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standards(5)	      Standards, Environments, and Macros	  standards(5)

NAME
       standards,  ANSI,  C,  C++,  ISO,  POSIX, POSIX.1, POSIX.2, SUS, SUSv2,
       SUSv3, SVID, SVID3, XNS, XNS4, XNS5, XPG, XPG3, XPG4,  XPG4v2  -	 stan‐
       dards and specifications supported by Solaris

DESCRIPTION
       Solaris 10 supports IEEE Std 1003.1 and IEEE Std 1003.2, commonly known
       as POSIX.1 and POSIX.2, respectively. The following  table  lists  each
       version	of  these  standards with a brief description and the SunOS or
       Solaris release that first conformed to it.

       POSIX Standard		   Description		      Release
       ─────────────────────────────────────────────────────────────────
       POSIX.1-1988	system interfaces and headers	    SunOS 4.1
       ─────────────────────────────────────────────────────────────────
       POSIX.1-1990	POSIX.1-1988 update		    Solaris 2.0
       ─────────────────────────────────────────────────────────────────
       POSIX.1b-1993	realtime extensions		    Solaris 2.4
       ─────────────────────────────────────────────────────────────────
       POSIX.1c-1996	threads extensions		    Solaris 2.6
       ─────────────────────────────────────────────────────────────────
       POSIX.2-1992	shell and utilities		    Solaris 2.5
       ─────────────────────────────────────────────────────────────────
       POSIX.2a-1992	interactive shell and utilities	    Solaris 2.5
       ─────────────────────────────────────────────────────────────────
       POSIX.1-2001	POSIX.1-1990,	   POSIX.1b-1993,   Solaris 10
			POSIX.1c-1996,	POSIX.2-1992, and
			POSIX.2a-1992 updates

       Solaris 10 also	supports the X/Open  Common  Applications  Environment
       (CAE)  Portability Guide Issue 3 (XPG3) and Issue 4 (XPG4); Single UNIX
       Specification (SUS, also known as XPG4v2); Single  UNIX	Specification,
       Version	2  (SUSv2);  and Single UNIX Specification, Version 3 (SUSv3).
       Both XPG4 and SUS include Networking Services  Issue  4	(XNS4).	 SUSv2
       includes Networking Services Issue 5 (XNS5).

       The  following  table  lists  each  X/Open  specification  with a brief
       description and the SunOS or Solaris release that  first	 conformed  to
       it.

	 X/Open CAE
       ─────────────────────────────────────────────────────────────────
	Specification		   Description		      Release
       ─────────────────────────────────────────────────────────────────
	    XPG3	superset of POSIX.1-1988 contain‐    SunOS 4.1
			ing utilities from SVID3
       ─────────────────────────────────────────────────────────────────
	    XPG4	superset     of	    POSIX.1-1990,   Solaris 2.4
			POSIX.2-1992,  and  POSIX.2a-1992
			containing  extensions	to  POSIX
			standards from XPG3
       ─────────────────────────────────────────────────────────────────

	SUS (XPG4v2)	superset  of XPG4 containing his‐   Solaris 2.6
			torical	 BSD  interfaces   widely
			used  by common application pack‐
			ages
       ─────────────────────────────────────────────────────────────────
	    XNS4	   sockets and XTI interfaces	    Solaris 2.6
       ─────────────────────────────────────────────────────────────────
	   SUSv2	superset of SUS extended to  sup‐    Solaris 7
			port		   POSIX.1b-1993,
			POSIX.1c-1996, and  ISO/IEC  9899
			(C Standard) Amendment 1
       ─────────────────────────────────────────────────────────────────
	    XNS5	superset  and  LP64-clean deriva‐    Solaris 7
			tive of XNS4.
       ─────────────────────────────────────────────────────────────────
	   SUSv3	      same as POSIX.1-2001	    Solaris 10

       The XNS4 specification is safe for use only in ILP32 (32-bit)  environ‐
       ments  and  should  not	be used for LP64 (64-bit) application environ‐
       ments. Use XNS5 or SUSv3, which have  LP64-clean	 interfaces  that  are
       portable across ILP32 and LP64 environments. Solaris releases 7 through
       10 support both the ILP32 and LP64 environments.

       Solaris releases 7 through 10 have been branded to conform to The  Open
       Group's	UNIX  98 Product Standard. Solaris 10 has been branded to con‐
       form to The Open Group's UNIX 03 Product Standard.

       Solaris releases 2.0 through 10 support the interfaces specified by the
       System  V  Interface  Definition,  Third	 Edition,  Volumes 1 through 4
       (SVID3).	 Note, however, that since the developers of  this  specifica‐
       tion  (UNIX  Systems  Laboratories) are no longer in business and since
       this specification defers to POSIX and X/Open CAE specifications, there
       is  some	 disagreement about what is currently required for conformance
       to this specification.

       When Oracle Solaris  Studio  12.3  C  Compiler  is  installed,  Solaris
       releases	 2.0  through 10 support the ANSI X3.159-1989 Programming Lan‐
       guage - C and ISO/IEC 9899:1990 Programming Language  -	C  (C)	inter‐
       faces.

       When  Oracle  Solaris  Studio  12.3  C  Compiler	 is installed, Solaris
       releases 7 through 10 support ISO/IEC  9899:1990	 Amendment  1:1995:  C
       Integrity.

       When  Oracle  Solaris  Studio  12.3 C Compiler is installed, Solaris 10
       supports ISO/IEC 9899:1999 Programming Languages - C.

       When Oracle Solaris Studio 12.3	C++  Compiler  is  installed,  Solaris
       releases	 2.5.1	through 10 support ISO/IEC 14882:1998 Programming Lan‐
       guages - C++.  Unsupported features of that standard are	 described  in
       the compiler README file.

   Utilities
       If the behavior required by POSIX.2, POSIX.2a, XPG4, SUS, or SUSv2 con‐
       flicts with historical Solaris utility behavior, the  original  Solaris
       version	of  the	 utility is unchanged; a new version that is standard-
       conforming has been provided in /usr/xpg4/bin. If the behavior required
       by  POSIX.1-2001	 or  SUSv3  conflicts  with historical Solaris utility
       behavior, a new version that is standard-conforming has	been  provided
       in  /usr/xpg4/bin  or  in  /usr/xpg6/bin.  If  the behavior required by
       POSIX.1-2001 or SUSv3 conflicts with POSIX.2, POSIX.2a, SUS, or	SUSv2,
       a  new  version	that is SUSv3 standard-conforming has been provided in
       /usr/xpg6/bin.

       An application that wants to use standard-conforming utilitues must set
       the  PATH  (sh(1)  or  ksh(1)) or path (csh(1)) environment variable to
       specify the directories listed below in the order specified to get  the
       appropriate utilities:

       SVID3, XPG3

	       1.     /usr/ccs/bin

	       2.     /usr/bin

	       3.     directory containing binaries for your compiler

	       4.     other  directories  containing  binaries	needed	by the
		      application

       POSIX.2, POSIX.2a, SUS, SUSv2, XPG4

	       1.     /usr/xpg4/bin

	       2.     /usr/ccs/bin

	       3.     /usr/bin

	       4.     directory containing binaries for your compiler

	       5.     other directories	 containing  binaries  needed  by  the
		      application

       POSIX.1-2001, SUSv3

	       1.     /usr/xpg6/bin

	       2.     /usr/xpg4/bin

	       3.     /usr/ccs/bin

	       4.     /usr/bin

	       5.     directory containing binaries for your compiler

	       6.     other  directories  containing  binaries	needed	by the
		      application

       When an application uses execlp() or execvp() (see exec(2)) to  execute
       a shell file, or uses system(3C), the shell used to interpret the shell
       file depends on the standard to which the caller conforms:

			Standard			Shell Used
       ───────────────────────────────────────────────────────────────
       1989 ANSI  C,  1990  ISO	 C,  1999  ISO	C,   /usr/xpg4/bin/sh
       POSIX.1	(1990-2001),  SUS,  SUSv2,  SUSv3,
       XPG4
       POSIX.1 (1988), SVID3,  XPG3,  no  standard   /usr/bin/sh
       specified

   Feature Test Macros
       Feature	test  macros  are  used by applications to indicate additional
       sets of features that are desired beyond those specified by the C stan‐
       dard.  If an application uses only those interfaces and headers defined
       by a particular standard (such as POSIX or X/Open CAE),	then  it  need
       only  define the appropriate feature test macro specified by that stan‐
       dard. If the application is using interfaces and headers not defined by
       that  standard,	then  in addition to defining the appropriate standard
       feature test  macro,  it	 must  also  define  __EXTENSIONS__.  Defining
       __EXTENSIONS__  provides	 the application with access to all interfaces
       and headers not in conflict with the specified standard.	 The  applica‐
       tion  must  define __EXTENSIONS__ either on the compile command line or
       within the application source files.

   1989 ANSI C, 1990 ISO C, 1999 ISO C
       No feature test macros need to be defined to indicate that an  applica‐
       tion is a conforming C application.

   ANSI/ISO C++
       ANSI/ISO	 C++  does not define any feature test macros. If the standard
       C++ announcement macro __cplusplus is predefined	 to  value  199711  or
       greater,	 the compiler operates in a standard-conforming mode, indicat‐
       ing C++ standards conformance. The value 199711	indicates  conformance
       to  ISO/IEC 14882:1998, as required by that standard.  (As noted above,
       conformance to the standard is incomplete.)  A standard-conforming mode
       is not available with compilers prior to Sun WorkShop C++ 5.0.

       C++  bindings  are  not	defined for POSIX or X/Open CAE, so specifying
       feature	test  macros  such  as	_POSIX_SOURCE,	_POSIX_C_SOURCE,   and
       _XOPEN_SOURCE  can  result  in  compilation  errors  due to conflicting
       requirements of standard C++ and those specifications.

   POSIX
       Applications that are intended to be  conforming	 POSIX.1  applications
       must  define  the  feature test macros specified by the standard before
       including any headers.  For the standards  listed  below,  applications
       must  define  the feature test macros listed.  Application writers must
       check the corresponding standards for other macros that can be  queried
       to determine if desired options are supported by the implementation.

	     POSIX Standard		     Feature Test Macros
       ──────────────────────────────────────────────────────────────────
       POSIX.1-1990		     _POSIX_SOURCE
       ──────────────────────────────────────────────────────────────────
       POSIX.1-1990	       and   _POSIX_SOURCE and _POSIX_C_SOURCE=2
       POSIX.2-1992	C-Language
       Bindings Option
       POSIX.1b-1993		     _POSIX_C_SOURCE=199309L
       ──────────────────────────────────────────────────────────────────
       POSIX.1c-1996		     _POSIX_C_SOURCE=199506L
       ──────────────────────────────────────────────────────────────────
       POSIX.1-2001		     _POSIX_C_SOURCE=200112L

   SVID3
       The  SVID3  specification  does	not specify any feature test macros to
       indicate that an application is written	to  meet  SVID3	 requirements.
       The  SVID3  specification  was  written	before the C standard was com‐
       pleted.

   X/Open CAE
       To build or compile an application that conforms to one of  the	X/Open
       CAE specifications, use the following guidelines. Applications need not
       set the POSIX feature test macros if they require both  CAE  and	 POSIX
       functionality.

       XPG3	       The   application   must	  define   _XOPEN_SOURCE.   If
		       _XOPEN_SOURCE is defined with a value, the  value  must
		       be less than 500.

       XPG4	       The  application	 must  define  _XOPEN_SOURCE  and  set
		       _XOPEN_VERSION=4. If _XOPEN_SOURCE is  defined  with  a
		       value, the value must be less than 500.

       SUS (XPG4v2)    The  application	 must  define  _XOPEN_SOURCE  and  set
		       _XOPEN_SOURCE_EXTENDED=1. If _XOPEN_SOURCE  is  defined
		       with a value, the value must be less than 500.

       SUSv2	       The application must define _XOPEN_SOURCE=500.

       SUSv3	       The application must define _XOPEN_SOURCE=600.

   Compilation
       A POSIX.1 (1988-1996)-, XPG4-, SUS-, or SUSv2-conforming implementation
       must include an ANSI X3.159-1989 (ANSI C Language)  standard-conforming
       compilation  system  and	 the  cc and c89 utilities. A POSIX.1-2001- or
       SUSv3-conforming implementation	must  include  an  ISO/IEC  99899:1999
       (1999  ISO  C  Language) standard-conforming compilation system and the
       c99 utility. Solaris 10 was tested with the cc, c89, and c99  utilities
       and  the compilation environment provided by Oracle Solaris Studio 12.3
       C Compiler.

       When cc is used to link applications,  /usr/lib/values-xpg4.o  must  be
       specified  on  any  link/load  command  line, unless the application is
       POSIX.1-2001- or SUSv3-conforming, in which case /usr/lib/values-xpg6.o
       must  be	 specified on any link/load compile line. The preferred way to
       build applications, however, is described in the table below.

       An XNS4- or XNS5-conforming application must  include  -l  XNS  on  any
       link/load  command line in addition to defining the feature test macros
       specified for SUS or SUSv2, respectively.

       If the compiler suppports the redefine_extname pragma feature (the Ora‐
       cle  Solaris  Studio 12.3 C Compiler and the Oracle Solaris Studio 12.3
       C++ Compiler define the	macro  __PRAGMA_REDEFINE_EXTNAME  to  indicate
       that  it	 supports this feature), then the standard headers use #pragma
       redefine_extname directives to properly map function names onto library
       entry point names. This mapping provides full support for ISO C, POSIX,
       and X/Open namespace reservations.

       If this pragma feature is not supported by the  compiler,  the  headers
       use the #define directive to map internal function names onto appropri‐
       ate library entry point names. In this  instance,  applications	should
       avoid  using  the  explicit  64-bit  file  offset symbols listed on the
       lf64(5) manual page, since these names are used by  the	implementation
       to name the alternative entry points.

       When using Oracle Solaris Studio 12.3 C Compiler, applications conform‐
       ing to the specifications listed above should  be  compiled  using  the
       utilities and flags indicated in the following table:

	 Specification		  Compiler/Flags	 Feature Test Macros
	 _________________________________________________________________________
	 1989 ANSI C and 1990 ISO C    c89		  none
	 _________________________________________________________________________
	 1999 ISO C		       c99		  none
	 _________________________________________________________________________
	 SVID3			       cc -Xt -xc99=none  none
	 _________________________________________________________________________
	 POSIX.1-1990		       c89		  _POSIX_SOURCE
	 _________________________________________________________________________
	 POSIX.1-1990 and POSIX.2-1992 c89		  _POSIX_SOURCE	 and
	   C-Language Bindings Option			  POSIX_C_SOURCE=2
	 _________________________________________________________________________
	 POSIX.1b-1993		       c89		  _POSIX_C_SOURCE=199309L
	 _________________________________________________________________________
	 POSIX.1c-1996		       c89		  _POSIX_C_SOURCE=199506L
	 _________________________________________________________________________
	 POSIX.1-2001		       c99		  _POSIX_C_SOURCE=200112L
	 _________________________________________________________________________
	 POSIX.1c-1996		       c89		  _POSIX_C_SOURCE=199506L
	 _________________________________________________________________________
	 CAE XPG3		       cc -Xa -xc99=none  _XOPEN_SOURCE
	 _________________________________________________________________________
	 CAE XPG4		       c89		  _XOPEN_SOURCE and
							  _XOPEN_VERSION=4
	 _________________________________________________________________________
	 SUS (CAE XPG4v2)	       c89		  _XOPEN_SOURCE and
	   (includes XNS4)				   _XOPEN_SOURCE_EXTENDED=1
	 _________________________________________________________________________
	 SUSv2 (includes XNS5)	       c89		  _XOPEN_SOURCE=500
	 _________________________________________________________________________
	 SUSv3			       c99		  _XOPEN_SOURCE=600

       For  platforms  supporting  the	LP64 (64-bit) programming environment,
       SUSv2-conforming LP64 applications using XNS5 library calls  should  be
       built with command lines of the form:

	 c89 $(getconf XBS5_LP64_OFF64_CFLAGS) -D_XOPEN_SOURCE=500 \
	     $(getconf XBS5_LP64_OFF64_LDFLAGS) foo.c -o foo \
	     $(getconf XBS5_LP64_OFF64_LIBS) -lxnet

       Similar SUSv3-conforming LP64 applications should be built with command
       lines of the form:

	 c99 $(getconf POSIX_V6_LP64_OFF64_CFLAGS) -D_XOPEN_SOURCE=600 \
	     $(getconf POSIX_V6_LP64_OFF64_LDFLAGS) foo.c -o foo \
	     $(getconf POSIX_V6_LP64_OFF64_LIBS) -lxnet

   SUSv3
       c99			   _XOPEN_SOURCE=600

SEE ALSO
       csh(1), ksh(1), sh(1), exec(2),	sysconf(3C),  system(3C),  environ(5),
       lf64(5)

SunOS 5.10			  20 Sep 2012			  standards(5)
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