北京时间昨天下午，温40度。中午12：16我来到了篮球场点。思维1分钟决定开站

转球：

我和另一个3队友半开始，

我手中的球的那一刻我突然火爆球不稳，突然问，淡淡的味道橡胶和烧烤的味道混合。

个腾空跳投，

球---------爆炸了。。。。。。

。

。

听新闻说昨天在路上都是 “熟人”

一位老大爷不慎被车刮倒了，大爷二话没说立刻爬了起来，围观众人议论纷纷：

“大爷人不错”，“大爷素养真高”。“大爷身体可真好”

大爷说：

“快拉 秦皇岛吧。烫腚”。

预计昨天又有不少沿街乞讨人士和流浪狗失去生命（咋没人管管）

------------------------------------------------切割线---------------------------------------------------

在做Cocos2d-x2.0人的人们预计正在使用CCArray,CCDirectionary,CCDouble,CCFloat这些正搞得非常爽，但不得不说

它们在V3.0中不用了。

看下3.0中的数据结合类Vector,Map,Value(建议大家自行阅读源代码，本文仅仅介绍怎样使用,关于引用计数的概念推荐大家看我的视频)。

下面案例来自TestCpp:

void TemplateVectorTest::onEnter()

{

UnitTestDemo::onEnter();

Vector<Node*> vec;//定义一个向量。事实上是对stl Vector的封装，仅仅是增加了对象的内存计数管理

CCASSERT(vec.empty(),
"");

CCASSERT(vec.capacity() ==
0, "");

CCASSERT(vec.size() ==
0, "");

CCASSERT(vec.max_size() >
0, "");

auto node1 = Node::create();

node1->setTag(1);

vec.pushBack(node1);//在向量加入一个元素

CCASSERT(node1->getReferenceCount() ==
2, "");

auto node2 = Node::create();

node2->setTag(2);

  vec.pushBack(node2);//加入元素 编号会从0開始

CCASSERT(vec.getIndex(node1) ==
0, "");

CCASSERT(vec.getIndex(node2) ==
1, "");

auto node3 = Node::create();

node3->setTag(3);

vec.insert(1, node3); //插入元素

CCASSERT(vec.at(0)->getTag() ==
1, "");

CCASSERT(vec.at(1)->getTag() ==
3, "");

CCASSERT(vec.at(2)->getTag() ==
2, "");

// Test copy constructor

Vector<Node*> vec2(vec);  //复制一个向量

    CCASSERT(vec2.size() == vec.size(),
"");

ssize_t size = vec.size();

for (ssize_t i =
0; i < size; ++i)

{

CCASSERT(vec2.at(i) == vec.at(i),
"");

CCASSERT(vec.at(i)->getReferenceCount() ==
3, "");

CCASSERT(vec2.at(i)->getReferenceCount() ==
3, "");

}

// Test copy assignment operator

Vector<Node*> vec3;

vec3 = vec2;

CCASSERT(vec3.size() == vec2.size(),
"");

size = vec3.size();

for (ssize_t i =
0; i < size; ++i)

{

CCASSERT(vec3.at(i) == vec2.at(i),
"");

CCASSERT(vec3.at(i)->getReferenceCount() ==
4, "");

CCASSERT(vec2.at(i)->getReferenceCount() ==
4, "");

CCASSERT(vec.at(i)->getReferenceCount() ==
4, "");

}

// Test move constructor （Lambda 表达式，定义一个函数用于创建一个Vector,关于Lambda建议看我的视频)

auto createVector = [this](){

Vector<Node*> ret;

for (int i =
0; i < 20; i++)

{

ret.pushBack(Node::create());

}

int j = 1000;

for (auto& child : ret)

{

child->setTag(j++);

}

return ret;

};

Vector<Node*> vec4(createVector());

for (const
auto& child : vec4)

{

CC_UNUSED_PARAM(child);

CCASSERT(child->getReferenceCount() ==
2, "");

}

// Test init Vector<T> with capacity

Vector<Node*> vec5(10);

CCASSERT(vec5.capacity() ==
10, "");

vec5.reserve(20);

CCASSERT(vec5.capacity() ==
20, "");

CCASSERT(vec5.size() ==
0, "");

CCASSERT(vec5.empty(),
"");

auto toRemovedNode = Node::create();

vec5.pushBack(toRemovedNode);

CCASSERT(toRemovedNode->getReferenceCount() ==
2, "");

// Test move assignment operator

vec5 = createVector();

CCASSERT(toRemovedNode->getReferenceCount() ==
1, "");

CCASSERT(vec5.size() ==
20, "size should be 20");

    for (const
auto& child : vec5)    //这也是C++11新特性，好用吧，不像STL用迭代器那么麻烦

{

CC_UNUSED_PARAM(child);

CCASSERT(child->getReferenceCount() ==
2, "");

}

// Test Vector<T>::find

CCASSERT(vec.find(node3) == (vec.begin() +
1), "");

CCASSERT(std::find(std::begin(vec),
std::end(vec), node2) == (vec.begin() +
2), "");

CCASSERT(vec.front()->getTag() ==
1, "");

CCASSERT(vec.back()->getTag() ==
2, "");

CCASSERT(vec.getRandomObject(),
"");

CCASSERT(!vec.contains(Node::create()),
"");

CCASSERT(vec.contains(node1),
"");

CCASSERT(vec.contains(node2),
"");

CCASSERT(vec.contains(node3),
"");

CCASSERT(vec.equals(vec2),
"");

CCASSERT(vec.equals(vec3),
"");

// Insert

vec5.insert(2, node1);

CCASSERT(vec5.at(2)->getTag() ==
1, "");

CCASSERT(vec5.size() ==
21, "");

vec5.back()->setTag(100);

vec5.popBack();

CCASSERT(vec5.size() ==
20, "");

CCASSERT(vec5.back()->getTag() !=
100, "");

// Erase and clear

Vector<Node*> vec6 = createVector();

Vector<Node*> vec7 = vec6; 
// Copy for check

CCASSERT(vec6.size() ==
20, "");

vec6.erase(vec6.begin() +
1);  //

CCASSERT(vec6.size() ==
19, "");

CCASSERT((*(vec6.begin() +
1))->getTag() ==
1002, "");

vec6.erase(vec6.begin() +
2, vec6.begin() +
10);

CCASSERT(vec6.size() ==
11, "");

CCASSERT(vec6.at(0)->getTag() ==
1000, "");

CCASSERT(vec6.at(1)->getTag() ==
1002, "");

CCASSERT(vec6.at(2)->getTag() ==
1011, "");

CCASSERT(vec6.at(3)->getTag() ==
1012, "");

vec6.erase(3);

CCASSERT(vec6.at(3)->getTag() ==
1013, "");

vec6.eraseObject(vec6.at(2));

CCASSERT(vec6.at(2)->getTag() ==
1013, "");

vec6.clear();

auto objA =
Node::create();
// retain count is 1

auto objB = Node::create();

auto objC = Node::create();

{

Vector<Node*> array1;

Vector<Node*> array2;

// push back objA 3 times

array1.pushBack(objA);
// retain count is 2

array1.pushBack(objA);
// retain count is 3

array1.pushBack(objA);
// retain count is 4

array2.pushBack(objA);
// retain count is 5

array2.pushBack(objB);

array2.pushBack(objC);

for (auto obj : array1) {

array2.eraseObject(obj);

}

CCASSERT(objA->getReferenceCount() ==
4, "");

}

CCASSERT(objA->getReferenceCount() ==
1, "");

{    //这是一个代码块。出了块引用计数会恢复。是一个AutoReleasePool

        Vector<Node*> array1;

// push back objA 3 times

array1.pushBack(objA);
// retain count is 2

array1.pushBack(objA);
// retain count is 3

array1.pushBack(objA);
// retain count is 4

CCASSERT(objA->getReferenceCount() ==
4, "");

array1.eraseObject(objA,
true); // Remove all occurrences in the Vector.

CCASSERT(objA->getReferenceCount() ==
1, "");

array1.pushBack(objA);
// retain count is 2

array1.pushBack(objA);
// retain count is 3

array1.pushBack(objA);
// retain count is 4

array1.eraseObject(objA,
false);

CCASSERT(objA->getReferenceCount() ==
3, "");
// Only remove the first occurrence in the Vector.

}

// Check the retain count in vec7

CCASSERT(vec7.size() ==
20, "");

for (const
auto& child : vec7)

{

CC_UNUSED_PARAM(child);

CCASSERT(child->getReferenceCount() ==
2, "");

}

// Sort  排序。结合Lambda

Vector<Node*> vecForSort = createVector();

std::sort(vecForSort.begin(), vecForSort.end(), [](Node* a,
Node* b){

return a->getTag() >= b->getTag();

});

for (int i =
0; i < 20; ++i)

{

CCASSERT(vecForSort.at(i)->getTag() -
1000 == (19 - i),
"");

}

// Reverse

vecForSort.reverse();

for (int i =
0; i < 20; ++i)

{

CCASSERT(vecForSort.at(i)->getTag() -
1000 == i, "");

}

// Swap

Vector<Node*> vecForSwap = createVector();

vecForSwap.swap(2,
4);

CCASSERT(vecForSwap.at(2)->getTag() ==
1004, "");

CCASSERT(vecForSwap.at(4)->getTag() ==
1002, "");

vecForSwap.swap(vecForSwap.at(2), vecForSwap.at(4));

CCASSERT(vecForSwap.at(2)->getTag() ==
1002, "");

CCASSERT(vecForSwap.at(4)->getTag() ==
1004, "");

// shrinkToFit

Vector<Node*> vecForShrink = createVector();

vecForShrink.reserve(100);

CCASSERT(vecForShrink.capacity() ==
100, "");

vecForShrink.pushBack(Node::create());

vecForShrink.shrinkToFit();

CCASSERT(vecForShrink.capacity() ==
21, "");

// get random object

// Set the seed by time

srand((unsigned)time(nullptr));

Vector<Node*> vecForRandom = createVector();

log("<--- begin ---->");

for (int i =
0; i < vecForRandom.size(); ++i)

{

log("Vector: random object tag = %d", vecForRandom.getRandomObject()->getTag());

}

log("<---- end  ---->");

// Self assignment

Vector<Node*> vecSelfAssign = createVector();

vecSelfAssign = vecSelfAssign;

CCASSERT(vecSelfAssign.size() ==
20, "");

for (const
auto& child : vecSelfAssign)

{

CC_UNUSED_PARAM(child);

CCASSERT(child->getReferenceCount() ==
2, "");

}

vecSelfAssign = std::move(vecSelfAssign);

CCASSERT(vecSelfAssign.size() ==
20, "");

for (const
auto& child : vecSelfAssign)

{

CC_UNUSED_PARAM(child);

CCASSERT(child->getReferenceCount() ==
2, "");

}

// const at

Vector<Node*> vecConstAt = createVector();

constFunc(vecConstAt);

}

//---------------------------下面是Map的使用-----------------------------------

void TemplateMapTest::onEnter()

{

UnitTestDemo::onEnter();

auto createMap = [this](){

Map<std::string,
Node*> ret;

for (int i =
0; i < 20; ++i)

{

auto node = Node::create();

node->setTag(1000 + i);

ret.insert(StringUtils::toString(i), node);

}

return ret;

};

// Default constructor

Map<std::string,
Node*> map1;

CCASSERT(map1.empty(),
"");

CCASSERT(map1.size() ==
0, "");

CCASSERT(map1.keys().empty(),
"");

CCASSERT(map1.keys(Node::create()).empty(),
"");

// Move constructor

Map<std::string,
Node*> map2 = createMap();

for (const
auto& e : map2)

{

CC_UNUSED_PARAM(e);

CCASSERT(e.second->getReferenceCount() ==
2, "");

}

// Copy constructor

Map<std::string,
Node*> map3(map2);

for (const
auto& e : map3)

{

CC_UNUSED_PARAM(e);

CCASSERT(e.second->getReferenceCount() ==
3, "");

}

// Move assignment operator

Map<std::string,
Node*> map4;

auto unusedNode = Node::create();

map4.insert("unused",unusedNode);

map4 = createMap();

CCASSERT(unusedNode->getReferenceCount() ==
1, "");

for (const
auto& e : map4)

{

CC_UNUSED_PARAM(e);

CCASSERT(e.second->getReferenceCount() ==
2, "");

}

// Copy assignment operator

Map<std::string,
Node*> map5;

map5 = map4;

for (const
auto& e : map5)

{

CC_UNUSED_PARAM(e);

CCASSERT(e.second->getReferenceCount() ==
3, "");

}

// Check size

CCASSERT(map4.size() == map5.size(),
"");

for (const
auto& e : map4)

{

CC_UNUSED_PARAM(e);

CCASSERT(e.second == map5.find(e.first)->second,
"");

}

// bucket_count, bucket_size(n), bucket

log("--------------");

log("bucket_count = %d",
static_cast<int>(map4.bucketCount()));

log("size = %d",
static_cast<int>(map4.size()));

for (int i =
0; i < map4.bucketCount(); ++i)

{

log("bucket_size(%d) = %d", i,
static_cast<int>(map4.bucketSize(i)));

}

for (const
auto& e : map4)

{

log("bucket(\"%s\"), bucket index = %d", e.first.c_str(),
static_cast<int>(map4.bucket(e.first)));

}

log("----- all keys---------");

// keys and at

auto keys = map4.keys();

for (const
auto& key : keys)

{

log("key = %s", key.c_str());

}

auto node10Key = map4.at("10");

map4.insert("100", node10Key);

map4.insert("101", node10Key);

map4.insert("102", node10Key);

log("------ keys for object --------");

auto keysForObject = map4.keys(node10Key);

for (const
auto& key : keysForObject)

{

log("key = %s", key.c_str());

}

log("--------------");

// at in const function

constFunc(map4);

// find

auto nodeToFind = map4.find("10");

CC_UNUSED_PARAM(nodeToFind);

CCASSERT(nodeToFind->second->getTag() ==
1010, "");

// insert

Map<std::string,
Node*> map6;

auto node1 = Node::create();

node1->setTag(101);

auto node2 = Node::create();

node2->setTag(102);

auto node3 = Node::create();

node3->setTag(103);

map6.insert("insert01", node1);

map6.insert("insert02", node2);

map6.insert("insert03", node3);

CCASSERT(node1->getReferenceCount() ==
2, "");

CCASSERT(node2->getReferenceCount() ==
2, "");

CCASSERT(node3->getReferenceCount() ==
2, "");

CCASSERT(map6.at("insert01") == node1,
"");

CCASSERT(map6.at("insert02") == node2,
"");

CCASSERT(map6.at("insert03") == node3,
"");

// erase

Map<std::string,
Node*> mapForErase = createMap();

mapForErase.erase(mapForErase.find("9"));

CCASSERT(mapForErase.find("9") == mapForErase.end(),
"");

CCASSERT(mapForErase.size() ==
19, "");

mapForErase.erase("7");

CCASSERT(mapForErase.find("7") == mapForErase.end(),
"");

CCASSERT(mapForErase.size() ==
18, "");

std::vector<std::string> itemsToRemove;

itemsToRemove.push_back("2");

itemsToRemove.push_back("3");

itemsToRemove.push_back("4");

mapForErase.erase(itemsToRemove);

CCASSERT(mapForErase.size() ==
15, "");

// clear

Map<std::string,
Node*> mapForClear = createMap();

auto mapForClearCopy = mapForClear;

mapForClear.clear();

for (const
auto& e : mapForClearCopy)

{

CC_UNUSED_PARAM(e);

CCASSERT(e.second->getReferenceCount() ==
2, "");

}

// get random object

// Set the seed by time

srand((unsigned)time(nullptr));

Map<std::string,
Node*> mapForRandom = createMap();

log("<--- begin ---->");

for (int i =
0; i < mapForRandom.size(); ++i)

{

log("Map: random object tag = %d", mapForRandom.getRandomObject()->getTag());

}

log("<---- end  ---->");

// Self assignment

Map<std::string,
Node*> mapForSelfAssign = createMap();

mapForSelfAssign = mapForSelfAssign;

CCASSERT(mapForSelfAssign.size() ==
20, "");

for (const
auto& e : mapForSelfAssign)

{

CC_UNUSED_PARAM(e);

CCASSERT(e.second->getReferenceCount() ==
2, "");

}

mapForSelfAssign = std::move(mapForSelfAssign);

CCASSERT(mapForSelfAssign.size() ==
20, "");

for (const
auto& e : mapForSelfAssign)

{

CC_UNUSED_PARAM(e);

CCASSERT(e.second->getReferenceCount() ==
2, "");

}

}

//--------------------------下面是Value的使用，它完毕基本数据类型到对象的包装--------

void ValueTest::onEnter()

{

UnitTestDemo::onEnter();

Value v1;

CCASSERT(v1.getType() ==
Value::Type::NONE,
"");

CCASSERT(v1.isNull(),
"");

Value v2(100);

CCASSERT(v2.getType() ==
Value::Type::INTEGER,
"");

CCASSERT(!v2.isNull(),
"");

Value v3(101.4f);

CCASSERT(v3.getType() ==
Value::Type::FLOAT,
"");

CCASSERT(!v3.isNull(),
"");

Value v4(106.1);

CCASSERT(v4.getType() ==
Value::Type::DOUBLE,
"");

CCASSERT(!v4.isNull(),
"");

unsigned char byte =
50;

Value v5(byte);

CCASSERT(v5.getType() ==
Value::Type::BYTE,
"");

CCASSERT(!v5.isNull(),
"");

Value v6(true);

CCASSERT(v6.getType() ==
Value::Type::BOOLEAN,
"");

CCASSERT(!v6.isNull(),
"");

Value v7("string");

CCASSERT(v7.getType() ==
Value::Type::STRING,
"");

CCASSERT(!v7.isNull(),
"");

Value v8(std::string("string2"));

CCASSERT(v8.getType() ==
Value::Type::STRING,
"");

CCASSERT(!v8.isNull(),
"");

auto createValueVector = [&](){

ValueVector ret;

ret.push_back(v1);

ret.push_back(v2);

ret.push_back(v3);

return ret;

};

Value v9(createValueVector());

CCASSERT(v9.getType() ==
Value::Type::VECTOR,
"");

CCASSERT(!v9.isNull(),
"");

auto createValueMap = [&](){

ValueMap ret;

ret["aaa"] = v1;

ret["bbb"] = v2;

ret["ccc"] = v3;

return ret;

};

Value v10(createValueMap());

CCASSERT(v10.getType() ==
Value::Type::MAP,
"");

CCASSERT(!v10.isNull(),
"");

auto createValueMapIntKey = [&](){

ValueMapIntKey ret;

ret[111] = v1;

ret[222] = v2;

ret[333] = v3;

return ret;

};

Value v11(createValueMapIntKey());

CCASSERT(v11.getType() ==
Value::Type::INT_KEY_MAP,
"");

CCASSERT(!v11.isNull(),
"");

}

----------------------------亲，学会了没----------------------------