import os import queue from huggingface_hub import snapshot_download import hydra # Download if not exists os.makedirs("checkpoints", exist_ok=True) snapshot_download(repo_id="fishaudio/fish-speech-1.2-sft", local_dir="./checkpoints/fish-speech-1.2-sft") print("All checkpoints downloaded") import html import os import threading from argparse import ArgumentParser from pathlib import Path import gradio as gr import librosa import torch from loguru import logger from transformers import AutoTokenizer from tools.llama.generate import launch_thread_safe_queue from tools.vqgan.inference import load_model as load_vqgan_model from fish_speech.text.chn_text_norm.text import Text as ChnNormedText from tools.api import decode_vq_tokens, encode_reference from tools.auto_rerank import batch_asr, calculate_wer, is_chinese, load_model from tools.llama.generate import ( GenerateRequest, GenerateResponse, WrappedGenerateResponse, launch_thread_safe_queue, ) from tools.vqgan.inference import load_model as load_decoder_model # Make einx happy os.environ["EINX_FILTER_TRACEBACK"] = "false" HEADER_MD = """# Fish Speech ## The demo in this space is version 1.2, Please check [Fish Audio](https://fish.audio) for the best model. ## 该 Demo 为 Fish Speech 1.2 版本, 请在 [Fish Audio](https://fish.audio) 体验最新 DEMO. A text-to-speech model based on VQ-GAN and Llama developed by [Fish Audio](https://fish.audio). 由 [Fish Audio](https://fish.audio) 研发的基于 VQ-GAN 和 Llama 的多语种语音合成. You can find the source code [here](https://github.com/fishaudio/fish-speech) and models [here](https://huggingface.co/fishaudio/fish-speech-1). 你可以在 [这里](https://github.com/fishaudio/fish-speech) 找到源代码和 [这里](https://huggingface.co/fishaudio/fish-speech-1) 找到模型. Related code and weights are released under CC BY-NC-SA 4.0 License. 相关代码,权重使用 CC BY-NC-SA 4.0 许可证发布. We are not responsible for any misuse of the model, please consider your local laws and regulations before using it. 我们不对模型的任何滥用负责,请在使用之前考虑您当地的法律法规. The model running in this WebUI is Fish Speech V1.2 Medium SFT. 在此 WebUI 中运行的模型是 Fish Speech V1.2 Medium SFT. """ TEXTBOX_PLACEHOLDER = """Put your text here. 在此处输入文本.""" try: import spaces GPU_DECORATOR = spaces.GPU except ImportError: def GPU_DECORATOR(func): def wrapper(*args, **kwargs): return func(*args, **kwargs) return wrapper def build_html_error_message(error): return f"""
{html.escape(error)}
""" @GPU_DECORATOR @torch.inference_mode() def inference( text, enable_reference_audio, reference_audio, reference_text, max_new_tokens, chunk_length, top_p, repetition_penalty, temperature, streaming=False, ): if args.max_gradio_length > 0 and len(text) > args.max_gradio_length: return ( None, None, "Text is too long, please keep it under {} characters.".format( args.max_gradio_length ), ) # Parse reference audio aka prompt prompt_tokens = encode_reference( decoder_model=decoder_model, reference_audio=reference_audio, enable_reference_audio=enable_reference_audio, ) # LLAMA Inference request = dict( device=decoder_model.device, max_new_tokens=max_new_tokens, text=text, top_p=top_p, repetition_penalty=repetition_penalty, temperature=temperature, compile=args.compile, iterative_prompt=chunk_length > 0, chunk_length=chunk_length, max_length=2048, prompt_tokens=prompt_tokens if enable_reference_audio else None, prompt_text=reference_text if enable_reference_audio else None, ) response_queue = queue.Queue() llama_queue.put( GenerateRequest( request=request, response_queue=response_queue, ) ) if streaming: yield wav_chunk_header(), None, None segments = [] while True: result: WrappedGenerateResponse = response_queue.get() if result.status == "error": yield None, None, build_html_error_message(result.response) break result: GenerateResponse = result.response if result.action == "next": break with torch.autocast( device_type=( "cpu" if decoder_model.device.type == "mps" else decoder_model.device.type ), dtype=args.precision, ): fake_audios = decode_vq_tokens( decoder_model=decoder_model, codes=result.codes, ) fake_audios = fake_audios.float().cpu().numpy() segments.append(fake_audios) if streaming: yield (fake_audios * 32768).astype(np.int16).tobytes(), None, None if len(segments) == 0: return ( None, None, build_html_error_message( "No audio generated, please check the input text." ), ) # No matter streaming or not, we need to return the final audio audio = np.concatenate(segments, axis=0) yield None, (decoder_model.spec_transform.sample_rate, audio), None if torch.cuda.is_available(): torch.cuda.empty_cache() gc.collect() def inference_with_auto_rerank( text, enable_reference_audio, reference_audio, reference_text, max_new_tokens, chunk_length, top_p, repetition_penalty, temperature, use_auto_rerank, streaming=False, ): max_attempts = 2 if use_auto_rerank else 1 best_wer = float("inf") best_audio = None best_sample_rate = None for attempt in range(max_attempts): audio_generator = inference( text, enable_reference_audio, reference_audio, reference_text, max_new_tokens, chunk_length, top_p, repetition_penalty, temperature, streaming=False, ) # 获取音频数据 for _ in audio_generator: pass _, (sample_rate, audio), message = _ if audio is None: return None, None, message if not use_auto_rerank: return None, (sample_rate, audio), None asr_result = batch_asr(asr_model, [audio], sample_rate)[0] wer = calculate_wer(text, asr_result["text"]) if wer <= 0.3 and not asr_result["huge_gap"]: return None, (sample_rate, audio), None if wer < best_wer: best_wer = wer best_audio = audio best_sample_rate = sample_rate if attempt == max_attempts - 1: break return None, (best_sample_rate, best_audio), None inference_stream = partial(inference, streaming=True) n_audios = 4 global_audio_list = [] global_error_list = [] def inference_wrapper( text, enable_reference_audio, reference_audio, reference_text, max_new_tokens, chunk_length, top_p, repetition_penalty, temperature, batch_infer_num, if_load_asr_model, ): audios = [] errors = [] for _ in range(batch_infer_num): result = inference_with_auto_rerank( text, enable_reference_audio, reference_audio, reference_text, max_new_tokens, chunk_length, top_p, repetition_penalty, temperature, if_load_asr_model, ) _, audio_data, error_message = result audios.append( gr.Audio(value=audio_data if audio_data else None, visible=True), ) errors.append( gr.HTML(value=error_message if error_message else None, visible=True), ) for _ in range(batch_infer_num, n_audios): audios.append( gr.Audio(value=None, visible=False), ) errors.append( gr.HTML(value=None, visible=False), ) return None, *audios, *errors def wav_chunk_header(sample_rate=44100, bit_depth=16, channels=1): buffer = io.BytesIO() with wave.open(buffer, "wb") as wav_file: wav_file.setnchannels(channels) wav_file.setsampwidth(bit_depth // 8) wav_file.setframerate(sample_rate) wav_header_bytes = buffer.getvalue() buffer.close() return wav_header_bytes def normalize_text(user_input, use_normalization): if use_normalization: return ChnNormedText(raw_text=user_input).normalize() else: return user_input asr_model = None def change_if_load_asr_model(if_load): global asr_model if if_load: gr.Warning("Loading faster whisper model...") if asr_model is None: asr_model = load_model() return gr.Checkbox(label="Unload faster whisper model", value=if_load) if if_load is False: gr.Warning("Unloading faster whisper model...") del asr_model asr_model = None if torch.cuda.is_available(): torch.cuda.empty_cache() gc.collect() return gr.Checkbox(label="Load faster whisper model", value=if_load) def change_if_auto_label(if_load, if_auto_label, enable_ref, ref_audio, ref_text): if if_load and asr_model is not None: if ( if_auto_label and enable_ref and ref_audio is not None and ref_text.strip() == "" ): data, sample_rate = librosa.load(ref_audio) res = batch_asr(asr_model, [data], sample_rate)[0] ref_text = res["text"] else: gr.Warning("Whisper model not loaded!") return gr.Textbox(value=ref_text) def build_app(): with gr.Blocks(theme=gr.themes.Base()) as app: gr.Markdown(HEADER_MD) # Use light theme by default app.load( None, None, js="() => {const params = new URLSearchParams(window.location.search);if (!params.has('__theme')) {params.set('__theme', '%s');window.location.search = params.toString();}}" % args.theme, ) # Inference with gr.Row(): with gr.Column(scale=3): text = gr.Textbox( label="Input Text", placeholder=TEXTBOX_PLACEHOLDER, lines=10 ) refined_text = gr.Textbox( label="Realtime Transform Text", placeholder= "Normalization Result Preview (Currently Only Chinese)", lines=5, interactive=False, ) with gr.Row(): if_refine_text = gr.Checkbox( label="Text Normalization", value=True, scale=1, ) if_load_asr_model = gr.Checkbox( label="Load / Unload ASR model for auto-reranking", value=False, scale=3, ) with gr.Row(): with gr.Tab(label="Advanced Config"): chunk_length = gr.Slider( label="Iterative Prompt Length, 0 means off", minimum=0, maximum=500, value=100, step=8, ) max_new_tokens = gr.Slider( label="Maximum tokens per batch, 0 means no limit", minimum=0, maximum=2048, value=1024, # 0 means no limit step=8, ) top_p = gr.Slider( label="Top-P", minimum=0.6, maximum=0.9, value=0.7, step=0.01, ) repetition_penalty = gr.Slider( label="Repetition Penalty", minimum=1, maximum=1.5, value=1.2, step=0.01, ) temperature = gr.Slider( label="Temperature", minimum=0.6, maximum=0.9, value=0.7, step=0.01, ) with gr.Tab(label="Reference Audio"): gr.Markdown( "5 to 10 seconds of reference audio, useful for specifying speaker." ) enable_reference_audio = gr.Checkbox( label="Enable Reference Audio", ) reference_audio = gr.Audio( label="Reference Audio", type="filepath", ) with gr.Row(): if_auto_label = gr.Checkbox( label="Auto Labeling", min_width=100, scale=0, value=False, ) reference_text = gr.Textbox( label="Reference Text", lines=1, placeholder="在一无所知中,梦里的一天结束了,一个新的「轮回」便会开始。", value="", ) with gr.Tab(label="Batch Inference"): batch_infer_num = gr.Slider( label="Batch infer nums", minimum=1, maximum=n_audios, step=1, value=1, ) with gr.Column(scale=3): for _ in range(n_audios): with gr.Row(): error = gr.HTML( label="Error Message", visible=True if _ == 0 else False, ) global_error_list.append(error) with gr.Row(): audio = gr.Audio( label="Generated Audio", type="numpy", interactive=False, visible=True if _ == 0 else False, ) global_audio_list.append(audio) with gr.Row(): stream_audio = gr.Audio( label="Streaming Audio", streaming=True, autoplay=True, interactive=False, show_download_button=True, ) with gr.Row(): with gr.Column(scale=3): generate = gr.Button( value="\U0001F3A7 " + "Generate", variant="primary" ) generate_stream = gr.Button( value="\U0001F3A7 " + "Streaming Generate", variant="primary", ) text.input( fn=normalize_text, inputs=[text, if_refine_text], outputs=[refined_text] ) if_load_asr_model.change( fn=change_if_load_asr_model, inputs=[if_load_asr_model], outputs=[if_load_asr_model], ) if_auto_label.change( fn=lambda: gr.Textbox(value=""), inputs=[], outputs=[reference_text], ).then( fn=change_if_auto_label, inputs=[ if_load_asr_model, if_auto_label, enable_reference_audio, reference_audio, reference_text, ], outputs=[reference_text], ) # # Submit generate.click( inference_wrapper, [ refined_text, enable_reference_audio, reference_audio, reference_text, max_new_tokens, chunk_length, top_p, repetition_penalty, temperature, batch_infer_num, if_load_asr_model, ], [stream_audio, *global_audio_list, *global_error_list], concurrency_limit=1, ) generate_stream.click( inference_stream, [ refined_text, enable_reference_audio, reference_audio, reference_text, max_new_tokens, chunk_length, top_p, repetition_penalty, temperature, ], [stream_audio, global_audio_list[0], global_error_list[0]], concurrency_limit=10, ) return app def parse_args(): parser = ArgumentParser() parser.add_argument( "--llama-checkpoint-path", type=Path, default="checkpoints/fish-speech-1.2-sft", ) parser.add_argument( "--decoder-checkpoint-path", type=Path, default="checkpoints/fish-speech-1.2-sft/firefly-gan-vq-fsq-4x1024-42hz-generator.pth", ) parser.add_argument("--decoder-config-name", type=str, default="firefly_gan_vq") parser.add_argument("--device", type=str, default="cuda") parser.add_argument("--half", action="store_true") parser.add_argument("--compile", action="store_true") parser.add_argument("--max-gradio-length", type=int, default=0) parser.add_argument("--theme", type=str, default="light") return parser.parse_args() if __name__ == "__main__": args = parse_args() args.precision = torch.half if args.half else torch.bfloat16 logger.info("Loading Llama model...") llama_queue = launch_thread_safe_queue( checkpoint_path=args.llama_checkpoint_path, device=args.device, precision=args.precision, compile=args.compile, ) logger.info("Llama model loaded, loading VQ-GAN model...") decoder_model = load_decoder_model( config_name=args.decoder_config_name, checkpoint_path=args.decoder_checkpoint_path, device=args.device, ) logger.info("Decoder model loaded, warming up...") # Dry run to check if the model is loaded correctly and avoid the first-time latency list( inference( text="Hello, world!", enable_reference_audio=False, reference_audio=None, reference_text="", max_new_tokens=0, chunk_length=100, top_p=0.7, repetition_penalty=1.2, temperature=0.7, ) ) logger.info("Warming up done, launching the web UI...") app = build_app() app.launch(show_api=True)