# -*- shell-script -*- # # $HEADER$ # ############################################################################ # Initialization, version number, and other random setup/init stuff ############################################################################ # Init autoconf AC_INIT(./src/mpi/c/init.c) AC_PREREQ(2.58) AC_CONFIG_AUX_DIR(./config) # Get the version of LAM that we are installing LAM_GET_VERSION($srcdir/config, $srcdir/VERSION, LAM) AC_DEFINE_UNQUOTED(LAM_MAJOR_VERSION, $LAM_MAJOR_VERSION, [Major LAM version]) AC_DEFINE_UNQUOTED(LAM_MINOR_VERSION, $LAM_MINOR_VERSION, [Minor LAM version]) AC_DEFINE_UNQUOTED(LAM_RELEASE_VERSION, $LAM_RELEASE_VERSION, [Release LAM version]) AC_DEFINE_UNQUOTED(LAM_ALPHA_VERSION, $LAM_ALPHA_VERSION, [Alpha LAM version]) AC_DEFINE_UNQUOTED(LAM_BETA_VERSION, $LAM_BETA_VERSION, [Beta LAM version]) AC_DEFINE_UNQUOTED(LAM_CVS_VERSION, $LAM_CVS_VERSION, [CVS LAM version]) AC_DEFINE_UNQUOTED(LAM_VERSION, "$LAM_VERSION", [Overall LAM version number]) AC_SUBST(LAM_MAJOR_VERSION) AC_SUBST(LAM_MINOR_VERSION) AC_SUBST(LAM_RELEASE_VERSION) AC_SUBST(LAM_ALPHA_VERSION) AC_SUBST(LAM_BETA_VERSION) AC_SUBST(LAM_CVS_VERSION) AC_SUBST(LAM_VERSION) # # Start it up # LAM_CONFIGURE_SETUP lam_show_title "Configuring LAM version $LAM_VERSION" lam_show_subtitle "Initialization, setup" # # Init automake # The third argument to AM_INIT_AUTOMAKE surpresses the PACKAGE and # VERSION macors # AM_INIT_AUTOMAKE(lam, $LAM_VERSION, 'no') LAM_TOP_BUILDDIR="`pwd`" AC_SUBST(LAM_TOP_BUILDDIR) cd "$srcdir" LAM_TOP_SRCDIR="`pwd`" AC_SUBST(LAM_TOP_SRCDIR) cd "$LAM_TOP_BUILDDIR" AC_MSG_NOTICE([builddir: $LAM_TOP_BUILDDIR]) AC_MSG_NOTICE([srcdir: $LAM_TOP_SRCDIR]) if test "$LAM_TOP_BUILDDIR" != "$LAM_TOP_SRCDIR"; then AC_MSG_NOTICE([Detected VPATH build]) fi # Setup the top of the src/include/lam_config.h file AH_TOP([/* -*- c -*- * * $HEADER$ * * Function: - OS, CPU and compiler dependent configuration */ #ifndef LAM_CONFIG_H #define LAM_CONFIG_H ]) AH_BOTTOM([ #include "lam_config_bottom.h" #endif /* LAM_CONFIG_H */ ]) # Other basic setup stuff (shared with modules) LAM_BASIC_SETUP top_lam_srcdir="$LAM_TOP_SRCDIR" AC_SUBST(top_lam_srcdir) top_lam_builddir="$LAM_TOP_BUILDDIR" AC_SUBST(top_lam_builddir) ############################################################################ # Configuration options ############################################################################ LAM_CONFIGURE_OPTIONS ############################################################################ # Libtool: part one # (before C compiler setup) ############################################################################ # # Part one of libtool magic. Enable static so that we have the --with # tests done up here and can check for OS. Save the values of # $enable_static and $enable_shared before setting the defaults, # because if the user specified --[en|dis]able-[static|shared] on the # command line, they'll already be set. In this way, we can tell if # the user requested something or if the default was set here. # lam_enable_shared="$enable_shared" lam_enable_static="$enable_static" AM_DISABLE_SHARED AM_ENABLE_STATIC ############################################################################ # Check for compilers and preprocessors ############################################################################ ################################## # C compiler characteristics ################################## LAM_SETUP_CC # # Check for some types # AC_CHECK_TYPES(long long) AC_CHECK_TYPES(int8_t) AC_CHECK_TYPES(uint8_t) AC_CHECK_TYPES(int16_t) AC_CHECK_TYPES(uint16_t) AC_CHECK_TYPES(int32_t) AC_CHECK_TYPES(uint32_t) AC_CHECK_TYPES(int64_t) AC_CHECK_TYPES(uint64_t) AC_CHECK_TYPES(intptr_t) AC_CHECK_TYPES(uintptr_t) # # Check for type sizes # AC_CHECK_SIZEOF(char) AC_CHECK_SIZEOF(short) AC_CHECK_SIZEOF(int) AC_CHECK_SIZEOF(long) AC_CHECK_SIZEOF(long long) AC_CHECK_SIZEOF(void *) # # Check for type alignments # LAM_C_GET_ALIGNMENT(char, LAM_ALIGNMENT_CHAR) LAM_C_GET_ALIGNMENT(short, LAM_ALIGNMENT_SHORT) LAM_C_GET_ALIGNMENT(wchar_t, LAM_ALIGNMENT_WCHAR) LAM_C_GET_ALIGNMENT(int, LAM_ALIGNMENT_INT) LAM_C_GET_ALIGNMENT(long, LAM_ALIGNMENT_LONG) LAM_C_GET_ALIGNMENT(long long, LAM_ALIGNMENT_LONG_LONG) LAM_C_GET_ALIGNMENT(float, LAM_ALIGNMENT_FLOAT) LAM_C_GET_ALIGNMENT(double, LAM_ALIGNMENT_DOUBLE) LAM_C_GET_ALIGNMENT(long double, LAM_ALIGNMENT_LONG_DOUBLE) LAM_C_GET_ALIGNMENT(void *, LAM_ALIGNMENT_VOID_P) # # Check for other compiler characteristics # AC_C_INLINE AC_C_RESTRICT AC_CHECK_HEADERS(stdbool.h) LAM_C_WEAK_SYMBOLS # If we want the profiling layer: # - If the C compiler has weak symbols, use those. # - If not, then set to compile the code again with #define's in a # separate directory. if test "$WANT_WEAK_SYMBOLS" = "0"; then LAM_C_HAVE_WEAK_SYMBOLS=0 fi if test "$WANT_MPI_PROFILING" = "1"; then if test "$LAM_C_HAVE_WEAK_SYMBOLS" = "1"; then LAM_PROFILING_COMPILE_SEPARATELY=0 else LAM_PROFILING_COMPILE_SEPARATELY=1 fi else LAM_PROFILING_COMPILE_SEPARATELY=0 fi # # There are 2 layers to the MPI Language binidings # One layer generates MPI_* bindings. The other layer # generates PMPI_* bindings. The following conditions # determine whether each (or both) these layers are # built. # 1. MPI_* bindings are needed if: # - Profiling is not required # - Profiling is required but weak symbols are not # supported # 2. PMPI_* bindings are needed if profiling is required. # Hence we define 2 AM_CONDITIONALs which tell us whether # each of these layers need to be built or NOT # AM_CONDITIONAL(WANT_MPI_BINDINGS_LAYER, test "$WANT_MPI_PROFILING" = 0 -o "$LAM_PROFILING_COMPILE_SEPARATELY" = 1) AM_CONDITIONAL(WANT_PMPI_BINDINGS_LAYER, test "$WANT_MPI_PROFILING" = 1) AM_CONDITIONAL(COMPILE_PROFILING_SEPARATELY, test "$LAM_PROFILING_COMPILE_SEPARATELY" = 1) AC_DEFINE_UNQUOTED(LAM_ENABLE_MPI_PROFILING, $WANT_MPI_PROFILING, [Whether we want MPI profiling or not]) AC_DEFINE_UNQUOTED(LAM_HAVE_WEAK_SYMBOLS, $LAM_C_HAVE_WEAK_SYMBOLS, [Wehther we have weak symbols or not]) ################################## # C++ compiler characteristics ################################## LAM_SETUP_CXX # check for type sizes AC_LANG_SAVE AC_LANG_CPLUSPLUS AC_CHECK_SIZEOF(bool) # check for type alignments LAM_C_GET_ALIGNMENT(bool, LAM_ALIGNMENT_CXX_BOOL) AC_LANG_RESTORE ################################## # Fortran ################################## LAM_SIZEOF_FORTRAN_INT=0 LAM_SIZEOF_FORTRAN_REAL=0 LAM_SIZEOF_FORTRAN_DBLPREC=0 LAM_SIZEOF_FORTRAN_COMPLEX=0 LAM_SIZEOF_FORTRAN_DBLCOMPLEX=0 LAM_ALIGNMENT_FORTRAN_INTEGER=0 LAM_ALIGNMENT_FORTRAN_REAL=0 LAM_ALIGNMENT_FORTRAN_DBLPREC=0 LAM_ALIGNMENT_FORTRAN_COMPLEX=0 LAM_ALIGNMENT_FORTRAN_DBLCOMPLEX=0 LAM_SETUP_F77 if test "$F77" != "none" ; then LAM_F77_FIND_EXT_SYMBOL_CONVENTION($F77) # checking the sizeof fortran interger. This is needed to define # MPI_Fint. This is needed for C bindings and hence there is no # bearing of --enable-fortran flag on this test. LAM_F77_GET_SIZEOF(INTEGER, LAM_SIZEOF_FORTRAN_INT) fi # If we want fortran support, then get the sizes and alignments of all # the rest of the fortran types if test "$F77" != "none" -a "$WANT_MPI_F77" = "1"; then # INTEGER is already done, per above LAM_F77_GET_SIZEOF(REAL, LAM_SIZEOF_FORTRAN_REAL) LAM_F77_GET_SIZEOF(DOUBLE PRECISION, LAM_SIZEOF_FORTRAN_DBLPREC) LAM_F77_GET_SIZEOF(COMPLEX, LAM_SIZEOF_FORTRAN_COMPLEX) LAM_F77_GET_SIZEOF(DOUBLE COMPLEX, LAM_SIZEOF_FORTRAN_DBLCOMPLEX) LAM_F77_GET_ALIGNMENT(INTEGER, LAM_ALIGNMENT_FORTRAN_INT) LAM_F77_GET_ALIGNMENT(REAL, LAM_ALIGNMENT_FORTRAN_REAL) LAM_F77_GET_ALIGNMENT(DOUBLE PRECISION, LAM_ALIGNMENT_FORTRAN_DBLPREC) LAM_F77_GET_ALIGNMENT(COMPLEX, LAM_ALIGNMENT_FORTRAN_COMPLEX) LAM_F77_GET_ALIGNMENT(DOUBLE COMPLEX, LAM_ALIGNMENT_FORTRAN_DBLCOMPLEX) fi AC_DEFINE_UNQUOTED(LAM_SIZEOF_FORTRAN_INT, $LAM_SIZEOF_FORTRAN_INT, [Size of fortran integer]) AC_DEFINE_UNQUOTED(LAM_SIZEOF_FORTRAN_REAL, $LAM_SIZEOF_FORTRAN_REAL, [Size of fortran real]) AC_DEFINE_UNQUOTED(LAM_SIZEOF_FORTRAN_DBLPREC, $LAM_SIZEOF_FORTRAN_DBLPREC, [Size of fortran double precision]) AC_DEFINE_UNQUOTED(LAM_SIZEOF_FORTRAN_COMPLEX, $LAM_SIZEOF_FORTRAN_COMPLEX, [Size of fortran complex]) AC_DEFINE_UNQUOTED(LAM_SIZEOF_FORTRAN_DBLCOMPLEX, $LAM_SIZEOF_FORTRAN_DBLCOMPLEX, [Size of fortran double complex]) AC_DEFINE_UNQUOTED(LAM_ALIGNMENT_FORTRAN_INT, $LAM_ALIGNMENT_FORTRAN_INT, [Size of fortran integer]) AC_DEFINE_UNQUOTED(LAM_ALIGNMENT_FORTRAN_REAL, $LAM_ALIGNMENT_FORTRAN_REAL, [Size of fortran real]) AC_DEFINE_UNQUOTED(LAM_ALIGNMENT_FORTRAN_DBLPREC, $LAM_ALIGNMENT_FORTRAN_DBLPREC, [Size of fortran double precision]) AC_DEFINE_UNQUOTED(LAM_ALIGNMENT_FORTRAN_COMPLEX, $LAM_ALIGNMENT_FORTRAN_COMPLEX, [Size of fortran complex]) AC_DEFINE_UNQUOTED(LAM_ALIGNMENT_FORTRAN_DBLCOMPLEX, $LAM_ALIGNMENT_FORTRAN_DBLCOMPLEX, [Size of fortran double complex]) # # Fortran 90 setup # LAM_SETUP_F90 ################################## # Header files ################################## # snprintf declaration # gethostname declaration # headers: # stropts.h grh.h netinet/tcp.h sys/select.h sys/resource.h pty.h util.h # rpc/types.h rpc/xdr.h sched.h strings.h # SA_RESTART in signal.h # sa_len in struct sockaddr # union semun in sys/sem.h ################################## # Libraries ################################## # -lsocket # -lnsl # -lutil (openpty) # openpty # atexit # getcwd # snprintf # atoll # strtoll # yield # sched_yield # vscanf # # Make sure we can copy va_lists (need check declared, not linkable) # AC_CHECK_DECL(va_copy, LAM_HAVE_VA_COPY=1, LAM_HAVE_VA_COPY=0, [#include ]) AC_DEFINE_UNQUOTED(LAM_HAVE_VA_COPY, $LAM_HAVE_VA_COPY, [Whether we have va_copy or not]) AC_CHECK_DECL(__va_copy, LAM_HAVE_UNDERSCORE_VA_COPY=1, LAM_HAVE_UNDERSCORE_VA_COPY=0, [#include ]) AC_DEFINE_UNQUOTED(LAM_HAVE_UNDERSCORE_VA_COPY, $LAM_HAVE_UNDERSCORE_VA_COPY, [Whether we have __va_copy or not]) ################################## # System-specific tests ################################## lam_show_title "System-specific tests" # # Determine what MPI_Fint shout be defined as. If the size of # fortran integer is 4 then it is defined to either # int32_t or int. Similarly if the size of fortran integer # is 8 bytes then it is defined to either int64_t or int. # ac_cv_type_int32_t=yes implies that unint_32 was present. # similary ac_cv_type_int64_t=yes. Similarly the values # of ac_cv_sizeof_int will contain the size of int and later # this will be #defined to SIZEOF_INT. # NOTE: # This test should be carried out ONLY if there is a f77 compiler # available. Else we should default to MPI_Fint being an int. # if test "$F77" != "none"; then MPI_FINT_TYPE="not found" AC_MSG_CHECKING([checking for type of MPI_Fint]) if test "$LAM_SIZEOF_FORTRAN_INT" = 4 ; then if test "$ac_cv_type_int32_t" = "yes"; then MPI_FINT_TYPE=int32_t elif test "$ac_cv_sizeof_int" = 4 ; then MPI_FINT_TYPE=int fi elif test "$LAM_SIZEOF_FORTRAN_INT" = 8 ; then if test "$ac_cv_type_int64_t" = "yes"; then MPI_FINT_TYPE=int64_t elif test "$ac_cv_type_long_long" = "yes" -a "$ac_cv_sizeof_long_long" = 8; then MPI_FINT_TYPE="long long" elif test "$ac_cv_sizeof_long" = 8; then MPI_FINT_TYPE="long" elif test "$ac_cv_sizeof_int" = 8 ; then MPI_FINT_TYPE=int fi fi AC_MSG_RESULT([$MPI_FINT_TYPE]) if test "$MPI_FINT_TYPE" = "not found"; then AC_MSG_WARN([*** WARNING: Unable to find the right definition for MPI_Fint]) AC_MSG_ERROR([Cannot continue]) fi AC_DEFINE_UNQUOTED(MPI_Fint, $MPI_FINT_TYPE, [Type of MPI_Fint]) else AC_MSG_WARN([*** WARNING: Could not detect a f77 compiler. MPI_Fint will be defined as an int]) MPI_FINT_TYPE=int AC_DEFINE_UNQUOTED(MPI_Fint, $MPI_FINT_TYPE, [Type of MPI_Fint]) fi # # Test to determine type of MPI_Offset. This is searched in the following order # int64_t, long long, long, int. If none of these are 8 bytes, then we should # search for int32_t, long long, long, int. # MPI_OFFSET_TYPE="not found" AC_MSG_CHECKING([checking for type of MPI_Offset]) if test "$ac_cv_type_int64_t" == "yes"; then MPI_OFFSET_TYPE=int64_t elif test "$ac_cv_type_long_long_t" == "yes" -a "$ac_cv_sizeof_long_long" = 8; then MPI_OFFSET_TYPE="long long" elif test "$ac_cv_type_long_t" == "yes" -a "$ac_cv_sizeof_long" = 8; then MPI_OFFSET_TYPE="long" elif test "ac_cv_sizeof_int" = 8; then MPI_OFFSET_TYPE=int elif test "$ac_cv_type_int32_t" == "yes"; then MPI_OFFSET_TYPE=int32_t elif test "$ac_cv_type_long_long_t" == "yes" -a "$ac_cv_sizeof_long_long" = 4; then MPI_OFFSET_TYPE="long long" elif test "$ac_cv_type_long_t" == "yes" -a "$ac_cv_sizeof_long" = 4; then MPI_OFFSET_TYPE="long" elif test "ac_cv_sizeof_int" = 4; then MPI_OFFSET_TYPE=int fi AC_MSG_RESULT([$MPI_OFFSET_TYPE]) if test "$MPI_FINT_TYPE" = "not found"; then AC_MSG_WARN([*** WARNING: Unable to find the right definition for MPI_Offset]) AC_MSG_ERROR([Cannot continue]) fi AC_DEFINE_UNQUOTED(MPI_Offset, $MPI_OFFSET_TYPE, [Type of MPI_Offset]) # all: endian # all: SYSV semaphores # all: SYSV shared memory # all: thread flavor # all: size of FD_SET # all: FD passing (or not!!) # all: BSD vs. SYSV ptys # all: sizeof struct stat members # all: type of getsockopt optlen # all: type of recvfrom optlen # # Check out what thread support we have # LAM_CONFIG_THREADS CFLAGS="$CFLAGS $THREAD_CFLAGS" CXXFLAGS="$CXXFLAGS $THREAD_CXXFLAGS" CPPFLAGS="$CPPFLAGS $THREAD_CPPFLAGS" CXXCPPFLAGS="$CXXCPPFLAGS $THREAD_CXXCPPFLAGS" LDFLAGS="$LDFLAGS $THREAD_LDFLAGS" LIBS="$LIBS $THREAD_LIBS" WRAPPER_EXTRA_CFLAGS="$WRAPPER_EXTRA_CFLAGS $THREAD_CFLAGS" WRAPPER_EXTRA_CXXFLAGS="$WRAPPER_EXTRA_CXXFLAGS $THREAD_CXXFLAGS" WRAPPER_EXTRA_FFLAGS="$WRAPPER_EXTRA_FFLAGS $THREAD_FFLAGS" WRAPPER_EXTRA_LDFLAGS="$WRAPPER_EXTRA_LDFLAGS $THREAD_LDFLAGS" WRAPPER_EXTRA_LIBS="$WRAPPER_EXTRA_LIBS $THREAD_LIBS" # # What is the local equivalent of "ln -s" # AC_PROG_LN_S # # File system case sensitivity # LAM_CASE_SENSITIVE_FS_SETUP # AIX: FIONBIO in sys/ioctl.h # glibc: memcpy ################################## # MCA ################################## lam_show_title "MPI Component Architecture (MCA) setup" AC_MSG_CHECKING([for subdir args]) LAM_CONFIG_SUBDIR_ARGS([lam_subdir_args]) AC_MSG_RESULT([$lam_subdir_args]) LAM_MCA ############################################################################ # Final top-level LAM configuration ############################################################################ lam_show_title "Final top-level LAM configuration" ############################################################################ # Libevent setup ############################################################################ lam_show_subtitle "Libevent 3rd party event handler" CFLAGS_save="$CFLAGS" CFLAGS="$LAM_CFLAGS_BEFORE_PICKY" LAM_SETUP_LIBEVENT CFLAGS="$CFLAGS_save" ############################################################################ # Libtool: part two # (after C compiler setup) ############################################################################ lam_show_subtitle "Libtool configuration" # Use convenience libltdl for the moment, because we need to force the # use of the newest libltdl (i.e., the one that ships with libtool # 1.5) because it has support for a lot more things than older # versions of libtool (which are generally installed by default). AC_LIBLTDL_CONVENIENCE(src/libltdl) AC_SUBST(LTDLINCL) AC_SUBST(LIBLTDL) AC_LIBTOOL_DLOPEN AM_PROG_LIBTOOL # AC_CONFIG_SUBDIRS appears to be broken for non-gcc compilers (i.e., # passing precious variables down to the sub-configure). # # Note that we also did some magic scripty-foo in autogen.sh to rename # the output libtool library "liblamltdl", so add -llamltdl here. # This is because so many systems have older versions of libltdl # installed very early in ld.so's search path; if we installed our own # libltdl in some non-standard path (e.g., $HOME/local or even # /usr/local), the libltdl in /usr/lib might get found first. And if # it's older -- or just not matching the version that we need, Bad # Things happen. [sigh] # # Finally, make liblamltdl follow the same shared/static convention # that was user for the main LAM libraries. So manually examine # $enable_shared and $enable_static and pass down the corresponding # flags. lam_show_subtitle "GNU libltdl setup" lam_subdir_args="$lam_subdir_args --enable-ltdl-convenience --disable-ltdl-install" if test "$enable_shared" = "yes"; then lam_subdir_args="$lam_subdir_args --enable-shared" else lam_subdir_args="$lam_subdir_args --disable-shared" fi if test "$enable_static" = "yes"; then lam_subdir_args="$lam_subdir_args --enable-static" else lam_subdir_args="$lam_subdir_args --disable-static" fi CFLAGS_save="$CFLAGS" CFLAGS="$LAM_CFLAGS_BEFORE_PICKY" LAM_CONFIG_SUBDIR(src/libltdl, [$lam_subdir_args], [HAPPY=1], [HAPPY=0]) if test "$HAPPY" = "1"; then LIBLTDL_SUBDIR=libltdl LIBLTDL_LTLIB=libltdl/libltdlc.la WANT_LIBLTDL=1 # Arrgh. This is gross. But I can't think of any other way to do # it. :-( flags="`egrep ^LIBADD_DL src/libltdl/Makefile | cut -d= -f2-`" LAM_CHECK_LINKER_FLAGS([src/libltdl/libtool], [-export-dynamic $flags]) WRAPPER_EXTRA_LIBS="$WRAPPER_EXTRA_LIBS $extra_ldflags" LDFLAGS="-export-dynamic $LDFLAGS" else LIBLTDL_SUBDIR= LIBLTDL_LTLIB= WANT_LIBLTDL=0 fi CFLAGS="$CFLAGS_save" AC_SUBST(LIBLTDL_SUBDIR) AC_SUBST(LIBLTDL_LTLIB) AM_CONDITIONAL(WANT_LIBLTDL, test "$WANT_LIBLTDL" = "1") AC_DEFINE_UNQUOTED(LAM_WANT_LIBLTDL, $WANT_LIBLTDL, [Whether to include support for libltdl or not]) ############################################################################ # final wrapper compiler config ############################################################################ lam_show_subtitle "Wrapper compiler flags" # # This is needed for VPATH builds, so that it will -I the appropriate # include directory (don't know why automake doesn't do this # automatically). We delayed doing it until now just so that # '-I$(top_srcdir)' doesn't show up in any of the configure output -- # purely aesthetic. # CPPFLAGS='-I$(top_srcdir)/src -I$(top_srcdir)/src/include -I$(top_builddir)/src'" $CPPFLAGS" CXXCPPFLAGS='-I$(top_srcdir)/src -I$(top_srcdir)/src/include -I$(top_builddir)/src'" $CXXCPPFLAGS" # # Adding WRAPPER_* flags so that extra flags needed for wrappper compilers # # WRAPPER_EXTRA_CFLAGS # AC_MSG_CHECKING([for mpicc CFLAGS]) LAM_UNIQ(WRAPPER_EXTRA_CFLAGS) AC_SUBST(WRAPPER_EXTRA_CFLAGS) AC_DEFINE_UNQUOTED(WRAPPER_EXTRA_CFLAGS, "$WRAPPER_EXTRA_CFLAGS", [Additional CFLAGS to pass through the wrapper compilers]) AC_MSG_RESULT([$WRAPPER_EXTRA_CFLAGS]) # # WRAPPER_EXTRA_CXXFLAGS # AC_MSG_CHECKING([for mpiCC CXXFLAGS]) LAM_UNIQ(WRAPPER_EXTRA_CXXFLAGS) AC_SUBST(WRAPPER_EXTRA_CXXFLAGS) AC_DEFINE_UNQUOTED(WRAPPER_EXTRA_CXXFLAGS, "$WRAPPER_EXTRA_CXXFLAGS", [Additional CXXFLAGS to pass through the wrapper compilers]) AC_MSG_RESULT([$WRAPPER_EXTRA_CXXFLAGS]) # # WRAPPER_EXTRA_FFLAGS # AC_MSG_CHECKING([for mpif77/mpif90 FFLAGS]) LAM_UNIQ(WRAPPER_EXTRA_FFLAGS) AC_SUBST(WRAPPER_EXTRA_FFLAGS) AC_DEFINE_UNQUOTED(WRAPPER_EXTRA_FFLAGS, "$WRAPPER_EXTRA_FFLAGS", [Additional FFLAGS to pass through the wrapper compilers]) AC_MSG_RESULT([$WRAPPER_EXTRA_FFLAGS]) # # WRAPPER_EXTRA_LDFLAGS # AC_MSG_CHECKING([for wrapper compiler LDFLAGS]) LAM_UNIQ(WRAPPER_EXTRA_LDFLAGS) AC_SUBST(WRAPPER_EXTRA_LDFLAGS) AC_DEFINE_UNQUOTED(WRAPPER_EXTRA_LDFLAGS, "$WRAPPER_EXTRA_LDFLAGS", [Additional LDFLAGS to pass through the wrapper compilers]) AC_MSG_RESULT([$WRAPPER_EXTRA_LDFLAGS]) # # WRAPPER_EXTRA_LIBS # AC_MSG_CHECKING([for wrapper compiler LIBS]) AC_SUBST(WRAPPER_EXTRA_LIBS) AC_DEFINE_UNQUOTED(WRAPPER_EXTRA_LIBS, "$WRAPPER_EXTRA_LIBS", [Additional LIBS to pass through the wrapper compilers]) AC_MSG_RESULT([$WRAPPER_EXTRA_LIBS]) # # Delayed the substitution of CFLAGS and CXXFLAGS until now because # they may have been modified throughout the course of this script. # AC_SUBST(CFLAGS) AC_SUBST(CPPFLAGS) AC_SUBST(CXXFLAGS) AC_SUBST(CXXCPPFLAGS) AC_SUBST(FFLAGS) ############################################################################ # Party on ############################################################################ lam_show_subtitle "Final output" AM_CONFIG_HEADER([src/include/lam_config.h]) AC_CONFIG_FILES([ Makefile config/Makefile src/Makefile src/include/Makefile src/ctnetwork/Makefile src/lfc/Makefile src/mem/Makefile src/os/Makefile src/os/cygwin/Makefile src/os/darwin/Makefile src/os/darwin/ppc_32/Makefile src/os/darwin/ppc_64/Makefile src/os/irix/Makefile src/os/irix/sn0/Makefile src/os/linux/Makefile src/os/linux/alpha/Makefile src/os/linux/i686/Makefile src/os/linux/ia64/Makefile src/os/linux/x86_64/Makefile src/os/tru64/Makefile src/runtime/Makefile src/threads/Makefile src/util/Makefile src/event/Makefile src/event/compat/Makefile src/event/compat/sys/Makefile src/attribute/Makefile src/communicator/Makefile src/datatype/Makefile src/errhandler/Makefile src/group/Makefile src/info/Makefile src/op/Makefile src/proc/Makefile src/request/Makefile src/win/Makefile src/mca/Makefile src/mca/base/Makefile src/mca/common/Makefile src/mca/common/base/Makefile src/mca/oob/Makefile src/mca/oob/base/Makefile src/mca/pcm/Makefile src/mca/pcm/base/Makefile src/mca/registry/Makefile src/mca/registry/base/Makefile src/mca/coll/Makefile src/mca/coll/base/Makefile src/mca/io/Makefile src/mca/io/base/Makefile src/mca/one/Makefile src/mca/one/base/Makefile src/mca/pml/Makefile src/mca/pml/base/Makefile src/mca/ptl/Makefile src/mca/ptl/base/Makefile src/mca/topo/Makefile src/mca/topo/base/Makefile src/mpi/Makefile src/mpi/c/Makefile src/mpi/c/profile/Makefile src/mpi/cxx/Makefile src/mpi/f77/Makefile src/mpi/f77/profile/Makefile src/mpi/f90/Makefile src/tools/Makefile src/tools/laminfo/Makefile src/tools/mpirun/Makefile src/tools/wrappers/Makefile test/Makefile test/support/Makefile test/lam/Makefile test/lam/lfc/Makefile test/lam/threads/Makefile test/lam/util/Makefile test/mpi/Makefile test/mpi/environment/Makefile test/unit/Makefile test/unit/lam/Makefile test/unit/lam/oob_cofs/Makefile test/unit/lam/util/Makefile test/unit/mpi/Makefile test/unit/mpi/communicator/Makefile test/unit/mpi/datatype/Makefile ]) AC_OUTPUT