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bbf8c9bb33
Use the sample rate passed to the OfflineAudioContext constructor in MediaStreamGraph::CreateOfflineInstance, and pass the preferred mixer sample rate to the (real time) MediaStreamGraph constructor. Then, always use this sample rate for the lifetime of the graph. This patch needed to pass the sample rate to the AudioMixer class to avoid relying on globals like it was done before. --HG-- extra : rebase_source : 2802208819887605fe26a7040998fc328b3c9a57
157 lines
5.0 KiB
C++
157 lines
5.0 KiB
C++
/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this file,
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* You can obtain one at http://mozilla.org/MPL/2.0/. */
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#include "AudioMixer.h"
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#include <assert.h>
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using mozilla::AudioDataValue;
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using mozilla::AudioSampleFormat;
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/* In this test, the different audio stream and channels are always created to
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* cancel each other. */
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void MixingDone(AudioDataValue* aData, AudioSampleFormat aFormat, uint32_t aChannels, uint32_t aFrames, uint32_t aSampleRate)
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{
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bool silent = true;
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for (uint32_t i = 0; i < aChannels * aFrames; i++) {
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if (aData[i] != 0.0) {
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if (aFormat == mozilla::AUDIO_FORMAT_S16) {
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fprintf(stderr, "Sample at %d is not silent: %d\n", i, (short)aData[i]);
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} else {
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fprintf(stderr, "Sample at %d is not silent: %f\n", i, (float)aData[i]);
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}
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silent = false;
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}
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}
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if (!silent) {
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MOZ_CRASH();
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}
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}
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/* Helper function to give us the maximum and minimum value that don't clip,
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* for a given sample format (integer or floating-point). */
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template<typename T>
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T GetLowValue();
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template<typename T>
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T GetHighValue();
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template<>
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float GetLowValue<float>() {
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return -1.0;
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}
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template<>
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short GetLowValue<short>() {
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return -INT16_MAX;
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}
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template<>
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float GetHighValue<float>() {
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return 1.0;
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}
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template<>
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short GetHighValue<short>() {
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return INT16_MAX;
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}
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void FillBuffer(AudioDataValue* aBuffer, uint32_t aLength, AudioDataValue aValue)
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{
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AudioDataValue* end = aBuffer + aLength;
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while (aBuffer != end) {
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*aBuffer++ = aValue;
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}
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}
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int main(int argc, char* argv[]) {
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const uint32_t CHANNEL_LENGTH = 256;
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const uint32_t AUDIO_RATE = 44100;
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AudioDataValue a[CHANNEL_LENGTH * 2];
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AudioDataValue b[CHANNEL_LENGTH * 2];
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FillBuffer(a, CHANNEL_LENGTH, GetLowValue<AudioDataValue>());
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FillBuffer(a + CHANNEL_LENGTH, CHANNEL_LENGTH, GetHighValue<AudioDataValue>());
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FillBuffer(b, CHANNEL_LENGTH, GetHighValue<AudioDataValue>());
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FillBuffer(b + CHANNEL_LENGTH, CHANNEL_LENGTH, GetLowValue<AudioDataValue>());
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{
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int iterations = 2;
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mozilla::AudioMixer mixer(MixingDone);
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fprintf(stderr, "Test AudioMixer constant buffer length.\n");
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while (iterations--) {
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mixer.Mix(a, 2, CHANNEL_LENGTH, AUDIO_RATE);
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mixer.Mix(b, 2, CHANNEL_LENGTH, AUDIO_RATE);
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mixer.FinishMixing();
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}
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}
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{
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mozilla::AudioMixer mixer(MixingDone);
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fprintf(stderr, "Test AudioMixer variable buffer length.\n");
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FillBuffer(a, CHANNEL_LENGTH / 2, GetLowValue<AudioDataValue>());
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FillBuffer(a + CHANNEL_LENGTH / 2, CHANNEL_LENGTH / 2, GetLowValue<AudioDataValue>());
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FillBuffer(b, CHANNEL_LENGTH / 2, GetHighValue<AudioDataValue>());
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FillBuffer(b + CHANNEL_LENGTH / 2, CHANNEL_LENGTH / 2, GetHighValue<AudioDataValue>());
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mixer.Mix(a, 2, CHANNEL_LENGTH / 2, AUDIO_RATE);
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mixer.Mix(b, 2, CHANNEL_LENGTH / 2, AUDIO_RATE);
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mixer.FinishMixing();
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FillBuffer(a, CHANNEL_LENGTH, GetLowValue<AudioDataValue>());
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FillBuffer(a + CHANNEL_LENGTH, CHANNEL_LENGTH, GetHighValue<AudioDataValue>());
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FillBuffer(b, CHANNEL_LENGTH, GetHighValue<AudioDataValue>());
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FillBuffer(b + CHANNEL_LENGTH, CHANNEL_LENGTH, GetLowValue<AudioDataValue>());
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mixer.Mix(a, 2, CHANNEL_LENGTH, AUDIO_RATE);
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mixer.Mix(b, 2, CHANNEL_LENGTH, AUDIO_RATE);
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mixer.FinishMixing();
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FillBuffer(a, CHANNEL_LENGTH / 2, GetLowValue<AudioDataValue>());
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FillBuffer(a + CHANNEL_LENGTH / 2, CHANNEL_LENGTH / 2, GetLowValue<AudioDataValue>());
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FillBuffer(b, CHANNEL_LENGTH / 2, GetHighValue<AudioDataValue>());
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FillBuffer(b + CHANNEL_LENGTH / 2, CHANNEL_LENGTH / 2, GetHighValue<AudioDataValue>());
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mixer.Mix(a, 2, CHANNEL_LENGTH / 2, AUDIO_RATE);
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mixer.Mix(b, 2, CHANNEL_LENGTH / 2, AUDIO_RATE);
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mixer.FinishMixing();
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}
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FillBuffer(a, CHANNEL_LENGTH, GetLowValue<AudioDataValue>());
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FillBuffer(b, CHANNEL_LENGTH, GetHighValue<AudioDataValue>());
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{
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mozilla::AudioMixer mixer(MixingDone);
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fprintf(stderr, "Test AudioMixer variable channel count.\n");
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mixer.Mix(a, 1, CHANNEL_LENGTH, AUDIO_RATE);
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mixer.Mix(b, 1, CHANNEL_LENGTH, AUDIO_RATE);
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mixer.FinishMixing();
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mixer.Mix(a, 1, CHANNEL_LENGTH, AUDIO_RATE);
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mixer.Mix(b, 1, CHANNEL_LENGTH, AUDIO_RATE);
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mixer.FinishMixing();
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mixer.Mix(a, 1, CHANNEL_LENGTH, AUDIO_RATE);
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mixer.Mix(b, 1, CHANNEL_LENGTH, AUDIO_RATE);
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mixer.FinishMixing();
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}
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{
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mozilla::AudioMixer mixer(MixingDone);
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fprintf(stderr, "Test AudioMixer variable stream count.\n");
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mixer.Mix(a, 2, CHANNEL_LENGTH, AUDIO_RATE);
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mixer.Mix(b, 2, CHANNEL_LENGTH, AUDIO_RATE);
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mixer.FinishMixing();
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mixer.Mix(a, 2, CHANNEL_LENGTH, AUDIO_RATE);
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mixer.Mix(b, 2, CHANNEL_LENGTH, AUDIO_RATE);
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mixer.Mix(a, 2, CHANNEL_LENGTH, AUDIO_RATE);
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mixer.Mix(b, 2, CHANNEL_LENGTH, AUDIO_RATE);
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mixer.FinishMixing();
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mixer.Mix(a, 2, CHANNEL_LENGTH, AUDIO_RATE);
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mixer.Mix(b, 2, CHANNEL_LENGTH, AUDIO_RATE);
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mixer.FinishMixing();
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}
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return 0;
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}
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