no matching function for call to ‘
transform(__gnu_cxx::__normal_iterator<char*, std::basic_string<char, std::char_traits<char>, std::allocator<char> > >, __gnu_cxx::__normal_iterator<char*, std::basic_string<char, std::char_traits<char>, std::allocator<char> > >, std::back_insert_iterator<std::basic_string<char, std::char_traits<char>, std::allocator<char> > >, <unresolved overloaded function type>)’
This is a misleading error; the interesting part is not that there's "no matching function" for the call, but why there's no matching function.
The why is that you're passing a function reference of an "
<unresolved overloaded function type>" as an argument, and GCC prefers to error on the call rather than on this overload resolution failure.
First, you should consider how the C library is inherited in C++.
<ctype.h> has a function
C++ inherits this:
[n3290: 21.7/1]: Tables 74, 75, 76, 77, 78, and 79 describe headers
(character conversions), and
[n3290: 21.7/2]: The contents of these headers shall be the same as
the Standard C Library headers
<stdlib.h> and the C Unicode TR
<uchar.h>, respectively [..]
[n3290: 126.96.36.199/6]:Names that are defined as functions in C shall
be defined as functions in the C++ standard library.
<ctype.h> is deprecated:
[n3290: C.3.1/1]: For compatibility with the Standard C library, the
C++ standard library provides the 18 C headers (D.5), but their use is
deprecated in C++.
And the way to access the C
toupper is through the C++ backwards-compatibility header
<cctype>. For such headers, the contents are either moved or copied (depending on your implementation) into the
[n3290: 188.8.131.52/4]: [..] In the C++ standard library, however, the declarations
(except for names which are defined as macros in C) are within
namespace scope (3.3.6) of the namespace std. It is unspecified
whether these names are first declared within the global namespace
scope and are then injected into namespace std by explicit
But the C++ library also introduces a new, locale-specific function template in header
<locale>, that's also called
toupper (of course, in namespace
[n3290: 22.2]: [..]
template <class charT> charT toupper(charT c,
const locale& loc); [..]
So, when you use
std::toupper, there are two overloads to choose from. Since you didn't tell GCC which function you wish to use, the overload cannot be resolved and your call to
std::transform cannot be completed.
Now, the OP of that original question did not run into this problem. He likely did not have the locale version of
std::toupper in scope, but then again you didn't
#include <locale> either!
[n3290: 184.108.40.206]: A C++ header may include other C++ headers.
So it just so happens that either your
<iostream> or your
<algorithm>, or headers that those headers include, or headers that those headers include (etc), lead to the inclusion of
<locale> on your implementation.
There are two workarounds to this.
You may provide a conversion clause to coerce the function pointer into referring to the overload that you wish to use:
(int (*)(int))std::toupper // specific overload requested
You may remove the locale version from the overload set by explicitly using the global
::toupper // global scope
However, recall that whether or not this function in
<cctype> is available is unspecified (
[220.127.116.11/4]), and using
<ctype.h> is deprecated (
Thus, this is not the option that I would recommend.
(Note: I despise writing angle brackets as if they were part of header names — they are part of
#include syntax, not header names — but I've done it here for consistency with the FDIS quotes; and, to be honest, it is clearer...)