import math import os import unittest from dataclasses import dataclass import librosa import numpy as np from coqpit import Coqpit from tests import get_tests_input_path, get_tests_output_path, get_tests_path from TTS.utils.audio import numpy_transforms as np_transforms TESTS_PATH = get_tests_path() OUT_PATH = os.path.join(get_tests_output_path(), "audio_tests") WAV_FILE = os.path.join(get_tests_input_path(), "example_1.wav") os.makedirs(OUT_PATH, exist_ok=True) # pylint: disable=no-self-use class TestNumpyTransforms(unittest.TestCase): def setUp(self) -> None: @dataclass class AudioConfig(Coqpit): sample_rate: int = 22050 fft_size: int = 1024 num_mels: int = 256 mel_fmax: int = 1800 mel_fmin: int = 0 hop_length: int = 256 win_length: int = 1024 pitch_fmax: int = 640 pitch_fmin: int = 1 trim_db: int = -1 min_silence_sec: float = 0.01 gain: float = 1.0 base: float = 10.0 self.config = AudioConfig() self.sample_wav, _ = librosa.load(WAV_FILE, sr=self.config.sample_rate) def test_build_mel_basis(self): """Check if the mel basis is correctly built""" print(" > Testing mel basis building.") mel_basis = np_transforms.build_mel_basis(**self.config) self.assertEqual(mel_basis.shape, (self.config.num_mels, self.config.fft_size // 2 + 1)) def test_millisec_to_length(self): """Check if the conversion from milliseconds to length is correct""" print(" > Testing millisec to length conversion.") win_len, hop_len = np_transforms.millisec_to_length( frame_length_ms=1000, frame_shift_ms=12.5, sample_rate=self.config.sample_rate ) self.assertEqual(hop_len, int(12.5 / 1000.0 * self.config.sample_rate)) self.assertEqual(win_len, self.config.sample_rate) def test_amplitude_db_conversion(self): di = np.random.rand(11) o1 = np_transforms.amp_to_db(x=di, gain=1.0, base=10) o2 = np_transforms.db_to_amp(x=o1, gain=1.0, base=10) np.testing.assert_almost_equal(di, o2, decimal=5) def test_preemphasis_deemphasis(self): di = np.random.rand(11) o1 = np_transforms.preemphasis(x=di, coeff=0.95) o2 = np_transforms.deemphasis(x=o1, coeff=0.95) np.testing.assert_almost_equal(di, o2, decimal=5) def test_spec_to_mel(self): mel_basis = np_transforms.build_mel_basis(**self.config) spec = np.random.rand(self.config.fft_size // 2 + 1, 20) # [C, T] mel = np_transforms.spec_to_mel(spec=spec, mel_basis=mel_basis) self.assertEqual(mel.shape, (self.config.num_mels, 20)) def mel_to_spec(self): mel_basis = np_transforms.build_mel_basis(**self.config) mel = np.random.rand(self.config.num_mels, 20) # [C, T] spec = np_transforms.mel_to_spec(mel=mel, mel_basis=mel_basis) self.assertEqual(spec.shape, (self.config.fft_size // 2 + 1, 20)) def test_wav_to_spec(self): spec = np_transforms.wav_to_spec(wav=self.sample_wav, **self.config) self.assertEqual( spec.shape, (self.config.fft_size // 2 + 1, math.ceil(self.sample_wav.shape[0] / self.config.hop_length)) ) def test_wav_to_mel(self): mel_basis = np_transforms.build_mel_basis(**self.config) mel = np_transforms.wav_to_mel(wav=self.sample_wav, mel_basis=mel_basis, **self.config) self.assertEqual( mel.shape, (self.config.num_mels, math.ceil(self.sample_wav.shape[0] / self.config.hop_length)) ) def test_compute_f0(self): pitch = np_transforms.compute_f0(x=self.sample_wav, **self.config) mel_basis = np_transforms.build_mel_basis(**self.config) mel = np_transforms.wav_to_mel(wav=self.sample_wav, mel_basis=mel_basis, **self.config) assert pitch.shape[0] == mel.shape[1] def test_load_wav(self): wav = np_transforms.load_wav(filename=WAV_FILE, resample=False, sample_rate=22050) wav_resample = np_transforms.load_wav(filename=WAV_FILE, resample=True, sample_rate=16000) self.assertEqual(wav.shape, (self.sample_wav.shape[0],)) self.assertNotEqual(wav_resample.shape, (self.sample_wav.shape[0],))