Conformance of the GNU libc with various standards ================================================== The GNU libc is designed to be conformant with existing standard as far as possible. To ensure this I've run various tests. The results are presented here. Open Group's hdrchk =================== The hdrchk test suite is available from the Open Group at ftp://ftp.rdg.opengroup.org/pub/unsupported/stdtools/hdrchk/ I've last run the suite on 2004-04-17 on a Linux/x86 system running a Fedora Core 2 test 2 + updates with the following results [*]: FIPS No reported problems POSIX90 No reported problems XPG3 Prototypes are now in the correct header file ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ *** Starting unistd.h Missing: extern char * cuserid(); Missing: extern int rename(); *** Completed unistd.h ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ XPG4 Prototype is now in the correct header file and the _POSIX2_C_VERSION symbol has been removed ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ *** Starting unistd.h Missing: extern char * cuserid(); Missing: #define _POSIX2_C_VERSION (-1L) *** Completed unistd.h ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ POSIX96 Prototype moved (using "base realtime threads" subsets) ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ *** Starting unistd.h Missing: extern int pthread_atfork(); *** Completed unistd.h ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ UNIX98 Prototypes moved and _POSIX2_C_VERSION removed (using "base realtime threads mse lfs" subset) ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ *** Starting unistd.h Missing: extern char * cuserid(); Missing: #define _POSIX2_C_VERSION (-1L) Missing: extern int pthread_atfork(); *** Completed unistd.h ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ That means all the reported issues are due to the headers having been cleaned up for recent POSIX/Unix specification versions. Duplicated prototypes have been removed and obsolete symbols have been removed. Which means that as far as the tests performed by the script go, the headers files comply to the current POSIX/Unix specification. [*] Since the scripts are not clever enough for the way gcc handles include files (namely, putting some of them in gcc-local directory) I copied over the iso646.h, float.h, and stddef.h headers and ignored the problems resulting from the split limits.h file). Technical C standards conformance issues in glibc ================================================= If you compile programs against glibc with __STRICT_ANSI__ defined (as, for example, by gcc -ansi, gcc -std=c89, gcc -std=iso1990:199409 or gcc -std=c99), and use only the headers specified by the version of the C standard chosen, glibc will attempt to conform to that version of the C standard (as indicated by __STDC_VERSION__): GCC options Standard version -ansi ISO/IEC 9899:1990 -std=c89 ISO/IEC 9899:1990 -std=iso9899:199409 ISO/IEC 9899:1990 as amended by Amd.1:1995 * -std=c99 ISO/IEC 9899:1999 * glibc does not support this standard version. (Note that -std=c99 is not available in GCC 2.95.2, and that no version of GCC presently existing implements the full C99 standard.) You may then define additional feature test macros to enable the features from other standards, and use the headers defined in those standards (for example, defining _POSIX_C_SOURCE to be 199506L to enable features from ISO/IEC 9945-1:1996). There are some technical ways in which glibc is known not to conform to the supported versions of the C standard, as detailed below. Some of these relate to defects in the standard that are expected to be fixed, or to compiler limitations. Defects in the C99 standard =========================== Some defects in C99 were corrected in Technical Corrigendum 1 to that standard. glibc follows the corrected specification. Implementation of library functions =================================== The implementation of some library functions does not fully follow the standard specification: C99 added additional forms of floating point constants (hexadecimal constants, NaNs and infinities) to be recognised by strtod() and scanf(). The effect is to change the behavior of some strictly conforming C90 programs; glibc implements the C99 versions only irrespective of the standard version selected. C99 added %a as another scanf format specifier for floating point values. This conflicts with the glibc extension where %as, %a[ and %aS mean to allocate the string for the data read. A strictly conforming C99 program using %as, %a[ or %aS in a scanf format string will misbehave under glibc. Compiler limitations ==================== The macros __STDC_IEC_559__, __STDC_IEC_559_COMPLEX__ and __STDC_ISO_10646__ are properly supposed to be defined by the compiler, and to be constant throughout the translation unit (before and after any library headers are included). However, they mainly relate to library features, and the necessary magic has yet to be implemented for GCC to predefine them to the correct values for the library in use, so glibc defines them in . Programs that test them before including any standard headers may misbehave. GCC doesn't support the optional imaginary types. Nor does it understand the keyword _Complex before GCC 3.0. This has the corresponding impact on the relevant headers. glibc's use of extern inline conflicts with C99: in C99, extern inline means that an external definition is generated as well as possibly an inline definition, but in GCC it means that no external definition is generated. When GCC's C99 mode implements C99 inline semantics, this will break the uses of extern inline in glibc's headers. (Actually, glibc uses `extern __inline', which is beyond the scope of the standard, but it would clearly be very confusing for `__inline' and plain `inline' to have different meanings in C99 mode.) glibc's implementation is arcane but thought to work correctly; a clean and comprehensible version requires compiler builtins. For most of the headers required of freestanding implementations, glibc relies on GCC to provide correct versions. (At present, glibc provides , and GCC doesn't.) Implementing MATH_ERRNO, MATH_ERREXCEPT and math_errhandling in needs compiler support: see http://sources.redhat.com/ml/libc-hacker/2000-06/msg00008.html http://sources.redhat.com/ml/libc-hacker/2000-06/msg00014.html http://sources.redhat.com/ml/libc-hacker/2000-06/msg00015.html Issues with headers =================== There are various technical issues with the definitions contained in glibc's headers, listed below. The list below assumes GCC 3.3.2, and relates to i686-linux; older GCC may lead to more problems in the headers. Note that the _t suffix is reserved by POSIX, but not by pure ISO C. Also, the Single Unix Specification generally requires more types to be included in headers (if _XOPEN_SOURCE is defined appropriately) than ISO C permits. does not support AMD1; to support it, the functions fwprintf, fwscanf, wprintf, wscanf, swprintf, swscanf, vfwprintf, vwprintf, vswprintf and fwide would need to be declared when __STDC_VERSION__ >= 199409L and not just for C99.