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preprocess.py
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preprocess.py
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import librosa
import os
from sklearn.model_selection import train_test_split
from keras.utils import to_categorical
import numpy as np
from tqdm import tqdm
DATA_PATH = "./mixes/"
# Input: Folder Path
# Output: Tuple (Label, Indices of the labels, one-hot encoded labels)
def get_labels(path=DATA_PATH):
labels = os.listdir(path)
label_indices = np.arange(0, len(labels))
return labels, label_indices, to_categorical(label_indices)
# Handy function to convert wav2mfcc
def wav2mfcc(file_path, max_len=11):
wave, sr = librosa.load(file_path, mono=True, sr=None)
wave = wave[::3]
mfcc = librosa.feature.mfcc(wave, sr=16000)
# If maximum length exceeds mfcc lengths then pad the remaining ones
if (max_len > mfcc.shape[1]):
pad_width = max_len - mfcc.shape[1]
mfcc = np.pad(mfcc, pad_width=((0, 0), (0, pad_width)), mode='constant')
# Else cutoff the remaining parts
else:
mfcc = mfcc[:, :max_len]
return mfcc
def save_data_to_array(path=DATA_PATH, max_len=11):
labels, _, _ = get_labels(path)
for label in labels:
# Init mfcc vectors
mfcc_vectors = []
wavfiles = [path + label + '/' + wavfile for wavfile in os.listdir(path + '/' + label)]
for wavfile in tqdm(wavfiles, "Saving vectors of label - '{}'".format(label)):
mfcc = wav2mfcc(wavfile, max_len=max_len)
mfcc_vectors.append(mfcc)
np.save(label + '.npy', mfcc_vectors)
def get_train_test(split_ratio=0.6, random_state=42):
# Get available labels
labels, indices, _ = get_labels(DATA_PATH)
# Getting first arrays
X = np.load(labels[0] + '.npy')
y = np.zeros(X.shape[0])
# Append all of the dataset into one single array, same goes for y
for i, label in enumerate(labels[1:]):
x = np.load(label + '.npy')
X = np.vstack((X, x))
y = np.append(y, np.full(x.shape[0], fill_value= (i + 1)))
assert X.shape[0] == len(y)
return train_test_split(X, y, test_size= (1 - split_ratio), random_state=random_state, shuffle=True)
def prepare_dataset(path=DATA_PATH):
labels, _, _ = get_labels(path)
data = {}
for label in labels:
data[label] = {}
data[label]['path'] = [path + label + '/' + wavfile for wavfile in os.listdir(path + '/' + label)]
vectors = []
for wavfile in data[label]['path']:
wave, sr = librosa.load(wavfile, mono=True, sr=None)
# Downsampling
wave = wave[::3]
mfcc = librosa.feature.mfcc(wave, sr=16000)
vectors.append(mfcc)
data[label]['mfcc'] = vectors
return data
def load_dataset(path=DATA_PATH):
data = prepare_dataset(path)
dataset = []
for key in data:
for mfcc in data[key]['mfcc']:
dataset.append((key, mfcc))
return dataset[:100]
# print(prepare_dataset(DATA_PATH))