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How do I remove code duplication between similar const and non-const member functions?

i have two members

A &B::GetA (int i)
    return *(m_C[m_AtoC[i]]);

const A &B::GetA (int i) const
    return *(m_C[m_AtoC[i]]);

for now i just duplicate code, but may be there exists nice way to do it. I certanly dont want to deal with type cast from const to non-const.

EDIT: So i want to call one member frm another to avoid code duplication.

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marked as duplicate by Dave S, Matthieu M., Bo Persson, Mario, John Koerner Jan 19 '13 at 0:19

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

What do you want the non-const version for? –  Beta Jan 18 '13 at 14:31
@Beta to be able to modify the member. –  Luchian Grigore Jan 18 '13 at 14:31
Sorry, I missed the &. –  Beta Jan 18 '13 at 14:32
A small #define would do the trick, but I guess you don't want to use it either ;-) –  dasblinkenlight Jan 18 '13 at 14:37

6 Answers 6

up vote 2 down vote accepted

[Note the correction; sorry for getting it the wrong way round initially.]

This is an appropriate situation for using a const_cast, and it allows you to deduplicate code by forwarding the call from the non-const function to the corresponding const function:

A & B::GetA(int index) 
    return const_cast<A &>(static_cast<B const *>(this)->GetA(index));

It's important to note that this should only be done in one direction: You can implement the non-const method in terms of the constant one, but not the other way round: The constant call to GetA() gets a constant reference to the object in question, but since we have additional information that it's actually OK to mutate the object, we can safely cast away the constness from the result.

There's even a chapter on precisely this technique in Scott Meyer's Effective C++.

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@AndyProwl: So what. A const-cast is the appropriate solution for this problem. –  Kerrek SB Jan 18 '13 at 14:35
@KerrekSB Except that your cast is ill-defined when executed on an instance of B const. Do it the other way round, const-cast in the non-const version. –  Konrad Rudolph Jan 18 '13 at 14:36
@Konrad const-casting (i.e. playing around with the types) is not UB. –  R. Martinho Fernandes Jan 18 '13 at 14:43
I looked at the revision history. The original was fine as long as GetA is not mutating by itself (and if it does gasp whyyyy). No mutation is ever performed. Only types are harmed, never objects. The function still returned a non-modifiable reference. –  R. Martinho Fernandes Jan 18 '13 at 14:46
The solution seems to have much more code that the original. Is that really an advantage? :-) –  Bo Persson Jan 18 '13 at 14:48

You could do something like:

class B {
    A& GetA (int index) { return GetA_impl(index); }
    const A& GetA (int index) const { return GetA_impl(index); }
    A& GetA_impl (int index) const { return *(m_C[m_AtoC[i]]); }

I'm not sure it's really worth the effort in this case, but this can be useful if the potentially duplicated code gets more complicated.

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I assume, if m_C is a member, that you're discarding a const qualifier in your private method ... –  Useless Jan 18 '13 at 14:38
@Useless: Depends on the type of m_C. But if it's something typical like a std::vector<A*>, this code does not discard a qualifier. –  aschepler Jan 18 '13 at 14:42

You can avoid const_cast with a little template metaprogramming.

// This meta function returns a const U if T is const, otherwise returns just U.
template <typename T, typename U>
make_same_const<T, U>
    typedef typename std::conditional<
            typename std::add_const<U>::type,
        >::type type;

// Generic version of a function. Constness of return type depends on
// constness of T.
// This is a static member template of B.
template <typename T>
make_same_const<T, A>::type& B::GetA(T& obj, int i)
    return *(obj.m_C[obj.m_AtoC[i]]);

A&       B::GetA(int i)       { return B::GetA(*this, i); }
A const& B::GetA(int i) const { return B::GetA(*this, i); }
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IMO this isn't enough code (or complexity) to be worth de-duplicating.

As you can see in both the const_cast-based solutions, the cast expression is actually longer than the original code.

If you have a longer or more complex expression you're really worried about, though, please show it.

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Assuming the bodies of GetA() and GetA() const are identical (which means GetA() doesn't modify *this), you can safely use one const_cast to implement the const version using the non-const one:

const A& B::GetA() const {
  return const_cast<B*>(this)->GetA();

The non-const GetA() doesn't modify the object, so calling it on a const B object is not undefined. The non-const reference returned by non-const GetA() is converted to a const& before being returned out of GetA() const, so there's no danger of undefined behaviour there either.

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Would the downvoter explain themselves? –  Angew Jan 18 '13 at 14:50
Your answer adds nothing new to the other answers that also ignore the "I certanly dont want to deal with type cast from const to non-const" bit. –  melpomene Jan 18 '13 at 14:53
@melpomene It's currently the only answer using const_cast in the const version (where you don't have to use two) and delegating to the other GetA(), not re-implementing. I understood OP's comment to refer to casting constness on the call site. But point accepted. –  Angew Jan 18 '13 at 14:56

How about

const A &B::GetA (int index) const
    return *(const_cast<B*>(this)->GetA(index));
share|improve this answer
not that I don't like it, but the OP writes "I certanly dont want to deal with type cast from const to non-const." –  Andy Prowl Jan 18 '13 at 14:33
@AndyProwl I understood this to mean "on the call site" –  Angew Jan 18 '13 at 14:37
how is this different from the original ? Did you mean to post something similar to Kerrek SB's answer ? –  Sander De Dycker Jan 18 '13 at 14:37
@Angew: hmm, ok maybe it is up to some interpretation –  Andy Prowl Jan 18 '13 at 14:38
@SanderDeDycker: this is the original answer (notice that this is the first answer that was posted) –  Andy Prowl Jan 18 '13 at 14:38

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