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quite some time ago i noticed that in Visual C++ 10 ADL fails when at least one of the arguments is a lambda.

std::vector<float> vec;
for_each(begin(vec), end(vec), [](float) {}); 

The above fails to compile on VC++10 and 11 (beta) (begin and end are found via ADL). When i convert the lambda function into a regular free function things work just as expected.

I've asked on Herb Sutters blog once and also read some posts on msdn connect and the usual answers were: this is a bug, we havent implemented the latest standard of the lambdas yet which - at that time - was quite understandable. Things haven't been in a baked form yet. On MS connect there have also been disturbing comments that this will not be resolved for the next release i.e. vc 11.

My question is, is this code expected to work under the C++11 standard? I cant quite figure that out. Do i really have to prefix my for_each and other algorithms with std:: when I'm using lambdas? I somehow suspect that this behavior will not change after vc++11 release.

share|improve this question
what free function do you use? – Johannes Schaub - litb Mar 28 '12 at 5:46
something as simple as void f(float) {} even works. or declaring the lambda outside of the function call: auto f = [](float) {}; – Martin Wirth Mar 28 '12 at 13:59
up vote 1 down vote accepted

That is perfectly valid code. Any bug-free compiler will be able to compile it. But since MSVC has bug and so is unable to search the function through ADL, then maybe you should not rely on ADL and instead qualify it with std:: helping the compiler to find the function.

share|improve this answer
that confirms what i've been thinking. i also do not see why the combination of lambda arguments and non-lambda arguments should disable ADL. not sure if i like the official microsoft response (instantiate the lambda somewhere else or qualify with std::) ;) – Martin Wirth Mar 28 '12 at 14:02
@Martin: No, vector<T>::iterator is allowed to be T * (I suspect this is exactly the problem). Although @refp's answer is a bit long and doesn't confirm your suspicion, it's correct. Although, I can't explain why it works with a free function not parameterized over std types. – Potatoswatter Mar 29 '12 at 6:59
@Martin Please move the green check mark to refp's answer. – Jive Dadson Aug 27 '12 at 16:55

The standard doesn't guarantee what you'd want it to..

With the below in mind we can easily realize that there is nothing guaranteeing that ADL would work in cases similar to the example provided in your post.

  • std::begin (c)/std::end (c)

    The functions are described in the standard as the below quotation:

    template <class C> auto begin(C& c) -> decltype(c.begin());
    template <class C> auto end(C& c) -> decltype(c.end());

    Though the Container< ... >::iterator (which is the return-type of c.begin ()) is an implementation-defined type.

    More about the matter can be read upon at 24.5.6 Range Access, and class template vector (or any other template STL container).

  • [](){} - Lambda Expressions

    A lambda is an implementation-defined type, there is nothing in the standard stating that the resulting object will be of a type which is under namespace std.

    It can pretty much exists wherever it wants, as long as it confirms to the other rules set up by the standard.

Too Long; Didn't Read

The types of which std::begin/std::end/a lambda-expression yields are not guaranteed to be under namespace std, therefore ADL is not guaranteed to kick in.

share|improve this answer
@David: No, the question is exactly about for_each. It even says that begin and end are found without a problem. I think most people didn't quite read the question correctly. For refp: +1, this is the correct answer. – Xeo Mar 28 '12 at 2:13
@Xeo: I thought that ADL was failing to resolve begin and end. At any rate, taken that there is no guarantee in the standard that the iterators will be in std, there is still a bug either in failing to find for_each in the case of the lambda (assuming that std::vector<>::iterator happens to be defined in std) or in ADL finding for_each if the lambda is substituted by a function call (if std::vector<>::iterator is not defined inside std). – David Rodríguez - dribeas Mar 28 '12 at 2:26
To clarify: begin and end are correctly resolved via ADL in both vc++10 and 11 beta. My question was directed at why ADL for for_each (or any other std algorithm) fails when there is a combination of types that are from namespace std and one or more lambdas. I think that vc++ disables ADL when there are lambda arguments. Note that if you pass for_each a lambda that is declared outside the for_each function call ADL does work (which currently is the official work-around from microsoft). – Martin Wirth Mar 28 '12 at 13:58
@refp: thanks for your clarifications! as ive stated above, i'm worried about the combination of lambdas and non-lambda arguments. not qualifying has its drawbacks as you pointed out. for instance begin() and end() in combination with arguments of type std::array<> do not return an iterator defined in namespace std so relying on ADL to find for_each() for instance would definitely fail in this case as expected. My original question was directed at another problem, though. – Martin Wirth Mar 28 '12 at 14:07
@MartinWirth The philosophy of most of us writing c++ is to never write code that isn't backed up by the Standard, if it's not in the Standard - it's not C++ (that's why my answer is written the way it is). Also your question clearly says: "My question is, is this code expected to work under the C++11 standard?", so I fail to see what you are referring to with "My original question was directed at another problem". – Filip Roséen - refp Mar 28 '12 at 16:32

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