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I tried to introduce some const correctness (actually functional paradigms) to some new code and found that I cannot pass an std::shared_ptr<A> to a function that expects an std::shared_ptr<A const>. Note that I don't want to cast away constness but introduce it, which is legal with raw pointers.

Is there some way to get around this? I didn't find a member-function to do this.

The precise error uttered by g++ 4.6.1 is:

error: no matching function for call to ‘foo(std::shared_ptr<A>)’
note: candidate is:
note: template<class T> std::shared_ptr<_Tp> foo(std::shared_ptr<const _Tp>)
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1 Answer 1

up vote 8 down vote accepted

The problem in your case is not with the possible conversions from/to different std::shared_ptr, but is more related to how type inference works for template functions.

When the compiler tries to match a function call with a template, it will only accept exact matches, i.e. no type conversions at all. In this case, your function takes a std::shared_ptr<const T>, and the caller has a std::shared_ptr<U> where U is not const. Because the match is not exact, it will discard the template and pick the next overload candidate.

The simple workarounds are: avoid type inference altogether and provide the template argument:

std::shared_ptr<A> p;
foo<A>(p);             // will use the templated shared_ptr conversion

Or perform the conversion yourself:

foo(std::shared_ptr<const A>(p));
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@Xeo Because we're not removing cv-qualifiers. –  Luc Danton Oct 3 '12 at 16:08
@David, does foo(std::shared_ptr<const A>(p)); preserve the reference count? –  Mark Ingram Oct 3 '12 at 16:11
@bitmask No. const_cast is for removing qualifiers. Adding them only take an implicit conversion -- static_cast is the appropriate cast to document a conversion as explicit. If for whatever reason during a change in code the target and source types are changed such that the source type is cv-qualified, but the target type isn't, then a const_cast wouldn't warn. –  Luc Danton Oct 3 '12 at 16:36
@MarkIngram: preserve in some way. Since you are creating a copy of the shared pointer, the value will be incremented to keep consistency. std::shared_ptr has support for different types of aliasing, including holding shared pointers into members of an object managed by a shared pointer, where both the pointer and the pointer to the member variable will share a count and deleter (i.e. the last one to go will cleanup) –  David Rodríguez - dribeas Oct 3 '12 at 16:54
@LucDanton: Given that the type will have to be explicitly named at least once, I find foo<int>(p) a bit cleaner (and shorter) than foo(std::static_pointer<int const>(p)), and that in turn better than foo( std::static_pointer_cast<int const>(p) ). If not for any other reason, there is less typing and less characters to read. –  David Rodríguez - dribeas Oct 3 '12 at 16:56

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