C++实验二（继承与多态）

• 前言
• 一、继承
• • • 概念：
    • 三种继承方式：
    • 继承基类成员访问方式的变化：
  • 1.1 公有继承（public)
  • 1.2 保护继承（protected）
  • 1.3 私有继承（private）
• 二、友元类继承
• 三、多态性综合运用
• • 1.多态的实现机制
  • 2.C++的静多态和动态多态
  • 3.实验
  • • 3.1代码实现
    • CShape.h
    • CShape.cpp
    • main.cpp
    • 3.2 实验截图

继承是c++语言一个重要的机制，该机制自动地为一个类提供来自另一个类的操作和数据结构，这使得程序员只需在新类中定义已有的类中没有的成分来建立一个新类。

继承机制是面向对象程序设计使代码可以复用的最重要的手段，它允许程序员在保持原有的特性基础上进行扩展，增加功能，这样产生新的类，称作是派生类。继承呈现了面向对象程序设计的层析结构，体现了由简单到复杂的认知过程。继承是类设计层次的复用。

• 基类的私有成员，子类不可以访问
• 基类的保护成员，子类可以继承为自己的保护成员，在派生类可以访问，在外部不可以访问。
• 基类的公有成员，子类可以继承为自己的公有成员。在派生类可以访问，在外部也可以访问。

#include
#include
using namespace std;


class Student
{
public :
    Student(string s, int g,int a)
    {
        cout << "Constuct Student" << endl;
        name = s;
        grade = g;
        age = a;
    }
    void print()
    {
        cout << "Student:" << endl;
        cout << "name=" << name << endl;
        cout << "grade=" << grade< 
1.2 保护继承（protected） 
基类公有成员，子类中继承为自己的保护成员，在派生类可以访问，在外部不可以访问
 
基类保护成员，子类中继承为自己的保护成员，在派生类可以访问，在外部不可以访问
 
基类私有成员，子类一样不可以访问基类的私有成员。
 
#include
#include
using namespace std;


class Student
{
public :
    Student(string s, int g,int a)
    {
        cout << "Constuct Student" << endl;
        name = s;
        grade = g;
        age = a;
    }
    void print()
    {
        cout << "Student:" << endl;
        cout << "name=" << name << endl;
        cout << "grade=" << grade< 
1.3 私有继承（private） 
私有继承方式的，就是在继承时，把protected变成private，它需要注意的事项为：
 
（1） 基类公有成员，子类中继承为自己的私有成员，在派生类可以访问，在外部不可以访问。
 （2）. 基类保护成员，子类中继承为自己的私有成员，在派生类可以访问，在外部不可以访问。
 （3） 基类私有成员，子类一样不可以访问基类的私有成员。
 
二、友元类继承 
一个友元类的派生类，可以通过其基类接口去访问设置其基类为友元类的类的私有成员，也就是说一个类的友元类的派生类，某种意义上还是其友元类。
 
#include  
using namespace   std; 
class B; 
//声明B为A 的友元类
class A 
{ 
	int a; 
public: 
	A(int x=0) { a=x; } 
	friend class B; 
}; 
class B 
{ 
	int b; 
public: 
	void fun(A& ob){ cout << ob.a << endl;} 
}; 
 
class C:public B        
{ 
public: 
	//void fun2(A& ob){ cout < 
三、多态性综合运用 
1.多态的实现机制 
C++的多态就是基于继承的，多态的实现就是调用虚函数时发生的同名覆盖。当用基类的指针（或引用）指向派生类的对象时，通过该指针（或引用）调用虚方法是动态联编的过程。先找到对象前4个字节的虚函数指针（vbptr），通过vbptr找到虚函数表，虚函数表里有函数的入口地址。
 
2.C++的静多态和动态多态 
静多态是指函数的重载和模板
 动多态是指继承中，虚函数的同名覆盖方法
 
3.实验 
3.1代码实现 
CShape.h 
#pragma once
#ifndef CSHAPE_H
#define CSHAPE_H
#include
#include
using namespace std;

class CPoint;
class CRect;
class CShape
{
public:
	CShape();
	CShape(const CShape& shape);
	virtual ~CShape();  //虚函数
	virtual double GetArea() const;
	virtual bool ptIn(const CPoint& pt) const;
	virtual bool InRect(const CRect& rc) const;
	virtual void Draw() const;
	virtual void DrawColor();
	virtual CShape* Clone() const;
	virtual CShape& Move(int nOffsetX, int nOffsetY);
 
被virtual关键字修饰过的成员函数就是虚函数。多态是实现是依赖于虚函数来实现的，之所以虚函数可以分清楚当前调用的函数是基类的还是派生类的，主要在于基类和派生类分别有着自己的虚函数表，再调用虚函数时，它们是通过去虚函数表去对应的函数的。
 
protected:
	string m_sName;
};

class CPoint :public CShape {
public:
	int m_nPosX;
	int m_nPosY;
	CPoint() {
		m_nPosX = 0;
		m_nPosY = 0;
	}
	CPoint(int nPosX, int nPosY);
	CPoint(const CPoint& pt);
	virtual ~CPoint();
	double GetArea() const;
	bool ptIn(const CPoint& pt) const;
	bool InRect(const CRect& rc) const;
	void Draw() const;
	void DrawColor();
	CPoint* Clone() const;
	CPoint& Move(int nOffsetX, int nOffsetY);
};
class CTriangle :virtual public CShape {
public:
	CTriangle() {}
	CTriangle(const CPoint& pt1, const CPoint& pt2, const CPoint& pt3);
	CTriangle(const CTriangle& rc);
	CTriangle(const CPoint& pt);
	virtual ~CTriangle();
	double GetArea() const;
	bool ptIn(const CPoint& pt) const;
	bool InRect(const CRect& rc) const;
	void Draw() const;
	void DrawColor();
	CShape* Clone() const;
	CShape& Move(int nOffsetX, int nOffsetY);
	CPoint m_pts[3];
};

class CRect :virtual public CShape {
public:
	CRect() {}
	CRect(CPoint pt1, CPoint pt2);
	CRect(const CRect& rc);
	CRect(CPoint pt1);
	virtual ~CRect();
	double GetArea() const;
	bool ptIn(const CPoint& pt) const;
	bool InRect(const CRect& rc) const;
	void Draw() const;
	void DrawColor();
	CShape* Clone() const;
	CShape& Move(int nOffsetX, int nOffsetY);
	CPoint m_ptLT;
	CPoint m_ptBR;
};

class Comgraphics :public CRect, public CTriangle {
public:
	Comgraphics(const CRect& pt1);
	Comgraphics(const Comgraphics& rc);
	Comgraphics(const CPoint pt1);
	virtual ~Comgraphics();
	double GetArea() const;
	bool ptIn(const CPoint& pt) const;
	bool InRect(const CRect& rc) const;
	void Draw() const;
	void DrawColor();
	CShape* Clone() const;
	CShape& Move(int nOffsetX, int nOffsetY);
	CPoint m_pt1;
	CPoint m_pt2;

};
#endif
 
CShape.cpp 
#include "CShape.h"
#include "graphics.h"
#include 
using namespace std;
//CShape
CShape::CShape()
{
}
CShape::CShape(const CShape& shape) {
	m_sName = shape.m_sName;
}
CShape::~CShape()
{
}
double CShape::GetArea() const {
	return 0;
}
bool CShape::ptIn(const CPoint& pt) const {
	return false;
}
bool CShape::InRect(const CRect& rc) const {
	return false;
}
void CShape::Draw() const
{
}
void CShape::DrawColor()
{
}
CShape* CShape::Clone() const {
	return new CShape(*this);
}
CShape& CShape::Move(int nOffsetX, int nOffsetY) {
	return *this;
}

//CPoint
CPoint::CPoint(int nPosX, int nPosY) {
	m_nPosX = nPosX;
	m_nPosY = nPosY;
}
CPoint::CPoint(const CPoint& pt) {
	m_nPosX = pt.m_nPosX;
	m_nPosY = pt.m_nPosY;
}
CPoint::~CPoint() {
	//cout << "CPoint::~CPoint()n";
}
double CPoint::GetArea() const {
	return 0;
}
bool CPoint::ptIn(const CPoint& pt) const {
	return false;
}
bool CPoint::InRect(const CRect& rc) const {
	return rc.ptIn(*this);
}
void CPoint::Draw() const {
	circle(m_nPosX, m_nPosY, 2);
}
void CPoint::DrawColor()
{
}
CPoint* CPoint::Clone() const {
	return new CPoint(*this);
}
CPoint& CPoint::Move(int nOffsetX, int nOffsetY) {
	m_nPosX += nOffsetX;
	m_nPosY += nOffsetY;
	return *this;
}

//CTriangle
CTriangle::CTriangle(const CTriangle& tri) {
	for (int i = 0; i < 3; i++) {
		m_pts[i] = tri.m_pts[i];
	}
}
CTriangle::~CTriangle() {
	//cout << "CTriangle::~CTriangle()n";
}
CTriangle::CTriangle(const CPoint& pt1, const CPoint& pt2, const CPoint& pt3) {
	m_pts[0] = pt1;
	m_pts[1] = pt2;
	m_pts[2] = pt3;
}
CTriangle::CTriangle(const CPoint& pt)
{
	CPoint* pt1 = new CPoint(pt.m_nPosX + 100, pt.m_nPosY + 90);
	CPoint* pt2 = new CPoint(pt.m_nPosX, pt.m_nPosY + 90);
	m_pts[0] = pt;
	m_pts[1] = *pt1;
	m_pts[2] = *pt2;
}

CShape& CTriangle::Move(int nOffsetX, int nOffsetY) {
	for (int i = 0; i < 3; i++) {
		m_pts[i].Move(nOffsetX, nOffsetY);
	}
	return *this;
}
double CTriangle::GetArea() const {
	int x1, y1, x2, y2, x3, y3;
	x1 = m_pts[0].m_nPosX;
	y1 = m_pts[0].m_nPosY;
	x2 = m_pts[1].m_nPosX;
	y2 = m_pts[1].m_nPosY;
	x3 = m_pts[2].m_nPosX;
	y3 = m_pts[2].m_nPosY;

	double bottomLine = sqrt(pow(x1 - x2, 2) + pow(y1 - y2, 2));
	double verticalLine1 = abs((y1 - y2) * x3 - (x1 - x2) * y3 + (x1 - x2) * y2 - (y1 - y2) * x2);
	double verticalLine2 = sqrt(pow(y1 - y2, 2) + pow(x1 - x2, 2));
	double verticalLine = verticalLine1 / verticalLine2;

	return (verticalLine * bottomLine) / 2.0;
}
bool CTriangle::ptIn(const CPoint& pt) const {
	CTriangle c1 = CTriangle(m_pts[0], m_pts[1], pt);
	CTriangle c2 = CTriangle(m_pts[1], m_pts[2], pt);
	CTriangle c3 = CTriangle(m_pts[2], m_pts[0], pt);

	double totalArea = c1.GetArea() + c2.GetArea() + c3.GetArea();

	if (totalArea == this->GetArea())
		return true;
	else
		return false;
}
bool CTriangle::InRect(const CRect& rc) const {
	return rc.ptIn(m_pts[0]) && rc.ptIn(m_pts[1]) && rc.ptIn(m_pts[2]);
}
void CTriangle::Draw() const {
	int poly[8] = { m_pts[0].m_nPosX ,m_pts[0].m_nPosY,m_pts[1].m_nPosX,m_pts[1].m_nPosY,
				m_pts[2].m_nPosX,m_pts[2].m_nPosY, m_pts[0].m_nPosX ,m_pts[0].m_nPosY };
	setfillcolor(EGERGB(0xFF, 0xFF, 0xFF));
	fillpoly(4, poly);
}
void CTriangle::DrawColor() {
	int poly[8] = { m_pts[0].m_nPosX ,m_pts[0].m_nPosY,m_pts[1].m_nPosX,m_pts[1].m_nPosY,
				m_pts[2].m_nPosX,m_pts[2].m_nPosY, m_pts[0].m_nPosX ,m_pts[0].m_nPosY };
	setfillcolor(EGERGB(0xFF, 0xA5, 0x00));
	fillpoly(4, poly);
}
CShape* CTriangle::Clone() const {
	return new CTriangle(*this);
}

//CRect
CRect::CRect(CPoint pt1, CPoint pt2) {
	m_ptLT = CPoint(min(pt1.m_nPosX, pt2.m_nPosX), min(pt1.m_nPosY, pt2.m_nPosY));
	m_ptBR = CPoint(max(pt1.m_nPosX, pt2.m_nPosX), max(pt1.m_nPosY, pt2.m_nPosY));
}
CRect::CRect(const CRect& rc) {
	m_ptLT = rc.m_ptLT;
	m_ptBR = rc.m_ptBR;
}
CRect::CRect(CPoint pt1)
{
	m_ptLT = CPoint(pt1.m_nPosX, pt1.m_nPosY);
	m_ptBR = CPoint(pt1.m_nPosX + 100, pt1.m_nPosY + 100);
}
CRect::~CRect() {
	// cout << "CRect::CRect()n";
}
double CRect::GetArea() const {
	return (m_ptBR.m_nPosX - m_ptLT.m_nPosX) * (m_ptBR.m_nPosY - m_ptLT.m_nPosY);
}
bool CRect::ptIn(const CPoint& pt) const {
	return (pt.m_nPosX >= m_ptLT.m_nPosX && pt.m_nPosX <= m_ptBR.m_nPosX) &&
		(pt.m_nPosY >= m_ptLT.m_nPosY && pt.m_nPosY <= m_ptBR.m_nPosY);
}
bool CRect::InRect(const CRect& rc) const {
	return rc.ptIn(m_ptLT) && rc.ptIn(m_ptBR);
}
void CRect::Draw() const {
	// 存储n个顶点的x,y坐标
	int pts[10] = { m_ptLT.m_nPosX,m_ptLT.m_nPosY,m_ptBR.m_nPosX,m_ptLT.m_nPosY,
	m_ptBR.m_nPosX,m_ptBR.m_nPosY,m_ptLT.m_nPosX,m_ptBR.m_nPosY,m_ptLT.m_nPosX,m_ptLT.m_nPosY };
	// 绘制n个顶点的多边形，第一个参数必须要传入n+1，pts最后一个顶点坐标和第一个相同
	//drawpoly(5, pts);
	setfillcolor(EGERGB(0xFF, 0xFF, 0xFF));
	fillpoly(5, pts);
}
void CRect::DrawColor() {
	int pts[10] = { m_ptLT.m_nPosX,m_ptLT.m_nPosY,m_ptBR.m_nPosX,m_ptLT.m_nPosY,
	m_ptBR.m_nPosX,m_ptBR.m_nPosY,m_ptLT.m_nPosX,m_ptBR.m_nPosY,m_ptLT.m_nPosX,m_ptLT.m_nPosY };
	// 绘制n个顶点的多边形，第一个参数必须要传入n+1，pts最后一个顶点坐标和第一个相同
	setfillcolor(EGERGB(0xFF, 0xA5, 0x00));
	fillpoly(5, pts);
}
CShape* CRect::Clone() const {
	return new CRect(*this);
}
CShape& CRect::Move(int nOffsetX, int nOffsetY) {
	m_ptLT.Move(nOffsetX, nOffsetY);
	m_ptBR.Move(nOffsetX, nOffsetY);
	return *this;

}
//Comgraphics
Comgraphics::Comgraphics(const CRect& pt1) {

	m_pt1.m_nPosX = pt1.m_ptBR.m_nPosX;
	m_pt1.m_nPosY = pt1.m_ptLT.m_nPosY + (pt1.m_ptBR.m_nPosY - pt1.m_ptLT.m_nPosY) / 2;
	m_pt2.m_nPosX = pt1.m_ptLT.m_nPosX + (pt1.m_ptBR.m_nPosX - pt1.m_ptLT.m_nPosX) / 2;
	m_pt2.m_nPosY = pt1.m_ptBR.m_nPosY;
	m_ptLT = pt1.m_ptLT;
	m_ptBR = pt1.m_ptBR;

}
Comgraphics::Comgraphics(const Comgraphics& rc) {
	m_pt1 = rc.m_pt1;
	m_pt2 = rc.m_pt2;
	m_ptBR = rc.m_ptBR;
	m_ptLT = rc.m_ptLT;
}
Comgraphics::Comgraphics(const CPoint pt1) {
	m_ptLT = CPoint(pt1.m_nPosX, pt1.m_nPosY);
	m_ptBR = CPoint(pt1.m_nPosX + 60, pt1.m_nPosY + 80);
}
Comgraphics::~Comgraphics() {
	cout << "Comgraphics::~Comgraphics()" << endl;

}
double Comgraphics::GetArea()  const {
	return 0.0;
}
bool Comgraphics::ptIn(const CPoint& pt) const {
	return (pt.m_nPosX >= m_ptLT.m_nPosX && pt.m_nPosX <= m_ptBR.m_nPosX) &&
		(pt.m_nPosY >= m_ptLT.m_nPosY && pt.m_nPosY <= m_ptBR.m_nPosY);
}
bool Comgraphics::InRect(const CRect& rc) const const {
	return rc.ptIn(m_ptLT) && rc.ptIn(m_ptBR);
}
void Comgraphics::Draw() const {
	// 存储n个顶点的x,y坐标
	int pts[10] = { m_ptLT.m_nPosX,m_ptLT.m_nPosY,m_ptBR.m_nPosX,m_ptLT.m_nPosY,
	m_ptBR.m_nPosX,m_ptBR.m_nPosY,m_ptLT.m_nPosX,m_ptBR.m_nPosY,m_ptLT.m_nPosX,m_ptLT.m_nPosY };
	// 绘制n个顶点的多边形，第一个参数必须要传入n+1，pts最后一个顶点坐标和第一个相同
	//drawpoly(5, pts);
	setfillcolor(GREEN);
	fillpoly(5, pts);
	line(m_pt1.m_nPosX, m_pt1.m_nPosY, m_pt2.m_nPosX, m_pt2.m_nPosY);
	line(m_ptLT.m_nPosX, m_ptLT.m_nPosY, m_pt2.m_nPosX, m_pt2.m_nPosY);
	line(m_pt1.m_nPosX, m_pt1.m_nPosY, m_ptLT.m_nPosX, m_ptLT.m_nPosY);
}
void Comgraphics::DrawColor() {
	// 存储n个顶点的x,y坐标
	int pts[10] = { m_ptLT.m_nPosX,m_ptLT.m_nPosY,m_ptBR.m_nPosX,m_ptLT.m_nPosY,
	m_ptBR.m_nPosX,m_ptBR.m_nPosY,m_ptLT.m_nPosX,m_ptBR.m_nPosY,m_ptLT.m_nPosX,m_ptLT.m_nPosY };
	// 绘制n个顶点的多边形，第一个参数必须要传入n+1，pts最后一个顶点坐标和第一个相同
	setfillcolor(YELLOW);
	fillpoly(5, pts);
	line(m_pt1.m_nPosX, m_pt1.m_nPosY, m_pt2.m_nPosX, m_pt2.m_nPosY);
	line(m_ptLT.m_nPosX, m_ptLT.m_nPosY, m_pt2.m_nPosX, m_pt2.m_nPosY);
	line(m_pt1.m_nPosX, m_pt1.m_nPosY, m_ptLT.m_nPosX, m_ptLT.m_nPosY);
}
CShape* Comgraphics::Clone() const {
	return new Comgraphics(*(this));
}

CShape& Comgraphics::Move(int nOffsetX, int nOffsetY) {
	m_ptLT.Move(nOffsetX, nOffsetY);
	m_ptBR.Move(nOffsetX, nOffsetY);
	m_pt1.Move(nOffsetX, nOffsetY);
	m_pt2.Move(nOffsetX, nOffsetY);
	return *this;
}
 
main.cpp 
#include
#include "graphics.h"
#include
#include "CShape.h"
using namespace std;

int main()
{
	//图形画布基础设置
	initgraph(640, 480);
	setbkcolor(WHITE);
	delay_ms(0);
	setcolor(BLACK);
	setfont(20, 0, "楷体");
	setbkmode(TRANSPARENT);
	//enter+左击-->新建矩形");
	//enter+右击-->新建三角形");
	//enter+滚轮中间-->新建组合图形

	//ctrl+左击-->复制图形");
	//ctrl+右击-->粘贴图形");

	vectorshapes;
	vectorshapestmp;

	shapes.push_back(new CTriangle(CPoint(320, 320), CPoint(250, 340), CPoint(340, 450)));
	//shapes.push_back(new CTriangle(CPoint(10, 10), CPoint(150, 10), CPoint(150, 150)));
	shapes.push_back(new CRect(CPoint(200, 200), CPoint(300, 300)));
	shapes.push_back(new Comgraphics(CRect(CPoint(250, 50))));


	//移动
	bool move_flag = false;
	bool copy_flag = false;
	bool redraw = true;
	//鼠标点击时记录它的坐标
	int clickX, clickY;
	int copyX, copyY;
	int checkedid = -1;
	int copyid = -1;

	for (; is_run(); delay_fps(60)) {
		while (mousemsg()) {
			mouse_msg msg = getmouse();

			//判断鼠标的移动
			if (msg.is_move()) {
				if (checkedid != -1) {
					if (move_flag) {
						shapes[checkedid]->Move(msg.x - clickX, msg.y - clickY);
					}
				}
				clickX = msg.x;
				clickY = msg.y;
				redraw = true;
			}

			// 判断鼠标左键
			else if (msg.is_left()) {
				// 判断鼠标左键是否按下
				if (msg.is_down()) {
					clickX = msg.x;
					clickY = msg.y;

					CPoint pt = CPoint(clickX, clickY);
					int isIn = 0;
					for (int i = 0; i < shapes.size(); i++) {
						if (shapes[i]->ptIn(pt)) {
							isIn = 1;
							//如果鼠标在图形区域内就设置移动的flag为true
							move_flag = true;
							checkedid = i;
							redraw = true;
							break;
						}
					}
					if (isIn == 0)
						checkedid = -1;
				}
				else {
					move_flag = false;
				}
			}
		}
		// 重新绘图
		if (redraw) {
			redraw = false;
			cleardevice();
			for (int i = 0; i < shapes.size(); i++) {
				if (i == checkedid)
					shapes[i]->DrawColor();
				else
					shapes[i]->Draw();
			}
		}

		while (kbmsg()) {
			key_msg msgk = getkey();
			if (msgk.key == key_enter && msgk.msg == key_msg_down) {
				mouse_msg msgm = getmouse();
				if (msgm.is_left()) {
					// 判断鼠标左键是否按下
					if (msgm.is_down()) {
						shapes.push_back(new CRect(CPoint(msgm.x, msgm.y)));
						redraw = true;
					}
				}
				if (msgm.is_right()) {
					// 判断鼠标右键是否按下
					if (msgm.is_down()) {
						shapes.push_back(new CTriangle(CPoint(msgm.x, msgm.y)));
						redraw = true;
					}
				}
				if (msgm.is_mid()) {
					CRect r1 = CRect(CPoint(msgm.x, msgm.y));
					// 判断鼠标中键是否按下
					if (msgm.is_down()) {
						shapes.push_back(new Comgraphics(r1));
						redraw = true;
					}
				}
			}
			if (msgk.key == key_control && msgk.msg == key_msg_down) {
				mouse_msg msgm = getmouse();
				if (msgm.is_left()) {
					// 判断鼠标左键是否按下
					if (msgm.is_down()) {
						copyX = msgm.x;
						copyY = msgm.y;
						CPoint pt = CPoint(copyX, copyY);
						for (int i = 0; i < shapes.size(); i++) {
							if (shapes[i]->ptIn(pt)) {
								//如果鼠标在图形区域内就设置移动的flag为true
								copy_flag = true;
								copyid = i;
								break;
							}
						}
					}
				}
				if (msgm.is_right()) {
					// 判断鼠标右键是否按下
					if (msgm.is_down()) {
						if (copy_flag == true) {
							shapes.push_back(&(shapes[copyid]->Clone())->Move(msgm.x - copyX, msgm.y - copyY));
							redraw = true;
						}
					}
				}

			}
		}
	}
	closegraph();
	return 0;
}
 
3.2 实验截图