axmol/tests/cpp-tests/Classes/PerformanceTest/PerformanceEventDispatcherT...

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//
// PerformanceEventDispatcherTest.cpp
//
#include "PerformanceEventDispatcherTest.h"
#include <algorithm>
// Enable profiles for this file
#undef CC_PROFILER_DISPLAY_TIMERS
#define CC_PROFILER_DISPLAY_TIMERS() Profiler::getInstance()->displayTimers()
#undef CC_PROFILER_PURGE_ALL
#define CC_PROFILER_PURGE_ALL() Profiler::getInstance()->releaseAllTimers()
#undef CC_PROFILER_START
#define CC_PROFILER_START(__name__) ProfilingBeginTimingBlock(__name__)
#undef CC_PROFILER_STOP
#define CC_PROFILER_STOP(__name__) ProfilingEndTimingBlock(__name__)
#undef CC_PROFILER_RESET
#define CC_PROFILER_RESET(__name__) ProfilingResetTimingBlock(__name__)
#undef CC_PROFILER_START_CATEGORY
#define CC_PROFILER_START_CATEGORY(__cat__, __name__) do{ if(__cat__) ProfilingBeginTimingBlock(__name__); } while(0)
#undef CC_PROFILER_STOP_CATEGORY
#define CC_PROFILER_STOP_CATEGORY(__cat__, __name__) do{ if(__cat__) ProfilingEndTimingBlock(__name__); } while(0)
#undef CC_PROFILER_RESET_CATEGORY
#define CC_PROFILER_RESET_CATEGORY(__cat__, __name__) do{ if(__cat__) ProfilingResetTimingBlock(__name__); } while(0)
#undef CC_PROFILER_START_INSTANCE
#define CC_PROFILER_START_INSTANCE(__id__, __name__) do{ ProfilingBeginTimingBlock( String::createWithFormat("%08X - %s", __id__, __name__)->getCString() ); } while(0)
#undef CC_PROFILER_STOP_INSTANCE
#define CC_PROFILER_STOP_INSTANCE(__id__, __name__) do{ ProfilingEndTimingBlock( String::createWithFormat("%08X - %s", __id__, __name__)->getCString() ); } while(0)
#undef CC_PROFILER_RESET_INSTANCE
#define CC_PROFILER_RESET_INSTANCE(__id__, __name__) do{ ProfilingResetTimingBlock( String::createWithFormat("%08X - %s", __id__, __name__)->getCString() ); } while(0)
static std::function<PerformanceEventDispatcherScene*()> createFunctions[] =
{
CL(TouchEventDispatchingPerfTest),
CL(KeyboardEventDispatchingPerfTest),
CL(CustomEventDispatchingPerfTest),
};
#define MAX_LAYER (sizeof(createFunctions) / sizeof(createFunctions[0]))
enum {
kTagInfoLayer = 1,
kTagBase = 20000,
};
enum {
kMaxNodes = 15000,
kNodesIncrease = 500,
};
static int g_curCase = 0;
////////////////////////////////////////////////////////
//
// EventDispatcherBasicLayer
//
////////////////////////////////////////////////////////
EventDispatcherBasicLayer::EventDispatcherBasicLayer(bool bControlMenuVisible, int nMaxCases, int nCurCase)
: PerformBasicLayer(bControlMenuVisible, nMaxCases, nCurCase)
{
}
void EventDispatcherBasicLayer::showCurrentTest()
{
int nodes = ((PerformanceEventDispatcherScene*)getParent())->getQuantityOfNodes();
auto scene = createFunctions[_curCase]();
g_curCase = _curCase;
if (scene)
{
scene->initWithQuantityOfNodes(nodes);
Director::getInstance()->replaceScene(scene);
}
}
////////////////////////////////////////////////////////
//
// PerformanceEventDispatcherScene
//
////////////////////////////////////////////////////////
void PerformanceEventDispatcherScene::initWithQuantityOfNodes(unsigned int nNodes)
{
_type = 0;
2014-03-20 16:24:55 +08:00
srand((unsigned)time(nullptr));
auto s = Director::getInstance()->getWinSize();
// Title
auto label = Label::createWithTTF(title().c_str(), "fonts/arial.ttf", 32);
addChild(label, 1, TAG_TITLE);
label->setPosition(Point(s.width/2, s.height-50));
// Subtitle
std::string strSubTitle = subtitle();
if(strSubTitle.length())
{
auto l = Label::createWithTTF(strSubTitle.c_str(), "fonts/Thonburi.ttf", 16);
addChild(l, 1, TAG_SUBTITLE);
l->setPosition(Point(s.width/2, s.height-80));
}
_lastRenderedCount = 0;
_currentQuantityOfNodes = 0;
_quantityOfNodes = nNodes;
MenuItemFont::setFontSize(65);
auto decrease = MenuItemFont::create(" - ", [&](Ref *sender) {
_quantityOfNodes -= kNodesIncrease;
if( _quantityOfNodes < 0 )
_quantityOfNodes = 0;
updateQuantityLabel();
updateQuantityOfNodes();
updateProfilerName();
CC_PROFILER_PURGE_ALL();
srand(0);
});
decrease->setColor(Color3B(0,200,20));
_decrease = decrease;
auto increase = MenuItemFont::create(" + ", [&](Ref *sender) {
_quantityOfNodes += kNodesIncrease;
if( _quantityOfNodes > kMaxNodes )
_quantityOfNodes = kMaxNodes;
updateQuantityLabel();
updateQuantityOfNodes();
updateProfilerName();
CC_PROFILER_PURGE_ALL();
srand(0);
});
increase->setColor(Color3B(0,200,20));
_increase = increase;
auto menu = Menu::create(decrease, increase, NULL);
menu->alignItemsHorizontally();
menu->setPosition(Point(s.width/2, s.height/2+15));
addChild(menu, 1);
auto infoLabel = Label::createWithTTF("0 listeners", "fonts/Marker Felt.ttf", 30);
infoLabel->setColor(Color3B(0,200,20));
infoLabel->setPosition(Point(s.width/2, s.height/2-15));
addChild(infoLabel, 1, kTagInfoLayer);
auto menuLayer = new EventDispatcherBasicLayer(true, MAX_LAYER, g_curCase);
addChild(menuLayer);
menuLayer->release();
printf("Size of Node: %lu\n", sizeof(Node));
int oldFontSize = MenuItemFont::getFontSize();
MenuItemFont::setFontSize(24);
Vector<cocos2d::MenuItem *> toggleItems;
generateTestFunctions();
CCASSERT(!_testFunctions.empty(), "Should not be empty after generate test functions");
for (const auto& f : _testFunctions)
{
toggleItems.pushBack(MenuItemFont::create(f.name));
}
auto reset = [this](){
// Removes all nodes
for (auto& node : _nodes)
{
node->removeFromParent();
}
_nodes.clear();
// Removes all fixed listeners
for (auto& listener : _fixedPriorityListeners)
{
Director::getInstance()->getEventDispatcher()->removeEventListener(listener);
}
this->_lastRenderedCount = 0;
};
auto toggle = MenuItemToggle::createWithCallback([=](Ref* sender){
auto toggle = static_cast<MenuItemToggle*>(sender);
this->_type = toggle->getSelectedIndex();
auto label = static_cast<Label*>(this->getChildByTag(TAG_SUBTITLE));
label->setString(StringUtils::format("Test '%s', See console", this->_testFunctions[this->_type].name));
this->updateProfilerName();
reset();
}, toggleItems);
toggle->setAnchorPoint(Point::ANCHOR_MIDDLE_LEFT);
toggle->setPosition(VisibleRect::left());
_toggle = toggle;
auto start = MenuItemFont::create("start", [this](Ref* sender){
auto director = Director::getInstance();
auto sched = director->getScheduler();
CC_PROFILER_PURGE_ALL();
sched->schedule(schedule_selector(PerformanceEventDispatcherScene::dumpProfilerInfo), this, 2, false);
this->unscheduleUpdate();
this->scheduleUpdate();
this->_startItem->setEnabled(false);
this->_stopItem->setEnabled(true);
this->_toggle->setEnabled(false);
this->_increase->setEnabled(false);
this->_decrease->setEnabled(false);
});
start->setAnchorPoint(Point::ANCHOR_MIDDLE_RIGHT);
start->setPosition(VisibleRect::right() + Point(0, 40));
_startItem = start;
auto stop = MenuItemFont::create("stop", [=](Ref* sender){
auto director = Director::getInstance();
auto sched = director->getScheduler();
sched->unschedule(schedule_selector(PerformanceEventDispatcherScene::dumpProfilerInfo), this);
this->unscheduleUpdate();
this->_startItem->setEnabled(true);
this->_stopItem->setEnabled(false);
this->_toggle->setEnabled(true);
this->_increase->setEnabled(true);
this->_decrease->setEnabled(true);
reset();
});
stop->setEnabled(false);
stop->setAnchorPoint(Point::ANCHOR_MIDDLE_RIGHT);
stop->setPosition(VisibleRect::right() + Point(0, -40));
_stopItem = stop;
auto menu2 = Menu::create(toggle, start, stop, NULL);
menu2->setPosition(Point::ZERO);
addChild(menu2);
MenuItemFont::setFontSize(oldFontSize);
updateQuantityLabel();
updateQuantityOfNodes();
updateProfilerName();
}
std::string PerformanceEventDispatcherScene::title() const
{
return "No title";
}
std::string PerformanceEventDispatcherScene::subtitle() const
{
return "";
}
void PerformanceEventDispatcherScene::updateQuantityLabel()
{
if( _quantityOfNodes != _lastRenderedCount )
{
auto infoLabel = static_cast<Label*>( getChildByTag(kTagInfoLayer) );
char str[20] = {0};
sprintf(str, "%u listeners", _quantityOfNodes);
infoLabel->setString(str);
}
}
const char * PerformanceEventDispatcherScene::profilerName()
{
return _profilerName;
}
void PerformanceEventDispatcherScene::updateProfilerName()
{
snprintf(_profilerName, sizeof(_profilerName)-1, "%s(%d)", testName(), _quantityOfNodes);
}
void PerformanceEventDispatcherScene::dumpProfilerInfo(float dt)
{
CC_PROFILER_DISPLAY_TIMERS();
}
void PerformanceEventDispatcherScene::update(float dt)
{
_testFunctions[_type].func();
}
void PerformanceEventDispatcherScene::updateQuantityOfNodes()
{
_currentQuantityOfNodes = _quantityOfNodes;
}
const char* PerformanceEventDispatcherScene::testName()
{
return _testFunctions[_type].name;
}
////////////////////////////////////////////////////////
//
// TouchEventDispatchingPerfTest
//
////////////////////////////////////////////////////////
void TouchEventDispatchingPerfTest::generateTestFunctions()
{
TestFunction testFunctions[] = {
{ "OneByOne-scenegraph", [=](){
auto dispatcher = Director::getInstance()->getEventDispatcher();
if (_quantityOfNodes != _lastRenderedCount)
{
auto listener = EventListenerTouchOneByOne::create();
listener->onTouchBegan = [](Touch* touch, Event* event){
return false;
};
listener->onTouchMoved = [](Touch* touch, Event* event){};
listener->onTouchEnded = [](Touch* touch, Event* event){};
// Create new touchable nodes
for (int i = 0; i < this->_quantityOfNodes; ++i)
{
auto node = Node::create();
node->setTag(1000 + i);
this->addChild(node);
this->_nodes.push_back(node);
dispatcher->addEventListenerWithSceneGraphPriority(listener->clone(), node);
}
_lastRenderedCount = _quantityOfNodes;
}
Size size = Director::getInstance()->getWinSize();
EventTouch touchEvent;
touchEvent.setEventCode(EventTouch::EventCode::BEGAN);
std::vector<Touch*> touches;
for (int i = 0; i < 4; ++i)
{
Touch* touch = new Touch();
touch->autorelease();
touch->setTouchInfo(i, rand() % 200, rand() % 200);
touches.push_back(touch);
}
touchEvent.setTouches(touches);
CC_PROFILER_START(this->profilerName());
dispatcher->dispatchEvent(&touchEvent);
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "OneByOne-fixed", [=](){
auto dispatcher = Director::getInstance()->getEventDispatcher();
if (_quantityOfNodes != _lastRenderedCount)
{
auto listener = EventListenerTouchOneByOne::create();
listener->onTouchBegan = [](Touch* touch, Event* event){
return false;
};
listener->onTouchMoved = [](Touch* touch, Event* event){};
listener->onTouchEnded = [](Touch* touch, Event* event){};
for (int i = 0; i < this->_quantityOfNodes; ++i)
{
auto l = listener->clone();
this->_fixedPriorityListeners.push_back(l);
dispatcher->addEventListenerWithFixedPriority(l, i+1);
}
_lastRenderedCount = _quantityOfNodes;
}
Size size = Director::getInstance()->getWinSize();
EventTouch touchEvent;
touchEvent.setEventCode(EventTouch::EventCode::BEGAN);
std::vector<Touch*> touches;
for (int i = 0; i < 4; ++i)
{
Touch* touch = new Touch();
touch->autorelease();
touch->setTouchInfo(i, rand() % 200, rand() % 200);
touches.push_back(touch);
}
touchEvent.setTouches(touches);
CC_PROFILER_START(this->profilerName());
dispatcher->dispatchEvent(&touchEvent);
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "AllAtOnce-scenegraph", [=](){
auto dispatcher = Director::getInstance()->getEventDispatcher();
if (_quantityOfNodes != _lastRenderedCount)
{
auto listener = EventListenerTouchAllAtOnce::create();
listener->onTouchesBegan = [](const std::vector<Touch*> touches, Event* event){};
listener->onTouchesMoved = [](const std::vector<Touch*> touches, Event* event){};
listener->onTouchesEnded = [](const std::vector<Touch*> touches, Event* event){};
// Create new touchable nodes
for (int i = 0; i < this->_quantityOfNodes; ++i)
{
auto node = Node::create();
node->setTag(1000 + i);
this->addChild(node);
this->_nodes.push_back(node);
dispatcher->addEventListenerWithSceneGraphPriority(listener->clone(), node);
}
_lastRenderedCount = _quantityOfNodes;
}
Size size = Director::getInstance()->getWinSize();
EventTouch touchEvent;
touchEvent.setEventCode(EventTouch::EventCode::BEGAN);
std::vector<Touch*> touches;
for (int i = 0; i < 4; ++i)
{
Touch* touch = new Touch();
touch->autorelease();
touch->setTouchInfo(i, rand() % 200, rand() % 200);
touches.push_back(touch);
}
touchEvent.setTouches(touches);
CC_PROFILER_START(this->profilerName());
dispatcher->dispatchEvent(&touchEvent);
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "AllAtOnce-fixed", [=](){
auto dispatcher = Director::getInstance()->getEventDispatcher();
if (_quantityOfNodes != _lastRenderedCount)
{
auto listener = EventListenerTouchAllAtOnce::create();
listener->onTouchesBegan = [](const std::vector<Touch*> touches, Event* event){};
listener->onTouchesMoved = [](const std::vector<Touch*> touches, Event* event){};
listener->onTouchesEnded = [](const std::vector<Touch*> touches, Event* event){};
for (int i = 0; i < this->_quantityOfNodes; ++i)
{
auto l = listener->clone();
this->_fixedPriorityListeners.push_back(l);
dispatcher->addEventListenerWithFixedPriority(l, i+1);
}
_lastRenderedCount = _quantityOfNodes;
}
Size size = Director::getInstance()->getWinSize();
EventTouch touchEvent;
touchEvent.setEventCode(EventTouch::EventCode::BEGAN);
std::vector<Touch*> touches;
for (int i = 0; i < 4; ++i)
{
Touch* touch = new Touch();
touch->autorelease();
touch->setTouchInfo(i, rand() % 200, rand() % 200);
touches.push_back(touch);
}
touchEvent.setTouches(touches);
CC_PROFILER_START(this->profilerName());
dispatcher->dispatchEvent(&touchEvent);
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "TouchModeMix-scenegraph", [=](){
auto dispatcher = Director::getInstance()->getEventDispatcher();
if (_quantityOfNodes != _lastRenderedCount)
{
auto listenerOneByOne = EventListenerTouchOneByOne::create();
listenerOneByOne->onTouchBegan = [](Touch* touch, Event* event){
return false;
};
listenerOneByOne->onTouchMoved = [](Touch* touch, Event* event){};
listenerOneByOne->onTouchEnded = [](Touch* touch, Event* event){};
auto listenerAllAtOnce = EventListenerTouchAllAtOnce::create();
listenerAllAtOnce->onTouchesBegan = [](const std::vector<Touch*> touches, Event* event){};
listenerAllAtOnce->onTouchesMoved = [](const std::vector<Touch*> touches, Event* event){};
listenerAllAtOnce->onTouchesEnded = [](const std::vector<Touch*> touches, Event* event){};
int i = 0;
// Create new touchable nodes
for (; i < this->_quantityOfNodes/2; ++i)
{
auto node = Node::create();
node->setTag(1000 + i);
this->addChild(node);
this->_nodes.push_back(node);
dispatcher->addEventListenerWithSceneGraphPriority(listenerOneByOne->clone(), node);
}
for (; i < this->_quantityOfNodes; ++i)
{
auto node = Node::create();
node->setTag(1000 + i);
this->addChild(node);
this->_nodes.push_back(node);
dispatcher->addEventListenerWithSceneGraphPriority(listenerAllAtOnce->clone(), node);
}
_lastRenderedCount = _quantityOfNodes;
}
Size size = Director::getInstance()->getWinSize();
EventTouch touchEvent;
touchEvent.setEventCode(EventTouch::EventCode::BEGAN);
std::vector<Touch*> touches;
for (int i = 0; i < 4; ++i)
{
Touch* touch = new Touch();
touch->autorelease();
touch->setTouchInfo(i, rand() % 200, rand() % 200);
touches.push_back(touch);
}
touchEvent.setTouches(touches);
CC_PROFILER_START(this->profilerName());
dispatcher->dispatchEvent(&touchEvent);
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "TouchModeMix-fixed", [=](){
auto dispatcher = Director::getInstance()->getEventDispatcher();
if (_quantityOfNodes != _lastRenderedCount)
{
auto listenerOneByOne = EventListenerTouchOneByOne::create();
listenerOneByOne->onTouchBegan = [](Touch* touch, Event* event){
return false;
};
listenerOneByOne->onTouchMoved = [](Touch* touch, Event* event){};
listenerOneByOne->onTouchEnded = [](Touch* touch, Event* event){};
auto listenerAllAtOnce = EventListenerTouchAllAtOnce::create();
listenerAllAtOnce->onTouchesBegan = [](const std::vector<Touch*> touches, Event* event){};
listenerAllAtOnce->onTouchesMoved = [](const std::vector<Touch*> touches, Event* event){};
listenerAllAtOnce->onTouchesEnded = [](const std::vector<Touch*> touches, Event* event){};
int i = 0;
for (; i < this->_quantityOfNodes/2; ++i)
{
auto l = listenerOneByOne->clone();
this->_fixedPriorityListeners.push_back(l);
dispatcher->addEventListenerWithFixedPriority(l, i+1);
}
for (; i < this->_quantityOfNodes; ++i)
{
auto l = listenerAllAtOnce->clone();
this->_fixedPriorityListeners.push_back(l);
dispatcher->addEventListenerWithFixedPriority(l, i+1);
}
_lastRenderedCount = _quantityOfNodes;
}
Size size = Director::getInstance()->getWinSize();
EventTouch touchEvent;
touchEvent.setEventCode(EventTouch::EventCode::BEGAN);
std::vector<Touch*> touches;
for (int i = 0; i < 4; ++i)
{
Touch* touch = new Touch();
touch->autorelease();
touch->setTouchInfo(i, rand() % 200, rand() % 200);
touches.push_back(touch);
}
touchEvent.setTouches(touches);
CC_PROFILER_START(this->profilerName());
dispatcher->dispatchEvent(&touchEvent);
CC_PROFILER_STOP(this->profilerName());
} } ,
};
for (const auto& func : testFunctions)
{
_testFunctions.push_back(func);
}
}
std::string TouchEventDispatchingPerfTest::title() const
{
return "Touch Event Dispatching Perf test";
}
std::string TouchEventDispatchingPerfTest::subtitle() const
{
return "Test 'OneByOne-scenegraph', See console";
}
////////////////////////////////////////////////////////
//
// KeyboardEventDispatchingPerfTest
//
////////////////////////////////////////////////////////
void KeyboardEventDispatchingPerfTest::generateTestFunctions()
{
TestFunction testFunctions[] = {
{ "keyboard-scenegraph", [=](){
auto dispatcher = Director::getInstance()->getEventDispatcher();
if (_quantityOfNodes != _lastRenderedCount)
{
auto listener = EventListenerKeyboard::create();
listener->onKeyPressed = [](EventKeyboard::KeyCode keyCode, Event* event){};
listener->onKeyReleased = [](EventKeyboard::KeyCode keyCode, Event* event){};
// Create new nodes listen to keyboard event
for (int i = 0; i < this->_quantityOfNodes; ++i)
{
auto node = Node::create();
node->setTag(1000 + i);
this->addChild(node);
this->_nodes.push_back(node);
dispatcher->addEventListenerWithSceneGraphPriority(listener->clone(), node);
}
_lastRenderedCount = _quantityOfNodes;
}
EventKeyboard event(EventKeyboard::KeyCode::KEY_RETURN, true);
CC_PROFILER_START(this->profilerName());
dispatcher->dispatchEvent(&event);
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "keyboard-fixed", [=](){
auto dispatcher = Director::getInstance()->getEventDispatcher();
if (_quantityOfNodes != _lastRenderedCount)
{
auto listener = EventListenerKeyboard::create();
listener->onKeyPressed = [](EventKeyboard::KeyCode keyCode, Event* event){};
listener->onKeyReleased = [](EventKeyboard::KeyCode keyCode, Event* event){};
for (int i = 0; i < this->_quantityOfNodes; ++i)
{
auto l = listener->clone();
this->_fixedPriorityListeners.push_back(l);
dispatcher->addEventListenerWithFixedPriority(l, i+1);
}
_lastRenderedCount = _quantityOfNodes;
}
EventKeyboard event(EventKeyboard::KeyCode::KEY_RETURN, true);
CC_PROFILER_START(this->profilerName());
dispatcher->dispatchEvent(&event);
CC_PROFILER_STOP(this->profilerName());
} } ,
};
for (const auto& func : testFunctions)
{
_testFunctions.push_back(func);
}
}
std::string KeyboardEventDispatchingPerfTest::title() const
{
return "Keyboard Event Dispatching Perf test";
}
std::string KeyboardEventDispatchingPerfTest::subtitle() const
{
return "Test 'keyboard-scenegraph', See console";
}
////////////////////////////////////////////////////////
//
// CustomEventDispatchingPerfTest
//
////////////////////////////////////////////////////////
void CustomEventDispatchingPerfTest::onEnter()
{
PerformanceEventDispatcherScene::onEnter();
for (int i = 0; i < 2000; i++)
{
auto listener = EventListenerCustom::create(StringUtils::format("custom_event_%d", i), [](EventCustom* event){});
_eventDispatcher->addEventListenerWithFixedPriority(listener, i + 1);
_customListeners.push_back(listener);
}
}
void CustomEventDispatchingPerfTest::onExit()
{
for (auto& l : _customListeners)
{
_eventDispatcher->removeEventListener(l);
}
PerformanceEventDispatcherScene::onExit();
}
void CustomEventDispatchingPerfTest::generateTestFunctions()
{
TestFunction testFunctions[] = {
{ "custom-scenegraph", [=](){
auto dispatcher = Director::getInstance()->getEventDispatcher();
if (_quantityOfNodes != _lastRenderedCount)
{
auto listener = EventListenerCustom::create("custom_event_test_scenegraph", [](EventCustom* event){});
// Create new nodes listen to custom event
for (int i = 0; i < this->_quantityOfNodes; ++i)
{
auto node = Node::create();
node->setTag(1000 + i);
this->addChild(node);
this->_nodes.push_back(node);
dispatcher->addEventListenerWithSceneGraphPriority(listener->clone(), node);
}
_lastRenderedCount = _quantityOfNodes;
}
EventCustom event("custom_event_test_scenegraph");
CC_PROFILER_START(this->profilerName());
dispatcher->dispatchEvent(&event);
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "custom-fixed", [=](){
auto dispatcher = Director::getInstance()->getEventDispatcher();
if (_quantityOfNodes != _lastRenderedCount)
{
auto listener = EventListenerCustom::create("custom_event_test_fixed", [](EventCustom* event){});
for (int i = 0; i < this->_quantityOfNodes; ++i)
{
auto l = listener->clone();
this->_fixedPriorityListeners.push_back(l);
dispatcher->addEventListenerWithFixedPriority(l, i+1);
}
_lastRenderedCount = _quantityOfNodes;
}
EventCustom event("custom_event_test_fixed");
CC_PROFILER_START(this->profilerName());
dispatcher->dispatchEvent(&event);
CC_PROFILER_STOP(this->profilerName());
} } ,
};
for (const auto& func : testFunctions)
{
_testFunctions.push_back(func);
}
}
std::string CustomEventDispatchingPerfTest::title() const
{
return "Custom Event Dispatching Perf test";
}
std::string CustomEventDispatchingPerfTest::subtitle() const
{
return "Test 'custom-scenegraph', See console";
}
///----------------------------------------
void runEventDispatcherPerformanceTest()
{
auto scene = createFunctions[g_curCase]();
scene->initWithQuantityOfNodes(kNodesIncrease);
Director::getInstance()->replaceScene(scene);
}