C++智能指针编程实例

智能指针是C++11引入的重要特性，用于自动管理动态分配的内存，防止内存泄漏。下面介绍几种高级智能指针编程实例。

1. 共享所有权模式 (shared_ptr)

循环引用问题及解决方案

#include <memory>
#include <iostream>class B; // 前向声明class A {
public:std::shared_ptr<B> b_ptr;~A() { std::cout << "A destroyed\n"; }
};class B {
public:std::shared_ptr<A> a_ptr; // 这里会导致循环引用~B() { std::cout << "B destroyed\n"; }
};void circularReferenceProblem() {auto a = std::make_shared<A>();auto b = std::make_shared<B>();a->b_ptr = b;b->a_ptr = a; // 循环引用// 离开作用域时，a和b不会被销毁
}// 使用weak_ptr解决循环引用
class B_fixed;class A_fixed {
public:std::shared_ptr<B_fixed> b_ptr;~A_fixed() { std::cout << "A_fixed destroyed\n"; }
};class B_fixed {
public:std::weak_ptr<A_fixed> a_ptr; // 使用weak_ptr打破循环~B_fixed() { std::cout << "B_fixed destroyed\n"; }
};void circularReferenceSolution() {auto a = std::make_shared<A_fixed>();auto b = std::make_shared<B_fixed>();a->b_ptr = b;b->a_ptr = a; // weak_ptr不会增加引用计数// 离开作用域时，a和b会被正确销毁
}

2. 独占所有权模式 (unique_ptr)

工厂模式应用

#include <memory>
#include <iostream>class Base {
public:virtual void doSomething() = 0;virtual ~Base() = default;
};class Derived1 : public Base {
public:void doSomething() override {std::cout << "Derived1 doing something\n";}
};class Derived2 : public Base {
public:void doSomething() override {std::cout << "Derived2 doing something\n";}
};enum class ProductType { TYPE1, TYPE2 };std::unique_ptr<Base> createProduct(ProductType type) {switch(type) {case ProductType::TYPE1: return std::make_unique<Derived1>();case ProductType::TYPE2: return std::make_unique<Derived2>();default: return nullptr;}
}void factoryPatternExample() {auto product1 = createProduct(ProductType::TYPE1);auto product2 = createProduct(ProductType::TYPE2);product1->doSomething();product2->doSomething();// unique_ptr会自动管理内存
}

3. 弱引用模式 (weak_ptr)

缓存系统实现

#include <memory>
#include <unordered_map>
#include <iostream>class ExpensiveResource {
public:ExpensiveResource(int id) : id(id) {std::cout << "Creating resource " << id << "\n";}~ExpensiveResource() {std::cout << "Destroying resource " << id << "\n";}void use() {std::cout << "Using resource " << id << "\n";}
private:int id;
};class ResourceCache {
public:std::shared_ptr<ExpensiveResource> getResource(int id) {std::shared_ptr<ExpensiveResource> res;auto it = cache.find(id);if (it != cache.end()) {res = it->second.lock(); // 尝试从weak_ptr获取shared_ptr}if (!res) {res = std::make_shared<ExpensiveResource>(id);cache[id] = res; // 存储weak_ptr}return res;}size_t size() const { return cache.size(); }private:std::unordered_map<int, std::weak_ptr<ExpensiveResource>> cache;
};void cacheExample() {ResourceCache cache;{auto res1 = cache.getResource(1);auto res2 = cache.getResource(2);res1->use();res2->use();std::cout << "Cache size: " << cache.size() << "\n";}// 资源已释放，但缓存中仍有weak_ptrstd::cout << "Cache size after resources out of scope: " << cache.size() << "\n";// 再次获取资源1，会创建新实例auto res1_again = cache.getResource(1);res1_again->use();
}

4. 自定义删除器

文件指针管理

#include <memory>
#include <cstdio>void fileDeleter(FILE* file) {if (file) {std::fclose(file);std::cout << "File closed\n";}
}
void customDeleterExample() {// 使用自定义删除器管理文件指针std::unique_ptr<FILE, decltype(&fileDeleter)> filePtr(std::fopen("example.txt", "w"), &fileDeleter);if (filePtr) {std::fputs("Hello, world!", filePtr.get());}// 离开作用域时自动调用fileDeleter关闭文件
}

5. 多态与智能指针

多态对象管理

#include <memory>
#include <vector>
#include <iostream>class Animal {
public:virtual void speak() const = 0;virtual ~Animal() = default;
};class Dog : public Animal {
public:void speak() const override {std::cout << "Woof!\n";}
};class Cat : public Animal {
public:void speak() const override {std::cout << "Meow!\n";}
};void polymorphismExample() {std::vector<std::unique_ptr<Animal>> animals;animals.push_back(std::make_unique<Dog>());animals.push_back(std::make_unique<Cat>());for (const auto& animal : animals) {animal->speak();}// unique_ptr会自动调用正确的析构函数
}

6. 共享指针与弱指针结合

观察者模式实现

#include <memory>
#include <vector>
#include <iostream>
#include <algorithm>class Observer;class Subject {
public:void attach(std::weak_ptr<Observer> observer) {observers.push_back(observer);}void notifyAll();private:std::vector<std::weak_ptr<Observer>> observers;
};class Observer : public std::enable_shared_from_this<Observer> {
public:Observer(std::shared_ptr<Subject> subject) : subject(subject) {subject->attach(weak_from_this());}virtual void update() = 0;virtual ~Observer() = default;protected:std::shared_ptr<Subject> subject;
};void Subject::notifyAll() {for (auto it = observers.begin(); it != observers.end(); ) {if (auto observer = it->lock()) {observer->update();++it;} else {it = observers.erase(it);}}
}class ConcreteObserver : public Observer {
public:using Observer::Observer;void update() override {std::cout << "Observer notified!\n";}
};void observerPatternExample() {auto subject = std::make_shared<Subject>();auto observer1 = std::make_shared<ConcreteObserver>(subject);auto observer2 = std::make_shared<ConcreteObserver>(subject);subject->notifyAll();// 当observer超出作用域时，weak_ptr会自动失效
}

7. 智能指针与多线程

线程安全共享数据

#include <memory>
#include <thread>
#include <vector>
#include <mutex>
#include <iostream>class ThreadSafeData {
public:void add(int value) {std::lock_guard<std::mutex> lock(mutex);data.push_back(value);}void print() const {std::lock_guard<std::mutex> lock(mutex);for (int val : data) {std::cout << val << " ";}std::cout << "\n";}private:mutable std::mutex mutex;std::vector<int> data;
};void worker(std::shared_ptr<ThreadSafeData> data, int id) {for (int i = 0; i < 5; ++i) {data->add(id * 100 + i);}
}void threadSafeExample() {auto data = std::make_shared<ThreadSafeData>();std::vector<std::thread> threads;for (int i = 0; i < 3; ++i) {threads.emplace_back(worker, data, i + 1);}for (auto& t : threads) {t.join();}data->print();
}

8. 智能指针与STL容器

容器中存储智能指针

#include <memory>
#include <vector>
#include <iostream>class Item {
public:Item(int id) : id(id) {std::cout << "Item " << id << " created\n";}~Item() {std::cout << "Item " << id << " destroyed\n";}void use() {std::cout << "Using item " << id << "\n";}
private:int id;
};void stlContainerExample() {std::vector<std::shared_ptr<Item>> items;items.push_back(std::make_shared<Item>(1));items.push_back(std::make_shared<Item>(2));items.push_back(std::make_shared<Item>(3));// 复制智能指针会增加引用计数auto item2 = items[1];for (const auto& item : items) {item->use();}// 当items和item2超出作用域时，Item对象会被正确销毁
}

这些实例展示了C++智能指针在各种场景下的高级应用，包括内存管理、设计模式实现、多线程编程等。合理使用智能指针可以显著提高代码的安全性和可维护性。