问题
i have this :
class A {
public :
A(int i ) : m_S(i)
{
m_Pa = new Foo(*this) ;
}
private :
int m_S ;
Foo* m_Pa;
}
and derived class
class B : public A {
public :
B() : A (242)
{
// here i like to override the A class m_Pa member but i don't know how to do it right
}
}
回答1:
your m_Pa should be protected than you can call like:
B() : A (242), m_Pa(12)
{
}
or
B() : A (242)
{
m_PA = 55
}
or you should make a public or protected function which changes m_Pa
class A {
public :
A(int i ) : m_S(i)
{
m_Pa = new Foo(*this) ;
}
void setPA(int val)
{
m_PA = val;
}
回答2:
What is m_Pa? You never had it declared. Assuming it's a private data member of type Foo* in class A, you can't directly change it in the derived class unless you change A's interface. E.g., you can provide a protected setter member function:
class A {
....
protected:
void setFoo(const Foo* foo);
}
class B {
....
Foo *foo = new Foo(this);
setFoo(foo);
}
回答3:
You can't override member variables in a derived class, only methods.
回答4:
Short answer: By declaring m_Pa private, you are saying that only class A should be able to modify it. So you cannot alter its value using methods of class B.
Longer answer: In C++ (and most other object oriented programming languages), you not only declare the type of a member, but also its visibility (public, protected and private). This allows you to enfore encapsulation of data: You only expose an interface, but you do not let clients of your class modify its internals directly.
In your concrete example, I would create accessors
Foo* getPa() {
return m_Pa;
}
void setPa(Foo* Pa) {
m_Pa = Pa;
}
in class A and use them in class B to modify m_Pa. If you would like class B (but not unrelated classes) to be able to modify m_Pa declare getPa() and setPa() in a protected: section of your class; if you would like any client to modify them declare them in a public: section. Especially in the later case you need to start worrying about object ownership, i.e. which object is responsible for deleting the object stored in m_Pa which is created in the constructor. A practical solution to this problem is to use smart pointers, see for instance boost's implementation.
A note on terminology: "Overriding" a member in C++ usually refers to giving a new implementation of a virtual member function. So if your class A has a method
virtual void doIt()
then a member of the same type in class B overrides the implementation of A's doIt().
来源:https://stackoverflow.com/questions/1123975/how-to-override-member-of-base-class-after-inheritance-in-c