dnl Initialize autoconf AC_INIT([[LLVM]],[[1.4]],[llvmbugs@cs.uiuc.edu]) dnl Place all of the extra autoconf files into the config subdirectory AC_CONFIG_AUX_DIR([autoconf]) dnl Quit if the source directory has already been configured. dnl NOTE: This relies upon undocumented autoconf behavior. if test ${srcdir} != "." then if test -f ${srcdir}/include/llvm/Config/config.h then AC_MSG_ERROR([Already configured in ${srcdir}]) fi fi dnl Configure all of the projects present in our source tree. for i in `ls ${srcdir}/projects` do if test -d ${srcdir}/projects/${i} ; then case ${i} in "CVS") ;; "sample") AC_CONFIG_SUBDIRS([projects/sample]) ;; "Stacker") AC_CONFIG_SUBDIRS([projects/Stacker]) ;; "llvm-test") AC_CONFIG_SUBDIRS([projects/llvm-test]) ;; "llvm-reopt") AC_CONFIG_SUBDIRS([projects/llvm-reopt]);; "llvm-gcc") AC_CONFIG_SUBDIRS([projects/llvm-gcc]) ;; "llvm-java") AC_CONFIG_SUBDIRS([projects/llvm-java]) ;; "llvm-tv") AC_CONFIG_SUBDIRS([projects/llvm-tv]) ;; "llvm-fefw") AC_CONFIG_SUBDIRS([projects/llvm-fefw]) ;; *) AC_CONFIG_SUBDIRS(${i}) ;; esac fi done dnl Configure header files AC_CONFIG_HEADERS(include/llvm/Config/config.h) dnl Configure other output file AC_CONFIG_FILES(Makefile.config include/llvm/Support/DataTypes.h include/llvm/Support/ThreadSupport.h include/llvm/ADT/hash_map include/llvm/ADT/hash_set include/llvm/ADT/iterator) dnl Do special configuration of Makefiles AC_CONFIG_MAKEFILE(Makefile) AC_CONFIG_MAKEFILE(Makefile.common) AC_CONFIG_MAKEFILE(examples/Makefile) AC_CONFIG_MAKEFILE(lib/Makefile) AC_CONFIG_MAKEFILE(runtime/Makefile) AC_CONFIG_MAKEFILE(test/Makefile) AC_CONFIG_MAKEFILE(test/Makefile.tests) AC_CONFIG_MAKEFILE(test/QMTest/llvm.py) AC_CONFIG_MAKEFILE(test/QMTest/llvmdb.py) AC_CONFIG_MAKEFILE(tools/Makefile) AC_CONFIG_MAKEFILE(utils/Makefile) AC_CONFIG_MAKEFILE(projects/Makefile) dnl Find the install program (needs to be done before canonical stuff) AC_PROG_INSTALL dnl Check which host for which we're compiling. This will tell us which LLVM dnl compiler will be used for compiling SSA into object code. AC_CANONICAL_TARGET dnl Set the "OS" Makefile variable based on the system we are building on. dnl We will use the build machine information to set some variables. AC_MSG_CHECKING([support for generic build operating system]) case $build in *-*-aix*) AC_SUBST(OS,[AIX]) platform_type="AIX" ;; *-*-cygwin*) AC_SUBST(OS,[Cygwin]) platform_type="Cygwin" ;; *-*-darwin*) AC_SUBST(OS,[Darwin]) platform_type="Darwin" ;; *-*-freebsd*) AC_SUBST(OS,[Linux]) platform_type="FreeBSD" ;; *-*-interix*) AC_SUBST(OS,[SunOS]) platform_type="Interix" ;; *-*-linux*) AC_SUBST(OS,[Linux]) platform_type="Linux" if test -d /home/vadve/lattner/local/x86/llvm-gcc then AC_SUBST(LLVMGCCDIR,[/home/vadve/lattner/local/x86/llvm-gcc/]) fi ;; *-*-solaris*) AC_SUBST(OS,[SunOS]) platform_type="SunOS" if test -d /home/vadve/lattner/local/sparc/llvm-gcc then AC_SUBST(LLVMGCCDIR,[/home/vadve/lattner/local/sparc/llvm-gcc/]) fi ;; *-*-win32*) AC_SUBST(OS,[Win32]) platform_type="Win32" ;; *) AC_SUBST(OS,[Unknown]) platform_type="Unknown" ;; esac dnl Make sure we aren't attempting to configure for an unknown system if test "$platform_type" = "Unknown" ; then AC_MSG_ERROR([Platform is unknown, configure can't continue]) fi dnl Make a link from lib/System/platform to lib/System/$platform_type dnl This helps the #inclusion of the system specific include files dnl for the operating system abstraction library AC_CONFIG_LINKS(lib/System/platform:lib/System/$platform_type) AC_MSG_RESULT($platform_type) AC_MSG_CHECKING(target architecture) dnl If we are targetting a Sparc machine running Solaris, pretend that it is dnl V9, since that is all that we support at the moment, and autoconf will only dnl tell us we're a sparc. case $target in sparc*-*-solaris*) AC_SUBST(target,[[sparcv9-sun-solaris2.8]]) ;; esac dnl Determine what our target architecture is and configure accordingly. dnl This will allow Makefiles to make a distinction between the hardware and dnl the OS. case $target in i*86-*) ARCH="x86" AC_SUBST(ARCH,[x86]) ;; sparc*-*) ARCH="Sparc" AC_SUBST(ARCH,[Sparc]) ;; powerpc*-*) ARCH="PowerPC" AC_SUBST(ARCH,[PowerPC]) ;; *) ARCH="Unknown" AC_SUBST(ARCH,[Unknown]) ;; esac AC_MSG_RESULT($ARCH) dnl Check for compilation tools AC_PROG_CXX AC_PROG_CC(gcc) AC_PROG_CPP dnl Ensure that compilation tools are GCC; we use GCC specific extensions if test "$GCC" != "yes" then AC_MSG_ERROR([gcc required but not found]) fi if test "$GXX" != "yes" then AC_MSG_ERROR([g++ required but not found]) fi dnl Verify that GCC is version 3.0 or higher gccmajor=`$CC --version | head -n 1 | awk '{print $NF;}' | cut -d. -f1` if test "$gccmajor" -lt "3" then AC_MSG_ERROR([gcc 3.x required, but you have a lower version]) fi dnl Check for GNU Make. We use its extensions too, so don't build without it AC_CHECK_GNU_MAKE if test -z "$_cv_gnu_make_command" then AC_MSG_ERROR([GNU Make required but not found]) fi dnl Checks for other tools AC_PROG_FLEX AC_PROG_BISON AC_PROG_LIBTOOL dnl Checks for tools we can get away with not having: AC_PATH_PROG(DOT,[dot],[true dot]) AC_PATH_PROG(ETAGS,[etags],[true etags]) dnl Check if we know how to tell etags we are using C++: etags_version=`$ETAGS --version 2>&1` case "$etags_version" in *[Ee]xuberant*) ETAGSFLAGS="--language-force=c++" ;; *GNU\ Emacs*) ETAGSFLAGS="-l c++" ;; *) ETAGSFLAGS="" ;; esac AC_SUBST(ETAGSFLAGS,$ETAGSFLAGS) AC_PATH_PROG(PYTHON,[python],[true python]) if test "$PYTHON" = "false" then AC_MSG_WARN([Python is required for the test suite, but it was not found]) fi AC_PATH_PROG(QMTEST,[qmtest],[true qmtest]) if test "$QMTEST" = "false" then AC_MSG_WARN([QMTest is required for the test suite, but it was not found]) fi dnl Verify that the version of python available is high enough for qmtest pyversion=`$PYTHON -V 2>&1 | cut -d\ -f2` pymajor=`echo $pyversion | cut -d. -f1` pyminor=`echo $pyversion | cut -d. -f2` if test "$pymajor" -ge "2" then if test "$pymajor" -eq "2" then if test "$pyminor" -lt "2" then AC_MSG_WARN([QMTest requires Python 2.2 or later]) fi fi else AC_MSG_WARN([QMTest requires Python 2.2 or later]) fi dnl Verify that the source directory is valid AC_CONFIG_SRCDIR(["Makefile.config.in"]) dnl Checks for libraries: dnl libelf is for sparc only; we can ignore it if we don't have it AC_CHECK_LIB(elf, elf_begin) dnl dlopen() is required for plugin support. AC_SEARCH_LIBS(dlopen,dl,AC_DEFINE([HAVE_DLOPEN],[1],[Define if dlopen() is available on this platform.]),AC_MSG_WARN([dlopen() not found - disabling plugin support])) dnl mallinfo is optional; the code can compile (minus features) without it AC_SEARCH_LIBS(mallinfo,malloc,AC_DEFINE([HAVE_MALLINFO],[1],[Define if mallinfo() is available on this platform.])) dnl pthread locking functions are optional - but llvm will not be thread-safe dnl without locks. AC_SEARCH_LIBS(pthread_mutex_lock,pthread,HAVE_PTHREAD_MUTEX_LOCK=1,HAVE_PTHREAD_MUTEX_LOCK=0) AC_SUBST(HAVE_PTHREAD_MUTEX_LOCK) dnl Checks for header files. dnl We don't check for ancient stuff or things that are guaranteed to be there dnl by the C++ standard. We always use the versions of C headers. AC_HEADER_STDC AC_HEADER_SYS_WAIT dnl Checks for POSIX and other various system-specific header files AC_CHECK_HEADERS(fcntl.h limits.h sys/time.h unistd.h malloc.h sys/mman.h sys/resource.h dlfcn.h link.h execinfo.h windows.h) dnl Check for things that need to be included in public headers, and so dnl for which we may not have access to a HAVE_* preprocessor #define. dnl (primarily used in DataTypes.h) AC_CHECK_HEADER([sys/types.h], [INCLUDE_SYS_TYPES_H='#include '], [INCLUDE_SYS_TYPES_H='']) AC_SUBST(INCLUDE_SYS_TYPES_H) AC_CHECK_HEADER([inttypes.h], [INCLUDE_INTTYPES_H='#include '], [INCLUDE_INTTYPES_H='']) AC_SUBST(INCLUDE_INTTYPES_H) AC_CHECK_HEADER([stdint.h], [INCLUDE_STDINT_H='#include '], [INCLUDE_STDINT_H='']) AC_SUBST(INCLUDE_STDINT_H) dnl Check for types AC_TYPE_PID_T AC_TYPE_SIZE_T AC_CHECK_TYPES([int64_t],,AC_MSG_ERROR([Type int64_t required but not found])) AC_CHECK_TYPES([uint64_t],, AC_CHECK_TYPES([u_int64_t],, AC_MSG_ERROR([Type uint64_t or u_int64_t required but not found]))) AC_HEADER_TIME AC_STRUCT_TM dnl Check for various C features AC_C_PRINTF_A dnl Check for the endianness of the target AC_C_BIGENDIAN(AC_SUBST([ENDIAN],[big]),AC_SUBST([ENDIAN],[little])) dnl Check for C++ extensions AC_CXX_HAVE_HASH_MAP AC_CXX_HAVE_HASH_SET AC_CXX_HAVE_STD_ITERATOR AC_CXX_HAVE_BI_ITERATOR AC_CXX_HAVE_FWD_ITERATOR AC_FUNC_ISNAN AC_FUNC_ISINF dnl Checks for library functions. AC_FUNC_ALLOCA AC_FUNC_MMAP if test "$ac_cv_func_mmap_fixed_mapped" = "no" then AC_MSG_WARN([mmap() required but not found]) fi AC_FUNC_MMAP_FILE if test "$ac_cv_func_mmap_file" = "no" then AC_MSG_WARN([mmap() of files required but not found]) fi AC_HEADER_MMAP_ANONYMOUS AC_TYPE_SIGNAL AC_CHECK_FUNCS(getcwd gettimeofday strdup strtoq strtoll backtrace isatty mkstemp getrusage) AC_CHECK_FUNC(mprotect,,AC_MSG_ERROR([Function mprotect() required but not found])) dnl Determine if the linker supports the -R option. AC_LINK_USE_R dnl --enable/--with command-line options: dnl Check whether they want to do an optimized build: AC_ARG_ENABLE(optimized,AC_HELP_STRING([--enable-optimized],[Compile with optimizations enabled (default is NO)]),,enableval=no) if test ${enableval} = "no" then AC_SUBST(ENABLE_OPTIMIZED,[[]]) else AC_SUBST(ENABLE_OPTIMIZED,[[ENABLE_OPTIMIZED=1]]) fi dnl JIT Option AC_ARG_ENABLE(jit,AC_HELP_STRING([--enable-jit],[Enable Just In Time Compiling (default is YES)]),,enableval=default) if test ${enableval} = "no" then AC_SUBST(JIT,[[]]) else case $target in *i*86*) AC_SUBST(JIT,[[TARGET_HAS_JIT=1]]) ;; *sparc*) AC_SUBST(JIT,[[TARGET_HAS_JIT=1]]) ;; *) AC_SUBST(JIT,[[]]) ;; esac fi dnl Find the LLVM GCC-based C/C++ front end AC_ARG_WITH(llvmgccdir,AC_HELP_STRING([--with-llvmgccdir],[Location of LLVM GCC front-end]),AC_SUBST(LLVMGCCDIR,[$withval])) AC_MSG_CHECKING([for llvm-gcc]) LLVM_GCC_CHECK=no if test -d "$LLVMGCCDIR" then if test -x "$LLVMGCCDIR/bin/gcc" then LLVM_GCC_CHECK="$LLVMGCCDIR/bin/gcc" fi fi llvmgccwarn=no AC_MSG_RESULT($LLVM_GCC_CHECK) if test "$LLVM_GCC_CHECK" = "no" then llvmgccwarn=yes fi AC_MSG_CHECKING([whether llvm-gcc is sane]) LLVM_GCC_SANE=no if test -x "$LLVM_GCC_CHECK" then cp /dev/null conftest.c "$LLVM_GCC_CHECK" -S -o - conftest.c | grep implementation > /dev/null 2>&1 if test $? -eq 0 then LLVM_GCC_SANE=yes fi rm conftest.c llvmcc1path=`"$LLVM_GCC_CHECK" --print-prog-name=cc1` AC_SUBST(LLVMCC1,$llvmcc1path) llvmcc1pluspath=`"$LLVM_GCC_CHECK" --print-prog-name=cc1plus` AC_SUBST(LLVMCC1PLUS,$llvmcc1pluspath) fi AC_MSG_RESULT($LLVM_GCC_SANE) if test "$LLVM_GCC_SANE" = "no" then llvmgccwarn=yes fi dnl Location of PAPI AC_ARG_WITH(papi,AC_HELP_STRING([--with-papi],[Location of PAPI]),AC_SUBST(PAPIDIR,[$withval]),AC_SUBST(PAPIDIR,[/home/vadve/shared/Sparc/papi-2.3.4.1])) dnl Get libtool's idea of what the shared library suffix is. dnl (This is a hack; it relies on undocumented behavior.) AC_MSG_CHECKING([for shared library suffix]) eval "SHLIBEXT=$shrext" AC_MSG_RESULT($SHLIBEXT) dnl Propagate it to the Makefiles and config.h (for gccld & bugpoint). AC_SUBST(SHLIBEXT,$SHLIBEXT) AC_DEFINE_UNQUOTED(SHLIBEXT,"$SHLIBEXT", [Extension that shared libraries have, e.g., ".so".]) # Translate the various configuration directories and other basic # information into substitutions that will end up in config.h.in so # that these configured values can be hard-wired into a program. eval LLVM_PREFIX="${prefix}"; eval LLVM_BINDIR="${prefix}/bin"; eval LLVM_LIBDIR="${prefix}/lib"; eval LLVM_DATADIR="${prefix}/data"; eval LLVM_DOCSDIR="${prefix}/docs"; eval LLVM_ETCDIR="${prefix}/etc"; eval LLVM_INCLUDEDIR="${prefix}/include"; eval LLVM_INFODIR="${prefix}/info"; eval LLVM_MANDIR="${prefix}/man"; LLVM_CONFIGTIME=`date` AC_SUBST(LLVM_PREFIX) AC_SUBST(LLVM_BINDIR) AC_SUBST(LLVM_LIBDIR) AC_SUBST(LLVM_DATADIR) AC_SUBST(LLVM_DOCSDIR) AC_SUBST(LLVM_ETCDIR) AC_SUBST(LLVM_INCLUDEDIR) AC_SUBST(LLVM_INFODIR) AC_SUBST(LLVM_MANDIR) AC_SUBST(LLVM_CONFIGTIME) AC_DEFINE_UNQUOTED(LLVM_PREFIX,"$LLVM_PREFIX", [Installation prefix directory]) AC_DEFINE_UNQUOTED(LLVM_BINDIR, "$LLVM_BINDIR", [Installation directory for binary executables]) AC_DEFINE_UNQUOTED(LLVM_LIBDIR, "$LLVM_LIBDIR", [Installation directory for libraries]) AC_DEFINE_UNQUOTED(LLVM_DATADIR, "$LLVM_DATADIR", [Installation directory for data files]) AC_DEFINE_UNQUOTED(LLVM_DATADIR, "$LLVM_DOCSDIR", [Installation directory for documentation]) AC_DEFINE_UNQUOTED(LLVM_ETCDIR, "$LLVM_ETCDIR", [Installation directory for config files]) AC_DEFINE_UNQUOTED(LLVM_INCLUDEDIR, "$LLVM_INCLUDEDIR", [Installation directory for include files]) AC_DEFINE_UNQUOTED(LLVM_INFODIR, "$LLVM_INFODIR", [Installation directory for .info files]) AC_DEFINE_UNQUOTED(LLVM_MANDIR, "$LLVM_MANDIR", [Installation directory for man pages]) AC_DEFINE_UNQUOTED(LLVM_CONFIGTIME, "$LLVM_CONFIGTIME", [Time at which LLVM was configured]) dnl Create the output files AC_OUTPUT() dnl Warn loudly if llvm-gcc was not obviously working if test $llvmgccwarn = yes then AC_MSG_WARN([***** llvm C/C++ front end was not found, or does not]) AC_MSG_WARN([***** appear to be working.]) AC_MSG_WARN([***** ]) AC_MSG_WARN([***** Please check configure's --with-llvmgccdir option.]) AC_MSG_WARN([***** Runtime libraries (in llvm/runtime) will not be built,]) AC_MSG_WARN([***** but you should be able to build the llvm tools.]) fi