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I have a function with a signature

void Foo(list<const A*>)

and I want to pass it a


How do I do this? (plz note - the list isn't constant, only the member of the list)

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Did you try passing the list just as it is? If so, what did you get? – Oswald Jan 24 '11 at 20:49
@Oswald, some horrible template casting error – vondip Jan 24 '11 at 20:50
Something like error: conversion from ‘std::list<A*, std::allocator<A*> >’ to non-scalar type ‘std::list<const A*, std::allocator<const A*> >’ requested ? – James Jan 24 '11 at 20:53
@vondip- Can you give us the error message? Also, is this a template function, or is A a concrete type? Finally, you're sure that you're passing by value and not by reference, right? – templatetypedef Jan 24 '11 at 20:54
up vote 19 down vote accepted

The problem you have is that even though T * can be implicitly converted to a T const *, the template system isn't "aware" of that, so a whatever<T *> and whatever<T const *> are completely unrelated types, and there's no implicit conversion from one to the other.

To avoid the problem, I'd probably avoid passing a collection at all. Instead I'd have the function take a pair of iterators. A list<A *>::iterator can be implicitly converted to a list<A *>::const_iterator. For that matter, I'd probably make the function a template, so it can take iterators of arbitrary type.

This is likely to save you quite a bit of trouble -- a list is only rarely a good choice of container, so there's a very large chance that someday you'll want to change from list<A *> to vector<A *> or perhaps deque<A *> -- and if you make your function generic, you'll be able to do that without rewriting the function at all.

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Good advice on using iterators. However, there is no relation between list<A*>::iterator and list<A const*>::iterator (or const_iterator), so a function taking iterators must be taking them as template parameters. – Alexandre C. Jan 24 '11 at 20:57
And if the function signature cannot be changed, copying from the list<A*> into a new list<const A*> would be the only solution? – Oswald Jan 24 '11 at 20:58
@Oswald: probably a reinterpret_cast will work in this very special case. However there is no clean solution except abstracting away the list via iterators. In C# 4 you have covariant generics, which solve these kinds of problems quite elegantly (and open the door to powerful abstractions). – Alexandre C. Jan 24 '11 at 21:00

You can just create a new list and populate it with the values from your original list. Perhaps not the most efficient solution as far as run-time and memory management is concerned, but certainly easy to code:

list<A*> list1;
list<const A*> list2;
for(list<A*>::iterator a=list1.begin(); a!=list1.end(); a++) list2.push_back(*a);
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Obviously, you'll have to create a copy of the list - it's a pass-by-value argument. There's a fairly simple way to create a copy, since the element types have an implicit conversion: all STL containers can be created from a pair of iterators. So, in your case:

std::list<A*> src;
Foo(std::list<const A*>(src.begin(), src.end()));

This is slightly harder than it needs to be, because the STL represents ranges as pairs of iterators, and C++ conversion rules work on single objects.

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I believe you can pass it as it is. Remember that non-const types can be passed to something expecting a const type, but not the other way round!

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no you cannot . – Alexandre C. Jan 24 '11 at 20:57
don't be discouraged. list<A const *> and list<A *> are actually two different non-const types. – ThomasMcLeod Jan 24 '11 at 21:08

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