # easily rip out our stats... match = re.findall(r'\b([a-z_0-9]+?)\b: +?([0-9]\.[0-9]+?e[+-]\d+|[\d,]+)\b', line) if not match or len(match) == 0: continue info = {} for k, v in match: info[k] = float(v.replace(",", "")) if 'iter' in info: it = info['iter'] infos[it] = info for k in infos: if 'loss_gpt_total' in infos[k]: # self.losses.append([ int(k), infos[k]['loss_text_ce'], infos[k]['loss_mel_ce'], infos[k]['loss_gpt_total'] ]) self.losses.append({ "iteration": int(k), "loss": infos[k]['loss_text_ce'], "type": "text_ce" }) self.losses.append({ "iteration": int(k), "loss": infos[k]['loss_mel_ce'], "type": "mel_ce" }) self.losses.append({ "iteration": int(k), "loss": infos[k]['loss_gpt_total'], "type": "gpt_total" }) """ self.losses['iteration'].append(int(k)) self.losses['loss_gpt_total'].append(infos[k]['loss_gpt_total']) """ def cleanup_old(self, keep=2): if keep <= 0: return if not os.path.isdir(self.dataset_dir): return models = sorted([ int(d[:-8]) for d in os.listdir(f'{self.dataset_dir}/models/') if d[-8:] == "_gpt.pth" ]) states = sorted([ int(d[:-6]) for d in os.listdir(f'{self.dataset_dir}/training_state/') if d[-6:] == ".state" ]) remove_models = models[:-2] remove_states = states[:-2] for d in remove_models: path = f'{self.dataset_dir}/models/{d}_gpt.pth' print("Removing", path) os.remove(path) for d in remove_states: path = f'{self.dataset_dir}/training_state/{d}.state' print("Removing", path) os.remove(path) def parse(self, line, verbose=False, buffer_size=8, keep_x_past_datasets=0, progress=None ): self.buffer.append(f'{line}') should_return = False # rip out iteration info if not self.training_started: if line.find('Start training from epoch') >= 0: self.epoch_time_start = time.time() self.training_started = True # could just leverage the above variable, but this is python, and there's no point in these aggressive microoptimizations match = re.findall(r'epoch: ([\d,]+)', line) if match and len(match) > 0: self.epoch = int(match[0].replace(",", "")) match = re.findall(r'iter: ([\d,]+)', line) if match and len(match) > 0: self.it = int(match[0].replace(",", "")) self.checkpoints = int((self.its - self.it) / self.config['logger']['save_checkpoint_freq']) else: lapsed = False message = None if line.find('%|') > 0: match = re.findall(r'(\d+)%\|(.+?)\| (\d+|\?)\/(\d+|\?) \[(.+?)<(.+?), +(.+?)\]', line) if match and len(match) > 0: match = match[0] percent = int(match[0])/100.0 progressbar = match[1] step = int(match[2]) steps = int(match[3]) elapsed = match[4] until = match[5] rate = match[6] last_step = self.last_step self.last_step = step if last_step < step: self.it = self.it + (step - last_step) if last_step == step and step == steps: lapsed = True self.it_time_end = time.time() self.it_time_delta = self.it_time_end-self.it_time_start self.it_time_start = time.time() try: rate = f'{"{:.3f}".format(self.it_time_delta)}s/it' if self.it_time_delta >= 1 else f'{"{:.3f}".format(1/self.it_time_delta)}it/s' self.it_rate = rate except Exception as e: pass last_loss = "" if len(self.losses) > 0: last_loss = f'[Loss @ it. {self.losses[-1]["iteration"]}: {self.losses[-1]["loss"]}]' message = f'[{self.epoch}/{self.epochs}, {self.it}/{self.its}, {step}/{steps}] [{self.epoch_rate}, {self.it_rate}] {last_loss} [ETA: {self.eta_hhmmss}]' if lapsed: self.epoch = self.epoch + 1 self.it = int(self.epoch * (self.dataset_size / self.batch_size)) self.epoch_time_end = time.time() self.epoch_time_delta = self.epoch_time_end-self.epoch_time_start self.epoch_time_start = time.time() self.epoch_rate = f'{"{:.3f}".format(self.epoch_time_delta)}s/epoch' if self.epoch_time_delta >= 1 else f'{"{:.3f}".format(1/self.epoch_time_delta)}epoch/s' # I doubt anyone will have it/s rates, but its here #self.eta = (self.epochs - self.epoch) * self.epoch_time_delta self.epoch_time_deltas = self.epoch_time_deltas + self.epoch_time_delta self.epoch_taken = self.epoch_taken + 1 self.eta = (self.epochs - self.epoch) * (self.epoch_time_deltas / self.epoch_taken) try: eta = str(timedelta(seconds=int(self.eta))) self.eta_hhmmss = eta except Exception as e: pass if message: percent = self.it / float(self.its) # self.epoch / float(self.epochs) if progress is not None: progress(percent, message) self.buffer.append(f'[{"{:.3f}".format(percent*100)}%] {message}') if line.find('INFO: [epoch:') >= 0: # easily rip out our stats... match = re.findall(r'\b([a-z_0-9]+?)\b: +?([0-9]\.[0-9]+?e[+-]\d+|[\d,]+)\b', line) if match and len(match) > 0: for k, v in match: self.info[k] = float(v.replace(",", "")) if 'loss_gpt_total' in self.info: self.status = f"Total loss at epoch {self.epoch}: {self.info['loss_gpt_total']}" self.losses.append({ "iteration": self.it, "loss": self.info['loss_text_ce'], "type": "text_ce" }) self.losses.append({ "iteration": self.it, "loss": self.info['loss_mel_ce'], "type": "mel_ce" }) self.losses.append({ "iteration": self.it, "loss": self.info['loss_gpt_total'], "type": "gpt_total" }) """ self.losses.append([int(k), self.info['loss_text_ce'], "loss_text_ce"]) self.losses.append([int(k), self.info['loss_mel_ce'], "loss_mel_ce"]) self.losses.append([int(k), self.info['loss_gpt_total'], "loss_gpt_total"]) """ """ self.losses['iteration'].append(self.it) self.losses['loss_gpt_total'].append(self.info['loss_gpt_total']) """ should_return = True elif line.find('Saving models and training states') >= 0: self.checkpoint = self.checkpoint + 1 percent = self.checkpoint / float(self.checkpoints) message = f'[{self.checkpoint}/{self.checkpoints}] Saving checkpoint...' if progress is not None: progress(percent, message) print(f'{"{:.3f}".format(percent*100)}% {message}') self.buffer.append(f'{"{:.3f}".format(percent*100)}% {message}') self.cleanup_old(keep=keep_x_past_datasets) if verbose and not self.training_started: should_return = True self.buffer = self.buffer[-buffer_size:] if should_return: return "".join(self.buffer) def run_training(config_path, verbose=False, buffer_size=8, keep_x_past_datasets=0, progress=gr.Progress(track_tqdm=True)): global training_state if training_state and training_state.process: return "Training already in progress" # I don't know if this is still necessary, as it was bitching at me for not doing this, despite it being in a separate process torch.multiprocessing.freeze_support() unload_tts() unload_whisper() unload_voicefixer() training_state = TrainingState(config_path=config_path, keep_x_past_datasets=keep_x_past_datasets) for line in iter(training_state.process.stdout.readline, ""): res = training_state.parse( line=line, verbose=verbose, buffer_size=buffer_size, keep_x_past_datasets=keep_x_past_datasets, progress=progress ) print(f"[Training] [{datetime.now().isoformat()}] {line[:-1]}") if res: yield res if training_state: training_state.process.stdout.close() return_code = training_state.process.wait() training_state = None #if return_code: # raise subprocess.CalledProcessError(return_code, cmd) def get_training_losses(): global training_state if not training_state or not training_state.losses: return return pd.DataFrame(training_state.losses) def update_training_dataplot(): global training_state if not training_state or not training_state.losses: return return gr.LinePlot.update(value=pd.DataFrame(training_state.losses)) def reconnect_training(verbose=False, buffer_size=8, progress=gr.Progress(track_tqdm=True)): global training_state if not training_state or not training_state.process: return "Training not in progress" for line in iter(training_state.process.stdout.readline, ""): res = training_state.parse( line=line, verbose=verbose, buffer_size=buffer_size, progress=progress ) if res: yield res def stop_training(): global training_state if training_state is None: return "No training in progress" print("Killing training process...") training_state.killed = True training_state.process.stdout.close() training_state.process.terminate() return_code = training_state.process.wait() training_state = None return f"Training cancelled: {return_code}" def get_halfp_model_path(): autoregressive_model_path = get_model_path('autoregressive.pth') return autoregressive_model_path.replace(".pth", "_half.pth") def convert_to_halfp(): autoregressive_model_path = get_model_path('autoregressive.pth') print(f'Converting model to half precision: {autoregressive_model_path}') model = torch.load(autoregressive_model_path) for k in model: model[k] = model[k].half() outfile = get_halfp_model_path() torch.save(model, outfile) print(f'Converted model to half precision: {outfile}') def whisper_transcribe( file, language=None ): # shouldn't happen, but it's for safety if not whisper_model: load_whisper_model(language=language if language else b'en') if not args.whisper_cpp: return whisper_model.transcribe(file, language=language if language else "English") res = whisper_model.transcribe(file) segments = whisper_model.extract_text_and_timestamps( res ) result = { 'segments': [] } for segment in segments: reparsed = { 'start': segment[0], 'end': segment[1], 'text': segment[2], } result['segments'].append(reparsed) return result def prepare_dataset( files, outdir, language=None, progress=None ): unload_tts() global whisper_model if whisper_model is None: load_whisper_model(language=language) os.makedirs(outdir, exist_ok=True) idx = 0 results = {} transcription = [] for file in enumerate_progress(files, desc="Iterating through voice files", progress=progress): print(f"Transcribing file: {file}") result = whisper_transcribe(file, language=language) # whisper_model.transcribe(file, language=language if language else "English") results[os.path.basename(file)] = result print(f"Transcribed file: {file}, {len(result['segments'])} found.") waveform, sampling_rate = torchaudio.load(file) num_channels, num_frames = waveform.shape for segment in result['segments']: # enumerate_progress(result['segments'], desc="Segmenting voice file", progress=progress): start = int(segment['start'] * sampling_rate) end = int(segment['end'] * sampling_rate) sliced_waveform = waveform[:, start:end] sliced_name = f"{pad(idx, 4)}.wav" torchaudio.save(f"{outdir}/{sliced_name}", sliced_waveform, sampling_rate) transcription.append(f"{sliced_name}|{segment['text'].strip()}") idx = idx + 1 with open(f'{outdir}/whisper.json', 'w', encoding="utf-8") as f: f.write(json.dumps(results, indent='\t')) with open(f'{outdir}/train.txt', 'w', encoding="utf-8") as f: f.write("\n".join(transcription)) unload_whisper() return f"Processed dataset to: {outdir}" def calc_iterations( epochs, lines, batch_size ): iterations = int(epochs * lines / float(batch_size)) return iterations EPOCH_SCHEDULE = [ 9, 18, 25, 33 ] def schedule_learning_rate( iterations ): return [int(iterations * d) for d in EPOCH_SCHEDULE] def optimize_training_settings( epochs, learning_rate, text_ce_lr_weight, learning_rate_schedule, batch_size, mega_batch_factor, print_rate, save_rate, resume_path, half_p, bnb, source_model, voice ): name = f"{voice}-finetune" dataset_name = f"{voice}-train" dataset_path = f"./training/{voice}/train.txt" validation_name = f"{voice}-val" validation_path = f"./training/{voice}/train.txt" with open(dataset_path, 'r', encoding="utf-8") as f: lines = len(f.readlines()) messages = [] if batch_size > lines: batch_size = lines messages.append(f"Batch size is larger than your dataset, clamping batch size to: {batch_size}") if batch_size % lines != 0: nearest_slice = int(lines / batch_size) + 1 batch_size = int(lines / nearest_slice) messages.append(f"Batch size not neatly divisible by dataset size, adjusting batch size to: {batch_size} ({nearest_slice} steps per epoch)") if batch_size == 1 and mega_batch_factor != 1: mega_batch_factor = 1 messages.append(f"Mega batch factor is too large for the given batch size, clamping mega batch factor to: {mega_batch_factor}") elif batch_size / mega_batch_factor < 2: mega_batch_factor = int(batch_size / 2) messages.append(f"Mega batch factor is too large for the given batch size, clamping mega batch factor to: {mega_batch_factor}") iterations = calc_iterations(epochs=epochs, lines=lines, batch_size=batch_size) if epochs < print_rate: print_rate = epochs messages.append(f"Print rate is too small for the given iteration step, clamping print rate to: {print_rate}") if epochs < save_rate: save_rate = epochs messages.append(f"Save rate is too small for the given iteration step, clamping save rate to: {save_rate}") if resume_path and not os.path.exists(resume_path): resume_path = None messages.append("Resume path specified, but does not exist. Disabling...") if half_p: messages.append("Half Precision requested. Please note this is ! EXPERIMENTAL !") if not os.path.exists(get_halfp_model_path()): convert_to_halfp() if bnb: messages.append("BitsAndBytes requested. Please note this is ! EXPERIMENTAL !") messages.append(f"For {epochs} epochs with {lines} lines in batches of {batch_size}, iterating for {iterations} steps ({int(iterations / epochs)} steps per epoch)") return ( learning_rate, text_ce_lr_weight, learning_rate_schedule, batch_size, mega_batch_factor, print_rate, save_rate, resume_path, messages ) def save_training_settings( iterations=None, learning_rate=None, text_ce_lr_weight=None, learning_rate_schedule=None, batch_size=None, mega_batch_factor=None, print_rate=None, save_rate=None, name=None, dataset_name=None, dataset_path=None, validation_name=None, validation_path=None, output_name=None, resume_path=None, half_p=None, bnb=None, source_model=None ): if not source_model: source_model = f"./models/tortoise/autoregressive{'_half' if half_p else ''}.pth" settings = { "iterations": iterations if iterations else 500, "batch_size": batch_size if batch_size else 64, "learning_rate": learning_rate if learning_rate else 1e-5, "gen_lr_steps": learning_rate_schedule if learning_rate_schedule else EPOCH_SCHEDULE, "mega_batch_factor": mega_batch_factor if mega_batch_factor else 4, "print_rate": print_rate if print_rate else 50, "save_rate": save_rate if save_rate else 50, "name": name if name else "finetune", "dataset_name": dataset_name if dataset_name else "finetune", "dataset_path": dataset_path if dataset_path else "./training/finetune/train.txt", "validation_name": validation_name if validation_name else "finetune", "validation_path": validation_path if validation_path else "./training/finetune/train.txt", "text_ce_lr_weight": text_ce_lr_weight if text_ce_lr_weight else 0.01, 'resume_state': f"resume_state: '{resume_path}'", 'pretrain_model_gpt': f"pretrain_model_gpt: '{source_model}'", 'float16': 'true' if half_p else 'false', 'bitsandbytes': 'true' if bnb else 'false', } if resume_path: settings['pretrain_model_gpt'] = f"# {settings['pretrain_model_gpt']}" else: settings['resume_state'] = f"# resume_state: './training/{name if name else 'finetune'}/training_state/#.state'" if half_p: if not os.path.exists(get_halfp_model_path()): convert_to_halfp() if not output_name: output_name = f'{settings["name"]}.yaml' with open(f'./models/.template.yaml', 'r', encoding="utf-8") as f: yaml = f.read() # i could just load and edit the YAML directly, but this is easier, as I don't need to bother with path traversals for k in settings: if settings[k] is None: continue yaml = yaml.replace(f"${{{k}}}", str(settings[k])) outfile = f'./training/{output_name}' with open(outfile, 'w', encoding="utf-8") as f: f.write(yaml) return f"Training settings saved to: {outfile}" def import_voices(files, saveAs=None, progress=None): global args if not isinstance(files, list): files = [files] for file in enumerate_progress(files, desc="Importing voice files", progress=progress): j, latents = read_generate_settings(file, read_latents=True) if j is not None and saveAs is None: saveAs = j['voice'] if saveAs is None or saveAs == "": raise Exception("Specify a voice name") outdir = f'{get_voice_dir()}/{saveAs}/' os.makedirs(outdir, exist_ok=True) if latents: print(f"Importing latents to {latents}") with open(f'{outdir}/cond_latents.pth', 'wb') as f: f.write(latents) latents = f'{outdir}/cond_latents.pth' print(f"Imported latents to {latents}") else: filename = file.name if filename[-4:] != ".wav": raise Exception("Please convert to a WAV first") path = f"{outdir}/{os.path.basename(filename)}" print(f"Importing voice to {path}") waveform, sampling_rate = torchaudio.load(filename) if args.voice_fixer: if not voicefixer: load_voicefixer() # resample to best bandwidth since voicefixer will do it anyways through librosa if sampling_rate != 44100: print(f"Resampling imported voice sample: {path}") resampler = torchaudio.transforms.Resample( sampling_rate, 44100, lowpass_filter_width=16, rolloff=0.85, resampling_method="kaiser_window", beta=8.555504641634386, ) waveform = resampler(waveform) sampling_rate = 44100 torchaudio.save(path, waveform, sampling_rate) print(f"Running 'voicefixer' on voice sample: {path}") voicefixer.restore( input = path, output = path, cuda=get_device_name() == "cuda" and args.voice_fixer_use_cuda, #mode=mode, ) else: torchaudio.save(path, waveform, sampling_rate) print(f"Imported voice to {path}") def get_voice_list(dir=get_voice_dir(), append_defaults=False): os.makedirs(dir, exist_ok=True) res = sorted([d for d in os.listdir(dir) if os.path.isdir(os.path.join(dir, d)) and len(os.listdir(os.path.join(dir, d))) > 0 ]) if append_defaults: res = res + ["random", "microphone"] return res def hash_file(path, algo="md5", buffer_size=0): import hashlib hash = None if algo == "md5": hash = hashlib.md5() elif algo == "sha1": hash = hashlib.sha1() else: raise Exception(f'Unknown hash algorithm specified: {algo}') if not os.path.exists(path): raise Exception(f'Path not found: {path}') with open(path, 'rb') as f: if buffer_size > 0: while True: data = f.read(buffer_size) if not data: break hash.update(data) else: hash.update(f.read()) return "{0}".format(hash.hexdigest()) def get_autoregressive_models(dir="./models/finetunes/", prefixed=False): os.makedirs(dir, exist_ok=True) base = [get_model_path('autoregressive.pth')] halfp = get_halfp_model_path() if os.path.exists(halfp): base.append(halfp) additionals = sorted([f'{dir}/{d}' for d in os.listdir(dir) if d[-4:] == ".pth" ]) found = [] for training in os.listdir(f'./training/'): if not os.path.isdir(f'./training/{training}/') or not os.path.isdir(f'./training/{training}/models/'): continue models = sorted([ int(d[:-8]) for d in os.listdir(f'./training/{training}/models/') if d[-8:] == "_gpt.pth" ]) found = found + [ f'./training/{training}/models/{d}_gpt.pth' for d in models ] res = base + additionals + found if prefixed: for i in range(len(res)): path = res[i] hash = hash_file(path) shorthash = hash[:8] res[i] = f'[{shorthash}] {path}' return res def get_dataset_list(dir="./training/"): return sorted([d for d in os.listdir(dir) if os.path.isdir(os.path.join(dir, d)) and len(os.listdir(os.path.join(dir, d))) > 0 and "train.txt" in os.listdir(os.path.join(dir, d)) ]) def get_training_list(dir="./training/"): return sorted([f'./training/{d}/train.yaml' for d in os.listdir(dir) if os.path.isdir(os.path.join(dir, d)) and len(os.listdir(os.path.join(dir, d))) > 0 and "train.yaml" in os.listdir(os.path.join(dir, d)) ]) def do_gc(): gc.collect() try: trytorch.cuda.empty_cache() except Exception as e: pass def pad(num, zeroes): return str(num).zfill(zeroes+1) def curl(url): try: req = urllib.request.Request(url, headers={'User-Agent': 'Python'}) conn = urllib.request.urlopen(req) data = conn.read() data = data.decode() data = json.loads(data) conn.close() return data except Exception as e: print(e) return None def check_for_updates(): if not os.path.isfile('./.git/FETCH_HEAD'): print("Cannot check for updates: not from a git repo") return False with open(f'./.git/FETCH_HEAD', 'r', encoding="utf-8") as f: head = f.read() match = re.findall(r"^([a-f0-9]+).+?https:\/\/(.+?)\/(.+?)\/(.+?)\n", head) if match is None or len(match) == 0: print("Cannot check for updates: cannot parse FETCH_HEAD") return False match = match[0] local = match[0] host = match[1] owner = match[2] repo = match[3] res = curl(f"https://{host}/api/v1/repos/{owner}/{repo}/branches/") #this only works for gitea instances if res is None or len(res) == 0: print("Cannot check for updates: cannot fetch from remote") return False remote = res[0]["commit"]["id"] if remote != local: print(f"New version found: {local[:8]} => {remote[:8]}") return True return False def enumerate_progress(iterable, desc=None, progress=None, verbose=None): if verbose and desc is not None: print(desc) if progress is None: return tqdm(iterable, disable=not verbose) return progress.tqdm(iterable, desc=f'{progress.msg_prefix} {desc}' if hasattr(progress, 'msg_prefix') else desc, track_tqdm=True) def notify_progress(message, progress=None, verbose=True): if verbose: print(message) if progress is None: return progress(0, desc=message) def get_args(): global args return args def setup_args(): global args default_arguments = { 'share': False, 'listen': None, 'check-for-updates': False, 'models-from-local-only': False, 'low-vram': False, 'sample-batch-size': None, 'embed-output-metadata': True, 'latents-lean-and-mean': True, 'voice-fixer': False, # getting tired of long initialization times in a Colab for downloading a large dataset for it 'voice-fixer-use-cuda': True, 'force-cpu-for-conditioning-latents': False, 'defer-tts-load': False, 'device-override': None, 'prune-nonfinal-outputs': True, 'concurrency-count': 2, 'output-sample-rate': 44100, 'output-volume': 1, 'autoregressive-model': None, 'whisper-model': "base", 'whisper-cpp': False, 'training-default-halfp': False, 'training-default-bnb': True, } if os.path.isfile('./config/exec.json'): with open(f'./config/exec.json', 'r', encoding="utf-8") as f: try: overrides = json.load(f) for k in overrides: default_arguments[k] = overrides[k] except Exception as e: print(e) pass parser = argparse.ArgumentParser() parser.add_argument("--share", action='store_true', default=default_arguments['share'], help="Lets Gradio return a public URL to use anywhere") parser.add_argument("--listen", default=default_arguments['listen'], help="Path for Gradio to listen on") parser.add_argument("--check-for-updates", action='store_true', default=default_arguments['check-for-updates'], help="Checks for update on startup") parser.add_argument("--models-from-local-only", action='store_true', default=default_arguments['models-from-local-only'], help="Only loads models from disk, does not check for updates for models") parser.add_argument("--low-vram", action='store_true', default=default_arguments['low-vram'], help="Disables some optimizations that increases VRAM usage") parser.add_argument("--no-embed-output-metadata", action='store_false', default=not default_arguments['embed-output-metadata'], help="Disables embedding output metadata into resulting WAV files for easily fetching its settings used with the web UI (data is stored in the lyrics metadata tag)") parser.add_argument("--latents-lean-and-mean", action='store_true', default=default_arguments['latents-lean-and-mean'], help="Exports the bare essentials for latents.") parser.add_argument("--voice-fixer", action='store_true', default=default_arguments['voice-fixer'], help="Uses python module 'voicefixer' to improve audio quality, if available.") parser.add_argument("--voice-fixer-use-cuda", action='store_true', default=default_arguments['voice-fixer-use-cuda'], help="Hints to voicefixer to use CUDA, if available.") parser.add_argument("--force-cpu-for-conditioning-latents", default=default_arguments['force-cpu-for-conditioning-latents'], action='store_true', help="Forces computing conditional latents to be done on the CPU (if you constantyl OOM on low chunk counts)") parser.add_argument("--defer-tts-load", default=default_arguments['defer-tts-load'], action='store_true', help="Defers loading TTS model") parser.add_argument("--prune-nonfinal-outputs", default=default_arguments['prune-nonfinal-outputs'], action='store_true', help="Deletes non-final output files on completing a generation") parser.add_argument("--device-override", default=default_arguments['device-override'], help="A device string to override pass through Torch") parser.add_argument("--sample-batch-size", default=default_arguments['sample-batch-size'], type=int, help="Sets how many batches to use during the autoregressive samples pass") parser.add_argument("--concurrency-count", type=int, default=default_arguments['concurrency-count'], help="How many Gradio events to process at once") parser.add_argument("--output-sample-rate", type=int, default=default_arguments['output-sample-rate'], help="Sample rate to resample the output to (from 24KHz)") parser.add_argument("--output-volume", type=float, default=default_arguments['output-volume'], help="Adjusts volume of output") parser.add_argument("--autoregressive-model", default=default_arguments['autoregressive-model'], help="Specifies which autoregressive model to use for sampling.") parser.add_argument("--whisper-model", default=default_arguments['whisper-model'], help="Specifies which whisper model to use for transcription.") parser.add_argument("--whisper-cpp", default=default_arguments['whisper-cpp'], action='store_true', help="Leverages lightmare/whispercpp for transcription") parser.add_argument("--training-default-halfp", action='store_true', default=default_arguments['training-default-halfp'], help="Training default: halfp") parser.add_argument("--training-default-bnb", action='store_true', default=default_arguments['training-default-bnb'], help="Training default: bnb") parser.add_argument("--os", default="unix", help="Specifies which OS, easily") args = parser.parse_args() args.embed_output_metadata = not args.no_embed_output_metadata if not args.device_override: set_device_name(args.device_override) args.listen_host = None args.listen_port = None args.listen_path = None if args.listen: try: match = re.findall(r"^(?:(.+?):(\d+))?(\/.+?)?$", args.listen)[0] args.listen_host = match[0] if match[0] != "" else "127.0.0.1" args.listen_port = match[1] if match[1] != "" else None args.listen_path = match[2] if match[2] != "" else "/" except Exception as e: pass if args.listen_port is not None: args.listen_port = int(args.listen_port) return args def update_args( listen, share, check_for_updates, models_from_local_only, low_vram, embed_output_metadata, latents_lean_and_mean, voice_fixer, voice_fixer_use_cuda, force_cpu_for_conditioning_latents, defer_tts_load, prune_nonfinal_outputs, device_override, sample_batch_size, concurrency_count, output_sample_rate, output_volume, autoregressive_model, whisper_model, whisper_cpp, training_default_halfp, training_default_bnb ): global args args.listen = listen args.share = share args.check_for_updates = check_for_updates args.models_from_local_only = models_from_local_only args.low_vram = low_vram args.force_cpu_for_conditioning_latents = force_cpu_for_conditioning_latents args.defer_tts_load = defer_tts_load args.prune_nonfinal_outputs = prune_nonfinal_outputs args.device_override = device_override args.sample_batch_size = sample_batch_size args.embed_output_metadata = embed_output_metadata args.latents_lean_and_mean = latents_lean_and_mean args.voice_fixer = voice_fixer args.voice_fixer_use_cuda = voice_fixer_use_cuda args.concurrency_count = concurrency_count args.output_sample_rate = output_sample_rate args.output_volume = output_volume args.autoregressive_model = autoregressive_model args.whisper_model = whisper_model args.whisper_cpp = whisper_cpp args.training_default_halfp = training_default_halfp args.training_default_bnb = training_default_bnb save_args_settings() def save_args_settings(): global args settings = { 'listen': None if args.listen else args.listen, 'share': args.share, 'low-vram':args.low_vram, 'check-for-updates':args.check_for_updates, 'models-from-local-only':args.models_from_local_only, 'force-cpu-for-conditioning-latents': args.force_cpu_for_conditioning_latents, 'defer-tts-load': args.defer_tts_load, 'prune-nonfinal-outputs': args.prune_nonfinal_outputs, 'device-override': args.device_override, 'sample-batch-size': args.sample_batch_size, 'embed-output-metadata': args.embed_output_metadata, 'latents-lean-and-mean': args.latents_lean_and_mean, 'voice-fixer': args.voice_fixer, 'voice-fixer-use-cuda': args.voice_fixer_use_cuda, 'concurrency-count': args.concurrency_count, 'output-sample-rate': args.output_sample_rate, 'output-volume': args.output_volume, 'autoregressive-model': args.autoregressive_model, 'whisper-model': args.whisper_model, 'whisper-cpp': args.whisper_cpp, 'training-default-halfp': args.training_default_halfp, 'training-default-bnb': args.training_default_bnb, } os.makedirs('./config/', exist_ok=True) with open(f'./config/exec.json', 'w', encoding="utf-8") as f: f.write(json.dumps(settings, indent='\t') ) def import_generate_settings(file="./config/generate.json"): settings, _ = read_generate_settings(file, read_latents=False) if settings is None: return None return ( None if 'text' not in settings else settings['text'], None if 'delimiter' not in settings else settings['delimiter'], None if 'emotion' not in settings else settings['emotion'], None if 'prompt' not in settings else settings['prompt'], None if 'voice' not in settings else settings['voice'], None, None, None if 'seed' not in settings else settings['seed'], None if 'candidates' not in settings else settings['candidates'], None if 'num_autoregressive_samples' not in settings else settings['num_autoregressive_samples'], None if 'diffusion_iterations' not in settings else settings['diffusion_iterations'], 0.8 if 'temperature' not in settings else settings['temperature'], "DDIM" if 'diffusion_sampler' not in settings else settings['diffusion_sampler'], 8 if 'breathing_room' not in settings else settings['breathing_room'], 0.0 if 'cvvp_weight' not in settings else settings['cvvp_weight'], 0.8 if 'top_p' not in settings else settings['top_p'], 1.0 if 'diffusion_temperature' not in settings else settings['diffusion_temperature'], 1.0 if 'length_penalty' not in settings else settings['length_penalty'], 2.0 if 'repetition_penalty' not in settings else settings['repetition_penalty'], 2.0 if 'cond_free_k' not in settings else settings['cond_free_k'], None if 'experimentals' not in settings else settings['experimentals'], ) def reset_generation_settings(): with open(f'./config/generate.json', 'w', encoding="utf-8") as f: f.write(json.dumps({}, indent='\t') ) return import_generate_settings() def read_generate_settings(file, read_latents=True): j = None latents = None if isinstance(file, list) and len(file) == 1: file = file[0] try: if file is not None: if hasattr(file, 'name'): file = file.name if file[-4:] == ".wav": metadata = music_tag.load_file(file) if 'lyrics' in metadata: j = json.loads(str(metadata['lyrics'])) elif file[-5:] == ".json": with open(file, 'r') as f: j = json.load(f) except Exception as e: pass if j is not None: if 'latents' in j: if read_latents: latents = base64.b64decode(j['latents']) del j['latents'] if "time" in j: j["time"] = "{:.3f}".format(j["time"]) return ( j, latents, ) def load_tts( restart=False, model=None ): global args global tts if restart: unload_tts() if model: args.autoregressive_model = model print(f"Loading TorToiSe... (using model: {args.autoregressive_model})") tts_loading = True try: tts = TextToSpeech(minor_optimizations=not args.low_vram, autoregressive_model_path=args.autoregressive_model) except Exception as e: tts = TextToSpeech(minor_optimizations=not args.low_vram) load_autoregressive_model(args.autoregressive_model) if not hasattr(tts, 'autoregressive_model_hash'): tts.autoregressive_model_hash = hash_file(tts.autoregressive_model_path) tts_loading = False get_model_path('dvae.pth') print("Loaded TorToiSe, ready for generation.") return tts setup_tortoise = load_tts def unload_tts(): global tts if tts: print("Unloading TTS") del tts tts = None do_gc() def reload_tts( model=None ): load_tts( restart=True, model=model ) def update_autoregressive_model(autoregressive_model_path): match = re.findall(r'^\[[a-fA-F0-9]{8}\] (.+?)$', autoregressive_model_path) if match: autoregressive_model_path = match[0] if not autoregressive_model_path or not os.path.exists(autoregressive_model_path): print(f"Invalid model: {autoregressive_model_path}") return args.autoregressive_model = autoregressive_model_path save_args_settings() print(f'Stored autoregressive model to settings: {autoregressive_model_path}') global tts if not tts: if tts_loading: raise Exception("TTS is still initializing...") return print(f"Loading model: {autoregressive_model_path}") if hasattr(tts, 'load_autoregressive_model') and tts.load_autoregressive_model(autoregressive_model_path): tts.load_autoregressive_model(autoregressive_model_path) # polyfill in case a user did NOT update the packages # this shouldn't happen anymore, as I just clone mrq/tortoise-tts, and inject it into sys.path else: from tortoise.models.autoregressive import UnifiedVoice tts.autoregressive_model_path = autoregressive_model_path if autoregressive_model_path and os.path.exists(autoregressive_model_path) else get_model_path('autoregressive.pth', tts.models_dir) del tts.autoregressive tts.autoregressive = UnifiedVoice(max_mel_tokens=604, max_text_tokens=402, max_conditioning_inputs=2, layers=30, model_dim=1024, heads=16, number_text_tokens=255, start_text_token=255, checkpointing=False, train_solo_embeddings=False).cpu().eval() tts.autoregressive.load_state_dict(torch.load(tts.autoregressive_model_path)) tts.autoregressive.post_init_gpt2_config(kv_cache=tts.use_kv_cache) if tts.preloaded_tensors: tts.autoregressive = tts.autoregressive.to(tts.device) if not hasattr(tts, 'autoregressive_model_hash'): tts.autoregressive_model_hash = hash_file(autoregressive_model_path) print(f"Loaded model: {tts.autoregressive_model_path}") do_gc() return autoregressive_model_path def load_voicefixer(restart=False): global voicefixer if restart: unload_voicefixer() try: print("Loading Voicefixer") from voicefixer import VoiceFixer voicefixer = VoiceFixer() print("Loaded Voicefixer") except Exception as e: print(f"Error occurred while tring to initialize voicefixer: {e}") def unload_voicefixer(): global voicefixer if voicefixer: print("Unloading Voicefixer") del voicefixer voicefixer = None print("Unloaded Voicefixer") do_gc() def load_whisper_model(name=None, progress=None, language=b'en'): global whisper_model if not name: name = args.whisper_model else: args.whisper_model = name save_args_settings() notify_progress(f"Loading Whisper model: {args.whisper_model}", progress) if args.whisper_cpp: from whispercpp import Whisper whisper_model = Whisper(name, models_dir='./models/', language=language) else: import whisper whisper_model = whisper.load_model(args.whisper_model) print("Loaded Whisper model") def unload_whisper(): global whisper_model if whisper_model: print("Unloading Whisper") del whisper_model whisper_model = None print("Unloaded Whisper") do_gc() """ def update_whisper_model(name, progress=None): if not name: return args.whisper_model = name save_args_settings() global whisper_model if whisper_model: unload_whisper() load_whisper_model(name) else: args.whisper_model = name save_args_settings() """