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I have stumbled on a weird behavior that I just could not explain at first (see ideone):

#include <iostream>
#include <sstream>
#include <string>

int main() {
  std::cout << "Reference     : "
            << (void const*)"some data"
            << "\n";

  std::ostringstream s;
  s << "some data";
  std::cout << "Regular Syntax: " << s.str() << "\n";

  std::ostringstream s2;
  std::cout << "Semi inline   : "
            << static_cast<std::ostringstream&>(s2 << "some data").str()
            << "\n";

  std::cout << "Inline        : "
            << dynamic_cast<std::ostringstream&>(
                 std::ostringstream() << "some data"
            << "\n";

Gives the output:

Reference     : 0x804a03d
Regular Syntax: some data
Semi inline   : some data
Inline        : 0x804a03d

Surprisingly, in the last cast we have the address, and not the content!

Why is that so ?

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3 Answers 3

up vote 13 down vote accepted

The expressionstd::ostringstream() creates a temporary, and operator<< which takes const char* as argument is a free function, but this free function cannot be called on a temporary, as the type of the first parameter of the function is std::ostream& which cannot be bound to temporary object.

Having said that, <<std::ostringstream() << "some data" resolves to a call to a member function which is overloaded for void* which prints the address. Note that a member function can be invoked on the temporary.

In order to call the free function, you need to convert temporary (which is rvalue) into a lvalue, and here is one trick that you can do:

 std::cout << "Inline        : "
            << dynamic_cast<std::ostringstream&>(
                 std::ostringstream().flush() << "some data"
            << "\n";

That is, std::ostringstream().flush() returns std::ostream& which means, now the free function can called, passing the returned reference as first argument.

Also, you don't need to use dynamic_cast here, for the type of the object is pretty much known, and so you can use static_cast.

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Exact! Took me an hour to figure it out :x I've posted my investigation below... and somehow wish I had ask earlier (though it would not have been as educative). –  Matthieu M. Nov 27 '11 at 16:57
Wow! Your workaround is neater than mine. Definitely one of those days when I want to bash Stroustrup on the head for ruling out binding to non-const :x –  Matthieu M. Nov 27 '11 at 17:03
@MatthieuM. : Kerrek and I had a small discussion on this. If you're interested, read the comments here (the comments on my answer). There are other work around as well, but using flush is better than the rest. –  Nawaz Nov 27 '11 at 17:05
@FreakEnum: You cannot write this : A & a = A(), as the expression A() creates a temporary object of type A, but non-const reference (on the left-side of assignment) cannot be bound to the temporary, according to the language specification. But once you make it a const reference, then the binding is possible; that is, you can write this : A const & a = A(). Similarly, std::ostream& is a non-const reference which cannot be bound to the temporary object created out of the expression std::ostringstream(). –  Nawaz Dec 8 '11 at 4:14
Thanks a lot for explanation, Got the concept :) –  Mr.Anubis Dec 8 '11 at 10:34

A temporary cannot bind to a reference to non-const formal argument.

Therefore, the non-member << is not picked up.

You get the void* version instead.

C++11 fixes this by adding a non-member rvalue stream inserter function,

§ Rvalue stream insertion
template <class charT, class traits, class T>
basic_ostream<charT, traits>&
operator<<(basic_ostream<charT, traits>&& os, const T& x);

1 Effects: os << x
2 Returns: os

Cheers & hth.

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Ah thanks for this, I didn't know they had solved the issue in C++11. It's incredible how adding the rvalue references/move semantics simplifies life. –  Matthieu M. Nov 27 '11 at 17:30
@Matthieu: Sadly, other subtle issues crept in because of these, and it seems there is no really satisfactory solution for these nasty temporary streams. –  Xeo Mar 9 '12 at 8:17
@Xeo: yes, already saw (and upvoted) these :) I really like the defect Howard linked to (well, its proposed resolution at least). –  Matthieu M. Mar 9 '12 at 8:24

To get the started, the simplest solution is to get the list of possible overloads that the compiler considered, for example trying this:

X x;
std::cout << x << "\n";

where X is a type without any overload for streaming which yields the following list of possible overloads:

prog.cpp: In function ‘int main()’:
prog.cpp:21: error: no match for ‘operator<<’ in ‘std::cout << x’
include/ostream:112: note: candidates are: std::ostream& std::ostream::operator<<(std::ostream& (*)(std::ostream&))
include/ostream:121: note:                 std::ostream& std::ostream::operator<<(std::basic_ios<_CharT, _Traits>& (*)(std::basic_ios<_CharT, _Traits>&))
include/ostream:131: note:                 std::ostream& std::ostream::operator<<(std::ios_base& (*)(std::ios_base&))
include/ostream:169: note:                 std::ostream& std::ostream::operator<<(long int)
include/ostream:173: note:                 std::ostream& std::ostream::operator<<(long unsigned int)
include/ostream:177: note:                 std::ostream& std::ostream::operator<<(bool)
include/bits/ostream.tcc:97: note:         std::ostream& std::ostream::operator<<(short int)
include/ostream:184: note:                 std::ostream& std::ostream::operator<<(short unsigned int)
include/bits/ostream.tcc:111: note:        std::ostream& std::ostream::operator<<(int)
include/ostream:195: note:                 std::ostream& std::ostream::operator<<(unsigned int)
include/ostream:204: note:                 std::ostream& std::ostream::operator<<(long long int)
include/ostream:208: note:                 std::ostream& std::ostream::operator<<(long long unsigned int)
include/ostream:213: note:                 std::ostream& std::ostream::operator<<(double)
include/ostream:217: note:                 std::ostream& std::ostream::operator<<(float)
include/ostream:225: note:                 std::ostream& std::ostream::operator<<(long double)
include/ostream:229: note:                 std::ostream& std::ostream::operator<<(const void*)
include/bits/ostream.tcc:125: note:        std::ostream& std::ostream::operator<<(std::basic_streambuf<_CharT, _Traits>*)

First scanning this list, we can remark that char const* is conspiscuously absent, and therefore it is logical that void const* will be selected instead and thus the address printed.

On a second glance, we note that all overloads are methods, and that not a single free function appears here.

The issue is a problem of reference binding: because a temporary cannot bind to a reference to non-const, overloads of the form std::ostream& operator<<(std::ostream&,X) are rejected outright and only member functions remain.

It is, as far as I am concerned, a design bug in C++, after all we are executing a mutating member function on a temporary, and this requires a (hidden) reference to the object :x

The workaround, once you understood what went awry, is relatively simple and only requires a small wrapper:

struct Streamliner {
  template <typename T>
  Streamliner& operator<<(T const& t) {
    _stream << t;
    return *this;

  std::string str() const { return _stream.str(); }
  std::ostringstream _stream;

std::cout << "Inline, take 2: " << (Streamliner() << "some data").str() << "\n";

Which prints the expected result.

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