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I have some behaviour that I do not understand. I observed this on VS2005, but IDEONE (using GCC 4.7.2) outputs basically the same.

Here's the code:

#include <iostream>
#include <string>

struct UserString {
    const char* p;
        operator const char*() const {
                std::cout << "! " << __FUNCTION__ << std::endl;
                return p;

        : p ("UserString")
        { }

struct WUserString {
        const wchar_t* p;
        operator const wchar_t*() const {
                std::cout << "! " << __FUNCTION__ << std::endl;
                return p;

        : p (L"WUserString")
        { }

int main() {
        using namespace std;
        cout << "String Literal" << endl;
        cout << string("std::string") << endl;
        cout << UserString() << endl;
        cout << static_cast<const char*>(UserString()) << endl;

        wcout << L"WString Literal" << endl;
        wcout << wstring(L"std::wstring") << endl;
        wcout << WUserString() << endl;
        wcout << static_cast<const wchar_t*>(WUserString()) << endl;

        return 0;

Here's the output:

String Literal
! operator const char*  **** "works"
UserString              ****
! operator const char*
WString Literal
! operator const wchar_t*  **** "doesn't" - op<<(void*) is used
0x80491b0                  ****
! operator const wchar_t*

What's going on here?!?

share|improve this question
Standard iostream lossage. It doesn't need your converter to accept a pointer value. You lose because that one is cheaper. –  Hans Passant Jul 5 '13 at 10:46
@HansPassant - Your comment doesn't explain why the behavior is different for char vs. wchar_t. –  Martin Ba Jul 5 '13 at 10:59

1 Answer 1

up vote 3 down vote accepted

There is a partial specialization for basic_ostream

template<class _TraitsT>
basic_ostream<char, _TraitsT>&
   operator<<(basic_ostream<char, _TraitsT>& _Stream, const char* _String);

which is a good fit for the cout << UserString() case.

There is nothing similar for wchar_t and WUserString(), so the member function

basic_ostream& operator<<(const void* _Address);

will be the best match for that (as in most "unusual" cases).

share|improve this answer
Thanks. That explains it. Do you happen to know or have a pointer as to why this partial specialization exists for char*? The asymmetry here is a bit annoying. –  Martin Ba Jul 8 '13 at 13:19
"unusual" is a nice euphemism ;-) ... IMHO, operator<<(const void* _Address); is more of a bug than a feature. I think for every case where I have used it, there are 20 cases where it's bitten me at runtime. –  Martin Ba Jul 8 '13 at 13:22
It's just history I guess, but I have no real evidence. There are several other specializations for char and char* (and even for signed char and unsigned char) that might have been thought of as chances for some optimizations, possibly. –  Bo Persson Jul 9 '13 at 9:06

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