17

I'd expect in the example bellow compiler will fail to compile the code, since it doesn't know what is "find()", which defined in std namespace in algorithm header.

However this code compiles on RHEL 5.3 with gcc 4.1.2.

What do I miss?

#include <string>    
#include <algorithm>

int main()
{
    std::string s;
    find(s.begin(), s.end(), 'a');  // should not compile
}
2

1 Answer 1

27

This works due to Argument Dependent Lookup. The function-template is searched in the namespace of the arguments types. In this case, the arguments are std::string::iterator, so the function is searched in the namespace std.

11
  • +1 — ADL begins to make more sense in some contexts: Extending boost::hash_value, for example, can be done using ADL.
    – Thanatos
    May 19, 2011 at 8:28
  • 2
    Aka Koenig lookup. dimba: if you want to prove this to yourself, you can see that ::find won't get a match in the global namespace, and given char a[1], find(&a[0], &a[0], 'a') won't find the std::find() template.... May 19, 2011 at 8:29
  • 6
    Just to elaborate on why ADL exists, the "primary" justification for ADL is so that operators work naturally. given two std::string objects s1 and s2, you want to be able to concatenate them with s1 + s2. Without ADL, you'd have to write std::operator+(s1, s2). But it has turned out to be a very useful mechanism for other cases as well
    – jalf
    May 19, 2011 at 8:41
  • Another good example for how ADL can be used to customize the Standard Library is shown here. May 19, 2011 at 8:44
  • @jalf: Is that example really sound? As far as I can see (which isn't very far tonight - got to stop playing stupid games until 4am), a global ::operator+(const std::string&, const std::string&) could be matched anyway. So, it's more about finding the right find() despite other unrelated find()s in intervening namespaces associated with the calling code.... May 19, 2011 at 9:28

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