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Given the following code:

class foo;

foo* instance = NULL;

class foo
   explicit foo(int j)
    : i(j)
      instance = this;

   void inc()

   int i;

Is the following using defined behavior?

const foo f(0);

int main()

I'm asking because I'm using a class registry, and as I don't directly modify f it would be nice to make it const, but then later on f is modified indirectly by the registry.

EDIT: By defined behavior I mean: Is the object placed into some special memory location which can only be written to once? Read-only memory is out of the question, at least until constexpr of C++1x. Constant primitive types for instance, are (often) placed into read-only memory, and doing a const_cast on it may result in undefined behavior, for instance:

int main()
    const int i = 42;
    const_cast<int&>(i) = 0; // UB
share|improve this question
Surely the line instance = this; won't compile, since you're assigning a const pointer (this) to a non-const pointer (instance). – Sam Overton Dec 19 '09 at 23:07
@drspod: There are no such thing as a const constructor. this is never const in any constructor, if it would be const, how would you initialize the members? – dalle Dec 19 '09 at 23:17
up vote 2 down vote accepted

Yes, it is undefined behavior, as per

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 object's lifetime begins when the constructor call has completed (3.8/1).

share|improve this answer
Thank you. These quotes from the standard were the ones I was looking for. So if I would mark foo::i as mutable it would be okay then. – dalle Dec 20 '09 at 10:32
The behavior would be defined then, but you'd be better off defining foo instance(0); and foo const & f = instance;. – avakar Dec 20 '09 at 10:57

If you define a const instance of the object, then cast away the const-ness, and modify the contents of the object, you get undefined behavior.

From the sound of things, what you want is exactly the opposite: create a non-const instance of the object, then return a const pointer to that object to (most of) the clients, while the "owner" retains a non-const pointer to the object so it can modify members as it sees fit.

You'd typically manage a situation like this by defining the class with a private ctor, so most clients can't create objects of the type. The class will then declare the owner class as a friend, so it can use the private ctor and/or a static member function to create instances (or often only one instance) of the object. The owner class then passes out pointers (or references) to const objects for clients to use. You need neither a mutable member nor to cast away constness, because the owner, which has the "right" to modify the object, always has a non-const pointer (or, again, reference) to the object. Its clients receive only const pointers/references, preventing modification.

share|improve this answer
Do this. Store non-const pointers in the registry, and have both const and non-const accessor functions. – Alan Dec 20 '09 at 6:12

This may be one of the rare cases where the not very known mutable keyword could be used:

mutable int i;

i can now be changed even if the object is const. It's used when logically the object doesn't change, but in reality it does.

For example:

class SomeClass
// ....
    void DoSomething() { mMutex.lock(); ...; }
    mutable Mutex mMutex;

In DoSomething() the object doesn't logically change and yet mMutex has to change in order to lock it. So it makes sense to make it mutable, otherwise no instance of SomeClass could be const (assuming you lock the muetx for every operation).

share|improve this answer
mutable should be used for data members that may be changed but which don't violate the "constness" of the reference. This is the case for instance with temporary variables. There's no indication that this is the case in the OP's case. – shoosh Dec 19 '09 at 23:05
There is no indication that this isn't the case either. I explained (I hope) clearly when he should(n't) use it; if he chooses to abuse it then too bad for him. I do agree though that I shouldn't have said "This is one of the cases where... ", I'll change it to "This may be one.." – Andreas Bonini Dec 19 '09 at 23:07
mutable isn't needed as I already have a non-const pointer to the object. Revising question. – dalle Dec 19 '09 at 23:16
I think that avakars post (stackoverflow.com/questions/1934367/…) describes this better. – dalle Dec 20 '09 at 10:27

Calling a non-const (by declaration) member function on a const object is not illegal per se. You can use whatever method you wish to work around the compiler restrictions: either an explicit const_cast or a trick with constructor as in your example.

However, the behavior is only defined as long as the member function you are calling does not make an attempt to actually physically modify the object (i.e. modify a non-mutable member of the constant object). Once it makes an attempt to perform a modification, the behavior becomes undefined. In your case, method inc modifies the object, meaning that in your example the behavior is undefined.

Just calling the method, again, is perfectly legal.

share|improve this answer

It's hard to tell the intent with these arbitrary names. If i is intended as just a use counter, and it isn't really considered part of the data, then it is perfectly appropriate to declare it as mutable int i; Then the const-ness of an instance is not violated when i is modified. On the other hand, if i is meaningful data in the space being modeled, then that would be a very bad thing to do.

Separately from that, though, your example is a bit of a mess for what you seem to be asking. foo* instance = NULL; is effectively (if confusingly) using a NULL as a numeric zero and initializing instance, which is not const; then you separately initialize f, which is const, but never reference it.

share|improve this answer
He's assigning to instance in the constructor. – avakar Dec 19 '09 at 23:34

Under GCC, at least, your constructor should be explicit foo(int j) with the word int.

However, it's perfectly fine to have two pointers to the same value, one const and the other not.

share|improve this answer
Sorry about the missing int. Sorry for any added confusion. – dalle Dec 19 '09 at 23:26

Why dont you make use of const cast ?

Any reason to make object as const eventhough its state is not constant?

Also make following change :

explicit foo(int j = 0)    : i(j)   

{    instance = this;   }
share|improve this answer
const_cast isn't needed as I already have a non-const pointer to the object. – dalle Dec 19 '09 at 23:12

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