#include "SchedulerTest.h" #include "../testResource.h" enum { kTagAnimationDance = 1, }; static int sceneIdx = -1; Layer* nextSchedulerTest(); Layer* backSchedulerTest(); Layer* restartSchedulerTest(); static std::function createFunctions[] = { CL(SchedulerTimeScale), CL(TwoSchedulers), CL(SchedulerAutoremove), CL(SchedulerPauseResume), CL(SchedulerPauseResumeAll), CL(SchedulerPauseResumeAllUser), CL(SchedulerUnscheduleAll), CL(SchedulerUnscheduleAllHard), CL(SchedulerUnscheduleAllUserLevel), CL(SchedulerSchedulesAndRemove), CL(SchedulerUpdate), CL(SchedulerUpdateAndCustom), CL(SchedulerUpdateFromCustom), CL(RescheduleSelector), CL(SchedulerDelayAndRepeat), CL(SchedulerIssue2268), CL(ScheduleCallbackTest), CL(ScheduleUpdatePriority) }; #define MAX_LAYER (sizeof(createFunctions) / sizeof(createFunctions[0])) Layer* nextSchedulerTest() { sceneIdx++; sceneIdx = sceneIdx % MAX_LAYER; auto layer = (createFunctions[sceneIdx])(); return layer; } Layer* backSchedulerTest() { sceneIdx--; int total = MAX_LAYER; if( sceneIdx < 0 ) sceneIdx += total; auto layer = (createFunctions[sceneIdx])(); return layer; } Layer* restartSchedulerTest() { auto layer = (createFunctions[sceneIdx])(); return layer; } //------------------------------------------------------------------ // // SchedulerTestLayer // //------------------------------------------------------------------ void SchedulerTestLayer::onEnter() { BaseTest::onEnter(); } void SchedulerTestLayer::backCallback(Ref* sender) { auto scene = new (std::nothrow) SchedulerTestScene(); auto layer = backSchedulerTest(); scene->addChild(layer); Director::getInstance()->replaceScene(scene); scene->release(); } void SchedulerTestLayer::nextCallback(Ref* sender) { auto scene = new (std::nothrow) SchedulerTestScene(); auto layer = nextSchedulerTest(); scene->addChild(layer); Director::getInstance()->replaceScene(scene); scene->release(); } void SchedulerTestLayer::restartCallback(Ref* sender) { auto scene = new (std::nothrow) SchedulerTestScene(); auto layer = restartSchedulerTest(); scene->addChild(layer); Director::getInstance()->replaceScene(scene); scene->release(); } std::string SchedulerTestLayer::title() const { return "No title"; } std::string SchedulerTestLayer::subtitle() const { return ""; } //------------------------------------------------------------------ // // SchedulerAutoremove // //------------------------------------------------------------------ void SchedulerAutoremove::onEnter() { SchedulerTestLayer::onEnter(); schedule(CC_SCHEDULE_SELECTOR(SchedulerAutoremove::autoremove), 0.5f); schedule(CC_SCHEDULE_SELECTOR(SchedulerAutoremove::tick), 0.5f); accum = 0; } void SchedulerAutoremove::autoremove(float dt) { accum += dt; CCLOG("Time: %f", accum); if( accum > 3 ) { unschedule(CC_SCHEDULE_SELECTOR(SchedulerAutoremove::autoremove)); CCLOG("scheduler removed"); } } void SchedulerAutoremove::tick(float dt) { CCLOG("This scheduler should not be removed"); } std::string SchedulerAutoremove::title() const { return "Self-remove an scheduler"; } std::string SchedulerAutoremove::subtitle() const { return "1 scheduler will be autoremoved in 3 seconds. See console"; } //------------------------------------------------------------------ // // SchedulerPauseResume // //------------------------------------------------------------------ void SchedulerPauseResume::onEnter() { SchedulerTestLayer::onEnter(); schedule(CC_SCHEDULE_SELECTOR(SchedulerPauseResume::tick1), 0.5f); schedule(CC_SCHEDULE_SELECTOR(SchedulerPauseResume::tick2), 0.5f); schedule(CC_SCHEDULE_SELECTOR(SchedulerPauseResume::pause), 3.0f); } void SchedulerPauseResume::tick1(float dt) { CCLOG("tick1"); } void SchedulerPauseResume::tick2(float dt) { CCLOG("tick2"); } void SchedulerPauseResume::pause(float dt) { Director::getInstance()->getScheduler()->pauseTarget(this); } std::string SchedulerPauseResume::title() const { return "Pause / Resume"; } std::string SchedulerPauseResume::subtitle() const { return "Scheduler should be paused after 3 seconds. See console"; } //------------------------------------------------------------------ // // SchedulerPauseResumeAll // //------------------------------------------------------------------ SchedulerPauseResumeAll::SchedulerPauseResumeAll() { } SchedulerPauseResumeAll::~SchedulerPauseResumeAll() { } void SchedulerPauseResumeAll::onEnter() { SchedulerTestLayer::onEnter(); auto sprite = Sprite::create("Images/grossinis_sister1.png"); sprite->setPosition(VisibleRect::center()); this->addChild(sprite); sprite->runAction(RepeatForever::create(RotateBy::create(3.0, 360))); scheduleUpdate(); schedule(CC_SCHEDULE_SELECTOR(SchedulerPauseResumeAll::tick1), 0.5f); schedule(CC_SCHEDULE_SELECTOR(SchedulerPauseResumeAll::tick2), 1.0f); scheduleOnce(CC_SCHEDULE_SELECTOR(SchedulerPauseResumeAll::pause), 3.0f); } void SchedulerPauseResumeAll::update(float delta) { // do nothing } void SchedulerPauseResumeAll::onExit() { if (!_pausedTargets.empty()) { Director::getInstance()->getScheduler()->resumeTargets(_pausedTargets); } SchedulerTestLayer::onExit(); } void SchedulerPauseResumeAll::tick1(float dt) { log("tick1"); } void SchedulerPauseResumeAll::tick2(float dt) { log("tick2"); } void SchedulerPauseResumeAll::pause(float dt) { log("Pausing"); auto director = Director::getInstance(); _pausedTargets = director->getScheduler()->pauseAllTargets(); // should have only 2 items: ActionManager, self CCASSERT(_pausedTargets.size() == 2, "Error: pausedTargets should have only 2 items"); unschedule(CC_SCHEDULE_SELECTOR(SchedulerPauseResumeAll::tick1)); unschedule(CC_SCHEDULE_SELECTOR(SchedulerPauseResumeAll::tick2)); resume(); scheduleOnce(CC_SCHEDULE_SELECTOR(SchedulerPauseResumeAll::resume), 2.0f); } void SchedulerPauseResumeAll::resume(float dt) { log("Resuming"); schedule(CC_SCHEDULE_SELECTOR(SchedulerPauseResumeAll::tick1), 0.5f); schedule(CC_SCHEDULE_SELECTOR(SchedulerPauseResumeAll::tick2), 1.0f); auto director = Director::getInstance(); director->getScheduler()->resumeTargets(_pausedTargets); _pausedTargets.clear(); } std::string SchedulerPauseResumeAll::title() const { return "Pause / Resume"; } std::string SchedulerPauseResumeAll::subtitle() const { return "Everything will pause after 3s, then resume at 5s. See console"; } //------------------------------------------------------------------ // // SchedulerPauseResumeAllUser // //------------------------------------------------------------------ SchedulerPauseResumeAllUser::SchedulerPauseResumeAllUser() { } SchedulerPauseResumeAllUser::~SchedulerPauseResumeAllUser() { } void SchedulerPauseResumeAllUser::onEnter() { SchedulerTestLayer::onEnter(); auto s = Director::getInstance()->getWinSize(); auto sprite = Sprite::create("Images/grossinis_sister1.png"); sprite->setPosition(Vec2(s.width/2, s.height/2)); this->addChild(sprite); sprite->runAction(RepeatForever::create(RotateBy::create(3.0, 360))); schedule(CC_SCHEDULE_SELECTOR(SchedulerPauseResumeAllUser::tick1), 0.5f); schedule(CC_SCHEDULE_SELECTOR(SchedulerPauseResumeAllUser::tick2), 1.0f); schedule(CC_SCHEDULE_SELECTOR(SchedulerPauseResumeAllUser::pause), 3.0f, false, 0); //TODO: [self performSelector:@selector(resume) withObject:nil afterDelay:5]; } void SchedulerPauseResumeAllUser::onExit() { if (!_pausedTargets.empty()) { Director::getInstance()->getScheduler()->resumeTargets(_pausedTargets); } SchedulerTestLayer::onExit(); } void SchedulerPauseResumeAllUser::tick1(float dt) { log("tick1"); } void SchedulerPauseResumeAllUser::tick2(float dt) { log("tick2"); } void SchedulerPauseResumeAllUser::pause(float dt) { log("Pausing"); auto director = Director::getInstance(); _pausedTargets = director->getScheduler()->pauseAllTargetsWithMinPriority(Scheduler::PRIORITY_NON_SYSTEM_MIN); } void SchedulerPauseResumeAllUser::resume(float dt) { log("Resuming"); auto director = Director::getInstance(); director->getScheduler()->resumeTargets(_pausedTargets); _pausedTargets.clear(); } std::string SchedulerPauseResumeAllUser::title() const { return "Pause / Resume"; } std::string SchedulerPauseResumeAllUser::subtitle() const { return "Everything will pause after 3s, then resume at 5s. See console"; } //------------------------------------------------------------------ // // SchedulerUnscheduleAll // //------------------------------------------------------------------ void SchedulerUnscheduleAll::onEnter() { SchedulerTestLayer::onEnter(); schedule(CC_SCHEDULE_SELECTOR(SchedulerUnscheduleAll::tick1), 0.5f); schedule(CC_SCHEDULE_SELECTOR(SchedulerUnscheduleAll::tick2), 1.0f); schedule(CC_SCHEDULE_SELECTOR(SchedulerUnscheduleAll::tick3), 1.5f); schedule(CC_SCHEDULE_SELECTOR(SchedulerUnscheduleAll::tick4), 1.5f); schedule(CC_SCHEDULE_SELECTOR(SchedulerUnscheduleAll::unscheduleAll), 4); } void SchedulerUnscheduleAll::tick1(float dt) { CCLOG("tick1"); } void SchedulerUnscheduleAll::tick2(float dt) { CCLOG("tick2"); } void SchedulerUnscheduleAll::tick3(float dt) { CCLOG("tick3"); } void SchedulerUnscheduleAll::tick4(float dt) { CCLOG("tick4"); } void SchedulerUnscheduleAll::unscheduleAll(float dt) { unscheduleAllCallbacks(); } std::string SchedulerUnscheduleAll::title() const { return "Unschedule All selectors"; } std::string SchedulerUnscheduleAll::subtitle() const { return "All scheduled selectors will be unscheduled in 4 seconds. See console"; } //------------------------------------------------------------------ // // SchedulerUnscheduleAllHard // //------------------------------------------------------------------ void SchedulerUnscheduleAllHard::onEnter() { SchedulerTestLayer::onEnter(); auto s = Director::getInstance()->getWinSize(); auto sprite = Sprite::create("Images/grossinis_sister1.png"); sprite->setPosition(Vec2(s.width/2, s.height/2)); this->addChild(sprite); sprite->runAction(RepeatForever::create(RotateBy::create(3.0, 360))); _actionManagerActive = true; schedule(CC_SCHEDULE_SELECTOR(SchedulerUnscheduleAllHard::tick1), 0.5f); schedule(CC_SCHEDULE_SELECTOR(SchedulerUnscheduleAllHard::tick2), 1.0f); schedule(CC_SCHEDULE_SELECTOR(SchedulerUnscheduleAllHard::tick3), 1.5f); schedule(CC_SCHEDULE_SELECTOR(SchedulerUnscheduleAllHard::tick4), 1.5f); schedule(CC_SCHEDULE_SELECTOR(SchedulerUnscheduleAllHard::unscheduleAll), 4); } void SchedulerUnscheduleAllHard::onExit() { if(!_actionManagerActive) { // Restore the director's action manager. auto director = Director::getInstance(); director->getScheduler()->scheduleUpdate(director->getActionManager(), Scheduler::PRIORITY_SYSTEM, false); } SchedulerTestLayer::onExit(); } void SchedulerUnscheduleAllHard::tick1(float dt) { CCLOG("tick1"); } void SchedulerUnscheduleAllHard::tick2(float dt) { CCLOG("tick2"); } void SchedulerUnscheduleAllHard::tick3(float dt) { CCLOG("tick3"); } void SchedulerUnscheduleAllHard::tick4(float dt) { CCLOG("tick4"); } void SchedulerUnscheduleAllHard::unscheduleAll(float dt) { Director::getInstance()->getScheduler()->unscheduleAll(); _actionManagerActive = false; } std::string SchedulerUnscheduleAllHard::title() const { return "Unschedule All selectors (HARD)"; } std::string SchedulerUnscheduleAllHard::subtitle() const { return "Unschedules all user selectors after 4s. Action will stop. See console"; } //------------------------------------------------------------------ // // SchedulerUnscheduleAllUserLevel // //------------------------------------------------------------------ void SchedulerUnscheduleAllUserLevel::onEnter() { SchedulerTestLayer::onEnter(); auto s = Director::getInstance()->getWinSize(); auto sprite = Sprite::create("Images/grossinis_sister1.png"); sprite->setPosition(Vec2(s.width/2, s.height/2)); this->addChild(sprite); sprite->runAction(RepeatForever::create(RotateBy::create(3.0, 360))); schedule(CC_SCHEDULE_SELECTOR(SchedulerUnscheduleAllUserLevel::tick1), 0.5f); schedule(CC_SCHEDULE_SELECTOR(SchedulerUnscheduleAllUserLevel::tick2), 1.0f); schedule(CC_SCHEDULE_SELECTOR(SchedulerUnscheduleAllUserLevel::tick3), 1.5f); schedule(CC_SCHEDULE_SELECTOR(SchedulerUnscheduleAllUserLevel::tick4), 1.5f); schedule(CC_SCHEDULE_SELECTOR(SchedulerUnscheduleAllUserLevel::unscheduleAll), 4); } void SchedulerUnscheduleAllUserLevel::tick1(float dt) { CCLOG("tick1"); } void SchedulerUnscheduleAllUserLevel::tick2(float dt) { CCLOG("tick2"); } void SchedulerUnscheduleAllUserLevel::tick3(float dt) { CCLOG("tick3"); } void SchedulerUnscheduleAllUserLevel::tick4(float dt) { CCLOG("tick4"); } void SchedulerUnscheduleAllUserLevel::unscheduleAll(float dt) { Director::getInstance()->getScheduler()->unscheduleAllWithMinPriority(Scheduler::PRIORITY_NON_SYSTEM_MIN); } std::string SchedulerUnscheduleAllUserLevel::title() const { return "Unschedule All user selectors"; } std::string SchedulerUnscheduleAllUserLevel::subtitle() const { return "Unschedules all user selectors after 4s. Action should not stop. See console"; } //------------------------------------------------------------------ // // SchedulerSchedulesAndRemove // //------------------------------------------------------------------ void SchedulerSchedulesAndRemove::onEnter() { SchedulerTestLayer::onEnter(); schedule(CC_SCHEDULE_SELECTOR(SchedulerSchedulesAndRemove::tick1), 0.5f); schedule(CC_SCHEDULE_SELECTOR(SchedulerSchedulesAndRemove::tick2), 1.0f); schedule(CC_SCHEDULE_SELECTOR(SchedulerSchedulesAndRemove::scheduleAndUnschedule), 4.0f); } void SchedulerSchedulesAndRemove::tick1(float dt) { CCLOG("tick1"); } void SchedulerSchedulesAndRemove::tick2(float dt) { CCLOG("tick2"); } void SchedulerSchedulesAndRemove::tick3(float dt) { CCLOG("tick3"); } void SchedulerSchedulesAndRemove::tick4(float dt) { CCLOG("tick4"); } std::string SchedulerSchedulesAndRemove::title() const { return "Schedule from Schedule"; } std::string SchedulerSchedulesAndRemove::subtitle() const { return "Will unschedule and schedule selectors in 4s. See console"; } void SchedulerSchedulesAndRemove::scheduleAndUnschedule(float dt) { unschedule(CC_SCHEDULE_SELECTOR(SchedulerSchedulesAndRemove::tick1)); unschedule(CC_SCHEDULE_SELECTOR(SchedulerSchedulesAndRemove::tick2)); unschedule(CC_SCHEDULE_SELECTOR(SchedulerSchedulesAndRemove::scheduleAndUnschedule)); schedule(CC_SCHEDULE_SELECTOR(SchedulerSchedulesAndRemove::tick3), 1.0f); schedule(CC_SCHEDULE_SELECTOR(SchedulerSchedulesAndRemove::tick4), 1.0f); } //------------------------------------------------------------------ // // TestNode // //------------------------------------------------------------------ void TestNode::initWithString(const std::string& str, int priority) { _string = str; scheduleUpdateWithPriority(priority); } TestNode::~TestNode() { } void TestNode::update(float dt) { CC_UNUSED_PARAM(dt); log("%s", _string.c_str()); } //------------------------------------------------------------------ // // SchedulerUpdate // //------------------------------------------------------------------ void SchedulerUpdate::onEnter() { SchedulerTestLayer::onEnter(); auto d = new (std::nothrow) TestNode(); d->initWithString("---", 50); addChild(d); d->release(); auto b = new (std::nothrow) TestNode(); b->initWithString("3rd", 0); addChild(b); b->release(); auto a = new (std::nothrow) TestNode(); a->initWithString("1st", -10); addChild(a); a->release(); auto c = new (std::nothrow) TestNode(); c->initWithString("4th", 10); addChild(c); c->release(); auto e = new (std::nothrow) TestNode(); e->initWithString("5th", 20); addChild(e); e->release(); auto f = new (std::nothrow) TestNode(); f->initWithString("2nd", -5); addChild(f); f->release(); schedule(CC_SCHEDULE_SELECTOR(SchedulerUpdate::removeUpdates), 4.0f); } void SchedulerUpdate::removeUpdates(float dt) { auto& children = getChildren(); for (auto& c : children) { auto obj = static_cast(c); auto node = static_cast(obj); if (! node) { break; } node->unscheduleAllCallbacks(); } } std::string SchedulerUpdate::title() const { return "Schedule update with priority"; } std::string SchedulerUpdate::subtitle() const { return "3 scheduled updates. Priority should work. Stops in 4s. See console"; } //------------------------------------------------------------------ // // SchedulerUpdateAndCustom // //------------------------------------------------------------------ void SchedulerUpdateAndCustom::onEnter() { SchedulerTestLayer::onEnter(); scheduleUpdate(); schedule(CC_SCHEDULE_SELECTOR(SchedulerUpdateAndCustom::tick)); schedule(CC_SCHEDULE_SELECTOR(SchedulerUpdateAndCustom::stopSelectors), 0.4f); } void SchedulerUpdateAndCustom::update(float dt) { CCLOG("update called:%f", dt); } void SchedulerUpdateAndCustom::tick(float dt) { CCLOG("custom selector called:%f",dt); } void SchedulerUpdateAndCustom::stopSelectors(float dt) { unscheduleAllCallbacks(); } std::string SchedulerUpdateAndCustom::title() const { return "Schedule Update + custom selector"; } std::string SchedulerUpdateAndCustom::subtitle() const { return "Update + custom selector at the same time. Stops in 4s. See console"; } //------------------------------------------------------------------ // // SchedulerUpdateFromCustom // //------------------------------------------------------------------ void SchedulerUpdateFromCustom::onEnter() { SchedulerTestLayer::onEnter(); schedule(CC_SCHEDULE_SELECTOR(SchedulerUpdateFromCustom::schedUpdate), 2.0f); } void SchedulerUpdateFromCustom::update(float dt) { CCLOG("update called:%f", dt); } void SchedulerUpdateFromCustom::schedUpdate(float dt) { unschedule(CC_SCHEDULE_SELECTOR(SchedulerUpdateFromCustom::schedUpdate)); scheduleUpdate(); schedule(CC_SCHEDULE_SELECTOR(SchedulerUpdateFromCustom::stopUpdate), 2.0f); } void SchedulerUpdateFromCustom::stopUpdate(float dt) { unscheduleUpdate(); unschedule(CC_SCHEDULE_SELECTOR(SchedulerUpdateFromCustom::stopUpdate)); } std::string SchedulerUpdateFromCustom::title() const { return "Schedule Update in 2 sec"; } std::string SchedulerUpdateFromCustom::subtitle() const { return "Update schedules in 2 secs. Stops 2 sec later. See console"; } //------------------------------------------------------------------ // // RescheduleSelector // //------------------------------------------------------------------ void RescheduleSelector::onEnter() { SchedulerTestLayer::onEnter(); _interval = 1.0f; _ticks = 0; schedule(CC_SCHEDULE_SELECTOR(RescheduleSelector::schedUpdate), _interval); } std::string RescheduleSelector::title() const { return "Reschedule Selector"; } std::string RescheduleSelector::subtitle() const { return "Interval is 1 second, then 2, then 3..."; } void RescheduleSelector::schedUpdate(float dt) { _ticks++; CCLOG("schedUpdate: %.4f", dt); if ( _ticks > 3 ) { _interval += 1.0f; schedule(CC_SCHEDULE_SELECTOR(RescheduleSelector::schedUpdate), _interval); _ticks = 0; } } // SchedulerDelayAndRepeat void SchedulerDelayAndRepeat::onEnter() { SchedulerTestLayer::onEnter(); schedule(CC_SCHEDULE_SELECTOR(SchedulerDelayAndRepeat::update), 0, 4 , 3.f); CCLOG("update is scheduled should begin after 3 seconds"); } std::string SchedulerDelayAndRepeat::title() const { return "Schedule with delay of 3 sec, repeat 4 times"; } std::string SchedulerDelayAndRepeat::subtitle() const { return "After 5 x executed, method unscheduled. See console"; } void SchedulerDelayAndRepeat::update(float dt) { log("update called:%f", dt); } // SchedulerTimeScale ControlSlider* SchedulerTimeScale::sliderCtl() { ControlSlider * slider = ControlSlider::create("extensions/sliderTrack2.png","extensions/sliderProgress2.png" ,"extensions/sliderThumb.png"); slider->addTargetWithActionForControlEvents(this, cccontrol_selector(SchedulerTimeScale::sliderAction), Control::EventType::VALUE_CHANGED); slider->setMinimumValue(-3.0f); slider->setMaximumValue(3.0f); slider->setValue(1.0f); return slider; } void SchedulerTimeScale::sliderAction(Ref* sender, Control::EventType controlEvent) { ControlSlider* pSliderCtl = static_cast(sender); float scale; scale = pSliderCtl->getValue(); Director::getInstance()->getScheduler()->setTimeScale(scale); } void SchedulerTimeScale::onEnter() { SchedulerTestLayer::onEnter(); auto s = Director::getInstance()->getWinSize(); // rotate and jump auto jump1 = JumpBy::create(4, Vec2(-s.width+80,0), 100, 4); auto jump2 = jump1->reverse(); auto rot1 = RotateBy::create(4, 360*2); auto rot2 = rot1->reverse(); auto seq3_1 = Sequence::create(jump2, jump1, nullptr); auto seq3_2 = Sequence::create(rot1, rot2, nullptr); auto spawn = Spawn::create(seq3_1, seq3_2, nullptr); auto action = Repeat::create(spawn, 50); auto action2 = action->clone(); auto action3 = action->clone(); auto grossini = Sprite::create("Images/grossini.png"); auto tamara = Sprite::create("Images/grossinis_sister1.png"); auto kathia = Sprite::create("Images/grossinis_sister2.png"); grossini->setPosition(Vec2(40,80)); tamara->setPosition(Vec2(40,80)); kathia->setPosition(Vec2(40,80)); addChild(grossini); addChild(tamara); addChild(kathia); grossini->runAction(Speed::create(action, 0.5f)); tamara->runAction(Speed::create(action2, 1.5f)); kathia->runAction(Speed::create(action3, 1.0f)); auto emitter = ParticleFireworks::create(); emitter->setTexture( Director::getInstance()->getTextureCache()->addImage(s_stars1) ); addChild(emitter); _sliderCtl = sliderCtl(); _sliderCtl->setPosition(Vec2(s.width / 2.0f, s.height / 3.0f)); addChild(_sliderCtl); } void SchedulerTimeScale::onExit() { // restore scale Director::getInstance()->getScheduler()->setTimeScale(1); SchedulerTestLayer::onExit(); } std::string SchedulerTimeScale::title() const { return "Scheduler timeScale Test"; } std::string SchedulerTimeScale::subtitle() const { return "Fast-forward and rewind using scheduler.timeScale"; } //TwoSchedulers ControlSlider *TwoSchedulers::sliderCtl() { // auto frame = CGRectMake(12.0f, 12.0f, 120.0f, 7.0f); ControlSlider *slider = ControlSlider::create("extensions/sliderTrack2.png","extensions/sliderProgress2.png" ,"extensions/sliderThumb.png"); //[[UISlider alloc] initWithFrame:frame]; slider->addTargetWithActionForControlEvents(this, cccontrol_selector(TwoSchedulers::sliderAction), Control::EventType::VALUE_CHANGED); // in case the parent view draws with a custom color or gradient, use a transparent color //slider.backgroundColor = [UIColor clearColor]; slider->setMinimumValue(0.0f); slider->setMaximumValue(2.0f); //slider.continuous = YES; slider->setValue(1.0f); return slider; } void TwoSchedulers::sliderAction(Ref* sender, Control::EventType controlEvent) { float scale; ControlSlider *slider = static_cast(sender); scale = slider->getValue(); if( sender == sliderCtl1 ) sched1->setTimeScale(scale); else sched2->setTimeScale(scale); } void TwoSchedulers::onEnter() { SchedulerTestLayer::onEnter(); auto s = Director::getInstance()->getWinSize(); // rotate and jump auto jump1 = JumpBy::create(4, Vec2(0,0), 100, 4); auto jump2 = jump1->reverse(); auto seq = Sequence::create(jump2, jump1, nullptr); auto action = RepeatForever::create(seq); // // Center // auto grossini = Sprite::create("Images/grossini.png"); addChild(grossini); grossini->setPosition(Vec2(s.width/2,100)); grossini->runAction(action->clone()); auto defaultScheduler = Director::getInstance()->getScheduler(); // // Left: // // Create a new scheduler, and link it to the main scheduler sched1 = new (std::nothrow) Scheduler(); defaultScheduler->scheduleUpdate(sched1, 0, false); // Create a new ActionManager, and link it to the new scheudler actionManager1 = new (std::nothrow) ActionManager(); sched1->scheduleUpdate(actionManager1, 0, false); for( unsigned int i=0; i < 10; i++ ) { auto sprite = Sprite::create("Images/grossinis_sister1.png"); // IMPORTANT: Set the actionManager running any action sprite->setActionManager(actionManager1); addChild(sprite); sprite->setPosition(Vec2(30+15*i,100)); sprite->runAction(action->clone()); } // // Right: // // Create a new scheduler, and link it to the main scheduler sched2 = new (std::nothrow) Scheduler();; defaultScheduler->scheduleUpdate(sched2, 0, false); // Create a new ActionManager, and link it to the new scheudler actionManager2 = new (std::nothrow) ActionManager(); sched2->scheduleUpdate(actionManager2, 0, false); for( unsigned int i=0; i < 10; i++ ) { auto sprite = Sprite::create("Images/grossinis_sister2.png"); // IMPORTANT: Set the actionManager running any action sprite->setActionManager(actionManager2); addChild(sprite); sprite->setPosition(Vec2(s.width-30-15*i,100)); sprite->runAction(action->clone()); } sliderCtl1 = sliderCtl(); addChild(sliderCtl1); sliderCtl1->retain(); sliderCtl1->setPosition(Vec2(s.width / 4.0f, VisibleRect::top().y - 20)); sliderCtl2 = sliderCtl(); addChild(sliderCtl2); sliderCtl2->retain(); sliderCtl2->setPosition(Vec2(s.width / 4.0f*3.0f, VisibleRect::top().y-20)); } TwoSchedulers::~TwoSchedulers() { auto defaultScheduler = Director::getInstance()->getScheduler(); defaultScheduler->unscheduleAllForTarget(sched1); defaultScheduler->unscheduleAllForTarget(sched2); sliderCtl1->release(); sliderCtl2->release(); sched1->release(); sched2->release(); actionManager1->release(); actionManager2->release(); } std::string TwoSchedulers::title() const { return "Two custom schedulers"; } std::string TwoSchedulers::subtitle() const { return "Three schedulers. 2 custom + 1 default. Two different time scales"; } class TestNode2 : public Node { public: CREATE_FUNC(TestNode2); ~TestNode2() { cocos2d::log("Delete TestNode (should not crash)"); this->unscheduleAllCallbacks(); } void update(float dt) { } }; void SchedulerIssue2268::onEnter() { SchedulerTestLayer::onEnter(); testNode = TestNode2::create(); testNode->retain(); testNode->schedule(SEL_SCHEDULE(&TestNode::update)); this->addChild(testNode); this->scheduleOnce(SEL_SCHEDULE(&SchedulerIssue2268::update), 0.25f); } void SchedulerIssue2268::update(float dt) { if ( testNode != nullptr ) { // do something with testNode // at some point we are done, pause the nodes actions and schedulers testNode->removeFromParentAndCleanup(false); // at some other point we are completely done with the node and want to clear it testNode->unscheduleAllCallbacks(); testNode->release(); testNode = nullptr; } } SchedulerIssue2268::~SchedulerIssue2268() { CC_SAFE_RELEASE(testNode); } std::string SchedulerIssue2268::title() const { return "Issue #2268"; } std::string SchedulerIssue2268::subtitle() const { return "Should not crash"; } // ScheduleCallbackTest ScheduleCallbackTest::~ScheduleCallbackTest() { } std::string ScheduleCallbackTest::title() const { return "ScheduleCallbackTest"; } std::string ScheduleCallbackTest::subtitle() const { return "\n\n\n\nPlease see console.\n\ schedule(lambda, ...)\n\ schedule(CC_CALLBACK_1(XXX::member_function), this), this, ...)\n\ schedule(global_function, ...)\n\ "; } static void ScheduleCallbackTest_global_callback(float dt) { log("In the callback of schedule(global_function, ...), dt = %f", dt); } void ScheduleCallbackTest::onEnter() { SchedulerTestLayer::onEnter(); _scheduler->schedule([](float dt){ log("In the callback of schedule(lambda, ...), dt = %f", dt); }, this, 1.0f, false, "lambda"); _scheduler->schedule(CC_CALLBACK_1(ScheduleCallbackTest::callback, this), this, 1.0f, false, "member_function"); _scheduler->schedule(ScheduleCallbackTest_global_callback, this, 1.0f, false, "global_function"); } void ScheduleCallbackTest::callback(float dt) { log("In the callback of schedule(CC_CALLBACK_1(XXX::member_function), this), this, ...), dt = %f", dt); } // ScheduleUpdatePriority std::string ScheduleUpdatePriority::title() const { return "ScheduleUpdatePriorityTest"; } std::string ScheduleUpdatePriority::subtitle() const { return "click to change update priority with random value"; } bool ScheduleUpdatePriority::onTouchBegan(Touch* touch, Event* event) { int priority = static_cast(CCRANDOM_0_1() * 11) - 5; // -5 ~ 5 CCLOG("change update priority to %d", priority); scheduleUpdateWithPriority(priority); return true; } void ScheduleUpdatePriority::onEnter() { SchedulerTestLayer::onEnter(); scheduleUpdate(); auto listener = EventListenerTouchOneByOne::create(); listener->onTouchBegan = CC_CALLBACK_2(ScheduleUpdatePriority::onTouchBegan, this); _eventDispatcher->addEventListenerWithSceneGraphPriority(listener, this); } void ScheduleUpdatePriority::onExit() { Node::onExit(); unscheduleUpdate(); } void ScheduleUpdatePriority::update(float dt) { } //------------------------------------------------------------------ // // SchedulerTestScene // //------------------------------------------------------------------ void SchedulerTestScene::runThisTest() { auto layer = nextSchedulerTest(); addChild(layer); Director::getInstance()->replaceScene(this); }