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import os |
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import os.path as osp |
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import time |
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import random |
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import numpy as np |
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import random |
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import soundfile as sf |
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import librosa |
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import torch |
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from torch import nn |
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import torch.nn.functional as F |
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import torchaudio |
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from torch.utils.data import DataLoader |
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import logging |
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logger = logging.getLogger(__name__) |
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logger.setLevel(logging.DEBUG) |
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import pandas as pd |
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_pad = "$" |
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_punctuation = ';:,.!?¡¿—…"«»“” ' |
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_letters = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz' |
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_letters_ipa = "ɑɐɒæɓʙβɔɕçɗɖðʤəɘɚɛɜɝɞɟʄɡɠɢʛɦɧħɥʜɨɪʝɭɬɫɮʟɱɯɰŋɳɲɴøɵɸθœɶʘɹɺɾɻʀʁɽʂʃʈʧʉʊʋⱱʌɣɤʍχʎʏʑʐʒʔʡʕʢǀǁǂǃˈˌːˑʼʴʰʱʲʷˠˤ˞↓↑→↗↘'̩'ᵻ" |
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symbols = [_pad] + list(_punctuation) + list(_letters) + list(_letters_ipa) |
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dicts = {} |
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for i in range(len((symbols))): |
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dicts[symbols[i]] = i |
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class TextCleaner: |
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def __init__(self, dummy=None): |
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self.word_index_dictionary = dicts |
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def __call__(self, text): |
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indexes = [] |
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for char in text: |
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try: |
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indexes.append(self.word_index_dictionary[char]) |
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except KeyError: |
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print(text) |
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return indexes |
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np.random.seed(1) |
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random.seed(1) |
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SPECT_PARAMS = { |
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"n_fft": 2048, |
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"win_length": 1200, |
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"hop_length": 300 |
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} |
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MEL_PARAMS = { |
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"n_mels": 80, |
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} |
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to_mel = torchaudio.transforms.MelSpectrogram( |
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n_mels=80, n_fft=2048, win_length=1200, hop_length=300) |
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mean, std = -4, 4 |
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def preprocess(wave): |
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wave_tensor = torch.from_numpy(wave).float() |
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mel_tensor = to_mel(wave_tensor) |
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mel_tensor = (torch.log(1e-5 + mel_tensor.unsqueeze(0)) - mean) / std |
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return mel_tensor |
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class FilePathDataset(torch.utils.data.Dataset): |
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def __init__(self, |
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data_list, |
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root_path, |
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sr=24000, |
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data_augmentation=False, |
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validation=False, |
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OOD_data="Data/OOD_texts.txt", |
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min_length=50, |
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): |
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spect_params = SPECT_PARAMS |
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mel_params = MEL_PARAMS |
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_data_list = [l.strip().split('|') for l in data_list] |
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self.data_list = [data if len(data) == 3 else (*data, 0) for data in _data_list] |
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self.text_cleaner = TextCleaner() |
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self.sr = sr |
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self.df = pd.DataFrame(self.data_list) |
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self.to_melspec = torchaudio.transforms.MelSpectrogram(**MEL_PARAMS) |
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self.mean, self.std = -4, 4 |
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self.data_augmentation = data_augmentation and (not validation) |
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self.max_mel_length = 192 |
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self.min_length = min_length |
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with open(OOD_data, 'r', encoding='utf-8') as f: |
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tl = f.readlines() |
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idx = 1 if '.wav' in tl[0].split('|')[0] else 0 |
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self.ptexts = [t.split('|')[idx] for t in tl] |
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self.root_path = root_path |
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def __len__(self): |
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return len(self.data_list) |
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def __getitem__(self, idx): |
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data = self.data_list[idx] |
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path = data[0] |
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wave, text_tensor, speaker_id = self._load_tensor(data) |
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mel_tensor = preprocess(wave).squeeze() |
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acoustic_feature = mel_tensor.squeeze() |
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length_feature = acoustic_feature.size(1) |
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acoustic_feature = acoustic_feature[:, :(length_feature - length_feature % 2)] |
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ref_data = (self.df[self.df[2] == str(speaker_id)]).sample(n=1).iloc[0].tolist() |
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ref_mel_tensor, ref_label = self._load_data(ref_data[:3]) |
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ps = "" |
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while len(ps) < self.min_length: |
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rand_idx = np.random.randint(0, len(self.ptexts) - 1) |
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ps = self.ptexts[rand_idx] |
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text = self.text_cleaner(ps) |
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text.insert(0, 0) |
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text.append(0) |
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ref_text = torch.LongTensor(text) |
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return speaker_id, acoustic_feature, text_tensor, ref_text, ref_mel_tensor, ref_label, path, wave |
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def _load_tensor(self, data): |
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wave_path, text, speaker_id = data |
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speaker_id = int(speaker_id) |
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wave, sr = sf.read(osp.join(self.root_path, wave_path)) |
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if wave.shape[-1] == 2: |
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wave = wave[:, 0].squeeze() |
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if sr != 24000: |
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wave = librosa.resample(wave, orig_sr=sr, target_sr=24000) |
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print(wave_path, sr) |
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wave = np.concatenate([np.zeros([5000]), wave, np.zeros([5000])], axis=0) |
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text = self.text_cleaner(text) |
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text.insert(0, 0) |
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text.append(0) |
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text = torch.LongTensor(text) |
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return wave, text, speaker_id |
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def _load_data(self, data): |
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wave, text_tensor, speaker_id = self._load_tensor(data) |
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mel_tensor = preprocess(wave).squeeze() |
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mel_length = mel_tensor.size(1) |
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if mel_length > self.max_mel_length: |
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random_start = np.random.randint(0, mel_length - self.max_mel_length) |
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mel_tensor = mel_tensor[:, random_start:random_start + self.max_mel_length] |
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return mel_tensor, speaker_id |
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class Collater(object): |
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""" |
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Args: |
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adaptive_batch_size (bool): if true, decrease batch size when long data comes. |
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""" |
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def __init__(self, return_wave=False): |
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self.text_pad_index = 0 |
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self.min_mel_length = 192 |
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self.max_mel_length = 192 |
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self.return_wave = return_wave |
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def __call__(self, batch): |
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batch_size = len(batch) |
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lengths = [b[1].shape[1] for b in batch] |
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batch_indexes = np.argsort(lengths)[::-1] |
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batch = [batch[bid] for bid in batch_indexes] |
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nmels = batch[0][1].size(0) |
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max_mel_length = max([b[1].shape[1] for b in batch]) |
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max_text_length = max([b[2].shape[0] for b in batch]) |
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max_rtext_length = max([b[3].shape[0] for b in batch]) |
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labels = torch.zeros((batch_size)).long() |
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mels = torch.zeros((batch_size, nmels, max_mel_length)).float() |
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texts = torch.zeros((batch_size, max_text_length)).long() |
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ref_texts = torch.zeros((batch_size, max_rtext_length)).long() |
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input_lengths = torch.zeros(batch_size).long() |
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ref_lengths = torch.zeros(batch_size).long() |
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output_lengths = torch.zeros(batch_size).long() |
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ref_mels = torch.zeros((batch_size, nmels, self.max_mel_length)).float() |
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ref_labels = torch.zeros((batch_size)).long() |
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paths = ['' for _ in range(batch_size)] |
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waves = [None for _ in range(batch_size)] |
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for bid, (label, mel, text, ref_text, ref_mel, ref_label, path, wave) in enumerate(batch): |
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mel_size = mel.size(1) |
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text_size = text.size(0) |
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rtext_size = ref_text.size(0) |
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labels[bid] = label |
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mels[bid, :, :mel_size] = mel |
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texts[bid, :text_size] = text |
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ref_texts[bid, :rtext_size] = ref_text |
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input_lengths[bid] = text_size |
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ref_lengths[bid] = rtext_size |
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output_lengths[bid] = mel_size |
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paths[bid] = path |
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ref_mel_size = ref_mel.size(1) |
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ref_mels[bid, :, :ref_mel_size] = ref_mel |
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ref_labels[bid] = ref_label |
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waves[bid] = wave |
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return waves, texts, input_lengths, ref_texts, ref_lengths, mels, output_lengths, ref_mels |
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def build_dataloader(path_list, |
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root_path, |
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validation=False, |
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OOD_data="Data/OOD_texts.txt", |
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min_length=50, |
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batch_size=4, |
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num_workers=1, |
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device='cpu', |
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collate_config={}, |
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dataset_config={}): |
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dataset = FilePathDataset(path_list, root_path, OOD_data=OOD_data, min_length=min_length, validation=validation, **dataset_config) |
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collate_fn = Collater(**collate_config) |
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data_loader = DataLoader(dataset, |
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batch_size=batch_size, |
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shuffle=(not validation), |
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num_workers=num_workers, |
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drop_last=True, |
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collate_fn=collate_fn, |
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pin_memory=(device != 'cpu')) |
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return data_loader |
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