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Is casting the constness of member function pointers defined in C++? Is the following valid code?

struct T {
  void foo(int i) const { std::cout << i << std::endl;};

void (T::*f1)(int) const = &T::foo;
void (T::*f2)(int)       = reinterpret_cast<void (T::*)(int)>(f1);
T t;


The reason why I need this is that I'm writing a function that accepts both an object and a member function pointer to that object. I need a version for const objects (accepting only const functions) and a normal one. Since I don't want duplicate code, my idea was to put the actual code in the non-const version and call it from the const one, casting away any consts.

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even if it is defined you shouldnt do it. const variables are const for a reason –  Gir Aug 11 '12 at 12:56
@Gir Well, not quite that easy. Casting away const-ness on a variable basically tries to add writability (ie raise expectations), while casting away const-ness on this method tries to relieve the function from having to give the "I won't change internal state" guarantee (ie lower expectations). –  Joachim Isaksson Aug 11 '12 at 13:03
@Gir but these are not variables. You seem not to be understanding what the const keyword means when applied to functions. –  user529758 Aug 11 '12 at 13:03
But it won't change behavior of the function, what do you need this for?? –  klm123 Aug 11 '12 at 13:04
@klm123: It won't change anything. const is a syntactic sugar for c++ programs, unless you are using it like "static const int i = 1;". that may be optimized out, unless you write "&i" somewhere, in witch case it won't. it's even more true for functions. You can't pass anything to a function witch will be optimized out, so you can blatantly cast away and back any const inside or outside the function. –  Evan Dark Aug 11 '12 at 13:36

4 Answers 4

up vote 3 down vote accepted

Compiler eats it. But the backward cast is more useful.

And again but - it is better to don't use it, const_cast is usually just a quick and dirty solution, which you apply only when there are not any other solution.

Answer to update

If I understand you correctly you are going to use one object and two function. First function accepts const object and const member-function, second - non-const object and non-const member-function.

According to given information you can change second function to accept non-const object and const member-function. And give them one non-const object and its const member-function.

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See the updated question, I've added a quick explanation. –  lucas clemente Aug 11 '12 at 14:31
I updated the answer. –  klm123 Aug 11 '12 at 14:45
Thanks, I think i'll be able to work it out from here. –  lucas clemente Aug 11 '12 at 15:02

Yes, it is defined, but you maybe don't want it if the function is really const, because some compiler optimizations (namely return value caching) depend on the function being const.

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See the updated question, I've added a quick explanation. –  lucas clemente Aug 11 '12 at 14:30

I don't see a reason for doing this: even if you could, you'd make it more restrictive. Let's say you have a class Foo:

class Foo {
  void f() const;
  void g();

And some snippet of code:

Foo a;
const Foo b;

Then you can call both a.f() and a.g(), but not b.g() because b is const. As you can see, placing const after a member function makes it less restrictive, not more.

And, by reinterpret_casting this pointer, you'll get the pointer with exact same value(due to the nature of reinterpret_cast), and if you try to call it, you'll get into the same T::foo()

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See the updated question, I've added a quick explanation. –  lucas clemente Aug 11 '12 at 14:32

You can do it, but it has no meaning, wherever you can call f2, you can also call f1 too. You should cast in the other way. But if something, you should cast the object, not the function.

void (T::*f1)(int) const = &T::foo;
void (T::*f2)(int)       = reinterpret_cast<void (T::*)(int)>(f1);
T t;
(t.*f2)(1); // compiles
(t.*f1)(1); // this compiles too!!

but if you have

const T t;
(t.*f2)(1); // error t is const
(t.*f1)(1); // still compiles
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