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IABSD.fr/src/gnu/usr.bin/perl/Configure

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  • Author : afresh1
    Date : 2023-02-15 01:38:20
    Hash : fdcd7346
    Message : Apply local patches - perl-5.36.0 OK bluhm@ a good time naddy@

  • gnu/usr.bin/perl/Configure
  • #! /bin/sh
    #
    # If these # comments don't work, trim them. Don't worry about any other
    # shell scripts, Configure will trim # comments from them for you.
    #
    # (If you are trying to port this package to a machine without sh,
    # I would suggest you have a look at the prototypical config_h.SH file
    # and edit it to reflect your system. Some packages may include samples
    # of config.h for certain machines, so you might look for one of those.)
    #
    # Yes, you may rip this off to use in other distribution packages. This
    # script belongs to the public domain and cannot be copyrighted.
    #
    # Note: this Configure script was generated automatically by the tool
    # called "metaconfig". Rather than working with this copy of Configure,
    # you should use metaconfig. Perl uses a modified version of this
    # tool, and this, together with the metaconfig units, are available
    # in the git repository:
    #    $ git clone https://github.com/Perl/metaconfig metaconfig
    # The original dist package (including metaconfig) is available on github:
    #    $ git clone https://github.com/rmanfredi/dist.git dist-git
    #
    # Though this script was generated by metaconfig from metaunits, it is
    # OK to send patches against Configure itself (but not to commit them
    # to blead). It's up to
    # the Configure maintainers to backport the patch to the metaunits if it
    # is accepted. Exceptions to this rule, and more information, is in
    # Porting/pumpkin.pod.
    
    # Generated using [metaconfig 3.5 PL0]
    # with additional metaconfig patches from https://github.com/Perl/metaconfig
    
    cat >c1$$ <<EOF
    ARGGGHHHH!!!!!
    
    SCO csh still thinks true is false.  Write to SCO today and tell them that next
    year Configure ought to "rm /bin/csh" unless they fix their blasted shell. :-)
    
    (Actually, Configure ought to just patch csh in place.  Hmm.  Hmmmmm.  All
    we'd have to do is go in and swap the && and || tokens, wherever they are.)
    
    [End of diatribe. We now return you to your regularly scheduled programming...]
    EOF
    cat >c2$$ <<EOF
    
    OOPS!  You naughty creature!  You didn't run Configure with sh!
    I will attempt to remedy the situation by running sh for you...
    EOF
    
    true || cat c1$$ c2$$
    true || exec sh $0 $argv:q
    
    (exit $?0) || cat c2$$
    (exit $?0) || exec sh $0 $argv:q
    rm -f c1$$ c2$$
    
    if test -f /dev/cputype -a -f /dev/drivers -a -f /dev/osversion; then
    	cat <<EOF
    ***
    *** I'm sorry but this system looks like Plan 9 and Plan 9 doesn't do
    *** Configure that well.  (Plan 9 is close to UNIX but not close enough.)
    *** Please read the README.plan9 for further instructions.
    *** Cannot continue, aborting.
    ***
    EOF
    	exit 1
    fi
    
    if test -f /sys/utilities/MultiView ; then
    	# AmigaOS, test -c for /dev/null is not useful
    	:
    elif test ! -c /dev/null ; then
    	cat <<EOF
    ***
    *** I'm sorry, but /dev/null appears to be a file rather than a device.
    *** Please consult your operating sytem's notes for making a device
    *** in /dev.
    *** Cannot continue, aborting.
    ***
    EOF
    	exit 1
    fi
    
    : compute my invocation name
    me=$0
    case "$0" in
    */*)
    	me=`echo $0 | sed -e 's!.*/\(.*\)!\1!' 2>/dev/null`
    	test "$me" || me=$0
    	;;
    esac
    
    : Proper separator for the PATH environment variable
    p_=:
    : On OS/2 this directory should exist if this is not floppy only system ":-]"
    if test -d c:/. || ( uname -a | grep -i 'os\(/\|\)2' 2>&1 ) 2>&1 >/dev/null ; then
    	if test -n "$OS2_SHELL"; then
    		p_=\;
    		PATH=`cmd /c "echo %PATH%" | tr '\\\\' / `
    		OS2_SHELL=`cmd /c "echo %OS2_SHELL%" | tr '\\\\' / | tr '[A-Z]' '[a-z]'`
    		is_os2=yes
    	elif test -n "$DJGPP"; then
    		case "X${MACHTYPE:-nonesuchmach}" in
    		*cygwin|*msys) ;;
    		*) p_=\; ;;
    		esac
    	fi
    fi
    
    : Proper PATH setting
    paths='/bin /usr/bin /usr/local/bin /usr/ucb /usr/local /usr/lbin'
    paths="$paths /opt/bin /opt/local/bin /opt/local /opt/lbin"
    paths="$paths /usr/5bin /etc /usr/gnu/bin /usr/new /usr/new/bin /usr/nbin"
    paths="$paths /opt/gnu/bin /opt/new /opt/new/bin /opt/nbin"
    paths="$paths /sys5.3/bin /sys5.3/usr/bin /bsd4.3/bin /bsd4.3/usr/ucb"
    paths="$paths /bsd4.3/usr/bin /usr/bsd /bsd43/bin /opt/ansic/bin /usr/ccs/bin"
    paths="$paths /etc /usr/lib /usr/ucblib /lib /usr/ccs/lib"
    paths="$paths /sbin /usr/sbin /usr/libexec"
    paths="$paths /system/gnu_library/bin"
    
    for p in $paths
    do
    	case "$p_$PATH$p_" in
    	*$p_$p$p_*) ;;
    	*) test -d $p && PATH=$PATH$p_$p ;;
    	esac
    done
    
    PATH=.$p_$PATH
    export PATH
    
    : shall we be using ksh?
    inksh=''
    needksh=''
    avoidksh=''
    newsh=/bin/ksh
    changesh=''
    if (PATH=.; alias -x) >/dev/null 2>&1; then
    		inksh=true
    fi
    if test -f /hp-ux -a -f /bin/ksh; then
    	needksh='to avoid sh bug in "here document" expansion'
    fi
    if test -d /usr/lpp -a -f /usr/bin/bsh -a -f /usr/bin/uname; then
    	if test X`/usr/bin/uname -v` = X4; then
    		avoidksh="to avoid AIX 4's /bin/sh"
    		newsh=/usr/bin/bsh
    	fi
    fi
    if test -f /osf_boot -a -f /usr/sbin/setld; then
    	if test X`/usr/bin/uname -s` = XOSF1; then
    		avoidksh="to avoid Digital UNIX' ksh"
    		newsh=/bin/sh
    		unset BIN_SH
    	fi
    fi
    case "$inksh/$needksh" in
    /[a-z]*)
    		ENV=''
    		changesh=true
    		reason="$needksh"
    	;;
    esac
    case "$inksh/$avoidksh" in
    true/[a-z]*)
    	changesh=true
    	reason="$avoidksh"
    	;;
    esac
    case "$inksh/$needksh-$avoidksh-" in
    true/--)
    		cat <<EOM
    (I see you are using the Korn shell.  Some ksh's blow up on $me,
    mainly on older exotic systems.  If yours does, try the Bourne shell instead.)
    EOM
    	;;
    esac
    case "$changesh" in
    true)
    	export newsh
    	echo "(Feeding myself to $newsh $reason.)"
    	case "$0" in
    	Configure|*/Configure) exec $newsh $0 "$@";;
    	*) exec $newsh Configure "$@";;
    	esac
    	;;
    esac
    test -x "${newsh}" || unset newsh
    
    : if needed, set CDPATH to a harmless value that is not chatty
    : avoid bash 2.02 problems with empty CDPATH.
    case "$CDPATH" in
    '')	;;
    *)	case "$SHELL" in
    	*bash*) CDPATH='.' ;;
    	*) CDPATH='' ;;
    	esac
    	;;
    esac
    
    : Configure runs within the UU subdirectory
    test -d UU || mkdir UU
    cd UU && rm -f ./*
    
    ccname=''
    ccversion=''
    ccsymbols=''
    cppccsymbols=''
    cppsymbols=''
    from=''
    hostgenerate=''
    hostosname=''
    hostperl=''
    run=''
    targetarch=''
    targetdir=''
    targetenv=''
    targethost=''
    targetmkdir=''
    targetport=''
    to=''
    usecrosscompile=''
    extern_C=''
    mistrustnm=''
    usedevel=''
    perllibs=''
    dynamic_ext=''
    extensions=''
    known_extensions=''
    nonxs_ext=''
    static_ext=''
    uselanginfo=''
    useopcode=''
    useposix=''
    extras=''
    d_bsd=''
    d_eunice=''
    d_xenix=''
    eunicefix=''
    ar=''
    awk=''
    bash=''
    bison=''
    byacc=''
    cat=''
    chgrp=''
    chmod=''
    chown=''
    comm=''
    compress=''
    cp=''
    cpio=''
    cpp=''
    csh=''
    date=''
    echo=''
    egrep=''
    emacs=''
    expr=''
    find=''
    flex=''
    gmake=''
    grep=''
    gzip=''
    inews=''
    ksh=''
    less=''
    line=''
    lint=''
    ln=''
    lp=''
    lpr=''
    ls=''
    mail=''
    mailx=''
    make=''
    mkdir=''
    more=''
    mv=''
    nm=''
    nroff=''
    perl=''
    pg=''
    pmake=''
    pr=''
    rm=''
    rmail=''
    sed=''
    sendmail=''
    shar=''
    sleep=''
    smail=''
    sort=''
    submit=''
    tail=''
    tar=''
    tbl=''
    tee=''
    test=''
    touch=''
    tr=''
    troff=''
    uname=''
    uniq=''
    uuname=''
    vi=''
    zcat=''
    zip=''
    full_ar=''
    full_sed=''
    libswanted=''
    hint=''
    myuname=''
    osname=''
    osvers=''
    Author=''
    Date=''
    Header=''
    Id=''
    Locker=''
    Log=''
    RCSfile=''
    Revision=''
    Source=''
    State=''
    sysroot=''
    _a=''
    _exe=''
    _o=''
    archobjs=''
    exe_ext=''
    firstmakefile=''
    lib_ext=''
    obj_ext=''
    path_sep=''
    rm_try=''
    afs=''
    afsroot=''
    alignbytes=''
    archlib=''
    archlibexp=''
    d_archlib=''
    installarchlib=''
    archname=''
    myarchname=''
    useversionedarchname=''
    d_atolf=''
    d_atoll=''
    baserev=''
    bin=''
    binexp=''
    initialinstalllocation=''
    installbin=''
    userelocatableinc=''
    byteorder=''
    cc=''
    ccflags=''
    cppflags=''
    ldflags=''
    lkflags=''
    locincpth=''
    optimize=''
    cf_email=''
    cf_by=''
    cf_time=''
    charbits=''
    charsize=''
    compiler_warning=''
    contains=''
    cpp_stuff=''
    cpplast=''
    cppminus=''
    cpprun=''
    cppstdin=''
    d__fwalk=''
    d_accept4=''
    d_access=''
    d_accessx=''
    d_acosh=''
    d_aintl=''
    d_alarm=''
    asctime_r_proto=''
    d_asctime_r=''
    d_asinh=''
    d_atanh=''
    d_attribute_always_inline=''
    d_attribute_deprecated=''
    d_attribute_format=''
    d_attribute_malloc=''
    d_attribute_nonnull=''
    d_attribute_noreturn=''
    d_attribute_pure=''
    d_attribute_unused=''
    d_attribute_warn_unused_result=''
    d_printf_format_null=''
    d_backtrace=''
    d_non_int_bitfields=''
    d_builtin_choose_expr=''
    d_builtin_expect=''
    d_builtin_add_overflow=''
    d_builtin_mul_overflow=''
    d_builtin_sub_overflow=''
    d_c99_variadic_macros=''
    d_casti32=''
    castflags=''
    d_castneg=''
    d_cbrt=''
    d_chown=''
    d_chroot=''
    d_chsize=''
    d_class=''
    d_clearenv=''
    d_closedir=''
    d_void_closedir=''
    d_cmsghdr_s=''
    d_copysign=''
    d_copysignl=''
    d_cplusplus=''
    cryptlib=''
    d_crypt=''
    crypt_r_proto=''
    d_crypt_r=''
    d_csh=''
    full_csh=''
    d_ctermid=''
    ctermid_r_proto=''
    d_ctermid_r=''
    ctime_r_proto=''
    d_ctime_r=''
    d_cuserid=''
    d_dbminitproto=''
    d_difftime=''
    d_dir_dd_fd=''
    d_dirfd=''
    d_dladdr=''
    d_dlerror=''
    d_dlopen=''
    d_dlsymun=''
    d_dosuid=''
    d_suidsafe=''
    d_drand48_r=''
    drand48_r_proto=''
    d_drand48proto=''
    d_dup2=''
    d_dup3=''
    d_eaccess=''
    d_endgrent=''
    d_endgrent_r=''
    endgrent_r_proto=''
    d_endhent=''
    d_endhostent_r=''
    endhostent_r_proto=''
    d_endnent=''
    d_endnetent_r=''
    endnetent_r_proto=''
    d_endpent=''
    d_endprotoent_r=''
    endprotoent_r_proto=''
    d_endpwent=''
    d_endpwent_r=''
    endpwent_r_proto=''
    d_endsent=''
    d_endservent_r=''
    endservent_r_proto=''
    d_erf=''
    d_erfc=''
    d_exp2=''
    d_expm1=''
    d_faststdio=''
    d_fchdir=''
    d_fchmod=''
    d_fchown=''
    d_fcntl=''
    d_fcntl_can_lock=''
    d_fd_macros=''
    d_fd_set=''
    d_fds_bits=''
    d_fdclose=''
    d_fdim=''
    d_fegetround=''
    d_ffs=''
    d_ffsl=''
    d_fgetpos=''
    d_finite=''
    d_finitel=''
    d_flexfnam=''
    d_flock=''
    d_flockproto=''
    d_fma=''
    d_fmax=''
    d_fmin=''
    d_fork=''
    d_fp_class=''
    d_fp_classl=''
    d_fpclass=''
    d_fp_classify=''
    d_fpclassify=''
    d_fpclassl=''
    d_fpgetround=''
    d_fpos64_t=''
    d_frexpl=''
    d_fs_data_s=''
    d_fchmodat=''
    d_linkat=''
    d_openat=''
    d_renameat=''
    d_unlinkat=''
    d_fseeko=''
    d_fsetpos=''
    d_fstatfs=''
    d_fsync=''
    d_ftello=''
    d_ftime=''
    d_gettimeod=''
    d_futimes=''
    d_gai_strerror=''
    d_Gconvert=''
    d_getaddrinfo=''
    d_getcwd=''
    d_getenv_preserves_other_thread=''
    d_getespwnam=''
    d_getfsstat=''
    d_getgrent=''
    d_getgrent_r=''
    getgrent_r_proto=''
    d_getgrgid_r=''
    getgrgid_r_proto=''
    d_getgrnam_r=''
    getgrnam_r_proto=''
    d_getgrps=''
    d_gethbyaddr=''
    d_gethbyname=''
    d_gethent=''
    aphostname=''
    d_gethname=''
    d_phostname=''
    d_uname=''
    d_gethostbyaddr_r=''
    gethostbyaddr_r_proto=''
    d_gethostbyname_r=''
    gethostbyname_r_proto=''
    d_gethostent_r=''
    gethostent_r_proto=''
    d_gethostprotos=''
    d_getitimer=''
    d_getlogin=''
    d_getlogin_r=''
    getlogin_r_proto=''
    d_getmnt=''
    d_getmntent=''
    d_getnameinfo=''
    d_getnbyaddr=''
    d_getnbyname=''
    d_getnent=''
    d_getnetbyaddr_r=''
    getnetbyaddr_r_proto=''
    d_getnetbyname_r=''
    getnetbyname_r_proto=''
    d_getnetent_r=''
    getnetent_r_proto=''
    d_getnetprotos=''
    d_getpagsz=''
    d_getpent=''
    d_getpgid=''
    d_getpgrp2=''
    d_bsdgetpgrp=''
    d_getpgrp=''
    d_getppid=''
    d_getprior=''
    d_getpbyname=''
    d_getpbynumber=''
    d_getprotobyname_r=''
    getprotobyname_r_proto=''
    d_getprotobynumber_r=''
    getprotobynumber_r_proto=''
    d_getprotoent_r=''
    getprotoent_r_proto=''
    d_getprotoprotos=''
    d_getprpwnam=''
    d_getpwent=''
    d_getpwent_r=''
    getpwent_r_proto=''
    d_getpwnam_r=''
    getpwnam_r_proto=''
    d_getpwuid_r=''
    getpwuid_r_proto=''
    d_getsent=''
    d_getservbyname_r=''
    getservbyname_r_proto=''
    d_getservbyport_r=''
    getservbyport_r_proto=''
    d_getservent_r=''
    getservent_r_proto=''
    d_getservprotos=''
    d_getspnam=''
    d_getspnam_r=''
    getspnam_r_proto=''
    d_getsbyname=''
    d_getsbyport=''
    d_gmtime_r=''
    gmtime_r_proto=''
    d_gnulibc=''
    gnulibc_version=''
    d_hasmntopt=''
    d_htonl=''
    d_hypot=''
    d_ilogb=''
    d_ilogbl=''
    d_inetaton=''
    d_inetntop=''
    d_inetpton=''
    d_int64_t=''
    d_isascii=''
    d_isblank=''
    d_isfinite=''
    d_isfinitel=''
    d_isinf=''
    d_isinfl=''
    d_isless=''
    d_isnan=''
    d_isnanl=''
    d_isnormal=''
    d_j0=''
    d_j0l=''
    d_killpg=''
    d_lc_monetary_2008=''
    d_lchown=''
    d_ldbl_dig=''
    d_lgamma=''
    d_lgamma_r=''
    d_libm_lib_version=''
    d_link=''
    d_llrint=''
    d_llrintl=''
    d_llround=''
    d_llroundl=''
    d_localeconv_l=''
    d_localtime_r=''
    d_localtime_r_needs_tzset=''
    localtime_r_proto=''
    d_locconv=''
    d_lockf=''
    d_log1p=''
    d_log2=''
    d_logb=''
    d_ldexpl=''
    d_long_double_style_ieee=''
    d_long_double_style_ieee_doubledouble=''
    d_long_double_style_ieee_extended=''
    d_long_double_style_ieee_std=''
    d_long_double_style_vax=''
    d_longdbl=''
    longdblkind=''
    longdblsize=''
    d_longlong=''
    longlongsize=''
    d_lrint=''
    d_lrintl=''
    d_lround=''
    d_lroundl=''
    d_lseekproto=''
    d_lstat=''
    d_madvise=''
    d_malloc_good_size=''
    d_malloc_size=''
    d_malloc_usable_size=''
    d_mblen=''
    d_mbrlen=''
    d_mbrtowc=''
    d_mbstowcs=''
    d_mbtowc=''
    d_memmem=''
    d_memrchr=''
    d_mkdir=''
    d_mkdtemp=''
    d_mkfifo=''
    d_mkostemp=''
    d_mkstemp=''
    d_mkstemps=''
    d_mktime=''
    d_mmap=''
    mmaptype=''
    d_modfl=''
    d_modflproto=''
    d_mprotect=''
    d_msg=''
    d_msgctl=''
    d_msgget=''
    d_msghdr_s=''
    d_msgrcv=''
    d_msgsnd=''
    d_msync=''
    d_munmap=''
    d_nan=''
    d_nanosleep=''
    d_nearbyint=''
    d_duplocale=''
    d_freelocale=''
    d_newlocale=''
    d_querylocale=''
    d_uselocale=''
    i_xlocale=''
    xlocale_needed=''
    d_nextafter=''
    d_nexttoward=''
    d_nice=''
    d_nl_langinfo=''
    d_nl_langinfo_l=''
    d_thread_safe_nl_langinfo_l=''
    d_off64_t=''
    d_open3=''
    d_fpathconf=''
    d_pathconf=''
    d_pause=''
    d_pipe2=''
    d_pipe=''
    d_poll=''
    d_portable=''
    d_prctl=''
    d_prctl_set_name=''
    d_procselfexe=''
    procselfexe=''
    d_old_pthread_create_joinable=''
    old_pthread_create_joinable=''
    d_pthread_atfork=''
    d_pthread_attr_setscope=''
    d_pthread_yield=''
    d_sched_yield=''
    sched_yield=''
    d_ptrdiff_t=''
    d_qgcvt=''
    d_random_r=''
    random_r_proto=''
    d_readdir64_r=''
    readdir64_r_proto=''
    d_readdir=''
    d_rewinddir=''
    d_seekdir=''
    d_telldir=''
    d_readdir_r=''
    readdir_r_proto=''
    d_readlink=''
    d_readv=''
    d_recvmsg=''
    d_re_comp=''
    d_regcmp=''
    d_regcomp=''
    d_remainder=''
    d_remquo=''
    d_rename=''
    d_rint=''
    d_rmdir=''
    d_round=''
    d_sbrkproto=''
    d_scalbn=''
    d_scalbnl=''
    d_select=''
    d_sem=''
    d_semctl=''
    d_semget=''
    d_semop=''
    d_sendmsg=''
    d_setegid=''
    d_seteuid=''
    d_setgrent=''
    d_setgrent_r=''
    setgrent_r_proto=''
    d_setgrps=''
    d_sethent=''
    d_sethostent_r=''
    sethostent_r_proto=''
    d_setitimer=''
    d_setlinebuf=''
    d_has_C_UTF8=''
    d_setlocale=''
    d_setlocale_accepts_any_locale_name=''
    d_setlocale_r=''
    setlocale_r_proto=''
    d_setnent=''
    d_setnetent_r=''
    setnetent_r_proto=''
    d_setpent=''
    d_setpgid=''
    d_setpgrp2=''
    d_bsdsetpgrp=''
    d_setpgrp=''
    d_setprior=''
    d_setproctitle=''
    d_setprotoent_r=''
    setprotoent_r_proto=''
    d_setpwent=''
    d_setpwent_r=''
    setpwent_r_proto=''
    d_setregid=''
    d_setresgid=''
    d_setresuid=''
    d_setreuid=''
    d_setrgid=''
    d_setruid=''
    d_setsent=''
    d_setservent_r=''
    setservent_r_proto=''
    d_setsid=''
    d_setvbuf=''
    d_shm=''
    d_shmat=''
    d_shmatprototype=''
    shmattype=''
    d_shmctl=''
    d_shmdt=''
    d_shmget=''
    d_sigaction=''
    d_siginfo_si_addr=''
    d_siginfo_si_band=''
    d_siginfo_si_errno=''
    d_siginfo_si_fd=''
    d_siginfo_si_pid=''
    d_siginfo_si_status=''
    d_siginfo_si_uid=''
    d_siginfo_si_value=''
    d_signbit=''
    d_sigprocmask=''
    d_sigsetjmp=''
    usesitecustomize=''
    d_snprintf=''
    d_vsnprintf=''
    d_sockatmark=''
    d_sockatmarkproto=''
    d_ip_mreq=''
    d_ip_mreq_source=''
    d_ipv6_mreq=''
    d_ipv6_mreq_source=''
    d_msg_ctrunc=''
    d_msg_dontroute=''
    d_msg_oob=''
    d_msg_peek=''
    d_msg_proxy=''
    d_oldsock=''
    d_scm_rights=''
    d_sin6_scope_id=''
    d_sockaddr_in6=''
    d_sockaddr_sa_len=''
    d_sockaddr_storage=''
    d_socket=''
    d_sockpair=''
    sockethdr=''
    socketlib=''
    d_socklen_t=''
    d_socks5_init=''
    d_sqrtl=''
    d_srand48_r=''
    srand48_r_proto=''
    d_srandom_r=''
    srandom_r_proto=''
    d_sresgproto=''
    d_sresuproto=''
    d_stat=''
    d_statblks=''
    d_statfs_f_flags=''
    d_statfs_s=''
    d_static_inline=''
    perl_static_inline=''
    d_fstatvfs=''
    d_statvfs=''
    d_stdio_cnt_lval=''
    d_stdio_ptr_lval=''
    d_stdio_ptr_lval_nochange_cnt=''
    d_stdio_ptr_lval_sets_cnt=''
    d_stdiobase=''
    d_stdstdio=''
    stdio_base=''
    stdio_bufsiz=''
    stdio_cnt=''
    stdio_filbuf=''
    stdio_ptr=''
    d_strcoll=''
    d_sysernlst=''
    d_syserrlst=''
    d_strerror_l=''
    d_strerror_r=''
    strerror_r_proto=''
    d_strftime=''
    d_strlcat=''
    d_strlcpy=''
    d_strnlen=''
    d_strtod=''
    d_strtod_l=''
    d_strtol=''
    d_strtold=''
    d_strtold_l=''
    d_strtoll=''
    d_strtoq=''
    d_strtoul=''
    d_strtoull=''
    d_strtouq=''
    d_strxfrm=''
    d_strxfrm_l=''
    d_symlink=''
    d_syscall=''
    d_syscallproto=''
    d_sysconf=''
    d_system=''
    d_tcgetpgrp=''
    d_tcsetpgrp=''
    d_telldirproto=''
    d_tgamma=''
    d_thread_local=''
    perl_thread_local=''
    d_time=''
    timetype=''
    d_asctime64=''
    d_ctime64=''
    d_difftime64=''
    d_gmtime64=''
    d_localtime64=''
    d_mktime64=''
    d_timegm=''
    clocktype=''
    d_times=''
    d_tmpnam_r=''
    tmpnam_r_proto=''
    d_towlower=''
    d_towupper=''
    d_trunc=''
    d_truncate=''
    d_truncl=''
    d_ttyname_r=''
    ttyname_r_proto=''
    d_tzname=''
    d_u32align=''
    d_ualarm=''
    d_umask=''
    d_semctl_semid_ds=''
    d_semctl_semun=''
    d_union_semun=''
    d_unordered=''
    d_unsetenv=''
    d_usleep=''
    d_usleepproto=''
    d_ustat=''
    d_pseudofork=''
    d_vfork=''
    usevfork=''
    d_voidsig=''
    signal_t=''
    d_wait4=''
    d_waitpid=''
    d_wcrtomb=''
    d_wcscmp=''
    d_wcstombs=''
    d_wcsxfrm=''
    d_wctomb=''
    d_writev=''
    default_inc_excludes_dot=''
    dlext=''
    bin_ELF=''
    cccdlflags=''
    ccdlflags=''
    dlsrc=''
    ld=''
    ld_can_script=''
    lddlflags=''
    usedl=''
    doublesize=''
    dtraceobject=''
    dtracexnolibs=''
    ebcdic=''
    fflushNULL=''
    fflushall=''
    fpossize=''
    fpostype=''
    gccansipedantic=''
    gccosandvers=''
    gccversion=''
    gidformat=''
    gidsign=''
    gidsize=''
    gidtype=''
    groupstype=''
    h_fcntl=''
    h_sysfile=''
    html1dir=''
    html1direxp=''
    installhtml1dir=''
    html3dir=''
    html3direxp=''
    installhtml3dir=''
    i_arpainet=''
    i_bfd=''
    i_crypt=''
    db_hashtype=''
    db_prefixtype=''
    db_version_major=''
    db_version_minor=''
    db_version_patch=''
    i_db=''
    i_dbm=''
    i_rpcsvcdbm=''
    d_dirnamlen=''
    direntrytype=''
    i_dirent=''
    i_dlfcn=''
    i_execinfo=''
    i_fcntl=''
    i_fenv=''
    i_fp=''
    i_fp_class=''
    i_gdbm=''
    d_grpasswd=''
    i_grp=''
    i_ieeefp=''
    i_inttypes=''
    i_langinfo=''
    i_libutil=''
    i_locale=''
    i_machcthr=''
    i_malloc=''
    i_mallocmalloc=''
    i_mntent=''
    d_gdbm_ndbm_h_uses_prototypes=''
    d_gdbmndbm_h_uses_prototypes=''
    d_ndbm=''
    d_ndbm_h_uses_prototypes=''
    i_gdbm_ndbm=''
    i_gdbmndbm=''
    i_ndbm=''
    i_netdb=''
    i_neterrno=''
    i_netinettcp=''
    i_niin=''
    i_sysin=''
    i_poll=''
    i_prot=''
    i_pthread=''
    d_pwage=''
    d_pwchange=''
    d_pwclass=''
    d_pwcomment=''
    d_pwexpire=''
    d_pwgecos=''
    d_pwpasswd=''
    d_pwquota=''
    i_pwd=''
    i_quadmath=''
    i_shadow=''
    i_socks=''
    i_stdbool=''
    i_stdint=''
    i_stdlib=''
    i_sunmath=''
    i_sysaccess=''
    i_sysdir=''
    i_sysfile=''
    d_voidtty=''
    i_bsdioctl=''
    i_sysfilio=''
    i_sysioctl=''
    i_syssockio=''
    i_syslog=''
    i_sysmman=''
    i_sysmode=''
    i_sysmount=''
    i_sysndir=''
    i_sysparam=''
    i_syspoll=''
    i_sysresrc=''
    i_syssecrt=''
    i_sysselct=''
    i_sysstat=''
    i_sysstatfs=''
    i_sysstatvfs=''
    i_systimes=''
    i_systypes=''
    i_sysuio=''
    i_sysun=''
    i_sysutsname=''
    i_sysvfs=''
    i_syswait=''
    i_sgtty=''
    i_termio=''
    i_termios=''
    d_tm_tm_gmtoff=''
    d_tm_tm_zone=''
    i_systime=''
    i_systimek=''
    i_time=''
    timeincl=''
    i_unistd=''
    i_ustat=''
    i_utime=''
    i_vfork=''
    i_wchar=''
    i_wctype=''
    d_inc_version_list=''
    inc_version_list=''
    inc_version_list_init=''
    doubleinfbytes=''
    doublenanbytes=''
    longdblinfbytes=''
    longdblnanbytes=''
    installprefix=''
    installprefixexp=''
    installstyle=''
    installusrbinperl=''
    intsize=''
    longsize=''
    shortsize=''
    issymlink=''
    libc=''
    ldlibpthname=''
    libperl=''
    shrpenv=''
    useshrplib=''
    glibpth=''
    incpth=''
    libpth=''
    loclibpth=''
    plibpth=''
    xlibpth=''
    ignore_versioned_solibs=''
    libs=''
    libsdirs=''
    libsfiles=''
    libsfound=''
    libspath=''
    lns=''
    d_PRIEUldbl=''
    d_PRIFUldbl=''
    d_PRIGUldbl=''
    d_PRIeldbl=''
    d_PRIfldbl=''
    d_PRIgldbl=''
    d_SCNfldbl=''
    d_double_has_inf=''
    d_double_has_nan=''
    d_double_has_negative_zero=''
    d_double_has_subnormals=''
    d_double_style_cray=''
    d_double_style_ibm=''
    d_double_style_ieee=''
    d_double_style_vax=''
    doublekind=''
    sPRIEUldbl=''
    sPRIFUldbl=''
    sPRIGUldbl=''
    sPRIeldbl=''
    sPRIfldbl=''
    sPRIgldbl=''
    sSCNfldbl=''
    lseeksize=''
    lseektype=''
    make_set_make=''
    d_mymalloc=''
    freetype=''
    mallocobj=''
    mallocsrc=''
    malloctype=''
    usemallocwrap=''
    usemymalloc=''
    installman1dir=''
    man1dir=''
    man1direxp=''
    man1ext=''
    installman3dir=''
    man3dir=''
    man3direxp=''
    man3ext=''
    doublemantbits=''
    longdblmantbits=''
    nvmantbits=''
    modetype=''
    multiarch=''
    mydomain=''
    myhostname=''
    phostname=''
    c=''
    n=''
    d_eofnblk=''
    eagain=''
    o_nonblock=''
    rd_nodata=''
    need_va_copy=''
    netdb_hlen_type=''
    netdb_host_type=''
    netdb_name_type=''
    netdb_net_type=''
    groupcat=''
    hostcat=''
    passcat=''
    orderlib=''
    ranlib=''
    d_perl_otherlibdirs=''
    otherlibdirs=''
    package=''
    spackage=''
    pager=''
    api_revision=''
    api_subversion=''
    api_version=''
    api_versionstring=''
    patchlevel=''
    perl_patchlevel=''
    revision=''
    subversion=''
    version=''
    version_patchlevel_string=''
    perl5=''
    perladmin=''
    perlpath=''
    d_nv_preserves_uv=''
    d_nv_zero_is_allbits_zero=''
    i16size=''
    i16type=''
    i32size=''
    i32type=''
    i64size=''
    i64type=''
    i8size=''
    i8type=''
    ivsize=''
    ivtype=''
    nv_overflows_integers_at=''
    nv_preserves_uv_bits=''
    nvsize=''
    nvtype=''
    u16size=''
    u16type=''
    u32size=''
    u32type=''
    u64size=''
    u64type=''
    u8size=''
    u8type=''
    uvsize=''
    uvtype=''
    ivdformat=''
    nvEUformat=''
    nvFUformat=''
    nvGUformat=''
    nveformat=''
    nvfformat=''
    nvgformat=''
    uvXUformat=''
    uvoformat=''
    uvuformat=''
    uvxformat=''
    pidtype=''
    prefix=''
    prefixexp=''
    installprivlib=''
    privlib=''
    privlibexp=''
    ptrsize=''
    d_PRIXU64=''
    d_PRId64=''
    d_PRIi64=''
    d_PRIo64=''
    d_PRIu64=''
    d_PRIx64=''
    sPRIXU64=''
    sPRId64=''
    sPRIi64=''
    sPRIo64=''
    sPRIu64=''
    sPRIx64=''
    d_quad=''
    quadkind=''
    quadtype=''
    uquadtype=''
    drand01=''
    randbits=''
    randfunc=''
    randseedtype=''
    seedfunc=''
    installscript=''
    scriptdir=''
    scriptdirexp=''
    selectminbits=''
    selecttype=''
    sh=''
    targetsh=''
    sig_count=''
    sig_name=''
    sig_name_init=''
    sig_num=''
    sig_num_init=''
    sig_size=''
    d_sitearch=''
    installsitearch=''
    sitearch=''
    sitearchexp=''
    installsitebin=''
    sitebin=''
    sitebinexp=''
    installsitehtml1dir=''
    sitehtml1dir=''
    sitehtml1direxp=''
    installsitehtml3dir=''
    sitehtml3dir=''
    sitehtml3direxp=''
    installsitelib=''
    sitelib=''
    sitelib_stem=''
    sitelibexp=''
    installsiteman1dir=''
    siteman1dir=''
    siteman1direxp=''
    installsiteman3dir=''
    siteman3dir=''
    siteman3direxp=''
    siteprefix=''
    siteprefixexp=''
    installsitescript=''
    sitescript=''
    sitescriptexp=''
    sizesize=''
    sizetype=''
    d_libname_unique=''
    so=''
    socksizetype=''
    sharpbang=''
    shsharp=''
    spitshell=''
    src=''
    ssizetype=''
    st_dev_sign=''
    st_dev_size=''
    st_ino_sign=''
    st_ino_size=''
    startperl=''
    startsh=''
    stdchar=''
    d_stdio_stream_array=''
    stdio_stream_array=''
    sysman=''
    sGMTIME_max=''
    sGMTIME_min=''
    sLOCALTIME_max=''
    sLOCALTIME_min=''
    trnl=''
    uidformat=''
    uidsign=''
    uidsize=''
    uidtype=''
    archname64=''
    use64bitall=''
    use64bitint=''
    usecbacktrace=''
    usedefaultstrict=''
    dtrace=''
    usedtrace=''
    usefaststdio=''
    usekernprocpathname=''
    ccflags_uselargefiles=''
    ldflags_uselargefiles=''
    libswanted_uselargefiles=''
    uselargefiles=''
    uselongdouble=''
    usemorebits=''
    usemultiplicity=''
    nm_opt=''
    nm_so_opt=''
    runnm=''
    usenm=''
    usensgetexecutablepath=''
    useperlio=''
    usequadmath=''
    usesocks=''
    d_oldpthreads=''
    useithreads=''
    usereentrant=''
    usethreads=''
    incpath=''
    mips_type=''
    usrinc=''
    d_vendorarch=''
    installvendorarch=''
    vendorarch=''
    vendorarchexp=''
    d_vendorbin=''
    installvendorbin=''
    vendorbin=''
    vendorbinexp=''
    installvendorhtml1dir=''
    vendorhtml1dir=''
    vendorhtml1direxp=''
    installvendorhtml3dir=''
    vendorhtml3dir=''
    vendorhtml3direxp=''
    d_vendorlib=''
    installvendorlib=''
    vendorlib=''
    vendorlib_stem=''
    vendorlibexp=''
    installvendorman1dir=''
    vendorman1dir=''
    vendorman1direxp=''
    installvendorman3dir=''
    vendorman3dir=''
    vendorman3direxp=''
    usevendorprefix=''
    vendorprefix=''
    vendorprefixexp=''
    d_vendorscript=''
    installvendorscript=''
    vendorscript=''
    vendorscriptexp=''
    versiononly=''
    yacc=''
    yaccflags=''
    CONFIG=''
    
    : Detect odd OSs
    define='define'
    undef='undef'
    smallmach='pdp11 i8086 z8000 i80286 iAPX286'
    rmlist=''
    
    : We must find out about Eunice early
    eunicefix=':'
    if test -f /etc/unixtovms; then
    	eunicefix=/etc/unixtovms
    fi
    if test -f /etc/unixtovms.exe; then
    	eunicefix=/etc/unixtovms.exe
    fi
    
    : Set executable suffix now -- needed before hints available
    if test -f "/libs/version.library"; then
    : Amiga OS
        _exe=""
    elif test -f "/system/gnu_library/bin/ar.pm"; then
    : Stratus VOS
        _exe=".pm"
    elif test -n "$DJGPP"; then
    : DOS DJGPP
        _exe=".exe"
    elif test -f /kern/cookiejar; then
    : MiNT
        _exe=""
    elif test -d c:/. -o -n "$is_os2" ; then
    : OS/2 or cygwin
        _exe=".exe"
    fi
    
    groupstype=''
    i_whoami=''
    : Possible local include directories to search.
    : Set locincpth to "" in a hint file to defeat local include searches.
    locincpth="/usr/local/include /opt/local/include /usr/gnu/include"
    locincpth="$locincpth /opt/gnu/include /usr/GNU/include /opt/GNU/include"
    :
    : no include file wanted by default
    inclwanted=''
    
    : Enable -DEBUGGING and -DDEBUGGING from the command line
    EBUGGING=''
    DEBUGGING=''
    
    : Trailing extension.  Override this in a hint file, if needed.
    : Extra object files, if any, needed on this platform.
    archobjs=''
    libnames=''
    : change the next line if compiling for Xenix/286 on Xenix/386
    xlibpth='/usr/lib/386 /lib/386'
    : Possible local library directories to search.
    loclibpth="/usr/local/lib /opt/local/lib /usr/gnu/lib"
    loclibpth="$loclibpth /opt/gnu/lib /usr/GNU/lib /opt/GNU/lib"
    
    : general looking path for locating libraries
    glibpth="/lib /usr/lib $xlibpth"
    glibpth="$glibpth /usr/ccs/lib /usr/ucblib /usr/local/lib"
    test -f /usr/shlib/libc.so && glibpth="/usr/shlib $glibpth"
    test -f /shlib/libc.so     && glibpth="/shlib $glibpth"
    test -d /usr/lib64         && glibpth="$glibpth /lib64 /usr/lib64 /usr/local/lib64"
    
    : Private path used by Configure to find libraries.  Its value
    : is prepended to libpth. This variable takes care of special
    : machines, like the mips.  Usually, it should be empty.
    plibpth=''
    
    : default library list
    libswanted=''
    : some systems want to use only the non-versioned libso:s
    ignore_versioned_solibs=''
    ccname=''
    ccversion=''
    perllibs=''
    : set useposix=false in your hint file to disable the POSIX extension.
    useposix=true
    : set useopcode=false in your hint file to disable the Opcode extension.
    useopcode=true
    : set uselanginfo=false in your hint file to disable the I18N::Langinfo extension.
    uselanginfo=true
    archname64=''
    ccflags_uselargefiles=''
    ldflags_uselargefiles=''
    libswanted_uselargefiles=''
    : set usemultiplicity on the Configure command line to enable multiplicity.
    : set usesocks on the Configure command line to enable socks.
    archname=''
    : set usethreads on the Configure command line to enable threads.
    usereentrant='undef'
    : List of libraries we want.
    : If anyone needs extra -lxxx, put those in a hint file.
    libswanted="cl pthread socket bind inet nsl ndbm gdbm dbm db malloc dl ld"
    libswanted="$libswanted sun m crypt sec util c cposix posix ucb bsd BSD"
    : We probably want to search /usr/shlib before most other libraries.
    : This is only used by the lib/ExtUtils/MakeMaker.pm routine extliblist.
    glibpth=`echo " $glibpth " | sed -e 's! /usr/shlib ! !'`
    glibpth="/usr/shlib $glibpth"
    : Do not use vfork unless overridden by a hint file.
    usevfork=false
    
    : Find the basic shell for Bourne shell scripts
    case "$sh" in
    '')
    	case "$SYSTYPE" in
    	*bsd*|sys5*) xxx="/$SYSTYPE/bin/sh";;
    	*) xxx='/bin/sh';;
    	esac
    	if test -f "$xxx"; then
    		sh="$xxx"
    	else
    		: Build up a list and do a single loop so we can 'break' out.
    		pth=`echo $PATH | sed -e "s/$p_/ /g"`
    		for xxx in sh bash ksh pdksh ash; do
    			for p in $pth; do
    				try="$try ${p}/${xxx}"
    			done
    		done
    		for xxx in $try; do
    			if test -f "$xxx"; then
    				sh="$xxx";
    				break
    			elif test "X$_exe" != X -a -f "$xxx$_exe"; then
    				sh="$xxx";
    				break
    			elif test -f "$xxx.exe"; then
    				sh="$xxx";
    				break
    			fi
    		done
    	fi
    	;;
    esac
    
    case "$sh" in
    '')	cat >&2 <<EOM
    $me:  Fatal Error:  I can't find a Bourne Shell anywhere.
    
    Usually it's in /bin/sh.  How did you even get this far?
    Please report this issue at https://github.com/Perl/perl5/issues
    and we'll try to straighten this all out.
    EOM
    	exit 1
    	;;
    esac
    
    : When cross-compiling we need to separate the sh-to-run-Configure-with from the sh-to-use-in-Perl
    : default both to the same thing, cross-compilers can then set targetsh differently if they like
    targetsh=$sh
    
    : see if sh knows # comments
    if `$sh -c '#' >/dev/null 2>&1`; then
    	shsharp=true
    	spitshell=cat
    	xcat=/bin/cat
    	test -f $xcat$_exe || xcat=/usr/bin/cat
    	if test ! -f $xcat$_exe; then
    		for p in `echo $PATH | sed -e "s/$p_/ /g"` $paths; do
    			if test -f $p/cat$_exe; then
    				xcat=$p/cat
    				break
    			fi
    		done
    		if test ! -f $xcat$_exe; then
    			echo "Can't find cat anywhere!"
    			exit 1
    		fi
    	fi
    	echo "#!$xcat" >sharp
    	$eunicefix sharp
    	chmod +x sharp
    	./sharp > today 2>/dev/null
    	if test -s today; then
    		sharpbang='#!'
    	else
    		echo "#! $xcat" > sharp
    		$eunicefix sharp
    		chmod +x sharp
    		./sharp > today 2>/dev/null
    		if test -s today; then
    			sharpbang='#! '
    		else
    			sharpbang=': use '
    		fi
    	fi
    else
    	echo " "
    	echo "Your $sh doesn't grok # comments--I will strip them later on."
    	shsharp=false
    	cd ..
    	echo "exec grep -v '^[ 	]*#'" >spitshell
    	chmod +x spitshell
    	$eunicefix spitshell
    	spitshell=`pwd`/spitshell
    	cd UU
    	echo "I presume that if # doesn't work, #! won't work either!"
    	sharpbang=': use '
    fi
    rm -f sharp today
    
    : figure out how to guarantee sh startup
    case "$startsh" in
    '') startsh=${sharpbang}${sh} ;;
    *)
    esac
    cat >sharp <<EOSS
    $startsh
    set abc
    test "$?abc" != 1
    EOSS
    
    chmod +x sharp
    $eunicefix sharp
    if ./sharp; then
    	: echo "Yup, it does."
    else
    	echo "Hmm... '$startsh' does not guarantee sh startup..."
    	echo "You may have to fix up the shell scripts to make sure $sh runs them."
    fi
    rm -f sharp
    
    : Save command line options in file UU/cmdline.opt for later use in
    : generating config.sh.
    cat > cmdline.opt <<EOSH
    : Configure command line arguments.
    config_arg0='$0'
    config_args='$*'
    config_argc=$#
    EOSH
    argn=1
    args_exp=''
    args_sep=''
    for arg in "$@"; do
    	cat >>cmdline.opt <<EOSH
    config_arg$argn='$arg'
    EOSH
    	cat <<EOC | sed -e "s/'/'"'"'"'"'"'"'/g" > cmdl.opt
    $arg
    EOC
    	arg_exp=`cat cmdl.opt`
    	args_exp="$args_exp$args_sep'$arg_exp'"
    	argn=`expr $argn + 1`
    	args_sep=' '
    done
    rm -f cmdl.opt
    
    : produce awk script to parse command line options
    cat >options.awk <<'EOF'
    BEGIN {
    	optstr = "A:dD:eEf:hKOrsSU:V";	# getopt-style specification
    
    	len = length(optstr);
    	for (i = 1; i <= len; i++) {
    		c = substr(optstr, i, 1);
    		if (i < len) a = substr(optstr, i + 1, 1); else a = "";
    		if (a == ":") {
    			arg[c] = 1;
    			i++;
    		}
    		opt[c] = 1;
    	}
    }
    {
    	expect = 0;
    	str = $0;
    	if (substr(str, 1, 1) != "-") {
    		printf("'%s'\n", str);
    		next;
    	}
    	len = length($0);
    	for (i = 2; i <= len; i++) {
    		c = substr(str, i, 1);
    		if (!opt[c]) {
    			printf("-%s\n", substr(str, i));
    			next;
    		}
    		printf("-%s\n", c);
    		if (arg[c]) {
    			if (i < len)
    				printf("'%s'\n", substr(str, i + 1));
    			else
    				expect = 1;
    			next;
    		}
    	}
    }
    END {
    	if (expect)
    		print "?";
    }
    EOF
    
    : process the command line options
    set X `for arg in "$@"; do echo "X$arg"; done |
    	sed -e s/X// | awk -f options.awk`
    eval "set $*"
    shift
    rm -f options.awk
    
    : set up default values
    fastread=''
    reuseval=false
    config_sh=''
    alldone=''
    error=''
    silent=''
    extractsh=''
    knowitall=''
    rm -f optdef.sh posthint.sh
    cat >optdef.sh <<EOS
    $startsh
    EOS
    
    
    : option parsing
    while test $# -gt 0; do
    	case "$1" in
    	-d) shift; fastread=yes;;
    	-e) shift; alldone=cont;;
    	-f)
    		shift
    		cd ..
    		if test -r "$1"; then
    			config_sh="$1"
    		else
    			echo "$me: cannot read config file $1." >&2
    			error=true
    		fi
    		cd UU
    		shift;;
    	--help|\
    	-h) shift; error=true;;
    	-r) shift; reuseval=true;;
    	-s) shift; silent=true; realsilent=true;;
    	-E) shift; alldone=exit;;
    	-K) shift; knowitall=true;;
    	-O) shift;;
    	-S) shift; silent=true; extractsh=true;;
    	-D)
    		shift
    		case "$1" in
    		*=)
    			echo "$me: use '-U symbol=', not '-D symbol='." >&2
    			echo "$me: ignoring -D $1" >&2
    			;;
    		*=*) echo "$1" | \
    				sed -e "s/'/'\"'\"'/g" -e "s/=\(.*\)/='\1'/" >> optdef.sh;;
    		*) echo "$1='define'" >> optdef.sh;;
    		esac
    		shift
    		;;
    	-U)
    		shift
    		case "$1" in
    		*=) echo "$1" >> optdef.sh;;
    		*=*)
    			echo "$me: use '-D symbol=val', not '-U symbol=val'." >&2
    			echo "$me: ignoring -U $1" >&2
    			;;
    		*) echo "$1='undef'" >> optdef.sh;;
    		esac
    		shift
    		;;
    	-A)
    	    shift
    	    xxx=''
    	    yyy="$1"
    	    zzz=''
    	    uuu=undef
    	    case "$yyy" in
                *=*) zzz=`echo "$yyy"|sed 's!=.*!!'`
                     case "$zzz" in
                     *:*) zzz='' ;;
                     *)   xxx=append
                          zzz=" "`echo "$yyy"|sed 's!^[^=]*=!!'`
                          yyy=`echo "$yyy"|sed 's!=.*!!'` ;;
                     esac
                     ;;
                esac
                case "$xxx" in
                '')  case "$yyy" in
                     *:*) xxx=`echo "$yyy"|sed 's!:.*!!'`
                          yyy=`echo "$yyy"|sed 's!^[^:]*:!!'`
                          zzz=`echo "$yyy"|sed 's!^[^=]*=!!'`
                          yyy=`echo "$yyy"|sed 's!=.*!!'` ;;
                     *)   xxx=`echo "$yyy"|sed 's!:.*!!'`
                          yyy=`echo "$yyy"|sed 's!^[^:]*:!!'` ;;
                     esac
                     ;;
                esac
    	    case "$xxx" in
    	    append)
    		echo "$yyy=\"\${$yyy}$zzz\""	>> posthint.sh ;;
    	    clear)
    		echo "$yyy=''"			>> posthint.sh ;;
    	    define)
    	        case "$zzz" in
    		'') zzz=define ;;
    		esac
    		echo "$yyy='$zzz'"		>> posthint.sh ;;
    	    eval)
    		echo "eval \"$yyy=$zzz\""	>> posthint.sh ;;
    	    prepend)
    		echo "$yyy=\"$zzz\${$yyy}\""	>> posthint.sh ;;
    	    undef)
    	        case "$zzz" in
    		'') zzz="$uuu" ;;
    		esac
    		echo "$yyy=$zzz"		>> posthint.sh ;;
                *)  echo "$me: unknown -A command '$xxx', ignoring -A $1" >&2 ;;
    	    esac
    	    shift
    	    ;;
    	-V) echo "$me generated by metaconfig 3.5 PL0." >&2
    	    exit 0;;
    	--) break;;
    	-*) echo "$me: unknown option $1" >&2; shift; error=true;;
    	*) break;;
    	esac
    done
    
    case "$error" in
    true)
    	cat >&2 <<EOM
    Usage: $me [-dehrsEKOSV] [-f config.sh] [-D symbol] [-D symbol=value]
                     [-U symbol] [-U symbol=] [-A command:symbol...]
      -d : use defaults for all answers.
      -e : go on without questioning past the production of config.sh.
      -f : specify an alternate default configuration file.
      -h : print this help message and exit (with an error status).
      -r : reuse C symbols value if possible (skips costly nm extraction).
      -s : silent mode, only echoes questions and essential information.
      -D : define symbol to have some value:
             -D symbol                symbol gets the value 'define'
             -D symbol='some value'   symbol is set to 'some value'
           common used examples (see INSTALL for more info):
             -Duse64bitint            use 64bit integers
             -Duse64bitall            use 64bit integers and pointers
             -Dusethreads             use thread support
             -Dinc_version_list=none  do not include older perl trees in @INC
             -DEBUGGING=none          DEBUGGING options
             -Dcc=gcc                 choose your compiler
             -Dprefix=/opt/perl5      choose your destination
      -E : stop at the end of questions, after having produced config.sh.
      -K : do not use unless you know what you are doing.
      -O : ignored for backward compatibility
      -S : perform variable substitutions on all .SH files (can mix with -f)
      -U : undefine symbol:
             -U symbol    symbol gets the value 'undef'
             -U symbol=   symbol gets completely empty
           e.g.:  -Uversiononly
      -A : manipulate symbol after the platform specific hints have been applied:
             -A append:symbol=value   append value to symbol
             -A symbol=value          like append:, but with a separating space
             -A define:symbol=value   define symbol to have value
             -A clear:symbol          define symbol to be ''
             -A define:symbol         define symbol to be 'define'
             -A eval:symbol=value     define symbol to be eval of value
             -A prepend:symbol=value  prepend value to symbol
             -A undef:symbol          define symbol to be 'undef'
             -A undef:symbol=         define symbol to be ''
           e.g.:  -A prepend:libswanted='cl pthread '
                  -A ccflags=-DSOME_MACRO
      -V : print version number and exit (with a zero status).
    EOM
    	exit 1
    	;;
    esac
    
    : Sanity checks
    case "$fastread$alldone" in
    yescont|yesexit) ;;
    *)
    	case "$extractsh" in
    	true) ;;
    	*)
    		if test ! -t 0; then
    			echo "Say 'sh Configure', not 'sh <Configure'"
    			exit 1
    		fi
    		;;
    	esac
    	;;
    esac
    
    exec 4>&1
    case "$silent" in
    true) exec 1>/dev/null;;
    esac
    
    : run the defines and the undefines, if any, but leave the file out there...
    touch optdef.sh
    grep '\\' optdef.sh >/dev/null 2>&1
    if test $? = 0; then
        echo "Configure does not support \\ in -D arguments"
        exit 1
    fi
    . ./optdef.sh
    : create the posthint manipulation script and leave the file out there...
    touch posthint.sh
    
    : set package name
    package='perl5'
    first=`echo $package | sed -e 's/^\(.\).*/\1/'`
    last=`echo $package | sed -e 's/^.\(.*\)/\1/'`
    case "`echo AbyZ | tr '[:lower:]' '[:upper:]' 2>/dev/null`"-"`echo AbyZ | tr '[:upper:]' '[:lower:]' 2>/dev/null`" in
    ABYZ-abyz) spackage=`echo $first | tr '[:lower:]' '[:upper:]'`$last;;
    *) spackage=`echo $first | tr '[a-z]' '[A-Z]'`$last;;
    esac
    
    : Some greps do not return status, grrr.
    echo "grimblepritz" >grimble
    if grep blurfldyick grimble >/dev/null 2>&1 ; then
    	contains=contains
    elif grep grimblepritz grimble >/dev/null 2>&1 ; then
    	contains=grep
    else
    	contains=contains
    fi
    rm -f grimble
    : the following should work in any shell
    case "$contains" in
    contains*)
    	echo " " >&4
    	echo "AGH!  Grep doesn't return a status.  Attempting remedial action." >&4
    	cat >contains <<'EOSS'
    grep "$1" "$2" >.greptmp && cat .greptmp && test -s .greptmp
    EOSS
    contains=./contains
    chmod +x $contains
    esac
    
    : Find the path to the source tree
    case "$src" in
    '') case "$0" in
        */*) src=`echo $0 | sed -e 's%/[^/][^/]*$%%'`
             case "$src" in
    	 /*)	;;
    	 .)	;;
             *)	src=`cd ../$src && pwd` ;;
    	 esac
             ;;
        *)   src='.';;
        esac;;
    esac
    case "$src" in
    '')	src=/
    	rsrc=/
    	;;
    /*)	rsrc="$src";;
    *)	rsrc="../$src";;
    esac
    if test -f $rsrc/Configure && \
    	$contains "^package='$package'\$" $rsrc/Configure >/dev/null 2>&1
    then
       : found it, so we are ok.
    else
    	rsrc=''
    	for src in . .. ../.. ../../.. ../../../..; do
    		if test -f ../$src/Configure && \
    			$contains "^package=$package$" ../$src/Configure >/dev/null 2>&1
    		then
    			rsrc=../$src
    			break
    		fi
    	done
    fi
    case "$rsrc" in
    '')
    	cat <<EOM >&4
    
    Sorry, I can't seem to locate the source dir for $package.  Please start
    Configure with an explicit path -- i.e. /some/path/Configure.
    
    EOM
    	exit 1
    	;;
    ../.)	rsrc='..';;
    *)
    	echo " "
    	echo "Sources for $package found in \"$src\"." >&4
    	;;
    esac
    
    : script used to extract .SH files with variable substitutions
    cat >extract <<'EOS'
    PERL_CONFIG_SH=true
    echo "Doing variable substitutions on .SH files..."
    if test -f MANIFEST; then
    	set x `awk '{print $1}' < MANIFEST | grep '\.SH$'`
    else
    	echo "(Looking for .SH files under the source directory.)"
    	set x `(cd "$src"; find . -name "*.SH" -print)`
    fi
    shift
    case $# in
    0) set x `(cd "$src"; echo *.SH)`; shift;;
    esac
    if test ! -f "$src/$1"; then
    	shift
    fi
    mkdir_p='
    name=$1;
    create="";
    while test $name; do
    	if test ! -d "$name"; then
    		create="$name $create";
    		name=`echo $name | sed -e "s|^[^/]*$||"`;
    		name=`echo $name | sed -e "s|\(.*\)/.*|\1|"`;
    	else
    		name="";
    	fi;
    done;
    for file in $create; do
    	mkdir $file;
    done
    '
    for file in $*; do
    	case "$src" in
    	".")
    		case "$file" in
    		*/*)
    			dir=`expr X$file : 'X\(.*\)/'`
    			file=`expr X$file : 'X.*/\(.*\)'`
    			(cd "$dir" && . ./$file)
    			;;
    		*)
    			. ./$file
    			;;
    		esac
    		;;
    	*)
    		case "$file" in
    		*/*)
    			dir=`expr X$file : 'X\(.*\)/'`
    			file=`expr X$file : 'X.*/\(.*\)'`
    			(set x $dir; shift; eval $mkdir_p)
    			sh <"$src/$dir/$file"
    			;;
    		*)
    			sh <"$src/$file"
    			;;
    		esac
    		;;
    	esac
    done
    if test -f "$src/config_h.SH"; then
    	if test ! -f config.h; then
    	: oops, they left it out of MANIFEST, probably, so do it anyway.
    	. "$src/config_h.SH"
    	fi
    fi
    EOS
    
    : extract files and exit if asked to do so
    case "$extractsh" in
    true)
    	case "$realsilent" in
    	true) ;;
    	*) exec 1>&4;;
    	esac
    	case "$config_sh" in
    	'') config_sh='config.sh';;
    	esac
    	echo " "
    	echo "Fetching answers from $config_sh..."
    	cd ..
    	. $config_sh
    	. UU/optdef.sh
    	echo " "
    	. UU/extract
    	rm -rf UU
    	echo "Extraction done."
    	exit 0
    	;;
    esac
    
    : Eunice requires " " instead of "", can you believe it
    echo " "
    : Here we go...
    echo "Beginning of configuration questions for $package."
    
    trap 'echo " "; test -d ../UU && rm -rf X $rmlist; exit 1' 1 2 3 15
    
    : first determine how to suppress newline on echo command
    echo " "
    echo "Checking echo to see how to suppress newlines..."
    (echo "hi there\c" ; echo " ") >.echotmp
    if $contains c .echotmp >/dev/null 2>&1 ; then
    	echo "...using -n."
    	n='-n'
    	c=''
    else
    	cat <<'EOM'
    ...using \c
    EOM
    	n=''
    	c='\c'
    fi
    echo $n "The star should be here-->$c"
    echo '*'
    rm -f .echotmp
    
    : Now test for existence of everything in MANIFEST
    echo " "
    if test -f "$rsrc/MANIFEST"; then
    	echo "First let's make sure your kit is complete.  Checking..." >&4
    	awk '$1 !~ /PACK[A-Z]+/ {print $1}' "$rsrc/MANIFEST" | \
    		(split -l 50 2>/dev/null || split -50)
    	rm -f missing
    	tmppwd=`pwd`
    	for filelist in x??; do
    		(cd "$rsrc"; ls `cat "$tmppwd/$filelist"` \
    			>/dev/null 2>>"$tmppwd/missing")
    	done
    	if test -s missing; then
    		cat missing >&4
    		cat >&4 <<'EOM'
    
    THIS PACKAGE SEEMS TO BE INCOMPLETE.
    
    You have the option of continuing the configuration process, despite the
    distinct possibility that your kit is damaged, by typing 'y'es.  If you
    do, don't blame me if something goes wrong.  I advise you to type 'n'o
    and contact the author (https://github.com/Perl/perl5/issues).
    
    EOM
    		echo $n "Continue? [n] $c" >&4
    		read ans
    		case "$ans" in
    		y*)
    			echo "Continuing..." >&4
    			rm -f missing
    			;;
    		*)
    			echo "ABORTING..." >&4
    			kill $$
    			;;
    		esac
    	else
    		echo "Looks good..."
    	fi
    else
    	echo "There is no MANIFEST file.  I hope your kit is complete !"
    fi
    rm -f missing x??
    
    : Find the appropriate value for a newline for tr
    if test -n "$DJGPP"; then
           trnl='\012'
    fi
    if test X"$trnl" = X; then
    	case "`echo foo | tr '\n' x 2>/dev/null`" in
    	foox) trnl='\n' ;;
    	esac
    fi
    if test X"$trnl" = X; then
    	case "`echo foo | tr '\012' x 2>/dev/null`" in
    	foox) trnl='\012' ;;
    	esac
    fi
    if test X"$trnl" = X; then
           case "`echo foo | tr '\r\n' xy 2>/dev/null`" in
           fooxy) trnl='\n\r' ;;
           esac
    fi
    if test X"$trnl" = X; then
    	cat <<EOM >&2
    
    $me: Fatal Error: cannot figure out how to translate newlines with 'tr'.
    
    EOM
    	exit 1
    fi
    
    : compute the number of columns on the terminal for proper question formatting
    case "$COLUMNS" in
    '') COLUMNS='80';;
    esac
    
    : set up the echo used in my read
    myecho="case \"\$xxxm\" in
    '') echo $n \"\$rp $c\" >&4;;
    *) case \"\$rp\" in
    	'') echo $n \"[\$xxxm] $c\";;
    	*)
    		if test \`echo \"\$rp [\$xxxm]  \" | wc -c\` -ge $COLUMNS; then
    			echo \"\$rp\" >&4
    			echo $n \"[\$xxxm] $c\" >&4
    		else
    			echo $n \"\$rp [\$xxxm] $c\" >&4
    		fi
    		;;
    	esac;;
    esac"
    
    : now set up to do reads with possible shell escape and default assignment
    cat <<EOSC >myread
    $startsh
    xxxm=\$dflt
    $myecho
    ans='!'
    case "\$fastread" in
    yes) case "\$dflt" in
    	'') ;;
    	*) ans='';
    		case "\$silent-\$rp" in
    		true-) ;;
    		*) echo " " >&4;;
    		esac;;
    	esac;;
    *) case "\$silent" in
    	true) case "\$rp" in
    		'') ans='';;
    		esac;;
    	esac;;
    esac
    while expr "X\$ans" : "X!" >/dev/null; do
    	read answ
    	set x \$xxxm
    	shift
    	aok=''; eval "ans=\\"\$answ\\"" && aok=y
    	case  "\$answ" in
    	"!")
    		sh 1>&4
    		echo " "
    		$myecho
    		;;
    	!*)
    		set x \`expr "X\$ans" : "X!\(.*\)\$"\`
    		shift
    		sh 1>&4 -c "\$*"
    		echo " "
    		$myecho
    		;;
    	"\$ans")
    		case "\$ans" in
    		\\&*)
    			set x \`expr "X\$ans" : "X&\(.*\)\$"\`
    			shift
    			case "\$1" in
    			-d)
    				fastread=yes
    				echo "(OK, I'll run with -d after this question.)" >&4
    				;;
    			-*)
    				echo "*** Sorry, \$1 not supported yet." >&4
    				;;
    			esac
    			$myecho
    			ans=!
    			;;
    		esac;;
    	*)
    		case "\$aok" in
    		y)
    			echo "*** Substitution done -- please confirm."
    			xxxm="\$ans"
    			ans=\`echo $n "\$ans$c" | tr '$trnl' ' '\`
    			xxxm="\$ans"
    			ans=!
    			;;
    		*)
    			echo "*** Error -- try again."
    			ans=!
    			;;
    		esac
    		$myecho
    		;;
    	esac
    	case "\$ans\$xxxm\$nostick" in
    	'')
    		ans=!
    		$myecho
    		;;
    	esac
    done
    case "\$ans" in
    '') ans="\$xxxm";;
    esac
    EOSC
    
    : create .config dir to save info across Configure sessions
    test -d ../.config || mkdir ../.config
    cat >../.config/README <<EOF
    This directory created by Configure to save information that should
    persist across sessions for $package.
    
    You may safely delete it if you wish.
    EOF
    
    : See if we are using a devel version and want that
    xversion=`awk '/define[ 	]+PERL_VERSION/ {print $3}' $rsrc/patchlevel.h`
    case "$usedevel" in
    $define|true|[yY]*)
        usedevel="$define" ;;
    *) case "$xversion" in
       *[13579])
    	cat >&4 <<EOH
    *** WHOA THERE!!! ***
    
        This is an UNSTABLE DEVELOPMENT release.
        The version of this $package distribution is $xversion, that is, odd,
        (as opposed to even) and that signifies a development release.
        If you want a maintenance release, you want an even-numbered version.
    
        Do ***NOT*** install this into production use.
        Data corruption and crashes are possible.
    
        It is most seriously suggested that you do not continue any further
        unless you want to help in developing and debugging Perl.
    
        If you *still* want to build perl, you can answer 'y' now,
        or pass -Dusedevel to Configure.
    
    EOH
    	rp='Do you really want to continue?'
    	dflt='n'
    	. ./myread
    	case "$ans" in
    	[yY]) echo >&4 "Okay, continuing."
    	      usedevel="$define" ;;
    	*) echo >&4 "Okay, bye."
    	   exit 1
    	   ;;
    	esac
    	;;
        esac
        usedevel="$undef"
        ;;
    esac
    case "$usedevel" in
    $define|true|[yY]*)
    	case "$versiononly" in
    	'') versiononly="$define" ;;
    	esac
    	case "$installusrbinperl" in
    	'') installusrbinperl="$undef" ;;
    	esac
    	;;
    esac
    
    : general instructions
    needman=true
    firsttime=true
    user=`(logname) 2>/dev/null`
    case "$user" in
    '') user=`whoami 2>&1`;;
    esac
    if $contains "^$user\$" ../.config/instruct >/dev/null 2>&1; then
    	firsttime=false
    	echo " "
    	rp='Would you like to see the instructions?'
    	dflt=n
    	. ./myread
    	case "$ans" in
    	[yY]*) ;;
    	*) needman=false;;
    	esac
    fi
    if $needman; then
    	cat <<EOH
    
    This installation shell script will examine your system and ask you questions
    to determine how the perl5 package should be installed. If you get
    stuck on a question, you may use a ! shell escape to start a subshell or
    execute a command.  Many of the questions will have default answers in square
    brackets; typing carriage return will give you the default.
    
    On some of the questions which ask for file or directory names you are allowed
    to use the ~name construct to specify the login directory belonging to "name",
    even if you don't have a shell which knows about that.  Questions where this is
    allowed will be marked "(~name ok)".
    
    EOH
    	rp=''
    	dflt='Type carriage return to continue'
    	. ./myread
    	cat <<'EOH'
    
    The prompter used in this script allows you to use shell variables and
    backticks in your answers.  You may use $1, $2, etc...  to refer to the words
    in the default answer, as if the default line was a set of arguments given to a
    script shell.  This means you may also use $* to repeat the whole default line,
    so you do not have to re-type everything to add something to the default.
    
    Every time there is a substitution, you will have to confirm.  If there is an
    error (e.g. an unmatched backtick), the default answer will remain unchanged
    and you will be prompted again.
    
    If you are in a hurry, you may run 'Configure -d'.  This will bypass nearly all
    the questions and use the computed defaults (or the previous answers if there
    was already a config.sh file). Type 'Configure -h' for a list of options.
    You may also start interactively and then answer '& -d' at any prompt to turn
    on the non-interactive behaviour for the remainder of the execution.
    
    EOH
    	. ./myread
    	cat <<EOH
    
    Much effort has been expended to ensure that this shell script will run on any
    Unix system.  If despite that it blows up on yours, your best bet is to edit
    Configure and run it again.  If you can't run Configure for some reason,
    you'll have to generate a config.sh file by hand.  Whatever problems you
    have, let me (https://github.com/Perl/perl5/issues) know how I blew it.
    
    This installation script affects things in two ways:
    
    1) it may do direct variable substitutions on some of the files included
       in this kit.
    2) it builds a config.h file for inclusion in C programs.  You may edit
       any of these files as the need arises after running this script.
    
    If you make a mistake on a question, there is no easy way to back up to it
    currently.  The easiest thing to do is to edit config.sh and rerun all the SH
    files.  Configure will offer to let you do this before it runs the SH files.
    
    EOH
    	dflt='Type carriage return to continue'
    	. ./myread
    	case "$firsttime" in
    	true) echo $user >>../.config/instruct;;
    	esac
    fi
    
    : Set 'sysroot' to change the logical root directory to your headers and libraries see man gcc
    : This is primarily meant for cross-compile environments, and may fail to be useful in other cases
    if test "X$sysroot" = X; then
        sysroot=""
    else
        case "$cc" in
    	*gcc*|*g++*)
    	    echo "Using $sysroot to find your headers and libraries, adding to ccflags"
    	    # _sysroot is used in places where we need --sysroot=foo
    	    # but using the rest of the flags could cause issues.
    	    _sysroot="--sysroot=$sysroot";
    	    case "$ccflags" in
    		*sysroot*) ;;
    		'undef'|*)
    		ccflags="$ccflags $_sysroot"
    	    esac
    	    case "$ldflags" in
    		*sysroot*) ;;
    		'undef'|*)
    		ldflags="$ldflags $_sysroot"
    	    esac
    	    case "$cppflags" in
    		*sysroot*) ;;
    		'undef'|*)
    		cppflags="$cppflags $_sysroot"
    	    esac
    	    # lddlflags updated below in lddlflags section;
    	    # same with cccdlflags
    	    ;;
        esac
    
        # Adjust some defaults to also use $sysroot
        for var in xlibpth loclibpth locincpth glibpth; do
    	eval xxx=\$$var
    	eval $var=''
    	for path in $xxx; do
    	    eval $var=\"\$$var $sysroot$path\"
    	done
        done
    
    fi
    
    : find out where common programs are
    echo " "
    echo "Locating common programs..." >&4
    cat <<EOSC >loc
    $startsh
    case \$# in
    0) exit 1;;
    esac
    thing=\$1
    shift
    dflt=\$1
    shift
    for dir in \$*; do
    	case "\$thing" in
    	.)
    	if test -d \$dir/\$thing; then
    		echo \$dir
    		exit 0
    	fi
    	;;
    	*)
    	for thisthing in \$dir/\$thing; do
    		: just loop through to pick last item
    	done
    	if test -f \$thisthing; then
    		echo \$thisthing
    		exit 0
    	elif test "X$_exe" != X -a -f \$thisthing$_exe; then
    		echo \$thisthing
    		exit 0
    	elif test -f \$dir/\$thing.exe; then
    		if test -n "$DJGPP"; then
    			echo \$dir/\$thing.exe
    		elif test "$eunicefix" != ":"; then
    			: on Eunice apparently
    			echo \$dir/\$thing
    		fi
    		exit 0
    	fi
    	;;
    	esac
    done
    echo \$dflt
    exit 1
    EOSC
    chmod +x loc
    $eunicefix loc
    loclist="
    awk
    cat
    chmod
    comm
    cp
    echo
    expr
    grep
    ls
    mkdir
    rm
    sed
    sort
    touch
    tr
    uniq
    "
    trylist="
    ar
    bison
    byacc
    cpp
    csh
    date
    egrep
    gmake
    gzip
    less
    ln
    make
    more
    nm
    nroff
    perl
    pg
    test
    uname
    zip
    "
    pth=`echo $PATH | sed -e "s/$p_/ /g"`
    pth="$pth $sysroot/lib $sysroot/usr/lib"
    for file in $loclist; do
    	eval xxx=\$$file
    	case "$xxx" in
    	/*|?:[\\/]*)
    		if test -f "$xxx"; then
    			: ok
    		else
    			echo "WARNING: no $xxx -- ignoring your setting for $file." >&4
    			xxx=`./loc $file $file $pth`
    		fi
    		;;
    	'') xxx=`./loc $file $file $pth`;;
    	*) xxx=`./loc $xxx $xxx $pth`;;
    	esac
    	eval $file=$xxx$_exe
    	eval _$file=$xxx
    	case "$xxx" in
    	/*)
    		echo $file is in $xxx.
    		;;
    	?:[\\/]*)
    		echo $file is in $xxx.
    		;;
    	*)
    		echo "I don't know where '$file' is, and my life depends on it." >&4
    		echo "Go find a public domain implementation or fix your PATH setting!" >&4
    		exit 1
    		;;
    	esac
    done
    echo " "
    echo "Don't worry if any of the following aren't found..."
    say=offhand
    for file in $trylist; do
    	eval xxx=\$$file
    	case "$xxx" in
    	/*|?:[\\/]*)
    		if test -f "$xxx"; then
    			: ok
    		else
    			echo "WARNING: no $xxx -- ignoring your setting for $file." >&4
    			xxx=`./loc $file $file $pth`
    		fi
    		;;
    	'') xxx=`./loc $file $file $pth`;;
    	*) xxx=`./loc $xxx $xxx $pth`;;
    	esac
    	eval $file=$xxx$_exe
    	eval _$file=$xxx
    	case "$xxx" in
    	/*)
    		echo $file is in $xxx.
    		;;
    	?:[\\/]*)
    		echo $file is in $xxx.
    		;;
    	*)
    		echo "I don't see $file out there, $say."
    		say=either
    		;;
    	esac
    done
    case "$egrep" in
    egrep)
    	echo "Substituting grep for egrep."
    	egrep=$grep
    	_egrep=$grep
    	;;
    esac
    case "$less" in
    '')	;;
    *)	if $less -R </dev/null >/dev/null 2>&1; then
    	       echo "Substituting less -R for less."
    	       less="$less -R"
    	       _less=$less
    	fi
    	;;
    esac
    case "$ln" in
    ln)
    	echo "Substituting cp for ln."
    	ln=$cp
    	_ln=$cp
    	;;
    esac
    case "$make" in
    make)
    	case "$gmake" in
    	gmake)
    	echo "I can't find make or gmake, and my life depends on it." >&4
    	echo "Go find a public domain implementation or fix your PATH setting!" >&4
    	exit 1
    	;;
    	esac
    	;;
    esac
    case "$gmake" in
    gmake)	;;
    *)	# We can't have osname yet.
    	if test -f "/system/gnu_library/bin/ar.pm"; then # Stratus VOS
    		# Assume that gmake, if found, is definitely GNU make
    		# and prefer it over the system make.
    		echo "Substituting gmake for make."
    		make=$gmake
    		_make=$gmake
    	fi
    	;;
    esac
    case "$test" in
    test)
    	echo "Hopefully test is built into your sh."
    	;;
    *)
    	if `sh -c "PATH= test true" >/dev/null 2>&1`; then
    		echo "Using the test built into your sh."
    		test=test
    		_test=test
    	fi
    	;;
    esac
    case "$echo" in
    echo)
    	echo "Hopefully echo is built into your sh."
    	;;
    '') ;;
    *)
    	echo " "
    echo "Checking compatibility between $echo and builtin echo (if any)..." >&4
    	$echo $n "hi there$c" >foo1
    	echo $n "hi there$c" >foo2
    	if cmp foo1 foo2 >/dev/null 2>&1; then
    		echo "They are compatible.  In fact, they may be identical."
    	else
    		case "$n" in
    		'-n') n='' c='\c';;
    		*) n='-n' c='';;
    		esac
    		cat <<FOO
    They are not compatible!  You are probably running ksh on a non-USG system.
    I'll have to use $echo instead of the builtin, since Bourne shell doesn't
    have echo built in and we may have to run some Bourne shell scripts.  That
    means I'll have to use '$n$c' to suppress newlines now.  Life is ridiculous.
    
    FOO
    		$echo $n "The star should be here-->$c"
    		$echo "*"
    	fi
    	$rm -f foo1 foo2
    	;;
    esac
    
    # This question was auctioned at YAPC::Europe-2007 in Vienna
    # I never promised you could answer it. I only auctioned the question.
    cat <<FOO
    The following message is sponsored by
    
      Dresden.pm<--The stars should be here.
    
    Dear Perl user, system administrator or package
    maintainer, the Perl community sends greetings to
    you. Do you (emblematical) greet back [Y/n]? n
    
    FOO
    
    : Check what type of C compiler we use
    cat <<EOS >trygcc
    $startsh
    EOS
    cat <<'EOSC' >>trygcc
    case "$cc" in
    '') ;;
    *)  $rm -f try try.*
        $cat >try.c <<EOM
    int main(int argc, char *argv[]) {
      return 0;
    }
    EOM
        if $cc -o try $ccflags $ldflags try.c; then
           :
        else
            echo "Uh-oh, the C compiler '$cc' doesn't seem to be working." >&4
            despair=yes
            trygcc=yes
            case "$cc" in
            *gcc*) trygcc=no ;;
            esac
    	# Skip this test because it gives a false match on output like:
    	#    ./trygcc: line 23: cc: command not found
            # case "`$cc -v -c try.c 2>&1`" in
            # *gcc*) trygcc=no ;;
            # esac
            if $test X"$trygcc" = Xyes; then
                if gcc -o try -c try.c; then
                    echo " "
                    echo "You seem to have a working gcc, though." >&4
    		# Switching compilers may undo the work of hints files.
    		# The most common problem is -D_REENTRANT for threads.
    		# This heuristic catches that case, but gets false positives
    		# if -Dusethreads was not actually specified.  Better to
    		# bail out here with a useful message than fail
    		# mysteriously later. Should we perhaps just try to
    		# re-invoke Configure -Dcc=gcc config_args ?
    		if $test -f usethreads.cbu; then
    			$cat >&4 <<EOM
    
    *** However, any setting of the C compiler flags (e.g. for thread support)
    *** will be lost.  It may be necessary for you to restart Configure and
    *** add -Dcc=gcc to your Configure command line.
    
    EOM
    			rp="Would you like to go ahead and try gcc anyway?"
    			dflt=n
    		else
    			rp="Would you like to use it?"
    			dflt=y
    		fi
                    if $test -f myread; then
                        . ./myread
                    else
                        if $test -f UU/myread; then
                            . ./UU/myread
                        else
                            echo "Cannot find myread, sorry.  Aborting." >&4
                            exit 1
                        fi
                    fi
                    case "$ans" in
                    [yY]*) cc=gcc; ccname=gcc; ccflags=''; despair=no;
                    esac
                fi
            fi
        fi
        $rm -f try try.*
        ;;
    esac
    EOSC
    
    cat <<EOS >checkcc
    $startsh
    EOS
    cat <<'EOSC' >>checkcc
    case "$cc" in
    '') ;;
    *)  $rm -f try try.*
        $cat >try.c <<EOM
    int main(int argc, char *argv[]) {
      return 0;
    }
    EOM
        if $cc -o try $ccflags $ldflags try.c; then
           :
        else
            if $test X"$despair" = Xyes; then
               echo "Uh-oh, the C compiler '$cc' doesn't seem to be working." >&4
            fi
            $cat >&4 <<EOM
    You need to find a working C compiler.
    Either (purchase and) install the C compiler supplied by your OS vendor,
    or for a free C compiler try http://gcc.gnu.org/
    I cannot continue any further, aborting.
    EOM
            exit 1
        fi
        $rm -f try try.*
        ;;
    esac
    EOSC
    
    : determine whether symbolic links are supported
    echo " "
    $touch blurfl
    if $ln -s blurfl sym > /dev/null 2>&1 ; then
    	echo "Symbolic links are supported." >&4
    	lns="$ln -s"
    else
    	echo "Symbolic links are NOT supported." >&4
    	lns="$ln"
    fi
    $rm -f blurfl sym
    
    : determine whether symbolic links are supported
    echo " "
    case "$lns" in
    *"ln"*" -s")
    	echo "Checking how to test for symbolic links..." >&4
    	$lns blurfl sym
    	if $test "X$issymlink" = X; then
    		case "$newsh" in
    		'') sh     -c "PATH= test -h sym" >/dev/null 2>&1 ;;
    		*)  $newsh -c "PATH= test -h sym" >/dev/null 2>&1 ;;
    		esac
    		if test $? = 0; then
    			issymlink="test -h"
    		else
    			echo "Your builtin 'test -h' may be broken." >&4
    			case "$test" in
    			/*)	;;
    			*)	pth=`echo $PATH | sed -e "s/$p_/ /g"`
    				for p in $pth
    				do
    					if test -f "$p/$test"; then
    						test="$p/$test"
    						break
    					fi
    				done
    				;;
    			esac
    			case "$test" in
    			/*)
    				echo "Trying external '$test -h'." >&4
    				issymlink="$test -h"
    				if $test ! -h sym >/dev/null 2>&1; then
    					echo "External '$test -h' is broken, too." >&4
    					issymlink=''
    				fi
    				;;
    			*)	issymlink='' ;;
    			esac
    		fi
    	fi
    	if $test "X$issymlink" = X; then
    		if $test -L sym 2>/dev/null; then
    			issymlink="$test -L"
    			echo "The builtin '$test -L' worked." >&4
    		fi
    	fi
    	if $test "X$issymlink" != X; then
    		echo "You can test for symbolic links with '$issymlink'." >&4
    	else
    		echo "I do not know how you can test for symbolic links." >&4
    	fi
    	$rm -f blurfl sym
    	;;
    *)	echo "No symbolic links, so not testing for their testing..." >&4
    	;;
    esac
    
    : Make symlinks util
    case "$mksymlinks" in
    $define|true|[yY]*)
    	case "$src" in
    	''|'.')	echo "Cannot create symlinks in the original directory." >&4
    		exit 1
    		;;
    	*)	case "$lns:$issymlink" in
    		*"ln"*" -s:"*"test -"?)
    			echo "Creating the symbolic links..." >&4
    			cd ..
    			awk '{print $1}' $src/MANIFEST | sed -e 's:/\([^/]*\)$: \1:' |
    			awk 'NF == 1 {
    				dir=".";
    				file=$1 "";
    			     }
    			     NF == 2 {
    				dir=$1 "";
    				file=$2 "";
    			     }
    			     {
    				 print "# dir = ", dir, "file = ", file
    				 mf[dir] = mf[dir]" "source"/"dir"/"file;
    			     } END {
    				 for (d in mf) {
    				     if (d != ".") { print("mkdir -p "d) }
    				     print("ln -sf "mf[d]" "d);
    				 }
    			     }' source="$src" > UU/mksymlinks.$$
    			sh UU/mksymlinks.$$
    			rm UU/mksymlinks.$$
    			# Sanity check 1.
    			if test ! -d t/base; then
    				echo "Failed to create the subdirectories.  Aborting." >&4
    				exit 1
    			fi
    			# Sanity check 2.
    			if test ! -f t/base/lex.t; then
    				echo "Failed to create the symlinks (t/base/lex.t missing).  Aborting." >&4
    				exit 1
    			fi
    			if test ! -f win32/win32.c; then
    				echo "Failed to create the symlinks (win32/win32.c missing).  Aborting." >&4
    				exit 1
    			fi
    			cd UU
    			;;
    		*)	echo "(I cannot figure out how to do symbolic links, ignoring mksymlinks)." >&4
    			;;
    		esac
    		;;
    	esac
    	;;
    esac
    
    : Check for Cross-Compilation
    if $test "X$targethost" = "X"; then
        targethost=""
    fi
    if $test "X$targetenv" = "X"; then
        targetenv=""
    fi
    case "$usecrosscompile" in
    $define|true|[yY]*)
    	$echo "Cross-compiling..."
    	croak=''
    	case "$cc" in
    	*-gcc*|*-g++*) # A cross-compiling gcc, probably.
    	    # arm-linux-androideabi-gcc  -> arm-linux-androideabi
    	    # x86_64-w64-mingw32-gcc.exe -> x86_64-w64-mingw32
    	    targetarch=`$echo $cc|$sed 's/-g[c\+][c\+].*$//'`
    	    ar=`$echo $cc|$sed 's/-g[c\+][c\+]/-ar/'`
    	    # leave out ld, choosing it is more complex
    	    nm=`$echo $cc|$sed 's/-g[c\+][c\+]/-nm/'`
    	    ranlib=`$echo $cc|$sed 's/-g[c\+][c\+]/-ranlib/'`
    	    # We are in a weird spot. Just before us, some values
    	    # were 'saved', to be restored after the hints are
    	    # run.  This means that the changes we made to ar,
    	    # nm and ranlib will get reverted.
    	    # To avoid that, we hijack the saving mechanism and
    	    # have it save our new values.
    	    for file in ar nm ranlib; do
    		eval xxx=\$$file
    		eval $file=$xxx$_exe
    		eval _$file=$xxx
    	    done
    	;;
    	esac
    	case "$targetarch" in
    	'') echo "Targetarch not defined." >&4; croak=y ;;
    	*)  echo "Using targetarch $targetarch." >&4 ;;
    	esac
    	case "$targethost" in
    	'') echo "Targethost not defined." >&4; croak=n ;;
    	*)  echo "Using targethost $targethost." >&4
    	esac
    	locincpth=' '
    	loclibpth=' '
    	case "$croak" in
    	y) echo "Cannot continue, aborting." >&4; exit 1 ;;
    	esac
        : compile a host miniperl and generate_uudmap, unless we got passed them
        if $test "X$hostperl" = X; then
          echo "Building host miniperl and generate_uudmap binaries" >&4
          before_host=`pwd`
          cd ..
          cd $src
          src=`pwd`
          rm -rf $src/host
          mkdir $src/host
          cd $src/host
          $src/Configure -des -Dusedevel -Dmksymlinks
          $make miniperl
          case "$hostgenerate" in
          '') $make generate_uudmap
              hostgenerate=$src/host/generate_uudmap
              ;;
           "$undef") hostgenerate=''
              ;;
          esac
          hostperl=$src/host/miniperl
          cd $before_host
        fi
        hostosname=`$hostperl -le 'print $^O'`
        ;;
    *)
        usecrosscompile="$undef"
        ;;
    esac
    
    : Define -Dtargethost=somecomputer to run compiled tests on another machine
    case "$targethost" in
        '') echo "Checking for cross-compile" >&4
        case "$usecrosscompile$multiarch" in
           *$define*) echo "Skipping the try tests in the rest of Configure as no targethost was defined when cross-compiling" >&4
             if [ -f Makefile ]; then
               echo " "
               echo "Now you must ensure config.sh, config.h and the generated headers exist and run a $make."
             else
               echo "Configure done."
             fi
           exit 0
           ;;
         *) echo "No targethost for running compiler tests against defined, running locally" >&4
            run=''
            to=:
            from=:
            ;;
        esac
        ;;
        *) echo "Using targethost $targethost." >&4
    	case "$src" in
    	/*) run=$src/Cross/run
    	    targetmkdir=$src/Cross/mkdir
    	    to=$src/Cross/to
    	    from=$src/Cross/from
    	    ;;
    	*)  pwd=`$test -f ../Configure & cd ..; pwd`
    	    run=$pwd/Cross/run
    	    targetmkdir=$pwd/Cross/mkdir
    	    to=$pwd/Cross/to
    	    from=$pwd/Cross/from
    	    ;;
    	esac
    	case "$targetrun" in
    	'') targetrun=ssh ;;
    	esac
    	case "$targetto" in
    	'') targetto=scp ;;
    	esac
    	case "$targetfrom" in
    	'') targetfrom=scp ;;
    	esac
    	run=$run-$targetrun
    	to=$to-$targetto
    	from=$from-$targetfrom
    	case "$targetdir" in
    	'')  targetdir=/tmp
    	     echo "Guessing targetdir $targetdir." >&4
    	     ;;
    	esac
    	case "$targetuser" in
    	'')  targetuser=root
    	     echo "Guessing targetuser $targetuser." >&4
    	     ;;
    	esac
    	case "$targetport" in
    	'')  targetport=22
    	     echo "Guessing targetport $targetport." >&4
    	     ;;
    	esac
    	case "$targetfrom" in
    	scp)	q=-q ;;
    	*)	q='' ;;
    	esac
    	case "$targetrun" in
    	ssh|rsh)
    	    cat >$run <<EOF
    #!/bin/sh
    env=''
    case "\$1" in
    -cwd)
      shift
      cwd=\$1
      shift
      ;;
    esac
    case "\$1" in
    -env)
      shift
      env=\$1
      shift
      ;;
    esac
    case "\$cwd" in
    '') cwd=$targetdir ;;
    esac
    exe=\$1
    shift
    $to \$exe
    $targetrun -p $targetport -l $targetuser $targethost "cd \$cwd && \$env \$exe \$@"
    EOF
    	    ;;
    	adb)
    	    $touch $run
    	    ;;
    	*)  echo "Unknown targetrun '$targetrun'" >&4
    	    exit 1
    	    ;;
    	esac
    	case "$targetmkdir" in
    	*/Cross/mkdir)
    	    cat >$targetmkdir <<EOF
    #!/bin/sh
    $targetrun -p $targetport -l $targetuser $targethost "mkdir -p \$@"
    EOF
    	    $chmod a+rx $targetmkdir
    	    ;;
    	*)  echo "Unknown targetmkdir '$targetmkdir'" >&4
    	    exit 1
    	    ;;
    	esac
    	case "$targetto" in
    	scp|rcp)
    	    cat >$to <<EOF
    #!/bin/sh
    for f in \$@
    do
      case "\$f" in
      /*)
        $targetmkdir \`dirname \$f\`
        $targetto -P $targetport -r $q \$f $targetuser@$targethost:\$f           2>/dev/null  || exit 1
        ;;
      *)
        $targetmkdir $targetdir/\`dirname \$f\`
        $targetto -P $targetport -r $q \$f $targetuser@$targethost:$targetdir/\$f 2>/dev/null || exit 1
        ;;
      esac
    done
    exit 0
    EOF
    	    ;;
    	cp) cat >$to <<EOF
    #!/bin/sh
    for f in \$@
    do
      case "\$f" in
      /*)
        $mkdir -p $targetdir/\`dirname \$f\`
        $cp \$f $targetdir/\$f || exit 1
        ;;
      *)
        $targetmkdir $targetdir/\`dirname \$f\`
        $cp \$f $targetdir/\$f || exit 1
        ;;
      esac
    done
    exit 0
    EOF
    	    ;;
    	*)  echo "Unknown targetto '$targetto'" >&4
    	    exit 1
    	    ;;
    	esac
    	case "$targetfrom" in
    	scp|rcp)
    	  cat >$from <<EOF
    #!/bin/sh
    for f in \$@
    do
      $rm -f \$f
      $targetfrom -P $targetport $q $targetuser@$targethost:$targetdir/\$f . || exit 1
    done
    exit 0
    EOF
    	    ;;
    	cp) cat >$from <<EOF
    #!/bin/sh
    for f in \$@
    do
      $rm -f \$f
      cp $targetdir/\$f . || exit 1
    done
    exit 0
    EOF
    	    ;;
    	*)  echo "Unknown targetfrom '$targetfrom'" >&4
    	    exit 1
    	    ;;
    	esac
    	if $test ! -f $run; then
    	    echo "Target 'run' script '$run' not found." >&4
    	else
    	    $chmod a+rx $run
    	fi
    	if $test ! -f $to; then
    	    echo "Target 'to' script '$to' not found." >&4
    	else
    	    $chmod a+rx $to
    	fi
    	if $test ! -f $from; then
    	    echo "Target 'from' script '$from' not found." >&4
    	else
    	    $chmod a+rx $from
    	fi
    	if $test ! -f $run -o ! -f $to -o ! -f $from; then
    	    exit 1
    	fi
    	cat >&4 <<EOF
    Using '$run' for remote execution,
    and '$from' and '$to'
    for remote file transfer.
    EOF
    	;;
    *)	run=''
    	to=:
    	from=:
    	usecrosscompile="$undef"
    	targetarch=''
    	;;
    esac
    
    : see whether [:lower:] and [:upper:] are supported character classes
    echo " "
    case "`echo AbyZ | $tr '[:lower:]' '[:upper:]' 2>/dev/null`"-"`echo AbyZ | $tr '[:upper:]' '[:lower:]' 2>/dev/null`" in
    ABYZ-abyz)
    	echo "Good, your tr supports [:lower:] and [:upper:] to convert case." >&4
    	up='[:upper:]'
    	low='[:lower:]'
    	;;
    *)	# There is a discontinuity in EBCDIC between 'R' and 'S'
    	# (0xd9 and 0xe2), therefore that is a nice testing point.
    	if test "X$up" = X -o "X$low" = X; then
    	    case "`echo RS | $tr '[R-S]' '[r-s]' 2>/dev/null`" in
    	    rs) up='[A-Z]'
    		low='[a-z]'
    		;;
    	    esac
    	fi
    	if test "X$up" = X -o "X$low" = X; then
    	    case "`echo RS | $tr R-S r-s 2>/dev/null`" in
    	    rs) up='A-Z'
    		low='a-z'
    		;;
    	    esac
    	fi
    	if test "X$up" = X -o "X$low" = X; then
    	    case "`echo RS | od -x 2>/dev/null`" in
    	    *D9E2*|*d9e2*)
    		echo "Hey, this might be EBCDIC." >&4
    		if test "X$up" = X -o "X$low" = X; then
    		    case "`echo RS | $tr '[A-IJ-RS-Z]' '[a-ij-rs-z]' 2>/dev/null`" in
    		    rs) up='[A-IJ-RS-Z]'
    			low='[a-ij-rs-z]'
    			;;
    		    esac
    		fi
    		if test "X$up" = X -o "X$low" = X; then
    		    case "`echo RS | $tr A-IJ-RS-Z a-ij-rs-z 2>/dev/null`" in
    		    rs) up='A-IJ-RS-Z'
    			low='a-ij-rs-z'
    			;;
    		    esac
    		fi
    		;;
    	    esac
    	fi
    esac
    case "`echo RS | $tr \"$up\" \"$low\" 2>/dev/null`" in
    rs)
        echo "Using $up and $low to convert case." >&4
        ;;
    *)
        echo "I don't know how to translate letters from upper to lower case." >&4
        echo "Your tr is not acting any way I know of." >&4
        exit 1
        ;;
    esac
    : set up the translation script tr, must be called with ./tr of course
    cat >tr <<EOSC
    $startsh
    case "\$1\$2" in
    '[A-Z][a-z]') exec $tr '$up' '$low';;
    '[a-z][A-Z]') exec $tr '$low' '$up';;
    esac
    exec $tr "\$@"
    EOSC
    chmod +x tr
    $eunicefix tr
    
    : Try to determine whether config.sh was made on this system
    case "$config_sh" in
    '')
    myuname=`$uname -a 2>/dev/null`
    $test -z "$myuname" && myuname=`hostname 2>/dev/null`
    # Downcase everything to avoid ambiguity.
    # Remove slashes and single quotes so we can use parts of this in
    # directory and file names.
    # Remove newlines so myuname is sane to use elsewhere.
    # tr '[A-Z]' '[a-z]' would not work in EBCDIC
    # because the A-Z/a-z are not consecutive.
    myuname=`echo $myuname | $sed -e "s,['/],,g" | \
    	./tr '[A-Z]' '[a-z]' | $tr $trnl ' '`
    newmyuname="$myuname"
    dflt=n
    case "$knowitall" in
    '')
    	if test -f ../config.sh; then
    		if $contains myuname= ../config.sh >/dev/null 2>&1; then
    			eval "`grep myuname= ../config.sh`"
    		fi
    		if test "X$myuname" = "X$newmyuname"; then
    			dflt=y
    		fi
    	fi
    	;;
    *) dflt=y;;
    esac
    
    : Get old answers from old config file if Configure was run on the
    : same system, otherwise use the hints.
    hint=default
    cd ..
    if test -f config.sh; then
    	echo " "
    	rp="I see a config.sh file.  Shall I use it to set the defaults?"
    	. UU/myread
    	case "$ans" in
    	n*|N*) echo "OK, I'll ignore it."
    		mv config.sh config.sh.old
    		myuname="$newmyuname"
    		;;
    	*)  echo "Fetching default answers from your old config.sh file..." >&4
    		tmp_n="$n"
    		tmp_c="$c"
    		tmp_sh="$sh"
    		. ./config.sh
    		cp config.sh UU
    		n="$tmp_n"
    		c="$tmp_c"
    		: Older versions did not always set $sh.  Catch re-use of such
    		: an old config.sh.
    		case "$sh" in
    		'') sh="$tmp_sh" ;;
    		esac
    		hint=previous
    		;;
    	esac
    fi
    . ./UU/checkcc
    if test ! -f config.sh; then
    	$cat <<EOM
    
    First time through, eh?  I have some defaults handy for some systems
    that need some extra help getting the Configure answers right:
    
    EOM
    	(cd $src/hints; ls -C *.sh) | $sed 's/\.sh/   /g' >&4
    	dflt=''
    	: Half the following guesses are probably wrong... If you have better
    	: tests or hints, please send them to https://github.com/Perl/perl5/issues
    	: The metaconfig authors would also appreciate a copy...
    	$test -f /irix && osname=irix
    	$test -f /xenix && osname=sco_xenix
    	$test -f /dynix && osname=dynix
    	$test -f /dnix && osname=dnix
    	$test -f /lynx.os && osname=lynxos
    	$test -f /unicos && osname=unicos && osvers=`$uname -r`
    	$test -f /unicosmk && osname=unicosmk && osvers=`$uname -r`
    	$test -f /unicosmk.ar && osname=unicosmk && osvers=`$uname -r`
    	$test -f /bin/mips && /bin/mips && osname=mips
    	$test -d /usr/apollo/bin && osname=apollo
    	$test -f /etc/saf/_sactab && osname=svr4
    	$test -d /usr/include/minix && osname=minix && osvers=`$uname -r`
    	$test -f /system/gnu_library/bin/ar.pm && osname=vos
    	$test -f /sys/utilities/MultiView && osname=amigaos
    	if $test -d /MachTen -o -d /MachTen_Folder; then
    		osname=machten
    		if $test -x /sbin/version; then
    			osvers=`/sbin/version | $awk '{print $2}' |
    			$sed -e 's/[A-Za-z]$//'`
    		elif $test -x /usr/etc/version; then
    			osvers=`/usr/etc/version | $awk '{print $2}' |
    			$sed -e 's/[A-Za-z]$//'`
    		else
    			osvers="$2.$3"
    		fi
    	fi
    
    	$test -f /sys/posix.dll &&
    		$test -f /usr/bin/what &&
    		set X `/usr/bin/what /sys/posix.dll` &&
    		$test "$3" = UWIN &&
    		osname=uwin &&
    		osvers="$5"
    
    	if $test -f $uname; then
    		set X $myuname
    		shift
    
    		case "$5" in
    		fps*) osname=fps ;;
    		mips*)
    			case "$4" in
    			umips) osname=umips ;;
    			*) osname=mips ;;
    			esac;;
    		[23]100) osname=mips ;;
    		i386*)
    			tmp=`/bin/uname -X 2>/dev/null|awk '/3\.2v[45]/{ print $(NF) }'`
    			if $test "$tmp" != "" -a "$3" = "3.2" -a -f '/etc/systemid'; then
    				osname='sco'
    				osvers=$tmp
    			elif $test -f /etc/kconfig; then
    				osname=isc
    				if test "$lns" = "$ln -s"; then
    					osvers=4
    				elif $contains _SYSV3 /usr/include/stdio.h > /dev/null 2>&1 ; then
    					osvers=3
    				elif $contains _POSIX_SOURCE /usr/include/stdio.h > /dev/null 2>&1 ; then
    					osvers=2
    				fi
    			fi
    			tmp=''
    			;;
    		pc*)
    			if test -n "$DJGPP"; then
    				osname=dos
    				osvers=djgpp
    			fi
    			;;
    		esac
    
    		case "$1" in
    		aix) osname=aix
    			tmp=`( (oslevel) 2>/dev/null || echo "not found") 2>&1`
    			case "$tmp" in
    			# oslevel can fail with:
    			# oslevel: Unable to acquire lock.
    			*not\ found) osvers="$4"."$3" ;;
    			'<3240'|'<>3240') osvers=3.2.0 ;;
    			'=3240'|'>3240'|'<3250'|'<>3250') osvers=3.2.4 ;;
    			'=3250'|'>3250') osvers=3.2.5 ;;
    			*) osvers=$tmp;;
    			esac
    			;;
    		bitrig) osname=bitrig
    			osvers="$3"
    			;;
    		bsd386) osname=bsd386
    			osvers=`$uname -r`
    			;;
    		cygwin*) osname=cygwin
    			osvers="$3"
    			;;
    		*dc.osx) osname=dcosx
    			osvers="$3"
    			;;
    		dnix) osname=dnix
    			osvers="$3"
    			;;
    		domainos) osname=apollo
    			osvers="$3"
    			;;
    		dgux)	osname=dgux
    			osvers="$3"
    			;;
    		dragonfly) osname=dragonfly
    			osvers="$3"
    			;;
    		dynixptx*) osname=dynixptx
    			osvers=`echo "$4"|sed 's/^v//'`
    			;;
    		freebsd) osname=freebsd
    			osvers="$3" ;;
    		genix)	osname=genix ;;
    		gnu)	osname=gnu
    			osvers="$3" ;;
    		hp*)	osname=hpux
    			osvers=`echo "$3" | $sed 's,.*\.\([0-9]*\.[0-9]*\),\1,'`
    			;;
    		irix*)	osname=irix
    			case "$3" in
    			4*) osvers=4 ;;
    			5*) osvers=5 ;;
    			*)	osvers="$3" ;;
    			esac
    			;;
    		linux)	osname=linux
    			case "$3" in
    			*)	osvers="$3" ;;
    			esac
    			$test -f /system/lib/libandroid.so && osname=linux-android
    			;;
    		MiNT)	osname=mint
    			;;
    		minix)	osname=minix
    			osvers=`$uname -r`
    			;;
    		netbsd*) osname=netbsd
    			osvers="$3"
    			;;
    		news-os) osvers="$3"
    			case "$3" in
    			4*) osname=newsos4 ;;
    			*) osname=newsos ;;
    			esac
    			;;
    		nonstop-ux) osname=nonstopux ;;
    		openbsd) osname=openbsd
    			osvers="$3"
    			;;
    		os2)	osname=os2
    			osvers="$4"
    			;;
    		POSIX-BC | posix-bc ) osname=posix-bc
    			osvers="$3"
    			;;
    		powerux | power_ux | powermax_os | powermaxos | \
    		powerunix | power_unix) osname=powerux
    			osvers="$3"
    			;;
    		qnx) osname=qnx
    			osvers="$4"
    			;;
    		solaris) osname=solaris
    			case "$3" in
    			5*) osvers=`echo $3 | $sed 's/^5/2/g'` ;;
    			*)	osvers="$3" ;;
    			esac
    			;;
    		sunos) osname=sunos
    			case "$3" in
    			5*) osname=solaris
    				osvers=`echo $3 | $sed 's/^5/2/g'` ;;
    			*)	osvers="$3" ;;
    			esac
    			;;
    		titanos) osname=titanos
    			case "$3" in
    			1*) osvers=1 ;;
    			2*) osvers=2 ;;
    			3*) osvers=3 ;;
    			4*) osvers=4 ;;
    			*)	osvers="$3" ;;
    			esac
    			;;
    		ultrix) osname=ultrix
    			osvers="$3"
    			;;
    		osf1|mls+)	case "$5" in
    				alpha)
    					osname=dec_osf
    					osvers=`sizer -v | awk -FUNIX '{print $2}' | awk '{print $1}' |  tr '[A-Z]' '[a-z]' | sed 's/^[xvt]//'`
    					case "$osvers" in
    					[1-9].[0-9]*) ;;
    					*) osvers=`echo "$3" | sed 's/^[xvt]//'` ;;
    					esac
    					;;
    			hp*)	osname=hp_osf1	;;
    			mips)	osname=mips_osf1 ;;
    			esac
    			;;
    		# UnixWare 7.1.2 is known as Open UNIX 8
    		openunix|unixware) osname=svr5
    			osvers="$4"
    			;;
    		uts)	osname=uts
    			osvers="$3"
    			;;
    		vos) osvers="$3"
    			;;
    		$2) case "$osname" in
    			*isc*) ;;
    			*freebsd*) ;;
    			svr*)
    				: svr4.x or possibly later
    				case "svr$3" in
    				${osname}*)
    					osname=svr$3
    					osvers=$4
    					;;
    				esac
    				case "$osname" in
    				svr4.0)
    					: Check for ESIX
    					if test -f /stand/boot ; then
    						eval `grep '^INITPROG=[a-z/0-9]*$' /stand/boot`
    						if test -n "$INITPROG" -a -f "$INITPROG"; then
    			isesix=`strings -a $INITPROG|grep 'ESIX SYSTEM V/386 Release 4.0'`
    							if test -n "$isesix"; then
    								osname=esix4
    							fi
    						fi
    					fi
    					;;
    				esac
    				;;
    			*)	if test -f /etc/systemid; then
    					osname=sco
    					set `echo $3 | $sed 's/\./ /g'` $4
    					if $test -f $src/hints/sco_$1_$2_$3.sh; then
    						osvers=$1.$2.$3
    					elif $test -f $src/hints/sco_$1_$2.sh; then
    						osvers=$1.$2
    					elif $test -f $src/hints/sco_$1.sh; then
    						osvers=$1
    					fi
    				else
    					case "$osname" in
    					'') : Still unknown.  Probably a generic Sys V.
    						osname="sysv"
    						osvers="$3"
    						;;
    					esac
    				fi
    				;;
    			esac
    			;;
    		*)	case "$osname" in
    			'') : Still unknown.  Probably a generic BSD.
    				osname="$1"
    				osvers="$3"
    				;;
    			esac
    			;;
    		esac
    	else
    		if test -f /vmunix -a -f $src/hints/news_os.sh; then
    			(what /vmunix | UU/tr '[A-Z]' '[a-z]') > UU/kernel.what 2>&1
    			if $contains news-os UU/kernel.what >/dev/null 2>&1; then
    				osname=news_os
    			fi
    			$rm -f UU/kernel.what
    		elif test -d c:/. -o -n "$is_os2" ; then
    			set X $myuname
    			osname=os2
    			osvers="$5"
    		fi
    	fi
    
            case "$targetarch" in
            '') ;;
            *)  hostarch=$osname
                case "$targetarch" in
                    nto*|*-nto-*)
                        # Will load qnx.sh, which should change osname to nto
                        osname=qnx
                        osvers=''
                        ;;
                    *linux-android*)
                        # Catch arm-linux-androideabi, mipsel-linux-android,
                        # and i686-linux-android
                        osname=linux-android
                        osvers=''
                        ;;
                    *linux*)
                        # Something like arm-linux-gnueabihf is really just
                        # plain linux.
                        osname=linux
                        osvers=''
                        ;;
                    *solaris*|*sunos*)
                        osname=solaris
                        # XXX perhaps we should just assume
                        # osvers to be 2, or maybe take the value
                        # from targetarch. Using $run before the
                        # hints are run is somewhat icky.
                        set X `$run $uname -a 2>/dev/null`
                        shift
                        case "$3" in
                            5*) osvers=`echo $3 | $sed 's/^5/2/g'` ;;
                            *)  osvers="$3" ;;
                        esac
                        ;;
                    *)
    		    osname=`echo $targetarch|sed 's,^[^-]*-,,'`
    		    osvers=''
                    ;;
                esac
                ;;
            esac
    
    	: Now look for a hint file osname_osvers, unless one has been
    	: specified already.
    	case "$hintfile" in
    	''|' ')
    		file=`echo "${osname}_${osvers}" | $sed -e 's%\.%_%g' -e 's%_$%%'`
    		: Also try without trailing minor version numbers.
    		xfile=`echo $file | $sed -e 's%_[^_]*$%%'`
    		xxfile=`echo $xfile | $sed -e 's%_[^_]*$%%'`
    		xxxfile=`echo $xxfile | $sed -e 's%_[^_]*$%%'`
    		xxxxfile=`echo $xxxfile | $sed -e 's%_[^_]*$%%'`
    		case "$file" in
    		'') dflt=none ;;
    		*)  case "$osvers" in
    			'') dflt=$file
    				;;
    			*)  if $test -f $src/hints/$file.sh ; then
    					dflt=$file
    				elif $test -f $src/hints/$xfile.sh ; then
    					dflt=$xfile
    				elif $test -f $src/hints/$xxfile.sh ; then
    					dflt=$xxfile
    				elif $test -f $src/hints/$xxxfile.sh ; then
    					dflt=$xxxfile
    				elif $test -f $src/hints/$xxxxfile.sh ; then
    					dflt=$xxxxfile
    				elif $test -f "$src/hints/${osname}.sh" ; then
    					dflt="${osname}"
    				else
    					dflt=none
    				fi
    				;;
    			esac
    			;;
    		esac
    		if $test -f Policy.sh ; then
    			case "$dflt" in
    			*Policy*) ;;
    			none) dflt="Policy" ;;
    			*) dflt="Policy $dflt" ;;
    			esac
    		fi
    		;;
    	*)
    		dflt=`echo $hintfile | $sed 's/\.sh$//'`
    		;;
    	esac
    
    	if $test -f Policy.sh ; then
    		$cat <<EOM
    
    There's also a Policy hint file available, which should make the
    site-specific (policy) questions easier to answer.
    EOM
    
    	fi
    
    	$cat <<EOM
    
    You may give one or more space-separated answers, or "none" if appropriate.
    If you have a handcrafted Policy.sh file or a Policy.sh file generated by a
    previous run of Configure, you may specify it as well as or instead of
    OS-specific hints.  If hints are provided for your OS, you should use them:
    although Perl can probably be built without hints on many platforms, using
    hints often improve performance and may enable features that Configure can't
    set up on its own. If there are no hints that match your OS, specify "none";
    DO NOT give a wrong version or a wrong OS.
    
    EOM
    
    	rp="Which of these apply, if any?"
    	. UU/myread
    	tans=$ans
    	for file in $tans; do
    		if $test X$file = XPolicy -a -f Policy.sh; then
    			. Policy.sh
    			$cat Policy.sh >> UU/config.sh
    		elif $test -f $src/hints/$file.sh; then
    			. $src/hints/$file.sh
    			$cat $src/hints/$file.sh >> UU/config.sh
    		elif $test X"$tans" = X -o X"$tans" = Xnone ; then
    			: nothing
    		else
    			: Give one chance to correct a possible typo.
    			echo "$file.sh does not exist"
    			dflt=$file
    			rp="hint to use instead?"
    			. UU/myread
    			for file in $ans; do
    				if $test -f "$src/hints/$file.sh"; then
    					. $src/hints/$file.sh
    					$cat $src/hints/$file.sh >> UU/config.sh
    				elif $test X$ans = X -o X$ans = Xnone ; then
    					: nothing
    				else
    					echo "$file.sh does not exist -- ignored."
    				fi
    			done
    		fi
    	done
    
    	hint=recommended
    	: Remember our hint file for later.
    	if $test -f "$src/hints/$file.sh" ; then
    		hintfile="$file"
    	else
    		hintfile=''
    	fi
    fi
    cd UU
    ;;
    *)
    	echo " "
    	echo "Fetching default answers from $config_sh..." >&4
    	tmp_n="$n"
    	tmp_c="$c"
    	cd ..
    	cp $config_sh config.sh 2>/dev/null
    	chmod +w config.sh
    	. ./config.sh
    	cd UU
    	cp ../config.sh .
    	n="$tmp_n"
    	c="$tmp_c"
    	hint=previous
    	;;
    esac
    . ./optdef.sh
    
    : Restore computed paths
    for file in $loclist $trylist; do
    	eval $file="\$_$file"
    done
    
    cat << EOM
    
    Configure uses the operating system name and version to set some defaults.
    The default value is probably right if the name rings a bell. Otherwise,
    since spelling matters for me, either accept the default or answer "none"
    to leave it blank.
    
    EOM
    case "$osname" in
    	''|' ')
    		case "$hintfile" in
    		''|' '|none) dflt=none ;;
    		*)  dflt=`echo $hintfile | $sed -e 's/\.sh$//' -e 's/_.*$//'` ;;
    		esac
    		;;
    	*) dflt="$osname" ;;
    esac
    rp="Operating system name?"
    . ./myread
    case "$ans" in
    none)  osname='' ;;
    *) osname=`echo "$ans" | $sed -e 's/[ 	][	]*/_/g' | ./tr '[A-Z]' '[a-z]'`;;
    esac
    echo " "
    case "$osvers" in
    	''|' ')
    		case "$hintfile" in
    		''|' '|none) dflt=none ;;
    		*)	dflt=`echo $hintfile | $sed -e 's/\.sh$//' -e 's/^[^_]*//'`
    			dflt=`echo $dflt | $sed -e 's/^_//' -e 's/_/./g'`
    			case "$dflt" in
    			''|' ') dflt=none ;;
    			esac
    			;;
    		esac
    		;;
    	*) dflt="$osvers" ;;
    esac
    rp="Operating system version?"
    . ./myread
    case "$ans" in
    none)  osvers='' ;;
    *) osvers="$ans" ;;
    esac
    
    
    . ./posthint.sh
    
    : who configured the system
    cf_time=`LC_ALL=C; LANGUAGE=C; export LC_ALL; export LANGUAGE; $date 2>&1`
    case "$cf_by" in
    "")
    	cf_by=`(logname) 2>/dev/null`
    	case "$cf_by" in
    	"")
    		cf_by=`(whoami) 2>/dev/null`
    		case "$cf_by" in
    		"") cf_by=unknown ;;
    		esac ;;
    	esac ;;
    esac
    
    : decide how portable to be.  Allow command line overrides.
    case "$d_portable" in
    "$undef") ;;
    *)	d_portable="$define" ;;
    esac
    
    : set up shell script to do ~ expansion
    cat >filexp <<EOSS
    $startsh
    : expand filename
    case "\$1" in
     \~/*|\~)
    	echo \$1 | $sed "s|~|\${HOME-\$LOGDIR}|"
    	;;
     \~*)
    	if $test -f /bin/csh; then
    		/bin/csh -f -c "glob \$1"
    		failed=\$?
    		echo ""
    		exit \$failed
    	else
    		name=\`$expr x\$1 : '..\([^/]*\)'\`
    		dir=\`$sed -n -e "/^\${name}:/{s/^[^:]*:[^:]*:[^:]*:[^:]*:[^:]*:\([^:]*\).*"'\$'"/\1/" -e p -e q -e '}' </etc/passwd\`
    		if $test ! -d "\$dir"; then
    			me=\`basename \$0\`
    			echo "\$me: can't locate home directory for: \$name" >&2
    			exit 1
    		fi
    		case "\$1" in
    		*/*)
    			echo \$dir/\`$expr x\$1 : '..[^/]*/\(.*\)'\`
    			;;
    		*)
    			echo \$dir
    			;;
    		esac
    	fi
    	;;
    *)
    	echo \$1
    	;;
    esac
    EOSS
    chmod +x filexp
    $eunicefix filexp
    
    : now set up to get a file name
    cat <<EOS >getfile
    $startsh
    EOS
    cat <<'EOSC' >>getfile
    tilde=''
    fullpath=''
    already=''
    skip=''
    none_ok=''
    exp_file=''
    nopath_ok=''
    orig_rp="$rp"
    orig_dflt="$dflt"
    case "$gfpth" in
    '') gfpth='.' ;;
    esac
    
    case "$fn" in
    *\(*)
    	: getfile will accept an answer from the comma-separated list
    	: enclosed in parentheses even if it does not meet other criteria.
    	expr "$fn" : '.*(\(.*\)).*' | $tr ',' $trnl >getfile.ok
    	fn=`echo $fn | sed 's/(.*)//'`
    	;;
    esac
    
    case "$fn" in
    *:*)
    	loc_file=`expr $fn : '.*:\(.*\)'`
    	fn=`expr $fn : '\(.*\):.*'`
    	;;
    esac
    
    case "$fn" in
    *~*) tilde=true;;
    esac
    case "$fn" in
    */*) fullpath=true;;
    esac
    case "$fn" in
    *+*) skip=true;;
    esac
    case "$fn" in
    *n*) none_ok=true;;
    esac
    case "$fn" in
    *e*) exp_file=true;;
    esac
    case "$fn" in
    *p*) nopath_ok=true;;
    esac
    
    case "$fn" in
    *f*) type='File';;
    *d*) type='Directory';;
    *l*) type='Locate';;
    esac
    
    what="$type"
    case "$what" in
    Locate) what='File';;
    esac
    
    case "$exp_file" in
    '')
    	case "$d_portable" in
    	"$define") ;;
    	*) exp_file=true;;
    	esac
    	;;
    esac
    
    cd ..
    while test "$type"; do
    	redo=''
    	rp="$orig_rp"
    	dflt="$orig_dflt"
    	case "$tilde" in
    	true) rp="$rp (~name ok)";;
    	esac
    	. UU/myread
    	if test -f UU/getfile.ok && \
    		$contains "^$ans\$" UU/getfile.ok >/dev/null 2>&1
    	then
    		value="$ans"
    		ansexp="$ans"
    		break
    	fi
    	case "$ans" in
    	none)
    		value=''
    		ansexp=''
    		case "$none_ok" in
    		true) type='';;
    		esac
    		;;
    	*)
    		case "$tilde" in
    		'') value="$ans"
    			ansexp="$ans";;
    		*)
    			value=`UU/filexp $ans`
    			case $? in
    			0)
    				if test "$ans" != "$value"; then
    					echo "(That expands to $value on this system.)"
    				fi
    				;;
    			*) value="$ans";;
    			esac
    			ansexp="$value"
    			case "$exp_file" in
    			'') value="$ans";;
    			esac
    			;;
    		esac
    		case "$fullpath" in
    		true)
    			case "$ansexp" in
    			/*) value="$ansexp" ;;
    			[a-zA-Z]:/*) value="$ansexp" ;;
    			*)
    				redo=true
    				case "$already" in
    				true)
    				echo "I shall only accept a full path name, as in /bin/ls." >&4
    				echo "Use a ! shell escape if you wish to check pathnames." >&4
    					;;
    				*)
    				echo "Please give a full path name, starting with slash." >&4
    					case "$tilde" in
    					true)
    				echo "Note that using ~name is ok provided it expands well." >&4
    						already=true
    						;;
    					esac
    				esac
    				;;
    			esac
    			;;
    		esac
    		case "$redo" in
    		'')
    			case "$type" in
    			File)
    				for fp in $gfpth; do
    					if test "X$fp" = X.; then
    					    pf="$ansexp"
    					else    
    					    pf="$fp/$ansexp"
    					fi
    					if test -f "$pf"; then
    						type=''
    					elif test -r "$pf" || (test -h "$pf") >/dev/null 2>&1
    					then
    						echo "($value is not a plain file, but that's ok.)"
    						type=''
    					fi
    					if test X"$type" = X; then
    					    value="$pf"
    					    break
    					fi
    				done
    				;;
    			Directory)
    				for fp in $gfpth; do
    					if test "X$fp" = X.; then
    					    dir="$ans"
    					    direxp="$ansexp"
    					else    
    					    dir="$fp/$ansexp"
    					    direxp="$fp/$ansexp"
    					fi
    					if test -d "$direxp"; then
    						type=''
    						value="$dir"
    						break
    					fi
    				done
    				;;
    			Locate)
    				if test -d "$ansexp"; then
    					echo "(Looking for $loc_file in directory $value.)"
    					value="$value/$loc_file"
    					ansexp="$ansexp/$loc_file"
    				fi
    				if test -f "$ansexp"; then
    					type=''
    				fi
    				case "$nopath_ok" in
    				true)	case "$value" in
    					*/*) ;;
    					*)	echo "Assuming $value will be in people's path."
    						type=''
    						;;
    					esac
    					;;
    				esac
    				;;
    			esac
    
    			case "$skip" in
    			true) type='';
    			esac
    
    			case "$type" in
    			'') ;;
    			*)
    				if test "$fastread" = yes; then
    					dflt=y
    				else
    					dflt=n
    				fi
    				rp="$what $value doesn't exist.  Use that name anyway?"
    				. UU/myread
    				dflt=''
    				case "$ans" in
    				y*) type='';;
    				*) echo " ";;
    				esac
    				;;
    			esac
    			;;
    		esac
    		;;
    	esac
    done
    cd UU
    ans="$value"
    rp="$orig_rp"
    dflt="$orig_dflt"
    rm -f getfile.ok
    test "X$gfpthkeep" != Xy && gfpth=""
    EOSC
    
    : determine root of directory hierarchy where package will be installed.
    case "$prefix" in
    '')	dflt=`./loc . /usr/local /usr/local /local /opt /usr`
    	;;
    *)	dflt="$prefix"
    	;;
    esac
    $cat <<EOM
    
    By default, $package will be installed in $dflt/bin, manual pages
    under $dflt/man, etc..., i.e. with $dflt as prefix for all
    installation directories. Typically this is something like /usr/local.
    If you wish to have binaries under /usr/bin but other parts of the
    installation under /usr/local, that's ok: you will be prompted
    separately for each of the installation directories, the prefix being
    only used to set the defaults.
    
    EOM
    fn=d~
    rp='Installation prefix to use?'
    . ./getfile
    oldprefix=''
    case "$prefix" in
    '')	;;
    *)	case "$ans" in
    	"$prefix") ;;
    	*) oldprefix="$prefix";;
    	esac
    	;;
    esac
    
    case "$ans" in
    *?/)	prefix=`echo "$ans" | sed 's/.$//'`
    	;;
    *)	prefix="$ans"
    esac
    
    case "$ansexp" in
    *?/)	prefixexp=`echo "$ansexp" | sed 's/.$//'`
    	;;
    *)	prefixexp="$ansexp"
    esac
    
    : allow them to override the AFS root
    case "$afsroot" in
    '')	afsroot=/afs ;;
    *)	afsroot=$afsroot ;;
    esac
    
    : is AFS running?
    echo " "
    case "$afs" in
    $define|true)	afs=true ;;
    $undef|false)	afs=false ;;
    *)	if $test -d $afsroot; then
    		afs=true
    	else
    		afs=false
    	fi
    	;;
    esac
    if $afs; then
    	echo "AFS may be running... I'll be extra cautious then..." >&4
    else
    	echo "AFS does not seem to be running..." >&4
    fi
    
    : determine installation prefix for where package is to be installed.
    if $afs; then
    $cat <<EOM
    
    Since you are running AFS, I need to distinguish the directory in which
    files will reside from the directory in which they are installed (and from
    which they are presumably copied to the former directory by occult means).
    
    EOM
    	case "$installprefix" in
    	'') dflt=`echo $prefix | sed 's#^/afs/#/afs/.#'`;;
    	*) dflt="$installprefix";;
    	esac
    else
    $cat <<EOM
    
    In some special cases, particularly when building $package for distribution,
    it is convenient to distinguish the directory in which files should be
    installed from the directory ($prefix) in which they will
    eventually reside.  For most users, these two directories are the same.
    
    EOM
    	case "$installprefix" in
    	'') dflt=$prefix ;;
    	*) dflt=$installprefix;;
    	esac
    fi
    fn=d~
    rp='What installation prefix should I use for installing files?'
    . ./getfile
    installprefix="$ans"
    installprefixexp="$ansexp"
    
    : Perform the prefixexp/installprefixexp correction if necessary
    cat <<EOS >installprefix
    $startsh
    EOS
    cat <<'EOSC' >>installprefix
    : Change installation prefix, if necessary.
    if $test X"$prefix" != X"$installprefix"; then
        eval "install${prefixvar}=\`echo \$${prefixvar}exp | sed \"s#^\$prefixexp#\$installprefixexp#\"\`"
    else
        eval "install${prefixvar}=\"\$${prefixvar}exp\""
    fi
    EOSC
    chmod +x installprefix
    $eunicefix installprefix
    
    : Set variables such as privlib and privlibexp from the output of ./getfile
    : performing the prefixexp/installprefixexp correction if necessary.
    cat <<EOS >setprefixvar
    $startsh
    EOS
    cat <<'EOSC' >>setprefixvar
    eval "${prefixvar}=\"\$ans\""
    eval "${prefixvar}exp=\"\$ansexp\""
    . ./installprefix
    EOSC
    chmod +x setprefixvar
    $eunicefix setprefixvar
    
    : set up the script used to warn in case of inconsistency
    cat <<EOS >whoa
    $startsh
    EOS
    cat <<'EOSC' >>whoa
    dflt=y
    case "$hint" in
        recommended)
    	case "$hintfile" in
    	'')	echo "The $hint value for \$$var on this machine was \"$was\"!" >&4
    		;;
    	*)	echo "Hmm.  Based on the hints in hints/$hintfile.sh, " >&4
    		echo "the $hint value for \$$var on this machine was \"$was\"!" >&4
    		;;
    	esac
    	;;
        *)	echo " "
    	echo "*** WHOA THERE!!! ***" >&4
    	echo "    The $hint value for \$$var on this machine was \"$was\"!" >&4
    	;;
    esac
    rp="    Keep the $hint value?"
    . ./myread
    case "$ans" in
    y) td=$was; tu=$was;;
    esac
    EOSC
    
    : function used to set '$1' to '$val'
    setvar='var=$1; eval "was=\$$1"; td=$define; tu=$undef;
    case "$val$was" in
    $define$undef) . ./whoa; eval "$var=\$td";;
    $undef$define) . ./whoa; eval "$var=\$tu";;
    *) eval "$var=$val";;
    esac'
    
    : Do we want threads support and if so, what type
    case "$usethreads" in
    $define|true|[yY]*)     dflt='y';;
    *)     # Catch case where user specified ithreads but
           # forgot -Dusethreads (A.D. 4/2002)
           case "$useithreads" in
           *$define*)	dflt='y';;
           *)		dflt='n';;
           esac
           ;;
    esac
    cat <<EOM
    
    Perl can be built to offer a form of threading support on some systems
    To do so, Configure can be run with -Dusethreads.
    
    Note that Perl built with threading support runs slightly slower
    and uses slightly more memory than plain Perl.
    
    If this doesn't make any sense to you, just accept the default '$dflt'.
    EOM
    rp='Build a threading Perl?'
    . ./myread
    case "$ans" in
    y|Y)    val="$define" ;;
    *)      val="$undef" ;;
    esac
    set usethreads
    eval $setvar
    
    useithreads="$usethreads"
    
    case "$d_oldpthreads" in
    '')	: Configure tests would be welcome here.  For now, assume undef.
    	val="$undef" ;;
    *)	val="$d_oldpthreads" ;;
    esac
    set d_oldpthreads
    eval $setvar
    
    
    : Look for a hint-file generated 'call-back-unit'.  If the
    : user has specified that a threading perl is to be built,
    : we may need to set or change some other defaults.
    if $test -f usethreads.cbu; then
        echo "Your platform has some specific hints regarding threaded builds, using them..."
        . ./usethreads.cbu
    else
        case "$usethreads" in
    	"$define"|true|[yY]*)
    		$cat <<EOM
    (Your platform does not have any specific hints for threaded builds.
     Assuming POSIX threads, then.)
    EOM
    	;;
        esac
    fi
    
    : Check if multiplicity is required
    cat <<EOM
    
    Perl can be built so that multiple Perl interpreters can coexist
    within the same Perl executable.
    EOM
    
    case "$useithreads" in
    $define)
    	cat <<EOM
    This multiple interpreter support is required for interpreter-based threads.
    EOM
    	val="$define"
    	;;
    *)	case "$usemultiplicity" in
    	$define|true|[yY]*)	dflt='y';;
    	*) dflt='n';;
    	esac
    	echo " "
    	echo "If this doesn't make any sense to you, just accept the default '$dflt'."
    	rp='Build Perl for multiplicity?'
    	. ./myread
    	case "$ans" in
    	y|Y)	val="$define" ;;
    	*)      val="$undef" ;;
    	esac
    	;;
    esac
    set usemultiplicity
    eval $setvar
    
    : Check if morebits is requested
    case "$usemorebits" in
    "$define"|true|[yY]*)
    	use64bitint="$define"
    	uselongdouble="$define"
    	usemorebits="$define"
    	;;
    *)	usemorebits="$undef"
    	;;
    esac
    
    : Determine the C compiler to be used
    echo " "
    case "$cc" in
    '') dflt=cc;;
    *) dflt="$cc";;
    esac
    rp="Use which C compiler?"
    . ./myread
    cc="$ans"
    
    : See whether they have no cc but they do have gcc
    . ./trygcc
    if $test -f cc.cbu; then
        . ./cc.cbu
    fi
    . ./checkcc
    
    : make some quick guesses about what we are up against
    echo " "
    $echo $n "Hmm...  $c"
    echo exit 1 >bsd
    echo exit 1 >usg
    echo exit 1 >v7
    echo exit 1 >osf1
    echo exit 1 >eunice
    echo exit 1 >xenix
    echo exit 1 >venix
    echo exit 1 >os2
    d_bsd="$undef"
    $cat $sysroot/usr/include/signal.h $sysroot/usr/include/sys/signal.h >foo 2>/dev/null
    if test -f /osf_boot || $contains 'OSF/1' $sysroot/usr/include/ctype.h >/dev/null 2>&1
    then
    	echo "Looks kind of like an OSF/1 system, but we'll see..."
    	echo exit 0 >osf1
    elif test `echo abc | $tr a-z A-Z` = Abc ; then
    	xxx=`./loc addbib blurfl $pth`
    	if $test -f $xxx; then
    	echo "Looks kind of like a USG system with BSD features, but we'll see..."
    		echo exit 0 >bsd
    		echo exit 0 >usg
    	else
    		if $contains SIGTSTP foo >/dev/null 2>&1 ; then
    			echo "Looks kind of like an extended USG system, but we'll see..."
    		else
    			echo "Looks kind of like a USG system, but we'll see..."
    		fi
    		echo exit 0 >usg
    	fi
    elif $contains SIGTSTP foo >/dev/null 2>&1 ; then
    	echo "Looks kind of like a BSD system, but we'll see..."
    	d_bsd="$define"
    	echo exit 0 >bsd
    else
    	echo "Looks kind of like a Version 7 system, but we'll see..."
    	echo exit 0 >v7
    fi
    case "$eunicefix" in
    *unixtovms*)
    	$cat <<'EOI'
    There is, however, a strange, musty smell in the air that reminds me of
    something...hmm...yes...I've got it...there's a VMS nearby, or I'm a Blit.
    EOI
    	echo exit 0 >eunice
    	d_eunice="$define"
    : it so happens the Eunice I know will not run shell scripts in Unix format
    	;;
    *)
    	echo " "
    	echo "Congratulations.  You aren't running Eunice."
    	d_eunice="$undef"
    	;;
    esac
    : Detect OS2.  The p_ variable is set above in the Head.U unit.
    : Note that this also -- wrongly -- detects e.g. dos-djgpp, which also uses
    : semicolon as a patch separator
    case "$p_" in
    :) ;;
    *)
    	$cat <<'EOI'
    I have the feeling something is not exactly right, however...don't tell me...
    lemme think...does HAL ring a bell?...no, of course, you're only running OS/2!
    (Or you may be running DOS with DJGPP.)
    EOI
    	echo exit 0 >os2
    	;;
    esac
    if test -f /xenix; then
    	echo "Actually, this looks more like a XENIX system..."
    	echo exit 0 >xenix
    	d_xenix="$define"
    else
    	echo " "
    	echo "It's not Xenix..."
    	d_xenix="$undef"
    fi
    chmod +x xenix
    $eunicefix xenix
    if test -f /venix; then
    	echo "Actually, this looks more like a VENIX system..."
    	echo exit 0 >venix
    else
    	echo " "
    	if ./xenix; then
    		: null
    	else
    		echo "Nor is it Venix..."
    	fi
    fi
    chmod +x bsd usg v7 osf1 eunice xenix venix os2
    $eunicefix bsd usg v7 osf1 eunice xenix venix os2
    $rm -f foo
    
    : Check if we are using GNU gcc and what its version is
    echo " "
    echo "Checking for GNU cc in disguise and/or its version number..." >&4
    $cat >try.c <<EOM
    #include <stdio.h>
    int main() {
    #if defined(__GNUC__) && !defined(__INTEL_COMPILER)
    #ifdef __VERSION__
    	printf("%s\n", __VERSION__);
    #else
    	printf("%s\n", "1");
    #endif
    #endif
    	return(0);
    }
    EOM
    if $cc -o try $ccflags $ldflags try.c; then
    	gccversion=`$run ./try`
    	case "$gccversion" in
    	'') echo "You are not using GNU cc." ;;
    	*)  echo "You are using GNU cc $gccversion."
    	    ccname=gcc
    	    ;;
    	esac
    else
    	echo " "
    	echo "*** WHOA THERE!!! ***" >&4
    	echo "    Your C compiler \"$cc\" doesn't seem to be working!" >&4
    	case "$knowitall" in
    	'')
    	echo "    You'd better start hunting for one and let me know about it." >&4
    		exit 1
    		;;
    	esac
    fi
    $rm -f try try.*
    case "$gccversion" in
    1.*) cpp=`./loc gcc-cpp $cpp $pth` ;;
    esac
    case "$gccversion" in
    '') gccosandvers='' ;;
    *) gccshortvers=`echo "$gccversion"|sed 's/ .*//'`
       gccosandvers=`$cc -v 2>&1|grep '/specs$'|sed "s!.*/[^-/]*-[^-/]*-\([^-/]*\)/$gccshortvers/specs!\1!"`
       gccshortvers=''
       case "$gccosandvers" in
       $osname) gccosandvers='' ;; # linux gccs seem to have no linux osvers, grr
       $osname$osvers) ;; # looking good
       $osname*) cat <<EOM >&4
    
    *** WHOA THERE!!! ***
    
        Your gcc has not been compiled for the exact release of
        your operating system ($gccosandvers versus $osname$osvers).
    
        In general it is a good idea to keep gcc synchronized with
        the operating system because otherwise serious problems
        may ensue when trying to compile software, like Perl.
    
        I'm trying to be optimistic here, though, and will continue.
        If later during the configuration and build icky compilation
        problems appear (headerfile conflicts being the most common
        manifestation), I suggest reinstalling the gcc to match
        your operating system release.
    
    EOM
          ;;
       *) gccosandvers='' ;; # failed to parse, better be silent
       esac
       ;;
    esac
    case "$ccname" in
    '') ccname="$cc" ;;
    esac
    
    # gcc 3.* complain about adding -Idirectories that they already know about,
    # so we will take those off from locincpth.
    case "$gccversion" in
    3.*)
        echo "main(){}">try.c
        for incdir in $locincpth; do
           warn=`$cc $ccflags -I$incdir -c try.c 2>&1 | \
    	     grep '^c[cp]p*[01]: warning: changing search order '`
           if test "X$warn" != X; then
    	   locincpth=`echo " $locincpth " | sed "s! $incdir ! !"`
           fi
        done
        $rm -f try try.*
    esac
    
    # gcc 4.9 by default does some optimizations that break perl.
    # see ticket 121505.
    #
    # The -fwrapv disables those optimizations (and probably others,) so
    # for gcc 4.9 (and later, since the optimizations probably won't go
    # away), add -fwrapv unless the user requests -fno-wrapv, which
    # disables -fwrapv, or if the user requests -fsanitize=undefined,
    # which turns the overflows -fwrapv ignores into runtime errors.
    case "$gccversion" in
    4.[3-9].*|4.[1-9][0-9]*|[5-9].*|[1-9][0-9]*)
        case "$ccflags" in
        *-fno-wrapv*|*-fsanitize=undefined*|*-fwrapv*) ;;
        *) ccflags="$ccflags -fwrapv" ;;
        esac
    esac
    
    # Really old versions of gcc default to C89 and will error for this code.
    # See if the compiler (gcc or otherwise) needs a flag to compile C99 code
    # Initialisations in for loops seem to be the particular problem
    # (Does this syntax conflict with something else that was valid C89?)
    # We also add a declaration after a statement to detect whether the compiler
    # (or the user supplied -Accflags) consider such declarations to be errors.
    # This causes 'Configure with -Accflags="-Werror=declaration-after-statement"'
    # to fail hard and early.
    #
    # Annoyingly -std=c99 will cause gcc to tell glibc not to define prototypes for
    # syscall, drand48 etc when including <unistd.h>, which messes up our build.
    # I guess we *could* loop round trying -std=c99 first with checks both for the
    # prototype found and the code compiling (because -std=gnu99 might do other
    # things we don't want, particularly on non-GCC compilers) but
    # 1) We would need to check for the prototype first (without any flags)
    # 2) We would still end up with most Linux systems either being -std=gnu99
    #    or "" (no flag), and so both common options would not rigorously check our
    #    portability to other platforms.
    # So it doesn't seem worth the complexity and chance of different failure.
    $cat >try.c <<'EOCP'
    int main(int argc, char **argv) {
        argc = argc + 1;
        /* This is deliberately a declaration after a statement. */
        unsigned long long count = 0;
        for (char **p = argv; *p; ++p) {
            ++count;
        }
        return count == 1 ? 0 : argc;
    }
    EOCP
    c99_for=no
    for flag in '' '-std=gnu99' '-std=c99'; do
        if $cc -o try $flag $ccflags $ldflags try.c 2>/dev/null && ./try; then
            c99_for="$flag"
            break;
        fi
    done
    case "$c99_for" in
    '') echo "Your C compiler doesn't need any special flags to compile C99 code"
        ;;
    no) echo >&4 "Your C compiler doesn't seem to be able to compile C99 code"
        rp='Do you really want to continue?'
        dflt='n'
        . ./myread
        case "$ans" in
    	[yY])	echo >&4 "Okay, continuing."	;;
    	*)	exit 1				;;
        esac
        ;;
    *)  echo "Your C compiler needs $c99_for to compile C99 code"
        ccflags="$c99_for $ccflags"
        ;;
    esac
    $rm -f try try.*
    
    : What should the include directory be ?
    : Use sysroot if set, so findhdr looks in the right place.
    echo " "
    $echo $n "Hmm...  $c"
    dflt="$sysroot/usr/include"
    incpath=''
    mips_type=''
    if $test -f /bin/mips && /bin/mips; then
    	echo "Looks like a MIPS system..."
    	$cat >usr.c <<'EOCP'
    #ifdef SYSTYPE_BSD43
    /bsd43
    #endif
    EOCP
    	if $cc $cppflags -E usr.c > usr.out && $contains / usr.out >/dev/null 2>&1; then
    		dflt='/bsd43/usr/include'
    		incpath='/bsd43'
    		mips_type='BSD 4.3'
    	else
    		mips_type='System V'
    	fi
    	$rm -f usr.c usr.out
    	echo "and you're compiling with the $mips_type compiler and libraries."
    	xxx_prompt=y
    	echo "exit 0" >mips
    else
    	echo "Doesn't look like a MIPS system."
    	xxx_prompt=n
    	echo "exit 1" >mips
    fi
    chmod +x mips
    $eunicefix mips
    case "$usrinc" in
    '') ;;
    *) dflt="$usrinc";;
    esac
    case "$xxx_prompt" in
    y)	fn=d/
    	echo " "
    	rp='Where are the include files you want to use?'
    	. ./getfile
    	usrinc="$ans"
    	;;
    *)	usrinc="$dflt"
    	;;
    esac
    
    : see how we invoke the C preprocessor
    echo " "
    echo "Now, how can we feed standard input to your C preprocessor..." >&4
    cat <<'EOT' >testcpp.c
    #define ABC abc
    #define XYZ xyz
    ABC.XYZ
    EOT
    cd ..
    if test ! -f cppstdin; then
    	if test "X$osname" = "Xaix" -a "X$gccversion" = X; then
    		# AIX cc -E doesn't show the absolute headerfile
    		# locations but we'll cheat by using the -M flag.
    		echo 'cat >.$$.c; rm -f .$$.u; '"$cc"' ${1+"$@"} -M -c .$$.c 2>/dev/null; test -s .$$.u && awk '"'"'$2 ~ /\.h$/ { print "# 0 \""$2"\"" }'"'"' .$$.u; rm -f .$$.o .$$.u; '"$cc"' -E ${1+"$@"} .$$.c; rm .$$.c' > cppstdin
    	else
    		echo 'cat >.$$.c; '"$cc $cppflags"' -E ${1+"$@"} .$$.c; rm .$$.c' >cppstdin
    	fi
    else
    	echo "Keeping your $hint cppstdin wrapper."
    fi
    chmod 755 cppstdin
    wrapper=`pwd`/cppstdin
    ok='false'
    cd UU
    
    if $test "X$cppstdin" != "X" && \
    	$cppstdin $cppminus <testcpp.c >testcpp.out 2>&1 && \
    	$contains 'abc.*xyz' testcpp.out >/dev/null 2>&1
    then
    	echo "You used to use $cppstdin $cppminus so we'll use that again."
    	case "$cpprun" in
    	'') echo "But let's see if we can live without a wrapper..." ;;
    	*)
    		if $cpprun $cpplast <testcpp.c >testcpp.out 2>&1 && \
    			$contains 'abc.*xyz' testcpp.out >/dev/null 2>&1
    		then
    			echo "(And we'll use $cpprun $cpplast to preprocess directly.)"
    			ok='true'
    		else
    			echo "(However, $cpprun $cpplast does not work, let's see...)"
    		fi
    		;;
    	esac
    else
    	case "$cppstdin" in
    	'') ;;
    	*)
    		echo "Good old $cppstdin $cppminus does not seem to be of any help..."
    		;;
    	esac
    fi
    
    if $ok; then
    	: nothing
    elif echo 'Maybe "'"$cc"' -E" will work...'; \
    	$cc -E <testcpp.c >testcpp.out 2>&1; \
    	$contains 'abc.*xyz' testcpp.out >/dev/null 2>&1 ; then
    	echo "Yup, it does."
    	x_cpp="$cc $cppflags -E"
    	x_minus='';
    elif echo 'Nope...maybe "'"$cc"' -E -" will work...'; \
    	$cc -E - <testcpp.c >testcpp.out 2>&1; \
    	$contains 'abc.*xyz' testcpp.out >/dev/null 2>&1 ; then
    	echo "Yup, it does."
    	x_cpp="$cc $cppflags -E"
    	x_minus='-';
    elif echo 'Nope...maybe "'"$cc"' -P" will work...'; \
    	$cc -P <testcpp.c >testcpp.out 2>&1; \
    	$contains 'abc.*xyz' testcpp.out >/dev/null 2>&1 ; then
    	echo "Yipee, that works!"
    	x_cpp="$cc $cppflags -P"
    	x_minus='';
    elif echo 'Nope...maybe "'"$cc"' -P -" will work...'; \
    	$cc -P - <testcpp.c >testcpp.out 2>&1; \
    	$contains 'abc.*xyz' testcpp.out >/dev/null 2>&1 ; then
    	echo "At long last!"
    	x_cpp="$cc $cppflags -P"
    	x_minus='-';
    elif echo 'No such luck, maybe "'$cpp'" will work...'; \
    	$cpp <testcpp.c >testcpp.out 2>&1; \
    	$contains 'abc.*xyz' testcpp.out >/dev/null 2>&1 ; then
    	echo "It works!"
    	x_cpp="$cpp $cppflags"
    	x_minus='';
    elif echo 'Nixed again...maybe "'$cpp' -" will work...'; \
    	$cpp - <testcpp.c >testcpp.out 2>&1; \
    	$contains 'abc.*xyz' testcpp.out >/dev/null 2>&1 ; then
    	echo "Hooray, it works!  I was beginning to wonder."
    	x_cpp="$cpp $cppflags"
    	x_minus='-';
    elif echo 'Uh-uh.  Time to get fancy.  Trying a wrapper...'; \
    	$wrapper <testcpp.c >testcpp.out 2>&1; \
    	$contains 'abc.*xyz' testcpp.out >/dev/null 2>&1 ; then
    	x_cpp="$wrapper"
    	x_minus=''
    	echo "Eureka!"
    else
    	dflt=''
    	rp="No dice.  I can't find a C preprocessor.  Name one:"
    	. ./myread
    	x_cpp="$ans"
    	x_minus=''
    	$x_cpp <testcpp.c >testcpp.out 2>&1
    	if $contains 'abc.*xyz' testcpp.out >/dev/null 2>&1 ; then
    		echo "OK, that will do." >&4
    	else
    echo "Sorry, I can't get that to work.  Go find one and rerun Configure." >&4
    		exit 1
    	fi
    fi
    
    case "$ok" in
    false)
    	cppstdin="$x_cpp"
    	cppminus="$x_minus"
    	cpprun="$x_cpp"
    	cpplast="$x_minus"
    	set X $x_cpp
    	shift
    	case "$1" in
    	"$cpp")
    		echo "Perhaps can we force $cc -E using a wrapper..."
    		if $wrapper <testcpp.c >testcpp.out 2>&1; \
    			$contains 'abc.*xyz' testcpp.out >/dev/null 2>&1
    		then
    			echo "Yup, we can."
    			cppstdin="$wrapper"
    			cppminus='';
    		else
    			echo "Nope, we'll have to live without it..."
    		fi
    		;;
    	esac
    	case "$cpprun" in
    	"$wrapper")
    		cpprun=''
    		cpplast=''
    		;;
    	esac
    	;;
    esac
    
    case "$cppstdin" in
    "$wrapper"|'cppstdin') ;;
    *) $rm -f $wrapper;;
    esac
    $rm -f testcpp.c testcpp.out
    
    : Adjust cppfilter for path component separator
    case "$osname" in
    vos) cppfilter="tr '\\\\>' '/' |" ;; # path component separator is >
    os2) cppfilter="sed -e 's|\\\\\\\\|/|g' |" ;; # path component separator is \
    *)   cppfilter='' ;;
    esac
    
    : Use gcc to determine libpth and incpth
    # If using gcc or clang, we can get better values for libpth, incpth
    # and usrinc directly from the compiler.
    # Note that ccname for clang is also gcc.
    case "$ccname" in
        gcc)
    	realpath=`which realpath 2>/dev/null | sed 's/no realpath in.*//'`
    	$echo 'extern int foo;' > try.c
    	set X `$cppstdin -v try.c 2>&1 | $awk '/^#include </,/^End of search /'|$cppfilter $grep '/include'`
    	shift
    	inclibpth=""
    	if $test $# -gt 0; then
    	    for i in $*; do
    		case $realpath in
    		    */realpath) i=`$realpath $i` ;;
    		esac
    		incpth="$incpth $i"
    		j="`$echo $i | $sed 's,/include[^/]*,/lib,'`"
    		if $test -d $j; then
    		    inclibpth="$inclibpth $j"
    		fi
    	    done
    	    incpth="`$echo $incpth | $sed 's/^ //'`"
    	    for xxx in $inclibpth $loclibpth $plibpth $glibpth; do
    		if $test -d $xxx; then
    		    case $realpath in
    			*/realpath) xxx=`$realpath $xxx` ;;
    		    esac
    		    case " $libpth " in
    		    *" $xxx "*) ;;
    		    *) libpth="$libpth $xxx";;
    		    esac
    		fi
    	    done
    	    libpth="`$echo $libpth | $sed 's/^ //'`"
    	fi
    	$rm -f try.c
    	case "$usrinc" in
    	'') for i in $incpth; do
    		if $test -f $i/errno.h -a -f $i/stdio.h -a -f $i/time.h; then
    		    usrinc="$i"
    		    break
    		fi
    	    done
    	    ;;
    	esac
    
    	case "$usecrosscompile" in
    	$define|true|[yY]*)
    	    case "$incpth" in
    		'') echo "Incpth not defined." >&4; croak=y ;;
    		*)  echo "Using incpth '$incpth'." >&4 ;;
    	    esac
    	    case "$libpth" in
    		'') echo "Libpth not defined." >&4; croak=y ;;
    		*)  echo "Using libpth '$libpth'." >&4 ;;
    	    esac
    	    case "$usrinc" in
    		'') echo "Usrinc not defined." >&4; croak=y ;;
    		*)  echo "Using usrinc $usrinc." >&4 ;;
    	    esac
    	    case "$croak" in
    		y)
    		if test "X$sysroot" = X; then
    		    echo "Cannot continue, aborting." >&4; exit 1
    		else
    		    echo "Cross-compiling using sysroot $sysroot, failing to guess inc/lib paths is not fatal" >&4
    		fi
    		;;
    	    esac
    	    ;;
    	esac
        ;;
    esac
    
    : Default value for incpth is just usrinc
    case "$incpth" in
    '') incpth="$usrinc";;
    esac
    
    : Set private lib path
    case "$plibpth" in
    '') if ./mips; then
    	plibpth="$incpath/usr/lib $sysroot/usr/local/lib $sysroot/usr/ccs/lib"
        fi;;
    esac
    case "$libpth" in
    ' ') dlist='';;
    '') dlist="$loclibpth $plibpth $glibpth";;
    *) dlist="$libpth";;
    esac
    
    : Now check and see which directories actually exist, avoiding duplicates
    for xxx in $dlist
    do
        if $test -d $xxx; then
    		case " $libpth " in
    		*" $xxx "*) ;;
    		*) libpth="$libpth $xxx";;
    		esac
        fi
    done
    $cat <<'EOM'
    
    Some systems have incompatible or broken versions of libraries.  Among
    the directories listed in the question below, please remove any you
    know not to be holding relevant libraries, and add any that are needed.
    Say "none" for none.
    
    EOM
    
    if test "X$sysroot" != X; then
        $cat <<EOM
    You have set sysroot to $sysroot, please supply the directories excluding sysroot
    
    EOM
    fi
    
    case "$libpth" in
    '') dflt='none';;
    *)
    	set X $libpth
    	shift
    	dflt=${1+"$@"}
    	;;
    esac
    rp="Directories to use for library searches?"
    . ./myread
    case "$ans" in
    none) libpth=' ';;
    *) libpth="$ans";;
    esac
    
    : compute shared library extension
    case "$so" in
    '')
    	if xxx=`./loc libc.sl X $libpth`; $test -f "$xxx"; then
    		dflt='sl'
    	else
    		dflt='so'
    	fi
    	;;
    *) dflt="$so";;
    esac
    $cat <<EOM
    
    On some systems, shared libraries may be available.  Answer 'none' if
    you want to suppress searching of shared libraries for the remainder
    of this configuration.
    
    EOM
    rp='What is the file extension used for shared libraries?'
    . ./myread
    so="$ans"
    
    : Does target system insist that shared library basenames are unique
    $cat << EOM
    
    Some dynamic loaders assume that the *basename* of shared library filenames
    are globally unique.  We'll default this to undef as we assume your system
    is not this weird. Set to defined if you're on one of them.
    
    EOM
    
    dflt='n'
    rp='Make shared library basenames unique?'
    . ./myread
    case "$ans" in
    y|Y) val="$define" ;;
    *)   val="$undef"  ;;
    esac
    set d_libname_unique
    eval $setvar
    
    : Define several unixisms.
    : Hints files or command line option can be used to override them.
    : The convoluted testing is in case hints files set either the old
    : or the new name.
    case "$_exe" in
    '')	case "$exe_ext" in
    	'')	;;
    	*)	_exe="$exe_ext" ;;
    	esac
    	;;
    esac
    case "$_a" in
    '')	case "$lib_ext" in
        '')	_a='.a';;
    	*)	_a="$lib_ext" ;;
    	esac
    	;;
    esac
    case "$_o" in
    '') case "$obj_ext" in
    	'')	_o='.o';;
    	*)	_o="$obj_ext";;
    	esac
    	;;
    esac
    case "$p_" in
    '') case "$path_sep" in
    	'')	p_=':';;
    	*)	p_="$path_sep";;
    	esac
    	;;
    esac
    exe_ext=$_exe
    lib_ext=$_a
    obj_ext=$_o
    path_sep=$p_
    
    rm_try="$rm -f try try$_exe a.out .out try.[cho] try.$_o core core.try* try.core*"
    
    : Which makefile gets called first.  This is used by make depend.
    case "$firstmakefile" in
    '') firstmakefile='makefile';;
    esac
    
    : Check is we will use socks
    case "$usesocks" in
    $define|true|[yY]*)	dflt='y';;
    *) dflt='n';;
    esac
    cat <<EOM
    
    Perl can be built to use the SOCKS proxy protocol library.  To do so,
    Configure must be run with -Dusesocks.  If you use SOCKS you also need
    to use the PerlIO abstraction layer, this will be implicitly selected.
    
    If this doesn't make any sense to you, just accept the default '$dflt'.
    EOM
    rp='Build Perl for SOCKS?'
    . ./myread
    case "$ans" in
    y|Y)	val="$define" ;;
    *)      val="$undef" ;;
    esac
    set usesocks
    eval $setvar
    
    : Check for uselongdouble support
    case "$ccflags" in
    *-DUSE_LONG_DOUBLE*|*-DUSE_MORE_BITS*) uselongdouble="$define" ;;
    esac
    
    case "$uselongdouble" in
    $define|true|[yY]*)	dflt='y';;
    *) dflt='n';;
    esac
    cat <<EOM
    
    Perl can be built to take advantage of long doubles which
    (if available) may give more accuracy and range for floating point numbers.
    
    If this doesn't make any sense to you, just accept the default '$dflt'.
    EOM
    rp='Try to use long doubles if available?'
    . ./myread
    case "$ans" in
    y|Y)	val="$define"	;;
    *)      val="$undef"	;;
    esac
    set uselongdouble
    eval $setvar
    
    case "$uselongdouble" in
    true|[yY]*) uselongdouble="$define" ;;
    esac
    
    : Look for a hint-file generated 'call-back-unit'.  If the
    : user has specified that long doubles should be used,
    : we may need to set or change some other defaults.
    if $test -f uselongdouble.cbu; then
        echo "Your platform has some specific hints regarding long doubles, using them..."
        . ./uselongdouble.cbu
    else
        case "$uselongdouble" in
    	$define)
    		$cat <<EOM
    (Your platform does not have any specific hints for long doubles.)
    EOM
    	;;
        esac
    fi
    
    : Check if quadmath is requested
    case "$usequadmath" in
    "$define"|true|[yY]*) usequadmath="$define" ;;
    *)                    usequadmath="$undef"  ;;
    esac
    
    : Fail if both uselongdouble and usequadmath are requested
    case "$usequadmath:$uselongdouble" in
    define:define)
    	$cat <<EOM >&4
    
    *** You requested the use of the quadmath library and use
    *** of long doubles.
    ***
    *** Please select one or the other.
    EOM
    	exit 1
    	;;
    esac
    
    : Looking for optional libraries
    echo " "
    echo "Checking for optional libraries..." >&4
    case "$libs" in
    ' '|'') dflt='';;
    *) dflt="$libs";;
    esac
    case "$libswanted" in
    '') libswanted='c_s';;
    esac
    case "$usesocks" in
    "$define") libswanted="$libswanted socks5 socks5_sh" ;;
    esac
    case "$usecbacktrace" in
    "$define") libswanted="$libswanted bfd" ;;
    esac
    case "$usequadmath" in
    "$define") libswanted="$libswanted quadmath" ;;
    esac
    libsfound=''
    libsfiles=''
    libsdirs=''
    libspath=''
    for thisdir in $libpth $xlibpth; do
      test -d $thisdir && libspath="$libspath $thisdir"
    done
    for thislib in $libswanted; do
    	for thisdir in $libspath; do
    	    xxx=''
    	    if $test ! -f "$xxx" -a "X$ignore_versioned_solibs" = "X"; then
    		xxx=`ls $thisdir/lib$thislib.$so.[0-9] 2>/dev/null|sed -n '$p'`
    	        $test -f "$xxx" && eval $libscheck
    		$test -f "$xxx" && libstyle=shared
    		xxx=`ls $thisdir/lib$thislib.[0-9].$so 2>/dev/null|sed -n '$p'`
    	        $test -f "$xxx" && eval $libscheck
    		$test -f "$xxx" && libstyle=shared
    	    fi
    	    if test ! -f "$xxx"; then
    		xxx=$thisdir/lib$thislib.$so
    	        $test -f "$xxx" && eval $libscheck
    		$test -f "$xxx" && libstyle=shared
    	    fi
    	    if test ! -f "$xxx"; then
    		xxx=$thisdir/lib$thislib$_a
    	        $test -f "$xxx" && eval $libscheck
    		$test -f "$xxx" && libstyle=static
    	    fi
    	    if test ! -f "$xxx"; then
    		xxx=$thisdir/$thislib$_a
    	        $test -f "$xxx" && eval $libscheck
    		$test -f "$xxx" && libstyle=static
    	    fi
    	    if test ! -f "$xxx"; then
    		xxx=$thisdir/lib${thislib}_s$_a
    	        $test -f "$xxx" && eval $libscheck
    		$test -f "$xxx" && libstyle=static
    		$test -f "$xxx" && thislib=${thislib}_s
    	    fi
    	    if test ! -f "$xxx"; then
    		xxx=$thisdir/Slib$thislib$_a
    	        $test -f "$xxx" && eval $libscheck
    		$test -f "$xxx" && libstyle=static
    	    fi
    	    if $test -f "$xxx"; then
    		case "$libstyle" in
    		shared) echo "Found -l$thislib (shared)." ;;
    		static) echo "Found -l$thislib." ;;
    		*)      echo "Found -l$thislib ($libstyle)." ;;
    		esac
    		case " $dflt " in
    		*"-l$thislib "*);;
    		*) dflt="$dflt -l$thislib"
                       libsfound="$libsfound $xxx"
                       yyy=`basename $xxx`
                       libsfiles="$libsfiles $yyy"
                       yyy=`echo $xxx|$sed -e "s%/$yyy\\$%%"`
                       case " $libsdirs " in
                       *" $yyy "*) ;;
                       *) libsdirs="$libsdirs $yyy" ;;
                       esac
    		   ;;
    		esac
    		break
    	    fi
    	done
    	if $test ! -f "$xxx"; then
    	    echo "No -l$thislib."
    	fi
    done
    set X $dflt
    shift
    dflt="$*"
    case "$libs" in
    '') dflt="$dflt";;
    *) dflt="$libs";;
    esac
    case "$dflt" in
    ' '|'') dflt='none';;
    esac
    
    $cat <<EOM
    
    In order to compile $package on your machine, a number of libraries
    are usually needed.  Include any other special libraries here as well.
    Say "none" for none.  The default list is almost always right.
    EOM
    
    echo " "
    rp="What libraries to use?"
    . ./myread
    case "$ans" in
    none) libs=' ';;
    *) libs="$ans";;
    esac
    
    : determine optimization, if desired, or use for debug flag also
    case "$optimize" in
    ' '|$undef) dflt='none';;
    '') dflt='-O';;
    *) dflt="$optimize";;
    esac
    $cat <<EOH
    
    By default, $package compiles with the -O flag to use the optimizer.
    Alternately, you might want to use the symbolic debugger, which uses
    the -g flag (on traditional Unix systems).  Either flag can be
    specified here.  To use neither flag, specify the word "none".
    
    EOH
    rp="What optimizer/debugger flag should be used?"
    . ./myread
    optimize="$ans"
    case "$optimize" in
    'none') optimize=" ";;
    esac
    
    : Check what DEBUGGING is required from the command line
    : -DEBUGGING      or -DDEBUGGING or
    : -DEBUGGING=both			= -g + -DDEBUGGING
    : -DEBUGGING=-g   or -Doptimize=-g	= -g
    : -DEBUGGING=none or -UDEBUGGING	=
    : -DEBUGGING=old  or -DEBUGGING=default	= ? $optimize
    case "$EBUGGING" in
    '')	;;
    *)	DEBUGGING=$EBUGGING ;;
    esac
    
    case "$DEBUGGING" in
    -g|both|$define)
        case "$optimize" in
    	*-g*) ;;
    	*)    optimize="$optimize -g" ;;
        esac ;;
    none|$undef)
        case "$optimize" in
    	*-g*)	set `echo "X $optimize " | sed 's/ -g / /'`
    		shift
    		optimize="$*"
    		;;
        esac ;;
    esac
    
    dflt=''
    case "$DEBUGGING" in
    both|$define) dflt='-DDEBUGGING'
    esac
    
    : argument order is deliberate, as the flag will start with - which set could
    : think is an option
    checkccflag='check=$1; flag=$2; callback=$3;
    echo " ";
    echo "Checking if your compiler accepts $flag" >&4;
    [ "X$sysroot" != "X" ] && echo "For sysroot = $sysroot";
    echo "int main(void) { return 0; }" > gcctest.c;
    if $cc $_sysroot -O2 $flag -o gcctest gcctest.c 2>gcctest.out && $run ./gcctest; then
        echo "Yes, it does." >&4;
        if $test -s gcctest.out ; then
            echo "But your platform does not like it:";
            cat gcctest.out;
        else
    	case "$ccflags" in
    	*$check*)
    	    echo "Leaving current flags $ccflags alone." >&4
    	    ;;
    	*) dflt="$dflt $flag";
    	    eval $callback
    	    ;;
    	esac
        fi
    else
        echo "Nope, it does not, but that is ok." >&4;
    fi
    '
    
    : We will not override a previous value, but we might want to
    : augment a hint file
    case "$hint" in
    default|recommended)
    	case "$gccversion" in
    	1.*) dflt="$dflt -fpcc-struct-return" ;;
    	esac
    	case "$optimize:$DEBUGGING" in
    	*-g*:old) dflt="$dflt -DDEBUGGING";;
    	esac
    	case "$gccversion" in
    	2.*) if $test -d /etc/conf/kconfig.d &&
    			$contains _POSIX_VERSION $usrinc/sys/unistd.h >/dev/null 2>&1
    		then
    			# Interactive Systems (ISC) POSIX mode.
    			dflt="$dflt -posix"
    		fi
    		;;
    	esac
    	case "$gccversion" in
    	1.*) ;;
    	2.[0-8]*) ;;
    	?*)	set strict-aliasing -fno-strict-aliasing
    		eval $checkccflag
    		;;
    	esac
    	case "$gccversion" in
    	1*) ;;
    	2*) ;;
    	?*) 	echo " "
    		echo "Checking if your compiler accepts -fno-delete-null-pointer-checks" 2>&1
    		echo 'int main(void) { return 0; }' > gcctest.c
    		if $cc -O2 -fno-delete-null-pointer-checks -o gcctest gcctest.c; then
    			echo "Yes, it does." 2>&1
    			case "$ccflags" in
    			*delete-null-pointer-checks*)
    				echo "Leaving current flags $ccflags alone." 2>&1
    				;;
    			*) dflt="$dflt -fno-delete-null-pointer-checks" ;;
    			esac
    		else
    			echo "Nope, it doesn't, but that's ok." 2>&1
    		fi
    		;;
    	esac
    	# For gcc, adding -pipe speeds up compilations for some, but apparently
    	# some assemblers can't read from stdin.  (It also slows down compilations
    	# in other cases, but those are apparently rarer these days.)  AD 5/2004.
    	case "$gccversion" in
    	?*)	set pipe -pipe
    		eval $checkccflag
    		;;
    	esac
    
    	# on x86_64 (at least) we require an extra library (libssp) in the
    	# link command line. This library is not named, so I infer that it is
    	# an implementation detail that may change. Hence the safest approach
    	# is to add the flag to the flags passed to the compiler at link time,
    	# as that way the compiler can do the right implementation dependant
    	# thing. (NWC)
    	case "$ccflags" in
    	*-fno-stack-protector*)
    	    echo "Do not add -fstack-protector nor -fstack-protector-strong" 2>&1
    	    ;;
    	*) case "$gccversion" in
    	   ?*)	set stack-protector-strong -fstack-protector-strong
    		eval $checkccflag
    		case "$dflt" in
    		*-fstack-protector-strong*) ;; # It got added.
    		*) # Try the plain/older -fstack-protector.
    		   set stack-protector -fstack-protector
    		   eval $checkccflag
    		   ;;
    		esac
    		;;
    	    esac
    	    ;;
    	esac
    esac
    
    case "$mips_type" in
    *BSD*|'') inclwanted="$locincpth $usrinc";;
    *) inclwanted="$locincpth $inclwanted $usrinc/bsd";;
    esac
    for thisincl in $inclwanted; do
    	if $test -d $thisincl; then
    		if $test x$thisincl != x$usrinc; then
    			case "$dflt" in
    			*" -I$thisincl "*);;
    			*) dflt="$dflt -I$thisincl ";;
    			esac
    		fi
    	fi
    done
    
    inctest='if $contains $2 $usrinc/$1 >/dev/null 2>&1; then
    	xxx=true;
    elif $contains $2 $usrinc/sys/$1 >/dev/null 2>&1; then
    	xxx=true;
    else
    	xxx=false;
    fi;
    if $xxx; then
    	case "$dflt" in
    	*$2*);;
    	*) dflt="$dflt -D$2";;
    	esac;
    fi'
    
    set signal.h LANGUAGE_C; eval $inctest
    
    case "$usesocks" in
    $define)
    	ccflags="$ccflags -DSOCKS"
    	;;
    esac
    
    case "$hint" in
    default|recommended) dflt="$ccflags $dflt" ;;
    *) dflt="$ccflags";;
    esac
    
    case "$dflt" in
    ''|' ') dflt=none;;
    esac
    
    $cat <<EOH
    
    Your C compiler may want other flags.  For this question you should include
    -I/whatever and -DWHATEVER flags and any other flags used by the C compiler,
    but you should NOT include libraries or ld flags like -lwhatever.  If you
    want $package to honor its debug switch, you should include -DDEBUGGING here.
    Your C compiler might also need additional flags, such as -D_POSIX_SOURCE.
    
    To use no flags, specify the word "none".
    
    EOH
    set X $dflt
    shift
    dflt=${1+"$@"}
    rp="Any additional cc flags?"
    . ./myread
    case "$ans" in
    none) ccflags='';;
    *) ccflags="$ans";;
    esac
    
    : the following weeds options from ccflags that are of no interest to cpp
    case "$cppflags" in
    '') cppflags="$ccflags" ;;
    *)  set X $ccflags; shift
        case " $cppflags " in
        *" $1 "*) ;;  # Try to avoid doubling the cppflags.
        *) cppflags="$cppflags $ccflags" ;;
        esac
        ;;
    esac
    case "$gccversion" in
    1.*) cppflags="$cppflags -D__GNUC__"
    esac
    case "$mips_type" in
    '');;
    *BSD*) cppflags="$cppflags -DSYSTYPE_BSD43";;
    esac
    case "$cppflags" in
    '');;
    *)
    	echo " "
    	echo "Let me guess what the preprocessor flags are..." >&4
    	set X $cppflags
    	shift
    	cppflags=''
    	$cat >cpp.c <<'EOM'
    #define BLURFL foo
    
    BLURFL xx LFRULB
    EOM
    	previous=''
    	for flag in $*
    	do
    		case "$flag" in
    		-*) ftry="$flag";;
    		*) ftry="$previous $flag";;
    		esac
    		if $cppstdin -DLFRULB=bar $cppflags $ftry $cppminus <cpp.c \
    			>cpp1.out 2>/dev/null && \
    			$cpprun -DLFRULB=bar $cppflags $ftry $cpplast <cpp.c \
    			>cpp2.out 2>/dev/null && \
    			$contains 'foo.*xx.*bar' cpp1.out >/dev/null 2>&1 && \
    			$contains 'foo.*xx.*bar' cpp2.out >/dev/null 2>&1
    		then
    			cppflags="$cppflags $ftry"
    			previous=''
    		else
    			previous="$flag"
    		fi
    	done
    	set X $cppflags
    	shift
    	cppflags=${1+"$@"}
    	case "$cppflags" in
    	*-*)  echo "They appear to be: $cppflags";;
    	esac
    	$rm -f cpp.c cpp?.out
    	;;
    esac
    
    : flags used in final linking phase
    case "$ldflags" in
    '') if ./venix; then
    		dflt='-i -z'
    	else
    		dflt=''
    	fi
    	case "$ccflags" in
    	*-posix*) dflt="$dflt -posix" ;;
    	esac
    	;;
    *) dflt="$ldflags";;
    esac
    # See note above about -fstack-protector
    case "$ccflags" in
    *-fstack-protector-strong*)
    	case "$dflt" in
    	*-fstack-protector-strong*) ;; # Don't add it again
    	*) dflt="$dflt -fstack-protector-strong" ;;
    	esac
    	;;
    *-fstack-protector*)
    	case "$dflt" in
    	*-fstack-protector*) ;; # Don't add it again
    	*) dflt="$dflt -fstack-protector" ;;
    	esac
    	;;
    esac
    
    : Try to guess additional flags to pick up local libraries.
    for thislibdir in $libpth; do
    	case " $loclibpth " in
    	*" $thislibdir "*)
    		case "$dflt " in
    		*"-L$thislibdir "*) ;;
    		*)  dflt="$dflt -L$thislibdir" ;;
    		esac
    		;;
    	esac
    done
    
    case "$dflt" in
    '') dflt='none' ;;
    esac
    
    $cat <<EOH
    
    Your C linker may need flags.  For this question you should
    include -L/whatever and any other flags used by the C linker, but you
    should NOT include libraries like -lwhatever.
    
    Make sure you include the appropriate -L/path flags if your C linker
    does not normally search all of the directories you specified above,
    namely
    	$libpth
    To use no flags, specify the word "none".
    
    EOH
    
    rp="Any additional ld flags (NOT including libraries)?"
    . ./myread
    case "$ans" in
    none) ldflags='';;
    *) ldflags="$ans";;
    esac
    rmlist="$rmlist pdp11"
    
    : coherency check
    echo " "
    echo "Checking your choice of C compiler and flags for coherency..." >&4
    $cat > try.c <<'EOF'
    #include <stdio.h>
    int main() { printf("Ok\n"); return(0); }
    EOF
    set X $cc -o try $optimize $ccflags $ldflags try.c $libs
    shift
    $cat >try.msg <<'EOM'
    I've tried to compile and run the following simple program:
    
    EOM
    $cat try.c >> try.msg
    
    $cat >> try.msg <<EOM
    
    I used the command:
    
    	$*
    	$run ./try
    
    and I got the following output:
    
    EOM
    dflt=y
    if $sh -c "$cc -o try $optimize $ccflags $ldflags try.c $libs" >>try.msg 2>&1; then
    	if $sh -c "$run ./try " >>try.msg 2>&1; then
    		xxx=`$run ./try`
    		case "$xxx" in
    		"Ok") dflt=n ;;
    		*)    echo 'The program compiled OK, but produced no output.' >> try.msg ;;
    		esac
    	else
    		echo "The program compiled OK, but exited with status $?." >>try.msg
    		rp="You have a problem.  Shall I abort Configure"
    		dflt=y
    	fi
    else
    	echo "I can't compile the test program." >>try.msg
    	rp="You have a BIG problem.  Shall I abort Configure"
    	dflt=y
    fi
    case "$dflt" in
    y)
    	$cat try.msg >&4
    	case "$knowitall" in
    	'')
    		echo "(The supplied flags or libraries might be incorrect.)"
    		;;
    	*) dflt=n;;
    	esac
    	echo " "
    	. ./myread
    	case "$ans" in
    	n*|N*) ;;
    	*)	echo "Ok.  Stopping Configure." >&4
    		exit 1
    		;;
    	esac
    	;;
    n) echo "OK, that should do.";;
    esac
    $rm_try gcctest gcctest.out
    
    : define a shorthand compile call
    compile='
    mc_file=$1;
    shift;
    case "$usedevel" in $define|true|[yY]*) if $test ! -f "${mc_file}.c"; then
    echo "Internal Configure script bug - compiler test file ${mc_file}.c is missing. Please report this to https://github.com/Perl/perl5/issues" >&4;
    exit 1;
    fi;
    esac;
    $cc -o ${mc_file} $optimize $ccflags $ldflags $* ${mc_file}.c $libs > /dev/null 2>&1;'
    : define a shorthand compile call for compilations that should be ok.
    compile_ok='
    mc_file=$1;
    shift;
    $cc -o ${mc_file} $optimize $ccflags $ldflags $* ${mc_file}.c $libs > /dev/null 2>&1;'
    
    : stub, used only to satisfy other units
    i_stdlib='define'
    
    : check for lengths of integral types
    echo " "
    case "$intsize" in
    '')
    	echo "Checking to see how big your integers are..." >&4
    	$cat >try.c <<EOCP
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    int main()
    {
    	printf("intsize=%d;\n", (int)sizeof(int));
    	printf("longsize=%d;\n", (int)sizeof(long));
    	printf("shortsize=%d;\n", (int)sizeof(short));
    	exit(0);
    }
    EOCP
    	set try
    	if eval $compile_ok && $run ./try > /dev/null; then
    		eval `$run ./try`
    		echo "Your integers are $intsize bytes long."
    		echo "Your long integers are $longsize bytes long."
    		echo "Your short integers are $shortsize bytes long."
    	else
    		$cat >&4 <<EOM
    !
    Help! I can't compile and run the intsize test program: please enlighten me!
    (This is probably a misconfiguration in your system or libraries, and
    you really ought to fix it.  Still, I'll try anyway.)
    !
    EOM
    		dflt=4
    		rp="What is the size of an integer (in bytes)?"
    		. ./myread
    		intsize="$ans"
    		dflt=$intsize
    		rp="What is the size of a long integer (in bytes)?"
    		. ./myread
    		longsize="$ans"
    		dflt=2
    		rp="What is the size of a short integer (in bytes)?"
    		. ./myread
    		shortsize="$ans"
    	fi
    	;;
    esac
    $rm_try
    
    : check for long long
    echo " "
    echo "Checking to see if you have long long..." >&4
    echo 'int main() { long long x = 7; return 0; }' > try.c
    set try
    if eval $compile; then
    	val="$define"
    	echo "You have long long."
    else
    	val="$undef"
    	echo "You do not have long long."
    fi
    $rm_try
    set d_longlong
    eval $setvar
    
    : check for length of long long
    case "${d_longlong}${longlongsize}" in
    $define)
    	echo " "
    	echo "Checking to see how big your long longs are..." >&4
    	$cat >try.c <<'EOCP'
    #include <stdio.h>
    int main()
    {
        printf("%d\n", (int)sizeof(long long));
        return(0);
    }
    EOCP
    	set try
    	if eval $compile_ok; then
    		longlongsize=`$run ./try`
    		echo "Your long longs are $longlongsize bytes long."
    	else
    		dflt='8'
    		echo " "
    		echo "(I can't seem to compile the test program.  Guessing...)"
    		rp="What is the size of a long long (in bytes)?"
    		. ./myread
    		longlongsize="$ans"
    	fi
    	if $test "X$longsize" = "X$longlongsize"; then
    		echo "(That isn't any different from an ordinary long.)"
    	fi
    	;;
    esac
    $rm_try
    
    : determine filename position in cpp output
    echo " "
    echo "Computing filename position in cpp output for #include directives..." >&4
    case "$osname" in
    amigaos) fieldn=3 ;;  # Workaround for a bug in abc (pdksh).
    esac
    case "$fieldn" in
    '')
    case "$osname" in
    vos) testaccess=-e ;;
    *)   testaccess=-r ;;
    esac
    echo '#include <stdio.h>' > foo.c
    $cat >fieldn <<EOF
    $startsh
    $cppstdin $cppflags $cppminus <foo.c 2>/dev/null | \
    $grep '^[ 	]*#.*stdio\.h' | \
    while read cline; do
    	pos=1
    	set \$cline
    	while $test \$# -gt 0; do
    		if $test $testaccess \`echo \$1 | $tr -d '"'\`; then
    			echo "\$pos"
    			exit 0
    		fi
    		shift
    		pos=\`expr \$pos + 1\`
    	done
    done
    EOF
    chmod +x fieldn
    fieldn=`./fieldn`
    $rm -f foo.c fieldn
    ;;
    esac
    case $fieldn in
    '') pos='???';;
    1) pos=first;;
    2) pos=second;;
    3) pos=third;;
    *) pos="${fieldn}th";;
    esac
    echo "Your cpp writes the filename in the $pos field of the line."
    
    : locate header file
    $cat >findhdr <<EOF
    $startsh
    wanted=\$1
    name=''
    for usrincdir in $incpth
    do
    	if test -f \$usrincdir/\$wanted; then
    		echo "\$usrincdir/\$wanted"
    		exit 0
    	fi
    done
    awkprg='{ print \$$fieldn }'
    echo "#include <\$wanted>" > foo\$\$.c
    $cppstdin $cppminus $cppflags < foo\$\$.c 2>/dev/null | \
    $cppfilter $grep "^[ 	]*#.*\$wanted" | \
    while read cline; do
    	name=\`echo \$cline | $awk "\$awkprg" | $tr -d '"'\`
    	case "\$name" in
    	*[/\\\\]\$wanted) echo "\$name"; exit 1;;
    	*[\\\\/]\$wanted) echo "\$name"; exit 1;;
    	*) exit 2;;
    	esac;
    done;
    #
    # status = 0: grep returned 0 lines, case statement not executed
    # status = 1: headerfile found
    # status = 2: while loop executed, no headerfile found
    #
    status=\$?
    $rm -f foo\$\$.c;
    if test \$status -eq 1; then
    	exit 0;
    fi
    exit 1
    EOF
    chmod +x findhdr
    
    : define an alternate in-header-list? function
    inhdr='echo " "; td=$define; tu=$undef; yyy=$@;
    cont=true; xxf="echo \"<\$1> found.\" >&4";
    case $# in 2) xxnf="echo \"<\$1> NOT found.\" >&4";;
    *) xxnf="echo \"<\$1> NOT found, ...\" >&4";;
    esac;
    case $# in 4) instead=instead;; *) instead="at last";; esac;
    while $test "$cont"; do
    	xxx=`./findhdr $1`
    	var=$2; eval "was=\$$2";
    	if $test "$xxx" && $test -r "$xxx";
    	then eval $xxf;
    	eval "case \"\$$var\" in $undef) . ./whoa; esac"; eval "$var=\$td";
    		cont="";
    	else eval $xxnf;
    	eval "case \"\$$var\" in $define) . ./whoa; esac"; eval "$var=\$tu"; fi;
    	set $yyy; shift; shift; yyy=$@;
    	case $# in 0) cont="";;
    	2) xxf="echo \"but I found <\$1> $instead.\" >&4";
    		xxnf="echo \"and I did not find <\$1> either.\" >&4";;
    	*) xxf="echo \"but I found <\$1\> instead.\" >&4";
    		xxnf="echo \"there is no <\$1>, ...\" >&4";;
    	esac;
    done;
    while $test "$yyy";
    do set $yyy; var=$2; eval "was=\$$2";
    	eval "case \"\$$var\" in $define) . ./whoa; esac"; eval "$var=\$tu";
    	set $yyy; shift; shift; yyy=$@;
    done'
    
    : see if inttypes.h is available
    : we want a real compile instead of Inhdr because some systems
    : have an inttypes.h which includes non-existent headers
    echo " "
    $cat >try.c <<EOCP
    #include <inttypes.h>
    int main() {
    	static int32_t foo32 = 0x12345678;
    }
    EOCP
    set try
    if eval $compile; then
    	echo "<inttypes.h> found." >&4
    	val="$define"
    else
    	echo "<inttypes.h> NOT found." >&4
    	val="$undef"
    fi
    $rm_try
    set i_inttypes
    eval $setvar
    
    : check for int64_t
    echo " "
    echo "Checking to see if you have int64_t..." >&4
    $cat >try.c <<EOCP
    #include <sys/types.h>
    #$i_inttypes I_INTTYPES
    #ifdef I_INTTYPES
    #include <inttypes.h>
    #endif
    int main() { int64_t x = 7; }
    EOCP
    set try
    if eval $compile; then
    	val="$define"
    	echo "You have int64_t."
    else
    	val="$undef"
    	echo "You do not have int64_t."
    fi
    $rm_try
    set d_int64_t
    eval $setvar
    
    : Check if 64bit ints have a quad type
    echo " "
    echo "Checking which 64-bit integer type we could use..." >&4
    
    case "$intsize" in
    8) val=int
       set quadtype
       eval $setvar
       val='"unsigned int"'
       set uquadtype
       eval $setvar
       quadkind=1
       ;;
    *) case "$longsize" in
       8) val=long
          set quadtype
          eval $setvar
          val='"unsigned long"'
          set uquadtype
          eval $setvar
          quadkind=2
          ;;
       *) case "$d_longlong:$longlongsize" in
          define:8)
            val='"long long"'
            set quadtype
            eval $setvar
            val='"unsigned long long"'
            set uquadtype
            eval $setvar
            quadkind=3
            ;;
          *) case "$d_int64_t" in
             define)
               val=int64_t
               set quadtype
               eval $setvar
               val=uint64_t
               set uquadtype
               eval $setvar
               quadkind=4
               ;;
             esac
             ;;
          esac
          ;;
       esac
       ;;
    esac
    
    case "$quadtype" in
    '')	echo "Alas, no 64-bit integer types in sight." >&4
    	d_quad="$undef"
    	;;
    *)	echo "We could use '$quadtype' for 64-bit integers." >&4
    	d_quad="$define"
    	;;
    esac
    
    : Do we want 64bit support
    case "$uselonglong" in
    "$define"|true|[yY]*)
    	cat <<EOM >&4
    
    *** Configure -Duselonglong is deprecated, using -Duse64bitint instead.
    EOM
    	use64bitint="$define"
    	;;
    esac
    case "$use64bits" in
    "$define"|true|[yY]*)
    	cat <<EOM >&4
    
    *** Configure -Duse64bits is deprecated, using -Duse64bitint instead.
    EOM
    	use64bitint="$define"
    	;;
    esac
    case "$use64bitints" in
    "$define"|true|[yY]*)
    	cat <<EOM >&4
    
    *** There is no Configure -Duse64bitints, using -Duse64bitint instead.
    EOM
    	use64bitint="$define"
    	;;
    esac
    case "$use64bitsint" in
    "$define"|true|[yY]*)
    	cat <<EOM >&4
    
    *** There is no Configure -Duse64bitsint, using -Duse64bitint instead.
    EOM
    	use64bitint="$define"
    	;;
    esac
    case "$uselonglongs" in
    "$define"|true|[yY]*)
    	cat <<EOM >&4
    
    *** There is no Configure -Duselonglongs, using -Duse64bitint instead.
    EOM
    	use64bitint="$define"
    	;;
    esac
    case "$use64bitsall" in
    "$define"|true|[yY]*)
    	cat <<EOM >&4
    
    *** There is no Configure -Duse64bitsall, using -Duse64bitall instead.
    EOM
    	use64bitall="$define"
    	;;
    esac
    
    case "$ccflags" in
    *-DUSE_LONG_LONG*|*-DUSE_64_BIT_INT*|*-DUSE_64_BIT_ALL*) use64bitint="$define";;
    esac
    case "$use64bitall" in
    "$define"|true|[yY]*) use64bitint="$define" ;;
    esac
    
    case "$longsize" in
    8) cat <<EOM
    
    You have natively 64-bit long integers.
    EOM
       val="$define"
       ;;
    *) case "$use64bitint" in
       "$define"|true|[yY]*) dflt='y';;
       *) dflt='n';;
       esac
       case "$d_quad" in
       "$define") ;;
       *) dflt='n' ;;
       esac
       cat <<EOM
    
    Perl can be built to take advantage of 64-bit integer types
    on some systems.  To do so, Configure can be run with -Duse64bitint.
    Choosing this option will most probably introduce binary incompatibilities.
    
    If this doesn't make any sense to you, just accept the default '$dflt'.
    (The default has been chosen based on your configuration.)
    EOM
       rp='Try to use 64-bit integers, if available?'
       . ./myread
       case "$ans" in
       [yY]*) val="$define" ;;
       *)     val="$undef"  ;;
       esac
       ;;
    esac
    set use64bitint
    eval $setvar
    
    case "$use64bitall" in
    "$define"|true|[yY]*) dflt='y' ;;
    *) case "$longsize" in
       8) dflt='y' ;;
       *) dflt='n' ;;
       esac
       ;;
    esac
    cat <<EOM
    
    You may also choose to try maximal 64-bitness.  It means using as much
    64-bitness as possible on the platform.  This in turn means even more
    binary incompatibilities.  On the other hand, your platform may not
    have any more 64-bitness available than what you already have chosen.
    
    If this doesn't make any sense to you, just accept the default '$dflt'.
    (The default has been chosen based on your configuration.)
    EOM
    rp='Try to use maximal 64-bit support, if available?'
    . ./myread
    case "$ans" in
    [yY]*) val="$define" ;;
    *)     val="$undef"  ;;
    esac
    set use64bitall
    eval $setvar
    case "$use64bitall" in
    "$define")
    	case "$use64bitint" in
    	"$undef")
    		cat <<EOM
    
    Since you have chosen a maximally 64-bit build, I'm also turning on
    the use of 64-bit integers.
    EOM
    		use64bitint="$define" ;;
    	esac
    	;;
    esac
    
    : Look for a hint-file generated 'call-back-unit'.  If the
    : user has specified that a 64-bit perl is to be built,
    : we may need to set or change some other defaults.
    if $test -f use64bitint.cbu; then
    	echo "Your platform has some specific hints regarding 64-bit integers, using them..."
    	. ./use64bitint.cbu
    fi
    case "$use64bitint" in
    "$define"|true|[yY]*)
    	: This test was common to all the OpenBSD forks, and seems harmless for
    	: other platforms:
    	echo " "
    	echo "Checking if your C library has broken 64-bit functions..." >&4
    	cat >try.c <<EOCP
    #include <stdio.h>
    typedef $uquadtype myULL;
    int main (void)
    {
        struct {
    	double d;
    	myULL  u;
        } *p, test[] = {
    	{4294967303.15, 4294967303ULL},
    	{4294967294.2,  4294967294ULL},
    	{4294967295.7,  4294967295ULL},
    	{0.0, 0ULL}
        };
        for (p = test; p->u; p++) {
    	myULL x = (myULL)p->d;
    	if (x != p->u) {
    	    printf("buggy\n");
    	    return 0;
    	}
        }
        printf("ok\n");
        return 0;
    }
    EOCP
    	set try
    	if eval $compile_ok; then
    	    libcquad=`$run ./try`
    	    echo "Your C library's 64-bit functions are $libcquad."
    	else
    	    echo "(I can't seem to compile the test program.)"
    	    echo "Assuming that your C library's 64-bit functions are ok."
    	    libcquad="ok"
    	fi
    	$rm_try
    
    	case "$libcquad" in
    	    buggy*)
    		cat >&4 <<EOM
    
    *** You have a C library with broken 64-bit functions.
    *** 64-bit support does not work reliably in this configuration.
    *** Please rerun Configure without -Duse64bitint and/or -Dusemorebits.
    *** Cannot continue, aborting.
    
    EOM
    		exit 1
    		;;
    	esac
    	case "$longsize" in
    	4) case "$archname64" in
    	   '') archname64=64int ;;
    	   esac
    	   ;;
    	esac
    	;;
    esac
    
    : Look for a hint-file generated 'call-back-unit'.  If the
    : user has specified that a maximally 64-bit perl is to be built,
    : we may need to set or change some other defaults.
    if $test -f use64bitall.cbu; then
    	echo "Your platform has some specific hints regarding 64-bit builds, using them..."
    	. ./use64bitall.cbu
    fi
    case "$use64bitall" in
    "$define"|true|[yY]*)
    	case "$longsize" in
    	4) case "$archname64" in
    	   ''|64int) archname64=64all ;;
    	   esac
    	   ;;
    	esac
    	;;
    esac
    
    case "$d_quad:$use64bitint" in
    $undef:$define)
    	cat >&4 <<EOF
    
    *** You have chosen to use 64-bit integers,
    *** but none can be found.
    *** Please rerun Configure without -Duse64bitint and/or -Dusemorebits.
    *** Cannot continue, aborting.
    
    EOF
    	exit 1
    	;;
    esac
    
    : Check if we are using the GNU C library
    echo " "
    echo "Checking for GNU C Library..." >&4
    cat >try.c <<'EOCP'
    /* Find out version of GNU C library.  __GLIBC__ and __GLIBC_MINOR__
       alone are insufficient to distinguish different versions, such as
       2.0.6 and 2.0.7.  The function gnu_get_libc_version() appeared in
       libc version 2.1.0.      A. Dougherty,  June 3, 2002.
    */
    #include <stdio.h>
    int main(void)
    {
    #ifdef __GLIBC__
    #   ifdef __GLIBC_MINOR__
    #       if __GLIBC__ >= 2 && __GLIBC_MINOR__ >= 1 && !defined(__cplusplus)
    #           include <gnu/libc-version.h>
    	    printf("%s\n",  gnu_get_libc_version());
    #       else
    	    printf("%d.%d\n",  __GLIBC__, __GLIBC_MINOR__);
    #       endif
    #   else
    	printf("%d\n",  __GLIBC__);
    #   endif
        return 0;
    #else
        return 1;
    #endif
    }
    EOCP
    set try
    if eval $compile_ok && $run ./try > glibc.ver; then
    	val="$define"
    	gnulibc_version=`$cat glibc.ver`
    	echo "You are using the GNU C Library version $gnulibc_version"
    else
    	val="$undef"
    	gnulibc_version=''
    	echo "You are not using the GNU C Library"
    fi
    $rm_try glibc.ver
    set d_gnulibc
    eval $setvar
    
    : see if nm is to be used to determine whether a symbol is defined or not
    case "$usenm" in
    '')
    	dflt=''
    	case "$d_gnulibc" in
    	"$define")
    		echo " "
    		echo "nm probably won't work on the GNU C Library." >&4
    		dflt=n
    		;;
    	esac
    	case "$dflt" in
    	'')
    		if $test "$osname" = aix -a "X$PASE" != "Xdefine" -a ! -f /lib/syscalls.exp; then
    			echo " "
    			echo "Whoops!  This is an AIX system without /lib/syscalls.exp!" >&4
    			echo "'nm' won't be sufficient on this system." >&4
    			dflt=n
    		fi
    		;;
    	esac
    	case "$dflt" in
    	'') dflt=`$egrep 'inlibc|csym' $rsrc/Configure | wc -l 2>/dev/null`
    		if $test $dflt -gt 20; then
    			dflt=y
    		else
    			dflt=n
    		fi
    		;;
    	esac
    	;;
    *)
    	case "$usenm" in
    	true|$define) dflt=y;;
    	*) dflt=n;;
    	esac
    	;;
    esac
    $cat <<EOM
    
    I can use $nm to extract the symbols from your C libraries. This
    is a time consuming task which may generate huge output on the disk (up
    to 3 megabytes) but that should make the symbols extraction faster. The
    alternative is to skip the 'nm' extraction part and to compile a small
    test program instead to determine whether each symbol is present. If
    you have a fast C compiler and/or if your 'nm' output cannot be parsed,
    this may be the best solution.
    
    You probably shouldn't let me use 'nm' if you are using the GNU C Library.
    
    EOM
    rp="Shall I use $nm to extract C symbols from the libraries?"
    . ./myread
    case "$ans" in
    [Nn]*) usenm=false;;
    *) usenm=true;;
    esac
    
    runnm=$usenm
    case "$reuseval" in
    true) runnm=false;;
    esac
    
    : nm options which may be necessary
    case "$nm_opt" in
    '') if $test -f /mach_boot; then
    		nm_opt=''	# Mach
    	elif $test -d /usr/ccs/lib; then
    		nm_opt='-p'	# Solaris (and SunOS?)
    	elif $test -f /dgux; then
    		nm_opt='-p'	# DG-UX
    	elif $test -f /lib64/rld; then
    		nm_opt='-p'	# 64-bit Irix
    	else
    		nm_opt=''
    	fi;;
    esac
    
    : nm options which may be necessary for shared libraries but illegal
    : for archive libraries.  Thank you, Linux.
    case "$nm_so_opt" in
    '')	case "$myuname" in
    	*linux*|gnu*)
    		if $nm --help | $grep 'dynamic' > /dev/null 2>&1; then
    			nm_so_opt='--dynamic'
    		fi
    		;;
    	esac
    	;;
    esac
    
    : Figure out where the libc is located
    case "$runnm" in
    true)
    : get list of predefined functions in a handy place
    echo " "
    case "$libc" in
    '') libc=unknown
    	case "$libs" in
    	*-lc_s*) libc=`./loc libc_s$_a $libc $libpth`
    	esac
    	;;
    esac
    case "$libs" in
    '') ;;
    *)  for thislib in $libs; do
    	case "$thislib" in
    	-lc|-lc_s)
    		: Handle C library specially below.
    		;;
    	-l*)
    		thislib=`echo $thislib | $sed -e 's/^-l//'`
    		if try=`./loc lib$thislib.$so.'*' X $libpth`; $test -f "$try"; then
    			:
    		elif try=`./loc lib$thislib.$so X $libpth`; $test -f "$try"; then
    			:
    		elif try=`./loc lib$thislib$_a X $libpth`; $test -f "$try"; then
    			:
    		elif try=`./loc $thislib$_a X $libpth`; $test -f "$try"; then
    			:
    		elif try=`./loc lib$thislib X $libpth`; $test -f "$try"; then
    			:
    		elif try=`./loc $thislib X $libpth`; $test -f "$try"; then
    			:
    		elif try=`./loc Slib$thislib$_a X $xlibpth`; $test -f "$try"; then
    			:
    		else
    			try=''
    		fi
    		libnames="$libnames $try"
    		;;
    	*) libnames="$libnames $thislib" ;;
    	esac
    	done
    	;;
    esac
    xxx=normal
    case "$libc" in
    unknown)
    	set /lib/libc.$so
    	for xxx in $libpth; do
    		$test -r $1 || set $xxx/libc.$so
    		: The messy sed command sorts on library version numbers.
    		$test -r $1 || \
    			set `echo blurfl; echo $xxx/libc.$so.[0-9]* | \
    			tr ' ' $trnl | egrep -v '\.[A-Za-z]*$' | $sed -e '
    				h
    				s/[0-9][0-9]*/0000&/g
    				s/0*\([0-9][0-9][0-9][0-9][0-9]\)/\1/g
    				G
    				s/\n/ /' | \
    			 $sort | $sed -e 's/^.* //'`
    		eval set \$$#
    	done
    	$test -r $1 || set $sysroot/usr/ccs/lib/libc.$so
    	$test -r $1 || set $sysroot/lib/libsys_s$_a
    	;;
    *)
    	set blurfl
    	;;
    esac
    if $test -r "$1"; then
    	echo "Your (shared) C library seems to be in $1."
    	libc="$1"
    elif $test -r /lib/libc && $test -r /lib/clib; then
    	echo "Your C library seems to be in both /lib/clib and /lib/libc."
    	xxx=apollo
    	libc='/lib/clib /lib/libc'
    	if $test -r /lib/syslib; then
    		echo "(Your math library is in /lib/syslib.)"
    		libc="$libc /lib/syslib"
    	fi
    elif $test -r "$libc" || (test -h "$libc") >/dev/null 2>&1; then
    	echo "Your C library seems to be in $libc, as you said before."
    elif $test -r $incpath/usr/lib/libc$_a; then
    	libc=$incpath/usr/lib/libc$_a;
    	echo "Your C library seems to be in $libc.  That's fine."
    elif $test -r /lib/libc$_a; then
    	libc=/lib/libc$_a;
    	echo "Your C library seems to be in $libc.  You're normal."
    else
    	if tans=`./loc libc$_a blurfl/dyick $libpth`; $test -r "$tans"; then
    		:
    	elif tans=`./loc libc blurfl/dyick $libpth`; $test -r "$tans"; then
    		libnames="$libnames "`./loc clib blurfl/dyick $libpth`
    	elif tans=`./loc clib blurfl/dyick $libpth`; $test -r "$tans"; then
    		:
    	elif tans=`./loc Slibc$_a blurfl/dyick $xlibpth`; $test -r "$tans"; then
    		:
    	elif tans=`./loc Mlibc$_a blurfl/dyick $xlibpth`; $test -r "$tans"; then
    		:
    	else
    		tans=`./loc Llibc$_a blurfl/dyick $xlibpth`
    	fi
    	if $test -r "$tans"; then
    		echo "Your C library seems to be in $tans, of all places."
    		libc=$tans
    	else
    		libc='blurfl'
    	fi
    fi
    if $test $xxx = apollo -o -r "$libc" || (test -h "$libc") >/dev/null 2>&1; then
    	dflt="$libc"
    	cat <<EOM
    
    If the guess above is wrong (which it might be if you're using a strange
    compiler, or your machine supports multiple models), you can override it here.
    
    EOM
    else
    	dflt=''
    	echo $libpth | $tr ' ' $trnl | $sort | $uniq > libpath
    	cat >&4 <<EOM
    I can't seem to find your C library.  I've looked in the following places:
    
    EOM
    	$sed 's/^/	/' libpath
    	cat <<EOM
    
    None of these seems to contain your C library. I need to get its name...
    
    EOM
    fi
    fn=f
    rp='Where is your C library?'
    . ./getfile
    libc="$ans"
    
    echo " "
    echo $libc $libnames | $tr ' ' $trnl | $sort | $uniq > libnames
    set X `cat libnames`
    shift
    xxx=files
    case $# in 1) xxx=file; esac
    echo "Extracting names from the following $xxx for later perusal:" >&4
    echo " "
    $sed 's/^/	/' libnames >&4
    echo " "
    $echo $n "This may take a while...$c" >&4
    
    for file in $*; do
    	case $file in
    	*$so*) $nm $nm_so_opt $nm_opt $file 2>/dev/null;;
    	*) $nm $nm_opt $file 2>/dev/null;;
    	esac
    done >libc.tmp
    
    $echo $n ".$c"
    $grep fprintf libc.tmp > libc.ptf
    xscan='eval "<libc.ptf $com >libc.list"; $echo $n ".$c" >&4'
    xrun='eval "<libc.tmp $com >libc.list"; echo "done." >&4'
    xxx='[ADTSIWi]'
    if com="$sed -n -e 's/__IO//' -e 's/^.* $xxx  *//p'";\
    	eval $xscan;\
    	$contains '^fprintf$' libc.list >/dev/null 2>&1; then
    		eval $xrun
    elif com="$sed -n -e 's/^__*//' -e 's/^\([a-zA-Z_0-9$]*\).*xtern.*/\1/p'";\
    	eval $xscan;\
    	$contains '^fprintf$' libc.list >/dev/null 2>&1; then
    		eval $xrun
    elif com="$sed -n -e '/|UNDEF/d' -e '/FUNC..GL/s/^.*|__*//p'";\
    	eval $xscan;\
    	$contains '^fprintf$' libc.list >/dev/null 2>&1; then
    		eval $xrun
    elif com="$sed -n -e 's/^.* D __*//p' -e 's/^.* D //p'";\
    	eval $xscan;\
    	$contains '^fprintf$' libc.list >/dev/null 2>&1; then
    		eval $xrun
    elif com="$sed -n -e 's/^_//' -e 's/^\([a-zA-Z_0-9]*\).*xtern.*text.*/\1/p'";\
    	eval $xscan;\
    	$contains '^fprintf$' libc.list >/dev/null 2>&1; then
    		eval $xrun
    elif com="$sed -n -e 's/^.*|FUNC |GLOB .*|//p'";\
    	eval $xscan;\
    	$contains '^fprintf$' libc.list >/dev/null 2>&1; then
    		eval $xrun
    elif com="$grep '|' | $sed -n -e '/|COMMON/d' -e '/|DATA/d' \
    				-e '/ file/d' -e 's/^\([^ 	]*\).*/\1/p'";\
    	eval $xscan;\
    	$contains '^fprintf$' libc.list >/dev/null 2>&1; then
    		eval $xrun
    elif com="$sed -n -e 's/^.*|FUNC |GLOB .*|//p' -e 's/^.*|FUNC |WEAK .*|//p'";\
    	eval $xscan;\
    	$contains '^fprintf$' libc.list >/dev/null 2>&1; then
    		eval $xrun
    elif com="$sed -n -e 's/^__//' -e '/|Undef/d' -e '/|Proc/s/ .*//p'";\
    	eval $xscan;\
    	$contains '^fprintf$' libc.list >/dev/null 2>&1; then
    		eval $xrun
    elif com="$sed -n -e 's/^.*|Proc .*|Text *| *//p'";\
    	eval $xscan;\
    	$contains '^fprintf$' libc.list >/dev/null 2>&1; then
    		eval $xrun
    elif com="$sed -n -e '/Def. Text/s/.* \([^ ]*\)\$/\1/p'";\
    	eval $xscan;\
    	$contains '^fprintf$' libc.list >/dev/null 2>&1; then
    		eval $xrun
    elif com="$sed -n -e 's/^[-0-9a-f ]*_\(.*\)=.*/\1/p'";\
    	eval $xscan;\
    	$contains '^fprintf$' libc.list >/dev/null 2>&1; then
    		eval $xrun
    elif com="$sed -n -e 's/.*\.text n\ \ \ \.//p'";\
    	eval $xscan;\
    	$contains '^fprintf$' libc.list >/dev/null 2>&1; then
    		eval $xrun
    elif com="sed -n -e 's/^__.*//' -e 's/[       ]*D[    ]*[0-9]*.*//p'";\
    	eval $xscan;\
    	$contains '^fprintf$' libc.list >/dev/null 2>&1; then
    		eval $xrun
    else
    	$nm -p $* 2>/dev/null >libc.tmp
    	$grep fprintf libc.tmp > libc.ptf
    	if com="$sed -n -e 's/^.* [ADTSIW]  *_[_.]*//p' -e 's/^.* [ADTSIW] //p'";\
    		eval $xscan; $contains '^fprintf$' libc.list >/dev/null 2>&1
    	then
    		nm_opt='-p'
    		eval $xrun
    	else
    		echo " "
    		echo "$nm didn't seem to work right. Trying $ar instead..." >&4
    		com=''
    		if $ar t $libc > libc.tmp && \
    			$contains '^fprintf$' libc.tmp >/dev/null 2>&1
    		then
    			for thisname in $libnames $libc; do
    				$ar t $thisname >>libc.tmp
    			done
    			$sed -e "s/\\$_o\$//" < libc.tmp > libc.list
    			echo "Ok." >&4
    		elif test "X$osname" = "Xos2" && $ar tv $libc > libc.tmp; then
    			for thisname in $libnames $libc; do
    				$ar tv $thisname >>libc.tmp
    				emximp -o tmp.imp $thisname \
    				    2>/dev/null && \
    				    $sed -e 's/^\([_a-zA-Z0-9]*\) .*$/\1/p' \
    				    < tmp.imp >>libc.tmp
    				$rm -f tmp.imp
    			done
    			$sed -e "s/\\$_o\$//" -e 's/^ \+//' < libc.tmp > libc.list
    			echo "Ok." >&4
    		else
    			echo "$ar didn't seem to work right." >&4
    			echo "Maybe this is a Cray...trying bld instead..." >&4
    			if  bld t $libc | \
    				$sed -e 's/.*\///' -e "s/\\$_o:.*\$//" > libc.list &&
    				$test -s libc.list
    			then
    				for thisname in $libnames; do
    					bld t $libnames | \
    					$sed -e 's/.*\///' -e "s/\\$_o:.*\$//" >>libc.list
    					$ar t $thisname >>libc.tmp
    				done
    				echo "Ok." >&4
    			else
    				echo "That didn't work either.  Giving up." >&4
    				exit 1
    			fi
    		fi
    	fi
    fi
    nm_extract="$com"
    case "$PASE" in
    define)
        echo " "
        echo "Since you are compiling for PASE, extracting more symbols from libc.a ...">&4
        dump -Tv /lib/libc.a | awk '$7 == "/unix" {print $5 " " $8}' | grep "^SV" | awk '{print $2}' >> libc.list
        ;;
    *)  if $test -f /lib/syscalls.exp; then
    	echo " "
    	echo "Also extracting names from /lib/syscalls.exp for good ole AIX..." >&4
    	$sed -n 's/^\([^ 	]*\)[ 	]*syscall[0-9]*[ 	]*$/\1/p' \
    		/lib/syscalls.exp >>libc.list
        fi
        ;;
    esac
    ;;
    esac
    $rm -f libnames libpath
    
    : Check if we are using C++
    echo " "
    echo "Checking for C++..." >&4
    $cat >try.c <<'EOCP'
    #include <stdio.h>
    int main(void)
    {
    #ifdef __cplusplus
        return 0;
    #else
        return 1;
    #endif
    }
    EOCP
    set try
    if eval $compile_ok && $run ./try; then
    	val="$define"
    	echo "You are using a C++ compiler."
    else
    	val="$undef"
    	echo "You are not using a C++ compiler."
    fi
    $rm_try cplusplus$$
    set d_cplusplus
    eval $setvar
    
    : is a C symbol defined?
    csym='tlook=$1;
    case "$3" in
    -v) tf=libc.tmp; tdc="";;
    -a) tf=libc.tmp; tdc="[]";;
    *) tlook="^$1\$"; tf=libc.list; tdc="()";;
    esac;
    case "$d_cplusplus" in
        $define)	extern_C="extern \"C\""	;;
        *)		extern_C="extern"	;;
    esac;
    tx=yes;
    case "$reuseval-$4" in
    true-) ;;
    true-*) tx=no; eval "tval=\$$4"; case "$tval" in "") tx=yes;; esac;;
    esac;
    case "$tx" in
    yes)
    	tval=false;
    	if $test "$runnm" = true; then
    		if $contains $tlook $tf >/dev/null 2>&1; then
    			tval=true;
    		elif $test "$mistrustnm" = compile -o "$mistrustnm" = run; then
    			echo "$extern_C void *$1$tdc; void *(*(p()))$tdc { return &$1; } int main(int argc, char **argv) { if(p() && p() != (void *)argv[0]) return(0); else return(1); }"> try.c;
    			$cc -o try $optimize $ccflags $ldflags try.c >/dev/null 2>&1 $libs && tval=true;
    			$test "$mistrustnm" = run -a -x try && { $run ./try$_exe >/dev/null 2>&1 || tval=false; };
    			$rm_try;
    		fi;
    	else
    		echo "$extern_C void *$1$tdc; void *(*(p()))$tdc { return &$1; } int main(int argc, char **argv) { if(p() && p() != (void *)argv[0]) return(0); else return(1); }"> try.c;
    		$cc -o try $optimize $ccflags $ldflags try.c $libs >/dev/null 2>&1 && tval=true;
    		$rm_try;
    	fi;
    	;;
    *)
    	case "$tval" in
    	$define) tval=true;;
    	*) tval=false;;
    	esac;
    	;;
    esac;
    eval "$2=$tval"'
    
    : define an is-in-libc? function
    inlibc='echo " "; td=$define; tu=$undef;
    sym=$1; var=$2; eval "was=\$$2";
    tx=yes;
    case "$reuseval$was" in
    true) ;;
    true*) tx=no;;
    esac;
    case "$tx" in
    yes)
    	set $sym tres -f;
    	eval $csym;
    	case "$tres" in
    	true)
    		echo "$sym() found." >&4;
    		case "$was" in $undef) . ./whoa; esac; eval "$var=\$td";;
    	*)
    		echo "$sym() NOT found." >&4;
    		case "$was" in $define) . ./whoa; esac; eval "$var=\$tu";;
    	esac;;
    *)
    	case "$was" in
    	$define) echo "$sym() found." >&4;;
    	*) echo "$sym() NOT found." >&4;;
    	esac;;
    esac'
    
    : check for length of double
    echo " "
    case "$doublesize" in
    '')
    	echo "Checking to see how big your double precision numbers are..." >&4
    	$cat >try.c <<EOCP
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    int main()
    {
        printf("%d\n", (int)sizeof(double));
        exit(0);
    }
    EOCP
    	set try
    	if eval $compile_ok; then
    		doublesize=`$run ./try`
    		echo "Your double is $doublesize bytes long."
    	else
    		dflt='8'
    		echo "(I can't seem to compile the test program.  Guessing...)"
    		rp="What is the size of a double precision number (in bytes)?"
    		. ./myread
    		doublesize="$ans"
    	fi
    	;;
    esac
    $rm_try
    
    : check for long doubles
    echo " " >&4
    echo "Checking to see if you have long double..." >&4
    echo 'int main() { long double x = 7.0; }' > try.c
    set try
    if eval $compile; then
    	val="$define"
    	echo "You have long double." >&4
    else
    	val="$undef"
    	echo "You do not have long double." >&4
    fi
    $rm_try
    set d_longdbl
    eval $setvar
    
    : see if ldexpl exists
    set ldexpl d_ldexpl
    eval $inlibc
    
    : check for length of long double
    case "${d_longdbl}${longdblsize}" in
    $define)
    	echo " " >&4
    	echo "Checking to see how big your long doubles are..." >&4
    	$cat >try.c <<'EOCP'
    #include <stdio.h>
    int main()
    {
    	printf("%d\n", sizeof(long double));
    }
    EOCP
    	set try
    	set try
    	if eval $compile; then
    		longdblsize=`$run ./try`
    		echo "Your long doubles are $longdblsize bytes long." >&4
    	else
    		dflt='8'
    		echo " " >&4
    		echo "(I can't seem to compile the test program.  Guessing...)" >&4
    		rp="What is the size of a long double (in bytes)?"
    		. ./myread
    		longdblsize="$ans"
    	fi
    	if $test "X$doublesize" = "X$longdblsize"; then
    		echo "That isn't any different from an ordinary double." >&4
    		echo "I'll keep your setting anyway, but you may see some" >&4
    		echo "harmless compilation warnings." >&4
    	fi
    	;;
    esac
    $rm_try
    
    $echo "Checking the kind of long doubles you have..." >&4
    case "$d_longdbl" in
    define)
    $cat <<EOP >try.c
    #$i_stdlib I_STDLIB
    #define LONGDBLSIZE $longdblsize
    #define DOUBLESIZE $doublesize
    #include <float.h>
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #include <stdio.h>
    static const long double d = -0.1L;
    int main() {
      unsigned const char* b = (unsigned const char*)(&d);
    #if DOUBLESIZE == LONGDBLSIZE
      printf("0\n"); /* if it floats like double */
      exit(0);
    #endif
    #if (LDBL_MANT_DIG == 113 || FLT128_MANT_DIG == 113) && LONGDBLSIZE == 16
      if (b[0] == 0x9A && b[1] == 0x99 && b[15] == 0xBF) {
        /* IEEE 754 128-bit little-endian */
        printf("1\n");
        exit(0);
      }
      if (b[0] == 0xBF && b[14] == 0x99 && b[15] == 0x9A) {
        /* IEEE 128-bit big-endian, e.g. solaris sparc */
        printf("2\n");
        exit(0);
      }
    #endif
    /* For alignment 32-bit platforms have the 80 bits in 12 bytes,
     * while 64-bits platforms have it in 16 bytes.  The trailing bytes
     * cannot be trusted. */
    #if LDBL_MANT_DIG == 64 && (LONGDBLSIZE == 16 || LONGDBLSIZE == 12)
      if (b[0] == 0xCD && b[9] == 0xBF) {
        /* x86 80-bit little-endian, sizeof 12 (ILP32, Solaris x86)
         * or 16 (LP64, Linux and OS X), 4 or 6 bytes of padding.
         * Also known as "extended precision". */
        printf("3\n");
        exit(0);
      }
      if (b[0] == 0xBF && b[9] == 0xCD) {
        /* Is there ever big-endian 80-bit, really?
         *
         * The Motorola 68881 had another "extended precision" format:
         * sign:1 exp:15 zero:16 integer:1 mantissa:63
         * for total of 96 bits of bytes.  The zero bits were unused.
         * See "M68000 FAMILY PROGRAMMER'S REFERENCE MANUAL" for more details.
         * If it ever becomes relevant, this format should be allocated a
         * new doublekind code since it is quite different from the Intel x87.
         */
        printf("4\n");
        exit(0);
      }
    #endif
    #if (LDBL_MANT_DIG == 106 || LDBL_MANT_DIG == 107) && LONGDBLSIZE == 16
      /* software "double double", the 106 is 53+53.
       * but irix thinks it is 107. */
      if (b[0] == 0x9A && b[7] == 0x3C && b[8] == 0x9A && b[15] == 0xBF) {
        /* double double 128-bit fully little-endian,
         * little-endian doubles in little-endian order,
         * 9a 99 99 99 99 99 59 3c 9a 99 99 99 99 99 b9 bf */
        printf("5\n");
        exit(0);
      }
      if (b[0] == 0xBF && b[7] == 0x9A && b[8] == 0x3C && b[15] == 0x9A) {
        /* double double 128-bit fully big-endian,
         * big-endian doubles in big-endian order,
         * e.g. PPC/Power and MIPS:
         * bf b9 99 99 99 99 99 9a 3c 59 99 99 99 99 99 9a */
        printf("6\n");
        exit(0);
      }
      if (b[0] == 0x9A && b[7] == 0xBF && b[8] == 0x9A && b[15] == 0x3C) {
        /* double double 128-bit mixed endian.
         * little-endian doubles in big-endian order,
         * e.g. ppc64el,
         * 9a 99 99 99 99 99 b9 bf 9a 99 99 99 99 99 59 3c */
        printf("7\n");
        exit(0);
      }
      if (b[0] == 0x3C && b[7] == 0x9A && b[8] == 0xBF && b[15] == 0x9A) {
        /* double double 128-bit mixed endian,
         * big-endian doubles in little-endian order,
         * 3c 59 99 99 99 99 99 9a bf b9 99 99 99 99 99 9a */
        printf("8\n");
        exit(0);
      }
    #endif
    /* We are largely making this up because it may well be
     * that the VAX format H was never made available to C,
     * only to Fortran. */
    #if LONGDBLSIZE == 16 && defined(__vax__)
      if (b[0] == 0xFD && b[15] == 0x99) {
        /* VAX format H, PDP-11 mixed endian. */
        printf("9\n");
        exit(0);
      }
    #endif
      printf("-1\n"); /* unknown */
      exit(0);
    }
    EOP
    set try
    if eval $compile; then
        longdblkind=`$run ./try`
    else
        longdblkind=-1
    fi
    ;;
    *) longdblkind=0 ;;
    esac
    case "$longdblkind" in
    0) echo "Your long doubles are doubles." >&4 ;;
    1) echo "You have IEEE 754 128-bit little endian long doubles." >&4 ;;
    2) echo "You have IEEE 754 128-bit big endian long doubles." >&4 ;;
    3) echo "You have x86 80-bit little endian long doubles." >&4 ;;
    4) echo "You have x86 80-bit big endian long doubles." >&4 ;;
    5) echo "You have 128-bit fully little-endian double-double long doubles (64-bit LEs in LE)." >&4 ;;
    6) echo "You have 128-bit fully big-endian double-double long doubles (64-bit BEs in BE)." >&4 ;;
    7) echo "You have 128-bit mixed-endian double-double long doubles (64-bit LEs in BE)." >&4 ;;
    8) echo "You have 128-bit mixed-endian double-double long doubles (64-bit BEs in LE)." >&4 ;;
    9) echo "You have 128-bit PDP-style mixed-endian long doubles (VAX format H)." >&4 ;;
    *) echo "Cannot figure out your long double." >&4 ;;
    esac
    d_long_double_style_ieee=$undef
    d_long_double_style_ieee_std=$undef
    d_long_double_style_ieee_extended=$undef
    d_long_double_style_ieee_doubledouble=$undef
    d_long_double_style_vax=$undef
    case "$longdblkind" in
    1|2|3|4|5|6|7|8) d_long_double_style_ieee=$define ;;
    esac
    case "$longdblkind" in
    1|2) d_long_double_style_ieee_std=$define ;;
    esac
    case "$longdblkind" in
    3|4) d_long_double_style_ieee_extended=$define ;;
    esac
    case "$longdblkind" in
    5|6|7|8) d_long_double_style_ieee_doubledouble=$define ;;
    esac
    case "$longdblkind" in
    9) d_long_double_style_vax=$define ;;
    esac
    $rm_try
    
    : get the patchlevel
    echo " "
    echo "Getting the current patchlevel..." >&4
    if $test -r $rsrc/patchlevel.h;then
    	revision=`awk '/define[ 	]+PERL_REVISION/ {print $3}' $rsrc/patchlevel.h`
    	patchlevel=`awk '/define[ 	]+PERL_VERSION/ {print $3}' $rsrc/patchlevel.h`
    	subversion=`awk '/define[ 	]+PERL_SUBVERSION/ {print $3}' $rsrc/patchlevel.h`
    	api_revision=`awk '/define[ 	]+PERL_API_REVISION/ {print $3}' $rsrc/patchlevel.h`
    	api_version=`awk '/define[ 	]+PERL_API_VERSION/ {print $3}' $rsrc/patchlevel.h`
    	api_subversion=`awk '/define[ 	]+PERL_API_SUBVERSION/ {print $3}' $rsrc/patchlevel.h`
    	perl_patchlevel=`egrep ',"(MAINT|SMOKE)[0-9][0-9]*"' $rsrc/patchlevel.h|tail -1|sed 's/[^0-9]//g'`
    else
    	revision=0
    	patchlevel=0
    	subversion=0
    	api_revision=0
    	api_version=0
    	api_subversion=0
    	perl_patchlevel=0
    	$echo "(You do not have patchlevel.h.  Eek.)"
    fi
    : Define a handy string here to avoid duplication in myconfig.SH and configpm.
    version_patchlevel_string="version $patchlevel subversion $subversion"
    case "$perl_patchlevel" in
    0|'') ;;
    *)  perl_patchlevel=`echo $perl_patchlevel | sed 's/.* //'`
        version_patchlevel_string="$version_patchlevel_string patch $perl_patchlevel"
        ;;
    esac
    
    $echo "(You have $package $version_patchlevel_string.)"
    
    case "$osname" in
    dos|vms)
    	: XXX Should be a Configure test for double-dots in filenames.
    	version=`echo $revision $patchlevel $subversion | \
    		 $awk '{ printf "%d_%d_%d", $1, $2, $3 }'`
    	api_versionstring=`echo $api_revision $api_version $api_subversion | \
    		 $awk '{ printf "%d_%d_%d", $1, $2, $3 }'`
    	;;
    *)
    	version=`echo $revision $patchlevel $subversion | \
    		 $awk '{ printf "%d.%d.%d", $1, $2, $3 }'`
    	api_versionstring=`echo $api_revision $api_version $api_subversion | \
    		 $awk '{ printf "%d.%d.%d", $1, $2, $3 }'`
    	;;
    esac
    : Special case the 5.005_xx maintenance series, which used 5.005
    : without any subversion label as a subdirectory in $sitelib
    if test "${api_revision}${api_version}${api_subversion}" = "550"; then
    	api_versionstring='5.005'
    fi
    
    : determine the architecture name
    echo " "
    if xxx=`./loc arch blurfl $pth`; $test -f "$xxx"; then
    	tarch=`arch`"-$osname"
    elif xxx=`./loc uname blurfl $pth`; $test -f "$xxx" ; then
    	if uname -m > tmparch 2>&1 ; then
    		tarch=`$sed -e 's/ *$//' -e 's/ /_/g' \
    			-e 's/$/'"-$osname/" tmparch`
    	else
    		tarch="$osname"
    	fi
    	$rm -f tmparch
    else
    	tarch="$osname"
    fi
    case "$myarchname" in
    ''|"$tarch") ;;
    *)
    	echo "(Your architecture name used to be $myarchname.)"
    	archname=''
    	;;
    esac
    case "$targetarch" in
    '') ;;
    *)  archname=`echo $targetarch|sed 's,^[^-]*-,,'` ;;
    esac
    myarchname="$tarch"
    case "$archname" in
    '') dflt="$tarch";;
    *) dflt="$archname";;
    esac
    rp='What is your architecture name'
    . ./myread
    archname="$ans"
    
    : optionally add API version to the architecture for versioned archlibs
    case "$useversionedarchname" in
    $define|true|[yY]*) dflt='y';;
    *)                  dflt='n';;
    esac
    rp='Add the Perl API version to your archname?'
    . ./myread
    case "$ans" in
    y|Y)	useversionedarchname="$define" ;;
    *)      useversionedarchname="$undef" ;;
    esac
    case "$useversionedarchname" in
    $define)
    	case "$archname" in
    	*-$api_versionstring)
    		echo "...and architecture name already has -$api_versionstring" >&4
    		;;
    	*)
    		archname="$archname-$api_versionstring"
    		echo "...setting architecture name to $archname." >&4
    		;;
    	esac
    	;;
    esac
    
    case "$usethreads" in
    $define)
    	echo "Threads selected." >&4
    	case "$archname" in
    	*-thread*) echo "...and architecture name already has -thread." >&4
    		;;
    	*)      archname="$archname-thread"
    		echo "...setting architecture name to $archname." >&4
    		;;
    	esac
    	;;
    esac
    case "$usemultiplicity" in
    $define)
    	echo "Multiplicity selected." >&4
    	case "$archname" in
    	*-multi*) echo "...and architecture name already has -multi." >&4
    		;;
    	*)      archname="$archname-multi"
    		echo "...setting architecture name to $archname." >&4
    		;;
    	esac
    	;;
    esac
    case "$use64bitint$use64bitall" in
    *"$define"*)
    	case "$archname64" in
    	'')
    		echo "This architecture is naturally 64-bit, not changing architecture name." >&4
    		;;
    	*)
    		case "$use64bitint" in
    		"$define") echo "64 bit integers selected." >&4 ;;
    		esac
    		case "$use64bitall" in
    		"$define") echo "Maximal 64 bitness selected." >&4 ;;
    		esac
    		case "$archname" in
    		*-$archname64*) echo "...and architecture name already has $archname64." >&4
    			;;
    		*)      archname="$archname-$archname64"
    			echo "...setting architecture name to $archname." >&4
    			;;
    		esac
    		;;
    	esac
    esac
    case "$uselongdouble" in
    $define)
    	echo "Long doubles selected." >&4
    	case "$longdblsize" in
    	$doublesize)
    		echo "...but long doubles are equal to doubles, not changing architecture name." >&4
    		;;
    	*)
    		case "$archname" in
    		*-ld*) echo "...and architecture name already has -ld." >&4
    			;;
    		*)      archname="$archname-ld"
    			echo "...setting architecture name to $archname." >&4
    			;;
    		esac
    		;;
    	esac
    	;;
    esac
    case "$usequadmath" in
    $define)
    	echo "quadmath selected." >&4
    	case "$archname" in
    	*-quadmath*) echo "...and architecture name already has -quadmath." >&4
    		;;
    	*)      archname="$archname-quadmath"
    		echo "...setting architecture name to $archname." >&4
    		;;
    	esac
    	;;
    esac
    if $test -f archname.cbu; then
    	echo "Your platform has some specific hints for architecture name, using them..."
    	. ./archname.cbu
    fi
    
    : set the prefixit variable, to compute a suitable default value
    prefixit='case "$3" in
    ""|none)
    	case "$oldprefix" in
    	"") eval "$1=\"\$$2\"";;
    	*)
    		case "$3" in
    		"") eval "$1=";;
    		none)
    			eval "tp=\"\$$2\"";
    			case "$tp" in
    			""|" "|none) eval "$1=\"\$$2\"";;
    			*) eval "$1=";;
    			esac;;
    		esac;;
    	esac;;
    *)
    	eval "tp=\"$oldprefix-\$$2-\""; eval "tp=\"$tp\"";
    	case "$tp" in
    	--|/*--|\~*--) eval "$1=\"$prefix/$3\"";;
    	/*-$oldprefix/*|\~*-$oldprefix/*)
    		eval "$1=\`echo \$$2 | sed \"s,^$oldprefix,$prefix,\"\`";;
    	*) eval "$1=\"\$$2\"";;
    	esac;;
    esac'
    
    : determine installation style
    : For now, try to deduce it from prefix unless it is already set.
    : Reproduce behavior of 5.005 and earlier, maybe drop that in 5.7.
    case "$installstyle" in
    '')	case "$prefix" in
    		*perl*) dflt='lib';;
    		*) dflt='lib/perl5' ;;
    	esac
    	;;
    *)	dflt="$installstyle" ;;
    esac
    : Probably not worth prompting for this since we prompt for all
    : the directories individually, and the prompt would be too long and
    : confusing anyway.
    installstyle=$dflt
    
    : determine where public executables go
    echo " "
    set dflt bin bin
    eval $prefixit
    fn=d~
    rp='Pathname where the public executables will reside?'
    . ./getfile
    if $test "X$ansexp" != "X$binexp"; then
    	installbin=''
    fi
    prefixvar=bin
    : XXX Bug? -- ignores Configure -Dinstallprefix setting.
    : XXX If this is fixed, also fix the "start perl" hunk below, which relies on
    :     this via initialinstalllocation
    . ./setprefixvar
    
    case "$userelocatableinc" in
    $define|true|[yY]*)	dflt='y' ;;
    *)			dflt='n' ;;
    esac
    cat <<EOM
    
    Would you like to build Perl so that the installation is relocatable, so that
    library paths in @INC are determined relative to the path of the perl binary?
    This is not advised for system Perl installs, or if you need to run setid
    scripts or scripts under taint mode.
    
    If this doesn't make any sense to you, just accept the default '$dflt'.
    EOM
    rp='Use relocatable @INC?'
    . ./myread
    case "$ans" in
    y|Y)	val="$define" ;;
    *)	val="$undef"  ;;
    esac
    set userelocatableinc
    eval $setvar
    
    initialinstalllocation="$binexp"
    : Default prefix is now "up one level from where the binaries are"
    case "$userelocatableinc" in
    $define|true|[yY]*)
        bin=".../"
        binexp=".../"
        prefix=".../.."
        prefixexp=".../.."
        installprefixexp=".../.."
        ;;
    esac
    
    : determine where private library files go
    : Usual default is /usr/local/lib/perl5/$version.
    : Also allow things like /opt/perl/lib/$version, since
    : /opt/perl/lib/perl5... would be redundant.
    : The default "style" setting is made in installstyle.U
    case "$installstyle" in
    *lib/perl5*) set dflt privlib lib/$package/$version ;;
    *)	 set dflt privlib lib/$version ;;
    esac
    eval $prefixit
    $cat <<EOM
    
    There are some auxiliary files for $package that need to be put into a
    private library directory that is accessible by everyone.
    
    EOM
    fn=$binexp
    fn=d~+
    rp='Pathname where the private library files will reside?'
    . ./getfile
    prefixvar=privlib
    . ./setprefixvar
    
    : set the prefixup variable, to restore leading tilda escape
    prefixup='case "$prefixexp" in
    "$prefix") ;;
    *) eval "$1=\`echo \$$1 | sed \"s,^$prefixexp,$prefix,\"\`";;
    esac'
    
    : determine where public architecture dependent libraries go
    set archlib archlib
    eval $prefixit
    : privlib default is /usr/local/lib/$package/$version
    : archlib default is /usr/local/lib/$package/$version/$archname
    : privlib may have an optional trailing /share.
    tdflt=`echo $privlib | $sed 's,/share$,,'`
    tdflt=$tdflt/$archname
    case "$archlib" in
    '')	dflt=$tdflt
    	;;
    *)	dflt="$archlib"
        ;;
    esac
    $cat <<EOM
    
    $spackage contains architecture-dependent library files.  If you are
    sharing libraries in a heterogeneous environment, you might store
    these files in a separate location.  Otherwise, you can just include
    them with the rest of the public library files.
    
    EOM
    fn=$binexp
    fn=d+~
    rp='Where do you want to put the public architecture-dependent libraries?'
    . ./getfile
    prefixvar=archlib
    . ./setprefixvar
    if $test X"$archlib" = X"$privlib"; then
    	d_archlib="$undef"
    else
    	d_archlib="$define"
    fi
    
    : see if setuid scripts can be secure
    $cat <<EOM
    
    Some kernels have a bug that prevents setuid #! scripts from being
    secure.  Some sites have disabled setuid #! scripts because of this.
    
    First let's decide if your kernel supports secure setuid #! scripts.
    (If setuid #! scripts would be secure but have been disabled anyway,
    don't say that they are secure if asked.)
    
    EOM
    
    val="$undef"
    if $test -d /dev/fd; then
    	echo "#!$ls" >reflect
    	chmod +x,u+s reflect
    	./reflect >flect 2>&1
    	if $contains "/dev/fd" flect >/dev/null; then
    		echo "Congratulations, your kernel has secure setuid scripts!" >&4
    		val="$define"
    	else
    		$cat <<EOM
    If you are not sure if they are secure, I can check but I'll need a
    username and password different from the one you are using right now.
    If you don't have such a username or don't want me to test, simply
    enter 'none'.
    
    EOM
    		rp='Other username to test security of setuid scripts with?'
    		dflt='none'
    		. ./myread
    		case "$ans" in
    		n|none)
    			case "$d_suidsafe" in
    			'')	echo "I'll assume setuid scripts are *not* secure." >&4
    				dflt=n;;
    			"$undef")
    				echo "Well, the $hint value is *not* secure." >&4
    				dflt=n;;
    			*)	echo "Well, the $hint value *is* secure." >&4
    				dflt=y;;
    			esac
    			;;
    		*)
    			$rm -f reflect flect
    			echo "#!$ls" >reflect
    			chmod +x,u+s reflect
    			echo >flect
    			chmod a+w flect
    			echo '"su" will (probably) prompt you for '"$ans's password."
    			su $ans -c './reflect >flect'
    			if $contains "/dev/fd" flect >/dev/null; then
    				echo "Okay, it looks like setuid scripts are secure." >&4
    				dflt=y
    			else
    				echo "I don't think setuid scripts are secure." >&4
    				dflt=n
    			fi
    			;;
    		esac
    		rp='Does your kernel have *secure* setuid scripts?'
    		. ./myread
    		case "$ans" in
    		[yY]*)	val="$define";;
    		*)	val="$undef";;
    		esac
    	fi
    else
    	echo "I don't think setuid scripts are secure (no /dev/fd directory)." >&4
    	echo "(That's for file descriptors, not floppy disks.)"
    	val="$undef"
    fi
    set d_suidsafe
    eval $setvar
    
    $rm -f reflect flect
    
    : now see if they want to do setuid emulation
    if $test $patchlevel -lt 11; then
    echo " "
    val="$undef"
    case "$d_suidsafe" in
    "$define")
    	val="$undef"
    	echo "No need to emulate SUID scripts since they are secure here." >&4
    	;;
    *)
    	$cat <<EOM
    Some systems have disabled setuid scripts, especially systems where
    setuid scripts cannot be secure.  On systems where setuid scripts have
    been disabled, the setuid/setgid bits on scripts are currently
    useless.  It is possible for $package to detect those bits and emulate
    setuid/setgid in a secure fashion.  This emulation will only work if
    setuid scripts have been disabled in your kernel.
    
    EOM
    	case "$d_dosuid" in
    	"$define") dflt=y ;;
    	*) dflt=n ;;
    	esac
    	rp="Do you want to do setuid/setgid emulation?"
    	. ./myread
    	case "$ans" in
    	[yY]*)	val="$define";;
    	*)	val="$undef";;
    	esac
    	;;
    esac
    set d_dosuid
    eval $setvar
    else
        case "$d_dosuid" in
    	"$define")
    	cat >&4 <<EOH
    
    SUID emulation has been removed for 5.12
    Please re-run Configure without -Dd_dosuid
    
    EOH
    	exit 1;
    	;;
        esac
        d_dosuid=undef
    fi
    
    : Find perl5.005 or later.
    echo "Looking for a previously installed perl5.005 or later... "
    case "$perl5" in
    '')	for tdir in `echo "$binexp$path_sep$PATH" | $sed "s/$path_sep/ /g"`; do
    		: Check if this perl is recent and can load a simple module
    		if $test -x $tdir/perl$exe_ext && $tdir/perl -Mless -e 'use 5.005;' >/dev/null 2>&1; then
    			perl5=$tdir/perl
    			break;
    		elif $test -x $tdir/perl5$exe_ext && $tdir/perl5 -Mless -e 'use 5.005;' >/dev/null 2>&1; then
    			perl5=$tdir/perl5
    			break;
    		fi
    	done
    	;;
    *)	perl5="$perl5"
    	;;
    esac
    case "$perl5" in
    '')	echo "None found.  That's ok.";;
    *)	echo "Using $perl5." ;;
    esac
    
    : Set the siteprefix variables
    $cat <<EOM
    
    After $package is installed, you may wish to install various
    add-on modules and utilities.  Typically, these add-ons will
    be installed under $prefix with the rest
    of this package.  However, you may wish to install such add-ons
    elsewhere under a different prefix.
    
    If you do not wish to put everything under a single prefix, that's
    ok.  You will be prompted for the individual locations; this siteprefix
    is only used to suggest the defaults.
    
    The default should be fine for most people.
    
    EOM
    fn=d~+
    rp='Installation prefix to use for add-on modules and utilities?'
    : XXX Here might be another good place for an installstyle setting.
    case "$siteprefix" in
    '') dflt=$prefix ;;
    *)  dflt=$siteprefix ;;
    esac
    . ./getfile
    : XXX Prefixit unit does not yet support siteprefix and vendorprefix
    oldsiteprefix=''
    case "$siteprefix" in
    '') ;;
    *)	case "$ans" in
    	"$prefix") ;;
    	*) oldsiteprefix="$prefix";;
    	esac
    	;;
    esac
    siteprefix="$ans"
    siteprefixexp="$ansexp"
    
    : determine where site specific libraries go.
    : Usual default is /usr/local/lib/perl5/site_perl/$version
    : The default "style" setting is made in installstyle.U
    : XXX No longer works with Prefixit stuff.
    prog=`echo $package | $sed 's/-*[0-9.]*$//'`
    case "$sitelib" in
    '') case "$installstyle" in
    	*lib/perl5*) dflt=$siteprefix/lib/$package/site_$prog/$version ;;
    	*)	 dflt=$siteprefix/lib/site_$prog/$version ;;
    	esac
    	;;
    *)	dflt="$sitelib"
    	;;
    esac
    $cat <<EOM
    
    The installation process will create a directory for
    site-specific extensions and modules.  Most users find it convenient
    to place all site-specific files in this directory rather than in the
    main distribution directory.
    
    EOM
    fn=d~+
    rp='Pathname for the site-specific library files?'
    . ./getfile
    prefixvar=sitelib
    . ./setprefixvar
    sitelib_stem=`echo "$sitelibexp" | sed "s,/$version$,,"`
    
    : Determine list of previous versions to include in @INC
    $cat > getverlist <<EOPL
    #!$perl5
    use strict;
    use warnings;
    use File::Basename;
    my \$api_versionstring = "$api_versionstring";
    my \$version = "$version";
    my \$stem = "$sitelib_stem";
    my \$archname = "$archname";
    EOPL
    	$cat >> getverlist <<'EOPL'
    # The list found is stored twice for each entry: the original name, and
    # the binary broken down version into pack "s>s>s>", so sorting is easy
    # and unambiguous.  This will work for all versions that have a maximum
    # of three digit per group separate by '.'s or '_'s. Names are extended
    # with ".0.0" to ensure at least three elements for the pack.
    #                                   -- H.Merijn Brand (m)'06 23-10-2006
    
    my @inc_version_list;
    my @candidates;
    # XXX Redo to do opendir/readdir?
    if (-d $stem) {
        chdir($stem);
        ;@candidates = map {
    	[ $_, pack "s>s>s>", split m/[._]/, "$_.0.0" ] } glob("5.*");
        ;@candidates = sort { $a->[1] cmp $b->[1]} @candidates;
    }
    else {
        ;@candidates = ();
    }
    
    my ($pversion, $aversion, $vsn5005) = map {
        pack "s>s>s>", split m/[._]/, "$_.0.0" } $version, $api_versionstring, "5.005";
    foreach my $d (@candidates) {
        if ($d->[1] lt $pversion) {
    	if ($d->[1] ge $aversion) {
    	    unshift(@inc_version_list, grep { -d } $d->[0]."/$archname", $d->[0]);
    	}
    	elsif ($d->[1] ge $vsn5005) {
    	    unshift(@inc_version_list, grep { -d } $d->[0]);
    	}
        }
        else {
    	# Skip newer version.  I.e. don't look in
    	# 5.7.0 if we're installing 5.6.1.
        }
    }
    
    if (@inc_version_list) {
        print join(' ', @inc_version_list);
    }
    else {
        # Blank space to preserve value for next Configure run.
        print " ";
    }
    EOPL
    chmod +x getverlist
    case "$inc_version_list" in
    '')	if test -x "$perl5$exe_ext"; then
    		dflt=`$perl5 getverlist`
    	else
    		dflt='none'
    	fi
    	;;
    $undef) dflt='none' ;;
    *)  eval dflt=\"$inc_version_list\" ;;
    esac
    case "$dflt" in
    ''|' ') dflt=none ;;
    esac
    case "$dflt" in
    5.005) dflt=none ;;
    esac
    $cat <<EOM
    
    In order to ease the process of upgrading, this version of perl
    can be configured to use modules built and installed with earlier
    versions of perl that were installed under $prefix.  Specify here
    the list of earlier versions that this version of perl should check.
    If Configure detected no earlier versions of perl installed under
    $prefix, then the list will be empty.  Answer 'none' to tell perl
    to not search earlier versions.
    
    The default should almost always be sensible, so if you're not sure,
    just accept the default.
    EOM
    
    rp='List of earlier versions to include in @INC?'
    . ./myread
    case "$ans" in
    [Nn]one|''|' '|$undef) inc_version_list=' ' ;;
    *) inc_version_list="$ans" ;;
    esac
    case "$inc_version_list" in
    ''|' ')
    	inc_version_list_init='0'
    	d_inc_version_list="$undef"
    	;;
    *)	inc_version_list_init=`echo $inc_version_list |
    		$sed -e 's/^/"/' -e 's/ /","/g' -e 's/$/",0/'`
    	d_inc_version_list="$define"
    	;;
    esac
    $rm -f getverlist
    
    : see if malloc/malloc.h has to be included
    set malloc/malloc.h i_mallocmalloc
    eval $inhdr
    
    : see if this is a malloc.h system
    : we want a real compile instead of Inhdr because some systems have a
    : malloc.h that just gives a compile error saying to use stdlib.h instead
    echo " "
    $cat >try.c <<EOCP
    #include <stdlib.h>
    #include <malloc.h>
    #$i_mallocmalloc I_MALLOCMALLOC
    #ifdef I_MALLOCMALLOC
    # include <malloc/malloc.h>
    #endif
    
    int main () { return 0; }
    EOCP
    set try
    if eval $compile; then
        echo "<malloc.h> found." >&4
        val="$define"
    else
        echo "<malloc.h> NOT found." >&4
        val="$undef"
    fi
    $rm_try
    set i_malloc
    eval $setvar
    
    : check for length of pointer
    echo " "
    case "$ptrsize" in
    '')
    	echo "Checking to see how big your pointers are..." >&4
    	$cat >try.c <<EOCP
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    int main()
    {
        printf("%d\n", (int)sizeof(void *));
        exit(0);
    }
    EOCP
    	set try
    	if eval $compile_ok; then
    		ptrsize=`$run ./try`
    		echo "Your pointers are $ptrsize bytes long."
    	else
    		dflt='4'
    		echo "(I can't seem to compile the test program.  Guessing...)" >&4
    		rp="What is the size of a pointer (in bytes)?"
    		. ./myread
    		ptrsize="$ans"
    	fi
    	;;
    esac
    $rm_try
    case "$use64bitall" in
    "$define"|true|[yY]*)
    	case "$ptrsize" in
    	4)	cat <<EOM >&4
    
    *** You have chosen a maximally 64-bit build,
    *** but your pointers are only 4 bytes wide.
    *** Please rerun Configure without -Duse64bitall.
    EOM
    		case "$d_quad" in
    		define)
    			cat <<EOM >&4
    *** Since you have quads, you could possibly try with -Duse64bitint.
    EOM
    			;;
    		esac
    		cat <<EOM >&4
    *** Cannot continue, aborting.
    
    EOM
    
    		exit 1
    		;;
    	esac
    	;;
    esac
    
    : determine whether to use malloc wrapping
    echo " "
    case "$usemallocwrap" in
    [yY]*|true|$define)	dflt='y' ;;
    [nN]*|false|$undef)	dflt='n' ;;
    *)	case "$usedevel" in
    	[yY]*|true|$define)	dflt='y' ;;
    	*) dflt='n' ;;
    	esac
    	;;
    esac
    rp="Do you wish to wrap malloc calls to protect against potential overflows?"
    . ./myread
    usemallocwrap="$ans"
    case "$ans" in
    y*|true)
    	usemallocwrap="$define" ;;
    *)
    	usemallocwrap="$undef" ;;
    esac
    
    : determine which malloc to compile in
    echo " "
    case "$usemymalloc" in
    [yY]*|true|$define)	dflt='y' ;;
    [nN]*|false|$undef)	dflt='n' ;;
    *)	case "$ptrsize" in
    	4) dflt='y' ;;
    	*) dflt='n' ;;
    	esac
    	if test "$useithreads" = "$define"; then dflt='n'; fi
    	;;
    esac
    rp="Do you wish to attempt to use the malloc that comes with $package?"
    . ./myread
    usemymalloc="$ans"
    case "$ans" in
    y*|true)
    	usemymalloc='y'
    	mallocsrc='malloc.c'
    	mallocobj="malloc$_o"
    	d_mymalloc="$define"
    	case "$libs" in
    	*-lmalloc*)
    		: Remove malloc from list of libraries to use
    		echo "Removing unneeded -lmalloc from library list" >&4
    		set `echo X $libs | $sed -e 's/-lmalloc / /' -e 's/-lmalloc$//'`
    		shift
    		libs="$*"
    		echo "libs = $libs" >&4
    		;;
    	esac
    	;;
    *)
    	usemymalloc='n'
    	mallocsrc=''
    	mallocobj=''
    	d_mymalloc="$undef"
    	;;
    esac
    
    : compute the return types of malloc and free
    echo " "
    $cat >malloc.c <<END
    #$i_malloc I_MALLOC
    #$i_stdlib I_STDLIB
    #include <stdio.h>
    #include <sys/types.h>
    #ifdef I_MALLOC
    #include <malloc.h>
    #endif
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #ifdef TRY_MALLOC
    void *malloc();
    #endif
    #ifdef TRY_FREE
    void free();
    #endif
    END
    case "$malloctype" in
    '')
    	if $cc $ccflags -c -DTRY_MALLOC malloc.c >/dev/null 2>&1; then
    		malloctype='void *'
    	else
    		malloctype='char *'
    	fi
    	;;
    esac
    echo "Your system wants malloc to return '$malloctype', it would seem." >&4
    
    case "$freetype" in
    '')
    	if $cc $ccflags -c -DTRY_FREE malloc.c >/dev/null 2>&1; then
    		freetype='void'
    	else
    		freetype='int'
    	fi
    	;;
    esac
    echo "Your system uses $freetype free(), it would seem." >&4
    $rm -f malloc.[co]
    : determine where site specific architecture-dependent libraries go.
    : sitelib  default is /usr/local/lib/perl5/site_perl/$version
    : sitearch default is /usr/local/lib/perl5/site_perl/$version/$archname
    : sitelib may have an optional trailing /share.
    case "$sitearch" in
    '')	dflt=`echo $sitelib | $sed 's,/share$,,'`
    	dflt="$dflt/$archname"
    	;;
    *)	dflt="$sitearch"
    	;;
    esac
    set sitearch sitearch none
    eval $prefixit
    $cat <<EOM
    
    The installation process will also create a directory for
    architecture-dependent site-specific extensions and modules.
    
    EOM
    fn=d~+
    rp='Pathname for the site-specific architecture-dependent library files?'
    . ./getfile
    prefixvar=sitearch
    . ./setprefixvar
    if $test X"$sitearch" = X"$sitelib"; then
    	d_sitearch="$undef"
    else
    	d_sitearch="$define"
    fi
    
    : Set the vendorprefix variables
    $cat <<EOM
    
    The installation process will also create a directory for
    vendor-supplied add-ons.  Vendors who supply perl with their system
    may find it convenient to place all vendor-supplied files in this
    directory rather than in the main distribution directory.  This will
    ease upgrades between binary-compatible maintenance versions of perl.
    
    Of course you may also use these directories in whatever way you see
    fit.  For example, you might use them to access modules shared over a
    company-wide network.
    
    The default answer should be fine for most people.
    This causes further questions about vendor add-ons to be skipped
    and no vendor-specific directories will be configured for perl.
    
    EOM
    rp='Do you want to configure vendor-specific add-on directories?'
    case "$usevendorprefix" in
    define|true|[yY]*) dflt=y ;;
    *)	: User may have set vendorprefix directly on Configure command line.
    	case "$vendorprefix" in
    	''|' ') dflt=n ;;
    	*)	dflt=y ;;
    	esac
    	;;
    esac
    . ./myread
    case "$ans" in
    [yY]*)	fn=d~+
    	rp='Installation prefix to use for vendor-supplied add-ons?'
    	case "$vendorprefix" in
    	'') dflt="$prefix" ;;
    	*)  dflt=$vendorprefix ;;
    	esac
    	. ./getfile
    	: XXX Prefixit unit does not yet support siteprefix and vendorprefix
    	oldvendorprefix=''
    	case "$vendorprefix" in
    	'') ;;
    	*)	case "$ans" in
    		"$prefix") ;;
    		*) oldvendorprefix="$prefix";;
    		esac
    		;;
    	esac
    	usevendorprefix="$define"
    	vendorprefix="$ans"
    	vendorprefixexp="$ansexp"
    	;;
    *)	usevendorprefix="$undef"
    	vendorprefix=''
    	vendorprefixexp=''
    	;;
    esac
    
    : Set the vendorlib variables
    case "$vendorprefix" in
    '')	d_vendorlib="$undef"
    	vendorlib=''
    	vendorlibexp=''
    	;;
    *)	d_vendorlib="$define"
    	: determine where vendor-supplied modules go.
    	: Usual default is /usr/local/lib/perl5/vendor_perl/$version
    	case "$vendorlib" in
    	'')
    		prog=`echo $package | $sed 's/-*[0-9.]*$//'`
    		case "$installstyle" in
    		*lib/perl5*) dflt=$vendorprefix/lib/$package/vendor_$prog/$version ;;
    		*)	     dflt=$vendorprefix/lib/vendor_$prog/$version ;;
    		esac
    		;;
    	*)	dflt="$vendorlib"
    		;;
    	esac
    	fn=d~+
    	rp='Pathname for the vendor-supplied library files?'
    	. ./getfile
    	vendorlib="$ans"
    	vendorlibexp="$ansexp"
    	;;
    esac
    vendorlib_stem=`echo "$vendorlibexp" | sed "s,/$version$,,"`
    prefixvar=vendorlib
    . ./installprefix
    
    : Set the vendorarch variables
    case "$vendorprefix" in
    '')	d_vendorarch="$undef"
    	vendorarch=''
    	vendorarchexp=''
    	;;
    *)	d_vendorarch="$define"
    	: determine where vendor-supplied architecture-dependent libraries go.
    	: vendorlib  default is /usr/local/lib/perl5/vendor_perl/$version
    	: vendorarch default is /usr/local/lib/perl5/vendor_perl/$version/$archname
    	: vendorlib may have an optional trailing /share.
    	case "$vendorarch" in
    	'')	dflt=`echo $vendorlib | $sed 's,/share$,,'`
    		dflt="$dflt/$archname"
    		;;
    	*)	dflt="$vendorarch" ;;
    	esac
    	fn=d~+
    	rp='Pathname for vendor-supplied architecture-dependent files?'
    	. ./getfile
    	vendorarch="$ans"
    	vendorarchexp="$ansexp"
    	;;
    esac
    prefixvar=vendorarch
    . ./installprefix
    if $test X"$vendorarch" = X"$vendorlib"; then
    	d_vendorarch="$undef"
    else
    	d_vendorarch="$define"
    fi
    
    : Final catch-all directories to search
    $cat <<EOM
    
    Lastly, you can have perl look in other directories for extensions and
    modules in addition to those already specified.
    These directories will be searched after
    	$sitearch
    	$sitelib
    EOM
    test X"$vendorlib" != "X" && echo '	' $vendorlib
    test X"$vendorarch" != "X" && echo '	' $vendorarch
    echo ' '
    case "$otherlibdirs" in
    ''|' ') dflt='none' ;;
    *)	dflt="$otherlibdirs" ;;
    esac
    $cat <<EOM
    Enter a colon-separated set of extra paths to include in perl's @INC
    search path, or enter 'none' for no extra paths.
    
    EOM
    
    rp='Colon-separated list of additional directories for perl to search?'
    . ./myread
    case "$ans" in
    ' '|''|none)	otherlibdirs=' ' ;;
    *)	otherlibdirs="$ans" ;;
    esac
    case "$otherlibdirs" in
    ' ') val=$undef ;;
    *)	val=$define ;;
    esac
    set d_perl_otherlibdirs
    eval $setvar
    
    : DTrace support
    dflt_dtrace='/usr/sbin/dtrace'
    $test -x /usr/bin/dtrace && dflt_dtrace='/usr/bin/dtrace'
    
    cat <<EOM
    
    Perl can be built to support DTrace on platforms that support it.
    DTrace is a diagnosis and performance analysis tool from Sun.
    
    If this doesn't make any sense to you, just accept the default.
    EOM
    
    while $test 1 ; do
    	case "$usedtrace" in
    	$define|true|[yY]*)
    		dflt='y'
    		;;
    	$undef|false|[nN]*)
    		dflt='n'
    		dflt_dtrace=""
    		;;
    	?*)
    		dflt='y'
    		dflt_dtrace=$usedtrace
    		;;
    	*)
    		dflt='n'
    		;;
    	esac
    
    	rp='Support DTrace if available?'
    	. ./myread
    	case "$ans" in
    	y|Y)	val="$define" ;;
    	*)      val="$undef" ;;
    	esac
    	set usedtrace
    	eval $setvar
    
    	test "X$usedtrace" != "X$define" && break
    
    	echo " "
    	rp='Where is the dtrace executable?'
    	dflt=$dflt_dtrace
    	. ./getfile
    	val="$ans"
    	set dtrace
    	eval $setvar
    
    	if $test -f $dtrace
    	then
    		if $dtrace -h -s ../perldtrace.d \
    			-o perldtrace.tmp >/dev/null 2>&1 \
    			&& rm -f perldtrace.tmp
    		then
    			echo " "
    			echo "Good: your $dtrace knows about the -h flag."
    		else
    			cat >&2 <<EOM
    
    *** $me:  Fatal Error:  $dtrace doesn't support -h flag
    ***
    *** Your installed dtrace doesn't support the -h switch to compile a D
    *** program into a C header. Can't continue.
    
    EOM
    			exit 1
    		fi
    		break;
    	fi
    
    	case "$fastread" in
    	yes)
    		cat >&2 <<EOM
    
    *** $me:  Fatal Error:  $dtrace not found.
    *** Can't continue.
    
    EOM
    		exit 1
    		;;
    	*)
    		echo "*** $dtrace was not found."
    		echo " "
    		;;
    	esac
    done
    
    : See if we want extra modules installed
    echo " "
    case "$extras" in
    '') dflt='n';;
    *) dflt='y';;
    esac
    cat <<EOM
    Perl can be built with extra modules or bundles of modules which
    will be fetched from the CPAN and installed alongside Perl.
    
    Notice that you will need access to the CPAN; either via the Internet,
    or a local copy, for example a CD-ROM or a local CPAN mirror.  (You will
    be asked later to configure the CPAN.pm module which will in turn do
    the installation of the rest of the extra modules or bundles.)
    
    Notice also that if the modules require any external software such as
    libraries and headers (the libz library and the zlib.h header for the
    Compress::Zlib module, for example) you MUST have any such software
    already installed, this configuration process will NOT install such
    things for you.
    
    If this doesn't make any sense to you, just accept the default '$dflt'.
    EOM
    rp='Install any extra modules (y or n)?'
    . ./myread
    case "$ans" in
    y|Y)
    	cat <<EOM
    
    Please list any extra modules or bundles to be installed from CPAN,
    with spaces between the names.  The names can be in any format the
    'install' command of CPAN.pm will understand.  (Answer 'none',
    without the quotes, to install no extra modules or bundles.)
    EOM
    	rp='Extras?'
    	dflt="$extras"
    	. ./myread
    	extras="$ans"
    esac
    case "$extras" in
    ''|'none')
    	val=''
    	$rm -f ../extras.lst
    	;;
    *)	echo "(Saving the list of extras for later...)"
    	echo "$extras" > ../extras.lst
    	val="'$extras'"
    	;;
    esac
    set extras
    eval $setvar
    echo " "
    
    : determine where html pages for programs go
    set html1dir html1dir none
    eval $prefixit
    $cat <<EOM
    
    If you wish to install html files for programs in $spackage, indicate
    the appropriate directory here.  To skip installing html files,
    answer "none".
    EOM
    case "$html1dir" in
    ''|none|$undef|' ') dflt=none ;;
    *) dflt=$html1dir ;;
    esac
    fn=dn+~
    rp="Directory for the main $spackage html pages?"
    . ./getfile
    prefixvar=html1dir
    . ./setprefixvar
    : Use ' ' for none so value is preserved next time through Configure
    $test X"$html1dir" = "X" && html1dir=' '
    
    : determine where html pages for libraries and modules go
    set html3dir html3dir none
    eval $prefixit
    $cat <<EOM
    
    If you wish to install html files for modules associated with $spackage,
    indicate the appropriate directory here.  To skip installing html files,
    answer "none".
    EOM
    : There is no obvious default.  If they have specified html1dir, then
    : try to key off that, possibly changing .../html1 into .../html3.
    case "$html3dir" in
    '') html3dir=`echo "$html1dir" | $sed 's/1$/3$/'` ;;
    *) dflt=$html3dir ;;
    esac
    fn=dn+~
    rp="Directory for the $spackage module html pages?"
    . ./getfile
    prefixvar=html3dir
    . ./setprefixvar
    : Use ' ' for none so value is preserved next time through Configure
    $test X"$html3dir" = "X" && html3dir=' '
    
    : determine whether to install perl also as /usr/bin/perl
    
    echo " "
    if $test -d /usr/bin -a "X$installbin" != X/usr/bin; then
    	$cat <<EOM
    Many scripts expect perl to be installed as /usr/bin/perl.
    
    If you want to, I can install the perl you are about to compile
    as /usr/bin/perl (in addition to $bin/perl).
    EOM
    	if test -f /usr/bin/perl; then
    	    $cat <<EOM
    
    However, please note that because you already have a /usr/bin/perl,
    overwriting that with a new Perl would very probably cause problems.
    Therefore I'm assuming you don't want to do that (unless you insist).
    
    EOM
    	    case "$installusrbinperl" in
    	    "$define"|[yY]*)	dflt='y';;
    	    *)			dflt='n';;
    	    esac
    	else
    	    $cat <<EOM
    
    Since you don't have a /usr/bin/perl I'm assuming creating one is okay.
    
    EOM
    	    case "$installusrbinperl" in
    	    "$undef"|[nN]*)	dflt='n';;
    	    *)			dflt='y';;
    	    esac
    	fi
    	rp="Do you want to install perl as /usr/bin/perl?"
    	. ./myread
    	case "$ans" in
    	[yY]*)	val="$define";;
    	*)	val="$undef" ;;
    	esac
    else
    	val="$undef"
    fi
    set installusrbinperl
    eval $setvar
    
    : see if dlopen exists
    xxx_runnm="$runnm"
    xxx_ccflags="$ccflags"
    runnm=false
    : with g++ one needs -shared to get is-in-libc to work for dlopen
    case "$gccversion" in
    '')	;;
    *Clang*)	;;
    *)	case "$d_cplusplus" in
    	"$define") ccflags="$ccflags -shared" ;;
    	esac
    	;;
    esac
    set dlopen d_dlopen
    eval $inlibc
    runnm="$xxx_runnm"
    ccflags="$xxx_ccflags"
    
    : see if this is a unistd.h system
    set unistd.h i_unistd
    eval $inhdr
    
    : determine which dynamic loading, if any, to compile in
    echo " "
    dldir="ext/DynaLoader"
    case "$usedl" in
        $define|y|true)
    	dflt='y'
    	usedl="$define"
    	;;
        $undef|n|false)
    	dflt='n'
    	usedl="$undef"
    	;;
        *)
    	dflt='n'
    	case "$d_dlopen" in
    	    $define) dflt='y' ;;
    	esac
    	: Does a dl_xxx.xs file exist for this operating system
    	$test -f $rsrc/$dldir/dl_${osname}.xs && dflt='y'
    	;;
    esac
    rp="Do you wish to use dynamic loading?"
    . ./myread
    usedl="$ans"
    bin_ELF="$undef"
    case "$ans" in
        y*) usedl="$define"
    	case "$dlsrc" in
    	    '') if $test -f $rsrc/$dldir/dl_${osname}.xs ; then
    		    dflt="$dldir/dl_${osname}.xs"
    		elif $test "$d_dlopen" = "$define" ; then
    		    dflt="$dldir/dl_dlopen.xs"
    		else
    		    dflt=''
    		fi
    		;;
    	    *)  dflt="$dldir/$dlsrc"
    		;;
    	esac
    	echo "The following dynamic loading files are available:"
    	: Can not go over to $dldir because getfile has path hard-coded in.
    	tdir=`pwd`; cd "$rsrc"; $ls -C $dldir/dl*.xs; cd "$tdir"
    	rp="Source file to use for dynamic loading"
    	fn="fne"
    	gfpth="$src"
    	. ./getfile
    	usedl="$define"
    	: emulate basename
    	dlsrc=`echo $ans | $sed -e 's%.*/\([^/]*\)$%\1%'`
    
    	$cat << EOM
    
    Some systems may require passing special flags to $cc -c to
    compile modules that will be used to create a shared library.
    To use no flags, say "none".
    
    EOM
    	case "$cccdlflags" in
    	    '') case "$gccversion" in
    		'') case "$osname" in
    			hpux)	dflt='+z' ;;
    			irix*)	dflt='-KPIC' ;;
    			svr4*|esix*|solaris|nonstopux) dflt='-KPIC' ;;
    			sunos)	dflt='-pic' ;;
    			*)	dflt='none' ;;
    		    esac
    		    ;;
    		*)  case "$osname" in
    			darwin) dflt='none' ;;
    			*linux*|svr4*|esix*|solaris|nonstopux) dflt='-fPIC' ;;
    			*)	dflt='-fpic' ;;
    		    esac ;;
    		esac ;;
    	    ' ') dflt='none' ;;
    	    *)   dflt="$cccdlflags" ;;
    	esac
    
    	case "$dflt" in
    	    none) dflt='' ;;
    	esac
    
    	# If -Dsysroot was specified, now's the time to add it
    	# to cccdlflags
    	if test "X$sysroot" != X; then
    	    case "$gccversion" in
    		'') ;;
    		*)  case "$dflt" in
    			*sysroot*) ;;
    			'undef'|*)
    			    dflt="$dflt --sysroot=$sysroot" ;;
    		    esac
    		    ;;
    	    esac
    	fi
    
    	case "$dflt" in
    	    '') dflt='none';;
    	esac
    
    	rp="Any special flags to pass to $cc -c to compile shared library modules?"
    	. ./myread
    	case "$ans" in
    	    none) cccdlflags=' ' ;;
    	    *)    cccdlflags="$ans" ;;
    	esac
    
    	cat << EOM
    
    Some systems use ld to create libraries that can be dynamically loaded,
    while other systems (such as those using ELF) use $cc.
    
    EOM
    
    : Determine if this is ELF
    	$cat >try.c <<EOM
    /* Test for whether ELF binaries are produced */
    #include <fcntl.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #$i_unistd I_UNISTD
    #ifdef I_UNISTD
    #include <unistd.h>
    #endif
    int main() {
        char b[4];
        int i = open("a.out",O_RDONLY);
        if(i == -1)
    	exit(1); /* fail */
        if(read(i,b,4)==4 && b[0]==127 && b[1]=='E' && b[2]=='L' && b[3]=='F')
    	exit(0); /* succeed (yes, it is ELF) */
        exit(1); /* fail */
    }
    EOM
    	if $cc $ccflags $ldflags -o a.out try.c >/dev/null 2>&1 && $run ./a.out; then
    	    bin_ELF="$define"
    	fi
    	$rm_try
    
    	case "$ld" in
    	    '') if $test $bin_ELF = "$define"; then
    		    cat <<EOM
    You appear to have ELF support.  I'll use $cc to build dynamic libraries.
    EOM
    		    dflt="$cc"
    		else
    		    echo "I'll use ld to build dynamic libraries."
    		    dflt='ld'
    		fi
    		;;
    	    *)  dflt="$ld"
    		;;
    	esac
    
    	rp="What command should be used to create dynamic libraries?"
    	. ./myread
    	ld="$ans"
    
    	cat << EOM
    
    Some systems may require passing special flags to $ld to create a
    library that can be dynamically loaded.  If your ld flags include
    -L/other/path options to locate libraries outside your loader's normal
    search path, you may need to specify those -L options here as well.  To
    use no flags, say "none".
    
    EOM
    	case "$lddlflags" in
    	    '') case "$osname" in
    		    haiku) dflt='-shared' ;;
    		    hpux) dflt='-b';
    			  case "$gccversion" in
    			      '') dflt="$dflt +vnocompatwarnings" ;;
    			  esac
    			  ;;
    		    *linux*|irix*|gnu*)  dflt="-shared $optimize" ;;
    		    solaris) # See [perl #66604].
    			    # On Solaris 11, gcc -m64 on amd64
    			    # appears not to understand -G.  gcc versions at
    			    # least as old as 3.4.3 support -shared, so just
    			    # use that with Solaris 11 and later, but keep
    			    # the old behavior for older Solaris versions.
    			    case "$gccversion" in
    				'') dflt='-G' ;;
    				*)  case "$osvers" in
    					2.?|2.10) dflt='-G' ;;
    					*) dflt='-shared' ;;
    				    esac
    				    ;;
    			    esac
    			    ;;
    		    sunos) dflt='-assert nodefinitions' ;;
    		    svr4*|esix*|nonstopux) dflt="-G $ldflags" ;;
    		    *)     dflt='none' ;;
    		esac
    		;;
    	    *) dflt="$lddlflags" ;;
    	esac
    
    	: Only do this for gcc, since, for example, qcc has no concept
    	: of --sysroot.
    	if $test "X$sysroot" != X; then
    	    case "$gccversion" in
    		'') ;;
    		*)  dflt="$dflt --sysroot=$sysroot" ;;
    	    esac
    	fi
    
    	: Try to guess additional flags to pick up local libraries.
    	: Be careful not to append to a plain 'none'
    	case "$dflt" in
    	    none) dflt='' ;;
    	esac
    	for thisflag in $ldflags; do
    	    case "$thisflag" in
    		-L*|-R*|-Wl,-R*)
    		    case " $dflt " in
    			*" $thisflag "*) ;;
    			*) dflt="$dflt $thisflag" ;;
    		    esac
    		    ;;
    	    esac
    	done
    
    	case "$dflt" in
    	    ''|' ') dflt='none' ;;
    	esac
    
    	case "$ldflags" in
    	    *-fstack-protector-strong*)
    		case "$dflt" in
    		    *-fstack-protector-strong*) ;; # Don't add it again
    		    *) dflt="$dflt -fstack-protector-strong" ;;
    		esac
    		;;
    	    *-fstack-protector*)
    		case "$dflt" in
    		    *-fstack-protector*) ;; # Don't add it again
    		    *) dflt="$dflt -fstack-protector" ;;
    		esac
    		;;
    	esac
    
    	rp="Any special flags to pass to $ld to create a dynamically loaded library?"
    	. ./myread
    	case "$ans" in
    	    none) lddlflags=' ' ;;
    	    *) lddlflags="$ans" ;;
    	esac
    
    	cat <<EOM
    
    Some systems may require passing special flags to $cc to indicate that
    the resulting executable will use dynamic linking.  To use no flags,
    say "none".
    
    EOM
    	case "$ccdlflags" in
    	    '') case "$osname" in
    		    *linux*|hpux|gnu*) dflt='-Wl,-E' ;;
    		    sunos)             dflt='none'   ;;
    		    *)                 dflt='none'   ;;
    		esac ;;
    	    ' ') dflt='none' ;;
    	    *)   dflt="$ccdlflags" ;;
    	esac
    	rp="Any special flags to pass to $cc to use dynamic linking?"
    	. ./myread
    	case "$ans" in
    	    none) ccdlflags=' ' ;;
    	    *)    ccdlflags="$ans" ;;
    	esac
    	;;
    
        *)  usedl="$undef"
    	ld='ld'
    	dlsrc='dl_none.xs'
    	lddlflags=''
    	ccdlflags=''
    	;;
    esac
    
    ld_can_script="$undef"
    case "$bin_ELF$usedl" in
        $define$define)
    	# Abuse try.h and a.out names for neat cleanup
    	$cat >try.c <<EOM
    void foo() {}
    void bar() {}
    EOM
    	$cat >try.h <<EOM
    LIBTEST_42 {
     global:
      foo;
     local: *;
     };
    EOM
    	if $cc $cccdlflags $ccdlflags $ccflags \
    	       $ldflags $lddlflags -o a.out try.c \
    	       -Wl,--version-script=try.h >/dev/null 2>&1 \
    	   &&  $test -s a.out ; then
    	    echo "ld supports scripting" >&4
    	    ld_can_script="$define"
    	else
    	    echo "ld does not support scripting" >&4
    	fi
    	$rm_try
    	;;
    esac
    
    : Do we want a shared libperl?
    also=''
    case "$usedl" in
    $undef)
    	# No dynamic loading being used, so don't bother even to prompt.
    	useshrplib='false'
    	;;
    *)	case "$useshrplib" in
    	'')	case "$osname" in
    		svr4*|nonstopux|dgux|dynixptx|esix|powerux|haiku|cygwin*)
    			dflt=y
    			also='Building a shared libperl is required for dynamic loading to work on your system.'
    			;;
    		*)	dflt=n
    			;;
    		esac
    		;;
    	$define|true|[Yy]*)
    		dflt=y
    		;;
    	*)	dflt=n
    		;;
    	esac
    	$cat << EOM
    
    The perl executable is normally obtained by linking perlmain.c with
    libperl${_a}, any static extensions (usually just DynaLoader), and
    any other libraries needed on this system (such as -lm, etc.).  Since
    your system supports dynamic loading, it is probably possible to build
    a shared libperl.$so.  If you will have more than one executable linked
    to libperl.$so, this will significantly reduce the size of each
    executable, but it may have a noticeable effect on performance.  The
    default is probably sensible for your system.
    $also
    
    EOM
    	rp="Build a shared libperl.$so (y/n)"
    	. ./myread
    	case "$ans" in
    	true|$define|[Yy]*)
    		useshrplib='true'  ;;
    	*)	useshrplib='false' ;;
    	esac
    	;;
    esac
    
    case "$useshrplib" in
    true)
    	case "$userelocatableinc" in
    	true|define)
    		echo "Cannot build with both -Duserelocatableinc and -Duseshrplib" >&4
    		echo "See INSTALL for an explanation why that won't work." >&4
    		exit 4
    		;;
    	esac
    	case "$libperl" in
    	'')
    		# Figure out a good name for libperl.so.  Since it gets stored in
    		# a version-specific architecture-dependent library, the version
    		# number isn't really that important, except for making cc/ld happy.
    		#
    		# A name such as libperl.so.10.1
    		majmin="libperl.$so.$patchlevel.$subversion"
    		# A name such as libperl.so.100
    		majonly=`echo $patchlevel $subversion |
    			$awk '{printf "%d%02d", $1, $2}'`
    		majonly=libperl.$so.$majonly
    		# I'd prefer to keep the os-specific stuff here to a minimum, and
    		# rely on figuring it out from the naming of libc.
    		case "${osname}${osvers}" in
    		*linux*|gnu*)  # ld won't link with a bare -lperl otherwise.
    			dflt=libperl.$so
    			;;
    		cygwin*) # ld links now against the dll directly
    			majmin="cygperl5_${patchlevel}_${subversion}.${so}"
    			majonly=`echo $patchlevel $subversion |
    				$awk '{printf "%03d%03d", $1, $2}'`
    			majonly=cygperl5.$majonly.$so
    			dflt=$majmin
    			;;
    		*)	# Try to guess based on whether libc has major.minor.
    			case "$libc" in
    			*libc.$so.[0-9]*.[0-9]*) dflt=$majmin ;;
    			*libc.$so.[0-9]*) dflt=$majonly ;;
    			*)	dflt=libperl.$so ;;
    			esac
    			;;
    		esac
    		;;
    	*)	dflt=$libperl
    		;;
    	esac
    	cat << EOM
    
    I need to select a good name for the shared libperl.  If your system uses
    library names with major and minor numbers, then you might want something
    like $majmin.  Alternatively, if your system uses a single version
    number for shared libraries, then you might want to use $majonly.
    Or, your system might be quite happy with a simple libperl.$so.
    
    Since the shared libperl will get installed into a version-specific
    architecture-dependent directory, the version number of the shared perl
    library probably isn't important, so the default should be o.k.
    
    EOM
    	rp='What name do you want to give to the shared libperl?'
    	. ./myread
    	libperl=$ans
    	echo "Ok, I'll use $libperl"
    	;;
    *)
    	libperl="libperl${_a}"
    	;;
    esac
    
    # Detect old use of shrpdir via undocumented Configure -Dshrpdir
    case "$shrpdir" in
    '') ;;
    *)	$cat >&4 <<EOM
    WARNING:  Use of the shrpdir variable for the installation location of
    the shared $libperl is not supported.  It was never documented and
    will not work in this version.  Let me (https://github.com/Perl/perl5/issues)
    know of any problems this may cause.
    
    EOM
    	case "$shrpdir" in
    	"$archlibexp/CORE")
    		$cat >&4 <<EOM
    But your current setting of $shrpdir is
    the default anyway, so it's harmless.
    EOM
    		;;
    	*)
    		$cat >&4 <<EOM
    Further, your current attempted setting of $shrpdir
    conflicts with the value of $archlibexp/CORE
    that installperl will use.
    EOM
    		;;
    	esac
    	;;
    esac
    
    # How will the perl executable find the installed shared $libperl?
    # Add $xxx to ccdlflags.
    # If we can't figure out a command-line option, use $shrpenv to
    # set env LD_RUN_PATH.  The main perl makefile uses this.
    shrpdir=$archlibexp/CORE
    xxx=''
    tmp_shrpenv=''
    if "$useshrplib"; then
        case "$osname" in
    	aix)
    		# We'll set it in Makefile.SH...
    		;;
    	solaris)
    		xxx="-R $shrpdir"
    		;;
    	freebsd|minix|mirbsd|netbsd|openbsd|interix|dragonfly|bitrig)
    		xxx="-Wl,-R$shrpdir"
    		;;
    	bsdos|linux|irix*|dec_osf|gnu*|haiku)
    		xxx="-Wl,-rpath,$shrpdir"
    		;;
    	hpux*)
    		# hpux doesn't like the default, either.
    		tmp_shrpenv="env LDOPTS=\"+s +b${shrpdir}\""
    		;;
    	cygwin)
    		# cygwin needs only ldlibpth
    		;;
    	*)
    		tmp_shrpenv="env LD_RUN_PATH=$shrpdir"
    		;;
    	esac
    	case "$xxx" in
    	'') ;;
    	*)
    		# Only add $xxx if it isn't already in ccdlflags.
    		case " $ccdlflags " in
    		*" $xxx "*)	;;
    		*)	ccdlflags="$ccdlflags $xxx"
    			cat <<EOM >&4
    
    Adding $xxx to the flags
    passed to $ld so that the perl executable will find the
    installed shared $libperl.
    
    EOM
    			;;
    		esac
    		;;
    	esac
    fi
    # Fix ccdlflags in AIX for building external extensions.
    # (For building Perl itself bare -bE:perl.exp is needed,
    #  Makefile.SH takes care of this.)
    case "$osname" in
    aix) ccdlflags="$ccdlflags -bE:$installarchlib/CORE/perl.exp" ;;
    esac
    # Respect a hint or command-line value.
    case "$shrpenv" in
    '') shrpenv="$tmp_shrpenv" ;;
    esac
    case "$ldlibpthname" in
    '')	ldlibpthname=LD_LIBRARY_PATH ;;
    none)	ldlibpthname='' ;;
    esac
    
    : determine where manual pages are on this system
    echo " "
    case "$sysman" in
    '')
    	syspath='/usr/share/man/man1 /usr/man/man1'
    	syspath="$syspath /usr/man/mann /usr/man/manl /usr/man/local/man1"
    	syspath="$syspath /usr/man/u_man/man1"
    	syspath="$syspath /usr/catman/u_man/man1 /usr/man/l_man/man1"
    	syspath="$syspath /usr/local/man/u_man/man1 /usr/local/man/l_man/man1"
    	syspath="$syspath /usr/man/man.L /local/man/man1 /usr/local/man/man1"
    	sysman=`./loc . /usr/man/man1 $syspath`
    	;;
    esac
    if $test -d "$sysman"; then
    	echo "System manual is in $sysman." >&4
    else
    	echo "Could not find manual pages in source form." >&4
    fi
    
    : determine where manual pages go
    set man1dir man1dir none
    eval $prefixit
    $cat <<EOM
    
    $spackage has manual pages available in source form.
    EOM
    case "$nroff" in
    nroff)
    	echo "However, you don't have nroff, so they're probably useless to you."
    	case "$man1dir" in
    	'') man1dir="none";;
    	esac;;
    esac
    echo "If you don't want the manual sources installed, answer 'none'."
    case "$man1dir" in
    ' ') dflt=none
    	;;
    '')
    	lookpath="$prefixexp/share/man/man1"
    	lookpath="$lookpath $prefixexp/man/man1 $prefixexp/man/l_man/man1"
    	lookpath="$lookpath $prefixexp/man/p_man/man1"
    	lookpath="$lookpath $prefixexp/man/u_man/man1"
    	lookpath="$lookpath $prefixexp/man/man.1"
    	case "$sysman" in
    	*/?_man*)	dflt=`./loc . $prefixexp/l_man/man1 $lookpath` ;;
    	*)	dflt=`./loc . $prefixexp/man/man1 $lookpath` ;;
    	esac
    	set dflt
    	eval $prefixup
    	;;
    *)  dflt="$man1dir"
    	;;
    esac
    echo " "
    fn=dn+~
    rp="Where do the main $spackage manual pages (source) go?"
    . ./getfile
    if $test "X$man1direxp" != "X$ansexp"; then
    	installman1dir=''
    fi
    prefixvar=man1dir
    . ./setprefixvar
    
    case "$man1dir" in
    '')	man1dir=' '
    	installman1dir='';;
    esac
    
    : What suffix to use on installed man pages
    
    case "$man1dir" in
    ' ')
    	man1ext='0'
    	;;
    *)
    	rp="What suffix should be used for the main $spackage man pages?"
    	case "$man1ext" in
    	'')	case "$man1dir" in
    		*1)  dflt=1 ;;
    		*1p) dflt=1p ;;
    		*1pm) dflt=1pm ;;
    		*l) dflt=l;;
    		*n) dflt=n;;
    		*o) dflt=o;;
    		*p) dflt=p;;
    		*C) dflt=C;;
    		*L) dflt=L;;
    		*L1) dflt=L1;;
    		*) dflt=1;;
    		esac
    		;;
    	*)	dflt="$man1ext";;
    	esac
    	. ./myread
    	man1ext="$ans"
    	;;
    esac
    
    : see if we can have long filenames
    echo " "
    first=123456789abcdef
    $rm -f $first
    if (echo hi >$first) 2>/dev/null; then
    	if $test -f 123456789abcde; then
    		echo 'You cannot have filenames longer than 14 characters.  Sigh.' >&4
    		val="$undef"
    	else
    		echo 'You can have filenames longer than 14 characters.'>&4
    		val="$define"
    	fi
    else
    	$cat <<'EOM'
    You can't have filenames longer than 14 chars.
    You can't even think about them!
    EOM
    	val="$undef"
    fi
    set d_flexfnam
    eval $setvar
    $rm -rf 123456789abcde*
    
    : determine where library module manual pages go
    set man3dir man3dir none
    eval $prefixit
    $cat <<EOM
    
    $spackage has manual pages for many of the library modules.
    EOM
    
    case "$nroff" in
    nroff)
    	$cat <<'EOM'
    However, you don't have nroff, so they're probably useless to you.
    EOM
    	case "$man3dir" in
    	'') man3dir="none";;
    	esac;;
    esac
    
    case "$d_flexfnam" in
    undef)
    	$cat <<'EOM'
    However, your system can't handle the long file names like File::Basename.3.
    EOM
    	case "$man3dir" in
    	'') man3dir="none";;
    	esac;;
    esac
    
    echo "If you don't want the manual sources installed, answer 'none'."
    prog=`echo $package | $sed 's/-*[0-9.]*$//'`
    case "$man3dir" in
    '')	dflt=`echo "$man1dir" | $sed -e 's/man1/man3/g' -e 's/man\.1/man\.3/g'`
    	if $test -d "$privlib/man/man3"; then
    		cat <<EOM >&4
    
    WARNING:  Previous versions of perl installed man3 pages into
    $privlib/man/man3.  This version will suggest a
    new default of $dflt.
    EOM
    		tdflt=$dflt
    		dflt='n'
    		rp='Do you wish to preserve the old behavior?(y/n)'
    		. ./myread
    		case "$ans" in
    		y*) dflt="$privlib/man/man3" ;;
    		*)  dflt=$tdflt ;;
    		esac
        fi
    	;;
    *)	dflt="$man3dir" ;;
    esac
    case "$dflt" in
    ' ') dflt=none ;;
    esac
    echo " "
    fn=dn+~
    rp="Where do the $package library man pages (source) go?"
    . ./getfile
    prefixvar=man3dir
    . ./setprefixvar
    
    case "$man3dir" in
    '')	man3dir=' '
    	installman3dir='';;
    esac
    
    : What suffix to use on installed man pages
    case "$man3dir" in
    ' ')
    	man3ext='0'
    	;;
    *)
    	rp="What suffix should be used for the $package library man pages?"
    	case "$man3ext" in
    	'')	case "$man3dir" in
    		*3)  dflt=3 ;;
    		*3p) dflt=3p ;;
    		*3pm) dflt=3pm ;;
    		*l) dflt=l;;
    		*n) dflt=n;;
    		*o) dflt=o;;
    		*p) dflt=p;;
    		*C) dflt=C;;
    		*L) dflt=L;;
    		*L3) dflt=L3;;
    		*) dflt=3;;
    		esac
    		;;
    	*)	dflt="$man3ext";;
    	esac
    	. ./myread
    	man3ext="$ans"
    	;;
    esac
    
    : see if we have to deal with yellow pages, now NIS.
    if $test -d /usr/etc/yp || $test -d /etc/yp || $test -d /usr/lib/yp; then
    	case "$hostcat" in
    	nidump*) ;;
    	*)
    		case "$hostcat" in
    		*ypcat*) dflt=y;;
    		'') if $contains '^\+' /etc/passwd >/dev/null 2>&1; then
    				dflt=y
    			else
    				dflt=n
    			fi;;
    		*) dflt=n;;
    		esac
    		echo " "
    		rp='Are you getting the hosts file via yellow pages?'
    		. ./myread
    		case "$ans" in
    		y*) hostcat='ypcat hosts';;
    		*) hostcat='cat /etc/hosts';;
    		esac
    		;;
    	esac
    fi
    case "$hostcat" in
    '') test -f /etc/hosts && hostcat='cat /etc/hosts';;
    esac
    case "$groupcat" in
    '') test -f /etc/group && groupcat='cat /etc/group';;
    esac
    case "$passcat" in
    '') test -f /etc/passwd && passcat='cat /etc/passwd';;
    esac
    
    : now get the host name
    echo " "
    echo "Figuring out host name..." >&4
    case "$myhostname" in
    '') cont=true
    	echo 'Maybe "hostname" will work...'
    	if tans=`sh -c hostname 2>&1` ; then
    		myhostname=$tans
    		phostname=hostname
    		cont=''
    	fi
    	;;
    *) cont='';;
    esac
    if $test "$cont"; then
    	if ./xenix; then
    		echo 'Oh, dear.  Maybe "/etc/systemid" is the key...'
    		if tans=`cat /etc/systemid 2>&1` ; then
    			myhostname=$tans
    			phostname='cat /etc/systemid'
    			echo "Whadyaknow.  Xenix always was a bit strange..."
    			cont=''
    		fi
    	elif $test -r /etc/systemid; then
    		echo "(What is a non-Xenix system doing with /etc/systemid?)"
    	fi
    fi
    if $test "$cont"; then
    	echo 'No, maybe "uuname -l" will work...'
    	if tans=`sh -c 'uuname -l' 2>&1` ; then
    		myhostname=$tans
    		phostname='uuname -l'
    	else
    		echo 'Strange.  Maybe "uname -n" will work...'
    		if tans=`sh -c 'uname -n' 2>&1` ; then
    			myhostname=$tans
    			phostname='uname -n'
    		else
    			echo 'Oh well, maybe I can mine it out of whoami.h...'
    			if tans=`sh -c $contains' sysname $usrinc/whoami.h' 2>&1` ; then
    				myhostname=`echo "$tans" | $sed 's/^.*"\(.*\)"/\1/'`
    				phostname="sed -n -e '"'/sysname/s/^.*\"\\(.*\\)\"/\1/{'"' -e p -e q -e '}' <$usrinc/whoami.h"
    			else
    				case "$myhostname" in
    				'') echo "Does this machine have an identity crisis or something?"
    					phostname='';;
    				*)
    					echo "Well, you said $myhostname before..."
    					phostname='echo $myhostname';;
    				esac
    			fi
    		fi
    	fi
    fi
    case "$myhostname" in
    '') myhostname=noname ;;
    esac
    : you do not want to know about this
    set $myhostname
    myhostname=$1
    
    : verify guess
    if $test "$myhostname" ; then
    	dflt=y
    	rp='Your host name appears to be "'$myhostname'".'" Right?"
    	. ./myread
    	case "$ans" in
    	y*) ;;
    	*) myhostname='';;
    	esac
    fi
    
    : bad guess or no guess
    while $test "X$myhostname" = X ; do
    	dflt=''
    	rp="Please type the (one word) name of your host:"
    	. ./myread
    	myhostname="$ans"
    done
    
    : translate upper to lower if necessary
    case "$myhostname" in
    *[A-Z]*)
    	echo "(Normalizing case in your host name)"
    	myhostname=`echo $myhostname | ./tr '[A-Z]' '[a-z]'`
    	;;
    esac
    
    case "$myhostname" in
    *.*)
    	dflt=`expr "X$myhostname" : "X[^.]*\(\..*\)"`
    	myhostname=`expr "X$myhostname" : "X\([^.]*\)\."`
    	echo "(Trimming domain name from host name--host name is now $myhostname)"
    	;;
    *) case "$mydomain" in
    	'')
    		{
    			test "X$hostcat" = "Xypcat hosts" &&
    			ypmatch "$myhostname" hosts 2>/dev/null |\
    				$sed -e 's/[	 ]*#.*//; s/$/ /' > hosts && \
    			$test -s hosts
    		} || {
    			test "X$hostcat" != "X" &&
    			$hostcat | $sed -n -e "s/[	 ]*#.*//; s/\$/ /
    					/[	 ]$myhostname[	. ]/p" > hosts
    		}
    		tmp_re="[	. ]"
    		if $test -f hosts; then
    			$test x`$awk "/[0-9].*[	 ]$myhostname$tmp_re/ { sum++ }
    			     END { print sum }" hosts` = x1 || tmp_re="[	 ]"
    			dflt=.`$awk "/[0-9].*[	 ]$myhostname$tmp_re/ {for(i=2; i<=NF;i++) print \\\$i}" \
    				hosts | $sort | $uniq | \
    				$sed -n -e "s/$myhostname\.\([-a-zA-Z0-9_.]\)/\1/p"`
    			case `$echo X$dflt` in
    			X*\ *)	echo "(Several hosts in the database matched hostname)"
    				dflt=.
    				;;
    			X.) echo "(You do not have fully-qualified names in the hosts database)"
    				;;
    			esac
    		else
    			echo "(I cannot locate a hosts database anywhere)"
    			dflt=.
    		fi
    		case "$dflt" in
    		.)
    			tans=`./loc resolv.conf X /etc /usr/etc`
    			if $test -f "$tans"; then
    				echo "(Attempting domain name extraction from $tans)"
    				dflt=.`$sed -n -e 's/	/ /g' \
    				  -e 's/^search  *\([^ ]*\).*/\1/p' $tans \
    				  -e 1q 2>/dev/null`
    				case "$dflt" in
    				.) dflt=.`$sed -n -e 's/	/ /g' \
    				     -e 's/^domain  *\([^ ]*\).*/\1/p' $tans \
    				     -e 1q 2>/dev/null`
    					;;
    				esac
    			fi
    			;;
    		esac
    		case "$dflt" in
    		.) echo "(No help from resolv.conf either -- attempting clever guess)"
    			dflt=.`sh -c domainname 2>/dev/null`
    			case "$dflt" in
    			'') dflt='.';;
    			.nis.*|.yp.*|.main.*) dflt=`echo $dflt | $sed -e 's/^\.[^.]*//'`;;
    			esac
    			;;
    		esac
    		case "$dflt$osname" in
    		.os390) echo "(Attempting domain name extraction from //'SYS1.TCPPARMS(TCPDATA)')"
    			dflt=.`awk '/^DOMAINORIGIN/ {print $2}' "//'SYS1.TCPPARMS(TCPDATA)'" 2>/dev/null`
    			;;
    		esac
    		case "$dflt" in
    		.) echo "(Lost all hope -- silly guess then)"
    			dflt='.nonet'
    			;;
    		esac
    		$rm -f hosts
    		;;
    	*) dflt="$mydomain";;
    	esac;;
    esac
    echo " "
    rp="What is your domain name?"
    . ./myread
    tans="$ans"
    case "$ans" in
    '') ;;
    .*) ;;
    *) tans=".$tans";;
    esac
    mydomain="$tans"
    
    : translate upper to lower if necessary
    case "$mydomain" in
    *[A-Z]*)
    	echo "(Normalizing case in your domain name)"
    	mydomain=`echo $mydomain | ./tr '[A-Z]' '[a-z]'`
    	;;
    esac
    
    : a little sanity check here
    case "$phostname" in
    '') ;;
    *)
    	case `$phostname | ./tr '[A-Z]' '[a-z]'` in
    	$myhostname$mydomain|$myhostname) ;;
    	*)
    		case "$phostname" in
    		sed*)
    			echo "(That doesn't agree with your whoami.h file, by the way.)"
    			;;
    		*)
    			echo "(That doesn't agree with your $phostname command, by the way.)"
    			;;
    		esac
    	;;
    	esac
    	;;
    esac
    
    : determine the e-mail address of the user who is running us
    $cat <<EOM
    
    I need to get your e-mail address in Internet format if possible, i.e.
    something like user@host.domain. Please answer accurately since I have
    no easy means to double check it. The default value provided below
    is most probably close to reality but may not be valid from outside
    your organization...
    
    EOM
    cont=x
    while test "$cont"; do
    	case "$MAILDOMAIN" in
    	'')
    		if $test -s /etc/mailname; then
    			maildomain=`$cat /etc/mailname`
    		else
    			maildomain="$myhostname$mydomain"
    		fi
    		;;
    	*)  maildomain="$MAILDOMAIN";;
    	esac
    	case "$cf_email" in
    	'') dflt="$cf_by@$maildomain";;
    	*)  dflt="$cf_email";;
    	esac
    	rp='What is your e-mail address?'
    	. ./myread
    	cf_email="$ans"
    	case "$cf_email" in
    	*@*.*) cont='' ;;
    	*)
    		rp='Address does not look like an Internet one.  Use it anyway?'
    		case "$fastread" in
    		yes) dflt=y ;;
    		*) dflt=n ;;
    		esac
    		. ./myread
    		case "$ans" in
    		y*) cont='' ;;
    		*) echo " " ;;
    		esac
    		;;
    	esac
    done
    
    : Ask e-mail of administrator
    $cat <<EOM
    
    If you or somebody else will be maintaining perl at your site, please
    fill in the correct e-mail address here so that they may be contacted
    if necessary. You may enter "none" for no administrator.
    
    EOM
    case "$perladmin" in
    '') dflt="$cf_email";;
    *) dflt="$perladmin";;
    esac
    rp='Perl administrator e-mail address'
    . ./myread
    perladmin="$ans"
    
    : determine whether to use a version number suffix for installed binaries
    echo " "
    $cat <<EOM
    Do you want to use a version number suffix for installed binaries? This
    will install 'perl$version' instead of 'perl', and likewise for other
    binaries like 'perldoc' and 'cpan'. This allows many versions of perl
    to be installed side-by-side. Unless you are a developer, you probably
    do *not* want to do this.
    EOM
    case "$versiononly" in
    "$define"|[Yy]*|true) dflt='y' ;;
    *) dflt='n';
    esac
    rp="Do you want to use a version number suffix for installed binaries?"
    . ./myread
    case "$ans" in
    [yY]*)	val="$define";;
    *)	val="$undef" ;;
    esac
    set versiononly
    eval $setvar
    
    case "$versiononly" in
    "$define") inc_version_list=''
               inc_version_list_init=0
               ;;
    esac
    
    : figure out how to guarantee perl startup
    : XXX Note that this currently takes advantage of the bug that binexp ignores
    :     the Configure -Dinstallprefix setting, which in turn means that under
    :     relocatable @INC, initialinstalllocation is what binexp started as.
    case "$startperl" in
    '')
    	case "$sharpbang" in
    	*!)
    		$cat <<EOH
    
    I can use the #! construct to start perl on your system. This will
    make startup of perl scripts faster, but may cause problems if you
    want to share those scripts and perl is not in a standard place
    ($initialinstalllocation/perl) on all your platforms. The alternative
    is to force a shell by starting the script with a single ':' character.
    
    EOH
    		case "$versiononly" in
    		"$define")      dflt="$initialinstalllocation/perl$version";;
    		*)              dflt="$initialinstalllocation/perl";;
    		esac
    		rp='What shall I put after the #! to start up perl ("none" to not use #!)?'
    		. ./myread
    		case "$ans" in
    		none)	startperl=": # use perl";;
    		*)	startperl="#!$ans"
    			if $test 30 -lt `echo "$ans" | wc -c`; then
    				$cat >&4 <<EOM
    
    WARNING:  Some systems limit the #! command to 32 characters.
    If you experience difficulty running Perl scripts with #!, try
    installing Perl in a directory with a shorter pathname.
    
    EOM
    			fi ;;
    		esac
    		;;
    	*) startperl=": # use perl"
    		;;
    	esac
    	;;
    esac
    echo "I'll use $startperl to start perl scripts."
    
    : figure best path for perl in scripts
    case "$perlpath" in
    '')
    	case "$versiononly" in
    	"$define")	perlpath="$initialinstalllocation/perl$version";;
    	*)		perlpath="$initialinstalllocation/perl";;
    	esac
    	case "$startperl" in
    	*!*) ;;
    	*)
    		$cat <<EOH
    
    I will use the "eval 'exec'" idiom to start Perl on your system.
    I can use the full path of your Perl binary for this purpose, but
    doing so may cause problems if you want to share those scripts and
    Perl is not always in a standard place ($initialinstalllocation/perl).
    
    EOH
    		dflt="$initialinstalllocation/perl"
    		rp="What path shall I use in \"eval 'exec'\"?"
    		. ./myread
    		perlpath="$ans"
    		;;
    	esac
    	;;
    esac
    case "$startperl" in
    *!*)	;;
    *)	echo "I'll use $perlpath in \"eval 'exec'\"" ;;
    esac
    
    : determine where public executable scripts go
    set scriptdir scriptdir
    eval $prefixit
    case "$scriptdir" in
    '')
    	dflt="$bin"
    	: guess some guesses
    	$test -d /usr/share/scripts && dflt=/usr/share/scripts
    	$test -d /usr/share/bin     && dflt=/usr/share/bin
    	$test -d /usr/local/script  && dflt=/usr/local/script
    	$test -d /usr/local/scripts && dflt=/usr/local/scripts
    	$test -d $prefixexp/script  && dflt=$prefixexp/script
    	set dflt
    	eval $prefixup
    	;;
    *)  dflt="$scriptdir"
    	;;
    esac
    $cat <<EOM
    
    Some installations have a separate directory just for executable scripts so
    that they can mount it across multiple architectures but keep the scripts in
    one spot.  You might, for example, have a subdirectory of /usr/share for this.
    Or you might just lump your scripts in with all your other executables.
    
    EOM
    fn=d~
    rp='Where do you keep publicly executable scripts?'
    . ./getfile
    if $test "X$ansexp" != "X$scriptdirexp"; then
    	installscript=''
    fi
    installscriptdir=''
    prefixvar=scriptdir
    . ./setprefixvar
    : A little fix up for an irregularly named variable.
    installscript="$installscriptdir"
    
    : determine where add-on public executables go
    case "$sitebin" in
    '')	dflt=$siteprefix/bin ;;
    *)	dflt=$sitebin ;;
    esac
    fn=d~
    rp='Pathname where the add-on public executables should be installed?'
    . ./getfile
    prefixvar=sitebin
    . ./setprefixvar
    
    : determine where add-on html pages go
    : There is no standard location, so try to copy the previously-selected
    : directory structure for the core html pages.
    case "$sitehtml1dir" in
    '')    dflt=`echo "$html1dir" | $sed "s#^$prefix#$siteprefix#"` ;;
    *)     dflt=$sitehtml1dir ;;
    esac
    case "$dflt" in
    ''|' ') dflt=none ;;
    esac
    fn=dn+~
    rp='Pathname where the site-specific html pages should be installed?'
    . ./getfile
    prefixvar=sitehtml1dir
    . ./setprefixvar
    
    : determine where add-on library html pages go
    : There is no standard location, so try to copy the previously-selected
    : directory structure for the core html pages.
    case "$sitehtml3dir" in
    '')    dflt=`echo "$html3dir" | $sed "s#^$prefix#$siteprefix#"` ;;
    *)     dflt=$sitehtml3dir ;;
    esac
    case "$dflt" in
    ''|' ') dflt=none ;;
    esac
    fn=dn+~
    rp='Pathname where the site-specific library html pages should be installed?'
    . ./getfile
    prefixvar=sitehtml3dir
    . ./setprefixvar
    
    : determine where add-on manual pages go
    case "$siteman1dir" in
    '')	dflt=`echo $man1dir | $sed "s#^$prefix#$siteprefix#"` ;;
    *)	dflt=$siteman1dir ;;
    esac
    case "$dflt" in
    ''|' ') dflt=none ;;
    esac
    fn=dn+~
    rp='Pathname where the site-specific manual pages should be installed?'
    . ./getfile
    prefixvar=siteman1dir
    . ./setprefixvar
    
    : determine where add-on library man pages go
    case "$siteman3dir" in
    '')	dflt=`echo $man3dir | $sed "s#^$prefix#$siteprefix#"` ;;
    *)	dflt=$siteman3dir ;;
    esac
    case "$dflt" in
    ''|' ') dflt=none ;;
    esac
    fn=dn+~
    rp='Pathname where the site-specific library manual pages should be installed?'
    . ./getfile
    prefixvar=siteman3dir
    . ./setprefixvar
    
    : determine where add-on public executable scripts go
    case "$sitescript" in
    '')	dflt=$siteprefix/script
    	$test -d $dflt || dflt=$sitebin ;;
    *)  dflt="$sitescript" ;;
    esac
    fn=d~+
    rp='Pathname where add-on public executable scripts should be installed?'
    . ./getfile
    prefixvar=sitescript
    . ./setprefixvar
    
    : see if backtrace exists
    set backtrace d_backtrace
    eval $inlibc
    
    : Check if C backtrace is actually supported.
    case "$usecbacktrace" in
      "") usecbacktrace=$undef ;;
      [yY]*|true|$define)
        case "$d_backtrace" in
          [yY]*|true|$define)
            ;;
          *)
            echo "This system does not support backtrace" >&4
            usecbacktrace=$undef
            ;;
          esac
        ;;
      esac
    
    : Check if faststdio is requested and available
    case "$usefaststdio" in
    $define|true|[yY]*|'')
    	xversion=`awk '/define[ 	]+PERL_VERSION/ {print $3}' $rsrc/patchlevel.h`
    	case "$xversion" in
    	[68])	dflt='y' ;;
    	*)	dflt='n' ;;
    	esac
    	;;
    *) dflt='n';;
    esac
    cat <<EOM
    
    Perl can be built to use 'fast stdio', which means using the stdio
    library but also directly manipulating the stdio buffers to enable
    faster I/O.  Using stdio is better for backward compatibility (especially
    for Perl extensions), but on the other hand since Perl 5.8 the 'perlio'
    interface has been preferred instead of stdio.
    
    If this doesn't make any sense to you, just accept the default '$dflt'.
    EOM
    rp='Use the "fast stdio" if available?'
    . ./myread
    case "$ans" in
    y|Y)	val="$define" ;;
    *)      val="$undef" ;;
    esac
    set usefaststdio
    eval $setvar
    
    : define an is-a-typedef? function
    typedef='type=$1; var=$2; def=$3; shift; shift; shift; inclist=$@;
    case "$inclist" in
    "") inclist="sys/types.h";;
    esac;
    eval "varval=\$$var";
    case "$varval" in
    "")
    	$rm -f temp.c;
    	for inc in $inclist; do
    		echo "#include <$inc>" >>temp.c;
    	done;
    	echo "#ifdef $type" >> temp.c;
    	echo "printf(\"We have $type\");" >> temp.c;
    	echo "#endif" >> temp.c;
    	$cppstdin $cppflags $cppminus < temp.c >temp.E 2>/dev/null;
    	if $contains $type temp.E >/dev/null 2>&1; then
    		eval "$var=\$type";
    	else
    		eval "$var=\$def";
    	fi;
    	$rm -f temp.?;;
    *) eval "$var=\$varval";;
    esac'
    
    : define an is-a-typedef? function that prompts if the type is not available.
    typedef_ask='type=$1; var=$2; def=$3; shift; shift; shift; inclist=$@;
    case "$inclist" in
    "") inclist="sys/types.h";;
    esac;
    eval "varval=\$$var";
    case "$varval" in
    "")
    	$rm -f temp.c;
    	for inc in $inclist; do
    		echo "#include <$inc>" >>temp.c;
    	done;
    	echo "#ifdef $type" >> temp.c;
    	echo "printf(\"We have $type\");" >> temp.c;
    	echo "#endif" >> temp.c;
    	$cppstdin $cppflags $cppminus < temp.c >temp.E 2>/dev/null;
    	echo " " ;
    	echo "$rp" | $sed -e "s/What is/Looking for/" -e "s/?/./";
    	if $contains $type temp.E >/dev/null 2>&1; then
    		echo "$type found." >&4;
    		eval "$var=\$type";
    	else
    		echo "$type NOT found." >&4;
    		dflt="$def";
    		. ./myread ;
    		eval "$var=\$ans";
    	fi;
    	$rm -f temp.?;;
    *) eval "$var=\$varval";;
    esac'
    
    : see what type lseek is declared as in the kernel
    rp="What is the type used for lseek's offset on this system?"
    set off_t lseektype long stdio.h sys/types.h
    eval $typedef_ask
    
    echo " "
    echo "Checking to see how big your file offsets are..." >&4
    $cat >try.c <<EOCP
    #include <sys/types.h>
    #include <stdio.h>
    int main()
    {
        printf("%d\n", (int)sizeof($lseektype));
        return(0);
    }
    EOCP
    set try
    if eval $compile_ok; then
    	lseeksize=`$run ./try`
    	echo "Your file offsets are $lseeksize bytes long."
    else
    	dflt=$longsize
    	echo " "
    	echo "(I can't seem to compile the test program.  Guessing...)"
    	rp="What is the size of your file offsets (in bytes)?"
    	. ./myread
    	lseeksize="$ans"
    fi
    $rm_try
    
    : see what type file positions are declared as in the library
    rp="What is the type for file position used by fsetpos()?"
    set fpos_t fpostype long stdio.h sys/types.h
    eval $typedef_ask
    
    : Check size for Fpos_t
    echo " "
    case "$fpostype" in
    *_t) zzz="$fpostype"	;;
    *)   zzz="fpos_t"	;;
    esac
    echo "Checking the size of $zzz..." >&4
    cat > try.c <<EOCP
    #include <sys/types.h>
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    int main() {
        printf("%d\n", (int)sizeof($fpostype));
        exit(0);
    }
    EOCP
    set try
    if eval $compile_ok; then
    	yyy=`$run ./try`
    	case "$yyy" in
    	'')	fpossize=4
    		echo "(I can't execute the test program--guessing $fpossize.)" >&4
    		;;
    	*)	fpossize=$yyy
    		echo "Your $zzz is $fpossize bytes long."
    		;;
    	esac
    else
    	dflt="$longsize"
    	echo " " >&4
    	echo "(I can't compile the test program.  Guessing...)" >&4
    	rp="What is the size of your file positions (in bytes)?"
    	. ./myread
    	fpossize="$ans"
    fi
    
    : Check for large file support
    # Backward compatibility (uselfs is deprecated).
    case "$uselfs" in
    "$define"|true|[yY]*)
    	cat <<EOM >&4
    
    *** Configure -Duselfs is deprecated, using -Duselargefiles instead.
    EOM
    	uselargefiles="$define"
    	;;
    esac
    
    case "$lseeksize:$fpossize" in
    8:8) cat <<EOM
    
    You can have files larger than 2 gigabytes.
    EOM
       val="$define" ;;
    *)    case "$uselargefiles" in
       "$undef"|false|[nN]*) dflt='n' ;;
       *)	dflt='y' ;;
       esac
       cat <<EOM
    
    Perl can be built to understand large files (files larger than 2 gigabytes)
    on some systems.  To do so, Configure can be run with -Duselargefiles.
    
    If this doesn't make any sense to you, just accept the default '$dflt'.
    EOM
       rp='Try to understand large files, if available?'
       . ./myread
       case "$ans" in
       y|Y)	val="$define" ;;
       *)	val="$undef"  ;;
       esac
       ;;
    esac
    set uselargefiles
    eval $setvar
    : Look for a hint-file generated 'call-back-unit'.  If the
    : user has specified that a large files perl is to be built,
    : we may need to set or change some other defaults.
    if $test -f uselargefiles.cbu; then
    	echo "Your platform has some specific hints regarding large file builds, using them..."
    	. ./uselargefiles.cbu
    fi
    case "$uselargefiles" in
    "$define")
    	if $test -f uselargefiles.cbu; then
    		echo " "
    		echo "Rechecking to see how big your file offsets are..." >&4
    		$cat >try.c <<EOCP
    #include <sys/types.h>
    #include <stdio.h>
    int main()
    {
        printf("%d\n", (int)sizeof($lseektype));
        return(0);
    }
    EOCP
    		set try
    		if eval $compile_ok; then
    			lseeksize=`$run ./try`
    			$echo "Your file offsets are now $lseeksize bytes long."
    		else
    			dflt="$lseeksize"
    			echo " "
    			echo "(I can't seem to compile the test program.  Guessing...)"
    			rp="What is the size of your file offsets (in bytes)?"
    			. ./myread
    			lseeksize="$ans"
    		fi
    		case "$fpostype" in
    		*_t) zzz="$fpostype"	;;
    		*)   zzz="fpos_t"	;;
    		esac
    		$echo $n "Rechecking the size of $zzz...$c" >&4
    		$cat > try.c <<EOCP
    #include <sys/types.h>
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    int main() {
        printf("%d\n", (int)sizeof($fpostype));
        return(0);
    }
    EOCP
    		set try
    		if eval $compile_ok; then
    			yyy=`$run ./try`
    			dflt="$lseeksize"
    			case "$yyy" in
    			'')	echo " "
    				echo "(I can't execute the test program--guessing $fpossize.)" >&4
    				;;
    			*)	fpossize=$yyy
    				echo " $fpossize bytes." >&4
    				;;
    			esac
    		else
    			dflt="$fpossize"
    			echo " "
    			echo "(I can't compile the test program.  Guessing...)" >&4
    			rp="What is the size of your file positions (in bytes)?"
    			. ./myread
    			fpossize="$ans"
    		fi
    		$rm_try
    	fi
    	;;
    esac
    
    : Check if we want perlio
    useperlio="$define"
    
    : Set the vendorbin variables
    case "$vendorprefix" in
    '')	d_vendorbin="$undef"
    	vendorbin=''
    	vendorbinexp=''
    	;;
    *)	d_vendorbin="$define"
    	: determine where vendor-supplied executables go.
    	case "$vendorbin" in
    	'') dflt=$vendorprefix/bin ;;
    	*)	dflt="$vendorbin" ;;
    	esac
    	fn=d~+
    	rp='Pathname for the vendor-supplied executables directory?'
    	. ./getfile
    	vendorbin="$ans"
    	vendorbinexp="$ansexp"
    	;;
    esac
    prefixvar=vendorbin
    . ./installprefix
    
    : Set the vendorhtml1dir variables
    case "$vendorprefix" in
    '')	vendorhtml1dir=''
    	vendorhtml1direxp=''
    	;;
    *)	: determine where vendor-supplied html pages go.
    	: There is no standard location, so try to copy the previously-selected
    	: directory structure for the core html pages.
    	: XXX Better default suggestions would be welcome.
    	case "$vendorhtml1dir" in
    	'')	dflt=`echo "$html1dir" | $sed "s#^$prefix#$vendorprefix#"` ;;
    	*)	dflt=$vendorhtml1dir ;;
    	esac
    	case "$dflt" in
    	''|' ') dflt=none ;;
    	esac
    	fn=dn+~
    	rp='Pathname for the vendor-supplied html pages?'
    	. ./getfile
    	vendorhtml1dir="$ans"
    	vendorhtml1direxp="$ansexp"
    	;;
    esac
    : Use ' ' for none so value is preserved next time through Configure
    $test X"$vendorhtml1dir" = "X" && vendorhtml1dir=' '
    prefixvar=vendorhtml1dir
    . ./installprefix
    
    : Set the vendorhtml3dir variables
    case "$vendorprefix" in
    '')	vendorhtml3dir=''
    	vendorhtml3direxp=''
    	;;
    *)	: determine where vendor-supplied module html pages go.
    	: There is no standard location, so try to copy the previously-selected
    	: directory structure for the core html pages.
    	: XXX Better default suggestions would be welcome.
    	case "$vendorhtml3dir" in
    	'')	dflt=`echo "$html3dir" | $sed "s#^$prefix#$vendorprefix#"` ;;
    	*)	dflt=$vendorhtml3dir ;;
    	esac
    	case "$dflt" in
    	''|' ') dflt=none ;;
    	esac
    	fn=dn+~
    	rp='Pathname for the vendor-supplied html pages?'
    	. ./getfile
    	vendorhtml3dir="$ans"
    	vendorhtml3direxp="$ansexp"
    	;;
    esac
    : Use ' ' for none so value is preserved next time through Configure
    $test X"$vendorhtml3dir" = "X" && vendorhtml3dir=' '
    prefixvar=vendorhtml3dir
    . ./installprefix
    
    : Set the vendorman1dir variables
    case "$vendorprefix" in
    '')	vendorman1dir=''
    	vendorman1direxp=''
    	;;
    *)	: determine where vendor-supplied manual pages go.
    	case "$vendorman1dir" in
    	'') dflt=`echo "$man1dir" | $sed "s#^$prefix#$vendorprefix#"` ;;
    	*)	dflt=$vendorman1dir ;;
    	esac
    	case "$dflt" in
    	''|' ') dflt=none ;;
    	esac
    	fn=nd~+
    	rp='Pathname for the vendor-supplied manual section 1 pages?'
    	. ./getfile
    	vendorman1dir="$ans"
    	vendorman1direxp="$ansexp"
    	;;
    esac
    : Use ' ' for none so value is preserved next time through Configure
    $test X"$vendorman1dir" = "X" && vendorman1dir=' '
    prefixvar=vendorman1dir
    . ./installprefix
    
    : Set the vendorman3dir variables
    case "$vendorprefix" in
    '')	vendorman3dir=''
    	vendorman3direxp=''
    	;;
    *)	: determine where vendor-supplied module manual pages go.
    	case "$vendorman3dir" in
    	'') dflt=`echo "$man3dir" | $sed "s#^$prefix#$vendorprefix#"` ;;
    	*)	dflt=$vendorman3dir ;;
    	esac
    	case "$dflt" in
    	''|' ') dflt=none ;;
    	esac
    	fn=nd~+
    	rp='Pathname for the vendor-supplied manual section 3 pages?'
    	. ./getfile
    	vendorman3dir="$ans"
    	vendorman3direxp="$ansexp"
    	;;
    esac
    : Use ' ' for none so value is preserved next time through Configure
    $test X"$vendorman3dir" = "X" && vendorman3dir=' '
    prefixvar=vendorman3dir
    . ./installprefix
    
    : Set the vendorscript variables
    case "$vendorprefix" in
    '')	d_vendorscript="$undef"
    	vendorscript=''
    	vendorscriptexp=''
    	;;
    *)	d_vendorscript="$define"
    	: determine where vendor-supplied scripts go.
    	case "$vendorscript" in
    	'')	dflt=$vendorprefix/script
    		$test -d $dflt || dflt=$vendorbin ;;
    	*)  dflt="$vendorscript" ;;
    	esac
    	$cat <<EOM
    
    The installation process will create a directory for
    vendor-supplied scripts.
    
    EOM
    	fn=d~+
    	rp='Pathname for the vendor-supplied scripts directory?'
    	. ./getfile
    	vendorscript="$ans"
    	vendorscriptexp="$ansexp"
    	;;
    esac
    prefixvar=vendorscript
    . ./installprefix
    
    : see if qgcvt exists
    set qgcvt d_qgcvt
    eval $inlibc
    
    : Check what kind of doubles your system has
    $echo "Checking the kind of doubles you have..." >&4
    $cat >try.c <<EOP
    #$i_stdlib I_STDLIB
    #define DOUBLESIZE $doublesize
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #include <stdio.h>
    static const double d = -0.1;
    int main() {
      unsigned const char* b = (unsigned const char*)(&d);
    #if DOUBLESIZE == 4
      if (b[0] == 0xCD && b[3] == 0xBD) {
        /* IEEE 754 32-bit little-endian */
        printf("1\n");
        exit(0);
      }
      if (b[0] == 0xBD && b[3] == 0xCD) {
        /* IEEE 754 32-bit big-endian */
        printf("2\n");
        exit(0);
      }
      if (b[0] == 0xCC && b[3] == 0xCC) {
        /* VAX format F, 32-bit PDP-style mixed endian. */
        printf("9\n");
        exit(0);
      }
      if (b[0] == 0xC0 && b[3] == 0x9A) {
        /* IBM single 32-bit */
        printf("12\n");
        exit(0);
      }
    #endif
    #if DOUBLESIZE == 8
      if (b[0] == 0x9A && b[7] == 0xBF) {
        /* IEEE 754 64-bit little-endian */
        printf("3\n");
        exit(0);
      }
      if (b[0] == 0xBF && b[7] == 0x9A) {
        /* IEEE 754 64-bit big-endian */
        printf("4\n");
        exit(0);
      }
      if (b[0] == 0x99 && b[3] == 0xBF && b[4] == 0x9A && b[7] == 0x99) {
       /* ARM mixed endian: two little-endian 32-bit floats, in big endian order:
        * 4 5 6 7 0 1 2 3 (MSB = 7, LSB = 0)
        * 99 99 b9 bf 9a 99 99 99 */
        printf("7\n");
        exit(0);
      }
      if (b[0] == 0x99 && b[3] == 0x9A && b[4] == 0xBF && b[7] == 0x99) {
       /* The opposite of case 7, mixed endian: two big-endian 32-bit floats,
        * in little endian order: 3 2 1 0 7 6 5 4 (MSB = 7, LSB = 0)
        * 99 99 99 9a bf b9 99 99 */
        printf("8\n");
        exit(0);
      }
      if (b[0] == 0xCC && b[7] == 0xCC) {
       /* VAX format D, 64-bit PDP-style mixed endian. */
        printf("10\n");
        exit(0);
      }
      if (b[0] == 0xD9 && b[7] == 0x99) {
       /* VAX format G, 64-bit PDP-style mixed endian. */
        printf("11\n");
        exit(0);
      }
      if (b[0] == 0xC0 && b[7] == 0x9A) {
        /* IBM double 64-bit */
        printf("13\n");
        exit(0);
      }
      if (b[0] == 0xBF && b[7] == 0xCD) {
        /* CRAY single 64-bit */
        printf("14\n");
        exit(0);
      }
    #endif
    #if DOUBLESIZE == 16
      if (b[0] == 0x9A && b[15] == 0xBF) {
        /* IEEE 754 128-bit little-endian */
        printf("5\n");
        exit(0);
      }
      if (b[0] == 0xBF && b[15] == 0x9A) {
        /* IEEE 754 128-bit big-endian */
        printf("6\n");
        exit(0);
      }
    #endif
      /* Then there are old mainframe/miniframe formats like IBM and CRAY.
       * Whether those environments can still build Perl is debatable. */
      printf("-1\n"); /* unknown */
      exit(0);
    }
    EOP
    set try
    if eval $compile; then
        doublekind=`$run ./try`
    else
        doublekind=-1
    fi
    case "$doublekind" in
    1) echo "You have IEEE 754 32-bit little endian doubles." >&4 ;;
    2) echo "You have IEEE 754 32-bit big endian doubles." >&4 ;;
    3) echo "You have IEEE 754 64-bit little endian doubles." >&4 ;;
    4) echo "You have IEEE 754 64-bit big endian doubles." >&4 ;;
    5) echo "You have IEEE 754 128-bit little endian doubles." >&4 ;;
    6) echo "You have IEEE 754 128-bit big endian doubles." >&4 ;;
    7) echo "You have IEEE 754 64-bit mixed endian doubles (32-bit LEs in BE)." >&4 ;;
    8) echo "You have IEEE 754 64-bit mixed endian doubles (32-bit BEs in LE)." >&4 ;;
    9) echo "You have VAX format F 32-bit PDP-style mixed endian doubles." >&4 ;;
    10) echo "You have VAX format D 64-bit PDP-style mixed endian doubles." >&4 ;;
    11) echo "You have VAX format G 64-bit PDP-style mixed endian doubles." >&4 ;;
    12) echo "You have IBM short 32-bit doubles." >&4 ;;
    13) echo "You have IBM long 64-bit doubles." >&4 ;;
    14) echo "You have Cray single 64-bit doubles." >&4 ;;
    *) echo "Cannot figure out your double.  You Cyber, or something?" >&4 ;;
    esac
    d_double_style_ieee=$undef
    d_double_style_vax=$undef
    d_double_style_ibm=$undef
    d_double_style_cray=$undef
    case "$doublekind" in
    1|2|3|4|5|6|7|8) d_double_style_ieee=$define ;;
    9|10|11) d_double_style_vax=$define ;;
    12|13) d_double_style_ibm=$define ;;
    14) d_double_style_cray=$define ;;
    esac
    case "$d_double_style_ieee" in
    $define)
        d_double_has_inf=$define
        d_double_has_nan=$define
        d_double_has_negative_zero=$define
        d_double_has_subnormals=$define
        ;;
    *)
        d_double_has_inf=$undef
        d_double_has_nan=$undef
        d_double_has_negative_zero=$undef
        d_double_has_subnormals=$undef
        ;;
    esac
    $rm_try
    
    : Check print/scan long double stuff
    echo " "
    
    if $test X"$d_longdbl" = X"$define"; then
    
    echo "Checking how to print long doubles..." >&4
    
    if $test X"$sPRIfldbl" = X -a X"$doublesize" = X"$longdblsize"; then
    	$cat >try.c <<'EOCP'
    #include <sys/types.h>
    #include <stdio.h>
    int main() {
      double d = 123.456;
      printf("%.3f\n", d);
    }
    EOCP
    	set try
    	if eval $compile; then
    		yyy=`$run ./try`
    		case "$yyy" in
    		123.456)
    			sPRIfldbl='"f"'; sPRIgldbl='"g"'; sPRIeldbl='"e"';
    			sPRIFUldbl='"F"'; sPRIGUldbl='"G"'; sPRIEUldbl='"E"';
    			echo "We will use %f."
    			;;
    		esac
    	fi
    fi
    
    if $test X"$sPRIfldbl" = X; then
    	$cat >try.c <<'EOCP'
    #include <sys/types.h>
    #include <stdio.h>
    int main() {
      long double d = 123.456;
      printf("%.3Lf\n", d);
    }
    EOCP
    	set try
    	if eval $compile; then
    		yyy=`$run ./try`
    		case "$yyy" in
    		123.456)
    			sPRIfldbl='"Lf"'; sPRIgldbl='"Lg"'; sPRIeldbl='"Le"';
    			sPRIFUldbl='"LF"'; sPRIGUldbl='"LG"'; sPRIEUldbl='"LE"';
    			echo "We will use %Lf."
    			;;
    		esac
    	fi
    fi
    
    if $test X"$sPRIfldbl" = X; then
    	$cat >try.c <<'EOCP'
    #include <sys/types.h>
    #include <stdio.h>
    int main() {
      long double d = 123.456;
      printf("%.3llf\n", d);
    }
    EOCP
    	set try
    	if eval $compile; then
    		yyy=`$run ./try`
    		case "$yyy" in
    		123.456)
    			sPRIfldbl='"llf"'; sPRIgldbl='"llg"'; sPRIeldbl='"lle"';
    			sPRIFUldbl='"llF"'; sPRIGUldbl='"llG"'; sPRIEUldbl='"llE"';
    			echo "We will use %llf."
    			;;
    		esac
    	fi
    fi
    
    if $test X"$sPRIfldbl" = X; then
    	$cat >try.c <<'EOCP'
    #include <sys/types.h>
    #include <stdio.h>
    int main() {
      long double d = 123.456;
      printf("%.3lf\n", d);
    }
    EOCP
    	set try
    	if eval $compile; then
    		yyy=`$run ./try`
    		case "$yyy" in
    		123.456)
    			sPRIfldbl='"lf"'; sPRIgldbl='"lg"'; sPRIeldbl='"le"';
    			sPRIFUldbl='"lF"'; sPRIGUldbl='"lG"'; sPRIEUldbl='"lE"';
    			echo "We will use %lf."
    			;;
    		esac
    	fi
    fi
    
    if $test X"$sPRIfldbl" = X; then
    	echo "Cannot figure out how to print long doubles." >&4
    else
    	sSCNfldbl=$sPRIfldbl	# expect consistency
    fi
    
    $rm_try
    
    fi # d_longdbl
    
    case "$sPRIfldbl" in
    '')	d_PRIfldbl="$undef"; d_PRIgldbl="$undef"; d_PRIeldbl="$undef";
    	d_PRIFUldbl="$undef"; d_PRIGUldbl="$undef"; d_PRIEUldbl="$undef";
    	d_SCNfldbl="$undef";
    	;;
    *)	d_PRIfldbl="$define"; d_PRIgldbl="$define"; d_PRIeldbl="$define";
    	d_PRIFUldbl="$define"; d_PRIGUldbl="$define"; d_PRIEUldbl="$define";
    	d_SCNfldbl="$define";
    	;;
    esac
    
    : Before committing on uselongdouble, see whether that looks sane.
    if $test "$uselongdouble" = "$define"; then
        message=""
        echo " "
        echo "Checking if your long double math functions work right..." >&4
        $cat > try.c <<EOF
    #include <math.h>
    #include <stdio.h>
    int main() {
      printf("%"$sPRIgldbl"\n", sqrtl(logl(expl(cosl(sinl(0.0L))))+powl(2.0L, 3.0L)));
    }
    EOF
        case "$osname:$gccversion" in
        aix:)	saveccflags="$ccflags"
    		ccflags="$ccflags -qlongdouble" ;; # to avoid core dump
        esac
        set try
        if eval $compile_ok; then
          yyy=`$run ./try`
        fi
        case "$yyy" in
        3) echo "Your long double math functions are working correctly." >&4 ;;
        *) echo "Your long double math functions are broken, not using long doubles." >&4
           uselongdouble=$undef
           ;;
        esac
        $rm_try
        case "$osname:$gccversion" in
        aix:)	ccflags="$saveccflags" ;; # restore
        esac
    fi
    
    : Check how to convert floats to strings.
    
    if test "X$d_Gconvert" = X; then
    
    echo " "
    echo "Checking for an efficient way to convert floats to strings."
    echo " " > try.c
    case "$uselongdouble" in
    "$define") echo "#define USE_LONG_DOUBLE" >>try.c ;;
    esac
    case "$d_longdbl" in
    "$define") echo "#define HAS_LONG_DOUBLE" >>try.c ;;
    esac
    case "$d_PRIgldbl" in
    "$define") echo "#define HAS_PRIgldbl"    >>try.c ;;
    esac
    $cat >>try.c <<EOP
    #ifdef TRY_gconvert
    #define Gconvert(x,n,t,b) gconvert((x),(n),(t),(b))
    const char *myname = "gconvert";
    #endif
    #ifdef TRY_gcvt
    #define Gconvert(x,n,t,b) gcvt((x),(n),(b))
    const char *myname = "gcvt";
    #endif
    #ifdef TRY_qgcvt
    #define Gconvert(x,n,t,b) qgcvt((x),(n),(b))
    const char *myname = "qgcvt";
    #define DOUBLETYPE long double
    #endif
    #ifdef TRY_sprintf
    #if defined(USE_LONG_DOUBLE) && defined(HAS_LONG_DOUBLE)
    #ifdef HAS_PRIgldbl
    #define Gconvert(x,n,t,b) sprintf((b),"%.*"$sPRIgldbl,(n),(x))
    #else
    #define Gconvert(x,n,t,b) sprintf((b),"%.*g",(n),(double)(x))
    #endif
    #else
    #define Gconvert(x,n,t,b) sprintf((b),"%.*g",(n),(x))
    #endif
    const char *myname = "sprintf";
    #endif
    
    #ifndef DOUBLETYPE
    #if defined(USE_LONG_DOUBLE) && defined(HAS_LONG_DOUBLE)
    #define DOUBLETYPE long double
    #else
    #define DOUBLETYPE double
    #endif
    #endif
    
    #include <stdio.h>
    
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #include <string.h>
    
    void checkit(const char *expect, char *got)
    {
        if (strcmp(expect, got)) {
    		printf("%s oddity:  Expected %s, got %s\n",
    			myname, expect, got);
    		exit(1);
    	}
    }
    
    void lencheck(int expect, int got)
    {
        if (expect != got) {
    		printf("%s length mismatch:  Expected %d, got %d\n",
    			myname, expect, got);
    		exit(1);
    	}
    }
    
    int main()
    {
    	char buf[64];
    	buf[63] = '\0';
    
    	/* This must be 1st test on (which?) platform */
    	/* Alan Burlison <AlanBurlsin@unn.unisys.com> */
    	Gconvert((DOUBLETYPE)0.1, 8, 0, buf);
    	checkit("0.1", buf);
    
    	Gconvert((DOUBLETYPE)0.01, 8, 0, buf);
    	checkit("0.01", buf);
    
    	Gconvert((DOUBLETYPE)0.001, 8, 0, buf);
    	checkit("0.001", buf);
    
    	Gconvert((DOUBLETYPE)0.0001, 8, 0, buf);
    	checkit("0.0001", buf);
    
    	Gconvert((DOUBLETYPE)0.00009, 8, 0, buf);
    	if (strlen(buf) > 5)
    	    checkit("9e-005", buf); /* for Microsoft ?? */
    	else
    	    checkit("9e-05", buf);
    
    	Gconvert((DOUBLETYPE)1.0, 8, 0, buf);
    	checkit("1", buf);
    
    	Gconvert((DOUBLETYPE)1.1, 8, 0, buf);
    	checkit("1.1", buf);
    
    	Gconvert((DOUBLETYPE)1.01, 8, 0, buf);
    	checkit("1.01", buf);
    
    	Gconvert((DOUBLETYPE)1.001, 8, 0, buf);
    	checkit("1.001", buf);
    
    	Gconvert((DOUBLETYPE)1.0001, 8, 0, buf);
    	checkit("1.0001", buf);
    
    	Gconvert((DOUBLETYPE)1.00001, 8, 0, buf);
    	checkit("1.00001", buf);
    
    	Gconvert((DOUBLETYPE)1.000001, 8, 0, buf);
    	checkit("1.000001", buf);
    
    	Gconvert((DOUBLETYPE)0.0, 8, 0, buf);
    	checkit("0", buf);
    
    	Gconvert((DOUBLETYPE)-1.0, 8, 0, buf);
    	checkit("-1", buf);
    
    	/* Some Linux gcvt's give 1.e+5 here. */
    	Gconvert((DOUBLETYPE)100000.0, 8, 0, buf);
    	checkit("100000", buf);
    
    	/* Some Linux gcvt's give -1.e+5 here. */
    	Gconvert((DOUBLETYPE)-100000.0, 8, 0, buf);
    	checkit("-100000", buf);
    
    	Gconvert((DOUBLETYPE)123.456, 8, 0, buf);
    	checkit("123.456", buf);
    
    	/* Testing of 1e+129 in bigintpm.t must not get extra '.' here. */
    	Gconvert((DOUBLETYPE)1e34, 8, 0, buf);
    	/* 34 should be enough to scare even long double
    	 * places into using the e notation. */
    	if (strlen(buf) > 5)
    	    checkit("1e+034", buf); /* for Microsoft */
    	else
    	    checkit("1e+34", buf);
    
    	/* Test for an Ubuntu/Debian bug in gcvt and qgcvt. See:        *
    	 * https://bugs.launchpad.net/ubuntu/+source/glibc/+bug/1899553 */
    
    	Gconvert((DOUBLETYPE)0.4, 53, 0, buf);
    	lencheck(55, (int)strlen(buf));
    
    	/* For Perl, if you add additional tests here, also add them to
    	 * t/base/num.t for benefit of platforms not using Configure or
    	 * overriding d_Gconvert */
    
    	exit(0);
    }
    EOP
    : first add preferred functions to our list
    xxx_list=""
    for xxx_convert in $gconvert_preference; do
        case $xxx_convert in
        gcvt|gconvert|sprintf) xxx_list="$xxx_list $xxx_convert" ;;
        *) echo "Discarding unrecognized gconvert_preference $xxx_convert" >&4 ;;
        esac
    done
    : then add any others
    for xxx_convert in gconvert gcvt sprintf; do
        case "$xxx_list" in
        *$xxx_convert*) ;;
        *) xxx_list="$xxx_list $xxx_convert" ;;
        esac
    done
    
    case "$d_longdbl$uselongdouble" in
    "$define$define")
        : again, add preferred functions to our list first
        xxx_ld_list=""
        for xxx_convert in $gconvert_ld_preference; do
            case $xxx_convert in
            qgcvt|gcvt|gconvert|sprintf) xxx_ld_list="$xxx_ld_list $xxx_convert" ;;
            *) echo "Discarding unrecognized gconvert_ld_preference $xxx_convert" ;;
            esac
        done
        : then add qgcvt, sprintf--then, in xxx_list order, gconvert and gcvt
        for xxx_convert in qgcvt sprintf $xxx_list; do
            case "$xxx_ld_list" in
            $xxx_convert*|*" $xxx_convert"*) ;;
            *) xxx_ld_list="$xxx_ld_list $xxx_convert" ;;
            esac
        done
        : if sprintf cannot do long doubles, move it to the end
        if test "$d_PRIgldbl" != "$define"; then
            xxx_ld_list="`echo $xxx_ld_list|sed s/sprintf//` sprintf"
        fi
        : if no qgcvt, remove it
        if test "$d_qgcvt" != "$define"; then
            xxx_ld_list="`echo $xxx_ld_list|sed s/qgcvt//`"
        fi
        : use the ld_list
        xxx_list="$xxx_ld_list"
        ;;
    esac
    
    for xxx_convert in $xxx_list; do
    	echo "Trying $xxx_convert..."
    	$rm -f try try$_o core
    	set try -DTRY_$xxx_convert
    	if eval $compile; then
    		echo "$xxx_convert() found." >&4
    		if $run ./try; then
    			echo "I'll use $xxx_convert to convert floats into a string." >&4
    			break;
    		else
    			echo "...But $xxx_convert didn't work as I expected."
    			xxx_convert=''
    		fi
    	else
    		echo "$xxx_convert NOT found." >&4
    		xxx_convert=''
    	fi
    done
    
    if test X$xxx_convert = X; then
        echo "*** WHOA THERE!!! ***" >&4
        echo "None of ($xxx_list)  seemed to work properly.  I'll use sprintf." >&4
        xxx_convert=sprintf
    fi
    
    case "$xxx_convert" in
    gconvert) d_Gconvert='gconvert((x),(n),(t),(b))' ;;
    gcvt) d_Gconvert='gcvt((x),(n),(b))' ;;
    qgcvt) d_Gconvert='qgcvt((x),(n),(b))' ;;
    *) case "$uselongdouble$d_longdbl$d_PRIgldbl" in
       "$define$define$define")
          d_Gconvert="sprintf((b),\"%.*\"$sPRIgldbl,(n),(x))" ;;
       "$define$define$undef")
          d_Gconvert='sprintf((b),"%.*g",(n),(double)(x))' ;;
       *) d_Gconvert='sprintf((b),"%.*g",(n),(x))' ;;
       esac
       ;;
    esac
    
    fi
    $rm_try
    
    : see if _fwalk exists
    set fwalk d__fwalk
    eval $inlibc
    
    : see if accept4 exists
    set accept4 d_accept4
    eval $inlibc
    
    : Initialize h_fcntl
    h_fcntl=false
    
    : Initialize h_sysfile
    h_sysfile=false
    
    : access call always available on UNIX
    set access d_access
    eval $inlibc
    
    : locate the flags for 'access()'
    case "$d_access" in
    "$define")
    	echo " "
    	$cat >access.c <<EOCP
    #include <sys/types.h>
    #ifdef I_FCNTL
    #include <fcntl.h>
    #endif
    #ifdef I_SYS_FILE
    #include <sys/file.h>
    #endif
    #ifdef I_UNISTD
    #include <unistd.h>
    #endif
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    int main() {
    	exit(R_OK);
    }
    EOCP
    	: check sys/file.h first, no particular reason here
    	if $test `./findhdr sys/file.h` && \
    		$cc -o access $cppflags -DI_SYS_FILE access.c >/dev/null 2>&1 ; then
    		h_sysfile=true;
    		echo "<sys/file.h> defines the *_OK access constants." >&4
    	elif $test `./findhdr fcntl.h` && \
    		$cc -o access $cppflags -DI_FCNTL access.c >/dev/null 2>&1 ; then
    		h_fcntl=true;
    		echo "<fcntl.h> defines the *_OK access constants." >&4
    	elif $test `./findhdr unistd.h` && \
    		$cc -o access $cppflags -DI_UNISTD access.c >/dev/null 2>&1 ; then
    		echo "<unistd.h> defines the *_OK access constants." >&4
    	else
    		echo "I can't find the four *_OK access constants--I'll use mine." >&4
    	fi
    	;;
    esac
    $rm -f access*
    
    : see if accessx exists
    set accessx d_accessx
    eval $inlibc
    
    : see if acosh exists
    set acosh d_acosh
    eval $inlibc
    
    : see if aintl exists
    set aintl d_aintl
    eval $inlibc
    
    : see if alarm exists
    set alarm d_alarm
    eval $inlibc
    
    : see if 64bit time functions exists
    
    set ctime64 d_ctime64
    eval $inlibc
    
    set localtime64 d_localtime64
    eval $inlibc
    
    set gmtime64 d_gmtime64
    eval $inlibc
    
    set mktime64 d_mktime64
    eval $inlibc
    
    set difftime64 d_difftime64
    eval $inlibc
    
    set asctime64 d_asctime64
    eval $inlibc
    
    : see if POSIX threads are available
    set pthread.h i_pthread
    eval $inhdr
    
    : define a function to check prototypes
    $cat > protochk <<EOSH
    $startsh
    cc="$cc"
    optimize="$optimize"
    ccflags="$ccflags"
    define="$define"
    rm_try="$rm_try"
    usethreads=$usethreads
    i_pthread=$i_pthread
    pthread_h_first=$pthread_h_first
    EOSH
    
    $cat >> protochk <<'EOSH'
    
    $rm_try
    foo="$1"
    shift
    while test $# -ge 2; do
    	case "$1" in
    		$define) echo "#include <$2>" >> try.c ;;
    		literal) echo "$2" >> try.c ;;
    	esac
        # Extra magic for the benefit of systems that need pthread.h
        # to be included early to correctly detect threadsafe functions.
        # Such functions must guarantee themselves, though, that the usethreads
        # and i_pthread have been defined, before calling protochk.
        if test "$usethreads" = "$define" -a "$i_pthread" = "$define" -a "$pthread_h_first" = "$define" -a "$pthread_h_done" = ""; then
    	echo "#include <pthread.h>" >> try.c
    	pthread_h_done=yes
        fi
        shift 2
    done
    cat >> try.c <<'EOCP'
    #define	_(args) args
    EOCP
    echo "$foo" >> try.c
    echo 'int no_real_function_has_this_name _((void)) { return 0; }' >> try.c
    $cc $optimize $ccflags -c try.c > /dev/null 2>&1
    status=$?
    $rm_try
    exit $status
    EOSH
    chmod +x protochk
    $eunicefix protochk
    
    : Define hasproto macro for Configure internal use
    hasproto='varname=$1; func=$2; shift; shift;
    while $test $# -ge 2; do
    	case "$1" in
    	$define) echo "#include <$2>";;
    	literal) echo "$2" ;;
    	esac ;
        shift 2;
    done > try.c;
    $cppstdin $cppflags $cppminus < try.c > tryout.c 2>/dev/null;
    if $contains "$func.*(" tryout.c >/dev/null 2>&1; then
    	echo "$func() prototype found.";
    	val="$define";
    else
    	echo "$func() prototype NOT found.";
    	val="$undef";
    fi;
    set $varname;
    eval $setvar;
    $rm_try tryout.c'
    
    : see if sys/types.h has to be included
    set sys/types.h i_systypes
    eval $inhdr
    
    : see if sys/select.h has to be included
    set sys/select.h i_sysselct
    eval $inhdr
    
    : Define hasfield macro for Configure internal use
    hasfield='varname=$1; struct=$2; field=$3; shift; shift; shift;
    while $test $# -ge 2; do
    	case "$1" in
    	$define) echo "#include <$2>";;
    	esac ;
        shift 2;
    done > try.c;
    echo "int main () { struct $struct foo; char* bar; bar = (char*)foo.$field; }" >> try.c;
    set try;
    if eval $compile; then
    	val="$define";
    else
    	val="$undef";
    fi;
    set $varname;
    eval $setvar;
    $rm_try'
    
    : see if we should include sys/time.h
    echo " "
    i_time='define'
    if test "X$timeincl" = X; then
    	echo "Testing to see if we should include <sys/time.h>." >&4
    	$echo $n "I'm now running the test program...$c"
    	$cat >try.c <<EOCP
    #include <sys/types.h>
    #include <time.h>
    #ifdef I_SYSTIME
    #ifdef SYSTIMEKERNEL
    #define KERNEL
    #endif
    #include <sys/time.h>
    #endif
    #ifdef I_SYSSELECT
    #include <sys/select.h>
    #endif
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    int main()
    {
    	struct tm foo;
    #ifdef S_TIMEVAL
    	struct timeval bar;
    #endif
    #ifdef S_TIMEZONE
    	struct timezone tzp;
    #endif
    	if (foo.tm_sec == foo.tm_sec)
    		exit(0);
    #ifdef S_TIMEVAL
    	if (bar.tv_sec == bar.tv_sec)
    		exit(0);
    #endif
    	exit(1);
    }
    EOCP
    	flags=''
    	for s_timezone in '-DS_TIMEZONE' ''; do
    	sysselect=''
    	for s_timeval in '-DS_TIMEVAL' ''; do
    	for i_systimek in '' '-DSYSTIMEKERNEL'; do
    	for i_systime in '-DI_SYSTIME' ''; do
    		case "$flags" in
    		'') $echo $n ".$c"
    			set try $i_systime $i_systimek $sysselect $s_timeval $s_timezone
    			if eval $compile; then
    				set X $i_systime $i_systimek $sysselect $s_timeval
    				shift
    				flags="$*"
    				echo " "
    				$echo $n "Succeeded with $flags$c"
    			fi
    			;;
    		esac
    	done
    	done
    	done
    	done
    	timeincl=''
    	echo " "
    	case "$flags" in
    	*SYSTIMEKERNEL*) i_systimek="$define"
    		timeincl=`./findhdr sys/time.h`
    		echo "We'll include <sys/time.h> with KERNEL defined." >&4;;
    	*) i_systimek="$undef";;
    	esac
    	case "$flags" in
    	*I_SYSTIME*) i_systime="$define"
    		timeincl=`./findhdr sys/time.h`" $timeincl"
    		echo "We'll include <sys/time.h>." >&4;;
    	*) i_systime="$undef";;
    	esac
    	$rm_try
    fi
    : see if struct tm knows about tm_zone
    case "$i_systime$i_time" in
    *$define*)
            echo " "
            echo "Checking to see if your struct tm has tm_zone field..." >&4
            set d_tm_tm_zone tm tm_zone $i_systime sys/time.h $i_time time.h
            eval $hasfield
            ;;
    *)      val="$undef"
            set d_tm_tm_zone
            eval $setvar
            ;;
    esac
    case "$d_tm_tm_zone" in
    "$define")      echo "Yes, it does."   ;;
    *)              echo "No, it doesn't." ;;
    esac
    : see if struct tm knows about tm_gmtoff
    case "$i_systime$i_time" in
    *$define*)
            echo " "
            echo "Checking to see if your struct tm has tm_gmtoff field..." >&4
            set d_tm_tm_gmtoff tm tm_gmtoff $i_systime sys/time.h $i_time time.h
            eval $hasfield
            ;;
    *)      val="$undef"
            set d_tm_tm_gmtoff
            eval $setvar
            ;;
    esac
    case "$d_tm_tm_gmtoff" in
    "$define")      echo "Yes, it does."   ;;
    *)              echo "No, it doesn't." ;;
    esac
    
    : see if asctime_r exists
    set asctime_r d_asctime_r
    eval $inlibc
    case "$d_asctime_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_time time.h $i_systime sys/time.h"
    	case "$d_asctime_r_proto:$usethreads" in
    	":define")	d_asctime_r_proto=define
    		set d_asctime_r_proto asctime_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_asctime_r_proto" in
    	define)
    	case "$asctime_r_proto" in
    	''|0) try='char* asctime_r(const struct tm*, char*);'
    	./protochk "$extern_C $try" $hdrs && asctime_r_proto=B_SB ;;
    	esac
    	case "$asctime_r_proto" in
    	''|0) try='char* asctime_r(const struct tm*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && asctime_r_proto=B_SBI ;;
    	esac
    	case "$asctime_r_proto" in
    	''|0) try='int asctime_r(const struct tm*, char*);'
    	./protochk "$extern_C $try" $hdrs && asctime_r_proto=I_SB ;;
    	esac
    	case "$asctime_r_proto" in
    	''|0) try='int asctime_r(const struct tm*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && asctime_r_proto=I_SBI ;;
    	esac
    	case "$asctime_r_proto" in
    	''|0)	d_asctime_r=undef
    		asctime_r_proto=0
    		echo "Disabling asctime_r, cannot determine prototype." >&4 ;;
    	* )	case "$asctime_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) asctime_r_proto="REENTRANT_PROTO_$asctime_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "asctime_r has no prototype, not using it." >&4 ;;
    		esac
    		d_asctime_r=undef
    		asctime_r_proto=0
    		;;
    	esac
    	;;
    *)	asctime_r_proto=0
    	;;
    esac
    
    : see if asinh exists
    set asinh d_asinh
    eval $inlibc
    
    : see if atanh exists
    set atanh d_atanh
    eval $inlibc
    
    : see if atolf exists
    set atolf d_atolf
    eval $inlibc
    
    : see if atoll exists
    set atoll d_atoll
    eval $inlibc
    
    : See if a file contains compiler warnings
    : See if a file contains compiler warnings
    case "$osname" in
      'aix')
    	cat >compiler_warning <<EOSS
    # Sample for aix ('.5' indicates the column number in the line):
    #    "op.h", line 203.5: 1506-159 (E) Bit field type specified for op_type
    # Since the word 'warning' isn't present, use a fairly rigorous match of what
    # warning messages look like
    #            "    o        p        .  h   ", line    203      .   5        :   1506     -    159      (  E  )
    $grep -E "^\\"[A-Za-z][A-Za-z0-9_]*\.[ch]\\", line [1-9][0-9]*[.][1-9][0-9]*: [1-9][0-9]*-[1-9][0-9]* \([EW][)] " "\$1"
    EOSS
            compiler_warning=./compiler_warning
            chmod +x $compiler_warning
        ;;
         # Maybe a colon after the 'warning' would be appropriate
      *) compiler_warning="$contains -i warning"
        ;;
    esac
    
    : Look for GCC-style attribute format
    case "$d_attribute_format" in
    '')
    echo " "
    echo "Checking whether your compiler can handle __attribute__((format)) ..." >&4
    $cat >attrib.c <<'EOCP'
    #include <stdio.h>
    void my_special_printf(char* pat,...) __attribute__((__format__(__printf__,1,2)));
    EOCP
    if $cc $ccflags -c attrib.c >attrib.out 2>&1 ; then
    	if $compiler_warning attrib.out >/dev/null 2>&1; then
    		echo "Your C compiler doesn't support __attribute__((format))."
    		val="$undef"
    	else
    		echo "Your C compiler supports __attribute__((format))."
    		val="$define"
    	fi
    else
    	echo "Your C compiler doesn't seem to understand __attribute__ at all."
    	val="$undef"
    fi
    ;;
    *) val="$d_attribute_format" ;;
    esac
    set d_attribute_format
    eval $setvar
    $rm -f attrib*
    
    : Look for GCC-style attribute format with null format allowed
    case "$d_printf_format_null" in
    '') case "$d_attribute_format" in
        $define)
    	echo " "
    	echo "Checking whether your compiler allows __printf__ format to be null ..." >&4
    $cat >attrib.c <<EOCP
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #$i_inttypes I_INTTYPES
    #ifdef I_INTTYPES
    #include <inttypes.h>
    #endif
    #ifndef INTPTR_MAX
    #define intptr_t int
    #endif
    int null_printf (char* pat,...) __attribute__((__format__(__printf__,1,2)));
    int null_printf (char* pat,...) { return (int)(intptr_t)pat; }
    int main () { exit(null_printf(NULL)); }
    EOCP
    	if $cc $ccflags -o attrib attrib.c >attrib.out 2>&1 ; then
    	    : run the executable in case it produces a run-time warning
    	    if $run ./attrib >>attrib.out 2>&1; then
    		if $compiler_warning attrib.out >/dev/null 2>&1; then
    		    echo "Your C compiler doesn't allow __printf__ format to be null."
    		    val="$undef"
    		else
    		    echo "Your C compiler allows __printf__ format to be null."
    		    val="$define"
    		fi
    	    else
    	    echo "Your C compiler executable failed with __printf__ format null."
    	    val="$undef"
    	fi
        else
    	echo "Your C compiler fails with __printf__ format null."
    	val="$undef"
        fi
        ;;
        *)  val="$undef" ;;
        esac
    ;;
    *)  val="$d_printf_format_null" ;;
    esac
    set d_printf_format_null
    eval $setvar
    $rm -f attrib*
    
    : Look for GCC-style attribute malloc
    case "$d_attribute_malloc" in
    '')
    echo " "
    echo "Checking whether your compiler can handle __attribute__((malloc)) ..." >&4
    $cat >attrib.c <<'EOCP'
    #include <stdio.h>
    char *go_get_some_memory( int how_many_bytes ) __attribute__((malloc));
    EOCP
    if $cc $ccflags -c attrib.c >attrib.out 2>&1 ; then
    	if $compiler_warning attrib.out >/dev/null 2>&1; then
    		echo "Your C compiler doesn't support __attribute__((malloc))."
    		val="$undef"
    	else
    		echo "Your C compiler supports __attribute__((malloc))."
    		val="$define"
    	fi
    else
    	echo "Your C compiler doesn't seem to understand __attribute__ at all."
    	val="$undef"
    fi
    ;;
    *) val="$d_attribute_malloc" ;;
    esac
    set d_attribute_malloc
    eval $setvar
    $rm -f attrib*
    
    : Look for GCC-style attribute nonnull
    case "$d_attribute_nonnull" in
    '')
    echo " "
    echo "Checking whether your compiler can handle __attribute__((nonnull(1))) ..." >&4
    $cat >attrib.c <<'EOCP'
    #include <stdio.h>
    void do_something (char *some_pointer,...) __attribute__((nonnull(1)));
    EOCP
    if $cc $ccflags -c attrib.c >attrib.out 2>&1 ; then
    	if $compiler_warning attrib.out >/dev/null 2>&1; then
    		echo "Your C compiler doesn't support __attribute__((nonnull))."
    		val="$undef"
    	else
    		echo "Your C compiler supports __attribute__((nonnull))."
    		val="$define"
    	fi
    else
    	echo "Your C compiler doesn't seem to understand __attribute__ at all."
    	val="$undef"
    fi
    ;;
    *) val="$d_attribute_nonnull" ;;
    esac
    set d_attribute_nonnull
    eval $setvar
    $rm -f attrib*
    
    : Look for GCC-style attribute noreturn
    case "$d_attribute_noreturn" in
    '')
    echo " "
    echo "Checking whether your compiler can handle __attribute__((noreturn)) ..." >&4
    $cat >attrib.c <<'EOCP'
    #include <stdio.h>
    void fall_over_dead( void ) __attribute__((noreturn));
    EOCP
    if $cc $ccflags -c attrib.c >attrib.out 2>&1 ; then
    	if $compiler_warning attrib.out >/dev/null 2>&1; then
    		echo "Your C compiler doesn't support __attribute__((noreturn))."
    		val="$undef"
    	else
    		echo "Your C compiler supports __attribute__((noreturn))."
    		val="$define"
    	fi
    else
    	echo "Your C compiler doesn't seem to understand __attribute__ at all."
    	val="$undef"
    fi
    ;;
    *) val="$d_attribute_noreturn" ;;
    esac
    set d_attribute_noreturn
    eval $setvar
    $rm -f attrib*
    
    : Look for GCC-style attribute pure
    case "$d_attribute_pure" in
    '')
    echo " "
    echo "Checking whether your compiler can handle __attribute__((pure)) ..." >&4
    $cat >attrib.c <<'EOCP'
    #include <stdio.h>
    int square( int n ) __attribute__((pure));
    EOCP
    if $cc $ccflags -c attrib.c >attrib.out 2>&1 ; then
    	if $compiler_warning attrib.out >/dev/null 2>&1; then
    		echo "Your C compiler doesn't support __attribute__((pure))."
    		val="$undef"
    	else
    		echo "Your C compiler supports __attribute__((pure))."
    		val="$define"
    	fi
    else
    	echo "Your C compiler doesn't seem to understand __attribute__ at all."
    	val="$undef"
    fi
    ;;
    *) val="$d_attribute_pure" ;;
    esac
    set d_attribute_pure
    eval $setvar
    $rm -f attrib*
    
    : Look for GCC-style attribute unused
    case "$d_attribute_unused" in
    '')
    echo " "
    echo "Checking whether your compiler can handle __attribute__((unused)) ..." >&4
    $cat >attrib.c <<'EOCP'
    #include <stdio.h>
    int do_something( int dummy __attribute__((unused)), int n );
    EOCP
    if $cc $ccflags -c attrib.c >attrib.out 2>&1 ; then
    	if $compiler_warning attrib.out >/dev/null 2>&1; then
    		echo "Your C compiler doesn't support __attribute__((unused))."
    		val="$undef"
    	else
    		echo "Your C compiler supports __attribute__((unused))."
    		val="$define"
    	fi
    else
    	echo "Your C compiler doesn't seem to understand __attribute__ at all."
    	val="$undef"
    fi
    ;;
    *) val="$d_attribute_unused" ;;
    esac
    set d_attribute_unused
    eval $setvar
    $rm -f attrib*
    
    : Look for GCC-style attribute deprecated
    case "$d_attribute_deprecated" in
    '')
    echo " "
    echo "Checking whether your compiler can handle __attribute__((deprecated)) ..." >&4
    $cat >attrib.c <<'EOCP'
    #include <stdio.h>
    int I_am_deprecated(void) __attribute__((deprecated));
    EOCP
    if $cc $ccflags -c attrib.c >attrib.out 2>&1 ; then
    	if $compiler_warning attrib.out >/dev/null 2>&1; then
    		echo "Your C compiler doesn't support __attribute__((deprecated))."
    		val="$undef"
    	else
    		echo "Your C compiler supports __attribute__((deprecated))."
    		val="$define"
    	fi
    else
    	echo "Your C compiler doesn't seem to understand __attribute__ at all."
    	val="$undef"
    fi
    ;;
    *) val="$d_attribute_deprecated" ;;
    esac
    set d_attribute_deprecated
    eval $setvar
    $rm -f attrib*
    
    : Look for GCC-style attribute warn_unused_result
    case "$d_attribute_warn_unused_result" in
    '')
    echo " "
    echo "Checking whether your compiler can handle __attribute__((warn_unused_result)) ..." >&4
    $cat >attrib.c <<'EOCP'
    #include <stdio.h>
    int I_will_not_be_ignored(void) __attribute__((warn_unused_result));
    EOCP
    if $cc $ccflags -c attrib.c >attrib.out 2>&1 ; then
    	if $compiler_warning attrib.out >/dev/null 2>&1; then
    		echo "Your C compiler doesn't support __attribute__((warn_unused_result))."
    		val="$undef"
    	else
    		echo "Your C compiler supports __attribute__((warn_unused_result))."
    		val="$define"
    	fi
    else
    	echo "Your C compiler doesn't seem to understand __attribute__ at all."
    	val="$undef"
    fi
    ;;
    *) val="$d_attribute_warn_unused_result" ;;
    esac
    set d_attribute_warn_unused_result
    eval $setvar
    $rm -f attrib*
    
    : Look for GCC-style attribute always_inline
    case "$d_attribute_always_inline" in
    '')
    echo " "
    echo "Checking whether your compiler can handle __attribute__((always_inline)) ..." >&4
    $cat >attrib.c <<'EOCP'
    #include <stdio.h>
    static __inline__ __attribute__((always_inline)) int I_will_always_be_inlined(void);
    EOCP
    if $cc $ccflags -c attrib.c >attrib.out 2>&1 ; then
    	if $compiler_warning attrib.out >/dev/null 2>&1; then
    		echo "Your C compiler doesn't support __attribute__((always_inline))."
    		val="$undef"
    	else
    		echo "Your C compiler supports __attribute__((always_inline))."
    		val="$define"
    	fi
    else
    	echo "Your C compiler doesn't seem to understand __attribute__ at all."
    	val="$undef"
    fi
    ;;
    *) val="$d_attribute_always_inline" ;;
    esac
    set d_attribute_always_inline
    eval $setvar
    $rm -f attrib*
    
    : see if getpgrp exists
    set getpgrp d_getpgrp
    eval $inlibc
    
    case "$d_getpgrp" in
    "$define")
    	echo " "
    	echo "Checking to see which flavor of getpgrp is in use..."
    	$cat >try.c <<EOP
    #include <stdio.h>
    #$i_unistd I_UNISTD
    #include <sys/types.h>
    #ifdef I_UNISTD
    #  include <unistd.h>
    #endif
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    int main()
    {
    	if (getuid() == 0) {
    		printf("(I see you are running Configure as super-user...)\n");
    		setuid(1);
    	}
    #ifdef TRY_BSD_PGRP
    	if (getpgrp(1) == 0)
    		exit(0);
    #else
    	if (getpgrp() > 0)
    		exit(0);
    #endif
    	exit(1);
    }
    EOP
    	if $cc -o try -DTRY_BSD_PGRP $ccflags $ldflags try.c $libs >/dev/null 2>&1 && $run ./try; then
    		echo "You have to use getpgrp(pid) instead of getpgrp()." >&4
    		val="$define"
    	elif $cc -o try $ccflags $ldflags try.c $libs >/dev/null 2>&1 && $run ./try; then
    		echo "You have to use getpgrp() instead of getpgrp(pid)." >&4
    		val="$undef"
    	else
    		echo "I can't seem to compile and run the test program."
    		if ./usg; then
    			xxx="a USG one, i.e. you use getpgrp()."
    		else
    			# SVR4 systems can appear rather BSD-ish.
    			case "$i_unistd" in
    			$undef)
    				xxx="a BSD one, i.e. you use getpgrp(pid)."
    				val="$define"
    				;;
    			$define)
    				xxx="probably a USG one, i.e. you use getpgrp()."
    				val="$undef"
    				;;
    			esac
    		fi
    		echo "Assuming your getpgrp is $xxx" >&4
    	fi
    	;;
    *) val="$undef";;
    esac
    set d_bsdgetpgrp
    eval $setvar
    $rm_try
    
    : see if setpgrp exists
    set setpgrp d_setpgrp
    eval $inlibc
    
    case "$d_setpgrp" in
    "$define")
    	echo " "
    	echo "Checking to see which flavor of setpgrp is in use..."
    	$cat >try.c <<EOP
    #include <stdio.h>
    #$i_unistd I_UNISTD
    #include <sys/types.h>
    #ifdef I_UNISTD
    #  include <unistd.h>
    #endif
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    int main()
    {
    	if (getuid() == 0) {
    		printf("(I see you are running Configure as super-user...)\n");
    		setuid(1);
    	}
    #ifdef TRY_BSD_PGRP
    	if (-1 == setpgrp(1, 1))
    		exit(0);
    #else
    	if (setpgrp() != -1)
    		exit(0);
    #endif
    	exit(1);
    }
    EOP
    	if $cc -o try -DTRY_BSD_PGRP $ccflags $ldflags try.c $libs >/dev/null 2>&1 && $run ./try; then
    		echo 'You have to use setpgrp(pid,pgrp) instead of setpgrp().' >&4
    		val="$define"
    	elif $cc -o try $ccflags $ldflags try.c $libs >/dev/null 2>&1 && $run ./try; then
    		echo 'You have to use setpgrp() instead of setpgrp(pid,pgrp).' >&4
    		val="$undef"
    	else
    		echo "(I can't seem to compile and run the test program.)"
    		if ./usg; then
    			xxx="a USG one, i.e. you use setpgrp()."
    		else
    			# SVR4 systems can appear rather BSD-ish.
    			case "$i_unistd" in
    			$undef)
    				xxx="a BSD one, i.e. you use setpgrp(pid,pgrp)."
    				val="$define"
    				;;
    			$define)
    				xxx="probably a USG one, i.e. you use setpgrp()."
    				val="$undef"
    				;;
    			esac
    		fi
    		echo "Assuming your setpgrp is $xxx" >&4
    	fi
    	;;
    *) val="$undef";;
    esac
    set d_bsdsetpgrp
    eval $setvar
    $rm_try
    
    : Look for GCC-style __builtin_add_overflow
    case "$d_builtin_add_overflow" in
    '')
        echo " "
        echo "Checking whether your compiler can handle __builtin_add_overflow ..." >&4
        $cat >try.c <<'EOCP'
    int main(void) {
        const unsigned int uint_max = ~0u;
        int target_int = 0;
        if (__builtin_add_overflow(1, 2, &target_int) || target_int != 3) {
            return 1;
        }
        if (!__builtin_add_overflow((int)(uint_max >> 1), 1, &target_int)) {
            return 1;
        }
        if (!__builtin_add_overflow(uint_max, -1, &target_int)) {
            return 1;
        }
        return 0;
    }
    EOCP
        set try
        if eval $compile && $run ./try; then
            echo "Your C compiler supports __builtin_add_overflow."
            val="$define"
        else
            echo "Your C compiler doesn't seem to understand __builtin_add_overflow."
            val="$undef"
        fi
        ;;
    *) val="$d_builtin_add_overflow" ;;
    esac
    
    set d_builtin_add_overflow
    eval $setvar
    $rm_try
    
    : Look for GCC-style __builtin_sub_overflow
    case "$d_builtin_sub_overflow" in
    '')
        echo " "
        echo "Checking whether your compiler can handle __builtin_sub_overflow ..." >&4
        $cat >try.c <<'EOCP'
    int main(void) {
        const unsigned int uint_max = ~0u;
        int target_int = 0;
        if (__builtin_sub_overflow(1, -2, &target_int) || target_int != 3) {
            return 1;
        }
        if (!__builtin_sub_overflow(-(int)(uint_max >> 1), 2, &target_int)) {
            return 1;
        }
        if (!__builtin_sub_overflow(uint_max, 1, &target_int)) {
            return 1;
        }
        return 0;
    }
    EOCP
        set try
        if eval $compile && $run ./try; then
            echo "Your C compiler supports __builtin_sub_overflow."
            val="$define"
        else
            echo "Your C compiler doesn't seem to understand __builtin_sub_overflow."
            val="$undef"
        fi
        ;;
    *) val="$d_builtin_sub_overflow" ;;
    esac
    
    set d_builtin_sub_overflow
    eval $setvar
    $rm_try
    
    : Look for GCC-style __builtin_mul_overflow
    case "$d_builtin_mul_overflow" in
    '')
        echo " "
        echo "Checking whether your compiler can handle __builtin_mul_overflow ..." >&4
        $cat >try.c <<'EOCP'
    int main(void) {
        const unsigned int uint_max = ~0u;
        int target_int = 0;
        if (__builtin_mul_overflow(2, 3, &target_int) || target_int != 6) {
            return 1;
        }
        if (!__builtin_mul_overflow((int)(uint_max >> 1), 2, &target_int)) {
            return 1;
        }
        if (!__builtin_mul_overflow(uint_max, 1, &target_int)) {
            return 1;
        }
        return 0;
    }
    EOCP
        set try
        if eval $compile && $run ./try; then
            echo "Your C compiler supports __builtin_mul_overflow."
            val="$define"
        else
            echo "Your C compiler doesn't seem to understand __builtin_mul_overflow."
            val="$undef"
        fi
        ;;
    *) val="$d_builtin_mul_overflow" ;;
    esac
    
    set d_builtin_mul_overflow
    eval $setvar
    $rm_try
    
    : Look for GCC-style __builtin_choose_expr
    case "$d_builtin_choose_expr" in
    '')
        echo " "
        echo "Checking whether your compiler can handle __builtin_choose_expr ..." >&4
        $cat >try.c <<'EOCP'
    #include <assert.h>
    #include <stdlib.h>
    #include <stdio.h>
    
    #define SYRINX(x) __builtin_choose_expr( x, (1056*2), (103*50) )
    
    int main(void) {
        assert( SYRINX(1) == 2112 );
        assert( SYRINX(1) != 5150 );
        assert( SYRINX(0) == 5150 );
        assert( SYRINX(0) != 2112 );
        puts( "All good!" );
        exit(0);
    }
    
    EOCP
        set try
        if eval $compile && $run ./try; then
    	echo "Your C compiler supports __builtin_choose_expr."
    	val="$define"
        else
    	echo "Your C compiler doesn't seem to understand __builtin_choose_expr."
    	val="$undef"
        fi
    ;;
    *) val="$d_builtin_choose_expr" ;;
    esac
    
    set d_builtin_choose_expr
    eval $setvar
    $rm_try
    
    : Look for GCC-style __builtin_expect
    case "$d_builtin_expect" in
    '')
        echo " "
        echo "Checking whether your compiler can handle __builtin_expect ..." >&4
        $cat >try.c <<'EOCP'
    int main(void) {
        int n = 50;
        if ( __builtin_expect(n, 0) ) n = 1;
        /* Remember shell exit code truth is 0, C truth is non-zero */
        return !(n == 1);
    }
    EOCP
        set try
        if eval $compile && $run ./try; then
    	echo "Your C compiler supports __builtin_expect."
    	val="$define"
        else
    	echo "Your C compiler doesn't seem to understand __builtin_expect."
    	val="$undef"
        fi
        ;;
    *) val="$d_builtin_expect" ;;
    esac
    
    set d_builtin_expect
    eval $setvar
    $rm_try
    
    : see if the Compiler supports C99 variadic macros
    echo "Checking for C99 variadic macros." >&4
    $cat >try.c <<EOCP
    #include <stdio.h>
    #include <stdarg.h>
    
    #define foo(buffer, format, ...) sprintf(buffer, format, __VA_ARGS__)
    
    int main() {
      char buf[20];
      foo(buf, "%d %g %.*s", 123, 456.0, (int)3, "789fail");
      puts(buf);
      return 0;
    }
    EOCP
    set try
    if eval $compile && $run ./try 2>&1 >/dev/null; then
        case "`$run ./try`" in
    	"123 456 789")
    	echo "You have C99 variadic macros." >&4
    	d_c99_variadic_macros="$define"
    	;;
    	*)
    	echo "You don't have functional C99 variadic macros." >&4
    	d_c99_variadic_macros="$undef"
    	;;
        esac
    else
        echo "I couldn't compile and run the test program, so I assume that you don't have functional C99 variadic macros." >&4
        d_c99_variadic_macros="$undef"
    fi
    $rm_try
    
    : see if signal is declared as pointer to function returning int or void
    echo " "
    xxx=`./findhdr signal.h`
    $test "$xxx" && $cppstdin $cppminus $cppflags < $xxx >$$.tmp 2>/dev/null
    if $contains 'int.*\*[ 	]*signal' $$.tmp >/dev/null 2>&1 ; then
    	echo "You have int (*signal())() instead of void." >&4
    	val="$undef"
    elif $contains 'void.*\*[ 	]*signal' $$.tmp >/dev/null 2>&1 ; then
    	echo "You have void (*signal())()." >&4
    	val="$define"
    elif $contains 'extern[ 	]*[(\*]*signal' $$.tmp >/dev/null 2>&1 ; then
    	echo "You have int (*signal())() instead of void." >&4
    	val="$undef"
    elif $contains 'void.*\*.*sig' $$.tmp >/dev/null 2>&1 ; then
    	echo "You have void (*signal())()." >&4
    	val="$define"
    else
    	case "$d_voidsig" in
    	'')
    	echo "I can't determine whether signal handler returns void or int..." >&4
    		dflt=void
    		rp="What type does your signal handler return?"
    		. ./myread
    		case "$ans" in
    		v*) val="$define";;
    		*) val="$undef";;
    		esac;;
    	"$define")
    		echo "As you already told me, signal handler returns void." >&4
    		val="$define"
    		;;
    	*)	echo "As you already told me, signal handler returns int." >&4
    		val="$undef"
    		;;
    	esac
    fi
    set d_voidsig
    eval $setvar
    case "$d_voidsig" in
    "$define") signal_t="void";;
    *) signal_t="int";;
    esac
    $rm -f $$.tmp
    
    : check for ability to cast large floats to 32-bit ints.
    echo " "
    echo 'Checking whether your C compiler can cast large floats to int32.' >&4
    if $test "$intsize" -ge 4; then
    	xxx=int
    else
    	xxx=long
    fi
    $cat >try.c <<EOCP
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #include <sys/types.h>
    #include <signal.h>
    $signal_t blech(int s) { exit(3); }
    int main()
    {
    	$xxx i32;
    	double f, g;
    	int result = 0;
    	char str[16];
    	signal(SIGFPE, blech);
    
    	/* Don't let compiler optimize the test away.  Store the number
    	   in a writable string for gcc to pass to sscanf under HP-UX.
    	*/
    	sprintf(str, "2147483647");
    	sscanf(str, "%lf", &f); /* f = (double) 0x7fffffff; */
    	g = 10 * f;
    	i32  = ($xxx) g;
    
    	/* x86 processors will probably give 0x8000 0000, which is a
    	   sign change.  We don't want that.  We want to mimic SPARC
    	   behavior here, which is to preserve the sign and give
    	   back 0x7fff ffff.
    	*/
    	if (i32 != ($xxx) f)
    		result |= 1;
    	exit(result);
    }
    EOCP
    set try
    if eval $compile_ok; then
    	$run ./try 2>/dev/null
    	yyy=$?
    else
    	echo "(I can't seem to compile the test program--assuming it can't)"
    	yyy=1
    fi
    case "$yyy" in
    0)	val="$define"
    	echo "Yup, it can."
    	;;
    *)	val="$undef"
    	echo "Nope, it can't."
    	;;
    esac
    set d_casti32
    eval $setvar
    $rm_try
    
    : check for ability to cast negative floats to unsigned
    echo " "
    echo 'Checking whether your C compiler can cast negative float to unsigned.' >&4
    $cat >try.c <<EOCP
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #include <sys/types.h>
    #include <signal.h>
    $signal_t blech(int s) { exit(7); }
    $signal_t blech_in_list(int s) { exit(4); }
    unsigned long dummy_long(unsigned long p) { return p; }
    unsigned int dummy_int(unsigned int p) { return p; }
    unsigned short dummy_short(unsigned short p) { return p; }
    int main()
    {
    	double f;
    	unsigned long along;
    	unsigned int aint;
    	unsigned short ashort;
    	int result = 0;
    	char str[16];
    
    	/* Frustrate gcc-2.7.2's optimizer which failed this test with
    	   a direct f = -123. assignment.  gcc-2.8.0 reportedly
    	   optimized the whole file away
    	*/
    	/* Store the number in a writable string for gcc to pass to
    	   sscanf under HP-UX.
    	*/
    	sprintf(str, "-123");
    	sscanf(str, "%lf", &f);  /* f = -123.; */
    
    	signal(SIGFPE, blech);
    	along = (unsigned long)f;
    	aint = (unsigned int)f;
    	ashort = (unsigned short)f;
    	if (along != (unsigned long)-123)
    		result |= 1;
    	if (aint != (unsigned int)-123)
    		result |= 1;
    	if (ashort != (unsigned short)-123)
    		result |= 1;
    	sprintf(str, "1073741824.");
    	sscanf(str, "%lf", &f); /* f = (double)0x40000000; */
    	f = f + f;
    	along = 0;
    	along = (unsigned long)f;
    	if (along != 0x80000000)
    		result |= 2;
    	f -= 1.;
    	along = 0;
    	along = (unsigned long)f;
    	if (along != 0x7fffffff)
    		result |= 1;
    	f += 2.;
    	along = 0;
    	along = (unsigned long)f;
    	if (along != 0x80000001)
    		result |= 2;
    	if (result)
    		exit(result);
    	signal(SIGFPE, blech_in_list);
    	sprintf(str, "123.");
    	sscanf(str, "%lf", &f);  /* f = 123.; */
    	along = dummy_long((unsigned long)f);
    	aint = dummy_int((unsigned int)f);
    	ashort = dummy_short((unsigned short)f);
    	if (along != (unsigned long)123)
    		result |= 4;
    	if (aint != (unsigned int)123)
    		result |= 4;
    	if (ashort != (unsigned short)123)
    		result |= 4;
    	exit(result);
    
    }
    EOCP
    set try
    if eval $compile_ok; then
    	$run ./try 2>/dev/null
    	castflags=$?
    else
    	echo "(I can't seem to compile the test program--assuming it can't)"
    	castflags=7
    fi
    case "$castflags" in
    0)	val="$define"
    	echo "Yup, it can."
    	;;
    *)	val="$undef"
    	echo "Nope, it can't."
    	;;
    esac
    set d_castneg
    eval $setvar
    $rm_try
    
    : see if cbrt exists
    set cbrt d_cbrt
    eval $inlibc
    
    : see if chown exists
    set chown d_chown
    eval $inlibc
    
    : see if chroot exists
    set chroot d_chroot
    eval $inlibc
    
    : see if chsize exists
    set chsize d_chsize
    eval $inlibc
    
    : see if class exists
    set class d_class
    eval $inlibc
    
    : see if clearenv exists
    set clearenv d_clearenv
    eval $inlibc
    
    : Define hasstruct macro for Configure internal use
    hasstruct='varname=$1; struct=$2; shift; shift;
    while $test $# -ge 2; do
    	case "$1" in
    	$define) echo "#include <$2>";;
    	esac ;
        shift 2;
    done > try.c;
    echo "int main () { struct $struct foo; }" >> try.c;
    set try;
    if eval $compile; then
    	val="$define";
    else
    	val="$undef";
    fi;
    set $varname;
    eval $setvar;
    $rm_try'
    
    : see whether socket exists
    socketlib=''
    sockethdr=''
    echo " "
    $echo $n "Hmm... $c" >&4
    if set socket val -f d_socket; eval $csym; $val; then
        echo "Looks like you have Berkeley networking support." >&4
        d_socket="$define"
        if set setsockopt val -f; eval $csym; $val; then
    	d_oldsock="$undef"
        else
    	echo "...but it uses the old BSD 4.1c interface, rather than 4.2." >&4
    	d_oldsock="$define"
        fi
    else
        if $contains socklib libc.list >/dev/null 2>&1; then
    	echo "Looks like you have Berkeley networking support." >&4
    	d_socket="$define"
    	: we will have to assume that it supports the 4.2 BSD interface
    	d_oldsock="$undef"
        else
    	echo "You don't have Berkeley networking in libc$_a..." >&4
    	if test "X$d_socket" = "X$define"; then
    	    echo "...but you seem to believe that you have sockets." >&4
    	else
    	    for net in net socket
    	    do
    		if test -f $sysroot/usr/lib/lib$net$_a; then
    		    ( ($nm $nm_opt $sysroot/usr/lib/lib$net$_a | eval $nm_extract) ||  \
    		    $ar t $sysroot/usr/lib/lib$net$_a) 2>/dev/null >> libc.list
    		    if $contains socket libc.list >/dev/null 2>&1; then
    			d_socket="$define"
    			socketlib="-l$net"
    			case "$net" in
    			net)
    			    echo "...but the Wollongong group seems to have hacked it in." >&4
    			    sockethdr="-I$sysroot/usr/netinclude"
    			    ;;
    			esac
    			echo "Found Berkeley sockets interface in lib$net." >&4
    			if $contains setsockopt libc.list >/dev/null 2>&1; then
    			    d_oldsock="$undef"
    			else
    			    echo "...using the old BSD 4.1c interface, rather than 4.2." >&4
    			    d_oldsock="$define"
    			fi
    			break
    		    fi
    		fi
    	    done
    	    if test "X$d_socket" != "X$define"; then
    	       echo "or anywhere else I see." >&4
    	       d_socket="$undef"
    	       d_oldsock="$undef"
    	    fi
    	fi
        fi
    fi
    
    : see if socketpair exists
    set socketpair d_sockpair
    eval $inlibc
    
    
    echo "Checking the availability sa_len in the sock struct ..." >&4
    $cat >try.c <<EOF
    #include <sys/types.h>
    #include <sys/socket.h>
    int main() {
    struct sockaddr sa;
    return (sa.sa_len);
    }
    EOF
    val="$undef"
    set try; if eval $compile; then
        val="$define"
    fi
    set d_sockaddr_sa_len; eval $setvar
    $rm_try
    
    echo "Checking the availability struct sockaddr_in6 ..." >&4
    $cat >try.c <<EOF
    #include <sys/types.h>
    #include <sys/socket.h>
    #include <netinet/in.h>
    int main() {
    struct sockaddr_in6 sin6;
    return (sin6.sin6_family);
    }
    EOF
    val="$undef"
    set try; if eval $compile; then
        val="$define"
    fi
    set d_sockaddr_in6; eval $setvar
    $rm_try
    
    echo "Checking the availability struct sockaddr_storage ..." >&4
    $cat >try.c <<EOF
    #include <sys/types.h>
    #include <sys/socket.h>
    #include <netinet/in.h>
    int main() {
    struct sockaddr_storage sastor;
    return (sastor.ss_family);
    }
    EOF
    val="$undef"
    set try; if eval $compile; then
        val="$define"
    fi
    set d_sockaddr_storage; eval $setvar
    $rm_try
    
    echo "Checking the availability sin6_scope_id in struct sockaddr_in6 ..." >&4
    $cat >try.c <<EOF
    #include <sys/types.h>
    #include <sys/socket.h>
    #include <netinet/in.h>
    int main() {
    struct sockaddr_in6 sin6;
    return (sin6.sin6_scope_id);
    }
    EOF
    val="$undef"
    set try; if eval $compile; then
        val="$define"
    fi
    set d_sin6_scope_id; eval $setvar
    $rm_try
    
    echo "Checking the availability struct ip_mreq ..." >&4
    $cat >try.c <<EOF
    #include <sys/types.h>
    #include <sys/socket.h>
    #include <netinet/in.h>
    int main() {
    struct ip_mreq mreq;
    return (mreq.imr_multiaddr.s_addr);
    }
    EOF
    val="$undef"
    set try; if eval $compile; then
           val="$define"
    fi
    set d_ip_mreq; eval $setvar
    $rm_try
    
    echo "Checking the availability struct ip_mreq_source ..." >&4
    $cat >try.c <<EOF
    #include <sys/types.h>
    #include <sys/socket.h>
    #include <netinet/in.h>
    int main() {
    struct ip_mreq_source mreq;
    return (mreq.imr_multiaddr.s_addr);
    }
    EOF
    val="$undef"
    set try; if eval $compile; then
           val="$define"
    fi
    set d_ip_mreq_source; eval $setvar
    $rm_try
    
    echo "Checking the availability struct ipv6_mreq ..." >&4
    $cat >try.c <<EOF
    #include <sys/types.h>
    #include <sys/socket.h>
    #include <netinet/in.h>
    int main() {
    struct ipv6_mreq mreq;
    return (mreq.ipv6mr_interface);
    }
    EOF
    val="$undef"
    set try; if eval $compile; then
        val="$define"
    fi
    set d_ipv6_mreq; eval $setvar
    $rm_try
    
    echo "Checking the availability struct ipv6_mreq_source ..." >&4
    $cat >try.c <<EOF
    #include <sys/types.h>
    #include <sys/socket.h>
    #include <netinet/in.h>
    int main() {
    struct ipv6_mreq_source mreq;
    return (mreq.imr_multiaddr.s_addr);
    }
    EOF
    val="$undef"
    set try; if eval $compile; then
           val="$define"
    fi
    set d_ipv6_mreq_source; eval $setvar
    $rm_try
    
    echo "Checking the availability of certain socket constants..." >&4
    for ENUM in MSG_CTRUNC MSG_DONTROUTE MSG_OOB MSG_PEEK MSG_PROXY SCM_RIGHTS; do
        enum=`$echo $ENUM|./tr '[A-Z]' '[a-z]'`
        $cat >try.c <<EOF
    #include <sys/types.h>
    #include <sys/socket.h>
    int main() {
        int i = $ENUM;
    }
    EOF
        val="$undef"
        set try; if eval $compile; then
    	val="$define"
        fi
        set d_${enum}; eval $setvar
        $rm_try
    done
    
    : see if this is a sys/uio.h system
    set sys/uio.h i_sysuio
    eval $inhdr
    
    : Check for cmsghdr support
    echo " "
    echo "Checking to see if your system supports struct cmsghdr..." >&4
    set d_cmsghdr_s cmsghdr $i_systypes sys/types.h $d_socket sys/socket.h $i_sysuio sys/uio.h
    eval $hasstruct
    case "$d_cmsghdr_s" in
    "$define")      echo "Yes, it does."   ;;
    *)              echo "No, it doesn't." ;;
    esac
    
    : see if copysign exists
    set copysign d_copysign
    eval $inlibc
    
    : see if copysignl exists
    set copysignl d_copysignl
    eval $inlibc
    
    : see if crypt exists
    echo " "
    set crypt d_crypt
    eval $inlibc
    case "$d_crypt" in
    $define) cryptlib='' ;;
    *)	if set crypt val -f d_crypt; eval $csym; $val; then
    		echo 'crypt() found.' >&4
    		val="$define"
    		cryptlib=''
    	else
    		cryptlib=`./loc Slibcrypt$_a "" $xlibpth`
    		if $test -z "$cryptlib"; then
    			cryptlib=`./loc Mlibcrypt$_a "" $xlibpth`
    		else
    			cryptlib=-lcrypt
    		fi
    		if $test -z "$cryptlib"; then
    			cryptlib=`./loc Llibcrypt$_a "" $xlibpth`
    		else
    			cryptlib=-lcrypt
    		fi
    		if $test -z "$cryptlib"; then
    			cryptlib=`./loc libcrypt$_a "" $libpth`
    		else
    			cryptlib=-lcrypt
    		fi
    		if $test -z "$cryptlib"; then
    			echo 'crypt() NOT found.' >&4
    			val="$undef"
    		else
    			val="$define"
    		fi
    	fi
    	set d_crypt
    	eval $setvar
    	;;
    esac
    
    : see if this is a crypt.h system
    set crypt.h i_crypt
    eval $inhdr
    
    : see if crypt_r exists
    set crypt_r d_crypt_r
    eval $inlibc
    case "$d_crypt_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_crypt crypt.h"
    	case "$d_crypt_r_proto:$usethreads" in
    	":define")	d_crypt_r_proto=define
    		set d_crypt_r_proto crypt_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_crypt_r_proto" in
    	define)
    	case "$crypt_r_proto" in
    	''|0) try='char* crypt_r(const char*, const char*, struct crypt_data*);'
    	./protochk "$extern_C $try" $hdrs && crypt_r_proto=B_CCS ;;
    	esac
    	case "$crypt_r_proto" in
    	''|0) try='char* crypt_r(const char*, const char*, CRYPTD*);'
    	./protochk "$extern_C $try" $hdrs && crypt_r_proto=B_CCD ;;
    	esac
    	case "$crypt_r_proto" in
    	''|0)	d_crypt_r=undef
    		crypt_r_proto=0
    		echo "Disabling crypt_r, cannot determine prototype." >&4 ;;
    	* )	case "$crypt_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) crypt_r_proto="REENTRANT_PROTO_$crypt_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "crypt_r has no prototype, not using it." >&4 ;;
    		esac
    		d_crypt_r=undef
    		crypt_r_proto=0
    		;;
    	esac
    	;;
    *)	crypt_r_proto=0
    	;;
    esac
    
    : get csh whereabouts
    case "$csh" in
    'csh') val="$undef" ;;
    *) val="$define" ;;
    esac
    set d_csh
    eval $setvar
    : Respect a hint or command line value for full_csh.
    case "$full_csh" in
    '') full_csh=$csh ;;
    esac
    
    : see if ctermid exists
    set ctermid d_ctermid
    eval $inlibc
    
    : see if ctermid_r exists
    set ctermid_r d_ctermid_r
    eval $inlibc
    case "$d_ctermid_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h "
    	case "$d_ctermid_r_proto:$usethreads" in
    	":define")	d_ctermid_r_proto=define
    		set d_ctermid_r_proto ctermid_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_ctermid_r_proto" in
    	define)
    	case "$ctermid_r_proto" in
    	''|0) try='char* ctermid_r(char*);'
    	./protochk "$extern_C $try" $hdrs && ctermid_r_proto=B_B ;;
    	esac
    	case "$ctermid_r_proto" in
    	''|0)	d_ctermid_r=undef
    		ctermid_r_proto=0
    		echo "Disabling ctermid_r, cannot determine prototype." >&4 ;;
    	* )	case "$ctermid_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) ctermid_r_proto="REENTRANT_PROTO_$ctermid_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "ctermid_r has no prototype, not using it." >&4 ;;
    		esac
    		d_ctermid_r=undef
    		ctermid_r_proto=0
    		;;
    	esac
    	;;
    *)	ctermid_r_proto=0
    	;;
    esac
    
    : see if ctime_r exists
    set ctime_r d_ctime_r
    eval $inlibc
    case "$d_ctime_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_time time.h $i_systime sys/time.h"
    	case "$d_ctime_r_proto:$usethreads" in
    	":define")	d_ctime_r_proto=define
    		set d_ctime_r_proto ctime_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_ctime_r_proto" in
    	define)
    	case "$ctime_r_proto" in
    	''|0) try='char* ctime_r(const time_t*, char*);'
    	./protochk "$extern_C $try" $hdrs && ctime_r_proto=B_SB ;;
    	esac
    	case "$ctime_r_proto" in
    	''|0) try='char* ctime_r(const time_t*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && ctime_r_proto=B_SBI ;;
    	esac
    	case "$ctime_r_proto" in
    	''|0) try='int ctime_r(const time_t*, char*);'
    	./protochk "$extern_C $try" $hdrs && ctime_r_proto=I_SB ;;
    	esac
    	case "$ctime_r_proto" in
    	''|0) try='int ctime_r(const time_t*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && ctime_r_proto=I_SBI ;;
    	esac
    	case "$ctime_r_proto" in
    	''|0)	d_ctime_r=undef
    		ctime_r_proto=0
    		echo "Disabling ctime_r, cannot determine prototype." >&4 ;;
    	* )	case "$ctime_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) ctime_r_proto="REENTRANT_PROTO_$ctime_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "ctime_r has no prototype, not using it." >&4 ;;
    		esac
    		d_ctime_r=undef
    		ctime_r_proto=0
    		;;
    	esac
    	;;
    *)	ctime_r_proto=0
    	;;
    esac
    
    : see if cuserid exists
    set cuserid d_cuserid
    eval $inlibc
    
    : see if dbm.h is available
    : see if dbmclose exists
    set dbmclose d_dbmclose
    eval $inlibc
    
    case "$d_dbmclose" in
    $define)
    	set dbm.h i_dbm
    	eval $inhdr
    	case "$i_dbm" in
    	$define)
    		val="$undef"
    		set i_rpcsvcdbm
    		eval $setvar
    		;;
    	*)	set rpcsvc/dbm.h i_rpcsvcdbm
    		eval $inhdr
    		;;
    	esac
    	;;
    *)	echo "We won't be including <dbm.h>"
    	val="$undef"
    	set i_dbm
    	eval $setvar
    	val="$undef"
    	set i_rpcsvcdbm
    	eval $setvar
    	;;
    esac
    
    : see if prototype for dbminit is available
    echo " "
    set d_dbminitproto dbminit $i_dbm dbm.h
    eval $hasproto
    
    : see if difftime exists
    set difftime d_difftime
    eval $inlibc
    
    : see if this is a dirent system
    echo " "
    if xinc=`./findhdr dirent.h`; $test "$xinc"; then
    	val="$define"
    	echo "<dirent.h> found." >&4
    else
    	val="$undef"
    	if xinc=`./findhdr sys/dir.h`; $test "$xinc"; then
    		echo "<sys/dir.h> found." >&4
    		echo " "
    	else
    		xinc=`./findhdr sys/ndir.h`
    	fi
    	echo "<dirent.h> NOT found." >&4
    fi
    set i_dirent
    eval $setvar
    
    : Look for type of directory structure.
    echo " "
    $cppstdin $cppflags $cppminus < "$xinc" > try.c
    
    case "$direntrytype" in
    ''|' ')
    	case "$i_dirent" in
    	$define) guess1='struct dirent' ;;
    	*) guess1='struct direct'  ;;
    	esac
    	;;
    *)	guess1="$direntrytype"
    	;;
    esac
    
    case "$guess1" in
    'struct dirent') guess2='struct direct' ;;
    *) guess2='struct dirent' ;;
    esac
    
    if $contains "$guess1" try.c >/dev/null 2>&1; then
    	direntrytype="$guess1"
    	echo "Your directory entries are $direntrytype." >&4
    elif $contains "$guess2" try.c >/dev/null 2>&1; then
    	direntrytype="$guess2"
    	echo "Your directory entries seem to be $direntrytype." >&4
    else
    	echo "I don't recognize your system's directory entries." >&4
    	rp="What type is used for directory entries on this system?"
    	dflt="$guess1"
    	. ./myread
    	direntrytype="$ans"
    fi
    $rm_try
    
    : see if the directory entry stores field length
    echo " "
    $cppstdin $cppflags $cppminus < "$xinc" > try.c
    if $contains 'd_namlen' try.c >/dev/null 2>&1; then
    	echo "Good, your directory entry keeps length information in d_namlen." >&4
    	val="$define"
    else
    	echo "Your directory entry does not know about the d_namlen field." >&4
    	val="$undef"
    fi
    set d_dirnamlen
    eval $setvar
    $rm_try
    
    : Look for DIR.dd_fd
    case "$i_dirent" in
    "$define")
        echo "Checking to see if DIR has a dd_fd member variable" >&4
        $cat >try.c <<EOCP
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #include <dirent.h>
    
    int main() {
        DIR dir;
        dir.dd_fd = 1;
        return 0;
    }
    EOCP
        val=$undef
        set try
        if eval $compile; then
            echo "Yes, it does."
            val="$define"
        else
            echo "No, it does not."
            val="$undef"
        fi
        ;;
    *)
        echo "You don't have a <dirent.h>, so not checking for dd_fd." >&4
        val="$undef"
        ;;
    esac
    set d_dir_dd_fd
    eval $setvar
    $rm_try
    
    : see if this is an sysdir system
    set sys/dir.h i_sysdir
    eval $inhdr
    
    : see if this is an sysndir system
    set sys/ndir.h i_sysndir
    eval $inhdr
    
    : Look for dirfd
    echo " "
    $cat >dirfd.c <<EOM
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #$i_dirent I_DIRENT		/**/
    #$i_sysdir I_SYS_DIR		/**/
    #$i_sysndir I_SYS_NDIR		/**/
    #$i_systypes I_SYS_TYPES	/**/
    #if defined(I_SYS_TYPES)
    #include <sys/types.h>
    #endif
    #if defined(I_DIRENT)
    #include <dirent.h>
    #else
    #ifdef I_SYS_NDIR
    #include <sys/ndir.h>
    #else
    #ifdef I_SYS_DIR
    #include <sys/dir.h>
    #endif
    #endif
    #endif
    int main() {
    	DIR *dirp = opendir(".");
    	if (dirfd(dirp) >= 0)
    		exit(0);
    	else
    		exit(1);
    }
    EOM
    val=$undef
    set dirfd
    if eval $compile; then
    	val="$define"
    fi
    case "$val" in
    $define)	echo "dirfd() found." >&4	;;
    *)		echo "dirfd() NOT found." >&4	;;
    esac
    set d_dirfd
    eval $setvar
    $rm -f dirfd*
    
    : see if dladdr exists
    set dladdr d_dladdr
    eval $inlibc
    
    : see if dlerror exists
    xxx_runnm="$runnm"
    runnm=false
    set dlerror d_dlerror
    eval $inlibc
    runnm="$xxx_runnm"
    
    : see if dlfcn is available
    set dlfcn.h i_dlfcn
    eval $inhdr
    
    : Check what extension to use for shared libs
    case "$usedl" in
    $define|y|true)
    	$cat << EOM
    
    On a few systems, the dynamically loaded modules that perl generates and uses
    will need a different extension than shared libs. The default will probably
    be appropriate.
    
    EOM
    	case "$dlext" in
    	'')	dflt="$so" ;;
    	*)	dflt="$dlext" ;;
    	esac
    	rp='What is the extension of dynamically loaded modules'
    	. ./myread
    	dlext="$ans"
    	;;
    *)
    	dlext="none"
    	;;
    esac
    
    : Check if dlsym need a leading underscore
    echo " "
    val="$undef"
    
    case "$dlsrc" in
    dl_dlopen.xs)
    	echo "Checking whether your dlsym() needs a leading underscore ..." >&4
    	$cat >dyna.c <<'EOM'
    fred () { }
    EOM
    
    $cat >fred.c<<EOM
    
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #$i_dlfcn I_DLFCN
    #ifdef I_DLFCN
    #include <dlfcn.h>      /* the dynamic linker include file for SunOS/Solaris */
    #else
    #include <sys/types.h>
    #include <nlist.h>
    #include <link.h>
    #endif
    
    extern int fred() ;
    
    int main()
    {
        void * handle ;
        void * symbol ;
    #ifndef RTLD_LAZY
        int mode = 1 ;
    #else
        int mode = RTLD_LAZY ;
    #endif
        handle = dlopen("./dyna.$dlext", mode) ;
        if (handle == NULL) {
    	printf ("1\n") ;
    	fflush (stdout) ;
    	exit(0);
        }
        symbol = dlsym(handle, "fred") ;
        if (symbol == NULL) {
    	/* try putting a leading underscore */
    	symbol = dlsym(handle, "_fred") ;
    	if (symbol == NULL) {
    	    printf ("2\n") ;
    	    fflush (stdout) ;
    	    exit(0);
    	}
    	printf ("3\n") ;
        }
        else
    	printf ("4\n") ;
        fflush (stdout) ;
        exit(0);
    }
    EOM
    	: Call the object file tmp-dyna.o in case dlext=o.
    	if $cc $ccflags $cccdlflags -c dyna.c > /dev/null 2>&1 &&
    		mv dyna${_o} tmp-dyna${_o} > /dev/null 2>&1 &&
    		$ld -o dyna.$dlext $ldflags $lddlflags tmp-dyna${_o} > /dev/null 2>&1 &&
    		$cc -o fred $ccflags $ldflags $cccdlflags $ccdlflags fred.c $libs > /dev/null 2>&1 && $to dyna.$dlext; then
    		xxx=`$run ./fred`
    		case $xxx in
    		1)	echo "Test program failed using dlopen." >&4
    			echo "Perhaps you should not use dynamic loading." >&4;;
    		2)	echo "Test program failed using dlsym." >&4
    			echo "Perhaps you should not use dynamic loading." >&4;;
    		3)	echo "dlsym needs a leading underscore" >&4
    			val="$define" ;;
    		4)	echo "dlsym doesn't need a leading underscore." >&4;;
    		esac
    	else
    		echo "I can't compile and run the test program." >&4
                    echo "I'm guessing that dlsym doesn't need a leading underscore." >&4
    	fi
    	;;
    esac
    
    $rm -f fred fred.* dyna.$dlext dyna.* tmp-dyna.*
    
    set d_dlsymun
    eval $setvar
    
    : see if drand48_r exists
    set drand48_r d_drand48_r
    eval $inlibc
    case "$d_drand48_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_stdlib stdlib.h"
    	case "$d_drand48_r_proto:$usethreads" in
    	":define")	d_drand48_r_proto=define
    		set d_drand48_r_proto drand48_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_drand48_r_proto" in
    	define)
    	case "$drand48_r_proto" in
    	''|0) try='int drand48_r(struct drand48_data*, double*);'
    	./protochk "$extern_C $try" $hdrs && drand48_r_proto=I_ST ;;
    	esac
    	case "$drand48_r_proto" in
    	''|0)	d_drand48_r=undef
    		drand48_r_proto=0
    		echo "Disabling drand48_r, cannot determine prototype." >&4 ;;
    	* )	case "$drand48_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) drand48_r_proto="REENTRANT_PROTO_$drand48_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "drand48_r has no prototype, not using it." >&4 ;;
    		esac
    		d_drand48_r=undef
    		drand48_r_proto=0
    		;;
    	esac
    	;;
    *)	drand48_r_proto=0
    	;;
    esac
    
    : see if prototype for drand48 is available
    echo " "
    set d_drand48proto drand48 $i_stdlib stdlib.h $i_unistd unistd.h
    eval $hasproto
    
    : see if dup2 exists
    set dup2 d_dup2
    eval $inlibc
    
    : see if dup3 exists
    set dup3 d_dup3
    eval $inlibc
    
    : see if localeconv_l exists
    set localeconv_l d_localeconv_l
    eval $inlibc
    
    : see if this is an xlocale.h system
    set xlocale.h i_xlocale
    eval $inhdr
    
    : see if newlocale exists
    set newlocale d_newlocale
    eval $inlibc
    
    : see if freelocale exists
    set freelocale d_freelocale
    eval $inlibc
    
    : see if uselocale exists
    set uselocale d_uselocale
    eval $inlibc
    
    : see if duplocale exists
    set duplocale d_duplocale
    eval $inlibc
    
    : see if querylocale exists
    set querylocale d_querylocale
    eval $inlibc
    
    : if we have xlocale.h, check whether it is needed
    case "$i_xlocale$d_newlocale$xlocale_needed" in
    "$define$define")
    	echo "Checking if xlocale.h is needed..." >&4
    	$cat >try.c <<EOF
    #include <locale.h>
    #include <stdio.h>
    #ifdef TRY_XLOCALE
    #include <xlocale.h>
    #endif
    #$d_localeconv_l HAVE_LOCALECONV_L
    
    #ifdef HAVE_LOCALECONV_L
    struct lconv *(*lcptr)(locale_t) = localeconv_l;
    #endif
    
    int main(void) {
      locale_t lc = newlocale(LC_ALL_MASK, "C", (locale_t)0);
    
    #ifdef HAVE_LOCALECONV_L
      /* FreeBSD hides only localeconv_l() in xlocale.h */
      struct lconv *lcbuf = localeconv_l(lc);
      printf("decimal: %s\n", lcbuf->decimal_point);
    #endif
    
      freelocale(lc);
      return 0;
    }
    EOF
    	set try
    	if eval $compile && $run ./try > /dev/null 2>&1 ; then
    		echo "xlocale.h isn't needed" >&4
    		xlocale_needed=$undef
    	else
    		set try -DTRY_XLOCALE
    		if eval $compile && $run ./try > /dev/null 2>&1 ; then
    			xlocale_needed=$define
    			echo "xlocale.h is needed" >&4
    		else
    			echo "I can't build my test either way" >&4
    			xlocale_needed=$undef
    		fi
    	fi
    	$rm_try
    	;;
    *) xlocale_needed=$undef ;;
    esac
    
    : see if eaccess exists
    set eaccess d_eaccess
    eval $inlibc
    
    : see if endgrent exists
    set endgrent d_endgrent
    eval $inlibc
    
    : see if this is an grp system
    set grp.h i_grp
    eval $inhdr
    
    case "$i_grp" in
    $define)
    	xxx=`./findhdr grp.h`
    	$cppstdin $cppflags $cppminus < $xxx >$$.h
    
    	if $contains 'gr_passwd' $$.h >/dev/null 2>&1; then
    		val="$define"
    	else
    		val="$undef"
    	fi
    	set d_grpasswd
    	eval $setvar
    
    	$rm -f $$.h
    	;;
    *)
    	val="$undef";
    	set d_grpasswd; eval $setvar
    	;;
    esac
    
    : see if endgrent_r exists
    set endgrent_r d_endgrent_r
    eval $inlibc
    case "$d_endgrent_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_grp grp.h"
    	case "$d_endgrent_r_proto:$usethreads" in
    	":define")	d_endgrent_r_proto=define
    		set d_endgrent_r_proto endgrent_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_endgrent_r_proto" in
    	define)
    	case "$endgrent_r_proto" in
    	''|0) try='int endgrent_r(FILE**);'
    	./protochk "$extern_C $try" $hdrs && endgrent_r_proto=I_H ;;
    	esac
    	case "$endgrent_r_proto" in
    	''|0) try='void endgrent_r(FILE**);'
    	./protochk "$extern_C $try" $hdrs && endgrent_r_proto=V_H ;;
    	esac
    	case "$endgrent_r_proto" in
    	''|0)	d_endgrent_r=undef
    		endgrent_r_proto=0
    		echo "Disabling endgrent_r, cannot determine prototype." >&4 ;;
    	* )	case "$endgrent_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) endgrent_r_proto="REENTRANT_PROTO_$endgrent_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "endgrent_r has no prototype, not using it." >&4 ;;
    		esac
    		d_endgrent_r=undef
    		endgrent_r_proto=0
    		;;
    	esac
    	;;
    *)	endgrent_r_proto=0
    	;;
    esac
    
    : see if endhostent exists
    set endhostent d_endhent
    eval $inlibc
    
    : see if this is a netdb.h system
    set netdb.h i_netdb
    eval $inhdr
    
    : see if endhostent_r exists
    set endhostent_r d_endhostent_r
    eval $inlibc
    case "$d_endhostent_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_netdb netdb.h"
    	case "$d_endhostent_r_proto:$usethreads" in
    	":define")	d_endhostent_r_proto=define
    		set d_endhostent_r_proto endhostent_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_endhostent_r_proto" in
    	define)
    	case "$endhostent_r_proto" in
    	''|0) try='int endhostent_r(struct hostent_data*);'
    	./protochk "$extern_C $try" $hdrs && endhostent_r_proto=I_D ;;
    	esac
    	case "$endhostent_r_proto" in
    	''|0) try='void endhostent_r(struct hostent_data*);'
    	./protochk "$extern_C $try" $hdrs && endhostent_r_proto=V_D ;;
    	esac
    	case "$endhostent_r_proto" in
    	''|0)	d_endhostent_r=undef
    		endhostent_r_proto=0
    		echo "Disabling endhostent_r, cannot determine prototype." >&4 ;;
    	* )	case "$endhostent_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) endhostent_r_proto="REENTRANT_PROTO_$endhostent_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "endhostent_r has no prototype, not using it." >&4 ;;
    		esac
    		d_endhostent_r=undef
    		endhostent_r_proto=0
    		;;
    	esac
    	;;
    *)	endhostent_r_proto=0
    	;;
    esac
    
    : see if endnetent exists
    set endnetent d_endnent
    eval $inlibc
    
    : see if endnetent_r exists
    set endnetent_r d_endnetent_r
    eval $inlibc
    case "$d_endnetent_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_netdb netdb.h"
    	case "$d_endnetent_r_proto:$usethreads" in
    	":define")	d_endnetent_r_proto=define
    		set d_endnetent_r_proto endnetent_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_endnetent_r_proto" in
    	define)
    	case "$endnetent_r_proto" in
    	''|0) try='int endnetent_r(struct netent_data*);'
    	./protochk "$extern_C $try" $hdrs && endnetent_r_proto=I_D ;;
    	esac
    	case "$endnetent_r_proto" in
    	''|0) try='void endnetent_r(struct netent_data*);'
    	./protochk "$extern_C $try" $hdrs && endnetent_r_proto=V_D ;;
    	esac
    	case "$endnetent_r_proto" in
    	''|0)	d_endnetent_r=undef
    		endnetent_r_proto=0
    		echo "Disabling endnetent_r, cannot determine prototype." >&4 ;;
    	* )	case "$endnetent_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) endnetent_r_proto="REENTRANT_PROTO_$endnetent_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "endnetent_r has no prototype, not using it." >&4 ;;
    		esac
    		d_endnetent_r=undef
    		endnetent_r_proto=0
    		;;
    	esac
    	;;
    *)	endnetent_r_proto=0
    	;;
    esac
    
    : see if endprotoent exists
    set endprotoent d_endpent
    eval $inlibc
    
    : see if endprotoent_r exists
    set endprotoent_r d_endprotoent_r
    eval $inlibc
    case "$d_endprotoent_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_netdb netdb.h"
    	case "$d_endprotoent_r_proto:$usethreads" in
    	":define")	d_endprotoent_r_proto=define
    		set d_endprotoent_r_proto endprotoent_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_endprotoent_r_proto" in
    	define)
    	case "$endprotoent_r_proto" in
    	''|0) try='int endprotoent_r(struct protoent_data*);'
    	./protochk "$extern_C $try" $hdrs && endprotoent_r_proto=I_D ;;
    	esac
    	case "$endprotoent_r_proto" in
    	''|0) try='void endprotoent_r(struct protoent_data*);'
    	./protochk "$extern_C $try" $hdrs && endprotoent_r_proto=V_D ;;
    	esac
    	case "$endprotoent_r_proto" in
    	''|0)	d_endprotoent_r=undef
    		endprotoent_r_proto=0
    		echo "Disabling endprotoent_r, cannot determine prototype." >&4 ;;
    	* )	case "$endprotoent_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) endprotoent_r_proto="REENTRANT_PROTO_$endprotoent_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "endprotoent_r has no prototype, not using it." >&4 ;;
    		esac
    		d_endprotoent_r=undef
    		endprotoent_r_proto=0
    		;;
    	esac
    	;;
    *)	endprotoent_r_proto=0
    	;;
    esac
    
    : see if endpwent exists
    set endpwent d_endpwent
    eval $inlibc
    
    : see if this is a pwd.h system
    set pwd.h i_pwd
    eval $inhdr
    
    case "$i_pwd" in
    $define)
    	xxx=`./findhdr pwd.h`
    	$cppstdin $cppflags $cppminus < $xxx >$$.h
    
    	if $contains 'pw_quota' $$.h >/dev/null 2>&1; then
    		val="$define"
    	else
    		val="$undef"
    	fi
    	set d_pwquota
    	eval $setvar
    
    	if $contains 'pw_age' $$.h >/dev/null 2>&1; then
    		val="$define"
    	else
    		val="$undef"
    	fi
    	set d_pwage
    	eval $setvar
    
    	if $contains 'pw_change' $$.h >/dev/null 2>&1; then
    		val="$define"
    	else
    		val="$undef"
    	fi
    	set d_pwchange
    	eval $setvar
    
    	if $contains 'pw_class' $$.h >/dev/null 2>&1; then
    		val="$define"
    	else
    		val="$undef"
    	fi
    	set d_pwclass
    	eval $setvar
    
    	if $contains 'pw_expire' $$.h >/dev/null 2>&1; then
    		val="$define"
    	else
    		val="$undef"
    	fi
    	set d_pwexpire
    	eval $setvar
    
    	if $contains 'pw_comment' $$.h >/dev/null 2>&1; then
    		val="$define"
    	else
    		val="$undef"
    	fi
    	set d_pwcomment
    	eval $setvar
    
    	if $contains 'pw_gecos' $$.h >/dev/null 2>&1; then
    		val="$define"
    	else
    		val="$undef"
    	fi
    	set d_pwgecos
    	eval $setvar
    
    	if $contains 'pw_passwd' $$.h >/dev/null 2>&1; then
    		val="$define"
    	else
    		val="$undef"
    	fi
    	set d_pwpasswd
    	eval $setvar
    
    	$rm -f $$.h
    	;;
    *)
    	val="$undef";
    	set d_pwquota; eval $setvar
    	set d_pwage; eval $setvar
    	set d_pwchange; eval $setvar
    	set d_pwclass; eval $setvar
    	set d_pwexpire; eval $setvar
    	set d_pwcomment; eval $setvar
    	set d_pwgecos; eval $setvar
    	set d_pwpasswd; eval $setvar
    	;;
    esac
    
    : see if endpwent_r exists
    set endpwent_r d_endpwent_r
    eval $inlibc
    case "$d_endpwent_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_pwd pwd.h"
    	case "$d_endpwent_r_proto:$usethreads" in
    	":define")	d_endpwent_r_proto=define
    		set d_endpwent_r_proto endpwent_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_endpwent_r_proto" in
    	define)
    	case "$endpwent_r_proto" in
    	''|0) try='int endpwent_r(FILE**);'
    	./protochk "$extern_C $try" $hdrs && endpwent_r_proto=I_H ;;
    	esac
    	case "$endpwent_r_proto" in
    	''|0) try='void endpwent_r(FILE**);'
    	./protochk "$extern_C $try" $hdrs && endpwent_r_proto=V_H ;;
    	esac
    	case "$endpwent_r_proto" in
    	''|0)	d_endpwent_r=undef
    		endpwent_r_proto=0
    		echo "Disabling endpwent_r, cannot determine prototype." >&4 ;;
    	* )	case "$endpwent_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) endpwent_r_proto="REENTRANT_PROTO_$endpwent_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "endpwent_r has no prototype, not using it." >&4 ;;
    		esac
    		d_endpwent_r=undef
    		endpwent_r_proto=0
    		;;
    	esac
    	;;
    *)	endpwent_r_proto=0
    	;;
    esac
    
    : see if endservent exists
    set endservent d_endsent
    eval $inlibc
    
    : see if endservent_r exists
    set endservent_r d_endservent_r
    eval $inlibc
    case "$d_endservent_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_netdb netdb.h"
    	case "$d_endservent_r_proto:$usethreads" in
    	":define")	d_endservent_r_proto=define
    		set d_endservent_r_proto endservent_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_endservent_r_proto" in
    	define)
    	case "$endservent_r_proto" in
    	''|0) try='int endservent_r(struct servent_data*);'
    	./protochk "$extern_C $try" $hdrs && endservent_r_proto=I_D ;;
    	esac
    	case "$endservent_r_proto" in
    	''|0) try='void endservent_r(struct servent_data*);'
    	./protochk "$extern_C $try" $hdrs && endservent_r_proto=V_D ;;
    	esac
    	case "$endservent_r_proto" in
    	''|0)	d_endservent_r=undef
    		endservent_r_proto=0
    		echo "Disabling endservent_r, cannot determine prototype." >&4 ;;
    	* )	case "$endservent_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) endservent_r_proto="REENTRANT_PROTO_$endservent_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "endservent_r has no prototype, not using it." >&4 ;;
    		esac
    		d_endservent_r=undef
    		endservent_r_proto=0
    		;;
    	esac
    	;;
    *)	endservent_r_proto=0
    	;;
    esac
    
    : Locate the flags for 'open()'
    echo " "
    $cat >try.c <<EOCP
    #include <sys/types.h>
    #ifdef I_FCNTL
    #include <fcntl.h>
    #endif
    #ifdef I_SYS_FILE
    #include <sys/file.h>
    #endif
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    int main() {
    	if(O_RDONLY);
    #ifdef O_TRUNC
    	exit(0);
    #else
    	exit(1);
    #endif
    }
    EOCP
    : check sys/file.h first to get FREAD on Sun
    if $test `./findhdr sys/file.h` && \
    		set try -DI_SYS_FILE && eval $compile; then
    	h_sysfile=true;
    	echo "<sys/file.h> defines the O_* constants..." >&4
    	if $run ./try; then
    		echo "and you have the 3 argument form of open()." >&4
    		val="$define"
    	else
    		echo "but not the 3 argument form of open().  Oh, well." >&4
    		val="$undef"
    	fi
    elif $test `./findhdr fcntl.h` && \
    		set try -DI_FCNTL && eval $compile; then
    	h_fcntl=true;
    	echo "<fcntl.h> defines the O_* constants..." >&4
    	if $run ./try; then
    		echo "and you have the 3 argument form of open()." >&4
    		val="$define"
    	else
    		echo "but not the 3 argument form of open().  Oh, well." >&4
    		val="$undef"
    	fi
    else
    	val="$undef"
    	echo "I can't find the O_* constant definitions!  You got problems." >&4
    fi
    set d_open3
    eval $setvar
    $rm_try
    
    : see if this is a sys/file.h system
    val=''
    set sys/file.h val
    eval $inhdr
    
    : do we need to include sys/file.h ?
    case "$val" in
    "$define")
    	echo " "
    	if $h_sysfile; then
    		val="$define"
    		echo "We'll be including <sys/file.h>." >&4
    	else
    		val="$undef"
    		echo "We won't be including <sys/file.h>." >&4
    	fi
    	;;
    *)
    	h_sysfile=false
    	;;
    esac
    set i_sysfile
    eval $setvar
    
    : see if fcntl.h is there
    val=''
    set fcntl.h val
    eval $inhdr
    
    : see if we can include fcntl.h
    case "$val" in
    "$define")
    	echo " "
    	if $h_fcntl; then
    		val="$define"
    		echo "We'll be including <fcntl.h>." >&4
    	else
    		val="$undef"
    		if $h_sysfile; then
    	echo "We don't need to include <fcntl.h> if we include <sys/file.h>." >&4
    		else
    			echo "We won't be including <fcntl.h>." >&4
    		fi
    	fi
    	;;
    *)
    	h_fcntl=false
    	val="$undef"
    	;;
    esac
    set i_fcntl
    eval $setvar
    
    : see if fork exists
    set fork d_fork
    eval $inlibc
    
    : see if pipe exists
    set pipe d_pipe
    eval $inlibc
    
    : check for non-blocking I/O stuff
    case "$h_sysfile" in
    true) echo "#include <sys/file.h>" > head.c;;
    *)
           case "$h_fcntl" in
           true) echo "#include <fcntl.h>" > head.c;;
           *) echo "#include <sys/fcntl.h>" > head.c;;
           esac
           ;;
    esac
    echo " "
    echo "Figuring out the flag used by open() for non-blocking I/O..." >&4
    case "$o_nonblock" in
    '')
    	$cat head.c > try.c
    	$cat >>try.c <<EOCP
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #$i_fcntl I_FCNTL
    #ifdef I_FCNTL
    #include <fcntl.h>
    #endif
    int main() {
    #ifdef O_NONBLOCK
    	printf("O_NONBLOCK\n");
    	exit(0);
    #endif
    #ifdef O_NDELAY
    	printf("O_NDELAY\n");
    	exit(0);
    #endif
    #ifdef FNDELAY
    	printf("FNDELAY\n");
    	exit(0);
    #endif
    	exit(0);
    }
    EOCP
    	set try
    	if eval $compile_ok; then
    		o_nonblock=`$run ./try`
    		case "$o_nonblock" in
    		'') echo "I can't figure it out, assuming O_NONBLOCK will do.";;
    		*) echo "Seems like we can use $o_nonblock.";;
    		esac
    	else
    		echo "(I can't compile the test program; pray O_NONBLOCK is right!)"
    	fi
    	;;
    *) echo "Using $hint value $o_nonblock.";;
    esac
    $rm_try
    
    echo " "
    echo "Let's see what value errno gets from read() on a $o_nonblock file..." >&4
    case "$eagain" in
    '')
    	case "$d_fork:$d_pipe:$d_alarm" in
    	define:define:define)
    	$cat head.c > try.c
    	$cat >>try.c <<EOCP
    #include <errno.h>
    #include <sys/types.h>
    #include <signal.h>
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #$i_fcntl I_FCNTL
    #ifdef I_FCNTL
    #include <fcntl.h>
    #endif
    #define MY_O_NONBLOCK $o_nonblock
    #ifndef errno  /* XXX need better Configure test */
    extern int errno;
    #endif
    #$i_unistd I_UNISTD
    #ifdef I_UNISTD
    #include <unistd.h>
    #endif
    #include <string.h>
    $signal_t blech(int x) { exit(3); }
    EOCP
    	$cat >> try.c <<'EOCP'
    int main()
    {
    	int pd[2];
    	int pu[2];
    	char buf[1];
    	char string[100];
    	int ret;
    
    	ret = pipe(pd);	/* Down: child -> parent */
    	if (ret != 0)
    		exit(3);
    	ret = pipe(pu);	/* Up: parent -> child */
    	if (ret != 0)
    		exit(3);
    	if (0 != fork()) {
    		close(pd[1]);	/* Parent reads from pd[0] */
    		close(pu[0]);	/* Parent writes (blocking) to pu[1] */
    #ifdef F_SETFL
    		if (-1 == fcntl(pd[0], F_SETFL, MY_O_NONBLOCK))
    			exit(1);
    #else
    		exit(4);
    #endif
    		signal(SIGALRM, blech);
    		alarm(5);
    		if ((ret = read(pd[0], buf, 1)) > 0)	/* Nothing to read! */
    			exit(2);
    		sprintf(string, "%d\n", ret);
    		ret = write(2, string, strlen(string));
    		if (ret != strlen(string))
    			exit(3);
    		alarm(0);
    #ifdef EAGAIN
    		if (errno == EAGAIN) {
    			printf("EAGAIN\n");
    			goto ok;
    		}
    #endif
    #ifdef EWOULDBLOCK
    		if (errno == EWOULDBLOCK)
    			printf("EWOULDBLOCK\n");
    #endif
    	ok:
    		ret = write(pu[1], buf, 1);	/* Unblocks child, tell it to close our pipe */
    		if (ret != 1)
    			exit(3);
    		sleep(2);				/* Give it time to close our pipe */
    		alarm(5);
    		ret = read(pd[0], buf, 1);	/* Should read EOF */
    		alarm(0);
    		sprintf(string, "%d\n", ret);
    		ret = write(4, string, strlen(string));
    		if (ret != strlen(string))
    			exit(3);
    		exit(0);
    	}
    
    	close(pd[0]);			/* We write to pd[1] */
    	close(pu[1]);			/* We read from pu[0] */
    	ret = read(pu[0], buf, 1);	/* Wait for parent to signal us we may continue */
    	if (ret != 1)
    		exit(3);
    	close(pd[1]);			/* Pipe pd is now fully closed! */
    	exit(0);				/* Bye bye, thank you for playing! */
    }
    EOCP
    	set try
    	if eval $compile_ok; then
    		echo "$startsh" >mtry
    		echo "$run ./try >try.out 2>try.ret 4>try.err || exit 4" >>mtry
    		chmod +x mtry
    		$run ./mtry >/dev/null 2>&1
    		case $? in
    		0) eagain=`$cat try.out`;;
    		1) echo "Could not perform non-blocking setting!";;
    		2) echo "I did a successful read() for something that was not there!";;
    		3) echo "Hmm... non-blocking I/O does not seem to be working!";;
    		4) echo "Could not find F_SETFL!";;
    		*) echo "Something terribly wrong happened during testing.";;
    		esac
    		rd_nodata=`$cat try.ret`
    		echo "A read() system call with no data present returns $rd_nodata."
    		case "$rd_nodata" in
    		0|-1) ;;
    		*)
    			echo "(That's peculiar, fixing that to be -1.)"
    			rd_nodata=-1
    			;;
    		esac
    		case "$eagain" in
    		'')
    			echo "Forcing errno EAGAIN on read() with no data available."
    			eagain=EAGAIN
    			;;
    		*)
    			echo "Your read() sets errno to $eagain when no data is available."
    			;;
    		esac
    		status=`$cat try.err`
    		case "$status" in
    		0) echo "And it correctly returns 0 to signal EOF.";;
    		-1) echo "But it also returns -1 to signal EOF, so be careful!";;
    		*) echo "However, your read() returns '$status' on EOF??";;
    		esac
    		val="$define"
    		if test "$status" = "$rd_nodata"; then
    			echo "WARNING: you can't distinguish between EOF and no data!"
    			val="$undef"
    		fi
    	else
    		echo "I can't compile the test program--assuming errno EAGAIN will do."
    		eagain=EAGAIN
    	fi
    	;;
    	*)	echo "Can't figure out how to test this--assuming errno EAGAIN will do."
    		eagain=EAGAIN
    		val="$define"
    		;;
    	esac
    	set d_eofnblk
    	eval $setvar
    	;;
    *)
    	echo "Using $hint value $eagain."
    	echo "Your read() returns $rd_nodata when no data is present."
    	case "$d_eofnblk" in
    	"$define") echo "And you can see EOF because read() returns 0.";;
    	"$undef") echo "But you can't see EOF status from read() returned value.";;
    	*)
    		echo "(Assuming you can't see EOF status from read anyway.)"
    		d_eofnblk=$undef
    		;;
    	esac
    	;;
    esac
    $rm_try head.c mtry
    
    : see if erf exists
    set erf d_erf
    eval $inlibc
    
    : see if erfc exists
    set erfc d_erfc
    eval $inlibc
    
    : see if exp2 exists
    set exp2 d_exp2
    eval $inlibc
    
    : see if expm1 exists
    set expm1 d_expm1
    eval $inlibc
    
    : see if _ptr and _cnt from stdio act std
    echo " "
    
    if $contains '_lbfsize' `./findhdr stdio.h` >/dev/null 2>&1 ; then
    	echo "(Looks like you have stdio.h from BSD.)"
    	case "$stdio_ptr" in
    	'') stdio_ptr='((fp)->_p)'
    		ptr_lval=$define
    		;;
    	*)	ptr_lval=$d_stdio_ptr_lval;;
    	esac
    	case "$stdio_cnt" in
    	'') stdio_cnt='((fp)->_r)'
    		cnt_lval=$define
    		;;
    	*)	cnt_lval=$d_stdio_cnt_lval;;
    	esac
    	case "$stdio_base" in
    	'') stdio_base='((fp)->_ub._base ? (fp)->_ub._base : (fp)->_bf._base)';;
    	esac
    	case "$stdio_bufsiz" in
    	'') stdio_bufsiz='((fp)->_ub._base ? (fp)->_ub._size : (fp)->_bf._size)';;
    	esac
    elif $contains '_IO_fpos_t' `./findhdr stdio.h` `./findhdr libio.h` >/dev/null 2>&1 ; then
    	echo "(Looks like you have stdio.h from Linux.)"
    	case "$stdio_ptr" in
    	'') stdio_ptr='((fp)->_IO_read_ptr)'
    		ptr_lval=$define
    		;;
    	*)	ptr_lval=$d_stdio_ptr_lval;;
    	esac
    	case "$stdio_cnt" in
    	'') stdio_cnt='((fp)->_IO_read_end - (fp)->_IO_read_ptr)'
    		cnt_lval=$undef
    		;;
    	*)	cnt_lval=$d_stdio_cnt_lval;;
    	esac
    	case "$stdio_base" in
    	'') stdio_base='((fp)->_IO_read_base)';;
    	esac
    	case "$stdio_bufsiz" in
    	'') stdio_bufsiz='((fp)->_IO_read_end - (fp)->_IO_read_base)';;
    	esac
    else
    	case "$stdio_ptr" in
    	'') stdio_ptr='((fp)->_ptr)'
    		ptr_lval=$define
    		;;
    	*)	ptr_lval=$d_stdio_ptr_lval;;
    	esac
    	case "$stdio_cnt" in
    	'') stdio_cnt='((fp)->_cnt)'
    		cnt_lval=$define
    		;;
    	*)	cnt_lval=$d_stdio_cnt_lval;;
    	esac
    	case "$stdio_base" in
    	'') stdio_base='((fp)->_base)';;
    	esac
    	case "$stdio_bufsiz" in
    	'') stdio_bufsiz='((fp)->_cnt + (fp)->_ptr - (fp)->_base)';;
    	esac
    fi
    
    : test whether _ptr and _cnt really work
    echo "Checking how std your stdio is..." >&4
    $cat >try.c <<EOP
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #define FILE_ptr(fp)	$stdio_ptr
    #define FILE_cnt(fp)	$stdio_cnt
    int main() {
    	FILE *fp = fopen("try.c", "r");
    	char c = getc(fp);
    	if (
    		18 <= FILE_cnt(fp) &&
    		strncmp(FILE_ptr(fp), "include <stdio.h>\n", 18) == 0
    	)
    		exit(0);
    	exit(1);
    }
    EOP
    val="$undef"
    set try
    if eval $compile && $to try.c; then
    	if $run ./try; then
    		echo "Your stdio acts pretty std."
    		val="$define"
    	else
    		echo "Your stdio isn't very std."
    	fi
    else
    	echo "Your stdio doesn't appear very std."
    fi
    $rm_try
    
    # glibc 2.2.90 and above apparently change stdio streams so Perl's
    # direct buffer manipulation no longer works.  The Configure tests
    # should be changed to correctly detect this, but until then,
    # the following check should at least let perl compile and run.
    # (This quick fix should be updated before 5.8.1.)
    # To be defensive, reject all unknown versions, and all versions  > 2.2.9.
    # A. Dougherty, June 3, 2002.
    case "$d_gnulibc" in
    $define)
    	case "$gnulibc_version" in
    	2.[01]*)  ;;
    	2.2) ;;
    	2.2.[0-9]) ;;
    	*)  echo "But I will not snoop inside glibc $gnulibc_version stdio buffers."
    		val="$undef"
    		;;
    	esac
    	;;
    esac
    set d_stdstdio
    eval $setvar
    
    : Can _ptr be used as an lvalue?
    case "$d_stdstdio$ptr_lval" in
    $define$define) val=$define ;;
    *) val=$undef ;;
    esac
    set d_stdio_ptr_lval
    eval $setvar
    
    : Can _cnt be used as an lvalue?
    case "$d_stdstdio$cnt_lval" in
    $define$define) val=$define ;;
    *) val=$undef ;;
    esac
    set d_stdio_cnt_lval
    eval $setvar
    
    
    : test whether setting _ptr sets _cnt as a side effect
    d_stdio_ptr_lval_sets_cnt="$undef"
    d_stdio_ptr_lval_nochange_cnt="$undef"
    case "$d_stdio_ptr_lval$d_stdstdio" in
    $define$define)
    	echo "Checking to see what happens if we set the stdio ptr..." >&4
    $cat >try.c <<EOP
    #include <stdio.h>
    /* Can we scream? */
    /* Eat dust sed :-) */
    /* In the buffer space, no one can hear you scream. */
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #define FILE_ptr(fp)	$stdio_ptr
    #define FILE_cnt(fp)	$stdio_cnt
    #include <sys/types.h>
    int main() {
    	FILE *fp = fopen("try.c", "r");
    	int c;
    	char *ptr;
    	size_t cnt;
    	if (!fp) {
    	    puts("Fail even to read");
    	    exit(1);
    	}
    	c = getc(fp); /* Read away the first # */
    	if (c == EOF) {
    	    puts("Fail even to read");
    	    exit(1);
    	}
    	if (!(
    		18 <= FILE_cnt(fp) &&
    		strncmp(FILE_ptr(fp), "include <stdio.h>\n", 18) == 0
    	)) {
    		puts("Fail even to read");
    		exit (1);
    	}
    	ptr = (char*) FILE_ptr(fp);
    	cnt = (size_t)FILE_cnt(fp);
    
    	FILE_ptr(fp) += 42;
    
    	if ((char*)FILE_ptr(fp) != (ptr + 42)) {
    		printf("Fail ptr check %p != %p", FILE_ptr(fp), (ptr + 42));
    		exit (1);
    	}
    	if (FILE_cnt(fp) <= 20) {
    		printf ("Fail (<20 chars to test)");
    		exit (1);
    	}
    	if (strncmp(FILE_ptr(fp), "Eat dust sed :-) */\n", 20) != 0) {
    		puts("Fail compare");
    		exit (1);
    	}
    	if (cnt == FILE_cnt(fp)) {
    		puts("Pass_unchanged");
    		exit (0);
    	}
    	if (FILE_cnt(fp) == (cnt - 42)) {
    		puts("Pass_changed");
    		exit (0);
    	}
    	printf("Fail count was %d now %d\n", cnt, FILE_cnt(fp));
    	return 1;
    
    }
    EOP
    	set try
    	if eval $compile && $to try.c; then
    		case `$run ./try` in
    		Pass_changed)
    			echo "Increasing ptr in your stdio decreases cnt by the same amount.  Good." >&4
    			d_stdio_ptr_lval_sets_cnt="$define" ;;
    		Pass_unchanged)
    			echo "Increasing ptr in your stdio leaves cnt unchanged.  Good." >&4
    			d_stdio_ptr_lval_nochange_cnt="$define" ;;
    		Fail*)
    			echo "Increasing ptr in your stdio didn't do exactly what I expected.  We'll not be doing that then." >&4 ;;
    		*)
    			echo "It appears attempting to set ptr in your stdio is a bad plan." >&4 ;;
    	esac
    	else
    		echo "It seems we can't set ptr in your stdio.  Nevermind." >&4
    	fi
    	$rm_try
    	;;
    esac
    
    : see if _base is also standard
    val="$undef"
    case "$d_stdstdio" in
    $define)
    	$cat >try.c <<EOP
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #define FILE_base(fp)	$stdio_base
    #define FILE_bufsiz(fp)	$stdio_bufsiz
    int main() {
    	FILE *fp = fopen("try.c", "r");
    	char c = getc(fp);
    	if (
    		19 <= FILE_bufsiz(fp) &&
    		strncmp(FILE_base(fp), "#include <stdio.h>\n", 19) == 0
    	)
    		exit(0);
    	exit(1);
    }
    EOP
    	set try
    	if eval $compile && $to try.c; then
    		if $run ./try; then
    			echo "And its _base field acts std."
    			val="$define"
    		else
    			echo "But its _base field isn't std."
    		fi
    	else
    		echo "However, it seems to be lacking the _base field."
    	fi
    	$rm_try
    	;;
    esac
    set d_stdiobase
    eval $setvar
    
    : see if fast_stdio exists
    val="$undef"
    case "$d_stdstdio:$d_stdio_ptr_lval" in
    "$define:$define")
    	case "$d_stdio_cnt_lval$d_stdio_ptr_lval_sets_cnt" in
    	*$define*)
    		echo "You seem to have 'fast stdio' to directly manipulate the stdio buffers." >&4
    		val="$define"
    		;;
    	esac
    	;;
    esac
    set d_faststdio
    eval $setvar
    
    : see if fchdir exists
    set fchdir d_fchdir
    eval $inlibc
    
    : see if fchmod exists
    set fchmod d_fchmod
    eval $inlibc
    
    : check for openat, unlinkat, renameat, linkat, fchmodat
    set openat d_openat
    eval $inlibc
    
    set unlinkat d_unlinkat
    eval $inlibc
    
    set renameat d_renameat
    eval $inlibc
    
    set linkat d_linkat
    eval $inlibc
    
    set fchmodat d_fchmodat
    eval $inlibc
    
    : see if fchown exists
    set fchown d_fchown
    eval $inlibc
    
    : see if this is an fcntl system
    set fcntl d_fcntl
    eval $inlibc
    
    : See if fcntl-based locking works.
    echo " "
    $cat >try.c <<EOCP
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #include <unistd.h>
    #include <fcntl.h>
    #include <signal.h>
    $signal_t blech(int x) { exit(3); }
    int main() {
    #if defined(F_SETLK) && defined(F_SETLKW)
         struct flock flock;
         int retval, fd;
         fd = open("try.c", O_RDONLY);
         flock.l_type = F_RDLCK;
         flock.l_whence = SEEK_SET;
         flock.l_start = flock.l_len = 0;
         signal(SIGALRM, blech);
         alarm(10);
         retval = fcntl(fd, F_SETLK, &flock);
         close(fd);
         (retval < 0 ? exit(2) : exit(0));
    #else
         exit(2);
    #endif
    }
    EOCP
    echo "Checking if fcntl-based file locking works... "
    case "$d_fcntl" in
    "$define")
    	set try
    	if eval $compile_ok; then
    		if $run ./try; then
    			echo "Yes, it seems to work."
    			val="$define"
    		else
    			echo "Nope, it didn't work."
    			val="$undef"
    			case "$?" in
    			3) $cat >&4 <<EOM
    ***
    *** I had to forcibly timeout from fcntl(..., F_SETLK, ...).
    *** This is (almost) impossible.
    *** If your NFS lock daemons are not feeling well, something like
    *** this may happen, please investigate.  Cannot continue, aborting.
    ***
    EOM
    				exit 1
    				;;
    			esac
    		fi
    	else
    		echo "I'm unable to compile the test program, so I'll assume not."
    		val="$undef"
    	fi
    	;;
    *) val="$undef";
    	echo "Nope, since you don't even have fcntl()."
    	;;
    esac
    set d_fcntl_can_lock
    eval $setvar
    $rm_try
    
    : check for fd_set items
    $cat <<EOM
    
    Checking to see how well your C compiler handles fd_set and friends ...
    EOM
    $cat >try.c <<EOCP
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #$i_systime I_SYS_TIME
    #$i_sysselct I_SYS_SELECT
    #$d_socket HAS_SOCKET
    #include <sys/types.h>
    #ifdef HAS_SOCKET
    #include <sys/socket.h> /* Might include <sys/bsdtypes.h> */
    #endif
    #ifdef I_SYS_TIME
    #include <sys/time.h>
    #endif
    #ifdef I_SYS_SELECT
    #include <sys/select.h>
    #endif
    int main() {
    	fd_set fds;
    
    #ifdef TRYBITS
    	if(fds.fds_bits);
    #endif
    
    #if defined(FD_SET) && defined(FD_CLR) && defined(FD_ISSET) && defined(FD_ZERO)
    	exit(0);
    #else
    	exit(1);
    #endif
    }
    EOCP
    set try -DTRYBITS
    if eval $compile; then
    	d_fds_bits="$define"
    	d_fd_set="$define"
    	echo "Well, your system knows about the normal fd_set typedef..." >&4
    	if $run ./try; then
    		echo "and you have the normal fd_set macros (just as I'd expect)." >&4
    		d_fd_macros="$define"
    	else
    		$cat >&4 <<'EOM'
    but not the normal fd_set macros!  Gaaack!  I'll have to cover for you.
    EOM
    		d_fd_macros="$undef"
    	fi
    else
    	$cat <<'EOM'
    Hmm, your compiler has some difficulty with fd_set.  Checking further...
    EOM
    	set try
    	if eval $compile; then
    		d_fds_bits="$undef"
    		d_fd_set="$define"
    		echo "Well, your system has some sort of fd_set available..." >&4
    		if $run ./try; then
    			echo "and you have the normal fd_set macros." >&4
    			d_fd_macros="$define"
    		else
    			$cat <<'EOM'
    but not the normal fd_set macros!  Gross!  More work for me...
    EOM
    			d_fd_macros="$undef"
    		fi
    	else
    	echo "Well, you got zip.  That's OK, I can roll my own fd_set stuff." >&4
    		d_fd_set="$undef"
    		d_fds_bits="$undef"
    		d_fd_macros="$undef"
    	fi
    fi
    $rm_try
    
    : see if fdclose exists
    set fdclose d_fdclose
    eval $inlibc
    
    : see if fdim exists
    set fdim d_fdim
    eval $inlibc
    
    : see if fegetround exists
    set fegetround d_fegetround
    eval $inlibc
    
    : see if ffs exists
    set ffs d_ffs
    eval $inlibc
    : see if ffsl exists
    set ffsl d_ffsl
    eval $inlibc
    
    : see if fgetpos exists
    set fgetpos d_fgetpos
    eval $inlibc
    
    : see if finite exists
    set finite d_finite
    eval $inlibc
    
    : see if finitel exists
    set finitel d_finitel
    eval $inlibc
    
    : see if flock exists
    set flock d_flock
    eval $inlibc
    
    : see if prototype for flock is available
    echo " "
    set d_flockproto flock $i_sysfile sys/file.h
    eval $hasproto
    
    : see if fma exists
    set fma d_fma
    eval $inlibc
    
    : see if fmax exists
    set fmax d_fmax
    eval $inlibc
    
    : see if fmin exists
    set fmin d_fmin
    eval $inlibc
    
    : see if fp_class exists
    set fp_class d_fp_class
    eval $inlibc
    
    : check for fpclassify
    echo "Checking to see if you have fpclassify..." >&4
    $cat >try.c <<EOCP
    #include <math.h>
    int main() { return fpclassify(1.0) == FP_NORMAL ? 0 : 1; }
    EOCP
    set try
    if eval $compile; then
    	val="$define"
    	echo "You have fpclassify."
    else
    	val="$undef"
    	echo "You do not have fpclassify."
    fi
    $rm_try
    set d_fpclassify
    eval $setvar
    
    : see if fp_classify exists
    set fp_classify d_fp_classify
    eval $inlibc
    
    : see if fp_classl exists
    set fp_classl d_fp_classl
    eval $inlibc
    
    : see if pathconf exists
    set pathconf d_pathconf
    eval $inlibc
    
    : see if fpathconf exists
    set fpathconf d_fpathconf
    eval $inlibc
    
    : see if fpclass exists
    set fpclass d_fpclass
    eval $inlibc
    
    : see if fpclassl exists
    set fpclassl d_fpclassl
    eval $inlibc
    
    : see if fpgetround exists
    set fpgetround d_fpgetround
    eval $inlibc
    
    : check for fpos64_t
    echo " "
    echo "Checking to see if you have fpos64_t..." >&4
    $cat >try.c <<EOCP
    #include <stdio.h>
    int main() { fpos64_t x = 7; }
    EOCP
    set try
    if eval $compile; then
    	val="$define"
    	echo "You have fpos64_t."
    else
    	val="$undef"
    	echo "You do not have fpos64_t."
    	case "$fpossize" in
    	8) echo "(Your fpos_t is 64 bits, so you could use that.)" ;;
    	esac
    fi
    $rm_try
    set d_fpos64_t
    eval $setvar
    
    : see if frexpl exists
    set frexpl d_frexpl
    eval $inlibc
    
    : see if this is a sys/param system
    set sys/param.h i_sysparam
    eval $inhdr
    
    : see if this is a sys/mount.h system
    set sys/mount.h i_sysmount
    eval $inhdr
    
    : Check for fs_data_s
    echo " "
    echo "Checking to see if your system supports struct fs_data..." >&4
    set d_fs_data_s fs_data $i_systypes sys/types.h $i_sysparam sys/param.h $i_sysmount sys/mount.h
    eval $hasstruct
    case "$d_fs_data_s" in
    "$define")      echo "Yes, it does."   ;;
    *)              echo "No, it doesn't." ;;
    esac
    
    : see if fseeko exists
    set fseeko d_fseeko
    eval $inlibc
    case "$longsize" in
    8) echo "(Your long is 64 bits, so you could use fseek.)" ;;
    esac
    
    : see if fsetpos exists
    set fsetpos d_fsetpos
    eval $inlibc
    
    : see if fstatfs exists
    set fstatfs d_fstatfs
    eval $inlibc
    
    : see if statvfs exists
    set statvfs d_statvfs
    eval $inlibc
    
    : see if fstatvfs exists
    set fstatvfs d_fstatvfs
    eval $inlibc
    
    : see if fsync exists
    set fsync d_fsync
    eval $inlibc
    
    : see if ftello exists
    set ftello d_ftello
    eval $inlibc
    case "$longsize" in
    8) echo "(Your long is 64 bits, so you could use ftell.)" ;;
    esac
    
    : check for a working futimes
    d_futimes="$undef"
    echo " "
    echo "Checking if you have a working futimes()" >&4
    $cat >try.c <<EOCP
    #include <stdio.h>
    #include <stdlib.h>
    #include <sys/time.h>
    #include <errno.h>
    #include <fcntl.h>
    #include <stdlib.h>
    
    int main ()
    {
        int fd, rv;
        fd = open ("try.c", O_RDWR);
        if (-1 == fd) exit (1);
        rv = futimes (fd, NULL);
        exit (rv == -1 ? errno : 0);
    }
    EOCP
    set try
    if eval $compile; then
        `$run ./try`
        rc=$?
        case "$rc" in
    	0)  echo "Yes, you have" >&4
    	    d_futimes="$define"
    	    ;;
    	*)  echo "No, you have futimes, but it isn't working ($rc) (probably harmless)" >&4
    	    ;;
        esac
    else
        echo "No, it does not (probably harmless)" >&4
    fi
    $rm_try
    
    : look for gai_strerror
    echo " "
    $cat >try.c <<'EOCP'
    #include <sys/types.h>
    #include <sys/socket.h>
    #include <netdb.h>
    int main ()
    {
        return (gai_strerror (0) ? 0 : 1);
        }
    EOCP
    set try
    val="$undef"
    if eval $compile; then
        `$run ./try`
        case "$?" in
    	0)  echo "A working gai_strerror() found." >&4
    	    val="$define" ;;
    	*)  echo "gai_strerror() found, but it doesn't work" >&4
    	    ;;
    	esac
    else
        echo "gai_strerror() NOT found." >&4
        fi
    set d_gai_strerror
    eval $setvar
    $rm_try
    
    : see if ndbm.h is available
    set ndbm.h i_ndbm
    eval $inhdr
    : Compatibility location for RedHat 7.1
    set gdbm/ndbm.h i_gdbmndbm
    eval $inhdr
    : Compatibility location for Debian 4.0
    set gdbm-ndbm.h i_gdbm_ndbm
    eval $inhdr
    
    val="$undef"
    if $test "$i_ndbm" = "$define" -o "$i_gdbmndbm" = "$define" -o "$i_gdbm_ndbm" = "$define"; then
    	: see if dbm_open exists
    	set dbm_open d_dbm_open
    	eval $inlibc
    	case "$d_dbm_open" in
    	$undef)
    		i_ndbm="$undef"
    		i_gdbmndbm="$undef"
    		i_gdbm_ndbm="$undef"
    		echo "We won't be including <ndbm.h>"
    		val="$undef"
    		;;
    	*) val="$define"
    	   ;;
    	esac
    fi
    set d_ndbm
    eval $setvar
    
    ndbm_hdr_protochk='name=$1; hdr=$2;
    eval "ihdr=\$""i_$name";
    val="$undef";
    if $test "$ihdr" = "$define"; then
    	$echo "Checking if your <$hdr> uses prototypes..." >&4;
    	case "$d_cplusplus" in
    	$define) ./protochk "$extern_C void dbm_close(DBM *);" literal "extern \"C\" {" $ihdr $hdr literal "}" && val="$define" ;;
    	*) ./protochk "$extern_C void dbm_close(int, int);" $ihdr $hdr || val="$define" ;;
    	esac;
    	case "$val" in
    	$define) $echo "Your <$hdr> seems to have prototypes";;
    	*) $echo "Your <$hdr> does not seem to have prototypes";;
    	esac;
    fi;
    set "d_${name}_h_uses_prototypes";
    eval $setvar'
    
    set ndbm ndbm.h
    eval $ndbm_hdr_protochk
    set gdbmndbm gdbm/ndbm.h
    eval $ndbm_hdr_protochk
    set gdbm_ndbm gdbm-ndbm.h
    eval $ndbm_hdr_protochk
    
    : see if getaddrinfo exists
    set getaddrinfo d_getaddrinfo
    eval $inlibc
    
    : see if getcwd exists
    set getcwd d_getcwd
    eval $inlibc
    
    : check for getenv behavior
    case "$d_getenv_preserves_other_thread" in
    '')
    $echo "Checking to see if getenv() preserves a different thread's results" >&4
    $cat >try.c <<EOCP
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #  include <stdlib.h>
    #endif
    #include <stdio.h>
    #include <string.h>
    #$i_pthread I_PTHREAD
    #ifdef I_PTHREAD
    #  include <pthread.h>
    #endif
    
    void *
    thread_start(void * arg)
    {
        return (void *) getenv("HOME");
    }
    
    int main() {
        char * main_buffer;
        char save_main_buffer[1000];
        pthread_t subthread;
        pthread_attr_t attr;
    
        main_buffer = getenv("PATH");
    
        /* If too large for our generous allowance, return we couldn't figure it
         * out. */
        if (strlen(main_buffer) >= sizeof(save_main_buffer)) {
            exit(2);
        }
    
        strcpy(save_main_buffer, main_buffer);
    
        if (pthread_attr_init(&attr) != 0) {
            exit(2);
        }
    
        if (pthread_create(&subthread, &attr, thread_start, NULL) != 0) {
            exit(2);
        }
    
        if (pthread_join(subthread, NULL) != 0) {
            exit(2);
        }
    
        exit(! (strcmp(main_buffer, save_main_buffer) == 0));
    }
    EOCP
    val=
    set try
    if eval $compile_ok; then
        $run ./try
        rc=$?
        case "$rc" in
    	0) echo "getenv() didn't destroy another thread's buffer" >&4
    	   val=$define
    	   ;;
    	1) echo "getenv() does destroy another thread's buffer" >&4
    	   val=$undef
    	   ;;
    	*) echo "Couldn't determine if getenv() destroys another thread's return value (code=$rc); assuming it does" >&4
    	   val=$undef
    	   ;;
        esac
    else
        echo "(I can't seem to compile the test program.)" >&4
        echo "Assuming that your C library's getenv destroys another thread's return value." >&4
        val=$undef
    fi
    set d_getenv_preserves_other_thread
    eval $setvar
    $rm_try
    ;;
    esac
    
    : see if getespwnam exists
    set getespwnam d_getespwnam
    eval $inlibc
    
    : see if getfsstat exists
    set getfsstat d_getfsstat
    eval $inlibc
    
    : see if getgrent exists
    set getgrent d_getgrent
    eval $inlibc
    
    : see if getgrent_r exists
    set getgrent_r d_getgrent_r
    eval $inlibc
    case "$d_getgrent_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_grp grp.h"
    	case "$d_getgrent_r_proto:$usethreads" in
    	":define")	d_getgrent_r_proto=define
    		set d_getgrent_r_proto getgrent_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_getgrent_r_proto" in
    	define)
    	case "$getgrent_r_proto" in
    	''|0) try='int getgrent_r(struct group*, char*, size_t, struct group**);'
    	./protochk "$extern_C $try" $hdrs && getgrent_r_proto=I_SBWR ;;
    	esac
    	case "$getgrent_r_proto" in
    	''|0) try='int getgrent_r(struct group*, char*, int, struct group**);'
    	./protochk "$extern_C $try" $hdrs && getgrent_r_proto=I_SBIR ;;
    	esac
    	case "$getgrent_r_proto" in
    	''|0) try='struct group* getgrent_r(struct group*, char*, size_t);'
    	./protochk "$extern_C $try" $hdrs && getgrent_r_proto=S_SBW ;;
    	esac
    	case "$getgrent_r_proto" in
    	''|0) try='struct group* getgrent_r(struct group*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getgrent_r_proto=S_SBI ;;
    	esac
    	case "$getgrent_r_proto" in
    	''|0) try='int getgrent_r(struct group*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getgrent_r_proto=I_SBI ;;
    	esac
    	case "$getgrent_r_proto" in
    	''|0) try='int getgrent_r(struct group*, char*, int, FILE**);'
    	./protochk "$extern_C $try" $hdrs && getgrent_r_proto=I_SBIH ;;
    	esac
    	case "$getgrent_r_proto" in
    	''|0)	d_getgrent_r=undef
    		getgrent_r_proto=0
    		echo "Disabling getgrent_r, cannot determine prototype." >&4 ;;
    	* )	case "$getgrent_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) getgrent_r_proto="REENTRANT_PROTO_$getgrent_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "getgrent_r has no prototype, not using it." >&4 ;;
    		esac
    		d_getgrent_r=undef
    		getgrent_r_proto=0
    		;;
    	esac
    	;;
    *)	getgrent_r_proto=0
    	;;
    esac
    
    : see if getgrgid_r exists
    set getgrgid_r d_getgrgid_r
    eval $inlibc
    case "$d_getgrgid_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_grp grp.h"
    	case "$d_getgrgid_r_proto:$usethreads" in
    	":define")	d_getgrgid_r_proto=define
    		set d_getgrgid_r_proto getgrgid_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_getgrgid_r_proto" in
    	define)
    	case "$getgrgid_r_proto" in
    	''|0) try='int getgrgid_r(gid_t, struct group*, char*, size_t, struct group**);'
    	./protochk "$extern_C $try" $hdrs && getgrgid_r_proto=I_TSBWR ;;
    	esac
    	case "$getgrgid_r_proto" in
    	''|0) try='int getgrgid_r(gid_t, struct group*, char*, int, struct group**);'
    	./protochk "$extern_C $try" $hdrs && getgrgid_r_proto=I_TSBIR ;;
    	esac
    	case "$getgrgid_r_proto" in
    	''|0) try='int getgrgid_r(gid_t, struct group*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getgrgid_r_proto=I_TSBI ;;
    	esac
    	case "$getgrgid_r_proto" in
    	''|0) try='struct group* getgrgid_r(gid_t, struct group*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getgrgid_r_proto=S_TSBI ;;
    	esac
    	case "$getgrgid_r_proto" in
    	''|0)	d_getgrgid_r=undef
    		getgrgid_r_proto=0
    		echo "Disabling getgrgid_r, cannot determine prototype." >&4 ;;
    	* )	case "$getgrgid_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) getgrgid_r_proto="REENTRANT_PROTO_$getgrgid_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "getgrgid_r has no prototype, not using it." >&4 ;;
    		esac
    		d_getgrgid_r=undef
    		getgrgid_r_proto=0
    		;;
    	esac
    	;;
    *)	getgrgid_r_proto=0
    	;;
    esac
    
    : see if getgrnam_r exists
    set getgrnam_r d_getgrnam_r
    eval $inlibc
    case "$d_getgrnam_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_grp grp.h"
    	case "$d_getgrnam_r_proto:$usethreads" in
    	":define")	d_getgrnam_r_proto=define
    		set d_getgrnam_r_proto getgrnam_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_getgrnam_r_proto" in
    	define)
    	case "$getgrnam_r_proto" in
    	''|0) try='int getgrnam_r(const char*, struct group*, char*, size_t, struct group**);'
    	./protochk "$extern_C $try" $hdrs && getgrnam_r_proto=I_CSBWR ;;
    	esac
    	case "$getgrnam_r_proto" in
    	''|0) try='int getgrnam_r(const char*, struct group*, char*, int, struct group**);'
    	./protochk "$extern_C $try" $hdrs && getgrnam_r_proto=I_CSBIR ;;
    	esac
    	case "$getgrnam_r_proto" in
    	''|0) try='struct group* getgrnam_r(const char*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getgrnam_r_proto=S_CBI ;;
    	esac
    	case "$getgrnam_r_proto" in
    	''|0) try='int getgrnam_r(const char*, struct group*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getgrnam_r_proto=I_CSBI ;;
    	esac
    	case "$getgrnam_r_proto" in
    	''|0) try='struct group* getgrnam_r(const char*, struct group*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getgrnam_r_proto=S_CSBI ;;
    	esac
    	case "$getgrnam_r_proto" in
    	''|0)	d_getgrnam_r=undef
    		getgrnam_r_proto=0
    		echo "Disabling getgrnam_r, cannot determine prototype." >&4 ;;
    	* )	case "$getgrnam_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) getgrnam_r_proto="REENTRANT_PROTO_$getgrnam_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "getgrnam_r has no prototype, not using it." >&4 ;;
    		esac
    		d_getgrnam_r=undef
    		getgrnam_r_proto=0
    		;;
    	esac
    	;;
    *)	getgrnam_r_proto=0
    	;;
    esac
    
    : see if gethostbyaddr exists
    set gethostbyaddr d_gethbyaddr
    eval $inlibc
    
    : see if gethostbyname exists
    set gethostbyname d_gethbyname
    eval $inlibc
    
    : see if gethostent exists
    set gethostent d_gethent
    eval $inlibc
    
    : see how we will look up host name
    echo " "
    call=''
    if set gethostname val -f d_gethname; eval $csym; $val; then
    	echo 'gethostname() found.' >&4
    	d_gethname="$define"
    	call=gethostname
    fi
    if set uname val -f d_uname; eval $csym; $val; then
    	if ./xenix; then
    		$cat <<'EOM'
    uname() was found, but you're running xenix, and older versions of xenix
    have a broken uname(). If you don't really know whether your xenix is old
    enough to have a broken system call, use the default answer.
    
    EOM
    		dflt=y
    		case "$d_uname" in
    		"$define") dflt=n;;
    		esac
    		rp='Is your uname() broken?'
    		. ./myread
    		case "$ans" in
    		n*) d_uname="$define"; call=uname;;
    		esac
    	else
    		echo 'uname() found.' >&4
    		d_uname="$define"
    		case "$call" in
    		'') call=uname ;;
    		esac
    	fi
    fi
    case "$d_gethname" in
    '') d_gethname="$undef";;
    esac
    case "$d_uname" in
    '') d_uname="$undef";;
    esac
    case "$d_uname$d_gethname" in
    *define*)
    	dflt=n
    	cat <<EOM
    
    Every now and then someone has a $call() that lies about the hostname
    but can't be fixed for political or economic reasons.  If you wish, I can
    pretend $call() isn't there and maybe compute hostname at run-time
    thanks to the '$phostname' command.
    
    EOM
    	rp="Shall I ignore $call() from now on?"
    	. ./myread
    	case "$ans" in
    	y*) d_uname="$undef" d_gethname="$undef"; $echo $n "Okay...$c";;
    	esac;;
    esac
    case "$phostname" in
    '') aphostname='';;
    *) case "$aphostname" in
    	/*) ;;
    	*) set X $phostname
    		shift
    		file=$1
    		shift
    		file=`./loc $file $file $pth`
    		aphostname=`echo $file $*`
    		;;
    	esac
    	;;
    esac
    case "$d_uname$d_gethname" in
    *define*) ;;
    *)
    	case "$phostname" in
    	'')
    		echo "There will be no way for $package to get your hostname." >&4;;
    	*)
    	echo "I'll use 'popen("'"'$aphostname'", "r")'"' to get your hostname." >&4
    		;;
    	esac;;
    esac
    case "$d_phostname" in
    '') d_phostname="$undef";;
    esac
    
    : see if gethostbyaddr_r exists
    set gethostbyaddr_r d_gethostbyaddr_r
    eval $inlibc
    case "$d_gethostbyaddr_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_netdb netdb.h"
    	case "$d_gethostbyaddr_r_proto:$usethreads" in
    	":define")	d_gethostbyaddr_r_proto=define
    		set d_gethostbyaddr_r_proto gethostbyaddr_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_gethostbyaddr_r_proto" in
    	define)
    	case "$gethostbyaddr_r_proto" in
    	''|0) try='int gethostbyaddr_r(const char*, size_t, int, struct hostent*, char*, size_t, struct hostent**, int*);'
    	./protochk "$extern_C $try" $hdrs && gethostbyaddr_r_proto=I_CWISBWRE ;;
    	esac
    	case "$gethostbyaddr_r_proto" in
    	''|0) try='struct hostent* gethostbyaddr_r(const char*, size_t, int, struct hostent*, char*, size_t, int, int*);'
    	./protochk "$extern_C $try" $hdrs && gethostbyaddr_r_proto=S_CWISBWIE ;;
    	esac
    	case "$gethostbyaddr_r_proto" in
    	''|0) try='struct hostent* gethostbyaddr_r(const char*, size_t, int, struct hostent*, char*, int, int*);'
    	./protochk "$extern_C $try" $hdrs && gethostbyaddr_r_proto=S_CWISBIE ;;
    	esac
    	case "$gethostbyaddr_r_proto" in
    	''|0) try='struct hostent* gethostbyaddr_r(const void*, size_t, int, struct hostent*, char*, int, int*);'
    	./protochk "$extern_C $try" $hdrs && gethostbyaddr_r_proto=S_TWISBIE ;;
    	esac
    	case "$gethostbyaddr_r_proto" in
    	''|0) try='struct hostent* gethostbyaddr_r(const char*, int, int, struct hostent*, char*, int, int*);'
    	./protochk "$extern_C $try" $hdrs && gethostbyaddr_r_proto=S_CIISBIE ;;
    	esac
    	case "$gethostbyaddr_r_proto" in
    	''|0) try='struct hostent* gethostbyaddr_r(const char*, struct hostent*, char*, int, int*);'
    	./protochk "$extern_C $try" $hdrs && gethostbyaddr_r_proto=S_CSBIE ;;
    	esac
    	case "$gethostbyaddr_r_proto" in
    	''|0) try='struct hostent* gethostbyaddr_r(const void*, struct hostent*, char*, int, int*);'
    	./protochk "$extern_C $try" $hdrs && gethostbyaddr_r_proto=S_TSBIE ;;
    	esac
    	case "$gethostbyaddr_r_proto" in
    	''|0) try='int gethostbyaddr_r(const char*, size_t, int, struct hostent*, struct hostent_data*);'
    	./protochk "$extern_C $try" $hdrs && gethostbyaddr_r_proto=I_CWISD ;;
    	esac
    	case "$gethostbyaddr_r_proto" in
    	''|0) try='int gethostbyaddr_r(const char*, int, int, struct hostent*, struct hostent_data*);'
    	./protochk "$extern_C $try" $hdrs && gethostbyaddr_r_proto=I_CIISD ;;
    	esac
    	case "$gethostbyaddr_r_proto" in
    	''|0) try='int gethostbyaddr_r(const char*, int, int);'
    	./protochk "$extern_C $try" $hdrs && gethostbyaddr_r_proto=I_CII ;;
    	esac
    	case "$gethostbyaddr_r_proto" in
    	''|0) try='int gethostbyaddr_r(const void*, socklen_t, int, struct hostent*, char*, size_t, struct hostent**, int*);'
    	./protochk "$extern_C $try" $hdrs && gethostbyaddr_r_proto=I_TsISBWRE ;;
    	esac
    	case "$gethostbyaddr_r_proto" in
    	''|0)	d_gethostbyaddr_r=undef
    		gethostbyaddr_r_proto=0
    		echo "Disabling gethostbyaddr_r, cannot determine prototype." >&4 ;;
    	* )	case "$gethostbyaddr_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) gethostbyaddr_r_proto="REENTRANT_PROTO_$gethostbyaddr_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "gethostbyaddr_r has no prototype, not using it." >&4 ;;
    		esac
    		d_gethostbyaddr_r=undef
    		gethostbyaddr_r_proto=0
    		;;
    	esac
    	;;
    *)	gethostbyaddr_r_proto=0
    	;;
    esac
    
    : see if gethostbyname_r exists
    set gethostbyname_r d_gethostbyname_r
    eval $inlibc
    case "$d_gethostbyname_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_netdb netdb.h"
    	case "$d_gethostbyname_r_proto:$usethreads" in
    	":define")	d_gethostbyname_r_proto=define
    		set d_gethostbyname_r_proto gethostbyname_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_gethostbyname_r_proto" in
    	define)
    	case "$gethostbyname_r_proto" in
    	''|0) try='int gethostbyname_r(const char*, struct hostent*, char*, size_t, struct hostent**, int*);'
    	./protochk "$extern_C $try" $hdrs && gethostbyname_r_proto=I_CSBWRE ;;
    	esac
    	case "$gethostbyname_r_proto" in
    	''|0) try='struct hostent* gethostbyname_r(const char*, struct hostent*, char*, int, int*);'
    	./protochk "$extern_C $try" $hdrs && gethostbyname_r_proto=S_CSBIE ;;
    	esac
    	case "$gethostbyname_r_proto" in
    	''|0) try='int gethostbyname_r(const char*, struct hostent*, struct hostent_data*);'
    	./protochk "$extern_C $try" $hdrs && gethostbyname_r_proto=I_CSD ;;
    	esac
    	case "$gethostbyname_r_proto" in
    	''|0)	d_gethostbyname_r=undef
    		gethostbyname_r_proto=0
    		echo "Disabling gethostbyname_r, cannot determine prototype." >&4 ;;
    	* )	case "$gethostbyname_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) gethostbyname_r_proto="REENTRANT_PROTO_$gethostbyname_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "gethostbyname_r has no prototype, not using it." >&4 ;;
    		esac
    		d_gethostbyname_r=undef
    		gethostbyname_r_proto=0
    		;;
    	esac
    	;;
    *)	gethostbyname_r_proto=0
    	;;
    esac
    
    : see if gethostent_r exists
    set gethostent_r d_gethostent_r
    eval $inlibc
    case "$d_gethostent_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_netdb netdb.h"
    	case "$d_gethostent_r_proto:$usethreads" in
    	":define")	d_gethostent_r_proto=define
    		set d_gethostent_r_proto gethostent_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_gethostent_r_proto" in
    	define)
    	case "$gethostent_r_proto" in
    	''|0) try='int gethostent_r(struct hostent*, char*, size_t, struct hostent**, int*);'
    	./protochk "$extern_C $try" $hdrs && gethostent_r_proto=I_SBWRE ;;
    	esac
    	case "$gethostent_r_proto" in
    	''|0) try='int gethostent_r(struct hostent*, char*, int, int*);'
    	./protochk "$extern_C $try" $hdrs && gethostent_r_proto=I_SBIE ;;
    	esac
    	case "$gethostent_r_proto" in
    	''|0) try='struct hostent* gethostent_r(struct hostent*, char*, int, int*);'
    	./protochk "$extern_C $try" $hdrs && gethostent_r_proto=S_SBIE ;;
    	esac
    	case "$gethostent_r_proto" in
    	''|0) try='struct hostent* gethostent_r(struct hostent*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && gethostent_r_proto=S_SBI ;;
    	esac
    	case "$gethostent_r_proto" in
    	''|0) try='int gethostent_r(struct hostent*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && gethostent_r_proto=I_SBI ;;
    	esac
    	case "$gethostent_r_proto" in
    	''|0) try='int gethostent_r(struct hostent*, struct hostent_data*);'
    	./protochk "$extern_C $try" $hdrs && gethostent_r_proto=I_SD ;;
    	esac
    	case "$gethostent_r_proto" in
    	''|0)	d_gethostent_r=undef
    		gethostent_r_proto=0
    		echo "Disabling gethostent_r, cannot determine prototype." >&4 ;;
    	* )	case "$gethostent_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) gethostent_r_proto="REENTRANT_PROTO_$gethostent_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "gethostent_r has no prototype, not using it." >&4 ;;
    		esac
    		d_gethostent_r=undef
    		gethostent_r_proto=0
    		;;
    	esac
    	;;
    *)	gethostent_r_proto=0
    	;;
    esac
    
    : see if prototypes for various gethostxxx netdb.h functions are available
    echo " "
    set d_gethostprotos gethostent $i_netdb netdb.h
    eval $hasproto
    
    : see if getitimer exists
    set getitimer d_getitimer
    eval $inlibc
    
    : see if getlogin exists
    set getlogin d_getlogin
    eval $inlibc
    
    : see if getlogin_r exists
    set getlogin_r d_getlogin_r
    eval $inlibc
    case "$d_getlogin_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_unistd unistd.h"
    	case "$d_getlogin_r_proto:$usethreads" in
    	":define")	d_getlogin_r_proto=define
    		set d_getlogin_r_proto getlogin_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_getlogin_r_proto" in
    	define)
    	case "$getlogin_r_proto" in
    	''|0) try='int getlogin_r(char*, size_t);'
    	./protochk "$extern_C $try" $hdrs && getlogin_r_proto=I_BW ;;
    	esac
    	case "$getlogin_r_proto" in
    	''|0) try='int getlogin_r(char*, int);'
    	./protochk "$extern_C $try" $hdrs && getlogin_r_proto=I_BI ;;
    	esac
    	case "$getlogin_r_proto" in
    	''|0) try='char* getlogin_r(char*, size_t);'
    	./protochk "$extern_C $try" $hdrs && getlogin_r_proto=B_BW ;;
    	esac
    	case "$getlogin_r_proto" in
    	''|0) try='char* getlogin_r(char*, int);'
    	./protochk "$extern_C $try" $hdrs && getlogin_r_proto=B_BI ;;
    	esac
    	case "$getlogin_r_proto" in
    	''|0)	d_getlogin_r=undef
    		getlogin_r_proto=0
    		echo "Disabling getlogin_r, cannot determine prototype." >&4 ;;
    	* )	case "$getlogin_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) getlogin_r_proto="REENTRANT_PROTO_$getlogin_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "getlogin_r has no prototype, not using it." >&4 ;;
    		esac
    		d_getlogin_r=undef
    		getlogin_r_proto=0
    		;;
    	esac
    	;;
    *)	getlogin_r_proto=0
    	;;
    esac
    
    : see if getmnt exists
    set getmnt d_getmnt
    eval $inlibc
    
    : see if getmntent exists
    set getmntent d_getmntent
    eval $inlibc
    
    : see if getnameinfo exists
    set getnameinfo d_getnameinfo
    eval $inlibc
    
    : see if getnetbyaddr exists
    set getnetbyaddr d_getnbyaddr
    eval $inlibc
    
    : see if getnetbyname exists
    set getnetbyname d_getnbyname
    eval $inlibc
    
    : see if getnetent exists
    set getnetent d_getnent
    eval $inlibc
    
    : see if getnetbyaddr_r exists
    set getnetbyaddr_r d_getnetbyaddr_r
    eval $inlibc
    case "$d_getnetbyaddr_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_netdb netdb.h"
    	case "$d_getnetbyaddr_r_proto:$usethreads" in
    	":define")	d_getnetbyaddr_r_proto=define
    		set d_getnetbyaddr_r_proto getnetbyaddr_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_getnetbyaddr_r_proto" in
    	define)
    	case "$getnetbyaddr_r_proto" in
    	''|0) try='int getnetbyaddr_r(unsigned long, int, struct netent*, char*, size_t, struct netent**, int*);'
    	./protochk "$extern_C $try" $hdrs && getnetbyaddr_r_proto=I_UISBWRE ;;
    	esac
    	case "$getnetbyaddr_r_proto" in
    	''|0) try='int getnetbyaddr_r(long, int, struct netent*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getnetbyaddr_r_proto=I_LISBI ;;
    	esac
    	case "$getnetbyaddr_r_proto" in
    	''|0) try='struct netent* getnetbyaddr_r(in_addr_t, int, struct netent*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getnetbyaddr_r_proto=S_TISBI ;;
    	esac
    	case "$getnetbyaddr_r_proto" in
    	''|0) try='struct netent* getnetbyaddr_r(long, int, struct netent*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getnetbyaddr_r_proto=S_LISBI ;;
    	esac
    	case "$getnetbyaddr_r_proto" in
    	''|0) try='int getnetbyaddr_r(in_addr_t, int, struct netent*, struct netent_data*);'
    	./protochk "$extern_C $try" $hdrs && getnetbyaddr_r_proto=I_TISD ;;
    	esac
    	case "$getnetbyaddr_r_proto" in
    	''|0) try='int getnetbyaddr_r(long, int, struct netent*, struct netent_data*);'
    	./protochk "$extern_C $try" $hdrs && getnetbyaddr_r_proto=I_LISD ;;
    	esac
    	case "$getnetbyaddr_r_proto" in
    	''|0) try='int getnetbyaddr_r(int, int, struct netent*, struct netent_data*);'
    	./protochk "$extern_C $try" $hdrs && getnetbyaddr_r_proto=I_IISD ;;
    	esac
    	case "$getnetbyaddr_r_proto" in
    	''|0) try='int getnetbyaddr_r(uint32_t, int, struct netent*, char*, size_t, struct netent**, int*);'
    	./protochk "$extern_C $try" $hdrs && getnetbyaddr_r_proto=I_uISBWRE ;;
    	esac
    	case "$getnetbyaddr_r_proto" in
    	''|0)	d_getnetbyaddr_r=undef
    		getnetbyaddr_r_proto=0
    		echo "Disabling getnetbyaddr_r, cannot determine prototype." >&4 ;;
    	* )	case "$getnetbyaddr_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) getnetbyaddr_r_proto="REENTRANT_PROTO_$getnetbyaddr_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "getnetbyaddr_r has no prototype, not using it." >&4 ;;
    		esac
    		d_getnetbyaddr_r=undef
    		getnetbyaddr_r_proto=0
    		;;
    	esac
    	;;
    *)	getnetbyaddr_r_proto=0
    	;;
    esac
    
    : see if getnetbyname_r exists
    set getnetbyname_r d_getnetbyname_r
    eval $inlibc
    case "$d_getnetbyname_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_netdb netdb.h"
    	case "$d_getnetbyname_r_proto:$usethreads" in
    	":define")	d_getnetbyname_r_proto=define
    		set d_getnetbyname_r_proto getnetbyname_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_getnetbyname_r_proto" in
    	define)
    	case "$getnetbyname_r_proto" in
    	''|0) try='int getnetbyname_r(const char*, struct netent*, char*, size_t, struct netent**, int*);'
    	./protochk "$extern_C $try" $hdrs && getnetbyname_r_proto=I_CSBWRE ;;
    	esac
    	case "$getnetbyname_r_proto" in
    	''|0) try='int getnetbyname_r(const char*, struct netent*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getnetbyname_r_proto=I_CSBI ;;
    	esac
    	case "$getnetbyname_r_proto" in
    	''|0) try='struct netent* getnetbyname_r(const char*, struct netent*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getnetbyname_r_proto=S_CSBI ;;
    	esac
    	case "$getnetbyname_r_proto" in
    	''|0) try='int getnetbyname_r(const char*, struct netent*, struct netent_data*);'
    	./protochk "$extern_C $try" $hdrs && getnetbyname_r_proto=I_CSD ;;
    	esac
    	case "$getnetbyname_r_proto" in
    	''|0)	d_getnetbyname_r=undef
    		getnetbyname_r_proto=0
    		echo "Disabling getnetbyname_r, cannot determine prototype." >&4 ;;
    	* )	case "$getnetbyname_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) getnetbyname_r_proto="REENTRANT_PROTO_$getnetbyname_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "getnetbyname_r has no prototype, not using it." >&4 ;;
    		esac
    		d_getnetbyname_r=undef
    		getnetbyname_r_proto=0
    		;;
    	esac
    	;;
    *)	getnetbyname_r_proto=0
    	;;
    esac
    
    : see if getnetent_r exists
    set getnetent_r d_getnetent_r
    eval $inlibc
    case "$d_getnetent_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_netdb netdb.h"
    	case "$d_getnetent_r_proto:$usethreads" in
    	":define")	d_getnetent_r_proto=define
    		set d_getnetent_r_proto getnetent_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_getnetent_r_proto" in
    	define)
    	case "$getnetent_r_proto" in
    	''|0) try='int getnetent_r(struct netent*, char*, size_t, struct netent**, int*);'
    	./protochk "$extern_C $try" $hdrs && getnetent_r_proto=I_SBWRE ;;
    	esac
    	case "$getnetent_r_proto" in
    	''|0) try='int getnetent_r(struct netent*, char*, int, int*);'
    	./protochk "$extern_C $try" $hdrs && getnetent_r_proto=I_SBIE ;;
    	esac
    	case "$getnetent_r_proto" in
    	''|0) try='struct netent* getnetent_r(struct netent*, char*, int, int*);'
    	./protochk "$extern_C $try" $hdrs && getnetent_r_proto=S_SBIE ;;
    	esac
    	case "$getnetent_r_proto" in
    	''|0) try='struct netent* getnetent_r(struct netent*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getnetent_r_proto=S_SBI ;;
    	esac
    	case "$getnetent_r_proto" in
    	''|0) try='int getnetent_r(struct netent*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getnetent_r_proto=I_SBI ;;
    	esac
    	case "$getnetent_r_proto" in
    	''|0) try='int getnetent_r(struct netent*, struct netent_data*);'
    	./protochk "$extern_C $try" $hdrs && getnetent_r_proto=I_SD ;;
    	esac
    	case "$getnetent_r_proto" in
    	''|0)	d_getnetent_r=undef
    		getnetent_r_proto=0
    		echo "Disabling getnetent_r, cannot determine prototype." >&4 ;;
    	* )	case "$getnetent_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) getnetent_r_proto="REENTRANT_PROTO_$getnetent_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "getnetent_r has no prototype, not using it." >&4 ;;
    		esac
    		d_getnetent_r=undef
    		getnetent_r_proto=0
    		;;
    	esac
    	;;
    *)	getnetent_r_proto=0
    	;;
    esac
    
    : see if prototypes for various getnetxxx netdb.h functions are available
    echo " "
    set d_getnetprotos getnetent $i_netdb netdb.h
    eval $hasproto
    
    : see if getpagesize exists
    set getpagesize d_getpagsz
    eval $inlibc
    
    : Optional checks for getprotobyname and getprotobynumber
    
    : see if getprotobyname exists
    set getprotobyname d_getpbyname
    eval $inlibc
    
    : see if getprotobynumber exists
    set getprotobynumber d_getpbynumber
    eval $inlibc
    
    : see if getprotoent exists
    set getprotoent d_getpent
    eval $inlibc
    
    : see if getpgid exists
    set getpgid d_getpgid
    eval $inlibc
    
    : see if getpgrp2 exists
    set getpgrp2 d_getpgrp2
    eval $inlibc
    
    : see if getppid exists
    set getppid d_getppid
    eval $inlibc
    
    : see if getpriority exists
    set getpriority d_getprior
    eval $inlibc
    
    : see if getprotobyname_r exists
    set getprotobyname_r d_getprotobyname_r
    eval $inlibc
    case "$d_getprotobyname_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_netdb netdb.h"
    	case "$d_getprotobyname_r_proto:$usethreads" in
    	":define")	d_getprotobyname_r_proto=define
    		set d_getprotobyname_r_proto getprotobyname_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_getprotobyname_r_proto" in
    	define)
    	case "$getprotobyname_r_proto" in
    	''|0) try='int getprotobyname_r(const char*, struct protoent*, char*, size_t, struct protoent**);'
    	./protochk "$extern_C $try" $hdrs && getprotobyname_r_proto=I_CSBWR ;;
    	esac
    	case "$getprotobyname_r_proto" in
    	''|0) try='struct protoent* getprotobyname_r(const char*, struct protoent*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getprotobyname_r_proto=S_CSBI ;;
    	esac
    	case "$getprotobyname_r_proto" in
    	''|0) try='int getprotobyname_r(const char*, struct protoent*, struct protoent_data*);'
    	./protochk "$extern_C $try" $hdrs && getprotobyname_r_proto=I_CSD ;;
    	esac
    	case "$getprotobyname_r_proto" in
    	''|0)	d_getprotobyname_r=undef
    		getprotobyname_r_proto=0
    		echo "Disabling getprotobyname_r, cannot determine prototype." >&4 ;;
    	* )	case "$getprotobyname_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) getprotobyname_r_proto="REENTRANT_PROTO_$getprotobyname_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "getprotobyname_r has no prototype, not using it." >&4 ;;
    		esac
    		d_getprotobyname_r=undef
    		getprotobyname_r_proto=0
    		;;
    	esac
    	;;
    *)	getprotobyname_r_proto=0
    	;;
    esac
    
    : see if getprotobynumber_r exists
    set getprotobynumber_r d_getprotobynumber_r
    eval $inlibc
    case "$d_getprotobynumber_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_netdb netdb.h"
    	case "$d_getprotobynumber_r_proto:$usethreads" in
    	":define")	d_getprotobynumber_r_proto=define
    		set d_getprotobynumber_r_proto getprotobynumber_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_getprotobynumber_r_proto" in
    	define)
    	case "$getprotobynumber_r_proto" in
    	''|0) try='int getprotobynumber_r(int, struct protoent*, char*, size_t, struct protoent**);'
    	./protochk "$extern_C $try" $hdrs && getprotobynumber_r_proto=I_ISBWR ;;
    	esac
    	case "$getprotobynumber_r_proto" in
    	''|0) try='struct protoent* getprotobynumber_r(int, struct protoent*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getprotobynumber_r_proto=S_ISBI ;;
    	esac
    	case "$getprotobynumber_r_proto" in
    	''|0) try='int getprotobynumber_r(int, struct protoent*, struct protoent_data*);'
    	./protochk "$extern_C $try" $hdrs && getprotobynumber_r_proto=I_ISD ;;
    	esac
    	case "$getprotobynumber_r_proto" in
    	''|0)	d_getprotobynumber_r=undef
    		getprotobynumber_r_proto=0
    		echo "Disabling getprotobynumber_r, cannot determine prototype." >&4 ;;
    	* )	case "$getprotobynumber_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) getprotobynumber_r_proto="REENTRANT_PROTO_$getprotobynumber_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "getprotobynumber_r has no prototype, not using it." >&4 ;;
    		esac
    		d_getprotobynumber_r=undef
    		getprotobynumber_r_proto=0
    		;;
    	esac
    	;;
    *)	getprotobynumber_r_proto=0
    	;;
    esac
    
    : see if getprotoent_r exists
    set getprotoent_r d_getprotoent_r
    eval $inlibc
    case "$d_getprotoent_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_netdb netdb.h"
    	case "$d_getprotoent_r_proto:$usethreads" in
    	":define")	d_getprotoent_r_proto=define
    		set d_getprotoent_r_proto getprotoent_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_getprotoent_r_proto" in
    	define)
    	case "$getprotoent_r_proto" in
    	''|0) try='int getprotoent_r(struct protoent*, char*, size_t, struct protoent**);'
    	./protochk "$extern_C $try" $hdrs && getprotoent_r_proto=I_SBWR ;;
    	esac
    	case "$getprotoent_r_proto" in
    	''|0) try='int getprotoent_r(struct protoent*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getprotoent_r_proto=I_SBI ;;
    	esac
    	case "$getprotoent_r_proto" in
    	''|0) try='struct protoent* getprotoent_r(struct protoent*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getprotoent_r_proto=S_SBI ;;
    	esac
    	case "$getprotoent_r_proto" in
    	''|0) try='int getprotoent_r(struct protoent*, struct protoent_data*);'
    	./protochk "$extern_C $try" $hdrs && getprotoent_r_proto=I_SD ;;
    	esac
    	case "$getprotoent_r_proto" in
    	''|0)	d_getprotoent_r=undef
    		getprotoent_r_proto=0
    		echo "Disabling getprotoent_r, cannot determine prototype." >&4 ;;
    	* )	case "$getprotoent_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) getprotoent_r_proto="REENTRANT_PROTO_$getprotoent_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "getprotoent_r has no prototype, not using it." >&4 ;;
    		esac
    		d_getprotoent_r=undef
    		getprotoent_r_proto=0
    		;;
    	esac
    	;;
    *)	getprotoent_r_proto=0
    	;;
    esac
    
    : see if prototypes for various getprotoxxx netdb.h functions are available
    echo " "
    set d_getprotoprotos getprotoent $i_netdb netdb.h
    eval $hasproto
    
    : see if getprpwnam exists
    set getprpwnam d_getprpwnam
    eval $inlibc
    
    : see if getpwent exists
    set getpwent d_getpwent
    eval $inlibc
    
    : see if getpwent_r exists
    set getpwent_r d_getpwent_r
    eval $inlibc
    case "$d_getpwent_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_pwd pwd.h"
    	case "$d_getpwent_r_proto:$usethreads" in
    	":define")	d_getpwent_r_proto=define
    		set d_getpwent_r_proto getpwent_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_getpwent_r_proto" in
    	define)
    	case "$getpwent_r_proto" in
    	''|0) try='int getpwent_r(struct passwd*, char*, size_t, struct passwd**);'
    	./protochk "$extern_C $try" $hdrs && getpwent_r_proto=I_SBWR ;;
    	esac
    	case "$getpwent_r_proto" in
    	''|0) try='int getpwent_r(struct passwd*, char*, int, struct passwd**);'
    	./protochk "$extern_C $try" $hdrs && getpwent_r_proto=I_SBIR ;;
    	esac
    	case "$getpwent_r_proto" in
    	''|0) try='struct passwd* getpwent_r(struct passwd*, char*, size_t);'
    	./protochk "$extern_C $try" $hdrs && getpwent_r_proto=S_SBW ;;
    	esac
    	case "$getpwent_r_proto" in
    	''|0) try='struct passwd* getpwent_r(struct passwd*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getpwent_r_proto=S_SBI ;;
    	esac
    	case "$getpwent_r_proto" in
    	''|0) try='int getpwent_r(struct passwd*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getpwent_r_proto=I_SBI ;;
    	esac
    	case "$getpwent_r_proto" in
    	''|0) try='int getpwent_r(struct passwd*, char*, int, FILE**);'
    	./protochk "$extern_C $try" $hdrs && getpwent_r_proto=I_SBIH ;;
    	esac
    	case "$getpwent_r_proto" in
    	''|0)	d_getpwent_r=undef
    		getpwent_r_proto=0
    		echo "Disabling getpwent_r, cannot determine prototype." >&4 ;;
    	* )	case "$getpwent_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) getpwent_r_proto="REENTRANT_PROTO_$getpwent_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "getpwent_r has no prototype, not using it." >&4 ;;
    		esac
    		d_getpwent_r=undef
    		getpwent_r_proto=0
    		;;
    	esac
    	;;
    *)	getpwent_r_proto=0
    	;;
    esac
    
    : see if getpwnam_r exists
    set getpwnam_r d_getpwnam_r
    eval $inlibc
    case "$d_getpwnam_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_pwd pwd.h"
    	case "$d_getpwnam_r_proto:$usethreads" in
    	":define")	d_getpwnam_r_proto=define
    		set d_getpwnam_r_proto getpwnam_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_getpwnam_r_proto" in
    	define)
    	case "$getpwnam_r_proto" in
    	''|0) try='int getpwnam_r(const char*, struct passwd*, char*, size_t, struct passwd**);'
    	./protochk "$extern_C $try" $hdrs && getpwnam_r_proto=I_CSBWR ;;
    	esac
    	case "$getpwnam_r_proto" in
    	''|0) try='int getpwnam_r(const char*, struct passwd*, char*, int, struct passwd**);'
    	./protochk "$extern_C $try" $hdrs && getpwnam_r_proto=I_CSBIR ;;
    	esac
    	case "$getpwnam_r_proto" in
    	''|0) try='struct passwd* getpwnam_r(const char*, struct passwd*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getpwnam_r_proto=S_CSBI ;;
    	esac
    	case "$getpwnam_r_proto" in
    	''|0) try='int getpwnam_r(const char*, struct passwd*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getpwnam_r_proto=I_CSBI ;;
    	esac
    	case "$getpwnam_r_proto" in
    	''|0)	d_getpwnam_r=undef
    		getpwnam_r_proto=0
    		echo "Disabling getpwnam_r, cannot determine prototype." >&4 ;;
    	* )	case "$getpwnam_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) getpwnam_r_proto="REENTRANT_PROTO_$getpwnam_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "getpwnam_r has no prototype, not using it." >&4 ;;
    		esac
    		d_getpwnam_r=undef
    		getpwnam_r_proto=0
    		;;
    	esac
    	;;
    *)	getpwnam_r_proto=0
    	;;
    esac
    
    : see if getpwuid_r exists
    set getpwuid_r d_getpwuid_r
    eval $inlibc
    case "$d_getpwuid_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_pwd pwd.h"
    	case "$d_getpwuid_r_proto:$usethreads" in
    	":define")	d_getpwuid_r_proto=define
    		set d_getpwuid_r_proto getpwuid_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_getpwuid_r_proto" in
    	define)
    	case "$getpwuid_r_proto" in
    	''|0) try='int getpwuid_r(uid_t, struct passwd*, char*, size_t, struct passwd**);'
    	./protochk "$extern_C $try" $hdrs && getpwuid_r_proto=I_TSBWR ;;
    	esac
    	case "$getpwuid_r_proto" in
    	''|0) try='int getpwuid_r(uid_t, struct passwd*, char*, int, struct passwd**);'
    	./protochk "$extern_C $try" $hdrs && getpwuid_r_proto=I_TSBIR ;;
    	esac
    	case "$getpwuid_r_proto" in
    	''|0) try='int getpwuid_r(uid_t, struct passwd*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getpwuid_r_proto=I_TSBI ;;
    	esac
    	case "$getpwuid_r_proto" in
    	''|0) try='struct passwd* getpwuid_r(uid_t, struct passwd*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getpwuid_r_proto=S_TSBI ;;
    	esac
    	case "$getpwuid_r_proto" in
    	''|0)	d_getpwuid_r=undef
    		getpwuid_r_proto=0
    		echo "Disabling getpwuid_r, cannot determine prototype." >&4 ;;
    	* )	case "$getpwuid_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) getpwuid_r_proto="REENTRANT_PROTO_$getpwuid_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "getpwuid_r has no prototype, not using it." >&4 ;;
    		esac
    		d_getpwuid_r=undef
    		getpwuid_r_proto=0
    		;;
    	esac
    	;;
    *)	getpwuid_r_proto=0
    	;;
    esac
    
    : Optional checks for getsbyname and getsbyport
    
    : see if getservbyname exists
    set getservbyname d_getsbyname
    eval $inlibc
    
    : see if getservbyport exists
    set getservbyport d_getsbyport
    eval $inlibc
    
    : see if getservent exists
    set getservent d_getsent
    eval $inlibc
    
    : see if getservbyname_r exists
    set getservbyname_r d_getservbyname_r
    eval $inlibc
    case "$d_getservbyname_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_netdb netdb.h"
    	case "$d_getservbyname_r_proto:$usethreads" in
    	":define")	d_getservbyname_r_proto=define
    		set d_getservbyname_r_proto getservbyname_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_getservbyname_r_proto" in
    	define)
    	case "$getservbyname_r_proto" in
    	''|0) try='int getservbyname_r(const char*, const char*, struct servent*, char*, size_t, struct servent**);'
    	./protochk "$extern_C $try" $hdrs && getservbyname_r_proto=I_CCSBWR ;;
    	esac
    	case "$getservbyname_r_proto" in
    	''|0) try='struct servent* getservbyname_r(const char*, const char*, struct servent*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getservbyname_r_proto=S_CCSBI ;;
    	esac
    	case "$getservbyname_r_proto" in
    	''|0) try='int getservbyname_r(const char*, const char*, struct servent*, struct servent_data*);'
    	./protochk "$extern_C $try" $hdrs && getservbyname_r_proto=I_CCSD ;;
    	esac
    	case "$getservbyname_r_proto" in
    	''|0)	d_getservbyname_r=undef
    		getservbyname_r_proto=0
    		echo "Disabling getservbyname_r, cannot determine prototype." >&4 ;;
    	* )	case "$getservbyname_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) getservbyname_r_proto="REENTRANT_PROTO_$getservbyname_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "getservbyname_r has no prototype, not using it." >&4 ;;
    		esac
    		d_getservbyname_r=undef
    		getservbyname_r_proto=0
    		;;
    	esac
    	;;
    *)	getservbyname_r_proto=0
    	;;
    esac
    
    : see if getservbyport_r exists
    set getservbyport_r d_getservbyport_r
    eval $inlibc
    case "$d_getservbyport_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_netdb netdb.h"
    	case "$d_getservbyport_r_proto:$usethreads" in
    	":define")	d_getservbyport_r_proto=define
    		set d_getservbyport_r_proto getservbyport_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_getservbyport_r_proto" in
    	define)
    	case "$getservbyport_r_proto" in
    	''|0) try='int getservbyport_r(int, const char*, struct servent*, char*, size_t, struct servent**);'
    	./protochk "$extern_C $try" $hdrs && getservbyport_r_proto=I_ICSBWR ;;
    	esac
    	case "$getservbyport_r_proto" in
    	''|0) try='struct servent* getservbyport_r(int, const char*, struct servent*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getservbyport_r_proto=S_ICSBI ;;
    	esac
    	case "$getservbyport_r_proto" in
    	''|0) try='int getservbyport_r(int, const char*, struct servent*, struct servent_data*);'
    	./protochk "$extern_C $try" $hdrs && getservbyport_r_proto=I_ICSD ;;
    	esac
    	case "$getservbyport_r_proto" in
    	''|0)	d_getservbyport_r=undef
    		getservbyport_r_proto=0
    		echo "Disabling getservbyport_r, cannot determine prototype." >&4 ;;
    	* )	case "$getservbyport_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) getservbyport_r_proto="REENTRANT_PROTO_$getservbyport_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "getservbyport_r has no prototype, not using it." >&4 ;;
    		esac
    		d_getservbyport_r=undef
    		getservbyport_r_proto=0
    		;;
    	esac
    	;;
    *)	getservbyport_r_proto=0
    	;;
    esac
    
    : see if getservent_r exists
    set getservent_r d_getservent_r
    eval $inlibc
    case "$d_getservent_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_netdb netdb.h"
    	case "$d_getservent_r_proto:$usethreads" in
    	":define")	d_getservent_r_proto=define
    		set d_getservent_r_proto getservent_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_getservent_r_proto" in
    	define)
    	case "$getservent_r_proto" in
    	''|0) try='int getservent_r(struct servent*, char*, size_t, struct servent**);'
    	./protochk "$extern_C $try" $hdrs && getservent_r_proto=I_SBWR ;;
    	esac
    	case "$getservent_r_proto" in
    	''|0) try='int getservent_r(struct servent*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getservent_r_proto=I_SBI ;;
    	esac
    	case "$getservent_r_proto" in
    	''|0) try='struct servent* getservent_r(struct servent*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getservent_r_proto=S_SBI ;;
    	esac
    	case "$getservent_r_proto" in
    	''|0) try='int getservent_r(struct servent*, struct servent_data*);'
    	./protochk "$extern_C $try" $hdrs && getservent_r_proto=I_SD ;;
    	esac
    	case "$getservent_r_proto" in
    	''|0)	d_getservent_r=undef
    		getservent_r_proto=0
    		echo "Disabling getservent_r, cannot determine prototype." >&4 ;;
    	* )	case "$getservent_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) getservent_r_proto="REENTRANT_PROTO_$getservent_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "getservent_r has no prototype, not using it." >&4 ;;
    		esac
    		d_getservent_r=undef
    		getservent_r_proto=0
    		;;
    	esac
    	;;
    *)	getservent_r_proto=0
    	;;
    esac
    
    : see if prototypes for various getservxxx netdb.h functions are available
    echo " "
    set d_getservprotos getservent $i_netdb netdb.h
    eval $hasproto
    
    : see if getspnam exists
    set getspnam d_getspnam
    eval $inlibc
    
    : see if this is a shadow.h system
    set shadow.h i_shadow
    eval $inhdr
    
    : see if getspnam_r exists
    set getspnam_r d_getspnam_r
    eval $inlibc
    case "$d_getspnam_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_shadow shadow.h"
    	case "$d_getspnam_r_proto:$usethreads" in
    	":define")	d_getspnam_r_proto=define
    		set d_getspnam_r_proto getspnam_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_getspnam_r_proto" in
    	define)
    	case "$getspnam_r_proto" in
    	''|0) try='int getspnam_r(const char*, struct spwd*, char*, size_t, struct spwd**);'
    	./protochk "$extern_C $try" $hdrs && getspnam_r_proto=I_CSBWR ;;
    	esac
    	case "$getspnam_r_proto" in
    	''|0) try='struct spwd* getspnam_r(const char*, struct spwd*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && getspnam_r_proto=S_CSBI ;;
    	esac
    	case "$getspnam_r_proto" in
    	''|0)	d_getspnam_r=undef
    		getspnam_r_proto=0
    		echo "Disabling getspnam_r, cannot determine prototype." >&4 ;;
    	* )	case "$getspnam_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) getspnam_r_proto="REENTRANT_PROTO_$getspnam_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "getspnam_r has no prototype, not using it." >&4 ;;
    		esac
    		d_getspnam_r=undef
    		getspnam_r_proto=0
    		;;
    	esac
    	;;
    *)	getspnam_r_proto=0
    	;;
    esac
    
    : see if gettimeofday or ftime exists
    set gettimeofday d_gettimeod
    eval $inlibc
    case "$d_gettimeod" in
    "$undef")
    	set ftime d_ftime 
    	eval $inlibc
    	;;
    *)
    	val="$undef"; set d_ftime; eval $setvar
    	;;
    esac
    case "$d_gettimeod$d_ftime" in
    "$undef$undef")
    	echo " "
    	echo 'No ftime() nor gettimeofday() -- timing may be less accurate.' >&4
    	;;
    esac
    
    : see if gmtime_r exists
    set gmtime_r d_gmtime_r
    eval $inlibc
    case "$d_gmtime_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_time time.h $i_systime sys/time.h"
    	case "$d_gmtime_r_proto:$usethreads" in
    	":define")	d_gmtime_r_proto=define
    		set d_gmtime_r_proto gmtime_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_gmtime_r_proto" in
    	define)
    	case "$gmtime_r_proto" in
    	''|0) try='struct tm* gmtime_r(const time_t*, struct tm*);'
    	./protochk "$extern_C $try" $hdrs && gmtime_r_proto=S_TS ;;
    	esac
    	case "$gmtime_r_proto" in
    	''|0) try='int gmtime_r(const time_t*, struct tm*);'
    	./protochk "$extern_C $try" $hdrs && gmtime_r_proto=I_TS ;;
    	esac
    	case "$gmtime_r_proto" in
    	''|0)	d_gmtime_r=undef
    		gmtime_r_proto=0
    		echo "Disabling gmtime_r, cannot determine prototype." >&4 ;;
    	* )	case "$gmtime_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) gmtime_r_proto="REENTRANT_PROTO_$gmtime_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "gmtime_r has no prototype, not using it." >&4 ;;
    		esac
    		d_gmtime_r=undef
    		gmtime_r_proto=0
    		;;
    	esac
    	;;
    *)	gmtime_r_proto=0
    	;;
    esac
    
    : see if hasmntopt exists
    set hasmntopt d_hasmntopt
    eval $inlibc
    
    : see if this is a netinet/in.h or sys/in.h system
    set netinet/in.h i_niin sys/in.h i_sysin
    eval $inhdr
    
    : see if arpa/inet.h has to be included
    set arpa/inet.h i_arpainet
    eval $inhdr
    
    : see if htonl --and friends-- exists
    val=''
    set htonl val
    eval $inlibc
    
    : Maybe they are macros.
    case "$val" in
    $undef)
    	$cat >htonl.c <<EOM
    #include <stdio.h>
    #include <sys/types.h>
    #$i_niin I_NETINET_IN
    #$i_sysin I_SYS_IN
    #$i_arpainet I_ARPA_INET
    #ifdef I_NETINET_IN
    #include <netinet/in.h>
    #endif
    #ifdef I_SYS_IN
    #include <sys/in.h>
    #endif
    #ifdef I_ARPA_INET
    #include <arpa/inet.h>
    #endif
    #ifdef htonl
    printf("Defined as a macro.");
    #endif
    EOM
    	$cppstdin $cppflags $cppminus < htonl.c >htonl.E 2>/dev/null
    	if $contains 'Defined as a macro' htonl.E >/dev/null 2>&1; then
    		val="$define"
    		echo "But it seems to be defined as a macro." >&4
    	fi
    	$rm -f htonl.?
    	;;
    esac
    set d_htonl
    eval $setvar
    
    : see if hypot exists
    set hypot d_hypot
    eval $inlibc
    
    : see if ilogb exists
    set ilogb d_ilogb
    eval $inlibc
    
    : see if ilogbl exists
    set ilogbl d_ilogbl
    eval $inlibc
    
    : check whether inet_aton exists
    set inet_aton d_inetaton
    eval $inlibc
    
    : see if inet_ntop exists
    set inet_ntop d_inetntop
    eval $inlibc
    
    : see if inet_pton exists
    set inet_pton d_inetpton
    eval $inlibc
    
    : Look for isascii
    echo " "
    $cat >isascii.c <<EOCP
    #include <stdio.h>
    #include <ctype.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    int main() {
    	int c = 'A';
    	if (isascii(c))
    		exit(0);
    	else
    		exit(1);
    }
    EOCP
    set isascii
    if eval $compile; then
    	echo "isascii() found." >&4
    	val="$define"
    else
    	echo "isascii() NOT found." >&4
    	val="$undef"
    fi
    set d_isascii
    eval $setvar
    $rm -f isascii*
    
    : Look for isblank
    echo " "
    $cat >isblank.c <<'EOCP'
    #include <stdio.h>
    #include <ctype.h>
    int main() {
    	int c = ' ';
    	if (isblank(c))
    		return 0 ;
    	else
    		return 1 ;
    }
    EOCP
    if $cc $ccflags $ldflags -o isblank isblank.c $libs >/dev/null 2>&1 ; then
    	echo "isblank() found." >&4
    	val="$define"
    else
    	echo "isblank() NOT found." >&4
    	val="$undef"
    fi
    set d_isblank
    eval $setvar
    $rm -f isblank*
    
    : check for isfinite
    echo "Checking to see if you have isfinite..." >&4
    $cat >try.c <<EOCP
    #include <math.h>
    int main() { return isfinite(0.0); }
    EOCP
    set try
    if eval $compile; then
    	val="$define"
    	echo "You have isfinite."
    else
    	val="$undef"
    	echo "You do not have isfinite."
    fi
    $rm_try
    set d_isfinite
    eval $setvar
    
    : see if isfinitel exists
    set isfinitel d_isfinitel
    eval $inlibc
    
    : check for isinf
    echo "Checking to see if you have isinf..." >&4
    $cat >try.c <<EOCP
    #include <math.h>
    int main() { return isinf(0.0); }
    EOCP
    set try
    if eval $compile; then
    	val="$define"
    	echo "You have isinf."
    else
    	val="$undef"
    	echo "You do not have isinf."
    fi
    $rm_try
    set d_isinf
    eval $setvar
    
    : see if isinfl exists
    set isinfl d_isinfl
    eval $inlibc
    
    : check for isless
    echo "Checking to see if you have isless..." >&4
    $cat >try.c <<EOCP
    #include <math.h>
    int main() { return isless(2.0, 1.0); }
    EOCP
    set try
    if eval $compile; then
    	val="$define"
    	echo "You have isless."
    else
    	val="$undef"
    	echo "You do not have isless."
    fi
    $rm_try
    set d_isless
    eval $setvar
    
    : check for isnan
    echo "Checking to see if you have isnan..." >&4
    $cat >try.c <<EOCP
    #include <math.h>
    int main() { return isnan(0.0); }
    EOCP
    set try
    if eval $compile; then
    	val="$define"
    	echo "You have isnan."
    else
    	val="$undef"
    	echo "You do not have isnan."
    fi
    $rm_try
    set d_isnan
    eval $setvar
    
    : see if isnanl exists
    set isnanl d_isnanl
    eval $inlibc
    
    : check for isnormal
    echo "Checking to see if you have isnormal..." >&4
    $cat >try.c <<EOCP
    #include <math.h>
    int main() { return isnormal(0.0); }
    EOCP
    set try
    if eval $compile; then
    	val="$define"
    	echo "You have isnormal."
    else
    	val="$undef"
    	echo "You do not have isnormal."
    fi
    $rm_try
    set d_isnormal
    eval $setvar
    
    : see if j0 exists
    set j0 d_j0
    eval $inlibc
    
    : see if j0l exists
    set j0l d_j0l
    eval $inlibc
    
    : see if killpg exists
    set killpg d_killpg
    eval $inlibc
    
    : see if localeconv exists
    set localeconv d_locconv
    eval $inlibc
    
    : see if libc has the POSIX.1-2008 currency locale rules
    case "$d_locconv:$d_lc_monetary_2008" in
    $define:)
    	$cat >try.c <<EOCP
    #include <locale.h>
    int main() {
    	struct lconv *lc = localeconv();
    	char int_p_cs_precedes = lc->int_p_cs_precedes;
    	return 0;
    }
    EOCP
    	set try
    	if eval $compile; then
    		d_lc_monetary_2008="$define"
    	else
    		d_lc_monetary_2008="$undef"
    	fi;
    	$rm_try
    	;;
    esac
    
    : see if lchown exists
    echo " "
    $cat > try.c <<EOCP
    #include <pwd.h>
    #include <stdio.h>
    #include <stdlib.h>
    #$i_unistd	I_UNISTD
    #ifdef I_UNISTD
    #  include <unistd.h>
    #endif
    int main(int argc, char *argv[])
    {
       if (lchown("./try.c", -1, getgid()) == -1) {
           exit(EXIT_FAILURE);
       }
       exit(EXIT_SUCCESS);
    }
    EOCP
    set try
    if eval $compile && ./try; then
        $echo "lchown() found." >&4
        val="$define"
    else
        $echo "lchown() NOT found." >&4
        val="$undef"
    fi
    set d_lchown
    eval $setvar
    $rm_try
    
    : See if number of significant digits in a double precision number is known
    echo " "
    $cat >ldbl_dig.c <<EOM
    #include <limits.h>
    #include <float.h>
    #ifdef LDBL_DIG
    printf("Contains LDBL_DIG");
    #endif
    EOM
    $cppstdin $cppflags $cppminus < ldbl_dig.c >ldbl_dig.E 2>/dev/null
    if $contains 'LDBL_DIG' ldbl_dig.E >/dev/null 2>&1; then
    	echo "LDBL_DIG found." >&4
    	val="$define"
    else
    	echo "LDBL_DIG NOT found." >&4
    	val="$undef"
    fi
    $rm -f ldbl_dig.?
    set d_ldbl_dig
    eval $setvar
    
    : see if lgamma exists
    set lgamma d_lgamma
    eval $inlibc
    
    : see if lgamma_r exists
    set lgamma_r d_lgamma_r
    eval $inlibc
    
    : check to see if math.h defines _LIB_VERSION
    d_libm_lib_version="$undef"
    echo " "
    echo "Checking to see if your libm supports _LIB_VERSION..." >&4
    $cat >try.c <<EOCP
    #include <unistd.h>
    #include <math.h>
    int main (int argc, char *argv[])
    {
        printf ("%d\n", _LIB_VERSION);
        return (0);
        } /* main */
    EOCP
    set try
    if eval $compile; then
        foo=`$run ./try`
        echo "Yes, it does ($foo)" >&4
        d_libm_lib_version="$define"
    else
        echo "No, it does not (probably harmless)" >&4
        fi
    $rm_try
    
    : see if link exists
    set link d_link
    eval $inlibc
    
    : see if llrint exists
    set llrint d_llrint
    eval $inlibc
    
    : see if llrintl exists
    set llrintl d_llrintl
    eval $inlibc
    
    : see if llround exists
    set llround d_llround
    eval $inlibc
    
    : see if llroundl exists
    set llroundl d_llroundl
    eval $inlibc
    
    : see if localtime_r exists
    set localtime_r d_localtime_r
    eval $inlibc
    case "$d_localtime_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_time time.h $i_systime sys/time.h"
    	case "$d_localtime_r_proto:$usethreads" in
    	":define")	d_localtime_r_proto=define
    		set d_localtime_r_proto localtime_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_localtime_r_proto" in
    	define)
    	case "$localtime_r_proto" in
    	''|0) try='struct tm* localtime_r(const time_t*, struct tm*);'
    	./protochk "$extern_C $try" $hdrs && localtime_r_proto=S_TS ;;
    	esac
    	case "$localtime_r_proto" in
    	''|0) try='int localtime_r(const time_t*, struct tm*);'
    	./protochk "$extern_C $try" $hdrs && localtime_r_proto=I_TS ;;
    	esac
    	case "$localtime_r_proto" in
    	''|0)	d_localtime_r=undef
    		localtime_r_proto=0
    		echo "Disabling localtime_r, cannot determine prototype." >&4 ;;
    	* )	case "$localtime_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) localtime_r_proto="REENTRANT_PROTO_$localtime_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "localtime_r has no prototype, not using it." >&4 ;;
    		esac
    		d_localtime_r=undef
    		localtime_r_proto=0
    		;;
    	esac
    	;;
    *)	localtime_r_proto=0
    	;;
    esac
    
    : see if localtime_r calls tzset
    case "$localtime_r_proto" in
    REENTRANT_PROTO*)
    	$cat >try.c <<EOCP
    /*  Does our libc's localtime_r call tzset ?
     *  return 0 if so, 1 otherwise.
     */
    #$i_systypes	I_SYS_TYPES
    #$i_unistd	I_UNISTD
    #$i_time	I_TIME
    #$i_stdlib	I_STDLIB
    #$i_malloc	I_MALLOC
    #ifdef I_SYS_TYPES
    #  include <sys/types.h>
    #endif
    #ifdef I_UNISTD
    #  include <unistd.h>
    #endif
    #ifdef I_TIME
    #  include <time.h>
    #endif
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #include <string.h>
    #ifdef I_MALLOC
    #  include <malloc.h>
    #endif
    int main()
    {
        int result = 0;
        time_t t = time(0L);
        char w_tz[]="TZ" "=GMT+5",
    	 e_tz[]="TZ" "=GMT-5",
    	*tz_e = (char*)malloc(16),
    	*tz_w = (char*)malloc(16);
        struct tm tm_e, tm_w;
        memset(&tm_e,'\0',sizeof(struct tm));
        memset(&tm_w,'\0',sizeof(struct tm));
        strcpy(tz_e,e_tz);
        strcpy(tz_w,w_tz);
    
        putenv(tz_e);
        localtime_r(&t, &tm_e);
    
        putenv(tz_w);
        localtime_r(&t, &tm_w);
    
        if( memcmp(&tm_e, &tm_w, sizeof(struct tm)) == 0 )
    	result = 1;
    
        free(tz_e);free(tz_w);
        return result;
    }
    EOCP
    	set try
    	if eval $compile; then
    	    if $run ./try; then
    		d_localtime_r_needs_tzset=undef;
    	    else
    		d_localtime_r_needs_tzset=define;
    	    fi;
    	else
    	    d_localtime_r_needs_tzset=undef;
    	fi;
         ;;
      *)
         d_localtime_r_needs_tzset=undef;
         ;;
    esac
    $rm_try
    
    : see if lockf exists
    set lockf d_lockf
    eval $inlibc
    
    : see if log1p exists
    set log1p d_log1p
    eval $inlibc
    
    : see if log2 exists
    set log2 d_log2
    eval $inlibc
    
    : see if logb exists
    set logb d_logb
    eval $inlibc
    
    : see if lrint exists
    set lrint d_lrint
    eval $inlibc
    
    : see if lrintl exists
    set lrintl d_lrintl
    eval $inlibc
    
    : see if lround exists
    set lround d_lround
    eval $inlibc
    
    : see if lroundl exists
    set lroundl d_lroundl
    eval $inlibc
    
    : see if prototype for lseek is available
    echo " "
    set d_lseekproto lseek $i_systypes sys/types.h $i_unistd unistd.h
    eval $hasproto
    
    : see if lstat exists
    set lstat d_lstat
    eval $inlibc
    
    : see if madvise exists
    set madvise d_madvise
    eval $inlibc
    
    : see if malloc_size exists
    set malloc_size d_malloc_size
    eval $inlibc
    
    : see if malloc_size_good exists
    set malloc_good_size d_malloc_good_size
    eval $inlibc
    
    : see if malloc_usable_size exists
    set malloc_usable_size d_malloc_usable_size
    eval $inlibc
    
    : see if mblen exists
    set mblen d_mblen
    eval $inlibc
    
    : see if mbrlen exists
    set mbrlen d_mbrlen
    eval $inlibc
    
    : see if mbrtowc exists
    set mbrtowc d_mbrtowc
    eval $inlibc
    
    : see if mbstowcs exists
    set mbstowcs d_mbstowcs
    eval $inlibc
    
    : see if mbtowc exists
    set mbtowc d_mbtowc
    eval $inlibc
    
    : see if memmem exists
    : We need both a prototype in string.h and the symbol in libc.
    echo " "
    d_memmem_proto=''
    xx1="#$d_gnulibc HAS_GNULIBC"
    xx2='#if defined(HAS_GNULIBC) && !defined(_GNU_SOURCE)'
    xx3='#   define _GNU_SOURCE'
    xx4='#endif'
    set d_memmem_proto memmem literal "$xx1" literal "$xx2" literal "$xx3" literal "$xx4" define string.h
    eval $hasproto
    case "$d_memmem_proto" in
        define) # see if memmem exists
    	set memmem d_memmem
    	eval $inlibc
    	;;
        *)  val=$undef
    	set d_memmem
    	eval $setvar
    	;;
    esac
    
    : see if memrchr exists
    : We need both a prototype in string.h and the symbol in libc.
    echo " "
    d_memrchr_proto=''
    xx1="#$d_gnulibc HAS_GNULIBC"
    xx2='#if defined(HAS_GNULIBC) && !defined(_GNU_SOURCE)'
    xx3='#   define _GNU_SOURCE'
    xx4='#endif'
    set d_memrchr_proto memrchr literal "$xx1" literal "$xx2" literal "$xx3" literal "$xx4" define string.h
    eval $hasproto
    case "$d_memrchr_proto" in
        define) # see if memrchr exists
    	set memrchr d_memrchr
    	eval $inlibc
    	;;
        *)  val=$undef
    	set d_memrchr
    	eval $setvar
    	;;
    esac
    
    : see if mkdir exists
    set mkdir d_mkdir
    eval $inlibc
    
    : see if mkdtemp exists
    set mkdtemp d_mkdtemp
    eval $inlibc
    
    : see if mkfifo exists
    set mkfifo d_mkfifo
    eval $inlibc
    
    : see if mkostemp exists
    set mkostemp d_mkostemp
    eval $inlibc
    
    : see if mkstemp exists
    set mkstemp d_mkstemp
    eval $inlibc
    
    : see if mkstemps exists
    set mkstemps d_mkstemps
    eval $inlibc
    
    : see if mktime exists
    set mktime d_mktime
    eval $inlibc
    
    : see if sys/mman.h has to be included
    set sys/mman.h i_sysmman
    eval $inhdr
    
    : see if mmap exists
    set mmap d_mmap
    eval $inlibc
    : see what shmat returns
    : default to something harmless
    mmaptype='void *'
    case "$i_sysmman$d_mmap" in
    "$define$define")
    	$cat >mmap.c <<'END'
    #include <sys/mman.h>
    void *mmap();
    END
    	if $cc $ccflags -c mmap.c >/dev/null 2>&1; then
    		mmaptype='void *'
    	else
    		mmaptype='caddr_t'
    	fi
    	echo "and it returns ($mmaptype)." >&4
    	;;
    esac
    
    : see if sqrtl exists
    set sqrtl d_sqrtl
    eval $inlibc
    
    : see if scalbnl exists
    set scalbnl d_scalbnl
    eval $inlibc
    
    : see if truncl exists
    set truncl d_truncl
    eval $inlibc
    
    : see if modfl exists
    set modfl d_modfl
    eval $inlibc
    
    : see if prototype for modfl is available
    echo " "
    set d_modflproto modfl define math.h
    eval $hasproto
    
    if $test "$uselongdouble" = "$define"; then
        message=""
        if $test "$d_sqrtl" != "$define"; then
    	message="$message sqrtl"
        fi
        if $test "$d_modfl" != "$define"; then
    	if $test "$d_truncl:$d_copysignl" = "$define:$define"; then
    	    echo "You have both truncl and copysignl, so I can emulate modfl."
    	else
    	    if $test "$d_aintl:$d_copysignl" = "$define:$define"; then
    		echo "You have both aintl and copysignl, so I can emulate modfl."
    	    else
    		message="$message modfl"
    	    fi
    	fi
        fi
        if $test "$d_frexpl" != "$define"; then
    	if $test "$d_ilogbl:$d_scalbnl" = "$define:$define"; then
    	    echo "You have both ilogbl and scalbnl, so I can emulate frexpl."
    	else
    	    message="$message frexpl"
    	fi
        fi
        if $test "$d_ldexpl" != "$define"; then
    	message="$message ldexpl"
        fi
    
        if $test "$message" != ""; then
    	$cat <<EOM >&4
    
    *** You requested the use of long doubles but you do not seem to have
    *** the following mathematical functions needed for long double support:
    ***    $message
    *** Please rerun Configure without -Duselongdouble and/or -Dusemorebits.
    *** Cannot continue, aborting.
    
    EOM
    
    	exit 1
        fi
    fi
    
    : see if mprotect exists
    set mprotect d_mprotect
    eval $inlibc
    
    : see if msgctl exists
    set msgctl d_msgctl
    eval $inlibc
    
    : see if msgget exists
    set msgget d_msgget
    eval $inlibc
    
    : see if msgsnd exists
    set msgsnd d_msgsnd
    eval $inlibc
    
    : see if msgrcv exists
    set msgrcv d_msgrcv
    eval $inlibc
    
    : see how much of the 'msg*(2)' library is present.
    h_msg=true
    echo " "
    case "$d_msgctl$d_msgget$d_msgsnd$d_msgrcv" in
    *"$undef"*) h_msg=false;;
    esac
    case "$osname" in
    freebsd)
        case "`ipcs 2>&1`" in
        "SVID messages"*"not configured"*)
    	echo "Your $osname does not have the msg*(2) configured." >&4
            h_msg=false
    	val="$undef"
    	set msgctl d_msgctl
    	eval $setvar
    	set msgget d_msgget
    	eval $setvar
    	set msgsnd d_msgsnd
    	eval $setvar
    	set msgrcv d_msgrcv
    	eval $setvar
    	;;
        esac
        ;;
    esac
    : we could also check for sys/ipc.h ...
    if $h_msg && $test `./findhdr sys/msg.h`; then
    	echo "You have the full msg*(2) library." >&4
    	val="$define"
    else
    	echo "You don't have the full msg*(2) library." >&4
    	val="$undef"
    fi
    set d_msg
    eval $setvar
    
    : Check for msghdr_s
    echo " "
    echo "Checking to see if your system supports struct msghdr..." >&4
    set d_msghdr_s msghdr $i_systypes sys/types.h $d_socket sys/socket.h $i_sysuio sys/uio.h
    eval $hasstruct
    case "$d_msghdr_s" in
    "$define")      echo "Yes, it does."   ;;
    *)              echo "No, it doesn't." ;;
    esac
    
    : see if msync exists
    set msync d_msync
    eval $inlibc
    
    : see if munmap exists
    set munmap d_munmap
    eval $inlibc
    
    : see if nan exists
    set nan d_nan
    eval $inlibc
    
    : see if nanosleep exists
    set nanosleep d_nanosleep
    eval $inlibc
    
    : see if nearbyint exists
    set nearbyint d_nearbyint
    eval $inlibc
    
    : see if nextafter exists
    set nextafter d_nextafter
    eval $inlibc
    
    : see if nexttoward exists
    set nexttoward d_nexttoward
    eval $inlibc
    
    : see if nice exists
    set nice d_nice
    eval $inlibc
    
    : see if this is a langinfo.h system
    set langinfo.h i_langinfo
    eval $inhdr
    
    : see if nl_langinfo exists
    set nl_langinfo d_nl_langinfo
    eval $inlibc
    
    : see if locale.h is available
    set locale.h i_locale
    eval $inhdr
    
    : check for nl_langinfo_l item
    $cat <<EOM
    
    Checking to see if you have nl_langinfo_l(), and that it is thread-safe
    EOM
    $cat >try.c <<EOCP
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #  include <stdlib.h>
    #endif
    #include <string.h>
    #$i_langinfo I_LANGINFO
    #ifdef I_LANGINFO
    #  include <langinfo.h>
    #endif
    #$i_pthread I_PTHREAD
    #ifdef I_PTHREAD
    #  include <pthread.h>
    #endif
    #$i_locale I_LOCALE
    #ifdef I_LOCALE
    #  include <locale.h>
    #endif
    
    void *
    thread_start(void * arg)
    {
        nl_langinfo(RADIXCHAR);
    }
    
    int main() {
        char * main_buffer;
        char save_main_buffer[1000];
        pthread_t subthread;
        pthread_attr_t attr;
    
        main_buffer = nl_langinfo_l(CODESET, newlocale(LC_ALL_MASK, "C", 0));
    
        /* If too large for our generous allowance, just assume we don't have
         * it. */
        if (strlen(main_buffer) >= sizeof(save_main_buffer)) {
            exit(1);
        }
    
        strcpy(save_main_buffer, main_buffer);
    
        if (pthread_attr_init(&attr) != 0) {
            exit(1);
        }
    
        if (pthread_create(&subthread, &attr, thread_start, NULL) != 0) {
            exit(1);
        }
    
        if (pthread_join(subthread, NULL) != 0) {
            exit(1);
        }
    
        exit(! (strcmp(main_buffer, save_main_buffer) == 0));
    }
    EOCP
    case "$usethreads" in
        define)
            set try
            if eval $compile; then
                echo "Your system has nl_langinfo_l()..." >&4
                d_nl_langinfo_l="$define"
                echo "$d_nl_langinfo_l" >&4
                if $run ./try; then
                    echo "and it is thread-safe (just as I'd hoped)." >&4
                    d_thread_safe_nl_langinfo_l="$define"
                    echo "$d_thread_safe_nl_langinfo_l" >&4
                else
                    echo "but it isn't thread-safe." >&4
                fi
            else
                echo "your system does not have nl_langinfo_l()" >&4
            fi
            ;;
        *) echo "Since threads aren't selected, we won't bother looking for nl_langinfo_l()" >&4
    esac
    if test X"$d_nl_langinfo_l" = X; then
    	d_nl_langinfo_l="$undef"
    fi
    if test X"$d_thread_safe_nl_langinfo_l" = X; then
    	d_thread_safe_nl_langinfo_l="$undef"
    fi
    $rm_try
    
    : Look for non 'int'-sized bitfields
    case "$d_non_int_bitfields" in
    '')
    echo " " >&4
    echo "Checking whether your compiler can handle struct bitfields that aren't 'int' or 'unsigned int' ..." >&4
    $cat >try.c <<'EOCP'
    #include <stdio.h>
    struct foo {
        unsigned char byte:1;
        unsigned short halfword:1;
    } bar;
    EOCP
    if $cc $ccflags -c try.c >try.out 2>&1 ; then
    	if $compiler_warning try.out >/dev/null 2>&1; then
    		echo "Your C compiler doesn't support struct bitfields that aren't 'int' or 'unsigned int'." >&4
    		val="$undef"
    	else
    		echo "Your C compiler supports struct bitfields besides 'int' and 'unsigned int'." >&4
    		val="$define"
    	fi
    else
    	echo "Your C compiler doesn't seem to understand struct bitfields that aren't 'int' or 'unsigned int' at all." >&4
    	val="$undef"
    fi
    ;;
    *) val="$d_non_int_bitfields" ;;
    esac
    set d_non_int_bitfields
    eval $setvar
    $rm_try
    
    : see if this is a quadmath.h system
    set quadmath.h i_quadmath
    eval $inhdr
    
    : Check basic sizes
    echo " "
    $echo "Choosing the C types to be used for Perl's internal types..." >&4
    
    case "$use64bitint:$d_quad:$quadtype" in
    define:define:?*)
    	ivtype="$quadtype"
    	uvtype="$uquadtype"
    	ivsize=8
    	uvsize=8
    	;;
    *)	ivtype="long"
    	uvtype="unsigned long"
    	ivsize=$longsize
    	uvsize=$longsize
    	;;
    esac
    
    case "$uselongdouble:$d_longdbl" in
    define:define)
    	nvtype="long double"
    	nvsize=$longdblsize
    	;;
    *)	nvtype=double
    	nvsize=$doublesize
    	;;
    esac
    
    case "$usequadmath:$i_quadmath" in
    define:define)
      nvtype="__float128"
      nvsize=16
      case "$libs" in
      *quadmath*) ;;
      *) $cat <<EOM >&4
    
    *** You requested the use of the quadmath library, but you
    *** do not seem to have the quadmath library installed.
    *** Cannot continue, aborting.
    EOM
        exit 1
        ;;
      esac
      ;;
    define:*) $cat <<EOM >&4
    
    *** You requested the use of the quadmath library, but you
    *** do not seem to have the required header, <quadmath.h>.
    EOM
      case "$gccversion" in
      [23].*|4.[0-5]*)
       $cat <<EOM >&4
    *** Your gcc looks a bit old:
    *** $gccversion
    EOM
        ;;
      '')
       $cat <<EOM >&4
    *** You are not running a gcc.
    EOM
        ;;
      esac
      $cat <<EOM >&4
    *** For the quadmath library you need at least gcc 4.6.
    *** Cannot continue, aborting.
    EOM
      exit 1
      ;;
    esac
    
    $echo "(IV will be "$ivtype", $ivsize bytes)"
    $echo "(UV will be "$uvtype", $uvsize bytes)"
    $echo "(NV will be "$nvtype", $nvsize bytes)"
    
    $cat >try.c <<EOCP
    #$i_inttypes I_INTTYPES
    #ifdef I_INTTYPES
    #include <inttypes.h>
    #endif
    #include <stdio.h>
    int main() {
    #ifdef INT8
       int8_t i =  INT8_MAX;
      uint8_t u = UINT8_MAX;
      printf("int8_t\n");
    #endif
    #ifdef INT16
       int16_t i =  INT16_MAX;
      uint16_t u = UINT16_MAX;
      printf("int16_t\n");
    #endif
    #ifdef INT32
       int32_t i =  INT32_MAX;
      uint32_t u = UINT32_MAX;
      printf("int32_t\n");
    #endif
    }
    EOCP
    
    i8type="signed char"
    u8type="unsigned char"
    i8size=1
    u8size=1
    
    case "$i16type" in
    '')	case "$shortsize" in
    	2)	i16type=short
    		u16type="unsigned short"
    		i16size=$shortsize
    		u16size=$shortsize
    		;;
    	esac
    	;;
    esac
    case "$i16type" in
    '')	set try -DINT16
    	if eval $compile; then
    		case "`$run ./try`" in
    		int16_t)
    			i16type=int16_t
    			u16type=uint16_t
    			i16size=2
    			u16size=2
    			;;
    		esac
    	fi
    	;;
    esac
    case "$i16type" in
    '')	if $test $shortsize -ge 2; then
    		i16type=short
    		u16type="unsigned short"
    		i16size=$shortsize
    		u16size=$shortsize
    	fi
    	;;
    esac
    
    case "$i32type" in
    '')	case "$longsize" in
    	4)	i32type=long
    		u32type="unsigned long"
    		i32size=$longsize
    		u32size=$longsize
    		;;
    	*)	case "$intsize" in
    		4)	i32type=int
    			u32type="unsigned int"
    			i32size=$intsize
    			u32size=$intsize
    			;;
    		esac
    		;;
    	esac
    	;;
    esac
    case "$i32type" in
    '')	set try -DINT32
    	if eval $compile; then
    		case "`$run ./try`" in
    		int32_t)
    			i32type=int32_t
    			u32type=uint32_t
    			i32size=4
    			u32size=4
    			;;
    		esac
    	fi
    	;;
    esac
    case "$i32type" in
    '')	if $test $intsize -ge 4; then
    		i32type=int
    		u32type="unsigned int"
    		i32size=$intsize
    		u32size=$intsize
    	fi
    	;;
    esac
    
    case "$i64type" in
    '')	case "$d_quad:$quadtype" in
    	define:?*)
    		i64type="$quadtype"
    		u64type="$uquadtype"
    		i64size=8
    		u64size=8
    		;;
    	esac
    	;;
    esac
    
    $echo "Checking how many bits of your UVs your NVs can preserve..." >&4
    $cat <<EOP >try.c
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #include <sys/types.h>
    #include <signal.h>
    #ifdef SIGFPE
    /* volatile so that the compiler has to store it out to memory */
    volatile int bletched = 0;
    $signal_t blech(int s) { bletched = 1; }
    #endif
    int main() {
        $uvtype u = 0;
        $nvtype d;
        int     n = 8 * $uvsize;
        int     i;
    #ifdef SIGFPE
        signal(SIGFPE, blech);
    #endif
    
        for (i = 0; i < n; i++) {
          u = u << 1 | ($uvtype)1;
          d = ($nvtype)u;
          if (($uvtype)d != u)
            break;
          if (d <= 0)
    	break;
          d = ($nvtype)(u - 1);
          if (($uvtype)d != (u - 1))
            break;
    #ifdef SIGFPE
          if (bletched)
    	break;
    #endif
        }
        printf("%d\n", ((i == n) ? -n : i));
        exit(0);
    }
    EOP
    set try
    
    d_nv_preserves_uv="$undef"
    if eval $compile; then
    	nv_preserves_uv_bits="`$run ./try`"
    fi
    case "$nv_preserves_uv_bits" in
    \-[1-9]*)
    	nv_preserves_uv_bits=`expr 0 - $nv_preserves_uv_bits`
    	$echo "Your NVs can preserve all $nv_preserves_uv_bits bits of your UVs."  >&4
    	d_nv_preserves_uv="$define"
    	;;
    [1-9]*)	$echo "Your NVs can preserve only $nv_preserves_uv_bits bits of your UVs."  >&4
    	d_nv_preserves_uv="$undef" ;;
    *)	$echo "Can't figure out how many bits your NVs preserve." >&4
    	nv_preserves_uv_bits="0" ;;
    esac
    $rm_try
    
    $echo "Checking to find the largest integer value your NVs can hold..." >&4
    $cat <<EOP >try.c
    #include <stdio.h>
    
    typedef $nvtype NV;
    
    int
    main() {
      NV value = 2;
      int count = 1;
    
      while(count < 256) {
        /* volatile so that the compiler has to store it out to memory */
        volatile NV up = value + 1.0;
        volatile NV negated = -value;
        volatile NV down = negated - 1.0;
        volatile NV got_up = up - value;
        int up_good = got_up == 1.0;
        int got_down = down - negated;
        int down_good = got_down == -1.0;
    
        if (down_good != up_good) {
          fprintf(stderr,
    	      "Inconsistency - up %d %f; down %d %f; for 2**%d (%.20f)\n",
    	      up_good, (double) got_up, down_good, (double) got_down,
    	      count, (double) value);
          return 1;
        }
        if (!up_good) {
          while (1) {
    	if (count > 8) {
    	  count -= 8;
    	  fputs("256.0", stdout);
    	} else {
    	  count--;
    	  fputs("2.0", stdout);
    	}
    	if (!count) {
    	  puts("");
    	  return 0;
    	}
    	fputs("*", stdout);
          }
        }
        value *= 2;
        ++count;
      }
      fprintf(stderr, "Cannot overflow integer range, even at 2**%d (%.20f)\n",
    	  count, (double) value);
      return 1;
    }
    EOP
    set try
    
    nv_overflows_integers_at='0'
    if eval $compile; then
        xxx="`$run ./try`"
        case "$?" in
    	0)
    	    case "$xxx" in
    		2*)  cat >&4 <<EOM
    The largest integer your NVs can preserve is equal to $xxx
    EOM
    		    nv_overflows_integers_at="$xxx"
    		    ;;
    		*)  cat >&4 <<EOM
    Cannot determine the largest integer value your NVs can hold, unexpected output
    '$xxx'
    EOM
    		    ;;
    	    esac
    	    ;;
    	*)  cat >&4 <<EOM
    Cannot determine the largest integer value your NVs can hold
    EOM
    	    ;;
        esac
    fi
    $rm_try
    
    $echo "Checking whether NV 0.0 is all bits zero in memory..." >&4
    $cat <<EOP >try.c
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #include <string.h>
    #include <sys/types.h>
    #include <signal.h>
    #ifdef SIGFPE
    /* volatile so that the compiler has to store it out to memory */
    volatile int bletched = 0;
    $signal_t blech(int s) { bletched = 1; }
    #endif
    
    int checkit($nvtype d, const char *where) {
        void *v = &d;
        unsigned char *p = (unsigned char *)v;
        unsigned char *end = p + sizeof(d);
        int fail = 0;
    
        while (p < end)
    	fail += *p++;
    
        if (!fail)
    	return 0;
    
        p = (unsigned char *)v;
        printf("No - %s: 0x", where);
        while (p < end)
    	printf ("%02X", *p++);
        printf("\n");
        return 1;
    }
    
    int main(int argc, char **argv) {
        $nvtype d = 0.0;
        int fail = 0;
        fail += checkit(d, "0.0");
    
        /* The compiler shouldn't be assuming that bletched is 0  */
        d = bletched;
    
        fail += checkit(d, "bleched");
    
    #ifdef SIGFPE
        signal(SIGFPE, blech);
    #endif
    
        /* Paranoia - the compiler should have no way of knowing that ANSI says
           that argv[argc] will always be NULL.  Actually, if it did assume this it
           would be buggy, as this is C and main() can be called from elsewhere in
           the program.  */
        d = argv[argc] ? 1 : 0;
    
        if (d) {
    	printf("Odd argv[argc]=%p, d=%g\n", argv[argc], d);
        }
    
        fail += checkit(d, "ternary");
    
        memset(&d, sizeof(d), argv[argc] ? 1 : 0);
    
        if (d != 0.0) {
    	printf("No - memset doesn't give 0.0\n");
    	/* This might just blow up:  */
    	printf("(gives %g)\n", d);
    	return 1;
        }
    
    #ifdef SIGFPE
        if (bletched) {
    	printf("No - something bleched\n");
    	return 1;
        }
    #endif
        if (fail) {
          printf("No - %d fail(s)\n", fail);
          return 1;
        }
        printf("Yes\n");
        return 0;
    }
    EOP
    set try
    
    d_nv_zero_is_allbits_zero="$undef"
    if eval $compile; then
        xxx="`$run ./try`"
        case "$?" in
    	0)
    	    case "$xxx" in
    		Yes)  cat >&4 <<EOM
    0.0 is represented as all bits zero in memory
    EOM
    		    d_nv_zero_is_allbits_zero="$define"
    		    ;;
    		*)  cat >&4 <<EOM
    0.0 is not represented as all bits zero in memory
    EOM
    		    d_nv_zero_is_allbits_zero="$undef"
    		    ;;
    	    esac
    	    ;;
    	*)  cat >&4 <<EOM
    0.0 is not represented as all bits zero in memory
    EOM
    	    d_nv_zero_is_allbits_zero="$undef"
    	    ;;
        esac
    fi
    $rm_try
    
    : check for off64_t
    echo " "
    echo "Checking to see if you have off64_t..." >&4
    $cat >try.c <<EOCP
    #include <sys/types.h>
    #include <unistd.h>
    int main() { off64_t x = 7; }
    EOCP
    set try
    if eval $compile; then
    	val="$define"
    	echo "You have off64_t."
    else
    	val="$undef"
    	echo "You do not have off64_t."
    	case "$lseeksize" in
    	8) echo "(Your off_t is 64 bits, so you could use that.)" ;;
    	esac
    fi
    $rm_try
    set d_off64_t
    eval $setvar
    
    : how to create joinable pthreads
    if test "X$usethreads" = "X$define" -a "X$i_pthread" = "X$define"; then
    	echo " "
    	echo "Checking what constant to use for creating joinable pthreads..." >&4
    	$cat >try.c <<'EOCP'
    #include <pthread.h>
    int main() {
        int detachstate = JOINABLE;
    }
    EOCP
    	set try -DJOINABLE=PTHREAD_CREATE_JOINABLE
    	if eval $compile; then
    		echo "You seem to use PTHREAD_CREATE_JOINABLE." >&4
    		val="$undef" # Yes, undef.
    		set d_old_pthread_create_joinable
    		eval $setvar
    		val=""
    		set old_pthread_create_joinable
    		eval $setvar
    	else
    		set try -DJOINABLE=PTHREAD_CREATE_UNDETACHED
    		if eval $compile; then
    			echo "You seem to use PTHREAD_CREATE_UNDETACHED." >&4
    			val="$define"
    			set d_old_pthread_create_joinable
    			eval $setvar
    			val=PTHREAD_CREATE_UNDETACHED
    			set old_pthread_create_joinable
    			eval $setvar
    		else
    			set try -DJOINABLE=__UNDETACHED
    			if eval $compile; then
    				echo "You seem to use __UNDETACHED." >&4
    				val="$define"
    				set d_old_pthread_create_joinable
    				eval $setvar
    				val=__UNDETACHED
    				set old_pthread_create_joinable
    				eval $setvar
    			else
    				echo "Egads, nothing obvious found.  Guessing that you use 0." >&4
    				val="$define"
    				set d_old_pthread_create_joinable
    				eval $setvar
    				val=0
    				set old_pthread_create_joinable
    				eval $setvar
    			fi
    		fi
    	fi
    	$rm_try
    else
        d_old_pthread_create_joinable="$undef"
        old_pthread_create_joinable=""
    fi
    
    : see if pause exists
    set pause d_pause
    eval $inlibc
    
    : see if pipe2 exists
    set pipe2 d_pipe2
    eval $inlibc
    
    : see if poll exists
    set poll d_poll
    eval $inlibc
    
    : see if prctl exists
    set prctl d_prctl
    eval $inlibc
    
    : see if prctl supports PR_SET_NAME
    d_prctl_set_name=$undef
    case $d_prctl in
        $define)
    	$cat >try.c <<EOM
    #ifdef __ANDROID__
    #include <unistd.h>
    #endif
    #include <sys/prctl.h>
    
    int main (int argc, char *argv[])
    {
        return (prctl (PR_SET_NAME, "Test"));
        } /* main */
    EOM
    	set try
    	if eval $compile_ok && $run ./try; then
    	    echo "Your prctl (PR_SET_NAME, ...) works"
    	    d_prctl_set_name=$define
    	    fi
    	$rm_try
    	;;
        esac
    
    : see if readlink exists
    set readlink d_readlink
    eval $inlibc
    
    : Check if there is a /proc symlink to the abs path of
    : the executing program.  We will honor hints of d_procselfexe=$undef
    : or procselfexe being non-empty, otherwise will try to determine both
    : if we have readlink.
    : AmigaOS will attempt to mount proc: aka /proc, if /proc/... is
    : referenced, and AmigaOS does not have a proc filesystem anyway.
    echo " "
    val="$undef"
    if $test "X$d_procselfexe" = Xundef; then
    	procselfexe=''
    elif $test "X$procselfexe" != X -a "X$procselfexe" != 'X '; then
    	val="$define"
    elif $test "X$d_readlink" = Xdefine; then
            : NetBSD first as /proc/self is a symlink to /proc/curproc,
            : and it feels more tidy to avoid an extra level of symlink
    	set NetBSD /proc/curproc/exe Linux /proc/self/exe FreeBSD /proc/curproc/file Solaris /proc/self/path/a.out
    	while test $# -gt 0; do
    	    type=$1; try=$2
    	    shift; shift
    	    if $issymlink $try; then
    		$ls -l $try > reflect
    		if $contains /`basename $ls` reflect >/dev/null 2>&1; then
    		    echo "You have $type-like $try."
    		    procselfexe='"'$try'"'
    		    val="$define"
    		    : This will break out of the loop
    		    set X; shift
    		fi
    	    fi
    	done
    fi
    $rm -f reflect
    set d_procselfexe
    eval $setvar
    
    : backward compatibility for d_hvfork
    if test X$d_hvfork != X; then
    	d_vfork="$d_hvfork"
    	d_hvfork=''
    fi
    : see if there is a vfork
    val=''
    set vfork val
    eval $inlibc
    
    d_pseudofork=$undef
    
    : Ok, but do we want to use it. vfork is reportedly unreliable in
    : perl on Solaris 2.x, and probably elsewhere.
    case "$val" in
    $define)
    	echo " "
    	case "$usevfork" in
    	false) dflt='n';;
    	*) dflt='y';;
    	esac
    	cat <<'EOM'
    
    Perl can only use a vfork() that doesn't suffer from strict
    restrictions on calling functions or modifying global data in
    the child.  For example, glibc-2.1 contains such a vfork()
    that is unsuitable.  If your system provides a proper fork()
    call, chances are that you do NOT want perl to use vfork().
    
    EOM
    	rp="Do you still want to use vfork()?"
    	. ./myread
    	case "$ans" in
    	y|Y) ;;
    	*)
    		echo "Ok, we won't use vfork()."
    		val="$undef"
    		;;
    	esac
    	;;
    esac
    set d_vfork
    eval $setvar
    case "$d_vfork" in
    $define) usevfork='true';;
    *) usevfork='false';;
    esac
    
    : see whether the pthread_atfork exists
    $cat >try.c <<EOP
    #include <pthread.h>
    #include <stdio.h>
    int main() {
    #ifdef  PTHREAD_ATFORK
            pthread_atfork(NULL,NULL,NULL);
    #endif
    }
    EOP
    
    : see if pthread_atfork exists
    set try -DPTHREAD_ATFORK
    if eval $compile; then
        val="$define"
    else
        val="$undef"
    fi
    case "$usethreads" in
    $define)
            case "$val" in
            $define) echo 'pthread_atfork found.' >&4        ;;
            *)       echo 'pthread_atfork NOT found.' >&4    ;;
            esac
    esac
    set d_pthread_atfork
    eval $setvar
    
    : see if pthread_attr_setscope exists
    set pthread_attr_setscope d_pthread_attr_setscope
    eval $inlibc
    
    : see whether the various POSIXish _yields exist
    $cat >try.c <<EOP
    #include <pthread.h>
    #include <stdio.h>
    int main() {
    #ifdef SCHED_YIELD
    	sched_yield();
    #else
    #ifdef PTHREAD_YIELD
    	pthread_yield();
    #else
    #ifdef PTHREAD_YIELD_NULL
    	pthread_yield(NULL);
    #endif
    #endif
    #endif
    }
    EOP
    : see if sched_yield exists
    set try -DSCHED_YIELD
    if eval $compile; then
        val="$define"
        sched_yield='sched_yield()'
    else
        val="$undef"
    fi
    case "$usethreads" in
    $define)
    	case "$val" in
    	$define) echo 'sched_yield() found.' >&4	;;
    	*)	 echo 'sched_yield() NOT found.' >&4	;;
    	esac
    esac
    set d_sched_yield
    eval $setvar
    
    : see if pthread_yield exists
    set try -DPTHREAD_YIELD
    if eval $compile; then
        val="$define"
        case "$sched_yield" in
        '') sched_yield='pthread_yield()' ;;
        esac
    else
        set try -DPTHREAD_YIELD_NULL
        if eval $compile; then
    	val="$define"
    	case "$sched_yield" in
    	'') sched_yield='pthread_yield(NULL)' ;;
    	esac
        else
    	val="$undef"
        fi
    fi
    case "$usethreads" in
    $define)
    	case "$val" in
    	$define) echo 'pthread_yield() found.' >&4	;;
    	*)	 echo 'pthread_yield() NOT found.' >&4	;;
    	esac
    	;;
    esac
    set d_pthread_yield
    eval $setvar
    case "$sched_yield" in
    '') sched_yield=undef ;;
    esac
    $rm_try
    
    : check for ptrdiff_t
    echo " "
    echo "Checking to see if you have ptrdiff_t..." >&4
    $cat >try.c <<EOCP
    #include <stddef.h>
    int main() { ptrdiff_t x = 7; }
    EOCP
    set try
    if eval $compile; then
    	val="$define"
    	echo "You have ptrdiff_t."
    else
    	val="$undef"
    	echo "You do not have ptrdiff_t."
    fi
    $rm_try
    set d_ptrdiff_t
    eval $setvar
    
    : see if random_r exists
    set random_r d_random_r
    eval $inlibc
    case "$d_random_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_stdlib stdlib.h"
    	case "$d_random_r_proto:$usethreads" in
    	":define")	d_random_r_proto=define
    		set d_random_r_proto random_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_random_r_proto" in
    	define)
    	case "$random_r_proto" in
    	''|0) try='int random_r(int*, struct random_data*);'
    	./protochk "$extern_C $try" $hdrs && random_r_proto=I_iS ;;
    	esac
    	case "$random_r_proto" in
    	''|0) try='int random_r(long*, struct random_data*);'
    	./protochk "$extern_C $try" $hdrs && random_r_proto=I_lS ;;
    	esac
    	case "$random_r_proto" in
    	''|0) try='int random_r(struct random_data*, int32_t*);'
    	./protochk "$extern_C $try" $hdrs && random_r_proto=I_St ;;
    	esac
    	case "$random_r_proto" in
    	''|0)	d_random_r=undef
    		random_r_proto=0
    		echo "Disabling random_r, cannot determine prototype." >&4 ;;
    	* )	case "$random_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) random_r_proto="REENTRANT_PROTO_$random_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "random_r has no prototype, not using it." >&4 ;;
    		esac
    		d_random_r=undef
    		random_r_proto=0
    		;;
    	esac
    	;;
    *)	random_r_proto=0
    	;;
    esac
    
    : see if readdir and friends exist
    set readdir d_readdir
    eval $inlibc
    set seekdir d_seekdir
    eval $inlibc
    set telldir d_telldir
    eval $inlibc
    set rewinddir d_rewinddir
    eval $inlibc
    
    : see if readdir64_r exists
    set readdir64_r d_readdir64_r
    eval $inlibc
    case "$d_readdir64_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_dirent dirent.h"
    	case "$d_readdir64_r_proto:$usethreads" in
    	":define")	d_readdir64_r_proto=define
    		set d_readdir64_r_proto readdir64_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_readdir64_r_proto" in
    	define)
    	case "$readdir64_r_proto" in
    	''|0) try='int readdir64_r(DIR*, struct dirent64*, struct dirent64**);'
    	./protochk "$extern_C $try" $hdrs && readdir64_r_proto=I_TSR ;;
    	esac
    	case "$readdir64_r_proto" in
    	''|0) try='int readdir64_r(DIR*, struct dirent64*);'
    	./protochk "$extern_C $try" $hdrs && readdir64_r_proto=I_TS ;;
    	esac
    	case "$readdir64_r_proto" in
    	''|0)	d_readdir64_r=undef
    		readdir64_r_proto=0
    		echo "Disabling readdir64_r, cannot determine prototype." >&4 ;;
    	* )	case "$readdir64_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) readdir64_r_proto="REENTRANT_PROTO_$readdir64_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "readdir64_r has no prototype, not using it." >&4 ;;
    		esac
    		d_readdir64_r=undef
    		readdir64_r_proto=0
    		;;
    	esac
    	;;
    *)	readdir64_r_proto=0
    	;;
    esac
    
    : see if readdir_r exists
    set readdir_r d_readdir_r
    eval $inlibc
    case "$d_readdir_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_dirent dirent.h"
    	case "$d_readdir_r_proto:$usethreads" in
    	":define")	d_readdir_r_proto=define
    		set d_readdir_r_proto readdir_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_readdir_r_proto" in
    	define)
    	case "$readdir_r_proto" in
    	''|0) try='int readdir_r(DIR*, struct dirent*, struct dirent**);'
    	./protochk "$extern_C $try" $hdrs && readdir_r_proto=I_TSR ;;
    	esac
    	case "$readdir_r_proto" in
    	''|0) try='int readdir_r(DIR*, struct dirent*);'
    	./protochk "$extern_C $try" $hdrs && readdir_r_proto=I_TS ;;
    	esac
    	case "$readdir_r_proto" in
    	''|0)	d_readdir_r=undef
    		readdir_r_proto=0
    		echo "Disabling readdir_r, cannot determine prototype." >&4 ;;
    	* )	case "$readdir_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) readdir_r_proto="REENTRANT_PROTO_$readdir_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "readdir_r has no prototype, not using it." >&4 ;;
    		esac
    		d_readdir_r=undef
    		readdir_r_proto=0
    		;;
    	esac
    	;;
    *)	readdir_r_proto=0
    	;;
    esac
    
    : see if readv exists
    set readv d_readv
    eval $inlibc
    
    : see if recvmsg exists
    set recvmsg d_recvmsg
    eval $inlibc
    
    : see if regcomp, regcmp, or re_comp exist, for regular pattern matching
    echo " "
    if set regcomp val -f d_regcomp; eval $csym; $val; then
    	echo 'regcomp() found.' >&4
    	d_regcomp="$define"
    	d_regcmp="$undef"
    	d_re_comp="$undef"
    elif set regcmp val -f d_regcmp; eval $csym; $val; then
    	echo 'regcmp() found.' >&4
    	d_regcmp="$define"
    	d_regcomp="$undef"
    	d_re_comp="$undef"
    elif set re_comp val -f d_re_comp; eval $csym; $val; then
    	echo 're_comp() found, assuming re_exec() also exists.' >&4
    	d_re_comp="$define"
    	d_regcomp="$undef"
    	d_regcmp="$undef"
    else
    	$cat >&4 <<EOM
    No regcomp(), regcmp() nor re_comp() found !! No regular pattern matching.
    EOM
    	d_regcmp="$undef"
    	d_re_comp="$undef"
    	d_regcomp="$undef"
    fi
    
    : see if remainder exists
    set remainder d_remainder
    eval $inlibc
    
    : see if remquo exists
    set remquo d_remquo
    eval $inlibc
    
    : see if rename exists
    set rename d_rename
    eval $inlibc
    
    : see if rint exists
    set rint d_rint
    eval $inlibc
    
    : see if rmdir exists
    set rmdir d_rmdir
    eval $inlibc
    
    : see if round exists
    set round d_round
    eval $inlibc
    
    : see if prototype for sbrk is available
    echo " "
    set d_sbrkproto sbrk $i_unistd unistd.h
    eval $hasproto
    
    : see if scalbn exists
    set scalbn d_scalbn
    eval $inlibc
    
    : see if select exists
    set select d_select
    eval $inlibc
    
    : see if semctl exists
    set semctl d_semctl
    eval $inlibc
    
    : see if semget exists
    set semget d_semget
    eval $inlibc
    
    : see if semop exists
    set semop d_semop
    eval $inlibc
    
    : see how much of the 'sem*(2)' library is present.
    h_sem=true
    echo " "
    case "$d_semctl$d_semget$d_semop" in
    *"$undef"*) h_sem=false;;
    esac
    case "$osname" in
    freebsd)
        case "`ipcs 2>&1`" in
        "SVID messages"*"not configured"*)
    	echo "Your $osname does not have the sem*(2) configured." >&4
            h_sem=false
    	val="$undef"
    	set semctl d_semctl
    	eval $setvar
    	set semget d_semget
    	eval $setvar
    	set semop d_semop
    	eval $setvar
    	;;
        esac
        ;;
    esac
    : we could also check for sys/ipc.h ...
    if $h_sem && $test `./findhdr sys/sem.h`; then
    	echo "You have the full sem*(2) library." >&4
    	val="$define"
    else
    	echo "You don't have the full sem*(2) library." >&4
    	val="$undef"
    fi
    set d_sem
    eval $setvar
    
    : see whether sys/sem.h defines union semun
    echo " "
    $cat > try.c <<'END'
    #include <sys/types.h>
    #include <sys/ipc.h>
    #include <sys/sem.h>
    int main () { union semun semun; semun.buf = 0; }
    END
    set try
    if eval $compile; then
        echo "You have union semun in <sys/sem.h>." >&4
        val="$define"
    else
        echo "You do not have union semun in <sys/sem.h>." >&4
        val="$undef"
    fi
    $rm_try
    set d_union_semun
    eval $setvar
    
    : see how to do semctl IPC_STAT
    case "$d_sem" in
    $define)
        echo " "
        $cat > tryh.h <<END
    #ifndef S_IRUSR
    #   ifdef S_IREAD
    #	define S_IRUSR S_IREAD
    #	define S_IWUSR S_IWRITE
    #	define S_IXUSR S_IEXEC
    #   else
    #	define S_IRUSR 0400
    #	define S_IWUSR 0200
    #	define S_IXUSR 0100
    #   endif
    #   define S_IRGRP (S_IRUSR>>3)
    #   define S_IWGRP (S_IWUSR>>3)
    #   define S_IXGRP (S_IXUSR>>3)
    #   define S_IROTH (S_IRUSR>>6)
    #   define S_IWOTH (S_IWUSR>>6)
    #   define S_IXOTH (S_IXUSR>>6)
    #endif
    #ifndef S_IRWXU
    #   define S_IRWXU (S_IRUSR|S_IWUSR|S_IXUSR)
    #   define S_IRWXG (S_IRGRP|S_IWGRP|S_IXGRP)
    #   define S_IRWXO (S_IROTH|S_IWOTH|S_IXOTH)
    #endif
    END
        : see whether semctl IPC_STAT can use union semun
        case "$d_semctl_semun" in
        '')
          val="$undef"
          $cat > try.c <<END
    #include <sys/types.h>
    #include <sys/ipc.h>
    #include <sys/sem.h>
    #include <sys/stat.h>
    #include <stdio.h>
    #include <errno.h>
    #include "tryh.h"
    #ifndef errno
    extern int errno;
    #endif
    #$d_union_semun HAS_UNION_SEMUN
    int main() {
        union semun
    #ifndef HAS_UNION_SEMUN
        {
    	int val;
    	struct semid_ds *buf;
    	unsigned short *array;
        }
    #endif
        arg;
        int sem, st;
    
    #if defined(IPC_PRIVATE) && defined(S_IRWXU) && defined(S_IRWXG) && defined(S_IRWXO) && defined(IPC_CREAT)
        sem = semget(IPC_PRIVATE, 1, S_IRWXU|S_IRWXG|S_IRWXO|IPC_CREAT);
        if (sem > -1) {
    	struct semid_ds argbuf;
    	arg.buf = &argbuf;
    #	ifdef IPC_STAT
    	st = semctl(sem, 0, IPC_STAT, arg);
    	if (st == 0)
    	    printf("semun\n");
    	else
    #	endif /* IPC_STAT */
    	    printf("semctl IPC_STAT failed: errno = %d\n", errno);
    #	ifdef IPC_RMID
    	if (semctl(sem, 0, IPC_RMID, arg) != 0)
    #	endif /* IPC_RMID */
    	    printf("semctl IPC_RMID failed: errno = %d\n", errno);
        } else
    #endif /* IPC_PRIVATE && ... */
    	printf("semget failed: errno = %d\n", errno);
      return 0;
    }
    END
          set try
          if eval $compile; then
    	  xxx=`$run ./try`
              case "$xxx" in
              semun) val="$define" ;;
              esac
          fi
          $rm_try
          set d_semctl_semun
          eval $setvar
          ;;
        esac
        case "$d_semctl_semun" in
        $define)
            echo "You can use union semun for semctl IPC_STAT." >&4
    	also='also'
            ;;
        *)  echo "You cannot use union semun for semctl IPC_STAT." >&4
    	also=''
            ;;
        esac
    
        : see whether semctl IPC_STAT can use struct semid_ds pointer
        case "$d_semctl_semid_ds" in
        '')
          val="$undef"
          $cat > try.c <<'END'
    #include <sys/types.h>
    #include <sys/ipc.h>
    #include <sys/sem.h>
    #include <sys/stat.h>
    #include "tryh.h"
    #include <stdio.h>
    #include <errno.h>
    #ifndef errno
    extern int errno;
    #endif
    int main() {
        union semun
    #ifndef HAS_UNION_SEMUN
        {
    	int val;
    	struct semid_ds *buf;
    	unsigned short *array;
        }
    #endif
        arg;
        struct semid_ds argbuf;
        int sem, st;
    
    #if defined(IPC_PRIVATE) && defined(S_IRWXU) && defined(S_IRWXG) &&  defined(S_IRWXO) && defined(IPC_CREAT)
        sem = semget(IPC_PRIVATE, 1, S_IRWXU|S_IRWXG|S_IRWXO|IPC_CREAT);
        if (sem > -1) {
    	arg.buf = &argbuf;
    #	ifdef IPC_STAT
    	st = semctl(sem, 0, IPC_STAT, arg);
    	if (st == 0)
    	    printf("semid_ds\n");
    	else
    #	endif /* IPC_STAT */
    	    printf("semctl IPC_STAT failed: errno = %d\n", errno);
    #	ifdef IPC_RMID
    	if (semctl(sem, 0, IPC_RMID, arg) != 0)
    #	endif /* IPC_RMID */
    	    printf("semctl IPC_RMID failed: errno = %d\n", errno);
        } else
    #endif /* IPC_PRIVATE && ... */
    	printf("semget failed: errno = %d\n", errno);
    
        return 0;
    }
    END
          set try
          if eval $compile; then
              xxx=`$run ./try`
              case "$xxx" in
              semid_ds) val="$define" ;;
              esac
          fi
          $rm_try
          set d_semctl_semid_ds
          eval $setvar
          ;;
        esac
        case "$d_semctl_semid_ds" in
        $define)
            echo "You can $also use struct semid_ds* for semctl IPC_STAT." >&4
            ;;
        *)  echo "You cannot use struct semid_ds* for semctl IPC_STAT." >&4
            ;;
        esac
        ;;
    *)  val="$undef"
    
        # We do not have the full sem*(2) library, so assume we can not
        # use either.
    
        set d_semctl_semun
        eval $setvar
    
        set d_semctl_semid_ds
        eval $setvar
        ;;
    esac
    $rm_try tryh.h
    
    : see if sendmsg exists
    set sendmsg d_sendmsg
    eval $inlibc
    
    : see if setegid exists
    set setegid d_setegid
    eval $inlibc
    
    : see if seteuid exists
    set seteuid d_seteuid
    eval $inlibc
    
    : see if setgrent exists
    set setgrent d_setgrent
    eval $inlibc
    
    : see if setgrent_r exists
    set setgrent_r d_setgrent_r
    eval $inlibc
    case "$d_setgrent_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_grp grp.h"
    	case "$d_setgrent_r_proto:$usethreads" in
    	":define")	d_setgrent_r_proto=define
    		set d_setgrent_r_proto setgrent_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_setgrent_r_proto" in
    	define)
    	case "$setgrent_r_proto" in
    	''|0) try='int setgrent_r(FILE**);'
    	./protochk "$extern_C $try" $hdrs && setgrent_r_proto=I_H ;;
    	esac
    	case "$setgrent_r_proto" in
    	''|0) try='void setgrent_r(FILE**);'
    	./protochk "$extern_C $try" $hdrs && setgrent_r_proto=V_H ;;
    	esac
    	case "$setgrent_r_proto" in
    	''|0)	d_setgrent_r=undef
    		setgrent_r_proto=0
    		echo "Disabling setgrent_r, cannot determine prototype." >&4 ;;
    	* )	case "$setgrent_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) setgrent_r_proto="REENTRANT_PROTO_$setgrent_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "setgrent_r has no prototype, not using it." >&4 ;;
    		esac
    		d_setgrent_r=undef
    		setgrent_r_proto=0
    		;;
    	esac
    	;;
    *)	setgrent_r_proto=0
    	;;
    esac
    
    : see if sethostent exists
    set sethostent d_sethent
    eval $inlibc
    
    : see if sethostent_r exists
    set sethostent_r d_sethostent_r
    eval $inlibc
    case "$d_sethostent_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_netdb netdb.h"
    	case "$d_sethostent_r_proto:$usethreads" in
    	":define")	d_sethostent_r_proto=define
    		set d_sethostent_r_proto sethostent_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_sethostent_r_proto" in
    	define)
    	case "$sethostent_r_proto" in
    	''|0) try='int sethostent_r(int, struct hostent_data*);'
    	./protochk "$extern_C $try" $hdrs && sethostent_r_proto=I_ID ;;
    	esac
    	case "$sethostent_r_proto" in
    	''|0) try='void sethostent_r(int, struct hostent_data*);'
    	./protochk "$extern_C $try" $hdrs && sethostent_r_proto=V_ID ;;
    	esac
    	case "$sethostent_r_proto" in
    	''|0)	d_sethostent_r=undef
    		sethostent_r_proto=0
    		echo "Disabling sethostent_r, cannot determine prototype." >&4 ;;
    	* )	case "$sethostent_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) sethostent_r_proto="REENTRANT_PROTO_$sethostent_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "sethostent_r has no prototype, not using it." >&4 ;;
    		esac
    		d_sethostent_r=undef
    		sethostent_r_proto=0
    		;;
    	esac
    	;;
    *)	sethostent_r_proto=0
    	;;
    esac
    
    : see if setitimer exists
    set setitimer d_setitimer
    eval $inlibc
    
    : see if setlinebuf exists
    set setlinebuf d_setlinebuf
    eval $inlibc
    
    : see if this system has wctype.h
    set wctype.h i_wctype
    eval $inhdr
    
    : see if towupper exists
    set towupper d_towupper
    eval $inlibc
    
    : check for setlocale function and behavior
    case "$d_setlocale" in
    '')
    $cat >&4 <<EOM
    
    Checking to see if you have setlocale() and its behavior
    EOM
    $cat >try.c <<EOCP
    #include <stdlib.h>
    #include <string.h>
    #$i_locale I_LOCALE
    #ifdef I_LOCALE
    #  include <locale.h>
    #endif
    #$i_wctype I_WCTYPE
    #ifdef I_WCTYPE
    #  include <wctype.h>
    #endif
    
    int main() {
        const char * invalid_name = "\a";   /* This is really invalid! */
        int accepts_any_locale_name = 0;
        int has_C_UTF8 = 0;
        unsigned char bad_setlocale = 255;
    
        /* If LC_CTYPE isn't defined the compilation will fail, and locales will be
         * disabled.  It's hard to imagine an instance where meaningful locale
         * handling could be done without LC_CTYPE */
        const char *  name = setlocale(LC_CTYPE, "C");
    
        if (name == NULL || strcmp(name, "C") != 0) {
            exit(bad_setlocale);
        }
    
        name = setlocale(LC_CTYPE, invalid_name);
        if (name != NULL) {
    
            /* Let it pass if it accepts the name but gives back one of the C
             * locales */
            if (strcmp(name, "C") != 0 && strcmp(name, "C.UTF-8") != 0) {
                accepts_any_locale_name = 1;
            }
        }
    
        name = setlocale(LC_CTYPE, "C.UTF-8");
        if (name != NULL) {
            unsigned char y_with_diaeresis = ('A' == 193) ? 0xDF : 0xFF;
    
    #$d_towupper HAS_TOWUPPER
    #ifdef HAS_TOWUPPER
    
            /* We assume that if the machine doesn't have the C99 towupper, it
             * doesn't have C.UTF-8, even if we successfully changed locales to
             * include it.  This seems safer even on platforms that didn't accept
             * the really invalid name */
    
            if (towupper(y_with_diaeresis) == 0x178) {
                has_C_UTF8 = 1;
            }
    
    #endif
    
        }
    
    #if 0
    
        /* Currently unused code to determine if LC_ALL with disparate values uses
         * category = value pairs or positional, and to determine the separator
         * between the categories.  We could add code so that if the separator were
         * > '9', we subtract 10; similarly for 'Z' and 'z', and then just about
         * every possible ASCII separator would fit in the 5 bits available in the
         * exit code.  This would not be true in EBCDIC.  And then if LC_ALL is
         * positional, we probably would want to know the order of the categories.
         * Using a file between the C program and the shell script would really be
         * require to do that */
    #ifdef LC_ALL
    
        unsigned char min_separator = ' ' - 1;
        unsigned char separator = min_separator;
        int uses_name_value_pair_names = 0;
    
        name = setlocale(LC_ALL, "C");
        if (name == NULL || strcmp(name, "C") != 0) {
            exit(bad_setlocale);
        }
    
        if (has_C_UTF8) {
            char * pos;
    
            name = setlocale(LC_CTYPE, "C.UTF-8");
            if (name == NULL) {
                exit(bad_setlocale);
            }
            name = setlocale(LC_ALL, NULL);
            if (name == NULL) {
                exit(bad_setlocale);
            }
    
            pos = strstr(name, "LC_CTYPE" "=C.UTF-8");
            if (pos != NULL) {
                uses_name_value_pair_names = 1;
                if (pos == name) {
                    separator = name[sizeof("LC_CTYPE=C.UTF-8") - 1];
                }
                else {
                    separator = *(pos - 1);
                }
            }
            else {
                pos = strstr(name, "C.UTF-8");
                if (pos == NULL) {
                    /* bad */
                }
                else if (pos == name) {
                    separator = name[sizeof("C.UTF-8") - 1];
                }
                else {
                    separator = *(pos - 1);
                }
            }
        }
    
    #endif
    #endif
    
        exit( 0 /* (separator - min_separator) << 3
            | uses_name_value_pair_names      << 2
              */
            | has_C_UTF8                      << 1
            | accepts_any_locale_name);
    
    }
    EOCP
    val=
    set d_setlocale
    eval $setvar
    case $d_setlocale in
        $undef) d_setlocale_accepts_any_locale_name="$undef"
                d_has_C_UTF8="false"
                ;;
        *) set try
           if eval $compile; then
               echo "Your system has setlocale()..." >&4
               $run ./try
               case $? in
                   0) echo "and it seems sane; you don't have a C.UTF-8 locale" >&4
                      d_setlocale="$define"
                      d_setlocale_accepts_any_locale_name="$undef"
                      d_has_C_UTF8="false"
                      ;;
                   1) echo "and it seems sane, but accepts any locale name as valid" >&4
                      d_setlocale="$define"
                      d_setlocale_accepts_any_locale_name="$define"
                      d_has_C_UTF8="false"
                      ;;
                   2) echo "and it seems sane; you have a C.UTF-8 locale" >&4
                      d_setlocale="$define"
                      d_setlocale_accepts_any_locale_name="$undef"
                      d_has_C_UTF8="true"
                      ;;
                   3) echo "and it seems sane, but accepts any locale name as valid" >&4
                      d_setlocale="$define"
                      d_setlocale_accepts_any_locale_name="$define"
                      d_has_C_UTF8="true"
                      ;;
                   *) echo "but it doesn't seem to work, so we won't use it." >&4
                      d_setlocale="$undef"
                      d_setlocale_accepts_any_locale_name="$undef"
                      d_has_C_UTF8="false"
                      ;;
               esac
           else
               echo "your system does not have setlocale()" >&4
               d_setlocale="$undef"
               d_setlocale_accepts_any_locale_name="$undef"
               d_has_C_UTF8="false"
           fi
    esac
    $rm_try
    ;;
    *) val="$d_setlocale"
        set d_setlocale
        eval $setvar
        case "$d_setlocale" in
            $undef) echo "There may be other ways to set the locale on your system, so we need to ask:" >&4
            ;;
        esac
        rp="Does your system have the C.UTF-8 locale?"
        dflt=n
        . ./myread
        case "$ans" in
            [Yy]*) d_has_C_UTF8="true"
                   c_utf8_locale=" or C.UTF-8"
                   ;;
            *)     d_has_C_UTF8="false"
                   c_utf8_locale=""
                   ;;
        esac
        case "$d_setlocale" in
            $define)
                rp="When you set your locale to something besides C$c_utf8_locale, does it do so, or just pretend to?" >&4
                dflt=n
                . ./myread
                case "$ans" in
                    true|[Yy]*)
    		   d_setlocale_accepts_any_locale_name="$undef"
    		   ;;
    		*) d_setlocale_accepts_any_locale_name="$define"
    		   ;;
                esac
                ;;
            *) d_setlocale_accepts_any_locale_name="$undef"
    	   ;;
        esac
    esac
    
    : see if setlocale_r exists
    set setlocale_r d_setlocale_r
    eval $inlibc
    case "$d_setlocale_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_locale locale.h"
    	case "$d_setlocale_r_proto:$usethreads" in
    	":define")	d_setlocale_r_proto=define
    		set d_setlocale_r_proto setlocale_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_setlocale_r_proto" in
    	define)
    	case "$setlocale_r_proto" in
    	''|0) try='int setlocale_r(int, const char*, char*, int);'
    	./protochk "$extern_C $try" $hdrs && setlocale_r_proto=I_ICBI ;;
    	esac
    	case "$setlocale_r_proto" in
    	''|0)	d_setlocale_r=undef
    		setlocale_r_proto=0
    		echo "Disabling setlocale_r, cannot determine prototype." >&4 ;;
    	* )	case "$setlocale_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) setlocale_r_proto="REENTRANT_PROTO_$setlocale_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "setlocale_r has no prototype, not using it." >&4 ;;
    		esac
    		d_setlocale_r=undef
    		setlocale_r_proto=0
    		;;
    	esac
    	;;
    *)	setlocale_r_proto=0
    	;;
    esac
    
    : see if setnetent exists
    set setnetent d_setnent
    eval $inlibc
    
    : see if setnetent_r exists
    set setnetent_r d_setnetent_r
    eval $inlibc
    case "$d_setnetent_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_netdb netdb.h"
    	case "$d_setnetent_r_proto:$usethreads" in
    	":define")	d_setnetent_r_proto=define
    		set d_setnetent_r_proto setnetent_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_setnetent_r_proto" in
    	define)
    	case "$setnetent_r_proto" in
    	''|0) try='int setnetent_r(int, struct netent_data*);'
    	./protochk "$extern_C $try" $hdrs && setnetent_r_proto=I_ID ;;
    	esac
    	case "$setnetent_r_proto" in
    	''|0) try='void setnetent_r(int, struct netent_data*);'
    	./protochk "$extern_C $try" $hdrs && setnetent_r_proto=V_ID ;;
    	esac
    	case "$setnetent_r_proto" in
    	''|0)	d_setnetent_r=undef
    		setnetent_r_proto=0
    		echo "Disabling setnetent_r, cannot determine prototype." >&4 ;;
    	* )	case "$setnetent_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) setnetent_r_proto="REENTRANT_PROTO_$setnetent_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "setnetent_r has no prototype, not using it." >&4 ;;
    		esac
    		d_setnetent_r=undef
    		setnetent_r_proto=0
    		;;
    	esac
    	;;
    *)	setnetent_r_proto=0
    	;;
    esac
    
    : see if setprotoent exists
    set setprotoent d_setpent
    eval $inlibc
    
    : see if setpgid exists
    set setpgid d_setpgid
    eval $inlibc
    
    : see if setpgrp2 exists
    set setpgrp2 d_setpgrp2
    eval $inlibc
    
    : see if setpriority exists
    set setpriority d_setprior
    eval $inlibc
    
    : see if setproctitle exists
    set setproctitle d_setproctitle
    eval $inlibc
    
    : see if setprotoent_r exists
    set setprotoent_r d_setprotoent_r
    eval $inlibc
    case "$d_setprotoent_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_netdb netdb.h"
    	case "$d_setprotoent_r_proto:$usethreads" in
    	":define")	d_setprotoent_r_proto=define
    		set d_setprotoent_r_proto setprotoent_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_setprotoent_r_proto" in
    	define)
    	case "$setprotoent_r_proto" in
    	''|0) try='int setprotoent_r(int, struct protoent_data*);'
    	./protochk "$extern_C $try" $hdrs && setprotoent_r_proto=I_ID ;;
    	esac
    	case "$setprotoent_r_proto" in
    	''|0) try='void setprotoent_r(int, struct protoent_data*);'
    	./protochk "$extern_C $try" $hdrs && setprotoent_r_proto=V_ID ;;
    	esac
    	case "$setprotoent_r_proto" in
    	''|0)	d_setprotoent_r=undef
    		setprotoent_r_proto=0
    		echo "Disabling setprotoent_r, cannot determine prototype." >&4 ;;
    	* )	case "$setprotoent_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) setprotoent_r_proto="REENTRANT_PROTO_$setprotoent_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "setprotoent_r has no prototype, not using it." >&4 ;;
    		esac
    		d_setprotoent_r=undef
    		setprotoent_r_proto=0
    		;;
    	esac
    	;;
    *)	setprotoent_r_proto=0
    	;;
    esac
    
    : see if setpwent exists
    set setpwent d_setpwent
    eval $inlibc
    
    : see if setpwent_r exists
    set setpwent_r d_setpwent_r
    eval $inlibc
    case "$d_setpwent_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_pwd pwd.h"
    	case "$d_setpwent_r_proto:$usethreads" in
    	":define")	d_setpwent_r_proto=define
    		set d_setpwent_r_proto setpwent_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_setpwent_r_proto" in
    	define)
    	case "$setpwent_r_proto" in
    	''|0) try='int setpwent_r(FILE**);'
    	./protochk "$extern_C $try" $hdrs && setpwent_r_proto=I_H ;;
    	esac
    	case "$setpwent_r_proto" in
    	''|0) try='void setpwent_r(FILE**);'
    	./protochk "$extern_C $try" $hdrs && setpwent_r_proto=V_H ;;
    	esac
    	case "$setpwent_r_proto" in
    	''|0)	d_setpwent_r=undef
    		setpwent_r_proto=0
    		echo "Disabling setpwent_r, cannot determine prototype." >&4 ;;
    	* )	case "$setpwent_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) setpwent_r_proto="REENTRANT_PROTO_$setpwent_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "setpwent_r has no prototype, not using it." >&4 ;;
    		esac
    		d_setpwent_r=undef
    		setpwent_r_proto=0
    		;;
    	esac
    	;;
    *)	setpwent_r_proto=0
    	;;
    esac
    
    : see if setregid exists
    set setregid d_setregid
    eval $inlibc
    set setresgid d_setresgid
    eval $inlibc
    
    : see if setreuid exists
    set setreuid d_setreuid
    eval $inlibc
    set setresuid d_setresuid
    eval $inlibc
    
    : see if setrgid exists
    set setrgid d_setrgid
    eval $inlibc
    
    : see if setruid exists
    set setruid d_setruid
    eval $inlibc
    
    : see if setservent exists
    set setservent d_setsent
    eval $inlibc
    
    : see if setservent_r exists
    set setservent_r d_setservent_r
    eval $inlibc
    case "$d_setservent_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_netdb netdb.h"
    	case "$d_setservent_r_proto:$usethreads" in
    	":define")	d_setservent_r_proto=define
    		set d_setservent_r_proto setservent_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_setservent_r_proto" in
    	define)
    	case "$setservent_r_proto" in
    	''|0) try='int setservent_r(int, struct servent_data*);'
    	./protochk "$extern_C $try" $hdrs && setservent_r_proto=I_ID ;;
    	esac
    	case "$setservent_r_proto" in
    	''|0) try='void setservent_r(int, struct servent_data*);'
    	./protochk "$extern_C $try" $hdrs && setservent_r_proto=V_ID ;;
    	esac
    	case "$setservent_r_proto" in
    	''|0)	d_setservent_r=undef
    		setservent_r_proto=0
    		echo "Disabling setservent_r, cannot determine prototype." >&4 ;;
    	* )	case "$setservent_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) setservent_r_proto="REENTRANT_PROTO_$setservent_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "setservent_r has no prototype, not using it." >&4 ;;
    		esac
    		d_setservent_r=undef
    		setservent_r_proto=0
    		;;
    	esac
    	;;
    *)	setservent_r_proto=0
    	;;
    esac
    
    : see if setsid exists
    set setsid d_setsid
    eval $inlibc
    
    : see if setvbuf exists
    set setvbuf d_setvbuf
    eval $inlibc
    
    : see if shmctl exists
    set shmctl d_shmctl
    eval $inlibc
    
    : see if shmget exists
    set shmget d_shmget
    eval $inlibc
    
    : see if shmat exists
    set shmat d_shmat
    eval $inlibc
    : see what shmat returns
    case "$d_shmat" in
    "$define")
    	$cat >shmat.c <<'END'
    #include <sys/shm.h>
    void *shmat();
    END
    	if $cc $ccflags -c shmat.c >/dev/null 2>&1; then
    		shmattype='void *'
    	else
    		shmattype='char *'
    	fi
    	echo "and it returns ($shmattype)." >&4
    	: see if a prototype for shmat is available
    	xxx=`./findhdr sys/shm.h`
    	$cppstdin $cppflags $cppminus < $xxx > shmat.c 2>/dev/null
    	if $contains 'shmat.*(' shmat.c >/dev/null 2>&1; then
    		val="$define"
    	else
    		val="$undef"
    	fi
    	$rm -f shmat.[co]
    	;;
    *)
    	val="$undef"
    	;;
    esac
    set d_shmatprototype
    eval $setvar
    
    : see if shmdt exists
    set shmdt d_shmdt
    eval $inlibc
    
    : see how much of the 'shm*(2)' library is present.
    h_shm=true
    echo " "
    case "$d_shmctl$d_shmget$d_shmat$d_shmdt" in
    *"$undef"*) h_shm=false;;
    esac
    case "$osname" in
    freebsd)
        case "`ipcs 2>&1`" in
        "SVID shared memory"*"not configured"*)
    	echo "Your $osname does not have the shm*(2) configured." >&4
            h_shm=false
    	val="$undef"
    	set shmctl d_shmctl
    	eval $setvar
    	set shmget d_shmget
    	eval $setvar
    	set shmat d_shmat
    	eval $setvar
    	set shmdt d_shmdt
    	eval $setvar
    	;;
        esac
        ;;
    esac
    : we could also check for sys/ipc.h ...
    if $h_shm && $test `./findhdr sys/shm.h`; then
    	echo "You have the full shm*(2) library." >&4
    	val="$define"
    else
    	echo "You don't have the full shm*(2) library." >&4
    	val="$undef"
    fi
    set d_shm
    eval $setvar
    
    : see if we have sigaction
    echo " "
    if set sigaction val -f d_sigaction; eval $csym; $val; then
    	echo 'sigaction() found.' >&4
    	$cat > try.c <<EOP
    #include <stdio.h>
    #include <sys/types.h>
    #include <signal.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    int main()
    {
        struct sigaction act, oact;
        act.sa_flags = 0;
        oact.sa_handler = 0;
        /* so that act and oact are used */
        exit(act.sa_flags == 0 &&  oact.sa_handler == 0);
    }
    EOP
    	set try
    	if eval $compile_ok; then
    		val="$define"
    	else
    		echo "But you don't seem to have a usable struct sigaction." >&4
    		val="$undef"
    	fi
    else
    	echo 'sigaction NOT found.' >&4
    	val="$undef"
    fi
    set d_sigaction; eval $setvar
    $rm_try
    
    : see what type pids are declared as in the kernel
    rp="What is the type of process ids on this system?"
    set pid_t pidtype int stdio.h sys/types.h
    eval $typedef_ask
    
    : see what type uids are declared as in the kernel
    echo " "
    echo "Looking for the type for user ids returned by getuid()."
    set uid_t uidtype xxx stdio.h sys/types.h
    eval $typedef
    case "$uidtype" in
    xxx)
    	xxx=`./findhdr sys/user.h`
    	set `grep '_ruid;' "$xxx" 2>/dev/null` unsigned short
    	case $1 in
    	unsigned) dflt="$1 $2" ;;
    	*) dflt="$1" ;;
    	esac
    	;;
    *) dflt="$uidtype";;
    esac
    case "$uidtype" in
    uid_t)	echo "uid_t found." ;;
    *)	rp="What is the type for user ids returned by getuid()?"
    	. ./myread
    	uidtype="$ans"
    	;;
    esac
    
    : Define hasfield_t macro for Configure internal use
    hasfield_t='varname=$1; struct=$2; type=$3; field=$4; shift; shift; shift; shift;
    while $test $# -ge 2; do
        case "$1" in
    	$define) echo "#include <$2>";;
        esac ;
        shift 2;
    done > try.c;
    echo "int main () { $struct foo; $type bar = foo.$field; }" >> try.c;
    set try;
    if eval $compile; then
    	val="$define";
    else
    	val="$undef";
    fi;
    set $varname;
    eval $setvar;
    $rm_try'
    
    : see what siginfo fields we have
    case "$d_sigaction" in
    "$define")
    	echo "Checking if your siginfo_t has si_errno field...">&4
    	set d_siginfo_si_errno siginfo_t int si_errno $d_sigaction signal.h
    	eval $hasfield_t;
    
    	echo "Checking if your siginfo_t has si_pid field...">&4
    	set d_siginfo_si_pid siginfo_t $pidtype si_pid $d_sigaction signal.h
    	eval $hasfield_t;
    
    	echo "Checking if your siginfo_t has si_uid field...">&4
    	set d_siginfo_si_uid siginfo_t $uidtype si_uid $d_sigaction signal.h
    	eval $hasfield_t;
    
    	echo "Checking if your siginfo_t has si_addr field...">&4
    	set d_siginfo_si_addr siginfo_t "void *" si_addr $d_sigaction signal.h
    	eval $hasfield_t;
    
    	echo "Checking if your siginfo_t has si_status field...">&4
    	set d_siginfo_si_status siginfo_t int si_status $d_sigaction signal.h
    	eval $hasfield_t;
    
    	echo "Checking if your siginfo_t has si_band field...">&4
    	set d_siginfo_si_band siginfo_t long si_band $d_sigaction signal.h
    	eval $hasfield_t;
    
    	echo "Checking if your siginfo_t has si_value field...">&4
    	set d_siginfo_si_value siginfo_t "union sigval" si_value $d_sigaction signal.h
    	eval $hasfield_t;
    
    	echo "Checking if your siginfo_t has si_fd field...">&4
    	set d_siginfo_si_fd siginfo_t int si_fd $d_sigaction signal.h
    	eval $hasfield_t;
    
    	;;
    *)
    	d_siginfo_si_errno="$undef"
    	d_siginfo_si_pid="$undef"
    	d_siginfo_si_uid="$undef"
    	d_siginfo_si_addr="$undef"
    	d_siginfo_si_status="$undef"
    	d_siginfo_si_band="$undef"
    	d_siginfo_si_value="$undef"
    	d_siginfo_si_fd="$undef"
    	;;
    esac
    
    : see if this is a sunmath.h system
    set sunmath.h i_sunmath
    eval $inhdr
    
    : see if signbit exists
    $echo $n "Checking to see if you have signbit() available to work on $nvtype... $c" >&4
    $cat >try.c <<EOCP
    #$i_sunmath I_SUNMATH
    #include <math.h>
    #ifdef I_SUNMATH  /* Solaris special math library */
    #  include <sunmath.h>
    #endif
    #define NV $nvtype
    int main(int argc, char **argv)
    {
        NV x = 0.0;
        NV y = -1.0;
        if ((signbit(x) == 0) && (signbit(y) != 0))
    	return 0;
        else
    	return 1;
    }
    EOCP
    val="$undef"
    set try
    if eval $compile; then
        if $run ./try; then
            $echo "Yes." >&4
    	val="$define"
        else
            $echo "Signbit seems to be available, but doesn't work as I expected."
            $echo "I won't use it." >&4
    	val="$undef"
        fi
    else
        $echo "Nope." >&4
        dflt="$undef"
    fi
    set d_signbit
    eval $setvar
    $rm_try
    
    : see if sigprocmask exists
    set sigprocmask d_sigprocmask
    eval $inlibc
    
    : see if sigsetjmp exists
    echo " "
    case "$d_sigsetjmp" in
    '')
    	$cat >try.c <<EOP
    #include <setjmp.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    sigjmp_buf env;
    int set = 1;
    int main()
    {
    	if (sigsetjmp(env,1))
    		exit(set);
    	set = 0;
    	siglongjmp(env, 1);
    	exit(1);
    }
    EOP
    	set try
    	if eval $compile; then
    		if $run ./try >/dev/null 2>&1; then
    			echo "POSIX sigsetjmp found." >&4
    			val="$define"
    		else
    			$cat >&4 <<EOM
    Uh-Oh! You have POSIX sigsetjmp and siglongjmp, but they do not work properly!!
    I'll ignore them.
    EOM
    			val="$undef"
    		fi
    	else
    		echo "sigsetjmp not found." >&4
    		val="$undef"
    	fi
    	;;
    *) val="$d_sigsetjmp"
    	case "$d_sigsetjmp" in
    	$define) echo "POSIX sigsetjmp found." >&4;;
    	$undef) echo "sigsetjmp not found." >&4;;
    	esac
    	;;
    esac
    set d_sigsetjmp
    eval $setvar
    $rm_try
    
    : see if snprintf exists
    set snprintf d_snprintf
    eval $inlibc
    
    : see if vsnprintf exists
    set vsnprintf d_vsnprintf
    eval $inlibc
    
    case "$d_snprintf-$d_vsnprintf" in
    "$define-$define")
        $cat <<EOM
    Checking whether your snprintf() and vsnprintf() work okay...
    EOM
        $cat >try.c <<'EOCP'
    /* v?snprintf testing logic courtesy of Russ Allbery.
     * According to C99:
     * - if the buffer is too short it still must be \0-terminated
     * - if the buffer is too short the potentially required length
     *   must be returned and not -1
     * - if the buffer is NULL the potentially required length
     *   must be returned and not -1 or core dump
     */
    #include <stdio.h>
    #include <stdarg.h>
    
    char buf[2];
    
    int test (char *format, ...)
    {
        va_list args;
        int count;
    
        va_start (args, format);
        count = vsnprintf (buf, sizeof buf, format, args);
        va_end (args);
        return count;
    }
    
    int main ()
    {
        return ((test ("%s", "abcd") == 4 && buf[0] == 'a' && buf[1] == '\0'
                 && snprintf (NULL, 0, "%s", "abcd") == 4) ? 0 : 1);
    }
    EOCP
        set try
        if eval $compile; then
    	`$run ./try`
    	case "$?" in
    	0) echo "Your snprintf() and vsnprintf() seem to be working okay." ;;
    	*) cat <<EOM >&4
    Your snprintf() and snprintf() don't seem to be working okay.
    EOM
    	   d_snprintf="$undef"
    	   d_vsnprintf="$undef"
    	   ;;
    	esac
        else
    	echo "(I can't seem to compile the test program--assuming they don't)"
    	d_snprintf="$undef"
    	d_vsnprintf="$undef"
        fi
        $rm_try
        ;;
    esac
    
    : see if sockatmark exists
    set sockatmark d_sockatmark
    eval $inlibc
    
    : see if prototype for sockatmark is available
    echo " "
    set d_sockatmarkproto sockatmark $d_socket sys/socket.h
    eval $hasproto
    
    : see if socks5_init exists
    set socks5_init d_socks5_init
    eval $inlibc
    
    : see if srand48_r exists
    set srand48_r d_srand48_r
    eval $inlibc
    case "$d_srand48_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_stdlib stdlib.h"
    	case "$d_srand48_r_proto:$usethreads" in
    	":define")	d_srand48_r_proto=define
    		set d_srand48_r_proto srand48_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_srand48_r_proto" in
    	define)
    	case "$srand48_r_proto" in
    	''|0) try='int srand48_r(long, struct drand48_data*);'
    	./protochk "$extern_C $try" $hdrs && srand48_r_proto=I_LS ;;
    	esac
    	case "$srand48_r_proto" in
    	''|0)	d_srand48_r=undef
    		srand48_r_proto=0
    		echo "Disabling srand48_r, cannot determine prototype." >&4 ;;
    	* )	case "$srand48_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) srand48_r_proto="REENTRANT_PROTO_$srand48_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "srand48_r has no prototype, not using it." >&4 ;;
    		esac
    		d_srand48_r=undef
    		srand48_r_proto=0
    		;;
    	esac
    	;;
    *)	srand48_r_proto=0
    	;;
    esac
    
    : see if srandom_r exists
    set srandom_r d_srandom_r
    eval $inlibc
    case "$d_srandom_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_stdlib stdlib.h"
    	case "$d_srandom_r_proto:$usethreads" in
    	":define")	d_srandom_r_proto=define
    		set d_srandom_r_proto srandom_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_srandom_r_proto" in
    	define)
    	case "$srandom_r_proto" in
    	''|0) try='int srandom_r(unsigned int, struct random_data*);'
    	./protochk "$extern_C $try" $hdrs && srandom_r_proto=I_TS ;;
    	esac
    	case "$srandom_r_proto" in
    	''|0)	d_srandom_r=undef
    		srandom_r_proto=0
    		echo "Disabling srandom_r, cannot determine prototype." >&4 ;;
    	* )	case "$srandom_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) srandom_r_proto="REENTRANT_PROTO_$srandom_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "srandom_r has no prototype, not using it." >&4 ;;
    		esac
    		d_srandom_r=undef
    		srandom_r_proto=0
    		;;
    	esac
    	;;
    *)	srandom_r_proto=0
    	;;
    esac
    
    : see if prototype for setresgid is available
    echo " "
    set d_sresgproto setresgid $i_unistd unistd.h
    eval $hasproto
    
    : see if prototype for setresuid is available
    echo " "
    set d_sresuproto setresuid $i_unistd unistd.h
    eval $hasproto
    
    : see if stat exists
    set stat d_stat
    eval $inlibc
    
    : see if sys/stat.h is available
    set sys/stat.h i_sysstat
    eval $inhdr
    
    : see if stat knows about block sizes
    echo " "
    echo "Checking to see if your struct stat has st_blocks field..." >&4
    set d_statblks stat st_blocks $i_sysstat sys/stat.h
    eval $hasfield
    
    : see if this is a sys/vfs.h system
    set sys/vfs.h i_sysvfs
    eval $inhdr
    
    : see if this is a sys/statfs.h system
    set sys/statfs.h i_sysstatfs
    eval $inhdr
    
    : Check for statfs_s
    echo " "
    echo "Checking to see if your system supports struct statfs..." >&4
    set d_statfs_s statfs $i_systypes sys/types.h $i_sysparam sys/param.h $i_sysmount sys/mount.h $i_sysvfs sys/vfs.h $i_sysstatfs sys/statfs.h
    eval $hasstruct
    case "$d_statfs_s" in
    "$define")      echo "Yes, it does."   ;;
    *)              echo "No, it doesn't." ;;
    esac
    
    : see if struct statfs knows about f_flags
    case "$d_statfs_s" in
    define)
    	echo " "
    	echo "Checking to see if your struct statfs has f_flags field..." >&4
    	set d_statfs_f_flags statfs f_flags $i_systypes sys/types.h $i_sysparam sys/param.h $i_sysmount sys/mount.h $i_sysvfs sys/vfs.h $i_sysstatfs sys/statfs.h
    	eval $hasfield
    	;;
    *)	val="$undef"
    	set d_statfs_f_flags
    	eval $setvar
    	;;
    esac
    case "$d_statfs_f_flags" in
    "$define")      echo "Yes, it does."   ;;
    *)              echo "No, it doesn't." ;;
    esac
    
    : see what flavor, if any, of static inline is supported
    echo " "
    echo "Checking to see if your system supports static inline..."
    $cat > try.c <<'EOCP'
    #include <stdlib.h>
    extern int f_via_a(int x);
    extern int f_via_b(int x);
    int main(int argc, char **argv)
    {
        int y;
    
        y = f_via_a(0);
    #ifdef USE_B
        y = f_via_b(0);
    #endif
        if (y == 42) {
            return EXIT_SUCCESS;
        }
        else {
            return EXIT_FAILURE;
        }
    }
    EOCP
    $cat > a.c <<'EOCP'
    static INLINE int f(int x) {
        int y;
        y = x + 42;
        return y;
    }
    
    int f_via_a(int x)
    {
        return f(x);
    }
    EOCP
    $cat > b.c <<'EOCP'
    extern int f(int x);
    
    int f_via_b(int x)
    {
        return f(x);
    }
    EOCP
    
    # Respect a hint (or previous) value for perl_static_inline, if there is one.
    case "$perl_static_inline" in
    '')	# Check the various possibilities, and break out on success.
    	# For gcc, prefer __inline__, which will still permit
    	# cflags.SH to add in -ansi.
    	case "$gccversion" in
    		'') xxx="inline __inline__ __inline _inline";;
    		*)  xxx="__inline__ inline __inline _inline";;
    	esac
    	for inline in $xxx; do
    		set try -DINLINE=$inline a.c
    		if eval $compile && $run ./try; then
    			# Now make sure there is no external linkage of static
    			# functions
    			set try -DINLINE=$inline -DUSE_B a.c b.c
    			if eval $compile && $run ./try; then
    				$echo "Your compiler supports static $inline, " >&4
    				$echo "but it also creates an external definition," >&4
    				$echo "so I won't use it." >&4
    				val=$undef
    			else
    				$echo "Your compiler supports static $inline." >&4
    				val=$define
    				perl_static_inline="static $inline";
    				break;
    			fi
    		else
    			$echo "Your compiler does NOT support static $inline." >&4
    			val="$undef"
    		fi
    	done
    	;;
    *inline*) # Some variant of inline exists.
    	echo "Keeping your $hint value of $perl_static_inline."
    	val=$define
    	;;
    static)  # No inline capabilities
    	echo "Keeping your $hint value of $perl_static_inline."
    	val=$undef
    	;;
    *)  # Unrecognized previous value -- blindly trust the supplied
    	# value and hope it makes sense.  Use old value for
    	# d_static_inline, if there is one.
    	echo "Keeping your $hint value of $perl_static_inline."
    	case "$d_static_inline" in
    		'') val=$define ;;
    		*)  val=$d_static_inline ;;
    	esac
    	;;
    esac
    # Fallback to plain 'static' if nothing worked.
    case "$perl_static_inline" in
    '')
    	perl_static_inline="static"
    	val=$undef
    	;;
    esac
    set d_static_inline
    eval $setvar
    $rm -f a.[co] b.[co]
    $rm_try
    
    : Check stream access
    $cat >&4 <<EOM
    Checking how to access stdio streams by file descriptor number...
    EOM
    case "$stdio_stream_array" in
    '')	$cat >try.c <<EOCP
    #include <stdio.h>
    int main() {
      if (&STDIO_STREAM_ARRAY[fileno(stdin)] == stdin)
        printf("yes\n");
    }
    EOCP
    	for s in _iob __iob __sF
    	do
    	        set try -DSTDIO_STREAM_ARRAY=$s
    		if eval $compile; then
    			case "`$run ./try`" in
    			yes)	stdio_stream_array=$s; break ;;
    			esac
    		fi
    	done
    	$rm_try
    esac
    case "$stdio_stream_array" in
    '')	$cat >&4 <<EOM
    I can't figure out how to access stdio streams by file descriptor number.
    EOM
    	d_stdio_stream_array="$undef"
    	;;
    *)	$cat >&4 <<EOM
    You can access stdio streams by file descriptor number by the $stdio_stream_array array.
    EOM
    	d_stdio_stream_array="$define"
    	;;
    esac
    
    : see if strcoll exists
    set strcoll d_strcoll
    eval $inlibc
    
    : see if strerror_l exists
    set strerror_l d_strerror_l
    eval $inlibc
    
    : see if strerror_r exists
    set strerror_r d_strerror_r
    eval $inlibc
    case "$d_strerror_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h define string.h"
    	case "$d_strerror_r_proto:$usethreads" in
    	":define")	d_strerror_r_proto=define
    		set d_strerror_r_proto strerror_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_strerror_r_proto" in
    	define)
    	case "$strerror_r_proto" in
    	''|0) try='int strerror_r(int, char*, size_t);'
    	./protochk "$extern_C $try" $hdrs && strerror_r_proto=I_IBW ;;
    	esac
    	case "$strerror_r_proto" in
    	''|0) try='int strerror_r(int, char*, int);'
    	./protochk "$extern_C $try" $hdrs && strerror_r_proto=I_IBI ;;
    	esac
    	case "$strerror_r_proto" in
    	''|0) try='char* strerror_r(int, char*, size_t);'
    	./protochk "$extern_C $try" $hdrs && strerror_r_proto=B_IBW ;;
    	esac
    	case "$strerror_r_proto" in
    	''|0)	d_strerror_r=undef
    		strerror_r_proto=0
    		echo "Disabling strerror_r, cannot determine prototype." >&4 ;;
    	* )	case "$strerror_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) strerror_r_proto="REENTRANT_PROTO_$strerror_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "strerror_r has no prototype, not using it." >&4 ;;
    		esac
    		d_strerror_r=undef
    		strerror_r_proto=0
    		;;
    	esac
    	;;
    *)	strerror_r_proto=0
    	;;
    esac
    
    : see if strftime exists
    set strftime d_strftime
    eval $inlibc
    
    : see if strlcat exists
    : We need both a prototype in string.h and the symbol in libc.
    echo " "
    d_strlcat_proto=''
    xx1="#$d_gnulibc HAS_GNULIBC"
    xx2='#if defined(HAS_GNULIBC) && !defined(_GNU_SOURCE)'
    xx3='#   define _GNU_SOURCE'
    xx4='#endif'
    set d_strlcat_proto strlcat literal "$xx1" literal "$xx2" literal "$xx3" literal "$xx4" define string.h
    eval $hasproto
    case "$d_strlcat_proto" in
        define) # see if strlcat exists
    	set strlcat d_strlcat
    	eval $inlibc
    	;;
        *)  val=$undef
    	set d_strlcat
    	eval $setvar
    	;;
    esac
    
    : see if strlcpy exists
    : We need both a prototype in string.h and the symbol in libc.
    echo " "
    d_strlcpy_proto=''
    xx1="#$d_gnulibc HAS_GNULIBC"
    xx2='#if defined(HAS_GNULIBC) && !defined(_GNU_SOURCE)'
    xx3='#   define _GNU_SOURCE'
    xx4='#endif'
    set d_strlcpy_proto strlcpy literal "$xx1" literal "$xx2" literal "$xx3" literal "$xx4" define string.h
    eval $hasproto
    case "$d_strlcpy_proto" in
        define) # see if strlcpy exists
    	set strlcpy d_strlcpy
    	eval $inlibc
    	;;
        *)  val=$undef
    	set d_strlcpy
    	eval $setvar
    	;;
    esac
    
    : see if strnlen exists
    set strnlen d_strnlen
    eval $inlibc
    
    : see if strtod exists
    set strtod d_strtod
    eval $inlibc
    
    : see if strtod_l exists
    set strtod_l d_strtod_l
    eval $inlibc
    
    : see if strtol exists
    set strtol d_strtol
    eval $inlibc
    
    : see if strtold exists
    set strtold d_strtold
    eval $inlibc
    
    : see if strtold_l exists
    set strtold_l d_strtold_l
    eval $inlibc
    
    : see if strtoll exists
    set strtoll d_strtoll
    eval $inlibc
    
    case "$d_longlong-$d_strtoll" in
    "$define-$define")
    	$cat <<EOM
    Checking whether your strtoll() works okay...
    EOM
    	$cat >try.c <<'EOCP'
    #include <errno.h>
    #ifdef __hpux
    #define strtoll __strtoll
    #endif
    #ifdef __EMX__
    #define strtoll _strtoll
    #endif
    #include <stdio.h>
    #include <stdlib.h>
    static int bad = 0;
    void check(const char *s, long long ell, int een) {
    	long long gll;
    	errno = 0;
    	gll = strtoll(s, 0, 10);
    	if (!((gll == ell) && (errno == een)))
    		bad++;
    }
    int main() {
    	check(" 1",                                      1LL, 0);
    	check(" 0",                                      0LL, 0);
    	check("-1",                                     -1LL, 0);
    	check("-9223372036854775808", -9223372036854775808LL, 0);
    	check("-9223372036854775808", -9223372036854775808LL, 0);
    	check(" 9223372036854775807",  9223372036854775807LL, 0);
    	check("-9223372036854775808", -9223372036854775808LL, 0);
    	check(" 9223372036854775808",  9223372036854775807LL, ERANGE);
    	check("-9223372036854775809", -9223372036854775808LL, ERANGE);
    	if (!bad)
    		printf("ok\n");
    }
    EOCP
    	set try
    	if eval $compile; then
    		yyy=`$run ./try`
    		case "$yyy" in
    		ok) echo "Your strtoll() seems to be working okay." ;;
    		*) cat <<EOM >&4
    Your strtoll() doesn't seem to be working okay.
    EOM
    		   d_strtoll="$undef"
    		   ;;
    		esac
    	else
    		echo "(I can't seem to compile the test program--assuming it doesn't)"
    		d_strtoll="$undef"
    	fi
    	;;
    esac
    
    : see if strtoq exists
    set strtoq d_strtoq
    eval $inlibc
    
    : see if strtoul exists
    set strtoul d_strtoul
    eval $inlibc
    
    case "$d_strtoul" in
    "$define")
    	$cat <<EOM
    Checking whether your strtoul() works okay...
    EOM
    	$cat >try.c <<'EOCP'
    #include <stdlib.h>
    #include <errno.h>
    #include <stdio.h>
    static int bad = 0;
    void check(const char *s, unsigned long eul, int een) {
    	unsigned long gul;
    	errno = 0;
    	gul = strtoul(s, 0, 10);
    	if (!((gul == eul) && (errno == een)))
    		bad++;
    }
    int main() {
    	check(" 1", 1L, 0);
    	check(" 0", 0L, 0);
    EOCP
    	case "$longsize" in
    	8)
    	    $cat >>try.c <<'EOCP'
    	check("18446744073709551615", 18446744073709551615UL, 0);
    	check("18446744073709551616", 18446744073709551615UL, ERANGE);
    #if 0 /* strtoul() for /^-/ strings is undefined. */
    	check("-1", 18446744073709551615UL, 0);
    	check("-18446744073709551614", 2, 0);
    	check("-18446744073709551615", 1, 0);
    	check("-18446744073709551616", 18446744073709551615UL, ERANGE);
    	check("-18446744073709551617", 18446744073709551615UL, ERANGE);
    #endif
    EOCP
    		;;
    	4)
    		    $cat >>try.c <<'EOCP'
    	check("4294967295", 4294967295UL, 0);
    	check("4294967296", 4294967295UL, ERANGE);
    #if 0 /* strtoul() for /^-/ strings is undefined. */
    	check("-1", 4294967295UL, 0);
    	check("-4294967294", 2, 0);
    	check("-4294967295", 1, 0);
    	check("-4294967296", 4294967295UL, ERANGE);
    	check("-4294967297", 4294967295UL, ERANGE);
    #endif
    EOCP
    		;;
    	*)
    : Should we write these tests to be more portable by sprintf-ing
    : ~0 and then manipulating that char string as input for strtol?
    		;;
    	esac
    	$cat >>try.c <<'EOCP'
    	if (!bad)
    		printf("ok\n");
    	return 0;
    }
    EOCP
    	set try
    	if eval $compile; then
    		case "`$run ./try`" in
    		ok) echo "Your strtoul() seems to be working okay." ;;
    		*) cat <<EOM >&4
    Your strtoul() doesn't seem to be working okay.
    EOM
    		   d_strtoul="$undef"
    		   ;;
    		esac
    	else
    		echo "(I can't seem to compile the test program--assuming it doesn't)"
    		d_strtoul="$undef"
    	fi
    	;;
    esac
    
    : see if strtoull exists
    set strtoull d_strtoull
    eval $inlibc
    
    case "$d_longlong-$d_strtoull" in
    "$define-$define")
    	$cat <<EOM
    Checking whether your strtoull() works okay...
    EOM
    	$cat >try.c <<'EOCP'
    #include <stdlib.h>
    #include <errno.h>
    #ifdef __hpux
    #define strtoull __strtoull
    #endif
    #include <stdio.h>
    static int bad = 0;
    void check(const char *s, long long eull, int een) {
    	long long gull;
    	errno = 0;
    	gull = strtoull(s, 0, 10);
    	if (!((gull == eull) && (errno == een)))
    		bad++;
    }
    int main() {
    	check(" 1",                                        1LL, 0);
    	check(" 0",                                        0LL, 0);
    	check("18446744073709551615",  18446744073709551615ULL, 0);
    	check("18446744073709551616",  18446744073709551615ULL, ERANGE);
    #if 0 /* strtoull() for /^-/ strings is undefined. */
    	check("-1",                    18446744073709551615ULL, 0);
    	check("-18446744073709551614",                     2LL, 0);
    	check("-18446744073709551615",                     1LL, 0);
    	check("-18446744073709551616", 18446744073709551615ULL, ERANGE);
    	check("-18446744073709551617", 18446744073709551615ULL, ERANGE);
    #endif
    	if (!bad)
    		printf("ok\n");
    }
    EOCP
    	set try
    	if eval $compile; then
    		case "`$run ./try`" in
    		ok) echo "Your strtoull() seems to be working okay." ;;
    		*) cat <<EOM >&4
    Your strtoull() doesn't seem to be working okay.
    EOM
    		   d_strtoull="$undef"
    		   ;;
    		esac
    	else
    		echo "(I can't seem to compile the test program--assuming it doesn't)"
    		d_strtoull="$undef"
    	fi
    	;;
    esac
    
    : see if strtouq exists
    set strtouq d_strtouq
    eval $inlibc
    
    case "$d_strtouq" in
    "$define")
    	$cat <<EOM
    Checking whether your strtouq() works okay...
    EOM
    	$cat >try.c <<'EOCP'
    #include <stdlib.h>
    #include <errno.h>
    #include <stdio.h>
    static int bad = 0;
    void check(const char *s, unsigned long long eull, int een) {
    	unsigned long long gull;
    	errno = 0;
    	gull = strtouq(s, 0, 10);
    	if (!((gull == eull) && (errno == een)))
    		bad++;
    }
    int main() {
    	check(" 1",                                        1LL, 0);
    	check(" 0",                                        0LL, 0);
    	check("18446744073709551615",  18446744073709551615ULL, 0);
    	check("18446744073709551616",  18446744073709551615ULL, ERANGE);
    #if 0 /* strtouq() for /^-/ strings is undefined. */
    	check("-1",                    18446744073709551615ULL, 0);
    	check("-18446744073709551614",                     2LL, 0);
    	check("-18446744073709551615",                     1LL, 0);
    	check("-18446744073709551616", 18446744073709551615ULL, ERANGE);
    	check("-18446744073709551617", 18446744073709551615ULL, ERANGE);
    #endif
    	if (!bad)
    		printf("ok\n");
    	return 0;
    }
    EOCP
    	set try
    	if eval $compile; then
    		case "`$run ./try`" in
    		ok) echo "Your strtouq() seems to be working okay." ;;
    		*) cat <<EOM >&4
    Your strtouq() doesn't seem to be working okay.
    EOM
    		   d_strtouq="$undef"
    		   ;;
    		esac
    	else
    		echo "(I can't seem to compile the test program--assuming it doesn't)"
    		d_strtouq="$undef"
    	fi
    	;;
    esac
    
    : see if strxfrm exists
    set strxfrm d_strxfrm
    eval $inlibc
    
    : see if strxfrm_l exists
    set strxfrm_l d_strxfrm_l
    eval $inlibc
    
    : see if symlink exists
    set symlink d_symlink
    eval $inlibc
    
    : see if syscall exists
    set syscall d_syscall
    eval $inlibc
    
    : see if prototype for syscall is available
    echo " "
    set d_syscallproto syscall $i_unistd unistd.h
    eval $hasproto
    
    : see if sysconf exists
    set sysconf d_sysconf
    eval $inlibc
    
    : see if sys_errlist[] exists
    echo " "
    if test "X$d_syserrlst" = X; then
    	if set sys_errlist val -a d_syserrlst; eval $csym; $val; then
    		echo "You have sys_errlist[], so we could roll our own strerror."
    		d_syserrlst="$define"
    	else
    		echo "You don't have sys_errlist[], so strerror() is welcome."
    		d_syserrlst="$undef"
    	fi
    fi
    
    : see if system exists
    set system d_system
    eval $inlibc
    
    : see if tcgetpgrp exists
    set tcgetpgrp d_tcgetpgrp
    eval $inlibc
    
    : see if tcsetpgrp exists
    set tcsetpgrp d_tcsetpgrp
    eval $inlibc
    
    : see if prototype for telldir is available
    echo " "
    set d_telldirproto telldir $i_systypes sys/types.h $i_dirent dirent.h
    eval $hasproto
    
    : see if tgamma exists
    set tgamma d_tgamma
    eval $inlibc
    
    : see what flavor, if any, of thread local storage is supported
    echo " "
    echo "Checking to see if your system supports C11 thread local storage..."
    $cat > try.c <<'EOCP'
    #include <stdio.h>
    #include <stdlib.h>
    #include <pthread.h>
    
    static int plus_one = 1;
    static int minus_one = -1;
    
    PROBE_MACRO int *minion;
    
    int callback (const void *a, const void *b) {
        int val_a = *minion * *(const int *)a;
        int val_b = *minion * *(const int *)b;
        return val_a < val_b ? -1 : val_a > val_b;
    }
    
    #define SIZE 8
    
    void *thread_function(void *arg) {
        /* thread local variables should start zeroed in each thread. */
        if (minion != NULL) {
            fprintf(stderr, "__thread variable started with %p, should be NULL\n",
                    minion);
            exit(2);
        }
        minion = &minus_one;
    
        int array[SIZE];
        unsigned int i;
        for (i = 0; i < SIZE; ++i) {
            /* "Hash randomisation" - this array isn't in sorted order: */
            array[i ^ 5] = i * i;
        }
    
        qsort(array, SIZE, sizeof(int), callback);
    
        int bad = 0;
        for (i = 0; i < SIZE; ++i) {
            int want = (SIZE - 1 - i) * (SIZE - 1 - i);
            int have = array[i];
            if (want != have) {
                ++bad;
                fprintf(stderr, "array[%u] - want %i, have %i\n", i, want, have);
            }
        }
        if (bad)
            exit(3);
    
        return NULL;
    }
    
    int main(int argc, char **argv) {
        if (minion != NULL) {
            fprintf(stderr, "__thread variable started with %p, should be NULL\n",
                    minion);
            exit(4);
        }
    
        minion = &plus_one;
    
        pthread_t tid;
        int result = pthread_create(&tid, NULL, thread_function, NULL);
        if (result) {
            fprintf(stderr, "pthread_create failed (%d)\n", result);
            exit(5);
        }
    
        result = pthread_join(tid, NULL);
        if (result) {
            fprintf(stderr, "pthread_join failed (%d)\n", result);
            exit(6);
        }
    
        if (minion == NULL) {
            fprintf(stderr, "__thread variable should not be NULL\n");
            exit(7);
        }
        if (!(minion == &plus_one && *minion == 1)) {
            fprintf(stderr, "__thread variable should be %d @ %p, not %d @ %p\n",
                    1, &plus_one, *minion, minion);
            exit(8);
        }
    
        return 0;
    }
    EOCP
    
    # Respect a hint (or previous) value for perl_thread_local, if there is one.
    case "$perl_thread_local" in
    '')	# Check the various possibilities, and break out on success.
    	for thread_local in _Thread_local __thread; do
    		set try -DPROBE_MACRO=$thread_local
    		if eval $compile && $run ./try; then
    			$echo "Your compiler supports $thread_local." >&4
    			val=$define
    			perl_thread_local="$thread_local";
    			break;
    		fi
    		$echo "Your compiler does NOT support $thread_local." >&4
    		val="$undef"
    	done
    	;;
    *thread*|*Thread*) # Some variant of thread local exists.
    	echo "Keeping your $hint value of $perl_thread_local."
    	val=$define
    	;;
    *)  # Unrecognized previous value -- blindly trust the supplied
    	# value and hope it makes sense.  Use old value for
    	# d_thread_local, if there is one.
    	echo "Keeping your $hint value of $perl_thread_local."
    	case "$d_thread_local" in
    		'') val=$define ;;
    		*)  val=$d_thread_local ;;
    	esac
    	;;
    esac
    set d_thread_local
    eval $setvar
    $rm_try
    
    : see if time exists
    echo " "
    if test "X$d_time" = X -o X"$timetype" = X; then
        if set time val -f d_time; eval $csym; $val; then
    		echo 'time() found.' >&4
    		val="$define"
    		rp="What is the type returned by time() on this system?"
    		set time_t timetype long stdio.h sys/types.h
    		eval $typedef_ask
        else
    		echo 'time() not found, hope that will do.' >&4
    		val="$undef"
    		timetype='int';
        fi
        set d_time
        eval $setvar
    fi
    
    : see if timegm exists
    set timegm d_timegm
    eval $inlibc
    
    : see if this is a sys/times.h system
    set sys/times.h i_systimes
    eval $inhdr
    
    : see if times exists
    echo " "
    if set times val -f d_times; eval $csym; $val; then
    	echo 'times() found.' >&4
    	d_times="$define"
    	inc=''
    	case "$i_systimes" in
    	"$define") inc='sys/times.h';;
    	esac
    	rp="What is the type returned by times() on this system?"
    	set clock_t clocktype long stdio.h sys/types.h $inc
    	eval $typedef_ask
    else
    	echo 'times() NOT found, hope that will do.' >&4
    	d_times="$undef"
    	clocktype='int'
    fi
    
    : see if tmpnam_r exists
    set tmpnam_r d_tmpnam_r
    eval $inlibc
    case "$d_tmpnam_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h "
    	case "$d_tmpnam_r_proto:$usethreads" in
    	":define")	d_tmpnam_r_proto=define
    		set d_tmpnam_r_proto tmpnam_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_tmpnam_r_proto" in
    	define)
    	case "$tmpnam_r_proto" in
    	''|0) try='char* tmpnam_r(char*);'
    	./protochk "$extern_C $try" $hdrs && tmpnam_r_proto=B_B ;;
    	esac
    	case "$tmpnam_r_proto" in
    	''|0)	d_tmpnam_r=undef
    		tmpnam_r_proto=0
    		echo "Disabling tmpnam_r, cannot determine prototype." >&4 ;;
    	* )	case "$tmpnam_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) tmpnam_r_proto="REENTRANT_PROTO_$tmpnam_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "tmpnam_r has no prototype, not using it." >&4 ;;
    		esac
    		d_tmpnam_r=undef
    		tmpnam_r_proto=0
    		;;
    	esac
    	;;
    *)	tmpnam_r_proto=0
    	;;
    esac
    
    : see if towlower exists
    set towlower d_towlower
    eval $inlibc
    
    : see if trunc exists
    set trunc d_trunc
    eval $inlibc
    
    : see if truncate exists
    set truncate d_truncate
    eval $inlibc
    
    : see if ttyname_r exists
    set ttyname_r d_ttyname_r
    eval $inlibc
    case "$d_ttyname_r" in
    "$define")
    	hdrs="$i_systypes sys/types.h define stdio.h $i_unistd unistd.h"
    	case "$d_ttyname_r_proto:$usethreads" in
    	":define")	d_ttyname_r_proto=define
    		set d_ttyname_r_proto ttyname_r $hdrs
    		eval $hasproto ;;
    	*)	;;
    	esac
    	case "$d_ttyname_r_proto" in
    	define)
    	case "$ttyname_r_proto" in
    	''|0) try='int ttyname_r(int, char*, size_t);'
    	./protochk "$extern_C $try" $hdrs && ttyname_r_proto=I_IBW ;;
    	esac
    	case "$ttyname_r_proto" in
    	''|0) try='int ttyname_r(int, char*, int);'
    	./protochk "$extern_C $try" $hdrs && ttyname_r_proto=I_IBI ;;
    	esac
    	case "$ttyname_r_proto" in
    	''|0) try='char* ttyname_r(int, char*, int);'
    	./protochk "$extern_C $try" $hdrs && ttyname_r_proto=B_IBI ;;
    	esac
    	case "$ttyname_r_proto" in
    	''|0)	d_ttyname_r=undef
    		ttyname_r_proto=0
    		echo "Disabling ttyname_r, cannot determine prototype." >&4 ;;
    	* )	case "$ttyname_r_proto" in
    		REENTRANT_PROTO*) ;;
    		*) ttyname_r_proto="REENTRANT_PROTO_$ttyname_r_proto" ;;
    		esac
    		echo "Prototype: $try" ;;
    	esac
    	;;
    	*)	case "$usethreads" in
    		define) echo "ttyname_r has no prototype, not using it." >&4 ;;
    		esac
    		d_ttyname_r=undef
    		ttyname_r_proto=0
    		;;
    	esac
    	;;
    *)	ttyname_r_proto=0
    	;;
    esac
    
    : see if tzname[] exists
    echo " "
    if set tzname val -a d_tzname; eval $csym; $val; then
    	val="$define"
    	echo 'tzname[] found.' >&4
    else
    	val="$undef"
    	echo 'tzname[] NOT found.' >&4
    fi
    set d_tzname
    eval $setvar
    
    : Check if is a multiplatform env
    case "$osname" in
    darwin) multiarch="$define" ;;
    esac
    case "$multiarch" in
    ''|[nN]*) multiarch="$undef" ;;
    esac
    
    : check for ordering of bytes in a UV
    echo " "
    case "$multiarch" in
    *$define*)
    	$cat <<EOM
    You seem to be doing a multiarchitecture build,
    skipping the byteorder check.
    
    EOM
    	byteorder='ffff'
    	;;
    *)
    	case "$byteorder" in
    	'')
    		$cat <<'EOM'
    In the following, larger digits indicate more significance.  A big-endian
    machine like a Pyramid or a Motorola 680?0 chip will come out to 4321. A
    little-endian machine like a Vax or an Intel 80?86 chip would be 1234. Other
    machines may have weird orders like 3412.  A Cray will report 87654321,
    an Alpha will report 12345678. If the test program works the default is
    probably right.
    I'm now running the test program...
    EOM
    		$cat >try.c <<EOCP
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #include <sys/types.h>
    typedef $uvtype UV;
    int main()
    {
    	int i;
    	union {
    		UV l;
    		char c[$uvsize];
    	} u;
    
    	if ($uvsize > 4)
    		u.l = (((UV)0x08070605) << 32) | (UV)0x04030201;
    	else
    		u.l = (UV)0x04030201;
    	for (i = 0; i < $uvsize; i++)
    		printf("%c", u.c[i]+'0');
    	printf("\n");
    	exit(0);
    }
    EOCP
    		xxx_prompt=y
    		set try
    		if eval $compile && $run ./try > /dev/null; then
    			dflt=`$run ./try`
    			case "$dflt" in
    			[1-4][1-4][1-4][1-4]|12345678|87654321)
    				echo "(The test program ran ok.)"
    				echo "byteorder=$dflt"
    				xxx_prompt=n
    			;;
    			????|????????) echo "(The test program ran ok.)" ;;
    			*) echo "(The test program didn't run right for some reason.)" ;;
    			esac
    		else
    			dflt='4321'
    			cat <<'EOM'
    (I can't seem to compile the test program.  Guessing big-endian...)
    EOM
    		fi
    		case "$xxx_prompt" in
    		y)
    			rp="What is the order of bytes in $uvtype?"
    			. ./myread
    			byteorder="$ans"
    			;;
    		*)	byteorder=$dflt
    			;;
    		esac
    		;;
    	esac
    	$rm_try
    	;;
    esac
    
    : Checking 32bit alignedness
    $cat <<EOM
    
    Checking to see whether you can access character data unalignedly...
    EOM
    case "$d_u32align" in
    '')   $cat >try.c <<EOCP
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #define U32 $u32type
    #define BYTEORDER 0x$byteorder
    #define U8 $u8type
    #include <signal.h>
    #ifdef SIGBUS
    $signal_t bletch(int s) { exit(4); }
    #endif
    int main() {
    #if BYTEORDER == 0x1234 || BYTEORDER == 0x4321
        volatile U8 buf[8];
        volatile U32 *up;
        int i;
    
        if (sizeof(U32) != 4) {
    	printf("sizeof(U32) is not 4, but %d\n", sizeof(U32));
    	exit(1);
        }
    
        fflush(stdout);
    
    #ifdef SIGBUS
        signal(SIGBUS, bletch);
    #endif
    
        buf[0] = 0;
        buf[1] = 0;
        buf[2] = 0;
        buf[3] = 1;
        buf[4] = 0;
        buf[5] = 0;
        buf[6] = 0;
        buf[7] = 1;
    
        for (i = 0; i < 4; i++) {
    	up = (U32*)(buf + i);
    	if (! ((*up == 1 << (8*i)) ||   /* big-endian */
    	       (*up == 1 << (8*(3-i)))  /* little-endian */
    	      )
    	   )
    	{
    	    printf("read failed (%x)\n", *up);
    	    exit(2);
    	}
        }
    
        /* write test */
        for (i = 0; i < 4; i++) {
    	up = (U32*)(buf + i);
    	*up = 0xBeef;
    	if (*up != 0xBeef) {
    	    printf("write failed (%x)\n", *up);
    	    exit(3);
    	}
        }
    
        exit(0);
    #else
        printf("1\n");
        exit(1);
    #endif
        return 0;
    }
    EOCP
    set try
    if eval $compile_ok; then
    	echo "(Testing for character data alignment may crash the test.  That's okay.)" >&4
    	$run ./try 2>&1 >/dev/null
    	case "$?" in
    	0)	cat >&4 <<EOM
    You can access character data pretty unalignedly.
    EOM
    		d_u32align="$undef"
    		;;
    	*)	cat >&4 <<EOM
    It seems that you must access character data in an aligned manner.
    EOM
    		d_u32align="$define"
    		;;
    	esac
    else
    	rp='Can you access character data at unaligned addresses?'
    	dflt='n'
    	. ./myread
    	case "$ans" in
    	[yY]*)	d_u32align="$undef"  ;;
    	*)	d_u32align="$define" ;;
    	esac
    fi
    $rm_try
    ;;
    esac
    
    : see if ualarm exists
    set ualarm d_ualarm
    eval $inlibc
    
    : see if umask exists
    set umask d_umask
    eval $inlibc
    
    : see if unordered exists
    set unordered d_unordered
    eval $inlibc
    
    : see if unsetenv exists
    set unsetenv d_unsetenv
    eval $inlibc
    
    : see if usleep exists
    set usleep d_usleep
    eval $inlibc
    
    : see if prototype for usleep is available
    echo " "
    set d_usleepproto usleep $i_unistd unistd.h
    eval $hasproto
    
    : see if ustat exists
    set ustat d_ustat
    eval $inlibc
    
    : see if closedir exists
    set closedir d_closedir
    eval $inlibc
    
    case "$d_closedir" in
    "$define")
    	echo " "
    	echo "Checking whether closedir() returns a status..." >&4
    	cat > try.c <<EOM
    #$i_dirent I_DIRENT		/**/
    #$i_sysdir I_SYS_DIR		/**/
    #$i_sysndir I_SYS_NDIR		/**/
    #$i_systypes I_SYS_TYPES	/**/
    
    #if defined(I_SYS_TYPES)
    #include <sys/types.h>
    #endif
    #if defined(I_DIRENT)
    #include <dirent.h>
    #else
    #ifdef I_SYS_NDIR
    #include <sys/ndir.h>
    #else
    #ifdef I_SYS_DIR
    #include <sys/dir.h>
    #endif
    #endif
    #endif
    int main() { return closedir(opendir(".")); }
    EOM
    	set try
    	if eval $compile_ok; then
    		if $run ./try > /dev/null 2>&1 ; then
    			echo "Yes, it does."
    			val="$undef"
    		else
    			echo "No, it doesn't."
    			val="$define"
    		fi
    	else
    		echo "(I can't seem to compile the test program--assuming it doesn't)"
    		val="$define"
    	fi
    	;;
    *)
    	val="$undef";
    	;;
    esac
    set d_void_closedir
    eval $setvar
    $rm_try
    
    : see if there is a wait4
    set wait4 d_wait4
    eval $inlibc
    
    : see if waitpid exists
    set waitpid d_waitpid
    eval $inlibc
    
    : see if wcrtomb exists
    set wcrtomb d_wcrtomb
    eval $inlibc
    
    : look for wcscmp
    echo " "
    $cat >try.c <<'EOCP'
    #include <stdio.h>
    #include <wchar.h>
    int main ()
    {
        wchar_t *s = L" ";
        return (wcscmp (s, s) ? 1 : 0);
        }
    EOCP
    set try
    val="$undef"
    if eval $compile; then
        `$run ./try`
        case "$?" in
    	0)  echo "A working wcscmp() found." >&4
    	    val="$define" ;;
    	*)  echo "wcscmp() found, but it doesn't work" >&4
    	    ;;
    	esac
    else
        echo "wcscmp() NOT found." >&4
        fi
    set d_wcscmp
    eval $setvar
    $rm_try
    
    : see if wcstombs exists
    set wcstombs d_wcstombs
    eval $inlibc
    
    : look for wcsxfrm
    echo " "
    $cat >try.c <<'EOCP'
    #include <errno.h>
    #include <wchar.h>
    int main ()
    {
        wchar_t dst[4], *src = L" ";
        errno = 0;
        return (wcsxfrm (dst, src, 1) ? errno ? errno : 0 : 1);
        }
    EOCP
    set try
    val="$undef"
    if eval $compile; then
        `$run ./try`
        case "$?" in
    	0)  echo "A working wcsxfrm() found." >&4
    	    val="$define" ;;
    	*)  echo "wcsxfrm() found, but it doesn't work" >&4
    	    ;;
    	esac
    else
        echo "wcsxfrm() NOT found." >&4
        fi
    set d_wcsxfrm
    eval $setvar
    $rm_try
    
    : see if wctomb exists
    set wctomb d_wctomb
    eval $inlibc
    
    : see if writev exists
    set writev d_writev
    eval $inlibc
    
    : check for alignment requirements
    echo " "
    case "$alignbytes" in
        '') echo "Checking alignment constraints..." >&4
    	$cat >try.c <<EOCP
    #include <stdio.h>
    struct foobar {
        char foo;
        $nvtype bar;
    } try_algn;
    int main()
    {
        printf("%d\n", (int)((char *)&try_algn.bar - (char *)&try_algn.foo));
        return(0);
    }
    EOCP
    	set try
    	if eval $compile_ok; then
    	    dflt=`$run ./try`
    	else
    	    dflt='8'
    	    echo "(I can't seem to compile the test program...)"
    	fi
    	case "$multiarch" in
    	    *$define*)
    		: The usual safe value is 8, but Darwin with -Duselongdouble
    		: needs 16.  Hence, we will take 8 as a minimum, but allow
    		: Configure to pick a larger value if needed.
    		if $test "$dflt" -lt 8; then
    		    dflt='8'
    		    echo "Setting alignment to 8 for multiarch support.">&4
    		fi
    		;;
    	esac
    	;;
        *) dflt="$alignbytes"
    	;;
    esac
    rp="Doubles must be aligned on a how-many-byte boundary?"
    . ./myread
    alignbytes="$ans"
    $rm_try
    
    : set the base revision
    baserev=5.0
    
    : length of character in bytes. Is always 1, otherwise it is not C
    : This used to be a test using sizeof
    charsize=1
    
    : Check for the number of bits in a character
    case "$charbits" in
    '')	echo "Checking how long a character is (in bits)..." >&4
    	$cat >try.c <<EOCP
    #include <stdio.h>
    int main ()
    {
        int n;
        unsigned char c;
        for (c = 1, n = 0; c; c <<= 1, n++) ;
        printf ("%d\n", n);
        return (0);
        }
    EOCP
    	set try
    	if eval $compile_ok; then
    		dflt=`$run ./try`
    	else
    		dflt='8'
    		echo "(I can't seem to compile the test program.  Guessing...)"
    	fi
    	;;
    *)
    	dflt="$charbits"
    	;;
    esac
    rp="What is the length of a character (in bits)?"
    . ./myread
    charbits="$ans"
    $rm_try
    case "$charbits" in
    8)	;;
    *)	cat >&4 << EOM
    Your system has an unsigned character size of $charbits bits, which
    is rather unusual (normally it is 8 bits).  Perl likely will not work
    correctly on your system, with subtle bugs in various places.
    EOM
    	rp='Do you really want to continue?'
    	dflt='n'
    	. ./myread
    	case "$ans" in
    		[yY])	echo >&4 "Okay, continuing."	;;
    		*)	exit 1				;;
    	esac
    esac
    
    : how do we concatenate cpp tokens here?
    echo " "
    echo "Checking to see how your cpp does stuff like concatenate tokens..." >&4
    $cat >cpp_stuff.c <<'EOCP'
    #define RCAT(a,b)a/**/b
    #define ACAT(a,b)a ## b
    RCAT(Rei,ser)
    ACAT(Cir,cus)
    EOCP
    $cppstdin $cppflags $cppminus <cpp_stuff.c >cpp_stuff.out 2>&1
    if $contains 'Circus' cpp_stuff.out >/dev/null 2>&1; then
    	echo "Oh!  Smells like ANSI's been here." >&4
    	echo "We can catify or stringify, separately or together!"
    	cpp_stuff=42
    elif $contains 'Reiser' cpp_stuff.out >/dev/null 2>&1; then
    	echo "Ah, yes!  The good old days!" >&4
    	echo "However, in the good old days we don't know how to stringify and"
    	echo "catify at the same time."
    	cpp_stuff=1
    else
    	$cat >&4 <<EOM
    Hmm, I don't seem to be able to concatenate tokens with your cpp.
    You're going to have to edit the values of CAT[2-5] in config.h...
    EOM
    	cpp_stuff="/* Help! How do we handle cpp_stuff? */*/"
    fi
    $rm -f cpp_stuff.*
    
    : see if this is a db.h system
    set db.h i_db
    eval $inhdr
    
    case "$i_db" in
    $define)
    	: Check db version.
    	echo " "
    	echo "Checking Berkeley DB version ..." >&4
    	$cat >try.c <<EOCP
    #include <sys/types.h>
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #include <db.h>
    int main(int argc, char *argv[])
    {
    #ifdef DB_VERSION_MAJOR	/* DB version >= 2 */
        int Major, Minor, Patch ;
        unsigned long Version ;
        (void)db_version(&Major, &Minor, &Patch) ;
        if (argc == 2) {
            printf("%d %d %d %d %d %d\n",
                   DB_VERSION_MAJOR, DB_VERSION_MINOR, DB_VERSION_PATCH,
                   Major, Minor, Patch);
            exit(0);
        }
        printf("You have Berkeley DB Version 2 or greater.\n");
    
        printf("db.h is from Berkeley DB Version %d.%d.%d\n",
    		DB_VERSION_MAJOR, DB_VERSION_MINOR, DB_VERSION_PATCH);
        printf("libdb is from Berkeley DB Version %d.%d.%d\n",
    		Major, Minor, Patch) ;
    
        /* check that db.h & libdb are compatible */
        if (DB_VERSION_MAJOR != Major || DB_VERSION_MINOR != Minor || DB_VERSION_PATCH != Patch) {
    	printf("db.h and libdb are incompatible.\n") ;
            exit(3);
        }
    
        printf("db.h and libdb are compatible.\n") ;
    
        Version = DB_VERSION_MAJOR * 1000000 + DB_VERSION_MINOR * 1000
    		+ DB_VERSION_PATCH ;
    
        /* needs to be >= 2.3.4 */
        if (Version < 2003004) {
        /* if (DB_VERSION_MAJOR == 2 && DB_VERSION_MINOR == 0 && DB_VERSION_PATCH < 5) { */
    	printf("Perl needs Berkeley DB 2.3.4 or greater.\n") ;
            exit(2);
        }
    
        exit(0);
    #else
    #if defined(_DB_H_) && defined(BTREEMAGIC) && defined(HASHMAGIC)
        if (argc == 2) {
            printf("1 0 0\n");
            exit(0);
        }
        printf("You have Berkeley DB Version 1.\n");
        exit(0);	/* DB version < 2: the coast is clear. */
    #else
        exit(1);	/* <db.h> not Berkeley DB? */
    #endif
    #endif
    }
    EOCP
    	set try
    	if eval $compile_ok && $run ./try; then
    		echo 'Looks OK.' >&4
    		set `$run ./try 1`
    		db_version_major=$1
    		db_version_minor=$2
    		db_version_patch=$3
    	else
    		echo "I can't use Berkeley DB with your <db.h>.  I'll disable Berkeley DB." >&4
    		i_db=$undef
    		case " $libs " in
    		*"-ldb "*)
    			: Remove db from list of libraries to use
    			echo "Removing unusable -ldb from library list" >&4
    			set `echo X $libs | $sed -e 's/-ldb / /' -e 's/-ldb$//'`
    			shift
    			libs="$*"
    			echo "libs = $libs" >&4
    			;;
    		esac
    	fi
    	$rm_try
    	;;
    esac
    
    case "$i_db" in
    define)
    	: Check the return type needed for hash
    	echo " "
    	echo "Checking return type needed for hash for Berkeley DB ..." >&4
    	$cat >try.c <<EOCP
    #include <sys/types.h>
    #include <db.h>
    
    #ifndef DB_VERSION_MAJOR
    u_int32_t hash_cb (const void* ptr, size_t size)
    {
    	return 0;
    }
    HASHINFO info;
    int main()
    {
    	info.hash = hash_cb;
    }
    #endif
    EOCP
    	if $cc $ccflags -c try.c >try.out 2>&1 ; then
    		if $compiler_warning try.out >>/dev/null 2>&1 ; then
    			db_hashtype='int'
    		else
    			db_hashtype='u_int32_t'
    		fi
    	else
    		: XXX Maybe we should just give up here.
    		db_hashtype=u_int32_t
    		$cat try.out >&4
    		echo "Help:  I can't seem to compile the db test program." >&4
    		echo "Something's wrong, but I'll assume you use $db_hashtype." >&4
    	fi
    	$rm_try
    	echo "Your version of Berkeley DB uses $db_hashtype for hash."
    	;;
    *)	db_hashtype=u_int32_t
    	;;
    esac
    case "$i_db" in
    define)
    	: Check the return type needed for prefix
    	echo " "
    	echo "Checking return type needed for prefix for Berkeley DB ..." >&4
    	cat >try.c <<EOCP
    #include <sys/types.h>
    #include <db.h>
    
    #ifndef DB_VERSION_MAJOR
    size_t prefix_cb (const DBT *key1, const DBT *key2)
    {
    	return 0;
    }
    BTREEINFO info;
    int main()
    {
    	info.prefix = prefix_cb;
    }
    #endif
    EOCP
    	if $cc $ccflags -c try.c  >try.out 2>&1 ; then
    		if $compiler_warning try.out >>/dev/null 2>&1 ; then
    			db_prefixtype='int'
    		else
    			db_prefixtype='size_t'
    		fi
    	else
    		db_prefixtype='size_t'
    		: XXX Maybe we should just give up here.
    		$cat try.out >&4
    		echo "Help:  I can't seem to compile the db test program." >&4
    		echo "Something's wrong, but I'll assume you use $db_prefixtype." >&4
    	fi
    	$rm_try
    	echo "Your version of Berkeley DB uses $db_prefixtype for prefix."
    	;;
    *)	db_prefixtype='size_t'
    	;;
    esac
    
    : Include . in @INC
    $cat <<EOM
    
    Historically Perl has provided a final fallback of the current working
    directory '.' when searching for a library. This, however, can lead to
    problems when a Perl program which loads optional modules is called from
    a shared directory. This can lead to executing unexpected code.
    
    EOM
    
    # When changing to exclude by default:
    case "$default_inc_excludes_dot" in
        $undef|false|[nN]*) dflt="n" ;;
        *)                  dflt="y" ;;
    esac
    # To turn exclude off by default:
    #case "$default_inc_excludes_dot" in
    #    $define|true|[yY]*) dflt="y" ;;
    #    *)                  dflt="n" ;;
    #esac
    
    rp='Exclude '.' from @INC by default? '
    . ./myread
    case "$ans" in
        [nN]|undef) default_inc_excludes_dot="$undef"  ;;
        *)          default_inc_excludes_dot="$define" ;;
    esac
    
    : Check what kind of inf/nan your system has
    $echo "Checking the kind of infinities and nans you have..." >&4
    $echo "(The following tests may crash.  That's okay.)" >&4
    $cat >try.c <<EOP
    #define DOUBLESIZE $doublesize
    #$d_longdbl HAS_LONG_DOUBLE
    #ifdef HAS_LONG_DOUBLE
    #define LONG_DOUBLESIZE $longdblsize
    #define LONG_DOUBLEKIND $longdblkind
    #endif
    #include <math.h>
    #include <string.h>
    #include <stdio.h>
    /* Note that whether the sign bit is on or off
     * for NaN depends on the CPU/FPU, and possibly
     * can be affected by the build toolchain.
     *
     * For example for older MIPS and HP-PA 2.0 the quiet NaN is:
     * 0x7f, 0xf7, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff
     * 0x7f, 0xf4, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00
     * (respectively) as opposed to the more usual
     * 0x7f, 0xf8, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00
     *
     * Pre-IEEE-754 floating point format do not even have inf/nan support
     * at all.  They might have a "max" value (DBL_MAX), which may be deadly
     * to even mention, causing immediate SIGFPE or equivalent: this is
     * the case with VAX floating point, for example.
     */
    static void bytes(void *v, unsigned int n) {
      unsigned char *p = (unsigned char *)v;
      int i;
      for (i = 0; i < n; i++) {
        printf("0x%02x%s", p[i], i < n - 1 ? ", " : "\n");
      }
    }
    int main(int argc, char *argv[]) {
       /* We cannot use 1.0/0.0 and 0.0/0.0 (with L suffixes for long double)
        * because some compilers are 'smart' and not only warn but refuse to
        * compile such 'illegal' values. */
       double dinf = exp(1e9);
       double dnan = sqrt(-1.0);
    #ifdef HAS_LONG_DOUBLE
       long double ldinf = (long double)exp(1e9);
       long double ldnan = (long double)sqrt(-1.0);
    # if LONG_DOUBLEKIND == 3 || LONG_DOUBLEKIND == 4
    /* the 80-bit long doubles might have garbage in their excess bytes */
        memset((char *)&ldinf + 10, '\0', LONG_DOUBLESIZE - 10);
        memset((char *)&ldnan + 10, '\0', LONG_DOUBLESIZE - 10);
    # endif
    #endif
      if (argc == 2) {
        switch (argv[1][0]) {
        case '1': bytes(&dinf, sizeof(dinf)); break;
        case '2': bytes(&dnan, sizeof(dnan)); break;
    #ifdef HAS_LONG_DOUBLE
        case '3': bytes(&ldinf, sizeof(ldinf)); break;
        case '4': bytes(&ldnan, sizeof(ldnan)); break;
    #endif
        }
      }
      return 0;
    }
    EOP
    set try
    if eval $compile; then
        doubleinfbytes=`$run ./try 1`
        doublenanbytes=`$run ./try 2`
        case "$d_longdbl" in
        $define)
          longdblinfbytes=`$run ./try 3`
          longdblnanbytes=`$run ./try 4`
          ;;
        esac
    else
        # Defaults in case the above test program failed.
        case "$doublekind" in
        1) # IEEE 754 32-bit LE
           doubleinfbytes='0x00, 0x00, 0xf0, 0x7f'
           doublenanbytes='0x00, 0x00, 0xf8, 0x7f'
           ;;
        2) # IEEE 754 32-bit BE
           doubleinfbytes='0x7f, 0xf0, 0x00, 0x00'
           doublenanbytes='0x7f, 0xf8, 0x00, 0x00'
           ;;
        3) # IEEE 754 64-bit LE
           doubleinfbytes='0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xf0, 0x7f'
           doublenanbytes='0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xf8, 0x7f'
           ;;
        4) # IEEE 754 64-bit BE
           doubleinfbytes='0x7f, 0xf0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00'
           doublenanbytes='0x7f, 0xf8, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00'
           ;;
        5) # IEEE 754 128-bit LE
           doubleinfbytes='0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xf0, 0x7f'
           doublenanbytes='0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xf8, 0x7f'
           ;;
        6) # IEEE 754 128-bit BE
           doubleinfbytes='0x7f, 0xf0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00'
           doublenanbytes='0x7f, 0xf8, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00'
           ;;
        7) # IEEE 754 64-bit mixed: 32-bit LEs in BE
           doubleinfbytes='0x00, 0x00, 0xf0, 0x7f, 0x00, 0x00, 0x00, 0x00'
           doublenanbytes='0x00, 0x00, 0xf8, 0x7f, 0x00, 0x00, 0x00, 0x00'
           ;;
        8) # IEEE 754 64-bit mixed: 32-bit BEs in LE
           doubleinfbytes='0x00, 0x00, 0x00, 0x00, 0x7f, 0xf0, 0x00, 0x00'
           doublenanbytes='0x00, 0x00, 0x00, 0x00, 0x7f, 0xf8, 0x00, 0x00'
           ;;
        9|10|11|12|13|14) # VAX/Cray/IBM floating point formats, no inf/nan.
           doubleinfbytes=$undef
           doublenanbytes=$undef
           ;;
        *) # No idea.
           doubleinfbytes=$undef
           doublenanbytes=$undef
           ;;
        esac
        case "$longdblkind" in
        1) # IEEE 754 128-bit LE
           longdblinfbytes='0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xff, 0x7f'
           longdblnanbytes='0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x80, 0xff, 0x7f'
           ;;
        2) # IEEE 754 128-bit BE
           longdblinfbytes='0x7f, 0xff, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00'
           longdblnanbytes='0x7f, 0xff, 0x80, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00'
           ;;
        3) # IEEE 754 80-bit LE, 12 or 16 bytes (x86)
           case "$longdblsize" in
           12) # x86 32-bit (96 bits, or 4 x 32, or 12 x 8)
               longdblinfbytes='0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x80, 0xff, 0x7f, 0x00, 0x00'
               longdblnanbytes='0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xc0, 0xff, 0x7f, 0x00, 0x00'
               ;;
           16) # x86_64
               longdblinfbytes='0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x80, 0xff, 0x7f, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00'
               longdblnanbytes='0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xc0, 0xff, 0x7f, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00'
               ;;
           *)  # No idea.
               longdblinfbytes=$undef
               longdblnanbytes=$undef
           ;;
           esac
           ;;
        4) # IEEE 754 80-bit BE, 12 or 16 bytes
           case "$longdblsize" in
           12) # 32-bit system
               longdblinfbytes='0x7f, 0xff, 0x80, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00'
               longdblnanbytes='0x7f, 0xff, 0xc0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00'
               ;;
           16) # 64-bit system
               longdblinfbytes='0x7f, 0xff, 0x80, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00'
               longdblnanbytes='0x7f, 0xff, 0xc0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00'
               ;;
           *)  # No idea.
               longdblinfbytes=$undef
               longdblnanbytes=$undef
           ;;
           esac
           ;;
        5) # 128-bit LE-LE "double double"
           longdblinfbytes='0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xf0, 0x7f'
           longdblnanbytes='0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xf8, 0x7f'
           ;;
        6) # 128-bit BE-BE "double double"
           longdblinfbytes='0x7f, 0xf0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00'
           longdblnanbytes='0x7f, 0xf8, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00'
           ;;
        7) # 128-bit LE-BE "double double"
           longdblinfbytes='0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xf0, 0x7f, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00'
           longdblnanbytes='0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0xf8, 0x7f, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00'
           ;;
        8) # 128-bit BE-LE "double double"
           longdblinfbytes='0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x7f, 0xf0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00'
           longdblnanbytes='0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x7f, 0xf8, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00'
           ;;
        9|10|11|12|13|14) # VAX/Cray/IBM floating point formats, no inf/nan.
           longdblinfbytes=$undef
           longdblnanbytes=$undef
           ;;
        *) # No idea.
           longdblinfbytes=$undef
           longdblnanbytes=$undef
           ;;
        esac
    fi
    # In case the program crashed the values are empty, turn them undef.
    case "$doubleinfbytes" in
    '') doubleinfbytes=$undef ;;
    esac
    case "$doublenanbytes" in
    '') doublenanbytes=$undef ;;
    esac
    case "$longdblinfbytes" in
    '') longdblinfbytes=$undef ;;
    esac
    case "$longdblnanbytes" in
    '') longdblnanbytes=$undef ;;
    esac
    $rm_try
    
    : Check the length of the double mantissa
    $echo "Checking how many mantissa bits your doubles have..." >&4
    $cat >try.c <<EOP
    #$i_sunmath I_SUNMATH
    #include <float.h>
    #ifdef I_SUNMATH
    # include <sunmath.h>
    #endif
    #ifdef DBL_MANT_DIG
    # define BITS (DBL_MANT_DIG - 1) /* the implicit bit does not count */
    #endif
    #include <stdio.h>
    int main(int argc, char *argv[]) {
    #ifdef BITS
      printf("%d\n", BITS);
    #endif
      return 0;
    }
    EOP
    set try
    if eval $compile; then
        doublemantbits=`$run ./try`
    else
        doublemantbits="$undef"
    fi
    $rm_try
    
    : Check the length of the longdouble mantissa
    $echo "Checking how many mantissa bits your long doubles have..." >&4
    $cat >try.c <<EOP
    #$i_sunmath I_SUNMATH
    #include <float.h>
    #ifdef I_SUNMATH
    # include <sunmath.h>
    #endif
    #$d_longdbl HAS_LONG_DOUBLE
    #if defined(HAS_LONG_DOUBLE) && defined(LDBL_MANT_DIG)
    # if ($longdblkind == 3) || ($longdblkind == 4) /* 80-bit extended precision */
    /* This format has no implicit bit.  Beware, however, that for
     * this format the bare LDBL_MANT_DIG is misleading for inf/nan:
     * the top three bits are used for inf (100) / qnan (11x) / snan (101),
     * and the top bit must have been one since 387, zero is plain invalid.
     * For normal fp values, the LDBL_MANT_DIG is fine, though. */
    #  define BITS LDBL_MANT_DIG
    # elif ($longdblkind == 5 || $longdblkind == 6 || $longdblkind == 7 || $longdblkind == 8) /* double double */
    /* LDBL_MANT_DIG of 106 (twice 53) would be logical, but for some
     * reason e.g. Irix thinks 107.  But in any case, we want only
     * the number of real bits, the implicit bits are of no interest.  */
    #  define BITS 2 * (DBL_MANT_DIG - 1)
    # else
    #  define BITS (LDBL_MANT_DIG - 1) /* the implicit bit does not count */
    # endif
    #endif
    #include <stdio.h>
    int main(int argc, char *argv[]) {
    #ifdef BITS
      printf("%d\n", BITS);
    #endif
      return 0;
    }
    EOP
    set try
    if eval $compile; then
        longdblmantbits=`$run ./try`
    else
        longdblmantbits="$undef"
    fi
    $rm_try
    
    : Check the length of the NV mantissa
    $echo "Checking how many mantissa bits your NVs have..." >&4
    if test "X$usequadmath" = "X$define"; then
      nvmantbits=112 # 128-1-15
    else
      if test "X$nvsize" = "X$doublesize"; then
        nvmantbits="$doublemantbits"
      else
         if test "X$nvsize" = "X$longdblsize"; then
           nvmantbits="$longdblmantbits"
         else
           nvmantbits="$undef"
         fi
      fi
    fi
    
    : How can we generate normalized random numbers ?
    echo " "
    echo "Using our internal random number implementation..." >&4
    
    case "$ccflags" in
    *-Dmy_rand=*|*-Dmy_srand=*)
    	echo "Removing obsolete -Dmy_rand, -Dmy_srand, and -Drandbits from ccflags." >&4
    	ccflags="`echo $ccflags | sed -e 's/-Dmy_rand=random/ /'`"
    	ccflags="`echo $ccflags | sed -e 's/-Dmy_srand=srandom/ /'`"
    	ccflags="`echo $ccflags | sed -e 's/-Drandbits=[0-9][0-9]*/ /'`"
    	;;
    esac
    
    randfunc=drand48
    drand01="drand48()"
    seedfunc="srand48"
    randbits=48
    randseedtype=U32
    
    : Probe whether dtrace builds an object, as newer Illumos requires an input
    : object file that uses at least one of the probes defined in the .d file
    case "$usedtrace" in
    $define)
        case "$dtracexnolibs" in
        $define|true|[yY]*)
            dtracexnolibs=$define
    	$dtrace -h -xnolibs -s ../perldtrace.d -o perldtrace.h
    	;;
        ' '|'')
            if $dtrace -h -xnolibs -s ../perldtrace.d -o perldtrace.h 2>&1 ; then
    	     dtracexnolibs=$define
    	     echo "Your dtrace accepts -xnolibs"
    	elif $dtrace -h -s ../perldtrace.d -o perldtrace.h 2>&1 ; then
    	     dtracexnolibs=$undef
    	     echo "Your dtrace doesn't accept -xnolibs"
    	else
                 echo "Your dtrace doesn't work at all, try building without dtrace support" >&4
    	     exit 1
    	fi
    	;;
        *)
            dtracexnolibs=$undef
    	$dtrace -h -s ../perldtrace.d -o perldtrace.h
    	;;
        esac
        case $dtracexnolibs in
        $define) xnolibs=-xnolibs ;;
        *) xnolibs= ;;
        esac
    
        case "$dtraceobject" in
        $define|true|[yY]*)
            dtraceobject=$define
            ;;
        ' '|'')
            $cat >try.c <<EOM
    #include "perldtrace.h"
    int main(void) {
        PERL_LOADED_FILE("dummy");
        return 0;
    }
    EOM
            dtraceobject=$undef
            if $cc -c -o try.o $optimize $ccflags try.c \
                        && $dtrace -G $xnolibs -s ../perldtrace.d try.o >/dev/null 2>&1; then
                    dtraceobject=$define
                echo "Your dtrace builds an object file"
            fi
            ;;
        *) dtraceobject=$undef ;;
        esac
        $rm_try perldtrace.o perldtrace.h
    esac
    
    : Determine if this is an EBCDIC system
    echo " "
    echo "Determining whether or not we are on an EBCDIC system..." >&4
    $cat >try.c <<'EOM'
    int main()
    {
      if ('M'==0xd4) return 0;
      return 1;
    }
    EOM
    
    val=$undef
    set try
    if eval $compile_ok; then
    	if $run ./try; then
    		echo "You seem to speak EBCDIC." >&4
    		val="$define"
    	else
    		echo "Nope, no EBCDIC, probably ASCII or some ISO Latin. Or UTF-8." >&4
    	fi
    else
    	echo "I'm unable to compile the test program." >&4
    	echo "I'll assume ASCII or some ISO Latin. Or UTF8." >&4
    fi
    $rm_try
    set ebcdic
    eval $setvar
    
    : Check how to flush
    echo " "
    $cat >&4 <<EOM
    Checking how to flush all pending stdio output...
    EOM
    # I only know how to find the first 32 possibly open files on SunOS.
    # See also hints/sunos_4_1.sh and util.c  --AD
    case "$osname" in
    sunos) $echo '#define PERL_FFLUSH_ALL_FOPEN_MAX 32' > try.c ;;
    esac
    $cat >>try.c <<EOCP
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #$i_unistd I_UNISTD
    #ifdef I_UNISTD
    # include <unistd.h>
    #endif
    #$d_sysconf HAS_SYSCONF
    #$d_stdio_stream_array HAS_STDIO_STREAM_ARRAY
    #ifdef HAS_STDIO_STREAM_ARRAY
    # define STDIO_STREAM_ARRAY $stdio_stream_array
    #endif
    int main() {
      FILE* p;
      unlink("try.out");
      p = fopen("try.out", "w");
    #ifdef TRY_FPUTC
      fputc('x', p);
    #else
    # ifdef TRY_FPRINTF
      fprintf(p, "x");
    # endif
    #endif
    #ifdef TRY_FFLUSH_NULL
      fflush(NULL);
    #endif
    #ifdef TRY_FFLUSH_ALL
      {
        long open_max = -1;
    # ifdef PERL_FFLUSH_ALL_FOPEN_MAX
        open_max = PERL_FFLUSH_ALL_FOPEN_MAX;
    # else
    #  if defined(HAS_SYSCONF) && defined(_SC_OPEN_MAX)
        open_max = sysconf(_SC_OPEN_MAX);
    #  else
    #   ifdef FOPEN_MAX
        open_max = FOPEN_MAX;
    #   else
    #    ifdef OPEN_MAX
        open_max = OPEN_MAX;
    #    else
    #     ifdef _NFILE
        open_max = _NFILE;
    #     endif
    #    endif
    #   endif
    #  endif
    # endif
    # ifdef HAS_STDIO_STREAM_ARRAY
        if (open_max > 0) {
          long i;
          for (i = 0; i < open_max; i++)
    	    if (STDIO_STREAM_ARRAY[i]._file >= 0 &&
    		STDIO_STREAM_ARRAY[i]._file < open_max &&
    		STDIO_STREAM_ARRAY[i]._flag)
    		fflush(&STDIO_STREAM_ARRAY[i]);
        }
      }
    # endif
    #endif
      _exit(42);
    }
    EOCP
    : first we have to find out how _not_ to flush
    $to try.c
    if $test "X$fflushNULL" = X -o "X$fflushall" = X; then
        output=''
        set try -DTRY_FPUTC
        if eval $compile; then
    	    $run ./try 2>/dev/null
    	    code="$?"
    	    $from try.out
    	    if $test ! -s try.out -a "X$code" = X42; then
    		output=-DTRY_FPUTC
    	    fi
        fi
        case "$output" in
        '')
    	    set try -DTRY_FPRINTF
    	    if eval $compile; then
    		    $run ./try 2>/dev/null
    		    code="$?"
    		    $from try.out
    		    if $test ! -s try.out -a "X$code" = X42; then
    			output=-DTRY_FPRINTF
    		    fi
    	    fi
    	;;
        esac
    fi
    : check for fflush NULL behavior
    case "$fflushNULL" in
    '')	set try -DTRY_FFLUSH_NULL $output
    	if eval $compile; then
    		$run ./try 2>/dev/null
    		code="$?"
    		$from try.out
    		if $test -s try.out -a "X$code" = X42; then
    			fflushNULL="`$cat try.out`"
    		else
    			if $test "X$code" != X42; then
    				$cat >&4 <<EOM
    (If this test failed, don't worry, we'll try another method shortly.)
    EOM
    			fi
    		fi
    	fi
    	$rm -f core try.core core.try.*
    	case "$fflushNULL" in
    	x)	$cat >&4 <<EOM
    Your fflush(NULL) works okay for output streams.
    Let's see if it clobbers input pipes...
    EOM
    # As of mid-March 2000 all versions of Solaris appear to have a stdio
    # bug that improperly flushes the input end of pipes.  So we avoid the
    # autoflush on fork/system/exec support for now. :-(
    $cat >tryp.c <<EOCP
    #include <stdio.h>
    int
    main(int argc, char **argv)
    {
        char buf[1024];
        int i;
        char *bp = buf;
        while (1) {
    	while ((i = getc(stdin)) != -1
    	       && (*bp++ = i) != '\n'
    	       && bp < &buf[1024])
    	/* DO NOTHING */ ;
    	*bp = '\0';
    	fprintf(stdout, "%s", buf);
    	fflush(NULL);
    	if (i == -1)
    	    return 0;
    	bp = buf;
        }
    }
    EOCP
    		fflushNULL="$define"
    		set tryp
    		if eval $compile; then
    		    $rm -f tryp.out
    		    # Copy the .c file to the remote host ($to is an ssh-alike if targethost is set)
    		    if $test "X$targethost" != X; then
    			$to tryp.c
    			$to tryp
    			$run "cat tryp.c | ./tryp " 2>/dev/null > tryp.out
    		    else
    			$cat tryp.c | $run ./tryp   2>/dev/null > tryp.out
    		    fi
    		    if cmp tryp.c tryp.out >/dev/null 2>&1; then
    		       $cat >&4 <<EOM
    fflush(NULL) seems to behave okay with input streams.
    EOM
    			fflushNULL="$define"
    		    else
    			$cat >&4 <<EOM
    Ouch, fflush(NULL) clobbers input pipes!  We will not use it.
    EOM
    			fflushNULL="$undef"
    		    fi
    		fi
    		$rm -f core tryp.c tryp.core core.tryp.*
    		;;
    	'')	$cat >&4 <<EOM
    Your fflush(NULL) isn't working (contrary to ANSI C).
    EOM
    		fflushNULL="$undef"
    		;;
    	*)	$cat >&4 <<EOM
    Cannot figure out whether your fflush(NULL) works or not.
    I'm assuming it doesn't (contrary to ANSI C).
    EOM
    		fflushNULL="$undef"
    		;;
    	esac
    	;;
    $define|true|[yY]*)
    	fflushNULL="$define"
    	;;
    *)
    	fflushNULL="$undef"
    	;;
    esac
    : check explicit looping only if NULL did not work, and if the pipe
    : bug does not show up on an explicit flush too
    case "$fflushNULL" in
    "$undef")
    	$cat >tryp.c <<EOCP
    #include <stdio.h>
    int
    main(int argc, char **argv)
    {
        char buf[1024];
        int i;
        char *bp = buf;
        while (1) {
    	while ((i = getc(stdin)) != -1
    	       && (*bp++ = i) != '\n'
    	       && bp < &buf[1024])
    	/* DO NOTHING */ ;
    	*bp = '\0';
    	fprintf(stdout, "%s", buf);
    	fflush(stdin);
    	if (i == -1)
    	    return 0;
    	bp = buf;
        }
    }
    EOCP
    	set tryp
    	if eval $compile; then
    	    $rm -f tryp.out
    	    if $test "X$targethost" != X; then
    		$to tryp.c
    		$to tryp
    		$run "cat tryp.c | ./tryp " 2>/dev/null > tryp.out
    	    else
    		$cat tryp.c | $run ./tryp   2>/dev/null > tryp.out
    	    fi
    	    if cmp tryp.c tryp.out >/dev/null 2>&1; then
    	       $cat >&4 <<EOM
    Good, at least fflush(stdin) seems to behave okay when stdin is a pipe.
    EOM
    		: now check for fflushall behaviour
    		case "$fflushall" in
    		'')	set try -DTRY_FFLUSH_ALL $output
    			if eval $compile; then
    				$cat >&4 <<EOM
    (Now testing the other method--but note that this also may fail.)
    EOM
    				$run ./try 2>/dev/null
    				code=$?
    				$from try.out
    				if $test -s try.out -a "X$code" = X42; then
    					fflushall="`$cat try.out`"
    				fi
    			fi
    			$rm_try
    			case "$fflushall" in
    			x)	$cat >&4 <<EOM
    Whew. Flushing explicitly all the stdio streams works.
    EOM
    				fflushall="$define"
    				;;
    			'')	$cat >&4 <<EOM
    Sigh. Flushing explicitly all the stdio streams doesn't work.
    EOM
    				fflushall="$undef"
    				;;
    			*)	$cat >&4 <<EOM
    Cannot figure out whether flushing stdio streams explicitly works or not.
    I'm assuming it doesn't.
    EOM
    				fflushall="$undef"
    				;;
    			esac
    			;;
    		"$define"|true|[yY]*)
    			fflushall="$define"
    			;;
    		*)
    			fflushall="$undef"
    			;;
    		esac
    	    else
    		$cat >&4 <<EOM
    All is futile.  Even fflush(stdin) clobbers input pipes!
    EOM
    		fflushall="$undef"
    	    fi
    	else
    	    fflushall="$undef"
    	fi
    	$rm -f core tryp.c tryp.core core.tryp.*
    	;;
    *)	fflushall="$undef"
    	;;
    esac
    
    case "$fflushNULL$fflushall" in
    undefundef)
    	$cat <<EOM
    OK, I give up.  I cannot figure out how to flush pending stdio output.
    We won't be flushing handles at all before fork/exec/popen.
    EOM
    	;;
    esac
    $rm_try tryp
    
    : Store the full pathname to the ar program for use in the C program
    : Respect a hint or command line value for full_ar.
    case "$full_ar" in
    '') full_ar=$ar ;;
    esac
    
    : Store the full pathname to the sed program for use in the C program
    full_sed=$sed
    
    : see what type gids are declared as in the kernel
    echo " "
    echo "Looking for the type for group ids returned by getgid()."
    set gid_t gidtype xxx stdio.h sys/types.h
    eval $typedef
    case "$gidtype" in
    xxx)
    	xxx=`./findhdr sys/user.h`
    	set `grep 'groups\[NGROUPS\];' "$xxx" 2>/dev/null` unsigned short
    	case $1 in
    	unsigned) dflt="$1 $2" ;;
    	*) dflt="$1" ;;
    	esac
    	;;
    *) dflt="$gidtype";;
    esac
    case "$gidtype" in
    gid_t) echo "gid_t found." ;;
    *)	rp="What is the type for group ids returned by getgid()?"
    	. ./myread
    	gidtype="$ans"
    	;;
    esac
    
    : Check the size of GID
    echo " "
    case "$gidtype" in
    *_t) zzz="$gidtype"	;;
    *)   zzz="gid"		;;
    esac
    echo "Checking the size of $zzz..." >&4
    cat > try.c <<EOCP
    #include <sys/types.h>
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    int main() {
        printf("%d\n", (int)sizeof($gidtype));
        exit(0);
    }
    EOCP
    set try
    if eval $compile_ok; then
    	yyy=`$run ./try`
    	case "$yyy" in
    	'')	gidsize=4
    		echo "(I can't execute the test program--guessing $gidsize.)" >&4
    		;;
    	*)	gidsize=$yyy
    		echo "Your $zzz is $gidsize bytes long."
    		;;
    	esac
    else
    	gidsize=4
    	echo "(I can't compile the test program--guessing $gidsize.)" >&4
    fi
    
    : Check if GID is signed
    echo " "
    case "$gidtype" in
    *_t) zzz="$gidtype"	;;
    *)   zzz="gid"		;;
    esac
    echo "Checking the sign of $zzz..." >&4
    cat > try.c <<EOCP
    #include <sys/types.h>
    #include <stdio.h>
    int main() {
    	$gidtype foo = -1;
    	if (foo < 0)
    		printf("-1\n");
    	else
    		printf("1\n");
    }
    EOCP
    set try
    if eval $compile; then
    	yyy=`$run ./try`
    	case "$yyy" in
    	'')	gidsign=1
    		echo "(I can't execute the test program--guessing unsigned.)" >&4
    		;;
    	*)	gidsign=$yyy
    		case "$gidsign" in
    		 1) echo "Your $zzz is unsigned." ;;
    		-1) echo "Your $zzz is signed."   ;;
    		esac
    		;;
    	esac
    else
    	gidsign=1
    	echo "(I can't compile the test program--guessing unsigned.)" >&4
    fi
    
    : Check 64bit sizes
    echo " "
    
    if $test X"$quadtype" != X; then
    
    echo "Checking how to print 64-bit integers..." >&4
    
    if $test X"$sPRId64" = X -a X"$quadtype" = Xint; then
    	$cat >try.c <<'EOCP'
    #include <sys/types.h>
    #include <stdio.h>
    int main() {
      int q = 12345678901;
      printf("%ld\n", q);
    }
    EOCP
    	set try
    	if eval $compile; then
    		yyy=`$run ./try`
    		case "$yyy" in
    		12345678901)
    			sPRId64='"d"'; sPRIi64='"i"'; sPRIu64='"u"';
    			sPRIo64='"o"'; sPRIx64='"x"'; sPRIXU64='"X"';
    			echo "We will use %d."
    			;;
    		esac
    	fi
    fi
    
    if $test X"$sPRId64" = X -a X"$quadtype" = Xlong; then
    	$cat >try.c <<'EOCP'
    #include <sys/types.h>
    #include <stdio.h>
    int main() {
      long q = 12345678901;
      printf("%ld\n", q);
    }
    EOCP
    	set try
    	if eval $compile; then
    		yyy=`$run ./try`
    		case "$yyy" in
    		12345678901)
    			sPRId64='"ld"'; sPRIi64='"li"'; sPRIu64='"lu"';
    			sPRIo64='"lo"'; sPRIx64='"lx"'; sPRIXU64='"lX"';
    			echo "We will use %ld."
    			;;
    		esac
    	fi
    fi
    
    if $test X"$sPRId64" = X -a X"$i_inttypes" = X"$define" -a X"$quadtype" = Xint64_t; then
    	$cat >try.c <<'EOCP'
    #include <sys/types.h>
    #include <inttypes.h>
    #include <stdio.h>
    int main() {
      int64_t q = 12345678901;
      printf("%" PRId64 "\n", q);
    }
    EOCP
    	set try
    	if eval $compile; then
    		yyy=`$run ./try`
    		case "$yyy" in
    		12345678901)
    			sPRId64=PRId64; sPRIi64=PRIi64; sPRIu64=PRIu64;
    			sPRIo64=PRIo64; sPRIx64=PRIx64; sPRIXU64=PRIXU64;
    			echo "We will use the C9X style."
    			;;
    		esac
    	fi
    fi
    
    if $test X"$sPRId64" = X -a X"$quadtype" != X; then
    	$cat >try.c <<EOCP
    #include <sys/types.h>
    #include <stdio.h>
    int main() {
      $quadtype q = 12345678901;
      printf("%Ld\n", q);
    }
    EOCP
    	set try
    	if eval $compile; then
    		yyy=`$run ./try`
    		case "$yyy" in
    		12345678901)
    			sPRId64='"Ld"'; sPRIi64='"Li"'; sPRIu64='"Lu"';
    			sPRIo64='"Lo"'; sPRIx64='"Lx"'; sPRIXU64='"LX"';
    			echo "We will use %Ld."
    			;;
    		esac
    	fi
    fi
    
    if $test X"$sPRId64" = X -a X"$quadtype" = X"long long"; then
    	$cat >try.c <<'EOCP'
    #include <sys/types.h>
    #include <stdio.h>
    int main() {
      long long q = 12345678901LL; /* AIX cc requires the LL suffix. */
      printf("%lld\n", q);
    }
    EOCP
    	set try
    	if eval $compile; then
    		yyy=`$run ./try`
    		case "$yyy" in
    		12345678901)
    			sPRId64='"lld"'; sPRIi64='"lli"'; sPRIu64='"llu"';
    			sPRIo64='"llo"'; sPRIx64='"llx"'; sPRIXU64='"llX"';
    			echo "We will use the %lld style."
    			;;
    		esac
    	fi
    fi
    
    if $test X"$sPRId64" = X -a X"$quadtype" != X; then
    	$cat >try.c <<EOCP
    #include <sys/types.h>
    #include <stdio.h>
    int main() {
      $quadtype q = 12345678901;
      printf("%qd\n", q);
    }
    EOCP
    	set try
    	if eval $compile; then
    		yyy=`$run ./try`
    		case "$yyy" in
    		12345678901)
    			sPRId64='"qd"'; sPRIi64='"qi"'; sPRIu64='"qu"';
    			sPRIo64='"qo"'; sPRIx64='"qx"'; sPRIXU64='"qX"';
    			echo "We will use %qd."
    			;;
    		esac
    	fi
    fi
    
    if $test X"$sPRId64" = X; then
    	echo "Cannot figure out how to print 64-bit integers." >&4
    fi
    $rm_try
    
    fi
    
    case "$sPRId64" in
    '')	d_PRId64="$undef"; d_PRIi64="$undef"; d_PRIu64="$undef";
    	d_PRIo64="$undef"; d_PRIx64="$undef"; d_PRIXU64="$undef";
    	;;
    *)	d_PRId64="$define"; d_PRIi64="$define"; d_PRIu64="$define";
    	d_PRIo64="$define"; d_PRIx64="$define"; d_PRIXU64="$define";
    	;;
    esac
    
    : Check format strings for internal types
    echo " "
    $echo "Checking the format strings to be used for Perl's internal types..." >&4
    
    if $test X"$ivsize" = X8; then
    	ivdformat="$sPRId64"
    	uvuformat="$sPRIu64"
    	uvoformat="$sPRIo64"
    	uvxformat="$sPRIx64"
    	uvXUformat="$sPRIXU64"
    else
    	if $test X"$ivsize" = X"$longsize"; then
    		ivdformat='"ld"'
    		uvuformat='"lu"'
    		uvoformat='"lo"'
    		uvxformat='"lx"'
    		uvXUformat='"lX"'
    	else
    		if $test X"$ivsize" = X"$intsize"; then
    			ivdformat='"d"'
    			uvuformat='"u"'
    			uvoformat='"o"'
    			uvxformat='"x"'
    			uvXUformat='"X"'
    		else
    			: far out
    			if $test X"$ivsize" = X"$shortsize"; then
    				ivdformat='"hd"'
    				uvuformat='"hu"'
    				uvoformat='"ho"'
    				uvxformat='"hx"'
    				uvXUformat='"hX"'
    			fi
    		fi
    	fi
    fi
    
    if $test X"$usequadmath" = X"$define"; then
        nveformat='"Qe"'
        nvfformat='"Qf"'
        nvgformat='"Qg"'
        nvEUformat='"QE"'
        nvFUformat='"QF"'
        nvGUformat='"QG"'
    else
        if $test X"$uselongdouble" = X"$define" -a X"$d_longdbl" = X"$define" -a X"$d_PRIgldbl" = X"$define"; then
    	nveformat="$sPRIeldbl"
    	nvfformat="$sPRIfldbl"
    	nvgformat="$sPRIgldbl"
    	nvEUformat="$sPRIEUldbl"
    	nvFUformat="$sPRIFUldbl"
    	nvGUformat="$sPRIGUldbl"
        else
    	nveformat='"e"'
    	nvfformat='"f"'
    	nvgformat='"g"'
    	nvEUformat='"E"'
    	nvFUformat='"F"'
    	nvGUformat='"G"'
        fi
    fi
    
    case "$ivdformat" in
    '') echo "$0: Fatal: failed to find format strings, cannot continue." >&4
        exit 1
        ;;
    esac
    
    : Check format string for GID
    
    echo " "
    $echo "Checking the format string to be used for gids..." >&4
    
    case "$gidsign" in
    -1)	if $test X"$gidsize" = X"$ivsize"; then
    		gidformat="$ivdformat"
    	else
    		if $test X"$gidsize" = X"$longsize"; then
    			gidformat='"ld"'
    		else
    			if $test X"$gidsize" = X"$intsize"; then
    				gidformat='"d"'
    			else
    				if $test X"$gidsize" = X"$shortsize"; then
    					gidformat='"hd"'
    				fi
    			fi
    		fi
    	fi
    	;;
    *)	if $test X"$gidsize" = X"$uvsize"; then
    		gidformat="$uvuformat"
    	else
    		if $test X"$gidsize" = X"$longsize"; then
    			gidformat='"lu"'
    		else
    			if $test X"$gidsize" = X"$intsize"; then
    				gidformat='"u"'
    			else
    				if $test X"$gidsize" = X"$shortsize"; then
    					gidformat='"hu"'
    				fi
    			fi
    		fi
    	fi
    	;;
    esac
    
    : see if getgroups exists
    set getgroups d_getgrps
    eval $inlibc
    
    : see if setgroups exists
    set setgroups d_setgrps
    eval $inlibc
    
    : Find type of 2nd arg to 'getgroups()' and 'setgroups()'
    echo " "
    case "$d_getgrps$d_setgrps" in
    *define*)
    	case "$groupstype" in
    	'') dflt="$gidtype" ;;
    	*)  dflt="$groupstype" ;;
    	esac
    	$cat <<EOM
    What type of pointer is the second argument to getgroups() and setgroups()?
    Usually this is the same as group ids, $gidtype, but not always.
    
    EOM
    	rp='What type pointer is the second argument to getgroups() and setgroups()?'
    	. ./myread
    	groupstype="$ans"
    	;;
    *)  groupstype="$gidtype";;
    esac
    
    : check whether make sets MAKE
    echo " "
    echo "Checking if your $make program sets \$(MAKE)..." >&4
    case "$make_set_make" in
    '')
    	$sed 's/^X //' > testmake.mak << 'EOF'
    Xall:
    X 	@echo 'maketemp="$(MAKE)"'
    EOF
    	case "`$make -f testmake.mak 2>/dev/null`" in
    	*maketemp=*) make_set_make='#' ;;
    	*)	make_set_make="MAKE=$make" ;;
    	esac
    	$rm -f testmake.mak
    	;;
    esac
    case "$make_set_make" in
    '#') echo "Yup, it does.";;
    *) echo "Nope, it doesn't.";;
    esac
    
    : see what type is used for mode_t
    rp="What is the type used for file modes for system calls (e.g. fchmod())?"
    set mode_t modetype int stdio.h sys/types.h
    eval $typedef_ask
    
    : see if we need va_copy
    echo " "
    $cat >try.c <<EOCP
    #include <stdarg.h>
    #include <stdio.h>
    #include <stdlib.h>
    #include <signal.h>
    
    int
    ivfprintf(FILE *f, const char *fmt, va_list *valp)
    {
      return vfprintf(f, fmt, *valp);
    }
    
    int
    myvfprintf(FILE *f, const  char *fmt, va_list val)
    {
      return ivfprintf(f, fmt, &val);
    }
    
    int
    myprintf(char *fmt, ...)
    {
      va_list val;
      va_start(val, fmt);
      return myvfprintf(stdout, fmt, val);
    }
    
    int
    main(int ac, char **av)
    {
      signal(SIGSEGV, exit);
    #ifdef SIGBUS
      signal(SIGBUS,  exit);
    #endif
    
      myprintf("%s%cs all right, then\n", "that", '\'');
      exit(0);
    }
    EOCP
    set try
    if eval $compile && $run ./try 2>&1 >/dev/null; then
    	case "`$run ./try`" in
    	"that's all right, then")
    		okay=yes
    		;;
    	esac
    fi
    case "$okay" in
    yes)	echo "It seems that you don't need va_copy()." >&4
    	need_va_copy="$undef"
    	;;
    *)	echo "It seems that va_copy() or similar will be needed." >&4
    	need_va_copy="$define"
    	;;
    esac
    $rm_try
    
    : see what type is used for size_t
    rp="What is the type used for the length parameter for string functions?"
    set size_t sizetype 'unsigned int' stdio.h sys/types.h
    eval $typedef_ask
    
    : check for type of arguments to gethostbyaddr.
    if test "X$netdb_host_type" = X -o "X$netdb_hlen_type" = X; then
    	case "$d_gethbyaddr" in
    	$define)
    		$cat <<EOM
    
    Checking to see what type of arguments are accepted by gethostbyaddr().
    EOM
    		hdrs="$define sys/types.h
    			$d_socket sys/socket.h
    			$i_niin netinet/in.h
    			$i_netdb netdb.h
    			$i_unistd unistd.h"
    		: The first arg can 'char *' or 'void *'
    		: The second arg is some of integral type
    		for xxx in in_addr_t 'const void *' 'const char *' 'void *' 'char *'; do
    			for yyy in size_t long int; do
    				case "$netdb_host_type" in
    				'')	try="$extern_C struct hostent *gethostbyaddr($xxx, $yyy, int);"
    					if ./protochk "$try" $hdrs; then
    						echo "Your system accepts $xxx for the first arg."
    						echo "...and $yyy for the second arg."
    						netdb_host_type="$xxx"
    						netdb_hlen_type="$yyy"
    					fi
    					;;
    				esac
    			done
    		done
    		: In case none of those worked, prompt the user.
    		case "$netdb_host_type" in
    		'')	rp='What is the type for the 1st argument to gethostbyaddr?'
    			dflt='char *'
    			. ./myread
    			netdb_host_type=$ans
    			rp='What is the type for the 2nd argument to gethostbyaddr?'
    			dflt="$sizetype"
    			. ./myread
    			netdb_hlen_type=$ans
    			;;
    		esac
    		;;
    	*)	: no gethostbyaddr, so pick harmless defaults
    		netdb_host_type='char *'
    		netdb_hlen_type="$sizetype"
    		;;
    	esac
    	# Remove the "const" if needed. -- but then we'll have a
    	# prototype clash!
    	# netdb_host_type=`echo "$netdb_host_type" | sed 's/^const //'`
    fi
    
    : check for type of argument to gethostbyname.
    if test "X$netdb_name_type" = X ; then
    	case "$d_gethbyname" in
    	$define)
    		$cat <<EOM
    
    Checking to see what type of argument is accepted by gethostbyname().
    EOM
    		hdrs="$define sys/types.h
    			$d_socket sys/socket.h
    			$i_niin netinet/in.h
    			$i_netdb netdb.h
    			$i_unistd unistd.h"
    		for xxx in "const char *" "char *"; do
    			case "$netdb_name_type" in
    			'')	try="$extern_C struct hostent *gethostbyname($xxx);"
    				if ./protochk "$try" $hdrs; then
    					echo "Your system accepts $xxx."
    					netdb_name_type="$xxx"
    				fi
    				;;
    			esac
    		done
    		: In case none of those worked, prompt the user.
    		case "$netdb_name_type" in
    		'')	rp='What is the type for the 1st argument to gethostbyname?'
    			dflt='char *'
    			. ./myread
    			netdb_name_type=$ans
    			;;
    		esac
    		;;
    	*)	: no gethostbyname, so pick harmless default
    		netdb_name_type='char *'
    		;;
    	esac
    fi
    
    : check for type of 1st argument to getnetbyaddr.
    if test "X$netdb_net_type" = X ; then
    	case "$d_getnbyaddr" in
    	$define)
    		$cat <<EOM
    
    Checking to see what type of 1st argument is accepted by getnetbyaddr().
    EOM
    		hdrs="$define sys/types.h
    			$d_socket sys/socket.h
    			$i_niin netinet/in.h
    			$i_netdb netdb.h
    			$i_unistd unistd.h"
    		for xxx in in_addr_t "unsigned long" long "unsigned int" int; do
    			case "$netdb_net_type" in
    			'')	try="$extern_C struct netent *getnetbyaddr($xxx, int);"
    				if ./protochk "$try" $hdrs; then
    					echo "Your system accepts $xxx."
    					netdb_net_type="$xxx"
    				fi
    				;;
    			esac
    		done
    		: In case none of those worked, prompt the user.
    		case "$netdb_net_type" in
    		'')	rp='What is the type for the 1st argument to getnetbyaddr?'
    			dflt='long'
    			. ./myread
    			netdb_net_type=$ans
    			;;
    		esac
    		;;
    	*)	: no getnetbyaddr, so pick harmless default
    		netdb_net_type='long'
    		;;
    	esac
    fi
    : locate the preferred pager for this system
    fn=f/
    case "$pager" in
    '')
    	dflt=''
    	case "$pg" in
    	/*) dflt=$pg;;
    	[a-zA-Z]:/*) dflt=$pg;;
    	esac
    	case "$more" in
    	/*) dflt=$more;;
    	[a-zA-Z]:/*) dflt=$more;;
    	esac
    	case "$less" in
    	/*) dflt=$less;;
    	[a-zA-Z]:/*) dflt=$less;;
    	esac
    	case "$dflt" in
    	'') dflt=/usr/ucb/more;;
    	esac
    	;;
    *)	dflt="$pager"
    	;;
    esac
    fn="f/($dflt)"
    echo " "
    rp='What pager is used on your system?'
    . ./getfile
    pager="$ans"
    
    : see if ar generates random libraries by itself
    echo " "
    echo "Checking how to generate random libraries on your machine..." >&4
    echo 'int bar1() { return bar2(); }' > bar1.c
    echo 'int bar2() { return 2; }' > bar2.c
    $cat > foo.c <<EOP
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    int main() { printf("%d\n", bar1()); exit(0); }
    EOP
    $cc $ccflags -c bar1.c >/dev/null 2>&1
    $cc $ccflags -c bar2.c >/dev/null 2>&1
    $cc $ccflags -c foo.c >/dev/null 2>&1
    $ar rc bar$_a bar2$_o bar1$_o >/dev/null 2>&1
    if $cc -o foobar $ccflags $ldflags foo$_o bar$_a $libs > /dev/null 2>&1 &&
    	$run ./foobar >/dev/null 2>&1; then
    	echo "$ar appears to generate random libraries itself."
    	orderlib=false
    	if [ "X$ranlib" = "X" ]; then
    	    ranlib=":"
    	fi
    elif $ar s bar$_a >/dev/null 2>&1 &&
    	$cc -o foobar $ccflags $ldflags foo$_o bar$_a $libs > /dev/null 2>&1 &&
    	$run ./foobar >/dev/null 2>&1; then
    		echo "a table of contents needs to be added with '$ar s'."
    		orderlib=false
    		ranlib="$ar s"
    elif $ar ts bar$_a >/dev/null 2>&1 &&
    	$cc -o foobar $ccflags $ldflags foo$_o bar$_a $libs > /dev/null 2>&1 &&
    	$run ./foobar >/dev/null 2>&1; then
    		echo "a table of contents needs to be added with '$ar ts'."
    		orderlib=false
    		ranlib="$ar ts"
    else
    	case "$ranlib" in
    	:) ranlib='';;
    	'')
    		ranlib=`./loc ranlib X /usr/bin /bin /usr/local/bin`
    		$test -f $ranlib || ranlib=''
    		;;
    	esac
    	if $test -n "$ranlib"; then
    		echo "your system has '$ranlib'; we'll use that."
    		orderlib=false
    	else
    		echo "your system doesn't seem to support random libraries"
    		echo "so we'll use lorder and tsort to order the libraries."
    		orderlib=true
    		ranlib=":"
    	fi
    fi
    $rm -f foo* bar*
    
    : Check the max offset that gmtime and localtime accept
    echo "Checking max offsets that gmtime () accepts"
    
    case "$sGMTIME_min/$sGMTIME_max" in
        0/0|/)
    	$cat >try.c <<EOCP
    #include <sys/types.h>
    #include <stdio.h>
    #include <time.h>
    
    int i;
    struct tm *tmp;
    time_t pt;
    
    void gm_check (time_t t, int min_year, int max_year)
    {
        tmp = gmtime (&t);
        if ( tmp == NULL ||
    	/* Check tm_year overflow */
    	 tmp->tm_year < min_year || tmp->tm_year > max_year)
    	tmp = NULL;
        else
    	pt = t;
        } /* gm_check */
    
    int check_max ()
    {
        tmp = NULL;
        pt  = 0;
    #ifdef MAXLONG
        gm_check (MAXLONG, 69, 0x7fffffff);
    #endif
        if (tmp == NULL || tmp->tm_year < 0) {
    	for (i = 63; i >= 0; i--) {
    	    time_t x = pt | ((time_t)1 << i);
    	    if (x < 0 || x < pt) continue;
    	    gm_check (x, 69, 0x7fffffff);
    	    }
    	}
        printf ("sGMTIME_max=%ld\n", pt);
        return (0);
        } /* check_max */
    
    int check_min ()
    {
        tmp = NULL;
        pt  = 0;
    #ifdef MINLONG
        gm_check (MINLONG, -1900, 70);
    #endif
        if (tmp == NULL) {
    	for (i = 36; i >= 0; i--) {
    	    time_t x = pt - ((time_t)1 << i);
    	    if (x > 0) continue;
    	    gm_check (x, -1900, 70);
    	    }
    	}
        printf ("sGMTIME_min=%ld\n", pt);
        return (0);
        } /* check_min */
    
    int main (int argc, char *argv[])
    {
        /* fprintf (stderr, "Sizeof time_t = %ld\n", sizeof (time_t)); */
        check_max ();
        check_min ();
        return (0);
        } /* main */
    EOCP
    	set try
    	if eval $compile; then
    	    eval `$run ./try 2>/dev/null`
    	else
    	    echo "Cannot determine sGMTIME_max and sGMTIME_min." >&4
    	    fi
    	$rm_try
    	;;
        esac
    
    echo "Checking max offsets that localtime () accepts"
    
    case "$sLOCALTIME_min/$sLOCALTIME_max" in
        0/0|/)
    	$cat >try.c <<EOCP
    #include <sys/types.h>
    #include <stdio.h>
    #include <time.h>
    
    int i;
    struct tm *tmp;
    time_t pt;
    
    void local_check (time_t t, int min_year, int max_year)
    {
        if (sizeof (time_t) > 4 && t > 0x7ffffffffffff000LL)
    	tmp = NULL;
        else
    	tmp = localtime (&t);
        if ( tmp == NULL ||
    	/* Check tm_year overflow */
    	 tmp->tm_year < min_year || tmp->tm_year > max_year)
    	tmp = NULL;
        else
    	pt = t;
        } /* local_check */
    
    int check_max ()
    {
        tmp = NULL;
        pt  = 0;
    #ifdef MAXLONG
        local_check (MAXLONG, 69, 0x7fffffff);
    #endif
        if (tmp == NULL || tmp->tm_year < 0) {
    	for (i = 63; i >= 0; i--) {
    	    time_t x = pt | ((time_t)1 << i);
    	    if (x < 0 || x < pt) continue;
    	    local_check (x, 69, 0x7fffffff);
    	    }
    	}
        printf ("sLOCALTIME_max=%ld\n", pt);
        return (0);
       } /* check_max */
    
    int check_min ()
    {
        tmp = NULL;
        pt  = 0;
    #ifdef MINLONG
        local_check (MINLONG, -1900, 70);
    #endif
        if (tmp == NULL) {
    	for (i = 36; i >= 0; i--) {
    	    time_t x = pt - ((time_t)1 << i);
    	    if (x > 0) continue;
    	    local_check (x, -1900, 70);
    	    }
    	}
        printf ("sLOCALTIME_min=%ld\n", pt);
        return (0);
        } /* check_min */
    
    int main (int argc, char *argv[])
    {
        check_max ();
        check_min ();
        return (0);
        } /* main */
    EOCP
    	set try
    	if eval $compile; then
    	    eval `$run ./try 2>/dev/null`
    	else
    	    echo "Cannot determine sLOCALTIME_max and sLOCALTIME_min." >&4
    	    fi
    	$rm_try
    	;;
        esac
    
    : check for type of arguments to select.
    case "$selecttype" in
    '') case "$d_select" in
    	$define)
    		echo " "
    		$cat <<EOM
    Checking to see what type of arguments are accepted by select().
    EOM
    		hdrs="$define sys/types.h
    			$i_systime sys/time.h
    			$i_sysselct sys/select.h
    			$d_socket sys/socket.h"
    		: The first arg can be int, unsigned, or size_t
    		: The last arg may or may not be 'const'
    		val=''
    		: void pointer has been seen but using that
    		: breaks the selectminbits test
    		for xxx in 'fd_set *' 'int *'; do
    			for nfd in 'int' 'size_t' 'unsigned long' 'unsigned' ; do
    				for tmo in 'struct timeval *' 'const struct timeval *'; do
    					case "$val" in
    					'')	try="$extern_C select _(($nfd, $xxx, $xxx, $xxx, $tmo));"
    						if ./protochk "$try" $hdrs; then
    							echo "Your system accepts $xxx."
    							val="$xxx"
    						fi
    						;;
    					esac
    				done
    			done
    		done
    		case "$val" in
    		'')	rp='What is the type for the 2nd, 3rd, and 4th arguments to select?'
    			case "$d_fd_set" in
    				$define) dflt="fd_set *" ;;
    				*)		dflt="int *" ;;
    			esac
    			. ./myread
    			val=$ans
    			;;
    		esac
    		selecttype="$val"
    		;;
    	*)	: no select, so pick a harmless default
    		selecttype='int *'
    		;;
    	esac
    	;;
    esac
    
    : check for the select 'width'
    case "$selectminbits" in
    '') safebits=`expr $ptrsize \* 8`
        case "$d_select" in
    	$define)
    		$cat <<EOM
    
    Checking to see on how many bits at a time your select() operates...
    EOM
    		$cat >try.c <<EOCP
    #include <sys/types.h>
    #$i_time I_TIME
    #$i_systime I_SYS_TIME
    #$i_systimek I_SYS_TIME_KERNEL
    #ifdef I_TIME
    #   include <time.h>
    #endif
    #ifdef I_SYS_TIME
    #   ifdef I_SYS_TIME_KERNEL
    #	define KERNEL
    #   endif
    #   include <sys/time.h>
    #   ifdef I_SYS_TIME_KERNEL
    #	undef KERNEL
    #   endif
    #endif
    #$i_sysselct I_SYS_SELECT
    #ifdef I_SYS_SELECT
    #include <sys/select.h>
    #endif
    #$d_socket HAS_SOCKET
    #ifdef HAS_SOCKET
    #   include <sys/socket.h> /* Might include <sys/bsdtypes.h> */
    #endif
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    $selecttype b;
    #define S sizeof(*(b))
    #define MINBITS	64
    #define NBYTES (S * 8 > MINBITS ? S : MINBITS/8)
    #define NBITS  (NBYTES * 8)
    int main() {
        char *s = (char *)malloc(NBYTES);
        struct timeval t;
        int i;
        FILE* fp;
        int fd;
    
        if (!s)
    	exit(1);
        fclose(stdin);
        fp = fopen("try.c", "r");
        if (fp == 0)
          exit(2);
        fd = fileno(fp);
        if (fd < 0)
          exit(3);
        b = ($selecttype)s;
        for (i = 0; i < NBITS; i++)
    	FD_SET(i, b);
        t.tv_sec  = 0;
        t.tv_usec = 0;
        select(fd + 1, b, 0, 0, &t);
        for (i = NBITS - 1; i > fd && FD_ISSET(i, b); i--);
        free(s);
        printf("%d\n", i + 1);
        return 0;
    }
    EOCP
    		set try
    		if eval $compile_ok; then
    			selectminbits=`$run ./try 2>/dev/null`
    			case "$selectminbits" in
    			'')	cat >&4 <<EOM
    Cannot figure out on how many bits at a time your select() operates.
    I'll play safe and guess it is $safebits bits.
    EOM
    				selectminbits=$safebits
    				bits="$safebits bits"
    				;;
    			1)	bits="1 bit" ;;
    			*)	bits="$selectminbits bits" ;;
    			esac
    			echo "Your select() operates on $bits at a time." >&4
    		else
    			rp='What is the minimum number of bits your select() operates on?'
    			case "$byteorder" in
    			12345678)	dflt=64 ;;
    			1234)		dflt=32 ;;
    			*)		dflt=1	;;
    			esac
    			. ./myread
    			val=$ans
    			selectminbits="$val"
    		fi
    		$rm_try
    		;;
    	*)	: no select, so pick a harmless default
    		selectminbits=$safebits
    		;;
    	esac
    	;;
    esac
    
    : Trace out the files included by signal.h, then look for SIGxxx names.
    case "$sig_num_init" in
    '')
    if [ "X$fieldn" = X ]; then
    	: Just make some guesses.  We check them later.
    	xxx="$sysroot/usr/include/signal.h $sysroot/usr/include/sys/signal.h"
    else
    	xxx=`echo '#include <signal.h>' |
    	$cppstdin $cppminus $cppflags 2>/dev/null |
    	$grep '^[ 	]*#.*include' |
    	$awk "{print \\$$fieldn}" | $sed 's!"!!g' |\
    		$sed 's!\\\\\\\\!/!g' | $sort | $uniq`
    fi
    xxxfiles=''
    for xx in $xxx /dev/null ; do
    	$test -f "$xx" && xxxfiles="$xxxfiles $xx"
    done
    case "$xxxfiles" in
    '')	xxxfiles=`./findhdr signal.h` ;;
    esac
    xxx=`awk '
    $1 ~ /^#define$/ && $2 ~ /^SIG[A-Z0-9]*$/ && $2 !~ /SIGARRAYSIZE/ && $2 !~ /SIGSTKSIZE/ && $2 !~ /SIGSTKSZ/ && $3 !~ /void/ {
    	print substr($2, 4, 20)
    }
    $1 == "#" && $2 ~ /^define$/ && $3 ~ /^SIG[A-Z0-9]*$/ && $3 !~ /SIGARRAYSIZE/ && $4 !~ /void/ {
    	print substr($3, 4, 20)
    }' $xxxfiles`
    : Append some common names just in case the awk scan failed.
    xxx="$xxx ABRT ALRM BUS CANCEL CHLD CLD CONT DIL EMT FPE"
    xxx="$xxx FREEZE HUP ILL INT IO IOT KILL LOST LWP PHONE"
    xxx="$xxx PIPE POLL PROF PWR QUIT RTMAX RTMIN SEGV STKFLT STOP"
    xxx="$xxx SYS TERM THAW TRAP TSTP TTIN TTOU URG USR1 USR2"
    xxx="$xxx USR3 USR4 VTALRM WAITING WINCH WIND WINDOW XCPU XFSZ"
    
    : generate a few handy files for later
    $cat > signal.c <<EOCP
    #include <sys/types.h>
    #include <signal.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #include <stdio.h>
    int main() {
    
    /* Strange style to avoid deeply-nested #if/#else/#endif */
    #ifndef NSIG
    #  ifdef _NSIG
    #    define NSIG (_NSIG)
    #  endif
    #endif
    
    #ifndef NSIG
    #  ifdef SIGMAX
    #    define NSIG (SIGMAX+1)
    #  endif
    #endif
    
    #ifndef NSIG
    #  ifdef SIG_MAX
    #    define NSIG (SIG_MAX+1)
    #  endif
    #endif
    
    #ifndef NSIG
    #  ifdef _SIG_MAX
    #    define NSIG (_SIG_MAX+1)
    #  endif
    #endif
    
    #ifndef NSIG
    #  ifdef MAXSIG
    #    define NSIG (MAXSIG+1)
    #  endif
    #endif
    
    #ifndef NSIG
    #  ifdef MAX_SIG
    #    define NSIG (MAX_SIG+1)
    #  endif
    #endif
    
    #ifndef NSIG
    #  ifdef SIGARRAYSIZE
    #    define NSIG SIGARRAYSIZE /* Assume ary[SIGARRAYSIZE] */
    #  endif
    #endif
    
    #ifndef NSIG
    #  ifdef _sys_nsig
    #    define NSIG (_sys_nsig) /* Solaris 2.5 */
    #  endif
    #endif
    
    /* Default to some arbitrary number that's big enough to get most
       of the common signals.
    */
    #ifndef NSIG
    #    define NSIG 50
    #endif
    
    printf("NSIG %d\n", NSIG);
    
    #ifndef JUST_NSIG
    
    EOCP
    
    echo $xxx | $tr ' ' $trnl | $sort | $uniq | $awk '
    {
    	printf "#ifdef SIG"; printf $1; printf "\n"
    	printf "printf(\""; printf $1; printf " %%d\\n\",SIG";
    	printf $1; printf ");\n"
    	printf "#endif\n"
    }
    END {
    	printf "#endif /* JUST_NSIG */\n";
    	printf "exit(0);\n}\n";
    }
    ' >>signal.c
    $cat >signal.awk <<'EOP'
    BEGIN { ndups = 0 }
    $1 ~ /^NSIG$/ { nsig = $2 }
    ($1 !~ /^NSIG$/) && (NF == 2) && ($2 ~ /^[0-9][0-9]*$/) {
        if ($2 > maxsig) { maxsig = $2 }
        if (sig_name[$2]) {
    	dup_name[ndups] = $1
    	dup_num[ndups] = $2
    	ndups++
        }
        else {
    	sig_name[$2] = $1
    	sig_num[$2] = $2
        }
    }
    END {
        if (nsig == 0) {
        	nsig = maxsig + 1
        }
        printf("NSIG %d\n", nsig);
        for (n = 1; n < nsig; n++) {
     	if (sig_name[n]) {
     	    printf("%s %d\n", sig_name[n], sig_num[n])
    	}
     	else {
     	    printf("NUM%d %d\n", n, n)
     	}
        }
        for (n = 0; n < ndups; n++) {
     	printf("%s %d\n", dup_name[n], dup_num[n])
        }
    }
    EOP
    $cat >signal_cmd <<EOS
    $startsh
    if $test -s signal.lst; then
        echo "Using your existing signal.lst file"
    	exit 0
    fi
    xxx="$xxx"
    EOS
    $cat >>signal_cmd <<'EOS'
    
    set signal
    if eval $compile_ok; then
    	$run ./signal$_exe | ($sort -n -k 2 2>/dev/null || $sort -n +1) |\
    		$uniq | $awk -f signal.awk >signal.lst
    else
    	echo "(I can't seem be able to compile the whole test program)" >&4
    	echo "(I'll try it in little pieces.)" >&4
    	set signal -DJUST_NSIG
    	if eval $compile_ok; then
    		$run ./signal$_exe > signal.nsg
    		$cat signal.nsg
    	else
    		echo "I can't seem to figure out how many signals you have." >&4
    		echo "Guessing 50." >&4
    		echo 'NSIG 50' > signal.nsg
    	fi
    	: Now look at all the signal names, one at a time.
    	for xx in `echo $xxx | $tr ' ' $trnl | $sort | $uniq`; do
    		$cat > signal.c <<EOCP
    #include <sys/types.h>
    #include <signal.h>
    #include <stdio.h>
    int main() {
    printf("$xx %d\n", SIG${xx});
    return 0;
    }
    EOCP
    		set signal
    		if eval $compile; then
    			echo "SIG${xx} found."
    			$run ./signal$_exe  >> signal.ls1
    		else
    			echo "SIG${xx} NOT found."
    		fi
    	done
    	if $test -s signal.ls1; then
    		$cat signal.nsg signal.ls1 |
    			$sort -n | $uniq | $awk -f signal.awk >signal.lst
    	fi
    
    fi
    if $test -s signal.lst; then
    	:
    else
    	echo "(AAK! I can't compile the test programs -- Guessing)" >&4
    	echo 'kill -l' >signal
    	set X `csh -f <signal`
    	$rm -f signal
    	shift
    	case $# in
    	0) set HUP INT QUIT ILL TRAP ABRT EMT FPE KILL BUS SEGV SYS PIPE ALRM TERM;;
    	esac
    	echo $@ | $tr ' ' $trnl | \
     	    $awk '{ printf "%s %d\n", $1, ++s; }
     		  END { printf "NSIG %d\n", ++s }' >signal.lst
    fi
    $rm -f signal.c signal$_exe signal$_o signal.nsg signal.ls1
    EOS
    chmod a+x signal_cmd
    $eunicefix signal_cmd
    ;;
    esac
    
    : generate list of signal names
    case "$sig_num_init" in
    '')
    echo " "
    case "$sig_name_init" in
    '') doinit=yes ;;
    *)  case "$sig_num_init" in
        ''|*,*) doinit=yes ;;
        esac ;;
    esac
    case "$doinit" in
    yes)
    	echo "Generating a list of signal names and numbers..." >&4
    	. ./signal_cmd
    	sig_count=`$awk '/^NSIG/ { printf "%d", $2 }' signal.lst`
    	sig_name=`$awk 'BEGIN { printf "ZERO " }
    			!/^NSIG/ { printf "%s ", $1 }' signal.lst`
    	sig_num=`$awk  'BEGIN { printf "0 " }
    			!/^NSIG/ { printf "%d ", $2 }' signal.lst`
    	sig_name_init=`$awk 'BEGIN	{ printf "\"ZERO\", " }
    			     !/^NSIG/	{ printf "\"%s\", ", $1 }
    			     END	{ printf "0\n" }' signal.lst`
    	sig_num_init=`$awk  'BEGIN	{ printf "0, " }
    			     !/^NSIG/	{ printf "%d, ", $2}
    			     END	{ printf "0\n"}' signal.lst`
    	;;
    esac
    echo "The following $sig_count signals are available:"
    echo " "
    echo $sig_name | $awk \
    'BEGIN { linelen = 0 }
    {
    	for (i = 1; i <= NF; i++) {
    		name = "SIG" $i " "
    		linelen = linelen + length(name)
    		if (linelen > 70) {
    			printf "\n"
    			linelen = length(name)
    		}
    		printf "%s", name
    	}
    	printf "\n"
    }'
    sig_size=`echo $sig_name | awk '{print NF}'`
    $rm -f signal signal.c signal.awk signal.lst signal_cmd
    ;;
    esac
    
    : Check size of size
    echo " "
    case "$sizetype" in
    *_t) zzz="$sizetype"	;;
    *)   zzz="filesize"	;;
    esac
    echo "Checking the size of $zzz..." >&4
    cat > try.c <<EOCP
    #include <sys/types.h>
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    int main() {
        printf("%d\n", (int)sizeof($sizetype));
        exit(0);
    }
    EOCP
    set try
    if eval $compile_ok; then
    	yyy=`$run ./try`
    	case "$yyy" in
    	'')	sizesize=4
    		echo "(I can't execute the test program--guessing $sizesize.)" >&4
    		;;
    	*)	sizesize=$yyy
    		echo "Your $zzz size is $sizesize bytes."
    		;;
    	esac
    else
    	sizesize=4
    	echo "(I can't compile the test program--guessing $sizesize.)" >&4
    fi
    
    : check for socklen_t
    echo " "
    echo "Checking to see if you have socklen_t..." >&4
    $cat >try.c <<EOCP
    #include <sys/types.h>
    #$d_socket HAS_SOCKET
    #ifdef HAS_SOCKET
    #include <sys/socket.h>
    #endif
    int main() { socklen_t x = 16; }
    EOCP
    set try
    if eval $compile; then
    	val="$define"
    	echo "You have socklen_t."
    else
    	val="$undef"
    	echo "You do not have socklen_t."
    	case "$sizetype" in
    	size_t) echo "(You do have size_t, that might work. Some people are happy with just an int.)" ;;
    	esac
    fi
    $rm_try
    set d_socklen_t
    eval $setvar
    
    : see if this is a socks.h system
    set socks.h i_socks
    eval $inhdr
    
    : check for type of the size argument to socket calls
    case "$d_socket" in
    "$define")
    	$cat <<EOM
    
    Checking to see what type is the last argument of accept().
    EOM
    	yyy=''
    	case "$d_socklen_t" in
    	"$define") yyy="$yyy socklen_t"
    	esac
    	yyy="$yyy $sizetype int long unsigned"
    	for xxx in $yyy; do
    		case "$socksizetype" in
    		'')	try="$extern_C int accept(int, struct sockaddr *, $xxx *);"
    			case "$usesocks" in
    			"$define")
    				if ./protochk "$try" $i_systypes sys/types.h $d_socket sys/socket.h literal '#define INCLUDE_PROTOTYPES' $i_socks socks.h.; then
    					echo "Your system accepts '$xxx *' for the last argument of accept()."
    					socksizetype="$xxx"
    				fi
    				;;
    			*)	if ./protochk "$try"  $i_systypes sys/types.h $d_socket sys/socket.h; then
    					echo "Your system accepts '$xxx *' for the last argument of accept()."
    					socksizetype="$xxx"
    				fi
    				;;
    			esac
    			;;
    		esac
    	done
    : In case none of those worked, prompt the user.
    	case "$socksizetype" in
    	'')	rp='What is the type for socket address structure sizes?'
    		dflt='int'
    		. ./myread
    		socksizetype=$ans
    		;;
    	esac
    	;;
    *)	: no sockets, so pick relatively harmless default
    	socksizetype='int'
    	;;
    esac
    
    : see what type is used for signed size_t
    set ssize_t ssizetype int stdio.h sys/types.h
    eval $typedef
    dflt="$ssizetype"
    $cat > try.c <<EOM
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    #include <sys/types.h>
    #define Size_t $sizetype
    #define SSize_t $dflt
    int main()
    {
    	if (sizeof(Size_t) == sizeof(SSize_t))
    		printf("$dflt\n");
    	else if (sizeof(Size_t) == sizeof(int))
    		printf("int\n");
    	else
    		printf("long\n");
    	exit(0);
    }
    EOM
    echo " "
    set try
    if eval $compile_ok && $run ./try > /dev/null; then
    	ssizetype=`$run ./try`
    	echo "I'll be using $ssizetype for functions returning a byte count." >&4
    else
    	$cat >&4 <<EOM
    Help! I can't compile and run the ssize_t test program: please enlighten me!
    (This is probably a misconfiguration in your system or libraries, and
    you really ought to fix it.  Still, I'll try anyway.)
    
    I need a type that is the same size as $sizetype, but is guaranteed to
    be signed.  Common values are ssize_t, int and long.
    
    EOM
    	rp="What signed type is the same size as $sizetype?"
    	. ./myread
    	ssizetype="$ans"
    fi
    $rm_try
    
    : Check the size of st_dev
    $echo " "
    $echo "Checking the size of st_dev..." >&4
    $cat > try.c <<EOCP
    #include <sys/stat.h>
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    int main() {
        struct stat st;
        printf("%d\n", (int)sizeof(st.st_dev));
        exit(0);
    }
    EOCP
    set try
    if eval $compile_ok; then
    	val=`$run ./try`
    	case "$val" in
    	'')	st_dev_size=4
    		$echo "(I can't execute the test program--guessing $st_dev_size.)" >&4
    		;;
    	*)	st_dev_size=$val
    		$echo "Your st_dev is $st_dev_size bytes long."
    		;;
    	esac
    else
    	st_dev_size=4
    	$echo "(I can't compile the test program--guessing $st_dev_size.)" >&4
    fi
    $rm_try
    
    : Check if st_dev is signed
    $echo " "
    $echo "Checking the sign of st_dev..." >&4
    $cat > try.c <<EOCP
    #include <sys/stat.h>
    #include <stdio.h>
    int main() {
    	struct stat foo;
            foo.st_dev = -1;
    	if (foo.st_dev < 0)
    		printf("-1\n");
    	else
    		printf("1\n");
    }
    EOCP
    set try
    if eval $compile; then
    	val=`$run ./try`
    	case "$val" in
    	'')	st_dev_sign=1
    		$echo "(I can't execute the test program--guessing unsigned.)" >&4
    		;;
    	*)	st_dev_sign=$val
    		case "$st_dev_sign" in
    		 1) $echo "Your st_dev is unsigned." ;;
    		-1) $echo "Your st_dev is signed."   ;;
    		esac
    		;;
    	esac
    else
    	st_dev_sign=1
    	$echo "(I can't compile the test program--guessing unsigned.)" >&4
    fi
    $rm_try
    
    : Check the size of st_ino
    $echo " "
    $echo "Checking the size of st_ino..." >&4
    $cat > try.c <<EOCP
    #include <sys/stat.h>
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    int main() {
        struct stat st;
        printf("%d\n", (int)sizeof(st.st_ino));
        exit(0);
    }
    EOCP
    set try
    if eval $compile_ok; then
    	val=`$run ./try`
    	case "$val" in
    	'')	st_ino_size=4
    		$echo "(I can't execute the test program--guessing $st_ino_size.)" >&4
    		;;
    	*)	st_ino_size=$val
    		$echo "Your st_ino is $st_ino_size bytes long."
    		;;
    	esac
    else
    	st_ino_size=4
    	$echo "(I can't compile the test program--guessing $st_ino_size.)" >&4
    fi
    $rm_try
    
    : Check if st_ino is signed
    $echo " "
    $echo "Checking the sign of st_ino..." >&4
    $cat > try.c <<EOCP
    #include <sys/stat.h>
    #include <stdio.h>
    int main() {
    	struct stat foo;
            foo.st_ino = -1;
    	if (foo.st_ino < 0)
    		printf("-1\n");
    	else
    		printf("1\n");
    }
    EOCP
    set try
    if eval $compile; then
    	val=`$run ./try`
    	case "$val" in
    	'')	st_ino_sign=1
    		$echo "(I can't execute the test program--guessing unsigned.)" >&4
    		;;
    	*)	st_ino_sign=$val
    		case "$st_ino_sign" in
    		 1) $echo "Your st_ino is unsigned." ;;
    		-1) $echo "Your st_ino is signed."   ;;
    		esac
    		;;
    	esac
    else
    	st_ino_sign=1
    	$echo "(I can't compile the test program--guessing unsigned.)" >&4
    fi
    $rm_try
    
    : see what type of char stdio uses.
    echo " "
    echo '#include <stdio.h>' | $cppstdin $cppminus > stdioh
    if $contains 'unsigned.*char.*_ptr;' stdioh >/dev/null 2>&1 ; then
    	echo "Your stdio uses unsigned chars." >&4
    	stdchar="unsigned char"
    else
    	echo "Your stdio uses signed chars." >&4
    	stdchar="char"
    fi
    $rm -f stdioh
    
    : Check size of UID
    echo " "
    case "$uidtype" in
    *_t) zzz="$uidtype"	;;
    *)   zzz="uid"		;;
    esac
    echo "Checking the size of $zzz..." >&4
    cat > try.c <<EOCP
    #include <sys/types.h>
    #include <stdio.h>
    #$i_stdlib I_STDLIB
    #ifdef I_STDLIB
    #include <stdlib.h>
    #endif
    int main() {
        printf("%d\n", (int)sizeof($uidtype));
        exit(0);
    }
    EOCP
    set try
    if eval $compile_ok; then
    	yyy=`$run ./try`
    	case "$yyy" in
    	'')	uidsize=4
    		echo "(I can't execute the test program--guessing $uidsize.)" >&4
    		;;
    	*)	uidsize=$yyy
    		echo "Your $zzz is $uidsize bytes long."
    		;;
    	esac
    else
    	uidsize=4
    	echo "(I can't compile the test program--guessing $uidsize.)" >&4
    fi
    
    : Check if UID is signed
    echo " "
    case "$uidtype" in
    *_t) zzz="$uidtype"	;;
    *)   zzz="uid"		;;
    esac
    echo "Checking the sign of $zzz..." >&4
    cat > try.c <<EOCP
    #include <sys/types.h>
    #include <stdio.h>
    int main() {
    	$uidtype foo = -1;
    	if (foo < 0)
    		printf("-1\n");
    	else
    		printf("1\n");
    }
    EOCP
    set try
    if eval $compile; then
    	yyy=`$run ./try`
    	case "$yyy" in
    	'')	uidsign=1
    		echo "(I can't execute the test program--guessing unsigned.)" >&4
    		;;
    	*)	uidsign=$yyy
    		case "$uidsign" in
    		 1) echo "Your $zzz is unsigned." ;;
    		-1) echo "Your $zzz is signed."   ;;
    		esac
    		;;
    	esac
    else
    	uidsign=1
    	echo "(I can't compile the test program--guessing unsigned.)" >&4
    fi
    
    : Check format string for UID
    echo " "
    $echo "Checking the format string to be used for uids..." >&4
    
    case "$uidsign" in
    -1)	if $test X"$uidsize" = X"$ivsize"; then
    		uidformat="$ivdformat"
    	else
    		if $test X"$uidsize" = X"$longsize"; then
    			uidformat='"ld"'
    		else
    			if $test X"$uidsize" = X"$intsize"; then
    				uidformat='"d"'
    			else
    				if $test X"$uidsize" = X"$shortsize"; then
    					uidformat='"hd"'
    				fi
    			fi
    		fi
    	fi
    	;;
    *)	if $test X"$uidsize" = X"$uvsize"; then
    		uidformat="$uvuformat"
    	else
    		if $test X"$uidsize" = X"$longsize"; then
    			uidformat='"lu"'
    		else
    			if $test X"$uidsize" = X"$intsize"; then
    				uidformat='"u"'
    			else
    				if $test X"$uidsize" = X"$shortsize"; then
    					uidformat='"hu"'
    				fi
    			fi
    		fi
    	fi
    	;;
    esac
    
    : Ask about strict by default.
    case "$usedefaultstrict" in
        $define|true|[Yy]*)
           dflt="y"
           ;;
        *)
           dflt="n"
           ;;
        esac
    
    cat <<EOM
    
    EXPERIMENTAL: Perl can now be built with strict on by default when not
    invoked with -e or -E. This is a diagnostic tool for development.
    
    Unless you are familiar with this feature, you should probably answer 'no'.
    
    EOM
    
    rp='Would you like to build perl with strict enabled by default?'
    . ./myread
    case "$ans" in
    y|Y) val="$define" ;;
    *)   val="$undef"  ;;
    esac
    set usedefaultstrict
    eval $setvar
    
    : Determine if we can use sysctl with KERN_PROC_PATHNAME to find executing program
    echo " "
    echo "Determining whether we can use sysctl with KERN_PROC_PATHNAME to find executing program..." >&4
    $cat >try.c <<'EOM'
    /* Intentionally a long probe as I'd like to sanity check that the exact
       approach is going to work, as thinking it will work, but only having it
       part working at runtime is worse than not having it.  */
    
    #include <sys/types.h>
    #include <sys/sysctl.h>
    #include <sys/param.h>
    #include <stdio.h>
    #include <string.h>
    #include <stdlib.h>
    #include <unistd.h>
    
    int
    main(int argc, char **argv) {
        char *buffer;
        char *argv_leaf = strrchr(argv[0], '/');
        char *buffer_leaf;
        size_t size = 0;
        int mib[4];
    
        mib[0] = CTL_KERN;
        mib[1] = KERN_PROC;
        mib[2] = KERN_PROC_PATHNAME;
        mib[3] = -1;
    
        if (!argv_leaf) {
    	fprintf(stderr, "Can't locate / in '%s'\n", argv[0]);
    	return 1;
        }
    
        if (sysctl(mib, 4, NULL, &size, NULL, 0)) {
    	perror("sysctl");
    	return 2;
        }
    
        if (size < strlen(argv_leaf) + 1) {
    	fprintf(stderr, "size %lu is too short for a path\n",
    		(unsigned long) size);
    	return 3;
        }
    
        if (size > MAXPATHLEN * MAXPATHLEN) {
    	fprintf(stderr, "size %lu is too long for a path\n",
    		(unsigned long) size);
    	return 4;
        }
    
        buffer = (char *)malloc(size);
        if (!buffer) {
    	perror("malloc");
    	return 5;
        }
    
        if (sysctl(mib, 4, buffer, &size, NULL, 0)) {
    	perror("sysctl");
    	return 6;
        }
    
        if (strlen(buffer) + 1 != size) {
    	fprintf(stderr, "size != strlen(buffer) + 1 (%lu != %lu)\n",
    		(unsigned long)size, (unsigned long)strlen(buffer) + 1);
            return 7;
        }
    
    
        if (*buffer != '/') {
    	fprintf(stderr, "Not an absolute path: '%s'\n", buffer);
    	return 8;
        }
    
        if (strstr(buffer, "/./")) {
    	fprintf(stderr, "Contains /./: '%s'\n", buffer);
    	return 9;
        }
    
        if (strstr(buffer, "/../")) {
    	fprintf(stderr, "Contains /../: '%s'\n", buffer);
    	return 10;
        }
    
        buffer_leaf = strrchr(buffer, '/');
        if (strcmp(buffer_leaf, argv_leaf) != 0) {
    	fprintf(stderr, "Leafnames differ: '%s' vs '%s'\n", argv[0], buffer);
    	return 11;
        }
    
        free(buffer);
    
        return 0;
    }
    EOM
    
    val=$undef
    set try
    if eval $compile; then
    	if $run ./try; then
    		echo "You can use sysctl with KERN_PROC_PATHNAME to find the executing program." >&4
    		val="$define"
    	else
    		echo "Nope, sysctl with KERN_PROC_PATHNAME doesn't work here." >&4
    		val="$undef"
    	fi
    else
    	echo "I'm unable to compile the test program." >&4
    	echo "I'll assume no sysctl with KERN_PROC_PATHNAME here." >&4
    	val="$undef"
    fi
    $rm_try
    set usekernprocpathname
    eval $setvar
    
    : Determine if we can use _NSGetExecutablePath to find executing program
    echo " "
    echo "Determining whether we can use _NSGetExecutablePath to find executing program..." >&4
    $cat >try.c <<'EOM'
    /* Intentionally a long probe as I'd like to sanity check that the exact
       approach is going to work, as thinking it will work, but only having it
       part working at runtime is worse than not having it.  */
    #include <mach-o/dyld.h>
    #include <stdio.h>
    #include <stdlib.h>
    #include <sys/param.h>
    #include <string.h>
    
    int
    main(int argc, char **argv) {
        char buf[1];
        uint32_t size = sizeof(buf);
        int result;
        char *buffer;
        char *tidied;
        char *argv_leaf = strrchr(argv[0], '/');
        char *tidied_leaf;
    
        if (!argv_leaf) {
    	fprintf(stderr, "Can't locate / in '%s'\n", argv[0]);
    	return 1;
        }
    
        _NSGetExecutablePath(buf, &size);
        if (size > MAXPATHLEN * MAXPATHLEN) {
    	fprintf(stderr, "_NSGetExecutablePath size %u is too long for a path\n",
    		(unsigned int) size);
    	return 2;
        }
    
        buffer = (char *)malloc(size);
        if (!buffer) {
    	perror("malloc");
    	return 3;
        }
    
        result = _NSGetExecutablePath(buffer, &size);
        if (result != 0) {
    	fprintf(stderr, "_NSGetExecutablePath returned %i for a size of %u\n",
    		result, (unsigned int) size);
    	return 4;
        }
    
        tidied = realpath(buffer, NULL);
        if (!tidied) {
    	perror("realpath");
    	return 5;
        }
    
        free(buffer);
    
        if (*tidied != '/') {
    	fprintf(stderr, "Not an absolute path: '%s'\n", tidied);
    	return 6;
        }
    
        if (strstr(tidied, "/./")) {
    	fprintf(stderr, "Contains /./: '%s'\n", tidied);
    	return 7;
        }
    
        if (strstr(tidied, "/../")) {
    	fprintf(stderr, "Contains /../: '%s'\n", tidied);
    	return 8;
        }
    
        tidied_leaf = strrchr(tidied, '/');
        if (strcmp(tidied_leaf, argv_leaf) != 0) {
    	fprintf(stderr, "Leafnames differ: '%s' vs '%s'\n", argv[0], tidied);
    	return 9;
        }
    
        free(tidied);
    
        return 0;
    }
    EOM
    
    val=$undef
    set try
    if eval $compile; then
    	if $run ./try; then
    		echo "You can use _NSGetExecutablePath to find the executing program." >&4
    		val="$define"
    	else
    		echo "Nope, _NSGetExecutablePath doesn't work here." >&4
    	fi
    else
    	echo "I'm unable to compile the test program." >&4
    	echo "I'll assume no _NSGetExecutablePath here." >&4
    fi
    $rm_try
    set usensgetexecutablepath
    eval $setvar
    
    : Check if site customization support was requested
    case "$usesitecustomize" in
        $define|true|[Yy]*)
    	usesitecustomize="$define"
    	;;
        *)
    	usesitecustomize="$undef"
    	;;
        esac
    
    : determine compiler compiler
    case "$yacc" in
    '')
    	dflt=yacc;;
    *)
    	dflt="$yacc";;
    esac
    echo " "
    comp='yacc'
    if $test -f "$byacc$_exe"; then
    	dflt="$byacc"
    	comp="byacc or $comp"
    fi
    if $test -f "$bison$_exe"; then
    	comp="$comp or bison -y"
    fi
    rp="Which compiler compiler ($comp) shall I use?"
    . ./myread
    yacc="$ans"
    case "$yacc" in
    *bis*)
    	case "$yacc" in
    	*-y*) ;;
    	*)
    		yacc="$yacc -y"
    		echo "(Adding -y option to bison to get yacc-compatible behavior.)"
    		;;
    	esac
    	;;
    esac
    
    : see if this is a bfd.h system
    set bfd.h i_bfd
    eval $inhdr
    
    : see if this is an execinfo.h system
    set execinfo.h i_execinfo
    eval $inhdr
    
    : see if this is a fenv.h system
    set fenv.h i_fenv
    eval $inhdr
    
    : see if this is a fp.h system
    set fp.h i_fp
    eval $inhdr
    
    : see if this is a fp_class.h system
    set fp_class.h i_fp_class
    eval $inhdr
    
    : see if gdbm.h is available
    set gdbm.h t_gdbm
    eval $inhdr
    case "$t_gdbm" in
    $define)
    	: see if gdbm_open exists
    	set gdbm_open d_gdbm_open
    	eval $inlibc
    	case "$d_gdbm_open" in
    	$undef)
    		t_gdbm="$undef"
    		echo "We won't be including <gdbm.h>"
    		;;
    	esac
    	;;
    esac
    val="$t_gdbm"
    set i_gdbm
    eval $setvar
    
    : see if this is a ieeefp.h system
    case "$i_ieeefp" in
    '' ) set ieeefp.h i_ieeefp
         eval $inhdr
         ;;
    esac
    
    : see if this is a libutil.h system
    set libutil.h i_libutil
    eval $inhdr
    
    : see if mach cthreads are available
    if test "X$usethreads" = "X$define"; then
    	set mach/cthreads.h i_machcthr
    	eval $inhdr
    else
    	i_machcthr="$undef"
    fi
    
    : see if this is a mntent.h system
    set mntent.h i_mntent
    eval $inhdr
    
    : see if net/errno.h is available
    val=''
    set net/errno.h val
    eval $inhdr
    
    : Unfortunately, it causes problems on some systems.  Arrgh.
    case "$val" in
    $define)
    	cat > try.c <<'EOM'
    #include <stdio.h>
    #include <errno.h>
    #include <net/errno.h>
    int func()
    {
    	return ENOTSOCK;
    }
    EOM
    	if $cc $ccflags -c try.c >/dev/null 2>&1; then
    		echo "We'll be including <net/errno.h>." >&4
    	else
    		echo "We won't be including <net/errno.h>." >&4
    		val="$undef"
    	fi
    	$rm_try
    	;;
    esac
    set i_neterrno
    eval $setvar
    
    : see if netinet/tcp.h is available
    set netinet/tcp.h i_netinettcp
    eval $inhdr
    
    : see if this is a poll.h system
    set poll.h i_poll
    eval $inhdr
    
    : see if this is a prot.h system
    set prot.h i_prot
    eval $inhdr
    
    : Preprocessor symbols
    echo " "
    $echo "Guessing which symbols your C compiler and preprocessor define..." >&4
    $cat <<'EOSH' > Cppsym.know
    a29k aarch64 ABI64 aegis AES_SOURCE AIX AIX32 AIX370 AIX41 AIX42
    AIX43 aixpc AIX_SOURCE alliant ALL_SOURCE alpha AM29000 am29000
    AMD64 amd64 amiga AMIGAOS AMIX ansi ANSI_C_SOURCE apollo arch_ppc
    arch_pwr ardent ARM ARM32 atarist att386 att3b
    BeOS BIG_ENDIAN BIT_MSF BSD bsd bsd43 bsd4_2 BSD4_3 bsd4_3 bsd4_4
    BSDCOMPAT bsdi BSD_4_3 BSD_4_4 BSD_NET2 BSD_TIME BSD_TYPES bull
    byteorder byte_order
    c cadmus clang clipper CMU COFF COMPILER_VERSION concurrent
    convex cpu CRAY cray CRAYMPP ctix CX_UX CYGWIN
    DECC DGUX DGUX_SOURCE DJGPP dmert DOLPHIN DPX2 DSO Dynix DynixPTX
    ELF encore EPI EXTENSIONS
    FAVOR_BSD FILE_OFFSET_BITS FORTIFY_SOURCE FreeBSD
    GCC_NEW_VARARGS gcos gcx gimpel GLIBC GLIBC_MINOR GNUC GNUC_MINOR
    GNU_LIBRARY GNU_SOURCE GO32 gould GOULD_PN
    H3050R H3050RX hbullx20 hcx host_mips hp200 hp300 HP700 hp700
    hp800 hp9000 hp9000s200 hp9000s300 hp9000s400
    hp9000s700 hp9000s800 hp9k8 hppa hpux HPUX_SOURCE hp_osf
    i186 i286 i386 i486 i586 i686 i8086 i80960 i860 I960 IA32 IA64
    iAPX286 ibm ibm032 ibmesa IBMR2 ibmrt ILP32 ILP64
    INLINE_INTRINSICS INT64 INTEL interdata INTRINSICS is68k itanium
    ksr1
    LANGUAGE_C LARGEFILE64_SOURCE LARGEFILE_SOURCE LARGE_FILE_API
    LFS64_LARGEFILE LFS_LARGEFILE LIBCATAMOUNT Linux LITTLE_ENDIAN
    LONG64 LONGDOUBLE LONGLONG LONG_DOUBLE LONG_LONG LP64 luna
    luna88k Lynx
    M68000 m68k m88100 m88k M88KBCS_TARGET MACH machine MachTen
    MATH_HAS_NO_SIDE_EFFECTS mc300 mc500 mc68000 mc68010 mc68020
    mc68030 mc68040 mc68060 mc68k mc68k32 mc700 mc88000 mc88100
    merlin mert MiNT mips MIPSEB MIPSEL MIPS_FPSET MIPS_ISA MIPS_SIM
    MIPS_SZINT MIPS_SZLONG MIPS_SZPTR MODERN_C motorola MSDOS
    MTXINU MULTIMAX MVS mvs M_AMD64 M_ARM M_ARMT M_COFF M_I186 M_I286
    M_I386 M_I8086 M_I86 M_I86SM M_IA64 M_IX86 M_PPC M_SYS3 M_SYS5
    M_SYSIII M_SYSV M_UNIX M_X86 M_XENIX
    n16 ncl_el ncl_mr NetBSD news1500 news1700 news1800 news1900
    news3700 news700 news800 news900 NeXT NLS nonstopux ns16000
    ns32000 ns32016 ns32332 ns32k nsc32000
    OCS88 OEMVS OpenBSD os OS2 OS390 osf OSF1 OSF_SOURCE
    PARAGON parisc pa_risc PA_RISC1_1 PA_RISC2_0 pc532 pdp11 PGC PIC
    plexus PORTAR posix POSIX1B_SOURCE POSIX2_SOURCE POSIX4_SOURCE
    POSIX_C_SOURCE POSIX_SOURCE POWER powerpc ppc PROTOTYPES PWB pyr
    QK_USER QNX
    R3000 REENTRANT RES Rhapsody RISC6000 riscix riscos RT
    S390 S390x SA110 SCO scs sequent sgi SGI_SOURCE SH SH3 sinix
    SIZE_INT SIZE_LONG SIZE_PTR SOCKETS_SOURCE SOCKET_SOURCE sony
    sonyrisc sony_news sparc sparclite sparcv8 sparcv9 spectrum
    stardent stdc STDC_EXT stratos sun sun3 sun386 Sun386i svr3 svr4
    SVR4_2 SVR4_SOURCE svr5 SX system SYSTYPE_BSD SYSTYPE_BSD43
    SYSTYPE_BSD44 SYSTYPE_SVR4 SYSTYPE_SVR5 SYSTYPE_SYSV SYSV SYSV3
    SYSV4 SYSV5 sysV68 sysV88
    Tek4132 Tek4300 thumb thw_370 thw_intel thw_rs6000 titan TM3200
    TM5400 TM5600 tower tower32 tower32_200 tower32_600 tower32_700
    tower32_800 tower32_850 tss
    u370 u3b u3b2 u3b20 u3b200 u3b20d u3b5 ultrix UMAXV UnicomPBB
    UnicomPBD UNICOS UNICOSMK unix UNIX95 UNIX99 unixpc unos USE_BSD
    USE_FILE_OFFSET64 USE_GNU USE_ISOC9X USE_LARGEFILE
    USE_LARGEFILE64 USE_MISC USE_POSIX USE_POSIX199309
    USE_POSIX199506 USE_POSIX2 USE_REENTRANT USE_SVID USE_UNIX98
    USE_XOPEN USE_XOPEN_EXTENDED USGr4 USGr4_2 UTek Utek UTS UWIN
    uxpm uxps
    vax venix VMESA vms
    x86_64 xenix Xenix286 XOPEN_SOURCE XOPEN_SOURCE_EXTENDED XPG2
    XPG2_EXTENDED XPG3 XPG3_EXTENDED XPG4 XPG4_EXTENDED
    z8000 zarch
    EOSH
    # Maybe put other stuff here too.
    ./tr '-' '_' <<EOSH >>Cppsym.know
    $osname
    EOSH
    ./tr '[a-z]' '[A-Z]' < Cppsym.know > Cppsym.a
    ./tr '[A-Z]' '[a-z]' < Cppsym.know > Cppsym.b
    $cat Cppsym.know > Cppsym.c
    $cat Cppsym.a Cppsym.b Cppsym.c | $tr ' ' $trnl | $sort | $uniq > Cppsym.know
    $rm -f Cppsym.a Cppsym.b Cppsym.c
    cat <<EOSH > Cppsym
    $startsh
    if $test \$# -gt 0; then
        echo \$* | $tr " " "$trnl" | ./Cppsym.try > Cppsym.got
        if $test -s Cppsym.got; then
    	$rm -f Cppsym.got
    	exit 0
        fi
        $rm -f Cppsym.got
        exit 1
    else
        $tr " " "$trnl" | ./Cppsym.try
        exit 0
    fi
    EOSH
    chmod +x Cppsym
    $eunicefix Cppsym
    cat <<EOSH > Cppsym.try
    $startsh
    cat <<'EOCP' > try.c
    #include <stdio.h>
    #if cpp_stuff == 1
    #define STRINGIFY(a)    "a"
    #endif
    #if cpp_stuff == 42
    #define StGiFy(a)  #a
    #define STRINGIFY(a)    StGiFy(a)
    #endif
    #if $cpp_stuff != 1 && $cpp_stuff != 42
    #   include "Bletch: How does this C preprocessor stringify macros?"
    #endif
    int main() {
    EOCP
    $awk \\
    EOSH
    cat <<'EOSH' >> Cppsym.try
    'length($1) > 0 {
        printf "#ifdef %s\nprintf(\"%s=%%s\\n\", STRINGIFY(%s));\n#endif\n", $1, $1, $1
        printf "#ifdef _%s\nprintf(\"_%s=%%s\\n\", STRINGIFY(_%s));\n#endif\n", $1, $1, $1
        printf "#ifdef __%s\nprintf(\"__%s=%%s\\n\", STRINGIFY(__%s));\n#endif\n", $1, $1, $1
        printf "#ifdef __%s__\nprintf(\"__%s__=%%s\\n\", STRINGIFY(__%s__));\n#endif\n", $1, $1, $1
    }' >> try.c
    echo 'return 0;}' >> try.c
    EOSH
    cat <<EOSH >> Cppsym.try
    ccflags="$ccflags"
    case "$osname-$gccversion" in
    irix-) ccflags="\$ccflags -woff 1178" ;;
    os2-*) ccflags="\$ccflags -Zlinker /PM:VIO" ;;
    esac
    $cc -o try -Dcpp_stuff=$cpp_stuff $optimize \$ccflags $ldflags try.c $libs 2>/dev/null && $run ./try | $sed 's/ /\\\\ /g'
    EOSH
    chmod +x Cppsym.try
    $eunicefix Cppsym.try
    ./Cppsym < Cppsym.know | $sort | $uniq > Cppsym.true
    : Add in any Linux cpp "predefined macros":
    case "$osname::$gccversion" in
      *linux*::*.*|*gnukfreebsd*::*.*|gnu::*.*)
        tHdrH=_tmpHdr
        rm -f $tHdrH'.h' $tHdrH
        touch $tHdrH'.h'
        # Filter out macro arguments, such as Linux's __INT8_C(c)
        if $cpp -dM $tHdrH'.h' > $tHdrH'_cppsym.h' && [ -s $tHdrH'_cppsym.h' ]; then
           sed -e 's/#define[\ \  ]*//;s/[\ \     ].*$//' -e 's/(.*//' <$tHdrH'_cppsym.h' >$tHdrH'_cppsym.real'
           if [ -s $tHdrH'_cppsym.real' ]; then
    	  cat $tHdrH'_cppsym.real' Cppsym.know | sort | uniq | ./Cppsym | sort | uniq > Cppsym.true
           fi
        fi
        rm -f $tHdrH'.h' $tHdrH'_cppsym.h' $tHdrH'_cppsym.real'
      ;;
    esac
    : now check the C compiler for additional symbols
    postprocess_cc_v=''
    case "$osname" in
    aix) postprocess_cc_v="|$tr , ' '" ;;
    esac
    $cat >ccsym <<EOS
    $startsh
    $cat >tmp.c <<EOF
    extern int foo;
    EOF
    for i in \`$cc -v -c tmp.c 2>&1 $postprocess_cc_v\`
    do
    	case "\$i" in
    	-D*) echo "\$i" | $sed 's/^-D//';;
    	-A*) $test "$gccversion" && echo "\$i" | $sed 's/^-A//' | $sed 's/\(.*\)(\(.*\))/\1=\2/';;
    	esac
    done
    $rm_try
    EOS
    postprocess_cc_v=''
    chmod +x ccsym
    $eunicefix ccsym
    ./ccsym > ccsym1.raw
    if $test -s ccsym1.raw; then
        $sort ccsym1.raw | $uniq >ccsym.raw
    else
        mv ccsym1.raw ccsym.raw
    fi
    
    $awk '/\=/ { print $0; next }
    	{ print $0"=1" }' ccsym.raw >ccsym.list
    $comm -13 Cppsym.true ccsym.list >ccsym.own
    $comm -12 Cppsym.true ccsym.list >ccsym.com
    $comm -23 Cppsym.true ccsym.list >ccsym.cpp
    also=''
    if $test -z ccsym.raw; then
    	echo "Your C compiler doesn't seem to define any symbols!" >&4
    	echo " "
    	echo "However, your C preprocessor defines the following symbols:"
    	$cat Cppsym.true
    	ccsymbols=''
    	cppsymbols=`$cat Cppsym.true`
    	cppsymbols=`echo $cppsymbols`
    	cppccsymbols="$cppsymbols"
    else
    	if $test -s ccsym.com; then
    		echo "Your C compiler and pre-processor define these symbols:"
    		$sed -e 's/\(..*\)=.*/\1/' ccsym.com
    		also='also '
    		symbols='ones'
    		cppccsymbols=`$cat ccsym.com`
    		cppccsymbols=`echo $cppccsymbols`
    		$test "$silent" || sleep 1
    	fi
    	if $test -s ccsym.cpp; then
    		$test "$also" && echo " "
    		echo "Your C pre-processor ${also}defines the following symbols:"
    		$sed -e 's/\(..*\)=.*/\1/' ccsym.cpp
    		also='further '
    		cppsymbols=`$cat ccsym.cpp`
    		cppsymbols=`echo $cppsymbols`
    		$test "$silent" || sleep 1
    	fi
    	if $test -s ccsym.own; then
    		$test "$also" && echo " "
    		echo "Your C compiler ${also}defines the following cpp symbols:"
    		$sed -e 's/\(..*\)=1/\1/' ccsym.own
    		$sed -e 's/\(..*\)=.*/\1/' ccsym.own | $uniq >>Cppsym.true
    		ccsymbols=`$cat ccsym.own`
    		ccsymbols=`echo $ccsymbols`
    		$test "$silent" || sleep 1
    	fi
    fi
    
    : add -D_FORTIFY_SOURCE if feasible and not already there
    case "$gccversion" in
    [456789].*|[1-9][0-9]*)	case "$optimize$ccflags" in
    	*-O*)	case "$ccflags$cppsymbols" in
    		*_FORTIFY_SOURCE=*) # Don't add it again.
    			echo "You seem to have -D_FORTIFY_SOURCE already, not adding it." >&4
    			;;
    		*)	echo "Adding -D_FORTIFY_SOURCE=2 to ccflags..." >&4
    			ccflags="$ccflags -D_FORTIFY_SOURCE=2"
    			;;
    		esac
    		;;
    	*)	echo "You have gcc 4.* or later but not optimizing, not adding -D_FORTIFY_SOURCE." >&4
    		;;
    	esac
    	;;
    *)	echo "You seem not to have gcc 4.* or later, not adding -D_FORTIFY_SOURCE." >&4
    	;;
    esac
    
    : script used to emit important warnings
    cat >warn <<EOS
    $startsh
    if test \$# -gt 0; then
    	echo "\$@" >msg
    else
    	cat >msg
    fi
    echo "*** WARNING:" >&4
    sed -e 's/^/*** /' <msg >&4
    echo "*** " >&4
    cat msg >>config.msg
    echo " " >>config.msg
    rm -f msg
    EOS
    chmod +x warn
    $eunicefix warn
    
    : see if this is a termio system
    val="$undef"
    val2="$undef"
    val3="$undef"
    if $test `./findhdr termios.h`; then
        set tcsetattr i_termios
        eval $inlibc
        val3="$i_termios"
    fi
    echo " "
    case "$val3" in
        "$define") echo "You have POSIX termios.h... good!" >&4;;
        *)  if ./Cppsym pyr; then
    	    case "`$run /bin/universe`" in
    		ucb) if $test `./findhdr sgtty.h`; then
    			val2="$define"
    			echo "<sgtty.h> found." >&4
    		    else
    			echo "System is pyramid with BSD universe."
    			./warn "<sgtty.h> not found--you could have problems."
    		    fi;;
    		*)  if $test `./findhdr termio.h`; then
    			val="$define"
    			echo "<termio.h> found." >&4
    		    else
    			echo "System is pyramid with USG universe."
    			./warn "<termio.h> not found--you could have problems."
    		    fi;;
    	    esac
    	elif ./usg; then
    	    if $test `./findhdr termio.h`; then
    		echo "<termio.h> found." >&4
    		val="$define"
    	    elif $test `./findhdr sgtty.h`; then
    		echo "<sgtty.h> found." >&4
    		val2="$define"
    	    else
    		./warn "Neither <termio.h> nor <sgtty.h> found--cross fingers!"
    	    fi
    	else
    	    if $test `./findhdr sgtty.h`; then
    		echo "<sgtty.h> found." >&4
    		val2="$define"
    	    elif $test `./findhdr termio.h`; then
    		echo "<termio.h> found." >&4
    		val="$define"
    	    else
    		./warn "Neither <sgtty.h> nor <termio.h> found--cross fingers!"
    	    fi
    	fi;;
    esac
    set i_termio; eval $setvar
    val=$val2; set i_sgtty; eval $setvar
    val=$val3; set i_termios; eval $setvar
    
    : see if stdbool is available
    : we want a real compile instead of Inhdr because some Solaris systems
    : have stdbool.h, but it can only be used if the compiler indicates it
    : is sufficiently c99-compliant.
    echo " "
    $cat >try.c <<EOCP
    #include <stdio.h>
    #include <stdbool.h>
    int func(bool x)
    {
        return x ? 1 : 0;
    }
    int main(int argc, char **argv)
    {
        return func(0);
    }
    EOCP
    set try
    if eval $compile; then
    	echo "<stdbool.h> found." >&4
    	val="$define"
    else
    	echo "<stdbool.h> NOT found." >&4
    	val="$undef"
    fi
    $rm_try
    set i_stdbool
    eval $setvar
    
    : see if stdint is available
    set stdint.h i_stdint
    eval $inhdr
    
    : see if sys/access.h is available
    set sys/access.h i_sysaccess
    eval $inhdr
    
    : see if ioctl defs are in sgtty, termio, sys/filio or sys/ioctl
    set sys/filio.h i_sysfilio
    eval $inhdr
    echo " "
    if $test `./findhdr sys/ioctl.h`; then
    	val="$define"
    	echo '<sys/ioctl.h> found.' >&4
    else
    	val="$undef"
    	if $test $i_sysfilio = "$define"; then
    	    echo '<sys/ioctl.h> NOT found.' >&4
    	else
    		$test $i_sgtty = "$define" && xxx="sgtty.h"
    		$test $i_termio = "$define" && xxx="termio.h"
    		$test $i_termios = "$define" && xxx="termios.h"
    echo "No <sys/ioctl.h> found, assuming ioctl args are defined in <$xxx>." >&4
    	fi
    fi
    set i_sysioctl
    eval $setvar
    
    : see if socket ioctl defs are in sys/sockio.h
    echo " "
    xxx=`./findhdr sys/sockio.h`
    if $test "$xxx"; then
    	if $contains SIOCATMARK $xxx >/dev/null 2>&1; then
    		val="$define"
    		echo "You have socket ioctls defined in <sys/sockio.h>." >&4
    	else
    		val="$undef"
    		echo "No socket ioctls found in <sys/sockio.h>." >&4
    	fi
    else
    	val="$undef"
    	$cat <<EOM
    <sys/sockio.h> not found, assuming socket ioctls are in <sys/ioctl.h>.
    EOM
    fi
    set i_syssockio
    eval $setvar
    
    : see if this is a syslog.h system
    set syslog.h i_syslog
    eval $inhdr
    
    : see if this is a sys/mode.h system
    set sys/mode.h i_sysmode
    eval $inhdr
    
    : see if there is a sys/poll.h file
    set sys/poll.h i_syspoll
    eval $inhdr
    
    : see if sys/resource.h has to be included
    set sys/resource.h i_sysresrc
    eval $inhdr
    
    : see if sys/security.h is available
    set sys/security.h i_syssecrt
    eval $inhdr
    
    : see if this is a sys/statvfs.h system
    set sys/statvfs.h i_sysstatvfs
    eval $inhdr
    
    : see if this is a sys/un.h system
    set sys/un.h i_sysun
    eval $inhdr
    
    : see if this is a sys/utsname.h system
    set sys/utsname.h i_sysutsname
    eval $inhdr
    
    : see if this is a syswait system
    set sys/wait.h i_syswait
    eval $inhdr
    
    : see if this is a ustat.h system
    set ustat.h i_ustat
    eval $inhdr
    
    : see if this is an utime system
    set utime.h i_utime
    eval $inhdr
    
    : see if this is a vfork system
    case "$d_vfork" in
    "$define")
    	set vfork.h i_vfork
    	eval $inhdr
    	;;
    *)
    	i_vfork="$undef"
    	;;
    esac
    
    : see if wchar.h is present
    set wchar.h i_wchar
    eval $inhdr
    
    : Check extensions
    echo " "
    echo "Looking for extensions..." >&4
    : If we are using the old config.sh, nonxs_extensions and xs_extensions may
    : contain old or inaccurate or duplicate values.
    nonxs_extensions=''
    xs_extensions=''
    : We do not use find because it might not be available.
    : We do not just use MANIFEST because the user may have dropped
    : some additional extensions into the source tree and expect them
    : to be built.
    
    : Function to recursively find available extensions, ignoring DynaLoader
    : NOTE: recursion limit of 10 to prevent runaway in case of symlink madness
    : In 5.10.1 and later, extensions are stored in directories
    : like File-Glob instead of the older File/Glob/.
    find_extensions='
        for xxx in *; do
    	case "$xxx" in
    	    CVS) ;;
    	    DynaLoader|dynaload) ;;
    	    *)
    	    this_ext=`echo "$xxx" | $sed -e s/-/\\\//g`;
    	    case "$this_ext" in
    		Scalar/List/Utils) this_ext="List/Util"	;;
    		PathTools)         this_ext="Cwd"	;;
    	    esac;
    	    echo " $xs_extensions $nonxs_extensions" > "$tdir/$$.tmp";
    	    if $contains " $this_ext " "$tdir/$$.tmp"; then
    		echo >&4;
    		echo "Duplicate directories detected for extension $xxx" >&4;
    		echo "Configure cannot correctly recover from this - shall I abort?" >&4;
    		case "$knowitall" in
    		"") dflt=y;;
    		*) dflt=n;;
    		esac;
    		. ../UU/myread;
    		case "$ans" in
    		n*|N*) ;;
    		*) echo >&4;
    		    echo "Ok.  Stopping Configure." >&4;
    		    echo "Please remove the duplicate directory (e.g. using git clean) and then re-run Configure" >&4;
    		    exit 1;;
    		esac;
    		echo "Ok.  You will need to correct config.sh before running make." >&4;
    	    fi;
    	    $ls -1 "$xxx" > "$tdir/$$.tmp";
    	    if   $contains "\.xs$" "$tdir/$$.tmp" > /dev/null 2>&1; then
    		xs_extensions="$xs_extensions $this_ext";
    	    elif $contains "\.c$"  "$tdir/$$.tmp" > /dev/null 2>&1; then
    		xs_extensions="$xs_extensions $this_ext";
    	    elif $test -d "$xxx"; then
    		nonxs_extensions="$nonxs_extensions $this_ext";
    	    fi;
    	    $rm -f "$tdir/$$.tmp";
    	    ;;
    	esac;
        done'
    tdir=`pwd`
    cd "$rsrc/cpan"
    set X
    shift
    eval $find_extensions
    cd "$rsrc/dist"
    set X
    shift
    eval $find_extensions
    cd "$rsrc/ext"
    set X
    shift
    eval $find_extensions
    set X $xs_extensions
    shift
    xs_extensions=`echo "$*" | tr ' ' $trnl | $sort | tr $trnl ' '`
    set X $nonxs_extensions
    shift
    nonxs_extensions=`echo "$*" | tr ' ' $trnl | $sort | tr $trnl ' '`
    cd "$tdir"
    known_extensions=`echo $nonxs_extensions $xs_extensions  | tr ' ' $trnl | $sort | tr $trnl ' '`
    
    : Now see which are supported on this system.
    avail_ext=''
    for xxx in $xs_extensions ; do
    	case "$xxx" in
    	Amiga*)
    		case "$osname" in
    		amigaos) avail_ext="$avail_ext $xxx" ;;
    		esac
    		;;
    	DB_File|db_file)
    		case "$i_db" in
    		$define) avail_ext="$avail_ext $xxx" ;;
    		esac
    		;;
    	GDBM_File|gdbm_fil)
    		case "$i_gdbm" in
    		$define) avail_ext="$avail_ext $xxx" ;;
    		esac
    		;;
    	IPC/SysV|ipc/sysv)
    		: XXX Do we need a useipcsysv variable here
    		case "${d_msg}${d_sem}${d_shm}" in
    		*"${define}"*) avail_ext="$avail_ext $xxx" ;;
    		esac
    		;;
    	NDBM_File|ndbm_fil)
    		case "$d_ndbm" in
    		$define)
    		    case "$osname-$use64bitint" in
    		    hpux-define)
    			case "$libs" in
    			*-lndbm*) avail_ext="$avail_ext $xxx" ;;
    			esac
    			;;
    		    *) avail_ext="$avail_ext $xxx" ;;
    		    esac
    		    ;;
    		esac
    		;;
    	ODBM_File|odbm_fil)
    		case "${i_dbm}${i_rpcsvcdbm}" in
    		*"${define}"*)
    		    case "$d_cplusplus" in
    		    define) ;; # delete as a function name will not work
    		    *)  case "$osname-$use64bitint" in
    			hpux-define)
    			    case "$libs" in
    			    *-ldbm*) avail_ext="$avail_ext $xxx" ;;
    			    esac
    			    ;;
    			*) avail_ext="$avail_ext $xxx" ;;
    			esac
    			;;
    		    esac
    		    ;;
    		esac
    		;;
    	Opcode|opcode)
    		case "$useopcode" in
    		true|define|y) avail_ext="$avail_ext $xxx" ;;
    		esac
    		;;
    	POSIX|posix)
    		case "$useposix" in
    		true|define|y) avail_ext="$avail_ext $xxx" ;;
    		esac
    		;;
    	Socket|socket)
    		case "$d_socket" in
    		true|$define|y) avail_ext="$avail_ext $xxx" ;;
    		esac
    		;;
    	I18N/Langinfo|langinfo)
    		case "$uselanginfo" in
    		true|define|y) avail_ext="$avail_ext $xxx" ;;
    		esac
    		;;
    	Sys/Syslog|sys/syslog)
    		case $osname in
    			amigaos) ;; # not really very useful on AmigaOS
    			*)
    			: XXX syslog requires socket
    			case "$d_socket" in
    			true|$define|y) avail_ext="$avail_ext $xxx" ;;
    			esac
    			;;
    		esac
    		;;
    	threads|threads/shared)
    		# threads and threads::shared are special cases.
    		# To stop people from asking "Perl 5.8.0 was supposed
    		# to have this new fancy threads implementation but my
    		# perl doesn't have it" and from people trying to
    		# (re)install the threads module using CPAN.pm and
    		# CPAN.pm then offering to reinstall Perl 5.8.0,
    		# the threads.pm and threads/shared.pm will always be
    		# there, croaking informatively ("you need to rebuild
    		# all of Perl with threads, sorry") when threads haven't
    		# been compiled in.
    		# --jhi
    		avail_ext="$avail_ext $xxx"
    		;;
    	VMS*)
    		;;
    	Win32*)
    		case "$osname" in
    		cygwin) avail_ext="$avail_ext $xxx" ;;
    		esac
    		;;
    	XS/APItest|xs/apitest)
    		# This is just for testing.  Skip it unless we have dynamic loading.
    
    		case "$usedl" in
    		$define) avail_ext="$avail_ext $xxx" ;;
    		esac
    		;;
    	XS/Typemap|xs/typemap)
    		# This is just for testing.  Skip it unless we have dynamic loading.
    		case "$usedl" in
    		$define) avail_ext="$avail_ext $xxx" ;;
    		esac
    		;;
    	*)	avail_ext="$avail_ext $xxx"
    		;;
    	esac
    done
    
    set X $avail_ext
    shift
    avail_ext="$*"
    
    case "$onlyextensions" in
    '') ;;
    *)  keepextensions=''
        echo "You have requested that only certain extensions be included..." >&4
        for i in $onlyextensions; do
            case " $avail_ext " in
            *" $i "*)
                echo "Keeping extension $i."
                keepextensions="$keepextensions $i"
                ;;
            *) echo "Ignoring extension $i." ;;
            esac
        done
        avail_ext="$keepextensions"
        ;;
    esac
    
    case "$noextensions" in
    '') ;;
    *)  keepextensions=''
        echo "You have requested that certain extensions be ignored..." >&4
        for i in $avail_ext; do
            case " $noextensions " in
            *" $i "*) echo "Ignoring extension $i." ;;
            *) echo "Keeping extension $i.";
               keepextensions="$keepextensions $i"
               ;;
            esac
        done
        avail_ext="$keepextensions"
        ;;
    esac
    
    : Now see which nonxs extensions are supported on this system.
    : For now assume all are.
    nonxs_ext=''
    for xxx in $nonxs_extensions ; do
    	case "$xxx" in
    	CVS|RCS|SCCS|.svn)
    		;;
    	VMS*)
    		;;
    	*)	nonxs_ext="$nonxs_ext $xxx"
    		;;
    	esac
    done
    
    set X $nonxs_ext
    shift
    nonxs_ext="$*"
    
    case $usedl in
    $define)
    	$cat <<EOM
    A number of extensions are supplied with $package.  You may choose to
    compile these extensions for dynamic loading (the default), compile
    them into the $package executable (static loading), or not include
    them at all.  Answer "none" to include no extensions.
    Note that DynaLoader is always built and need not be mentioned here.
    
    EOM
    	case "$dynamic_ext" in
    	'')
    		: Exclude those listed in static_ext
    		dflt=''
    		for xxx in $avail_ext; do
    			case " $static_ext " in
    			*" $xxx "*) ;;
    			*) dflt="$dflt $xxx" ;;
    			esac
    		done
    		set X $dflt
    		shift
    		dflt="$*"
    		;;
    	*)	dflt="$dynamic_ext"
    		# Perhaps we are reusing an old out-of-date config.sh.
    		case "$hint" in
    		previous)
    			if test X"$dynamic_ext" != X"$avail_ext"; then
    				$cat <<EOM
    NOTICE:  Your previous config.sh list may be incorrect.
    The extensions now available to you are
    	${avail_ext}
    but the default list from your previous config.sh is
    	${dynamic_ext}
    
    EOM
    			fi
    			;;
    		esac
    		;;
    	esac
    	case "$dflt" in
    	'')	dflt=none;;
    	esac
    	rp="What extensions do you wish to load dynamically?"
    	. ./myread
    	case "$ans" in
    	none) dynamic_ext=' ' ;;
    	*) dynamic_ext="$ans" ;;
    	esac
    
    	case "$static_ext" in
    	'')
    		: Exclude those already listed in dynamic linking
    		dflt=''
    		for xxx in $avail_ext; do
    			case " $dynamic_ext " in
    			*" $xxx "*) ;;
    			*) dflt="$dflt $xxx" ;;
    			esac
    		done
    		set X $dflt
    		shift
    		dflt="$*"
    		;;
    	*)  dflt="$static_ext"
    		;;
    	esac
    
    	case "$dflt" in
    	'')	dflt=none;;
    	esac
    	rp="What extensions do you wish to load statically?"
    	. ./myread
    	case "$ans" in
    	none) static_ext=' ' ;;
    	*) static_ext="$ans" ;;
    	esac
    	;;
    *)
    	$cat <<EOM
    A number of extensions are supplied with $package.  Answer "none"
    to include no extensions.
    Note that DynaLoader is always built and need not be mentioned here.
    
    EOM
    	case "$static_ext" in
    	'') dflt="$avail_ext" ;;
    	*)	dflt="$static_ext"
    		# Perhaps we are reusing an old out-of-date config.sh.
    		case "$hint" in
    		previous)
    			if test X"$static_ext" != X"$avail_ext"; then
    				$cat <<EOM
    NOTICE:  Your previous config.sh list may be incorrect.
    The extensions now available to you are
    	${avail_ext}
    but the default list from your previous config.sh is
    	${static_ext}
    
    EOM
    			fi
    			;;
    		esac
    		;;
    	esac
    	: Exclude those that are not xs extensions
    	case "$dflt" in
    	'')	dflt=none;;
    	esac
    	rp="What extensions do you wish to include?"
    	. ./myread
    	case "$ans" in
    	none) static_ext=' ' ;;
    	*) static_ext="$ans" ;;
    	esac
    	;;
    esac
    #
    # Encode is a special case.  If we are building Encode as a static
    # extension, we need to explicitly list its subextensions as well.
    # For other nested extensions, this is handled automatically by
    # the appropriate Makefile.PL.
    case " $static_ext " in
    	*" Encode "*) # Add the subextensions of Encode
    	cd "$rsrc/cpan"
    	for xxx in `ls Encode/*/Makefile.PL|awk -F/ '{print $2}'`; do
    		static_ext="$static_ext Encode/$xxx"
    		known_extensions="$known_extensions Encode/$xxx"
    	done
    	cd "$tdir"
    	;;
    esac
    
    set X $dynamic_ext $static_ext $nonxs_ext
    shift
    extensions="$*"
    
    # Sanity check:  We require an extension suitable for use with
    # AnyDBM_File, as well as Fcntl and IO.  (Failure to have these
    # should show up as failures in the test suite, but it's helpful to
    # catch them now.) The 'extensions' list is normally sorted
    # alphabetically, so we need to accept either
    #    DB_File ... Fcntl ... IO  ....
    # or something like
    #    Fcntl ... NDBM_File ... IO  ....
    case " $extensions"  in
    *"_File "*" Fcntl "*" IO "*) ;; # DB_File
    *" Fcntl "*"_File "*" IO "*) ;; # GDBM_File
    *" Fcntl "*" IO "*"_File "*) ;; # NDBM_File
    *) echo "WARNING: Extensions DB_File or *DBM_File, Fcntl, and IO not configured." >&4
       echo "WARNING: The Perl you are building will be quite crippled." >& 4
       ;;
    esac
    
    : Remove libraries needed only for extensions
    : The appropriate ext/Foo/Makefile.PL will add them back in, if necessary.
    : The exception is SunOS 4.x, which needs them.
    case "${osname}X${osvers}" in
    sunos*X4*)
        perllibs="$libs"
        ;;
    *) case "$usedl" in
        $define|true|[yY]*)
    	    set X `echo " $libs " | sed -e 's@ -lndbm @ @' -e 's@ -lgdbm @ @' -e 's@ -lgdbm_compat @ @' -e 's@ -ldbm @ @' -e 's@ -ldb @ @'`
    	    shift
    	    perllibs="$*"
    	    ;;
        *)	perllibs="$libs"
    	    ;;
        esac
        ;;
    esac
    
    : Remove build directory name from cppstdin so it can be used from
    : either the present location or the final installed location.
    echo " "
    : Get out of the UU directory to get correct path name.
    cd ..
    case "$cppstdin" in
    `pwd`/cppstdin)
    	echo "Stripping down cppstdin path name"
    	cppstdin=cppstdin
    	;;
    esac
    cd UU
    
    : end of configuration questions
    echo " "
    echo "End of configuration questions."
    echo " "
    
    : back to where it started
    if test -d ../UU; then
    	cd ..
    fi
    
    : configuration may be unconditionally patched via a 'config.arch' file
    if $test -f config.arch; then
    	echo "I see a config.arch file, loading it." >&4
    	. ./config.arch
    fi
    
    : configuration may be patched via a 'config.over' file
    if $test -f config.over; then
    	echo " "
    	dflt=y
    	rp='I see a config.over file.  Do you wish to load it?'
    	. UU/myread
    	case "$ans" in
    	n*) echo "OK, I'll ignore it.";;
    	*)	. ./config.over
    		echo "Configuration override changes have been loaded."
    		;;
    	esac
    fi
    
    : in case they want portability, strip down executable paths
    case "$d_portable" in
    "$define")
    	echo " "
    	echo "Stripping down executable paths..." >&4
    	for file in $loclist $trylist; do
    		eval temp=\$$file
    		eval $file=`basename $temp`
    	done
    	;;
    esac
    
    : create config.sh file
    echo " "
    echo "Creating config.sh..." >&4
    $spitshell <<EOT >config.sh
    $startsh
    #
    # This file was produced by running the Configure script. It holds all the
    # definitions figured out by Configure. Should you modify one of these values,
    # do not forget to propagate your changes by running "Configure -der". You may
    # instead choose to run each of the .SH files by yourself, or "Configure -S".
    #
    
    # Package name      : $package
    # Source directory  : $src
    # Configuration time: $cf_time
    # Configured by     : $cf_by
    # Target system     : $myuname
    
    EOT
    : Add in command line options if available
    $test -f UU/cmdline.opt && $cat UU/cmdline.opt >> config.sh
    
    $spitshell <<EOT >>config.sh
    
    Author='$Author'
    Date='$Date'
    Header='$Header'
    Id='$Id'
    Locker='$Locker'
    Log='$Log'
    RCSfile='$RCSfile'
    Revision='$Revision'
    Source='$Source'
    State='$State'
    _a='$_a'
    _exe='$_exe'
    _o='$_o'
    afs='$afs'
    afsroot='$afsroot'
    alignbytes='$alignbytes'
    aphostname='$aphostname'
    api_revision='$api_revision'
    api_subversion='$api_subversion'
    api_version='$api_version'
    api_versionstring='$api_versionstring'
    ar='$ar'
    archlib='$archlib'
    archlibexp='$archlibexp'
    archname64='$archname64'
    archname='$archname'
    archobjs='$archobjs'
    asctime_r_proto='$asctime_r_proto'
    awk='$awk'
    baserev='$baserev'
    bash='$bash'
    bin='$bin'
    bin_ELF='$bin_ELF'
    binexp='$binexp'
    bison='$bison'
    byacc='$byacc'
    byteorder='$byteorder'
    c='$c'
    castflags='$castflags'
    cat='$cat'
    cc='$cc'
    cccdlflags='$cccdlflags'
    ccdlflags='$ccdlflags'
    ccflags='$ccflags'
    ccflags_uselargefiles='$ccflags_uselargefiles'
    ccname='$ccname'
    ccsymbols='$ccsymbols'
    ccversion='$ccversion'
    cf_by='$cf_by'
    cf_email='$cf_email'
    cf_time='$cf_time'
    charbits='$charbits'
    charsize='$charsize'
    chgrp='$chgrp'
    chmod='$chmod'
    chown='$chown'
    clocktype='$clocktype'
    comm='$comm'
    compiler_warning='$compiler_warning'
    compress='$compress'
    contains='$contains'
    cp='$cp'
    cpio='$cpio'
    cpp='$cpp'
    cpp_stuff='$cpp_stuff'
    cppccsymbols='$cppccsymbols'
    cppflags='$cppflags'
    cpplast='$cpplast'
    cppminus='$cppminus'
    cpprun='$cpprun'
    cppstdin='$cppstdin'
    cppsymbols='$cppsymbols'
    crypt_r_proto='$crypt_r_proto'
    cryptlib='$cryptlib'
    csh='$csh'
    ctermid_r_proto='$ctermid_r_proto'
    ctime_r_proto='$ctime_r_proto'
    d_Gconvert='$d_Gconvert'
    d_PRIEUldbl='$d_PRIEUldbl'
    d_PRIFUldbl='$d_PRIFUldbl'
    d_PRIGUldbl='$d_PRIGUldbl'
    d_PRIXU64='$d_PRIXU64'
    d_PRId64='$d_PRId64'
    d_PRIeldbl='$d_PRIeldbl'
    d_PRIfldbl='$d_PRIfldbl'
    d_PRIgldbl='$d_PRIgldbl'
    d_PRIi64='$d_PRIi64'
    d_PRIo64='$d_PRIo64'
    d_PRIu64='$d_PRIu64'
    d_PRIx64='$d_PRIx64'
    d_SCNfldbl='$d_SCNfldbl'
    d__fwalk='$d__fwalk'
    d_accept4='$d_accept4'
    d_access='$d_access'
    d_accessx='$d_accessx'
    d_acosh='$d_acosh'
    d_aintl='$d_aintl'
    d_alarm='$d_alarm'
    d_archlib='$d_archlib'
    d_asctime64='$d_asctime64'
    d_asctime_r='$d_asctime_r'
    d_asinh='$d_asinh'
    d_atanh='$d_atanh'
    d_atolf='$d_atolf'
    d_atoll='$d_atoll'
    d_attribute_always_inline='$d_attribute_always_inline'
    d_attribute_deprecated='$d_attribute_deprecated'
    d_attribute_format='$d_attribute_format'
    d_attribute_malloc='$d_attribute_malloc'
    d_attribute_nonnull='$d_attribute_nonnull'
    d_attribute_noreturn='$d_attribute_noreturn'
    d_attribute_pure='$d_attribute_pure'
    d_attribute_unused='$d_attribute_unused'
    d_attribute_warn_unused_result='$d_attribute_warn_unused_result'
    d_backtrace='$d_backtrace'
    d_bsd='$d_bsd'
    d_bsdgetpgrp='$d_bsdgetpgrp'
    d_bsdsetpgrp='$d_bsdsetpgrp'
    d_builtin_add_overflow='$d_builtin_add_overflow'
    d_builtin_choose_expr='$d_builtin_choose_expr'
    d_builtin_expect='$d_builtin_expect'
    d_builtin_mul_overflow='$d_builtin_mul_overflow'
    d_builtin_sub_overflow='$d_builtin_sub_overflow'
    d_c99_variadic_macros='$d_c99_variadic_macros'
    d_casti32='$d_casti32'
    d_castneg='$d_castneg'
    d_cbrt='$d_cbrt'
    d_chown='$d_chown'
    d_chroot='$d_chroot'
    d_chsize='$d_chsize'
    d_class='$d_class'
    d_clearenv='$d_clearenv'
    d_closedir='$d_closedir'
    d_cmsghdr_s='$d_cmsghdr_s'
    d_copysign='$d_copysign'
    d_copysignl='$d_copysignl'
    d_cplusplus='$d_cplusplus'
    d_crypt='$d_crypt'
    d_crypt_r='$d_crypt_r'
    d_csh='$d_csh'
    d_ctermid='$d_ctermid'
    d_ctermid_r='$d_ctermid_r'
    d_ctime64='$d_ctime64'
    d_ctime_r='$d_ctime_r'
    d_cuserid='$d_cuserid'
    d_dbminitproto='$d_dbminitproto'
    d_difftime64='$d_difftime64'
    d_difftime='$d_difftime'
    d_dir_dd_fd='$d_dir_dd_fd'
    d_dirfd='$d_dirfd'
    d_dirnamlen='$d_dirnamlen'
    d_dladdr='$d_dladdr'
    d_dlerror='$d_dlerror'
    d_dlopen='$d_dlopen'
    d_dlsymun='$d_dlsymun'
    d_dosuid='$d_dosuid'
    d_double_has_inf='$d_double_has_inf'
    d_double_has_nan='$d_double_has_nan'
    d_double_has_negative_zero='$d_double_has_negative_zero'
    d_double_has_subnormals='$d_double_has_subnormals'
    d_double_style_cray='$d_double_style_cray'
    d_double_style_ibm='$d_double_style_ibm'
    d_double_style_ieee='$d_double_style_ieee'
    d_double_style_vax='$d_double_style_vax'
    d_drand48_r='$d_drand48_r'
    d_drand48proto='$d_drand48proto'
    d_dup2='$d_dup2'
    d_dup3='$d_dup3'
    d_duplocale='$d_duplocale'
    d_eaccess='$d_eaccess'
    d_endgrent='$d_endgrent'
    d_endgrent_r='$d_endgrent_r'
    d_endhent='$d_endhent'
    d_endhostent_r='$d_endhostent_r'
    d_endnent='$d_endnent'
    d_endnetent_r='$d_endnetent_r'
    d_endpent='$d_endpent'
    d_endprotoent_r='$d_endprotoent_r'
    d_endpwent='$d_endpwent'
    d_endpwent_r='$d_endpwent_r'
    d_endsent='$d_endsent'
    d_endservent_r='$d_endservent_r'
    d_eofnblk='$d_eofnblk'
    d_erf='$d_erf'
    d_erfc='$d_erfc'
    d_eunice='$d_eunice'
    d_exp2='$d_exp2'
    d_expm1='$d_expm1'
    d_faststdio='$d_faststdio'
    d_fchdir='$d_fchdir'
    d_fchmod='$d_fchmod'
    d_fchmodat='$d_fchmodat'
    d_fchown='$d_fchown'
    d_fcntl='$d_fcntl'
    d_fcntl_can_lock='$d_fcntl_can_lock'
    d_fd_macros='$d_fd_macros'
    d_fd_set='$d_fd_set'
    d_fdclose='$d_fdclose'
    d_fdim='$d_fdim'
    d_fds_bits='$d_fds_bits'
    d_fegetround='$d_fegetround'
    d_ffs='$d_ffs'
    d_ffsl='$d_ffsl'
    d_fgetpos='$d_fgetpos'
    d_finite='$d_finite'
    d_finitel='$d_finitel'
    d_flexfnam='$d_flexfnam'
    d_flock='$d_flock'
    d_flockproto='$d_flockproto'
    d_fma='$d_fma'
    d_fmax='$d_fmax'
    d_fmin='$d_fmin'
    d_fork='$d_fork'
    d_fp_class='$d_fp_class'
    d_fp_classify='$d_fp_classify'
    d_fp_classl='$d_fp_classl'
    d_fpathconf='$d_fpathconf'
    d_fpclass='$d_fpclass'
    d_fpclassify='$d_fpclassify'
    d_fpclassl='$d_fpclassl'
    d_fpgetround='$d_fpgetround'
    d_fpos64_t='$d_fpos64_t'
    d_freelocale='$d_freelocale'
    d_frexpl='$d_frexpl'
    d_fs_data_s='$d_fs_data_s'
    d_fseeko='$d_fseeko'
    d_fsetpos='$d_fsetpos'
    d_fstatfs='$d_fstatfs'
    d_fstatvfs='$d_fstatvfs'
    d_fsync='$d_fsync'
    d_ftello='$d_ftello'
    d_ftime='$d_ftime'
    d_futimes='$d_futimes'
    d_gai_strerror='$d_gai_strerror'
    d_gdbm_ndbm_h_uses_prototypes='$d_gdbm_ndbm_h_uses_prototypes'
    d_gdbmndbm_h_uses_prototypes='$d_gdbmndbm_h_uses_prototypes'
    d_getaddrinfo='$d_getaddrinfo'
    d_getcwd='$d_getcwd'
    d_getenv_preserves_other_thread='$d_getenv_preserves_other_thread'
    d_getespwnam='$d_getespwnam'
    d_getfsstat='$d_getfsstat'
    d_getgrent='$d_getgrent'
    d_getgrent_r='$d_getgrent_r'
    d_getgrgid_r='$d_getgrgid_r'
    d_getgrnam_r='$d_getgrnam_r'
    d_getgrps='$d_getgrps'
    d_gethbyaddr='$d_gethbyaddr'
    d_gethbyname='$d_gethbyname'
    d_gethent='$d_gethent'
    d_gethname='$d_gethname'
    d_gethostbyaddr_r='$d_gethostbyaddr_r'
    d_gethostbyname_r='$d_gethostbyname_r'
    d_gethostent_r='$d_gethostent_r'
    d_gethostprotos='$d_gethostprotos'
    d_getitimer='$d_getitimer'
    d_getlogin='$d_getlogin'
    d_getlogin_r='$d_getlogin_r'
    d_getmnt='$d_getmnt'
    d_getmntent='$d_getmntent'
    d_getnameinfo='$d_getnameinfo'
    d_getnbyaddr='$d_getnbyaddr'
    d_getnbyname='$d_getnbyname'
    d_getnent='$d_getnent'
    d_getnetbyaddr_r='$d_getnetbyaddr_r'
    d_getnetbyname_r='$d_getnetbyname_r'
    d_getnetent_r='$d_getnetent_r'
    d_getnetprotos='$d_getnetprotos'
    d_getpagsz='$d_getpagsz'
    d_getpbyname='$d_getpbyname'
    d_getpbynumber='$d_getpbynumber'
    d_getpent='$d_getpent'
    d_getpgid='$d_getpgid'
    d_getpgrp2='$d_getpgrp2'
    d_getpgrp='$d_getpgrp'
    d_getppid='$d_getppid'
    d_getprior='$d_getprior'
    d_getprotobyname_r='$d_getprotobyname_r'
    d_getprotobynumber_r='$d_getprotobynumber_r'
    d_getprotoent_r='$d_getprotoent_r'
    d_getprotoprotos='$d_getprotoprotos'
    d_getprpwnam='$d_getprpwnam'
    d_getpwent='$d_getpwent'
    d_getpwent_r='$d_getpwent_r'
    d_getpwnam_r='$d_getpwnam_r'
    d_getpwuid_r='$d_getpwuid_r'
    d_getsbyname='$d_getsbyname'
    d_getsbyport='$d_getsbyport'
    d_getsent='$d_getsent'
    d_getservbyname_r='$d_getservbyname_r'
    d_getservbyport_r='$d_getservbyport_r'
    d_getservent_r='$d_getservent_r'
    d_getservprotos='$d_getservprotos'
    d_getspnam='$d_getspnam'
    d_getspnam_r='$d_getspnam_r'
    d_gettimeod='$d_gettimeod'
    d_gmtime64='$d_gmtime64'
    d_gmtime_r='$d_gmtime_r'
    d_gnulibc='$d_gnulibc'
    d_grpasswd='$d_grpasswd'
    d_has_C_UTF8='$d_has_C_UTF8'
    d_hasmntopt='$d_hasmntopt'
    d_htonl='$d_htonl'
    d_hypot='$d_hypot'
    d_ilogb='$d_ilogb'
    d_ilogbl='$d_ilogbl'
    d_inc_version_list='$d_inc_version_list'
    d_inetaton='$d_inetaton'
    d_inetntop='$d_inetntop'
    d_inetpton='$d_inetpton'
    d_int64_t='$d_int64_t'
    d_ip_mreq='$d_ip_mreq'
    d_ip_mreq_source='$d_ip_mreq_source'
    d_ipv6_mreq='$d_ipv6_mreq'
    d_ipv6_mreq_source='$d_ipv6_mreq_source'
    d_isascii='$d_isascii'
    d_isblank='$d_isblank'
    d_isfinite='$d_isfinite'
    d_isfinitel='$d_isfinitel'
    d_isinf='$d_isinf'
    d_isinfl='$d_isinfl'
    d_isless='$d_isless'
    d_isnan='$d_isnan'
    d_isnanl='$d_isnanl'
    d_isnormal='$d_isnormal'
    d_j0='$d_j0'
    d_j0l='$d_j0l'
    d_killpg='$d_killpg'
    d_lc_monetary_2008='$d_lc_monetary_2008'
    d_lchown='$d_lchown'
    d_ldbl_dig='$d_ldbl_dig'
    d_ldexpl='$d_ldexpl'
    d_lgamma='$d_lgamma'
    d_lgamma_r='$d_lgamma_r'
    d_libm_lib_version='$d_libm_lib_version'
    d_libname_unique='$d_libname_unique'
    d_link='$d_link'
    d_linkat='$d_linkat'
    d_llrint='$d_llrint'
    d_llrintl='$d_llrintl'
    d_llround='$d_llround'
    d_llroundl='$d_llroundl'
    d_localeconv_l='$d_localeconv_l'
    d_localtime64='$d_localtime64'
    d_localtime_r='$d_localtime_r'
    d_localtime_r_needs_tzset='$d_localtime_r_needs_tzset'
    d_locconv='$d_locconv'
    d_lockf='$d_lockf'
    d_log1p='$d_log1p'
    d_log2='$d_log2'
    d_logb='$d_logb'
    d_long_double_style_ieee='$d_long_double_style_ieee'
    d_long_double_style_ieee_doubledouble='$d_long_double_style_ieee_doubledouble'
    d_long_double_style_ieee_extended='$d_long_double_style_ieee_extended'
    d_long_double_style_ieee_std='$d_long_double_style_ieee_std'
    d_long_double_style_vax='$d_long_double_style_vax'
    d_longdbl='$d_longdbl'
    d_longlong='$d_longlong'
    d_lrint='$d_lrint'
    d_lrintl='$d_lrintl'
    d_lround='$d_lround'
    d_lroundl='$d_lroundl'
    d_lseekproto='$d_lseekproto'
    d_lstat='$d_lstat'
    d_madvise='$d_madvise'
    d_malloc_good_size='$d_malloc_good_size'
    d_malloc_size='$d_malloc_size'
    d_malloc_usable_size='$d_malloc_usable_size'
    d_mblen='$d_mblen'
    d_mbrlen='$d_mbrlen'
    d_mbrtowc='$d_mbrtowc'
    d_mbstowcs='$d_mbstowcs'
    d_mbtowc='$d_mbtowc'
    d_memmem='$d_memmem'
    d_memrchr='$d_memrchr'
    d_mkdir='$d_mkdir'
    d_mkdtemp='$d_mkdtemp'
    d_mkfifo='$d_mkfifo'
    d_mkostemp='$d_mkostemp'
    d_mkstemp='$d_mkstemp'
    d_mkstemps='$d_mkstemps'
    d_mktime64='$d_mktime64'
    d_mktime='$d_mktime'
    d_mmap='$d_mmap'
    d_modfl='$d_modfl'
    d_modflproto='$d_modflproto'
    d_mprotect='$d_mprotect'
    d_msg='$d_msg'
    d_msg_ctrunc='$d_msg_ctrunc'
    d_msg_dontroute='$d_msg_dontroute'
    d_msg_oob='$d_msg_oob'
    d_msg_peek='$d_msg_peek'
    d_msg_proxy='$d_msg_proxy'
    d_msgctl='$d_msgctl'
    d_msgget='$d_msgget'
    d_msghdr_s='$d_msghdr_s'
    d_msgrcv='$d_msgrcv'
    d_msgsnd='$d_msgsnd'
    d_msync='$d_msync'
    d_munmap='$d_munmap'
    d_mymalloc='$d_mymalloc'
    d_nan='$d_nan'
    d_nanosleep='$d_nanosleep'
    d_ndbm='$d_ndbm'
    d_ndbm_h_uses_prototypes='$d_ndbm_h_uses_prototypes'
    d_nearbyint='$d_nearbyint'
    d_newlocale='$d_newlocale'
    d_nextafter='$d_nextafter'
    d_nexttoward='$d_nexttoward'
    d_nice='$d_nice'
    d_nl_langinfo='$d_nl_langinfo'
    d_nl_langinfo_l='$d_nl_langinfo_l'
    d_non_int_bitfields='$d_non_int_bitfields'
    d_nv_preserves_uv='$d_nv_preserves_uv'
    d_nv_zero_is_allbits_zero='$d_nv_zero_is_allbits_zero'
    d_off64_t='$d_off64_t'
    d_old_pthread_create_joinable='$d_old_pthread_create_joinable'
    d_oldpthreads='$d_oldpthreads'
    d_oldsock='$d_oldsock'
    d_open3='$d_open3'
    d_openat='$d_openat'
    d_pathconf='$d_pathconf'
    d_pause='$d_pause'
    d_perl_otherlibdirs='$d_perl_otherlibdirs'
    d_phostname='$d_phostname'
    d_pipe2='$d_pipe2'
    d_pipe='$d_pipe'
    d_poll='$d_poll'
    d_portable='$d_portable'
    d_prctl='$d_prctl'
    d_prctl_set_name='$d_prctl_set_name'
    d_printf_format_null='$d_printf_format_null'
    d_procselfexe='$d_procselfexe'
    d_pseudofork='$d_pseudofork'
    d_pthread_atfork='$d_pthread_atfork'
    d_pthread_attr_setscope='$d_pthread_attr_setscope'
    d_pthread_yield='$d_pthread_yield'
    d_ptrdiff_t='$d_ptrdiff_t'
    d_pwage='$d_pwage'
    d_pwchange='$d_pwchange'
    d_pwclass='$d_pwclass'
    d_pwcomment='$d_pwcomment'
    d_pwexpire='$d_pwexpire'
    d_pwgecos='$d_pwgecos'
    d_pwpasswd='$d_pwpasswd'
    d_pwquota='$d_pwquota'
    d_qgcvt='$d_qgcvt'
    d_quad='$d_quad'
    d_querylocale='$d_querylocale'
    d_random_r='$d_random_r'
    d_re_comp='$d_re_comp'
    d_readdir64_r='$d_readdir64_r'
    d_readdir='$d_readdir'
    d_readdir_r='$d_readdir_r'
    d_readlink='$d_readlink'
    d_readv='$d_readv'
    d_recvmsg='$d_recvmsg'
    d_regcmp='$d_regcmp'
    d_regcomp='$d_regcomp'
    d_remainder='$d_remainder'
    d_remquo='$d_remquo'
    d_rename='$d_rename'
    d_renameat='$d_renameat'
    d_rewinddir='$d_rewinddir'
    d_rint='$d_rint'
    d_rmdir='$d_rmdir'
    d_round='$d_round'
    d_sbrkproto='$d_sbrkproto'
    d_scalbn='$d_scalbn'
    d_scalbnl='$d_scalbnl'
    d_sched_yield='$d_sched_yield'
    d_scm_rights='$d_scm_rights'
    d_seekdir='$d_seekdir'
    d_select='$d_select'
    d_sem='$d_sem'
    d_semctl='$d_semctl'
    d_semctl_semid_ds='$d_semctl_semid_ds'
    d_semctl_semun='$d_semctl_semun'
    d_semget='$d_semget'
    d_semop='$d_semop'
    d_sendmsg='$d_sendmsg'
    d_setegid='$d_setegid'
    d_seteuid='$d_seteuid'
    d_setgrent='$d_setgrent'
    d_setgrent_r='$d_setgrent_r'
    d_setgrps='$d_setgrps'
    d_sethent='$d_sethent'
    d_sethostent_r='$d_sethostent_r'
    d_setitimer='$d_setitimer'
    d_setlinebuf='$d_setlinebuf'
    d_setlocale='$d_setlocale'
    d_setlocale_accepts_any_locale_name='$d_setlocale_accepts_any_locale_name'
    d_setlocale_r='$d_setlocale_r'
    d_setnent='$d_setnent'
    d_setnetent_r='$d_setnetent_r'
    d_setpent='$d_setpent'
    d_setpgid='$d_setpgid'
    d_setpgrp2='$d_setpgrp2'
    d_setpgrp='$d_setpgrp'
    d_setprior='$d_setprior'
    d_setproctitle='$d_setproctitle'
    d_setprotoent_r='$d_setprotoent_r'
    d_setpwent='$d_setpwent'
    d_setpwent_r='$d_setpwent_r'
    d_setregid='$d_setregid'
    d_setresgid='$d_setresgid'
    d_setresuid='$d_setresuid'
    d_setreuid='$d_setreuid'
    d_setrgid='$d_setrgid'
    d_setruid='$d_setruid'
    d_setsent='$d_setsent'
    d_setservent_r='$d_setservent_r'
    d_setsid='$d_setsid'
    d_setvbuf='$d_setvbuf'
    d_shm='$d_shm'
    d_shmat='$d_shmat'
    d_shmatprototype='$d_shmatprototype'
    d_shmctl='$d_shmctl'
    d_shmdt='$d_shmdt'
    d_shmget='$d_shmget'
    d_sigaction='$d_sigaction'
    d_siginfo_si_addr='$d_siginfo_si_addr'
    d_siginfo_si_band='$d_siginfo_si_band'
    d_siginfo_si_errno='$d_siginfo_si_errno'
    d_siginfo_si_fd='$d_siginfo_si_fd'
    d_siginfo_si_pid='$d_siginfo_si_pid'
    d_siginfo_si_status='$d_siginfo_si_status'
    d_siginfo_si_uid='$d_siginfo_si_uid'
    d_siginfo_si_value='$d_siginfo_si_value'
    d_signbit='$d_signbit'
    d_sigprocmask='$d_sigprocmask'
    d_sigsetjmp='$d_sigsetjmp'
    d_sin6_scope_id='$d_sin6_scope_id'
    d_sitearch='$d_sitearch'
    d_snprintf='$d_snprintf'
    d_sockaddr_in6='$d_sockaddr_in6'
    d_sockaddr_sa_len='$d_sockaddr_sa_len'
    d_sockaddr_storage='$d_sockaddr_storage'
    d_sockatmark='$d_sockatmark'
    d_sockatmarkproto='$d_sockatmarkproto'
    d_socket='$d_socket'
    d_socklen_t='$d_socklen_t'
    d_sockpair='$d_sockpair'
    d_socks5_init='$d_socks5_init'
    d_sqrtl='$d_sqrtl'
    d_srand48_r='$d_srand48_r'
    d_srandom_r='$d_srandom_r'
    d_sresgproto='$d_sresgproto'
    d_sresuproto='$d_sresuproto'
    d_stat='$d_stat'
    d_statblks='$d_statblks'
    d_statfs_f_flags='$d_statfs_f_flags'
    d_statfs_s='$d_statfs_s'
    d_static_inline='$d_static_inline'
    d_statvfs='$d_statvfs'
    d_stdio_cnt_lval='$d_stdio_cnt_lval'
    d_stdio_ptr_lval='$d_stdio_ptr_lval'
    d_stdio_ptr_lval_nochange_cnt='$d_stdio_ptr_lval_nochange_cnt'
    d_stdio_ptr_lval_sets_cnt='$d_stdio_ptr_lval_sets_cnt'
    d_stdio_stream_array='$d_stdio_stream_array'
    d_stdiobase='$d_stdiobase'
    d_stdstdio='$d_stdstdio'
    d_strcoll='$d_strcoll'
    d_strerror_l='$d_strerror_l'
    d_strerror_r='$d_strerror_r'
    d_strftime='$d_strftime'
    d_strlcat='$d_strlcat'
    d_strlcpy='$d_strlcpy'
    d_strnlen='$d_strnlen'
    d_strtod='$d_strtod'
    d_strtod_l='$d_strtod_l'
    d_strtol='$d_strtol'
    d_strtold='$d_strtold'
    d_strtold_l='$d_strtold_l'
    d_strtoll='$d_strtoll'
    d_strtoq='$d_strtoq'
    d_strtoul='$d_strtoul'
    d_strtoull='$d_strtoull'
    d_strtouq='$d_strtouq'
    d_strxfrm='$d_strxfrm'
    d_strxfrm_l='$d_strxfrm_l'
    d_suidsafe='$d_suidsafe'
    d_symlink='$d_symlink'
    d_syscall='$d_syscall'
    d_syscallproto='$d_syscallproto'
    d_sysconf='$d_sysconf'
    d_sysernlst='$d_sysernlst'
    d_syserrlst='$d_syserrlst'
    d_system='$d_system'
    d_tcgetpgrp='$d_tcgetpgrp'
    d_tcsetpgrp='$d_tcsetpgrp'
    d_telldir='$d_telldir'
    d_telldirproto='$d_telldirproto'
    d_tgamma='$d_tgamma'
    d_thread_local='$d_thread_local'
    d_thread_safe_nl_langinfo_l='$d_thread_safe_nl_langinfo_l'
    d_time='$d_time'
    d_timegm='$d_timegm'
    d_times='$d_times'
    d_tm_tm_gmtoff='$d_tm_tm_gmtoff'
    d_tm_tm_zone='$d_tm_tm_zone'
    d_tmpnam_r='$d_tmpnam_r'
    d_towlower='$d_towlower'
    d_towupper='$d_towupper'
    d_trunc='$d_trunc'
    d_truncate='$d_truncate'
    d_truncl='$d_truncl'
    d_ttyname_r='$d_ttyname_r'
    d_tzname='$d_tzname'
    d_u32align='$d_u32align'
    d_ualarm='$d_ualarm'
    d_umask='$d_umask'
    d_uname='$d_uname'
    d_union_semun='$d_union_semun'
    d_unlinkat='$d_unlinkat'
    d_unordered='$d_unordered'
    d_unsetenv='$d_unsetenv'
    d_uselocale='$d_uselocale'
    d_usleep='$d_usleep'
    d_usleepproto='$d_usleepproto'
    d_ustat='$d_ustat'
    d_vendorarch='$d_vendorarch'
    d_vendorbin='$d_vendorbin'
    d_vendorlib='$d_vendorlib'
    d_vendorscript='$d_vendorscript'
    d_vfork='$d_vfork'
    d_void_closedir='$d_void_closedir'
    d_voidsig='$d_voidsig'
    d_voidtty='$d_voidtty'
    d_vsnprintf='$d_vsnprintf'
    d_wait4='$d_wait4'
    d_waitpid='$d_waitpid'
    d_wcrtomb='$d_wcrtomb'
    d_wcscmp='$d_wcscmp'
    d_wcstombs='$d_wcstombs'
    d_wcsxfrm='$d_wcsxfrm'
    d_wctomb='$d_wctomb'
    d_writev='$d_writev'
    d_xenix='$d_xenix'
    date='$date'
    db_hashtype='$db_hashtype'
    db_prefixtype='$db_prefixtype'
    db_version_major='$db_version_major'
    db_version_minor='$db_version_minor'
    db_version_patch='$db_version_patch'
    default_inc_excludes_dot='$default_inc_excludes_dot'
    direntrytype='$direntrytype'
    dlext='$dlext'
    dlsrc='$dlsrc'
    doubleinfbytes='$doubleinfbytes'
    doublekind='$doublekind'
    doublemantbits='$doublemantbits'
    doublenanbytes='$doublenanbytes'
    doublesize='$doublesize'
    drand01='$drand01'
    drand48_r_proto='$drand48_r_proto'
    dtrace='$dtrace'
    dtraceobject='$dtraceobject'
    dtracexnolibs='$dtracexnolibs'
    dynamic_ext='$dynamic_ext'
    eagain='$eagain'
    ebcdic='$ebcdic'
    echo='$echo'
    egrep='$egrep'
    emacs='$emacs'
    endgrent_r_proto='$endgrent_r_proto'
    endhostent_r_proto='$endhostent_r_proto'
    endnetent_r_proto='$endnetent_r_proto'
    endprotoent_r_proto='$endprotoent_r_proto'
    endpwent_r_proto='$endpwent_r_proto'
    endservent_r_proto='$endservent_r_proto'
    eunicefix='$eunicefix'
    exe_ext='$exe_ext'
    expr='$expr'
    extensions='$extensions'
    extern_C='$extern_C'
    extras='$extras'
    fflushNULL='$fflushNULL'
    fflushall='$fflushall'
    find='$find'
    firstmakefile='$firstmakefile'
    flex='$flex'
    fpossize='$fpossize'
    fpostype='$fpostype'
    freetype='$freetype'
    from='$from'
    full_ar='$full_ar'
    full_csh='$full_csh'
    full_sed='$full_sed'
    gccansipedantic='$gccansipedantic'
    gccosandvers='$gccosandvers'
    gccversion='$gccversion'
    getgrent_r_proto='$getgrent_r_proto'
    getgrgid_r_proto='$getgrgid_r_proto'
    getgrnam_r_proto='$getgrnam_r_proto'
    gethostbyaddr_r_proto='$gethostbyaddr_r_proto'
    gethostbyname_r_proto='$gethostbyname_r_proto'
    gethostent_r_proto='$gethostent_r_proto'
    getlogin_r_proto='$getlogin_r_proto'
    getnetbyaddr_r_proto='$getnetbyaddr_r_proto'
    getnetbyname_r_proto='$getnetbyname_r_proto'
    getnetent_r_proto='$getnetent_r_proto'
    getprotobyname_r_proto='$getprotobyname_r_proto'
    getprotobynumber_r_proto='$getprotobynumber_r_proto'
    getprotoent_r_proto='$getprotoent_r_proto'
    getpwent_r_proto='$getpwent_r_proto'
    getpwnam_r_proto='$getpwnam_r_proto'
    getpwuid_r_proto='$getpwuid_r_proto'
    getservbyname_r_proto='$getservbyname_r_proto'
    getservbyport_r_proto='$getservbyport_r_proto'
    getservent_r_proto='$getservent_r_proto'
    getspnam_r_proto='$getspnam_r_proto'
    gidformat='$gidformat'
    gidsign='$gidsign'
    gidsize='$gidsize'
    gidtype='$gidtype'
    glibpth='$glibpth'
    gmake='$gmake'
    gmtime_r_proto='$gmtime_r_proto'
    gnulibc_version='$gnulibc_version'
    grep='$grep'
    groupcat='$groupcat'
    groupstype='$groupstype'
    gzip='$gzip'
    h_fcntl='$h_fcntl'
    h_sysfile='$h_sysfile'
    hint='$hint'
    hostcat='$hostcat'
    hostgenerate='$hostgenerate'
    hostosname='$hostosname'
    hostperl='$hostperl'
    html1dir='$html1dir'
    html1direxp='$html1direxp'
    html3dir='$html3dir'
    html3direxp='$html3direxp'
    i16size='$i16size'
    i16type='$i16type'
    i32size='$i32size'
    i32type='$i32type'
    i64size='$i64size'
    i64type='$i64type'
    i8size='$i8size'
    i8type='$i8type'
    i_arpainet='$i_arpainet'
    i_bfd='$i_bfd'
    i_bsdioctl='$i_bsdioctl'
    i_crypt='$i_crypt'
    i_db='$i_db'
    i_dbm='$i_dbm'
    i_dirent='$i_dirent'
    i_dlfcn='$i_dlfcn'
    i_execinfo='$i_execinfo'
    i_fcntl='$i_fcntl'
    i_fenv='$i_fenv'
    i_fp='$i_fp'
    i_fp_class='$i_fp_class'
    i_gdbm='$i_gdbm'
    i_gdbm_ndbm='$i_gdbm_ndbm'
    i_gdbmndbm='$i_gdbmndbm'
    i_grp='$i_grp'
    i_ieeefp='$i_ieeefp'
    i_inttypes='$i_inttypes'
    i_langinfo='$i_langinfo'
    i_libutil='$i_libutil'
    i_locale='$i_locale'
    i_machcthr='$i_machcthr'
    i_malloc='$i_malloc'
    i_mallocmalloc='$i_mallocmalloc'
    i_mntent='$i_mntent'
    i_ndbm='$i_ndbm'
    i_netdb='$i_netdb'
    i_neterrno='$i_neterrno'
    i_netinettcp='$i_netinettcp'
    i_niin='$i_niin'
    i_poll='$i_poll'
    i_prot='$i_prot'
    i_pthread='$i_pthread'
    i_pwd='$i_pwd'
    i_quadmath='$i_quadmath'
    i_rpcsvcdbm='$i_rpcsvcdbm'
    i_sgtty='$i_sgtty'
    i_shadow='$i_shadow'
    i_socks='$i_socks'
    i_stdbool='$i_stdbool'
    i_stdint='$i_stdint'
    i_stdlib='$i_stdlib'
    i_sunmath='$i_sunmath'
    i_sysaccess='$i_sysaccess'
    i_sysdir='$i_sysdir'
    i_sysfile='$i_sysfile'
    i_sysfilio='$i_sysfilio'
    i_sysin='$i_sysin'
    i_sysioctl='$i_sysioctl'
    i_syslog='$i_syslog'
    i_sysmman='$i_sysmman'
    i_sysmode='$i_sysmode'
    i_sysmount='$i_sysmount'
    i_sysndir='$i_sysndir'
    i_sysparam='$i_sysparam'
    i_syspoll='$i_syspoll'
    i_sysresrc='$i_sysresrc'
    i_syssecrt='$i_syssecrt'
    i_sysselct='$i_sysselct'
    i_syssockio='$i_syssockio'
    i_sysstat='$i_sysstat'
    i_sysstatfs='$i_sysstatfs'
    i_sysstatvfs='$i_sysstatvfs'
    i_systime='$i_systime'
    i_systimek='$i_systimek'
    i_systimes='$i_systimes'
    i_systypes='$i_systypes'
    i_sysuio='$i_sysuio'
    i_sysun='$i_sysun'
    i_sysutsname='$i_sysutsname'
    i_sysvfs='$i_sysvfs'
    i_syswait='$i_syswait'
    i_termio='$i_termio'
    i_termios='$i_termios'
    i_time='$i_time'
    i_unistd='$i_unistd'
    i_ustat='$i_ustat'
    i_utime='$i_utime'
    i_vfork='$i_vfork'
    i_wchar='$i_wchar'
    i_wctype='$i_wctype'
    i_xlocale='$i_xlocale'
    ignore_versioned_solibs='$ignore_versioned_solibs'
    inc_version_list='$inc_version_list'
    inc_version_list_init='$inc_version_list_init'
    incpath='$incpath'
    incpth='$incpth'
    inews='$inews'
    initialinstalllocation='$initialinstalllocation'
    installarchlib='$installarchlib'
    installbin='$installbin'
    installhtml1dir='$installhtml1dir'
    installhtml3dir='$installhtml3dir'
    installman1dir='$installman1dir'
    installman3dir='$installman3dir'
    installprefix='$installprefix'
    installprefixexp='$installprefixexp'
    installprivlib='$installprivlib'
    installscript='$installscript'
    installsitearch='$installsitearch'
    installsitebin='$installsitebin'
    installsitehtml1dir='$installsitehtml1dir'
    installsitehtml3dir='$installsitehtml3dir'
    installsitelib='$installsitelib'
    installsiteman1dir='$installsiteman1dir'
    installsiteman3dir='$installsiteman3dir'
    installsitescript='$installsitescript'
    installstyle='$installstyle'
    installusrbinperl='$installusrbinperl'
    installvendorarch='$installvendorarch'
    installvendorbin='$installvendorbin'
    installvendorhtml1dir='$installvendorhtml1dir'
    installvendorhtml3dir='$installvendorhtml3dir'
    installvendorlib='$installvendorlib'
    installvendorman1dir='$installvendorman1dir'
    installvendorman3dir='$installvendorman3dir'
    installvendorscript='$installvendorscript'
    intsize='$intsize'
    issymlink='$issymlink'
    ivdformat='$ivdformat'
    ivsize='$ivsize'
    ivtype='$ivtype'
    known_extensions='$known_extensions'
    ksh='$ksh'
    ld='$ld'
    ld_can_script='$ld_can_script'
    lddlflags='$lddlflags'
    ldflags='$ldflags'
    ldflags_uselargefiles='$ldflags_uselargefiles'
    ldlibpthname='$ldlibpthname'
    less='$less'
    lib_ext='$lib_ext'
    libc='$libc'
    libperl='$libperl'
    libpth='$libpth'
    libs='$libs'
    libsdirs='$libsdirs'
    libsfiles='$libsfiles'
    libsfound='$libsfound'
    libspath='$libspath'
    libswanted='$libswanted'
    libswanted_uselargefiles='$libswanted_uselargefiles'
    line='$line'
    lint='$lint'
    lkflags='$lkflags'
    ln='$ln'
    lns='$lns'
    localtime_r_proto='$localtime_r_proto'
    locincpth='$locincpth'
    loclibpth='$loclibpth'
    longdblinfbytes='$longdblinfbytes'
    longdblkind='$longdblkind'
    longdblmantbits='$longdblmantbits'
    longdblnanbytes='$longdblnanbytes'
    longdblsize='$longdblsize'
    longlongsize='$longlongsize'
    longsize='$longsize'
    lp='$lp'
    lpr='$lpr'
    ls='$ls'
    lseeksize='$lseeksize'
    lseektype='$lseektype'
    mail='$mail'
    mailx='$mailx'
    make='$make'
    make_set_make='$make_set_make'
    mallocobj='$mallocobj'
    mallocsrc='$mallocsrc'
    malloctype='$malloctype'
    man1dir='$man1dir'
    man1direxp='$man1direxp'
    man1ext='$man1ext'
    man3dir='$man3dir'
    man3direxp='$man3direxp'
    man3ext='$man3ext'
    mips_type='$mips_type'
    mistrustnm='$mistrustnm'
    mkdir='$mkdir'
    mmaptype='$mmaptype'
    modetype='$modetype'
    more='$more'
    multiarch='$multiarch'
    mv='$mv'
    myarchname='$myarchname'
    mydomain='$mydomain'
    myhostname='$myhostname'
    myuname='$myuname'
    n='$n'
    need_va_copy='$need_va_copy'
    netdb_hlen_type='$netdb_hlen_type'
    netdb_host_type='$netdb_host_type'
    netdb_name_type='$netdb_name_type'
    netdb_net_type='$netdb_net_type'
    nm='$nm'
    nm_opt='$nm_opt'
    nm_so_opt='$nm_so_opt'
    nonxs_ext='$nonxs_ext'
    nroff='$nroff'
    nvEUformat='$nvEUformat'
    nvFUformat='$nvFUformat'
    nvGUformat='$nvGUformat'
    nv_overflows_integers_at='$nv_overflows_integers_at'
    nv_preserves_uv_bits='$nv_preserves_uv_bits'
    nveformat='$nveformat'
    nvfformat='$nvfformat'
    nvgformat='$nvgformat'
    nvmantbits='$nvmantbits'
    nvsize='$nvsize'
    nvtype='$nvtype'
    o_nonblock='$o_nonblock'
    obj_ext='$obj_ext'
    old_pthread_create_joinable='$old_pthread_create_joinable'
    optimize='$optimize'
    orderlib='$orderlib'
    osname='$osname'
    osvers='$osvers'
    otherlibdirs='$otherlibdirs'
    package='$package'
    pager='$pager'
    passcat='$passcat'
    patchlevel='$patchlevel'
    path_sep='$path_sep'
    perl5='$perl5'
    perl='$perl'
    perl_patchlevel='$perl_patchlevel'
    perl_static_inline='$perl_static_inline'
    perl_thread_local='$perl_thread_local'
    perladmin='$perladmin'
    perllibs='$perllibs'
    perlpath='$perlpath'
    pg='$pg'
    phostname='$phostname'
    pidtype='$pidtype'
    plibpth='$plibpth'
    pmake='$pmake'
    pr='$pr'
    prefix='$prefix'
    prefixexp='$prefixexp'
    privlib='$privlib'
    privlibexp='$privlibexp'
    procselfexe='$procselfexe'
    ptrsize='$ptrsize'
    quadkind='$quadkind'
    quadtype='$quadtype'
    randbits='$randbits'
    randfunc='$randfunc'
    random_r_proto='$random_r_proto'
    randseedtype='$randseedtype'
    ranlib='$ranlib'
    rd_nodata='$rd_nodata'
    readdir64_r_proto='$readdir64_r_proto'
    readdir_r_proto='$readdir_r_proto'
    revision='$revision'
    rm='$rm'
    rm_try='$rm_try'
    rmail='$rmail'
    run='$run'
    runnm='$runnm'
    sGMTIME_max='$sGMTIME_max'
    sGMTIME_min='$sGMTIME_min'
    sLOCALTIME_max='$sLOCALTIME_max'
    sLOCALTIME_min='$sLOCALTIME_min'
    sPRIEUldbl='$sPRIEUldbl'
    sPRIFUldbl='$sPRIFUldbl'
    sPRIGUldbl='$sPRIGUldbl'
    sPRIXU64='$sPRIXU64'
    sPRId64='$sPRId64'
    sPRIeldbl='$sPRIeldbl'
    sPRIfldbl='$sPRIfldbl'
    sPRIgldbl='$sPRIgldbl'
    sPRIi64='$sPRIi64'
    sPRIo64='$sPRIo64'
    sPRIu64='$sPRIu64'
    sPRIx64='$sPRIx64'
    sSCNfldbl='$sSCNfldbl'
    sched_yield='$sched_yield'
    scriptdir='$scriptdir'
    scriptdirexp='$scriptdirexp'
    sed='$sed'
    seedfunc='$seedfunc'
    selectminbits='$selectminbits'
    selecttype='$selecttype'
    sendmail='$sendmail'
    setgrent_r_proto='$setgrent_r_proto'
    sethostent_r_proto='$sethostent_r_proto'
    setlocale_r_proto='$setlocale_r_proto'
    setnetent_r_proto='$setnetent_r_proto'
    setprotoent_r_proto='$setprotoent_r_proto'
    setpwent_r_proto='$setpwent_r_proto'
    setservent_r_proto='$setservent_r_proto'
    sh='$sh'
    shar='$shar'
    sharpbang='$sharpbang'
    shmattype='$shmattype'
    shortsize='$shortsize'
    shrpenv='$shrpenv'
    shsharp='$shsharp'
    sig_count='$sig_count'
    sig_name='$sig_name'
    sig_name_init='$sig_name_init'
    sig_num='$sig_num'
    sig_num_init='$sig_num_init'
    sig_size='$sig_size'
    signal_t='$signal_t'
    sitearch='$sitearch'
    sitearchexp='$sitearchexp'
    sitebin='$sitebin'
    sitebinexp='$sitebinexp'
    sitehtml1dir='$sitehtml1dir'
    sitehtml1direxp='$sitehtml1direxp'
    sitehtml3dir='$sitehtml3dir'
    sitehtml3direxp='$sitehtml3direxp'
    sitelib='$sitelib'
    sitelib_stem='$sitelib_stem'
    sitelibexp='$sitelibexp'
    siteman1dir='$siteman1dir'
    siteman1direxp='$siteman1direxp'
    siteman3dir='$siteman3dir'
    siteman3direxp='$siteman3direxp'
    siteprefix='$siteprefix'
    siteprefixexp='$siteprefixexp'
    sitescript='$sitescript'
    sitescriptexp='$sitescriptexp'
    sizesize='$sizesize'
    sizetype='$sizetype'
    sleep='$sleep'
    smail='$smail'
    so='$so'
    sockethdr='$sockethdr'
    socketlib='$socketlib'
    socksizetype='$socksizetype'
    sort='$sort'
    spackage='$spackage'
    spitshell='$spitshell'
    srand48_r_proto='$srand48_r_proto'
    srandom_r_proto='$srandom_r_proto'
    src='$src'
    ssizetype='$ssizetype'
    st_dev_sign='$st_dev_sign'
    st_dev_size='$st_dev_size'
    st_ino_sign='$st_ino_sign'
    st_ino_size='$st_ino_size'
    startperl='$startperl'
    startsh='$startsh'
    static_ext='$static_ext'
    stdchar='$stdchar'
    stdio_base='$stdio_base'
    stdio_bufsiz='$stdio_bufsiz'
    stdio_cnt='$stdio_cnt'
    stdio_filbuf='$stdio_filbuf'
    stdio_ptr='$stdio_ptr'
    stdio_stream_array='$stdio_stream_array'
    strerror_r_proto='$strerror_r_proto'
    submit='$submit'
    subversion='$subversion'
    sysman='$sysman'
    sysroot='$sysroot'
    tail='$tail'
    tar='$tar'
    targetarch='$targetarch'
    targetdir='$targetdir'
    targetenv='$targetenv'
    targethost='$targethost'
    targetmkdir='$targetmkdir'
    targetport='$targetport'
    targetsh='$targetsh'
    tbl='$tbl'
    tee='$tee'
    test='$test'
    timeincl='$timeincl'
    timetype='$timetype'
    tmpnam_r_proto='$tmpnam_r_proto'
    to='$to'
    touch='$touch'
    tr='$tr'
    trnl='$trnl'
    troff='$troff'
    ttyname_r_proto='$ttyname_r_proto'
    u16size='$u16size'
    u16type='$u16type'
    u32size='$u32size'
    u32type='$u32type'
    u64size='$u64size'
    u64type='$u64type'
    u8size='$u8size'
    u8type='$u8type'
    uidformat='$uidformat'
    uidsign='$uidsign'
    uidsize='$uidsize'
    uidtype='$uidtype'
    uname='$uname'
    uniq='$uniq'
    uquadtype='$uquadtype'
    use64bitall='$use64bitall'
    use64bitint='$use64bitint'
    usecbacktrace='$usecbacktrace'
    usecrosscompile='$usecrosscompile'
    usedefaultstrict='$usedefaultstrict'
    usedevel='$usedevel'
    usedl='$usedl'
    usedtrace='$usedtrace'
    usefaststdio='$usefaststdio'
    useithreads='$useithreads'
    usekernprocpathname='$usekernprocpathname'
    uselanginfo='$uselanginfo'
    uselargefiles='$uselargefiles'
    uselongdouble='$uselongdouble'
    usemallocwrap='$usemallocwrap'
    usemorebits='$usemorebits'
    usemultiplicity='$usemultiplicity'
    usemymalloc='$usemymalloc'
    usenm='$usenm'
    usensgetexecutablepath='$usensgetexecutablepath'
    useopcode='$useopcode'
    useperlio='$useperlio'
    useposix='$useposix'
    usequadmath='$usequadmath'
    usereentrant='$usereentrant'
    userelocatableinc='$userelocatableinc'
    useshrplib='$useshrplib'
    usesitecustomize='$usesitecustomize'
    usesocks='$usesocks'
    usethreads='$usethreads'
    usevendorprefix='$usevendorprefix'
    useversionedarchname='$useversionedarchname'
    usevfork='$usevfork'
    usrinc='$usrinc'
    uuname='$uuname'
    uvXUformat='$uvXUformat'
    uvoformat='$uvoformat'
    uvsize='$uvsize'
    uvtype='$uvtype'
    uvuformat='$uvuformat'
    uvxformat='$uvxformat'
    vendorarch='$vendorarch'
    vendorarchexp='$vendorarchexp'
    vendorbin='$vendorbin'
    vendorbinexp='$vendorbinexp'
    vendorhtml1dir='$vendorhtml1dir'
    vendorhtml1direxp='$vendorhtml1direxp'
    vendorhtml3dir='$vendorhtml3dir'
    vendorhtml3direxp='$vendorhtml3direxp'
    vendorlib='$vendorlib'
    vendorlib_stem='$vendorlib_stem'
    vendorlibexp='$vendorlibexp'
    vendorman1dir='$vendorman1dir'
    vendorman1direxp='$vendorman1direxp'
    vendorman3dir='$vendorman3dir'
    vendorman3direxp='$vendorman3direxp'
    vendorprefix='$vendorprefix'
    vendorprefixexp='$vendorprefixexp'
    vendorscript='$vendorscript'
    vendorscriptexp='$vendorscriptexp'
    version='$version'
    version_patchlevel_string='$version_patchlevel_string'
    versiononly='$versiononly'
    vi='$vi'
    xlibpth='$xlibpth'
    xlocale_needed='$xlocale_needed'
    yacc='$yacc'
    yaccflags='$yaccflags'
    zcat='$zcat'
    zip='$zip'
    EOT
    
    : add special variables
    $test -f $src/patchlevel.h && \
    awk '/^#define[ 	]+PERL_/ {printf "%s=%s\n",$2,$3}' $src/patchlevel.h >>config.sh
    echo "PERL_PATCHLEVEL='$perl_patchlevel'" >>config.sh
    echo "PERL_CONFIG_SH=true" >>config.sh
    
    : propagate old symbols
    if $test -f UU/config.sh; then
    	<UU/config.sh $sort | $uniq >UU/oldconfig.sh
    	$sed -n 's/^\([a-zA-Z_0-9]*\)=.*/\1/p' \
    		config.sh config.sh UU/oldconfig.sh |\
    		$sort | $uniq -u >UU/oldsyms
    	set X `$cat UU/oldsyms`
    	shift
    	case $# in
    	0) ;;
    	*)
    		$cat <<EOM
    Hmm...You had some extra variables I don't know about...I'll try to keep 'em...
    EOM
    		echo ": Variables propagated from previous config.sh file." >>config.sh
    		for sym in `$cat UU/oldsyms`; do
    			echo "    Propagating $hint variable "'$'"$sym..."
    			eval 'tmp="$'"${sym}"'"'
    			echo "$tmp" | \
    				sed -e "s/'/'\"'\"'/g" -e "s/^/$sym='/" -e "s/$/'/" >>config.sh
    		done
    		;;
    	esac
    fi
    
    : preserve RCS keywords in files with variable substitution, grrr
    Id='$Id'
    
    : Finish up by extracting the .SH files
    case "$alldone" in
    exit)
    	echo "Stopping at your request, leaving temporary files around."
    	exit 0
    	;;
    cont)
    	;;
    '')
    	dflt=''
    	nostick=true
    	$cat <<EOM
    
    If you'd like to make any changes to the config.sh file before I begin
    to configure things, do it as a shell escape now (e.g. !vi config.sh).
    
    EOM
    	rp="Press return or use a shell escape to edit config.sh:"
    	. UU/myread
    	nostick=''
    	case "$ans" in
    	'') ;;
    	*) : in case they cannot read
    		sh 1>&4 -c "$ans";;
    	esac
    	;;
    esac
    
    : if this fails, just run all the .SH files by hand
    . ./config.sh
    
    echo " "
    exec 1>&4
    pwd=`pwd`
    . ./UU/extract
    cd "$pwd"
    
    if $contains '^depend:' [Mm]akefile >/dev/null 2>&1; then
    	dflt=y
    	case "$silent" in
    	true) ;;
    	*)
    		$cat <<EOM
    
    Now you need to generate make dependencies by running "$make depend".
    You might prefer to run it in background: "$make depend > makedepend.out &"
    It can take a while, so you might not want to run it right now.
    
    EOM
    		;;
    	esac
    	rp="Run $make depend now?"
    	. UU/myread
    	case "$ans" in
    	y*)
    		$make depend && echo "Now you must run '$make'."
    		;;
    	*)
    		echo "You must run '$make depend' then '$make'."
    		;;
    	esac
    elif test -f [Mm]akefile; then
    	echo " "
    	echo "Now you must run a $make."
    else
    	echo "Configure done."
    fi
    
    if $test -f Policy.sh; then
        $cat <<EOM
    
    If you compile $package on a different machine or from a different object
    directory, copy the Policy.sh file from this object directory to the
    new one before you run Configure -- this will help you with most of
    the policy defaults.
    
    EOM
    fi
    if $test -f UU/config.msg; then
        echo "Hmm.  I also noted the following information while running:"
        echo " "
        $cat UU/config.msg >&4
    fi
    $rm -f kit*isdone ark*isdone
    $rm -rf UU
    
    : End of Configure