#!/usr/bin/env python2 # Copyright 2016 The Chromium OS Authors. All rights reserved. # Use of this source code is governed by a BSD-style license that can be # found in the LICENSE file. from __future__ import absolute_import from __future__ import division from __future__ import print_function import logging import math import numpy import unittest import common from autotest_lib.client.cros.audio import audio_data from autotest_lib.client.cros.audio import audio_quality_measurement from six.moves import range class NoiseLevelTest(unittest.TestCase): def setUp(self): """Uses the same seed to generate noise for each test.""" numpy.random.seed(0) def testNoiseLevel(self): # Generates the standard sin wave with standard_noise portion of noise. rate = 48000 length_in_secs = 2 frequency = 440 amplitude = 1 standard_noise = 0.05 wave = [] for index in range(0, rate * length_in_secs): phase = 2.0 * math.pi * frequency * float(index) / float(rate) sine_wave = math.sin(phase) noise = standard_noise * numpy.random.standard_normal() wave.append(float(amplitude) * (sine_wave + noise)) # Calculates the average value after applying teager operator. teager_value_of_wave, length = 0, len(wave) for i in range(1, length-1): ith_teager_value = abs(wave[i] * wave[i] - wave[i - 1] * wave[i + 1]) ith_teager_value *= max(1, abs(wave[i])) teager_value_of_wave += ith_teager_value teager_value_of_wave /= float(length * (amplitude ** 2)) noise = audio_quality_measurement.noise_level(amplitude, frequency, rate, teager_value_of_wave) self.assertTrue(abs(noise - standard_noise) < 0.01) class ErrorTest(unittest.TestCase): def testError(self): value1 = [0.2, 0.4, 0.1, 0.01, 0.01, 0.01] value2 = [0.3, 0.3, 0.08, 0.0095, 0.0098, 0.0099] error = [0.5, 0.25, 0.2, 0.05, 0.02, 0.01] for i in range( len(value1) ): ret = audio_quality_measurement.error(value1[i], value2[i]) self.assertTrue(abs(ret - error[i]) < 0.001) class QualityMeasurementTest(unittest.TestCase): def setUp(self): """Creates a test signal of sine wave.""" numpy.random.seed(0) self.rate = 48000 self.freq = 440 self.amplitude = 1 length_in_secs = 2 self.samples = length_in_secs * self.rate self.y = [] for index in range(self.samples): phase = 2.0 * math.pi * self.freq * float(index) / float(self.rate) sine_wave = math.sin(phase) self.y.append(float(self.amplitude) * sine_wave) def add_noise(self): """Adds noise to the test signal.""" noise_amplitude = 0.01 * self.amplitude for index in range(self.samples): noise = noise_amplitude * numpy.random.standard_normal() self.y[index] += noise def generate_delay(self): """Generates some delays during playing.""" self.delay_start_time = [0.200, 0.375, 0.513, 0.814, 1.000, 1.300] self.delay_end_time = [0.201, 0.377, 0.516, 0.824, 1.100, 1.600] for i in range(len(self.delay_start_time)): start_index = int(self.delay_start_time[i] * self.rate) end_index = int(self.delay_end_time[i] * self.rate) for j in range(start_index,end_index): self.y[j] = 0 def generate_artifacts_before_playback(self): """Generates artifacts before playing.""" silence_before_playback_end_time = 0.2 end_index = int(silence_before_playback_end_time * self.rate) for i in range(0, end_index): self.y[i] = 0 noise_start_index = int(0.1 * self.rate) noise_end_index = int(0.1005 * self.rate) for i in range(noise_start_index, noise_end_index): self.y[i] = 3 * self.amplitude def generate_artifacts_after_playback(self): """Generates artifacts after playing.""" silence_after_playback_start_time = int(1.9 * self.rate) noise_start_index = int(1.95 * self.rate) noise_end_index = int((1.95 + 0.02) * self.rate) for i in range(silence_after_playback_start_time, self.samples): self.y[i] = 0 for i in range(noise_start_index, noise_end_index): self.y[i] = self.amplitude def generate_burst_during_playback(self): """Generates bursts during playing.""" self.burst_start_time = [0.300, 0.475, 0.613, 0.814, 1.300] self.burst_end_time = [0.301, 0.476, 0.614, 0.815, 1.301] for i in range(len(self.burst_start_time)): start_index = int(self.burst_start_time[i] * self.rate) end_index = int(self.burst_end_time[i] * self.rate) for j in range(start_index, end_index): self.y[j] = self.amplitude * (3 + numpy.random.uniform(-1, 1)) def generate_volume_changing(self): "Generates volume changing during playing." start_time = [0.300, 1.400] end_time = [0.600, 1.700] for i in range(len(start_time)): start_index = int(start_time[i] * self.rate) end_index = int(end_time[i] * self.rate) for j in range(start_index,end_index): self.y[j] *= 1.4 self.volume_changing = [+1, -1, +1, -1] self.volume_changing_time = [0.3, 0.6, 1.4, 1.7] def testGoodSignal(self): """Sine wave signal with no noise or artifacts.""" result = audio_quality_measurement.quality_measurement(self.y, self.rate) self.assertTrue(len(result['artifacts']['noise_before_playback']) == 0) self.assertTrue(len(result['artifacts']['noise_after_playback']) == 0) self.assertTrue(len(result['artifacts']['delay_during_playback']) == 0) self.assertTrue(len(result['artifacts']['burst_during_playback']) == 0) self.assertTrue(len(result['volume_changes']) == 0) self.assertTrue(result['equivalent_noise_level'] < 0.005) def testGoodSignalNoise(self): """Sine wave signal with noise.""" self.add_noise(); result = audio_quality_measurement.quality_measurement(self.y, self.rate) self.assertTrue(len(result['artifacts']['noise_before_playback']) == 0) self.assertTrue(len(result['artifacts']['noise_after_playback']) == 0) self.assertTrue(len(result['artifacts']['delay_during_playback']) == 0) self.assertTrue(len(result['artifacts']['burst_during_playback']) == 0) self.assertTrue(len(result['volume_changes']) == 0) self.assertTrue(0.009 < result['equivalent_noise_level'] and result['equivalent_noise_level'] < 0.011) def testDelay(self): """Sine wave with delay during playing.""" self.generate_delay() result = audio_quality_measurement.quality_measurement(self.y, self.rate) self.assertTrue(len(result['artifacts']['noise_before_playback']) == 0) self.assertTrue(len(result['artifacts']['noise_after_playback']) == 0) self.assertTrue(len(result['volume_changes']) == 2 * len(self.delay_start_time)) self.assertTrue(result['equivalent_noise_level'] < 0.005) self.assertTrue(len(result['artifacts']['delay_during_playback']) == len(self.delay_start_time)) for i in range(len(result['artifacts']['delay_during_playback'])): delta = abs(result['artifacts']['delay_during_playback'][i][0] - self.delay_start_time[i]) self.assertTrue(delta < 0.001) duration = self.delay_end_time[i] - self.delay_start_time[i] delta = abs(result['artifacts']['delay_during_playback'][i][1] - duration) self.assertTrue(delta < 0.001) def testArtifactsBeforePlayback(self): """Sine wave with artifacts before playback.""" self.generate_artifacts_before_playback() result = audio_quality_measurement.quality_measurement(self.y, self.rate) self.assertTrue(len(result['artifacts']['noise_before_playback']) == 1) delta = abs(result['artifacts']['noise_before_playback'][0][0] - 0.1) self.assertTrue(delta < 0.01) delta = abs(result['artifacts']['noise_before_playback'][0][1] - 0.005) self.assertTrue(delta < 0.004) self.assertTrue(len(result['artifacts']['noise_after_playback']) == 0) self.assertTrue(len(result['artifacts']['delay_during_playback']) == 0) self.assertTrue(len(result['artifacts']['burst_during_playback']) == 0) self.assertTrue(len(result['volume_changes']) == 0) self.assertTrue(result['equivalent_noise_level'] < 0.005) def testArtifactsAfterPlayback(self): """Sine wave with artifacts after playback.""" self.generate_artifacts_after_playback() result = audio_quality_measurement.quality_measurement(self.y, self.rate) self.assertTrue(len(result['artifacts']['noise_before_playback']) == 0) self.assertTrue(len(result['artifacts']['noise_after_playback']) == 1) delta = abs(result['artifacts']['noise_after_playback'][0][0] - 1.95) self.assertTrue(delta < 0.01) delta = abs(result['artifacts']['noise_after_playback'][0][1] - 0.02) self.assertTrue(delta < 0.001) self.assertTrue(len(result['artifacts']['delay_during_playback']) == 0) self.assertTrue(len(result['artifacts']['burst_during_playback'] ) == 0) self.assertTrue(len(result['volume_changes']) == 0) self.assertTrue(result['equivalent_noise_level'] < 0.005) def testBurstDuringPlayback(self): """Sine wave with burst during playback.""" self.generate_burst_during_playback() result = audio_quality_measurement.quality_measurement(self.y, self.rate) self.assertTrue(len(result['artifacts']['noise_before_playback']) == 0) self.assertTrue(len(result['artifacts']['noise_after_playback']) == 0) self.assertTrue(len(result['artifacts']['delay_during_playback']) == 0) self.assertTrue(len(result['artifacts']['burst_during_playback']) == 5) self.assertTrue(len(result['volume_changes']) == 10) self.assertTrue(result['equivalent_noise_level'] > 0.02) for i in range(len(result['artifacts']['burst_during_playback'])): delta = abs(self.burst_start_time[i] - result['artifacts']['burst_during_playback'][i]) self.assertTrue(delta < 0.002) def testVolumeChanging(self): """Sine wave with volume changing during playback.""" self.generate_volume_changing() result = audio_quality_measurement.quality_measurement(self.y, self.rate) self.assertTrue(len(result['artifacts']['noise_before_playback']) == 0) self.assertTrue(len(result['artifacts']['noise_after_playback']) == 0) self.assertTrue(len(result['artifacts']['delay_during_playback']) == 0) self.assertTrue(len(result['artifacts']['burst_during_playback']) == 0) self.assertTrue(result['equivalent_noise_level'] < 0.005) self.assertTrue(len(result['volume_changes']) == len(self.volume_changing)) for i in range(len(self.volume_changing)): self.assertTrue(abs(self.volume_changing_time[i] - result['volume_changes'][i][0]) < 0.01) self.assertTrue(self.volume_changing[i] == result['volume_changes'][i][1]) if __name__ == '__main__': unittest.main()