/**************************************************************************** Copyright (c) 2014-2016 Chukong Technologies Inc. Copyright (c) 2017-2018 Xiamen Yaji Software Co., Ltd. http://www.cocos2d-x.org Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ****************************************************************************/ #include "platform/CCPlatformConfig.h" #include "NewAudioEngineTest.h" #include "ui/CocosGUI.h" using namespace cocos2d; using namespace cocos2d::ui; AudioEngineTests::AudioEngineTests() { ADD_TEST_CASE(AudioControlTest); ADD_TEST_CASE(AudioLoadTest); ADD_TEST_CASE(PlaySimultaneouslyTest); ADD_TEST_CASE(AudioProfileTest); ADD_TEST_CASE(InvalidAudioFileTest); ADD_TEST_CASE(LargeAudioFileTest); ADD_TEST_CASE(AudioPerformanceTest); ADD_TEST_CASE(AudioSmallFileTest); ADD_TEST_CASE(AudioSmallFile2Test); ADD_TEST_CASE(AudioSmallFile3Test); ADD_TEST_CASE(AudioPauseResumeAfterPlay); ADD_TEST_CASE(AudioPreloadSameFileMultipleTimes); ADD_TEST_CASE(AudioPlayFileInWritablePath); ADD_TEST_CASE(AudioIssue16938Test); ADD_TEST_CASE(AudioPlayInFinishedCB); ADD_TEST_CASE(AudioUncacheInFinishedCB); ADD_TEST_CASE(AudioIssue18597Test); ADD_TEST_CASE(AudioIssue11143Test); //FIXME: Please keep AudioSwitchStateTest to the last position since this test case doesn't work well on each platforms. ADD_TEST_CASE(AudioSwitchStateTest); } namespace { class TextButton : public cocos2d::Label { public: static TextButton *create(const std::string& text, const std::function &onTriggered) { auto ret = new (std::nothrow) TextButton(); TTFConfig ttfconfig("fonts/arial.ttf",25); if (ret && ret->setTTFConfig(ttfconfig)) { ret->setString(text); ret->_onTriggered = onTriggered; ret->autorelease(); return ret; } delete ret; return nullptr; } void setEnabled(bool enabled) { _enabled = enabled; if(_enabled){ this->setColor(Color3B::WHITE); } else { this->setColor(Color3B::GRAY); } } private: TextButton() : _onTriggered(nullptr) , _enabled(true) { auto listener = EventListenerTouchOneByOne::create(); listener->setSwallowTouches(true); listener->onTouchBegan = CC_CALLBACK_2(TextButton::onTouchBegan, this); listener->onTouchEnded = CC_CALLBACK_2(TextButton::onTouchEnded, this); listener->onTouchCancelled = CC_CALLBACK_2(TextButton::onTouchCancelled, this); _eventDispatcher->addEventListenerWithSceneGraphPriority(listener, this); } bool touchHits(Touch *touch) { auto hitPos = this->convertToNodeSpace(touch->getLocation()); if (hitPos.x >= 0 && hitPos.y >= 0 && hitPos.x <= _contentSize.width && hitPos.y <= _contentSize.height) { return true; } return false; } bool onTouchBegan(Touch *touch, Event *event) { auto hits = touchHits(touch); if (hits){ scaleButtonTo(0.95f); } return hits; } void onTouchEnded(Touch *touch, Event *event) { if(_enabled) { auto hits = touchHits(touch); if (hits && _onTriggered){ _onTriggered(this); } } scaleButtonTo(1); } void onTouchCancelled(Touch *touch, Event *event) { scaleButtonTo(1); } void scaleButtonTo(float scale) { auto action = ScaleTo::create(0.05f, scale); action->setTag(10000); stopActionByTag(10000); runAction(action); } std::function _onTriggered; bool _enabled; }; class SliderEx : public Slider { public: static SliderEx* create(){ auto ret = new (std::nothrow) SliderEx(); if (ret && ret->init()) { ret->loadBarTexture("cocosui/sliderTrack.png"); ret->loadSlidBallTextures("cocosui/sliderThumb.png", "cocosui/sliderThumb.png", ""); ret->loadProgressBarTexture("cocosui/sliderProgress.png"); ret->setTouchEnabled(true); ret->autorelease(); return ret; } CC_SAFE_DELETE(ret); return ret; } void setRatio(float ratio) { ratio = clampf(ratio, 0.0f, 1.0f); _ratio = ratio; setPercent(100 * _ratio); } float getRatio () { _ratio = 1.0f * _percent / _maxPercent; return _ratio; } private: float _ratio; }; } AudioEngineTestDemo::AudioEngineTestDemo() : _isDestroyed(std::make_shared(false)) { } void AudioEngineTestDemo::onExit() { *_isDestroyed = true; AudioEngine::uncacheAll(); TestCase::onExit(); } std::string AudioEngineTestDemo::title() const { return "New Audio Engine Test"; } void AudioEngineTestDemo::onBackCallback(cocos2d::Ref* sender) { AudioEngine::end(); TestCase::onBackCallback(sender); } // AudioControlTest bool AudioControlTest::init() { auto ret = AudioEngineTestDemo::init(); _audioID = AudioEngine::INVALID_AUDIO_ID; _loopEnabled = false; _volume = 1.0f; _duration = AudioEngine::TIME_UNKNOWN; _timeRatio = 0.0f; _updateTimeSlider = true; _isStopped = false; std::string fontFilePath = "fonts/arial.ttf"; auto& layerSize = this->getContentSize(); _playOverLabel = Label::createWithSystemFont("Play Over", "", 30); _playOverLabel->setPosition(Vec2(layerSize/2) + Vec2(0, 30)); _playOverLabel->setVisible(false); addChild(_playOverLabel, 99999); auto playItem = TextButton::create("play", [&](TextButton* button){ if (_audioID == AudioEngine::INVALID_AUDIO_ID) { _audioID = AudioEngine::play2d("background.mp3", _loopEnabled, _volume); if(_audioID != AudioEngine::INVALID_AUDIO_ID) { _isStopped = false; button->setEnabled(false); AudioEngine::setFinishCallback(_audioID, [&](int id, const std::string& filePath){ log("_audioID(%d), _isStopped:(%d), played over!!!", _audioID, _isStopped); _playOverLabel->setVisible(true); scheduleOnce([&](float dt){ _playOverLabel->setVisible(false); }, 2.0f, "hide_play_over_label"); assert(!_isStopped); // Stop audio should not trigger finished callback _audioID = AudioEngine::INVALID_AUDIO_ID; ((TextButton*)_playItem)->setEnabled(true); _timeRatio = 0.0f; ((SliderEx*)_timeSlider)->setRatio(_timeRatio); }); } } }); _playItem = playItem; playItem->setPosition(layerSize.width * 0.3f,layerSize.height * 0.8f); addChild(playItem); auto stopItem = TextButton::create("stop", [&](TextButton* button){ if (_audioID != AudioEngine::INVALID_AUDIO_ID ) { _isStopped = true; AudioEngine::stop(_audioID); _audioID = AudioEngine::INVALID_AUDIO_ID; ((TextButton*)_playItem)->setEnabled(true); } }); stopItem->setPosition(layerSize.width * 0.7f,layerSize.height * 0.8f); addChild(stopItem); auto pauseItem = TextButton::create("pause", [&](TextButton* button){ if (_audioID != AudioEngine::INVALID_AUDIO_ID ) { AudioEngine::pause(_audioID); } }); pauseItem->setPosition(layerSize.width * 0.3f,layerSize.height * 0.7f); addChild(pauseItem); auto resumeItem = TextButton::create("resume", [&](TextButton* button){ if (_audioID != AudioEngine::INVALID_AUDIO_ID ) { AudioEngine::resume(_audioID); } }); resumeItem->setPosition(layerSize.width * 0.7f,layerSize.height * 0.7f); addChild(resumeItem); auto loopItem = TextButton::create("enable-loop", [&](TextButton* button){ _loopEnabled = !_loopEnabled; if (_audioID != AudioEngine::INVALID_AUDIO_ID) { AudioEngine::setLoop(_audioID, _loopEnabled); } if (_loopEnabled){ button->setString("disable-loop"); } else { button->setString("enable-loop"); } }); loopItem->setPosition(layerSize.width * 0.5f, layerSize.height * 0.5f); addChild(loopItem); auto volumeSlider = SliderEx::create(); volumeSlider->setPercent(100); volumeSlider->addEventListener([&](Ref* sender, Slider::EventType event){ SliderEx *slider = dynamic_cast(sender); _volume = slider->getRatio(); if (_audioID != AudioEngine::INVALID_AUDIO_ID ) { AudioEngine::setVolume(_audioID, _volume); } }); volumeSlider->setPosition(Vec2(layerSize.width * 0.5f,layerSize.height * 0.35f)); addChild(volumeSlider); auto timeSlider = SliderEx::create(); timeSlider->addEventListener([&](Ref* sender, Slider::EventType event){ SliderEx *slider = dynamic_cast(sender); switch(event){ case Slider::EventType::ON_SLIDEBALL_DOWN: _updateTimeSlider = false; break; case Slider::EventType::ON_SLIDEBALL_UP: if (_audioID != AudioEngine::INVALID_AUDIO_ID && _duration != AudioEngine::TIME_UNKNOWN) { float ratio = (float)slider->getPercent() / 100; ratio = clampf(ratio, 0.0f, 1.0f); AudioEngine::setCurrentTime(_audioID, _duration * ratio); } case Slider::EventType::ON_SLIDEBALL_CANCEL: _updateTimeSlider = true; case Slider::EventType::ON_PERCENTAGE_CHANGED: default: //ignore break; } }); timeSlider->setPosition(Vec2(layerSize.width * 0.5f,layerSize.height * 0.25f)); addChild(timeSlider); _timeSlider = timeSlider; auto& volumeSliderPos = volumeSlider->getPosition(); auto& sliderSize = volumeSlider->getContentSize(); auto volumeLabel = Label::createWithTTF("volume: ", fontFilePath, 20); volumeLabel->setAnchorPoint(Vec2::ANCHOR_MIDDLE_RIGHT); volumeLabel->setPosition(volumeSliderPos.x - sliderSize.width / 2, volumeSliderPos.y); addChild(volumeLabel); auto& timeSliderPos = timeSlider->getPosition(); auto timeLabel = Label::createWithTTF("time: ", fontFilePath, 20); timeLabel->setAnchorPoint(Vec2::ANCHOR_MIDDLE_RIGHT); timeLabel->setPosition(timeSliderPos.x - sliderSize.width / 2, timeSliderPos.y); addChild(timeLabel); this->schedule(CC_CALLBACK_1(AudioControlTest::update, this), 0.1f, "update_key"); return ret; } void AudioControlTest::update(float dt) { if (_audioID != AudioEngine::INVALID_AUDIO_ID ) { if(_duration == AudioEngine::TIME_UNKNOWN){ _duration = AudioEngine::getDuration(_audioID); } if(_duration != AudioEngine::TIME_UNKNOWN){ auto time = AudioEngine::getCurrentTime(_audioID); _timeRatio = time / _duration; if(_updateTimeSlider){ ((SliderEx*)_timeSlider)->setRatio(_timeRatio); } } } } AudioControlTest::~AudioControlTest() { } std::string AudioControlTest::title() const { return "Audio control test"; } bool AudioLoadTest::init() { if (AudioEngineTestDemo::init()) { auto& layerSize = this->getContentSize(); auto stateLabel = Label::createWithTTF("status:", "fonts/arial.ttf", 30); stateLabel->setPosition(layerSize.width / 2, layerSize.height * 0.7f); addChild(stateLabel); auto preloadItem = TextButton::create("preload", [&, stateLabel](TextButton* button){ stateLabel->setString("status:loading..."); auto isDestroyed = _isDestroyed; AudioEngine::preload("audio/SoundEffectsFX009/FX082.mp3", [isDestroyed, stateLabel](bool isSuccess){ if (*isDestroyed) { CCLOG("AudioLoadTest scene was destroyed, no need to set the label text."); return; } if (isSuccess) { stateLabel->setString("status:load success"); } else { stateLabel->setString("status:load fail"); } }); }); preloadItem->setPosition(layerSize.width * 0.35f, layerSize.height * 0.5f); addChild(preloadItem); auto uncacheItem = TextButton::create("uncache", [&, stateLabel](TextButton* button){ stateLabel->setString("status:uncache"); AudioEngine::uncache("audio/SoundEffectsFX009/FX082.mp3"); }); uncacheItem->setPosition(layerSize.width * 0.65f, layerSize.height * 0.5f); addChild(uncacheItem); return true; } return false; } std::string AudioLoadTest::title() const { return "Audio preload/uncache test"; } // PlaySimultaneouslyTest bool PlaySimultaneouslyTest::init() { auto ret = AudioEngineTestDemo::init(); char text[36]; int tmp = 81; for(int index = 0; index < TEST_COUNT; ++index){ sprintf(text,"audio/SoundEffectsFX009/FX0%d.mp3",tmp + index); _files[index] = text; } _playingcount = 0; auto playItem = TextButton::create("play-simultaneously", [&](TextButton* button){ int audioId; _playingcount = 0; button->setEnabled(false); auto startTime = utils::gettime(); for(int index = 0; index < TEST_COUNT; ++index){ audioId = AudioEngine::play2d(_files[index]); if(audioId != AudioEngine::INVALID_AUDIO_ID){ _playingcount += 1; AudioEngine::setFinishCallback(audioId, [&](int id, const std::string& filePath){ _playingcount -= 1; if(_playingcount <= 0){ ((TextButton*)_playItem)->setEnabled(true); } }); } else { log("%s,%d,Fail to play file:%s",__FILE__,__LINE__ ,_files[index].c_str()); } } log("diff time:%lf",utils::gettime() - startTime); }); playItem->setPositionNormalized(Vec2(0.5f,0.5f)); this->addChild(playItem); _playItem = playItem; return ret; } PlaySimultaneouslyTest::~PlaySimultaneouslyTest() { } std::string PlaySimultaneouslyTest::title() const { return "Simultaneously play multiple audio"; } // AudioProfileTest bool AudioProfileTest::init() { auto ret = AudioEngineTestDemo::init(); char text[30]; _files[0] = "background.mp3"; #if CC_TARGET_PLATFORM == CC_PLATFORM_IOS || CC_TARGET_PLATFORM == CC_PLATFORM_MAC _files[1] = "background.caf"; #else _files[1] = "background.ogg"; #endif std::string fontFilePath = "fonts/arial.ttf"; _minDelay = 1.0f; _time = 0.0f; _audioProfile.name = "AudioProfileTest"; _audioProfile.maxInstances = 3; _audioProfile.minDelay = 1.0; Vec2 pos(0.5f,0.7f); for(int index = 0; index < FILE_COUNT; ++index){ sprintf(text,"play %s",_files[index].c_str()); auto playItem = TextButton::create(text, [&](TextButton* button){ int index = button->getTag(); auto id = AudioEngine::play2d(_files[index], false, 1.0f, &_audioProfile); if(id != AudioEngine::INVALID_AUDIO_ID){ _time = _minDelay; _audioCount += 1; char show[30]; sprintf(show,"audio count:%d",_audioCount); _showLabel->setString(show); AudioEngine::setFinishCallback(id, [&](int id, const std::string& filePath){ _audioCount -= 1; char show[30]; sprintf(show,"audio count:%d",_audioCount); _showLabel->setString(show); }); } }); playItem->setTag(index); playItem->setPositionNormalized(pos); this->addChild(playItem); pos.y -= 0.15f; } Vec2 origin = Director::getInstance()->getVisibleOrigin(); Size size = Director::getInstance()->getVisibleSize(); auto profileInfoLabel = Label::createWithTTF("AudioProfile Info:\n max instance:3 \n minimum delay:1.0", fontFilePath, 12); profileInfoLabel->setAnchorPoint(Vec2::ANCHOR_MIDDLE_LEFT); profileInfoLabel->setPosition(Vec2(origin.x, origin.y + size.height * 0.65f)); addChild(profileInfoLabel); _audioCount = 0; _showLabel = Label::createWithTTF("audio count:0", fontFilePath, 12); _showLabel->setAnchorPoint(Vec2::ANCHOR_MIDDLE_LEFT); _showLabel->setPosition(Vec2(origin.x, origin.y + size.height * 0.5f)); addChild(_showLabel); auto timeSlider = SliderEx::create(); timeSlider->setEnabled(false); timeSlider->setPositionNormalized(pos); addChild(timeSlider); _timeSlider = timeSlider; this->schedule(CC_CALLBACK_1(AudioProfileTest::update, this), 0.05f, "update_key"); return ret; } void AudioProfileTest::update(float dt) { if(_time > 0.0f) { _time -= dt; ((SliderEx*)_timeSlider)->setRatio(_time / _minDelay); } } AudioProfileTest::~AudioProfileTest() { } std::string AudioProfileTest::title() const { return "AudioProfileTest"; } std::string AudioProfileTest::subtitle() const { return "See the console."; } // InvalidAudioFileTest bool InvalidAudioFileTest::init() { auto ret = AudioEngineTestDemo::init(); auto playItem = TextButton::create("play unsupported media type", [&](TextButton* button){ #if CC_TARGET_PLATFORM == CC_PLATFORM_IOS || CC_TARGET_PLATFORM == CC_PLATFORM_MAC AudioEngine::play2d("background.ogg"); #elif CC_TARGET_PLATFORM == CC_PLATFORM_ANDROID || CC_TARGET_PLATFORM == CC_PLATFORM_WIN32 AudioEngine::play2d("background.caf"); #endif }); playItem->setPositionNormalized(Vec2(0.5f, 0.6f)); this->addChild(playItem); auto playItem2 = TextButton::create("play not-existent file", [&](TextButton* button){ AudioEngine::play2d("not-existent file.mp3"); }); playItem2->setPositionNormalized(Vec2(0.5f, 0.4f)); this->addChild(playItem2); return ret; } InvalidAudioFileTest::~InvalidAudioFileTest() { } std::string InvalidAudioFileTest::title() const { return "Test invalid audio file"; } std::string InvalidAudioFileTest::subtitle() const { return "Not crash,please see the console."; } // LargeAudioFileTest bool LargeAudioFileTest::init() { auto ret = AudioEngineTestDemo::init(); auto playItem = TextButton::create("play large audio file", [&](TextButton* button){ AudioEngine::play2d("audio/LuckyDay.mp3"); }); playItem->setPositionNormalized(Vec2::ANCHOR_MIDDLE); this->addChild(playItem); return ret; } LargeAudioFileTest::~LargeAudioFileTest() { } std::string LargeAudioFileTest::title() const { return "Test large audio file"; } bool AudioIssue18597Test::init() { if (AudioEngineTestDemo::init()) { auto& layerSize = this->getContentSize(); //test case for https://github.com/cocos2d/cocos2d-x/issues/18597 this->schedule([=](float dt) { CCLOG("issues 18597 audio crash test"); for (int i = 0; i< 2;++i) { auto id = AudioEngine::play2d("audio/MUS_BGM_Battle_Round1_v1.caf", true, 1.0f); this->runAction(Sequence::create( DelayTime::create(8.0f), CallFunc::create([=]() { AudioEngine::stop(id); }), nullptr )); } }, 2.0, 10000, 0.0, "audio test"); // add label to show the side effect of "UnqueueBuffers Before alSourceStop" _time = 0.0; auto labelTime = Label::createWithBMFont("fonts/bitmapFontTest2.fnt", "time: "); labelTime->setPosition(layerSize.width * 0.5f, layerSize.height * 0.5f); labelTime->setTag(999); this->addChild(labelTime); // update label quickly this->schedule([=](float dt){ _time += dt; char timeString[20] = {0}; sprintf(timeString, "Time %2.2f", _time); dynamic_cast