import gradio as gr import spaces from queue import Queue from threading import Thread from typing import Optional import numpy as np import torch from transformers import MusicgenForConditionalGeneration, MusicgenProcessor, set_seed from transformers.generation.streamers import BaseStreamer model = MusicgenForConditionalGeneration.from_pretrained("facebook/musicgen-small", low_cpu_mem_usage=True) processor = MusicgenProcessor.from_pretrained("facebook/musicgen-small") class MusicgenStreamer(BaseStreamer): def __init__( self, model: MusicgenForConditionalGeneration, device: Optional[str] = None, play_steps: Optional[int] = 10, stride: Optional[int] = None, timeout: Optional[float] = None, ): """ Streamer that stores playback-ready audio in a queue, to be used by a downstream application as an iterator. This is useful for applications that benefit from acessing the generated audio in a non-blocking way (e.g. in an interactive Gradio demo). Parameters: model (`MusicgenForConditionalGeneration`): The MusicGen model used to generate the audio waveform. device (`str`, *optional*): The torch device on which to run the computation. If `None`, will default to the device of the model. play_steps (`int`, *optional*, defaults to 10): The number of generation steps with which to return the generated audio array. Using fewer steps will mean the first chunk is ready faster, but will require more codec decoding steps overall. This value should be tuned to your device and latency requirements. stride (`int`, *optional*): The window (stride) between adjacent audio samples. Using a stride between adjacent audio samples reduces the hard boundary between them, giving smoother playback. If `None`, will default to a value equivalent to play_steps // 6 in the audio space. timeout (`int`, *optional*): The timeout for the audio queue. If `None`, the queue will block indefinitely. Useful to handle exceptions in `.generate()`, when it is called in a separate thread. """ self.decoder = model.decoder self.audio_encoder = model.audio_encoder self.generation_config = model.generation_config self.device = device if device is not None else model.device # variables used in the streaming process self.play_steps = play_steps if stride is not None: self.stride = stride else: hop_length = np.prod(self.audio_encoder.config.upsampling_ratios) self.stride = hop_length * (play_steps - self.decoder.num_codebooks) // 6 self.token_cache = None self.to_yield = 0 # varibles used in the thread process self.audio_queue = Queue() self.stop_signal = None self.timeout = timeout def apply_delay_pattern_mask(self, input_ids): # build the delay pattern mask for offsetting each codebook prediction by 1 (this behaviour is specific to MusicGen) _, decoder_delay_pattern_mask = self.decoder.build_delay_pattern_mask( input_ids[:, :1], pad_token_id=self.generation_config.decoder_start_token_id, max_length=input_ids.shape[-1], ) # apply the pattern mask to the input ids input_ids = self.decoder.apply_delay_pattern_mask(input_ids, decoder_delay_pattern_mask) # revert the pattern delay mask by filtering the pad token id input_ids = input_ids[input_ids != self.generation_config.pad_token_id].reshape( 1, self.decoder.num_codebooks, -1 ) # append the frame dimension back to the audio codes input_ids = input_ids[None, ...] # send the input_ids to the correct device input_ids = input_ids.to(self.audio_encoder.device) output_values = self.audio_encoder.decode( input_ids, audio_scales=[None], ) audio_values = output_values.audio_values[0, 0] return audio_values.cpu().float().numpy() def put(self, value): batch_size = value.shape[0] // self.decoder.num_codebooks if batch_size > 1: raise ValueError("MusicgenStreamer only supports batch size 1") if self.token_cache is None: self.token_cache = value else: self.token_cache = torch.concatenate([self.token_cache, value[:, None]], dim=-1) if self.token_cache.shape[-1] % self.play_steps == 0: audio_values = self.apply_delay_pattern_mask(self.token_cache) self.on_finalized_audio(audio_values[self.to_yield : -self.stride]) self.to_yield += len(audio_values) - self.to_yield - self.stride def end(self): """Flushes any remaining cache and appends the stop symbol.""" if self.token_cache is not None: audio_values = self.apply_delay_pattern_mask(self.token_cache) else: audio_values = np.zeros(self.to_yield) self.on_finalized_audio(audio_values[self.to_yield :], stream_end=True) def on_finalized_audio(self, audio: np.ndarray, stream_end: bool = False): """Put the new audio in the queue. If the stream is ending, also put a stop signal in the queue.""" self.audio_queue.put(audio, timeout=self.timeout) if stream_end: self.audio_queue.put(self.stop_signal, timeout=self.timeout) def __iter__(self): return self def __next__(self): value = self.audio_queue.get(timeout=self.timeout) if not isinstance(value, np.ndarray) and value == self.stop_signal: raise StopIteration() else: return value sampling_rate = model.audio_encoder.config.sampling_rate frame_rate = model.audio_encoder.config.frame_rate target_dtype = np.int16 max_range = np.iinfo(target_dtype).max @spaces.GPU def generate_audio(text_prompt, audio_length_in_s=10.0, play_steps_in_s=2.0): max_new_tokens = int(frame_rate * audio_length_in_s) play_steps = int(frame_rate * play_steps_in_s) device = "cuda:0" if torch.cuda.is_available() else "cpu" if device != model.device: model.to(device) if device == "cuda:0": model.half(); inputs = processor( text=text_prompt, padding=True, return_tensors="pt", ) streamer = MusicgenStreamer(model, device=device, play_steps=play_steps) generation_kwargs = dict( **inputs.to(device), streamer=streamer, max_new_tokens=max_new_tokens, ) thread = Thread(target=model.generate, kwargs=generation_kwargs) thread.start() set_seed(0) for new_audio in streamer: print(f"Sample of length: {round(new_audio.shape[0] / sampling_rate, 2)} seconds") new_audio = (new_audio * max_range).astype(np.int16) yield (sampling_rate, new_audio) demo = gr.Interface( fn=generate_audio, inputs=[ gr.Text(label="Prompt", value="80s pop track with synth and instrumentals"), gr.Slider(10, 30, value=15, step=5, label="Audio length in s"), gr.Slider(2, 10, value=2, step=2, label="Streaming interval in s"), ], outputs=[ gr.Audio(label="Generated Music", streaming=True, autoplay=True) ], ) demo.queue().launch()