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I'm trying to implement something like Haskell Prelude in C++ with typeclasses like Functor, Monoid, and so on. So I've decided to use C++ Concepts to do the type checking, but I encountered a problem while trying to implement Semigroup concept.

The problem occurs when I try to declare a concept that uses some function that is declared and overloaded for needed types later in the code, but it's only relevant for some types like std::vector, but for my own types works well.

Full code:

template<class T>
struct S {
    // ...
};

template<class T>
concept Addable = requires(T a, T b) {
    { add(a, b) } -> T;
};

template<class T>
S<T> add(const S<T> & a, const S<T> & b) {
    // ...
    return {};
}

template<class T>
std::vector<T> add(const std::vector<T> & a, const std::vector<T> & b) {
    // ...
    return {};
}

int main() {
    std::cout << Addable<S<int>> << '\n';
    std::cout << Addable<std::vector<int>> << '\n';
}

I expect the output 1 1, but the actual output is 1 0. So, it doesn't recognize std::vector as Addable regardless to a declared add(std::vector) overload, but it does recognize the S type as Addable.

UPD: The problem disappears if I move the add function to go before the Addable concept. But it looks very unhandy and unclear that I have to implement all concepts that I include for types like std::vector before I include those concepts.

UPD2: I use GCC 9.1.0.

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    My guess is, Addable finds add for S via argument-dependent lookup, but can't do the same for vector since the class and the function are in different namespaces. Does it work if you declare or define add before Addable? Jun 8 '19 at 20:39
  • Reproduced here.
    – chris
    Jun 8 '19 at 20:41
  • @chris Just as I thought - once you move Addable down, so add is visible to ordinary lookup, the program prints 1 1 Jun 8 '19 at 20:43
  • Note that Clang will give you some more info on why if you fail an overload resolution check as seen here.
    – chris
    Jun 8 '19 at 20:44
  • @IgorTandetnik Does that mean that if i have a std::vector from stl and some Addable concept from a third-party library, i won't be able to implement that concept for a vector? Or I can do it only by putting the add before I include the header with Addable? Jun 9 '19 at 4:31
3

I think this is a defect in this experimental Clang concept implementation. [temp.concept]/8 says:

A concept is not instantiated ([temp.spec]).

See also: In which access control context are evaluated concepts?

That means that name resolution as it is described in [temp.res] does not apply to an expression that is a concept definition. If concepts had to be instantiated, then the function add could not be find by unqualified name look-up. This is why Clang generates an error.

According to the standard, when a id-expression names a concept, the normalized constraint-expression is evaluated where appears the id-expression ([expr.prim.id]/4).

Less formaly, the expression that is the definition of the concept is evaluated in the context of the expression that names the concept. So Addable<vector<int>> should be true, because in the context of this expression, add can be found by unqualified name look-up.

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    It's not clang-specific, gcc 9.1 results in the same.
    – bipll
    Jun 9 '19 at 8:23
  • @bipil Originaly concepts where kind of functions or variables. The paragraph I site is relatively new: it was added to the standard last year and it is not part of the concept TS.
    – Oliv
    Jun 11 '19 at 6:34

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