I'm having trouble understanding the rules behind argument-dependent (Koenig) lookup.
Consider the code below:
#include <iostream>
using namespace std;
namespace adl
{
struct Test { };
void foo1(Test const &) { cout << "ADL used (foo1)" << endl; }
void foo2(Test const &) { cout << "ADL used (foo2)" << endl; }
void foo3(Test const &) { cout << "ADL used (foo3)" << endl; }
}
struct foo1
{
foo1() { }
template<class T>
foo1(T const &) { cout << "ADL not used (foo1)" << endl; }
template<class T>
void operator()(T const &) const { cout << "ADL not used (foo3)" << endl; }
};
template<class T> void foo2(T const &)
{ cout << "ADL not used (foo2)" << endl; }
int main()
{
adl::Test t;
foo1 foo3;
(foo1(t));
(foo2(t));
(foo3(t));
}
Its output is:
ADL not used (
foo1
)
ADL used (foo2
)
ADL not used (foo3
)
I expected all of them to use ADL, but I was surprised that only some of them did.
What are the (potentially gory, I know) details behind the rules of ADL?
I understand the concept well enough, but the details are what I'm having trouble with.
Which scopes are searched, when are they searched, and when are they not searched?
Is it at all possible to tell whether ADL is used without having to look through all the #include
'd files before the given line of code? I expected functors and functions to behave the same way in terms of [not] masking ADL, but apparently they don't.
Is there any way to force ADL in cases where it is not done automatically (such as the above) and you don't know the class's namespace (e.g. in a template)?
(foo3(t));
? There is no function namedfoo3
. So ADL doesn't come into picture.foo3
will be treated as object, without any doubt, because that is what it is (which means it will call theoperator()
without any doubt)! It is just misleading names you have used in your example.foo3
? I hope I'm not the only one who finds your "Cheers and hth." ironic, because nothing you've said so far has had anything constructive in it. If you have ideas on how to improve the question then I'm all ears, but there's really no need to call me an idiot...