# @(#) configure.inc 1.42@(#) # Copyright (c) 1999-2007 David Parsons. All rights reserved. # # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions # are met: # 1. Redistributions of source code must retain the above copyright # notice, this list of conditions and the following disclaimer. # 2. Redistributions in binary form must reproduce the above copyright # notice, this list of conditions and the following disclaimer in # the documentation and/or other materials provided with the # distribution. # 3. My name may not be used to endorse or promote products derived # from this software without specific prior written permission. # # THIS SOFTWARE IS PROVIDED BY DAVID PARSONS ``AS IS'' AND ANY # EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, # THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A # PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL DAVID # PARSONS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, # EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED # TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, # DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND # ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT # LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING # IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF # THE POSSIBILITY OF SUCH DAMAGE. # # # this preamble code is executed when this file is sourced and it picks # interesting things off the command line. # ac_default_path="/sbin:/usr/sbin:/bin:/usr/bin:/usr/local/bin:/usr/X11R6/bin" ac_standard="--src=DIR where the source lives (.) --prefix=DIR where to install the final product (/usr/local) --execdir=DIR where to put executables (prefix/bin) --sbindir=DIR where to put static executables (prefix/sbin) --confdir=DIR where to put configuration information (/etc) --libdir=DIR where to put libraries (prefix/lib) --libexecdir=DIR where to put private executables --mandir=DIR where to put manpages" __fail=exit if dirname B/A 2>/dev/null >/dev/null; then __ac_dirname() { dirname "$1" } else __ac_dirname() { echo "$1" | sed -e 's:/[^/]*$::' } fi ac_progname=$0 ac_configure_command= Q=\' for x in "$@"; do ac_configure_command="$ac_configure_command $Q$x$Q" done # ac_configure_command="$*" __d=`__ac_dirname "$ac_progname"` if [ "$__d" = "$ac_progname" ]; then AC_SRCDIR=`pwd` else AC_SRCDIR=`cd $__d;pwd` fi __ac_dir() { if test -d "$1"; then (cd "$1";pwd) else echo "$1"; fi } # # echo w/o newline # echononl() { ${ac_echo:-echo} "${@}$ac_echo_nonl" } # # log something to the terminal and to a logfile. # LOG () { echo "$@" echo "$@" 1>&5 } # # log something to the terminal without a newline, and to a logfile with # a newline # LOGN () { echononl "$@" 1>&5 echo "$@" } # # log something to the terminal # TLOG () { echo "$@" 1>&5 } # # log something to the terminal, no newline # TLOGN () { echononl "$@" 1>&5 } # # AC_CONTINUE tells configure not to bomb if something fails, but to # continue blithely along # AC_CONTINUE () { __fail="return" } # # generate a .o file from sources # __MAKEDOTO() { AC_PROG_CC if $AC_CC -c -o /tmp/doto$$.o "$@" $AC_LIBS 2>/tmp/doto$$.err; then rm -f /tmp/doto$$.o /tmp/doto$$.err TLOG " (found)" return 0 fi rm -f /tmp/doto$$.o TLOG " (not found)" echo "test failed: command was $AC_CC -c -o /tmp/doto$$.o" "$@" $AC_LIBS echo "output:" cat /tmp/doto$$.err rm -f /tmp/doto$$.err echo "offending sources:" for x in "$@"; do echo "$x:" cat $x done return 1 } # # Emulate gnu autoconf's AC_CHECK_HEADERS() function # AC_CHECK_HEADERS () { echo "/* AC_CHECK_HEADERS */" > /tmp/ngc$$.c for hdr in $*; do echo "#include <$hdr>" >> /tmp/ngc$$.c done echo "main() { }" >> /tmp/ngc$$.c LOGN "looking for header $hdr" if __MAKEDOTO /tmp/ngc$$.c; then AC_DEFINE 'HAVE_'`echo $hdr | $AC_UPPERCASE | tr './' '_'` 1 rc=0 else rc=1 fi rm -f /tmp/ngc$$.c return $rc } # # emulate GNU autoconf's AC_CHECK_FUNCS function # AC_CHECK_FUNCS () { AC_PROG_CC F=$1 shift rm -f /tmp/ngc$$.c while [ "$1" ]; do echo "#include <$1>" >> /tmp/ngc$$.c shift done cat >> /tmp/ngc$$.c << EOF main() { $F(); } EOF LOGN "looking for the $F function" if $AC_CC -o /tmp/ngc$$ /tmp/ngc$$.c $LIBS; then AC_DEFINE `echo ${2:-HAVE_$F} | $AC_UPPERCASE` 1 TLOG " (found)" rc=0 else echo "offending command was:" cat /tmp/ngc$$.c echo "$AC_CC -o /tmp/ngc$$ /tmp/ngc$$.c $LIBS" TLOG " (not found)" rc=1 fi rm -f /tmp/ngc$$.c /tmp/ngc$$ return $rc } # # check to see if some structure exists # # usage: AC_CHECK_STRUCT structure {include ...} # AC_CHECK_STRUCT () { struct=$1 shift rm -f /tmp/ngc$$.c for include in $*; do echo "#include <$include>" >> /tmp/ngc$$.c done cat >> /tmp/ngc$$.c << EOF main() { struct $struct foo; } EOF LOGN "looking for struct $struct" if __MAKEDOTO /tmp/ngc$$.c; then AC_DEFINE HAVE_STRUCT_`echo ${struct} | $AC_UPPERCASE` rc=0 else rc=1 fi rm -f /tmp/ngc$$.c return $rc } # # check to see if some type exists # # usage: AC_CHECK_TYPE type {include ...} # AC_CHECK_TYPE () { type=$1 shift rm -f /tmp/ngc$$.c for include in $*; do echo "#include <$include>" >> /tmp/ngc$$.c done cat >> /tmp/ngc$$.c << EOF main() { $type foo; } EOF LOGN "looking for $type type" if __MAKEDOTO /tmp/ngc$$.c; then AC_DEFINE HAVE_TYPE_`echo ${type} | $AC_UPPERCASE` rc=0 else rc=1 fi rm -f /tmp/ngc$$.c return $rc } # # check to see if some structure contains a field # # usage: AC_CHECK_FIELD structure field {include ...} # AC_CHECK_FIELD () { struct=$1 field=$2 shift 2 rm -f /tmp/ngc$$.c for include in $*;do echo "#include <$include>" >> /tmp/ngc$$.c done cat >> /tmp/ngc$$.c << EOF main() { struct $struct foo; foo.$field; } EOF LOGN "checking that struct $struct has a $field field" if __MAKEDOTO /tmp/ngc$$.c; then AC_DEFINE HAVE_`echo ${struct}_$field | $AC_UPPERCASE` rc=0 else rc=1 fi rm -f /tmp/ngc$$.c return $rc } # # check that the C compiler works # AC_PROG_CC () { test "$AC_CC" && return 0 cat > /tmp/ngc$$.c << \EOF #include main() { puts("hello, sailor"); } EOF TLOGN "checking the C compiler" unset AC_CFLAGS AC_LDFLAGS if [ "$CC" ] ; then AC_CC="$CC" elif [ "$WITH_PATH" ]; then AC_CC=`acLookFor cc` elif [ "`acLookFor cc`" ]; then # don't specify the full path if the user is looking in their $PATH # for a C compiler. AC_CC=cc fi # finally check for POSIX c89 test "$AC_CC" || AC_CC=`acLookFor c89` if [ ! "$AC_CC" ]; then TLOG " (no C compiler found)" $__fail 1 fi echo "checking out the C compiler" $AC_CC -o /tmp/ngc$$ /tmp/ngc$$.c status=$? TLOGN " ($AC_CC)" if [ $status -eq 0 ]; then if $AC_CC -v 2>&1 | grep 'gcc version' >/dev/null; then TLOG " oh ick, it looks like gcc" IS_BROKEN_CC=T else TLOG " ok" fi # check that the CFLAGS and LDFLAGS aren't bogus unset AC_CFLAGS AC_LDFLAGS if [ "$CFLAGS" ]; then test "$CFLAGS" && echo "validating CFLAGS=${CFLAGS}" if $AC_CC $CFLAGS -o /tmp/ngc$$.o /tmp/ngc$$.c ; then AC_CFLAGS=${CFLAGS:-"-g"} test "$CFLAGS" && echo "CFLAGS=\"${CFLAGS}\" are okay" elif [ "$CFLAGS" ]; then echo "ignoring bogus CFLAGS=\"${CFLAGS}\"" fi else AC_CFLAGS=-g fi if [ "$LDFLAGS" ]; then test "$LDFLAGS" && echo "validating LDFLAGS=${LDFLAGS}" if $AC_CC $LDFLAGS -o /tmp/ngc$$ /tmp/ngc$$.o; then AC_LDFLAGS=${LDFLAGS:-"-g"} test "$LDFLAGS" && TLOG "LDFLAGS=\"${LDFLAGS}\" are okay" elif [ "$LDFLAGS" ]; then TLOG "ignoring bogus LDFLAGS=\"${LDFLAGS}\"" fi else AC_LDFLAGS=${CFLAGS:-"-g"} fi else AC_FAIL " does not compile code properly" fi AC_SUB 'CC' "$AC_CC" rm -f /tmp/ngc$$ /tmp/ngc$$.c /tmp/ngc$$.o return $status } # # acLookFor actually looks for a program, without setting anything. # acLookFor () { path=${AC_PATH:-$ac_default_path} case "X$1" in X-[rx]) __mode=$1 shift ;; *) __mode=-x ;; esac oldifs="$IFS" for program in $*; do IFS=":" for x in $path; do if [ $__mode $x/$program -a -f $x/$program ]; then echo $x/$program break 2 fi done done IFS="$oldifs" unset __mode } # # check that a program exists and set its path # MF_PATH_INCLUDE () { SYM=$1; shift case X$1 in X-[rx]) __mode=$1 shift ;; *) unset __mode ;; esac TLOGN "looking for $1" DEST=`acLookFor $__mode $*` __sym=`echo "$SYM" | $AC_UPPERCASE` if [ "$DEST" ]; then TLOG " ($DEST)" echo "$1 is $DEST" AC_MAK $SYM AC_DEFINE PATH_$__sym \""$DEST"\" AC_SUB $__sym "$DEST" eval CF_$SYM=$DEST return 0 else #AC_SUB $__sym '' echo "$1 is not found" TLOG " (not found)" return 1 fi } # # AC_INIT starts the ball rolling # # After AC_INIT, fd's 1 and 2 point to config.log # and fd 5 points to what used to be fd 1 # AC_INIT () { __config_files="config.cmd config.sub config.h config.mak config.log" rm -f $__config_files __cwd=`pwd` exec 5>&1 1>$__cwd/config.log 2>&1 AC_CONFIGURE_FOR=__AC_`echo $1 | sed -e 's/\..$//' | $AC_UPPERCASE | tr ' ' '_'`_D # check to see whether to use echo -n or echo ...\c # echo -n hello > $$ echo world >> $$ if grep "helloworld" $$ >/dev/null; then ac_echo="echo -n" echo "[echo -n] works" else ac_echo="echo" echo 'hello\c' > $$ echo 'world' >> $$ if grep "helloworld" $$ >/dev/null; then ac_echo_nonl='\c' echo "[echo ...\\c] works" fi fi rm -f $$ LOG "Configuring for [$1]" cat > $__cwd/config.h << EOF /* * configuration for $1${2:+" ($2)"}, generated `date` * by ${LOGNAME:-`whoami`}@`hostname` */ #ifndef $AC_CONFIGURE_FOR #define $AC_CONFIGURE_FOR 1 EOF unset __share if [ -d $AC_PREFIX/share/man ]; then for t in 1 2 3 4 5 6 7 8 9; do if [ -d $AC_PREFIX/share/man/man$t ]; then __share=/share elif [ -d $AC_PREFIX/share/man/cat$t ]; then __share=/share fi done else __share= fi if [ -d $AC_PREFIX/libexec ]; then __libexec=libexec else __libexec=lib fi AC_PREFIX=${AC_PREFIX:-/usr/local} AC_EXECDIR=${AC_EXECDIR:-$AC_PREFIX/bin} AC_SBINDIR=${AC_SBINDIR:-$AC_PREFIX/sbin} AC_LIBDIR=${AC_LIBDIR:-$AC_PREFIX/lib} AC_MANDIR=${AC_MANDIR:-$AC_PREFIX$__share/man} AC_LIBEXEC=${AC_LIBEXEC:-$AC_PREFIX/$__libexec} AC_CONFDIR=${AC_CONFDIR:-/etc} AC_PATH=${WITH_PATH:-$PATH} AC_PROG_CPP AC_PROG_INSTALL ac_os=`uname -s` _os=`echo $ac_os | $AC_UPPERCASE | sed -e 's/[^A-Z0-9_].*$//'` AC_DEFINE OS_$_os 1 eval OS_${_os}=1 unset _os } # # AC_LIBRARY checks to see if a given library exists and contains the # given function. # usage: AC_LIBRARY function library [alternate ...] # AC_LIBRARY() { SRC=$1 shift __acllibs= __aclhdrs= for x in "$@"; do case X"$x" in X-l*) __acllibs="$__acllibs $x" ;; *) __aclhdrs="$__aclhdrs $x" ;; esac done # first see if the function can be found in any of the # current libraries AC_QUIET AC_CHECK_FUNCS $SRC $__aclhdrs && return 0 # then search through the list of libraries __libs="$LIBS" for x in $__acllibs; do LIBS="$__libs $x" if AC_QUIET AC_CHECK_FUNCS $SRC $__aclhdrs; then AC_LIBS="$AC_LIBS $x" return 0 fi done return 1 } # # AC_PROG_LEX checks to see if LEX exists, and if it's lex or flex. # AC_PROG_LEX() { TLOGN "looking for lex " DEST=`acLookFor lex` if [ "$DEST" ]; then AC_MAK LEX AC_DEFINE PATH_LEX \"$DEST\" AC_SUB 'LEX' "$DEST" echo "lex is $DEST" else DEST=`acLookFor flex` if [ "$DEST" ]; then AC_MAK FLEX AC_DEFINE 'LEX' \"$DEST\" AC_SUB 'LEX', "$DEST" echo "lex is $DEST" else AC_SUB LEX '' echo "neither lex or flex found" TLOG " (not found)" return 1 fi fi if AC_LIBRARY yywrap -ll -lfl; then TLOG "($DEST)" return 0 fi TLOG "(no lex library found)" return 1 } # # AC_PROG_YACC checks to see if YACC exists, and if it's bison or # not. # AC_PROG_YACC () { TLOGN "looking for yacc " DEST=`acLookFor yacc` if [ "$DEST" ]; then AC_MAK YACC AC_DEFINE PATH_YACC \"$DEST\" AC_SUB 'YACC' "$DEST" TLOG "($DEST)" echo "yacc is $DEST" else DEST=`acLookFor bison` if [ "$DEST" ]; then AC_MAK BISON AC_DEFINE 'YACC' \"$DEST\" AC_SUB 'YACC' "$DEST -y" echo "yacc is $DEST -y" TLOG "($DEST -y)" else AC_SUB 'YACC' '' echo "neither yacc or bison found" TLOG " (not found)" return 1 fi fi return 0 } # # AC_PROG looks for a program # AC_PROG () { PN=`basename $1 | $AC_UPPERCASE | tr -dc $AC_UPPER_PAT` TLOGN "looking for $1" DEST=`acLookFor $1` if [ "$DEST" ]; then AC_SUB $PN $DEST TLOG " ($DEST)" return 0 fi AC_SUN $PN true TLOG " (not found)" return 1 } # # AC_PROG_LN_S checks to see if ln exists, and, if so, if ln -s works # AC_PROG_LN_S () { test "$AC_FIND_PROG" || AC_PROG_FIND test "$AC_FIND_PROG" || return 1 TLOGN "looking for \"ln -s\"" DEST=`acLookFor ln` if [ "$DEST" ]; then rm -f /tmp/b$$ $DEST -s /tmp/a$$ /tmp/b$$ if [ "`$AC_FIND_PROG /tmp/b$$ -type l -print`" ]; then TLOG " ($DEST)" echo "$DEST exists, and ln -s works" AC_SUB 'LN_S' "$DEST -s" rm -f /tmp/b$$ else AC_SUB 'LN_S' '' TLOG " ($DEST exists, but -s does not seem to work)" echo "$DEST exists, but ln -s doesn't seem to work" rm -f /tmp/b$$ return 1 fi else AC_SUB 'LN_S' '' echo "ln not found" TLOG " (not found)" return 1 fi } # # AC_PROG_FIND looks for the find program and sets the FIND environment # variable # AC_PROG_FIND () { if test -z "$AC_FIND_PROG"; then MF_PATH_INCLUDE FIND find rc=$? AC_FIND_PROG=$DEST return $rc fi return 0 } # # AC_PROG_AWK looks for the awk program and sets the AWK environment # variable # AC_PROG_AWK () { if test -z "$AC_AWK_PROG"; then MF_PATH_INCLUDE AWK awk rc=$? AC_AWK_PROG=$DEST return $rc fi return 0 } # # AC_PROG_SED looks for the sed program and sets the SED environment # variable # AC_PROG_SED () { if test -z "$AC_SED_PROG"; then MF_PATH_INCLUDE SED sed rc=$? AC_SED_PROG=$DEST return $rc fi return 0 } # # AC_HEADER_SYS_WAIT looks for sys/wait.h # AC_HEADER_SYS_WAIT () { AC_CHECK_HEADERS sys/wait.h || return 1 } # # AC_TYPE_PID_T checks to see if the pid_t type exists # AC_TYPE_PID_T () { AC_CHECK_TYPE pid_t sys/types.h return $? } # # AC_C_CONST checks to see if the compiler supports the const keyword # AC_C_CONST () { cat > /tmp/pd$$.c << EOF const char me=1; EOF LOGN "checking for \"const\" keyword" if __MAKEDOTO /tmp/pd$$.c; then rc=0 else AC_DEFINE 'const' '/**/' rc=1 fi rm -f /tmp/pd$$.c return $rc } # # AC_C_VOLATILE checks to see if the compiler supports the volatile keyword # AC_C_VOLATILE () { cat > /tmp/pd$$.c << EOF f() { volatile char me=1; } EOF LOGN "checking for \"volatile\" keyword" if __MAKEDOTO /tmp/pd$$.c; then rc=0 else AC_DEFINE 'volatile' '/**/' rc=1 fi rm -f /tmp/pd$$.c return $rc } # # AC_SCALAR_TYPES checks to see if the compiler can generate 2 and 4 byte ints. # AC_SCALAR_TYPES () { cat > /tmp/pd$$.c << EOF #include main() { unsigned long v_long; unsigned int v_int; unsigned short v_short; if (sizeof v_long == 4) puts("#define DWORD unsigned long"); else if (sizeof v_int == 4) puts("#define DWORD unsigned int"); else exit(1); if (sizeof v_int == 2) puts("#define WORD unsigned int"); else if (sizeof v_short == 2) puts("#define WORD unsigned short"); else exit(2); puts("#define BYTE unsigned char"); exit(0); } EOF rc=1 LOGN "defining WORD & DWORD scalar types" if $AC_CC /tmp/pd$$.c -o /tmp/pd$$; then if /tmp/pd$$ >> $__cwd/config.h; then rc=0 fi fi case "$rc" in 0) TLOG "" ;; *) TLOG " ** FAILED **" ;; esac rm -f /tmp/pd$$ /tmp/pd$$.c } # # AC_OUTPUT generates makefiles from makefile.in's # AC_OUTPUT () { cd $__cwd AC_SUB 'LIBS' "$AC_LIBS" AC_SUB 'CONFIGURE_FILES' "$__config_files" AC_SUB 'GENERATED_FILES' "$*" AC_SUB 'CFLAGS' "$AC_CFLAGS" AC_SUB 'LDFLAGS' "$AC_LDFLAGS" AC_SUB 'srcdir' "$AC_SRCDIR" AC_SUB 'prefix' "$AC_PREFIX" AC_SUB 'exedir' "$AC_EXECDIR" AC_SUB 'sbindir' "$AC_SBINDIR" AC_SUB 'libdir' "$AC_LIBDIR" AC_SUB 'libexec' "$AC_LIBEXEC" AC_SUB 'confdir' "$AC_CONFDIR" AC_SUB 'mandir' "$AC_MANDIR" if [ -r config.sub ]; then test "$AC_SED_PROG" || AC_PROG_SED test "$AC_SED_PROG" || return 1 echo >> config.h echo "#endif/* ${AC_CONFIGURE_FOR} */" >> config.h rm -f config.cmd Q=\' cat - > config.cmd << EOF #! /bin/sh ${CC:+CC=${Q}${CC}${Q}} ${CFLAGS:+CFLAGS=${Q}${CFLAGS}${Q}} $ac_progname $ac_configure_command EOF chmod +x config.cmd __d=$AC_SRCDIR for makefile in $*;do if test -r $__d/${makefile}.in; then LOG "generating $makefile" ./config.md `__ac_dirname ./$makefile` 2>/dev/null $AC_SED_PROG -f config.sub < $__d/${makefile}.in > $makefile __config_files="$__config_files $makefile" else LOG "WARNING: ${makefile}.in does not exist!" fi done unset __d else echo fi } # # AC_CHECK_FLOCK checks to see if flock() exists and if the LOCK_NB argument # works properly. # AC_CHECK_FLOCK() { AC_CHECK_HEADERS sys/types.h sys/file.h fcntl.h cat << EOF > $$.c #include #include #include #include main() { int x = open("$$.c", O_RDWR, 0666); int y = open("$$.c", O_RDWR, 0666); if (flock(x, LOCK_EX) != 0) exit(1); if (flock(y, LOCK_EX|LOCK_NB) == 0) exit(1); exit(0); } EOF LOGN "checking flock() sanity" HAS_FLOCK=0 if $AC_CC -o flock $$.c ; then if ./flock ; then LOG " (good)" HAS_FLOCK=1 AC_DEFINE HAS_FLOCK else LOG " (bad)" fi else LOG " (not found)" fi rm -f flock $$.c case "$HAS_FLOCK" in 0) return 1 ;; *) return 0 ;; esac } # # AC_CHECK_RESOLVER finds out whether the berkeley resolver is # present on this system. # AC_CHECK_RESOLVER () { AC_PROG_CC TLOGN "looking for the Berkeley resolver library" __ACR_rc=0 cat > /tmp/ngc$$.c << EOF #include #include #include #include main() { char bfr[256]; res_init(); res_query("hello", C_IN, T_A, bfr, sizeof bfr); } EOF if $AC_CC -o /tmp/ngc$$ /tmp/ngc$$.c; then TLOG " (found)" elif $AC_CC -o /tmp/ngc$$ /tmp/ngc$$.c -lresolv; then TLOG " (found, needs -lresolv)" AC_LIBS="$AC_LIBS -lresolv" elif $AC_CC -DBIND_8_COMPAT -o /tmp/ngc$$ /tmp/ngc$$.c; then TLOG " (found, needs BIND_8_COMPAT)" AC_DEFINE BIND_8_COMPAT 1 elif $AC_CC -DBIND_8_COMPAT -o /tmp/ngc$$ /tmp/ngc$$.c -lresolv; then TLOG " (found, needs BIND_8_COMPAT & -lresolv)" AC_DEFINE BIND_8_COMPAT 1 else TLOG " (not found)" __ACR_rc=1 fi rm -f /tmp/ngc$$.c return $__ACR_rc } # # AC_CHECK_ALLOCA looks for alloca # AC_CHECK_ALLOCA () { AC_PROG_CC AC_CHECK_HEADERS stdlib.h cat - > /tmp/ngc$$.c << EOF #if T # include #else # include #endif main() { alloca(10); } EOF LOGN "looking for the alloca function" if $AC_CC -DT /tmp/ngc$$.c -o /tmp/ngc$$; then AC_DEFINE 'HAVE_ALLOCA_H' 1 status=0 TLOG " (found in alloca.h)" elif $AC_CC /tmp/ngc$$.c -o /tmp/ngc$$; then TLOG " (found)" status=0 else TLOG " (not found)" status=1 fi rm -f /tmp/ngc$$.c /tmp/ngc return $status } # # AC_CHECK_BASENAME looks for a copy of basename that does NOT use # a local static buffer to hold results in. # AC_CHECK_BASENAME() { TLOGN "looking for a reentrant basename " cat > /tmp/ngc$$.c << EOF #include main() { char *a = basename("/a/test"); char *b = basename("/a/nother"); return (strcmp(a,b) != 0) ? 0 : 1; } EOF if $AC_CC -o /tmp/ngc$$ /tmp/ngc$$.c $LIBS; then if /tmp/ngc$$; then TLOG "(found)" AC_DEFINE 'HAVE_BASENAME' 1 AC_CHECK_HEADERS libgen.h else TLOG "(broken)" fi else TLOG "(not found)" fi rm -f /tmp/ngc$$ /tmp/ngc$$.c } # # AC_PROG_INSTALL finds the install program and guesses whether it's a # Berkeley or GNU install program # AC_PROG_INSTALL () { DEST=`acLookFor install` LOGN "looking for install" unset IS_BSD if [ "$DEST" ]; then # BSD install or GNU install? Let's find out... touch /tmp/a$$ $DEST /tmp/a$$ /tmp/b$$ if test -r /tmp/a$$; then LOG " ($DEST)" else IS_BSD=1 LOG " ($DEST) bsd install" fi rm -f /tmp/a$$ /tmp/b$$ else DEST=`acLookFor ginstall` if [ "$DEST" ]; then LOG " ($DEST)" else DEST="false" LOG " (not found)" fi fi if [ "$IS_BSD" ]; then PROG_INSTALL="$DEST -c" else PROG_INSTALL="$DEST" fi AC_SUB 'INSTALL' "$PROG_INSTALL" AC_SUB 'INSTALL_PROGRAM' "$PROG_INSTALL -s -m 755" AC_SUB 'INSTALL_DATA' "$PROG_INSTALL -m 444" # finally build a little directory installer # if mkdir -p works, use that, otherwise use install -d, # otherwise build a script to do it by hand. # in every case, test to see if the directory exists before # making it. if mkdir -p $$a/b; then # I like this method best. __mkdir="mkdir -p" rmdir $$a/b rmdir $$a elif $PROG_INSTALL -d $$a/b; then __mkdir="$PROG_INSTALL -d" rmdir $$a/b rmdir $$a fi __config_files="$__config_files config.md" AC_SUB 'INSTALL_DIR' "$__cwd/config.md" echo "#! /bin/sh" > $__cwd/config.md echo "# script generated" `date` "by configure.sh" >> $__cwd/config.md echo >> $__cwd/config.md if [ "$__mkdir" ]; then echo "test -d \"\$1\" || $__mkdir \"\$1\"" >> $__cwd/config.md echo "exit $?" >> $__cwd/config.md else cat - >> $__cwd/config.md << \EOD pieces=`IFS=/; for x in $1; do echo $x; done` dir= for x in $pieces; do dir="$dir$x" mkdir $dir || exit 1 dir="$dir/" done exit 0 EOD fi chmod +x $__cwd/config.md } # # acCheckCPP is a local that runs a C preprocessor with a given set of # compiler options # acCheckCPP () { cat > /tmp/ngc$$.c << EOF #define FOO BAR FOO EOF if $1 $2 /tmp/ngc$$.c > /tmp/ngc$$.o; then if grep -v '#define' /tmp/ngc$$.o | grep -s BAR >/dev/null; then echo "CPP=[$1], CPPFLAGS=[$2]" AC_SUB 'CPP' "$1" AC_SUB 'CPPFLAGS' "$2" rm /tmp/ngc$$.c /tmp/ngc$$.o return 0 fi fi rm /tmp/ngc$$.c /tmp/ngc$$.o return 1 } # # AC_PROG_CPP checks for cpp, then checks to see which CPPFLAGS are needed # to run it as a filter. # AC_PROG_CPP () { if [ "$AC_CPP_PROG" ]; then DEST=$AC_CPP_PROG else __ac_path="$AC_PATH" AC_PATH="/lib:/usr/lib:${__ac_path:-$ac_default_path}" DEST=`acLookFor cpp` AC_PATH="$__ac_path" fi unset fail LOGN "Looking for cpp" if [ "$DEST" ]; then TLOGN " ($DEST)" acCheckCPP $DEST "$CPPFLAGS" || \ acCheckCPP $DEST -traditional-cpp -E || \ acCheckCPP $DEST -E || \ acCheckCPP $DEST -traditional-cpp -pipe || \ acCheckCPP $DEST -pipe || fail=1 if [ "$fail" ]; then AC_FAIL " (can't run cpp as a pipeline)" else TLOG " ok" return 0 fi fi AC_FAIL " (not found)" } # # AC_FAIL spits out an error message, then __fail's AC_FAIL() { LOG "$*" $__fail 1 } # # AC_SUB writes a substitution into config.sub AC_SUB() { ( _subst=`echo $2 | sed -e 's/;/\\;/g'` echo "s;@$1@;$_subst;g" ) >> $__cwd/config.sub } # # AC_MAK writes a define into config.mak AC_MAK() { echo "HAVE_$1 = 1" >> $__cwd/config.mak } # # AC_DEFINE adds a #define to config.h AC_DEFINE() { echo "#define $1 ${2:-1}" >> $__cwd/config.h } # # AC_INCLUDE adds a #include to config.h AC_INCLUDE() { echo "#include \"$1\"" >> $__cwd/config.h } # # AC_CONFIG adds a configuration setting to all the config files AC_CONFIG() { AC_DEFINE "PATH_$1" \""$2"\" AC_MAK "$1" AC_SUB "$1" "$2" } # # AC_QUIET does something quietly AC_QUIET() { eval $* 5>/dev/null } AC_TR=`acLookFor tr` if [ "$AC_TR" ]; then # try posix-style tr ABC=`echo abc | tr abcdefghijklmnopqrstuvwxyz ABCDEFGHIJKLMNOPQRSTUVWXYZ` if [ "$ABC" = "ABC" ]; then AC_UPPERCASE="$AC_TR abcdefghijklmnopqrstuvwxyz ABCDEFGHIJKLMNOPQRSTUVWXYZ" AC_UPPER_PAT="ABCDEFGHIJKLMNOPQRSTUVWXYZ" else ABC=`echo abc | tr a-z A-Z` if [ "$ABC" = "ABC" ]; then AC_UPPERCASE="$AC_TR a-z A-Z" AC_UPPER_PAT="A-Z" else ABC=`echo abc | tr '[a-z]' '[A-Z]'` if [ "$ABC" = "ABC" ]; then AC_UPPERCASE="$AC_TR '[a-z]' '[A-Z]'" AC_UPPER_PAT="'[A-Z]'" else AC_FAIL "$AC_TR cannot translate lowercase to uppercase" return 0 fi fi fi else AC_FAIL "configure requires a functional version of tr" fi while [ $# -gt 0 ]; do unset matched case X"$1" in X--src|X--srcdir) AC_SRCDIR=`__ac_dir "$2"` _set_srcdir=1 shift 2;; X--src=*|X--srcdir=*) __d=`echo "$1" | sed -e 's/^[^=]*=//'` AC_SRCDIR=`__ac_dir "$__d"` _set_srcdir=1 shift 1 ;; X--prefix) AC_PREFIX=`__ac_dir "$2"` _set_prefix=1 shift 2;; X--prefix=*) __d=`echo "$1"| sed -e 's/^[^=]*=//'` AC_PREFIX=`__ac_dir "$__d"` _set_prefix=1 shift 1;; 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X--use-*=*) _var=`echo "$1"| sed -n 's/^--use-\([A-Za-z][-A-Za-z0-9_]*\)=.*$/\1/p'` if [ "$_var" ]; then _val=`echo "$1" | sed -e 's/^--use-[^=]*=\(.*\)$/\1/'` _v=`echo $_var | $AC_UPPERCASE | tr '-' '_'` case X"$_val" in X[Yy][Ee][Ss]|X[Tt][Rr][Uu][Ee]) eval USE_${_v}=T ;; X[Nn][Oo]|X[Ff][Aa][Ll][Ss][Ee]) eval unset USE_${_v} ;; *) echo "Bad value for --use-$_var ; must be yes or no" exit 1 ;; esac else echo "Bad option $1. 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Use --help to show options" 1>&2 exit 1 fi ;; esac done