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import glob |
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import os |
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import random |
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from multiprocessing import Manager |
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import numpy as np |
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import torch |
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from torch.utils.data import Dataset |
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class GANDataset(Dataset): |
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""" |
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GAN Dataset searchs for all the wav files under root path |
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and converts them to acoustic features on the fly and returns |
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random segments of (audio, feature) couples. |
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""" |
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def __init__( |
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self, |
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ap, |
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items, |
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seq_len, |
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hop_len, |
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pad_short, |
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conv_pad=2, |
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return_pairs=False, |
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is_training=True, |
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return_segments=True, |
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use_noise_augment=False, |
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use_cache=False, |
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verbose=False, |
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): |
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super().__init__() |
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self.ap = ap |
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self.item_list = items |
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self.compute_feat = not isinstance(items[0], (tuple, list)) |
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self.seq_len = seq_len |
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self.hop_len = hop_len |
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self.pad_short = pad_short |
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self.conv_pad = conv_pad |
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self.return_pairs = return_pairs |
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self.is_training = is_training |
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self.return_segments = return_segments |
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self.use_cache = use_cache |
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self.use_noise_augment = use_noise_augment |
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self.verbose = verbose |
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assert seq_len % hop_len == 0, " [!] seq_len has to be a multiple of hop_len." |
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self.feat_frame_len = seq_len // hop_len + (2 * conv_pad) |
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self.G_to_D_mappings = list(range(len(self.item_list))) |
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self.shuffle_mapping() |
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if use_cache: |
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self.create_feature_cache() |
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def create_feature_cache(self): |
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self.manager = Manager() |
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self.cache = self.manager.list() |
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self.cache += [None for _ in range(len(self.item_list))] |
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@staticmethod |
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def find_wav_files(path): |
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return glob.glob(os.path.join(path, "**", "*.wav"), recursive=True) |
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def __len__(self): |
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return len(self.item_list) |
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def __getitem__(self, idx): |
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"""Return different items for Generator and Discriminator and |
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cache acoustic features""" |
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if torch.utils.data.get_worker_info(): |
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random.seed(torch.utils.data.get_worker_info().seed) |
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if self.return_segments: |
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item1 = self.load_item(idx) |
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if self.return_pairs: |
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idx2 = self.G_to_D_mappings[idx] |
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item2 = self.load_item(idx2) |
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return item1, item2 |
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return item1 |
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item1 = self.load_item(idx) |
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return item1 |
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def _pad_short_samples(self, audio, mel=None): |
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"""Pad samples shorter than the output sequence length""" |
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if len(audio) < self.seq_len: |
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audio = np.pad(audio, (0, self.seq_len - len(audio)), mode="constant", constant_values=0.0) |
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if mel is not None and mel.shape[1] < self.feat_frame_len: |
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pad_value = self.ap.melspectrogram(np.zeros([self.ap.win_length]))[:, 0] |
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mel = np.pad( |
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mel, |
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([0, 0], [0, self.feat_frame_len - mel.shape[1]]), |
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mode="constant", |
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constant_values=pad_value.mean(), |
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) |
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return audio, mel |
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def shuffle_mapping(self): |
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random.shuffle(self.G_to_D_mappings) |
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def load_item(self, idx): |
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"""load (audio, feat) couple""" |
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if self.compute_feat: |
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wavpath = self.item_list[idx] |
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if self.use_cache and self.cache[idx] is not None: |
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audio, mel = self.cache[idx] |
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else: |
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audio = self.ap.load_wav(wavpath) |
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mel = self.ap.melspectrogram(audio) |
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audio, mel = self._pad_short_samples(audio, mel) |
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else: |
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wavpath, feat_path = self.item_list[idx] |
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if self.use_cache and self.cache[idx] is not None: |
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audio, mel = self.cache[idx] |
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else: |
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audio = self.ap.load_wav(wavpath) |
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mel = np.load(feat_path) |
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audio, mel = self._pad_short_samples(audio, mel) |
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audio = np.pad(audio, (0, self.hop_len), mode="edge") |
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audio = audio[: mel.shape[-1] * self.hop_len] |
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assert ( |
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mel.shape[-1] * self.hop_len == audio.shape[-1] |
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), f" [!] {mel.shape[-1] * self.hop_len} vs {audio.shape[-1]}" |
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audio = torch.from_numpy(audio).float().unsqueeze(0) |
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mel = torch.from_numpy(mel).float().squeeze(0) |
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if self.return_segments: |
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max_mel_start = mel.shape[1] - self.feat_frame_len |
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mel_start = random.randint(0, max_mel_start) |
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mel_end = mel_start + self.feat_frame_len |
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mel = mel[:, mel_start:mel_end] |
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audio_start = mel_start * self.hop_len |
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audio = audio[:, audio_start : audio_start + self.seq_len] |
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if self.use_noise_augment and self.is_training and self.return_segments: |
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audio = audio + (1 / 32768) * torch.randn_like(audio) |
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return (mel, audio) |
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