# # configure.ac # # Copyright (C) 1997-2007 Free Software Foundation, Inc. # # Author: Scott Christley # Ovidiu Predescu # Rewrite: Adam Fedor # Nicola Pero # # This file is part of the GNUstep Makefile Package. # # This library 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 3 # of the License, or (at your option) any later version. # # You should have received a copy of the GNU General Public # License along with this library; see the file COPYING. # If not, write to the Free Software Foundation, # 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. AC_INIT AC_PREREQ([2.71]) AC_CONFIG_SRCDIR([application.make]) AC_CONFIG_MACRO_DIRS([m4]) # # TODO: This configure file should not contain any checks that depend on the # Objective-C runtime being used or available. This is because on # some platforms the Objective-C runtime itself is compiled using # gnustep-make! # # All the runtime-dependent checks should go in gnustep-base. # # We still need compiler checks, because if we are compiling the # Objective-C runtime itself, we need to know what compiler we have # and what flags we can use. But these checks should test # compilation, not linking or execution, because we don't necessarily # have an Objective-C runtime available yet. # targetArgument=${target} AC_CANONICAL_TARGET([]) AC_PATH_PROG(GNUSTEP_HAS_PKGCONFIG, pkgconfig, yes, no) AC_CHECK_PROG([HAVE_GNUSTEP_CONFIG], [gnustep-config], yes, no) #-------------------------------------------------------------------- # Setup the library combination #-------------------------------------------------------------------- GS_LIBRARY_COMBO() # The ng runtime library setting requires clang rather than gcc if test "$OBJC_RUNTIME_LIB" = "ng"; then defaultng=yes; if test "$OBJCC" = ""; then OBJCC=clang fi if test "$CC" = ""; then CC=clang fi if test "$OBJCXX" = ""; then OBJCXX=clang++ fi if test "$CXX" = ""; then CXX=clang++ fi else defaultng=no; fi AC_PROG_CC AC_PROG_CPP # We also look for a C++ compiler. While not strictly needed, some # people use gnustep-make to compile C++ code. It's nice to detect a # C++ compiler, if we have one, and automatically use it to # compile/link C++ code. :-) AC_PROG_CXX # Similarly for the ObjC++ compiler... AC_PROG_OBJCXX # We may use egrep for some tests further down below AC_PROG_EGREP # Search for a debugger. We try 'gdb' then 'lldb'. If # we can't find it, we set it to 'gdb', even if that will fail later # on. AC_CHECK_PROGS(DEBUGGER, [gdb lldb], gdb) # Used by gnustep-config to output the debugger variable and # gnustep-tests. AC_SUBST(DEBUGGER) #-------------------------------------------------------------------- # Check if we are using Apple cc #-------------------------------------------------------------------- cc_cppprecomp=0 cc_byndle=0 AC_MSG_CHECKING([for apple compiler flags]) cc_cppprecomp=`${CC} -no-cpp-precomp 2>&1 | grep -c "unrecognized"` cc_bundle=`${CC} -bundle 2>&1 | grep -c "couldn"` # 0 means we have the flag if test $cc_cppprecomp = 0; then cc_cppprecomp=yes else cc_cppprecomp=no fi if test $cc_bundle = 0; then cc_bundle=yes else cc_bundle=no fi AC_MSG_RESULT($cc_bundle) AC_SUBST(cc_cppprecomp) AC_SUBST(cc_bundle) #-------------------------------------------------------------------- # config.guess returns mingw64 and pc as the os and vendor, but the # mingw-w64 project chose to use mingw32 and w64 respectively. We #need to standardise on one. #-------------------------------------------------------------------- if test "$host_os" = mingw64; then host_os=mingw32 host_vendor=w64 fi if test "$target_os" = mingw64; then target_os=mingw32 target_vendor=w64 fi #-------------------------------------------------------------------- # specific target_os options #-------------------------------------------------------------------- case "$target_os" in freebsd* | openbsd* ) INCLUDES="$INCLUDES -I/usr/local/include" LIB_DIR="$LIB_DIR -L/usr/local/lib";; netbsd*) INCLUDES="$INCLUDES -I/usr/pkg/include" LIB_DIR="$LIB_DIR -Wl,-R/usr/pkg/lib -L/usr/pkg/lib";; esac #-------------------------------------------------------------------- # Determine the host, build, and target systems #-------------------------------------------------------------------- case $host_os in *cygwin* ) MINGW32=no MINGW64=no CYGWIN=yes MSWIND=yes;; *mingw32* ) if test $host_vendor = pc then MINGW32=yes MINGW64=no else MINGW32=no MINGW64=yes fi CYGWIN=no MSWIND=yes;; * ) MINGW32=no MINGW64=no CYGWIN=no MSWIND=no;; esac AC_SUBST(CYGWIN) AC_EXEEXT AC_OBJEXT if test "$MINGW32" = yes; then echo "hosted on mingw32 .." export SHELL=sh if test "$OBJC_RUNTIME_LIB" = ng; then export CC=${CC:-clang} else export CC=${CC:-gcc} fi export AR=${AR:-ar} export RANLIB=${RANLIB:-ranlib} export DLLTOOL=${DLLTOOL:-dlltool} elif test "$MINGW64" = yes; then echo "hosted on mingw64 .." export SHELL=sh if test "$OBJC_RUNTIME_LIB" = ng; then export CC=${CC:-clang} else export CC=${CC:-gcc} fi export AR=${AR:-ar} export RANLIB=${RANLIB:-ranlib} export DLLTOOL=${DLLTOOL:-dlltool} elif test "$CYGWIN" = yes; then echo "hosted on cygwin .." if test "$OBJC_RUNTIME_LIB" = ng; then export CC=${CC:-clang} else export CC=${CC:-gcc} fi export AR=${AR:-ar} export RANLIB=${RANLIB:-ranlib} export DLLTOOL=${DLLTOOL:-dlltool} fi GS_CHECK_CC_IS_CLANG() #-------------------------------------------------------------------- # Find the binary and compile tools #-------------------------------------------------------------------- if test "x$target" != "x$host"; then echo "cross compiling from $host to $target .." cross_compiling="yes" if test "$OBJC_RUNTIME_LIB" = ng -o x"$gs_cv_cc_is_clang" = x"yes"; then AC_CHECK_PROG(CC, "${targetArgument}-clang", dnl "${targetArgument}-clang", clang) else AC_CHECK_PROG(CC, "${targetArgument}-gcc", dnl "${targetArgument}-gcc", gcc) fi AC_CHECK_PROG(RANLIB, "${targetArgument}-ranlib", dnl "${targetArgument}-ranlib", ranlib) AC_CHECK_PROG(AR, "${targetArgument}-ar", dnl "${targetArgument}-ar", ar) AC_CHECK_PROG(DLLTOOL, "${targetArgument}-dlltool", dnl "${targetArgument}-dlltool", dlltool) else if test "$OBJC_RUNTIME_LIB" = ng; then # # Detect compiler support for Blocks; perhaps someday -fblocks won't be # required, in which case we'll need to change this. # saveCFLAGS="$CFLAGS" CFLAGS="$CFLAGS -fblocks" AC_LANG_PUSH(C) AC_COMPILE_IFELSE([AC_LANG_PROGRAM([],[(void)^{int i; i = 0; }();])], [ ac_cv_blocks="yes" ], [ ac_cv_blocks="no" ]) CFLAGS="$saveCFLAGS" AC_LANG_POP(C) if test "$ac_cv_blocks" = no; then AC_MSG_ERROR([Your compiler doesn't appear to support blocks. To fix this use the CC environment varibale to specify a different compiler (or use a different library-combo)]); fi fi AC_CHECK_PROG(AR, ar, ar) AC_CHECK_PROG(DLLTOOL, dlltool, dlltool) AC_PROG_RANLIB fi # On Windows MSVC, AC_PROG_CC will not detect Clang in MSVC mode as a # GNU C compiler and therefore set CFLAGS to just "-g", so we fix it. if test "$target_os" = windows -a x"${GCC}" != x"yes" -a x"$gs_cv_cc_is_clang" = x"yes"; then CFLAGS="-g -O2" fi AC_PROG_INSTALL AC_MSG_CHECKING([if 'install -p' works]) gs_install_p_test_builddir="`pwd`" gs_install_p_test_results=`(INSTALL="$INSTALL"; export INSTALL; cd "$srcdir/config-install-p-test/"; ./run-test.sh "$gs_install_p_test_builddir"; echo $?) 2>&5` if test "$gs_install_p_test_results" = "0"; then AC_MSG_RESULT(yes); else AC_MSG_RESULT(no); fi AC_MSG_CHECKING([if we should use 'install -p' when installing files]) AC_ARG_ENABLE(install-p, [ --disable-install-p Disable using 'install -p' when installing files. By default, assuming that 'install -p' works, when installing files such as header files or libraries, gnustep-make uses 'install -p', which preserves the original timestamp of the header file or library. If you do not want the timestamp to be preserved, use this option to have gnustep-make use 'install' instead of 'install -p'. Unless you have a specific reason for not liking the default behaviour this option is most likely irrelevant for you. ], ac_cv_install_p=$enableval, ac_cv_install_p="yes") if test "$ac_cv_install_p" = "yes"; then if test "$gs_install_p_test_results" = "0"; then AC_MSG_RESULT(yes); INSTALL="${INSTALL} -p" else AC_MSG_RESULT(no: install -p does not work); fi else AC_MSG_RESULT(no); fi AC_PROG_LN_S([]) AC_CHECK_PROGS(NM, gnm, nm) AC_CHECK_PROGS(TAR, gnutar gtar, tar) AC_ARG_WITH(tar,[ --with-tar Set the name of the tar program to use. Use this option if the default choice does not work for you. ], TAR="$withval",) AC_CHECK_PROG(CHOWN, chown, chown, none) if test "$MINGW32" = no; then if test "$MINGW64" = no; then if test "$CHOWN" = "none"; then AC_MSG_ERROR("Could not find chown."); fi fi fi #------------------------------------------------------------------- # GNUstep specific options follow #------------------------------------------------------------------- #------------------------------------------------------------------- # Determine if we should enable strict gnustep-make v2 mode by default #------------------------------------------------------------------- AC_MSG_CHECKING([if we should enable strict gnustep-make version 2 mode by default]) AC_ARG_ENABLE(strict-v2-mode, [ --enable-strict-v2-mode Enable strict gnustep-make version 2 mode by default. Use this option to have gnustep-make be aggressively backwards-incompatible with gnustep-make version 1. You should use it to help upgrade old makefiles. Packegers should make sure that old makefiles have been upgraded before releasing builds using this option. ], ac_cv_strict_v2_mode=$enableval, ac_cv_strict_v2_mode="yes") if test "$ac_cv_strict_v2_mode" = "yes"; then AC_MSG_RESULT(yes); GNUSTEP_MAKE_STRICT_V2_MODE="yes" AC_MSG_WARN(Useing strict version 2 mode; ancient makefiles may need to be updated) else AC_MSG_RESULT(no); GNUSTEP_MAKE_STRICT_V2_MODE="no" AC_MSG_WARN(Disable strict version 2 mode at your own risk; it may allow faulty makefiles to go unnoticed) fi AC_SUBST(GNUSTEP_MAKE_STRICT_V2_MODE) #------------------------------------------------------------------- # Determine filesystem layout to use #------------------------------------------------------------------- AC_MSG_CHECKING([for GNUstep filesystem layout to use]) AC_ARG_WITH(layout,[ --with-layout=FILE Set the type of filesystem layout that you want your GNUstep installation to use. The layout described by FILE will be read from the FilesystemLayouts directory. Check the FilesystemLayouts subdirectory for a list of layouts and how to choose which one you want (or create your own). If you do not specify a layout then 'fhs' is used except when the library-combo is apple-apple-apple, in which case it is 'apple'. Example: --with-layout=fhs ], GNUSTEP_FILESYSTEM_LAYOUT="$withval",) # The variable GNUSTEP_FILESYSTEM_LAYOUT is empty if no layout was # specified on the command line. if test ! x"$GNUSTEP_FILESYSTEM_LAYOUT" = x""; then AC_MSG_RESULT($GNUSTEP_FILESYSTEM_LAYOUT) GNUSTEP_FILESYSTEM_LAYOUT_FILE="$GNUSTEP_FILESYSTEM_LAYOUT" else # This is the default layout that is used when installing # GNUstep with no other indication. We normally use 'fhs'. # However, if the library-combo is apple-apple-apple we use # 'apple' irrespective of the target OS. if test "$ac_cv_library_combo" = "apple-apple-apple"; then AC_MSG_RESULT(default layout: 'apple' since we're on apple-apple-apple) GNUSTEP_FILESYSTEM_LAYOUT_FILE=apple else GNUSTEP_FILESYSTEM_LAYOUT_FILE=fhs AC_MSG_RESULT(default layout: '$GNUSTEP_FILESYSTEM_LAYOUT_FILE') fi fi if test ! -f "$srcdir/FilesystemLayouts/$GNUSTEP_FILESYSTEM_LAYOUT_FILE" >&5 2>&5; then echo "Can not find $srcdir/FilesystemLayouts/$GNUSTEP_FILESYSTEM_LAYOUT_FILE" echo "Please check your --with-layout=xxx argument and try again." echo "Valid arguments for --with-layout= are:" echo `ls "$srcdir/FilesystemLayouts/" | grep -v README` exit 1 fi AC_MSG_CHECKING([for architecture-specific lib path]) AC_ARG_WITH(libdir,[ --with-libdir=FILE Set the variant of the /lib directory to use. This is useful on systems which support more than one binary format requiring separate libraries. The default is lib. Example: --with-libdir=lib64 ], LIBDIR="$withval",LIBDIR="lib") # Need to do some checks related to building dylibs on darwin. GNUSTEP_ABSOLUTE_INSTALL_PATHS=; case "$target_os" in darwin*) AC_MSG_CHECKING([if we should build dynamic libraries with an absolute install_name]) AC_ARG_ENABLE(absolute-install-paths, [ --enable-absolute-install-paths Enable the use of absolute paths for the install_name of dynamic libraries on Darwin. This option is specific to Darwin and is ignored on all other platforms. Any code that links against a dynamic library with an absolute install_name will tell dyld to find the library at that location. Enabling this option allows one to place libraries in non-standard locations without having to set DYLD_LIBRARY_PATH and DYLD_FRAMEWORK_PATH in the shell and ~/.MacOSX/environment.plist, but libraries built with an absolute install_name are not relocatable. By default, this setting is disabled unless the gnu-gnu-gnu library combo is used, in which case it is enabled. ], ac_cv_absolute_install_paths=$enableval, ac_cv_absolute_install_paths="undefined") if test "$ac_cv_absolute_install_paths" = "yes"; then AC_MSG_RESULT(yes) GNUSTEP_ABSOLUTE_INSTALL_PATHS=yes; else if test "$ac_cv_absolute_install_paths" = "undefined"; then # gnu-gnu-gnu on darwin is difficult because of the risk of # conflicts between the GNU Objective-C runtime and the Apple # one. absolute-install-paths makes this slightly easier # by hardcoding the absolute path of dynamic libraries into the # programs that link them so that it's less likely that the # wrong dynamic libraries will be pulled in. So we enable it # by default in that case. if test "$ac_cv_library_combo" = "gnu-gnu-gnu"; then GNUSTEP_ABSOLUTE_INSTALL_PATHS=yes; AC_MSG_RESULT(yes) else AC_MSG_RESULT(no) fi else AC_MSG_RESULT(no) fi fi ;; esac AC_SUBST(GNUSTEP_ABSOLUTE_INSTALL_PATHS) #------------------------------------------------------------------- # Read filesystem layout from file #------------------------------------------------------------------- AC_MSG_CHECKING([if we manage to import the filesystem layout configuration]) . "$srcdir/FilesystemLayouts/$GNUSTEP_FILESYSTEM_LAYOUT_FILE" if test ! x"$GNUSTEP_DEFAULT_PREFIX" = x""; then AC_MSG_RESULT(ok) else AC_MSG_RESULT(failed) echo "Please check your $srcdir/FilesystemLayouts/$GNUSTEP_FILESYSTEM_LAYOUT_FILE" echo "layout file, as it can not be loaded (GNUSTEP_DEFAULT_PREFIX missing)" exit 1 fi # Now, all MAKEFILES/SYSTEM/LOCAL/NETWORK paths in the filesystem # layout file will be relative to prefix. So we need to immediately # determine prefix, and use it. #-------------------------------------------------------------------- # Process --prefix #-------------------------------------------------------------------- # We use this to make sure we know if the user has passed a # --prefix=xxx option or not. We use it if it was passed. # # If it wasn't passed, then we want to know because in that case we # want to use the specified default prefix for that filesystem. For # example, the 'gnustep' filesystem will install by default in # /usr/GNUstep, while the 'fhs' filesystem will install by default in # /usr/local. Please note that AC_PREFIX_DEFAULT will actually be # done at the very beginning of ./configure, not here. So we wouldn't # have access to all the filesystem layout information yet, which is # why we only use the macro to know if a --prefix=xxx was passed or # not. AC_PREFIX_DEFAULT(NONE) AC_MSG_CHECKING([for prefix]) if test "x$prefix" = "xNONE"; then # Use the default prefix for this filesystem layout GNUSTEP_PREFIX="$GNUSTEP_DEFAULT_PREFIX"; else # Use the prefix that the user specified GNUSTEP_PREFIX="$prefix"; fi # Remove any '/' at the end of prefix. All system/network/local paths # from layout files must start with a '/'. We don't want a '/' at the # end of the prefix to generate a '//' mostly because common.make will # try to double-check that GNUSTEP_SYSTEM_TOOLS is in your PATH. Any # '//' in GNUSTEP_SYSTEM_TOOLS will have been normalized to '/' in # PATH (on some systems at least) and so comparing them won't find a # match and the check will fail even if GNUSTEP_SYSTEM_TOOLS is in # PATH and a spurious warning will be produced. GNUSTEP_PREFIX=`echo "$GNUSTEP_PREFIX" | sed 's%/*$%%'` AC_MSG_RESULT($GNUSTEP_PREFIX) AC_SUBST(GNUSTEP_PREFIX) # Now we apply the prefix (we don't need to apply it to # GNUSTEP_SYSTEM_USERS_DIR and similar, which are something like # '/home' - we never install anything in there). GNUSTEP_MAKEFILES="$GNUSTEP_PREFIX$GNUSTEP_MAKEFILES" GNUSTEP_SYSTEM_APPS=$(echo "$GNUSTEP_PREFIX$GNUSTEP_SYSTEM_APPS" | sed "s/@libdir@/$LIBDIR/g") GNUSTEP_SYSTEM_ADMIN_APPS=$(echo "$GNUSTEP_PREFIX$GNUSTEP_SYSTEM_ADMIN_APPS" | sed "s/@libdir@/$LIBDIR/g") GNUSTEP_SYSTEM_WEB_APPS=$(echo "$GNUSTEP_PREFIX$GNUSTEP_SYSTEM_WEB_APPS" | sed "s/@libdir@/$LIBDIR/g") GNUSTEP_SYSTEM_TOOLS="$GNUSTEP_PREFIX$GNUSTEP_SYSTEM_TOOLS" GNUSTEP_SYSTEM_ADMIN_TOOLS="$GNUSTEP_PREFIX$GNUSTEP_SYSTEM_ADMIN_TOOLS" GNUSTEP_SYSTEM_LIBRARY=$(echo "$GNUSTEP_PREFIX$GNUSTEP_SYSTEM_LIBRARY" | sed "s/@libdir@/$LIBDIR/g") GNUSTEP_SYSTEM_HEADERS="$GNUSTEP_PREFIX$GNUSTEP_SYSTEM_HEADERS" GNUSTEP_SYSTEM_LIBRARIES=$(echo "$GNUSTEP_PREFIX$GNUSTEP_SYSTEM_LIBRARIES" | sed "s/@libdir@/$LIBDIR/g") GNUSTEP_SYSTEM_DOC="$GNUSTEP_PREFIX$GNUSTEP_SYSTEM_DOC" GNUSTEP_SYSTEM_DOC_MAN="$GNUSTEP_PREFIX$GNUSTEP_SYSTEM_DOC_MAN" GNUSTEP_SYSTEM_DOC_INFO="$GNUSTEP_PREFIX$GNUSTEP_SYSTEM_DOC_INFO" GNUSTEP_NETWORK_APPS=$(echo "$GNUSTEP_PREFIX$GNUSTEP_NETWORK_APPS" | sed "s/@libdir@/$LIBDIR/g") GNUSTEP_NETWORK_ADMIN_APPS=$(echo "$GNUSTEP_PREFIX$GNUSTEP_NETWORK_ADMIN_APPS" | sed "s/@libdir@/$LIBDIR/g") GNUSTEP_NETWORK_WEB_APPS=$(echo "$GNUSTEP_PREFIX$GNUSTEP_NETWORK_WEB_APPS" | sed "s/@libdir@/$LIBDIR/g") GNUSTEP_NETWORK_TOOLS="$GNUSTEP_PREFIX$GNUSTEP_NETWORK_TOOLS" GNUSTEP_NETWORK_ADMIN_TOOLS="$GNUSTEP_PREFIX$GNUSTEP_NETWORK_ADMIN_TOOLS" GNUSTEP_NETWORK_LIBRARY=$(echo "$GNUSTEP_PREFIX$GNUSTEP_NETWORK_LIBRARY" | sed "s/@libdir@/$LIBDIR/g") GNUSTEP_NETWORK_HEADERS="$GNUSTEP_PREFIX$GNUSTEP_NETWORK_HEADERS" GNUSTEP_NETWORK_LIBRARIES=$(echo "$GNUSTEP_PREFIX$GNUSTEP_NETWORK_LIBRARIES" | sed "s/@libdir@/$LIBDIR/g") GNUSTEP_NETWORK_DOC="$GNUSTEP_PREFIX$GNUSTEP_NETWORK_DOC" GNUSTEP_NETWORK_DOC_MAN="$GNUSTEP_PREFIX$GNUSTEP_NETWORK_DOC_MAN" GNUSTEP_NETWORK_DOC_INFO="$GNUSTEP_PREFIX$GNUSTEP_NETWORK_DOC_INFO" GNUSTEP_LOCAL_APPS=$(echo "$GNUSTEP_PREFIX$GNUSTEP_LOCAL_APPS" | sed "s/@libdir@/$LIBDIR/g") GNUSTEP_LOCAL_ADMIN_APPS=$(echo "$GNUSTEP_PREFIX$GNUSTEP_LOCAL_ADMIN_APPS" | sed "s/@libdir@/$LIBDIR/g") GNUSTEP_LOCAL_WEB_APPS=$(echo "$GNUSTEP_PREFIX$GNUSTEP_LOCAL_WEB_APPS" | sed "s/@libdir@/$LIBDIR/g") GNUSTEP_LOCAL_TOOLS="$GNUSTEP_PREFIX$GNUSTEP_LOCAL_TOOLS" GNUSTEP_LOCAL_ADMIN_TOOLS="$GNUSTEP_PREFIX$GNUSTEP_LOCAL_ADMIN_TOOLS" GNUSTEP_LOCAL_LIBRARY=$(echo "$GNUSTEP_PREFIX$GNUSTEP_LOCAL_LIBRARY" | sed "s/@libdir@/$LIBDIR/g") GNUSTEP_LOCAL_HEADERS="$GNUSTEP_PREFIX$GNUSTEP_LOCAL_HEADERS" GNUSTEP_LOCAL_LIBRARIES=$(echo "$GNUSTEP_PREFIX$GNUSTEP_LOCAL_LIBRARIES" | sed "s/@libdir@/$LIBDIR/g") GNUSTEP_LOCAL_DOC="$GNUSTEP_PREFIX$GNUSTEP_LOCAL_DOC" GNUSTEP_LOCAL_DOC_MAN="$GNUSTEP_PREFIX$GNUSTEP_LOCAL_DOC_MAN" GNUSTEP_LOCAL_DOC_INFO="$GNUSTEP_PREFIX$GNUSTEP_LOCAL_DOC_INFO" #--------------------------------------------------------------------- # Location of the GNUstep.conf config file (--with-config-file) #--------------------------------------------------------------------- AC_MSG_CHECKING([for GNUstep configuration file to use]) AC_ARG_WITH(config-file,[ --with-config-file=PATH Set the path of the system GNUstep config file. Use this option if you want to have the GNUstep config file in a non-standard place. Example: --with-config-file=/usr/GNUstep/GNUstep.conf By default, if this option is not specified, the config file is /etc/GNUstep/GNUstep.conf if the prefix is /, /usr or /usr/GNUstep and $prefix/etc/GNUstep/GNUstep.conf otherwise. On Apple, it is always /Library/GNUstep/GNUstep.conf regardless of prefix. ], GNUSTEP_CONFIG_FILE="$withval",) if test "$GNUSTEP_CONFIG_FILE" = "" -o "$GNUSTEP_CONFIG_FILE" = "no"; then case "$target_os" in darwin*) GNUSTEP_CONFIG_FILE=/Library/GNUstep/GNUstep.conf ;; *) case x"$GNUSTEP_PREFIX" in x) GNUSTEP_CONFIG_FILE=/etc/GNUstep/GNUstep.conf;; x/usr) GNUSTEP_CONFIG_FILE=/etc/GNUstep/GNUstep.conf;; x/usr/GNUstep) GNUSTEP_CONFIG_FILE=/etc/GNUstep/GNUstep.conf;; *) GNUSTEP_CONFIG_FILE="$GNUSTEP_PREFIX/etc/GNUstep/GNUstep.conf";; esac ;; esac fi if echo "$GNUSTEP_CONFIG_FILE" | grep '[[ \\]] > /dev/null' then echo "found a backslash or space (illegal) in '$GNUSTEP_CONFIG_FILE'" echo "Please try again using --with-config-file= to specify a valid path." if test "$MSWIND" = "yes" then echo "Please note that on windows you must use unix-style paths within" echo "the make package even though gnustep programs built in the mingw" echo "environment use native paths throughout." fi exit 1 fi AC_MSG_RESULT($GNUSTEP_CONFIG_FILE) AC_SUBST(GNUSTEP_CONFIG_FILE) #--------------------------------------------------------------------- # Now read/import the existing configuration file, if any #--------------------------------------------------------------------- # Reading/importing the existing configuration file might be good as a # default because it means that you don't have to type in your # layout/prefix settings every time you configure # gnustep-make. (please note we only read the system-wide one, not the # user one. Reason being that the settings we read will be used to # generate the new system-wide one, while the user one will be left # untouched). # Please note that this option will override any --with-layout=xxx and # --prefix=yyy options. AC_MSG_CHECKING([if we should import an existing configuration file]) AC_ARG_ENABLE(importing-config-file, [ --enable-importing-config-file Enable importing the existing system GNUstep configuration file. Use this option to use an existing configuration file for setting up the filesystem layout and prefix. If you specify this option, all the configuration will be read from the existing system GNUstep configuration file and any --with-layout=xxx and --prefix=yyy options will be ignored. ], ac_cv_importing_config_file=$enableval, ac_cv_importing_config_file="no") if test "$ac_cv_importing_config_file" = "yes"; then if test ! -f "$GNUSTEP_CONFIG_FILE"; then AC_MSG_RESULT([no: file "$GNUSTEP_CONFIG_FILE" does not exist]) AC_MSG_ERROR([asked to import non-existing configuration file. To fix this problem, make sure you have a config file to import, or remove the --enable-importing-config-file option.]) else AC_MSG_RESULT([yes: trying to import "$GNUSTEP_CONFIG_FILE"]) AC_MSG_NOTICE([If this fails, run configure again with --disable-importing-config-file]) . "$GNUSTEP_CONFIG_FILE" fi else AC_MSG_RESULT([no]) fi #-------------------------------------------------------------------- # Important - from now on, any variable that is set in the filesystem # layout and/or configuration file (eg, GNUSTEP_SYSTEM_TOOLS) could # already have a value that we have imported from the files. # ./configure command line options should override those values, but # otherwise we should keep them! #-------------------------------------------------------------------- #-------------------------------------------------------------------- # Process --with-user-config-file #-------------------------------------------------------------------- AC_MSG_CHECKING(for user config file to use) AC_ARG_WITH(user-config-file,[ --with-user-config-file Set the name of the user config file to use. This can be relative to the user's home directory if it is a relative path, or an absolute directory (the same for all users) if it is an absolute path. Use '' if you want to disable user config files. The default is .GNUstep.conf if not specified. Example: --with-user-config-file=GNUstep/GNUstep.conf ], GNUSTEP_USER_CONFIG_FILE="$withval",) # Keep in mind we already have a default value set by the filesystem # layout, so it should never be empty. if echo "$GNUSTEP_USER_CONFIG_FILE" | grep '[[ \\]] > /dev/null' then echo "found a backslash or space (illegal) in '$GNUSTEP_USER_CONFIG_FILE'" echo "Please try again using --with-user-config-file= to specify a value." if test "$MSWIND" = "yes" then echo "Please note that on windows you must use unix-style paths within" echo "the make package even though gnustep programs built in the mingw" echo "environment use native paths throughout." fi exit 1 fi AC_MSG_RESULT($GNUSTEP_USER_CONFIG_FILE) AC_SUBST(GNUSTEP_USER_CONFIG_FILE) #-------------------------------------------------------------------- # Process --with-user-dir #-------------------------------------------------------------------- AC_MSG_CHECKING(if the obsolete --with-user-dir option was used) AC_ARG_WITH(user-dir,[ --with-user-dir This is an obsolete option. It used to determine the location of the USER domain directory (inside of each user's home directory) under the 'gnustep' layout. We ignore this option so that you can write ./configure commands that work with both old and new gnustep-makes. To get the effect of this option with this version of gnustep-make, please create your own layout file and use --with-layout=xxx to use it. ], OBSOLETE_GNUSTEP_USER_DIR="$withval",) if test ! x"$OBSOLETE_GNUSTEP_USER_DIR" = x"" && test ! x"$OBSOLETE_GNUSTEP_USER_DIR" = x"no"; then AC_MSG_RESULT([$OBSOLETE_GNUSTEP_USER_DIR: ignored]) AC_MSG_WARN([ignoring --with-user-dir=$OBSOLETE_GNUSTEP_USER_DIR option]) else AC_MSG_RESULT(no: good) fi #-------------------------------------------------------------------- # Process --with-user-defaults-dir #-------------------------------------------------------------------- AC_MSG_CHECKING(for user defaults dir to use) AC_ARG_WITH(user-defaults-dir,[ --with-user-defaults-dir Set the GNUstep user defaults directory for all users. This can be relative to the user's home directory if it is a relative path, or an absolute directory (the same for all users) if it is an absolute path. Use this option if you want to have the GNUSTEP_USER_DEFAULTS_DIR directory in a non default place for all users. The default is 'GNUstep/Defaults' Example: --with-user-defaults-dir='GNUstep/Library/Defaults' ], GNUSTEP_USER_DEFAULTS_DIR="$withval",) # Keep in mind we already have a default value set by the filesystem # layout, so it should never be empty. if echo "$GNUSTEP_USER_DEFAULTS_DIR" | grep '[[ \\]] > /dev/null' then echo "found a backslash or space (illegal) in '$GNUSTEP_USER_DEFAULTS_DIR'" echo "Please try again using --with-user-defaults-dir= to specify a value." if test "$MSWIND" = "yes" then echo "Please note that on windows you must use unix-style paths within" echo "the make package even though gnustep programs built in the mingw" echo "environment use native paths throughout." fi exit 1 fi AC_MSG_RESULT($GNUSTEP_USER_DEFAULTS_DIR) AC_SUBST(GNUSTEP_USER_DEFAULTS_DIR) #-------------------------------------------------------------------- # Setting up GNUSTEP_MAKEFILES #-------------------------------------------------------------------- # # This is where you install gnustep-make. We just print it out. # AC_MSG_CHECKING(for GNUSTEP_MAKEFILES to use) AC_SUBST(GNUSTEP_MAKEFILES) AC_MSG_RESULT($GNUSTEP_MAKEFILES) # If GNUSTEP_MAKEFILES contains a space, we may have problems later # because make does not really support having spaces in filenames if echo "$GNUSTEP_MAKEFILES" | grep " " >/dev/null 2>&1; then AC_MSG_WARN([GNUSTEP_MAKEFILES ($GNUSTEP_MAKEFILES) contains spaces: this may not work]) fi #-------------------------------------------------------------------- # Setting up the install-sh script #-------------------------------------------------------------------- # HOST_INSTALL is the name of the install program in config.make so set it up # to point to the install-sh script in the GNUstep tree if no system install is # found. AC_SUBST(HOST_INSTALL) if test "$INSTALL" = "$ac_install_sh"; then HOST_INSTALL="$GNUSTEP_MAKEFILES/$INSTALL" else HOST_INSTALL="$INSTALL" fi #-------------------------------------------------------------------- # Is the system flattened? #-------------------------------------------------------------------- AC_MSG_CHECKING(for flattened directory structure) AC_ARG_ENABLE(flattened, [ --disable-flattened Disable flattened directory structure. Use this option if you want to have support for multiple library combos and fat binaries. A library combo specifies the Objective-C frameworks to use to compile a program, so having multiple library combos is only useful if you have (or plan to have) multiple OpenStep-like Objective-C frameworks installed on your machine, for example both the Apple Cocoa Objective-C frameworks and the GNUstep frameworks. Fat binaries allow you to have multiple versions for different CPUs and Operating Systems. 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AC_MSG_CHECKING([for Local Admin Applications directory]) AC_MSG_RESULT($GNUSTEP_LOCAL_ADMIN_APPS) AC_SUBST(GNUSTEP_LOCAL_ADMIN_APPS) AC_MSG_CHECKING([for Local Web Applications directory]) AC_MSG_RESULT($GNUSTEP_LOCAL_WEB_APPS) AC_SUBST(GNUSTEP_LOCAL_WEB_APPS) AC_MSG_CHECKING([for Local Tools directory]) AC_MSG_RESULT($GNUSTEP_LOCAL_TOOLS) AC_SUBST(GNUSTEP_LOCAL_TOOLS) AC_MSG_CHECKING([for Local Admin Tools directory]) AC_MSG_RESULT($GNUSTEP_LOCAL_ADMIN_TOOLS) AC_SUBST(GNUSTEP_LOCAL_ADMIN_TOOLS) AC_MSG_CHECKING([for Local Library directory]) AC_MSG_RESULT($GNUSTEP_LOCAL_LIBRARY) AC_SUBST(GNUSTEP_LOCAL_LIBRARY) AC_MSG_CHECKING([for Local Headers directory]) AC_MSG_RESULT($GNUSTEP_LOCAL_HEADERS) AC_SUBST(GNUSTEP_LOCAL_HEADERS) AC_MSG_CHECKING([for Local Libraries directory]) AC_MSG_RESULT($GNUSTEP_LOCAL_LIBRARIES) AC_SUBST(GNUSTEP_LOCAL_LIBRARIES) AC_MSG_CHECKING([for Local Documentation directory]) AC_MSG_RESULT($GNUSTEP_LOCAL_DOC) AC_SUBST(GNUSTEP_LOCAL_DOC) AC_MSG_CHECKING([for Local 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#-------------------------------------------------------------------- # These variables no longer exist! We try to set some compatibility # values for them that should work with the old 'gnustep' layout. # So things using the old 'gnustep' layout should keep working. # These variables won't have any meaning with the new layouts. # They are deprecated and they *will* be removed. #-------------------------------------------------------------------- GNUSTEP_SYSTEM_ROOT="$GNUSTEP_PREFIX/System" GNUSTEP_NETWORK_ROOT="$GNUSTEP_PREFIX/Network" GNUSTEP_LOCAL_ROOT="$GNUSTEP_PREFIX/Local" GNUSTEP_USER_DIR="GNUstep" AC_SUBST(GNUSTEP_SYSTEM_ROOT) AC_SUBST(GNUSTEP_NETWORK_ROOT) AC_SUBST(GNUSTEP_LOCAL_ROOT) AC_SUBST(GNUSTEP_USER_DIR) #-------------------------------------------------------------------- # Is the system multi-platform? #-------------------------------------------------------------------- # # Multi-platform means that GNUstep.sh will determine the host # platform (by running config.guess) each time that it is sourced. # This is good if you are sharing your GNUstep.sh across your network # (for example, mounting the makefiles via NFS), but it requires you # to be able to run config.guess on your machine(s), which usually # requires a development environment (compiler, libc etc). # # The default instead is not using multi-platform, which means the # local host os, cpu and version is hardcoded in GNUstep.sh. This # works nicely for a single machine using this gnustep-make # installation, and it works even if you don't have development # packages (gcc, binutils, libc-dev etc) installed. We had to make # this the default after end-users (with no development packages # installed) complained that binary packages wouldn't work (and the # reason turned out to be that GNUstep.sh was running config.guess # which was returning the wrong platform because the development # tools needed/used to determine the platform were not available). # # Unless you know what you are doing, stick with the default, which is # also much faster when sourcing GNUstep.sh. # AC_ARG_ENABLE(multi-platform, [ --enable-multi-platform Enable run-time multi-platform support. If this option is enabled, then every time GNUstep.sh is run it will determine/guess the type of local host machine instead of using the hardcoded value. 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Use this option if the default compilation of the GUI backend as a bundle (loadable module) is not supported / does not work on your machine. ], ac_cv_backend=$enableval, ac_cv_backend="yes") if test "$ac_cv_backend" = "yes"; then BACKEND_BUNDLE=yes; else BACKEND_BUNDLE=; fi AC_SUBST(BACKEND_BUNDLE) #-------------------------------------------------------------------- # Enable installation of ld.so.conf.d/gnustep-make.conf #-------------------------------------------------------------------- AC_ARG_ENABLE(install-ld-so-conf, [ --enable-install-ld-so-conf Enable installation of ld.so.conf/gnustep-make.conf. This is useful if you are installing in a non-standard prefix, and a component of the build system needs to be able to find libraries even without GNUstep.sh or equivalent providing environment. Some packaging systems clear out the environment at certain points during the packaging build process, hence making LD_LIBRARY_PATH set by gnustep-make.conf ineffective. ], ac_cv_install_ld_so_conf=$enableval, ac_cv_install_ld_so_conf="undefined") if test "$ac_cv_install_ld_so_conf" = "yes"; then GNUSTEP_INSTALL_LD_SO_CONF=yes; else GNUSTEP_INSTALL_LD_SO_CONF=; fi AC_SUBST(GNUSTEP_INSTALL_LD_SO_CONF) #-------------------------------------------------------------------- # Miscellaneous flags and setup #-------------------------------------------------------------------- # TODO: This check for a custom ObjC library needs to be moved to # gnustep-base since it concerns the runtime library (see explanations # at the beginning of this file). # Special case for Apple systems: When compiling plain C source files that # include Objective-C runtime headers we must make sure that the correct # header files are used with a gnu-*-* combo. The -fobjc-runtime=gcc compiler # option should take care of this when compiling Objective-C source files, but # has no effect when compiling plain C (or C++) source files. cc_gnuruntime= case $target_os-$ac_cv_library_combo in darwin*-gnu-*-* ) if test "$gs_cv_objc_libdir" = "NONE"; then AC_MSG_CHECKING(GNU Objective-C runtime header directory) install_dir="`$CC -print-search-dirs | sed -n 's/install: //p'`" if test -n "${install_dir}" && \ test -d "${install_dir}"include-gnu-runtime; then cc_gnuruntime="${install_dir}"include-gnu-runtime AC_MSG_RESULT($cc_gnuruntime) else AC_MSG_RESULT(NONE) fi fi ;; esac AC_SUBST(cc_gnuruntime) dnl these macros are required by GS_CHECK_OBJC_RUNTIME, but we need to explicitly execute them here because we wrap this initial use of the macro in an dnl conditional AC_PROG_SED() GS_OBJ_DIR() GS_OBJC_LIB_FLAG() GS_LIBOBJC_PKG() if test "$OBJC_RUNTIME_LIB" = "gnu" -a x"$gs_cv_cc_is_clang" = x"yes" -a x"$gs_cv_library_combo_implicit" = x"yes"; then dnl in order to determine whether the installed runtime library supports the `ng' library combo, dnl we need to detect the runtime with that combo specifically. Unfortunately, dnl GS_CHECK_OBJC_RUNTIME is a very invasive macro that sets up lots of variables needed later on. dnl For that reason, we need to save the state of all variables that are changed by this and dnl restore them afterwards m4_define([rt_save_variables], [[OBJC_CPPFLAGS],dnl [OBJC_LDFLAGS],dnl [OBJC_FINAL_LIB_FLAG],dnl [CFLAGS],dnl [LIBS],dnl [saved_CFLAGS],dnl [saved_LDFLAGS],dnl [OBJCRT],dnl [LD_LIBRARY_PATH],dnl [PATH]]) m4_foreach([to_save], [rt_save_variables], [dnl AS_VAR_SET([m4_join([_], [gs_cv_ng_rt_saved], m4_strip(to_save))], m4_join([], [$], m4_strip(to_save))) ])dnl GS_CHECK_OBJC_RUNTIME([NG], [ng-gnu-gnu]) dnl The gnustep runtime library has objc_test_capability -- the GCC runtime doesn't, so we can use this dnl to distinguish between them AC_CHECK_FUNC([objc_test_capability], [ GS_LIBRARY_COMBO([ng-gnu-gnu],[yes]) LIBRARY_COMBO=ng-gnu-gnu AC_MSG_NOTICE([library combo has been upgraded to `ng-gnu-gnu' because compiler/runtime support is available. To prevent this, pass --with-library-combo explicitly.]) ]) dnl restare state m4_foreach([saved_var], [rt_save_variables], [dnl AS_VAR_SET([m4_strip(saved_var)], m4_join([], [$gs_cv_ng_rt_saved_], m4_strip(saved_var))) AS_UNSET(m4_join([_], [gs_cv_ng_rt_saved], m4_strip(saved_var))) ])dnl m4_undefine([rt_save_variables]) fi GS_CHECK_OBJC_RUNTIME() #-------------------------------------------------------------------- # Check if libobjc was compiled with thread support. #-------------------------------------------------------------------- # TODO: This check needs to be moved to gnustep-base since it concerns # the runtime library (see explanations at the beginning of this # file). OBJC_THREAD= AC_ARG_WITH(thread-lib,[ --with-thread-lib Specify alternate thread library. Use this flag if configure can not properly determine the thread library used by your libobjc. ], OBJC_THREAD=$withval, OBJC_THREAD= ) if test "$OBJC_THREAD" = no; then OBJC_THREAD= fi AC_MSG_CHECKING(whether objc has thread support) if test "$OBJC_THREAD" != ""; then LIBS="$OBJCRT $LIBS $OBJC_THREAD" AC_RUN_IFELSE([AC_LANG_SOURCE([[#include "config_thread.m"]])],[objc_threaded="$OBJC_THREAD"],[objc_threaded=""],[objc_threaded=""]) elif test "$host_os" = linux-gnu; then LIBS="$OBJCRT -lpthread" AC_RUN_IFELSE([AC_LANG_SOURCE([[#include "config_thread.m"]])],[objc_threaded="-lpthread"],[objc_threaded=""],[objc_threaded="-lpthread"]) if test x"$objc_threaded" = x""; then LIBS="$OBJCRT" AC_RUN_IFELSE([AC_LANG_SOURCE([[#include "config_thread.m"]])],[objc_threaded="works"],[objc_threaded=""],[objc_threaded="works"]) fi elif test "$host_os" = linux-musl; then LIBS="$OBJCRT -lpthread" AC_RUN_IFELSE([AC_LANG_SOURCE([[#include "config_thread.m"]])],[objc_threaded="-lpthread"],[objc_threaded=""],[objc_threaded="-lpthread"]) if test x"$objc_threaded" = x""; then LIBS="$OBJCRT" AC_RUN_IFELSE([AC_LANG_SOURCE([[#include "config_thread.m"]])],[objc_threaded="works"],[objc_threaded=""],[objc_threaded="works"]) fi elif test "`echo $host_os|sed 's/[[0-9]].*//'|sed s/elf//`" = freebsd; then LIBS="-pthread $OBJCRT" AC_RUN_IFELSE([AC_LANG_SOURCE([[#include "config_thread.m"]])],[objc_threaded="-pthread"],[objc_threaded=""],[objc_threaded="-pthread"]) if test x"$objc_threaded" = x""; then LIBS="-lpthread $OBJCRT" AC_RUN_IFELSE([AC_LANG_SOURCE([[#include "config_thread.m"]])],[objc_threaded="-lpthread"],[objc_threaded=""],[objc_threaded="-lpthread"]) fi if test x"$objc_threaded" = x""; then LIBS="$OBJCRT -lpcthread" AC_RUN_IFELSE([AC_LANG_SOURCE([[#include "config_thread.m"]])],[objc_threaded="-lpcthread"],[objc_threaded=""],[objc_threaded="-lpcthread"]) fi if test x"$objc_threaded" = x""; then LIBS="$OBJCRT" AC_RUN_IFELSE([AC_LANG_SOURCE([[#include "config_thread.m"]])],[objc_threaded="works"],[objc_threaded=""],[objc_threaded="works"]) fi elif test "$MINGW32" = yes; then # Mingw doesn't need anything extra for threads LIBS="$OBJCRT $LIBS" AC_RUN_IFELSE([AC_LANG_SOURCE([[#include "config_thread.m"]])],[objc_threaded="works"],[objc_threaded=""],[objc_threaded="works"]) elif test "$MINGW64" = yes; then # Mingw doesn't need anything extra for threads LIBS="$OBJCRT $LIBS" AC_RUN_IFELSE([AC_LANG_SOURCE([[#include "config_thread.m"]])],[objc_threaded="works"],[objc_threaded=""],[objc_threaded="works"]) elif test "$OBJC_RUNTIME_LIB" = "apple"; then # Apple doesn't need anything extra for threads LIBS="$OBJCRT $LIBS" AC_RUN_IFELSE([AC_LANG_SOURCE([[#include "config_thread.m"]])],[objc_threaded="works"],[objc_threaded=""],[objc_threaded="works"]) else LIBS="$OBJCRT $LIBS" AC_RUN_IFELSE([AC_LANG_SOURCE([[#include "config_thread.m"]])],[objc_threaded="works"],[objc_threaded=""],[objc_threaded=""]) if test x"$objc_threaded" = x""; then LIBS="$OBJCRT $saved_LIBS -lpthread " AC_RUN_IFELSE([AC_LANG_SOURCE([[#include "config_thread.m"]])],[objc_threaded="-lpthread"],[objc_threaded=""],[objc_threaded=""]) fi if test x"$objc_threaded" = x""; then # Solaris, OpenBSD/sparc LIBS="$OBJCRT $saved_LIBS -lpthread -lposix4" AC_RUN_IFELSE([AC_LANG_SOURCE([[#include "config_thread.m"]])],[objc_threaded="-lpthread -lposix4"],[objc_threaded=""],[objc_threaded=""]) fi if test x"$objc_threaded" = x""; then LIBS="$OBJCRT $saved_LIBS -lthread " AC_RUN_IFELSE([AC_LANG_SOURCE([[#include "config_thread.m"]])],[objc_threaded="-lthread"],[objc_threaded=""],[objc_threaded=""]) fi if test x"$objc_threaded" = x""; then LIBS="$OBJCRT" AC_RUN_IFELSE([AC_LANG_SOURCE([[#include "config_thread.m"]])],[objc_threaded="works"],[objc_threaded=""],[objc_threaded="works"]) fi fi if test x"$objc_threaded" = x""; then AC_MSG_RESULT(no) else if test x"$objc_threaded" = x"works"; then objc_threaded="" fi AC_MSG_RESULT(yes: $objc_threaded) fi ac_cv_objc_threaded="$objc_threaded" AC_SUBST(objc_threaded) AC_SUBST(ac_cv_objc_threaded) AC_MSG_CHECKING(whether Objective-C++ is supported) AC_LANG_PUSH(Objective C++) OBJCXXFLAGS_saved="$OBJCXXFLAGS" OBJCXXFLAGS="$OBJCXXFLAGS -x objective-c++" OBJCXXPPFLAGS_saved="$OBJCXXPPFLAGS" OBJCXXPPFLAGS="$OBJCXXPPFLAGS -x objective-c++" AC_COMPILE_IFELSE([AC_LANG_SOURCE([[ @interface ObjCClass { int x; } @end class CppClass { int x; }; int main() { return 0; } ]])], objcc=yes, objcc=no) AC_MSG_RESULT($objcc) if test x"$objcc" = x"no"; then OBJCXX= fi AC_SUBST(OBJCXX) OBJCXXFLAGS="$OBJCXXFLAGS_saved" OBJCXXPPFLAGS="$OBJCXXPPFLAGS_saved" AC_LANG_POP(Objective C++) #-------------------------------------------------------------------- # Check if compiler supports -fobjc-arc, and if so, turn it on! #-------------------------------------------------------------------- AC_ARG_ENABLE(objc-arc, [ --enable-objc-arc Use automatic retain counts for Objective-C. Use this option if you want to use the ARC mechanism of the Objective-C compiler and runtime. ], USE_ARC=$enableval, USE_ARC=$defaultng) AC_MSG_CHECKING(whether we should use ARC) if test x"$USE_ARC" = x"yes"; then # What we want to do: set USE_ARC to yes if we can compile # something with -fobjc-arc. CFLAGS_no_arc="$CFLAGS" CFLAGS="$CFLAGS -fobjc-runtime=gnustep-2.2 -fobjc-arc" AC_COMPILE_IFELSE([AC_LANG_SOURCE([[ /* Note that we never execute this code so it does not really matter what it is. 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But -r doesn't work with clang on some # platforms, while using -Wl,-r is a problem with GCC on some Sparc # systems, where GCC automatically passes --relax to the linker unless # you specify -r. If you specify -Wl,-r, it still passes --relax, # producing the error # # ld: --relax and -r may not be used together # # To work around this, we use -Wl,-r with clang, and -r with GCC. AC_MSG_CHECKING(for the flag to use to do partial linking) gs_cv_using_clang=`${CC} --version 2>&5 | grep -c "clang"` if test x"${gs_cv_using_clang}" = x"0" ; then OBJ_MERGE_CMD_FLAG=-r AC_MSG_RESULT([-r]) else OBJ_MERGE_CMD_FLAG=-Wl,-r AC_MSG_RESULT([-Wl,-r]) fi AC_SUBST(OBJ_MERGE_CMD_FLAG) #-------------------------------------------------------------------- # Check for the GCC version - this is used in the following tests #-------------------------------------------------------------------- GS_CHECK_GCC_VERSION() GS_RUNTIME_ABI() # If we determined that the user wants the gnustep-2.0 ABI, check for potential linker problems. if test $gs_cv_runtime_abi = 'gnustep-2.0'; then GS_CHECK_ABI20_LINKER() fi # Do not restore LIBS and CFLAGS yet as we need to test if the # compiler supports native exceptions. #-------------------------------------------------------------------- # Check if GCC supports -fobjc-exceptions, and if so, turn it on! #-------------------------------------------------------------------- AC_ARG_ENABLE(native-objc-exceptions, [ --disable-native-objc-exceptions Disable native Objective-C exception support (@try / @catch / @finally / @synchronized). If unspecified, Objective-C exception support is enabled if the compiler can compile Objective-C code containing @try / @catch / @finally / @synchronized. Please note that native exceptions also require support in the Objective-C runtime; GNUstep-base will check for that support and may still disable native exceptions if such support is not available. Use this option if you do not want to use the native Objective-C exception support provided by newer compilers. ], USE_OBJC_EXCEPTIONS=$enableval, USE_OBJC_EXCEPTIONS=maybe) if test x"$USE_OBJC_EXCEPTIONS" = x"maybe"; then if test x"$MSWIND" = x"yes" -a "$OBJC_RUNTIME_LIB" = "gnu"; then USE_OBJC_EXCEPTIONS=no fi fi # Please note that -fobjc-exceptions should automatically enable # -fexceptions. AC_MSG_CHECKING(whether the compiler supports native ObjC exceptions) if test x"$USE_OBJC_EXCEPTIONS" = x"maybe"; then # What we want to do: set USE_OBJC_EXCEPTIONS to yes if we can compile # something with @try/@catch/@finally in it. CFLAGS_no_exceptions="$CFLAGS" CFLAGS="$CFLAGS -fexceptions -fobjc-exceptions" AC_COMPILE_IFELSE([AC_LANG_SOURCE([[ #include @interface Test { id isa; } @end int test (Test *o) { @try { @throw o; } @catch (id foo) { if (o != foo) return 1; } return 0; } ]])], USE_OBJC_EXCEPTIONS=yes, USE_OBJC_EXCEPTIONS=no) if test x"$USE_OBJC_EXCEPTIONS" = x"no"; then AC_MSG_RESULT(no) else AC_MSG_RESULT(yes) fi CFLAGS="$CFLAGS_no_exceptions" else AC_MSG_RESULT($USE_OBJC_EXCEPTIONS) fi AC_SUBST(USE_OBJC_EXCEPTIONS) # Check if we need -shared-libgcc linker flags if test x"$USE_OBJC_EXCEPTIONS" = x"yes" -a x"${GCC}" = x"yes"; then if test x"$CLANG_CC" = x"no"; then LDFLAGS="$LDFLAGS -shared-libgcc" fi fi #-------------------------------------------------------------------- # Check if compiler supports -MMD -MP to generate %.d files ... #-------------------------------------------------------------------- AC_MSG_CHECKING(if the compiler supports autodependencies) # What we want to do: set AUTO_DEPENDENCIES to yes if gcc => 3.x. As # an exception, we disabled them on cygwin because the compiler # generates autodependencies files containing filenames such as # G:/GNUstep/mingw/include/stdlib.h which can't really work with GNU # make because of the ':'. AUTO_DEPENDENCIES="" if test "$CYGWIN" = yes; then AC_MSG_RESULT(no: autodependencies do not work on cygwin) elif test ! ${GCC} = "yes" ; then AC_MSG_RESULT(no: it's not gcc) else if test "${gs_cv_gcc_major_version}" -ge "3" >&5 2>&5; then AUTO_DEPENDENCIES=yes AC_MSG_RESULT(yes: gcc version is ${gs_cv_gcc_parsed_version} >= 3.0) else AC_MSG_RESULT(no: gcc version is ${gs_cv_gcc_parsed_version} < 3.0) fi fi AC_SUBST(AUTO_DEPENDENCIES) #-------------------------------------------------------------------- # Check if compiler supports precompiled headers #-------------------------------------------------------------------- AC_MSG_CHECKING(if the compiler supports precompiled headers) # We used to check the compiler version here; this is not that # reliable because precompiled headers were added in 3.4, then they # were broken in 4.1, then fixed again. # So we prefer to actually try them out! ;-) # (Unfortunately, even that is not enough since we have reports of # 4.1.1 GCC prereleases that pass this simple test, but where any # serious usage of precompiled headers (ie, including # Foundation/Foundation.h and AppKit/AppKit.h) doesn't work. So in # addition to doing this test, we also forcefully disable precompiled # headers in 4.1) # What we want to do: set GCC_WITH_PRECOMPILED_HEADERS to yes if gcc # can compile and use a precompiled header. GCC_WITH_PRECOMPILED_HEADERS="no" # First, a preliminary test. If this is not gcc, precompiled headers # are not supported. if test ! "${GCC}" = "yes" ; then AC_MSG_RESULT(no: it's not gcc) else if test "${gs_cv_gcc_parsed_version}" = "4.1" >&5 2>&5; then AC_MSG_RESULT(no: gcc 4.1 is often shipped with broken precompiled headers) else gs_precomp_test_builddir="`pwd`" gs_precomp_test_results=`(CC="$CC"; export CC; CFLAGS="$CFLAGS"; export CFLAGS; CPPLAGS="$CPPFLAGS"; export CPPFLAGS; LDFLAGS="$LDFLAGS"; export LDFLAGS; LIBS="$LIBS"; export LIBS; cd "$srcdir/config-precomp-test/"; ./run-test.sh "$gs_precomp_test_builddir"; echo $?) 2>&5` if test "$gs_precomp_test_results" = "0"; then GCC_WITH_PRECOMPILED_HEADERS="yes" AC_MSG_RESULT(yes) else # Please check the config-precomp-test.log log file for more info AC_MSG_RESULT(no: old or buggy gcc) fi fi fi # Important - if you think there is a problem with precompiled # headers, try adding ADDITIONAL_OBJC_FLAGS = -Winvalid-pch to your # GNUmakefile to check that they are used. AC_SUBST(GCC_WITH_PRECOMPILED_HEADERS) # Restore LIBS and CFLAGS - we used to compile C code after this # point. Useful to keep this in case we need to compile C code again. LIBS="$saved_LIBS" CFLAGS="$saved_CFLAGS" #-------------------------------------------------------------------- # Check if compiler requires -shared flag on Solaris ... #-------------------------------------------------------------------- AC_MSG_CHECKING(if the compiler requires -shared flag to build for Solaris) # set SOLARIS_SHARED to yes if gcc => 4.x SOLARIS_SHARED="" if test ! ${GCC} = "yes" ; then AC_MSG_RESULT(no: it's not gcc) else if test "${gs_cv_gcc_major_version}" -ge "4" >&5 2>&5; then if test "$host_os" = "solaris2.7" -o $"host_os" = "solaris2.6"; then AC_MSG_RESULT(no: solaris 2.6 or 2.7) else SOLARIS_SHARED=yes AC_MSG_RESULT(yes: gcc version is ${gs_cv_gcc_parsed_version} >= 4.0) fi else AC_MSG_RESULT(no: gcc version is ${gs_cv_gcc_parsed_version} < 4.0) fi fi AC_SUBST(SOLARIS_SHARED) AC_SUBST(INCLUDES) AC_SUBST(LIB_DIR) AC_SUBST(OBJCFLAGS) #-------------------------------------------------------------------- # Check if we need to enable debug=yes builds by default #-------------------------------------------------------------------- AC_MSG_CHECKING(if we should enable 'make debug=yes' by default) AC_ARG_ENABLE(debug-by-default, [ --enable-debug-by-default Enable building with 'make debug=yes' by default. When you use gnustep-make to build software, you have a choice of using debug=yes or debug=no. The debug=no will use the default compiler flags determined when gnustep-make was configured (usually -g -O2), while debug=yes will remove the optimization flags and add a number of debugging compiler flags. If you do not specify the --enable-debug-by-default option, gnustep-make will default to building with debug=no when nothing is specified. If you specify the --enable-debug-by-default option, gnustep-make will default to building with debug=yes instead, which can be handy if you always want to compile software with debug=yes and want to avoid having to type debug=yes each time you compile (an alternative is to define the variable debug=yes in your shell). If you are unsure, you should stick with the default and ignore this option. ], ac_cv_debug_by_default=$enableval, ac_cv_debug_by_default="undefined") if test "$ac_cv_debug_by_default" = "yes"; then GNUSTEP_DEFAULT_DEBUG=yes; AC_MSG_RESULT(yes); else GNUSTEP_DEFAULT_DEBUG=no; AC_MSG_RESULT(no); fi AC_SUBST(GNUSTEP_DEFAULT_DEBUG) #-------------------------------------------------------------------- # Check for GNU make #-------------------------------------------------------------------- # Search for GNU make. We try 'gmake' then 'gnumake' then 'make'. If # we can't find it, we set it to 'make', even if that will fail later # on. AC_CHECK_PROGS(GNUMAKE, [gmake gnumake make], make) # Used by gnustep-config to launch gnustep-make to compute # compilation/link flags AC_SUBST(GNUMAKE) # If GNU make supports $(info ...), gnustep-make can use it to print # out a help message at the beginning of each compilation. This # feature was introduced in GNU make 3.81, so we check GNU make's # version number (alternatively, we could try executing a makefile # that contains an info command). AC_MSG_CHECKING(for the GNU Make version) # To get the make version, take the output of 'make --version', read # only the first line (that we expect to be something like "GNU Make # 3.81"), and ignore everything up to the first numeric character. gs_cv_make_version=`($GNUMAKE --version | head -1 | sed -e 's/^[[^0-9]]*//') 2>&5` # Now check for the major/minor version numbers. gs_cv_make_major_version=`(echo ${gs_cv_make_version} | sed -e 's/\([[0-9]][[0-9]]*\)[[^0-9]]\([[0-9]][[0-9]]*\).*/\1/') 2>&5` gs_cv_make_minor_version=`(echo ${gs_cv_make_version} | sed -e 's/\([[0-9]][[0-9]]*\)[[^0-9]]\([[0-9]][[0-9]]*\).*/\2/') 2>&5` AC_MSG_RESULT(version: ${gs_cv_make_major_version}.${gs_cv_make_minor_version}) #-------------------------------------------------------------------- # Check for GNU Make >= 3.79 #-------------------------------------------------------------------- # We want to emit a warning if they are using GNU make < 3.79 as it's # no longer supported. We let them install everything at their own # risk though. AC_MSG_CHECKING(for GNU Make >= 3.79) SUPPORTED_MAKE=no if test "${gs_cv_make_major_version}" = "3" >&5 2>&5; then if test "${gs_cv_make_minor_version}" -ge "79" >&5 2>&5; then SUPPORTED_MAKE=yes fi fi if test "${gs_cv_make_major_version}" -ge "4" >&5 2>&5; then SUPPORTED_MAKE=yes fi if test "${SUPPORTED_MAKE}" = "yes" >&5 2>&5; then AC_MSG_RESULT(yes) else # We do not abort mostly because the checks for GNU make might have # gone wrong and returned the wrong version, and because GNU make < # 3.79.1 probably works anyway (with the exception of parallel # building). AC_MSG_RESULT(no) AC_MSG_WARN(GNU Make >= 3.79.1 is recommended! Older versions are no longer supported. Continue at your own risk.) fi #-------------------------------------------------------------------- # Check for $(info ...) function in GNU make #-------------------------------------------------------------------- AC_MSG_CHECKING(if GNU Make has the info function) # Things may go wrong (eg, make couldn't be found in one of the # previous steps), so by default we assume 'no' here. If things go # wrong, you'll lost some non-essential features. MAKE_WITH_INFO_FUNCTION=no if test "${gs_cv_make_major_version}" = "3" >&5 2>&5; then if test "${gs_cv_make_minor_version}" -ge "81" >&5 2>&5; then MAKE_WITH_INFO_FUNCTION=yes fi fi if test "${gs_cv_make_major_version}" -ge "4" >&5 2>&5; then MAKE_WITH_INFO_FUNCTION=yes fi AC_MSG_RESULT(${MAKE_WITH_INFO_FUNCTION}) AC_SUBST(MAKE_WITH_INFO_FUNCTION) #-------------------------------------------------------------------- # Shall we strip makefiles upon installation ? #-------------------------------------------------------------------- # Stripping makefiles removes comments and newlines from them. The # resulting stripped makefiles execute around 5% faster on average. # Too little for it to be worth for the common user who's more # interested in the comments :-) so it's disabled by default. AC_MSG_CHECKING(if we should strip makefiles after installation) AC_ARG_ENABLE(strip-makefiles, [ --enable-strip-makefiles Enable stripping system makefiles after installation. This will speed up gnustep-make by about 5% (average), but will remove all comments from the installed makefiles. Those comments are quite useful if you are trying to find some information on how gnustep-make works (eg, if you're trying to locate a bug), and the performance gain is quite small, so you probably don't want to strip makefiles. ], ac_cv_strip_makefiles=$enableval, ac_cv_strip_makefiles="undefined") if test "$ac_cv_strip_makefiles" = "yes"; then GNUSTEP_STRIP_MAKEFILES=strip; AC_MSG_RESULT(yes); else GNUSTEP_STRIP_MAKEFILES=; AC_MSG_RESULT(no); fi AC_SUBST(GNUSTEP_STRIP_MAKEFILES) #------------------------------------------------- # Determine if we should enable parallel building #------------------------------------------------- AC_MSG_CHECKING([if we should enable support for parallel building]) AC_ARG_ENABLE(parallel-building, [ --disable-parallel-building Disable support for parallel building. Normally this is enabled and you can request parallel building of a project by using the '-j N' flag for make (where N is a number, eg, '-j 4'). If you know that you are never going to be using parallel building, you can disable parallel building here - which will ignore all '-j N' flags, and also avoid executing a 'compile' submake invocation - resulting in slightly faster non-parallel builds, but making it impossible to do parallel builds. ], ac_cv_parallel_building=$enableval, ac_cv_parallel_building="yes") if test "$ac_cv_parallel_building" = "yes"; then AC_MSG_RESULT(yes); GNUSTEP_MAKE_PARALLEL_BUILDING="yes" else AC_MSG_RESULT(no); GNUSTEP_MAKE_PARALLEL_BUILDING="no" fi AC_SUBST(GNUSTEP_MAKE_PARALLEL_BUILDING) #-------------------------------------------------------------------- # Record the version #-------------------------------------------------------------------- AC_MSG_CHECKING(for the version of gnustep-make we are compiling) . "$srcdir/Version" AC_MSG_RESULT($GNUSTEP_MAKE_VERSION) AC_SUBST(GNUSTEP_MAKE_VERSION) AC_SUBST(GNUSTEP_MAKE_MAJOR_VERSION) AC_SUBST(GNUSTEP_MAKE_MINOR_VERSION) AC_SUBST(GNUSTEP_MAKE_SUBMINOR_VERSION) #------------------------------------------------------------------- # Record the 'clean' target_os, target_cpu and target_vendor #------------------------------------------------------------------- # This is just for efficiency, so that core/make/GNUmakefile does not # have to compute clean_target_os from target_os (and similar) by # running shell scripts each time you 'make' something inside # gnustep-make. We basically compute them once now, and cache them # forever. It is also used by GNUstep.sh when multi-platform is # disabled. clean_target_os=`$srcdir/clean_os.sh $target_os` clean_target_cpu=`$srcdir/clean_cpu.sh $target_cpu` clean_target_vendor=`$srcdir/clean_cpu.sh $target_vendor` AC_SUBST(clean_target_os) AC_SUBST(clean_target_cpu) AC_SUBST(clean_target_vendor) AC_SUBST(target) #-------------------------------------------------------------------- # For documentation #-------------------------------------------------------------------- AC_CHECK_PROGS(LATEX2HTML, latex2html) #-------------------------------------------------------------------- # For test framework #-------------------------------------------------------------------- AC_PATH_PROG(SHELLPROG, bash) AC_PATH_PROG(TESTPROG, test) if test x"$SHELLPROG" = x""; then echo "Unable to find the bash program (needed for testsuite)." SHELLPROG=/bin/sh MISSINGBASH=YES else MISSINGBASH=NO fi AC_SUBST(MISSINGBASH) #-------------------------------------------------------------------- # Produce the output files #-------------------------------------------------------------------- AC_CONFIG_FILES([config-noarch.make config.make openapp opentool executable.template GNUmakefile GNUstep.conf GNUstep-strict-v2.conf GNUstep.sh GNUstep.csh fixpath.sh GNUstep-reset.sh gnustep-make.spec gnustep-config TestFramework/gnustep-tests filesystem.make filesystem.sh filesystem.csh gnustep-make-ld.so.conf]) AC_CONFIG_FILES([runtime/$OBJC_RUNTIME_LIB.make:config.make.in]) AC_CONFIG_COMMANDS([default], [[chmod a+x openapp opentool fixpath.sh executable.template]], [[]]) AC_OUTPUT