import os import sys import numpy as np import torch import gradio as gr import spaces # noqa: F401 from typing import Optional, Tuple from funasr import AutoModel from pathlib import Path os.environ["TOKENIZERS_PARALLELISM"] = "false" if os.environ.get("HF_REPO_ID", "").strip() == "": os.environ["HF_REPO_ID"] = "openbmb/VoxCPM2" import voxcpm class VoxCPMDemo: def __init__(self) -> None: self.device = "cuda" if torch.cuda.is_available() else "cpu" print(f"🚀 Running on device: {self.device}", file=sys.stderr) # ASR model for prompt text recognition self.asr_model_id = "iic/SenseVoiceSmall" self.asr_model: Optional[AutoModel] = AutoModel( model=self.asr_model_id, disable_update=True, log_level="DEBUG", device="cuda:0" if self.device == "cuda" else "cpu", ) # TTS model (lazy init) self.voxcpm_model: Optional[voxcpm.VoxCPM] = None self.default_local_model_dir = "/Users/xinliu/Downloads/VoxCPM2-0.5B-newaudiovae-6hz-0316" # ---------- Model helpers ---------- def _resolve_model_dir(self) -> str: """ Resolve model directory: 1) Use local checkpoint directory if exists 2) If HF_REPO_ID env is set, download into models/{repo} 3) Fallback to 'models' """ if os.path.isdir(self.default_local_model_dir): return self.default_local_model_dir repo_id = os.environ.get("HF_REPO_ID", "").strip() if len(repo_id) > 0: target_dir = os.path.join("models", repo_id.replace("/", "__")) if not os.path.isdir(target_dir): try: from huggingface_hub import snapshot_download # type: ignore os.makedirs(target_dir, exist_ok=True) print(f"Downloading model from HF repo '{repo_id}' to '{target_dir}' ...", file=sys.stderr) snapshot_download(repo_id=repo_id, local_dir=target_dir, local_dir_use_symlinks=False) except Exception as e: print(f"Warning: HF download failed: {e}. Falling back to 'data'.", file=sys.stderr) return "models" return target_dir return "models" def get_or_load_voxcpm(self) -> voxcpm.VoxCPM: if self.voxcpm_model is not None: return self.voxcpm_model print("Model not loaded, initializing...", file=sys.stderr) model_dir = self._resolve_model_dir() print(f"Using model dir: {model_dir}", file=sys.stderr) self.voxcpm_model = voxcpm.VoxCPM(voxcpm_model_path=model_dir, optimize=False) print("Model loaded successfully.", file=sys.stderr) return self.voxcpm_model # ---------- Functional endpoints ---------- def prompt_wav_recognition(self, prompt_wav: Optional[str]) -> str: if prompt_wav is None: return "" res = self.asr_model.generate(input=prompt_wav, language="auto", use_itn=True) text = res[0]["text"].split("|>")[-1] return text def generate_tts_audio( self, text_input: str, control_instruction: str = "", reference_wav_path_input: Optional[str] = None, cfg_value_input: float = 2.0, inference_timesteps_input: int = 10, do_normalize: bool = True, denoise: bool = True, ) -> Tuple[int, np.ndarray]: """ Generate speech from text using VoxCPM. - If reference_wav provided: Prompt isolation mode (voice cloning) - If no reference_wav: Voice design mode (use control_instruction to describe voice) Returns (sample_rate, waveform_numpy) """ current_model = self.get_or_load_voxcpm() text = (text_input or "").strip() if len(text) == 0: raise ValueError("Please input text to synthesize.") # 处理 control instruction control = (control_instruction or "").strip() if control: final_text = f"({control}){text}" else: final_text = text reference_wav_path = reference_wav_path_input if reference_wav_path_input else None # 判断模式 if reference_wav_path: print(f"[Prompt Isolation Mode] reference_wav: {reference_wav_path}", file=sys.stderr) else: print(f"[Voice Design Mode] control: {control[:50] if control else 'None'}...", file=sys.stderr) print(f"Generating audio for text: '{final_text[:80]}...'", file=sys.stderr) wav = current_model.generate( text=final_text, reference_wav_path=reference_wav_path, cfg_value=float(cfg_value_input), inference_timesteps=int(inference_timesteps_input), normalize=do_normalize, denoise=denoise, ) return (current_model.tts_model.sample_rate, wav) # ---------- UI Builders ---------- THEME = gr.themes.Soft( primary_hue="blue", secondary_hue="gray", neutral_hue="slate", font=[gr.themes.GoogleFont("Inter"), "Arial", "sans-serif"], ) CSS = """ .logo-container { text-align: center; margin: 0.5rem 0 1rem 0; } .logo-container img { height: 80px; width: auto; max-width: 200px; display: inline-block; } /* Bold accordion labels */ #acc_quick > .label-wrap, #acc_tips > .label-wrap, #acc_quick > .label-wrap > span, #acc_tips > .label-wrap > span, #acc_quick summary, #acc_tips summary { font-weight: 600 !important; font-size: 1.1em !important; } /* Bold labels for specific checkboxes */ #chk_denoise label, #chk_denoise span, #chk_normalize label, #chk_normalize span { font-weight: 600; } """ def create_demo_interface(demo: VoxCPMDemo): """Build the Gradio UI for VoxCPM demo.""" gr.set_static_paths(paths=[Path.cwd().absolute() / "assets"]) with gr.Blocks() as interface: gr.HTML( '
VoxCPM Logo
', padding=True, ) # Quick Start with gr.Accordion("📋 Quick Start Guide |快速入门", open=False, elem_id="acc_quick"): gr.Markdown(""" ### How to Use |使用说明 1. **(Optional) Provide a Voice Prompt** - Upload or record an audio clip to provide the desired voice characteristics for synthesis. **(可选)提供参考声音** - 上传或录制一段音频,为声音合成提供音色、语调和情感等个性化特征 2. **(Optional) Enter prompt text** - If you provided a voice prompt, enter the corresponding transcript here (auto-recognition available). **(可选项)输入参考文本** - 如果提供了参考语音,请输入其对应的文本内容(支持自动识别)。 3. **Enter target text** - Type the text you want the model to speak. **输入目标文本** - 输入您希望模型朗读的文字内容。 4. **Generate Speech** - Click the "Generate" button to create your audio. **生成语音** - 点击"生成"按钮,即可为您创造出音频。 """) # Pro Tips with gr.Accordion("💡 Pro Tips |使用建议", open=False, elem_id="acc_tips"): gr.Markdown(""" ### Prompt Speech Enhancement|参考语音降噪 - **Enable** to remove background noise for a clean voice, with an external ZipEnhancer component. However, this will limit the audio sampling rate to 16kHz, restricting the cloning quality ceiling. **启用**:通过 ZipEnhancer 组件消除背景噪音,但会将音频采样率限制在16kHz,限制克隆上限。 - **Disable** to preserve the original audio's all information, including background atmosphere, and support audio cloning up to 44.1kHz sampling rate. **禁用**:保留原始音频的全部信息,包括背景环境声,最高支持44.1kHz的音频复刻。 ### Text Normalization|文本正则化 - **Enable** to process general text with an external WeTextProcessing component. **启用**:使用 WeTextProcessing 组件,可支持常见文本的正则化处理。 - **Disable** to use VoxCPM's native text understanding ability. For example, it supports phonemes input (For Chinese, phonemes are converted using pinyin, {ni3}{hao3}; For English, phonemes are converted using CMUDict, {HH AH0 L OW1}), try it! **禁用**:将使用 VoxCPM 内置的文本理解能力。如,支持音素输入(如中文转拼音:{ni3}{hao3};英文转CMUDict:{HH AH0 L OW1})和公式符号合成,尝试一下! ### CFG Value|CFG 值 - **Lower CFG** if the voice prompt sounds strained or expressive, or instability occurs with long text input. **调低**:如果提示语音听起来不自然或过于夸张,或者长文本输入出现稳定性问题。 - **Higher CFG** for better adherence to the prompt speech style or input text, or instability occurs with too short text input. **调高**:为更好地贴合提示音频的风格或输入文本, 或者极短文本输入出现稳定性问题。 ### Inference Timesteps|推理时间步 - **Lower** for faster synthesis speed. **调低**:合成速度更快。 - **Higher** for better synthesis quality. **调高**:合成质量更佳。 """) # Main controls with gr.Row(): with gr.Column(): # 1. Reference Audio # gr.Markdown("### 🎤 Reference Audio (Optional)") # gr.Markdown("*提供参考音频进行音色克隆;不提供则使用 Voice Design 模式*") reference_wav = gr.Audio( sources=["upload", "microphone"], type="filepath", label="Reference Audio (Optional)", ) DoDenoisePromptAudio = gr.Checkbox( value=False, label="Reference Audio Enhancement", elem_id="chk_denoise", info="Use ZipEnhancer to denoise the reference audio", ) # 2. Control Instruction # gr.Markdown("### 🎛️ Control Instruction (Optional)") # gr.Markdown("*描述声音风格、情感等,格式:`(instruction) text`*") control_instruction = gr.Textbox( value="", label="Control Instruction", placeholder="*描述声音风格、情感等,格式:`(instruction) text`,例如:年轻女性,温柔甜美 / 悲伤地说 / an excited young man*", lines=2, ) # 3. Target Text # gr.Markdown("### 📝 Target Text") text = gr.Textbox( value="VoxCPM is an innovative end-to-end TTS model from ModelBest, designed to generate highly realistic speech.", label="Target Text", lines=3, ) DoNormalizeText = gr.Checkbox( value=False, label="Text Normalization", elem_id="chk_normalize", info="Use wetext library to normalize the input text", ) run_btn = gr.Button("🔊 Generate Speech", variant="primary", size="lg") with gr.Column(): gr.Markdown("### ⚙️ Generation Settings") cfg_value = gr.Slider( minimum=1.0, maximum=3.0, value=2.0, step=0.1, label="CFG Value (Guidance Scale)", info="Higher = more adherence to prompt; Lower = more creativity", ) inference_timesteps = gr.Slider( minimum=4, maximum=30, value=10, step=1, label="Inference Timesteps", info="Higher = better quality but slower", ) gr.Markdown("### 🔈 Output") audio_output = gr.Audio(label="Generated Audio") gr.Markdown(""" --- **模式说明 / Mode Info:** - **有 Reference Audio** → Prompt 隔离模式(音色克隆) - **无 Reference Audio** → Voice Design 模式(用 Control Instruction 描述声音) **Control Instruction 示例:** - `年轻女性,温柔甜美` - `悲伤地说` - `an excited young man` """) # Wiring run_btn.click( fn=demo.generate_tts_audio, inputs=[ text, control_instruction, reference_wav, cfg_value, inference_timesteps, DoNormalizeText, DoDenoisePromptAudio, ], outputs=[audio_output], show_progress=True, api_name="generate", ) return interface def run_demo(server_name: str = "0.0.0.0", server_port: int = 7869, show_error: bool = True): demo = VoxCPMDemo() interface = create_demo_interface(demo) interface.queue(max_size=10, default_concurrency_limit=1).launch( server_name=server_name, server_port=server_port, show_error=show_error, theme=THEME, css=CSS, ) if __name__ == "__main__": run_demo()