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A co-worker asked about some code like this that originally had templates in it.

I have removed the templates, but the core question remains: why does this compile OK?

#include <iostream>

class X
     void foo() { std::cout << "Here\n"; }

typedef void (X::*XFUNC)() ;

class CX
    explicit CX(X& t, XFUNC xF) : object(t), F(xF) {}      
    void execute() const { (object.*F)(); }
    X& object;
    XFUNC F;

int main(int argc, char* argv[])
    X x; 
    const CX cx(x,&X::foo);
    return 0;

Given that CX is a const object, and its member function execute is const, therefore inside CX::execute the this pointer is const.

But I am able to call a non-const member function through a member function pointer.

Are member function pointers a documented hole in the const-ness of the world?

What (presumably obvious to others) issue have we missed?

share|improve this question
up vote 7 down vote accepted

In this context object is a reference to a X, not a reference to a const X. The const qualifier would be applied to the member (i.e. the reference, but references can't be const), not to the referenced object.

If you change your class definition to not using a reference:

// ...
    X object;
// ...

you get the error you are expecting.

share|improve this answer
Still, with const-methods one should only be able to call const-methods on member-objects, isn't that right? – Björn Pollex Mar 26 '10 at 13:34
The member is the reference, not the referenced object. – Georg Fritzsche Mar 26 '10 at 13:37

The constness of execute() only affects the this pointer of the class. It makes the type of this a const T* instead of just T*. This is not a 'deep' const though - it only means the members themselves cannot be changed, but anything they point to or reference still can. Your object member already cannot be changed, because references cannot be re-seated to point to anything else. Similarly, you're not changing the F member, just dereferencing it as a member function pointer. So this is all allowed, and OK.

The fact that you make your instance of CX const doesn't change anything: again, that refers to the immediate members not being allowed to be modified, but again anything they point to still can. You can still call const member functions on const objects so no change there.

To illustrate:

class MyClass
    /* ... */

    int* p;

    void f() const
        // member p becomes: int* const p
        *p = 5;   // not changing p itself, only the thing it points to - allowed
        p = NULL; // changing content of p in const function - not allowed
share|improve this answer
It's important to notice that you can basically treat a T& as T* const. Anyway I agree that the shallow-propagation of const is strange, but then we also have shallow copy by default... – Matthieu M. Mar 26 '10 at 13:54

The instance object of class X is not const. It is merely referenced by an object which is const. Const-ness recursively applies to subobjects, not to referenced objects.

By the alternative logic, a const method wouldn't be able to modify anything. That is called a "pure function," a concept which doesn't exist in current standard C++.

share|improve this answer

You are calling foo on object, not on this.

Since object is declared as an X&, in a constant CX, it is actually an X& const (which is not the same as const X&) allowing you to call non const methods on it.

share|improve this answer
I feel like you should have mentionned "X& const" is non-sensical in the langage, since there is no such thing as 'reference re-binding'. – Ad N Jul 24 '13 at 9:51

One helpful way of thinking about it might be that your X object is not a member of CX at all.

share|improve this answer
You could think about it like this, but it doesn't matter if it is or isn't. That class could have an X instance (object) as a member and also a reference member to refer to that. Then you'll find that you can't do (object.*F)();, but can still do (reference.*F)(); even though it references the exact same thing that is a member of CX. – UncleBens Mar 26 '10 at 16:29

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