implemented phoneme segmented training on samples
Malar Kannan
parent
507da49cfa
commit
4dd4bb5963
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@ -114,7 +114,7 @@ def train_segment(collection_name = 'test',resume_weights='',initial_epoch=0):
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cp_file_fmt,
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monitor='val_loss',
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verbose=0,
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save_best_only=True,
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save_best_only=False,
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save_weights_only=True,
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mode='auto',
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period=1)
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154
speech_data.py
154
speech_data.py
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@ -1,13 +1,13 @@
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import pandas as pd
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from speech_tools import apply_by_multiprocessing,threadsafe_iter,reservoir_sample,padd_zeros
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from speech_tools import *
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from speech_pitch import *
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# import dask as dd
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# import dask.dataframe as ddf
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import tensorflow as tf
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from tensorflow.python.ops import data_flow_ops
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import numpy as np
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from speech_spectrum import generate_aiff_spectrogram
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from speech_pitch import pitch_array
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from speech_pitch import compute_mfcc
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from speech_spectrum import generate_aiff_spectrogram,generate_sample_spectrogram
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from speech_similar import segmentable_phoneme
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from sklearn.model_selection import train_test_split
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import os,shutil
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import random
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@ -39,6 +39,58 @@ def siamese_pairs(rightGroup, wrongGroup):
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# return rightRightPairs[:10],rightWrongPairs[:10]
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return validRRPairs[:32],validRWPairs[:32]
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def seg_siamese_pairs(rightGroup, wrongGroup):
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group1 = [r for (i, r) in rightGroup.iterrows()]
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group2 = [r for (i, r) in wrongGroup.iterrows()]
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rightWrongPairs = [(g1, g2) for g2 in group2 for g1 in group1]#+[(g2, g1) for g2 in group2 for g1 in group1]
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rightRightPairs = [i for i in itertools.combinations(group1, 2)]#+[i for i in itertools.combinations(group2, 2)]
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def filter_criteria(s1,s2):
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same = s1['variant'] == s2['variant']
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phon_same = s1['phonemes'] == s2['phonemes']
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voice_diff = s1['voice'] != s2['voice']
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if not same and phon_same:
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return False
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# if same and not voice_diff:
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# return False
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return True
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validRWPairs = [i for i in rightWrongPairs if filter_criteria(*i)]
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validRRPairs = [i for i in rightRightPairs if filter_criteria(*i)]
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random.shuffle(validRWPairs)
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random.shuffle(validRRPairs)
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rrPhonePairs = []
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rwPhonePairs = []
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def compute_seg_spec(s1,s2):
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phon_count = len(s1['parsed_phoneme'])
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seg1_count = len(s1['segments'].index)
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seg2_count = len(s2['segments'].index)
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if phon_count == seg1_count and seg2_count == phon_count:
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s1nd,s2nd = pm_snd(s1['file_path']),pm_snd(s2['file_path'])
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segs1 = [tuple(x) for x in s1['segments'][['start','end']].values]
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segs2 = [tuple(x) for x in s2['segments'][['start','end']].values]
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s1_cp = pd.Series(s1)
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s2_cp = pd.Series(s2)
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pp12 = zip(s1['parsed_phoneme'],s2['parsed_phoneme'],segs1,segs2)
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for (p1,p2,(s1s,s1e),(s2s,s2e)) in pp12:
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spc1 = generate_sample_spectrogram(s1nd.extract_part(s1s,s1e).values)
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spc2 = generate_sample_spectrogram(s2nd.extract_part(s2s,s2e).values)
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s1_cp['spectrogram'] = spc1
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s2_cp['spectrogram'] = spc2
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# import pdb; pdb.set_trace()
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if repr(p1) == repr(p2):
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rrPhonePairs.append((s1_cp,s2_cp))
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else:
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rwPhonePairs.append((s1_cp,s2_cp))
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for (s1,s2) in validRRPairs:
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compute_seg_spec(s1,s2)
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for (s1,s2) in validRWPairs:
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compute_seg_spec(s1,s2)
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return rrPhonePairs[:32],rwPhonePairs[:32]
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# return rightRightPairs[:10],rightWrongPairs[:10]
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# return
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# validRRPairs[:8],validRWPairs[:8]
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def _float_feature(value):
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return tf.train.Feature(float_list=tf.train.FloatList(value=value))
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@ -227,6 +279,94 @@ def convert_old_audio():
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audio_samples = audio_samples[['word','phonemes', 'voice', 'language', 'rate', 'variant', 'file']]
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audio_samples.to_csv('./outputs/audio_new.csv',index=False,header=False)
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def generate_sppas_trans(audio_group='story_words.all'):
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# audio_group='story_words.all'
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audio_samples = pd.read_csv( './outputs/' + audio_group + '.fixed.csv',index_col=0)
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audio_samples['file_path'] = audio_samples.loc[:, 'file'].apply(lambda x: 'outputs/' + audio_group + '/' + x)
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# audio_samples = audio_samples.head(5)
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rows = tqdm(audio_samples.iterrows(),total = len(audio_samples.index)
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, desc='Transcribing Words ')
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for (i,row) in rows:
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# len(audio_samples.iterrows())
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# (i,row) = next(audio_samples.iterrows())
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rows.set_postfix(word=row['word'])
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transribe_audio_text(row['file_path'],row['word'])
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rows.close()
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def create_seg_phonpair_tfrecords(audio_group='story_words.all',sample_count=0,train_test_ratio=0.1):
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audio_samples = pd.read_csv( './outputs/' + audio_group + '.fixed.csv',index_col=0)
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audio_samples['file_path'] = audio_samples.loc[:, 'file'].apply(lambda x: 'outputs/' + audio_group + '/' + x)
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audio_samples = audio_samples[(audio_samples['variant'] == 'low') | (audio_samples['variant'] == 'medium')]
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audio_samples['parsed_phoneme'] = apply_by_multiprocessing(audio_samples['phonemes'],segmentable_phoneme)
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# audio_samples['sound'] = apply_by_multiprocessing(audio_samples['file_path'],pm_snd)
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# read_seg_file(audio_samples.iloc[0]['file_path'])
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audio_samples['segments'] = apply_by_multiprocessing(audio_samples['file_path'],read_seg_file)
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n_records,n_spec,n_features = 0,0,0
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def write_samples(wg,sample_name):
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word_group_prog = tqdm(wg,desc='Computing PhonPair spectrogram')
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record_file = './outputs/{}.{}.tfrecords'.format(audio_group,sample_name)
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writer = tf.python_io.TFRecordWriter(record_file)
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for (w, word_group) in word_group_prog:
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word_group_prog.set_postfix(word=w,sample_name=sample_name)
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g = word_group.reset_index()
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# g['spectrogram'] = apply_by_multiprocessing(g['file_path'],pitch_array)
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# g['spectrogram'] = apply_by_multiprocessing(g['file_path'],generate_aiff_spectrogram)
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# g['spectrogram'] = apply_by_multiprocessing(g['file_path'],compute_mfcc)
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sample_right = g.loc[g['variant'] == 'low']
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sample_wrong = g.loc[g['variant'] == 'medium']
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same, diff = seg_siamese_pairs(sample_right, sample_wrong)
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groups = [([0,1],same),([1,0],diff)]
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for (output,group) in groups:
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group_prog = tqdm(group,desc='Writing Spectrogram')
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for sample1,sample2 in group_prog:
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group_prog.set_postfix(output=output
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,var1=sample1['variant']
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,var2=sample2['variant'])
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spectro1,spectro2 = sample1['spectrogram'],sample2['spectrogram']
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spec_n1,spec_n2 = spectro1.shape[0],spectro2.shape[0]
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spec_w1,spec_w2 = spectro1.shape[1],spectro2.shape[1]
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spec1,spec2 = spectro1.reshape(-1),spectro2.reshape(-1)
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nonlocal n_spec,n_records,n_features
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n_spec = max([n_spec,spec_n1,spec_n2])
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n_features = spec_w1
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n_records+=1
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example = tf.train.Example(features=tf.train.Features(
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feature={
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'word': _bytes_feature([w.encode('utf-8')]),
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'phoneme1': _bytes_feature([sample1['phonemes'].encode('utf-8')]),
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'phoneme2': _bytes_feature([sample2['phonemes'].encode('utf-8')]),
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'voice1': _bytes_feature([sample1['voice'].encode('utf-8')]),
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'voice2': _bytes_feature([sample2['voice'].encode('utf-8')]),
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'language': _bytes_feature([sample1['language'].encode('utf-8')]),
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'rate1':_int64_feature([sample1['rate']]),
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'rate2':_int64_feature([sample2['rate']]),
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'variant1': _bytes_feature([sample1['variant'].encode('utf-8')]),
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'variant2': _bytes_feature([sample2['variant'].encode('utf-8')]),
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'file1': _bytes_feature([sample1['file'].encode('utf-8')]),
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'file2': _bytes_feature([sample2['file'].encode('utf-8')]),
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'spec1':_float_feature(spec1),
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'spec2':_float_feature(spec2),
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'spec_n1':_int64_feature([spec_n1]),
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'spec_w1':_int64_feature([spec_w1]),
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'spec_n2':_int64_feature([spec_n2]),
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'spec_w2':_int64_feature([spec_w2]),
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'output':_int64_feature(output)
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}
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))
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writer.write(example.SerializeToString())
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group_prog.close()
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word_group_prog.close()
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writer.close()
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word_groups = [i for i in audio_samples.groupby('word')]
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wg_sampled = reservoir_sample(word_groups,sample_count) if sample_count > 0 else word_groups
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tr_audio_samples,te_audio_samples = train_test_split(wg_sampled,test_size=train_test_ratio)
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write_samples(tr_audio_samples,'train')
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write_samples(te_audio_samples,'test')
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const_file = os.path.join('./outputs',audio_group+'.constants')
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pickle.dump((n_spec,n_features,n_records),open(const_file,'wb'))
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if __name__ == '__main__':
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# sunflower_pairs_data()
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# create_spectrogram_data()
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@ -241,8 +381,10 @@ if __name__ == '__main__':
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# create_spectrogram_tfrecords('audio',sample_count=100)
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# create_spectrogram_tfrecords('story_all',sample_count=25)
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# fix_csv('story_words_test')
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# fix_csv('story_words')
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create_spectrogram_tfrecords('story_words',sample_count=100,train_test_ratio=0.1)
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# fix_csv('test_5_words')
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# generate_sppas_trans('test_5_words')
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create_seg_phonpair_tfrecords('test_5_words')
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# create_spectrogram_tfrecords('story_words.all',sample_count=0,train_test_ratio=0.1)
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#record_generator_count()
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# create_spectrogram_tfrecords('audio',sample_count=50)
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# read_siamese_tfrecords_generator('audio')
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@ -131,4 +131,4 @@ def train_siamese(audio_group = 'audio',resume_weights='',initial_epoch=0):
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if __name__ == '__main__':
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train_siamese('story_words')
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train_siamese('test_5_words')
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@ -30,7 +30,7 @@ def compute_mfcc(sample_file='outputs/audio/sunflowers-Victoria-180-normal-870.a
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return sample_mfcc.to_array()
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def compute_formants(sample_file='outputs/audio/sunflowers-Victoria-180-normal-870.aiff'):
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sample_file='outputs/audio/sunflowers-Victoria-180-normal-870.aiff'
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# sample_file='outputs/audio/sunflowers-Victoria-180-normal-870.aiff'
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sample_sound = pm_snd(sample_file)
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sample_formant = sample_sound.to_formant_burg()
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# sample_formant.x_bins()
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@ -120,9 +120,11 @@ def parse_apple_phonemes(ph_str):
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elif pref[0].isdigit() and pref[1:] in apple_phonemes:
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return [ApplePhoneme(pref[1:], int(pref[0]) , True)] + parse_apple_phonemes(rest)
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elif not pref.isalnum():
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return [ApplePhoneme(pref, 0, False)] + parse_apple_phonemes(rest)
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return [ApplePhoneme(pref, -1, False)] + parse_apple_phonemes(rest)
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return []
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def segmentable_phoneme(ph_str):
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return [p for p in parse_apple_phonemes(ph_str) if p.stress >=0]
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def similar_phoneme_word(ph_str):
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phons = parse_apple_phonemes(ph_str)
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@ -79,6 +79,9 @@ def generate_spec_frec(samples, samplerate):
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ims[ims < 0] = 0 #np.finfo(sshow.dtype).eps
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return ims, freq
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def generate_sample_spectrogram(samples):
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ims, _ = generate_spec_frec(samples, 22050)
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return ims
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def generate_aiff_spectrogram(audiopath):
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samples, samplerate, _ = snd.read(audiopath)
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@ -5,6 +5,7 @@ import threading
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import itertools
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import random
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import multiprocessing
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import subprocess
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import pandas as pd
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import numpy as np
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import pyaudio
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@ -15,6 +16,8 @@ from speech_spectrum import plot_stft, generate_spec_frec,generate_aiff_spectrog
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SAMPLE_RATE = 22050
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N_CHANNELS = 2
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devnull = open(os.devnull, 'w')
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def step_count(n_records,batch_size):
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return int(math.ceil(n_records*1.0/batch_size))
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@ -56,6 +59,13 @@ def padd_zeros(spgr, max_samples):
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return np.lib.pad(spgr, [(0, max_samples - spgr.shape[0]), (0, 0)],
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'constant')
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def read_seg_file(aiff_name):
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base_name = aiff_name.rsplit('.aiff',1)[0]
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seg_file = base_name+'-palign.csv'
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seg_data = pd.read_csv(seg_file,names=['action','start','end','phoneme'])
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seg_data = seg_data[(seg_data['action'] == 'PhonAlign') & (seg_data['phoneme'] != '#')]
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return seg_data
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def record_spectrogram(n_sec, plot=False, playback=False):
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# show_record_prompt()
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N_SEC = n_sec
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@ -96,6 +106,16 @@ def pair_for_word(phrase='able'):
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spec2 = generate_aiff_spectrogram('./inputs/pairs/test/'+phrase+'.aiff')
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return spec1,spec2
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def transribe_audio_text(aiff_name,phrase):
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base_name = aiff_name.rsplit('.aiff',1)[0]
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wav_name = base_name+'.wav'
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txt_name = base_name+'.txt'
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params = ['ffmpeg', '-y', '-i',aiff_name,wav_name]
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subprocess.call(params,stdout=devnull,stderr=devnull)
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trcr_f = open(txt_name,'w')
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trcr_f.write(phrase)
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trcr_f.close()
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def _apply_df(args):
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df, func, num, kwargs = args
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return num, df.apply(func, **kwargs)
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