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02-Note/读书笔记/深入应用C++11代码优化与工程级应用/深入应用c++11代码优化与工程级应用第十章.md Normal file
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### 使用c++11开发一个轻量级的AOP库
AOP把软件系统分为两个部分核心关注点和横切关注点。业务处理的主要流程是核心关注点与之关系不大的部分是横切关注点。横切关注点的一个特点是他们经常发生在核心关注点的多处而各处基本相似比如权限认证、日志、事务处理
```
#pragma once
#define HAS_MEMBER(member)\
template<typename T, typename... Args>struct has_member_##member\
{\
private:\
template<typename U> static auto Check(int) -> decltype(std::declval<U>().member(std::declval<Args>()...), std::true_type()); \
template<typename U> static std::false_type Check(...);\
public:\
enum{value = std::is_same<decltype(Check<T>(0)), std::true_type>::value};\
};\
HAS_MEMBER(Foo)
HAS_MEMBER(Before)
HAS_MEMBER(After)
#include <NonCopyable.hpp>
template<typename Func, typename... Args>
struct Aspect : NonCopyable
{
Aspect(Func&& f) : m_func(std::forward<Func>(f))
{
}
template<typename T>
typename std::enable_if<has_member_Before<T, Args...>::value&&has_member_After<T, Args...>::value>::type Invoke(Args&&... args, T&& aspect)
{
aspect.Before(std::forward<Args>(args)...);//核心逻辑之前的切面逻辑
m_func(std::forward<Args>(args)...);//核心逻辑
aspect.After(std::forward<Args>(args)...);//核心逻辑之后的切面逻辑
}
template<typename T>
typename std::enable_if<has_member_Before<T, Args...>::value&&!has_member_After<T, Args...>::value>::type Invoke(Args&&... args, T&& aspect)
{
aspect.Before(std::forward<Args>(args)...);//核心逻辑之前的切面逻辑
m_func(std::forward<Args>(args)...);//核心逻辑
}
template<typename T>
typename std::enable_if<!has_member_Before<T, Args...>::value&&has_member_After<T, Args...>::value>::type Invoke(Args&&... args, T&& aspect)
{
m_func(std::forward<Args>(args)...);//核心逻辑
aspect.After(std::forward<Args>(args)...);//核心逻辑之后的切面逻辑
}
template<typename Head, typename... Tail>
void Invoke(Args&&... args, Head&&headAspect, Tail&&... tailAspect)
{
headAspect.Before(std::forward<Args>(args)...);
Invoke(std::forward<Args>(args)..., std::forward<Tail>(tailAspect)...);
headAspect.After(std::forward<Args>(args)...);
}
private:
Func m_func; //被织入的函数
};
template<typename T> using identity_t = T;
//AOP的辅助函数简化调用
template<typename... AP, typename... Args, typename Func>
void Invoke(Func&&f, Args&&... args)
{
Aspect<Func, Args...> asp(std::forward<Func>(f));
asp.Invoke(std::forward<Args>(args)..., identity_t<AP>()...);
}
/*TEST CODE
struct TimeElapsedAspect
{
void Before(int i)
{
m_lastTime = m_t.elapsed();
}
void After(int i)
{
cout <<"time elapsed: "<< m_t.elapsed() - m_lastTime << endl;
}
private:
double m_lastTime;
Timer m_t;
};
struct LoggingAspect
{
void Before(int i)
{
std::cout <<"entering"<< std::endl;
}
void After(int i)
{
std::cout <<"leaving"<< std::endl;
}
};
void foo(int a)
{
cout <<"real HT function: "<<a<< endl;
}
int main()
{
Invoke<LoggingAspect, TimeElapsedAspect>(&foo, 1); //织入方法
cout <<"-----------------------"<< endl;
Invoke<TimeElapsedAspect, LoggingAspect>(&foo, 1);
return 0;
}
*/
```