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basiclib/Config.pm-txt  view on Meta::CPAN

sig_num='0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 20 0'
so='dll'
startsh='#!/bin/sh'
static_ext='DynaLoader'
Author=''
CONFIGDOTSH='true'
Date='$Date'
Header=''
Id='$Id'
Locker=''
Log='$Log'
PERL_API_REVISION='5'
PERL_API_SUBVERSION='0'
PERL_API_VERSION='5'
PERL_REVISION='5'
PERL_SUBVERSION='1'
PERL_VERSION='6'
RCSfile='$RCSfile'
Revision='$Revision'
Source=''
State=''
_a='.lib'
_exe='.exe'
_o='.obj'
afs='false'
alignbytes='8'
ansi2knr=''
aphostname=''
api_revision='5'
api_subversion='0'
api_version='5'
api_versionstring='5.5.0'
ar='lib'
archlib='C:\Perl\lib'
archname64=''
archobjs=''
awk='awk'
baserev='5'
bash=''
bin='C:\Perl\bin'
bincompat5005='undef'
binexp='C:\Perl\bin'
bison=''
byacc='byacc'
byteorder='1234'
c=''
castflags='0'
cat='type'
cccdlflags=' '
ccdlflags=' '
ccflags_uselargefiles=''
ccname=''
ccsymbols=''
ccversion=''
cf_by='ActiveState'
cf_email='support@ActiveState.com'
cf_time='Tue Feb  4 15:34:07 2003'
charsize='1'
chgrp=''
chmod=''
chown=''
clocktype='clock_t'
comm=''
compress=''
contains='grep'
cp='copy'
cpio=''
cpp='cl -nologo -E'
cpp_stuff='42'
cppccsymbols=''
cpplast=''
cppminus=''
cpprun='cl -nologo -E'
cppstdin='cl -nologo -E'
cppsymbols=''
crosscompile='undef'
cryptlib=''
csh='undef'
d_Gconvert='sprintf((b),"%.*g",(n),(x))'
d_PRIEUldbl='undef'
d_PRIFUldbl='undef'
d_PRIGUldbl='undef'
d_PRIXU64='undef'
d_PRId64='undef'
d_PRIeldbl='undef'
d_PRIfldbl='undef'
d_PRIgldbl='undef'
d_PRIi64='undef'
d_PRIo64='undef'
d_PRIu64='undef'
d_PRIx64='undef'
d_SCNfldbl='undef'
d__fwalk='undef'
d_access='define'
d_accessx='undef'
d_alarm='undef'
d_archlib='define'
d_atolf='undef'
d_atoll='undef'
d_attribut='undef'
d_bcmp='undef'
d_bcopy='undef'
d_bincompat5005='undef'
d_bsd='define'
d_bsdgetpgrp='undef'
d_bsdsetpgrp='undef'
d_bzero='undef'
d_casti32='undef'
d_castneg='define'
d_charvspr='undef'
d_chown='undef'
d_chroot='undef'
d_chsize='define'
d_closedir='define'
d_const='define'
d_crypt='define'
d_csh='undef'
d_cuserid='undef'
d_dbl_dig='define'
d_difftime='define'
d_dirnamlen='define'
d_dlerror='define'
d_dlopen='define'
d_dlsymun='undef'
d_dosuid='undef'
d_drand48proto='undef'
d_dup2='define'
d_eaccess='undef'
d_endgrent='undef'
d_endhent='undef'
d_endnent='undef'
d_endpent='undef'
d_endpwent='undef'
d_endsent='undef'
d_eofnblk='define'
d_eunice='undef'
d_fchmod='undef'
d_fchown='undef'
d_fcntl='undef'
d_fcntl_can_lock='undef'
d_fd_macros='define'
d_fd_set='define'
d_fds_bits='define'
d_fgetpos='define'
d_flexfnam='define'
d_flock='define'
d_fork='undef'
d_fpathconf='undef'
d_fpos64_t='undef'
d_frexpl='undef'
d_fs_data_s='undef'
d_fseeko='undef'
d_fsetpos='define'
d_fstatfs='undef'
d_fstatvfs='undef'
d_fsync='undef'
d_ftello='undef'
d_ftime='define'
d_getcwd='undef'
d_getespwnam='undef'
d_getfsstat='undef'
d_getgrent='undef'
d_getgrps='undef'
d_gethbyaddr='define'
d_gethbyname='define'
d_gethent='undef'
d_gethname='define'
d_gethostprotos='define'
d_getlogin='define'
d_getmnt='undef'
d_getmntent='undef'
d_getnbyaddr='undef'
d_getnbyname='undef'
d_getnent='undef'
d_getnetprotos='undef'
d_getpagsz='undef'
d_getpbyname='define'
d_getpbynumber='define'
d_getpent='undef'
d_getpgid='undef'
d_getpgrp2='undef'
d_getpgrp='undef'
d_getppid='undef'
d_getprior='undef'
d_getprotoprotos='define'
d_getprpwnam='undef'
d_getpwent='undef'
d_getsbyname='define'
d_getsbyport='define'
d_getsent='undef'
d_getservprotos='define'
d_getspnam='undef'
d_gettimeod='undef'
d_gnulibc='undef'
d_grpasswd='undef'
d_hasmntopt='undef'
d_htonl='define'
d_iconv='undef'
d_index='undef'
d_inetaton='undef'
d_int64_t='undef'
d_isascii='define'
d_isnan='define'
d_isnanl='undef'
d_killpg='undef'
d_lchown='undef'
d_ldbl_dig='define'
d_link='define'
d_locconv='define'
d_lockf='undef'
d_longdbl='define'
d_longlong='undef'
d_lseekproto='define'
d_lstat='undef'
d_madvise='undef'
d_mblen='define'
d_mbstowcs='define'
d_mbtowc='define'
d_memchr='define'
d_memcmp='define'
d_memcpy='define'
d_memmove='define'
d_memset='define'
d_mkdir='define'
d_mkdtemp='undef'
d_mkfifo='undef'
d_mkstemp='undef'
d_mkstemps='undef'
d_mktime='define'
d_mmap='undef'
d_modfl='undef'
d_mprotect='undef'
d_msg='undef'
d_msg_ctrunc='undef'
d_msg_dontroute='undef'
d_msg_oob='undef'
d_msg_peek='undef'
d_msg_proxy='undef'
d_msgctl='undef'
d_msgget='undef'
d_msgrcv='undef'
d_msgsnd='undef'
d_msync='undef'
d_munmap='undef'
d_mymalloc='undef'
d_nice='undef'
d_nv_preserves_uv='define'
d_nv_preserves_uv_bits='32'
d_off64_t='undef'
d_old_pthread_create_joinable='undef'
d_oldpthreads='undef'
d_oldsock='undef'
d_open3='undef'
d_pathconf='undef'
d_pause='define'
d_perl_otherlibdirs='undef'
d_phostname='undef'
d_pipe='define'
d_poll='undef'
d_portable='define'
d_pthread_atfork='undef'
d_pthread_yield='undef'
d_pwage='undef'
d_pwchange='undef'
d_pwclass='undef'
d_pwcomment='undef'

basiclib/Config.pm-txt  view on Meta::CPAN

=item C<ccsymbols>

From F<Cppsym.U>:

The variable contains the symbols defined by the C compiler alone.
The symbols defined by cpp or by cc when it calls cpp are not in
this list, see cppsymbols and cppccsymbols.
The list is a space-separated list of symbol=value tokens.

=item C<ccversion>

From F<Checkcc.U>:

This can set either by hints files or by Configure.  If using
a (non-gcc) vendor cc, this variable may contain a version for
the compiler.

=item C<cf_by>

From F<cf_who.U>:

Login name of the person who ran the Configure script and answered the
questions. This is used to tag both F<config.sh> and F<config_h.SH>.

=item C<cf_email>

From F<cf_email.U>:

Electronic mail address of the person who ran Configure. This can be
used by units that require the user's e-mail, like F<MailList.U>.

=item C<cf_time>

From F<cf_who.U>:

Holds the output of the C<date> command when the configuration file was
produced. This is used to tag both F<config.sh> and F<config_h.SH>.

=item C<charsize>

From F<charsize.U>:

This variable contains the value of the C<CHARSIZE> symbol, which
indicates to the C program how many bytes there are in a character.

=item C<chgrp>

From F<Loc.U>:

This variable is defined but not used by Configure.
The value is a plain '' and is not useful.

=item C<chmod>

From F<Loc.U>:

This variable is defined but not used by Configure.
The value is a plain '' and is not useful.

=item C<chown>

From F<Loc.U>:

This variable is defined but not used by Configure.
The value is a plain '' and is not useful.

=item C<clocktype>

From F<d_times.U>:

This variable holds the type returned by times(). It can be long,
or clock_t on C<BSD> sites (in which case <sys/types.h> should be
included).

=item C<comm>

From F<Loc.U>:

This variable is used internally by Configure to determine the
full pathname (if any) of the comm program.  After Configure runs,
the value is reset to a plain C<comm> and is not useful.

=item C<compress>

From F<Loc.U>:

This variable is defined but not used by Configure.
The value is a plain '' and is not useful.

=back

=head2 C

=over

=item C<CONFIGDOTSH>

From F<Oldsyms.U>:

This is set to C<true> in F<config.sh> so that a shell script
sourcing F<config.sh> can tell if it has been sourced already.

=item C<contains>

From F<contains.U>:

This variable holds the command to do a grep with a proper return
status.  On most sane systems it is simply C<grep>.  On insane systems
it is a grep followed by a cat followed by a test.  This variable
is primarily for the use of other Configure units.

=item C<cp>

From F<Loc.U>:

This variable is used internally by Configure to determine the
full pathname (if any) of the cp program.  After Configure runs,
the value is reset to a plain C<cp> and is not useful.

=item C<cpio>

basiclib/Config.pm-txt  view on Meta::CPAN

From F<bincompat5005.U>:

This variable conditionally defines BINCOMPAT5005 so that F<embed.h>
can take special action if this version of Perl should be
binary-compatible with Perl 5.005.  This is impossible for builds
that use features like threads and multiplicity it is always $undef
for those versions.

=item C<d_bsd>

From F<Guess.U>:

This symbol conditionally defines the symbol C<BSD> when running on a
C<BSD> system.

=item C<d_bsdgetpgrp>

From F<d_getpgrp.U>:

This variable conditionally defines C<USE_BSD_GETPGRP> if
getpgrp needs one arguments whereas C<USG> one needs none.

=item C<d_bsdsetpgrp>

From F<d_setpgrp.U>:

This variable conditionally defines C<USE_BSD_SETPGRP> if
setpgrp needs two arguments whereas C<USG> one needs none.
See also d_setpgid for a C<POSIX> interface.

=item C<d_bzero>

From F<d_bzero.U>:

This variable conditionally defines the C<HAS_BZERO> symbol if
the bzero() routine is available to set memory to 0.

=item C<d_casti32>

From F<d_casti32.U>:

This variable conditionally defines CASTI32, which indicates
whether the C compiler can cast large floats to 32-bit ints.

=item C<d_castneg>

From F<d_castneg.U>:

This variable conditionally defines C<CASTNEG>, which indicates
wether the C compiler can cast negative float to unsigned.

=item C<d_charvspr>

From F<d_vprintf.U>:

This variable conditionally defines C<CHARVSPRINTF> if this system
has vsprintf returning type (char*).  The trend seems to be to
declare it as "int vsprintf()".

=item C<d_chown>

From F<d_chown.U>:

This variable conditionally defines the C<HAS_CHOWN> symbol, which
indicates to the C program that the chown() routine is available.

=item C<d_chroot>

From F<d_chroot.U>:

This variable conditionally defines the C<HAS_CHROOT> symbol, which
indicates to the C program that the chroot() routine is available.

=item C<d_chsize>

From F<d_chsize.U>:

This variable conditionally defines the C<CHSIZE> symbol, which
indicates to the C program that the chsize() routine is available
to truncate files.  You might need a -lx to get this routine.

=item C<d_closedir>

From F<d_closedir.U>:

This variable conditionally defines C<HAS_CLOSEDIR> if closedir() is
available.

=item C<d_const>

From F<d_const.U>:

This variable conditionally defines the C<HASCONST> symbol, which
indicates to the C program that this C compiler knows about the
const type.

=item C<d_crypt>

From F<d_crypt.U>:

This variable conditionally defines the C<CRYPT> symbol, which
indicates to the C program that the crypt() routine is available
to encrypt passwords and the like.

=item C<d_csh>

From F<d_csh.U>:

This variable conditionally defines the C<CSH> symbol, which
indicates to the C program that the C-shell exists.

=item C<d_cuserid>

From F<d_cuserid.U>:

This variable conditionally defines the C<HAS_CUSERID> symbol, which
indicates to the C program that the cuserid() routine is available
to get character login names.

=item C<d_dbl_dig>

From F<d_dbl_dig.U>:

This variable conditionally defines d_dbl_dig if this system's
header files provide C<DBL_DIG>, which is the number of significant

basiclib/Config.pm-txt  view on Meta::CPAN

for sequential access of the group database.

=item C<d_endhent>

From F<d_endhent.U>:

This variable conditionally defines C<HAS_ENDHOSTENT> if endhostent() is
available to close whatever was being used for host queries.

=item C<d_endnent>

From F<d_endnent.U>:

This variable conditionally defines C<HAS_ENDNETENT> if endnetent() is
available to close whatever was being used for network queries.

=item C<d_endpent>

From F<d_endpent.U>:

This variable conditionally defines C<HAS_ENDPROTOENT> if endprotoent() is
available to close whatever was being used for protocol queries.

=item C<d_endpwent>

From F<d_endpwent.U>:

This variable conditionally defines the C<HAS_ENDPWENT> symbol, which
indicates to the C program that the endpwent() routine is available
for sequential access of the passwd database.

=item C<d_endsent>

From F<d_endsent.U>:

This variable conditionally defines C<HAS_ENDSERVENT> if endservent() is
available to close whatever was being used for service queries.

=item C<d_eofnblk>

From F<nblock_io.U>:

This variable conditionally defines C<EOF_NONBLOCK> if C<EOF> can be seen
when reading from a non-blocking F<I/O> source.

=item C<d_eunice>

From F<Guess.U>:

This variable conditionally defines the symbols C<EUNICE> and C<VAX>, which
alerts the C program that it must deal with ideosyncracies of C<VMS>.

=item C<d_fchmod>

From F<d_fchmod.U>:

This variable conditionally defines the C<HAS_FCHMOD> symbol, which
indicates to the C program that the fchmod() routine is available
to change mode of opened files.

=item C<d_fchown>

From F<d_fchown.U>:

This variable conditionally defines the C<HAS_FCHOWN> symbol, which
indicates to the C program that the fchown() routine is available
to change ownership of opened files.

=item C<d_fcntl>

From F<d_fcntl.U>:

This variable conditionally defines the C<HAS_FCNTL> symbol, and indicates
whether the fcntl() function exists

=item C<d_fcntl_can_lock>

From F<d_fcntl_can_lock.U>:

This variable conditionally defines the C<FCNTL_CAN_LOCK> symbol
and indicates whether file locking with fcntl() works.

=item C<d_fd_macros>

From F<d_fd_set.U>:

This variable contains the eventual value of the C<HAS_FD_MACROS> symbol,
which indicates if your C compiler knows about the macros which
manipulate an fd_set.

=item C<d_fd_set>

From F<d_fd_set.U>:

This variable contains the eventual value of the C<HAS_FD_SET> symbol,
which indicates if your C compiler knows about the fd_set typedef.

=item C<d_fds_bits>

From F<d_fd_set.U>:

This variable contains the eventual value of the C<HAS_FDS_BITS> symbol,
which indicates if your fd_set typedef contains the fds_bits member.
If you have an fd_set typedef, but the dweebs who installed it did
a half-fast job and neglected to provide the macros to manipulate
an fd_set, C<HAS_FDS_BITS> will let us know how to fix the gaffe.

=item C<d_fgetpos>

From F<d_fgetpos.U>:

This variable conditionally defines C<HAS_FGETPOS> if fgetpos() is
available to get the file position indicator.

=item C<d_flexfnam>

From F<d_flexfnam.U>:

This variable conditionally defines the C<FLEXFILENAMES> symbol, which
indicates that the system supports filenames longer than 14 characters.

=item C<d_flock>

From F<d_flock.U>:

This variable conditionally defines C<HAS_FLOCK> if flock() is

basiclib/Config.pm-txt  view on Meta::CPAN

This variable conditionally defines C<HAS_HTONL> if htonl() and its
friends are available to do network order byte swapping.

=item C<d_iconv>

From F<d_iconv.U>:

This variable conditionally defines the C<HAS_ICONV> symbol, which
indicates to the C program that the iconv() routine is available.

=item C<d_index>

From F<d_strchr.U>:

This variable conditionally defines C<HAS_INDEX> if index() and
rindex() are available for string searching.

=item C<d_inetaton>

From F<d_inetaton.U>:

This variable conditionally defines the C<HAS_INET_ATON> symbol, which
indicates to the C program that the inet_aton() function is available
to parse C<IP> address C<dotted-quad> strings.

=item C<d_int64_t>

From F<d_int64_t.U>:

This symbol will be defined if the C compiler supports int64_t.

=item C<d_isascii>

From F<d_isascii.U>:

This variable conditionally defines the C<HAS_ISASCII> constant,
which indicates to the C program that isascii() is available.

=item C<d_isnan>

From F<d_isnan.U>:

This variable conditionally defines the C<HAS_ISNAN> symbol, which
indicates to the C program that the isnan() routine is available.

=item C<d_isnanl>

From F<d_isnanl.U>:

This variable conditionally defines the C<HAS_ISNANL> symbol, which
indicates to the C program that the isnanl() routine is available.

=item C<d_killpg>

From F<d_killpg.U>:

This variable conditionally defines the C<HAS_KILLPG> symbol, which
indicates to the C program that the killpg() routine is available
to kill process groups.

=item C<d_lchown>

From F<d_lchown.U>:

This variable conditionally defines the C<HAS_LCHOWN> symbol, which
indicates to the C program that the lchown() routine is available
to operate on a symbolic link (instead of following the link).

=item C<d_ldbl_dig>

From F<d_ldbl_dig.U>:

This variable conditionally defines d_ldbl_dig if this system's
header files provide C<LDBL_DIG>, which is the number of significant
digits in a long double precision number.

=item C<d_link>

From F<d_link.U>:

This variable conditionally defines C<HAS_LINK> if link() is
available to create hard links.

=item C<d_locconv>

From F<d_locconv.U>:

This variable conditionally defines C<HAS_LOCALECONV> if localeconv() is
available for numeric and monetary formatting conventions.

=item C<d_lockf>

From F<d_lockf.U>:

This variable conditionally defines C<HAS_LOCKF> if lockf() is
available to do file locking.

=item C<d_longdbl>

From F<d_longdbl.U>:

This variable conditionally defines C<HAS_LONG_DOUBLE> if 
the long double type is supported.

=item C<d_longlong>

From F<d_longlong.U>:

This variable conditionally defines C<HAS_LONG_LONG> if 
the long long type is supported.

=item C<d_lseekproto>

From F<d_lseekproto.U>:

This variable conditionally defines the C<HAS_LSEEK_PROTO> symbol,
which indicates to the C program that the system provides
a prototype for the lseek() function.  Otherwise, it is
up to the program to supply one.

=item C<d_lstat>

From F<d_lstat.U>:

This variable conditionally defines C<HAS_LSTAT> if lstat() is
available to do file stats on symbolic links.