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I would like to break the compilation if the object is declared const.

The following doesn't work :

#include <type_traits>

struct A {

    A() : v(0)
        static_assert( ! std::is_const<decltype(*this)>::value, "declared as const" );

    int& AccessValue() const
        return const_cast< int& >( v );

    int v;

int main()
    A a1; // ok, this compiles
    const A a2; // no, this break the compilation

    a1.AccessValue() = 5; // ok
    a2.AccessValue() = 6; // OPS

So, is there a way to break the compilation if an object of this type is declared const?

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I doubt it is possible. What do you want to achieve ? –  Alexandre C. Mar 27 '12 at 13:13
If someone gets a const A but shouldn't, the compiler will eventually give errors basically saying the same thing (declared as const), so you don't really need to check for such things. –  Shahbaz Mar 27 '12 at 13:17
@AlexandreC. It is UB to use const_cast to change from const reference to non-const reference, unless the object is declared non-const. I need to use const_cast, but would like to prevent people from declaring objects of this type const. –  BЈовић Mar 27 '12 at 13:22
@VJovic If that were possible I guess compilers would already check it, since that’s a very useful and obvious diagnostic to do before const_cast. –  Konrad Rudolph Mar 27 '12 at 13:26
@VJovic: You should probably redirect your efforts to avoid the need of const_cast. That is, the better questions are: Why do you need const_cast? How can you avoid using const_cast? –  David Rodríguez - dribeas Mar 27 '12 at 13:32

3 Answers 3

up vote 3 down vote accepted

You are heading the wrong way.

The type of this is purely dictacted by the signature of the method in which you use it. That is, this is always of type cv T* const where cv corresponds to the CV qualifiers of the method.

Therefore, in a constructor, this is just T* const.

const_cast is a code smell, normally only of use when dealing with const-broken legacy libraries... or (sometimes) to avoid violating DRY. In new code, you should not have to use it.

You are left with a choice:

  • make AccessValue non-const, since it is not
  • declare i as being mutable.

I would advise choosing the former solution. Giving away a handle to a private attribute is bad already (breaks encapsulation), no need to violate const correctness as well.

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this is never U const. It is an rvalue. const doesn't make sense for non-object rvalues, so there are no non-class/non-array rvalues of that type –  Johannes Schaub - litb Mar 27 '12 at 21:01
@JohannesSchaub-litb: this, I guess, it the legalese approach. In practice it is qualified. Perhaps because this helps the compiler diagnosing ill-formed calls ? (avoiding the addition of extraneous logic for this) –  Matthieu M. Mar 28 '12 at 6:29
no, in practise gcc has a bug. –  Johannes Schaub - litb Mar 28 '12 at 6:39
if you pass "this" to a template and deduce its type and gcc deduces it as "U const" you not only have a confusing diagnostic (btw, a diagnostic that says "this" has type "U const" doesnt mean that it really has that type) but an actual bug. Some compilers also talk about expressions that have type "U &" when they wanna tell the user that it is an lvalue of type "U". –  Johannes Schaub - litb Mar 28 '12 at 6:44
@JohannesSchaub-litb: so should we considered there is a bug in gcc 4.3.4 and gcc 4.5.2 ? –  Matthieu M. Mar 28 '12 at 8:11

For your specific example, making i mutable would achieve your goal:

int& AccessValue() const
    return v;

mutable int v;

This is from § []:

Except that any class member declared mutable (7.1.1) can be modified, any attempt to modify a const object during its lifetime (3.8) results in undefined behavior.

Note that you can't modify v using a pointer-to-member on a const object - §5.5/5 of n3290 draft [expr.mptr.oper]:

[ Note: it is not possible to use a pointer to member that refers to a mutable member to modify a const class object. For example,

struct S {
S() : i(0) { }
mutable int i;

void f()
const S cs;
int S::* pm = &S::i; // pm refers to mutable member S::i
cs.*pm = 88;         // ill-formed: cs is a const object

— end note ]

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But I don't have pointer to member variable. Therefore [, latest c++11] applies, there it is allowed to change it. There is even an example –  BЈовић Mar 27 '12 at 13:56
Yes, the mutable member works. I was just pointing out that there are some things you can't do even though the member is mutable - using a pointer to member specifically. But as long as you don't do that it is good. –  Mat Mar 27 '12 at 13:57

you can have multiple variables referring to the same object, some mutable and some const. For example:

A a1;
const A &a2 = a1;
A * const pa = &a1;
void f(const A &a);

should these be allowed in your case? Conversion from mutable to const is implicit the reverse is not. Maybe if you give an example will help.

EDIT: (in response to modified code) with a const object you can call only const member function. why not have:

int& AccessValue()
    return v;

an the compiler with complain if you call AccessValue on a non const object.

share|improve this answer
Modified my example. Hope it is better now –  BЈовић Mar 27 '12 at 13:32

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