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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;

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)?

share|improve this question
-1 This question is far too broad, and the code example really sucks (with misleading names etc.). – Cheers and hth. - Alf Jan 5 '13 at 5:45
I don't get it. Why are you experimenting with (foo3(t));? There is no function named foo3. 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 the operator() without any doubt)! It is just misleading names you have used in your example. – Nawaz Jan 5 '13 at 5:45
@Nawaz: Apparently I missed pasting that part of the code, thanks a lot for pointing it out, will fix it. (The output is indeed that ADL is not used when foo3 is included.) – Mehrdad Jan 5 '13 at 5:49
@Mehrdad: you're welcome. hopefully you learned something. next time make an effort with your question, please. – Cheers and hth. - Alf Jan 5 '13 at 5:51
@Cheersandhth.-Alf: All your rudeness just because I missed pasting the line for 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... – Mehrdad Jan 5 '13 at 5:52
up vote 5 down vote accepted

Your problem isn't really with argument dependent lookup. First of all, argument dependent lookup only possibly enters the picture when doing unqualified looking up of functions. When calling foo1(t) foo1 is a type and its templated constructor is called. Similarly, foo3(t) is a qualified lookup because foo3 is an object and the function call operator is looked up in the object's class foo1. The only place where argument lookup enters the picture is calling foo2(t) where lookup finds to candidates:

  1. ::foo2<adl::Test>(adl::Test const&)
  2. ::adl::foo2(adl::Test const&)

These two functions are handed off to overload resolution and since both functions are equally good matches the non-template function wins.

Your question are actually three questions:

  1. The gory details of name lookup are too broad and, thus, this question is a request for an essay to be written which I ignore.
  2. You second question expands to three more questions, only one seems relevant:
    1. Which scopes are searched? When looking up an unqualified function name inside a function definition the rules depend on whether any of the names is a dependent name. If there is no such name (i.e., in non-template code or in template code where the names can be determined in phase one), the name is looked up enclosing namespaces and in namespaces associated with its argument. Otherwise, the name is only looked up in the associated namespaces.
  3. Can argument dependent lookup be forced? It is always done for unqualified function lookups if there is, at least, one argument but names found otherwise may be better matches. Of course, you need to call an unqualified function otherwise it won't be done.
share|improve this answer
Still trying to understand what makes a call "unqualified". I thought "unqualified" means "with no qualifier [i.e. namespace] mentioned"... but apparently that's not the case, since none of these mention the namespaces? What does it mean for a call to be unqualified? – Mehrdad Jan 5 '13 at 18:32
When the names are looked up it first kocates the name and stops when the name is found. foo1 finds a type and looks up the constructor to call in the context of the type. Since a type was found before a function, no other namespaces are considered. Similarly for foo3 which is found to be an object for which the function call operator is looked up in the cintext of the object's type. For foo2 a function is found and the call is unqualified, i.e., namespaces associated with the arguments are searched to augment the overload set. – Dietmar Kühl Jan 5 '13 at 19:06
That's a good description of the procedure that the compiler follows, but I still don't understand what "qualified" means. You seem to be defining qualification as "whatever call that causes ADL", and then saying that ADL is done only for unqualified calls... which is true by definition, but doesn't help me understand what qualifies a call. But what makes a call qualified, exactly? How can I tell whether or not a given call is qualified? – Mehrdad Jan 5 '13 at 19:08
No, I don't think I do: unqualified is when there is no context provided. Qualified is when there is a context provided which can be a namespace, a type, or an object (possibly others as well but I can't think of any). – Dietmar Kühl Jan 5 '13 at 19:33
Hmm, interesting... thanks. – Mehrdad Jan 5 '13 at 20:10

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