Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I would like to know if its possible to call a non-const member function from a const member function. In the example below First gives a compiler error. I understand why it gives an error, I would like to know if there is a way to work around it.

class Foo
   const int& First() const
         return Second();

   int& Second()
        return m_bar;

   int m_bar;

I don't really want to discuss the wisdom of doing this, I'm curious if its even possible.

share|improve this question
You are not the first one: stackoverflow.com/questions/856542/… – Till Theis Oct 28 '10 at 21:13
thanks Till, that didn't come up in my search – Steve Oct 28 '10 at 21:26
up vote 24 down vote accepted
return (const_cast<Foo*>(this))->Second();

Then cry, quietly.

share|improve this answer
What if the functions have the same name? const int& GetBar() const; int& GetBar(); – phandinhlan Apr 24 '15 at 22:15
You can overload a function on constness, so it will simply work. – user3063349 May 10 at 10:21

It is possible:

const int& First() const 
    return const_cast<Foo*>(this)->Second(); 

int& Second() { return m_bar; }

I wouldn't recommend this; it's ugly and dangerous (any use of const_cast is dangerous).

It's better to move as much common functionality as you can into helper functions, then have your const and non-const member functions each do as little work as they need to.

In the case of a simple accessor like this, it's just as easy to return m_bar; from both of the functions as it is to call one function from the other.

share|improve this answer
Or just turn int& Second() into int& Second() const. The non-const member functions will have no problem calling Second(), but now the const member functions will be able to call it without any jiggery-pokery, too. – Jeremy W. Sherman Oct 28 '10 at 21:30
@Jeremy: How do you suppose we return a non-const reference to a member, then? – GManNickG Oct 28 '10 at 21:32
@GMan: Touché. You can't without declaring m_bar as a mutable int. @Fred Larson's recommendation is quite good, but the direction it leads - writing every blessed accessor twice, once const-modified and once not - is not so cheery. – Jeremy W. Sherman Oct 28 '10 at 21:39
@Jeremy: In most cases (not all, but most), it isn't necessary to have a non-const accessor (at least that's been my experience). Even if you do need both, since you have to write both functions anyway, writing the return m_bar; in both of them isn't usually too much of an additional burden. – James McNellis Oct 28 '10 at 21:43
the issue was inheritance of a zip iterator interface in a const version of the zip iterator, so it isn't as simple as the example suggests – Steve Oct 29 '10 at 1:54

By the definition of const, a function should not modify the state of an object. But if it calls another non-const member, the object's state might get changed, so it's disallowed.

I know you said you didn't want to hear about this, but I think it's important for others that happen upon the question.

share|improve this answer

Overload on const:

const int& Second() const
    return m_bar;

You can add this method and keep the original non-const version.

share|improve this answer

iterators are similar in this and make an interesting study.

const iterators are often the base for 'non const' iterators, and you will often find const_cast<>() or C style casts used to discard const from the base class with accessors in the child.

Edit: Comment was

I have a zip iterator where the const one inherits from the non-const

This would generally be the wrong inheritence structure (if your saying what I think you are), the reason being that children should not be less restrictive than parents.

say you had some algorithm taking your zip iterator, would it be appropriate to pass a const iterator to a non const ?

if you had a const container, could only ask it for a const iterator, but then the const iterator is derived from an iterator so you just use the features on the parent to have non const access.

Here is a quick outline of suggested inheritence following the traditional stl model

class ConstIterator: 
    public std::_Bidit< myType, int, const myType *, const mType & >
  reference operator*() const { return m_p; }

class Iterator : public ConstIterator 
  typedef ConstIterator _Mybase;
  // overide the types provided by ConstIterator
  typedef myType * pointer;
  typedef myType & reference;

  reference operator*() const
    return ((reference)**(_Mybase *)this);

typedef std::reverse_iterator<ConstIterator> ConstReverseIterator;
typedef std::reverse_iterator<Iterator> ReverseIterator;
share|improve this answer
I tend to write iterators as template classes and used type traits to manipulate the constness of the member functions; it avoids the need for const_cast and makes the code easier to read. – James McNellis Oct 28 '10 at 22:22
Sounds interesting, though does it allow for using iterators where you might use const_iterator? I'm making this original observation on the stl(s) I've seen - which is mainly to ones with MSVC. – Greg Domjan Oct 28 '10 at 22:38
this was actually my use case for this. I have a zip iterator where the const one inherits from the non-const. @James, could you answer this question with the type traits answer? I'm really interested in not doing this if possible – Steve Oct 29 '10 at 1:56
@Steve: I'll try and dig something up; I don't have my PC with all my projects on it at the moment. The general approach is to create a single class template template <typename T> class iterator_impl and then in the container that is using it provide a typedef iterator_impl<const T> const_iterator and typedef iterator_impl<T> iterator. You can then inside of the iterator_impl template extract the constness from T and set all the return types and pointers and such appropriately. Is that what you're looking for? (I just want to make sure I understand exactly what you need). – James McNellis Oct 29 '10 at 2:45

The restriction of const member methods are came from compile time. If you can fool the compiler, then yes.

class CFoo
    CFoo() {m_Foo = this;}
    void tee();

    void bar() const 
        m_Foo->m_val++;  // fine 
        m_Foo->tee();    // fine
   CFoo * m_Foo;
   int    m_Val;  


This actually abolishes the purpose of const member function, so it is better not to do it when design a new class. It is no harm to know that there is a way to do it,especially it can be used as an work-around on these old class that was not well designed on the concept of const member function.

share|improve this answer
What a dastardly trick! ... I'll use it :) – Olumide Jun 17 at 11:36

I found myself trying to call a non-const member function that was inherited, but was actually const because of the API I was using. Finally I settled on a different solution: re-negotiate the API so that the function I inherit is properly const.

It won't always be possible to negotiate changes to others' functions, but doing so when possible seems cleaner and nicer than needing to use const_cast and it benefits other users as well.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.