第8章-任务4-实现分数类中的运算符重载(分数与整数运算)
【题目】在任务3的基础上拓展。分数类中的对象可以和整型数进行四则运算,且运算符合交换律。例如:CFraction a(1,3),b; int i=2; 可以完成b=a+i;。同样,可以完成i+a, 45+a, a*27, 5/a等各种运算。
参考:第8周-任务3-实现分数类中的运算符重载
【参考解答】——逐一写出来,需要的是耐心
#include
using namespace std;
class CFraction
{
private:
int nume; // 分子
int deno; // 分母
public:
CFraction(int nu=0,int de=1):nume(nu),deno(de){}
void simplify();
void display();
friend CFraction operator+(const CFraction &c1, const CFraction &c2); //两个分数相加,结果要化简
friend CFraction operator-(const CFraction &c1, const CFraction &c2); //两个分数相减,结果要化简
friend CFraction operator*(const CFraction &c1, const CFraction &c2); //两个分数相乘,结果要化简
friend CFraction operator/(const CFraction &c1, const CFraction &c2); //两个分数相除,结果要化简
friend CFraction operator+(const CFraction &c, int i);
friend CFraction operator+(int i, const CFraction &c );
friend CFraction operator-(const CFraction &c, int i);
friend CFraction operator-(int i, const CFraction &c );
friend CFraction operator*(const CFraction &c, int i);
friend CFraction operator*(int i, const CFraction &c );
friend CFraction operator/(const CFraction &c, int i);
friend CFraction operator/(int i, const CFraction &c );
CFraction operator+(); //取正一目运算
CFraction operator-(); //取反一目运算
friend bool operator>(const CFraction &c1, const CFraction &c2);
friend bool operator<(const CFraction &c1, const CFraction &c2);
friend bool operator==(const CFraction &c1, const CFraction &c2);
friend bool operator!=(const CFraction &c1, const CFraction &c2);
friend bool operator>=(const CFraction &c1, const CFraction &c2);
friend bool operator<=(const CFraction &c1, const CFraction &c2);
friend bool operator>(const CFraction &c, int i);
friend bool operator>(int i, const CFraction &c);
friend bool operator<(const CFraction &c, int i);
friend bool operator<(int i, const CFraction &c);
friend bool operator==(const CFraction &c, int i);
friend bool operator==(int i, const CFraction &c);
friend bool operator!=(const CFraction &c, int i);
friend bool operator!=(int i, const CFraction &c);
friend bool operator>=(const CFraction &c, int i);
friend bool operator>=(int i, const CFraction &c);
friend bool operator<=(const CFraction &c, int i);
friend bool operator<=(int i, const CFraction &c);
};
// 分数化简
void CFraction::simplify()
{
int m,n,r;
m=abs(deno);
n=abs(nume);
while(r=m%n) // 求m,n的最大公约数
{
m=n;
n=r;
}
deno/=n; // 化简
nume/=n;
if (deno<0) // 将分母转化为正数
{
deno=-deno;
nume=-nume;
}
}
//显示分数
void CFraction::display()
{
cout<<"("<(const CFraction &c1, const CFraction &c2)
{
int c1_nume,c2_nume,common_deno;
c1_nume=c1.nume*c2.deno; // 计算分数通分后的分子,同分母为c1.deno*c2.deno
c2_nume=c2.nume*c1.deno;
common_deno=c1.deno*c2.deno;
//if (c1_nume>c2_nume) return true; 无法应对common_deno<0的情形
//下面的语句更简练的一种写法if ((c1_nume-c2_nume)*common_deno>0) return true;
if (c1_nume>c2_nume&&common_deno>0||c1_numec2 || c1=(const CFraction &c1, const CFraction &c2)
{
if (c1c2) return false;
return true;
}
bool operator>(const CFraction &c, int i)
{
if(c.deno>0)
return c.nume>(i*c.deno);
else
return c.nume<(i*c.deno);
}
bool operator>(int i, const CFraction &c)
{
if(c.deno>0)
return (i*c.deno)>c.nume;
else
return (i*c.deno)0)
return c.nume<(i*c.deno);
else
return c.nume>(i*c.deno);
}
bool operator<(int i, const CFraction &c)
{
if(c.deno>0)
return (i*c.deno)c.nume;
}
bool operator==(const CFraction &c, int i)
{
return c.nume==(i*c.deno);
}
bool operator==(int i, const CFraction &c)
{
return c.nume==(i*c.deno);
}
bool operator!=(const CFraction &c, int i)
{
return c.nume!=(i*c.deno);
}
bool operator!=(int i, const CFraction &c)
{
return c.nume!=(i*c.deno);
}
bool operator>=(const CFraction &c, int i)
{
return !(c=(int i, const CFraction &c)
{
return !(ii);
}
bool operator<=(int i, const CFraction &c)
{
return !(i>c);
}
int main()
{
CFraction x(1,3),y(-5,10),s;
cout<<"分数x=1/3 y=-5/10"<2);
b=(2>c1);
system("pause");
return 0;
}