Mercurial > hg > octave-avbm
view configure.in @ 2847:8b262e771614
[project @ 1997-03-27 16:18:26 by jwe]
| author | jwe |
|---|---|
| date | Thu, 27 Mar 1997 16:19:58 +0000 |
| parents | 19c45d29f177 |
| children | f9088eb6b47a |
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dnl configure.in dnl dnl Process this file with autoconf to produce a configure script. dnl dnl Copyright (C) 1996, 1997 John W. Eaton ### ### This file is part of Octave. ### ### Octave is free software; you can redistribute it and/or modify it ### under the terms of the GNU General Public License as published by the ### Free Software Foundation; either version 2, or (at your option) any ### later version. ### ### Octave is distributed in the hope that it will be useful, but WITHOUT ### ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or ### FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License ### for more details. ### ### You should have received a copy of the GNU General Public License ### along with Octave; see the file COPYING. If not, write to the Free ### Software Foundation, 59 Temple Place - Suite 330, Boston, MA ### 02111-1307, USA. AC_REVISION($Revision: 1.263 $) AC_PREREQ(2.9) AC_INIT(src/octave.cc) AC_CONFIG_HEADER(config.h) AC_DEFINE(OCTAVE_SOURCE, 1) OCTAVE_HOST_TYPE ### some defaults AC_PREFIX_DEFAULT(/usr/local) AC_MSG_RESULT([defining prefix to be $prefix]) OCTAVE_SET_DEFAULT(exec_prefix) OCTAVE_SET_DEFAULT(bindir) OCTAVE_SET_DEFAULT(datadir) OCTAVE_SET_DEFAULT(libdir) OCTAVE_SET_DEFAULT(libexecdir) OCTAVE_SET_DEFAULT(includedir) OCTAVE_SET_DEFAULT(mandir) OCTAVE_SET_DEFAULT(infodir) OCTAVE_SET_DEFAULT(man1dir, '$(mandir)/man1') OCTAVE_SET_DEFAULT(man1ext, '.1') OCTAVE_SET_DEFAULT(infofile, '$(infodir)/octave.info') OCTAVE_SET_DEFAULT(octincludedir, '$(includedir)/octave-$(version)') OCTAVE_SET_DEFAULT(fcnfiledir, '$(datadir)/octave/$(version)/m') OCTAVE_SET_DEFAULT(localfcnfiledir, '$(datadir)/octave/site/m') OCTAVE_SET_DEFAULT(localfcnfilepath, '$(localfcnfiledir)//') OCTAVE_SET_DEFAULT(archlibdir, '$(libexecdir)/octave/$(version)/exec/$(target_host_type)') OCTAVE_SET_DEFAULT(localarchlibdir, '$(libexecdir)/octave/site/exec/$(target_host_type)') OCTAVE_SET_DEFAULT(octfiledir, '$(libexecdir)/octave/$(version)/oct/$(target_host_type)') OCTAVE_SET_DEFAULT(localoctfiledir, '$(libexecdir)/octave/site/oct/$(target_host_type)') OCTAVE_SET_DEFAULT(localoctfilepath, '$(localoctfiledir)//') OCTAVE_SET_DEFAULT(fcnfilepath, '.:$(localoctfilepath):$(localfcnfilepath):$(octfiledir)//:$(fcnfiledir)//') OCTAVE_SET_DEFAULT(imagedir, '$(datadir)/octave/$(version)/imagelib') OCTAVE_SET_DEFAULT(imagepath, '.:$(imagedir)//') ### Make configure args available for other uses. config_opts=$ac_configure_args AC_SUBST(config_opts) ### Path separator. AC_DEFINE(SEPCHAR, [':']) AC_DEFINE(SEPCHAR_STR, [":"]) ### Allow the user to force us to use f2c. AC_ARG_WITH(f2c, [ --with-f2c use f2c even if Fortran compiler is available], [if test "$withval" = no; then use_f2c=false; else use_f2c=true; fi], use_f2c=false) ### Allow the user to force us to use g77. AC_ARG_WITH(g77, [ --with-g77 use g77 to compile Fortran subroutines], [if test "$withval" = no; then use_g77=false; else use_g77=true; fi], use_g77=false) ### Allow the user to force us to use f77. AC_ARG_WITH(f77, [ --with-f77 use f77 to compile Fortran subroutines], [if test "$withval" = no; then use_f77=false; else use_f77=true; fi], use_f77=false) ### Make sure only one of the above options for Fortran compilers was ### specified (multiple "no" or --without-FOO options are ok). OCTAVE_CHECK_EXCLUSIVE_WITH_OPTIONS(f77, g77, [AC_MSG_WARN([--with-f77 and --with-g77 both specified! Using g77...]) use_g77=false]) OCTAVE_CHECK_EXCLUSIVE_WITH_OPTIONS(f77, f2c, [AC_MSG_WARN([--with-f2c and --with-f77 both specified! Using f77...]) use_f2c=false]) OCTAVE_CHECK_EXCLUSIVE_WITH_OPTIONS(g77, f2c, [AC_MSG_WARN([--with-f2c and --with-g77 both specified! Using g77...]) use_f2c=false]) ### Allow the user disable support for GNU info. case "$canonical_host_type" in *-*-cygwin32) USE_GNU_INFO=false ;; *) USE_GNU_INFO=true ;; esac INFO_DIR=info AC_ARG_ENABLE(info, [ --enable-info use GNU info (default is yes)], [if test "$enableval" = no; then USE_GNU_INFO=false; INFO_DIR=""; fi], []) if $USE_GNU_INFO; then AC_DEFINE(USE_GNU_INFO, 1) fi AC_SUBST(INFO_DIR) dnl ### Allow the user disable support for plplot. dnl dnl # USE_PLPLOT=true dnl # PLPLOT_DIR=plplot dnl # LIBPLPLOT=../plplot/libplplot.a USE_PLPLOT=false PLPLOT_DIR="" LIBPLPLOT="" dnl AC_ARG_ENABLE(plplot, dnl [ --enable-plplot use plplot for plotting (default is yes)], dnl [if test "$enableval" = no; then dnl USE_PLPLOT=false; dnl LIBPLPLOT=""; dnl PLPLOT_DIR=""; dnl fi], []) dnl if $USE_PLPLOT; then dnl AC_DEFINE(USE_PLPLOT, 1) dnl fi AC_SUBST(LIBPLPLOT) AC_SUBST(PLPLOT_DIR) ### Allow the user disable support for command line editing using GNU ### readline. READLINE_DIR=readline USE_READLINE=true LIBREADLINE=-lreadline dnl AC_ARG_ENABLE(readline, dnl [ --enable-readline use readline library (default is yes)], dnl [if test "$enableval" = no; then dnl USE_READLINE=false; dnl LIBREADLINE=""; dnl READLINE_DIR=""; dnl fi], []) if $USE_READLINE; then AC_DEFINE(USE_READLINE, 1) fi AC_SUBST(LIBREADLINE) AC_SUBST(READLINE_DIR) ### Make it possible to have Octave's array and matrix classes do bounds ### checking on element references. This slows some operations down a ### bit, so it is turned off by default. BOUNDS_CHECKING=false AC_ARG_ENABLE(bounds-check, [ --enable-bounds-check for internal array classes (default is yes)], [if test "$enableval" = no; then BOUNDS_CHECKING=false; fi], []) if $BOUNDS_CHECKING; then AC_DEFINE(BOUNDS_CHECKING, 1) fi ### See which C++ compiler to use (we expect to find g++). EXTERN_CXXFLAGS="$CXXFLAGS" AC_PROG_CXX AC_PROG_CXXCPP ### Do special things for g++. ADD_CXX_WALL=false NO_IMPLICIT_TEMPLATES= gxx_version=`$CXX -v 2>&1 | grep "^.*g.. version" | \ sed -e 's/^.*g.. version *//' -e 's/cygnus-//'` case "$gxx_version" in changequote(,)dnl 2.[6789].*|2.[123456789][0123456789].*) changequote([,])dnl if test -z "$EXTERN_CXXFLAGS"; then ADD_CXX_WALL=true fi NO_IMPLICIT_TEMPLATES="-fno-implicit-templates" AC_MSG_RESULT([defining NO_IMPLICIT_TEMPLATES to be $NO_IMPLICIT_TEMPLATES]) ;; changequote(,)dnl 1.*|2.[012345].*) changequote([,])dnl AC_MSG_ERROR([g++ version $gxx_version will not work to compile Octave]) ;; *) AC_MSG_WARN([Octave has only been tested with g++, and I can't find it]) ;; esac HOST_CXXFLAGS= case "$gxx_version" in 2.6.*) case "$canonical_host_type" in rs6000-ibm-aix* | powerpc-ibm-aix*) HOST_CXXFLAGS="-Wa,-u" AC_MSG_RESULT([defining HOST_CXXFLAGS to be $HOST_CXXFLAGS]) ;; esac ;; esac CXX_VERSION= if test -n "$gxx_version"; then CXX_VERSION="$gxx_version" fi AC_SUBST(CXX_VERSION) AC_SUBST(HOST_CXXFLAGS) AC_SUBST(NO_IMPLICIT_TEMPLATES) ### See which C compiler to use (we expect to find gcc). EXTERN_CFLAGS="$CFLAGS" AC_PROG_CC AC_PROG_CPP AC_PROG_GCC_TRADITIONAL ### Do special things for gcc. ADD_CC_WALL=false gcc_version=`$CC -v 2>&1 | grep "^.*gcc version" | \ sed -e 's/^.*g.. version *//' -e 's/cygnus-//'` case "$gcc_version" in 2.*) if test -z "$EXTERN_CFLAGS"; then ADD_CC_WALL=true fi if test -z "$LDFLAGS"; then LDFLAGS="-g" AC_MSG_RESULT([defining LDFLAGS to be $LDFLAGS]) fi ;; 1.*) AC_MSG_WARN([gcc version $gcc_version is likely to cause problems]) ;; *) AC_MSG_WARN([Octave has only been tested with gcc, and I can't find it]) ;; esac CC_VERSION= if test -n "$gcc_version"; then CC_VERSION="$gcc_version" fi AC_SUBST(CC_VERSION) ### On Intel systems with gcc, we need to compile with -mieee-fp to ### get full support for IEEE floating point. ### ### On Alpha/OSF systems, wee need -mieee, but that also ### requires gcc 2.8.x or later. case "$canonical_host_type" in changequote(,)dnl i[3456789]86-*-*) changequote([,])dnl GCC_IEEE_FP_FLAG="-mieee-fp" AC_MSG_RESULT([defining GCC_IEEE_FP_FLAG to be $GCC_IEEE_FP_FLAG]) ;; alpha-dec-osf*) case "$gcc_version" in changequote(,)dnl 1.* | 2.[01234567].*) changequote([,])dnl ;; *) GCC_IEEE_FP_FLAG="-mieee" AC_MSG_RESULT([defining GCC_IEEE_FP_FLAG to be $GCC_IEEE_FP_FLAG]) ;; esac ;; esac AC_SUBST(GCC_IEEE_FP_FLAG) ### Use -static if compiling on Alpha OSF/1 1.3 systems. case "$canonical_host_type" in alpha-dec-osf1.3) LD_STATIC_FLAG=-static ;; esac if test -n "$LD_STATIC_FLAG"; then AC_MSG_RESULT([defining LD_STATIC_FLAG to be $LD_STATIC_FLAG]) fi AC_SUBST(LD_STATIC_FLAG) ### If we haven't been forced to use a particular Fortran compiler, ### try to find one using any one of several common Un*x Fortran ### compiler names. Put fc last to avoid confusion with some vendor's ### /bin/sh fc builtin. ### ### f77 : most Unix systems ### xlf : IBM / AIX ### cf77 : Cray / Unicos ### g77 : GNU Fortran ### fc : Convex ### ### If a compiler is found, check to see if it is compatible with our ### assumptions. If it is, use it. Otherwise, look for f2c. If we ### can't find a compatible fortran compiler or f2c, issue a warning. ### ### I don't think the Cray compiler will ever work like f2c... ### ### The configure options --with-f77, --with-g77, or --with-f2c ### force f77, g77 or f2c to be used. It is also possible to use ### these options to specify the name of the compiler. For example, ### `--with-g77=/opt/gnu/bin/f77' says that we are using g77 but it is ### installed as /opt/gnu/bin/f77. if $use_f77; then if test "$with_g77" = yes; then F77=f77 else F77="$with_f77" fi AC_MSG_RESULT([defining F77 to be $F77]) elif $use_g77; then if test "$with_g77" = yes; then F77=g77 else F77="$with_g77" fi AC_MSG_RESULT([defining F77 to be $F77]) elif $use_f2c; then F77= if test "$with_f2c" = yes; then F2C=f2c else F2C="$with_f2c" fi AC_MSG_RESULT([defining F2C to be $F2C]) else AC_CHECK_PROGS(F77, g77 f77 f90 xlf cf77 fc) fi have_fortran_compiler=false have_f2c=false f77_is_g77=false if $use_f2c; then have_f2c=true else if test -n "$F77"; then OCTAVE_FLIBS OCTAVE_F77_APPEND_UNDERSCORE OCTAVE_F2C_F77_COMPAT if test "$octave_cv_f2c_f77_compat" = no; then F77= else if $use_g77; then f77_is_g77=true else f77_output=`$F77 -v 2>&1 | grep "GNU F77"` if test -n "$f77_output"; then f77_is_g77=true fi fi if test -z "$FFLAGS"; then FFLAGS="-O" fi case "$canonical_host_type" in alpha-dec-osf*) if $f77_is_g77; then true else FFLAGS="-fpe1 $FFLAGS" fi ;; esac if test -n "$FFLAGS"; then AC_MSG_RESULT([defining FFLAGS to be $FFLAGS]) fi fi fi if test -n "$F77"; then have_fortran_compiler=true else AC_CHECK_PROG(F2C, f2c, f2c, []) if test -n "$F2C"; then have_f2c=true fi fi fi f77_rules_frag=/dev/null if $have_fortran_compiler; then f77_rules_frag=Makefrag.f77 changequote(,)dnl cat << \EOF > $f77_rules_frag %.c : %.f %.o : %.f $(FC) -c $(ALL_FFLAGS) $< pic/%.o : %.f $(FC) -c $(FPICFLAG) $(ALL_FFLAGS) $< -o $@ EOF changequote([,])dnl elif $have_f2c; then AC_DEFINE(F77_APPEND_UNDERSCORE, 1) AC_MSG_RESULT([defining F77_APPEND_UNDERSCORE to be 1]) ### This seems to be necessary on some Linux system. cat > conftest.$ac_ext << EOF int MAIN_ () { return 0; } int MAIN__ () { return 0; } EOF ### XXX FIMXE XXX -- these shouldn't be fixed names, eh? oct_conflib=libconflib.a oct_obj_ext=o if AC_TRY_EVAL(ac_compile); then $AR $ARFLAGS $oct_conflib conftest.$oct_obj_ext 1>&AC_FD_CC if test -n "$RANLIB"; then $RANLIB $oct_conflib 1>&AC_FD_CC fi fi rm -f conftest* AC_CHECK_LIB(f2c, f_open, FLIBS=-lf2c, FLIBS=, [-L. -lconflib -lm]) rm -f $oct_conflib if test -z "$FLIBS"; then AC_CHECK_LIB(F77, d_sin, FLIBS=-lF77, FLIBS=, -lm) if test -n "$FLIBS"; then AC_CHECK_LIB(I77, f_rew, FLIBS="$FLIBS -lI77", FLIBS=, -lF77) fi fi if test -z "$FLIBS"; then AC_MSG_WARN([I found f2c but not libf2c.a, or libF77.a and libI77.a]) fi f77_rules_frag=Makefrag.f77 cat << \EOF > $f77_rules_frag %.c : %.f cat $< | $(F2C) $(F2CFLAGS) > $(@F) %.o : %.f EOF else AC_MSG_WARN([in order to build octave, you must have a compatible]) AC_MSG_WARN([Fortran compiler or f2c installed and in your path.]) AC_MSG_ERROR([See the file INSTALL for more information.]) fi FORTRAN_MAIN_FLAG= case "$canonical_host_type" in *-linux-*) FORTRAN_MAIN_FLAG="-u MAIN__" ;; esac if test -n "$FORTRAN_MAIN_FLAG"; then AC_MSG_RESULT([defining FORTRAN_MAIN_FLAG to be $FORTRAN_MAIN_FLAG]) fi FC=$F77 AC_SUBST(FC) AC_SUBST(F77) AC_SUBST(FFLAGS) AC_SUBST(FLIBS) AC_SUBST(F2C) AC_SUBST(F2CFLAGS) AC_SUBST(FORTRAN_MAIN_FLAG) AC_SUBST_FILE(f77_rules_frag) ### Handle dynamic linking and shared library options. ### Allow the user to experiment with dynamic linking using dlopen/dlsym. AC_ARG_ENABLE(dl, [ --enable-dl use dlopen/dlsym for dynamic linking (not all systems)], [if test "$enableval" = no; then WITH_DL=no; elif test "$enableval" = yes; then WITH_DL=yes; else WITH_DL=maybe; fi], WITH_DL=maybe) ### Allow the user to experiment with dynamic linking using ### shl_load/shl_findsym (HP/UX only?). AC_ARG_ENABLE(shl, [ --enable-shl use shl_load/shl_findsym for dynamic linking (HP only)], [if test "$enableval" = no; then WITH_SHL=no; elif test "$enableval" = yes; then WITH_SHL=yes; else WITH_SHL=maybe; fi], WITH_SHL=maybe) ### Enable creation of shared libraries. Currently only works with ### gcc on some systems. AC_ARG_ENABLE(shared, [ --enable-shared create shared libraries (not all systems)], [if test "$enableval" = no; then SHARED_LIBS=false; else SHARED_LIBS=true; fi], SHARED_LIBS=false) AC_SUBST(SHARED_LIBS) use_rpath=true AC_ARG_ENABLE(rpath, [ --enable-rpath add -rpath to link command for shared libraries], [if test "$enableval" = no; then use_rpath=false; fi], []) DLFCN_DIR= CPICFLAG=-fPIC CXXPICFLAG=-fPIC FPICFLAG=-fPIC SHLEXT=so SH_LD="$CC" SH_LDFLAGS=-shared RLD_FLAG= case "$canonical_host_type" in *-*-386bsd* | *-*-openbsd* | *-*-netbsd* | *-*-freebsd*) SH_LD=ld SH_LDFLAGS=-Bshareable ;; alpha-dec-osf*) CPICFLAG= CXXPICFLAG= FPICFLAG= SH_LDFLAGS="-shared -Xlinker -expect_unresolved -Xlinker '*'" RLD_FLAG='-Xlinker -rpath -Xlinker $(libdir)' ;; changequote(,)dnl i[3456789]86-*-linux*) changequote([,])dnl RLD_FLAG='-Xlinker -rpath -Xlinker $(libdir)' ;; rs6000-ibm-aix* | powerpc-ibm-aix*) CPICFLAG= CXXPICFLAG= FPICFLAG= DLFCN_DIR=dlfcn ;; hppa*-hp-hpux*) if $f77_is_g77; then FPICFLAG=-fPIC else FPICFLAG=+Z fi SHLEXT=sl SH_LDFLAGS="-shared -fPIC" RLD_FLAG='-Xlinker +b -Xlinker $(libdir)' ;; *-sgi-*) CPICFLAG= CXXPICFLAG= FPICFLAG= RLD_FLAG='-L$(libdir)' ;; sparc-sun-sunos4*) if $f77_is_g77; then FPICFLAG=-fPIC else FPICFLAG=-PIC fi ;; sparc-sun-solaris2*) if $f77_is_g77; then FPICFLAG=-fPIC else FPICFLAG=-PIC fi RLD_FLAG='-Xlinker -R -Xlinker $(libdir)' ;; esac if $use_rpath; then true else RLD_FLAG= fi AC_MSG_RESULT([defining FPICFLAG to be $FPICFLAG]) AC_MSG_RESULT([defining CPICFLAG to be $CPICFLAG]) AC_MSG_RESULT([defining CXXPICFLAG to be $CXXPICFLAG]) AC_MSG_RESULT([defining SHLEXT to be $SHLEXT]) AC_MSG_RESULT([defining DLFCN_DIR to be $DLFCN_DIR]) AC_MSG_RESULT([defining SH_LD to be $SH_LD]) AC_MSG_RESULT([defining SH_LDFLAGS to be $SH_LDFLAGS]) AC_MSG_RESULT([defining RLD_FLAG to be $RLD_FLAG]) AC_SUBST(FPICFLAG) AC_SUBST(CPICFLAG) AC_SUBST(CXXPICFLAG) AC_SUBST(SHLEXT) AC_SUBST(DLFCN_DIR) AC_SUBST(SH_LD) AC_SUBST(SH_LDFLAGS) AC_SUBST(RLD_FLAG) ### Allow compilation of smaller kernel. This only works if some form ### of dynamic linking is also supported and used. AC_ARG_ENABLE(lite-kernel, [ --enable-lite-kernel compile smaller kernel (requires dynamic linking)], [if test "$enableval" = no; then OCTAVE_LITE=false; else OCTAVE_LITE=true; fi], OCTAVE_LITE=false) if $OCTAVE_LITE; then AC_DEFINE(OCTAVE_LITE, 1) fi AC_SUBST(OCTAVE_LITE) ### special checks for odd OS specific things. ### ### I am told that on some SCO systems, the only place to find some ### functions like gethostname and gettimeofday is in libsocket. AC_ISC_POSIX AC_MINIX AC_AIX AC_CHECK_LIB(sun, getpwnam) AC_CHECK_LIB(socket, gethostname) ### How big are ints and how are they oriented? These could probably ### be eliminated in favor of run-time checks. AC_CHECK_SIZEOF(short) AC_CHECK_SIZEOF(int) AC_CHECK_SIZEOF(long) ### Does the C compiler handle alloca() and const correctly? AC_ALLOCA AC_C_CONST ### See if we should define NPOS. OCTAVE_STRING_NPOS ### We need these before trying to find libf2c. if test -z "$AR"; then AR=ar fi AC_SUBST(AR) if test -z "$ARFLAGS"; then ARFLAGS="rc" fi AC_SUBST(ARFLAGS) AC_PROG_RANLIB ### Checks for header files. AC_HEADER_STDC AC_HEADER_DIRENT AC_HEADER_TIME AC_HEADER_SYS_WAIT AC_CHECK_HEADERS(assert.h curses.h fcntl.h float.h floatingpoint.h \ grp.h ieeefp.h limits.h memory.h nan.h ncurses.h pwd.h sgtty.h \ stdlib.h string.h sys/param.h sys/resource.h sys/select.h sys/stat.h \ sys/time.h sys/times.h sys/types.h sys/utsname.h termcap.h termio.h \ termios.h unistd.h varargs.h) if test "$ac_cv_header_termios_h" = yes \ || test "$ac_cv_header_termio_h" = yes \ || test "$ac_cv_header_sgtty_h" = yes; then true else AC_MSG_ERROR([I couldn't find termios.h, termio.h, or sgtty.h!]) fi ### See if the optional nonlinear programming code is present. AC_MSG_CHECKING([for npsol]) if test -f $srcdir/libcruft/npsol/npsol.f; then AC_MSG_RESULT(yes) else AC_MSG_RESULT(no) AC_DEFINE(NPSOL_MISSING, 1) fi AC_MSG_CHECKING([for qpsol]) if test -f $srcdir/libcruft/qpsol/qpsol.f; then AC_MSG_RESULT(yes) else AC_MSG_RESULT(no) AC_DEFINE(QPSOL_MISSING, 1) fi AC_MSG_CHECKING([for fsqp]) if test -f $srcdir/libcruft/fsqp/fsqpd.f; then AC_MSG_RESULT(yes) else AC_MSG_RESULT(no) AC_DEFINE(FSQP_MISSING, 1) fi ### Checks for functions and variables. AC_CHECK_FUNCS(atexit bcopy bzero dup2 endgrent endpwent execvp fcntl \ fork getcwd getegid geteuid getgid getgrent getgrgid getgrnam \ gethostname getpgrp getpid getppid getpwent getpwnam getpwuid \ gettimeofday getuid lstat memmove mkdir mkfifo on_exit pipe putenv \ rename rindex rmdir setgrent setpwent setvbuf sigaction sigpending \ sigprocmask sigsuspend stat strcasecmp strdup strerror stricmp \ strncasecmp strnicmp tempnam umask unlink usleep vfprintf vsprintf \ waitpid) OCTAVE_SMART_PUTENV OCTAVE_PROGRAM_INVOCATION_NAME LIBDLFCN= DLFCN_INCFLAGS= if test "$WITH_DL" = yes || test "$WITH_DL" = maybe; then case "$canonical_host_type" in rs6000-ibm-aix* | powerpc-ibm-aix*) LIBDLFCN="-ldlfcn -ll -lld" DLFCN_INCFLAGS='-I$(top_srcdir)/dlfcn -I$(TOPDIR)/dlfcn' WITH_DL=true ;; *) AC_CHECK_LIB(dl, dlopen) AC_CHECK_FUNCS(dlopen dlsym dlerror dlclose) if test "$ac_cv_func_dlopen" = yes \ && test "$ac_cv_func_dlsym" = yes \ && test "$ac_cv_func_dlerror" = yes \ && test "$ac_cv_func_dlclose" = yes; then WITH_DL=true else if test "$WITH_DL" = yes; then AC_MSG_ERROR([--enable-dl specified, but functions are missing!]) fi WITH_DL=false fi ;; esac if $WITH_DL; then AC_DEFINE(WITH_DL, 1) fi else WITH_DL=false fi AC_SUBST(WITH_DL) AC_SUBST(LIBDLFCN) AC_SUBST(DLFCN_INCFLAGS) if test "$WITH_SHL" = yes || test "$WITH_SHL" = maybe; then AC_CHECK_LIB(dld, shl_load) AC_CHECK_FUNCS(shl_load shl_findsym) if test "$ac_cv_func_shl_load" = yes \ && test "$ac_cv_func_shl_findsym" = yes; then WITH_SHL=true else if test "$WITH_SHL" = yes; then AC_MSG_ERROR([--enable-shl specified, but functions are missing!]) fi WITH_SHL=false fi if $WITH_SHL; then AC_DEFINE(WITH_SHL, 1) fi else WITH_SHL=false fi AC_SUBST(WITH_SHL) ### Set WITH_DYNAMIC_LINKING after all the other shared library stuff ### has been determined. if $WITH_DL || $WITH_SHL; then AC_DEFINE(WITH_DYNAMIC_LINKING, 1) WITH_DYNAMIC_LINKING=true else WITH_DYNAMIC_LINKING=false fi AC_SUBST(WITH_DYNAMIC_LINKING) ### There is more than one possible prototype for gettimeofday. See ### which one (if any) appears in sys/time.h. These tests are from ### Emacs 19. AC_MSG_CHECKING(for struct timeval) AC_TRY_COMPILE([#ifdef TIME_WITH_SYS_TIME #include <sys/time.h> #include <time.h> #else #ifdef HAVE_SYS_TIME_H #include <sys/time.h> #else #include <time.h> #endif #endif], [static struct timeval x; x.tv_sec = x.tv_usec;], [AC_MSG_RESULT(yes) HAVE_TIMEVAL=yes AC_DEFINE(HAVE_TIMEVAL)], [AC_MSG_RESULT(no) HAVE_TIMEVAL=no]) if test "x$HAVE_TIMEVAL" = xyes; then AC_MSG_CHECKING(whether gettimeofday can't accept two arguments) AC_TRY_LINK([#ifdef TIME_WITH_SYS_TIME #include <sys/time.h> #include <time.h> #else #ifdef HAVE_SYS_TIME_H #include <sys/time.h> #else #include <time.h> #endif #endif],[struct timeval time; struct timezone dummy; gettimeofday (&time, &dummy);], [AC_MSG_RESULT(no)], [AC_MSG_RESULT(yes) AC_DEFINE(GETTIMEOFDAY_NO_TZ)]) fi dnl Would like to get rid of this cruft, and just have dnl dnl AC_CHECK_FUNCS(finite isnan isinf) dnl dnl instead, but that used to fail on some systems... dnl dnl Also just using AC_CHECK_FUNCS doesn't seem to work to find isinf dnl and isnan on Linux systems, so we use AC_CHECK_FUNC, and if that dnl fails, we try again by including math.h and invoking the function dnl with an argument. ### Check to see if we have IEEE math functions, and if so, which ones. ### ### For Linux: add -mieee-fp flag to CFLAGS when checking for IEEE FP ### functions, otherwise we may not find them. ### ### Also check for some additional trig functions that aren't ANSI but ### are often available. If they are missing, we try to replace them ### with functions from the BSD/NET2 math library. AC_CHECK_LIB(sunmath, quiet_nan, , , -lm) dnl This is bogus. We shouldn't have to explicitly add libc too! case "$canonical_host_type" in *-*-linux*) AC_CHECK_LIB(m, sin, , , -lc) ;; *) AC_CHECK_LIB(m, sin) ;; esac XCFLAGS="$CFLAGS" CFLAGS="$CFLAGS $GCC_IEEE_FP_FLAG" ### I am told that Inf and NaN don't work on m68k HP sytems, and that ### on SCO systems, isnan and isinf don't work, but they can be ### replaced by something that does. case "$canonical_host_type" in m68k-hp-hpux*) ;; *-*-sco*) AC_MSG_RESULT([defining SCO to be 1]) AC_DEFINE(SCO, 1) AC_MSG_RESULT([forcing HAVE_ISINF for SCO]) AC_DEFINE(HAVE_ISINF, 1) AC_MSG_RESULT([forcing HAVE_ISNAN for SCO]) AC_DEFINE(HAVE_ISNAN, 1) ;; *) AC_CHECK_FUNCS(finite isnan isinf infinity quiet_nan) ;; esac ### Check for nonstandard but common math functions that we need. AC_CHECK_FUNCS(acosh asinh atanh erf erfc) CFLAGS="$XCFLAGS" ### Checks for OS specific cruft. AC_STRUCT_ST_BLKSIZE AC_STRUCT_ST_BLOCKS AC_STRUCT_ST_RDEV AC_STRUCT_TM AC_STRUCT_TIMEZONE AC_FUNC_CLOSEDIR_VOID OCTAVE_STRUCT_GR_PASSWD TERMLIBS="" for termlib in ncurses curses termcap terminfo termlib; do AC_CHECK_LIB(${termlib}, tputs, [TERMLIBS="${TERMLIBS} -l${termlib}"]) case "${TERMLIBS}" in *-l${termlib}*) AC_MSG_RESULT([defining TERMLIBS to be $TERMLIBS]) break ;; esac done AC_SUBST(TERMLIBS) if test "$ac_cv_lib_termcap_tputs" = yes \ || test "$ac_cv_lib_terminfo_tputs" = yes \ || test "$ac_cv_lib_ncurses_tputs" = yes \ || test "$ac_cv_lib_curses_tputs" = yes \ || test "$ac_cv_lib_termlib_tputs" = yes; then true else AC_MSG_WARN([I couldn't find -ltermcap, -lterminfo, -lncurses, -lcurses, or -ltermlib!]) fi AC_MSG_CHECKING([for struct exception in math.h]) AC_TRY_LINK([#include <math.h>], [struct exception *x; x->type; x->name;], AC_MSG_RESULT(yes) AC_DEFINE(EXCEPTION_IN_MATH, 1), AC_MSG_RESULT(no)) ### Signal stuff. AC_TYPE_SIGNAL AC_DECL_SYS_SIGLIST AC_MSG_CHECKING([for sys_siglist variable]) AC_TRY_LINK([#include <stdio.h>], [extern char *sys_siglist[]; printf ("%s\n", sys_siglist[1]);], AC_MSG_RESULT(yes) AC_DEFINE(HAVE_SYS_SIGLIST, 1), AC_MSG_RESULT(no)) OCTAVE_SIGNAL_CHECK OCTAVE_REINSTALL_SIGHANDLERS ### Type stuff. AC_TYPE_MODE_T AC_TYPE_OFF_T AC_TYPE_PID_T AC_TYPE_SIZE_T AC_TYPE_UID_T AC_CHECK_TYPE(dev_t, short) AC_CHECK_TYPE(ino_t, unsigned long) AC_CHECK_TYPE(nlink_t, short) OCTAVE_CHECK_TYPE(sigset_t, [#include <signal.h>], int) ### Define VOID_SIGHANDLER for readline. case "$RETSIGTYPE" in int) ;; *) VOID_SIGHANDLER="-DVOID_SIGHANDLER=1" AC_MSG_RESULT([defining VOID_SIGHANDLER to be 1]) ;; esac AC_SUBST(VOID_SIGHANDLER) ### A system dependent kluge or two. AC_CHECK_FUNCS(getrusage times) case "$canonical_host_type" in *-*-cygwin32) AC_DEFINE(RUSAGE_TIMES_ONLY, 1) ;; esac bsd_gcc_kluge_targets_frag=/dev/null case "$canonical_host_type" in *-*-386bsd* | *-*-openbsd* | *-*-netbsd* | *-*-freebsd*) bsd_gcc_kluge_targets_frag=Makefrag.bsd cat << \EOF > $bsd_gcc_kluge_targets_frag lex.o: lex.cc $(CXX) -c $(CPPFLAGS) $(CXXFLAGS_NO_PT_FLAGS) $< pt-plot.o: pt-plot.cc $(CXX) -c $(CPPFLAGS) $(CXXFLAGS_NO_PT_FLAGS) $< symtab.o: symtab.cc $(CXX) -c $(CPPFLAGS) $(CXXFLAGS_NO_PT_FLAGS) $< toplev.o: toplev.cc $(CXX) -c $(CPPFLAGS) $(CXXFLAGS_NO_PT_FLAGS) $< unwind-prot.o: unwind-prot.cc $(CXX) -c $(CPPFLAGS) $(CXXFLAGS_NO_PT_FLAGS) $< EOF ;; esac AC_SUBST_FILE(bsd_gcc_kluge_targets_frag) ### Checks for other programs used for building, testing, installing, ### and running Octave. ### ### For now, don't define LEXLIB to be -lfl -- we don't use anything in ### it, and it might not be installed. ### ### Also make sure that we generate an interactive scanner if we are ### using flex. AC_PROG_LEX case "$LEX" in flex*) LFLAGS="-t -I" AC_MSG_RESULT([defining LFLAGS to be $LFLAGS]) LEXLIB= ;; *) LFLAGS="-t" AC_MSG_RESULT([defining LFLAGS to be $LFLAGS]) AC_MSG_WARN([I didn't find flex, but that's only a problem]) AC_MSG_WARN([if you need to reconstruct lex.cc]) ;; esac AC_SUBST(LFLAGS) AC_PROG_YACC case "$YACC" in bison*) ;; *) AC_MSG_WARN([I didn't find bison, but that's only a problem]) AC_MSG_WARN([if you need to reconstruct parse.cc]) ;; esac AC_PROG_LN_S AC_CHECK_PROG(RUNTEST, runtest, runtest, []) AC_CHECK_PROG(EXPECT, expect, expect, []) if test -z "$EXPECT"; then RUNTEST= fi AC_SUBST(RUNTEST) AC_PROG_INSTALL INSTALL_SCRIPT='${INSTALL}' AC_SUBST(INSTALL_SCRIPT) EXE= case "$canonical_host_type" in *-*-cygwin32) EXE=.exe ;; esac AC_SUBST(EXE) AC_CHECK_PROG(GNUPLOT_BINARY, gnuplot, gnuplot, []) if test -n "$GNUPLOT_BINARY"; then AC_MSG_CHECKING([to see if your gnuplot supports multiplot]) if test -z "`echo 'set term unknown; set multiplot' | \ $GNUPLOT_BINARY 2>&1`"; then AC_MSG_RESULT([yes]) AC_DEFINE(GNUPLOT_HAS_MULTIPLOT, 1) else AC_MSG_RESULT([no]) fi AC_MSG_CHECKING([to see if your gnuplot supports multiple plot windows]) if test -z "`echo 'set term x11 2' | $GNUPLOT_BINARY 2>&1`"; then AC_MSG_RESULT([yes]) AC_DEFINE(GNUPLOT_HAS_FRAMES, 1) else AC_MSG_RESULT([no]) fi else AC_MSG_WARN([I didn't find gnuplot. It isn't necessary to have gnuplot]) AC_MSG_WARN([installed, but you won't be able to use any of Octave's]) AC_MSG_WARN([plotting commands without it.]) AC_MSG_WARN([]) AC_MSG_WARN([If gnuplot is installed but it isn't in your path, you can]) AC_MSG_WARN([tell Octave where to find it by typing the command]) AC_MSG_WARN([]) AC_MSG_WARN([gnuplot_binary = "/full/path/to/gnuplot/binary"]) AC_MSG_WARN([]) AC_MSG_WARN([at the Octave prompt.]) fi octave_possible_pagers="less more page pg" case "$canonical_host_type" in *-*-cygwin32) octave_possible_pagers="$octave_possible_pagers more.com" ;; esac AC_CHECK_PROGS(DEFAULT_PAGER, $octave_possible_pagers, []) if test -z "$DEFAULT_PAGER"; then AC_MSG_WARN([I couldn't find `less', `more', `page', or `pg']) fi ### Even though we include config.h, we need to have the preprocessor ### defines available in a variable for the octave-bug script. Use ### UGLY_DEFS for that. AC_OUTPUT_MAKE_DEFS UGLY_DEFS=`echo $DEFS | sed 's,\\",\\\\\\\\\\\\\\\\\\",g'` AC_MSG_RESULT([defining UGLY_DEFS to be $UGLY_DEFS]) AC_SUBST(UGLY_DEFS) ### Maybe add -Wall to compiler flags now that we're done feature ### testing. if $ADD_CXX_WALL; then CXXFLAGS="$CXXFLAGS -Wall" AC_MSG_RESULT([adding -Wall to CXXFLAGS]) fi if $ADD_CC_WALL; then CFLAGS="$CFLAGS -Wall" AC_MSG_RESULT([adding -Wall to CFLAGS]) fi ### Someday, maybe include -ansi and even -pedantic in this list... GCC_PICKY_FLAGS="-Wcast-align -Wcast-qual -Wid-clash-31 \ -Winline -Wmissing-prototypes -Wnested-externs -Wpointer-arith \ -Wstrict-prototypes -Wwrite-strings" GXX_PICKY_FLAGS="$GCC_PICKY_FLAGS -fno-nonnull-objects" AC_ARG_ENABLE(picky-flags, [ --enable-picky-flags add picky options to CFLAGS, CXXFLAGS, FFLAGS], [if test "$enableval" = no; then true; elif test "$enableval" = yes; then if $ADD_CXX_WALL; then CXXFLAGS="$GXX_PICKY_FLAGS $CXXFLAGS" AC_MSG_RESULT([adding picky options to CXXFLAGS]) else AC_MSG_WARN([CXX doesn't look like g++ -- not adding picky options]) fi if $ADD_CC_WALL; then CFLAGS="$GCC_PICKY_FLAGS $CFLAGS" AC_MSG_RESULT([adding picky options to CFLAGS]) else AC_MSG_WARN([CC doesn't look like gcc -- not adding picky options]) fi else if $ADD_CXX_WALL; then CXXFLAGS="$enableval $CXXFLAGS" AC_MSG_RESULT([adding picky options to CXXFLAGS]) else AC_MSG_WARN([CXX doesn't look like g++ -- not adding picky options]) fi if $ADD_CC_WALL; then CFLAGS="$enableval $CFLAGS" AC_MSG_RESULT([adding picky options to CFLAGS]) else AC_MSG_WARN([CC doesn't look like gcc -- not adding picky options]) fi fi], []) ### Run configure in subdirectories. export CC export CXX export F77 AC_CONFIG_SUBDIRS(glob kpathsea scripts $INFO_DIR $PLPLOT_DIR $READLINE_DIR) ### Do the substitutions in all the Makefiles. AC_OUTPUT(Makefile octMakefile Makeconf test/Makefile dlfcn/Makefile doc/Makefile doc/faq/Makefile doc/interpreter/Makefile doc/liboctave/Makefile doc/refcard/Makefile emacs/Makefile emacs/Makefile examples/Makefile liboctave/Makefile src/Makefile libcruft/Makefile libcruft/Makerules libcruft/blas/Makefile libcruft/balgen/Makefile libcruft/dassl/Makefile libcruft/eispack/Makefile libcruft/fftpack/Makefile libcruft/fsqp/Makefile libcruft/lapack/Makefile libcruft/linpack/Makefile libcruft/minpack/Makefile libcruft/misc/Makefile libcruft/npsol/Makefile libcruft/odepack/Makefile libcruft/qpsol/Makefile libcruft/quadpack/Makefile libcruft/ranlib/Makefile libcruft/slatec-fn/Makefile libcruft/villad/Makefile) ### Print a summary so that important information isn't missed. CXX_EXTRAS="$HOST_CXXFLAGS $NO_IMPLICIT_TEMPLATES $GCC_IEEE_FP_FLAG" if test -z "$F77"; then FORT="$F2C $F2CFLAGS" else FORT="$F77 $FFLAGS" fi AC_MSG_RESULT([ Octave is now configured for $canonical_host_type Source directory: $srcdir Installation prefix: $prefix C compiler: $CC $GCC_IEEE_FP_FLAG $CFLAGS C++ compiler: $CXX $CXX_EXTRAS $CXXFLAGS Fortran compiler: $FORT Fortran libraries: $FLIBS Use GNU readline: $USE_READLINE Use GNU info reader: $USE_GNU_INFO Default pager: $DEFAULT_PAGER gnuplot: $GNUPLOT_BINARY Do internal array bounds checking: $BOUNDS_CHECKING Build shared libraries: $SHARED_LIBS Minimal kernel option: $OCTAVE_LITE Dynamic Linking (dlopen/dlsym): $WITH_DL Dynamic Linking (shl_load/shl_findsym): $WITH_SHL ])