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要求对象产生于 heap 中,意思是须要阻止 clients 不得应用 new 以外的办法产生对象。比拟好的办法就是将 destructor 定义为 private,因为 constructor 的类型太多,所以依然将 constructor 定义为 public。而后定义一个 pseudo destructor 来调用真正的 destructor。示例如下:
class HeapBasedObject { public: HeapBasedObject() {} void destroy() const { delete this;} // pseudo destructor private: ~HeapBasedObject() {} }; int main() { //HeapBasedObject h; HeapBasedObject *ph = new HeapBasedObject; //delete ph; ph->destroy();} -
禁止对象产生于 heap 中,则是要让 clients 不能应用 new 办法来产生对象。办法就是将 operator new 和 operator delete 定义为 private。示例如下:
#include <stdlib.h> class NoHeapBasedObject { public: NoHeapBasedObject() {} ~NoHeapBasedObject() {} private: static void *operator new(size_t size) {} static void operator delete(void *ptr) {}}; int main() { NoHeapBasedObject nh; static NoHeapBasedObject snh; //NoHeapBasedObject *pnh = new NoHeapBasedObject; } -
下例是实现的一个判断某个对象是否位于 heap 内的基类 HeapTracked。
#include <stdlib.h> #include <list> #include <iostream> class HeapTracked { public: class MissingAddress{}; // 地址异样 virtual ~HeapTracked() = 0; static void *operator new(size_t size); static void operator delete(void *ptr); bool isOnHeap() const; private: typedef const void* RawAddress; static std::list<RawAddress> addresses; }; std::list<HeapTracked::RawAddress> HeapTracked::addresses; HeapTracked::~HeapTracked() {} void* HeapTracked::operator new(size_t size) {void* memPtr = ::operator new(size); // 获得内存。addresses.push_front(memPtr); // 将其地址置于 list 头部。return memPtr; } void HeapTracked::operator delete(void *ptr) {auto it = std::find(addresses.begin(), addresses.end(), ptr); if (it != addresses.end()) {addresses.erase(it); ::operator delete(ptr); } else {throw MissingAddress(); } } bool HeapTracked::isOnHeap() const {auto rawAddress = dynamic_cast<const void*>(this); auto it = std::find(addresses.begin(), addresses.end(), rawAddress); return it != addresses.end();} class Object: public HeapTracked { public: Object() {} ~Object() {} }; int main() { Object o1; Object* o2 = new Object; std::cout << "o1 isOnHeap =" << o1.isOnHeap() << std::endl; std::cout << "o2 isOnHeap =" << o2->isOnHeap() << std::endl;}
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