mirror of
https://git.lyx.org/repos/lyx.git
synced 2024-11-27 03:36:39 +00:00
7da86a418e
git-svn-id: svn://svn.lyx.org/lyx/lyx-devel/trunk@1453 a592a061-630c-0410-9148-cb99ea01b6c8
642 lines
15 KiB
Plaintext
642 lines
15 KiB
Plaintext
## (C) 1998 Stephan Kulow
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## Modified by Tero Pulkkinen
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## Modified by Karl Nelson
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## Modified by makeLyXsigc.sh (Allan Rae)
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AC_INIT(slot.cc)
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AC_DEFUN(LYX_FIX_MAKEFILE_IN,[
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## modify Makefile.in if need be -- since we still use automake
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for dir in $srcdir $srcdir/macros ; do
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( cd $dir ;
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sed < Makefile.in > Makefile_tmp \
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-e 's/all: all-redirect/all: all-@USE_INCLUDED_SIGC@\
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all-yes: all-redirect\
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all-no:/' ;
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mv Makefile_tmp Makefile.in )
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done
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])
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LYX_FIX_MAKEFILE_IN
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define(AC_PUSH_LIB,[dnl
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ifdef([__LIB__],,[define([__LIB__],0)])dnl
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ac_save_LIBS[]__LIB__="$LIBS"
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define([__LIB__],builtin(eval,(__LIB__ + 1)))dnl
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LIBS="$1"])
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define(AC_POP_LIB,[dnl
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define([__LIB__],builtin(eval,(__LIB__ - 1)))dnl
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LIBS="$ac_save_LIBS[]__LIB__"])
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dnl
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dnl Source packaging numbers
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SIGC_MAJOR_VERSION=1
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SIGC_MINOR_VERSION=0
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SIGC_MICRO_VERSION=1
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dnl Library extension
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SIGC_RELEASE=1.0
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SIGC_VERSION=$SIGC_MAJOR_VERSION.$SIGC_MINOR_VERSION.$SIGC_MICRO_VERSION
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#
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# +1 : ? : +1 == new interface that does not break old one
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# +1 : ? : 0 == new interface that breaks old one
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# ? : ? : 0 == no new interfaces, but breaks apps
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# ? :+1 : ? == just some internal changes, nothing breaks but might work
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# better
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# CURRENT : REVISION : AGE
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LIBSIGC_SO_VERSION=0:0:0
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AC_SUBST(LIBSIGC_SO_VERSION, $LIBSIGC_SO_VERSION)
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AC_SUBST(SIGC_RELEASE, $SIGC_RELEASE)
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AC_SUBST(SIGC_VERSION)
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AC_DEFINE_UNQUOTED(SIGC_MAJOR_VERSION, $SIGC_MAJOR_VERSION)
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AC_DEFINE_UNQUOTED(SIGC_MINOR_VERSION, $SIGC_MINOR_VERSION)
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AC_DEFINE_UNQUOTED(SIGC_MICRO_VERSION, $SIGC_MICRO_VERSION)
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AC_CONFIG_AUX_DIR(../config)
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dnl For automake.
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VERSION=$SIGC_VERSION
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PACKAGE=libsigc++
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dnl Initialize automake stuff
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AM_INIT_AUTOMAKE($PACKAGE, $VERSION)
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dnl Specify a configuration file
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AM_CONFIG_HEADER(sigc++config.h)
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AC_ARG_WITH([included-libsigc],
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[ --without-included-libsigc
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Use the libsigc++ installed on the system
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Used when libsigc++ is bundled with applications],
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[sigc_use_included_libsigc=$withval],
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[sigc_use_included_libsigc=yes])
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if test x$sigc_use_included_libsigc = xno; then
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## just change the setting for the Makefile
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USE_INCLUDED_SIGC=no
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AC_SUBST(USE_INCLUDED_SIGC)
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else
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###
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### This else..fi goes till the end of the file!
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###
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USE_INCLUDED_SIGC=yes
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AC_SUBST(USE_INCLUDED_SIGC)
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AC_ARG_ENABLE(threads,
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[ --enable-threads enable support threading.],
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enable_threads=$enableval,enable_threads="no")
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AC_ARG_ENABLE(checks,
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[ --disable-checks disables unnecessary tests needed for bug reports.],
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enable_checks=$enableval,enable_checks="yes"
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)
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AC_PROG_CC
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AC_PROG_CPP
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AM_DISABLE_SHARED
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dnl Instruct build of dll for cygwin (libtool 1.3)
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dnl Exports screw up badly on libtool 1.3, backing off to 1.2f
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dnl A C_LIBTOOL_WIN32_DLL
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dnl libtool does all checks with $CC, not with $CXX
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dnl maybe this should be fixed in libtool, not here
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AM_PROG_LIBTOOL
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dnl On FreeBSD 3.0 (and perhaps some other systems) GNU m4 is
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dnl called `gm4' where `m4' is the system's own m4.
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AC_CHECK_PROGS(M4, gm4 m4, m4)
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AC_PROG_CXX
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AC_LANG_CPLUSPLUS
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dnl Checking if linker supports global constructors
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dnl This is largely information for me if someone files a bug report
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if test "X$enable_checks" = "Xyes"; then
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AC_MSG_CHECKING([if linker supports global constructors])
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cat > mylib.$ac_ext <<EOF
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#include <stdio.h>
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struct A
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{A() {printf("PASS\n");}
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};
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A a;
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int foo()
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{return 1;}
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EOF
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cat > mytest.$ac_ext <<EOF
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#include <stdio.h>
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extern int foo();
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int main(int argc,char **argv)
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{
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int i=foo();
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if (i!=1) printf("FAIL\n");
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}
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EOF
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sh libtool --mode=compile $CXX -c mylib.$ac_ext >&5
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sh libtool --mode=link $CXX -o libtest.la -rpath / -version-info 0 mylib.lo >&5
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$CXX -c $CFLAGS $CPPFLAGS mytest.$ac_ext >&5
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sh libtool --mode=link $CXX -o mytest mytest.o libtest.la >&5 2>/dev/null
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if test -x mytest; then
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myresult=`./mytest`
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if test "X$myresult" = "XPASS"; then
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AC_MSG_RESULT(yes)
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else
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AC_MSG_RESULT(no)
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AC_MSG_WARN([
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===================================================================
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WARNING: This platform lacks support of construction of global
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objects in shared librarys. Although not required by this library,
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this is a serious problem for building C++ libraries. You will not
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be able to use any shared libraries that contain global objects with
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contructors.
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See ftp://rtfm.mit.edu/pub/usenet/news.answers/g++-FAQ/plain
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for details about this problem. Also for possible solutions
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http://www.informatik.uni-frankfurt.de/~fp/Tcl/tcl-c++/tcl-c++.html
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===================================================================
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])
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fi
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else
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AC_MSG_RESULT(unknown)
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fi
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rm -f mylib.* mytest.* libtest.la .libs/libtest* mytest .libs/mytest >&5
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fi
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AC_MSG_CHECKING(if C++ compiler uses std namespace )
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AC_TRY_COMPILE(
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[
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#include <iostream>
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namespace std{ void kludge(); }
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using namespace std;
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],[
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cout << "test" << endl;
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],[
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ac_std_namespace=yes
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AC_MSG_RESULT([yes])
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],[
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ac_std_namespace=maybe
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])
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if test "x$ac_std_namespace" = xmaybe ; then
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AC_TRY_COMPILE(
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[
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#include <iostream.h>
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namespace std{ void kludge(); }
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using namespace std;
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],[
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cout << "test" << endl;
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],[
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ac_std_namespace=yes
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AC_MSG_RESULT([yes])
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AC_MSG_WARN([
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===================================================================
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WARNING: This compiler platform does not have the iostream library
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in the std namespace. This presents a problem for writing portable
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STL code. To run the demos, you will need to place a file with the
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following in a file called "iostream" in your include directory.
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---------------------------iostream--------------------------------
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#ifndef IOSTREAM_KLUDGE
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#define IOSTREAM_KLUDGE
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#include <iostream.h>
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namespace std { void iostream_kludge(); };
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#endif
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===================================================================
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])
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],[
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ac_std_namespace=no
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AC_MSG_RESULT([no])
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AC_MSG_WARN([
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===================================================================
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WARNING: This compiler platform does not support iostream
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or namespaces. You will not be able to run the demos as they
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use STL. This does not affect use of the library, only the demos.
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===================================================================
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])
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])
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fi
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dnl
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dnl C++ compiler feature check start here
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AC_MSG_CHECKING(if C++ compiler supports bool (required))
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AC_TRY_COMPILE(
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[
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],[
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bool b=true;
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bool b1=false;
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],[
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ac_bool=yes
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AC_MSG_RESULT([$ac_bool])
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],[
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config_error=yes
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AC_MSG_RESULT([$ac_bool])
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AC_WARN(bool type is not supported by your compiler)
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])
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AC_MSG_CHECKING([if C++ compiler supports const_cast<> (required)])
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AC_TRY_COMPILE(
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[
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class foo;
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],[
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const foo *c=0;
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foo *c1=const_cast<foo*>(c);
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],[
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ac_const_cast=yes
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AC_MSG_RESULT([$ac_const_cast])
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],[
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AC_MSG_RESULT([$ac_const_cast])
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AC_WARN(C++ compiler const_cast<> does not work)
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config_error=yes
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])
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# Member function templates
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AC_MSG_CHECKING(if C++ compiler supports member function templates)
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AC_TRY_COMPILE(
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[
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class foo
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{
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public:
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template <class T> void method(T t);
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};
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template <class T> void foo::method(T t) {t = 0;}
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],[
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],[
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ac_member_func_templates=yes
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AC_DEFINE(SIGC_CXX_MEMBER_FUNC_TEMPLATES)
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AC_MSG_RESULT([$ac_member_func_templates])
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],[
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ac_member_func_templates=no
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AC_MSG_RESULT([$ac_member_func_templates])
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config_error=yes
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AC_MSG_WARN([Test for member templates failed. This disables some methods that requires member template support. If your compiler should support member templates, see config.log to figure out why the test failed.])
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])
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# Member class templates
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AC_MSG_CHECKING(if C++ compiler supports member class templates)
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AC_TRY_COMPILE(
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[
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struct S
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{
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template <class T> struct A {};
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template <class T> struct B {};
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};
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],[
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],[
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ac_member_class_templates=yes
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AC_DEFINE(SIGC_CXX_MEMBER_CLASS_TEMPLATES)
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AC_MSG_RESULT([$ac_member_class_templates])
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],[
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ac_member_class_templates=no
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AC_MSG_RESULT([$ac_member_class_templates])
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AC_MSG_WARN([Test for member templates failed. This disables some methods that requires member template support. If your compiler should support member templates, see config.log to figure out why the test failed.])
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])
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# Mutable
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AC_MSG_CHECKING(if C++ compiler supports mutable)
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AC_TRY_COMPILE(
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[
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class k {
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mutable char *c;
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public:
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void foo() const { c=0; }
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};
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],[
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],[
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ac_cxx_mutable=yes
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AC_DEFINE(SIGC_CXX_MUTABLE)
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],[
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ac_cxx_mutable=no
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])
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AC_MSG_RESULT([$ac_cxx_mutable])
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# Partial Specialization
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AC_MSG_CHECKING([if C++ compiler supports partial specialization(required)])
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AC_TRY_COMPILE(
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[
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template<class T, class K>
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class k {
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public:
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};
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template<class T> class k<void,T> { };
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],[
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k<float, float> b;
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k<void,void> a;
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],[
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ac_cxx_partial_specialization=yes
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AC_MSG_RESULT([$ac_cxx_partial_specialization])
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AC_DEFINE(SIGC_CXX_PARTIAL_SPEC)
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],[
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config_error=yes
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ac_cxx_partial_specialization=no
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AC_MSG_RESULT([$ac_cxx_partial_specialization])
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AC_MSG_WARN([Partial specialization is needed for signal templates.])
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])
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AC_MSG_CHECKING(if C++ compiler supports name spaces)
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AC_TRY_COMPILE(
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[
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namespace Check
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{
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int i;
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}
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],[
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Check::i=1;
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],[
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ac_cxx_namespaces=yes
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AC_MSG_RESULT([$ac_cxx_namespaces])
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AC_DEFINE(SIGC_CXX_NAMESPACES)
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],[
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ac_cxx_namespaces=no
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AC_MSG_RESULT([$ac_cxx_namespaces])
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AC_MSG_WARN([Without namespaces all classes will be global.])
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])
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AC_MSG_CHECKING(if C++ compiler supports friend template)
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AC_TRY_COMPILE(
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[
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struct A
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{
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template <class T>
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friend T* gen();
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};
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],[
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],[
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ac_cxx_friend_templates=yes
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AC_MSG_RESULT([$ac_cxx_friend_templates])
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AC_DEFINE(SIGC_CXX_FRIEND_TEMPLATES)
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],[
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ac_cxx_friend_templates=no
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AC_MSG_RESULT([$ac_cxx_friend_templates])
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AC_MSG_WARN([Access to dynamic will not be controlled.])
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])
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AC_MSG_CHECKING(if C++ compiler has intrinsic constructors)
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AC_TRY_COMPILE(
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[
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template<class T>
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struct A
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{ T t;
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A(): t() {}
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};
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A<int> i;
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],[
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],[
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AC_DEFINE(SIGC_CXX_INT_CTOR)
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ac_cxx_tmpl_intctor=yes
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],[
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ac_cxx_tmpl_intctor=no
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])
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AC_MSG_RESULT([$ac_cxx_tmpl_intctor])
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AC_MSG_CHECKING(if C++ compiler uses template copy ctor)
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AC_TRY_COMPILE(
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[
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template <class T>
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struct A
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{
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A(const A&) {}
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template <class T1>
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A(const T1&) {}
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};
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],[
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],[
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ac_cxx_template_cctor=no
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],[
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AC_DEFINE(SIGC_CXX_TEMPLATE_CCTOR)
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ac_cxx_template_cctor=yes
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])
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AC_MSG_RESULT([$ac_cxx_template_cctor])
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AC_MSG_CHECKING(if C++ compiler allows void returns)
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AC_TRY_COMPILE(
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[
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void g(int *p)
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{}
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void h(int *p)
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{return g(p);}
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],[
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],[
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ac_cxx_void_return=yes
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AC_DEFINE(SIGC_CXX_VOID_RETURN)
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],[
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ac_cxx_void_return=no
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])
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AC_MSG_RESULT([$ac_cxx_void_return])
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AC_MSG_CHECKING(if C++ compiler allows specialization of references)
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AC_TRY_COMPILE(
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[
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struct A {};
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struct B {};
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template <class T>
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struct P
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{
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typedef A* ptr;
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};
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template <class T>
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struct P<T&>
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{
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typedef B* ptr;
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};
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],[
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A* a;
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B* b;
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P<int>::ptr p=a;
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P<int&>::ptr q=b;
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],[
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ac_cxx_specialize_references=yes
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AC_DEFINE(SIGC_CXX_SPECIALIZE_REFERENCES)
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],[
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ac_cxx_specialize_references=no
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])
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AC_MSG_RESULT([$ac_cxx_specialize_references])
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dnl unused at the moment, disabled
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dnl mirko, 99/1/15
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dnl AC_MSG_CHECKING(if C++ compiler supports qualification of return types with templates)
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dnl AC_TRY_COMPILE(
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dnl [
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dnl template<class T>
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dnl class foo {
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dnl public:
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dnl typedef int iterator;
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dnl iterator begin();
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dnl };
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dnl template<class T> foo<T>::iterator foo<T>::begin() { }
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dnl ],[
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dnl foo<int> f;
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dnl f.begin();
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dnl ],[
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dnl ac_template_qualification=yes
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dnl ],[
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dnl AC_DEFINE(SIGC_CXX_NO_TEMPLATE_QUALIFICATION)
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dnl ac_template_qualification=no
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dnl ])
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dnl AC_MSG_RESULT([$ac_template_qualification])
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dnl unused at the moment, disabled
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dnl mirko, 99/1/15
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dnl AC_MSG_CHECKING(if C++ compiler supports static data inside templates)
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dnl AC_TRY_LINK(
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dnl [
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dnl template<class T>
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dnl class foo { public: static T a; };
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dnl template<class T>
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dnl static T foo<T>::a=0;
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dnl ],[
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dnl foo<int> b;
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dnl ],[
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dnl ac_static_templates=yes
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dnl ],[
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dnl AC_DEFINE(SIGC_CXX_NO_STATIC_TEMPLATES)
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dnl ac_static_templates=no
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dnl ])
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dnl AC_MSG_RESULT([$ac_static_templates])
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AC_MSG_CHECKING(if C++ environment provides all required features)
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if test "x$config_error" = xyes ; then
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AC_MSG_RESULT([no])
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AC_MSG_ERROR([Your compiler is not powerful enough to compile libsigc++. If it should be, see config.log for more information of why it failed.])
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fi
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AC_MSG_RESULT([yes])
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dnl
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dnl PTHREADS
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dnl
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AC_CHECK_HEADER(pthread.h,,[enable_threads="no"])
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if test "x$enable_threads" = "xyes" ; then
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|
enable_threads="no"
|
|
AC_CHECK_LIB(pthread,pthread_self,[enable_threads="yes";THREAD_LIB="-lpthread"])
|
|
AC_CHECK_LIB(cma,pthread_self,[enable_threads="yes";THREAD_LIB="-lcma"])
|
|
AC_PUSH_LIB($THREAD_LIB)
|
|
AC_CHECK_FUNC(pthread_keycreate,[AC_DEFINE(SIGC_PTHREAD_DCE)])
|
|
AC_POP_LIB()
|
|
AC_SUBST(THREAD_LIB)
|
|
fi
|
|
|
|
AC_MSG_CHECKING(if should compile with pthreads)
|
|
if test "x$enable_threads" = "xyes" ; then
|
|
AC_DEFINE(SIGC_PTHREADS)
|
|
AC_MSG_RESULT([yes])
|
|
AC_MSG_CHECKING([sizes of threading elements])
|
|
|
|
# Check for size of threading elements so that we don't expose
|
|
# the implementation
|
|
AC_TRY_RUN([
|
|
|
|
#include <stdio.h>
|
|
#include <pthread.h>
|
|
|
|
#ifdef SIGC_PTHREAD_DCE
|
|
typedef pthread_condattr_t CondAttr;
|
|
typedef pthread_mutexattr_t MutexAttr;
|
|
typedef pthread_attr_t ThreadAttr;
|
|
#else
|
|
typedef pthread_condattr_t* CondAttr;
|
|
typedef pthread_mutexattr_t* MutexAttr;
|
|
typedef pthread_attr_t* ThreadAttr;
|
|
#endif
|
|
typedef pthread_mutex_t MutexImpl;
|
|
typedef pthread_cond_t CondImpl;
|
|
typedef pthread_key_t KeyImpl;
|
|
typedef pthread_t ThreadImpl;
|
|
|
|
int main()
|
|
{
|
|
FILE *fptr;
|
|
fptr=fopen("ac_thread.sh","w");
|
|
fprintf(fptr,"ac_thread_cond_attr_size=%d\n",sizeof(CondAttr));
|
|
fprintf(fptr,"ac_thread_cond_impl_size=%d\n",sizeof(CondImpl));
|
|
fprintf(fptr,"ac_thread_mutex_attr_size=%d\n",sizeof(MutexAttr));
|
|
fprintf(fptr,"ac_thread_mutex_impl_size=%d\n",sizeof(MutexImpl));
|
|
fprintf(fptr,"ac_thread_thread_attr_size=%d\n",sizeof(ThreadAttr));
|
|
fprintf(fptr,"ac_thread_thread_impl_size=%d\n",sizeof(ThreadImpl));
|
|
fprintf(fptr,"ac_thread_key_impl_size=%d\n",sizeof(KeyImpl));
|
|
return 0;
|
|
}
|
|
],[
|
|
. ./ac_thread.sh
|
|
rm ac_thread.sh
|
|
AC_MSG_RESULT(found)
|
|
],[
|
|
AC_MSG_RESULT(failed)
|
|
AC_ERROR(
|
|
[Could not compile a program with threads, please see config.log for details.
|
|
])
|
|
],
|
|
[
|
|
AC_MSG_RESULT(cross)
|
|
if test ! -f ac_thread.h; then
|
|
echo '
|
|
ac_thread_cond_attr_size=
|
|
ac_thread_cond_impl_size=
|
|
ac_thread_mutex_attr_size=
|
|
ac_thread_mutex_impl_size=
|
|
ac_thread_thread_attr_size=
|
|
ac_thread_thread_impl_size=
|
|
ac_thread_key_impl_size=
|
|
' > ./ac_thread.sh
|
|
AC_MSG_ERROR(
|
|
[You are attempting a cross compile, but the necessary information regarding
|
|
your thread library is not available. Please fill out the ac_thread.sh file.
|
|
])
|
|
else
|
|
. ./ac_thread.sh
|
|
fi
|
|
])
|
|
AC_DEFINE_UNQUOTED(SIGC_PTHREAD_COND_ATTR,$ac_thread_cond_attr_size)
|
|
AC_DEFINE_UNQUOTED(SIGC_PTHREAD_COND_IMPL,$ac_thread_cond_impl_size)
|
|
AC_DEFINE_UNQUOTED(SIGC_PTHREAD_MUTEX_ATTR,$ac_thread_mutex_attr_size)
|
|
AC_DEFINE_UNQUOTED(SIGC_PTHREAD_MUTEX_IMPL,$ac_thread_mutex_impl_size)
|
|
AC_DEFINE_UNQUOTED(SIGC_PTHREAD_THREAD_ATTR,$ac_thread_thread_attr_size)
|
|
AC_DEFINE_UNQUOTED(SIGC_PTHREAD_THREAD_IMPL,$ac_thread_thread_impl_size)
|
|
AC_DEFINE_UNQUOTED(SIGC_PTHREAD_KEY_IMPL,$ac_thread_key_impl_size)
|
|
else
|
|
AC_MSG_RESULT([no])
|
|
fi
|
|
|
|
|
|
###
|
|
### This is the end of the massive if..then..else..fi
|
|
###
|
|
fi
|
|
|
|
AC_OUTPUT([Makefile
|
|
sigc-config
|
|
macros/Makefile
|
|
],[chmod a+x sigc-config])
|