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Here I have declared another virtual function in Derived class.

#include <iostream>

using namespace std;

class A{
    string s;
    A(const string& name) : s(name){}
     virtual void f1(){cout << "f1 of base class" << endl;};

class B : public A{
    string p;
    B(const string& name) : A(name){}
    virtual void f2(){cout << "virtual function of derived class" << endl;}
    void f1(){cout << "f1 of derived class";}

int main() {
    A* arr[] = {new A("John"),new B("Bob")};
    return 0;

The function call arr[1]->f2() gives the error "‘class A’ has no member named ‘f2’".I am wondering why the _vptr points to the VTABLE of base class even when B is upcasted to A.

Also I wanted to know , is inlining virtual functions safe?

share|improve this question
You explicitly say that your B is a A. Compiler trusts you. – David Brabant Jun 20 '12 at 6:33
even when arr[1] is upcasted to B, that is not true. – Antonio Pérez Jun 20 '12 at 6:47
@Antonio:thanks , my bad :) – vagrawal13 Jun 20 '12 at 7:09
up vote 4 down vote accepted

Because there is no such member. virtual functions take place from the class where they are declared first down through all derived classes. They do not get bubbled up. When the compiler looks at arr[ i ]->f2() it looks up the definition of arr for its type. arr has (static) type A. So, the compiler looks up A's definition for a suitable definition of f2 and doesn't find any. Hence the diagnostic.

virtual functions can be safely inlined. In fact, all in-class definitions are implicitly inlined by the compiler. So, your A::f1 is already inlined.

share|improve this answer
+1: good answer. Also it is worth mentioning that you don't "inline" functions yourself, you mark them "inline" and then the compiler decides whether he wants to inline the function or not. inline is really just a hint to the compiler that the function might be a good candidate. – ereOn Jun 20 '12 at 6:46
@ereOn: Well inline means much more than a hint.inline usually indicates to the implementation that inline substitution of the function body at the point of call is to be preferred to the usual function call mechanism. An implementation is not required to perform this inline substitution at the point of call; however, even if this inline substitution is omitted, the other rules(especially w.r.t One Definition Rule) for inline are followed. – Alok Save Jun 20 '12 at 6:49
@Als: I forgot the ODR indeed, and you are right that "hint" isn't probably the best word. Thanks for the fix. – ereOn Jun 20 '12 at 7:04

Easy first:

Also I wanted to know , is inlining virtual functions safe?

Yes, virtual functions can be inlined, but polymorphism is guaranteed to always work.

For example:

B b;

can be resolved at compile time, without using the virtual table, because the compiler knows the object is of type B.

I am wondering why the _vptr points to the VTABLE of base class even when arr[1] is upcasted to B.

It doesn't. It points to the virtual table of class B, but the compiler doesn't see it. The virtual table is an implementation detail. You're calling a function on an A*, so B's methods aren't visible. In this simple example, it's easy, but how could, in general, the compiler tell that arr[1] is a pointer to a B in fact? That's the whole point of polymorphism, you abstract away the derived type.

What you can do is:

dynamic_cast<B*>(arr[1]) ? (dynamic_cast<B*>(arr[1]))->f2() : (void)0;
share|improve this answer

You're trying to call f2() on an A*, and A doesn't have f2() declared.

virtual means that the method, when called through a pointer to a base class (including the class of the object itself), is resolved at runtime, based on the vptr table of the object you're calling it on. It doesn't make the method visible in base classes.

Inlining virtual functions is very safe but you won't necessarily get the performance boost you're expecting from it. Inlining means that the function code is copy-pasted by tha compiler at the point of call. See Parashift on inlining and why it's a pie in the sky

Inlining is a compile time concept. Virtual method calls, called on a pointer to a base class, are resolved are runtime.

I.e. the following call to a function that's virtual, can be inlined:

B myB("The B.");
b.f1(); // not virtual, might be inlined
share|improve this answer
The compiler can inline a virtual call. Also, just because a method is virtual, doesn't mean it's resolved at run-time. See my answer. – Luchian Grigore Jun 20 '12 at 6:38
I'm not saying it can't inline a virtual call. But yes, I'll need to edit the bit about the call resolution. – zyndor Jun 20 '12 at 6:41
Well, you're saying the call is resolved at runtime, which implies it isn't inlined (which would mean there's no call to speak of). – Luchian Grigore Jun 20 '12 at 6:43
I've edited my answer. virtual function calls != call to a function declared as virtual. – zyndor Jun 20 '12 at 6:49
Saw that, removed downvote. – Luchian Grigore Jun 20 '12 at 6:51

arr[1] is of type A* which doesn't have a method called f2. You'd have to cast arr[1] to B*, but I don't think that's a good idea. Change your data structures instead.

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Think about it this way. At compile time, the compile is completely oblivious of the actual type of the object that arr[i] is pointing to. That type only becomes known at runtime. So when you write something like this:


the compiler doesn't know what code to produce to make that call happen. What is f2? Is it the f2 that is declared in B? What if you also have a a subclass of A called C, which also has a virtual function named f2, and the object that arr[i] points to just happens to be of type C? We don't know.

You will immediately see that the only sane behavior in such case is to produce an error.

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