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I have a theoretical question about C++. It was part of the final exam at my university and I want to know why the method f of class B is called, while it should be derived by the base class A. Since it is not virtual shouldn't the A::f() be called?

#include <iostream.h>
#include <stdlib.h>

class A{
     public:int f(int x){
               cout<< x << " ";
class B:public A{
     public:int f(int y){
void g(A a, B b) {

int main()
  B p; 
  B q; 
  return 0;

// result is 3 4
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This code is horrible. Is the slicing here intended? Why the pass by value? –  pmr Feb 14 '12 at 12:58

5 Answers 5

The static type if b in g() is B, thus there is no need for virtual here - the compiler can know [at compile time] you want to invoke B::f(), and that is exactly what he is doing.
In here, the class B redefined A's f(), and hides it, so invoking f() from a variable whose static type is B results in invoking B::f()

Note that the virtual keyword allows you to use overriding methods where the static type is the parent's type.

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The method g takes two arguments, of type A and B repsectively. Since these are no pointer or reference types, dynamic binding does not apply. The compiler knows at compile time the actual type of the objects, and does a static method call.

virtual methods only apply if you have pointers or references!

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The function int f(int) in class B "hides" the function with the same name and signature in its base class.

So, when you call b.f(3);, and the variable b has type B, you are calling B::f.

Virtual functions are only needed if you want b.f(3) to call B::f in cases where the type of the variable b is A&, but the object it refers to has runtime type B. In that situation, the function called would be B::f if A::f is virtual, but A::f is called if non-virtual.

Virtual function calls take the runtime type of objects into account even if they're used via a pointer or reference to a base class. But B b; b.f(3) is a call to B::f regardless of whether A::f even exists, never mind whether it's virtual or non-virtual.

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There are 2 things happening here:

  1. You are slicing your object.
  2. Your f() function is not an override because it is not virtual, and really you should not be doing this.

You would overcome the slicing by making the function g take its first parameter by reference. If A was given a protected copy-constructor that would also prevent it, although then you would not be able to copy genuine instances of A.

In this case your function g will always call A::f() even with reference to A because there is no polymorphism. To invoke that you will need to declare A::f() as virtual.

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"Non-scientific" explanation:

The function g treats a as if it was an instance of A gets a copy of p as an object of type A(see comments below) , and executes the f from within A. b is treated as an instance of B, where the method B.f overrides A.f, so when b is "looked at" as an instance of B and we execute b.f, the method B.f will be executed, because the A.f is not visible

If you'd like to call A.f using b.f you'd have to cast b to A: ((A)b).f().

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"The function g treats a as if it was an instance of A" - because a is an instance of A. It was created by copying the base class subobject of p, although since neither class has any data members that's basically a null operation. –  Steve Jessop Feb 14 '12 at 13:14
In this specific case a is in fact an instance of B (initialized in main by the line B p;) which is treated by g as an instance of A AFAIK. –  Matyas Feb 14 '12 at 13:17
Little terminology: overrides is usual reserved for virtual methods. In this instance, B.f hides A.f (I am wary of calling this overload since it has the same parameter). –  Matthieu M. Feb 14 '12 at 13:41
No, that's wrong. a is not the same object as p, because the function g takes its parameter by value, and pass-by-value is always a copy. This is C++, not Java. If the signature of g was void g(A &a, B &b) then you'd be right, a would be a reference to p. –  Steve Jessop Feb 14 '12 at 13:48
@Matthieu: I've seen it called "overload" on the basis that the hidden secret this parameter has a different type (or the lhs of the binary . operator has a different type if you prefer to look at it that way). But you're absolutely right that "hides" is the term used in the standard, and personally I stopped calling it "overload" when I noticed it causing confusion a couple of times. –  Steve Jessop Feb 14 '12 at 13:51

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