configure.ac
396 lines (353 with data), 12.8 kB
AC_INIT(Recoll, 1.6)
AC_CONFIG_HEADERS([common/autoconfig.h])
AC_PREREQ(2.53)
AC_CONFIG_SRCDIR(index/recollindex.cpp)
sys=`uname`
if test -f mk/$sys ; then
(cd mk; rm -f sysconf; ln -s $sys sysconf)
else
cat <<EOF
No system configuration file found in mk/ for '$sys'. Maybe you
could try to write one, starting from one of the existing files, they
are really simple.
EOF
exit 1
fi
AC_CHECK_HEADERS(sys/mount.h sys/statfs.h sys/statvfs.h sys/vfs.h)
# Use specific 'file' command ? (Useful on solaris to specify
# /usr/local/bin/file instead of the system's which doesn't understand '-i'
AC_ARG_WITH(file-command,
AC_HELP_STRING([--with-file-command],
[Specify version of 'file' command (ie: --with-file-command=/usr/local/bin/file)]),
withFileCommand=$withval, withFileCommand=file)
case $withFileCommand in
file)
AC_PATH_PROG(fileProg, file);;
*)
fileProg=$withFileCommand;;
esac
if test ! -x "$fileProg"; then
AC_MSG_ERROR([$fileProg does not exist or is not executable])
fi
AC_DEFINE_UNQUOTED(FILE_PROG, "$fileProg", [Path to the file program])
# Can't use Solaris standard 'file' command, it doesn't support -i
if test X$sys != XSunOS -o X$fileProg != X/usr/bin/file; then
AC_DEFINE(USE_SYSTEM_FILE_COMMAND)
fi
# Use aspell to provide spelling expansions ?
# The default is yes. If we do find an aspell installation, we use it. Else
# we do compile the aspell module using an internal copy of aspell.h
# Only --with-aspell=no will completely disable aspell support
AC_ARG_WITH(aspell,
AC_HELP_STRING([--without-aspell],
[Disable use of aspell spelling package to provide term expansion to other spellings]),
withAspell=$withval, withAspell=yes)
case $withAspell in
no);;
yes)
AC_PATH_PROG(aspellProg, aspell)
;;
*) # The argument should be the path to the aspell program
aspellProg=$withAspell
;;
esac
if test X$withAspell != Xno ; then
AC_DEFINE(RCL_USE_ASPELL, 1, [Compile the aspell interface])
if test X$aspellProg != X ; then
aspellBase=`dirname $aspellProg`
aspellBase=`dirname $aspellBase`
AC_DEFINE_UNQUOTED(ASPELL_PROG, "$aspellProg",
[Path to the aspell program])
if test -f $aspellBase/include/aspell.h ; then
AC_DEFINE_UNQUOTED(ASPELL_INCLUDE, "$aspellBase/include/aspell.h",
[Path to the aspell api include file])
else
AC_MSG_NOTICE([aspell support enabled but aspell package not found. Compiling with internal aspell interface file])
AC_DEFINE(ASPELL_INCLUDE, ["aspell-local.h"])
fi
else
# aspell support enabled but no aspell install yet
AC_MSG_NOTICE([aspell support enabled but aspell package not found. Compiling with internal aspell interface file])
AC_DEFINE(ASPELL_INCLUDE, ["aspell-local.h"])
fi
fi
if test -f /usr/include/sys/inotify.h ; then
inot_default=yes
else
inot_default=no
fi
# Real time monitoring with inotify
AC_ARG_WITH(inotify,
AC_HELP_STRING([--with-inotify],
[Use inotify for almost real time indexing of modified files.]),
withInotify=$withval, withInotify=$inot_default)
if test X$withInotify != Xno ; then
AC_MSG_NOTICE([enabled support for inotify monitoring])
AC_DEFINE(RCL_MONITOR, 1, [Real time monitoring option])
AC_DEFINE(RCL_USE_INOTIFY, 1, [Compile the inotify interface])
else
AC_MSG_NOTICE([inotify monitoring disabled])
fi
# Real time monitoring with FAM
AC_ARG_WITH(fam,
AC_HELP_STRING([--with-fam],
[Use File Alteration Monitor for almost real time indexing of modified files. Give the fam/gamin library as argument (ie: /usr/lib/libfam.so) if configure does not find the right one.]),
withFam=$withval, withFam=no)
if test X$withFam != Xno -a X$withInotify != Xno ; then
AC_MSG_NOTICE([FAM support enabled but inotify support also enabled. Disabling FAM support and using inotify])
withFam=no
fi
case $withFam in
no);;
yes)
for dir in /usr/local/lib ${libdir};do
if test -f $dir/libfam.so ; then famLib=$dir/libfam.so;break;fi
done
;;
*) # The argument should be the path to the fam library
famLib=$withFam
;;
esac
if test X$withFam != Xno ; then
AC_DEFINE(RCL_MONITOR, 1, [Real time monitoring option])
AC_DEFINE(RCL_USE_FAM, 1, [Compile the fam interface])
if test X$famLib != X ; then
famLibDir=`dirname $famLib`
famBase=`dirname $famLibDir`
famBLib=`basename $famLib .so | sed -e s/lib//`
if test ! -f $famBase/include/fam.h ; then
AC_MSG_ERROR([fam.h not found in $famBase/include. Specify --with-fam=no to disable fam support])
fi
LIBFAM="-L$famLibDir -l$famBLib"
AC_MSG_NOTICE([fam library directive: $LIBFAM])
AC_DEFINE_UNQUOTED(FAM_INCLUDE, "$famBase/include/fam.h",
[Path to the fam api include file])
else
AC_MSG_ERROR([fam library not found])
fi
fi
# Enable use of file extended attributes.
# Not by default as these are little used for now.
AC_ARG_ENABLE(xattr,
AC_HELP_STRING([--enable-xattr],
[Enable fetching metadata from file extended attributes. This is only
useful if some application creates them on (part of) your data set. You also
need to set up appropriate mappings in the configuration.]),
xattrEnabled=$enableval, xattrEnabled=no)
if test X$xattrEnabled = Xyes ; then
AC_DEFINE(RCL_USE_XATTR, 1, [Use file extended attributes])
fi
AC_CHECK_FUNCS(mkdtemp)
##### Look for iconv. We first look for libiconv in /usr/local/lib:/usr/lib
## then in libc (Linux, solaris)
AC_LANG(C++)
LIBICONV=""
S_LDFLAGS=$LDFLAGS
dir=/usr/local/lib
LDFLAGS="$S_LDFLAGS -L$dir"
unset ac_cv_lib_iconv_iconv_open
AC_CHECK_LIB(iconv, iconv_open, LIBICONV="-L$dir -liconv";INCICONV=-I/usr/local/include)
if test A"$LIBICONV" = A ; then
dir=${libdir}
LDFLAGS="$S_LDFLAGS -L$dir"
unset ac_cv_lib_iconv_iconv_open
AC_CHECK_LIB(iconv, iconv_open, LIBICONV="-L$dir -liconv";INCICONV=-I/usr/include)
if test A"$LIBICONV" = A; then
dir=${libdir}
LDFLAGS="$S_LDFLAGS -L$dir"
unset ac_cv_lib_iconv_iconv_open
AC_CHECK_LIB(c, iconv_open, LIBICONV=NONE;INCICONV=-I/usr/include)
fi
fi
LDFLAGS=$S_LDFLAGS
if test A"$LIBICONV" = A ; then
AC_MSG_ERROR([Cannot find iconv_open anywhere. Please install iconv])
exit 1
fi
if test A"$LIBICONV" = ANONE ; then
LIBICONV=""
fi
#echo LIBICONV $LIBICONV
#echo INCICONV $INCICONV
CPPFLAGS="$CPPFLAGS $INCICONV"
AC_MSG_CHECKING(for type of inbuf parameter to iconv)
AC_TRY_COMPILE([
#include <stddef.h>
#include <iconv.h>
],[
iconv(0,(const char **)0,(size_t *)0,(char **)0,(size_t *)0);
], rcl_iconv_inbuf_const="1", rcl_iconv_inbuf_const="0")
if test X$rcl_iconv_inbuf_const = X1 ; then
AC_DEFINE(RCL_ICONV_INBUF_CONST, 1, [iconv parameter 2 is const char**])
fi
AC_MSG_CHECKING(for type of string parameter to putenv)
AC_TRY_COMPILE([
#include <stdlib.h>
],[
putenv((const char *)0);
], rcl_putenv_string_const="1", rcl_putenv_string_const="0")
if test X$rcl_putenv_string_const = X1 ; then
AC_DEFINE(PUTENV_ARG_CONST, 1, [putenv parameter is const])
fi
#### Look for Xapian
AC_PATH_PROG(XAPIAN_CONFIG, xapian-config, no)
if test "$XAPIAN_CONFIG" = "no" ; then
AC_MSG_ERROR([Cannot find xapian-config command in $PATH. Is
xapian-core installed ?])
exit 1
fi
LIBXAPIAN=`$XAPIAN_CONFIG --libs`
# Workaround for problem in xapian-config in some versions: wrongly lists
# libstdc++.la in the lib list
for i in $LIBXAPIAN ; do
case $i in
*stdc++*|-lm|-lgcc_s|-lc);;
*) tmpxaplib="$tmpxaplib $i";;
esac
done
LIBXAPIAN=$tmpxaplib
# Also recent xapian libs need lz even when they think they don't...
LIBXAPIAN="$LIBXAPIAN -lz"
XAPIANCXXFLAGS=`$XAPIAN_CONFIG --cxxflags`
#echo XAPIAN_CONFIG: $XAPIAN_CONFIG
#echo LIBXAPIAN: $LIBXAPIAN
#echo XAPIANCXXFLAGS: $XAPIANCXXFLAGS
#### QT
# The way qt and its tools (qmake especially) are installed is very
# different between systems (and maybe qt versions)
#
# In general we need QTDIR to be set, because it is used inside the
# qmake-generated makefiles. But there are exceptions: ie on debian3.1 (at
# least on the sourceforge compile farm), QTDIR is not needed because qmake
# generates hard paths (and is installed in /usr/bin). We don't want to
# force the user to set QTDIR if it is not needed.
#
# The logic is then to first look for qmake, possibly using QTDIR if it is
# set.
#
# If QTDIR is not set, we then generate a bogus qt project and check if
# QTDIR is needed in the Makefile, in which case we complain.
#
# QMAKESPEC: on most Linux system, there is a 'default' link inside the
# mkspecs directory, so that QMAKESPEC is not needed.
# If QMAKESPEC is not set and needed, the qmake test at the previous test
# will have failed, and we tell the user to check his environment.
#
AC_ARG_WITH(gui,
AC_HELP_STRING([--without-gui],
[Disable the QT user interface and auxiliary x11 uses.]),
withQT=$withval, withQT="yes")
if test "$withQT" != "yes" ; then
AC_DEFINE(WIHOUT_X11)
NOQTMAKE="#"
NOCMDLINE=""
else
NOQTMAKE=""
NOCMDLINE="#"
if test X$QTDIR != X ; then
PATH=$PATH:$QTDIR/bin
export PATH
fi
if test X$QMAKE = X ; then
QMAKE=qmake
fi
AC_PATH_PROG([QMAKEPATH], $QMAKE, NOTFOUND)
if test X$QMAKEPATH = XNOTFOUND ; then
AC_MSG_ERROR([Cannot find the qmake program. Maybe you need to install
qt development files and tools and/or set the QTDIR environment variable?])
fi
QMAKE=$QMAKEPATH
# MAC OS X: we don't support this (the native search tool is more than
# good enough), but we make things work just enough so that the program can
# be compiled and roughly installed (not as a .app, but to /usr/local),
# basically to enable using a Macbook for development
if test X$sys = XDarwin ; then
# The default is xcode
QMAKE="${QMAKE} -spec macx-g++"
fi
# Discriminate qt3/4. Qt3 qmake prints its version on stderr but we don't
# depend on this. We try to detect the qt 4 version string instead.
qmakevers="`${QMAKE} --version 2>&1`"
#echo "qmake version: $qmakevers"
v4=`expr "$qmakevers" : '.*Qt[ ][ ]*version[ ][ ]*4.*'`
if test X$v4 = X0 ; then
AC_MSG_NOTICE([using qt version 3 user interface])
QTGUI=qtgui
else
AC_MSG_NOTICE([using qt version 4 user interface])
QTGUI=qt4gui
AC_PATH_PROG([UIC3], [uic3], NOTFOUND)
if test X$UIC3 = XNOTFOUND ; then
AC_MSG_ERROR([Cannot find the uic3 program. Maybe you need to add
the qt3 compatibility libraries and tools to your qt4 installation ?])
fi
fi
cd $QTGUI
# We just want a .pro file: no problem with unsubstituted variables at
# this point.
test -f uifrom3 && make -f uifrom3
test -f recoll.pro && chmod +w recoll.pro
cp recoll.pro.in recoll.pro
#echo QMAKE ${QMAKE}
${QMAKE} recoll.pro
if test $? != 0 ; then
AC_MSG_ERROR([Cannot use qmake to generate a Makefile. Maybe you need to
check the QTDIR and QMAKESPEC environment variables?])
fi
# is QTDIR set and do we actually need it ?
if test X$QTDIR = X ; then
QTDIRNEEDED=`grep INCPATH Makefile | grep = | grep QTDIR`
if test "X$QTDIRNEEDED" != "X" ; then
AC_MSG_ERROR([You need to set the QTDIR variable to point to the QT
installation. If there is no default mkspecs, you should also set QMAKESPEC])
fi
fi
cd ..
AC_CONFIG_FILES($QTGUI/recoll.pro)
##################### End QT detection
fi
### X11: this is needed for the session monitoring code (in recollindex -m)
# We disable it if without-gui has been specified, but it could be separated
if test "$withQT" = "yes" ; then
AC_PATH_XTRA
X_LIBX11=-lX11
else
X_LIBX11=""
fi
#echo X_CFLAGS "'$X_CFLAGS'" X_PRE_LIBS "'$X_PRE_LIBS'" X_LIBS \
# "'$X_LIBS'" X_LIBX11 "'$X_LIBX11'" X_EXTRA_LIBS "'$X_EXTRA_LIBS'"
# We have to expand prefix in here, couldn't find a way to do it inside
# the qt gui .pro file or Makefile. This just means that you can't change
# prefix at build time. It works at install time because we dont' use the
# qtgui Makefile
m_prefix=$prefix
test "X$m_prefix" = "XNONE" && m_prefix=/usr/local
m_datadir=${m_prefix}/share
QTRECOLL_DATADIR=${m_datadir}/recoll
AC_SUBST(X_CFLAGS)
AC_SUBST(X_PRE_LIBS)
AC_SUBST(X_LIBS)
AC_SUBST(X_LIBX11)
AC_SUBST(X_EXTRA_LIBS)
AC_SUBST(INCICONV)
AC_SUBST(LIBICONV)
AC_SUBST(LIBXAPIAN)
AC_SUBST(LIBFAM)
AC_SUBST(QMAKE)
AC_SUBST(QTGUI)
AC_SUBST(QTRECOLL_DATADIR)
AC_SUBST(XAPIANCXXFLAGS)
AC_SUBST(HAVE_MKDTEMP)
AC_SUBST(NOQTMAKE)
AC_SUBST(NOCMDLINE)
AC_CONFIG_FILES(mk/localdefs)
AC_CONFIG_FILES(recollinstall)
AC_CONFIG_FILES(Makefile)
AC_CONFIG_FILES(sampleconf/recoll.conf)
for d in bincimapmime index lib query
do
rm -f $d/alldeps.stamp
cp -f /dev/null $d/alldeps
done
(cd lib;test -f Makefile && chmod +w Makefile;sh mkMake)
AC_OUTPUT