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I'm writing a simple macro to show TRACE information.

This is what I'm using ,

#ifdef __DEBUG__
#define TRACE  { PrintErrorMsg("Trace exception at " __FILE__  "LineNo:"##(__LINE__) "Function: " __FUNCTION__ " " );}
#define TRACE 

This is working with FILE, but it doesn't seems to work with LINE , Any idea how could I deal with this. I already tried stringing operator too.Which is as bellow.

#ifdef __DEBUG__
#define TRACE  { PrintErrorMsg("Trace exception at " __FILE__  "LineNo:"#(__LINE__) "Function: " __FUNCTION__ " " );}
#define TRACE 

and without parms and with double parms , ex - __LINE__ or ((__LINE__)) Any idea how could I deal with this problem?

And I come up with this,

#ifdef __DEBUG__
#define ERROR_MSG_BUF_SIZE 1024
#define TRACE  { char * error_msg_buffer = new char[ERROR_MSG_BUF_SIZE]; \
                 sprintf(error_msg_buffer,"Trace Exception at file: %s ,Line : %d , Function %s \n",__FILE__,__LINE__,__FUNCTION__);\
PrintErrorMsg(error_msg_buffer );\
delete[] error_msg_buffer;}
#define TRACE 

But I want to do it without using sprintf , just only by stringing and token pasting. Any idea?


--Thanks in advance--

share|improve this question
Why do you have parentheses around __LINE__? – David Schwartz Nov 9 '12 at 2:51
because it belongs all to __LINE__ not only to '_'. Because I refer this:… – sandun dhammika Nov 9 '12 at 2:59
Umm, __LINE__ is the token. You want #__LINE__. – David Schwartz Nov 9 '12 at 3:00
@DavidSchwartz I tried that way too, no results – sandun dhammika Nov 9 '12 at 3:04
Always tell people what "doesn't work" is. Also for your temporary fix, use std::string instead of new char[]. – GManNickG Nov 9 '12 at 3:08
up vote 5 down vote accepted

You need this kind of silliness, unfortunately.

#include <stdio.h>

#define TRACE2(f,l) printf("I am at file: " f " and line: " #l "\n")
#define TRACE1(f,l) TRACE2(f,l)
#define TRACE() TRACE1(__FILE__, __LINE__)

int main(void)

I am at file: test.cpp and line: 9
I am at file: test.cpp and line: 10

share|improve this answer
WHops man !This is crazy ! – sandun dhammika Nov 9 '12 at 3:19
Any insight for why double macro is required? – the swine Mar 9 '15 at 17:19
Because you need the macro to itself be replaced, so you need it to be processed twice. – David Schwartz Mar 10 '15 at 0:34

When you try to stringize something with #x, that x must be a macro parameter:

#define FOO #__LINE__ /* this is not okay */
#define BAR(x) #x     /* this is okay */

But you cannot simply say BAR(__LINE__), because this will pass the token __LINE__ into BAR, where it is immediately turned into a string without expansion (this is by design), giving "__LINE__". The same thing happens with the token-pasting operator ##: expansion of their operands never happens.

The solution is to add indirection. You should always have these in your codebase somewhere:

#define STRINGIZE_SIMPLE(x) #x

#define CONCAT(first, second) CONCAT_SIMPLE(first, second)
#define CONCAT_SIMPLE(first, second) first ## second

Now STRINGIZE(__LINE__) turns to STRINGIZE_SIMPLE(__LINE__) which gets fully expanded to (for example) #123, which results in "123". Phew! I leave STRINGIZE_SIMPLE around on the off chance I want the original behavior. So your code would be something like:

#include <iostream>

#define STRINGIZE_SIMPLE(x) #x

#define TRACE()                                                 \
        PrintErrorMsg("Trace exception in " __FILE__            \
                      " at line number " STRINGIZE(__LINE__)    \
                      " in function " __FUNCTION__ ".")

void PrintErrorMsg(const char* str)
    std::cout << str << std::endl;

int main()
share|improve this answer
thanks for your answer – sandun dhammika Nov 9 '12 at 3:34
This code and __FUNCTION__ is failing on Mingw64 version. I think it's a bug, and it works on visual C++. Somebody who more experienced please report it. Does you try this code with g++ ? I think __FUNCTION__ wasn't defined in mingw headers. That may be the reason. – sandun dhammika Nov 9 '12 at 3:46
@sandundhammika: __FUNCTION__ is non-standard so it's use isn't guaranteed. It's not a bug. The C99 standard (and therefore C++11) defines __func__, but as a variable, not a string literal. I believe GCC expands __FUNCTION__ to __func__, which would cause the error. You should split your function up to accept the function name as an argument, then both a string literal and the __func__ variable can be passed to it. – GManNickG Nov 9 '12 at 4:13

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