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

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/*
*
*/
#include "PerformanceContainerTest.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<PerformanceContainerScene*()> createFunctions[] =
{
CL(TemplateVectorPerfTest),
CL(ArrayPerfTest),
CL(TemplateMapStringKeyPerfTest),
CL(DictionaryStringKeyPerfTest),
CL(TemplateMapIntKeyPerfTest),
CL(DictionaryIntKeyPerfTest)
};
#define MAX_LAYER (sizeof(createFunctions) / sizeof(createFunctions[0]))
enum {
kTagInfoLayer = 1,
kTagBase = 20000,
};
enum {
kMaxNodes = 15000,
kNodesIncrease = 500,
};
static int g_curCase = 0;
////////////////////////////////////////////////////////
//
// ContainerBasicLayer
//
////////////////////////////////////////////////////////
ContainerBasicLayer::ContainerBasicLayer(bool bControlMenuVisible, int nMaxCases, int nCurCase)
: PerformBasicLayer(bControlMenuVisible, nMaxCases, nCurCase)
{
}
void ContainerBasicLayer::showCurrentTest()
{
int nodes = ((PerformanceContainerScene*)getParent())->getQuantityOfNodes();
auto scene = createFunctions[_curCase]();
g_curCase = _curCase;
if (scene)
{
scene->initWithQuantityOfNodes(nodes);
Director::getInstance()->replaceScene(scene);
}
}
////////////////////////////////////////////////////////
//
// PerformanceContainerScene
//
////////////////////////////////////////////////////////
void PerformanceContainerScene::initWithQuantityOfNodes(unsigned int nNodes)
{
_type = 0;
//srand(time());
auto s = Director::getInstance()->getWinSize();
// Title
auto label = LabelTTF::create(title().c_str(), "Arial", 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 = LabelTTF::create(strSubTitle.c_str(), "Thonburi", 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 = LabelTTF::create("0 nodes", "Marker Felt", 30);
infoLabel->setColor(Color3B(0,200,20));
infoLabel->setPosition(Point(s.width/2, s.height/2-15));
addChild(infoLabel, 1, kTagInfoLayer);
auto menuLayer = new ContainerBasicLayer(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 toggle = MenuItemToggle::createWithCallback([this](Ref* sender){
auto toggle = static_cast<MenuItemToggle*>(sender);
this->_type = toggle->getSelectedIndex();
auto label = static_cast<LabelTTF*>(this->getChildByTag(TAG_SUBTITLE));
label->setString(StringUtils::format("Test '%s', See console", this->_testFunctions[this->_type].name));
this->updateProfilerName();
}, 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(PerformanceContainerScene::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", [this](Ref* sender){
auto director = Director::getInstance();
auto sched = director->getScheduler();
sched->unschedule(schedule_selector(PerformanceContainerScene::dumpProfilerInfo), this);
this->unscheduleUpdate();
this->_startItem->setEnabled(true);
this->_stopItem->setEnabled(false);
this->_toggle->setEnabled(true);
this->_increase->setEnabled(true);
this->_decrease->setEnabled(true);
});
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 PerformanceContainerScene::title() const
{
return "No title";
}
std::string PerformanceContainerScene::subtitle() const
{
return "";
}
void PerformanceContainerScene::updateQuantityLabel()
{
if( quantityOfNodes != lastRenderedCount )
{
auto infoLabel = static_cast<LabelTTF*>( getChildByTag(kTagInfoLayer) );
char str[20] = {0};
sprintf(str, "%u nodes", quantityOfNodes);
infoLabel->setString(str);
lastRenderedCount = quantityOfNodes;
}
}
const char * PerformanceContainerScene::profilerName()
{
return _profilerName;
}
void PerformanceContainerScene::updateProfilerName()
{
snprintf(_profilerName, sizeof(_profilerName)-1, "%s(%d)", testName(), quantityOfNodes);
}
void PerformanceContainerScene::dumpProfilerInfo(float dt)
{
CC_PROFILER_DISPLAY_TIMERS();
}
void PerformanceContainerScene::update(float dt)
{
_testFunctions[_type].func();
}
void PerformanceContainerScene::updateQuantityOfNodes()
{
currentQuantityOfNodes = quantityOfNodes;
}
const char* PerformanceContainerScene::testName()
{
return _testFunctions[_type].name;
}
////////////////////////////////////////////////////////
//
// TemplateVectorPerfTest
//
////////////////////////////////////////////////////////
void TemplateVectorPerfTest::generateTestFunctions()
{
auto createVector = [this](){
Vector<Node*> ret;
for( int i=0; i<quantityOfNodes; ++i)
{
auto node = Node::create();
node->setTag(i);
ret.pushBack(node);
}
return ret;
};
TestFunction testFunctions[] = {
{ "pushBack", [=](){
Vector<Node*> nodeVector;
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
nodeVector.pushBack(Node::create());
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "insert", [=](){
Vector<Node*> nodeVector;
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
nodeVector.insert(0, Node::create());
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "replace", [=](){
Vector<Node*> nodeVector = createVector();
srand(time(nullptr));
ssize_t index = rand() % quantityOfNodes;
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
nodeVector.replace(index, Node::create());
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "getIndex", [=](){
Vector<Node*> nodeVector = createVector();
Node* objToGet = nodeVector.at(quantityOfNodes/3);
ssize_t index = 0;
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
index = nodeVector.getIndex(objToGet);
CC_PROFILER_STOP(this->profilerName());
// Uses `index` to avoids `getIndex` invoking was optimized in release mode
if (index == quantityOfNodes/3)
{
nodeVector.clear();
}
} } ,
{ "find", [=](){
Vector<Node*> nodeVector = createVector();
Node* objToGet = nodeVector.at(quantityOfNodes/3);
Vector<Node*>::iterator iter;
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
iter = nodeVector.find(objToGet);
CC_PROFILER_STOP(this->profilerName());
// Uses `iter` to avoids `find` invoking was optimized in release mode
if (*iter == objToGet)
{
nodeVector.clear();
}
} } ,
{ "at", [=](){
Vector<Node*> nodeVector = createVector();
Node* objToGet = nullptr;
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
objToGet = nodeVector.at(quantityOfNodes/3);
CC_PROFILER_STOP(this->profilerName());
// Uses `objToGet` to avoids `at` invoking was optimized in release mode
if (nodeVector.getIndex(objToGet) == quantityOfNodes/3)
{
nodeVector.clear();
}
} } ,
{ "contains", [=](){
Vector<Node*> nodeVector = createVector();
Node* objToGet = nodeVector.at(quantityOfNodes/3);
bool ret = false;
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
ret = nodeVector.contains(objToGet);
CC_PROFILER_STOP(this->profilerName());
// Uses `ret` to avoids `contains` invoking was optimized in release mode
if (ret)
{
nodeVector.clear();
}
} } ,
{ "eraseObject", [=](){
Vector<Node*> nodeVector = createVector();
Node** nodes = (Node**)malloc(sizeof(Node*) * quantityOfNodes);
for (int i = 0; i < quantityOfNodes; ++i)
{
nodes[i] = nodeVector.at(i);
}
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
nodeVector.eraseObject(nodes[i]);
CC_PROFILER_STOP(this->profilerName());
CCASSERT(nodeVector.empty(), "nodeVector was not empty.");
free(nodes);
} } ,
{ "erase", [=](){
Vector<Node*> nodeVector = createVector();
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
nodeVector.erase(nodeVector.begin());
CC_PROFILER_STOP(this->profilerName());
CCASSERT(nodeVector.empty(), "nodeVector was not empty.");
} } ,
{ "clear", [=](){
Vector<Node*> nodeVector = createVector();
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
nodeVector.clear();
CC_PROFILER_STOP(this->profilerName());
CCASSERT(nodeVector.empty(), "nodeVector was not empty.");
} } ,
{ "swap by index", [=](){
Vector<Node*> nodeVector = createVector();
int swapIndex1 = quantityOfNodes / 3;
int swapIndex2 = quantityOfNodes / 3 * 2;
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
nodeVector.swap(swapIndex1, swapIndex2);
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "swap by object", [=](){
Vector<Node*> nodeVector = createVector();
Node* swapNode1 = nodeVector.at(quantityOfNodes / 3);
Node* swapNode2 = nodeVector.at(quantityOfNodes / 3 * 2);
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
nodeVector.swap(swapNode1, swapNode2);
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "reverse", [=](){
Vector<Node*> nodeVector = createVector();
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
nodeVector.reverse();
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "c++11 Range Loop", [=](){
Vector<Node*> nodeVector = createVector();
CC_PROFILER_START(this->profilerName());
for (const auto& e : nodeVector)
{
e->setTag(111);
}
CC_PROFILER_STOP(this->profilerName());
} } ,
};
for (const auto& func : testFunctions)
{
_testFunctions.push_back(func);
}
}
std::string TemplateVectorPerfTest::title() const
{
return "Vector<T> Perf test";
}
std::string TemplateVectorPerfTest::subtitle() const
{
return "Test 'pushBack', See console";
}
////////////////////////////////////////////////////////
//
// ArrayPerfTest
//
////////////////////////////////////////////////////////
std::string ArrayPerfTest::title() const
{
return "Array Perf test";
}
std::string ArrayPerfTest::subtitle() const
{
return "Test `addObject`, See console";
}
void ArrayPerfTest::generateTestFunctions()
{
auto createArray = [this](){
2014-03-05 15:04:30 +08:00
__Array* ret = Array::create();
for( int i=0; i<quantityOfNodes; ++i)
{
auto node = Node::create();
node->setTag(i);
ret->addObject(node);
}
return ret;
};
TestFunction testFunctions[] = {
{ "addObject", [=](){
2014-03-05 15:04:30 +08:00
__Array* nodeVector = Array::create();
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
nodeVector->addObject(Node::create());
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "insertObject", [=](){
2014-03-05 15:04:30 +08:00
__Array* nodeVector = Array::create();
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
nodeVector->insertObject(Node::create(), 0);
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "setObject", [=](){
2014-03-05 15:04:30 +08:00
__Array* nodeVector = createArray();
srand(time(nullptr));
ssize_t index = rand() % quantityOfNodes;
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
nodeVector->setObject(Node::create(), index);
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "getIndexOfObject", [=](){
2014-03-05 15:04:30 +08:00
__Array* nodeVector = createArray();
Ref* objToGet = nodeVector->getObjectAtIndex(quantityOfNodes/3);
ssize_t index = 0;
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
index = nodeVector->getIndexOfObject(objToGet);
CC_PROFILER_STOP(this->profilerName());
// Uses `index` to avoids `getIndex` invoking was optimized in release mode
if (index == quantityOfNodes/3)
{
nodeVector->removeAllObjects();
}
} } ,
{ "getObjectAtIndex", [=](){
2014-03-05 15:04:30 +08:00
__Array* nodeVector = createArray();
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
nodeVector->getObjectAtIndex(quantityOfNodes/3);
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "containsObject", [=](){
2014-03-05 15:04:30 +08:00
__Array* nodeVector = createArray();
Ref* objToGet = nodeVector->getObjectAtIndex(quantityOfNodes/3);
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
nodeVector->containsObject(objToGet);
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "removeObject", [=](){
2014-03-05 15:04:30 +08:00
__Array* nodeVector = createArray();
Node** nodes = (Node**)malloc(sizeof(Node*) * quantityOfNodes);
for (int i = 0; i < quantityOfNodes; ++i)
{
nodes[i] = static_cast<Node*>(nodeVector->getObjectAtIndex(i));
}
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
nodeVector->removeObject(nodes[i]);
CC_PROFILER_STOP(this->profilerName());
CCASSERT(nodeVector->count() == 0, "nodeVector was not empty.");
free(nodes);
} } ,
{ "removeObjectAtIndex", [=](){
2014-03-05 15:04:30 +08:00
__Array* nodeVector = createArray();
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
nodeVector->removeObjectAtIndex(0);
CC_PROFILER_STOP(this->profilerName());
CCASSERT(nodeVector->count() == 0, "nodeVector was not empty.");
} } ,
{ "removeAllObjects", [=](){
Array* nodeVector = createArray();
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
nodeVector->removeAllObjects();
CC_PROFILER_STOP(this->profilerName());
CCASSERT(nodeVector->count() == 0, "nodeVector was not empty.");
} } ,
{ "swap by index", [=](){
2014-03-05 15:04:30 +08:00
__Array* nodeVector = createArray();
int swapIndex1 = quantityOfNodes / 3;
int swapIndex2 = quantityOfNodes / 3 * 2;
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
nodeVector->swap(swapIndex1, swapIndex2);
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "swap by object", [=](){
2014-03-05 15:04:30 +08:00
__Array* nodeVector = createArray();
Ref* swapNode1 = nodeVector->getObjectAtIndex(quantityOfNodes / 3);
Ref* swapNode2 = nodeVector->getObjectAtIndex(quantityOfNodes / 3 * 2);
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
nodeVector->exchangeObject(swapNode1, swapNode2);
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "reverseObjects", [=](){
2014-03-05 15:04:30 +08:00
__Array* nodeVector = createArray();
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
nodeVector->reverseObjects();
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "CCARRAY_FOREACH", [=](){
2014-03-05 15:04:30 +08:00
__Array* nodeVector = createArray();
Ref* obj;
CC_PROFILER_START(this->profilerName());
CCARRAY_FOREACH(nodeVector, obj)
{
static_cast<Node*>(obj)->setTag(111);
}
CC_PROFILER_STOP(this->profilerName());
} } ,
};
for (const auto& func : testFunctions)
{
_testFunctions.push_back(func);
}
}
////////////////////////////////////////////////////////
//
// TemplateMapStringKeyPerfTest
//
////////////////////////////////////////////////////////
void TemplateMapStringKeyPerfTest::generateTestFunctions()
{
auto createMap = [this](){
Map<std::string, Node*> ret;
for( int i=0; i<quantityOfNodes; ++i)
{
auto node = Node::create();
node->setTag(i);
ret.insert(StringUtils::format("key_%d", i), node);
}
return ret;
};
TestFunction testFunctions[] = {
{ "insert", [=](){
Map<std::string, Node*> map;
std::string* keys = new std::string[quantityOfNodes];
for (int i = 0; i < quantityOfNodes; ++i)
{
keys[i] = StringUtils::format("key_%d", i);
}
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
map.insert(keys[i], Node::create());
CC_PROFILER_STOP(this->profilerName());
CC_SAFE_DELETE_ARRAY(keys);
} } ,
{ "at", [=](){
Map<std::string, Node*> map = createMap();
std::string* keys = new std::string[quantityOfNodes];
Node** nodes = (Node**)malloc(sizeof(Node*) * quantityOfNodes);
for (int i = 0; i < quantityOfNodes; ++i)
{
keys[i] = StringUtils::format("key_%d", i);
}
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
nodes[i] = map.at(keys[i]);
CC_PROFILER_STOP(this->profilerName());
CC_SAFE_DELETE_ARRAY(keys);
for (int i = 0; i < quantityOfNodes; ++i)
{
nodes[i]->setTag(100);
}
CC_SAFE_FREE(nodes);
} } ,
{ "erase", [=](){
auto map = createMap();
std::string* keys = new std::string[quantityOfNodes];
Node** nodes = (Node**)malloc(sizeof(Node*) * quantityOfNodes);
for (int i = 0; i < quantityOfNodes; ++i)
{
keys[i] = StringUtils::format("key_%d", i);
}
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
map.erase(keys[i]);
CC_PROFILER_STOP(this->profilerName());
CC_SAFE_DELETE_ARRAY(keys);
CC_SAFE_FREE(nodes);
} } ,
{ "clear", [=](){
auto map = createMap();
CC_PROFILER_START(this->profilerName());
map.clear();
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "size", [=](){
auto map = createMap();
ssize_t size = 0;
CC_PROFILER_START(this->profilerName());
size = map.size();
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "keys(all)", [=](){
auto map = createMap();
CC_PROFILER_START(this->profilerName());
auto keys = map.keys();
CC_PROFILER_STOP(this->profilerName());
std::string allKeysString;
for (const auto& key : keys)
{
allKeysString += "_" + key;
}
} } ,
{ "keys(object)", [=](){
Map<std::string, Node*> map;
Node** nodes = (Node**) malloc(sizeof(Node*) * quantityOfNodes);
Node* sameNode = Node::create();
for( int i=0; i<quantityOfNodes; ++i)
{
if (quantityOfNodes % 100 == 0)
{
map.insert(StringUtils::format("key_%d", i), sameNode);
}
else
{
auto node = Node::create();
node->setTag(i);
map.insert(StringUtils::format("key_%d", i), node);
}
}
CC_PROFILER_START(this->profilerName());
auto keys = map.keys(sameNode);
CC_PROFILER_STOP(this->profilerName());
std::string allKeysString;
for (const auto& key : keys)
{
allKeysString += "_" + key;
}
CC_SAFE_FREE(nodes);
} } ,
{ "c++11 range loop", [=](){
auto map = createMap();
CC_PROFILER_START(this->profilerName());
for (const auto& e : map)
{
e.second->setTag(100);
}
CC_PROFILER_STOP(this->profilerName());
} } ,
};
for (const auto& func : testFunctions)
{
_testFunctions.push_back(func);
}
}
std::string TemplateMapStringKeyPerfTest::title() const
{
return "Map<T> String Key Perf test";
}
std::string TemplateMapStringKeyPerfTest::subtitle() const
{
return "Test 'insert', See console";
}
////////////////////////////////////////////////////////
//
// DictionaryStringKeyPerfTest
//
////////////////////////////////////////////////////////
void DictionaryStringKeyPerfTest::generateTestFunctions()
{
auto createDict = [this](){
Dictionary* ret = Dictionary::create();
for( int i=0; i<quantityOfNodes; ++i)
{
auto node = Node::create();
node->setTag(i);
ret->setObject(node, StringUtils::format("key_%d", i));
}
return ret;
};
TestFunction testFunctions[] = {
{ "setObject", [=](){
Dictionary* dict = Dictionary::create();
std::string* keys = new std::string[quantityOfNodes];
for (int i = 0; i < quantityOfNodes; ++i)
{
keys[i] = StringUtils::format("key_%d", i);
}
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
dict->setObject(Node::create(), keys[i]);
CC_PROFILER_STOP(this->profilerName());
CC_SAFE_DELETE_ARRAY(keys);
} } ,
{ "objectForKey", [=](){
auto dict = createDict();
std::string* keys = new std::string[quantityOfNodes];
Node** nodes = (Node**)malloc(sizeof(Node*) * quantityOfNodes);
for (int i = 0; i < quantityOfNodes; ++i)
{
keys[i] = StringUtils::format("key_%d", i);
}
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
nodes[i] = static_cast<Node*>(dict->objectForKey(keys[i]));
CC_PROFILER_STOP(this->profilerName());
CC_SAFE_DELETE_ARRAY(keys);
for (int i = 0; i < quantityOfNodes; ++i)
{
nodes[i]->setTag(100);
}
CC_SAFE_FREE(nodes);
} } ,
{ "removeObjectForKey", [=](){
auto dict = createDict();
std::string* keys = new std::string[quantityOfNodes];
Node** nodes = (Node**)malloc(sizeof(Node*) * quantityOfNodes);
for (int i = 0; i < quantityOfNodes; ++i)
{
keys[i] = StringUtils::format("key_%d", i);
}
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
dict->removeObjectForKey(keys[i]);
CC_PROFILER_STOP(this->profilerName());
CC_SAFE_DELETE_ARRAY(keys);
CC_SAFE_FREE(nodes);
} } ,
{ "removeAllObjects", [=](){
auto dict = createDict();
CC_PROFILER_START(this->profilerName());
dict->removeAllObjects();
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "count", [=](){
auto dict = createDict();
ssize_t size = 0;
CC_PROFILER_START(this->profilerName());
size = dict->count();
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "allKeys", [=](){
auto dict = createDict();
CC_PROFILER_START(this->profilerName());
auto keys = dict->allKeys();
CC_PROFILER_STOP(this->profilerName());
std::string allKeysString;
Ref* obj;
CCARRAY_FOREACH(keys, obj)
{
2014-03-05 15:04:30 +08:00
auto key = static_cast<__String*>(obj);
allKeysString += (std::string("_") + key->getCString());
}
} } ,
{ "allKeysForObject", [=](){
2014-03-05 15:04:30 +08:00
__Dictionary* dict = Dictionary::create();
Node** nodes = (Node**) malloc(sizeof(Node*) * quantityOfNodes);
Node* sameNode = Node::create();
for( int i=0; i<quantityOfNodes; ++i)
{
if (quantityOfNodes % 100 == 0)
{
dict->setObject(sameNode, StringUtils::format("key_%d", i));
}
else
{
auto node = Node::create();
node->setTag(i);
dict->setObject(node, StringUtils::format("key_%d", i));
}
}
CC_PROFILER_START(this->profilerName());
auto keys = dict->allKeysForObject(sameNode);
CC_PROFILER_STOP(this->profilerName());
std::string allKeysString;
Ref* obj;
CCARRAY_FOREACH(keys, obj)
{
2014-03-05 15:04:30 +08:00
auto key = static_cast<__String*>(obj);
allKeysString += (std::string("_") + key->getCString());
}
CC_SAFE_FREE(nodes);
} } ,
{ "CCDICT_FOREACH", [=](){
auto dict = createDict();
CC_PROFILER_START(this->profilerName());
DictElement* e = nullptr;
CCDICT_FOREACH(dict, e)
{
static_cast<Node*>(e->getObject())->setTag(100);
}
CC_PROFILER_STOP(this->profilerName());
} } ,
};
for (const auto& func : testFunctions)
{
_testFunctions.push_back(func);
}
}
std::string DictionaryStringKeyPerfTest::title() const
{
return "Dictionary String Key Perf test";
}
std::string DictionaryStringKeyPerfTest::subtitle() const
{
return "Test `setObject`, See console";
}
////////////////////////////////////////////////////////
//
// TemplateMapIntKeyPerfTest
//
////////////////////////////////////////////////////////
void TemplateMapIntKeyPerfTest::generateTestFunctions()
{
auto createMap = [this](){
Map<int, Node*> ret;
for( int i=0; i<quantityOfNodes; ++i)
{
auto node = Node::create();
node->setTag(i);
ret.insert(100+i, node);
}
return ret;
};
TestFunction testFunctions[] = {
{ "insert", [=](){
Map<int, Node*> map;
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
map.insert(100 + i, Node::create());
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "at", [=](){
auto map = createMap();
Node** nodes = (Node**)malloc(sizeof(Node*) * quantityOfNodes);
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
nodes[i] = map.at(100 + i);
CC_PROFILER_STOP(this->profilerName());
for (int i = 0; i < quantityOfNodes; ++i)
{
nodes[i]->setTag(100);
}
CC_SAFE_FREE(nodes);
} } ,
{ "erase", [=](){
auto map = createMap();
Node** nodes = (Node**)malloc(sizeof(Node*) * quantityOfNodes);
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
map.erase(100 + i);
CC_PROFILER_STOP(this->profilerName());
CC_SAFE_FREE(nodes);
} } ,
{ "clear", [=](){
auto map = createMap();
CC_PROFILER_START(this->profilerName());
map.clear();
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "size", [=](){
auto map = createMap();
ssize_t size = 0;
CC_PROFILER_START(this->profilerName());
size = map.size();
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "keys(all)", [=](){
auto map = createMap();
CC_PROFILER_START(this->profilerName());
auto keys = map.keys();
CC_PROFILER_STOP(this->profilerName());
int allKeysInt = 0;
for (const auto& key : keys)
{
allKeysInt += key;
}
} } ,
{ "keys(object)", [=](){
Map<int, Node*> map;
Node** nodes = (Node**) malloc(sizeof(Node*) * quantityOfNodes);
Node* sameNode = Node::create();
for( int i=0; i<quantityOfNodes; ++i)
{
if (quantityOfNodes % 100 == 0)
{
map.insert(100 + i, sameNode);
}
else
{
auto node = Node::create();
node->setTag(i);
map.insert(100 + i, node);
}
}
CC_PROFILER_START(this->profilerName());
auto keys = map.keys(sameNode);
CC_PROFILER_STOP(this->profilerName());
int allKeysInt = 0;
for (const auto& key : keys)
{
allKeysInt += key;
}
CC_SAFE_FREE(nodes);
} } ,
{ "c++11 range loop", [=](){
auto map = createMap();
CC_PROFILER_START(this->profilerName());
for (const auto& e : map)
{
e.second->setTag(100);
}
CC_PROFILER_STOP(this->profilerName());
} } ,
};
for (const auto& func : testFunctions)
{
_testFunctions.push_back(func);
}
}
std::string TemplateMapIntKeyPerfTest::title() const
{
return "Map<T> Integer Key Perf test";
}
std::string TemplateMapIntKeyPerfTest::subtitle() const
{
return "Test 'insert', See console";
}
////////////////////////////////////////////////////////
//
// DictionaryIntKeyPerfTest
//
////////////////////////////////////////////////////////
void DictionaryIntKeyPerfTest::generateTestFunctions()
{
auto createDict = [this](){
2014-03-05 15:04:30 +08:00
__Dictionary* ret = Dictionary::create();
for( int i=0; i<quantityOfNodes; ++i)
{
auto node = Node::create();
node->setTag(i);
ret->setObject(node, 100 + i);
}
return ret;
};
TestFunction testFunctions[] = {
{ "setObject", [=](){
2014-03-05 15:04:30 +08:00
__Dictionary* dict = Dictionary::create();
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
dict->setObject(Node::create(), 100 + i);
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "objectForKey", [=](){
auto dict = createDict();
Node** nodes = (Node**)malloc(sizeof(Node*) * quantityOfNodes);
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
nodes[i] = static_cast<Node*>(dict->objectForKey(100 + i));
CC_PROFILER_STOP(this->profilerName());
for (int i = 0; i < quantityOfNodes; ++i)
{
nodes[i]->setTag(100);
}
CC_SAFE_FREE(nodes);
} } ,
{ "removeObjectForKey", [=](){
auto dict = createDict();
Node** nodes = (Node**)malloc(sizeof(Node*) * quantityOfNodes);
CC_PROFILER_START(this->profilerName());
for( int i=0; i<quantityOfNodes; ++i)
dict->removeObjectForKey(100 + i);
CC_PROFILER_STOP(this->profilerName());
CC_SAFE_FREE(nodes);
} } ,
{ "removeAllObjects", [=](){
auto dict = createDict();
CC_PROFILER_START(this->profilerName());
dict->removeAllObjects();
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "count", [=](){
auto dict = createDict();
unsigned int size = 0;
CC_PROFILER_START(this->profilerName());
size = dict->count();
CC_PROFILER_STOP(this->profilerName());
} } ,
{ "allKeys", [=](){
auto dict = createDict();
CC_PROFILER_START(this->profilerName());
auto keys = dict->allKeys();
CC_PROFILER_STOP(this->profilerName());
int allKeysInt = 0;
Ref* obj;
CCARRAY_FOREACH(keys, obj)
{
2014-03-05 15:04:30 +08:00
auto key = static_cast<__Integer*>(obj);
allKeysInt += key->getValue();
}
} } ,
{ "allKeysForObject", [=](){
2014-03-05 15:04:30 +08:00
__Dictionary* dict = Dictionary::create();
Node** nodes = (Node**) malloc(sizeof(Node*) * quantityOfNodes);
Node* sameNode = Node::create();
for( int i=0; i<quantityOfNodes; ++i)
{
if (quantityOfNodes % 100 == 0)
{
dict->setObject(sameNode, 100 + i);
}
else
{
auto node = Node::create();
node->setTag(i);
dict->setObject(node, 100 + i);
}
}
CC_PROFILER_START(this->profilerName());
auto keys = dict->allKeysForObject(sameNode);
CC_PROFILER_STOP(this->profilerName());
int allKeysInt = 0;
Ref* obj;
CCARRAY_FOREACH(keys, obj)
{
2014-03-05 15:04:30 +08:00
auto key = static_cast<__Integer*>(obj);
allKeysInt += key->getValue();
}
CC_SAFE_FREE(nodes);
} } ,
{ "CCDICT_FOREACH", [=](){
auto dict = createDict();
CC_PROFILER_START(this->profilerName());
DictElement* e = nullptr;
CCDICT_FOREACH(dict, e)
{
static_cast<Node*>(e->getObject())->setTag(100);
}
CC_PROFILER_STOP(this->profilerName());
} } ,
};
for (const auto& func : testFunctions)
{
_testFunctions.push_back(func);
}
}
std::string DictionaryIntKeyPerfTest::title() const
{
return "Dictionary Integer Key Perf test";
}
std::string DictionaryIntKeyPerfTest::subtitle() const
{
return "Test `setObject`, See console";
}
///----------------------------------------
void runContainerPerformanceTest()
{
auto scene = createFunctions[g_curCase]();
scene->initWithQuantityOfNodes(kNodesIncrease);
Director::getInstance()->replaceScene(scene);
}