C++/Class/object pointer — различия между версиями
Admin (обсуждение | вклад) м (1 версия: Импорт контента...) |
Admin (обсуждение | вклад) м (1 версия: Импорт контента...) |
(нет различий)
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Текущая версия на 10:25, 25 мая 2010
Содержание
- 1 Call virtual function through object pointer
- 2 Change the object pointer behaviour
- 3 Declare object pointer
- 4 Demonstrating the class member access operators . and ->
- 5 Need reinterpret_cast to go from pointer to int and from int to pointer
- 6 Need reinterpret cast to perform pointer conversion from unrelated classes
- 7 Need reinterpret cast to perform reference conversion from unrelated classes -- static_cast doesn"t work
- 8 pointers to base class
- 9 Use dynamic_cast to convert object pointer to its subclass
- 10 Use object pointer to reference virtual method
- 11 Use & to get object address
- 12 Using an array of class objects
Call virtual function through object pointer
#include <iostream>
using namespace std;
class base
{
public:
virtual void vfunc(void)
{
cout << "This is base"s vfunc()." << endl;
}
};
class derived1 : public base
{
public:
void vfunc(void)
{
cout << "This is derived1"s vfunc()." << endl;
}
};
class derived2 : public derived1 { };
int main(void)
{
base *p, b;
derived1 d1;
derived2 d2;
p = &b;
p->vfunc();
p = &d1;
p->vfunc();
p = &d2;
p->vfunc();
}
Change the object pointer behaviour
#include <iostream>
using namespace std;
class convert
{
protected:
double val1;
double val2;
public:
convert(double i)
{
val1 = i;
}
double getconv(void) {return val2;}
double getinit(void) {return val1;}
virtual void compute(void) = 0;
};
class l_to_g : public convert {
public:
l_to_g(double i) : convert(i) { }
void compute(void)
{
val2 = val1 / 3.7854;
}
};
class f_to_c : public convert {
public:
f_to_c(double i) : convert(i) { }
void compute(void)
{
val2 = (val1 - 32) / 1.8;
}
};
int main(void)
{
convert *p;
l_to_g lgob(4);
f_to_c fcob(70);
p = &lgob;
cout << p->getinit() << " liters is ";
p->compute();
cout << p->getconv() << " gallons." << endl;
p = &fcob;
cout << p->getinit() << " in Fahrenheit is ";
p->compute();
cout << p->getconv() << " Celsius." << endl;
}
Declare object pointer
#include <iostream>
using namespace std;
class Base
{
public:
void base_message(void) { cout << "This is the base class\n"; };
};
class Derived: public Base
{
public:
void derived_message(void) { cout << "This is the derived class\n" ; };
};
int main(void)
{
Base *base_pointer = new Base;
Derived *derived_pointer = new Derived;
base_pointer->base_message();
derived_pointer->derived_message();
}
Demonstrating the class member access operators . and ->
#include <iostream>
using std::cout;
using std::endl;
// Simple class Count
class Count {
public:
int x;
void print() { cout << x << endl; }
};
int main()
{
Count counter,
*counterPtr = &counter,
&counterRef = counter;
cout << "Assign 7 to x and print using the object"s name: ";
counter.x = 7;
counter.print();
cout << "Assign 8 to x and print using a reference: ";
counterRef.x = 8;
counterRef.print();
cout << "Assign 10 to x and print using a pointer: ";
counterPtr->x = 10;
counterPtr->print();
return 0;
}
Need reinterpret_cast to go from pointer to int and from int to pointer
class X {};
class Y {};
int main(int argc, char** argv)
{
int i = 3;
X x;
Y y;
X* xp;
Y* yp;
i = reinterpret_cast<int>(xp);
xp = reinterpret_cast<X*>(i);
return (0);
}
class X {};
class Y {};
int main(int argc, char** argv)
{
int i = 3;
X x;
Y y;
X* xp;
Y* yp;
xp = reinterpret_cast<X*>(yp);
return (0);
}
class X {};
class Y {};
int main(int argc, char** argv)
{
int i = 3;
X x;
Y y;
X* xp;
Y* yp;
X& xr = x;
Y& yr = reinterpret_cast<Y&>(x);
return (0);
}
pointers to base class
#include <iostream>
using namespace std;
class CPolygon {
protected:
int width, height;
public:
void set_values (int a, int b)
{ width=a; height=b; }
};
class CRectangle: public CPolygon {
public:
int area ()
{ return (width * height); }
};
class CTriangle: public CPolygon {
public:
int area ()
{ return (width * height / 2); }
};
int main () {
CRectangle rect;
CTriangle trgl;
CPolygon * ppoly1 = ▭
CPolygon * ppoly2 = &trgl;
ppoly1->set_values (4,5);
ppoly2->set_values (4,5);
cout << rect.area() << endl;
cout << trgl.area() << endl;
return 0;
}
Use dynamic_cast to convert object pointer to its subclass
#include <typeinfo>
#include <iostream>
using namespace std;
class Base{
public:
Base() {};
virtual ~Base() {}
};
class Derived : public Base{
public:
Derived() {}
virtual ~Derived() {}
};
int main(int argc, char** argv){
Base* b;
Derived* d = new Derived();
b = d;
d = dynamic_cast<Derived*>(b);
Base base;
Derived derived;
Base& br = base;
try {
Derived& dr = dynamic_cast<Derived&>(br);
} catch (bad_cast&) {
cout << "Bad cast!\n";
}
return (0);
}
Use object pointer to reference virtual method
#include <iostream>
using namespace std;
class Base {
public:
virtual void show_message(void) { cout << "This is the base class\n"; };
};
class Derived: public Base
{
public:
virtual void show_message(void) { cout << "This is the derived class\n" ; };
};
int main(void){
Base *base_pointer = new Base;
base_pointer->show_message();
base_pointer = new Derived;
base_pointer->show_message();
}
Use & to get object address
#include <iostream>
using namespace std;
class base
{
public:
virtual void vfunc(void)
{
cout << "This is base"s vfunc()." << endl;
}
};
class derived1 : public base
{
public:
void vfunc(void)
{
cout << "This is derived1"s vfunc()." << endl;
}
};
class derived2 : public derived1
{
public:
void vfunc(void)
{
cout << "This is derived2"s vfunc()." << endl;
}
};
int main(void)
{
base *p, b;
derived1 d1;
derived2 d2;
p = &b; // Point to base class
p->vfunc();
p = &d1; // Point to first derived class
p->vfunc();
p = &d2; // Point to second derived class
p->vfunc();
}
Using an array of class objects
#include <iostream>
using namespace std;
class CBox
{
public:
CBox(double lv, double bv = 1.0, double hv = 1.0): m_Length(lv),
m_Breadth(bv),
m_Height(hv)
{
cout << endl << "Constructor called.";
}
CBox()
{
cout << endl
<< "Default constructor called.";
m_Length = m_Breadth = m_Height = 1.0;
}
// Function to calculate the volume of a box
double Volume() const
{
return m_Length*m_Breadth*m_Height;
}
private:
double m_Length;
double m_Breadth;
double m_Height;
};
int main()
{
CBox boxes[5];
CBox cigar(8.0, 5.0, 1.0);
cout << endl
<< "Volume of boxes[3] = " << boxes[3].Volume()
<< endl
<< "Volume of cigar = " << cigar.Volume();
cout << endl;
return 0;
}