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I currently have a logging system that takes a char* and var args and then uses them to do a printf. This works well with C-style strings, but I'd something that's a little cleaner. Currently if I use std::stringstream I must create the stringstream outside of the logging system, and then use the char* to the string given by the stringstream. It looks something like this:

std::stringstream strStream;
strStream << "The value of x is: " << x;
logging::print( strStream.str().c_str() );

What I would like is to pass the paramaters into the function as if I was using them directly with a stringstream. Which would look something like this from the user's point of view:

logging::printStream("The value of x is: " << x);

or possibly like this:

logging::printStream("The value of x is: ", x);

Is there any way to use logging in such a way that I can use a stringstream without having to create it outside of the logging system's functions?

This is especially important because I intend to create a macro that prevents any of the function parameters from compiling in shipping builds. The macro will be useless if I have to create the stringstream outside of it and pass it in. Technically I could make a macro that does the stringstream stuff I'm talking about in this question, but that's pretty messy as I won't always be using stringstreams with this logging, so I would have a macro for the standard logging, and a different macro for using stringstreams that within it calls the macro for standard logging.

share|improve this question
You could use variadic templates(instead of var args), and std::cout instead of printf. That way you wouldn't modify your extern code at all. – mfontanini May 29 '12 at 15:52
Log4cxx solves this elegantly, can you just use log4cxx? – Doug T. May 29 '12 at 15:52
@mfontanini: I will have to look into that. I'm not well-versed in variadic templates. DougT.: I'm not familiar with Log4cxx, but I already have a logging system in place, I'm not sure if I'd want to replace the entire thing just for this bit of functionality I'm looking for. – Nic Foster May 29 '12 at 15:58
Why don't you write a class streamLogging with a static method streamLogging::print that does what you want? – JohnB May 29 '12 at 15:58
@JohnB: I'm curious how a static class would allow me to do this. I'll still need to be able to pass a stream of variables through a function. Could you provide a small example of code? – Nic Foster May 29 '12 at 16:02
up vote 0 down vote accepted

I came up with two HACK solutions, but they should work. The first doesn't use the scope resolution operator and is safer. The second uses a noop int variable to fake out the scoping.

#define logging_printStream(token) { std::stringstream o; o << token; logging::print(o.str().c_str()); }

namespace logging { int noop; }
#define printStream(token) noop = 0; { std::stringstream o; o << token; logging::print(o.str().c_str()); }

int main(int argc, const char** argv)
    int i = 1;

    // MORE SAFE
    logging_printStream("is this magic? " << (i ? "yes" : "no"))

    // LESS SAFE
    logging::printStream("is this magic? " << (i ? "yes" : "no"))

I updated logging__printStream to logging_printStream because of Global names [global.names]

Certain sets of names and function signatures are always reserved to the implementation:

  • Each name that contains a double underscore _ _ or begins with an underscore followed by an uppercase letter (2.12) is reserved to the implementation for any use.
  • Each name that begins with an underscore is reserved to the implementation for use as a name in the global namespace.

I left the declaration of main alone because of 3.6.1

3.6.1 Main function [basic.start.main]

A program shall contain a global function called main, which is the designated start of the program. It is implementation-defined whether a program in a freestanding environment is required to define a main function. An implementation shall not predefine the main function. This function shall not be overloaded. It shall have a return type of type int, but otherwise its type is implementation-defined.

share|improve this answer
I've ended up going with a solution similar to this, despite not wanting to have to use macros. I did define my shipping version of the macro to compile to ((void)0) so that the parameters do not compile into the code. – Nic Foster May 29 '12 at 16:58
-0.5 + -0.5: Your main function is non-conforming and double-underscores are reserved to the language implementation. – Sebastian Mach Jun 1 '12 at 13:07
@phresnel I updated my sample to be standards compliant. – Jeffery Thomas Jun 1 '12 at 16:01
But main has a char*[] as the second argument, not a const char*[] – Sebastian Mach Jun 2 '12 at 4:05
@phresnel The standard explicitly states that main is implementation-defined. I've yet had a compiler fail on const char** argv. I know that const char** is not the same as char const* const* const. Personally, I think char const* const* const argv looks confusing, so I don't use it in samples. const char** argv gets the point across that argv is not to be messed with. – Jeffery Thomas Jun 2 '12 at 12:00

The following works as intended (tested -- replace output to cerr with your logging::print):


class StringstreamLogger {
    std::stringstream s;

    StringstreamLogger () : s (std::ios_base::out) {

    ~StringstreamLogger () {
    std::cerr << s.str () << std::endl; // logging::print (s.str ().c_str ());

    std::stringstream& out () {
    return s;

int main () {
    StringstreamLogger ().out () << "My log message";
    std::cerr << "Some later output to test for prompt logging (to ensure that logging is not delayed until the end of a block)" << std::endl;
share|improve this answer
Does it work if you try multiple parameters? StringstreamLogger().out() << "My log message, and a number: " << someFcnThatReturnsFive(); Does it work with a macro so that you do not evaluated anything after the initial <<? – Nic Foster May 29 '12 at 22:21
The answer to your first question: Yes. It is not clear to me what you mean by the second question. – JohnB May 30 '12 at 5:12
For example, if I use a macro such as #define Log(x) MyLogger(x), this would allow me to then, in a release build use this macro instead: #define Log(x) ((void)0), which would then mean that whatever 'x' is would get compiled out and have no run-time impact. I could probably make a macro with what you have, where 'x' becomes what is passed to StringstreamLogger().out() – Nic Foster May 31 '12 at 21:34

You can write this:

print(static_cast<std::ostringstream&>(std::ostringstream() << "The value of x is: " << x).str().c_str());

Maybe that's more to your liking?

share|improve this answer
That satisfies the requirement of having everything inside the function parameters, but that's a lot for someone to type every time they want to log something. – Nic Foster May 29 '12 at 16:09
@NicFoster: Absolutely :-) But you could take this as an inspiration for your own custom class that offers a similar interface. – Kerrek SB May 29 '12 at 16:13
I think this is the whole point of user-defined string literals to be honest. You get the conversion, but it's a lot shorter to write, and you still specify you want that conversion. – chris May 29 '12 at 16:30
I currently cannot make use of C++11, unfortunately. Trust me, I'd love to. – Nic Foster May 29 '12 at 16:32

As a starting point, you could ...

class Something {
    std::ostream& error() const { ... code to return some std::ostream ... }


int main () {
    Something something;
    something.error() << "Frobnicate" << 4;

Later you could add your own proxy-object with overloaded stream operators (which I think is still easier than writing your own stream derived from std::ostream).

Of course there's already tons of logging frameworks out there, look into them at first.

share|improve this answer
This would return a stream, but it wouldn't output it, or write it to my logging file. Something like this would work for me if I could take everything created by it and pass it to my method, inlined somehow. – Nic Foster May 29 '12 at 16:23
@NicFoster: It is an answer to your question "Is there any way to use logging in such a way that I can use a stringstream without having to create it outside of the logging system's functions?". With my solution, you wouldn't have to create a stringstream outside of your logging system, but is flexible enough that you could. – Sebastian Mach May 30 '12 at 10:41
It's a partial answer, I not only wanted something to create the stream for me, but I wanted a method I could pass the parameters into, and I wanted it to work with a macro that I could use so that the parameters would not be evaluated in some cases, like a shipping build. – Nic Foster May 31 '12 at 21:31

How about a custom type that overloads the output streaming operator?

struct logger
    std::stringstream ss_;

    template <typename T>
    friend logger& operator << (logger& l, T const& t) 
    #ifdef DEBUG_MODE
        l.ss_ << t;

        return l;

    #ifdef DEBUG_MODE
        // output ss_.str().c_str() to your logger.

And then whenever you need to log output just

logger log;
log << "Log this stuff: " << x << '\n';
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