import math, os, re, sys from pathlib import Path import numpy as np import pandas as pd from multiprocessing import Pool from scipy.io import wavfile import tensorflow as tf from pydub import AudioSegment from tensorflow.keras.utils import Sequence, OrderedEnqueuer from tensorflow.keras import layers from tensorflow.keras.preprocessing.sequence import pad_sequences sys.path.append(os.path.dirname(__file__)) from g2p.g2p_en.g2p import G2p # import warnings # warnings.filterwarnings("ignore", category=np.VisibleDeprecationWarning) # np.warnings.filterwarnings('ignore', category=np.VisibleDeprecationWarning) class GoogleCommandsDataloader(Sequence): def __init__(self, batch_size, fs = 16000, keyword=['realtek go','ok google','vintage','hackney','crocodile','surroundings','oversaw','northwestern'], wav_path_or_object='/share/nas165/yiting/recording/ok_google/Default_20240725-183008.wav', features='g2p_embed', # phoneme, g2p_embed, both ... ): phonemes = ["", ] + ['AA0', 'AA1', 'AA2', 'AE0', 'AE1', 'AE2', 'AH0', 'AH1', 'AH2', 'AO0', 'AO1', 'AO2', 'AW0', 'AW1', 'AW2', 'AY0', 'AY1', 'AY2', 'B', 'CH', 'D', 'DH', 'EH0', 'EH1', 'EH2', 'ER0', 'ER1', 'ER2', 'EY0', 'EY1', 'EY2', 'F', 'G', 'HH', 'IH0', 'IH1', 'IH2', 'IY0', 'IY1', 'IY2', 'JH', 'K', 'L', 'M', 'N', 'NG', 'OW0', 'OW1', 'OW2', 'OY0', 'OY1', 'OY2', 'P', 'R', 'S', 'SH', 'T', 'TH', 'UH0', 'UH1', 'UH2', 'UW', 'UW0', 'UW1', 'UW2', 'V', 'W', 'Y', 'Z', 'ZH', ' '] self.p2idx = {p: idx for idx, p in enumerate(phonemes)} self.idx2p = {idx: p for idx, p in enumerate(phonemes)} self.batch_size = batch_size self.fs = fs self.features = features self.nPhoneme = len(phonemes) self.g2p = G2p() self.keyword = keyword self.wav = wav_path_or_object self.__prep__() self.on_epoch_end() def __prep__(self): self.data = pd.DataFrame(columns=['wav', 'text', 'duration', 'label']) anchor = ' ' target_dict = {} if isinstance(self.wav, str): anchor = self.wav.split('/')[-2].lower().replace('_', ' ') duration = float(wavfile.read(self.wav)[1].shape[-1])/self.fs else: duration = float(self.wav[1].shape[-1])/self.fs # duration = float(wavfile.read(self.wav)[1].shape[-1])/self.fs # duration = float(self.wav_path_or_object.shape[-1])/self.fs for i, comparison_text in enumerate(self.keyword): label = 1 if comparison_text == anchor else 0 target_dict[i] = { 'wav': self.wav, 'text': comparison_text, 'duration': duration, 'label': label } print(target_dict) self.data = self.data.append(pd.DataFrame.from_dict(target_dict, 'index'), ignore_index=True) print(self.data) # g2p & p2idx by g2p_en package print(">> Convert word to phoneme") self.data['phoneme'] = self.data['text'].apply(lambda x: self.g2p(re.sub(r"[^a-zA-Z0-9]+", ' ', x))) print(">> Convert phoneme to index") self.data['pIndex'] = self.data['phoneme'].apply(lambda x: [self.p2idx[t] for t in x]) print(">> Compute phoneme embedding") self.data['g2p_embed'] = self.data['text'].apply(lambda x: self.g2p.embedding(x)) # if (self.pkl is not None) and (not os.path.isfile(self.pkl)): # self.data.to_pickle(self.pkl) # Get longest data self.wav_list = self.data['wav'].values self.idx_list = self.data['pIndex'].values # self.idx_list = [np.insert(lst, 0, 0) for lst in self.idx_list] # self.sIdx_list = [np.insert(lst, 0, 0) for lst in self.sIdx_list] self.emb_list = self.data['g2p_embed'].values self.lab_list = self.data['label'].values self.data = self.data.sort_values(by='duration').reset_index(drop=True) # Set dataloader params. self.len = len(self.data) self.maxlen_t = int((int(self.data['text'].apply(lambda x: len(x)).max() / 10) + 1) * 10) # self.maxlen_a = int(((int(self.data['duration'].values[-1] / 0.5) + 1 ) * self.fs / 2)*1.2) # print(self.maxlen_a) self.maxlen_a = 56000 def __len__(self): # return total batch-wise length return math.ceil(self.len / self.batch_size) def _load_wav(self, wav): return np.array(wavfile.read(wav)[1]).astype(np.float32) / 32768.0 def __getitem__(self, idx): # chunking indices = self.indices[idx * self.batch_size : (idx + 1) * self.batch_size] # load inputs if isinstance(self.wav, str): batch_x = [np.array(wavfile.read(self.wav_list[i])[1]).astype(np.float32) / 32768.0 for i in indices] else: batch_x = [np.array((self.wav_list[i])[1]).astype(np.float32)/ 32768.0 for i in indices] # batch_x = [np.array(wavfile.read(self.wav_list[i])[1]).astype(np.float32) / 32768.0 for i in indices] if self.features == 'both': batch_p = [np.array(self.idx_list[i]).astype(np.int32) for i in indices] batch_e = [np.array(self.emb_list[i]).astype(np.float32) for i in indices] else: if self.features == 'phoneme': batch_y = [np.array(self.idx_list[i]).astype(np.int32) for i in indices] elif self.features == 'g2p_embed': batch_y = [np.array(self.emb_list[i]).astype(np.float32) for i in indices] # load outputs batch_z = [np.array([self.lab_list[i]]).astype(np.float32) for i in indices] # padding and masking pad_batch_x = pad_sequences(np.array(batch_x), maxlen=self.maxlen_a, value=0.0, padding='post', dtype=batch_x[0].dtype) if self.features == 'both': pad_batch_p = pad_sequences(np.array(batch_p), maxlen=self.maxlen_t, value=0.0, padding='post', dtype=batch_p[0].dtype) pad_batch_e = pad_sequences(np.array(batch_e), maxlen=self.maxlen_t, value=0.0, padding='post', dtype=batch_e[0].dtype) else: pad_batch_y = pad_sequences(np.array(batch_y), maxlen=self.maxlen_t, value=0.0, padding='post', dtype=batch_y[0].dtype) pad_batch_z = pad_sequences(np.array(batch_z), value=0.0, padding='post', dtype=batch_z[0].dtype) if self.features == 'both': return pad_batch_x, pad_batch_p, pad_batch_e, pad_batch_z else: return pad_batch_x, pad_batch_y, pad_batch_z def on_epoch_end(self): self.indices = np.arange(self.len) # if self.shuffle == True: # np.random.shuffle(self.indices) def convert_sequence_to_dataset(dataloader): def data_generator(): for i in range(dataloader.__len__()): if dataloader.features == 'both': pad_batch_x, pad_batch_p, pad_batch_e, pad_batch_z = dataloader[i] yield pad_batch_x, pad_batch_p, pad_batch_e, pad_batch_z else: pad_batch_x, pad_batch_y, pad_batch_z = dataloader[i] yield pad_batch_x, pad_batch_y, pad_batch_z if dataloader.features == 'both': data_dataset = tf.data.Dataset.from_generator(data_generator, output_signature=( tf.TensorSpec(shape=(None, dataloader.maxlen_a), dtype=tf.float32), tf.TensorSpec(shape=(None, dataloader.maxlen_t), dtype=tf.int32), tf.TensorSpec(shape=(None, dataloader.maxlen_t, 256), dtype=tf.float32), tf.TensorSpec(shape=(None, 1), dtype=tf.float32),) ) else: data_dataset = tf.data.Dataset.from_generator(data_generator, output_signature=( tf.TensorSpec(shape=(None, dataloader.maxlen_a), dtype=tf.float32), tf.TensorSpec(shape=(None, dataloader.maxlen_t) if dataloader.features == 'phoneme' else (None, dataloader.maxlen_t, 256), dtype=tf.int32 if dataloader.features == 'phoneme' else tf.float32), tf.TensorSpec(shape=(None, 1), dtype=tf.float32),) ) # data_dataset = data_dataset.cache() # data_dataset = tf.data.Dataset.from_generator(data_generator, output_signature=output_signature) data_dataset = data_dataset.prefetch(1) return data_dataset if __name__ == '__main__': dataloader = GoogleCommandsDataloader(2048, testset_only=True, pkl='/home/DB/google_speech_commands/google_testset.pkl', features='g2p_embed')