3 if test -f config.sh; then TOP=.;
4 elif test -f ../config.sh; then TOP=..;
5 elif test -f ../../config.sh; then TOP=../..;
6 elif test -f ../../../config.sh; then TOP=../../..;
7 elif test -f ../../../../config.sh; then TOP=../../../..;
9 echo "Can't find config.sh."; exit 1
15 */*) cd `expr X$0 : 'X\(.*\)/'` ;;
17 echo "Extracting config.h (with variable substitutions)"
18 sed <<!GROK!THIS! >config.h -e 's!^#undef\(.*/\)\*!/\*#define\1 \*!' -e 's!^#un-def!#undef!'
20 * This file was produced by running the config_h.SH script, which
21 * gets its values from config.sh, which is generally produced by
24 * Feel free to modify any of this as the need arises. Note, however,
25 * that running config_h.SH again will wipe out any changes you've made.
26 * For a more permanent change edit config.sh and rerun config_h.SH.
28 * \$Id: Config_h.U,v 3.0.1.5 1997/02/28 14:57:43 ram Exp $
32 * Package name : $package
33 * Source directory : $src
34 * Configuration time: $cf_time
35 * Configured by : $cf_by
36 * Target system : $myuname
43 * This symbol holds the complete pathname to the sed program.
45 #define LOC_SED "$full_sed" /**/
48 * This symbol, if defined, indicates that the alarm routine is
51 #$d_alarm HAS_ALARM /**/
54 * This symbol indicates the C compiler can check for function attributes,
55 * such as printf formats. This is normally only supported by GNU cc.
57 #$d_attribut HASATTRIBUTE /**/
59 #define __attribute__(_arg_)
63 * This symbol is defined if the bcmp() routine is available to
64 * compare blocks of memory.
66 #$d_bcmp HAS_BCMP /**/
69 * This symbol is defined if the bcopy() routine is available to
70 * copy blocks of memory.
72 #$d_bcopy HAS_BCOPY /**/
75 * This symbol is defined if the bzero() routine is available to
76 * set a memory block to 0.
78 #$d_bzero HAS_BZERO /**/
81 * This symbol, if defined, indicates that the chown routine is
84 #$d_chown HAS_CHOWN /**/
87 * This symbol, if defined, indicates that the chroot routine is
90 #$d_chroot HAS_CHROOT /**/
93 * This symbol, if defined, indicates that the chsize routine is available
94 * to truncate files. You might need a -lx to get this routine.
96 #$d_chsize HAS_CHSIZE /**/
99 * This symbol, if defined, indicates that this C compiler knows about
100 * the const type. There is no need to actually test for that symbol
101 * within your programs. The mere use of the "const" keyword will
102 * trigger the necessary tests.
104 #$d_const HASCONST /**/
110 * This symbol, if defined, indicates that the crypt routine is available
111 * to encrypt passwords and the like.
113 #$d_crypt HAS_CRYPT /**/
116 * This symbol, if defined, indicates that the cuserid routine is
117 * available to get character login names.
119 #$d_cuserid HAS_CUSERID /**/
122 * This symbol, if defined, indicates that this system's <float.h>
123 * or <limits.h> defines the symbol DBL_DIG, which is the number
124 * of significant digits in a double precision number. If this
125 * symbol is not defined, a guess of 15 is usually pretty good.
127 #$d_dbl_dig HAS_DBL_DIG /* */
130 * This symbol, if defined, indicates that the difftime routine is
133 #$d_difftime HAS_DIFFTIME /**/
136 * This symbol, if defined, indicates that the dlerror routine is
137 * available to return a string describing the last error that
138 * occurred from a call to dlopen(), dlclose() or dlsym().
140 #$d_dlerror HAS_DLERROR /**/
142 /* SETUID_SCRIPTS_ARE_SECURE_NOW:
143 * This symbol, if defined, indicates that the bug that prevents
144 * setuid scripts from being secure is not present in this kernel.
147 * This symbol, if defined, indicates that the C program should
148 * check the script that it is executing for setuid/setgid bits, and
149 * attempt to emulate setuid/setgid on systems that have disabled
150 * setuid #! scripts because the kernel can't do it securely.
151 * It is up to the package designer to make sure that this emulation
152 * is done securely. Among other things, it should do an fstat on
153 * the script it just opened to make sure it really is a setuid/setgid
154 * script, it should make sure the arguments passed correspond exactly
155 * to the argument on the #! line, and it should not trust any
156 * subprocesses to which it must pass the filename rather than the
157 * file descriptor of the script to be executed.
159 #$d_suidsafe SETUID_SCRIPTS_ARE_SECURE_NOW /**/
160 #$d_dosuid DOSUID /**/
163 * This symbol, if defined, indicates that the dup2 routine is
164 * available to duplicate file descriptors.
166 #$d_dup2 HAS_DUP2 /**/
169 * This symbol, if defined, indicates that the fchmod routine is available
170 * to change mode of opened files. If unavailable, use chmod().
172 #$d_fchmod HAS_FCHMOD /**/
175 * This symbol, if defined, indicates that the fchown routine is available
176 * to change ownership of opened files. If unavailable, use chown().
178 #$d_fchown HAS_FCHOWN /**/
181 * This symbol, if defined, indicates to the C program that
182 * the fcntl() function exists.
184 #$d_fcntl HAS_FCNTL /**/
187 * This symbol, if defined, indicates that the fgetpos routine is
188 * available to get the file position indicator, similar to ftell().
190 #$d_fgetpos HAS_FGETPOS /**/
193 * This symbol, if defined, indicates that the flock routine is
194 * available to do file locking.
196 #$d_flock HAS_FLOCK /**/
199 * This symbol, if defined, indicates that the fork routine is
202 #$d_fork HAS_FORK /**/
205 * This symbol, if defined, indicates that the fsetpos routine is
206 * available to set the file position indicator, similar to fseek().
208 #$d_fsetpos HAS_FSETPOS /**/
211 * This symbol, if defined, indicates that the gettimeofday() system
212 * call is available for a sub-second accuracy clock. Usually, the file
213 * <sys/resource.h> needs to be included (see I_SYS_RESOURCE).
214 * The type "Timeval" should be used to refer to "struct timeval".
216 #$d_gettimeod HAS_GETTIMEOFDAY /**/
217 #ifdef HAS_GETTIMEOFDAY
218 #define Timeval struct timeval /* Structure used by gettimeofday() */
222 * This symbol, if defined, indicates that the getgroups() routine is
223 * available to get the list of process groups. If unavailable, multiple
224 * groups are probably not supported.
226 #$d_getgrps HAS_GETGROUPS /**/
229 * This symbol, if defined, indicates that the getlogin routine is
230 * available to get the login name.
232 #$d_getlogin HAS_GETLOGIN /**/
235 * This symbol, if defined, indicates to the C program that
236 * the getpgid(pid) function is available to get the
239 #$d_getpgid HAS_GETPGID /**/
242 * This symbol, if defined, indicates that the getpgrp routine is
243 * available to get the current process group.
246 * This symbol, if defined, indicates that getpgrp needs one
247 * arguments whereas USG one needs none.
249 #$d_getpgrp HAS_GETPGRP /**/
250 #$d_bsdgetpgrp USE_BSD_GETPGRP /**/
253 * This symbol, if defined, indicates that the getpgrp2() (as in DG/UX)
254 * routine is available to get the current process group.
256 #$d_getpgrp2 HAS_GETPGRP2 /**/
259 * This symbol, if defined, indicates that the getppid routine is
260 * available to get the parent process ID.
262 #$d_getppid HAS_GETPPID /**/
265 * This symbol, if defined, indicates that the getpriority routine is
266 * available to get a process's priority.
268 #$d_getprior HAS_GETPRIORITY /**/
271 * This symbol, if defined, indicates to the C program that the
272 * inet_aton() function is available to parse IP address "dotted-quad"
275 #$d_inetaton HAS_INET_ATON /**/
278 * This symbol, if defined, indicates that the killpg routine is available
279 * to kill process groups. If unavailable, you probably should use kill
280 * with a negative process number.
282 #$d_killpg HAS_KILLPG /**/
285 * This symbol, if defined, indicates that the link routine is
286 * available to create hard links.
288 #$d_link HAS_LINK /**/
291 * This symbol, if defined, indicates that the localeconv routine is
292 * available for numeric and monetary formatting conventions.
294 #$d_locconv HAS_LOCALECONV /**/
297 * This symbol, if defined, indicates that the lockf routine is
298 * available to do file locking.
300 #$d_lockf HAS_LOCKF /**/
303 * This symbol, if defined, indicates that the lstat routine is
304 * available to do file stats on symbolic links.
306 #$d_lstat HAS_LSTAT /**/
309 * This symbol, if defined, indicates that the mblen routine is available
310 * to find the number of bytes in a multibye character.
312 #$d_mblen HAS_MBLEN /**/
315 * This symbol, if defined, indicates that the mbstowcs routine is
316 * available to covert a multibyte string into a wide character string.
318 #$d_mbstowcs HAS_MBSTOWCS /**/
321 * This symbol, if defined, indicates that the mbtowc routine is available
322 * to covert a multibyte to a wide character.
324 #$d_mbtowc HAS_MBTOWC /**/
327 * This symbol, if defined, indicates that the memcmp routine is available
328 * to compare blocks of memory.
330 #$d_memcmp HAS_MEMCMP /**/
333 * This symbol, if defined, indicates that the memcpy routine is available
334 * to copy blocks of memory.
336 #$d_memcpy HAS_MEMCPY /**/
339 * This symbol, if defined, indicates that the memmove routine is available
340 * to copy potentially overlapping blocks of memory. This should be used
341 * only when HAS_SAFE_BCOPY is not defined. If neither is there, roll your
344 #$d_memmove HAS_MEMMOVE /**/
347 * This symbol, if defined, indicates that the memset routine is available
348 * to set blocks of memory.
350 #$d_memset HAS_MEMSET /**/
353 * This symbol, if defined, indicates that the mkdir routine is available
354 * to create directories. Otherwise you should fork off a new process to
357 #$d_mkdir HAS_MKDIR /**/
360 * This symbol, if defined, indicates that the mkfifo routine is
361 * available to create FIFOs. Otherwise, mknod should be able to
362 * do it for you. However, if mkfifo is there, mknod might require
363 * super-user privileges which mkfifo will not.
365 #$d_mkfifo HAS_MKFIFO /**/
368 * This symbol, if defined, indicates that the mktime routine is
371 #$d_mktime HAS_MKTIME /**/
374 * This symbol, if defined, indicates that the msync system call is
375 * available to synchronize a mapped file.
377 #$d_msync HAS_MSYNC /**/
380 * This symbol, if defined, indicates that the munmap system call is
381 * available to unmap a region, usually mapped by mmap().
383 #$d_munmap HAS_MUNMAP /**/
386 * This symbol, if defined, indicates that the nice routine is
389 #$d_nice HAS_NICE /**/
392 * This symbol, if defined, indicates that pathconf() is available
393 * to determine file-system related limits and options associated
394 * with a given filename.
397 * This symbol, if defined, indicates that pathconf() is available
398 * to determine file-system related limits and options associated
399 * with a given open file descriptor.
401 #$d_pathconf HAS_PATHCONF /**/
402 #$d_fpathconf HAS_FPATHCONF /**/
405 * This symbol, if defined, indicates that the pause routine is
406 * available to suspend a process until a signal is received.
408 #$d_pause HAS_PAUSE /**/
411 * This symbol, if defined, indicates that the pipe routine is
412 * available to create an inter-process channel.
414 #$d_pipe HAS_PIPE /**/
417 * This symbol, if defined, indicates that the poll routine is
418 * available to poll active file descriptors. You may safely
419 * include <poll.h> when this symbol is defined.
421 #$d_poll HAS_POLL /**/
424 * This symbol, if defined, indicates that the readdir routine is
425 * available to read directory entries. You may have to include
426 * <dirent.h>. See I_DIRENT.
428 #$d_readdir HAS_READDIR /**/
431 * This symbol, if defined, indicates that the seekdir routine is
432 * available. You may have to include <dirent.h>. See I_DIRENT.
434 #$d_seekdir HAS_SEEKDIR /**/
437 * This symbol, if defined, indicates that the telldir routine is
438 * available. You may have to include <dirent.h>. See I_DIRENT.
440 #$d_telldir HAS_TELLDIR /**/
443 * This symbol, if defined, indicates that the rewinddir routine is
444 * available. You may have to include <dirent.h>. See I_DIRENT.
446 #$d_rewinddir HAS_REWINDDIR /**/
449 * This symbol, if defined, indicates that the readlink routine is
450 * available to read the value of a symbolic link.
452 #$d_readlink HAS_READLINK /**/
455 * This symbol, if defined, indicates that the rename routine is available
456 * to rename files. Otherwise you should do the unlink(), link(), unlink()
459 #$d_rename HAS_RENAME /**/
462 * This symbol, if defined, indicates that the rmdir routine is
463 * available to remove directories. Otherwise you should fork off a
464 * new process to exec /bin/rmdir.
466 #$d_rmdir HAS_RMDIR /**/
469 * This symbol, if defined, indicates that the select routine is
470 * available to select active file descriptors. If the timeout field
471 * is used, <sys/time.h> may need to be included.
473 #$d_select HAS_SELECT /**/
476 * This symbol, if defined, indicates that the setegid routine is available
477 * to change the effective gid of the current program.
479 #$d_setegid HAS_SETEGID /**/
482 * This symbol, if defined, indicates that the seteuid routine is available
483 * to change the effective uid of the current program.
485 #$d_seteuid HAS_SETEUID /**/
488 * This symbol, if defined, indicates that the setlinebuf routine is
489 * available to change stderr or stdout from block-buffered or unbuffered
490 * to a line-buffered mode.
492 #$d_setlinebuf HAS_SETLINEBUF /**/
495 * This symbol, if defined, indicates that the setlocale routine is
496 * available to handle locale-specific ctype implementations.
498 #$d_setlocale HAS_SETLOCALE /**/
501 * This symbol, if defined, indicates that the setpgid(pid, gpid)
502 * routine is available to set process group ID.
504 #$d_setpgid HAS_SETPGID /**/
507 * This symbol, if defined, indicates that the setpgrp routine is
508 * available to set the current process group.
511 * This symbol, if defined, indicates that setpgrp needs two
512 * arguments whereas USG one needs none. See also HAS_SETPGID
513 * for a POSIX interface.
515 #$d_setpgrp HAS_SETPGRP /**/
516 #$d_bsdsetpgrp USE_BSD_SETPGRP /**/
519 * This symbol, if defined, indicates that the setpgrp2() (as in DG/UX)
520 * routine is available to set the current process group.
522 #$d_setpgrp2 HAS_SETPGRP2 /**/
525 * This symbol, if defined, indicates that the setpriority routine is
526 * available to set a process's priority.
528 #$d_setprior HAS_SETPRIORITY /**/
531 * This symbol, if defined, indicates that the setregid routine is
532 * available to change the real and effective gid of the current
536 * This symbol, if defined, indicates that the setresgid routine is
537 * available to change the real, effective and saved gid of the current
540 #$d_setregid HAS_SETREGID /**/
541 #$d_setresgid HAS_SETRESGID /**/
544 * This symbol, if defined, indicates that the setreuid routine is
545 * available to change the real and effective uid of the current
549 * This symbol, if defined, indicates that the setresuid routine is
550 * available to change the real, effective and saved uid of the current
553 #$d_setreuid HAS_SETREUID /**/
554 #$d_setresuid HAS_SETRESUID /**/
557 * This symbol, if defined, indicates that the setrgid routine is available
558 * to change the real gid of the current program.
560 #$d_setrgid HAS_SETRGID /**/
563 * This symbol, if defined, indicates that the setruid routine is available
564 * to change the real uid of the current program.
566 #$d_setruid HAS_SETRUID /**/
569 * This symbol, if defined, indicates that the setsid routine is
570 * available to set the process group ID.
572 #$d_setsid HAS_SETSID /**/
575 * This symbol holds the return type of the shmat() system call.
576 * Usually set to 'void *' or 'char *'.
578 /* HAS_SHMAT_PROTOTYPE:
579 * This symbol, if defined, indicates that the sys/shm.h includes
580 * a prototype for shmat(). Otherwise, it is up to the program to
581 * guess one. Shmat_t shmat _((int, Shmat_t, int)) is a good guess,
582 * but not always right so it should be emitted by the program only
583 * when HAS_SHMAT_PROTOTYPE is not defined to avoid conflicting defs.
585 #define Shmat_t $shmattype /**/
586 #$d_shmatprototype HAS_SHMAT_PROTOTYPE /**/
589 * This symbol is defined to indicate that the strchr()/strrchr()
590 * functions are available for string searching. If not, try the
591 * index()/rindex() pair.
594 * This symbol is defined to indicate that the index()/rindex()
595 * functions are available for string searching.
597 #$d_strchr HAS_STRCHR /**/
598 #$d_index HAS_INDEX /**/
601 * This symbol, if defined, indicates that the strcoll routine is
602 * available to compare strings using collating information.
604 #$d_strcoll HAS_STRCOLL /**/
607 * This symbol, if defined, indicates that this C compiler knows how
608 * to copy structures. If undefined, you'll need to use a block copy
609 * routine of some sort instead.
611 #$d_strctcpy USE_STRUCT_COPY /**/
614 * This symbol, if defined, indicates that the strtod routine is
615 * available to provide better numeric string conversion than atof().
617 #$d_strtod HAS_STRTOD /**/
620 * This symbol, if defined, indicates that the strtol routine is available
621 * to provide better numeric string conversion than atoi() and friends.
623 #$d_strtol HAS_STRTOL /**/
626 * This symbol, if defined, indicates that the strtoul routine is
627 * available to provide conversion of strings to unsigned long.
629 #$d_strtoul HAS_STRTOUL /**/
632 * This symbol, if defined, indicates that the strxfrm() routine is
633 * available to transform strings.
635 #$d_strxfrm HAS_STRXFRM /**/
638 * This symbol, if defined, indicates that the symlink routine is available
639 * to create symbolic links.
641 #$d_symlink HAS_SYMLINK /**/
644 * This symbol, if defined, indicates that the syscall routine is
645 * available to call arbitrary system calls. If undefined, that's tough.
647 #$d_syscall HAS_SYSCALL /**/
650 * This symbol, if defined, indicates that sysconf() is available
651 * to determine system related limits and options.
653 #$d_sysconf HAS_SYSCONF /**/
656 * This symbol, if defined, indicates that the system routine is
657 * available to issue a shell command.
659 #$d_system HAS_SYSTEM /**/
662 * This symbol, if defined, indicates that the tcgetpgrp routine is
663 * available to get foreground process group ID.
665 #$d_tcgetpgrp HAS_TCGETPGRP /**/
668 * This symbol, if defined, indicates that the tcsetpgrp routine is
669 * available to set foreground process group ID.
671 #$d_tcsetpgrp HAS_TCSETPGRP /**/
674 * This symbol, if defined, indicates that the truncate routine is
675 * available to truncate files.
677 #$d_truncate HAS_TRUNCATE /**/
680 * This symbol, if defined, indicates that the tzname[] array is
681 * available to access timezone names.
683 #$d_tzname HAS_TZNAME /**/
686 * This symbol, if defined, indicates that the umask routine is
687 * available to set and get the value of the file creation mask.
689 #$d_umask HAS_UMASK /**/
692 * This symbol, if defined, indicates that this C compiler knows about
693 * the volatile declaration.
695 #$d_volatile HASVOLATILE /**/
701 * This symbol, if defined, indicates that wait4() exists.
703 #$d_wait4 HAS_WAIT4 /**/
706 * This symbol, if defined, indicates that the waitpid routine is
707 * available to wait for child process.
709 #$d_waitpid HAS_WAITPID /**/
712 * This symbol, if defined, indicates that the wcstombs routine is
713 * available to convert wide character strings to multibyte strings.
715 #$d_wcstombs HAS_WCSTOMBS /**/
718 * This symbol, if defined, indicates that the wctomb routine is available
719 * to covert a wide character to a multibyte.
721 #$d_wctomb HAS_WCTOMB /**/
724 * This symbol, if defined, indicates to the C program that it should
725 * include <arpa/inet.h> to get inet_addr and friends declarations.
727 #$i_arpainet I_ARPA_INET /**/
730 * This symbol, if defined, indicates that <dbm.h> exists and should
734 * This symbol, if defined, indicates that <rpcsvc/dbm.h> exists and
735 * should be included.
738 #$i_rpcsvcdbm I_RPCSVC_DBM /**/
741 * This symbol, if defined, indicates to the C program that it should
742 * include <dirent.h>. Using this symbol also triggers the definition
743 * of the Direntry_t define which ends up being 'struct dirent' or
744 * 'struct direct' depending on the availability of <dirent.h>.
747 * This symbol, if defined, indicates to the C program that the length
748 * of directory entry names is provided by a d_namlen field. Otherwise
749 * you need to do strlen() on the d_name field.
752 * This symbol is set to 'struct direct' or 'struct dirent' depending on
753 * whether dirent is available or not. You should use this pseudo type to
754 * portably declare your directory entries.
756 #$i_dirent I_DIRENT /**/
757 #$d_dirnamlen DIRNAMLEN /**/
758 #define Direntry_t $direntrytype
761 * This symbol, if defined, indicates that <dlfcn.h> exists and should
764 #$i_dlfcn I_DLFCN /**/
767 * This manifest constant tells the C program to include <fcntl.h>.
769 #$i_fcntl I_FCNTL /**/
772 * This symbol, if defined, indicates to the C program that it should
773 * include <float.h> to get definition of symbols like DBL_MAX or
774 * DBL_MIN, i.e. machine dependent floating point values.
776 #$i_float I_FLOAT /**/
779 * This symbol, if defined, indicates to the C program that it should
780 * include <limits.h> to get definition of symbols like WORD_BIT or
781 * LONG_MAX, i.e. machine dependant limitations.
783 #$i_limits I_LIMITS /**/
786 * This symbol, if defined, indicates to the C program that it should
787 * include <locale.h>.
789 #$i_locale I_LOCALE /**/
792 * This symbol, if defined, indicates to the C program that it should
798 * This symbol, if defined, indicates to the C program that it should
799 * include <memory.h>.
801 #$i_memory I_MEMORY /**/
804 * This symbol, if defined, indicates that <ndbm.h> exists and should
810 * This symbol, if defined, indicates that <net/errno.h> exists and
811 * should be included.
813 #$i_neterrno I_NET_ERRNO /**/
816 * This symbol, if defined, indicates to the C program that it should
817 * include <netinet/in.h>. Otherwise, you may try <sys/in.h>.
819 #$i_niin I_NETINET_IN /**/
822 * This symbol, if defined, indicates to the C program that it should
828 * This symbol, if defined, indicates that <stddef.h> exists and should
831 #$i_stddef I_STDDEF /**/
834 * This symbol, if defined, indicates that <stdlib.h> exists and should
837 #$i_stdlib I_STDLIB /**/
840 * This symbol, if defined, indicates to the C program that it should
841 * include <string.h> (USG systems) instead of <strings.h> (BSD systems).
843 #$i_string I_STRING /**/
846 * This symbol, if defined, indicates to the C program that it should
847 * include <sys/dir.h>.
849 #$i_sysdir I_SYS_DIR /**/
852 * This symbol, if defined, indicates to the C program that it should
853 * include <sys/file.h> to get definition of R_OK and friends.
855 #$i_sysfile I_SYS_FILE /**/
858 * This symbol, if defined, indicates that <sys/ioctl.h> exists and should
859 * be included. Otherwise, include <sgtty.h> or <termio.h>.
861 #$i_sysioctl I_SYS_IOCTL /**/
864 * This symbol, if defined, indicates to the C program that it should
865 * include <sys/ndir.h>.
867 #$i_sysndir I_SYS_NDIR /**/
870 * This symbol, if defined, indicates to the C program that it should
871 * include <sys/param.h>.
873 #$i_sysparam I_SYS_PARAM /**/
876 * This symbol, if defined, indicates to the C program that it should
877 * include <sys/resource.h>.
879 #$i_sysresrc I_SYS_RESOURCE /**/
882 * This symbol, if defined, indicates to the C program that it should
883 * include <sys/select.h> in order to get definition of struct timeval.
885 #$i_sysselct I_SYS_SELECT /**/
888 * This symbol, if defined, indicates to the C program that it should
889 * include <sys/stat.h>.
891 #$i_sysstat I_SYS_STAT /**/
894 * This symbol, if defined, indicates to the C program that it should
895 * include <sys/times.h>.
897 #$i_systimes I_SYS_TIMES /**/
900 * This symbol, if defined, indicates to the C program that it should
901 * include <sys/types.h>.
903 #$i_systypes I_SYS_TYPES /**/
906 * This symbol, if defined, indicates to the C program that it should
907 * include <sys/un.h> to get UNIX domain socket definitions.
909 #$i_sysun I_SYS_UN /**/
912 * This symbol, if defined, indicates to the C program that it should
913 * include <sys/wait.h>.
915 #$i_syswait I_SYS_WAIT /**/
918 * This symbol, if defined, indicates that the program should include
919 * <termio.h> rather than <sgtty.h>. There are also differences in
920 * the ioctl() calls that depend on the value of this symbol.
923 * This symbol, if defined, indicates that the program should include
924 * the POSIX termios.h rather than sgtty.h or termio.h.
925 * There are also differences in the ioctl() calls that depend on the
926 * value of this symbol.
929 * This symbol, if defined, indicates that the program should include
930 * <sgtty.h> rather than <termio.h>. There are also differences in
931 * the ioctl() calls that depend on the value of this symbol.
933 #$i_termio I_TERMIO /**/
934 #$i_termios I_TERMIOS /**/
935 #$i_sgtty I_SGTTY /**/
938 * This symbol, if defined, indicates to the C program that it should
939 * include <unistd.h>.
941 #$i_unistd I_UNISTD /**/
944 * This symbol, if defined, indicates to the C program that it should
947 #$i_utime I_UTIME /**/
950 * This symbol, if defined, indicates to the C program that it should
951 * include <values.h> to get definition of symbols like MINFLOAT or
952 * MAXLONG, i.e. machine dependant limitations. Probably, you
953 * should use <limits.h> instead, if it is available.
955 #$i_values I_VALUES /**/
958 * This symbol, if defined, indicates that <stdarg.h> exists and should
962 * This symbol, if defined, indicates to the C program that it should
963 * include <varargs.h>.
965 #$i_stdarg I_STDARG /**/
966 #$i_varargs I_VARARGS /**/
969 * This symbol, if defined, indicates to the C program that it should
972 #$i_vfork I_VFORK /**/
975 * If defined, this macro indicates that the C compiler can handle
976 * function prototypes.
979 * This macro is used to declare function parameters for folks who want
980 * to make declarations with prototypes using a different style than
981 * the above macros. Use double parentheses. For example:
983 * int main _((int argc, char *argv[]));
985 #$prototype CAN_PROTOTYPE /**/
993 * This symbol contains the full pathname to the shell used on this
994 * on this system to execute Bourne shell scripts. Usually, this will be
995 * /bin/sh, though it's possible that some systems will have /bin/ksh,
996 * /bin/pdksh, /bin/ash, /bin/bash, or even something such as
999 #define SH_PATH "$sh" /**/
1002 * This symbol is defined to be the type of char used in stdio.h.
1003 * It has the values "unsigned char" or "char".
1005 #define STDCHAR $stdchar /**/
1008 * This symbol, if defined, signifies that we our
1009 * build process is a cross-compilation.
1011 #$crosscompile CROSSCOMPILE /**/
1014 * This symbol contains the value of sizeof(int) so that the C
1015 * preprocessor can make decisions based on it.
1018 * This symbol contains the value of sizeof(long) so that the C
1019 * preprocessor can make decisions based on it.
1022 * This symbol contains the value of sizeof(short) so that the C
1023 * preprocessor can make decisions based on it.
1025 #define INTSIZE $intsize /**/
1026 #define LONGSIZE $longsize /**/
1027 #define SHORTSIZE $shortsize /**/
1030 * This symbol, if defined, signifies that the build
1031 * process will produce some binary files that are going to be
1032 * used in a cross-platform environment. This is the case for
1033 * example with the NeXT "fat" binaries that contain executables
1036 #$multiarch MULTIARCH /**/
1039 * This symbol, if defined, tells that there's a 64-bit integer type,
1040 * Quad_t, and its unsigned counterpar, Uquad_t. QUADKIND will be one
1041 * of QUAD_IS_INT, QUAD_IS_LONG, QUAD_IS_LONG_LONG, or QUAD_IS_INT64_T.
1043 #$d_quad HAS_QUAD /**/
1045 # define Quad_t $quadtype /**/
1046 # define Uquad_t $uquadtype /**/
1047 # define QUADKIND $quadkind /**/
1048 # define QUAD_IS_INT 1
1049 # define QUAD_IS_LONG 2
1050 # define QUAD_IS_LONG_LONG 3
1051 # define QUAD_IS_INT64_T 4
1055 * This symbol, if defined, indicates that the accessx routine is
1056 * available to do extended access checks.
1058 #$d_accessx HAS_ACCESSX /**/
1061 * This symbol, if defined, indicates that the eaccess routine is
1062 * available to do extended access checks.
1064 #$d_eaccess HAS_EACCESS /**/
1067 * This symbol, if defined, indicates to the C program that it should
1068 * include <sys/access.h>.
1070 #$i_sysaccess I_SYS_ACCESS /**/
1073 * This symbol, if defined, indicates to the C program that it should
1074 * include <sys/security.h>.
1076 #$i_syssecrt I_SYS_SECURITY /**/
1079 * This symbol contains the name of the operating system, as determined
1080 * by Configure. You shouldn't rely on it too much; the specific
1081 * feature tests from Configure are generally more reliable.
1083 #define OSNAME "$osname" /**/
1086 * This symbol contains the number of bytes required to align a
1087 * double, or a long double when applicable. Usual values are 2,
1088 * 4 and 8. The default is eight, for safety.
1090 #if defined(CROSSCOMPILE) || defined(MULTIARCH)
1091 # define MEM_ALIGNBYTES 8
1093 #define MEM_ALIGNBYTES $alignbytes
1097 * This variable, if defined, holds the name of the directory in
1098 * which the user wants to put architecture-dependent public
1099 * library files for $package. It is most often a local directory
1100 * such as /usr/local/lib. Programs using this variable must be
1101 * prepared to deal with filename expansion. If ARCHLIB is the
1102 * same as PRIVLIB, it is not defined, since presumably the
1103 * program already searches PRIVLIB.
1106 * This symbol contains the ~name expanded version of ARCHLIB, to be used
1107 * in programs that are not prepared to deal with ~ expansion at run-time.
1109 #$d_archlib ARCHLIB "$archlib" /**/
1110 #$d_archlib ARCHLIB_EXP "$archlibexp" /**/
1113 * This symbol holds a string representing the architecture name.
1114 * It may be used to construct an architecture-dependant pathname
1115 * where library files may be held under a private library, for
1118 #define ARCHNAME "$archname" /**/
1121 * This symbol, if defined, indicates that the atolf routine is
1122 * available to convert strings into long doubles.
1124 #$d_atolf HAS_ATOLF /**/
1127 * This symbol, if defined, indicates that the atoll routine is
1128 * available to convert strings into long longs.
1130 #$d_atoll HAS_ATOLL /**/
1133 * This symbol holds the path of the bin directory where the package will
1134 * be installed. Program must be prepared to deal with ~name substitution.
1137 * This symbol is the filename expanded version of the BIN symbol, for
1138 * programs that do not want to deal with that at run-time.
1140 #define BIN "$bin" /**/
1141 #define BIN_EXP "$binexp" /**/
1143 /* PERL_BINCOMPAT_5005:
1144 * This symbol, if defined, indicates that this version of Perl should be
1145 * binary-compatible with Perl 5.005. This is impossible for builds
1146 * that use features like threads and multiplicity it is always $undef
1147 * for those versions.
1149 #$d_bincompat5005 PERL_BINCOMPAT_5005 /**/
1152 * This symbol holds the hexadecimal constant defined in byteorder,
1153 * i.e. 0x1234 or 0x4321, etc...
1154 * If the compiler supports cross-compiling or multiple-architecture
1155 * binaries (eg. on NeXT systems), use compiler-defined macros to
1156 * determine the byte order.
1157 * On NeXT 3.2 (and greater), you can build "Fat" Multiple Architecture
1158 * Binaries (MAB) on either big endian or little endian machines.
1159 * The endian-ness is available at compile-time. This only matters
1160 * for perl, where the config.h can be generated and installed on
1161 * one system, and used by a different architecture to build an
1162 * extension. Older versions of NeXT that might not have
1163 * defined either *_ENDIAN__ were all on Motorola 680x0 series,
1164 * so the default case (for NeXT) is big endian to catch them.
1165 * This might matter for NeXT 3.0.
1167 #if defined(CROSSCOMPILE) || defined(MULTIARCH)
1168 # ifdef __LITTLE_ENDIAN__
1170 # define BYTEORDER 0x1234
1173 # define BYTEORDER 0x12345678
1177 # ifdef __BIG_ENDIAN__
1179 # define BYTEORDER 0x4321
1182 # define BYTEORDER 0x87654321
1187 # if !defined(BYTEORDER) && (defined(NeXT) || defined(__NeXT__))
1188 # define BYTEORDER 0x4321
1191 #define BYTEORDER 0x$byteorder /* large digits for MSB */
1195 * This macro catenates 2 tokens together.
1198 * This macro surrounds its token with double quotes.
1201 # define CAT2(a,b) a/**/b
1202 # define STRINGIFY(a) "a"
1203 /* If you can get stringification with catify, tell me how! */
1205 #if $cpp_stuff == 42
1206 # define PeRl_CaTiFy(a, b) a ## b
1207 # define PeRl_StGiFy(a) #a
1208 /* the additional level of indirection enables these macros to be
1209 * used as arguments to other macros. See K&R 2nd ed., page 231. */
1210 # define CAT2(a,b) PeRl_CaTiFy(a,b)
1211 # define StGiFy(a) PeRl_StGiFy(a)
1212 # define STRINGIFY(a) PeRl_StGiFy(a)
1214 #if $cpp_stuff != 1 && $cpp_stuff != 42
1215 # include "Bletch: How does this C preprocessor catenate tokens?"
1219 * This symbol contains the first part of the string which will invoke
1220 * the C preprocessor on the standard input and produce to standard
1221 * output. Typical value of "cc -E" or "/lib/cpp", but it can also
1222 * call a wrapper. See CPPRUN.
1225 * This symbol contains the second part of the string which will invoke
1226 * the C preprocessor on the standard input and produce to standard
1227 * output. This symbol will have the value "-" if CPPSTDIN needs a minus
1228 * to specify standard input, otherwise the value is "".
1231 * This symbol contains the string which will invoke a C preprocessor on
1232 * the standard input and produce to standard output. It needs to end
1233 * with CPPLAST, after all other preprocessor flags have been specified.
1234 * The main difference with CPPSTDIN is that this program will never be a
1235 * pointer to a shell wrapper, i.e. it will be empty if no preprocessor is
1236 * available directly to the user. Note that it may well be different from
1237 * the preprocessor used to compile the C program.
1240 * This symbol is intended to be used along with CPPRUN in the same manner
1241 * symbol CPPMINUS is used with CPPSTDIN. It contains either "-" or "".
1243 #define CPPSTDIN "$cppstdin"
1244 #define CPPMINUS "$cppminus"
1245 #define CPPRUN "$cpprun"
1246 #define CPPLAST "$cpplast"
1249 * This manifest constant lets the C program know that the access()
1250 * system call is available to check for accessibility using real UID/GID.
1251 * (always present on UNIX.)
1253 #$d_access HAS_ACCESS /**/
1256 * This symbol is defined if the C compiler can cast negative
1257 * or large floating point numbers to 32-bit ints.
1259 #$d_casti32 CASTI32 /**/
1262 * This symbol is defined if the C compiler can cast negative
1263 * numbers to unsigned longs, ints and shorts.
1266 * This symbol contains flags that say what difficulties the compiler
1267 * has casting odd floating values to unsigned long:
1269 * 1 = couldn't cast < 0
1270 * 2 = couldn't cast >= 0x80000000
1271 * 4 = couldn't cast in argument expression list
1273 #$d_castneg CASTNEGFLOAT /**/
1274 #define CASTFLAGS $castflags /**/
1277 * This symbol, if defined, indicates that the closedir() routine
1278 * does not return a value.
1280 #$d_void_closedir VOID_CLOSEDIR /**/
1283 * This symbol, if defined, indicates that the C-shell exists.
1286 * This symbol, if defined, contains the full pathname of csh.
1288 #$d_csh HAS_CSH /**/
1290 #define CSH "$full_csh" /**/
1293 /* DLSYM_NEEDS_UNDERSCORE:
1294 * This symbol, if defined, indicates that we need to prepend an
1295 * underscore to the symbol name before calling dlsym(). This only
1296 * makes sense if you *have* dlsym, which we will presume is the
1297 * case if you're using dl_dlopen.xs.
1299 #$d_dlsymun DLSYM_NEEDS_UNDERSCORE /**/
1301 /* HAS_DRAND48_PROTO:
1302 * This symbol, if defined, indicates that the system provides
1303 * a prototype for the drand48() function. Otherwise, it is up
1304 * to the program to supply one. A good guess is
1305 * extern double drand48 _((void));
1307 #$d_drand48proto HAS_DRAND48_PROTO /**/
1310 * This symbol, if defined, indicates that the getgrent routine is
1311 * available for finalizing sequential access of the group database.
1313 #$d_endgrent HAS_ENDGRENT /**/
1316 * This symbol, if defined, indicates that the endhostent() routine is
1317 * available to close whatever was being used for host queries.
1319 #$d_endhent HAS_ENDHOSTENT /**/
1322 * This symbol, if defined, indicates that the endnetent() routine is
1323 * available to close whatever was being used for network queries.
1325 #$d_endnent HAS_ENDNETENT /**/
1328 * This symbol, if defined, indicates that the endprotoent() routine is
1329 * available to close whatever was being used for protocol queries.
1331 #$d_endpent HAS_ENDPROTOENT /**/
1334 * This symbol, if defined, indicates that the getgrent routine is
1335 * available for finalizing sequential access of the passwd database.
1337 #$d_endpwent HAS_ENDPWENT /**/
1340 * This symbol, if defined, indicates that the endservent() routine is
1341 * available to close whatever was being used for service queries.
1343 #$d_endsent HAS_ENDSERVENT /**/
1346 * This symbol, if defined, indicates that the endspent system call is
1347 * available to finalize the scan of SysV shadow password entries.
1349 #$d_endspent HAS_ENDSPENT /**/
1352 * This symbol, when defined, indicates presence of the fd_set typedef
1355 #$d_fd_set HAS_FD_SET /**/
1358 * This symbol, if defined, indicates that the system supports filenames
1359 * longer than 14 characters.
1361 #$d_flexfnam FLEXFILENAMES /**/
1364 * This symbol will be defined if the C compiler supports fpos64_t.
1366 #$d_fpos64_t HAS_FPOS64_T /**/
1368 /* HAS_STRUCT_FS_DATA:
1369 * This symbol, if defined, indicates that the struct fs_data
1370 * to do statfs() is supported.
1372 #$d_fs_data_s HAS_STRUCT_FS_DATA /**/
1375 * This symbol, if defined, indicates that the fseeko routine is
1376 * available to fseek beyond 32 bits (useful for ILP32 hosts).
1378 #$d_fseeko HAS_FSEEKO /**/
1381 * This symbol, if defined, indicates that the fstatfs routine is
1382 * available to stat filesystems by file descriptors.
1384 #$d_fstatfs HAS_FSTATFS /**/
1387 * This symbol, if defined, indicates that the ftello routine is
1388 * available to ftell beyond 32 bits (useful for ILP32 hosts).
1390 #$d_ftello HAS_FTELLO /**/
1393 * This preprocessor macro is defined to convert a floating point
1394 * number to a string without a trailing decimal point. This
1395 * emulates the behavior of sprintf("%g"), but is sometimes much more
1396 * efficient. If gconvert() is not available, but gcvt() drops the
1397 * trailing decimal point, then gcvt() is used. If all else fails,
1398 * a macro using sprintf("%g") is used. Arguments for the Gconvert
1399 * macro are: value, number of digits, whether trailing zeros should
1400 * be retained, and the output buffer.
1401 * Possible values are:
1402 * d_Gconvert='gconvert((x),(n),(t),(b))'
1403 * d_Gconvert='gcvt((x),(n),(b))'
1404 * d_Gconvert='sprintf((b),"%.*g",(n),(x))'
1405 * The last two assume trailing zeros should not be kept.
1407 #define Gconvert(x,n,t,b) $d_Gconvert
1410 * This symbol, if defined, indicates that the getcwd routine is
1411 * available to get the current working directory.
1413 #$d_getcwd HAS_GETCWD /**/
1416 * This symbol, if defined, indicates that the getfsstat routine is
1417 * available to stat filesystems in bulk.
1419 #$d_getfsstat HAS_GETFSSTAT /**/
1422 * This symbol, if defined, indicates that the getgrent routine is
1423 * available for sequential access of the group database.
1425 #$d_getgrent HAS_GETGRENT /**/
1427 /* HAS_GETHOSTBYADDR:
1428 * This symbol, if defined, indicates that the gethostbyaddr() routine is
1429 * available to look up hosts by their IP addresses.
1431 #$d_gethbyaddr HAS_GETHOSTBYADDR /**/
1433 /* HAS_GETHOSTBYNAME:
1434 * This symbol, if defined, indicates that the gethostbyname() routine is
1435 * available to look up host names in some data base or other.
1437 #$d_gethbyname HAS_GETHOSTBYNAME /**/
1440 * This symbol, if defined, indicates that the gethostent() routine is
1441 * available to look up host names in some data base or another.
1443 #$d_gethent HAS_GETHOSTENT /**/
1446 * This symbol, if defined, indicates that the C program may use the
1447 * gethostname() routine to derive the host name. See also HAS_UNAME
1451 * This symbol, if defined, indicates that the C program may use the
1452 * uname() routine to derive the host name. See also HAS_GETHOSTNAME
1456 * This symbol, if defined, indicates the command to feed to the
1457 * popen() routine to derive the host name. See also HAS_GETHOSTNAME
1458 * and HAS_UNAME. Note that the command uses a fully qualified path,
1459 * so that it is safe even if used by a process with super-user
1463 * This symbol, if defined, indicates that the C program may use the
1464 * contents of PHOSTNAME as a command to feed to the popen() routine
1465 * to derive the host name.
1467 #$d_gethname HAS_GETHOSTNAME /**/
1468 #$d_uname HAS_UNAME /**/
1469 #$d_phostname HAS_PHOSTNAME /**/
1470 #ifdef HAS_PHOSTNAME
1471 #define PHOSTNAME "$aphostname" /* How to get the host name */
1474 /* HAS_GETHOST_PROTOS:
1475 * This symbol, if defined, indicates that <netdb.h> includes
1476 * prototypes for gethostent(), gethostbyname(), and
1477 * gethostbyaddr(). Otherwise, it is up to the program to guess
1478 * them. See netdbtype.U for probing for various Netdb_xxx_t types.
1480 #$d_gethostprotos HAS_GETHOST_PROTOS /**/
1483 * This symbol, if defined, indicates that the getmnt routine is
1484 * available to get filesystem mount info by filename.
1486 #$d_getmnt HAS_GETMNT /**/
1489 * This symbol, if defined, indicates that the getmntent routine is
1490 * available to iterate through mounted file systems to get their info.
1492 #$d_getmntent HAS_GETMNTENT /**/
1494 /* HAS_GETNETBYADDR:
1495 * This symbol, if defined, indicates that the getnetbyaddr() routine is
1496 * available to look up networks by their IP addresses.
1498 #$d_getnbyaddr HAS_GETNETBYADDR /**/
1500 /* HAS_GETNETBYNAME:
1501 * This symbol, if defined, indicates that the getnetbyname() routine is
1502 * available to look up networks by their names.
1504 #$d_getnbyname HAS_GETNETBYNAME /**/
1507 * This symbol, if defined, indicates that the getnetent() routine is
1508 * available to look up network names in some data base or another.
1510 #$d_getnent HAS_GETNETENT /**/
1512 /* HAS_GETNET_PROTOS:
1513 * This symbol, if defined, indicates that <netdb.h> includes
1514 * prototypes for getnetent(), getnetbyname(), and
1515 * getnetbyaddr(). Otherwise, it is up to the program to guess
1516 * them. See netdbtype.U for probing for various Netdb_xxx_t types.
1518 #$d_getnetprotos HAS_GETNET_PROTOS /**/
1521 * This symbol, if defined, indicates that the getprotoent() routine is
1522 * available to look up protocols in some data base or another.
1524 #$d_getpent HAS_GETPROTOENT /**/
1526 /* HAS_GETPROTOBYNAME:
1527 * This symbol, if defined, indicates that the getprotobyname()
1528 * routine is available to look up protocols by their name.
1530 /* HAS_GETPROTOBYNUMBER:
1531 * This symbol, if defined, indicates that the getprotobynumber()
1532 * routine is available to look up protocols by their number.
1534 #$d_getpbyname HAS_GETPROTOBYNAME /**/
1535 #$d_getpbynumber HAS_GETPROTOBYNUMBER /**/
1537 /* HAS_GETPROTO_PROTOS:
1538 * This symbol, if defined, indicates that <netdb.h> includes
1539 * prototypes for getprotoent(), getprotobyname(), and
1540 * getprotobyaddr(). Otherwise, it is up to the program to guess
1541 * them. See netdbtype.U for probing for various Netdb_xxx_t types.
1543 #$d_getprotoprotos HAS_GETPROTO_PROTOS /**/
1546 * This symbol, if defined, indicates that the getpwent routine is
1547 * available for sequential access of the passwd database.
1548 * If this is not available, the older getpw() function may be available.
1550 #$d_getpwent HAS_GETPWENT /**/
1553 * This symbol, if defined, indicates that the getservent() routine is
1554 * available to look up network services in some data base or another.
1556 #$d_getsent HAS_GETSERVENT /**/
1558 /* HAS_GETSERV_PROTOS:
1559 * This symbol, if defined, indicates that <netdb.h> includes
1560 * prototypes for getservent(), getservbyname(), and
1561 * getservbyaddr(). Otherwise, it is up to the program to guess
1562 * them. See netdbtype.U for probing for various Netdb_xxx_t types.
1564 #$d_getservprotos HAS_GETSERV_PROTOS /**/
1567 * This symbol, if defined, indicates that the getspent system call is
1568 * available to retrieve SysV shadow password entries sequentially.
1570 #$d_getspent HAS_GETSPENT /**/
1573 * This symbol, if defined, indicates that the getspnam system call is
1574 * available to retrieve SysV shadow password entries by name.
1576 #$d_getspnam HAS_GETSPNAM /**/
1578 /* HAS_GETSERVBYNAME:
1579 * This symbol, if defined, indicates that the getservbyname()
1580 * routine is available to look up services by their name.
1582 /* HAS_GETSERVBYPORT:
1583 * This symbol, if defined, indicates that the getservbyport()
1584 * routine is available to look up services by their port.
1586 #$d_getsbyname HAS_GETSERVBYNAME /**/
1587 #$d_getsbyport HAS_GETSERVBYPORT /**/
1590 * This symbol, if defined, indicates to the C program that
1591 * the GNU C library is being used.
1593 #$d_gnulibc HAS_GNULIBC /**/
1594 #if defined(HAS_GNULIBC) && !defined(_GNU_SOURCE)
1595 # define _GNU_SOURCE
1598 * This symbol, if defined, indicates that the hasmntopt routine is
1599 * available to query the mount options of file systems.
1601 #$d_hasmntopt HAS_HASMNTOPT /**/
1604 * This symbol, if defined, indicates that the htonl() routine (and
1605 * friends htons() ntohl() ntohs()) are available to do network
1606 * order byte swapping.
1609 * This symbol, if defined, indicates that the htons() routine (and
1610 * friends htonl() ntohl() ntohs()) are available to do network
1611 * order byte swapping.
1614 * This symbol, if defined, indicates that the ntohl() routine (and
1615 * friends htonl() htons() ntohs()) are available to do network
1616 * order byte swapping.
1619 * This symbol, if defined, indicates that the ntohs() routine (and
1620 * friends htonl() htons() ntohl()) are available to do network
1621 * order byte swapping.
1623 #$d_htonl HAS_HTONL /**/
1624 #$d_htonl HAS_HTONS /**/
1625 #$d_htonl HAS_NTOHL /**/
1626 #$d_htonl HAS_NTOHS /**/
1629 * This symbol, if defined, indicates that the iconv routine is
1630 * available to do character set conversions.
1632 #$d_iconv HAS_ICONV /**/
1635 * This symbol will defined if the C compiler supports int64_t.
1636 * Usually the <inttypes.h> needs to be included, but sometimes
1637 * <sys/types.h> is enough.
1639 #$d_int64_t HAS_INT64_T /**/
1642 * This manifest constant lets the C program know that isascii
1645 #$d_isascii HAS_ISASCII /**/
1648 * This symbol, if defined, indicates that the lchown routine is
1649 * available to operate on a symbolic link (instead of following the
1652 #$d_lchown HAS_LCHOWN /**/
1655 * This symbol, if defined, indicates that this system's <float.h>
1656 * or <limits.h> defines the symbol LDBL_DIG, which is the number
1657 * of significant digits in a long double precision number. Unlike
1658 * for DBL_DIG, there's no good guess for LDBL_DIG if it is undefined.
1660 #$d_ldbl_dig HAS_LDBL_DIG /* */
1663 * This symbol will be defined if the C compiler supports long
1667 * This symbol contains the size of a long double, so that the
1668 * C preprocessor can make decisions based on it. It is only
1669 * defined if the system supports long doubles.
1671 #$d_longdbl HAS_LONG_DOUBLE /**/
1672 #ifdef HAS_LONG_DOUBLE
1673 #define LONG_DOUBLESIZE $longdblsize /**/
1677 * This symbol will be defined if the C compiler supports long long.
1680 * This symbol contains the size of a long long, so that the
1681 * C preprocessor can make decisions based on it. It is only
1682 * defined if the system supports long long.
1684 #$d_longlong HAS_LONG_LONG /**/
1685 #ifdef HAS_LONG_LONG
1686 #define LONGLONGSIZE $longlongsize /**/
1690 * This symbol, if defined, indicates that the system provides
1691 * a prototype for the lseek() function. Otherwise, it is up
1692 * to the program to supply one. A good guess is
1693 * extern off_t lseek(int, off_t, int);
1695 #$d_lseekproto HAS_LSEEK_PROTO /**/
1698 * This symbol, if defined, indicates that the madvise system call is
1699 * available to map a file into memory.
1701 #$d_madvise HAS_MADVISE /**/
1704 * This symbol, if defined, indicates that the memchr routine is available
1705 * to locate characters within a C string.
1707 #$d_memchr HAS_MEMCHR /**/
1710 * This symbol, if defined, indicates that the mkdtemp routine is
1711 * available to exclusively create a uniquely named temporary directory.
1713 #$d_mkdtemp HAS_MKDTEMP /**/
1716 * This symbol, if defined, indicates that the mkstemp routine is
1717 * available to exclusively create and open a uniquely named
1720 #$d_mkstemp HAS_MKSTEMP /**/
1723 * This symbol, if defined, indicates that the mkstemps routine is
1724 * available to excluslvely create and open a uniquely named
1725 * (with a suffix) temporary file.
1727 #$d_mkstemps HAS_MKSTEMPS /**/
1730 * This symbol, if defined, indicates that the mmap system call is
1731 * available to map a file into memory.
1734 * This symbol holds the return type of the mmap() system call
1735 * (and simultaneously the type of the first argument).
1736 * Usually set to 'void *' or 'cadd_t'.
1738 #$d_mmap HAS_MMAP /**/
1739 #define Mmap_t $mmaptype /**/
1742 * This symbol, if defined, indicates that the mprotect system call is
1743 * available to modify the access protection of a memory mapped file.
1745 #$d_mprotect HAS_MPROTECT /**/
1748 * This symbol, if defined, indicates that the entire msg*(2) library is
1749 * supported (IPC mechanism based on message queues).
1751 #$d_msg HAS_MSG /**/
1754 * This symbol will be defined if the C compiler supports off64_t.
1756 #$d_off64_t HAS_OFF64_T /**/
1759 * This manifest constant lets the C program know that the three
1760 * argument form of open(2) is available.
1762 #$d_open3 HAS_OPEN3 /**/
1764 /* OLD_PTHREAD_CREATE_JOINABLE:
1765 * This symbol, if defined, indicates how to create pthread
1766 * in joinable (aka undetached) state. NOTE: not defined
1767 * if pthread.h already has defined PTHREAD_CREATE_JOINABLE
1768 * (the new version of the constant).
1769 * If defined, known values are PTHREAD_CREATE_UNDETACHED
1772 #$d_old_pthread_create_joinable OLD_PTHREAD_CREATE_JOINABLE $old_pthread_create_joinable /**/
1774 /* HAS_PTHREAD_YIELD:
1775 * This symbol, if defined, indicates that the pthread_yield
1776 * routine is available to yield the execution of the current
1777 * thread. sched_yield is preferable to pthread_yield.
1780 * This symbol defines the way to yield the execution of
1781 * the current thread. Known ways are sched_yield,
1782 * pthread_yield, and pthread_yield with NULL.
1785 * This symbol, if defined, indicates that the sched_yield
1786 * routine is available to yield the execution of the current
1787 * thread. sched_yield is preferable to pthread_yield.
1789 #$d_pthread_yield HAS_PTHREAD_YIELD /**/
1790 #define SCHED_YIELD $sched_yield /**/
1791 #$d_sched_yield HAS_SCHED_YIELD /**/
1794 * This symbol, if defined, indicates that the bcopy routine is available
1795 * to copy potentially overlapping memory blocks. Otherwise you should
1796 * probably use memmove() or memcpy(). If neither is defined, roll your
1799 #$d_safebcpy HAS_SAFE_BCOPY /**/
1802 * This symbol, if defined, indicates that the memcpy routine is available
1803 * to copy potentially overlapping memory blocks. Otherwise you should
1804 * probably use memmove() or memcpy(). If neither is defined, roll your
1807 #$d_safemcpy HAS_SAFE_MEMCPY /**/
1810 * This symbol, if defined, indicates that the memcmp routine is available
1811 * and can be used to compare relative magnitudes of chars with their high
1812 * bits set. If it is not defined, roll your own version.
1814 #$d_sanemcmp HAS_SANE_MEMCMP /**/
1817 * This symbol, if defined, indicates that the entire sem*(2) library is
1820 #$d_sem HAS_SEM /**/
1823 * This symbol, if defined, indicates that the setgrent routine is
1824 * available for initializing sequential access of the group database.
1826 #$d_setgrent HAS_SETGRENT /**/
1829 * This symbol, if defined, indicates that the setgroups() routine is
1830 * available to set the list of process groups. If unavailable, multiple
1831 * groups are probably not supported.
1833 #$d_setgrps HAS_SETGROUPS /**/
1836 * This symbol, if defined, indicates that the sethostent() routine is
1839 #$d_sethent HAS_SETHOSTENT /**/
1842 * This symbol, if defined, indicates that the setnetent() routine is
1845 #$d_setnent HAS_SETNETENT /**/
1848 * This symbol, if defined, indicates that the setprotoent() routine is
1851 #$d_setpent HAS_SETPROTOENT /**/
1854 * This symbol, if defined, indicates that the setpwent routine is
1855 * available for initializing sequential access of the passwd database.
1857 #$d_setpwent HAS_SETPWENT /**/
1860 * This symbol, if defined, indicates that the setservent() routine is
1863 #$d_setsent HAS_SETSERVENT /**/
1866 * This symbol, if defined, indicates that the setspent system call is
1867 * available to initialize the scan of SysV shadow password entries.
1869 #$d_setspent HAS_SETSPENT /**/
1872 * This symbol, if defined, indicates that the setvbuf routine is
1873 * available to change buffering on an open stdio stream.
1874 * to a line-buffered mode.
1876 #$d_setvbuf HAS_SETVBUF /**/
1879 * This symbol, if defined, indicates that sfio should
1882 #$d_sfio USE_SFIO /**/
1885 * This symbol, if defined, indicates that the entire shm*(2) library is
1888 #$d_shm HAS_SHM /**/
1891 * This symbol, if defined, indicates that Vr4's sigaction() routine
1894 #$d_sigaction HAS_SIGACTION /**/
1897 * This variable indicates to the C program that the sigsetjmp()
1898 * routine is available to save the calling process's registers
1899 * and stack environment for later use by siglongjmp(), and
1900 * to optionally save the process's signal mask. See
1901 * Sigjmp_buf, Sigsetjmp, and Siglongjmp.
1904 * This is the buffer type to be used with Sigsetjmp and Siglongjmp.
1907 * This macro is used in the same way as sigsetjmp(), but will invoke
1908 * traditional setjmp() if sigsetjmp isn't available.
1909 * See HAS_SIGSETJMP.
1912 * This macro is used in the same way as siglongjmp(), but will invoke
1913 * traditional longjmp() if siglongjmp isn't available.
1914 * See HAS_SIGSETJMP.
1916 #$d_sigsetjmp HAS_SIGSETJMP /**/
1917 #ifdef HAS_SIGSETJMP
1918 #define Sigjmp_buf sigjmp_buf
1919 #define Sigsetjmp(buf,save_mask) sigsetjmp((buf),(save_mask))
1920 #define Siglongjmp(buf,retval) siglongjmp((buf),(retval))
1922 #define Sigjmp_buf jmp_buf
1923 #define Sigsetjmp(buf,save_mask) setjmp((buf))
1924 #define Siglongjmp(buf,retval) longjmp((buf),(retval))
1928 * This symbol, if defined, indicates that the BSD socket interface is
1932 * This symbol, if defined, indicates that the BSD socketpair() call is
1936 * This symbol, if defined, indicates that the MSG_CTRUNC is supported.
1937 * Checking just with #ifdef might not be enough because this symbol
1938 * has been known to be an enum.
1940 /* HAS_MSG_DONTROUTE:
1941 * This symbol, if defined, indicates that the MSG_DONTROUTE is supported.
1942 * Checking just with #ifdef might not be enough because this symbol
1943 * has been known to be an enum.
1946 * This symbol, if defined, indicates that the MSG_OOB is supported.
1947 * Checking just with #ifdef might not be enough because this symbol
1948 * has been known to be an enum.
1951 * This symbol, if defined, indicates that the MSG_PEEK is supported.
1952 * Checking just with #ifdef might not be enough because this symbol
1953 * has been known to be an enum.
1956 * This symbol, if defined, indicates that the MSG_PROXY is supported.
1957 * Checking just with #ifdef might not be enough because this symbol
1958 * has been known to be an enum.
1961 * This symbol, if defined, indicates that the SCM_RIGHTS is supported.
1962 * Checking just with #ifdef might not be enough because this symbol
1963 * has been known to be an enum.
1965 #$d_socket HAS_SOCKET /**/
1966 #$d_sockpair HAS_SOCKETPAIR /**/
1967 #$d_msg_ctrunc HAS_MSG_CTRUNC /**/
1968 #$d_msg_dontroute HAS_MSG_DONTROUTE /**/
1969 #$d_msg_oob HAS_MSG_OOB /**/
1970 #$d_msg_peek HAS_MSG_PEEK /**/
1971 #$d_msg_proxy HAS_MSG_PROXY /**/
1972 #$d_scm_rights HAS_SCM_RIGHTS /**/
1975 * This symbol, if defined, indicates that the sqrtl routine is
1976 * available to do long double square roots.
1978 #$d_sqrtl HAS_SQRTL /**/
1981 * This symbol is defined if this system has a stat structure declaring
1982 * st_blksize and st_blocks.
1984 #ifndef USE_STAT_BLOCKS
1985 #$d_statblks USE_STAT_BLOCKS /**/
1988 /* HAS_STRUCT_STATFS_F_FLAGS:
1989 * This symbol, if defined, indicates that the struct statfs
1990 * does have the f_flags member containing the mount flags of
1991 * the filesystem containing the file.
1992 * This kind of struct statfs is coming from <sys/mount.h> (BSD 4.3),
1993 * not from <sys/statfs.h> (SYSV). Older BSDs (like Ultrix) do not
1994 * have statfs() and struct statfs, they have ustat() and getmnt()
1995 * with struct ustat and struct fs_data.
1997 #$d_statfs_f_flags HAS_STRUCT_STATFS_F_FLAGS /**/
1999 /* HAS_STRUCT_STATFS:
2000 * This symbol, if defined, indicates that the struct statfs
2001 * to do statfs() is supported.
2003 #$d_statfs_s HAS_STRUCT_STATFS /**/
2006 * This symbol, if defined, indicates that the fstatvfs routine is
2007 * available to stat filesystems by file descriptors.
2009 #$d_fstatvfs HAS_FSTATVFS /**/
2012 * This symbol is defined if the _ptr and _cnt fields (or similar)
2013 * of the stdio FILE structure can be used to access the stdio buffer
2014 * for a file handle. If this is defined, then the FILE_ptr(fp)
2015 * and FILE_cnt(fp) macros will also be defined and should be used
2016 * to access these fields.
2019 * This macro is used to access the _ptr field (or equivalent) of the
2020 * FILE structure pointed to by its argument. This macro will always be
2021 * defined if USE_STDIO_PTR is defined.
2023 /* STDIO_PTR_LVALUE:
2024 * This symbol is defined if the FILE_ptr macro can be used as an
2028 * This macro is used to access the _cnt field (or equivalent) of the
2029 * FILE structure pointed to by its argument. This macro will always be
2030 * defined if USE_STDIO_PTR is defined.
2032 /* STDIO_CNT_LVALUE:
2033 * This symbol is defined if the FILE_cnt macro can be used as an
2036 #$d_stdstdio USE_STDIO_PTR /**/
2037 #ifdef USE_STDIO_PTR
2038 #define FILE_ptr(fp) $stdio_ptr
2039 #$d_stdio_ptr_lval STDIO_PTR_LVALUE /**/
2040 #define FILE_cnt(fp) $stdio_cnt
2041 #$d_stdio_cnt_lval STDIO_CNT_LVALUE /**/
2045 * This symbol is defined if the _base field (or similar) of the
2046 * stdio FILE structure can be used to access the stdio buffer for
2047 * a file handle. If this is defined, then the FILE_base(fp) macro
2048 * will also be defined and should be used to access this field.
2049 * Also, the FILE_bufsiz(fp) macro will be defined and should be used
2050 * to determine the number of bytes in the buffer. USE_STDIO_BASE
2051 * will never be defined unless USE_STDIO_PTR is.
2054 * This macro is used to access the _base field (or equivalent) of the
2055 * FILE structure pointed to by its argument. This macro will always be
2056 * defined if USE_STDIO_BASE is defined.
2059 * This macro is used to determine the number of bytes in the I/O
2060 * buffer pointed to by _base field (or equivalent) of the FILE
2061 * structure pointed to its argument. This macro will always be defined
2062 * if USE_STDIO_BASE is defined.
2064 #$d_stdiobase USE_STDIO_BASE /**/
2065 #ifdef USE_STDIO_BASE
2066 #define FILE_base(fp) $stdio_base
2067 #define FILE_bufsiz(fp) $stdio_bufsiz
2071 * This symbol, if defined, indicates that the strerror routine is
2072 * available to translate error numbers to strings. See the writeup
2073 * of Strerror() in this file before you try to define your own.
2076 * This symbol, if defined, indicates that the sys_errlist array is
2077 * available to translate error numbers to strings. The extern int
2078 * sys_nerr gives the size of that table.
2081 * This preprocessor symbol is defined as a macro if strerror() is
2082 * not available to translate error numbers to strings but sys_errlist[]
2085 #$d_strerror HAS_STRERROR /**/
2086 #$d_syserrlst HAS_SYS_ERRLIST /**/
2087 #define Strerror(e) $d_strerrm
2090 * This symbol, if defined, indicates that the strtold routine is
2091 * available to convert strings to long doubles.
2093 #$d_strtold HAS_STRTOLD /**/
2096 * This symbol, if defined, indicates that the strtoll routine is
2097 * available to convert strings to long longs.
2099 #$d_strtoll HAS_STRTOLL /**/
2102 * This symbol, if defined, indicates that the strtoull routine is
2103 * available to convert strings to unsigned long longs.
2105 #$d_strtoull HAS_STRTOULL /**/
2108 * This symbol, if defined, indicates that the strtouq routine is
2109 * available to convert strings to unsigned long longs (quads).
2111 #$d_strtouq HAS_STRTOUQ /**/
2113 /* HAS_TELLDIR_PROTO:
2114 * This symbol, if defined, indicates that the system provides
2115 * a prototype for the telldir() function. Otherwise, it is up
2116 * to the program to supply one. A good guess is
2117 * extern long telldir _((DIR*));
2119 #$d_telldirproto HAS_TELLDIR_PROTO /**/
2122 * This symbol holds the type returned by time(). It can be long,
2123 * or time_t on BSD sites (in which case <sys/types.h> should be
2126 #define Time_t $timetype /* Time type */
2129 * This symbol, if defined, indicates that the times() routine exists.
2130 * Note that this became obsolete on some systems (SUNOS), which now
2131 * use getrusage(). It may be necessary to include <sys/times.h>.
2133 #$d_times HAS_TIMES /**/
2136 * This symbol, if defined, indicates that the union semun is
2137 * defined by including <sys/sem.h>. If not, the user code
2138 * probably needs to define it as:
2141 * struct semid_ds *buf;
2142 * unsigned short *array;
2145 /* USE_SEMCTL_SEMUN:
2146 * This symbol, if defined, indicates that union semun is
2147 * used for semctl IPC_STAT.
2149 /* USE_SEMCTL_SEMID_DS:
2150 * This symbol, if defined, indicates that struct semid_ds * is
2151 * used for semctl IPC_STAT.
2153 #$d_union_semun HAS_UNION_SEMUN /**/
2154 #$d_semctl_semun USE_SEMCTL_SEMUN /**/
2155 #$d_semctl_semid_ds USE_SEMCTL_SEMID_DS /**/
2158 * This symbol, if defined, indicates that the ustat system call is
2159 * available to query file system statistics by dev_t.
2161 #$d_ustat HAS_USTAT /**/
2164 * This symbol, if defined, indicates that vfork() exists.
2166 #$d_vfork HAS_VFORK /**/
2169 * This symbol's value is either "void" or "int", corresponding to the
2170 * appropriate return type of a signal handler. Thus, you can declare
2171 * a signal handler using "Signal_t (*handler)()", and define the
2172 * handler using "Signal_t handler(sig)".
2174 #define Signal_t $signal_t /* Signal handler's return type */
2177 * This symbol, if defined, indicates that the vprintf routine is available
2178 * to printf with a pointer to an argument list. If unavailable, you
2179 * may need to write your own, probably in terms of _doprnt().
2181 /* USE_CHAR_VSPRINTF:
2182 * This symbol is defined if this system has vsprintf() returning type
2183 * (char*). The trend seems to be to declare it as "int vsprintf()". It
2184 * is up to the package author to declare vsprintf correctly based on the
2187 #$d_vprintf HAS_VPRINTF /**/
2188 #$d_charvspr USE_CHAR_VSPRINTF /**/
2190 /* USE_DYNAMIC_LOADING:
2191 * This symbol, if defined, indicates that dynamic loading of
2192 * some sort is available.
2194 #$usedl USE_DYNAMIC_LOADING /**/
2197 * This symbol contains the size of a double, so that the C preprocessor
2198 * can make decisions based on it.
2200 #define DOUBLESIZE $doublesize /**/
2203 * This symbol, if defined, indicates that this system uses
2206 #$ebcdic EBCDIC /**/
2209 * This symbol, if defined, tells that fflush(NULL) does flush
2210 * all pending stdio output.
2213 * This symbol, if defined, tells that to flush
2214 * all pending stdio output one must loop through all
2215 * the stdio file handles stored in an array and fflush them.
2216 * Note that if fflushNULL is defined, fflushall will not
2217 * even be probed for and will be left undefined.
2219 #$fflushNULL FFLUSH_NULL /**/
2220 #$fflushall FFLUSH_ALL /**/
2223 * This symbol holds the type used to declare file positions in libc.
2224 * It can be fpos_t, long, uint, etc... It may be necessary to include
2225 * <sys/types.h> to get any typedef'ed information.
2227 #define Fpos_t $fpostype /* File position type */
2230 * This symbol defines the format string used for printing a Gid_t.
2232 #define Gid_t_f $gidformat /**/
2235 * This symbol holds the signedess of a Gid_t.
2236 * 1 for unsigned, -1 for signed.
2238 #define Gid_t_sign $gidsign /* GID sign */
2241 * This symbol holds the size of a Gid_t in bytes.
2243 #define Gid_t_size $gidsize /* GID size */
2246 * This symbol holds the return type of getgid() and the type of
2247 * argument to setrgid() and related functions. Typically,
2248 * it is the type of group ids in the kernel. It can be int, ushort,
2249 * gid_t, etc... It may be necessary to include <sys/types.h> to get
2250 * any typedef'ed information.
2252 #define Gid_t $gidtype /* Type for getgid(), etc... */
2255 * This symbol holds the type used for the second argument to
2256 * getgroups() and setgroups(). Usually, this is the same as
2257 * gidtype (gid_t) , but sometimes it isn't.
2258 * It can be int, ushort, gid_t, etc...
2259 * It may be necessary to include <sys/types.h> to get any
2260 * typedef'ed information. This is only required if you have
2261 * getgroups() or setgroups()..
2263 #if defined(HAS_GETGROUPS) || defined(HAS_SETGROUPS)
2264 #define Groups_t $groupstype /* Type for 2nd arg to [sg]etgroups() */
2268 * This symbol contains the type of the prefix structure element
2269 * in the <db.h> header file. In older versions of DB, it was
2270 * int, while in newer ones it is u_int32_t.
2273 * This symbol contains the type of the prefix structure element
2274 * in the <db.h> header file. In older versions of DB, it was
2275 * int, while in newer ones it is size_t.
2277 #define DB_Hash_t $db_hashtype /**/
2278 #define DB_Prefix_t $db_prefixtype /**/
2281 * This symbol, if defined, indicates to the C program that it should
2285 * This symbol, if defined, indicates to the C program that struct group
2286 * in <grp.h> contains gr_passwd.
2289 #$d_grpasswd GRPASSWD /**/
2292 * This symbol, if defined, indicates that <iconv.h> exists and
2293 * should be included.
2295 #$i_iconv I_ICONV /**/
2298 * This symbol, if defined, indicates that <ieeefp.h> exists and
2299 * should be included.
2301 #$i_ieeefp I_IEEEFP /**/
2304 * This symbol, if defined, indicates to the C program that it should
2305 * include <inttypes.h>.
2307 #$i_inttypes I_INTTYPES /**/
2310 * This symbol, if defined, indicates to the C program that it should
2311 * include <mach/cthreads.h>.
2313 #$i_machcthr I_MACH_CTHREADS /**/
2316 * This symbol, if defined, indicates that <mntent.h> exists and
2317 * should be included.
2319 #$i_mntent I_MNTENT /**/
2322 * This symbol, if defined, indicates that <netdb.h> exists and
2323 * should be included.
2325 #$i_netdb I_NETDB /**/
2328 * This symbol, if defined, indicates to the C program that it should
2329 * include <netinet/tcp.h>.
2331 #$i_netinettcp I_NETINET_TCP /**/
2334 * This symbol, if defined, indicates that <poll.h> exists and
2335 * should be included.
2337 #$i_poll I_POLL /**/
2340 * This symbol, if defined, indicates to the C program that it should
2341 * include <pthread.h>.
2343 #$i_pthread I_PTHREAD /**/
2346 * This symbol, if defined, indicates to the C program that it should
2350 * This symbol, if defined, indicates to the C program that struct passwd
2351 * contains pw_quota.
2354 * This symbol, if defined, indicates to the C program that struct passwd
2358 * This symbol, if defined, indicates to the C program that struct passwd
2359 * contains pw_change.
2362 * This symbol, if defined, indicates to the C program that struct passwd
2363 * contains pw_class.
2366 * This symbol, if defined, indicates to the C program that struct passwd
2367 * contains pw_expire.
2370 * This symbol, if defined, indicates to the C program that struct passwd
2371 * contains pw_comment.
2374 * This symbol, if defined, indicates to the C program that struct passwd
2375 * contains pw_gecos.
2378 * This symbol, if defined, indicates to the C program that struct passwd
2379 * contains pw_passwd.
2382 #$d_pwquota PWQUOTA /**/
2383 #$d_pwage PWAGE /**/
2384 #$d_pwchange PWCHANGE /**/
2385 #$d_pwclass PWCLASS /**/
2386 #$d_pwexpire PWEXPIRE /**/
2387 #$d_pwcomment PWCOMMENT /**/
2388 #$d_pwgecos PWGECOS /**/
2389 #$d_pwpasswd PWPASSWD /**/
2392 * This symbol, if defined, indicates that <shadow.h> exists and
2393 * should be included.
2395 #$i_shadow I_SHADOW /**/
2398 * This symbol, if defined, indicates that <socks.h> exists and
2399 * should be included.
2401 #$i_socks I_SOCKS /**/
2404 * This symbol, if defined, indicates that <sunmath.h> exists and
2405 * should be included.
2407 #$i_sunmath I_SUNMATH /**/
2410 * This symbol, if defined, indicates that <syslog.h> exists and
2411 * should be included.
2413 #$i_syslog I_SYSLOG /**/
2416 * This symbol, if defined, indicates that <sys/mode.h> exists and
2417 * should be included.
2419 #$i_sysmode I_SYSMODE /**/
2422 * This symbol, if defined, indicates that <sys/mount.h> exists and
2423 * should be included.
2425 #$i_sysmount I_SYS_MOUNT /**/
2428 * This symbol, if defined, indicates that <sys/statfs.h> exists.
2430 #$i_sysstatfs I_SYS_STATFS /**/
2433 * This symbol, if defined, indicates that <sys/statvfs.h> exists and
2434 * should be included.
2436 #$i_sysstatvfs I_SYS_STATVFS /**/
2439 * This symbol, if defined, indicates that <sys/uio.h> exists and
2440 * should be included.
2442 #$i_sysuio I_SYSUIO /**/
2445 * This symbol, if defined, indicates that <sys/utsname.h> exists and
2446 * should be included.
2448 #$i_sysutsname I_SYSUTSNAME /**/
2451 * This symbol, if defined, indicates that <sys/vfs.h> exists and
2452 * should be included.
2454 #$i_sysvfs I_SYS_VFS /**/
2457 * This symbol, if defined, indicates to the C program that it should
2461 * This symbol, if defined, indicates to the C program that it should
2462 * include <sys/time.h>.
2464 /* I_SYS_TIME_KERNEL:
2465 * This symbol, if defined, indicates to the C program that it should
2466 * include <sys/time.h> with KERNEL defined.
2468 #$i_time I_TIME /**/
2469 #$i_systime I_SYS_TIME /**/
2470 #$i_systimek I_SYS_TIME_KERNEL /**/
2473 * This symbol, if defined, indicates that <ustat.h> exists and
2474 * should be included.
2476 #$i_ustat I_USTAT /**/
2478 /* PERL_INC_VERSION_LIST:
2479 * This variable specifies the list of subdirectories in over
2480 * which perl.c:incpush() and lib/lib.pm will automatically
2481 * search when adding directories to @INC, in a format suitable
2482 * for a C initialization string. See the inc_version_list entry
2483 * in Porting/Glossary for more details.
2485 #define PERL_INC_VERSION_LIST $inc_version_list_init /**/
2487 /* INSTALL_USR_BIN_PERL:
2488 * This symbol, if defined, indicates that Perl is to be installed
2489 * also as /usr/bin/perl.
2491 #$installusrbinperl INSTALL_USR_BIN_PERL /**/
2494 * This symbol, if defined, contains the string used by stdio to
2495 * format long doubles (format 'f') for output.
2498 * This symbol, if defined, contains the string used by stdio to
2499 * format long doubles (format 'g') for output.
2501 #$d_PRIfldbl PERL_PRIfldbl $sPRIfldbl /**/
2502 #$d_PRIgldbl PERL_PRIgldbl $sPRIgldbl /**/
2505 * This symbol holds the type used to declare offsets in the kernel.
2506 * It can be int, long, off_t, etc... It may be necessary to include
2507 * <sys/types.h> to get any typedef'ed information.
2510 * This symbol holds the number of bytes used by the Off_t.
2513 * This symbol holds the number of bytes used by the Off_t.
2515 #define Off_t $lseektype /* <offset> type */
2516 #define LSEEKSIZE $lseeksize /* <offset> size */
2517 #define Off_t_size $lseeksize /* <offset> size */
2520 * This variable contains the return type of free(). It is usually
2521 * void, but occasionally int.
2524 * This symbol is the type of pointer returned by malloc and realloc.
2526 #define Malloc_t $malloctype /**/
2527 #define Free_t $freetype /**/
2530 * This symbol, if defined, indicates that we're using our own malloc.
2532 #$d_mymalloc MYMALLOC /**/
2535 * This symbol holds the type used to declare file modes
2536 * for systems calls. It is usually mode_t, but may be
2537 * int or unsigned short. It may be necessary to include <sys/types.h>
2538 * to get any typedef'ed information.
2540 #define Mode_t $modetype /* file mode parameter for system calls */
2543 * This symbol is to be used during open() or fcntl(F_SETFL) to turn on
2544 * non-blocking I/O for the file descriptor. Note that there is no way
2545 * back, i.e. you cannot turn it blocking again this way. If you wish to
2546 * alternatively switch between blocking and non-blocking, use the
2547 * ioctl(FIOSNBIO) call instead, but that is not supported by all devices.
2550 * This symbol holds the errno error code set by read() when no data was
2551 * present on the non-blocking file descriptor.
2554 * This symbol holds the return code from read() when no data is present
2555 * on the non-blocking file descriptor. Be careful! If EOF_NONBLOCK is
2556 * not defined, then you can't distinguish between no data and EOF by
2557 * issuing a read(). You'll have to find another way to tell for sure!
2560 * This symbol, if defined, indicates to the C program that a read() on
2561 * a non-blocking file descriptor will return 0 on EOF, and not the value
2562 * held in RD_NODATA (-1 usually, in that case!).
2564 #define VAL_O_NONBLOCK $o_nonblock
2565 #define VAL_EAGAIN $eagain
2566 #define RD_NODATA $rd_nodata
2567 #$d_eofnblk EOF_NONBLOCK
2570 * This symbol holds the type used for the 1st argument
2571 * to gethostbyaddr().
2574 * This symbol holds the type used for the 2nd argument
2575 * to gethostbyaddr().
2578 * This symbol holds the type used for the argument to
2582 * This symbol holds the type used for the 1st argument to
2585 #define Netdb_host_t $netdb_host_type /**/
2586 #define Netdb_hlen_t $netdb_hlen_type /**/
2587 #define Netdb_name_t $netdb_name_type /**/
2588 #define Netdb_net_t $netdb_net_type /**/
2591 * This symbol defines the C type used for Perl's IV.
2594 * This symbol defines the C type used for Perl's UV.
2597 * This symbol defines the C type used for Perl's I8.
2600 * This symbol defines the C type used for Perl's U8.
2603 * This symbol defines the C type used for Perl's I16.
2606 * This symbol defines the C type used for Perl's U16.
2609 * This symbol defines the C type used for Perl's I32.
2612 * This symbol defines the C type used for Perl's U32.
2615 * This symbol defines the C type used for Perl's I64.
2618 * This symbol defines the C type used for Perl's U64.
2621 * This symbol defines the C type used for Perl's NV.
2624 * This symbol contains the sizeof(IV).
2627 * This symbol contains the sizeof(UV).
2630 * This symbol contains the sizeof(I8).
2633 * This symbol contains the sizeof(U8).
2636 * This symbol contains the sizeof(I16).
2639 * This symbol contains the sizeof(U16).
2642 * This symbol contains the sizeof(I32).
2645 * This symbol contains the sizeof(U32).
2648 * This symbol contains the sizeof(I64).
2651 * This symbol contains the sizeof(U64).
2654 * This symbol contains the sizeof(NV).
2657 * This symbol, if defined, indicates that a variable of type NVTYPE
2658 * can preserve all the bit of a variable of type UVSIZE.
2660 #define IVTYPE $ivtype /**/
2661 #define UVTYPE $uvtype /**/
2662 #define I8TYPE $i8type /**/
2663 #define U8TYPE $u8type /**/
2664 #define I16TYPE $i16type /**/
2665 #define U16TYPE $u16type /**/
2666 #define I32TYPE $i32type /**/
2667 #define U32TYPE $u32type /**/
2669 #define I64TYPE $i64type /**/
2670 #define U64TYPE $u64type /**/
2672 #define NVTYPE $nvtype /**/
2673 #define IVSIZE $ivsize /**/
2674 #define UVSIZE $uvsize /**/
2675 #define I8SIZE $i8size /**/
2676 #define U8SIZE $u8size /**/
2677 #define I16SIZE $i16size /**/
2678 #define U16SIZE $u16size /**/
2679 #define I32SIZE $i32size /**/
2680 #define U32SIZE $u32size /**/
2682 #define I64SIZE $i64size /**/
2683 #define U64SIZE $u64size /**/
2685 #define NVSIZE $nvsize /**/
2686 #$d_nv_preserves_uv NV_PRESERVES_UV
2689 * This symbol defines the format string used for printing a Perl IV
2690 * as a signed decimal integer.
2693 * This symbol defines the format string used for printing a Perl UV
2694 * as an unsigned decimal integer.
2697 * This symbol defines the format string used for printing a Perl UV
2698 * as an unsigned octal integer.
2701 * This symbol defines the format string used for printing a Perl UV
2702 * as an unsigned hexadecimal integer.
2704 #define IVdf $ivdformat /**/
2705 #define UVuf $uvuformat /**/
2706 #define UVof $uvoformat /**/
2707 #define UVxf $uvxformat /**/
2710 * This symbol holds the type used to declare process ids in the kernel.
2711 * It can be int, uint, pid_t, etc... It may be necessary to include
2712 * <sys/types.h> to get any typedef'ed information.
2714 #define Pid_t $pidtype /* PID type */
2717 * This symbol contains the name of the private library for this package.
2718 * The library is private in the sense that it needn't be in anyone's
2719 * execution path, but it should be accessible by the world. The program
2720 * should be prepared to do ~ expansion.
2723 * This symbol contains the ~name expanded version of PRIVLIB, to be used
2724 * in programs that are not prepared to deal with ~ expansion at run-time.
2726 #define PRIVLIB "$privlib" /**/
2727 #define PRIVLIB_EXP "$privlibexp" /**/
2730 * This symbol contains the size of a pointer, so that the C preprocessor
2731 * can make decisions based on it. It will be sizeof(void *) if
2732 * the compiler supports (void *); otherwise it will be
2735 #define PTRSIZE $ptrsize /**/
2738 * This macro is to be used to generate uniformly distributed
2739 * random numbers over the range [0., 1.[. You may have to supply
2740 * an 'extern double drand48();' in your program since SunOS 4.1.3
2741 * doesn't provide you with anything relevant in it's headers.
2742 * See HAS_DRAND48_PROTO.
2745 * This symbol defines the type of the argument of the
2746 * random seed function.
2749 * This symbol defines the macro to be used in seeding the
2750 * random number generator (see Drand01).
2753 * This symbol indicates how many bits are produced by the
2754 * function used to generate normalized random numbers.
2755 * Values include 15, 16, 31, and 48.
2757 #define Drand01() $drand01 /**/
2758 #define Rand_seed_t $randseedtype /**/
2759 #define seedDrand01(x) $seedfunc((Rand_seed_t)x) /**/
2760 #define RANDBITS $randbits /**/
2763 * This symbol holds the minimum number of bits operated by select.
2764 * That is, if you do select(n, ...), how many bits at least will be
2765 * cleared in the masks if some activity is detected. Usually this
2766 * is either n or 32*ceil(n/32), especially many little-endians do
2767 * the latter. This is only useful if you have select(), naturally.
2769 #define SELECT_MIN_BITS $selectminbits /**/
2772 * This symbol holds the type used for the 2nd, 3rd, and 4th
2773 * arguments to select. Usually, this is 'fd_set *', if HAS_FD_SET
2774 * is defined, and 'int *' otherwise. This is only useful if you
2775 * have select(), of course.
2777 #define Select_fd_set_t $selecttype /**/
2780 * This symbol contains a list of signal names in order of
2781 * signal number. This is intended
2782 * to be used as a static array initialization, like this:
2783 * char *sig_name[] = { SIG_NAME };
2784 * The signals in the list are separated with commas, and each signal
2785 * is surrounded by double quotes. There is no leading SIG in the signal
2786 * name, i.e. SIGQUIT is known as "QUIT".
2787 * Gaps in the signal numbers (up to NSIG) are filled in with NUMnn,
2788 * etc., where nn is the actual signal number (e.g. NUM37).
2789 * The signal number for sig_name[i] is stored in sig_num[i].
2790 * The last element is 0 to terminate the list with a NULL. This
2791 * corresponds to the 0 at the end of the sig_num list.
2794 * This symbol contains a list of signal numbers, in the same order as the
2795 * SIG_NAME list. It is suitable for static array initialization, as in:
2796 * int sig_num[] = { SIG_NUM };
2797 * The signals in the list are separated with commas, and the indices
2798 * within that list and the SIG_NAME list match, so it's easy to compute
2799 * the signal name from a number or vice versa at the price of a small
2800 * dynamic linear lookup.
2801 * Duplicates are allowed, but are moved to the end of the list.
2802 * The signal number corresponding to sig_name[i] is sig_number[i].
2803 * if (i < NSIG) then sig_number[i] == i.
2804 * The last element is 0, corresponding to the 0 at the end of
2805 * the sig_name list.
2807 #define SIG_NAME $sig_name_init /**/
2808 #define SIG_NUM $sig_num_init /**/
2811 * This symbol contains the name of the private library for this package.
2812 * The library is private in the sense that it needn't be in anyone's
2813 * execution path, but it should be accessible by the world. The program
2814 * should be prepared to do ~ expansion.
2815 * The standard distribution will put nothing in this directory.
2816 * After perl has been installed, users may install their own local
2817 * architecture-dependent modules in this directory with
2818 * MakeMaker Makefile.PL
2819 * or equivalent. See INSTALL for details.
2822 * This symbol contains the ~name expanded version of SITEARCH, to be used
2823 * in programs that are not prepared to deal with ~ expansion at run-time.
2825 #define SITEARCH "$sitearch" /**/
2826 #define SITEARCH_EXP "$sitearchexp" /**/
2829 * This symbol contains the name of the private library for this package.
2830 * The library is private in the sense that it needn't be in anyone's
2831 * execution path, but it should be accessible by the world. The program
2832 * should be prepared to do ~ expansion.
2833 * The standard distribution will put nothing in this directory.
2834 * After perl has been installed, users may install their own local
2835 * architecture-independent modules in this directory with
2836 * MakeMaker Makefile.PL
2837 * or equivalent. See INSTALL for details.
2840 * This symbol contains the ~name expanded version of SITELIB, to be used
2841 * in programs that are not prepared to deal with ~ expansion at run-time.
2844 * This define is SITELIB_EXP with any trailing version-specific component
2845 * removed. The elements in inc_version_list (inc_version_list.U) can
2846 * be tacked onto this variable to generate a list of directories to search.
2848 #define SITELIB "$sitelib" /**/
2849 #define SITELIB_EXP "$sitelibexp" /**/
2850 #define SITELIB_STEM "$sitelib_stem" /**/
2853 * This symbol holds the size of a Size_t in bytes.
2855 #define Size_t_size $sizesize /* */
2858 * This symbol holds the type used to declare length parameters
2859 * for string functions. It is usually size_t, but may be
2860 * unsigned long, int, etc. It may be necessary to include
2861 * <sys/types.h> to get any typedef'ed information.
2863 #define Size_t $sizetype /* length paramater for string functions */
2866 * This symbol holds the type used for the size argument of
2867 * various socket calls (just the base type, not the pointer-to).
2869 #define Sock_size_t $socksizetype /**/
2872 * This symbol holds the type used by functions that return
2873 * a count of bytes or an error condition. It must be a signed type.
2874 * It is usually ssize_t, but may be long or int, etc.
2875 * It may be necessary to include <sys/types.h> or <unistd.h>
2876 * to get any typedef'ed information.
2877 * We will pick a type such that sizeof(SSize_t) == sizeof(Size_t).
2879 #define SSize_t $ssizetype /* signed count of bytes */
2882 * This variable contains the string to put in front of a perl
2883 * script to make sure (one hopes) that it runs with perl and not
2886 #define STARTPERL "$startperl" /**/
2888 /* HAS_STDIO_STREAM_ARRAY:
2889 * This symbol, if defined, tells that there is an array
2890 * holding the stdio streams.
2892 /* STDIO_STREAM_ARRAY:
2893 * This symbol tells the name of the array holding the stdio streams.
2894 * Usual values include _iob, __iob, and __sF.
2896 #$d_stdio_stream_array HAS_STDIO_STREAM_ARRAY /**/
2897 #define STDIO_STREAM_ARRAY $stdio_stream_array
2900 * This symbol defines the format string used for printing a Uid_t.
2902 #define Uid_t_f $uidformat /**/
2905 * This symbol holds the signedess of a Uid_t.
2906 * 1 for unsigned, -1 for signed.
2908 #define Uid_t_sign $uidsign /* UID sign */
2911 * This symbol holds the size of a Uid_t in bytes.
2913 #define Uid_t_size $uidsize /* UID size */
2916 * This symbol holds the type used to declare user ids in the kernel.
2917 * It can be int, ushort, uid_t, etc... It may be necessary to include
2918 * <sys/types.h> to get any typedef'ed information.
2920 #define Uid_t $uidtype /* UID type */
2923 * This symbol, if defined, indicates that 64-bit integers should
2924 * be used when available. If not defined, the native integers
2925 * will be employed (be they 32 or 64 bits). The minimal possible
2926 * 64-bitness is used, just enough to get 64-bit integers into Perl.
2927 * This may mean using for example "long longs", while your memory
2928 * may still be limited to 2 gigabytes.
2931 * This symbol, if defined, indicates that 64-bit integers should
2932 * be used when available. If not defined, the native integers
2933 * will be used (be they 32 or 64 bits). The maximal possible
2934 * 64-bitness is employed: LP64 or ILP64, meaning that you will
2935 * be able to use more than 2 gigabytes of memory. This mode is
2936 * even more binary incompatible than USE_64_BIT_INT. You may not
2937 * be able to run the resulting executable in a 32-bit CPU at all or
2938 * you may need at least to reboot your OS to 64-bit mode.
2940 #ifndef USE_64_BIT_INT
2941 #$use64bitint USE_64_BIT_INT /**/
2944 #ifndef USE_64_BIT_ALL
2945 #$use64bitall USE_64_BIT_ALL /**/
2949 * This symbol, if defined, indicates that large file support
2950 * should be used when available.
2952 #ifndef USE_LARGE_FILES
2953 #$uselargefiles USE_LARGE_FILES /**/
2957 * This symbol, if defined, indicates that long doubles should
2958 * be used when available.
2960 #ifndef USE_LONG_DOUBLE
2961 #$uselongdouble USE_LONG_DOUBLE /**/
2965 * This symbol, if defined, indicates that 64-bit interfaces and
2966 * long doubles should be used when available.
2968 #ifndef USE_MORE_BITS
2969 #$usemorebits USE_MORE_BITS /**/
2973 * This symbol, if defined, indicates that Perl should
2974 * be built to use multiplicity.
2976 #ifndef MULTIPLICITY
2977 #$usemultiplicity MULTIPLICITY /**/
2981 * This symbol, if defined, indicates that the PerlIO abstraction should
2982 * be used throughout. If not defined, stdio should be
2983 * used in a fully backward compatible manner.
2986 #$useperlio USE_PERLIO /**/
2990 * This symbol, if defined, indicates that Perl should
2991 * be built to use socks.
2994 #$usesocks USE_SOCKS /**/
2998 * This symbol, if defined, indicates that Perl should be built to
2999 * use the interpreter-based threading implementation.
3002 * This symbol, if defined, indicates that Perl should be built to
3003 * use the 5.005-based threading implementation.
3005 /* OLD_PTHREADS_API:
3006 * This symbol, if defined, indicates that Perl should
3007 * be built to use the old draft POSIX threads API.
3009 #$use5005threads USE_5005THREADS /**/
3010 #$useithreads USE_ITHREADS /**/
3011 #if defined(USE_5005THREADS) && !defined(USE_ITHREADS)
3012 #define USE_THREADS /* until src is revised*/
3014 #$d_oldpthreads OLD_PTHREADS_API /**/
3017 * If defined, this symbol contains the name of a private library.
3018 * The library is private in the sense that it needn't be in anyone's
3019 * execution path, but it should be accessible by the world.
3020 * It may have a ~ on the front.
3021 * The standard distribution will put nothing in this directory.
3022 * Vendors who distribute perl may wish to place their own
3023 * architecture-dependent modules and extensions in this directory with
3024 * MakeMaker Makefile.PL INSTALLDIRS=vendor
3025 * or equivalent. See INSTALL for details.
3027 /* PERL_VENDORARCH_EXP:
3028 * This symbol contains the ~name expanded version of PERL_VENDORARCH, to be used
3029 * in programs that are not prepared to deal with ~ expansion at run-time.
3031 #$d_vendorarch PERL_VENDORARCH "$vendorarch" /**/
3032 #$d_vendorarch PERL_VENDORARCH_EXP "$vendorarchexp" /**/
3034 /* PERL_VENDORLIB_EXP:
3035 * This symbol contains the ~name expanded version of VENDORLIB, to be used
3036 * in programs that are not prepared to deal with ~ expansion at run-time.
3038 /* PERL_VENDORLIB_STEM:
3039 * This define is PERL_VENDORLIB_EXP with any trailing version-specific component
3040 * removed. The elements in inc_version_list (inc_version_list.U) can
3041 * be tacked onto this variable to generate a list of directories to search.
3043 #$d_vendorlib PERL_VENDORLIB_EXP "$vendorlibexp" /**/
3044 #$d_vendorlib PERL_VENDORLIB_STEM "$vendorlib_stem" /**/
3047 * This symbol indicates how much support of the void type is given by this
3048 * compiler. What various bits mean:
3050 * 1 = supports declaration of void
3051 * 2 = supports arrays of pointers to functions returning void
3052 * 4 = supports comparisons between pointers to void functions and
3053 * addresses of void functions
3054 * 8 = suports declaration of generic void pointers
3056 * The package designer should define VOIDUSED to indicate the requirements
3057 * of the package. This can be done either by #defining VOIDUSED before
3058 * including config.h, or by defining defvoidused in Myinit.U. If the
3059 * latter approach is taken, only those flags will be tested. If the
3060 * level of void support necessary is not present, defines void to int.
3063 #define VOIDUSED $defvoidused
3065 #define VOIDFLAGS $voidflags
3066 #if (VOIDFLAGS & VOIDUSED) != VOIDUSED
3067 #define void int /* is void to be avoided? */
3068 #define M_VOID /* Xenix strikes again */
3071 /* PERL_XS_APIVERSION:
3072 * This variable contains the version of the oldest perl binary
3073 * compatible with the present perl. perl.c:incpush() and
3074 * lib/lib.pm will automatically search in $sitearch for older
3075 * directories across major versions back to xs_apiversion.
3076 * This is only useful if you have a perl library directory tree
3077 * structured like the default one.
3078 * See INSTALL for how this works.
3079 * The versioned site_perl directory was introduced in 5.005,
3080 * so that is the lowest possible value.
3081 * Since this can depend on compile time options (such as
3082 * bincompat) it is set by Configure. Other non-default sources
3083 * of potential incompatibility, such as multiplicity, threads,
3084 * debugging, 64bits, sfio, etc., are not checked for currently,
3085 * though in principle we could go snooping around in old
3088 /* PERL_PM_APIVERSION:
3089 * This variable contains the version of the oldest perl
3090 * compatible with the present perl. (That is, pure perl modules
3091 * written for pm_apiversion will still work for the current
3092 * version). perl.c:incpush() and lib/lib.pm will automatically
3093 * search in $sitelib for older directories across major versions
3094 * back to pm_apiversion. This is only useful if you have a perl
3095 * library directory tree structured like the default one. The
3096 * versioned site_perl library was introduced in 5.005, so that's
3097 * the default setting for this variable. It's hard to imagine
3098 * it changing before Perl6. It is included here for symmetry
3099 * with xs_apiveprsion -- the searching algorithms will
3100 * (presumably) be similar.
3101 * See the INSTALL file for how this works.
3103 #define PERL_XS_APIVERSION "$xs_apiversion"
3104 #define PERL_PM_APIVERSION "$pm_apiversion"