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As in this question, I'm experimenting to stream via a class using SBRM/RAII, so

SBRM(x) << "test";

could do some extra's in the destructor, but my template knowledge seems to be limited.

What I have (made simpler for clarity) is:

#include <iostream>
#include <sstream>

class SBRM
  SBRM(int j) : i(j) {}
  ~SBRM() { std::cout << "SBRM(" << i << "): " << oss.str() << std::endl; }

  template<typename T> SBRM& operator<<(T& in) { oss << in; return *this; }
  // SBRM& operator<<(const long long& in) { oss << std::hex << "0x" << in; return *this; }
  SBRM& operator<<(const double& in) { oss << in; return *this; }
  SBRM& operator<<(const void* in) { oss << in; return *this; }

  int i;
  std::ostringstream oss;

int main()
  std::string ttt = "world";
  const int i = 3;
  SBRM(1) << "Hello";
  SBRM(2) << ttt;
  SBRM(3) << 0x1234567890123ll; 
  SBRM(4) << &i;
  SBRM(5) << 5;
  SBRM(6) << 0.23;
  SBRM(7) << i;
  SBRM(8) << 5 << ", " << ttt << ", " << &i;

This sort of works:

SBRM(1): Hello
SBRM(2): world
SBRM(3): 3.20256e+14
SBRM(4): 0xbf8ee444
SBRM(5): 5
SBRM(6): 0.23
SBRM(7): 3
SBRM(8): 5, world, 0xbf8ee444

but my main concern is: why does the compiler require me to overload the template when using (non-string) literals?
Are there any tricks to avoid this or am I taking a wrong approach? Other suggestions are welcome because I now resorted to using a macro for

NOT_QUITE_SBRM_MACRO(3, "At least, " << 5 << ", this works");

The issue is seen with gcc 4.1.2. and 4.4.3. Without the overloaded functions, I get:

sbrm-stream.cpp: In function ‘int main()’:
sbrm-stream.cpp:27: error: no match for ‘operator<<’ in ‘SBRM(3) << 320255973458211ll’
sbrm-stream.cpp:10: note: candidates are: SBRM& SBRM::operator<<(T&) [with T = long long int]
sbrm-stream.cpp:28: error: no match for ‘operator<<’ in ‘SBRM(4) << & i’
sbrm-stream.cpp:10: note: candidates are: SBRM& SBRM::operator<<(T&) [with T = const int*]
share|improve this question
up vote 12 down vote accepted

Because you’re expecting a non-const argument and literals can never be treated as such. Make the argument const and your troubles will go away:

template<typename T> SBRM& operator<<(T const& in) { oss << in; return *this; }

And as David has mentioned in his comment, you need overloads when using manipulators such as endl. Here’s a shot at them:

SBRM& operator <<(std::ostream& (*manip)(std::ostream&)) {
    oss << manip; // alternatively: manip(os);
    return *this;

// same for:

ostream& operator <<(ios& (*manip)(ios&));
ostream& operator <<(ios_base& (*manip)(ios_base&));

This covers all the parameterless manipulators.

I’m not actually sure how the parametrized manipulators from <iomanip> work but they seem to return a proxy object that can use the generic operator << variant.

share|improve this answer
long question, simple answer, but it works. Thanks – stefaanv Nov 5 '10 at 13:58
@stefaanv: it's always much more difficult to spot issues in the heat of things :) By the way, when passing by reference / pointer always try to use const, and only remove it when you really need to. It is also possible here to use typename boost::call_traits<T>::param_type to get either pass by value or pass by reference depending on what's most efficient (ie, built-in get passed by value). Check out: – Matthieu M. Nov 5 '10 at 14:14
You will still need to provide overloads if you want to handle manipulators, but that only adds 3 overloads with function pointers (maybe they can be templated into a single one, but I am not sure about that) – David Rodríguez - dribeas Nov 5 '10 at 14:16
+1 for this answer. This looks like a question that was inspired by's broken page about operator<< – Johannes Schaub - litb Nov 5 '10 at 21:10

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