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Is it possible to use POSIX functions even in strict std=c89? When I try to compile executable on Linux in strict ANSI C mode, both gcc and clang know nothing about functions like readlink or realpath, though headers are included. Since I have to use POSIX functions even in ANSI C mode, I'm looking for way to do it. I've thought about dlsym, but I don't know which library I'll have to open. Such calls are surrounded with #ifdef's, so they won't rise an alarm on the other system. Cross-platform solution needed. Thanks in advance!

  • This doesn't make much sense. You're asking if you can somehow treat POSIX functions as if they were standard C functions. Well... no, because they're not standard C functions and you won't have them on other platforms. By using POSIX functions your code is no longer able to be compiled by any C compiler on any platform. There are of course alternatives, like cygwin on Windows, but you're going to have to plan for that. – Ed S. Feb 18 '14 at 23:40
  • I understand the root of the problem; I'm just want to know if some way exists to use such functions dynamically. – ghostmansd Feb 18 '14 at 23:42
  • I mean... they either exist when compiling or they don't. That's why things like cygwin exist. – Ed S. Feb 18 '14 at 23:45
  • C89 is a language and Posix is a library written in that language... what's the question? – Kerrek SB Feb 18 '14 at 23:45
  • Such calls are done for POSIX systems and the corresponding system-specific functions are surrounded with #ifdef sections. On Windows I use their own API. I'm just writing a set of function wrappers to improve cross-platformness of the library. – ghostmansd Feb 18 '14 at 23:46
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You're looking for "feature-test macros". See the Single Unix Specification, Issue 6: System Interfaces Chapter 2.2, "The Compilation Environment"

Edit:

To quote that page:

The _POSIX_C_SOURCE Feature Test Macro

A POSIX-conforming application should ensure that the feature test macro _POSIX_C_SOURCE is defined before inclusion of any header.

GCC and clang currently define _POSIX_C_SOURCE for you by default unless one of c89, c99, c11, or any behaviorally equivalent string is passed to the compiler's -std option.

Additionally:

The _XOPEN_SOURCE Feature Test Macro

An XSI-conforming application should ensure that the feature test macro _XOPEN_SOURCE is defined with the value 600 before inclusion of any header. This is needed to enable the functionality described in The _POSIX_C_SOURCE Feature Test Macro and in addition to enable the XSI extension.

In other words, to guarantee your program (a.k.a. application) can use POSIX, either #define _POSIX_C_SOURCE 200112L before any header is included or pass the -D_POSIX_C_SOURCE=200112L option to the compiler. For the XSI functionality, you must define _XOPEN_SOURCE to a value of 600.

There is also a newer version of the Single Unix Specification — Issue 7. Very similar text can be found in Issue 7. The only real differences with respect to the text above are the numbers for _POSIX_C_SOURCE and _XOPEN_SOURCE have been changed.

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At least when a combination of gcc and glibc on linux, you can turn on non standard functions (e.g. those defined by posix) with #define's , see man feature_test_macros

e.g. #define _POSIX_C_SOURCE 200809L before including any header files, or by adding it to the compiler arguments:

gcc -std=c99 -D_POSIX_C_SOURCE=200809L ... 
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