8

here is some code, that displays the oddity:

namespace ns
{
  typedef int int_type;

  class classus {
    public: 
      int a = 0;
  };

  void print(classus c){
    printf("a equals %i \n", c.a);
  }
  void print(int_type a){
    printf("a equals %i \n", a);
  }
}

int main(int argc, char* argv[])
{
  ns::int_type a1 = 2;
  ns::classus a2;
  ns::print(a1); // this line wont work without explicit ns:: scope
  print(a2); // this line works with or without explicit ns:: scope
}

This builds and runs on visual studio 2017. Intellisense is also perfectly happy with it.

It seems variables of class contained in a namespace, pollutes the entire line with that namespace scope. Is this a bug or a feature? Either way, is there some documentation about this... have not found any

  • This also demonstrates the easiest way to disable ADL: use a typedef to import the type from a namespace that doesn't have any functions. godbolt.org/z/PmmgZs – sudo rm -rf slash Nov 11 at 21:53
  • 1
    @sudorm-rfslash, thanks. Immediately when i saw your example I wanted to get rid of "using". How about this : godbolt.org/z/fT7gVf – Stefan Karlsson Nov 12 at 8:12
9

The feature that is confusing you is called ADL (argument dependent lookup)

From cppreference:

Argument-dependent lookup, also known as ADL, or Koenig lookup, is the set of rules for looking up the unqualified function names in function-call expressions, including implicit function calls to overloaded operators. These function names are looked up in the namespaces of their arguments in addition to the scopes and namespaces considered by the usual unqualified name lookup.

Argument-dependent lookup makes it possible to use operators defined in a different namespace.

In your example a2 being from the namespace ns is enough for the compiler to also consider ns when looking for print.

The interesting part of your example is that int_type is also coming from ns, though it is just a typedef and int is not declared in ns. Consider that a typedef does not introduce a new type (rather an alias). So a2 really is an int.

PS: This is not specific to Visual studio. Any compiler conforming to the standard should accept the code posted.

  • But why not a1? – acraig5075 Nov 11 at 13:32
  • @acraig5075 good question. Seems like ADL is not triggered for typedefs. a1 is just an int – formerlyknownas_463035818 Nov 11 at 13:33
  • Yes, ADL is based on the types of the arguments. ns::int_type a1; is entirely equivalent to int a1; and the type int has no "associated namespaces". – aschepler Nov 11 at 13:34
  • This seems right... all though I cant say I am happy with this design choice. Could you please add to the answer that this is (or could and should) be featured on other compilers/systems – Stefan Karlsson Nov 11 at 13:39
  • @StefanKarlsson You may find some rationale in this answer. – Daniel says reinstate Monica Nov 11 at 13:47

Not the answer you're looking for? Browse other questions tagged or ask your own question.