#include "NodeTest.h" #include "../testResource.h" enum { kTagSprite1 = 1, kTagSprite2 = 2, kTagSprite3 = 3, kTagSlider, }; Layer* nextCocosNodeAction(); Layer* backCocosNodeAction(); Layer* restartCocosNodeAction(); //------------------------------------------------------------------ // // TestCocosNodeDemo // //------------------------------------------------------------------ static int sceneIdx = -1; #define MAX_LAYER 14 Layer* createCocosNodeLayer(int nIndex) { switch(nIndex) { case 0: return new CameraCenterTest(); case 1: return new Test2(); case 2: return new Test4(); case 3: return new Test5(); case 4: return new Test6(); case 5: return new StressTest1(); case 6: return new StressTest2(); case 7: return new NodeToWorld(); case 8: return new SchedulerTest1(); case 9: return new CameraOrbitTest(); case 10: return new CameraZoomTest(); case 11: return new ConvertToNode(); case 12: return new NodeOpaqueTest(); case 13: return new NodeNonOpaqueTest(); } return NULL; } Layer* nextCocosNodeAction() { sceneIdx++; sceneIdx = sceneIdx % MAX_LAYER; Layer* pLayer = createCocosNodeLayer(sceneIdx); pLayer->autorelease(); return pLayer; } Layer* backCocosNodeAction() { sceneIdx--; int total = MAX_LAYER; if( sceneIdx < 0 ) sceneIdx += total; Layer* pLayer = createCocosNodeLayer(sceneIdx); pLayer->autorelease(); return pLayer; } Layer* restartCocosNodeAction() { Layer* pLayer = createCocosNodeLayer(sceneIdx); pLayer->autorelease(); return pLayer; } TestCocosNodeDemo::TestCocosNodeDemo(void) { } TestCocosNodeDemo::~TestCocosNodeDemo(void) { } std::string TestCocosNodeDemo::title() { return "No title"; } std::string TestCocosNodeDemo::subtitle() { return ""; } void TestCocosNodeDemo::onEnter() { BaseTest::onEnter(); } void TestCocosNodeDemo::restartCallback(Object* pSender) { Scene* s = new CocosNodeTestScene();//CCScene::create(); s->addChild(restartCocosNodeAction()); Director::getInstance()->replaceScene(s); s->release(); } void TestCocosNodeDemo::nextCallback(Object* pSender) { Scene* s = new CocosNodeTestScene();//CCScene::create(); s->addChild( nextCocosNodeAction() ); Director::getInstance()->replaceScene(s); s->release(); } void TestCocosNodeDemo::backCallback(Object* pSender) { Scene* s = new CocosNodeTestScene();//CCScene::create(); s->addChild( backCocosNodeAction() ); Director::getInstance()->replaceScene(s); s->release(); } //------------------------------------------------------------------ // // Test2 // //------------------------------------------------------------------ void Test2::onEnter() { TestCocosNodeDemo::onEnter(); Size s = Director::getInstance()->getWinSize(); Sprite *sp1 = Sprite::create(s_pPathSister1); Sprite *sp2 = Sprite::create(s_pPathSister2); Sprite *sp3 = Sprite::create(s_pPathSister1); Sprite *sp4 = Sprite::create(s_pPathSister2); sp1->setPosition(Point(100, s.height /2 )); sp2->setPosition(Point(380, s.height /2 )); addChild(sp1); addChild(sp2); sp3->setScale(0.25f); sp4->setScale(0.25f); sp1->addChild(sp3); sp2->addChild(sp4); ActionInterval* a1 = RotateBy::create(2, 360); ActionInterval* a2 = ScaleBy::create(2, 2); Action* action1 = RepeatForever::create( Sequence::create(a1, a2, a2->reverse(), NULL) ); Action* action2 = RepeatForever::create( Sequence::create( a1->clone(), a2->clone(), a2->reverse(), NULL) ); sp2->setAnchorPoint(Point(0,0)); sp1->runAction(action1); sp2->runAction(action2); } std::string Test2::title() { return "anchorPoint and children"; } //------------------------------------------------------------------ // // Test4 // //------------------------------------------------------------------ #define SID_DELAY2 1 #define SID_DELAY4 2 Test4::Test4() { Sprite *sp1 = Sprite::create(s_pPathSister1); Sprite *sp2 = Sprite::create(s_pPathSister2); sp1->setPosition( Point(100,160) ); sp2->setPosition( Point(380,160) ); addChild(sp1, 0, 2); addChild(sp2, 0, 3); schedule( schedule_selector(Test4::delay2), 2.0f); schedule( schedule_selector(Test4::delay4), 4.0f); } void Test4::delay2(float dt) { Sprite* node = static_cast(getChildByTag(2)); Action* action1 = RotateBy::create(1, 360); node->runAction(action1); } void Test4::delay4(float dt) { unschedule(schedule_selector(Test4::delay4)); removeChildByTag(3, false); } std::string Test4::title() { return "tags"; } //------------------------------------------------------------------ // // Test5 // //------------------------------------------------------------------ Test5::Test5() { Sprite* sp1 = Sprite::create(s_pPathSister1); Sprite* sp2 = Sprite::create(s_pPathSister2); sp1->setPosition(Point(100,160)); sp2->setPosition(Point(380,160)); RotateBy* rot = RotateBy::create(2, 360); ActionInterval* rot_back = rot->reverse(); Action* forever = RepeatForever::create(Sequence::create(rot, rot_back, NULL)); Action* forever2 = forever->clone(); forever->setTag(101); forever2->setTag(102); addChild(sp1, 0, kTagSprite1); addChild(sp2, 0, kTagSprite2); sp1->runAction(forever); sp2->runAction(forever2); schedule( schedule_selector(Test5::addAndRemove), 2.0f); } void Test5::addAndRemove(float dt) { Node* sp1 = getChildByTag(kTagSprite1); Node* sp2 = getChildByTag(kTagSprite2); sp1->retain(); sp2->retain(); removeChild(sp1, false); removeChild(sp2, true); addChild(sp1, 0, kTagSprite1); addChild(sp2, 0, kTagSprite2); sp1->release(); sp2->release(); } std::string Test5::title() { return "remove and cleanup"; } //------------------------------------------------------------------ // // Test6 // //------------------------------------------------------------------ Test6::Test6() { Sprite* sp1 = Sprite::create(s_pPathSister1); Sprite* sp11 = Sprite::create(s_pPathSister1); Sprite* sp2 = Sprite::create(s_pPathSister2); Sprite* sp21 = Sprite::create(s_pPathSister2); sp1->setPosition(Point(100,160)); sp2->setPosition(Point(380,160)); ActionInterval* rot = RotateBy::create(2, 360); ActionInterval* rot_back = rot->reverse(); Action* forever1 = RepeatForever::create(Sequence::create(rot, rot_back, NULL)); Action* forever11 = forever1->clone(); Action* forever2 = forever1->clone(); Action* forever21 = forever1->clone(); addChild(sp1, 0, kTagSprite1); sp1->addChild(sp11); addChild(sp2, 0, kTagSprite2); sp2->addChild(sp21); sp1->runAction(forever1); sp11->runAction(forever11); sp2->runAction(forever2); sp21->runAction(forever21); schedule( schedule_selector(Test6::addAndRemove), 2.0f); } void Test6::addAndRemove(float dt) { Node* sp1 = getChildByTag(kTagSprite1); Node* sp2 = getChildByTag(kTagSprite2); sp1->retain(); sp2->retain(); removeChild(sp1, false); removeChild(sp2, true); addChild(sp1, 0, kTagSprite1); addChild(sp2, 0, kTagSprite2); sp1->release(); sp2->release(); } std::string Test6::title() { return "remove/cleanup with children"; } //------------------------------------------------------------------ // // StressTest1 // //------------------------------------------------------------------ StressTest1::StressTest1() { Size s = Director::getInstance()->getWinSize(); Sprite *sp1 = Sprite::create(s_pPathSister1); addChild(sp1, 0, kTagSprite1); sp1->setPosition( Point(s.width/2, s.height/2) ); schedule( schedule_selector(StressTest1::shouldNotCrash), 1.0f); } void StressTest1::shouldNotCrash(float dt) { unschedule(schedule_selector(StressTest1::shouldNotCrash)); Size s = Director::getInstance()->getWinSize(); // if the node has timers, it crashes ParticleSun* explosion = ParticleSun::create(); explosion->setTexture(TextureCache::getInstance()->addImage("Images/fire.png")); // if it doesn't, it works Ok. // CocosNode *explosion = [Sprite create:@"grossinis_sister2.png"); explosion->setPosition( Point(s.width/2, s.height/2) ); runAction( Sequence::create( RotateBy::create(2, 360), CallFuncN::create(CC_CALLBACK_1(StressTest1::removeMe, this)), NULL) ); addChild(explosion); } // remove void StressTest1::removeMe(Node* node) { getParent()->removeChild(node, true); nextCallback(this); } std::string StressTest1::title() { return "stress test #1: no crashes"; } //------------------------------------------------------------------ // // StressTest2 // //------------------------------------------------------------------ StressTest2::StressTest2() { Size s = Director::getInstance()->getWinSize(); Layer* sublayer = Layer::create(); Sprite *sp1 = Sprite::create(s_pPathSister1); sp1->setPosition( Point(80, s.height/2) ); ActionInterval* move = MoveBy::create(3, Point(350,0)); ActionInterval* move_ease_inout3 = EaseInOut::create(move->clone(), 2.0f); ActionInterval* move_ease_inout_back3 = move_ease_inout3->reverse(); Sequence* seq3 = Sequence::create( move_ease_inout3, move_ease_inout_back3, NULL); sp1->runAction( RepeatForever::create(seq3) ); sublayer->addChild(sp1, 1); ParticleFire* fire = ParticleFire::create(); fire->setTexture(TextureCache::getInstance()->addImage("Images/fire.png")); fire->setPosition( Point(80, s.height/2-50) ); ActionInterval* copy_seq3 = seq3->clone(); fire->runAction( RepeatForever::create(copy_seq3) ); sublayer->addChild(fire, 2); schedule(schedule_selector(StressTest2::shouldNotLeak), 6.0f); addChild(sublayer, 0, kTagSprite1); } void StressTest2::shouldNotLeak(float dt) { unschedule( schedule_selector(StressTest2::shouldNotLeak) ); Layer* sublayer = static_cast( getChildByTag(kTagSprite1) ); sublayer->removeAllChildrenWithCleanup(true); } std::string StressTest2::title() { return "stress test #2: no leaks"; } //------------------------------------------------------------------ // // SchedulerTest1 // //------------------------------------------------------------------ SchedulerTest1::SchedulerTest1() { Layer*layer = Layer::create(); //CCLOG("retain count after init is %d", layer->retainCount()); // 1 addChild(layer, 0); //CCLOG("retain count after addChild is %d", layer->retainCount()); // 2 layer->schedule( schedule_selector(SchedulerTest1::doSomething) ); //CCLOG("retain count after schedule is %d", layer->retainCount()); // 3 : (object-c viersion), but win32 version is still 2, because Timer class don't save target. layer->unschedule(schedule_selector(SchedulerTest1::doSomething)); //CCLOG("retain count after unschedule is %d", layer->retainCount()); // STILL 3! (win32 is '2') } void SchedulerTest1::doSomething(float dt) { } std::string SchedulerTest1::title() { return "cocosnode scheduler test #1"; } //------------------------------------------------------------------ // // NodeToWorld // //------------------------------------------------------------------ NodeToWorld::NodeToWorld() { // // This code tests that nodeToParent works OK: // - It tests different anchor Points // - It tests different children anchor points Sprite *back = Sprite::create(s_back3); addChild( back, -10); back->setAnchorPoint( Point(0,0) ); Size backSize = back->getContentSize(); MenuItem *item = MenuItemImage::create(s_PlayNormal, s_PlaySelect); Menu *menu = Menu::create(item, NULL); menu->alignItemsVertically(); menu->setPosition( Point(backSize.width/2, backSize.height/2)); back->addChild(menu); ActionInterval* rot = RotateBy::create(5, 360); Action* fe = RepeatForever::create( rot); item->runAction( fe ); ActionInterval* move = MoveBy::create(3, Point(200,0)); ActionInterval* move_back = move->reverse(); Sequence* seq = Sequence::create( move, move_back, NULL); Action* fe2 = RepeatForever::create(seq); back->runAction(fe2); } std::string NodeToWorld::title() { return "nodeToParent transform"; } //------------------------------------------------------------------ // // CameraOrbitTest // //------------------------------------------------------------------ void CameraOrbitTest::onEnter() { TestCocosNodeDemo::onEnter(); Director::getInstance()->setProjection(kDirectorProjection3D); } void CameraOrbitTest::onExit() { Director::getInstance()->setProjection(kDirectorProjection2D); TestCocosNodeDemo::onExit(); } CameraOrbitTest::CameraOrbitTest() { Size s = Director::getInstance()->getWinSize(); Sprite *p = Sprite::create(s_back3); addChild( p, 0); p->setPosition( Point(s.width/2, s.height/2) ); p->setOpacity( 128 ); Sprite* sprite; OrbitCamera* orbit; Size ss; // LEFT s = p->getContentSize(); sprite = Sprite::create(s_pPathGrossini); sprite->setScale(0.5f); p->addChild(sprite, 0); sprite->setPosition( Point(s.width/4*1, s.height/2) ); orbit = OrbitCamera::create(2, 1, 0, 0, 360, 0, 0); sprite->runAction( RepeatForever::create( orbit ) ); // CENTER sprite = Sprite::create(s_pPathGrossini); sprite->setScale( 1.0f ); p->addChild(sprite, 0); sprite->setPosition( Point(s.width/4*2, s.height/2) ); orbit = OrbitCamera::create(2, 1, 0, 0, 360, 45, 0); sprite->runAction( RepeatForever::create( orbit ) ); // RIGHT sprite = Sprite::create(s_pPathGrossini); sprite->setScale( 2.0f ); p->addChild(sprite, 0); sprite->setPosition( Point(s.width/4*3, s.height/2) ); ss = sprite->getContentSize(); orbit = OrbitCamera::create(2, 1, 0, 0, 360, 90, -45), sprite->runAction( RepeatForever::create(orbit) ); // PARENT orbit = OrbitCamera::create(10, 1, 0, 0, 360, 0, 90); p->runAction( RepeatForever::create( orbit ) ); setScale( 1 ); } std::string CameraOrbitTest::title() { return "Camera Orbit test"; } //------------------------------------------------------------------ // // CameraZoomTest // //------------------------------------------------------------------ void CameraZoomTest::onEnter() { TestCocosNodeDemo::onEnter(); Director::getInstance()->setProjection(kDirectorProjection3D); } void CameraZoomTest::onExit() { Director::getInstance()->setProjection(kDirectorProjection2D); TestCocosNodeDemo::onExit(); } CameraZoomTest::CameraZoomTest() { Size s = Director::getInstance()->getWinSize(); Sprite *sprite; Camera *cam; // LEFT sprite = Sprite::create(s_pPathGrossini); addChild( sprite, 0); sprite->setPosition( Point(s.width/4*1, s.height/2) ); cam = sprite->getCamera(); cam->setEyeXYZ(0, 0, 415/2); cam->setCenterXYZ(0, 0, 0); // CENTER sprite = Sprite::create(s_pPathGrossini); addChild( sprite, 0, 40); sprite->setPosition(Point(s.width/4*2, s.height/2)); // RIGHT sprite = Sprite::create(s_pPathGrossini); addChild( sprite, 0, 20); sprite->setPosition(Point(s.width/4*3, s.height/2)); _z = 0; scheduleUpdate(); } void CameraZoomTest::update(float dt) { Node *sprite; Camera *cam; _z += dt * 100; sprite = getChildByTag(20); cam = sprite->getCamera(); cam->setEyeXYZ(0, 0, _z); sprite = getChildByTag(40); cam = sprite->getCamera(); cam->setEyeXYZ(0, 0, -_z); } std::string CameraZoomTest::title() { return "Camera Zoom test"; } //------------------------------------------------------------------ // // CameraCenterTest // //------------------------------------------------------------------ CameraCenterTest::CameraCenterTest() { Size s = Director::getInstance()->getWinSize(); Sprite *sprite; OrbitCamera *orbit; // LEFT-TOP sprite = Sprite::create("Images/white-512x512.png"); addChild( sprite, 0); sprite->setPosition(Point(s.width/5*1, s.height/5*1)); sprite->setColor(Color3B::RED); sprite->setTextureRect(Rect(0, 0, 120, 50)); orbit = OrbitCamera::create(10, 1, 0, 0, 360, 0, 0); sprite->runAction(RepeatForever::create( orbit )); // [sprite setAnchorPoint: Point(0,1)); // LEFT-BOTTOM sprite = Sprite::create("Images/white-512x512.png"); addChild( sprite, 0, 40); sprite->setPosition(Point(s.width/5*1, s.height/5*4)); sprite->setColor(Color3B::BLUE); sprite->setTextureRect(Rect(0, 0, 120, 50)); orbit = OrbitCamera::create(10, 1, 0, 0, 360, 0, 0); sprite->runAction(RepeatForever::create( orbit )); // RIGHT-TOP sprite = Sprite::create("Images/white-512x512.png"); addChild( sprite, 0); sprite->setPosition(Point(s.width/5*4, s.height/5*1)); sprite->setColor(Color3B::YELLOW); sprite->setTextureRect(Rect(0, 0, 120, 50)); orbit = OrbitCamera::create(10, 1, 0, 0, 360, 0, 0); sprite->runAction(RepeatForever::create( orbit) ); // RIGHT-BOTTOM sprite = Sprite::create("Images/white-512x512.png"); addChild( sprite, 0, 40); sprite->setPosition(Point(s.width/5*4, s.height/5*4)); sprite->setColor(Color3B::GREEN); sprite->setTextureRect(Rect(0, 0, 120, 50)); orbit = OrbitCamera::create(10, 1, 0, 0, 360, 0, 0); sprite->runAction( RepeatForever::create( orbit ) ); // CENTER sprite = Sprite::create("Images/white-512x512.png"); addChild( sprite, 0, 40); sprite->setPosition(Point(s.width/2, s.height/2)); sprite->setColor(Color3B::WHITE); sprite->setTextureRect(Rect(0, 0, 120, 50)); orbit = OrbitCamera::create(10, 1, 0, 0, 360, 0, 0); sprite->runAction(RepeatForever::create( orbit ) ); } std::string CameraCenterTest::title() { return "Camera Center test"; } std::string CameraCenterTest::subtitle() { return "Sprites should rotate at the same speed"; } //------------------------------------------------------------------ // // ConvertToNode // //------------------------------------------------------------------ ConvertToNode::ConvertToNode() { setTouchEnabled(true); Size s = Director::getInstance()->getWinSize(); RotateBy* rotate = RotateBy::create(10, 360); RepeatForever* action = RepeatForever::create(rotate); for(int i = 0; i < 3; i++) { Sprite *sprite = Sprite::create("Images/grossini.png"); sprite->setPosition(Point( s.width/4*(i+1), s.height/2)); Sprite *point = Sprite::create("Images/r1.png"); point->setScale(0.25f); point->setPosition(sprite->getPosition()); addChild(point, 10, 100 + i); switch(i) { case 0: sprite->setAnchorPoint(Point::ZERO); break; case 1: sprite->setAnchorPoint(Point(0.5f, 0.5f)); break; case 2: sprite->setAnchorPoint(Point(1,1)); break; } point->setPosition(sprite->getPosition()); sprite->runAction( action->clone() ); addChild(sprite, i); } } void ConvertToNode::ccTouchesEnded(Set* touches, Event *event) { for( SetIterator it = touches->begin(); it != touches->end(); ++it) { Touch* touch = static_cast(*it); Point location = touch->getLocation(); for( int i = 0; i < 3; i++) { Node *node = getChildByTag(100+i); Point p1, p2; p1 = node->convertToNodeSpaceAR(location); p2 = node->convertToNodeSpace(location); CCLOG("AR: x=%.2f, y=%.2f -- Not AR: x=%.2f, y=%.2f", p1.x, p1.y, p2.x, p2.y); } } } std::string ConvertToNode::title() { return "Convert To Node Space"; } std::string ConvertToNode::subtitle() { return "testing convertToNodeSpace / AR. Touch and see console"; } /// NodeOpaqueTest NodeOpaqueTest::NodeOpaqueTest() { Sprite *background = NULL; for (int i = 0; i < 50; i++) { background = Sprite::create("Images/background1.png"); BlendFunc blendFunc = {GL_ONE, GL_ONE_MINUS_SRC_ALPHA}; background->setBlendFunc(blendFunc); background->setAnchorPoint(Point::ZERO); addChild(background); } } std::string NodeOpaqueTest::title() { return "Node Opaque Test"; } std::string NodeOpaqueTest::subtitle() { return "Node rendered with GL_BLEND disabled"; } /// NodeNonOpaqueTest NodeNonOpaqueTest::NodeNonOpaqueTest() { Sprite *background = NULL; for (int i = 0; i < 50; i++) { background = Sprite::create("Images/background1.jpg"); background->setBlendFunc(BlendFunc::BLEND_FUNC_DISABLE); background->setAnchorPoint(Point::ZERO); addChild(background); } } std::string NodeNonOpaqueTest::title() { return "Node Non Opaque Test"; } std::string NodeNonOpaqueTest::subtitle() { return "Node rendered with GL_BLEND enabled"; } void CocosNodeTestScene::runThisTest() { Layer* pLayer = nextCocosNodeAction(); addChild(pLayer); Director::getInstance()->replaceScene(this); }