gold/configure.ac - chromiumos/third_party/binutils - Git at Google

 dnl Process this file with autoconf to produce a configure script.

 AC_PREREQ(2.59)

 AC_INIT(gold, 0.1)
 AC_CONFIG_SRCDIR(gold.cc)

 AC_CANONICAL_TARGET

 AM_INIT_AUTOMAKE([no-dist parallel-tests])

 AM_CONFIG_HEADER(config.h:config.in)

 AC_ARG_WITH(sysroot,
 [  --with-sysroot[=DIR]    search for usr/lib et al within DIR],
 [sysroot=$withval], [sysroot=no])

 if test "$sysroot" = "yes"; then
   sysroot='${exec_prefix}/${target_alias}/sys-root'
 elif test "$sysroot" = "no"; then
   sysroot=
 fi

 sysroot_relocatable=0
 if test -n "$sysroot"; then
   case "sysroot" in
     "${prefix}" | "${prefix}/"* | \
     "${exec_prefix}" | "${exec_prefix}/"* | \
     '${prefix}' | '${prefix}/'*| \
     '${exec_prefix}' | '${exec_prefix}/'*)
       sysroot_relocatable=1
       ;;
   esac
 fi

 AC_DEFINE_UNQUOTED(TARGET_SYSTEM_ROOT, "$sysroot",
   [System root for target files])
 AC_DEFINE_UNQUOTED(TARGET_SYSTEM_ROOT_RELOCATABLE, $sysroot_relocatable,
   [Whether the system root can be relocated])

 dnl "install_as_default" is true if the linker to be installed as the
 dnl default linker, ld.
 dnl "installed_linker" is the installed gold linker name.

 default_ld=
 AC_ARG_ENABLE(ld,
 [[  --enable-ld[=ARG]     build ld [ARG={default,yes,no}]]],
 [case "${enableval}" in
   default)
     default_ld=ld.bfd
     ;;
 esac])

 AC_ARG_ENABLE(gold,
 [[  --enable-gold[=ARG]     build gold [ARG={default,yes,no}]]],
 [case "${enableval}" in
  yes|default)
    if test x${default_ld} = x; then
      install_as_default=yes
    fi
    installed_linker=ld.gold
    ;;
  no)
    ;;
  *)
    AC_MSG_ERROR([invalid --enable-gold argument])
    ;;
  esac],
 [install_as_default=no
  installed_linker=ld.gold])
 AC_SUBST(install_as_default)
 AC_SUBST(installed_linker)

 dnl For now threads are a configure time option.
 AC_ARG_ENABLE([threads],
 [  --enable-threads        multi-threaded linking],
 [case "${enableval}" in
   yes | "") threads=yes ;;
   no) threads=no ;;
   *) threads=yes ;;
  esac],
 [threads=no])
 if test "$threads" = "yes"; then
   AC_DEFINE(ENABLE_THREADS, 1,
 	    [Define to do multi-threaded linking])
 fi
 AM_CONDITIONAL(THREADS, test "$threads" = "yes")

 AC_ARG_ENABLE([plugins],
 [  --enable-plugins        linker plugins],
 [case "${enableval}" in
   yes | "") plugins=yes ;;
   no) plugins=no ;;
   *) plugins=yes ;;
  esac],
 [plugins=no])
 if test "$plugins" = "yes"; then
   AC_DEFINE(ENABLE_PLUGINS, 1,
 	    [Define to enable linker plugins])
 fi
 AM_CONDITIONAL(PLUGINS, test "$plugins" = "yes")

 AC_ARG_ENABLE([targets],
 [  --enable-targets        alternative target configurations],
 [case "${enableval}" in
   yes | "")
     AC_MSG_ERROR([--enable-targets option must specify target names or 'all'])
     ;;
   no)
     enable_targets=
     ;;
   *)
     enable_targets=$enableval
     ;;
 esac],
 [# For now, enable all targets by default
  enable_targets=all
 ])

 # Canonicalize the enabled targets.
 if test -n "$enable_targets"; then
   for targ in `echo $enable_targets | sed -e 's/,/ /g'`; do
     result=`$ac_config_sub $targ 2>/dev/null`
     if test -n "$result"; then
       canon_targets="$canon_targets $result"
     else
       # Permit unrecognized target names, like "all".
       canon_targets="$canon_targets $targ"
     fi
   done
 fi

 # See which specific instantiations we need.
 targetobjs=
 all_targets=
 default_machine=
 default_size=
 default_big_endian=
 default_osabi=ELFOSABI_NONE
 targ_32_little=
 targ_32_big=
 targ_64_little=
 targ_64_big=
 for targ in $target $canon_targets; do
   if test "$targ" = "all"; then
     targ_32_little=yes
     targ_32_big=yes
     targ_64_little=yes
     targ_64_big=yes
     all_targets=yes
   else
     . ${srcdir}/configure.tgt

     if test "$targ_obj" = "UNKNOWN"; then
       AC_MSG_ERROR("unsupported target $targ")
     else
       targetobjs="$targetobjs ${targ_obj}.\$(OBJEXT)"
       if test "$targ_extra_obj" != ""; then
         targetobjs="$targetobjs ${targ_extra_obj}.\$(OBJEXT)"
       fi
       if test "$targ_size" = "32" -o "$targ_extra_size" = "32"; then
 	  if test "$targ_big_endian" = "true" \
 	      -o "$targ_extra_big_endian" = "true"; then
 	      targ_32_big=yes
 	  fi
 	  if test "$targ_big_endian" = "false" \
 	      -o "$targ_extra_big_endian" = "false"; then
 	      targ_32_little=yes
 	  fi
       fi
       if test "$targ_size" = "64" -o "$targ_extra_size" = "64"; then
 	  if test "$targ_big_endian" = "true" \
 	      -o "$targ_extra_big_endian" = "true"; then
 	      targ_64_big=yes
 	  fi
 	  if test "$targ_big_endian" = "false" \
 	      -o "$targ_extra_big_endian" = "false"; then
 	      targ_64_little=yes
 	  fi
       fi

       if test "$target" = "$targ"; then
         default_machine=$targ_machine
 	default_size=$targ_size
 	default_big_endian=$targ_big_endian
 	default_osabi=$targ_osabi

 	AM_CONDITIONAL(DEFAULT_TARGET_ARM, test "$targ_obj" = "arm")
 	AM_CONDITIONAL(DEFAULT_TARGET_I386, test "$targ_obj" = "i386")
 	AM_CONDITIONAL(DEFAULT_TARGET_POWERPC, test "$targ_obj" = "powerpc")
 	AM_CONDITIONAL(DEFAULT_TARGET_SPARC, test "$targ_obj" = "sparc")
 	AM_CONDITIONAL(DEFAULT_TARGET_X86_64, test "$targ_obj" = "x86_64")
       fi
     fi
   fi
 done

 # Remove any duplicates.
 to=""
 for t in $targetobjs; do
   case " $to " in
   *" $t "*) ;;
   *) to="$to $t" ;;
   esac
 done
 targetobjs=$to

 if test -n "$targ_32_little"; then
   AC_DEFINE(HAVE_TARGET_32_LITTLE, 1,
 	      [Define to support 32-bit little-endian targets])
 fi
 if test -n "$targ_32_big"; then
   AC_DEFINE(HAVE_TARGET_32_BIG, 1,
 	      [Define to support 32-bit big-endian targets])
 fi
 if test -n "$targ_64_little"; then
   AC_DEFINE(HAVE_TARGET_64_LITTLE, 1,
 	      [Define to support 64-bit little-endian targets])
 fi
 if test -n "$targ_64_big"; then
   AC_DEFINE(HAVE_TARGET_64_BIG, 1,
 	      [Define to support 64-bit big-endian targets])
 fi

 if test -n "$all_targets"; then
   TARGETOBJS='$(ALL_TARGETOBJS)'
 else
   TARGETOBJS="$targetobjs"
 fi
 AC_SUBST(TARGETOBJS)

 AC_DEFINE_UNQUOTED(GOLD_DEFAULT_MACHINE, $default_machine,
 		   [Default machine code])
 AC_DEFINE_UNQUOTED(GOLD_DEFAULT_SIZE, $default_size,
 		   [Default size (32 or 64)])
 AC_DEFINE_UNQUOTED(GOLD_DEFAULT_BIG_ENDIAN, $default_big_endian,
 		   [Default big endian (true or false)])
 AC_DEFINE_UNQUOTED(GOLD_DEFAULT_OSABI, $default_osabi,
 		   [Default OSABI code])

 AC_PROG_CC
 AC_PROG_CXX
 AC_PROG_YACC
 AC_PROG_RANLIB
 AC_PROG_INSTALL
 AC_PROG_LN_S

 AC_GNU_SOURCE

 ZW_GNU_GETTEXT_SISTER_DIR
 AM_PO_SUBDIRS

 AC_C_BIGENDIAN

 AC_EXEEXT

 AM_CONDITIONAL(NATIVE_LINKER,
   test "x$target_alias" = "x" -o "x$host_alias" = "x$target_alias")
 AM_CONDITIONAL(GCC, test "$GCC" = yes)

 AM_CONDITIONAL(NATIVE_OR_CROSS_LINKER,
   test "x$target_alias" = "x" -o "x$host_alias" = "x$target_alias" -o "x$host_alias" = "x$build_alias")

 dnl Some architectures do not support taking pointers of functions
 dnl defined in shared libraries except in -fPIC mode.  We need to
 dnl tell the unittest framework if we're compiling for one of those
 dnl targets, so it doesn't try to run the tests that do that.
 AM_CONDITIONAL(FN_PTRS_IN_SO_WITHOUT_PIC, [
   case $target_cpu in
     i?86) true;;
     x86_64) false;;
     sparc64) false;;
     *) true;;
   esac])

 dnl Test for gcc 4.1 or later.  Full support for -mcmodel=medium is
 dnl only available in gcc 4.1.
 AC_CACHE_CHECK([for gcc >= 4.1], [gold_cv_prog_gcc41],
 [AC_COMPILE_IFELSE([
 #if !defined __GNUC__
 error
 #elif __GNUC__ < 4 || (__GNUC__ == 4 && __GNUC_MINOR__ < 1)
 error
 #endif
 ], [gold_cv_prog_gcc41=yes], [gold_cv_prog_gcc41=no])])

 dnl Whether we can test -mcmodel=medium.
 AM_CONDITIONAL(MCMODEL_MEDIUM,
 [test "$target_cpu" = "x86_64" -a "$gold_cv_prog_gcc41" = "yes"])

 dnl Test for __thread support.
 AC_CACHE_CHECK([for thread support], [gold_cv_c_thread],
 [AC_COMPILE_IFELSE([__thread int i = 1;],
 [gold_cv_c_thread=yes], [gold_cv_c_thread=no])])

 AM_CONDITIONAL(TLS, test "$gold_cv_c_thread" = "yes")

 dnl On GNU/Linux TLS in static programs only works when using glibc
 dnl 2.4 or later.
 AC_CACHE_CHECK([for glibc >= 2.4], [gold_cv_lib_glibc24],
 [AC_COMPILE_IFELSE([
 #include <features.h>
 #if !defined __GLIBC__
 error
 #elif __GLIBC__ < 2 || (__GLIBC__ == 2 && __GLIBC_MINOR__ < 4)
 error
 #endif
 ], [gold_cv_lib_glibc24=yes], [gold_cv_lib_glibc24=no])])

 AM_CONDITIONAL(STATIC_TLS, test "$gold_cv_lib_glibc24" = "yes")

 dnl Test for #pragma omp threadprivate
 AC_CACHE_CHECK([for omp support], [gold_cv_c_threadprivate],
 [save_CFLAGS="$CFLAGS"
 CFLAGS="$CFLAGS -fopenmp"
 AC_COMPILE_IFELSE([
 #include <omp.h>
 int i;
 #pragma omp threadprivate (i)
 ], [gold_cv_c_threadprivate=yes], [gold_cv_c_threadprivate=no])
 CFLAGS="$save_CFLAGS"])
 if test "$gold_cv_c_threadprivate" = "yes"; then
   AC_DEFINE(HAVE_OMP_SUPPORT, 1,
 	    [Define if compiler supports #pragma omp threadprivate])
 fi
 AM_CONDITIONAL(OMP_SUPPORT, test "$gold_cv_c_threadprivate" = "yes")

 dnl Test for the -ftls-dialect=gnu2 option.
 save_CFLAGS="$CFLAGS"
 CFLAGS="$CFLAGS -mtls-dialect=gnu2"
 AC_COMPILE_IFELSE([int i;], [have_tls_gnu2=yes], [have_tls_gnu2=no])
 CFLAGS="$save_CFLAGS"
 AM_CONDITIONAL(TLS_GNU2_DIALECT, test "$have_tls_gnu2" = "yes")

 dnl On GNU/Linux TLS descriptors are supported by the dynamic loader
 dnl only with glibc 2.9 or later.
 AC_CACHE_CHECK([for glibc >= 2.9], [gold_cv_lib_glibc29],
 [AC_COMPILE_IFELSE([
 #include <features.h>
 #if !defined __GLIBC__
 error
 #elif __GLIBC__ < 2 || (__GLIBC__ == 2 && __GLIBC_MINOR__ < 9)
 error
 #endif
 ], [gold_cv_lib_glibc29=yes], [gold_cv_lib_glibc29=no])])

 AM_CONDITIONAL(TLS_DESCRIPTORS, test "$gold_cv_lib_glibc29" = "yes")

 dnl Check whether the compiler supports constructor priorities in
 dnl attributes, which were added in gcc 4.3.
 AC_CACHE_CHECK([for constructor priorities], [gold_cv_c_conprio],
 [AC_COMPILE_IFELSE([void f() __attribute__ ((constructor (1)));],
 [gold_cv_c_conprio=yes], [gold_cv_c_conprio=no])])

 AM_CONDITIONAL(CONSTRUCTOR_PRIORITY, test "$gold_cv_c_conprio" = "yes")

 dnl Test for the -frandom-seed option.
 AC_CACHE_CHECK([for -frandom-seed support], [gold_cv_c_random_seed],
 [save_CFLAGS="$CFLAGS"
 CFLAGS="$CFLAGS -frandom-seed=foo"
 AC_COMPILE_IFELSE([int i;], [gold_cv_c_random_seed=yes],
 [gold_cv_c_random_seed=no])
 CFLAGS="$save_CFLAGS"])
 if test "$gold_cv_c_random_seed" = "yes"; then
   # In Makefile, '$@' will be expanded to be the name of the file
   # being built, providing a unique seed for each file.
   RANDOM_SEED_CFLAGS=-frandom-seed=\$@
 fi
 AC_SUBST(RANDOM_SEED_CFLAGS)

 dnl On GNU/Linux ifunc is supported by the dynamic linker in glibc
 dnl 2.11 or later, and by binutils 2.20.1 or later.
 AC_CACHE_CHECK([for glibc >= 2.11], [gold_cv_lib_glibc2_11],
 [AC_COMPILE_IFELSE([
 #include <features.h>
 #if !defined __GLIBC__
 error
 #elif __GLIBC__ < 2 || (__GLIBC__ == 2 && __GLIBC_MINOR__ < 11)
 error
 #endif
 __asm__(".type foo, %gnu_indirect_function");
 ], [gold_cv_lib_glibc2_11=yes], [gold_cv_lib_glibc2_11=no])])

 AM_CONDITIONAL(IFUNC, test "$gold_cv_lib_glibc2_11" = "yes")

 AM_BINUTILS_WARNINGS

 WARN_CXXFLAGS=`echo ${WARN_CFLAGS} | sed -e 's/-Wstrict-prototypes//' -e 's/-Wmissing-prototypes//' -e 's/-Wshadow//'`
 AC_SUBST(WARN_CXXFLAGS)

 dnl Force support for large files by default.  This may need to be
 dnl host dependent.  If build == host, we can check getconf LFS_CFLAGS.
 LFS_CFLAGS="-D_LARGEFILE_SOURCE -D_FILE_OFFSET_BITS=64"
 AC_SUBST(LFS_CFLAGS)

 AC_CHECK_FUNCS(chsize)
 AC_REPLACE_FUNCS(pread ftruncate mremap ffsll)

 # Link in zlib if we can.  This allows us to write compressed sections.
 AC_SEARCH_LIBS(zlibVersion, z, [AC_CHECK_HEADERS(zlib.h)])
 AM_CONDITIONAL(HAVE_ZLIB, test "$ac_cv_search_zlibVersion" != "no")

 dnl We have to check these in C, not C++, because autoconf generates
 dnl tests which have no type information, and current glibc provides
 dnl multiple declarations of functions like basename when compiling
 dnl with C++.
 AC_CHECK_DECLS([basename, ffs, asprintf, vasprintf, snprintf, vsnprintf, strverscmp])

 AC_LANG_PUSH(C++)

 AC_CHECK_HEADERS(tr1/unordered_set tr1/unordered_map)
 AC_CHECK_HEADERS(ext/hash_map ext/hash_set)
 AC_CHECK_HEADERS(byteswap.h)
 AC_CHECK_FUNCS(mallinfo posix_fallocate readv sysconf times)
 AC_CHECK_DECLS([basename, ffs, asprintf, vasprintf, snprintf, vsnprintf, strverscmp, strndup, memmem])

 # Use of ::std::tr1::unordered_map::rehash causes undefined symbols
 # at link time with some versions of GCC.
 AC_CACHE_CHECK([whether ::std::tr1::unordered_map::rehash is usable.],
 [gold_cv_unordered_map_rehash],
 [AC_LINK_IFELSE([AC_LANG_PROGRAM([[
 #include <tr1/unordered_map>
 void bar() { ::std::tr1::unordered_map<int, int> x; x.rehash(10); }
 ]])], [gold_cv_unordered_map_rehash=yes], [gold_cv_unordered_map_rehash=no])])
 if test "$gold_cv_unordered_map_rehash" = "yes"; then
   AC_DEFINE(HAVE_TR1_UNORDERED_MAP_REHASH, 1,
 	    [Define if ::std::tr1::unordered_map::rehash is usable])
 fi

 # gcc 4.3.0 doesn't recognize the printf attribute on a template
 # function.  Check for that.  This is gcc bug 35546.  This test can
 # probably be removed after the bug has been fixed for a while.
 AC_CACHE_CHECK([whether we can use attributes with template functions],
 [gold_cv_template_attribute],
 [AC_COMPILE_IFELSE([
 template<typename T> extern void foo(const char*, ...)
   __attribute__ ((__format__ (__printf__, 1, 2)));
 template<typename T> void foo(const char* format, ...) {}
 void bar() { foo<int>("%s\n", "foo"); }
 ], [gold_cv_template_attribute=yes], [gold_cv_template_attribute=no])])
 if test "$gold_cv_template_attribute" = "yes"; then
   AC_DEFINE(HAVE_TEMPLATE_ATTRIBUTES, 1,
 	    [Define if attributes work on C++ templates])
 fi

 dnl Check if the system has struct stat::st_mtim.
 AC_CACHE_CHECK([for struct stat::st_mtim.],
 [gold_cv_stat_st_mtim],
 [AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[
 #include <sys/stat.h>
 long bar() { struct stat s; return (long)(s.st_mtim.tv_sec + s.st_mtim.tv_sec);}
 ]])], [gold_cv_stat_st_mtim=yes], [gold_cv_stat_st_mtim=no])])
 if test "$gold_cv_stat_st_mtim" = "yes"; then
   AC_DEFINE(HAVE_STAT_ST_MTIM, 1,
 	    [Define if struct stat has a field st_mtim with timespec for mtime])
 fi

 AC_LANG_POP(C++)

 AM_MAINTAINER_MODE

 AC_OUTPUT(Makefile testsuite/Makefile po/Makefile.in:po/Make-in)
	dnl Process this file with autoconf to produce a configure script.

	AC_PREREQ(2.59)

	AC_INIT(gold, 0.1)
	AC_CONFIG_SRCDIR(gold.cc)

	AC_CANONICAL_TARGET

	AM_INIT_AUTOMAKE([no-dist parallel-tests])

	AM_CONFIG_HEADER(config.h:config.in)

	AC_ARG_WITH(sysroot,
	[ --with-sysroot[=DIR] search for usr/lib et al within DIR],
	[sysroot=$withval], [sysroot=no])

	if test "$sysroot" = "yes"; then
	sysroot='${exec_prefix}/${target_alias}/sys-root'
	elif test "$sysroot" = "no"; then
	sysroot=
	fi

	sysroot_relocatable=0
	if test -n "$sysroot"; then
	case "sysroot" in
	"${prefix}" \| "${prefix}/"* \| \
	"${exec_prefix}" \| "${exec_prefix}/"* \| \
	'${prefix}' \| '${prefix}/'*\| \
	'${exec_prefix}' \| '${exec_prefix}/'*)
	sysroot_relocatable=1
	;;
	esac
	fi

	AC_DEFINE_UNQUOTED(TARGET_SYSTEM_ROOT, "$sysroot",
	[System root for target files])
	AC_DEFINE_UNQUOTED(TARGET_SYSTEM_ROOT_RELOCATABLE, $sysroot_relocatable,
	[Whether the system root can be relocated])

	dnl "install_as_default" is true if the linker to be installed as the
	dnl default linker, ld.
	dnl "installed_linker" is the installed gold linker name.

	default_ld=
	AC_ARG_ENABLE(ld,
	[[ --enable-ld[=ARG] build ld [ARG={default,yes,no}]]],
	[case "${enableval}" in
	default)
	default_ld=ld.bfd
	;;
	esac])

	AC_ARG_ENABLE(gold,
	[[ --enable-gold[=ARG] build gold [ARG={default,yes,no}]]],
	[case "${enableval}" in
	yes\|default)
	if test x${default_ld} = x; then
	install_as_default=yes
	fi
	installed_linker=ld.gold
	;;
	no)
	;;
	*)
	AC_MSG_ERROR([invalid --enable-gold argument])
	;;
	esac],
	[install_as_default=no
	installed_linker=ld.gold])
	AC_SUBST(install_as_default)
	AC_SUBST(installed_linker)

	dnl For now threads are a configure time option.
	AC_ARG_ENABLE([threads],
	[ --enable-threads multi-threaded linking],
	[case "${enableval}" in
	yes \| "") threads=yes ;;
	no) threads=no ;;
	*) threads=yes ;;
	esac],
	[threads=no])
	if test "$threads" = "yes"; then
	AC_DEFINE(ENABLE_THREADS, 1,
	[Define to do multi-threaded linking])
	fi
	AM_CONDITIONAL(THREADS, test "$threads" = "yes")

	AC_ARG_ENABLE([plugins],
	[ --enable-plugins linker plugins],
	[case "${enableval}" in
	yes \| "") plugins=yes ;;
	no) plugins=no ;;
	*) plugins=yes ;;
	esac],
	[plugins=no])
	if test "$plugins" = "yes"; then
	AC_DEFINE(ENABLE_PLUGINS, 1,
	[Define to enable linker plugins])
	fi
	AM_CONDITIONAL(PLUGINS, test "$plugins" = "yes")

	AC_ARG_ENABLE([targets],
	[ --enable-targets alternative target configurations],
	[case "${enableval}" in
	yes \| "")
	AC_MSG_ERROR([--enable-targets option must specify target names or 'all'])
	;;
	no)
	enable_targets=
	;;
	*)
	enable_targets=$enableval
	;;
	esac],
	[# For now, enable all targets by default
	enable_targets=all
	])

	# Canonicalize the enabled targets.
	if test -n "$enable_targets"; then
	for targ in `echo $enable_targets \| sed -e 's/,/ /g'`; do
	result=`$ac_config_sub $targ 2>/dev/null`
	if test -n "$result"; then
	canon_targets="$canon_targets $result"
	else
	# Permit unrecognized target names, like "all".
	canon_targets="$canon_targets $targ"
	fi
	done
	fi

	# See which specific instantiations we need.
	targetobjs=
	all_targets=
	default_machine=
	default_size=
	default_big_endian=
	default_osabi=ELFOSABI_NONE
	targ_32_little=
	targ_32_big=
	targ_64_little=
	targ_64_big=
	for targ in $target $canon_targets; do
	if test "$targ" = "all"; then
	targ_32_little=yes
	targ_32_big=yes
	targ_64_little=yes
	targ_64_big=yes
	all_targets=yes
	else
	. ${srcdir}/configure.tgt

	if test "$targ_obj" = "UNKNOWN"; then
	AC_MSG_ERROR("unsupported target $targ")
	else
	targetobjs="$targetobjs ${targ_obj}.\$(OBJEXT)"
	if test "$targ_extra_obj" != ""; then
	targetobjs="$targetobjs ${targ_extra_obj}.\$(OBJEXT)"
	fi
	if test "$targ_size" = "32" -o "$targ_extra_size" = "32"; then
	if test "$targ_big_endian" = "true" \
	-o "$targ_extra_big_endian" = "true"; then
	targ_32_big=yes
	fi
	if test "$targ_big_endian" = "false" \
	-o "$targ_extra_big_endian" = "false"; then
	targ_32_little=yes
	fi
	fi
	if test "$targ_size" = "64" -o "$targ_extra_size" = "64"; then
	if test "$targ_big_endian" = "true" \
	-o "$targ_extra_big_endian" = "true"; then
	targ_64_big=yes
	fi
	if test "$targ_big_endian" = "false" \
	-o "$targ_extra_big_endian" = "false"; then
	targ_64_little=yes
	fi
	fi

	if test "$target" = "$targ"; then
	default_machine=$targ_machine
	default_size=$targ_size
	default_big_endian=$targ_big_endian
	default_osabi=$targ_osabi

	AM_CONDITIONAL(DEFAULT_TARGET_ARM, test "$targ_obj" = "arm")
	AM_CONDITIONAL(DEFAULT_TARGET_I386, test "$targ_obj" = "i386")
	AM_CONDITIONAL(DEFAULT_TARGET_POWERPC, test "$targ_obj" = "powerpc")
	AM_CONDITIONAL(DEFAULT_TARGET_SPARC, test "$targ_obj" = "sparc")
	AM_CONDITIONAL(DEFAULT_TARGET_X86_64, test "$targ_obj" = "x86_64")
	fi
	fi
	fi
	done

	# Remove any duplicates.
	to=""
	for t in $targetobjs; do
	case " $to " in
	" $t ") ;;
	*) to="$to $t" ;;
	esac
	done
	targetobjs=$to

	if test -n "$targ_32_little"; then
	AC_DEFINE(HAVE_TARGET_32_LITTLE, 1,
	[Define to support 32-bit little-endian targets])
	fi
	if test -n "$targ_32_big"; then
	AC_DEFINE(HAVE_TARGET_32_BIG, 1,
	[Define to support 32-bit big-endian targets])
	fi
	if test -n "$targ_64_little"; then
	AC_DEFINE(HAVE_TARGET_64_LITTLE, 1,
	[Define to support 64-bit little-endian targets])
	fi
	if test -n "$targ_64_big"; then
	AC_DEFINE(HAVE_TARGET_64_BIG, 1,
	[Define to support 64-bit big-endian targets])
	fi

	if test -n "$all_targets"; then
	TARGETOBJS='$(ALL_TARGETOBJS)'
	else
	TARGETOBJS="$targetobjs"
	fi
	AC_SUBST(TARGETOBJS)

	AC_DEFINE_UNQUOTED(GOLD_DEFAULT_MACHINE, $default_machine,
	[Default machine code])
	AC_DEFINE_UNQUOTED(GOLD_DEFAULT_SIZE, $default_size,
	[Default size (32 or 64)])
	AC_DEFINE_UNQUOTED(GOLD_DEFAULT_BIG_ENDIAN, $default_big_endian,
	[Default big endian (true or false)])
	AC_DEFINE_UNQUOTED(GOLD_DEFAULT_OSABI, $default_osabi,
	[Default OSABI code])

	AC_PROG_CC
	AC_PROG_CXX
	AC_PROG_YACC
	AC_PROG_RANLIB
	AC_PROG_INSTALL
	AC_PROG_LN_S

	AC_GNU_SOURCE

	ZW_GNU_GETTEXT_SISTER_DIR
	AM_PO_SUBDIRS

	AC_C_BIGENDIAN

	AC_EXEEXT

	AM_CONDITIONAL(NATIVE_LINKER,
	test "x$target_alias" = "x" -o "x$host_alias" = "x$target_alias")
	AM_CONDITIONAL(GCC, test "$GCC" = yes)

	AM_CONDITIONAL(NATIVE_OR_CROSS_LINKER,
	test "x$target_alias" = "x" -o "x$host_alias" = "x$target_alias" -o "x$host_alias" = "x$build_alias")

	dnl Some architectures do not support taking pointers of functions
	dnl defined in shared libraries except in -fPIC mode. We need to
	dnl tell the unittest framework if we're compiling for one of those
	dnl targets, so it doesn't try to run the tests that do that.
	AM_CONDITIONAL(FN_PTRS_IN_SO_WITHOUT_PIC, [
	case $target_cpu in
	i?86) true;;
	x86_64) false;;
	sparc64) false;;
	*) true;;
	esac])

	dnl Test for gcc 4.1 or later. Full support for -mcmodel=medium is
	dnl only available in gcc 4.1.
	AC_CACHE_CHECK([for gcc >= 4.1], [gold_cv_prog_gcc41],
	[AC_COMPILE_IFELSE([
	#if !defined __GNUC__
	error
	#elif __GNUC__ < 4 \|\| (__GNUC__ == 4 && __GNUC_MINOR__ < 1)
	error
	#endif
	], [gold_cv_prog_gcc41=yes], [gold_cv_prog_gcc41=no])])

	dnl Whether we can test -mcmodel=medium.
	AM_CONDITIONAL(MCMODEL_MEDIUM,
	[test "$target_cpu" = "x86_64" -a "$gold_cv_prog_gcc41" = "yes"])

	dnl Test for __thread support.
	AC_CACHE_CHECK([for thread support], [gold_cv_c_thread],
	[AC_COMPILE_IFELSE([__thread int i = 1;],
	[gold_cv_c_thread=yes], [gold_cv_c_thread=no])])

	AM_CONDITIONAL(TLS, test "$gold_cv_c_thread" = "yes")

	dnl On GNU/Linux TLS in static programs only works when using glibc
	dnl 2.4 or later.
	AC_CACHE_CHECK([for glibc >= 2.4], [gold_cv_lib_glibc24],
	[AC_COMPILE_IFELSE([
	#include <features.h>
	#if !defined __GLIBC__
	error
	#elif __GLIBC__ < 2 \|\| (__GLIBC__ == 2 && __GLIBC_MINOR__ < 4)
	error
	#endif
	], [gold_cv_lib_glibc24=yes], [gold_cv_lib_glibc24=no])])

	AM_CONDITIONAL(STATIC_TLS, test "$gold_cv_lib_glibc24" = "yes")

	dnl Test for #pragma omp threadprivate
	AC_CACHE_CHECK([for omp support], [gold_cv_c_threadprivate],
	[save_CFLAGS="$CFLAGS"
	CFLAGS="$CFLAGS -fopenmp"
	AC_COMPILE_IFELSE([
	#include <omp.h>
	int i;
	#pragma omp threadprivate (i)
	], [gold_cv_c_threadprivate=yes], [gold_cv_c_threadprivate=no])
	CFLAGS="$save_CFLAGS"])
	if test "$gold_cv_c_threadprivate" = "yes"; then
	AC_DEFINE(HAVE_OMP_SUPPORT, 1,
	[Define if compiler supports #pragma omp threadprivate])
	fi
	AM_CONDITIONAL(OMP_SUPPORT, test "$gold_cv_c_threadprivate" = "yes")

	dnl Test for the -ftls-dialect=gnu2 option.
	save_CFLAGS="$CFLAGS"
	CFLAGS="$CFLAGS -mtls-dialect=gnu2"
	AC_COMPILE_IFELSE([int i;], [have_tls_gnu2=yes], [have_tls_gnu2=no])
	CFLAGS="$save_CFLAGS"
	AM_CONDITIONAL(TLS_GNU2_DIALECT, test "$have_tls_gnu2" = "yes")

	dnl On GNU/Linux TLS descriptors are supported by the dynamic loader
	dnl only with glibc 2.9 or later.
	AC_CACHE_CHECK([for glibc >= 2.9], [gold_cv_lib_glibc29],
	[AC_COMPILE_IFELSE([
	#include <features.h>
	#if !defined __GLIBC__
	error
	#elif __GLIBC__ < 2 \|\| (__GLIBC__ == 2 && __GLIBC_MINOR__ < 9)
	error
	#endif
	], [gold_cv_lib_glibc29=yes], [gold_cv_lib_glibc29=no])])

	AM_CONDITIONAL(TLS_DESCRIPTORS, test "$gold_cv_lib_glibc29" = "yes")

	dnl Check whether the compiler supports constructor priorities in
	dnl attributes, which were added in gcc 4.3.
	AC_CACHE_CHECK([for constructor priorities], [gold_cv_c_conprio],
	[AC_COMPILE_IFELSE([void f() __attribute__ ((constructor (1)));],
	[gold_cv_c_conprio=yes], [gold_cv_c_conprio=no])])

	AM_CONDITIONAL(CONSTRUCTOR_PRIORITY, test "$gold_cv_c_conprio" = "yes")

	dnl Test for the -frandom-seed option.
	AC_CACHE_CHECK([for -frandom-seed support], [gold_cv_c_random_seed],
	[save_CFLAGS="$CFLAGS"
	CFLAGS="$CFLAGS -frandom-seed=foo"
	AC_COMPILE_IFELSE([int i;], [gold_cv_c_random_seed=yes],
	[gold_cv_c_random_seed=no])
	CFLAGS="$save_CFLAGS"])
	if test "$gold_cv_c_random_seed" = "yes"; then
	# In Makefile, '$@' will be expanded to be the name of the file
	# being built, providing a unique seed for each file.
	RANDOM_SEED_CFLAGS=-frandom-seed=\$@
	fi
	AC_SUBST(RANDOM_SEED_CFLAGS)

	dnl On GNU/Linux ifunc is supported by the dynamic linker in glibc
	dnl 2.11 or later, and by binutils 2.20.1 or later.
	AC_CACHE_CHECK([for glibc >= 2.11], [gold_cv_lib_glibc2_11],
	[AC_COMPILE_IFELSE([
	#include <features.h>
	#if !defined __GLIBC__
	error
	#elif __GLIBC__ < 2 \|\| (__GLIBC__ == 2 && __GLIBC_MINOR__ < 11)
	error
	#endif
	__asm__(".type foo, %gnu_indirect_function");
	], [gold_cv_lib_glibc2_11=yes], [gold_cv_lib_glibc2_11=no])])

	AM_CONDITIONAL(IFUNC, test "$gold_cv_lib_glibc2_11" = "yes")

	AM_BINUTILS_WARNINGS

	WARN_CXXFLAGS=`echo ${WARN_CFLAGS} \| sed -e 's/-Wstrict-prototypes//' -e 's/-Wmissing-prototypes//' -e 's/-Wshadow//'`
	AC_SUBST(WARN_CXXFLAGS)

	dnl Force support for large files by default. This may need to be
	dnl host dependent. If build == host, we can check getconf LFS_CFLAGS.
	LFS_CFLAGS="-D_LARGEFILE_SOURCE -D_FILE_OFFSET_BITS=64"
	AC_SUBST(LFS_CFLAGS)

	AC_CHECK_FUNCS(chsize)
	AC_REPLACE_FUNCS(pread ftruncate mremap ffsll)

	# Link in zlib if we can. This allows us to write compressed sections.
	AC_SEARCH_LIBS(zlibVersion, z, [AC_CHECK_HEADERS(zlib.h)])
	AM_CONDITIONAL(HAVE_ZLIB, test "$ac_cv_search_zlibVersion" != "no")

	dnl We have to check these in C, not C++, because autoconf generates
	dnl tests which have no type information, and current glibc provides
	dnl multiple declarations of functions like basename when compiling
	dnl with C++.
	AC_CHECK_DECLS([basename, ffs, asprintf, vasprintf, snprintf, vsnprintf, strverscmp])

	AC_LANG_PUSH(C++)

	AC_CHECK_HEADERS(tr1/unordered_set tr1/unordered_map)
	AC_CHECK_HEADERS(ext/hash_map ext/hash_set)
	AC_CHECK_HEADERS(byteswap.h)
	AC_CHECK_FUNCS(mallinfo posix_fallocate readv sysconf times)
	AC_CHECK_DECLS([basename, ffs, asprintf, vasprintf, snprintf, vsnprintf, strverscmp, strndup, memmem])

	# Use of ::std::tr1::unordered_map::rehash causes undefined symbols
	# at link time with some versions of GCC.
	AC_CACHE_CHECK([whether ::std::tr1::unordered_map::rehash is usable.],
	[gold_cv_unordered_map_rehash],
	[AC_LINK_IFELSE([AC_LANG_PROGRAM([[
	#include <tr1/unordered_map>
	void bar() { ::std::tr1::unordered_map<int, int> x; x.rehash(10); }
	]])], [gold_cv_unordered_map_rehash=yes], [gold_cv_unordered_map_rehash=no])])
	if test "$gold_cv_unordered_map_rehash" = "yes"; then
	AC_DEFINE(HAVE_TR1_UNORDERED_MAP_REHASH, 1,
	[Define if ::std::tr1::unordered_map::rehash is usable])
	fi

	# gcc 4.3.0 doesn't recognize the printf attribute on a template
	# function. Check for that. This is gcc bug 35546. This test can
	# probably be removed after the bug has been fixed for a while.
	AC_CACHE_CHECK([whether we can use attributes with template functions],
	[gold_cv_template_attribute],
	[AC_COMPILE_IFELSE([
	template<typename T> extern void foo(const char*, ...)
	__attribute__ ((__format__ (__printf__, 1, 2)));
	template<typename T> void foo(const char* format, ...) {}
	void bar() { foo<int>("%s\n", "foo"); }
	], [gold_cv_template_attribute=yes], [gold_cv_template_attribute=no])])
	if test "$gold_cv_template_attribute" = "yes"; then
	AC_DEFINE(HAVE_TEMPLATE_ATTRIBUTES, 1,
	[Define if attributes work on C++ templates])
	fi

	dnl Check if the system has struct stat::st_mtim.
	AC_CACHE_CHECK([for struct stat::st_mtim.],
	[gold_cv_stat_st_mtim],
	[AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[
	#include <sys/stat.h>
	long bar() { struct stat s; return (long)(s.st_mtim.tv_sec + s.st_mtim.tv_sec);}
	]])], [gold_cv_stat_st_mtim=yes], [gold_cv_stat_st_mtim=no])])
	if test "$gold_cv_stat_st_mtim" = "yes"; then
	AC_DEFINE(HAVE_STAT_ST_MTIM, 1,
	[Define if struct stat has a field st_mtim with timespec for mtime])
	fi

	AC_LANG_POP(C++)

	AM_MAINTAINER_MODE

	AC_OUTPUT(Makefile testsuite/Makefile po/Makefile.in:po/Make-in)