// C++ includes #include #include #include #include #include // test inclues #include "AppDelegate.h" #include "BaseTest.h" #include "controller.h" #include "testResource.h" #include "tests.h" #if (CC_TARGET_PLATFORM != CC_PLATFORM_WIN32) && (CC_TARGET_PLATFORM != CC_PLATFORM_WP8) && (CC_TARGET_PLATFORM != CC_PLATFORM_WINRT) #include #include #include #include #else #include #include #endif #include "cocostudio/CocoStudio.h" #include "UITest/UITest.h" typedef struct _Controller{ const char *test_name; std::function callback; } Controller; Controller g_aTestNames[] = { // // TESTS MUST BE ORDERED ALPHABETICALLY // violators will be prosecuted // { "3D: Sprite3D", [](){ return new Sprite3DTestScene(); }}, { "ActionManager", [](){return new ActionManagerTestScene(); } }, { "Actions - Basic", [](){ return new ActionsTestScene(); } }, { "Actions - Ease", [](){return new ActionsEaseTestScene();} }, { "Actions - Progress", [](){return new ProgressActionsTestScene(); } }, { "Audio - CocosDenshion", []() { return new CocosDenshionTestScene(); } }, { "Box2d - Basic", []() { return new Box2DTestScene(); } }, { "Box2d - TestBed", []() { return new Box2dTestBedScene(); } }, { "Bugs", []() { return new BugsTestScene(); } }, { "Chipmunk", []() { return new ChipmunkAccelTouchTestScene(); } }, { "Click and Move", [](){return new ClickAndMoveTestScene(); } }, { "Configuration", []() { return new ConfigurationTestScene(); } }, #if (CC_TARGET_PLATFORM != CC_PLATFORM_WINRT) { "Console", []() { return new ConsoleTestScene(); } }, #endif #if (CC_TARGET_PLATFORM != CC_PLATFORM_WINRT) #if (CC_TARGET_PLATFORM != CC_PLATFORM_EMSCRIPTEN) #if (CC_TARGET_PLATFORM != CC_PLATFORM_NACL) #if (CC_TARGET_PLATFORM != CC_PLATFORM_MARMALADE) #if (CC_TARGET_PLATFORM != CC_PLATFORM_BADA) { "Curl", []() { return new CurlTestScene(); } }, #endif #endif #endif #endif #endif { "Current Language", []() { return new CurrentLanguageTestScene(); } }, { "EventDispatcher", []() { return new EventDispatcherTestScene(); } }, { "Effects - Advanced", []() { return new EffectAdvanceScene(); } }, { "Effects - Basic", [](){return new EffectTestScene();} }, { "Extensions", []() { return new ExtensionsTestScene(); } }, { "FileUtils", []() { return new FileUtilsTestScene(); } }, { "Fonts", []() { return new FontTestScene(); } }, { "Interval", [](){return new IntervalTestScene(); } }, { "Node: Clipping", []() { return new ClippingNodeTestScene(); } }, { "Node: Draw", [](){return new DrawPrimitivesTestScene();} }, { "Node: Label - New API", [](){return new AtlasTestSceneNew(); } }, { "Node: Label - Old API", [](){return new AtlasTestScene(); } }, { "Node: Layer", [](){return new LayerTestScene();} }, { "Node: Menu", [](){return new MenuTestScene();} }, { "Node: MotionStreak", [](){return new MotionStreakTestScene();} }, { "Node: Node", [](){return new CocosNodeTestScene();} }, { "Node: Parallax", [](){return new ParallaxTestScene(); } }, { "Node: Particles", [](){return new ParticleTestScene(); } }, { "Node: Physics", []() { return new PhysicsTestScene(); } }, { "Node: RenderTexture", [](){return new RenderTextureScene(); } }, { "Node: Scene", [](){return new SceneTestScene();} }, { "Node: Spine", []() { return new SpineTestScene(); } }, { "Node: Sprite", [](){return new SpriteTestScene(); } }, { "Node: TileMap", [](){return new TileMapTestScene(); } }, { "Node: FastTileMap", [](){return new TileMapTestSceneNew(); } }, { "Node: Text Input", [](){return new TextInputTestScene(); } }, { "Node: UI", [](){ return new UITestScene(); }}, { "Mouse", []() { return new MouseTestScene(); } }, { "MutiTouch", []() { return new MutiTouchTestScene(); } }, { "Performance tests", []() { return new PerformanceTestScene(); } }, { "Renderer", []() { return new NewRendererTestScene(); } }, { "ReleasePool", [](){ return new ReleasePoolTestScene(); } }, { "Rotate World", [](){return new RotateWorldTestScene(); } }, { "Scheduler", [](){return new SchedulerTestScene(); } }, { "Shader - Basic", []() { return new ShaderTestScene(); } }, { "Shader - Sprite", []() { return new ShaderTestScene2(); } }, { "Texture2D", [](){return new TextureTestScene(); } }, { "TextureCache", []() { return new TextureCacheTestScene(); } }, { "TexturePacker Encryption", []() { return new TextureAtlasEncryptionTestScene(); } }, { "Touches", [](){return new PongScene();} }, { "Transitions", [](){return new TransitionsTestScene();} }, { "Unit Test", []() { return new UnitTestScene(); }}, { "UserDefault", []() { return new UserDefaultTestScene(); } }, { "Zwoptex", []() { return new ZwoptexTestScene(); } }, }; static int g_testCount = sizeof(g_aTestNames) / sizeof(g_aTestNames[0]); static Controller *currentController = nullptr; #define LINE_SPACE 40 static Vec2 s_tCurPos = Vec2::ZERO; //sleep for t seconds static void wait(int t) { std::chrono::milliseconds dura( t * 1000 ); std::this_thread::sleep_for( dura ); } TestController::TestController() : _beginPos(Vec2::ZERO) ,_exitThread(false) { // add close menu auto closeItem = MenuItemImage::create(s_pathClose, s_pathClose, CC_CALLBACK_1(TestController::closeCallback, this) ); auto menu =Menu::create(closeItem, nullptr); menu->setPosition( Vec2::ZERO ); closeItem->setPosition(Vec2( VisibleRect::right().x - 30, VisibleRect::top().y - 30)); // add menu items for tests TTFConfig ttfConfig("fonts/arial.ttf", 24); _itemMenu = Menu::create(); for (int i = 0; i < g_testCount; ++i) { auto label = Label::createWithTTF(ttfConfig, g_aTestNames[i].test_name); auto menuItem = MenuItemLabel::create(label, CC_CALLBACK_1(TestController::menuCallback, this)); _itemMenu->addChild(menuItem, i + 10000); menuItem->setPosition( Vec2( VisibleRect::center().x, (VisibleRect::top().y - (i + 1) * LINE_SPACE) )); } _itemMenu->setContentSize(Size(VisibleRect::getVisibleRect().size.width, (g_testCount + 1) * (LINE_SPACE))); _itemMenu->setPosition(s_tCurPos); addChild(_itemMenu); addChild(menu, 1); // Register Touch Event auto listener = EventListenerTouchOneByOne::create(); listener->setSwallowTouches(true); listener->onTouchBegan = CC_CALLBACK_2(TestController::onTouchBegan, this); listener->onTouchMoved = CC_CALLBACK_2(TestController::onTouchMoved, this); _eventDispatcher->addEventListenerWithSceneGraphPriority(listener, this); auto mouseListener = EventListenerMouse::create(); mouseListener->onMouseScroll = CC_CALLBACK_1(TestController::onMouseScroll, this); _eventDispatcher->addEventListenerWithSceneGraphPriority(mouseListener, this); } TestController::~TestController() { } void TestController::menuCallback(Ref * sender) { Director::getInstance()->purgeCachedData(); // get the userdata, it's the index of the menu item clicked auto menuItem = static_cast(sender); int idx = menuItem->getLocalZOrder() - 10000; // create the test scene and run it auto scene = g_aTestNames[idx].callback(); if (scene) { scene->runThisTest(); scene->release(); } } void TestController::closeCallback(Ref * sender) { #if (CC_TARGET_PLATFORM == CC_PLATFORM_WP8) || (CC_TARGET_PLATFORM == CC_PLATFORM_WINRT) MessageBox("You pressed the close button. Windows Store Apps do not implement a close button.","Alert"); return; #endif Director::getInstance()->end(); #if (CC_TARGET_PLATFORM == CC_PLATFORM_IOS) exit(0); #endif } bool TestController::onTouchBegan(Touch* touch, Event *event) { _beginPos = touch->getLocation(); return true; } void TestController::onTouchMoved(Touch* touch, Event *event) { auto touchLocation = touch->getLocation(); float nMoveY = touchLocation.y - _beginPos.y; auto curPos = _itemMenu->getPosition(); auto nextPos = Vec2(curPos.x, curPos.y + nMoveY); if (nextPos.y < 0.0f) { _itemMenu->setPosition(Vec2::ZERO); return; } if (nextPos.y > ((g_testCount + 1)* LINE_SPACE - VisibleRect::getVisibleRect().size.height)) { _itemMenu->setPosition(Vec2(0, ((g_testCount + 1)* LINE_SPACE - VisibleRect::getVisibleRect().size.height))); return; } _itemMenu->setPosition(nextPos); _beginPos = touchLocation; s_tCurPos = nextPos; } void TestController::onMouseScroll(Event *event) { auto mouseEvent = static_cast(event); float nMoveY = mouseEvent->getScrollY() * 6; auto curPos = _itemMenu->getPosition(); auto nextPos = Vec2(curPos.x, curPos.y + nMoveY); if (nextPos.y < 0.0f) { _itemMenu->setPosition(Vec2::ZERO); return; } if (nextPos.y > ((g_testCount + 1)* LINE_SPACE - VisibleRect::getVisibleRect().size.height)) { _itemMenu->setPosition(Vec2(0, ((g_testCount + 1)* LINE_SPACE - VisibleRect::getVisibleRect().size.height))); return; } _itemMenu->setPosition(nextPos); s_tCurPos = nextPos; } #if (CC_TARGET_PLATFORM != CC_PLATFORM_WINRT) void TestController::runAllTests(int fd) { AppDelegate* app = (AppDelegate *)Application::getInstance(); Scheduler *sched = Director::getInstance()->getScheduler(); for (int i = 0; i < g_testCount; i++) { // create the test scene and run it std::string msg("autotest: running test:"); msg += g_aTestNames[i].test_name; send(fd, msg.c_str(), strlen(msg.c_str()),0); send(fd, "\n",1,0); currentController = &g_aTestNames[i]; sched->performFunctionInCocosThread( [&](){ auto scene = currentController->callback(); if(scene) { scene->runThisTest(); scene->release(); } } ); wait(1); BaseTest* firstTest = app->getCurrentTest(); if(firstTest == nullptr) { continue; } std::string t1(""); t1 += firstTest->subtitle(); send(fd, t1.c_str(), strlen(t1.c_str()),0); send(fd, "\n",1,0); wait(2); while(1) { if(_exitThread) { return; } //currentTest->nextCallback(nullptr); sched->performFunctionInCocosThread( [&](){ BaseTest *t = app->getCurrentTest(); if(t != nullptr) { t->nextCallback(nullptr); } } ); wait(1); BaseTest * curTest = app->getCurrentTest(); if(curTest == nullptr) { break; } std::string title(""); title += curTest->subtitle(); send(fd, title.c_str(), strlen(title.c_str()),0); send(fd, "\n",1,0); wait(2); if(t1 == title) { break; } } } std::string msg("autotest run successfully!"); send(fd, msg.c_str(), strlen(msg.c_str()),0); send(fd, "\n",1,0); return; } void TestController::addConsoleAutoTest() { auto console = Director::getInstance()->getConsole(); static struct Console::Command autotest = { "autotest", "testcpp autotest command, use -h to list available tests", [this](int fd, const std::string& args) { Scheduler *sched = Director::getInstance()->getScheduler(); if(args == "help" || args == "-h") { const char msg[] = "usage: autotest ActionsTest\n\tavailable tests: "; send(fd, msg, sizeof(msg),0); send(fd, "\n",1,0); for(int i = 0; i < g_testCount; i++) { send(fd, "\t",1,0); send(fd, g_aTestNames[i].test_name, strlen(g_aTestNames[i].test_name)+1,0); send(fd, "\n",1,0); } const char help_main[] = "\tmain, return to main menu\n"; send(fd, help_main, sizeof(help_main),0); const char help_next[] = "\tnext, run next test\n"; send(fd, help_next, sizeof(help_next),0); const char help_back[] = "\tback, run prev test\n"; send(fd, help_back, sizeof(help_back),0); const char help_restart[] = "\trestart, restart current test\n"; send(fd, help_restart, sizeof(help_restart),0); return; } if(args == "main") { sched->performFunctionInCocosThread( [&]() { auto scene = Scene::create(); auto layer = new TestController(); scene->addChild(layer); layer->release(); Director::getInstance()->replaceScene(scene); cocostudio::ArmatureDataManager::destroyInstance(); } ); return; } const char msg_notest[] = "autotest: can't detect running test.\n"; AppDelegate* app = (AppDelegate *)Application::getInstance(); BaseTest* currentTest = app->getCurrentTest(); if(args == "next") { if(currentTest != nullptr) { //currentTest->nextCallback(nullptr); sched->performFunctionInCocosThread( [&](){ currentTest->nextCallback(nullptr); } ); } else { send(fd, msg_notest, sizeof(msg_notest),0); } return; } if(args == "back") { if(currentTest != nullptr) { sched->performFunctionInCocosThread( [&](){ currentTest->backCallback(nullptr); } ); } else { send(fd, msg_notest, sizeof(msg_notest),0); } return; } if(args == "restart") { if(currentTest != nullptr) { sched->performFunctionInCocosThread( [&](){ currentTest->restartCallback(nullptr); } ); } else { send(fd, msg_notest, sizeof(msg_notest),0); } return; } if(args == "run") { _exitThread = false; std::thread t = std::thread( &TestController::runAllTests, this, fd); t.detach(); return; } if(args == "stop") { _exitThread = true; std::string msg("autotest: autotest stopped!"); send(fd, msg.c_str(), strlen(msg.c_str()),0); send(fd, "\n",1,0); return; } for(int i = 0; i < g_testCount; i++) { if(args == g_aTestNames[i].test_name) { currentController = &g_aTestNames[i]; std::string msg("autotest: running test:"); msg += args; send(fd, msg.c_str(), strlen(msg.c_str()),0); send(fd, "\n",1,0); sched->performFunctionInCocosThread( [&](){ auto scene = currentController->callback(); if(scene) { scene->runThisTest(); scene->release(); } } ); return; } } //no match found,print warning message std::string msg("autotest: could not find test:"); msg += args; send(fd, msg.c_str(), strlen(msg.c_str()),0); send(fd, "\n",1,0); } }; console->addCommand(autotest); } void TestController::startAutoRun() { std::thread t = std::thread( &TestController::autorun, this); t.detach(); } ssize_t TestController::readline(int fd, char* ptr, size_t maxlen) { size_t n, rc; char c; for( n = 0; n < maxlen - 1; n++ ) { if( (rc = recv(fd, &c, 1, 0)) ==1 ) { *ptr++ = c; if(c == '\n') { break; } } else if( rc == 0 ) { return 0; } else if( errno == EINTR ) { continue; } else { return -1; } } *ptr = 0; return n; } void TestController::autorun() { struct addrinfo hints; struct addrinfo *result, *rp; int sfd, s; /* Obtain address(es) matching host/port */ memset(&hints, 0, sizeof(struct addrinfo)); hints.ai_family = AF_INET; /* Allow IPv4 or IPv6 */ hints.ai_socktype = SOCK_STREAM; /* stream socket */ hints.ai_flags = 0; hints.ai_protocol = 0; /* Any protocol */ #if (CC_TARGET_PLATFORM == CC_PLATFORM_WIN32) || (CC_TARGET_PLATFORM == CC_PLATFORM_WP8) WSADATA wsaData; WSAStartup(MAKEWORD(2, 2),&wsaData); #endif s = getaddrinfo("localhost", "5678", &hints, &result); if (s != 0) { CCLOG("autotest: getaddrinfo error"); return; } /* getaddrinfo() returns a list of address structures. Try each address until we successfully connect(2). If socket(2) (or connect(2)) fails, we (close the socket and) try the next address. */ for (rp = result; rp != nullptr; rp = rp->ai_next) { sfd = socket(rp->ai_family, rp->ai_socktype, rp->ai_protocol); if (sfd == -1) continue; if (connect(sfd, rp->ai_addr, rp->ai_addrlen) != -1) break; /* Success */ #if (CC_TARGET_PLATFORM == CC_PLATFORM_WIN32) || (CC_TARGET_PLATFORM == CC_PLATFORM_WP8) closesocket(sfd); #else close(sfd); #endif } if (rp == nullptr) { /* No address succeeded */ CCLOG("autotest: could not connect!"); return; } freeaddrinfo(result); /* No longer needed */ std::string tmp = "autotest run\n"; char cmd[512]; strcpy(cmd, tmp.c_str()); wait(3); send(sfd,cmd,strlen(cmd),0); while(true) { char resp[512]; readline(sfd, resp, 512); if(strcmp(resp, "autotest run successfully!\n") == 0) { break; } wait(3); } tmp = "director end\n"; strcpy(cmd, tmp.c_str()); send(sfd,cmd,strlen(cmd),0); wait(1); #if (CC_TARGET_PLATFORM == CC_PLATFORM_WIN32) || (CC_TARGET_PLATFORM == CC_PLATFORM_WP8) closesocket(sfd); WSACleanup(); #else close(sfd); #endif return; } #endif