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How can I detect the operating system in C/C++?

How can I find out what operating system I am running under in GCC or in ANSI C?

I'd be fine If I can know if I'm running on POSIX.


It doesn't make a difference to me whether it is at compile time or run time. I'm using this in a debug routine, so performance isn't that important.

I'm looking for the path separator. Windows & Unix/Linux/BSD would be fine.

And, I'm trying to find the basename on a path. I found some solutions, but the solutions include a lot of includes which I do not want. I'm going to mod up this solution.

I'm on Mac OS X 10.4.11, and following this URL, I executed and got the following output:

mac $ touch myfile.c
mac $ gcc -std=c99 -E -dM myfile.c
#define __DBL_MIN_EXP__ (-1021)
#define __FLT_MIN__ 1.17549435e-38F
#define __CHAR_BIT__ 8
#define __WCHAR_MAX__ 2147483647
#define __DBL_DENORM_MIN__ 4.9406564584124654e-324
#define __FLT_EVAL_METHOD__ 0
#define __DBL_MIN_10_EXP__ (-307)
#define __FINITE_MATH_ONLY__ 0
#define __GNUC_PATCHLEVEL__ 1
#define __SHRT_MAX__ 32767
#define __LDBL_MAX__ 1.79769313486231580793728971405301e+308L
#define __APPLE_CC__ 5367
#define __UINTMAX_TYPE__ long long unsigned int
#define __LDBL_MAX_EXP__ 1024
#define __SCHAR_MAX__ 127
#define __USER_LABEL_PREFIX__ _
#define __STDC_HOSTED__ 1
#define __LDBL_HAS_INFINITY__ 1
#define __DBL_DIG__ 15
#define __FLT_EPSILON__ 1.19209290e-7F
#define __LDBL_MIN__ 2.00416836000897277799610805135016e-292L
#define __ppc__ 1
#define __strong 
#define __APPLE__ 1
#define __DECIMAL_DIG__ 33
#define __LDBL_HAS_QUIET_NAN__ 1
#define __DYNAMIC__ 1
#define __GNUC__ 4
#define __DBL_MAX__ 1.7976931348623157e+308
#define __DBL_HAS_INFINITY__ 1
#define __STRICT_ANSI__ 1
#define __weak 
#define __DBL_MAX_EXP__ 1024
#define __LONG_LONG_MAX__ 9223372036854775807LL
#define __GXX_ABI_VERSION 1002
#define __FLT_MIN_EXP__ (-125)
#define __DBL_MIN__ 2.2250738585072014e-308
#define __DBL_HAS_QUIET_NAN__ 1
#define __REGISTER_PREFIX__ 
#define __NO_INLINE__ 1
#define _ARCH_PPC 1
#define __FLT_MANT_DIG__ 24
#define __VERSION__ "4.0.1 (Apple Computer, Inc. build 5367)"
#define __BIG_ENDIAN__ 1
#define __SIZE_TYPE__ long unsigned int
#define __FLT_RADIX__ 2
#define __LDBL_EPSILON__ 4.94065645841246544176568792868221e-324L
#define __FLT_HAS_QUIET_NAN__ 1
#define __FLT_MAX_10_EXP__ 38
#define __LONG_MAX__ 2147483647L
#define __FLT_HAS_INFINITY__ 1
#define __STDC_VERSION__ 199901L
#define _BIG_ENDIAN 1
#define __LDBL_MANT_DIG__ 106
#define __WCHAR_TYPE__ int
#define __FLT_DIG__ 6
#define __INT_MAX__ 2147483647
#define __LONG_DOUBLE_128__ 1
#define __FLT_MAX_EXP__ 128
#define __DBL_MANT_DIG__ 53
#define __WINT_TYPE__ int
#define __LDBL_MIN_EXP__ (-968)
#define __MACH__ 1
#define __LDBL_MAX_10_EXP__ 308
#define __DBL_EPSILON__ 2.2204460492503131e-16
#define __INTMAX_MAX__ 9223372036854775807LL
#define __FLT_DENORM_MIN__ 1.40129846e-45F
#define __PIC__ 1
#define __FLT_MAX__ 3.40282347e+38F
#define __FLT_MIN_10_EXP__ (-37)
#define __INTMAX_TYPE__ long long int
#define __GNUC_MINOR__ 0
#define __DBL_MAX_10_EXP__ 308
#define __LDBL_DENORM_MIN__ 4.94065645841246544176568792868221e-324L
#define __PTRDIFF_TYPE__ int
#define __LDBL_MIN_10_EXP__ (-291)
#define __LDBL_DIG__ 31
#define __POWERPC__ 1
mac $
share|improve this question
More, the existing is about detecting at compiler time, which this one seems to be about detection at runtime. Sorry for the misplaced close vote. Re-open vote issued. – dmckee Jul 5 '12 at 19:14
Reopened the question :) – user529758 Jul 5 '12 at 19:18
Do you want to determine that at runtime or compile time? – netcoder Jul 5 '12 at 19:27
But what would you do with this information? If your program has no OS dependencies it would not matter, and if it has OS dependencies you have already compiled it with the appropriate headers so you already know. (?) – src Jul 5 '12 at 19:31
So when you say "running under in GCC", do you mean whether the -std=gnuxx flag is enabled or whether the compiler is GCC? – someguy Jul 5 '12 at 19:59

3 Answers 3

up vote 15 down vote accepted

The Single UNIX Specification requires the existence of unistd.h, which can tell you the POSIX version (via the _POSIX_VERSION macro).

But how can you include unistd.h if you don't know yet that you are in fact compiling on a UNIX?

That is where this GCC document comes handy. According to it, testing for the presence, or evaluation-to-true of __unix__ should tell you that the system is a UNIX. So:

#ifdef __unix__
/* Yes it is a UNIX because __unix__ is defined.  */

#include <unistd.h>

/* You can find out the version with _POSIX_VERSION.
..  */


__unix__ is not defined on Mac OS X, so to account for that, you could instead do:

#if defined (__unix__) || (defined (__APPLE__) && defined (__MACH__))

To get a list of system specific predefined macros on your system, you may execute:

cpp -dM /dev/null

For example, my GNU/Linux system also additionally defines __linux__ and __gnu_linux__ apart from __unix__ and a bunch of other stuff.

Another useful document that you must look at is this Wiki.

It goes on to present a way of detecting the presence and version of POSIX in a way similar to the one I described above.

EDIT: Since you really want to do all this because you want to decide which directory separator to use, look at this URL. It says:

Note File I/O functions in the Windows API convert "/" to "\" as part of converting the name to an NT-style name, except when using the "\?\" prefix as detailed in the following sections.

I don't program on Windows, or know much anything about it, so I can't say I've banked on this.

share|improve this answer
Well you know that UNIX is (mostly) POSIX, but it doesn't mean non-UNIX is not POSIX though. – netcoder Jul 5 '12 at 19:27
unistd.h defines the _POSIX_* macros. UNIX is POSIX, so there's a unistd.h for sure. My point was that you could have a POSIX compliant system that is not UNIX, where __unix__ wouldn't be defined (speculations really). In short, POSIX is not UNIX. ;-) – netcoder Jul 5 '12 at 19:32
@netcoder - I went about it in the reverse way. I wanted to be sure unistd.h is there at all before I can include it and see the POSIX version. Eventually, the only 'safe' way I could see was to look for __unix__. But you are right (POSIX != UNIX), I wouldn't say it's bullet proof. – ArjunShankar Jul 5 '12 at 19:35
'Windows API convert "/" to "\"' -- Thanks for this comment. I was wondering why the windows code for finding the basename included both "/" & "\". Works out well, look for unix & if you miss a Unix, it will not be too bad. [ Just glancing at the article you reference on is reason enough for me to avoid Windows. ] – historystamp Jul 6 '12 at 16:56

It is possible to solve your problem using autoconf tool to discover the presence of unistd.h and then would add a #define HAVE_UNISTD_H 1 line in a generated config.h if unistd.h was found, but I find that autoconf is a little hard to use, and is very out-dated.

If by any chance you are using cmake, you can solve it the same way. You could create a containing something like this:

#ifndef CONFIG_H
#define CONFIG_H

#cmakedefine HAVE_UNISTD_H 1


And your project's CMakeLists.txt would look like this:


check_include_file("unistd.h" HAVE_UNISTD_H)

configure_file( config.h @ONLY)

add_executable(${PROJECT_NAME} main.c)

and then to generate from the command line:

cmake . -G"Unix Makefiles"

or generate Xcode project (OSX only):

cmake . -G"Xcode"

or generate a visual studio 2013 solution project (Windows only):

cmake . -G"Visual Studio 12 2013 Win64"

cmake generators = epic win

If your operating system is POSIX, then your generated config.h should look like this:

#ifndef CONFIG_H
#define CONFIG_H

#define HAVE_UNISTD_H 1


Otherwise, it will look like that:

#ifndef CONFIG_H
#define CONFIG_H

/* #undef HAVE_UNISTD_H */


And then you are free to your your trusted generated config.h :

#include "config.h"

#   include <unistd.h>

int main (int argc, const char * argv[])
#if defined(_POSIX_VERSION)
     /* POSIX code here */
     /* non-POSIX code here */
    return 0;
share|improve this answer

Here is what I ended up with:

#include <stdio.h>
    basename -- return pointer to last component of a pathname

Distribution: This function is in the public domain. 

Origin of function:

    char *basename (const char *name)

    Given a pointer to a string containing a typical pathname
    (/usr/src/cmd/ls/ls.c for example), returns a pointer to the
    last component of the pathname ("ls.c" in this case).

    Presumes a UNIX or DOS/Windows style path with UNIX or DOS/Windows 
    style separators.


    return pointer to last component of a pathname

    This function is in the public domain. 

Origin of function:

    char *basename (const char *name)

    Given a pointer to a string containing a typical pathname
    (/usr/src/cmd/ls/ls.c for example), returns a pointer to the
    last component of the pathname ("ls.c" in this case).

    Presumes a UNIX or DOS/Windows style path with UNIX or
    DOS/Windows style separators.
    Windows volumes are only a-zA-Z.
    The original code suggests ISALPHA.


char * basename (const char *name)
const char *base;
// predefined OS symbols

#  define DIR_SEPARATOR '/'

#ifndef DIR_SEPARATOR_2 
#  define DIR_SEPARATOR_2 '\\'

// Check if we are running Unix like os
//   else assume Windows.  Note if we guess wrong, it's not
//   so bad because Windows includes the Unix separator.
#if defined (__unix__) || (defined (__APPLE__) && defined (__MACH__))
#  define IS_DIR_SEPARATOR(ch) ((ch) == DIR_SEPARATOR)
#  define IS_DIR_SEPARATOR(ch) \
(((ch) == DIR_SEPARATOR) || ((ch) == DIR_SEPARATOR_2))
/* Skip over the disk name in MSDOS pathnames. */
if (isalpha(name[0]) && name[1] == ':') 
    name += 2;

for (base = name; *name; name++)
    if (IS_DIR_SEPARATOR (*name))
        base = name + 1;
return (char *) base;

int main (int argc, const char * argv[]) {
    /* Return the basename of a pathname. */

#define S1 "/usr/src/cmd/ls/ls.c"
#define S2 "/usr/src/cmd/ls/abc"
#define S3 "a:/usr/src/cmd/ls/def"
#define S4 "ghi"
#define S5 "jkl.txt"
#define S6 "d:\\usr\\src\\cmd\\mno.txt"
#define S7 "d:pqm.txt"

printf(S1 "  \t is %s\n",basename(S1));
printf(S2 "  \t is %s\n",basename(S2));
printf(S3 "  \t is %s\n",basename(S3));
printf(S4 "  \t is %s\n",basename(S4));
printf(S5 "  \t is %s\n",basename(S5));
printf(S6 "  \t is %s\n",basename(S6));
printf(S7 "  \t is %s\n",basename(S7));
    return 0;


share|improve this answer

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