類類型與其他類型的轉換

類型學轉換成其他類型有兩種方式：

    一、用構造函數，将基本類型轉為構造類型

        1.用初始化的形式；

class X

{

public:

X(int n);

~X();

};

void f(X arg);

...

int main(){

    X(3);

    X=a;//a隐式調用構造函數X（int n）;

    f(5);//把5調用構造函數X(int n)轉為X arg.然後調用構造函數。

    return 0;

}

    二、因為帶參數的構造函數無法将類類型轉為基本類型，是以設定類型轉換函數

#include<iostream>

using namespace std;

class rational

rational();

rational(int n,int d=1);

rational(double x);//将double類型轉換成類類型。

operator double();//将類類型轉變為double類型，且注意其沒有傳回值。

friend rational& operator+(const rational&, const rational&);

friend ostream & operator <<( ostream& os, const rational&);

//注意這裡輸出類ostream前面不可以加const因為在輸出流經過os時會修改os

        //且類型一定是引用類型因為必須用cout對象本身

~rational();

private:

int numerator;

int denominator;

int gcd(int a, int b);

rational::rational()

numerator = 0;

denominator = 0;

rational::rational(int n,int d){

int g;

if (d == 1){

numerator = n;

denominator = d;

else{

g = gcd(n, d);//求分子分母的最大公約數

numerator = n / g;//把分母化成最簡；

denominator = d / g;

rational::rational(double x){

int a, b, g;

a = int(x*1e5);//x乘10的5次方。把小數變成整數

b = int(1e5);

g = gcd(a, b);

numerator = a / g;

denominator = b / g;

rational::~rational()

rational::operator double(){//雖然沒有傳回值依然要傳回double類型的數。

return double(numerator) / double(denominator);

rational& operator +(const rational& a, const rational& b){

rational c;

int d = a.denominator*b.denominator;

int n = a.numerator*b.denominator + a.denominator*b.numerator;

int g = gcd(n, d);

c.denominator = d / g;//将分子分母化為最簡

c.numerator = n / g;

return c;//傳回類型是引用還是類類型都可以。

ostream& operator <<(ostream& os, const rational& a){

os << a.numerator;

if (a.denominator != 1){

os << "/" << a.denominator;

return os;//這裡傳回os類型的引用目的是連續使用cout<<"ss"<<"sss";

int gcd(int n, int d){//求最大公約數的算法

if (d == 0) return n;

return gcd(d, n%d);

rational a(2, 4);

rational b = 0.3;

rational c = a + b;

cout << double(a) << "+" << double(b)<<"="<<double(c)<<endl;

//将類類型對象a,b,c轉換成double類型。

cout << a << "+" << b << "=" << c << endl;

double x = b;

c = x + 1 + 0.6;

cout << x << "+" << 1 << "+" << 0.6 << "=" << c << endl;

cout << rational(x) << "+" << rational(1) << "+" << rational(0.6) << "=" << c << endl;

system("pause");

本文轉自 神迹難覓 51CTO部落格，原文連結：http://blog.51cto.com/ji123/1915870，如需轉載請自行聯系原作者