Why doesn't it work
I'd expect the compiler to resolve f()
by the iterator type. Apparently, it (gcc 4.1.2) doesn't do it.
It'd be great if that were the case! However, for_each
is a function template, declared as:
template <class InputIterator, class UnaryFunction>
UnaryFunction for_each(InputIterator, InputIterator, UnaryFunction );
Template deduction needs to select a type for UnaryFunction
at the point of the call. But f
doesn't have a specific type - it's an overloaded function, there are many f
s each with different types. There is no current way for for_each
to aid the template deduction process by stating which f
it wants, so template deduction simply fails. In order to have the template deduction succeed, you need to do more work on the call site.
Generic solution to fixing it
Hopping in here a few years and C++14 later. Rather than use a static_cast
(which would allow template deduction to succeed by "fixing" which f
we want to use, but requires you to manually do overload resolution to "fix" the correct one), we want to make the compiler work for us. We want to call f
on some args. In the most generic way possible, that's:
[&](auto&&... args) -> decltype(auto) { return f(std::forward<decltype(args)>(args)...); }
That's a lot to type, but this sort of problem comes up annoyingly frequently, so we can just wrap that in a macro (sigh):
#define AS_LAMBDA(func) [&](auto&&... args) -> decltype(func(std::forward<decltype(args)>(args)...)) { return func(std::forward<decltype(args)>(args)...); }
and then just use it:
void scan(const std::string& s) {
std::for_each(s.begin(), s.end(), AS_LAMBDA(f));
}
This will do exactly what you wish the compiler did - perform overload resolution on the name f
itself and just do the right thing. This will work regardless of whether f
is a free function or a member function.