from typing import Iterable, Tuple import torch import numpy as np from PIL import Image from tqdm.auto import tqdm from diffusers import DDPMPipeline from librosa.beat import beat_track from .mel import Mel VERSION = "1.1.1" class AudioDiffusion: def __init__(self, model_id: str = "teticio/audio-diffusion-256", resolution: int = 256, cuda: bool = torch.cuda.is_available(), progress_bar: Iterable = tqdm): """Class for generating audio using Denoising Diffusion Probabilistic Models. Args: model_id (String): name of model (local directory or Hugging Face Hub) resolution (int): size of square mel spectrogram in pixels cuda (bool): use CUDA? progress_bar (iterable): iterable callback for progress updates or None """ self.mel = Mel(x_res=resolution, y_res=resolution) self.model_id = model_id self.ddpm = DDPMPipeline.from_pretrained(self.model_id) if cuda: self.ddpm.to("cuda") self.progress_bar = progress_bar or (lambda _: _) def generate_spectrogram_and_audio( self, generator: torch.Generator = None ) -> Tuple[Image.Image, Tuple[int, np.ndarray]]: """Generate random mel spectrogram and convert to audio. Args: generator (torch.Generator): random number generator or None Returns: PIL Image: mel spectrogram (float, np.ndarray): sample rate and raw audio """ images = self.ddpm(output_type="numpy", generator=generator)["sample"] images = (images * 255).round().astype("uint8").transpose(0, 3, 1, 2) image = Image.fromarray(images[0][0]) audio = self.mel.image_to_audio(image) return image, (self.mel.get_sample_rate(), audio) @torch.no_grad() def generate_spectrogram_and_audio_from_audio( self, audio_file: str = None, raw_audio: np.ndarray = None, slice: int = 0, start_step: int = 0, steps: int = 1000, generator: torch.Generator = None ) -> Tuple[Image.Image, Tuple[int, np.ndarray]]: """Generate random mel spectrogram from audio input and convert to audio. Args: audio_file (str): must be a file on disk due to Librosa limitation or raw_audio (np.ndarray): audio as numpy array slice (int): slice number of audio to convert start_step (int): step to start from steps (int): number of de-noising steps to perform generator (torch.Generator): random number generator or None Returns: PIL Image: mel spectrogram (float, np.ndarray): sample rate and raw audio """ # It would be better to derive a class from DDPMDiffusionPipeline # but currently the return type ImagePipelineOutput cannot be imported. images = torch.randn( (1, self.ddpm.unet.in_channels, self.ddpm.unet.sample_size, self.ddpm.unet.sample_size), generator=generator, ) if audio_file is not None or raw_audio is not None: self.mel.load_audio(audio_file, raw_audio) input_image = self.mel.audio_slice_to_image(slice) input_image = np.frombuffer(input_image.tobytes(), dtype="uint8").reshape( (input_image.width, input_image.height)) input_image = ((input_image / 255) * 2 - 1) if start_step > 0: images[0][0] = self.ddpm.scheduler.add_noise( torch.tensor(input_image[np.newaxis, np.newaxis, :]), images, steps - start_step) images = images.to(self.ddpm.device) self.ddpm.scheduler.set_timesteps(steps) for t in self.progress_bar(self.ddpm.scheduler.timesteps[start_step:]): model_output = self.ddpm.unet(images, t)['sample'] images = self.ddpm.scheduler.step( model_output, t, images, generator=generator)['prev_sample'] images = (images / 2 + 0.5).clamp(0, 1) images = images.cpu().permute(0, 2, 3, 1).numpy() images = (images * 255).round().astype("uint8").transpose(0, 3, 1, 2) image = Image.fromarray(images[0][0]) audio = self.mel.image_to_audio(image) return image, (self.mel.get_sample_rate(), audio) @staticmethod def loop_it(audio: np.ndarray, sample_rate: int, loops: int = 12) -> np.ndarray: """Loop audio Args: audio (np.ndarray): audio as numpy array sample_rate (int): sample rate of audio loops (int): number of times to loop Returns: (float, np.ndarray): sample rate and raw audio or None """ _, beats = beat_track(y=audio, sr=sample_rate, units='samples') for beats_in_bar in [16, 12, 8, 4]: if len(beats) > beats_in_bar: return np.tile(audio[beats[0]:beats[beats_in_bar]], loops) return None