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Here is some background. I have a binary tree iterator (say in-order). It is keeping track of its current node's parent nodes by pushing the pointers on top of a stack. Now I also want interoperability, i.e. the ability to cast iterator to const_iterator. But iterator has std::stack<pointer> and const_iterator has std::stack<const pointer>.

Any other way of achieving the same effect is also appreciated.


Currently I have discarded the idea of using std::stack entirely. I am using std::deque and push_back() + pop_back() + back(). For converting std::deque<pointer> to std::deque<const pointer>, I am just using std::copy( std::begin(ptrDeque), std::end(ptrDeque), std::begin(constPtrDeque) ); and this setup simply works.

I would still like answers to this question out of curiosity.

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You can also use std::transform if the transformation is bit more complicated. In this case, std::copy is fine. –  Naveen Oct 2 '12 at 6:22
Instead of std::copy, you should use the range form of insert on deque; it can be much faster in some CRT implementations. As for using deque instead of stack -- by default, they are the same underlying data structure. std::stack<t> is just an adapter that provides stack semantics to some other container; which is often deque by default. (I think it may also be vector, but I don't recall exactly) –  Billy ONeal Oct 2 '12 at 8:06
@BillyONeal It is deque AFAIK. –  Hindol Oct 2 '12 at 9:33

2 Answers 2

Just keep a non-const stack in your const_iterator. It's a private data member, so it doesn't really matter.

Make sure your const_iterator implementation doesn't modify through the pointers. To be double sure, always use your const_iterator's own operator*() which should return a const reference. (Actually, I don't think you need to dereference the pointer much, but in case you do, that's how. you should do it.)

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I know this is a possible solution, but having a non-const pointer in a const iterator bugs me. –  Hindol Oct 2 '12 at 6:08
@Hindol: That doesn't make any sense. The constness of the iterator refers to the constness of what it contains: the pointer. But the pointer itself can be const or non const; it is completely unrelated to whether or not you had a const_iterator pointing to it. –  Billy ONeal Oct 2 '12 at 8:03
@BillyONeal I am sorry, I meant pointer-to-const. –  Hindol Oct 2 '12 at 9:43

There is no easy way to do these kind of transformations in C++. It looks like a cast would be sufficient, but it doesn't work this way.

The C++-way is to hide the crucial data-structures and manage access by different APIs. Yes, that means at one point you have less const than desired. But that's what hiding is for. As long as it's only in the implementation no one else can misuse it.

You can get quite close to the desired solution if you encapsulate your stack/deque/whatever [I guess vector would be suffient] in a dedicated class. Internally it keeps non-const pointers, but all const methods return const pointers. If your iterators access it only through getters, it should be impossible to bypass the const accidently.

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The setup is a bit more complicated as I am using boost::iterator_facade. As soon as I use Iterator<const Node>, constness is propagated to many other types (node_pointer is one of them). Trying to avoid const pointer altogether is a lot more work than using std::deque. –  Hindol Oct 2 '12 at 9:41
I haven't used iterator_facade so far. Looking at the docs I'm not sure if it's worth the effort. Especially not if the iterator contains more than just a pointer. Copying seems unavoidable. I wrote some stuff with iterators, which might be similar to yours (vectors as cache). There Iterator is derived from ConstIterator so interoperability comes at no cost. Of course ConstIterator contains non-const pointers into the datastructure, but since all methods in question are const themselves there is almost no risk of a mixup. –  rtlgrmpf Oct 2 '12 at 10:45

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