[GeekBand][C++面向对象高级编程]第一周学习笔记

头文件编写时的注意事项:

1. Header(头文件)的布局

#ifndef __xxxx__
#define __xxxx__

// 前置声明
// 类声明
// 类定义

#endif

2. 同一功能在不同情况下的实现方式

通过函数重载,主要体现在构造函数和各种运算符重载上。

3. 数据常被放在private区

4. 常量成员函数需要加const限定符

例:

    double real()   const   { return re; }

5. 尽可能pass by reference

6. 尽可能return by reference

7. 友元函数效率较调用函数高

8. 相同class的各个object互为友元

例:

class complex
{
public:
    complex(double r = 0, double i = 0)
        :re(r), im(i)
    {}

    double func(const complex& c)
    {
        return c.re + c.im;
    }
private:
    double re, im;
};
complex c1(2, 1);
complex c2;

c2.func(c1);

9. 操作符重载尽量定义在类外

防止使用受限

10 参数列表中不变的参数应加const

附录:

以下是在第一周的学习中写出的complex.h头文件

#ifndef __MYCOMPLEX__
#define __MYCOMPLEX__
#include 

class ostream;
class complex;

inline double real(const complex&);
inline double imag(const complex&);
inline complex& __doapl(complex*, const complex&);
inline complex& __doami(complex*, const complex&);
inline complex& __doaml(complex*, const complex&);

class complex
{
public:
    complex(double r = 0, double i = 0)
        : re(r), im(i)
    {}
    complex& operator +=(const complex&);
    complex& operator -=(const complex&);
    complex& operator *=(const complex&);
    complex& operator /=(const complex&);
    double real()   const   { return re; }
    double imag()   const   { return im; }

private:
    double re, im;

    friend complex& __doapl(complex*, const complex&);
    friend complex& __doami(complex*, const complex&);
    friend complex& __doaml(complex*, const complex&);

    friend double real(const complex&);
    friend double imag(const complex&);
};

inline double real(const complex& c){ return c.re; }
inline double imag(const complex& c){ return c.im; }

inline complex& __doapl(complex* ths, const complex& r)
{
    ths->re += r.re;
    ths->im += r.im;
    return *ths;
}

inline complex& __doami(complex* ths, const complex& r)
{
    ths->re -= r.re;
    ths->im -= r.im;
    return *ths;
}

inline complex& __doaml(complex* ths, const complex& r)
{
    ths->re = ths->re * r.re - ths->im * r.im;
    ths->im = ths->re * r.im + ths->im * r.re;
    return *ths;
}

inline complex& complex::operator +=(const complex& r)
{
    return __doapl(this, r);
}

inline complex operator +(const complex& l, const complex& r)
{
    return complex(real(l) + real(r), imag(l) + imag(r));
}

inline complex operator +(const complex& l, const double& r)
{
    return complex(real(l) + r, imag(l));
}

inline complex operator +(const double& l, const complex& r)
{
    return complex(l + real(r), imag(r));
}

inline complex operator -(const complex& l, const complex& r)
{
    return complex(real(l) - real(r), imag(l) - imag(r));
}

inline complex operator -(const complex& l, const double& r)
{
    return complex(real(l) - r, imag(l));
}

inline complex operator -(const double& l, const complex& r)
{
    return complex(l - real(r), -imag(r));
}

inline complex operator *(const complex& l, const complex& r)
{
    return complex(real(l) * real(r) - imag(l) * imag(r), real(l) * imag(r) + imag(l) * real(r));
}

inline complex operator *(const complex& l, const double& r)
{
    return complex(real(l) * r, imag(l) * r);
}

inline complex operator *(const double& l, const complex& r)
{
    return complex(l*real(r), l*imag(r));
}

inline complex operator /(const complex& l, const double& r)
{
    return complex(real(l) / r, imag(l) / r);
}

inline complex operator +(const complex& c)
{
    return c;
}

inline complex operator -(const complex& c)
{
    return complex(-real(c), -imag(c));
}

inline std::ostream& operator <<(std::ostream& os, const complex& c)
{
    return os << '('<

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