1.目的:
代码语言:javascript复制/*//修改--5-16-关于球体表面积和体积公式错误*/
代码语言:javascript复制/*设计一个计算图形面积的类库。
类库的顶层是一个抽象类,并且提供三个纯虚函数;显示数据成员、返回面积和返回体积。
Class Shape
{
virtual void showData()=0;
virtual double reArea()=0;
virtual double reVolume()=0;
};
第二层由Shape类派生TwoDimShape(二维图形)和ThreeShape(三维图形),
它们增加了有关的数据成员,但没有成员函数的实现。
第三层派生具体的图形类。TwoDimShape类派生Circle(圆)、Elipse(椭圆)、
Rectangle(矩形)和Triangle(三角形)等类。
ThreeShape类派生Ball(球体)、Cylinder(圆柱体)、
RectangularParallelepiped(长方体)等类。
在主函数测试中使用多态方式调用不同对象的求值函数。
*/
2.代码如下:
代码语言:javascript复制/*
*This file contains code for C 6th experiment
*By LZH
*/
#include<iostream>
#include<string>
using namespace std;
const double PI = acos(-1.0);
// Definition of Shape class and related functions goes here
class Shape
{
virtual void showData() = 0;
virtual double reArea() = 0;
virtual double reVolume() = 0;
};
class TwoDimShape :virtual public Shape {
protected:
double x, y;
public:
virtual void showData() {
return ;
}
virtual double reArea() {
return 0;
}
virtual double reVolume() {
return 0;
}
};
class ThreeShape :virtual public Shape {
protected:
double x, y, z;
public:
virtual void showData() {
return;
}
virtual double reArea() {
return 0;
}
virtual double reVolume() {
return 0;
}
};
class Circle :virtual public TwoDimShape {
public:
Circle(double tp) {
x = tp;
}
Circle(Circle &asp) {
x = asp.x;
}
~Circle()
{
}
void showData() {
cout << "This is a Circle:" << endl
<< "The radiation:" << x << endl
<< "The area:" << reArea() << endl;
}
double reArea() {
return PI*x*x;
}
};
class Elipse :virtual public TwoDimShape {
public:
Elipse(double ta, double tb) {
x = ta, y = tb;
}
Elipse(Elipse &asp) {
x = asp.x, y = asp.y;
}
~Elipse() {
}
void showData() {
cout << "This is a Elipse:" << endl
<< "The long axis:" << x << endl
<< "The short axis:" << y << endl
<< "The area:" << reArea() << endl;
}
double reArea() {
return PI*x*y;
}
};
class Rectangle :virtual public TwoDimShape {
public:
Rectangle(double ta, double tb) {
x = ta, y = tb;
}
Rectangle(Rectangle &asp) {
x = asp.x, y = asp.y;
}
~Rectangle() {
}
void showData() {
cout << "This is a Rectangle:" << endl
<< "The long axis:" << x << endl
<< "The short axis:" << y << endl
<< "The area:" << reArea() << endl;
}
double reArea() {
return x*y;
}
};
class Triangle :virtual public TwoDimShape {
public:
Triangle(double ta, double tb) {
x = ta, y = tb;
}
Triangle(Triangle &asp) {
x = asp.x, y = asp.y;
}
~Triangle() {
}
void showData() {
cout << "This is a Triangle:" << endl
<< "The base length:" << x << endl
<< "The height :" << y << endl
<< "The area:" << reArea() << endl;
}
double reArea() {
return x*y / 2.0;
}
};
class Ball :virtual public ThreeShape {
public:
Ball(double ta) {
x = ta;
}
Ball(Ball &asp) {
x = asp.x;
}
~Ball() {
}
void showData() {
cout << "This is a Ball:" << endl
<< "The radiation:" << x << endl
<< "The surface area:" << reArea() << endl;
}
double reVolume() {
return PI*pow(x, 3)*4.0 / 3.0;
}
double reArea() {
return PI*x*x;
}
};
class Cylinder :virtual public ThreeShape {
public:
/*
V=PI*r*r*h S=2*PI*r r*h
*/
Cylinder(double ta, double tb) {
x = ta, y = tb;
}
Cylinder(Cylinder &asp) {
x = asp.x, y = asp.y;
}
~Cylinder() {
}
void showData() {
cout << "This is a Cylinder:" << endl
<< "The radiation:" << x << endl
<< "The height:" << y << endl
<< "The surface area:" << reArea() << endl;
}
double reArea() {
return 2 * PI*x x*y;
}
double reVolume() {
return PI*x*x*y;
}
};
//RectangularParallelepiped
class cuboid :virtual public ThreeShape {
public:
cuboid(double ta, double tb, double tc) {
x = ta, y = tb, z = tc;
}
cuboid(cuboid &asp) {
x = asp.x, y = asp.y, z = asp.z;
}
void showData() {
cout << "This is a cuboid:" << endl
<< "The length:" << x << endl
<< "The width:" << y << endl
<< "The height" << z << endl
<< "The surface area:" << reArea() << endl;
}
double reArea() {
return 2 * (x*y x*z y*z);
}
double reVolume() {
return x*y*z;
}
};
int main(void) {
TwoDimShape a;
ThreeShape b;
TwoDimShape *p = &a;
ThreeShape *w = &b;
Circle t1(1.0);
Elipse t2(1.0, 2.0);
Rectangle t3(10.0,2.3);
Triangle t4(4.0, 5.0);
Ball t5(2.33333);
Cylinder t6(4.5, 65.0);
cuboid t7(132, 5,156);
p = &t1;
p->showData();
p = &t2;
p->showData();
p = &t3;
p->showData();
p = &t4;
p->showData();
w = &t5;
w->showData();
w = &t6;
w->showData();
w = &t7;
w->showData();
return 0;
}
3 . 测试截图
4.关于多态性
代码语言:javascript复制 在这个例子中我用了基类指针指向基类,这个不难理解,在类型兼容规则下,
指向基类的指针可以隐式的转换成派生类的指针。
这是最常见的关于多态的用法,利用该指针指向任意一个子类对象,
就可以调用相应的虚函数,指向的子类的不同,实现的方法也就不同。
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