C++实现单例模式
转载一篇我自己写在CSDN上的一篇文章
单例模式
一、non thread safe
//-----------------------------------------------懒汉模式
//Singleton_lazy.h
#pragma once
#include <memory>
class Singleton_lazy{
private:
static std::unique_ptr<Singleton_lazy> instance;
Singleton_lazy() = default;
Singleton_lazy(const Singleton_lazy&) = delete;
Singleton_lazy& operator=(const Singleton_lazy&) = delete;
Singleton_lazy(const Singleton_lazy&&) = delete;
Singleton_lazy& operator=(const Singleton_lazy&&) = delete;
private://资源
int abc = 0
public:
static Singleton_lazy* getInstance(){
if(!instance)
instance.reset(new Singleton_lazy);
return instance.get();
}
int doSomething(){
return abc;
}
void doSomthingadd(){
//成员函数做事
abc++;
}
};
//Singleton_lazy.cpp
#include "Singleton_lazy.h"
std::unique_ptr<Singleton_lazy> Singleton_lazy::instance(nullptr);
//-----------------------------------------------饿汉模式
//Singleton_eager.h
#pragma once
#include <memory>
class Singleton_eager{
private:
static std::unique_ptr<Singleton_eager> instance;
Singleton_eager() = default;
Singleton_eager(const Singleton_eager&) = delete;
Singleton_eager& operator=(const Singleton_eager&) = delete;
Singleton_eager(const Singleton_eager&&) = delete;
Singleton_eager& operator=(const Singleton_eager&&) = delete;
private://资源
int abc = 0;
public:
static Singleton_eager* getInstance(){
return instance.get();
}
int doSomething(){
//成员函数做事
return abc;
}
void doSomthingadd(){
//成员函数做事
abc++;
}
};
//Singleton_lazy.cpp
#include "Singleton_eager.h"
std::unique_ptr<Singleton_eager> Singleton_eager::instance(new Singleton_eager);
二、thread safe
//-----------------------------------------------懒汉模式
//Singleton_lazy.h
#pragma once
#include <memory>
#include <mutex>
class Singleton_lazy{
private:
static std::unique_ptr<Singleton_lazy> instance;
static std::mutex mut;
static std::once_flag initFlag;
Singleton_lazy() = default;
Singleton_lazy(const Singleton_lazy&) = delete;
Singleton_lazy& operator=(const Singleton_lazy&) = delete;
Singleton_lazy(const Singleton_lazy&&) = delete;
Singleton_lazy& operator=(const Singleton_lazy&&) = delete;
private://资源
int abc = 0;
public:
static Singleton_lazy* getInstance(){
//getInstance本身是线程安全的,因为instance成员只读
//call once 保证单次初始化
std::call_once(initFlag, [&](){
instance.reset(new Singleton_lazy);
}
);
return instance.get();
}
int doSomething(){
std::lock_guard<std::mutex> lg(mut);
//成员函数做事
return abc;
}
void doSomthingadd(){
std::lock_guard<std::mutex> lg(mut);
//成员函数做事
abc++;
}
};
//Singleton_lazy.cpp
#include "Singleton_lazy.h"
std::unique_ptr<Singleton_lazy> Singleton_lazy::instance(nullptr);
std::mutex Singleton_lazy::mut;
std::once_flag Singleton_lazy::initFlag;
//-----------------------------------------------饿汉模式
//Singleton_eager.h
#pragma once
#include <memory>
#include <mutex>
class Singleton_eager{
private:
static std::unique_ptr<Singleton_eager> instance;
static std::mutex mut;
Singleton_eager() = default;
Singleton_eager(const Singleton_eager&) = delete;
Singleton_eager& operator=(const Singleton_eager&) = delete;
Singleton_eager(const Singleton_eager&&) = delete;
Singleton_eager& operator=(const Singleton_eager&&) = delete;
private://资源
int abc = 0;
public:
static Singleton_eager* getInstance(){
//getInstance本身是线程安全的,因为instance成员只读
//每有重复初始化的问题
return instance.get();
}
int doSomething(){
std::lock_guard<std::mutex> lg(mut);
//成员函数做事
return abc;
}
void doSomthingadd(){
std::lock_guard<std::mutex> lg(mut);
//成员函数做事
abc++;
}
};
//Singleton_eager.cpp
#include "Singleton_.h"
std::unique_ptr<Singleton_eager> Singleton_eager::instance(new Singleton_eager);
std::mutex Singleton_eager::mut;
#C++单例模式的实现示例#
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