# StarPU --- Runtime system for heterogeneous multicore architectures. # # Copyright (C) 2011-2018 Inria # Copyright (C) 2009-2019 Université de Bordeaux # Copyright (C) 2017 Guillaume Beauchamp # Copyright (C) 2018 Federal University of Rio Grande do Sul (UFRGS) # Copyright (C) 2018 Umeà University # Copyright (C) 2010-2019 CNRS # Copyright (C) 2013 Thibaut Lambert # Copyright (C) 2011 Télécom-SudParis # # StarPU is free software; you can redistribute it and/or modify # it under the terms of the GNU Lesser General Public License as published by # the Free Software Foundation; either version 2.1 of the License, or (at # your option) any later version. # # StarPU is distributed in the hope that it will be useful, but # WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. # # See the GNU Lesser General Public License in COPYING.LGPL for more details. # AC_INIT([StarPU], [1.3.3], [starpu-devel@lists.gforge.inria.fr], [starpu], [http://runtime.bordeaux.inria.fr/StarPU/]) AC_CONFIG_SRCDIR(include/starpu.h) AC_CONFIG_AUX_DIR([build-aux]) # libtool doesn't actually properly manage a space in the workdir case `pwd` in *[[\\\"\#\$\&\'\`$am_lf\ \ ]]*) AC_MSG_ERROR([unsafe absolute working directory name]);; esac dnl Versioning. STARPU_MAJOR_VERSION="`echo $PACKAGE_VERSION | cut -d . -f 1`" STARPU_MINOR_VERSION="`echo $PACKAGE_VERSION | cut -d . -f 2`" STARPU_RELEASE_VERSION="`echo $PACKAGE_VERSION | cut -d . -f 3`" STARPU_RELEASE_VERSION="`echo $PACKAGE_VERSION | cut -d . -f 3| sed 's/rc.*//'`" dnl we do not want the rcXX in the release version. we would like to use sed -r 's/[a-z]+.*//' to remove any string but the -r option is not portable AC_SUBST([STARPU_MAJOR_VERSION]) AC_SUBST([STARPU_MINOR_VERSION]) AC_SUBST([STARPU_RELEASE_VERSION]) AC_SUBST([STARPU_EFFECTIVE_VERSION]) AC_DEFINE_UNQUOTED([STARPU_MAJOR_VERSION], [$STARPU_MAJOR_VERSION], [Major version number of StarPU.]) AC_DEFINE_UNQUOTED([STARPU_MINOR_VERSION], [$STARPU_MINOR_VERSION], [Minor version number of StarPU.]) AC_DEFINE_UNQUOTED([STARPU_RELEASE_VERSION], [$STARPU_RELEASE_VERSION], [Release version number of StarPU.]) . "$srcdir/STARPU-VERSION" AC_SUBST([LIBSTARPU_INTERFACE_CURRENT]) AC_SUBST([LIBSTARPU_INTERFACE_REVISION]) AC_SUBST([LIBSTARPU_INTERFACE_AGE]) AC_SUBST([LIBSTARPUMPI_INTERFACE_CURRENT]) AC_SUBST([LIBSTARPUMPI_INTERFACE_REVISION]) AC_SUBST([LIBSTARPUMPI_INTERFACE_AGE]) AC_SUBST([LIBSTARPUFFT_INTERFACE_CURRENT]) AC_SUBST([LIBSTARPUFFT_INTERFACE_REVISION]) AC_SUBST([LIBSTARPUFFT_INTERFACE_AGE]) AC_SUBST([LIBSTARPURM_INTERFACE_CURRENT]) AC_SUBST([LIBSTARPURM_INTERFACE_REVISION]) AC_SUBST([LIBSTARPURM_INTERFACE_AGE]) AC_SUBST([LIBSOCL_INTERFACE_CURRENT]) AC_SUBST([LIBSOCL_INTERFACE_REVISION]) AC_SUBST([LIBSOCL_INTERFACE_AGE]) AC_CANONICAL_SYSTEM dnl Automake 1.11 introduced `silent-rules' and `color-tests'. Use them dnl when they're available. dnl do not use option subdir-objects, it causes fortran compilation to fail m4_ifdef([AM_SILENT_RULES], [AM_INIT_AUTOMAKE([1.11 -Wall foreign silent-rules color-tests parallel-tests])], [AM_INIT_AUTOMAKE([1.10 -Wall foreign])]) m4_ifdef([AM_SILENT_RULES], [AM_SILENT_RULES(yes)]) AC_PREREQ(2.64) m4_ifdef([AM_PROG_AR], [AM_PROG_AR]) AC_PROG_CC AM_PROG_CC_C_O AC_PROG_CXX AC_PROG_CPP AC_PROG_SED AC_PROG_LN_S AC_PROG_F77 AC_PROG_FC AC_PROG_GREP AC_PROG_EGREP AC_PROG_INSTALL AC_PROG_MKDIR_P AC_CHECK_PROGS(PROG_STAT,gstat stat) AC_CHECK_PROGS(PROG_DATE,gdate date) dnl locate pkg-config PKG_PROG_PKG_CONFIG if test x$enable_perf_debug = xyes; then enable_shared=no fi default_enable_mpi_check=maybe ############################################################################### # # # Drivers # # # ############################################################################### AC_ARG_ENABLE(opencl-simulator, [AS_HELP_STRING([--enable-opencl-simulator], [Enable the use of an OpenCL simulator])], enable_opencl_simulator=$enableval, enable_opencl_simulator=no) if test x$enable_opencl_simulator = xyes; then enable_simgrid=yes AC_DEFINE(STARPU_OPENCL_SIMULATOR, [1], [Define this to enable using an OpenCL simulator]) fi AC_ARG_WITH(simgrid-dir, [AS_HELP_STRING([--with-simgrid-dir=], [specify SimGrid installation directory])], [ simgrid_dir="$withval" # in case this was not explicit yet enable_simgrid=yes ], simgrid_dir=no) AC_ARG_WITH(simgrid-include-dir, [AS_HELP_STRING([--with-simgrid-include-dir=], [specify where SimGrid headers are installed])], [ simgrid_include_dir="$withval" # in case this was not explicit yet enable_simgrid=yes ], [simgrid_include_dir=no]) AC_ARG_WITH(simgrid-lib-dir, [AS_HELP_STRING([--with-simgrid-lib-dir=], [specify where SimGrid libraries are installed])], [ simgrid_lib_dir="$withval" # in case this was not explicit yet enable_simgrid=yes ], [simgrid_lib_dir=no]) AC_ARG_ENABLE(simgrid, [AS_HELP_STRING([--enable-simgrid], [Enable simulating execution in simgrid])], enable_simgrid=$enableval, enable_simgrid=no) if test x$enable_simgrid = xyes ; then if test -n "$SIMGRID_CFLAGS" ; then CFLAGS="$SIMGRID_CFLAGS $CFLAGS" CXXFLAGS="$SIMGRID_CFLAGS $CXXFLAGS" NVCCFLAGS="$SIMGRID_CFLAGS $NVCCFLAGS" fi if test -n "$SIMGRID_LIBS" ; then LDFLAGS="$SIMGRID_LIBS $LDFLAGS" fi if test "$simgrid_dir" != "no" ; then CFLAGS="-I$simgrid_dir/include $CFLAGS" CXXFLAGS="-I$simgrid_dir/include $CXXFLAGS" NVCCFLAGS="-I$simgrid_dir/include $NVCCFLAGS" LDFLAGS="-L$simgrid_dir/lib $LDFLAGS" fi if test "$simgrid_include_dir" != "no" ; then CFLAGS="-I$simgrid_include_dir $CFLAGS" CXXFLAGS="-I$simgrid_include_dir $CXXFLAGS" NVCCFLAGS="-I$simgrid_include_dir $NVCCFLAGS" fi if test "$simgrid_lib_dir" != "no" ; then LDFLAGS="-L$simgrid_lib_dir $LDFLAGS" fi AC_HAVE_LIBRARY([simgrid], [], [ AC_MSG_ERROR(Simgrid support needs simgrid installed) ] ) AC_CHECK_HEADERS([simgrid/msg.h], [AC_DEFINE([STARPU_HAVE_SIMGRID_MSG_H], [1], [Define to 1 if you have msg.h in simgrid/.])]) AC_CHECK_HEADERS([simgrid/host.h], [AC_DEFINE([STARPU_HAVE_SIMGRID_HOST_H], [1], [Define to 1 if you have host.h in simgrid/.])]) AC_CHECK_HEADERS([simgrid/simdag.h], [AC_DEFINE([STARPU_HAVE_SIMGRID_SIMDAG_H], [1], [Define to 1 if you have simdag.h in simgrid/.])]) AC_CHECK_HEADERS([xbt/synchro.h], [AC_DEFINE([STARPU_HAVE_XBT_SYNCHRO_H], [1], [Define to 1 if you have synchro.h in xbt/.])]) AC_CHECK_HEADERS([simgrid/actor.h], [AC_DEFINE([STARPU_HAVE_SIMGRID_ACTOR_H], [1], [Define to 1 if you have actor.h in simgrid/.])]) AC_CHECK_HEADERS([simgrid/semaphore.h], [AC_DEFINE([STARPU_HAVE_SIMGRID_SEMAPHORE_H], [1], [Define to 1 if you have semaphore.h in simgrid/.])]) AC_CHECK_HEADERS([simgrid/mutex.h], [AC_DEFINE([STARPU_HAVE_SIMGRID_MUTEX_H], [1], [Define to 1 if you have mutex.h in simgrid/.])]) AC_CHECK_HEADERS([simgrid/cond.h], [AC_DEFINE([STARPU_HAVE_SIMGRID_COND_H], [1], [Define to 1 if you have cond.h in simgrid/.])]) AC_CHECK_HEADERS([simgrid/barrier.h], [AC_DEFINE([STARPU_HAVE_SIMGRID_BARRIER_H], [1], [Define to 1 if you have barrier.h in simgrid/.])]) AC_CHECK_HEADERS([simgrid/engine.h]) AC_CHECK_TYPES([smx_actor_t], [AC_DEFINE([STARPU_HAVE_SMX_ACTOR_T], [1], [Define to 1 if you have the smx_actor_t type.])], [], [[#include ]]) # Latest functions AC_CHECK_FUNCS([MSG_process_attach MSG_zone_get_hosts MSG_process_self_name MSG_process_userdata_init]) AC_CHECK_FUNCS([xbt_mutex_try_acquire smpi_process_set_user_data sg_zone_get_by_name sg_link_name sg_host_route sg_host_self sg_host_speed simcall_process_create sg_config_continue_after_help]) AC_CHECK_FUNCS([xbt_barrier_init], [AC_DEFINE([STARPU_SIMGRID_HAVE_XBT_BARRIER_INIT], [1], [Define to 1 if you have the `xbt_barrier_init' function.])]) AC_CHECK_FUNCS([sg_actor_sleep_for sg_actor_self sg_actor_ref sg_host_get_properties sg_host_send_to sg_cfg_set_int sg_actor_self_execute simgrid_get_clock]) AC_CHECK_DECLS([smpi_process_set_user_data], [], [], [[#include ]]) # Oldies for compatibility with older simgrid AC_CHECK_FUNCS([MSG_get_as_by_name MSG_zone_get_by_name MSG_environment_get_routing_root MSG_host_get_speed]) AC_COMPILE_IFELSE([AC_LANG_PROGRAM( [[ #ifdef STARPU_HAVE_SIMGRID_MSG_H #include #else #include #endif ]], [[msg_host_t foo; ]] )], [], [ AC_MSG_ERROR(StarPU needs a version of Simgrid which defines the type msg_host_t (should be any version >= 3.8.1)) ]) AC_DEFINE(STARPU_SIMGRID, [1], [Define this to enable simgrid execution]) # We won't bind or detect anything with_hwloc=no # disable mpi checks by default, they require static linking, we don't # want that by default default_enable_mpi_check=no # Simgrid 3.12 & 3.13 need -std=c++11 to be able to build anything in C++... AC_LANG_PUSH([C++]) if test x$enable_shared = xno ; then # When linking statically, libtool does not realize we need libstdc++ for simgrid_cpp.cpp SIMGRID_LIBS="$SIMGRID_LIBS -lstdc++" LIBS="$LIBS -lstdc++" fi case \ $CXXFLAGS\ in *\ -std=*\ *) ;; *) AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[ #ifdef STARPU_HAVE_SIMGRID_MSG_H #include #include #else #include #endif ]])],, CXXFLAGS="-std=c++11 $CXXFLAGS") ;; esac AC_LANG_POP([C++]) AC_ARG_ENABLE(simgrid-mc, [AS_HELP_STRING([--enable-simgrid-mc], [Enable using Model Checker of simgrid])], enable_simgrid_mc=$enableval, enable_simgrid_mc=no) if test x$enable_simgrid_mc = xyes ; then AC_DEFINE(STARPU_SIMGRID_MC, [1], [Define this to enable Model Checker in simgrid execution]) AC_PATH_PROG([SIMGRID_MC], [simgrid-mc], [no], [$simgrid_dir/bin:$PATH]) LDFLAGS="$LDFLAGS -Wl,-znorelro -Wl,-znoseparate-code" fi fi AM_CONDITIONAL(STARPU_SIMGRID_MC, test x$enable_simgrid_mc = xyes) AM_CONDITIONAL(STARPU_SIMGRID, test x$enable_simgrid = xyes) AC_SUBST(SIMGRID_CFLAGS) AC_SUBST(SIMGRID_LIBS) AC_MSG_CHECKING(whether SimGrid is enabled) AC_MSG_RESULT($enable_simgrid) AC_MSG_CHECKING(whether blocking drivers should be enabled) AC_ARG_ENABLE(blocking-drivers, [AS_HELP_STRING([--enable-blocking-drivers], [enable blocking drivers])], enable_blocking=$enableval, enable_blocking=$enable_simgrid) AC_MSG_RESULT($enable_blocking) if test x$enable_blocking = xno ; then AC_DEFINE(STARPU_NON_BLOCKING_DRIVERS, [1], [drivers must progress]) fi if test x$enable_blocking = xyes ; then AC_MSG_CHECKING(whether worker callbacks should be enabled) AC_ARG_ENABLE(worker-callbacks, [AS_HELP_STRING([--enable-worker-callbacks], [enable worker callbacks])], enable_worker_cb=$enableval, enable_worker_cb=no) AC_MSG_RESULT($enable_worker_cb) else # worker sleep/wake-up callbacks only make sense if blocking drivers are enabled enable_worker_cb=no fi if test x$enable_worker_cb = xyes ; then AC_DEFINE(STARPU_WORKER_CALLBACKS, [1], [workers must call callbacks on sleep/wake-up]) fi ############################################################################### # # # MPI # # # ############################################################################### AC_ARG_ENABLE(mpi, [AS_HELP_STRING([--disable-mpi], [Disable StarPU MPI library generation])], [enable_mpi=$enableval], [enable_mpi=yes]) AC_ARG_ENABLE(mpi-master-slave, [AS_HELP_STRING([--enable-mpi-master-slave], [Enable StarPU to run with the master-slave mode])], use_mpi_master_slave=$enableval, use_mpi_master_slave=no) #Check MPICC AC_ARG_WITH(mpicc, [AS_HELP_STRING([--with-mpicc[=]], [Path of the mpicc compiler])], [ if test x$withval = xyes; then AC_MSG_ERROR(--with-mpicc must be given a pathname) elif test x$withval = xno ; then mpi_requested=no mpicc_path="" use_mpi=no else mpi_requested=yes mpicc_path=$withval fi ], [ mpi_requested=maybe if test x$enable_simgrid = xyes ; then DEFAULT_MPICC=smpicc else DEFAULT_MPICC=mpicc fi # nothing was specified: default value is used AC_PATH_PROG(mpicc_path, $DEFAULT_MPICC, [no], [$simgrid_dir/bin:$PATH]) ]) # in case MPI was explicitely required, but is not available, this is an error if test x$mpi_requested = xyes -a ! -x "$mpicc_path"; then AC_MSG_ERROR([Compiler MPI not valid]) fi if test x$mpi_requested != xno ; then # We test if the MPICC compiler exists if test ! -x $mpicc_path; then #MPICC does not exists or is not executable AC_MSG_RESULT(The mpicc compiler '$mpicc_path' does not have the execute permission) use_mpi=no else use_mpi=yes if test x$enable_simgrid = xyes ; then AC_ARG_WITH(smpirun, [AS_HELP_STRING([--with-smpirun[=]], [Path of the smpirun helper])], [ if test x$withval = xyes; then AC_MSG_ERROR(--with-smpirun must be given a pathname) else smpirun_path=$withval fi ], [ # nothing was specified: default value is used AC_PATH_PROG(smpirun_path, smpirun, [no], [$simgrid_dir/bin:$PATH]) ]) fi fi fi AC_MSG_CHECKING(mpicc path) AC_MSG_RESULT($mpicc_path) AC_SUBST(MPICC, $mpicc_path) #Check MPICXX/MPIC++ AC_ARG_WITH(mpicxx, [AS_HELP_STRING([--with-mpicxx[=]], [Path of the mpicxx/mpic++ compiler])], [ if test x$withval = xyes; then AC_MSG_ERROR(--with-mpicxx must be given a pathname) else mpicxx_path=$withval fi ], [ if test x$enable_simgrid = xyes ; then DEFAULT_MPICXX=smpicxx else DEFAULT_MPICXX=mpicxx fi # nothing was specified: default value is used AC_PATH_PROG(mpicxx_path, $DEFAULT_MPICXX, [no], [$simgrid_dir/bin:$PATH]) # try with mpic++ if mpicxx was not found if test x$mpicxx_path = xno ; then DEFAULT_MPICXX=mpic++ AC_PATH_PROG(mpicxx_path, $DEFAULT_MPICXX, [no], [$simgrid_dir/bin:$PATH]) fi ]) # We test if the MPICXX/MPIC++ compiler exists if test ! -x $mpicxx_path; then #MPICXX/MPIC++ does not exists or is not executable AC_MSG_RESULT(The mpicxx compiler '$mpicxx_path' does not have the execute permission) use_mpicxx=no else use_mpicxx=yes fi AC_MSG_CHECKING(mpicxx/mpic++ path) AC_MSG_RESULT($mpicxx_path) AC_SUBST(MPICXX, $mpicxx_path) if test x$use_mpi = xyes -a \( x$enable_mpi = xyes -o x$use_mpi_master_slave = xyes \) ; then cc_or_mpicc=$mpicc_path # For some reason, libtool uses gcc instead of mpicc when linking # libstarpumpi. # On Darwin (and maybe other systems ?) the linker will fail (undefined # references to MPI_*). We manually add the required flags to fix this # issue. AC_SUBST(MPICC_LDFLAGS, `$mpicc_path --showme:link`) else cc_or_mpicc=$CC fi AC_SUBST(CC_OR_MPICC, $cc_or_mpicc) AC_ARG_ENABLE(mpi-pedantic-isend, [AS_HELP_STRING([--enable-mpi-pedantic-isend], [Enable StarPU MPI pedantic isend])], enable_mpi_pedantic_isend=$enableval, enable_mpi_pedantic_isend=no) if test x$enable_mpi_pedantic_isend = xyes; then AC_DEFINE(STARPU_MPI_PEDANTIC_ISEND, [1], [enable StarPU MPI pedantic isend]) fi #We can only build MPI Master Slave if User wants it and MPI is available if test x$use_mpi_master_slave = xyes -a x$use_mpi = xyes -a x$use_mpicxx = xyes; then build_mpi_master_slave=yes else build_mpi_master_slave=no fi #users cannot use both at the same time if test x$build_mpi_master_slave = xyes -a x$enable_mpi = xyes; then AC_MSG_WARN(StarPU-MPI and MPI Master-Slave cannot be used at the same time ! Disabling StarPU-MPI...) enable_mpi=no fi if test x$build_mpi_master_slave = xyes; then AC_DEFINE(STARPU_USE_MPI_MASTER_SLAVE, [1], [MPI Master Slave support is enabled]) CC=$mpicc_path CCLD=$mpicc_path CXX=$mpicxx_path CXXLD=mpicxx_path fi AC_ARG_WITH(mpi-master-slave-multiple-thread, [AS_HELP_STRING([--with-mpi-master-slave-multiple-thread])], [AC_DEFINE([STARPU_MPI_MASTER_SLAVE_MULTIPLE_THREAD], [1], [Use multiple threads to communicate with slaves])]) AC_MSG_CHECKING(whether the master-slave mode should be enabled) AC_MSG_RESULT($build_mpi_master_slave) AM_CONDITIONAL([STARPU_USE_MPI_MASTER_SLAVE], [test x$build_mpi_master_slave = xyes]) AC_MSG_CHECKING(maximum number of MPI master-slave devices) AC_ARG_ENABLE(maxmpidev, [AS_HELP_STRING([--enable-maxmpidev=], [maximum number of MPI master-slave devices])], nmaxmpidev=$enableval, [ if test x$build_mpi_master_slave = xyes; then nmaxmpidev=4 else nmaxmpidev=0 fi ]) AC_MSG_RESULT($nmaxmpidev) AC_DEFINE_UNQUOTED(STARPU_MAXMPIDEVS, [$nmaxmpidev], [maximum number of MPI devices]) ############################################################################### # # # NEW MADELEINE # # # ############################################################################### AC_ARG_ENABLE(nmad, [AS_HELP_STRING([--enable-nmad], [Enable StarPU MPI library generation using new madeleine instead of mpi])], [enable_nmad=$enableval], [enable_nmad=no]) if test x$use_mpi = xyes -a \( x$enable_nmad \) ; then cc_or_mpicc=$mpicc_path # For some reason, libtool uses gcc instead of mpicc when linking # libstarpumpi. # On Darwin (and maybe other systems ?) the linker will fail (undefined # references to MPI_*). We manually add the required flags to fix this # issue. AC_SUBST(MPICC_LDFLAGS, `$mpicc_path --showme:link`) else cc_or_mpicc=$CC fi build_nmad_lib=no AC_SUBST(CC_OR_MPICC, $cc_or_mpicc) #We can only build StarPU MPI Library if User wants it and MPI is available if test x$use_mpi = xyes -a x$enable_nmad = xyes ; then build_nmad_lib=yes enable_mpi=no PKG_CHECK_MODULES([NMAD],[nmad]) else build_nmad_lib=no fi # in case NMAD was explicitely required, but the compiler MPI, this is an error if test x$enable_nmad = xyes -a ! -x "$mpicc_path"; then AC_MSG_ERROR([Compiler MPI not valid]) fi AC_MSG_CHECKING(whether the StarPU MPI nmad library should be generated) AC_MSG_RESULT($build_nmad_lib) ############################################################################### # # # LIBTOOLS # # # ############################################################################### #c++11 detection AX_CXX_COMPILE_STDCXX(11,noext,optional) AC_SUBST([STARPU_HAVE_CXX11], $HAVE_CXX11) AM_CONDITIONAL([STARPU_HAVE_CXX11], [test "$HAVE_CXX11" -eq 1]) if test $HAVE_CXX11 -eq 1; then AC_DEFINE(STARPU_HAVE_CXX11, [1], [compiler supports cxx11]) fi LT_PREREQ([2.2]) LT_INIT([win32-dll]) AC_HEADER_STDC AC_C_RESTRICT # Check if bash is available AC_PATH_PROG([REALBASH], [bash], , [/bin:$PATH]) # Record git version AC_PATH_PROG(gitcommand, git) if test "$gitcommand" = "" ; then if test -f $srcdir/STARPU-REVISION ; then cp $srcdir/STARPU-REVISION . else echo "unknown" > ./STARPU-REVISION fi else git log -n 1 --pretty="%H" $srcdir > ./STARPU-REVISION fi AM_CONDITIONAL([STARPU_CROSS_COMPILING], [test "x$cross_compiling" = "xyes"]) ############################################################################### # # # Miscellaneous things for MPI # # # ############################################################################### # If the user specifically asks for it, or if we are in a developer checkout, we enable mpi check AC_ARG_ENABLE(mpi-check, AC_HELP_STRING([--enable-mpi-check], [Enable execution of MPI testcases]), [enable_mpi_check=$enableval], [enable_mpi_check=$default_enable_mpi_check]) running_mpi_check=no if test -d "$srcdir/.git" -o -f "$srcdir/.git"; then running_mpi_check=yes fi if test x$enable_mpi_check = xyes ; then running_mpi_check=yes fi if test x$enable_mpi_check = xno ; then running_mpi_check=no fi if test x$enable_simgrid = xno ; then # Check if mpiexec is available AC_ARG_WITH(mpiexec, [AS_HELP_STRING([--with-mpiexec[=]], [Path of mpiexec])], [ if test x$withval = xyes; then AC_MSG_ERROR(--with-mpiexec must be given a pathname) else mpiexec_path=$withval fi ], [ # nothing was specified: look in the path if test x$mpicc_path = x ; then AC_PATH_PROG(mpiexec_path, mpiexec, [no], [$PATH]) else AC_PATH_PROG(mpiexec_path, mpiexec, [no], [$(dirname $mpicc_path):$PATH]) fi ]) AC_MSG_CHECKING(whether mpiexec is available) AC_MSG_RESULT($mpiexec_path) # We test if MPIEXEC exists if test ! -x $mpiexec_path; then # if it's not valid, it could be the parameter given to configure.ac was not a full path, let's look for it if test x$mpicc_path = x ; then AC_PATH_PROG(mpiexec_path_bis, $mpiexec_path, [no], [$PATH]) else AC_PATH_PROG(mpiexec_path_bis, $mpiexec_path, [no], [$(dirname $mpicc_path):$PATH]) fi AC_MSG_CHECKING(whether mpiexec is available (2nd try)) AC_MSG_RESULT($mpiexec_path_bis) if test -x $mpiexec_path_bis; then mpiexec_path=$mpiexec_path_bis else #MPIEXEC does not exists or is not executable AC_MSG_RESULT(The mpiexec script is not valid) running_mpi_check=no mpiexec_path="" fi fi AC_SUBST(MPIEXEC,$mpiexec_path) fi AM_CONDITIONAL(STARPU_MPI_CHECK, test x$running_mpi_check = xyes) if test x$running_mpi_check = xyes -a x$enable_simgrid = xyes ; then if test x$enable_shared = xyes ; then AC_MSG_ERROR([MPI with simgrid can not work with shared libraries, use --disable-shared to fix this]) else CFLAGS="$CFLAGS -fPIC" CXXFLAGS="$CXXFLAGS -fPIC" NVCCFLAGS="$NVCCFLAGS --compiler-options -fPIC" fi fi if test x$use_mpi = xyes ; then AC_MSG_CHECKING(whether MPI tests should be run) AC_MSG_RESULT($running_mpi_check) fi #We can only build StarPU MPI Library if User wants it and MPI is available if test x$use_mpi = xyes -a x$enable_mpi = xyes ; then build_mpi_lib=yes else build_mpi_lib=no fi AC_MSG_CHECKING(whether the StarPU MPI library should be generated) AC_MSG_RESULT($build_mpi_lib) AM_CONDITIONAL(USE_MPI, test x$build_mpi_lib = xyes -o x$build_nmad_lib = xyes) if test x$build_mpi_lib = xyes -o x$build_nmad_lib = xyes ; then AC_DEFINE(STARPU_USE_MPI,[1],[whether the StarPU MPI library is available]) if test x$build_mpi_lib = xyes ; then AC_DEFINE(STARPU_USE_MPI_MPI,[1],[whether the StarPU MPI library (with a native MPI implementation) is available]) else AC_DEFINE(STARPU_USE_MPI_NMAD,[1],[whether the StarPU MPI library (with a NewMadeleine implementation) is available]) fi else running_mpi_check=no fi AM_CONDITIONAL(STARPU_USE_MPI_MPI, test x$build_mpi_lib = xyes) AM_CONDITIONAL(STARPU_USE_MPI_NMAD, test x$build_nmad_lib = xyes) AM_CONDITIONAL(STARPU_USE_MPI, test x$build_nmad_lib = xyes -o x$build_mpi_lib = xyes) AC_ARG_WITH(mpiexec-args, [AS_HELP_STRING([--with-mpiexec-args[=]], [Arguments for mpiexec])], [ mpiexec_args=$withval ]) AC_SUBST(MPIEXEC_ARGS,$mpiexec_args) AC_MSG_CHECKING(whether MPI debug messages should be displayed) AC_ARG_ENABLE(mpi-verbose, [AS_HELP_STRING([--enable-mpi-verbose], [display MPI verbose debug messages (--enable-mpi-verbose=extra increase the verbosity)])], enable_mpi_verbose=$enableval, enable_mpi_verbose=no) AC_MSG_RESULT($enable_mpi_verbose) if test x$enable_mpi_verbose = xyes; then AC_DEFINE(STARPU_MPI_VERBOSE, [1], [display MPI verbose debug messages]) fi if test x$enable_mpi_verbose = xextra; then AC_DEFINE(STARPU_MPI_VERBOSE, [1], [display MPI verbose debug messages]) AC_DEFINE(STARPU_MPI_EXTRA_VERBOSE, [1], [display MPI verbose debug messages]) fi ############################################################################### # # # MIC device compilation # # (Must be done in beginning to change prefix in the whole configuration) # # # ############################################################################### AC_ARG_ENABLE(mic, [AS_HELP_STRING([--enable-mic], [use MIC device(s)])], [enable_mic=$enableval], [enable_mic=no]) AC_ARG_ENABLE(mic-rma, [AS_HELP_STRING([--disable-mic-rma], [disable MIC RMA transfer])], [enable_mic_rma=$enableval], [enable_mic_rma=yes]) if test x$enable_mic = xyes ; then AC_DEFINE(STARPU_USE_MIC, [1], [MIC workers support is enabled]) fi if test x$enable_mic_rma = xyes ; then AC_DEFINE([STARPU_MIC_USE_RMA], [1], [MIC RMA transfer is enable]) fi AM_CONDITIONAL([STARPU_USE_MIC], [test "x$enable_mic" = "xyes"]) ############################################################################### ############################################################################### # # # NUMA memory nodes # # # ############################################################################### AC_MSG_CHECKING(maximum number of NUMA nodes) AC_ARG_ENABLE(maxnumanodes, [AS_HELP_STRING([--enable-maxnumanodes=], [maximum number of NUMA nodes])], nmaxnumanodes=$enableval, nmaxnumanodes=2) AC_MSG_RESULT($nmaxnumanodes) AC_DEFINE_UNQUOTED(STARPU_MAXNUMANODES, [$nmaxnumanodes], [maximum number of NUMA nodes]) ############################################################################### AC_PATH_PROGS([STARPU_MS_LIB], [lib]) AC_ARG_VAR([STARPU_MS_LIB], [Path to Microsoft's Visual Studio `lib' tool]) AM_CONDITIONAL([STARPU_HAVE_MS_LIB], [test "x$STARPU_MS_LIB" != "x"]) case "$target" in *-*-mingw*|*-*-cygwin*) starpu_windows=yes libext=a AC_DEFINE(STARPU_HAVE_WINDOWS, [1], [Define this on windows.]) ;; *-*-linux*) starpu_linux=yes AC_DEFINE(STARPU_LINUX_SYS, [1], [Define to 1 on Linux]) ;; *-*-openbsd*) starpu_openbsd=yes AC_DEFINE(STARPU_OPENBSD_SYS, [1], [Define to 1 on OpenBSD systems]) ;; *-*darwin*) starpu_darwin=yes AC_DEFINE(STARPU_HAVE_DARWIN, [1], [Define this on darwin.]) ;; esac AM_CONDITIONAL([STARPU_HAVE_WINDOWS], [test "x$starpu_windows" = "xyes"]) AM_CONDITIONAL([STARPU_LINUX_SYS], [test "x$starpu_linux" = "xyes"]) AM_CONDITIONAL([STARPU_HAVE_DARWIN], [test "x$starpu_darwin" = "xyes"]) AM_CONDITIONAL([STARPU_OPENBSD_SYS], [test "x$starpu_openbsd" = "xyes"]) # on Darwin, GCC targets i386 by default, so we don't have atomic ops AC_CHECK_SIZEOF([void *]) SIZEOF_VOID_P=$ac_cv_sizeof_void_p case $SIZEOF_VOID_P in 4) case "$target" in i386-*darwin*) CFLAGS+=" -march=i686 " ;; esac STARPU_MS_LIB_ARCH=X86 ;; 8) STARPU_MS_LIB_ARCH=X64 ;; esac AC_SUBST(STARPU_MS_LIB_ARCH) # This will be useful for program which use CUDA (and .cubin files) which need # some path to the CUDA code at runtime. AC_DEFINE_UNQUOTED(STARPU_BUILD_DIR, "$PWD", [location of StarPU build directory]) AC_SUBST(STARPU_BUILD_DIR, $PWD) case "${srcdir}" in /*) AC_DEFINE_UNQUOTED(STARPU_SRC_DIR, "$(eval echo ${srcdir})", [location of StarPU sources]) AC_SUBST(STARPU_SRC_DIR, "$(eval echo ${srcdir})") ;; *) AC_DEFINE_UNQUOTED(STARPU_SRC_DIR, "$(eval echo $PWD/${srcdir})", [location of StarPU sources]) AC_SUBST(STARPU_SRC_DIR, "$(eval echo $PWD/${srcdir})") ;; esac case "$target" in *-*-mingw*|*-*-cygwin*) AC_ARG_ENABLE(native-winthreads, [AS_HELP_STRING([--enable-native-winthreads], [Use native windows threads instead of pthread])], enable_native_winthreads=$enableval, enable_native_winthreads=no) ;; esac if test x"$enable_native_winthreads" != xyes ; then INCLUDE_PTHREAD_H='#include ' fi AC_CHECK_HEADERS([unistd.h], [AC_DEFINE([STARPU_HAVE_UNISTD_H], [1], [Define to 1 if you have the header file.])]) AC_CHECK_TYPE([struct timespec], AC_DEFINE(STARPU_HAVE_STRUCT_TIMESPEC,[1],[struct timespec is defined]), [], [ #include #include #ifdef HAVE_UNISTD_H #include #endif #include $INCLUDE_PTHREAD_H ]) if test x"$enable_native_winthreads" = xyes ; then CPPFLAGS+=" -I$STARPU_SRC_DIR/include/pthread_win32 " AC_COMPILE_IFELSE( [AC_LANG_PROGRAM([[ #define STARPU_CONFIGURE #include ]], [[ pthread_t t; pthread_create(&t, NULL, NULL, NULL); ]])], AC_DEFINE(STARPU_NATIVE_WINTHREADS,[1],[Using native windows threads]), AC_MSG_ERROR([pthread_create unavailable])) else AC_CHECK_LIB([pthread], [pthread_create]) fi AC_SEARCH_LIBS([sqrt],[m],,AC_MSG_ERROR([math library unavailable])) AC_HAVE_LIBRARY([ws2_32]) AC_CHECK_FUNCS([sysconf]) AC_CHECK_FUNCS([getrlimit]) AC_CHECK_FUNCS([scandir]) AC_CHECK_FUNC([pthread_spin_lock], have_pthread_spin_lock=yes, have_pthread_spin_lock=no) if test x$have_pthread_spin_lock = xyes; then AC_DEFINE(HAVE_PTHREAD_SPIN_LOCK,[1],[pthread_spin_lock is available]) AC_DEFINE(STARPU_HAVE_PTHREAD_SPIN_LOCK,[1],[pthread_spin_lock is available]) fi AC_CHECK_FUNC([pthread_barrier_init], have_pthread_barrier=yes, have_pthread_barrier=no) if test x$have_pthread_barrier = xyes; then AC_DEFINE(STARPU_HAVE_PTHREAD_BARRIER,[1],[pthread_barrier is available]) fi # yes, that's non portable, but it's still better than sched_setaffinity AC_CHECK_FUNCS(pthread_setaffinity_np) AC_CHECK_FUNC([pthread_setname_np], have_pthread_setname_np=yes, have_pthread_setname_np=no) if test x$have_pthread_setname_np = xyes; then AC_DEFINE(STARPU_HAVE_PTHREAD_SETNAME_NP,[1],[pthread_setname_np is available]) fi # There is no posix_memalign on Mac OS X, only memalign AC_CHECK_FUNCS([posix_memalign], [AC_DEFINE([STARPU_HAVE_POSIX_MEMALIGN], [1], [Define to 1 if you have the `posix_memalign' function.])]) AC_CHECK_FUNCS([memalign], [AC_DEFINE([STARPU_HAVE_MEMALIGN], [1], [Define to 1 if you have the `memalign' function.])]) # Some systems don't have drand48 AC_CHECK_FUNC([drand48], have_drand48=yes, have_drand48=no) AC_CHECK_FUNC([erand48_r], have_erand48_r=yes, have_erand48_r=no) # Maybe the user still does not want to use the provided drand48 AC_ARG_ENABLE(default-drand48, [AS_HELP_STRING([--disable-default-drand48], [Do not use the default version of drand48])], enable_default_drand48=$enableval, enable_default_drand48=yes) if test x$have_drand48 = xyes -a x$enable_default_drand48 = xyes ; then AC_DEFINE([STARPU_USE_DRAND48], [1], [Define to 1 if drandr48 is available and should be used]) fi if test x$have_erand48_r = xyes ; then AC_DEFINE([STARPU_USE_ERAND48_R], [1], [Define to 1 if erandr48_r is available]) fi # Some systems do not define strerror_r AC_CHECK_FUNC([strerror_r], [AC_DEFINE([STARPU_HAVE_STRERROR_R], [1], [Define to 1 if the function strerro_r is available.])]) # Some systems may not define setenv AC_CHECK_FUNC([setenv], [AC_DEFINE([STARPU_HAVE_SETENV], [1], [Define to 1 if the function setenv is available.])]) # Some systems do not define unsetenv AC_CHECK_FUNC([unsetenv], [AC_DEFINE([STARPU_HAVE_UNSETENV], [1], [Define to 1 if the function unsetenv is available.])]) # Some systems do not define nearbyintf... AC_CHECK_FUNC([nearbyintf], [AC_DEFINE([STARPU_HAVE_NEARBYINTF], [1], [Define to 1 if the function nearbyintf is available.])]) # ... but they may define rintf. AC_CHECK_FUNC([rintf], [AC_DEFINE([STARPU_HAVE_RINTF], [1], [Define to 1 if the function rintf is available.])]) # Define quick check AC_ARG_ENABLE(quick-check, [AS_HELP_STRING([--enable-quick-check], [Lower default values for the testcases run by make check to allow a faster execution])], enable_quick_check=$enableval, enable_quick_check=no) if test x$enable_quick_check = xyes; then AC_DEFINE(STARPU_QUICK_CHECK, [1], [enable quick check]) fi AM_CONDITIONAL([STARPU_QUICK_CHECK], [test "x$enable_quick_check" = "xyes"]) # Define long check AC_ARG_ENABLE(long-check, [AS_HELP_STRING([--enable-long-check], [Enable some exhaustive checks which take a really long time])], enable_long_check=$enableval, enable_long_check=no) if test x$enable_long_check = xyes; then AC_DEFINE(STARPU_LONG_CHECK, [1], [enable long check]) fi AM_CONDITIONAL([STARPU_LONG_CHECK], [test "x$enable_long_check" = "xyes"]) # Define new check AC_ARG_ENABLE(new-check, [AS_HELP_STRING([--enable-new-check], [Enable new and known-to-fail testcases])], enable_new_check=$enableval, enable_new_check=no) if test x$enable_new_check = xyes; then AC_DEFINE(STARPU_NEW_CHECK, [1], [enable new check]) fi AM_CONDITIONAL([STARPU_NEW_CHECK], [test "x$enable_new_check" = "xyes"]) AC_CHECK_HEADERS([malloc.h], [AC_DEFINE([STARPU_HAVE_MALLOC_H], [1], [Define to 1 if you have the header file.])]) AC_ARG_ENABLE(valgrind, [AS_HELP_STRING([--disable-valgrind], [Do not check the availability of valgrind.h and helgrind.h])], enable_valgrind=$enableval, enable_valgrind=yes) if test "$enable_valgrind" != "no" ; then AC_CHECK_HEADERS([valgrind/valgrind.h], [AC_DEFINE([STARPU_HAVE_VALGRIND_H], [1], [Define to 1 if you have the header file.])]) AC_CHECK_HEADERS([valgrind/memcheck.h], [AC_DEFINE([STARPU_HAVE_MEMCHECK_H], [1], [Define to 1 if you have the header file.])]) AC_CHECK_HEADERS([valgrind/helgrind.h], [AC_DEFINE([STARPU_HAVE_HELGRIND_H], [1], [Define to 1 if you have the header file.])]) fi if test "$enable_valgrind" = "full" ; then AC_DEFINE([STARPU_VALGRIND_FULL], [1], [Define to 1 to disable STARPU_SKIP_IF_VALGRIND when running tests.]) fi AC_CHECK_FUNC([sched_yield], [AC_DEFINE([STARPU_HAVE_SCHED_YIELD], [1], [Define to 1 if the function sched_yield is available.])]) AC_CHECK_HEADERS([aio.h]) AC_CHECK_LIB([rt], [aio_read]) #AC_CHECK_HEADERS([libaio.h]) #AC_CHECK_LIB([aio], [io_setup]) AC_CHECK_FUNCS([copy_file_range]) AC_CHECK_FUNCS([mkostemp]) AC_CHECK_FUNCS([mkdtemp]) AC_CHECK_FUNCS([pread pwrite]) AC_ARG_ENABLE(hdf5, [AS_HELP_STRING([--disable-hdf5], [disable HDF5 support])], enable_hdf5=$enableval, enable_hdf5=maybe) if test "x$enable_hdf5" != xno ; then AC_ARG_WITH(hdf5-include-dir, [AS_HELP_STRING([--with-hdf5-include-dir=], [specify where HDF5 headers are installed])], [ hdf5_include_dir="$withval" ], [hdf5_include_dir=""]) hdf5_inc_dir="/usr/include/hdf5 /usr/include/hdf5/serial ${hdf5_include_dir}" enable_include_hdf5=no for f in $hdf5_inc_dir; do if test -n "$f" ; then SAVED_CFLAGS="${CFLAGS}" CFLAGS=-I${f} AC_CHECK_HEADERS([hdf5.h]) if test "$ac_cv_header_hdf5_h" = "yes" ; then CFLAGS="-I${f} ${SAVED_CFLAGS}" enable_include_hdf5=yes break else CFLAGS=${SAVED_CFLAGS} fi unset ac_cv_header_hdf5_h fi done AC_ARG_WITH(hdf5-lib-dir, [AS_HELP_STRING([--with-hdf5-lib-dir=], [specify where HDF5 libraries are installed])], [ hdf5_libraries_dir="$withval" ], [hdf5_libraries_dir=""]) hdf5_lib_dir="/usr/lib/x86_64-linux-gnu/hdf5 /usr/lib/x86_64-linux-gnu/hdf5/serial ${hdf5_libraries_dir}" enable_libraries_hdf5=no for f in $hdf5_lib_dir; do if test -n "$f" ; then SAVED_LDFLAGS="${LDFLAGS}" LDFLAGS=-L${f} STARPU_HAVE_LIBRARY(HDF5, [hdf5]) if test "$ac_cv_lib_hdf5_main" = "yes" ; then LDFLAGS="-L${f} ${SAVED_LDFLAGS} ${STARPU_HDF5_LDFLAGS}" enable_libraries_hdf5=yes break else LDFLAGS=${SAVED_LDFLAGS} fi unset ac_cv_lib_hdf5_main fi done fi if test "x$enable_libraries_hdf5" = "xyes" -a "x$enable_include_hdf5" = "xyes" -a "x$enable_hdf5" != "xno"; then AC_DEFINE([STARPU_HAVE_HDF5], [1], [Define to 1 if you have the header file.]) fi AM_CONDITIONAL(STARPU_HAVE_HDF5, test "x$enable_libraries_hdf5" = "xyes" -a "x$enable_include_hdf5" = "xyes" -a "x$enable_hdf5" != "xno") # This defines HAVE_SYNC_VAL_COMPARE_AND_SWAP STARPU_CHECK_SYNC_VAL_COMPARE_AND_SWAP # This defines HAVE_SYNC_BOOL_COMPARE_AND_SWAP STARPU_CHECK_SYNC_BOOL_COMPARE_AND_SWAP # This defines HAVE_SYNC_FETCH_AND_ADD STARPU_CHECK_SYNC_FETCH_AND_ADD # This defines HAVE_SYNC_FETCH_AND_OR STARPU_CHECK_SYNC_FETCH_AND_OR # This defines HAVE_SYNC_LOCK_TEST_AND_SET STARPU_CHECK_SYNC_LOCK_TEST_AND_SET # This defines HAVE_SYNC_SYNCHRONIZE STARPU_CHECK_SYNC_SYNCHRONIZE CPPFLAGS="${CPPFLAGS} -D_GNU_SOURCE " STARPU_SEARCH_LIBS([LIBNUMA],[set_mempolicy],[numa],[enable_libnuma=yes],[enable_libnuma=no]) AC_MSG_CHECKING(whether libnuma is available) AC_MSG_RESULT($enable_libnuma) if test x$enable_libnuma = xyes; then AC_DEFINE(STARPU_HAVE_LIBNUMA,[1],[libnuma is available]) fi AC_MSG_CHECKING(whether statement expressions are available) AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[ #define maxint(a,b) ({int _a = (a), _b = (b); _a > _b ? _a : _b; }) ]], [[ int x=maxint(12,42); ]])], [statement_expressions="yes"], [statement_expressions="no"]) AC_MSG_RESULT($statement_expressions) if test x$statement_expressions = xyes; then AC_DEFINE(STARPU_HAVE_STATEMENT_EXPRESSIONS,[1],[statement expressions are available]) fi ############################################################################### # # # SCHED_CTX settings # # # ############################################################################### AC_MSG_CHECKING(maximum number of sched_ctxs) AC_ARG_ENABLE(max_sched_ctxs, [AS_HELP_STRING([--enable-max-sched-ctxs=], [maximum number of sched_ctxs])], max_sched_ctxs=$enableval, max_sched_ctxs=10) AC_MSG_RESULT($max_sched_ctxs) AC_DEFINE_UNQUOTED(STARPU_NMAX_SCHED_CTXS, [$max_sched_ctxs], [Maximum number of sched_ctxs supported]) AC_ARG_ENABLE([sc_hypervisor], [AS_HELP_STRING([--enable-sc-hypervisor], [enable resizing contexts (experimental)])], [enable_sc_hypervisor="yes"], [enable_sc_hypervisor="no"]) #for pkgconfig AC_SUBST(STARPU_SC_HYPERVISOR) if test "x$enable_sc_hypervisor" = "xyes"; then AC_DEFINE(STARPU_USE_SC_HYPERVISOR, [1], [enable sc_hypervisor lib]) # PKG_CHECK_MODULES([SC_HYPERVISOR], [libsc_hypervisor], [], build_sc_hypervisor="yes") STARPU_SC_HYPERVISOR="-lsc_hypervisor" build_sc_hypervisor="yes" else build_sc_hypervisor="no" fi AM_CONDITIONAL([STARPU_BUILD_SC_HYPERVISOR], [test "x$build_sc_hypervisor" = "xyes"]) AM_CONDITIONAL([STARPU_USE_SC_HYPERVISOR], [test "x$build_sc_hypervisor" = "xyes"]) AC_ARG_ENABLE([sc_hypervisor_debug], [AS_HELP_STRING([--enable-sc-hypervisor-debug], [enable debug for resizing contexts (experimental)])], [enable_sc_hypervisor_debug="yes"], [enable_sc_hypervisor_debug="no"]) AC_SUBST(STARPU_SC_HYPERVISOR_DEBUG, $enable_sc_hypervisor_debug) AM_CONDITIONAL([STARPU_SC_HYPERVISOR_DEBUG], [test "x$enable_sc_hypervisor_debug" = "xyes"]) if test "x$enable_sc_hypervisor_debug" = "xyes"; then AC_DEFINE(STARPU_SC_HYPERVISOR_DEBUG, [1], [enable debug sc_hypervisor]) fi ############################################################################### # # # CPUs settings # # # ############################################################################### AC_MSG_CHECKING(maximum number of CPUs) AC_ARG_ENABLE(maxcpus, [AS_HELP_STRING([--enable-maxcpus=], [maximum number of CPUs])], maxcpus=$enableval, maxcpus=64) AC_MSG_RESULT($maxcpus) AC_DEFINE_UNQUOTED(STARPU_MAXCPUS, [$maxcpus], [Maximum number of CPUs supported]) AC_MSG_CHECKING(whether CPUs should be used) AC_ARG_ENABLE(cpu, [AS_HELP_STRING([--disable-cpu], [do not use the CPU(s)])], enable_cpu=$enableval, enable_cpu=yes) AC_MSG_RESULT($enable_cpu) AC_SUBST(STARPU_USE_CPU, $enable_cpu) AM_CONDITIONAL(STARPU_USE_CPU, test x$enable_cpu = xyes) if test x$enable_cpu = xyes; then AC_DEFINE(STARPU_USE_CPU, [1], [CPU driver is activated]) fi ############################################################################### # # # CUDA settings # # # ############################################################################### AC_MSG_CHECKING(maximum number of CUDA devices) AC_ARG_ENABLE(maxcudadev, [AS_HELP_STRING([--enable-maxcudadev=], [maximum number of CUDA devices])], nmaxcudadev=$enableval, nmaxcudadev=4) AC_MSG_RESULT($nmaxcudadev) AC_DEFINE_UNQUOTED(STARPU_MAXCUDADEVS, [$nmaxcudadev], [maximum number of CUDA devices]) AC_ARG_ENABLE(cuda, [AS_HELP_STRING([--disable-cuda], [do not use CUDA device(s)])],, [enable_cuda=maybe]) #AC_MSG_CHECKING(whether CUDA is available) AC_ARG_WITH(cuda-dir, [AS_HELP_STRING([--with-cuda-dir=], [specify CUDA installation directory])], [ cuda_dir="$withval" # in case this was not explicit yet enable_cuda=yes ], cuda_dir=no) AC_ARG_WITH(cuda-include-dir, [AS_HELP_STRING([--with-cuda-include-dir=], [specify where CUDA headers are installed])], [ cuda_include_dir="$withval" # in case this was not explicit yet enable_cuda=yes ], [cuda_include_dir=no]) AC_ARG_WITH(cuda-lib-dir, [AS_HELP_STRING([--with-cuda-lib-dir=], [specify where CUDA libraries are installed])], [ cuda_lib_dir="$withval" # in case this was not explicit yet enable_cuda=yes ], [cuda_lib_dir=no]) AC_DEFUN([STARPU_CHECK_CUDA_L], [ __cuda_L=$1 SAVED_LDFLAGS="${LDFLAGS}" STARPU_CUDA_LDFLAGS="${__cuda_L}" AC_MSG_CHECKING(whether CUDA library is available in $__cuda_L) AC_MSG_RESULT() LDFLAGS="${SAVED_LDFLAGS} ${__cuda_L}" AC_HAVE_LIBRARY([cudart],[have_valid_cuda=yes],[have_valid_cuda=no]) unset ac_cv_lib_cudart_main if test "$have_valid_cuda" = yes ; then STARPU_CUDA_LDFLAGS="$STARPU_CUDA_LDFLAGS -lcudart" LDFLAGS="${SAVED_LDFLAGS} ${STARPU_CUDA_LDFLAGS}" # we also check that CUBLAS is available AC_HAVE_LIBRARY([cublas],[have_valid_cuda=yes],[have_valid_cuda=no]) unset ac_cv_lib_cublas_main if test "$have_valid_cuda" = "yes" ; then STARPU_CUDA_LDFLAGS="$STARPU_CUDA_LDFLAGS -lcublas" fi fi LDFLAGS="${SAVED_LDFLAGS}" ]) AC_DEFUN([STARPU_CHECK_CUDA], [ __cuda_dir=$1 __cuda_include_dir=$2 __cuda_lib_dir=$3 if test -z "$__cuda_lib_dir" ; then __cuda_lib_dir=no fi if test -z "$__cuda_include_dir" ; then __cuda_include_dir=no fi if test -z "$__cuda_dir" ; then __cuda_dir=no fi if test "$__cuda_dir" != "no" ; then AC_MSG_CHECKING(whether CUDA is available in $__cuda_dir, $__cuda_include_dir and $__cuda_lib_dir) else AC_MSG_CHECKING(whether CUDA is available) fi AC_MSG_RESULT() if test "$__cuda_include_dir" = "no" -a "$__cuda_dir" != "no" ; then __cuda_include_dir="$__cuda_dir/include" fi SAVED_CPPFLAGS="$CPPFLAGS" have_valid_cuda=no if test "$__cuda_include_dir" != "no" ; then CPPFLAGS="${CPPFLAGS} -I$__cuda_include_dir" fi AC_CHECK_HEADER([cuda.h],[have_valid_cuda=yes],[have_valid_cuda=no]) unset ac_cv_header_cuda_h if test "$have_valid_cuda" = "yes" ; then if test "$__cuda_lib_dir" != "no" ; then STARPU_CHECK_CUDA_L("-L${__cuda_lib_dir}") else if test "$__cuda_dir" != "no" ; then for __cuda_libdir in lib64 lib lib/x64 lib/Win32 ; do STARPU_CHECK_CUDA_L("-L${__cuda_dir}/${__cuda_libdir}") if test "$have_valid_cuda" = yes ; then break fi done else STARPU_CHECK_CUDA_L("") fi fi fi if test "$have_valid_cuda" = "no" ; then CPPFLAGS="${SAVED_CPPFLAGS}" unset STARPU_CUDA_LDFLAGS else if test "$NVCC" = "" ; then AC_PATH_PROG([NVCC], [nvcc], [not-found], [$cuda_dir/bin:$PATH:/usr/local/cuda/bin:/usr/bin:/bin]) fi if test "x$NVCC" = "xnot-found"; then AC_MSG_WARN(['nvcc' not found, disabling CUDA]) have_valid_cuda=no else # This is for very old cuda, to enable the use of double etc. AC_MSG_CHECKING(whether nvcc supports sm_13 architecture) OLD_NVCCFLAGS="$NVCCFLAGS" NVCCFLAGS="$NVCCFLAGS -arch sm_13" echo "int main(int argc, char **argv) { return 0;}" > cuda_test.cu $NVCC $NVCCFLAGS -c cuda_test.cu >/dev/null 2>&1 if test $? -eq 0 then AC_MSG_RESULT(yes) else AC_MSG_RESULT(no) NVCCFLAGS="$OLD_NVCCFLAGS" fi # This is for recent cuda, which complains if we don't actually set an arch!? AC_MSG_CHECKING(whether nvcc supports -Wno-deprecated-gpu-targets) OLD_NVCCFLAGS="$NVCCFLAGS" NVCCFLAGS="$NVCCFLAGS -Wno-deprecated-gpu-targets" echo "int main(int argc, char **argv) { return 0;}" > cuda_test.cu $NVCC $NVCCFLAGS -c cuda_test.cu >/dev/null 2>&1 if test $? -eq 0 then AC_MSG_RESULT(yes) else AC_MSG_RESULT(no) NVCCFLAGS="$OLD_NVCCFLAGS" fi rm -f cuda_test* fi if test -n "$NVCC_CC"; then NVCCFLAGS="${NVCCFLAGS} -ccbin \${NVCC_CC}" fi if test "$__cuda_include_dir" != "no"; then STARPU_CUDA_CPPFLAGS="-I$__cuda_include_dir" NVCCFLAGS="${NVCCFLAGS} -I$__cuda_include_dir" fi fi ]) if test x$enable_cuda = xyes -o x$enable_cuda = xmaybe; then STARPU_CHECK_CUDA("$cuda_dir", "$cuda_include_dir", "$cuda_lib_dir") if test "$have_valid_cuda" = "no" ; then STARPU_CHECK_CUDA("$CUDA_ROOT", "$CUDA_PATH", "$CUDA_INC_PATH", "$CUDA_LIB_PATH") fi if test "$have_valid_cuda" = "no" ; then for f in "/usr/local/cuda" "/c/cuda" "/cygdrive/c/cuda" "/opt/cuda" "$CUDA_ROOT" "$CUDA_PATH" "$CUDA_INC_PATH/.." "$CUDA_INC/.." "$CUDA_BIN/.." "$CUDA_SDK/.." "$CUDA_INSTALL_PATH" "$CUDA_TOOLKIT"; do if test -n "$f" ; then STARPU_CHECK_CUDA("$f", "no", "no") if test "$have_valid_cuda" = "yes" ; then break fi fi done fi # Check cuda is compatible with the C compiler AC_MSG_CHECKING(whether CUDA is working) if test "$have_valid_cuda" = "yes" ; then SAVED_CPPFLAGS="${CPPFLAGS}" CPPFLAGS="${CPPFLAGS} ${STARPU_CUDA_CPPFLAGS}" SAVED_LDFLAGS="${LDFLAGS}" LDFLAGS="${LDFLAGS} ${STARPU_CUDA_LDFLAGS} -lcudart" AC_COMPILE_IFELSE([AC_LANG_PROGRAM( [[#include ]], [[]] )], [ AC_RUN_IFELSE([AC_LANG_PROGRAM( [[#include ]], [[]] )], [have_valid_cuda="yes"], [ AC_MSG_RESULT([CUDA found and can be compiled, but compiled application can not be run, is the CUDA path missing in LD_LIBRARY_PATH?]) have_valid_cuda="no" ]) ], [ AC_MSG_ERROR([CUDA found, but cuda.h could not be compiled]) have_valid_cuda="no" ] ) CPPFLAGS="${SAVED_CPPFLAGS}" LDFLAGS="${SAVED_LDFLAGS}" fi AC_MSG_RESULT($have_valid_cuda) # in case CUDA was explicitely required, but is not available, this is an error if test x$enable_cuda = xyes -a x$have_valid_cuda = xno; then AC_MSG_ERROR([cannot find CUDA]) fi # now we enable CUDA if and only if a proper setup is available enable_cuda=$have_valid_cuda fi AC_MSG_CHECKING(whether CUDA should be used) AC_MSG_RESULT($enable_cuda) AC_SUBST(STARPU_USE_CUDA, $enable_cuda) AM_CONDITIONAL(STARPU_USE_CUDA, test x$enable_cuda = xyes) if test x$enable_cuda = xyes; then AC_DEFINE(STARPU_USE_CUDA, [1], [CUDA support is activated]) # On Darwin, the libstdc++ dependency is not automatically added by nvcc # case "$target" in # *-*darwin*) AC_HAVE_LIBRARY([stdc++], []) ;; # #*-*darwin*) AC_HAVE_LIBRARY([stdc++], [STARPU_CUDA_LDFLAGS="$STARPU_CUDA_LDFLAGS -lstdc++"]) ;; # esac STARPU_CUDA_LDFLAGS="$STARPU_CUDA_LDFLAGS -lcudart" STARPU_CUFFT_LDFLAGS="-lcufft" AC_LANG_PUSH([C++]) case \ $NVCCFLAGS\ in *\ -std=*\ *) ;; *) SAVED_CXX="$CXX" CXX="$NVCC" AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[ #ifdef STARPU_HAVE_SIMGRID_MSG_H #include #include #else #include #endif ]])],, NVCCFLAGS="-std=c++11 $NVCCFLAGS") CXX="$SAVED_CXX" esac AC_LANG_POP([C++]) if test "$F77" = "gfortran" -o "$FC" = "gfortran" ; then STARPU_CUDA_FORTRAN_LDFLAGS="-lgfortran" AC_SUBST(STARPU_CUDA_FORTRAN_LDFLAGS) fi #in case this is a 64bit setup, we tell nvcc to use a -m64 flag, if missing from existing flags if test x$SIZEOF_VOID_P = x8; then case \ $NVCCFLAGS\ in *\ -m64\ *) ;; *) NVCCFLAGS="${NVCCFLAGS} -m64" ;; esac fi SAVED_CPPFLAGS="${CPPFLAGS}" CPPFLAGS="${CPPFLAGS} ${STARPU_CUDA_CPPFLAGS}" SAVED_LDFLAGS="${LDFLAGS}" LDFLAGS="${LDFLAGS} ${STARPU_CUDA_LDFLAGS}" SAVED_LIBS="${LIBS}" AC_CHECK_HEADERS([cuda_gl_interop.h]) AC_CHECK_LIB([cusparse], [cusparseCreate], [AC_DEFINE([HAVE_LIBCUSPARSE], [1], [Define to 1 if you have the cusparse library]) STARPU_CUDA_LDFLAGS="$STARPU_CUDA_LDFLAGS -lcusparse"]) AC_CHECK_DECLS([cusparseSetStream], [], [], [[#include ]]) LDFLAGS="${LDFLAGS} -lnvidia-ml" AC_COMPILE_IFELSE([AC_LANG_PROGRAM( [[#include ]], [[nvmlInit();]] )], [ AC_RUN_IFELSE([AC_LANG_PROGRAM( [[#include ]], [[nvmlInit();]] )], [have_valid_nvml="yes"], [ AC_MSG_RESULT([NVML found and can be compiled, but compiled application can not be run, you are probably on a machine without the CUDA driver]) have_valid_nvml="no" ]) ], [ AC_MSG_WARN([NVML found, but nvml.h could not be compiled]) have_valid_nvml="no" ] ) if test x$have_valid_nvml = xyes ; then AC_DEFINE([HAVE_LIBNVIDIA_ML], [1], [Define to 1 if you have the nvidia-ml library]) STARPU_CUDA_LDFLAGS="$STARPU_CUDA_LDFLAGS -lnvidia-ml" fi AC_MSG_CHECKING(whether nvidia-ml should be used) AC_MSG_RESULT($have_valid_nvml) CPPFLAGS="${SAVED_CPPFLAGS}" LDFLAGS="${SAVED_LDFLAGS}" LIBS="${SAVED_LIBS}" fi have_magma=no if test x$enable_cuda = xyes; then PKG_CHECK_MODULES([MAGMA], [magma], [ AC_DEFINE([STARPU_HAVE_MAGMA], [1], [Define to 1 if you have the MAGMA library.]) AC_SUBST([STARPU_HAVE_MAGMA], [1]) have_magma=yes ], [:]) fi AM_CONDITIONAL(STARPU_HAVE_MAGMA, [test x$have_magma = xyes]) AC_MSG_CHECKING(whether MAGMA should be used) AC_MSG_RESULT($have_magma) # cufftDoubleComplex may not be available on an old CUDA setup AC_CHECK_TYPE(cufftDoubleComplex, [have_cufftdoublecomplex=yes], [have_cufftdoublecomplex=no], [#include ]) AM_CONDITIONAL(STARPU_HAVE_CUFFTDOUBLECOMPLEX, test x$have_cufftdoublecomplex = xyes) if test x$have_cufftdoublecomplex = xyes; then AC_DEFINE(STARPU_HAVE_CUFFTDOUBLECOMPLEX, [1], [cufftDoubleComplex is available]) fi # The CURAND library is only available since CUDA 3.2 have_curand=$enable_cuda if test x$enable_cuda = xyes; then SAVED_LDFLAGS="${LDFLAGS}" LDFLAGS="${LDFLAGS} ${STARPU_CUDA_LDFLAGS}" AC_HAVE_LIBRARY([curand],[have_curand=yes],[have_curand=no]) LDFLAGS="${SAVED_LDFLAGS}" fi AC_MSG_CHECKING(whether CURAND is available) AC_MSG_RESULT($have_curand) if test x$have_curand = xyes; then AC_DEFINE(STARPU_HAVE_CURAND,[1], [CURAND is available]) STARPU_CURAND_LDFLAGS="$STARPU_CURAND_LDFLAGS -lcurand" AC_SUBST(STARPU_CURAND_LDFLAGS) fi # Peer transfers are only supported since CUDA 4.0 # Disable them if user explicity wants to disable them AC_ARG_ENABLE(cuda_memcpy_peer, [AS_HELP_STRING([--disable-cuda-memcpy-peer], [do not allow peer transfers when using CUDA 4.0])],, [enable_cuda_memcpy_peer=$enable_cuda]) if test x$enable_cuda_memcpy_peer = xyes; then AC_DEFINE(STARPU_HAVE_CUDA_MEMCPY_PEER,[1],[Peer transfers are supported in CUDA]) fi if test x$enable_cuda = xyes; then if test x$starpu_windows != xyes ; then STARPU_CUDA_LDFLAGS="$STARPU_CUDA_LDFLAGS -lstdc++" fi AC_SUBST(STARPU_CUDA_LDFLAGS) AC_SUBST(STARPU_CUFFT_LDFLAGS) AC_SUBST(STARPU_CUDA_CPPFLAGS) fi AC_ARG_VAR([NVCC], [CUDA compiler]) AC_ARG_VAR([NVCC_CC], [C compiler for CUDA compiler]) AC_ARG_VAR([NVCCFLAGS], [CUDA compiler flags]) ############################################################################### # # # OpenCL settings # # # ############################################################################### AC_MSG_CHECKING(maximum number of OpenCL devices) AC_ARG_ENABLE(maxopencldev, [AS_HELP_STRING([--enable-maxopencldev=], [maximum number of OPENCL devices])], nmaxopencldev=$enableval, nmaxopencldev=8) AC_MSG_RESULT($nmaxopencldev) AC_DEFINE_UNQUOTED(STARPU_MAXOPENCLDEVS, [$nmaxopencldev], [maximum number of OPENCL devices]) AC_ARG_ENABLE(opencl, [AS_HELP_STRING([--disable-opencl], [do not use OpenCL device(s)])],, [enable_opencl=maybe]) have_valid_opencl=no AC_DEFUN([STARPU_CHECK_OPENCL], [ __opencl_dir=$1 __opencl_include_dir=$2 __opencl_lib_dir=$3 if test "$__opencl_dir" != "no" ; then AC_MSG_CHECKING(whether OpenCL is available in $__opencl_dir $__opencl_include_dir and $__opencl_lib_dir) else AC_MSG_CHECKING(whether OpenCL is available) fi AC_MSG_RESULT() if test "$__opencl_include_dir" = "no" -a "$__opencl_dir" != "no" ; then __opencl_include_dir="$__opencl_dir/include" fi SAVED_CPPFLAGS="$CPPFLAGS" SAVED_LDFLAGS="${LDFLAGS}" if test "$__opencl_include_dir" != "no" ; then CPPFLAGS="${CPPFLAGS} -I$__opencl_include_dir" fi AC_CHECK_HEADER([CL/cl.h],[have_valid_opencl=yes],[have_valid_opencl=no]) unset ac_cv_header_CL_cl_h if test "$have_valid_opencl" = "yes" ; then if test "$__opencl_lib_dir" != "no"; then LDFLAGS="${SAVED_LDFLAGS} -L$__opencl_lib_dir" AC_HAVE_LIBRARY([OpenCL],[have_valid_opencl=yes],[have_valid_opencl=no]) unset ac_cv_lib_OpenCL_main else AC_MSG_CHECKING(whether OpenCL is available in $__opencl_dir) AC_MSG_RESULT() AC_HAVE_LIBRARY([OpenCL],[have_valid_opencl=yes],[have_valid_opencl=no]) unset ac_cv_lib_OpenCL_main if test "$have_valid_opencl" = "no" -a "$__opencl_dir" != "no" ; then for __cuda_libdir in lib64 lib lib/x86 lib/Win32 ; do __opencl_lib_dir="$__opencl_dir/$__cuda_libdir" AC_MSG_CHECKING(whether OpenCL is available in $__opencl_dir and $__opencl_lib_dir) AC_MSG_RESULT() LDFLAGS="${SAVED_LDFLAGS} -L$__opencl_lib_dir" AC_HAVE_LIBRARY([OpenCL],[have_valid_opencl=yes],[have_valid_opencl=no]) unset ac_cv_lib_OpenCL_main if test "$have_valid_opencl" = yes ; then break fi done else LDFLAGS="${SAVED_LDFLAGS}" AC_HAVE_LIBRARY([OpenCL],[have_valid_opencl=yes],[have_valid_opencl=no]) unset ac_cv_lib_OpenCL_main fi fi fi if test "$have_valid_opencl" = "yes" -a "$__opencl_include_dir" != "no"; then STARPU_OPENCL_CPPFLAGS="-I$__opencl_include_dir" AC_CHECK_HEADERS([CL/cl_ext.h]) fi CPPFLAGS="${SAVED_CPPFLAGS}" LDFLAGS="${SAVED_LDFLAGS}" if test "$have_valid_opencl" = "yes" ; then if test "$__opencl_lib_dir" != "no"; then STARPU_OPENCL_LDFLAGS="-L$__opencl_lib_dir" fi STARPU_OPENCL_LDFLAGS="${STARPU_OPENCL_LDFLAGS} -lOpenCL" fi ]) #AC_MSG_CHECKING(whether OpenCL is available) AC_ARG_WITH(opencl-dir, [AS_HELP_STRING([--with-opencl-dir=], [specify OpenCL installation directory])], [ opencl_dir="$withval" # in case this was not explicit yet enable_opencl=yes ], opencl_dir=no) AC_ARG_WITH(opencl-include-dir, [AS_HELP_STRING([--with-opencl-include-dir=], [specify where OpenCL headers are installed])], [ opencl_include_dir="$withval" # in case this was not explicit yet enable_opencl=yes ], [opencl_include_dir=no]) AC_ARG_WITH(opencl-lib-dir, [AS_HELP_STRING([--with-opencl-lib-dir=], [specify where OpenCL libraries are installed])], [ opencl_lib_dir="$withval" # in case this was not explicit yet enable_opencl=yes ], [opencl_lib_dir=no]) AC_DEFUN([STARPU_LOOK_FOR_OPENCL], [ if test "x$has_opencl_being_checked" != "xyes" ; then STARPU_CHECK_OPENCL("$opencl_dir", "$opencl_include_dir", "$opencl_lib_dir") if test "$have_valid_opencl" = "no" ; then for f in "/usr/local/cuda" "/c/cuda" "/cygdrive/c/cuda" "/opt/cuda" "$CUDA_ROOT" "$CUDA_PATH" "$CUDA_INC_PATH/.." "$CUDA_INSTALL_PATH" "$CUDA_TOOLKIT"; do if test -n "$f" ; then STARPU_CHECK_OPENCL("$f", "no", "no") if test "$have_valid_opencl" = "yes" ; then break fi fi done fi has_opencl_being_checked=yes fi ]) if test x$enable_opencl = xyes -o x$enable_opencl = xmaybe; then case $target in *-*-darwin*) AC_MSG_CHECKING(whether OpenCL is available) SAVED_LIBS=$LIBS LIBS="$LIBS -framework OpenCL" AC_LINK_IFELSE( [AC_LANG_PROGRAM([[ #ifdef __APPLE_CC__ #include #else #include #endif ]], [[return clSetKernelArg(0, 0, 0, 0); ]])], [AC_MSG_RESULT(yes) enable_opencl=yes have_valid_opencl=yes STARPU_OPENCL_CPPFLAGS= STARPU_OPENCL_LDFLAGS="-framework OpenCL"], [AC_MSG_RESULT(no) enable_opencl=no]) LIBS=$SAVED_LIBS ;; *) STARPU_LOOK_FOR_OPENCL() # in case OpenCL was explicitely required, but is not available, this is an error if test x$enable_opencl = xyes -a x$have_valid_opencl = xno; then AC_MSG_ERROR([cannot find OpenCL]) fi # now we enable OpenCL if and only if a proper setup is available enable_opencl=$have_valid_opencl ;; esac save_LIBS="$LIBS" LIBS="$LIBS $STARPU_OPENCL_LDFLAGS" AC_CHECK_FUNCS([clEnqueueMarkerWithWaitList]) LIBS="$save_LIBS" fi AC_MSG_CHECKING(whether OpenCL should be used) AC_MSG_RESULT($enable_opencl) AC_SUBST(STARPU_USE_OPENCL, $enable_opencl) AM_CONDITIONAL(STARPU_USE_OPENCL, test x$enable_opencl = xyes) if test x$enable_opencl = xyes ; then AC_DEFINE(STARPU_USE_OPENCL, [1], [OpenCL support is activated]) STARPU_OPENCL_CPPFLAGS="${STARPU_OPENCL_CPPFLAGS} -DSTARPU_OPENCL_DATADIR=${datarootdir}/starpu/opencl -DCL_USE_DEPRECATED_OPENCL_1_1_APIS" AC_SUBST(STARPU_OPENCL_DATAdir, "$(eval echo ${datarootdir}/starpu/opencl/examples)") AC_SUBST(STARPU_OPENCL_CPPFLAGS) AC_SUBST(STARPU_OPENCL_LDFLAGS) fi ############################################################################### # # # General GPU settings # # # ############################################################################### AC_MSG_CHECKING(whether asynchronous copy should be disabled) AC_ARG_ENABLE(asynchronous-copy, [AS_HELP_STRING([--disable-asynchronous-copy], [disable asynchronous copy between CPU and GPU])], enable_asynchronous_copy=$enableval, enable_asynchronous_copy=yes) disable_asynchronous_copy=no if test x$enable_asynchronous_copy = xno ; then disable_asynchronous_copy=yes fi AC_MSG_RESULT($disable_asynchronous_copy) if test x$disable_asynchronous_copy = xyes ; then AC_DEFINE([STARPU_DISABLE_ASYNCHRONOUS_COPY], [1], [Define to 1 to disable asynchronous copy between CPU and GPU devices]) fi AC_MSG_CHECKING(whether asynchronous CUDA copy should be disabled) AC_ARG_ENABLE(asynchronous-cuda-copy, [AS_HELP_STRING([--disable-asynchronous-cuda-copy], [disable asynchronous copy between CPU and CUDA devices])], enable_asynchronous_cuda_copy=$enableval, enable_asynchronous_cuda_copy=yes) disable_asynchronous_cuda_copy=no if test x$enable_asynchronous_cuda_copy = xno ; then disable_asynchronous_cuda_copy=yes fi AC_MSG_RESULT($disable_asynchronous_cuda_copy) if test x$disable_asynchronous_cuda_copy = xyes ; then AC_DEFINE([STARPU_DISABLE_ASYNCHRONOUS_CUDA_COPY], [1], [Define to 1 to disable asynchronous copy between CPU and CUDA devices]) fi AC_MSG_CHECKING(whether asynchronous OpenCL copy should be disabled) AC_ARG_ENABLE(asynchronous-opencl-copy, [AS_HELP_STRING([--disable-asynchronous-opencl-copy], [disable asynchronous copy between CPU and OPENCL devices])], enable_asynchronous_opencl_copy=$enableval, enable_asynchronous_opencl_copy=yes) disable_asynchronous_opencl_copy=no if test x$enable_asynchronous_opencl_copy = xno ; then disable_asynchronous_opencl_copy=yes fi AC_MSG_RESULT($disable_asynchronous_opencl_copy) if test x$disable_asynchronous_opencl_copy = xyes ; then AC_DEFINE([STARPU_DISABLE_ASYNCHRONOUS_OPENCL_COPY], [1], [Define to 1 to disable asynchronous copy between CPU and OpenCL devices]) fi AC_MSG_CHECKING(whether asynchronous MIC copy should be disabled) AC_ARG_ENABLE(asynchronous-mic-copy, [AS_HELP_STRING([--disable-asynchronous-mic-copy], [disable asynchronous copy between CPU and MIC devices])], enable_asynchronous_mic_copy=$enableval, enable_asynchronous_mic_copy=yes) disable_asynchronous_mic_copy=no if test x$enable_asynchronous_mic_copy = xno ; then disable_asynchronous_mic_copy=yes fi AC_MSG_RESULT($disable_asynchronous_mic_copy) if test x$disable_asynchronous_mic_copy = xyes ; then AC_DEFINE([STARPU_DISABLE_ASYNCHRONOUS_MIC_COPY], [1], [Define to 1 to disable asynchronous copy between CPU and MIC devices]) fi AC_MSG_CHECKING(whether asynchronous MPI Master Slave copy should be disabled) AC_ARG_ENABLE(asynchronous-mpi-master-slave-copy, [AS_HELP_STRING([--disable-asynchronous-mpi-master-slave-copy], [disable asynchronous copy between MPI Master and MPI Slave devices])], enable_asynchronous_mpi_master_slave_copy=$enableval, enable_asynchronous_mpi_master_slave_copy=yes) disable_asynchronous_mpi_master_slave_copy=no if test x$enable_asynchronous_mpi_master_slave_copy = xno ; then disable_asynchronous_mpi_master_slave_copy=yes fi AC_MSG_RESULT($disable_asynchronous_mpi_master_slave_copy) if test x$disable_asynchronous_mpi_master_slave_copy = xyes ; then AC_DEFINE([STARPU_DISABLE_ASYNCHRONOUS_MPI_MS_COPY], [1], [Define to 1 to disable asynchronous copy between MPI Master and MPI Slave devices]) fi ############################################################################### # # # MIC settings # # # ############################################################################### # ignore these otions, only meant for mic-configure, but also passed here. AC_ARG_ENABLE(native-mic) AC_ARG_WITH(compiler) AC_ARG_WITH(mic-param) AC_ARG_WITH(host-param) AC_MSG_CHECKING(maximum number of MIC devices) AC_ARG_ENABLE(maxmicdev, [AS_HELP_STRING([--enable-maxmicdev=], [maximum number of MIC devices])], nmaxmicdev=$enableval, [ if test x$enable_mic = xyes; then nmaxmicdev=4 else nmaxmicdev=0 fi ]) AC_MSG_RESULT($nmaxmicdev) AC_DEFINE_UNQUOTED(STARPU_MAXMICDEVS, [$nmaxmicdev], [maximum number of MIC devices]) AC_MSG_CHECKING(maximum number of MIC threads) AC_ARG_ENABLE(maxmicthreads, [AS_HELP_STRING([--enable-maxmicthreads=], [maximum number of MIC threads])], nmaxmicthreads=$enableval, nmaxmicthreads=120) AC_MSG_RESULT($nmaxmicthread) AC_DEFINE_UNQUOTED(STARPU_MAXMICCORES, [$nmaxmicthreads], [maximum number of MIC cores]) AC_ARG_WITH(coi-dir, [AS_HELP_STRING([--with-coi-dir=], [specify the MIC's COI installation directory])], [coi_dir="$withval"], [coi_dir=no]) AC_ARG_WITH(coi-include-dir, [AS_HELP_STRING([--with-coi-include-dir=], [specify where the MIC's COI headers are installed])], [coi_include_dir="$withval"], [coi_include_dir=no]) AC_ARG_WITH(coi-lib-dir, [AS_HELP_STRING([--with-coi-lib-dir=], [specify where the MIC's COI libraries are installed])], [coi_lib_dir="$withval"], [coi_lib_dir=no]) AC_DEFUN([STARPU_CHECK_COI_RUNTIME], [ __coi_dir=$1 __coi_include_dir=$2 __coi_lib_dir=$3 if test "$__coi_dir" != "no" -a "$__coi_dir" != "" ; then AC_MSG_CHECKING(whether MIC's COI runtime is available in $__coi_dir) else AC_MSG_CHECKING(whether MIC's COI runtime is available) fi AC_MSG_RESULT() if test "$__coi_include_dir" = "no" -a "$__coi_dir" != "no" ; then __coi_include_dir="${__coi_dir}/include" fi if test "$__coi_lib_dir" = "no" -a "$__coi_dir" != "no" ; then __coi_lib_dir="${__coi_dir}/lib" fi SAVED_CPPFLAGS="$CPPFLAGS" SAVED_LDFLAGS="$LDFLAGS" if test "$__coi_include_dir" != "no" ; then CPPFLAGS="${CPPFLAGS} -I$__coi_include_dir" fi if test "$__coi_lib_dir" != "no" ; then LDFLAGS="${LDFLAGS} -L$__coi_lib_dir ${STARPU_SCIF_LDFLAGS}" fi AC_CHECK_HEADER([source/COIEngine_source.h],[have_valid_coi=yes],[have_valid_coi=no]) if test "$have_valid_coi" = "yes" ; then AC_HAVE_LIBRARY([$4],[have_valid_coi=yes],[have_valid_coi=no]) if test "$have_valid_coi" = "no" ; then if test "$3" = "no" -a "$__coi_dir" != "no" ; then # ${__coi_dir}/lib didn't work, let's try with lib64 __coi_lib_dir="$__coi_dir/lib64" LDFLAGS="${SAVED_LDFLAGS} -L$__coi_lib_dir" AC_HAVE_LIBRARY([$4],[have_valid_coi=yes],[have_valid_coi=no]) fi fi fi if test "$have_valid_coi" = "yes" -a "$__coi_include_dir" != "no"; then STARPU_COI_CPPFLAGS="-I$__coi_include_dir" fi if test "$have_valid_coi" = "yes" ; then if test "$__coi_lib_dir" != "no"; then STARPU_COI_LDFLAGS="-L$__coi_lib_dir" fi STARPU_COI_LDFLAGS="${STARPU_COI_LDFLAGS} -l$4" fi CPPFLAGS="${SAVED_CPPFLAGS}" LDFLAGS="${SAVED_LDFLAGS}" ]) AC_ARG_WITH(scif-dir, [AS_HELP_STRING([--with-scif-dir=], [specify the MIC's SCIF installation directory])], [scif_dir="$withval"], [scif_dir=no]) AC_ARG_WITH(scif-include-dir, [AS_HELP_STRING([--with-scif-include-dir=], [specify where the MIC's SCIF headers are installed])], [scif_include_dir="$withval"], [scif_include_dir=no]) AC_ARG_WITH(scif-lib-dir, [AS_HELP_STRING([--with-scif-lib-dir=], [specify where the MIC's SCIF libraries are installed])], [scif_lib_dir="$withval"], [scif_lib_dir=no]) AC_DEFUN([STARPU_CHECK_SCIF_RUNTIME], [ __scif_dir=$1 __scif_include_dir=$2 __scif_lib_dir=$3 if test "$__scif_dir" != "no" -a "$__scif_dir" != "" ; then AC_MSG_CHECKING(whether MIC's SCIF runtime is available in $__scif_dir) else AC_MSG_CHECKING(whether MIC's SCIF runtime is available) fi AC_MSG_RESULT() if test "$__scif_include_dir" = "no" -a "$__scif_dir" != "no" ; then __scif_include_dir="${__scif_dir}/include" fi if test "$__scif_lib_dir" = "no" -a "$__scif_dir" != "no" ; then __scif_lib_dir="${__scif_dir}/lib" fi SAVED_CPPFLAGS="$CPPFLAGS" SAVED_LDFLAGS="$LDFLAGS" if test "$__scif_include_dir" != "no" ; then CPPFLAGS="${CPPFLAGS} -I$__scif_include_dir" fi if test "$__scif_lib_dir" != "no" ; then LDFLAGS="${LDFLAGS} -L$__scif_lib_dir" fi # AC_CHECK_HEADER([source/SCIFEngine_source.h],[have_valid_scif=yes],[have_valid_scif=no]) # if test "$have_valid_scif" = "yes" ; then AC_HAVE_LIBRARY([scif],[have_valid_scif=yes],[have_valid_scif=no]) if test "$have_valid_scif" = "no" ; then if test "$3" = "no" -a "$__scif_dir" != "no" ; then # ${__scif_dir}/lib didn't work, let's try with lib64 __scif_lib_dir="$__scif_dir/lib64" LDFLAGS="${SAVED_LDFLAGS} -L$__scif_lib_dir" AC_HAVE_LIBRARY([scif],[have_valid_scif=yes],[have_valid_scif=no]) fi fi # fi if test "$have_valid_scif" = "yes" -a "$__scif_include_dir" != "no"; then STARPU_SCIF_CPPFLAGS="-I$__scif_include_dir" fi if test "$have_valid_scif" = "yes" ; then if test "$__scif_lib_dir" != "no"; then STARPU_SCIF_LDFLAGS="-L$__scif_lib_dir" fi STARPU_SCIF_LDFLAGS="${STARPU_SCIF_LDFLAGS} -lscif" fi CPPFLAGS="${SAVED_CPPFLAGS}" LDFLAGS="${SAVED_LDFLAGS}" ]) if test x$enable_mic = xyes ; then STARPU_CHECK_SCIF_RUNTIME($scif_dir, $scif_include_dir, $scif_lib_dir) if test "$have_valid_scif" = "no" ; then AC_MSG_ERROR([cannot find MIC's SCIF runtime]) fi case $host_vendor in *1om) # We are cross-compiling. # Let's have a look for the device runtime which lib has a different name STARPU_CHECK_COI_RUNTIME($coi_dir, $coi_include_dir, $coi_lib_dir, coi_device) ;; *) STARPU_CHECK_COI_RUNTIME($coi_dir, $coi_include_dir, $coi_lib_dir, coi_host) ;; esac if test "$have_valid_coi" = "no" ; then AC_MSG_ERROR([cannot find MIC's COI runtime]) fi AC_SUBST(STARPU_COI_CPPFLAGS) AC_SUBST(STARPU_COI_LDFLAGS) AC_SUBST(STARPU_SCIF_CPPFLAGS) AC_SUBST(STARPU_SCIF_LDFLAGS) fi ############################################################################### # # # Debug and Performance analysis tools # # # ############################################################################### AC_MSG_CHECKING(whether debug mode should be enabled) AC_ARG_ENABLE(debug, [AS_HELP_STRING([--enable-debug], [enable debug mode])], enable_debug=$enableval, enable_debug=no) AC_MSG_RESULT($enable_debug) AC_ARG_ENABLE(spinlock_check, [AS_HELP_STRING([--enable-spinlock-check], [enable spinlock check])], enable_spinlock_check=$enableval, enable_spinlock_check=no) AC_ARG_ENABLE(fstack-protector-all, [AS_HELP_STRING([--disable-fstack-protector-all], [disable GCC option -fstack-protector-all])], enable_fstack_protector_all=$enableval, enable_fstack_protector_all=yes) if test x$enable_debug = xyes; then AC_DEFINE(STARPU_DEBUG, [1], [enable debugging statements]) CFLAGS="$CFLAGS -O0" CXXFLAGS="$CXXFLAGS -O0" FFLAGS="$FFLAGS -O0" FCFLAGS="$FCFLAGS -O0" enable_spinlock_check=yes if test x$GCC = xyes; then if test x$starpu_windows != xyes ; then if test x$enable_fstack_protector_all = xyes ; then CFLAGS="$CFLAGS -fstack-protector-all" CXXFLAGS="$CXXFLAGS -fstack-protector-all" FFLAGS="$FFLAGS -fstack-protector-all" FCFLAGS="$FCFLAGS -fstack-protector-all" fi fi fi else CFLAGS="-O3 $CFLAGS" CXXFLAGS="-O3 $CXXFLAGS" FFLAGS="-O3 $FFLAGS" FCFLAGS="-O3 $FCFLAGS" fi AC_MSG_CHECKING(whether full gdb information should be enabled) AC_ARG_ENABLE(full-gdb-information, [AS_HELP_STRING([--disable-full-gdb-information], [disable full gdb information])], enable_full_gdb_information=$enableval, enable_full_gdb_information=yes) AC_MSG_RESULT($enable_full_gdb_information) if test x$enable_full_gdb_information = xyes -a x$GCC = xyes; then CFLAGS+=" -gdwarf-2 -g3" CXXFLAGS+=" -gdwarf-2 -g3" FFLAGS+=" -gdwarf-2 -g3" FCFLAGS+=" -gdwarf-2 -g3" LDFLAGS+=" -gdwarf-2 -g3" fi CFLAGS+=" -g " CXXFLAGS+=" -g " FFLAGS+=" -g " FCFLAGS+=" -g " LDFLAGS+=" -g " if test x$enable_spinlock_check = xyes; then AC_DEFINE(STARPU_SPINLOCK_CHECK, [1], [check spinlock use]) fi AC_MSG_CHECKING(whether extra checks should be performed) AC_ARG_ENABLE(fast, [AS_HELP_STRING([--enable-fast], [do not enforce assertions])], enable_fast=$enableval, enable_fast=no) AC_MSG_RESULT($enable_fast) if test x$enable_fast = xyes; then AC_DEFINE(STARPU_NO_ASSERT, [1], [disable assertions]) else # fortify gets really enabled only with optimizations, avoid enabling it # when they optimizations are not enabled, because with some glibc it # spews a lot of warnings. if test x$enable_debug != xyes; then if test x$GCC = xyes; then CPPFLAGS="$CPPFLAGS -D_FORTIFY_SOURCE=1" fi fi fi AC_MSG_CHECKING(whether debug messages should be displayed) AC_ARG_ENABLE(verbose, [AS_HELP_STRING([--enable-verbose], [display verbose debug messages (--enable-verbose=extra increase the verbosity)])], enable_verbose=$enableval, enable_verbose=no) AC_MSG_RESULT($enable_verbose) if test x$enable_verbose = xyes; then AC_DEFINE(STARPU_VERBOSE, [1], [display verbose debug messages]) fi if test x$enable_verbose = xextra; then AC_DEFINE(STARPU_VERBOSE, [1], [display verbose debug messages]) AC_DEFINE(STARPU_EXTRA_VERBOSE, [1], [display verbose debug messages]) fi AC_MSG_CHECKING(whether coverage testing should be enabled) AC_ARG_ENABLE(coverage, [AS_HELP_STRING([--enable-coverage], [enable coverage checking])], enable_coverage=$enableval, enable_coverage=no) AC_MSG_RESULT($enable_coverage) AC_SUBST(COVERAGE, $enable_coverage) AM_CONDITIONAL(STARPU_COVERAGE_ENABLED, [test "x$enable_coverage" = "xyes"]) if test x$enable_coverage = xyes; then CFLAGS="${CFLAGS} --coverage" CXXFLAGS="${CXXFLAGS} --coverage" FFLAGS="${FFLAGS} --coverage" FCFLAGS="${FCFLAGS} --coverage" LDFLAGS="${LDFLAGS} --coverage" LIBS="${LIBS} -lgcov" fi AC_MSG_CHECKING(whether coverity mode should be enabled) AC_ARG_ENABLE(coverity, [AS_HELP_STRING([--enable-coverity], [enable coverity mode])], enable_coverity=$enableval, enable_coverity=no) AC_MSG_RESULT($enable_coverity) AM_CONDITIONAL(STARPU_COVERITY, test x$enable_coverity = xyes) # shall we use FxT to generate trace of the execution ? AC_MSG_CHECKING(whether FxT traces should be generated) AC_ARG_WITH(fxt, [AS_HELP_STRING([--with-fxt[[=]]], [generate fxt traces])], [ if test x$withval != xno; then use_fxt=yes if test x$withval = xyes; then AC_MSG_RESULT(yes) use_fxt_from_system=yes else # use specified path # TODO check if the dir is actually containing FxT use_fxt_from_system=no fxtdir=$withval AC_MSG_RESULT(yes using $fxtdir) AC_SUBST(FXTDIR, $fxtdir) fi else use_fxt=no AC_MSG_RESULT(no) fi ], [ use_fxt=no AC_MSG_RESULT(no) ]) AC_SUBST(STARPU_USE_FXT, $use_fxt) AM_CONDITIONAL(STARPU_USE_FXT, test x$use_fxt = xyes) if test x$use_fxt = xyes; then AC_DEFINE(STARPU_USE_FXT, [1], [enable FxT traces]) AC_DEFINE(CONFIG_FUT, [1], [enable FUT traces]) if test x$use_fxt_from_system = xno; then save_PKG_CONFIG_PATH="$PKG_CONFIG_PATH" PKG_CONFIG_PATH="$fxtdir/lib/pkgconfig:$PKG_CONFIG_PATH" PKG_CHECK_MODULES([FXT], [fxt], , [ AC_MSG_WARN([Old FxT without fxt.pc file, hoping link will succeed]) FXT_CFLAGS="-I$fxtdir/include/ " FXT_LDFLAGS="-L$fxtdir/lib/" AC_ARG_VAR(FXT_LDFLAGS) FXT_LIBS="-lfxt" ]) PKG_CONFIG_PATH="$save_PKG_CONFIG_PATH" else PKG_CHECK_MODULES([FXT], [fxt]) fi save_LIBS="$LIBS" LIBS="$LIBS $FXT_LIBS" save_LDFLAGS="$LDFLAGS" LDFLAGS="$LDFLAGS $FXT_LDFLAGS" AC_CHECK_FUNCS([enable_fut_flush]) AC_CHECK_FUNCS([fut_set_filename]) LDFLAGS="$save_LDFLAGS" LIBS="$save_LIBS" save_CFLAGS="$CFLAGS" CFLAGS="$CFLAGS $FXT_CFLAGS" AC_CHECK_DECLS([enable_fut_flush], [], [], [[#include ]]) AC_CHECK_DECLS([fut_set_filename], [], [], [[#include ]]) CFLAGS="$save_CFLAGS" if test x$enable_simgrid = xyes -a x$enable_shared = xno ; then # simgrid's SMPI needs fxt to be linked in statically for # variable privatization to work FXT_LIBS="$(pkg-config --variable=libdir fxt)/libfxt.a -Wl,--as-needed $(pkg-config --libs --static fxt) -Wl,--no-as-needed" fi ########################################## # Poti is a library to generate paje trace files ########################################## PKG_CHECK_MODULES([POTI], [poti], [have_valid_poti=yes], [have_valid_poti=no]) AC_ARG_ENABLE(poti, [AS_HELP_STRING([--enable-poti], [Enable the use of the POTI library to generate Paje traces])], enable_poti=$enableval, enable_poti=no) if test x$enable_poti = xyes -a x$have_valid_poti = xyes ; then AC_DEFINE(STARPU_HAVE_POTI, [1], [Define to 1 if you have libpoti and it is meant to be used]) save_LIBS="$LIBS" LIBS="$LIBS $POTI_LIBS" AC_CHECK_FUNCS([poti_init_custom poti_user_NewEvent]) LIBS="$save_LIBS" FXT_CFLAGS="$FXT_CFLAGS $POTI_CFLAGS" FXT_LIBS="$FXT_LIBS $POTI_LIBS" fi fi AC_MSG_CHECKING(whether additional locking systems FxT traces should be enabled) AC_ARG_ENABLE(fxt-lock, [AS_HELP_STRING([--enable-fxt-lock], [enable additional locking systems FxT traces])], enable_fxt_lock=$enableval, enable_fxt_lock=no) AC_MSG_RESULT($enable_fxt_lock) if test x$enable_fxt_lock = xyes; then AC_DEFINE(STARPU_FXT_LOCK_TRACES, [1], [enable additional locking systems FxT traces]) fi AC_MSG_CHECKING(whether performance debugging should be enabled) AC_ARG_ENABLE(perf-debug, [AS_HELP_STRING([--enable-perf-debug], [enable performance debugging through gprof])], enable_perf_debug=$enableval, enable_perf_debug=no) AC_MSG_RESULT($enable_perf_debug) AC_SUBST(STARPU_PERF_DEBUG, $enable_perf_debug) if test x$enable_perf_debug = xyes; then AC_DEFINE(STARPU_PERF_DEBUG, [1], [enable performance debug]) CPPFLAGS="${CPPFLAGS} -pg " LDFLAGS="${LDFLAGS} -pg " fi AC_MSG_CHECKING(whether performance model debugging should be enabled) AC_ARG_ENABLE(model-debug, [AS_HELP_STRING([--enable-model-debug], [enable performance model debugging])], enable_model_debug=$enableval, enable_model_debug=no) AC_MSG_RESULT($enable_model_debug) if test x$enable_model_debug = xyes; then AC_DEFINE(STARPU_MODEL_DEBUG, [1], [enable performance model debug]) fi AC_MSG_CHECKING(whether memory stats should be displayed) AC_ARG_ENABLE(memory-stats, [AS_HELP_STRING([--enable-memory-stats], [enable memory stats])], enable_memory_stats=$enableval, enable_memory_stats=no) AC_MSG_RESULT($enable_memory_stats) if test x$enable_memory_stats = xyes; then AC_DEFINE(STARPU_MEMORY_STATS, [1], [enable memory stats]) fi AC_ARG_ENABLE(glpk, [AS_HELP_STRING([--disable-glpk], [disable using glpk for bound computation])], enable_glpk=$enableval, enable_glpk=yes) if test x$enable_glpk = xyes; then AC_CHECK_HEADERS([glpk.h], [AC_DEFINE([STARPU_HAVE_GLPK_H], [1], [Define to 1 if you have the header file.])]) STARPU_HAVE_LIBRARY(GLPK, [glpk]) fi AC_ARG_WITH(ayudame1-include-dir, [AS_HELP_STRING([--with-ayudame1-include-dir=], [specify where Ayudame version 1 headers are installed])], [ ayudame1_include_dir="$withval" if test -n "$ayudame1_include_dir"; then CPPFLAGS="-I$ayudame1_include_dir $CPPFLAGS" fi ], [ayudame1_include_dir=no]) AC_ARG_WITH(ayudame2-include-dir, [AS_HELP_STRING([--with-ayudame2-include-dir=], [specify where Ayudame version 2 headers are installed])], [ ayudame2_include_dir="$withval" if test -n "$ayudame2_include_dir"; then CPPFLAGS="-I$ayudame2_include_dir $CPPFLAGS" fi ], [ayudame2_include_dir=no]) # Ayudame 1 header is capitalized AC_CHECK_HEADERS([Ayudame.h]) AC_ARG_ENABLE(ayudame1, [AS_HELP_STRING([--disable-ayudame1], [Do not use Ayudame lib version 1])], enable_ayudame1=$enableval, enable_ayudame1=yes) # Ayudame 2 header is lowercase AC_CHECK_HEADERS([ayudame.h]) AC_ARG_ENABLE(ayudame2, [AS_HELP_STRING([--disable-ayudame2], [Do not use Ayudame lib version 2])], enable_ayudame2=$enableval, enable_ayudame2=yes) if test x$enable_ayudame1 = xyes -a x$ac_cv_header_Ayudame_h = xyes; then AC_DEFINE([STARPU_USE_AYUDAME1], [1], [Define to 1 if Ayudame 1 is available and should be used]) ayu_msg="yes, use version 1" else if test x$enable_ayudame2 = xyes -a x$ac_cv_header_ayudame_h = xyes; then AC_DEFINE([STARPU_USE_AYUDAME2], [1], [Define to 1 if Ayudame 2 is available and should be used]) ayu_msg="yes, use version 2" else ayu_msg="no" fi fi AM_CONDITIONAL([STARPU_USE_AYUDAME1], [test "x$enable_ayudame1" = "xyes"]) AM_CONDITIONAL([STARPU_USE_AYUDAME2], [test "x$enable_ayudame2" = "xyes"]) ############################################################################### # # # Miscellaneous options for StarPU # # # ############################################################################### AC_MSG_CHECKING(how many buffers can be manipulated per task) AC_ARG_ENABLE(maxbuffers, [AS_HELP_STRING([--enable-maxbuffers=], [maximum number of buffers per task])], nmaxbuffers=$enableval, nmaxbuffers=8) AC_MSG_RESULT($nmaxbuffers) AC_DEFINE_UNQUOTED(STARPU_NMAXBUFS, [$nmaxbuffers], [how many buffers can be manipulated per task]) AC_MSG_CHECKING(maximum number of nodes to use) AC_ARG_ENABLE(maxnodes, [AS_HELP_STRING([--enable-maxnodes=], [maximum number of nodes])], maxnodes=$enableval, maxnodes=0) if test x$maxnodes = x0 ; then if test x$enable_simgrid = xyes ; then # We need the room for the virtual CUDA/OpenCL devices nodes=`expr 4 + $nmaxcudadev + $nmaxopencldev + $nmaxmicdev + 1 + $nmaxmpidev` if test $nodes -gt 32 ; then nodes=32 fi else # We have one memory node shared by all CPU workers, one node per GPU # and per MIC device # we add nodes to use 2 memory disks nodes=`expr $nmaxnumanodes + 2` if test x$enable_cuda = xyes ; then # we could have used nmaxcudadev + 1, but this would certainly give an # odd number. nodes=`expr $nodes + $nmaxcudadev` fi if test x$enable_opencl = xyes ; then # we could have used nmaxcudadev + 1, but this would certainly give an # odd number. nodes=`expr $nodes + $nmaxopencldev` fi if test x$enable_mic = xyes ; then nodes=`expr $nodes + $nmaxmicdev` fi if test x$enable_rcce = xyes ; then # Only 1 memory node for the shared memory. nodes=`expr $nodes + 1` fi #nmaxmpidev = 0 if mpi master-slave is disabled nodes=`expr $nodes + $nmaxmpidev` fi # set maxnodes to the next power of 2 greater than nodes maxnodes=1 while test "$maxnodes" -lt "$nodes" do maxnodes=`expr $maxnodes \* 2` done fi if test $maxnodes -gt 32 ; then # FIXME: at least use uint64 so we can have 64 memory nodes AC_MSG_ERROR([selected number of nodes ($maxnodes) can not be greater than 32]) fi AC_MSG_CHECKING(maximum number of memory nodes) AC_MSG_RESULT($maxnodes) AC_DEFINE_UNQUOTED(STARPU_MAXNODES, [$maxnodes], [maximum number of memory nodes]) AC_MSG_CHECKING(whether allocation cache should be used) AC_ARG_ENABLE(allocation-cache, [AS_HELP_STRING([--disable-allocation-cache], [disable data allocation cache])], enable_allocation_cache=$enableval, enable_allocation_cache=yes) AC_MSG_RESULT($enable_allocation_cache) if test x$enable_allocation_cache = xyes; then AC_DEFINE(STARPU_USE_ALLOCATION_CACHE, [1], [enable data allocation cache]) fi AC_ARG_WITH(perf-model-dir, [AS_HELP_STRING([--with-perf-model-dir=], [specify where performance models should be stored])], [ if test x$withval = xno; then AC_MSG_ERROR(--without-perf-model-dir is not a valid option) fi perf_model_dir="$withval" have_explicit_perf_model_dir=yes AC_DEFINE_UNQUOTED(STARPU_PERF_MODEL_DIR, ["$perf_model_dir"], [performance models location]) ], [ # by default, we put the performance models in # $HOME/.starpu/sampling/ have_explicit_perf_model_dir=no perf_model_dir="\$HOME/.starpu/sampling/" ] ) AC_MSG_CHECKING(using explicit performance model location) AC_MSG_RESULT($have_explicit_perf_model_dir) AC_MSG_CHECKING(performance models location) AC_MSG_RESULT($perf_model_dir) # On many multicore CPUs, clock cycles are not synchronized AC_CHECK_LIB([rt], [clock_gettime]) AC_CHECK_FUNCS([clock_gettime]) # Compute the maximum number of workers (we round it to 16 for alignment # purposes). if test x$enable_simgrid != xyes; then if test x$enable_cpu != xyes; then maxcpus=0 fi if test x$enable_cuda != xyes; then nmaxcudadev=0 fi if test x$enable_opencl != xyes; then nmaxopencldev=0 fi if test x$enable_mic != xyes; then nmaxmicthreads=0 fi #By default, if we cannot build mpi master-slave nmaxmpidev is set to zero. #But with the multiplication with maxcpus, we need to put it to one. if test x$build_mpi_master_slave != xyes; then nmaxmpidev=1 fi fi nmaxworkers=`expr 16 \* \( \( \( $nmaxmpidev \* $maxcpus \) + $nmaxcudadev + $nmaxopencldev + $nmaxmicthreads + 15 \) / 16 \) ` AC_MSG_CHECKING(Maximum number of workers) AC_MSG_RESULT($nmaxworkers) AC_DEFINE_UNQUOTED(STARPU_NMAXWORKERS, [$nmaxworkers], [Maximum number of workers]) # Computes the maximun number of combined worker nmaxcombinedworkers=`expr $maxcpus + $nmaxmicthreads` AC_MSG_CHECKING(Maximum number of workers combinations) AC_MSG_RESULT($nmaxcombinedworkers) AC_DEFINE_UNQUOTED(STARPU_NMAX_COMBINEDWORKERS, [$nmaxcombinedworkers], [Maximum number of worker combinations]) # Computes the maximum number of implementations per arch AC_MSG_CHECKING(maximum number of implementations) AC_ARG_ENABLE(maximplementations, [AS_HELP_STRING([--enable-maximplementations=], [maximum number of implementations])], maximplementations=$enableval, maximplementations=4) AC_MSG_RESULT($maximplementations) AC_DEFINE_UNQUOTED(STARPU_MAXIMPLEMENTATIONS, [$maximplementations], [maximum number of implementations]) # Enable LevelDB support if requested and the lib is found AC_ARG_ENABLE(leveldb, [AS_HELP_STRING([--enable-leveldb], [Enable linking with LevelDB if available])], enable_leveldb=$enableval, enable_leveldb=no) if test x$enable_leveldb = xyes; then AC_LANG_PUSH([C++]) AC_CHECK_HEADERS([leveldb/db.h], [AC_DEFINE([STARPU_HAVE_LEVELDB], [1], [Define to 1 if you have the header file.])]) STARPU_HAVE_LIBRARY(LEVELDB, [leveldb]) AC_LANG_POP([C++]) fi AM_CONDITIONAL(STARPU_HAVE_LEVELDB, test "x$enable_leveldb" = "xyes" -a "x$ac_cv_lib_leveldb_main" = "xyes") # Defines the calibration heuristic for the history-based calibration of StarPU AC_MSG_CHECKING(calibration heuristic of history-based StarPU calibrator) AC_ARG_ENABLE(calibration-heuristic, [AS_HELP_STRING([--enable-calibration-heuristic=], [Define the maximum authorized deviation of StarPU history-based calibrator.])], calibration_heuristic=$enableval, calibration_heuristic=50) AC_MSG_RESULT($calibration_heuristic) AC_DEFINE_UNQUOTED(STARPU_HISTORYMAXERROR, [$calibration_heuristic], [calibration heuristic value]) ############################################################################### # # # MP Common settings # # # ############################################################################### AM_CONDITIONAL([STARPU_USE_MP], [test "x$enable_mic" = "xyes" -o "x$build_mpi_master_slave" = "xyes" -o "x$enable_rcce" = "xyes"]) AC_ARG_ENABLE([export-dynamic], [AS_HELP_STRING([--disable-export-dynamic], [Prevent the linker from adding all symbols to the dynamic symbol table])], [], []) if test x$enable_mic = xyes -o x$build_mpi_master_slave = xyes -o x$enable_rcce = xyes ; then AC_DEFINE(STARPU_USE_MP, [1], [Message-passing SINKs support is enabled]) if test x$enable_export_dynamic != xno ; then STARPU_EXPORT_DYNAMIC="-rdynamic" fi fi AC_SUBST(STARPU_EXPORT_DYNAMIC) # Computes the maximum number of different kernels a message-passing sink # can lookup for and launch. AC_MSG_CHECKING(Maximum number of message-passing kernels) AC_ARG_ENABLE(maxmpkernels, [AS_HELP_STRING([ -enable-maxmpkernels=], [maximum number of kernels a message-passing sink can lookup for and execute])], maxmpkernels=$enableval, maxmpkernels=10) AC_MSG_RESULT($maxmpkernels) AC_DEFINE_UNQUOTED(STARPU_MAXMPKERNELS, [$maxmpkernels], [maximum number of message-passing kernels]) ############################################################################### # # # Flags for C Compiler # # # ############################################################################### # IS_SUPPORTED_CFLAG(flag) # ------------------------ # Check if the CFLAGS `flag' is supported by the compiler AC_DEFUN([IS_SUPPORTED_CFLAG], [ AC_REQUIRE([AC_PROG_CC]) AC_MSG_CHECKING([whether compiler support $1]) SAVED_CFLAGS="$CFLAGS" CFLAGS="$1" # -we10006" AC_LINK_IFELSE( AC_LANG_PROGRAM( [[]], [[ AC_LANG_SOURCE([ const char *hello = "Hello World"; ]) ]] ), [ m4_default_nblank([$2], [GLOBAL_AM_CFLAGS="$GLOBAL_AM_CFLAGS $1"]) AC_MSG_RESULT(yes) option_available=1 ], [ AC_MSG_RESULT(no) option_available=0 ] ) CFLAGS="$SAVED_CFLAGS" ]) IS_SUPPORTED_CFLAG(-Wall) IS_SUPPORTED_CFLAG(-Werror=implicit) IS_SUPPORTED_CFLAG(-Werror=implicit-function-declaration) if test x$enable_perf_debug = xyes; then IS_SUPPORTED_CFLAG(-no-pie) IS_SUPPORTED_CFLAG(-no-PIE) IS_SUPPORTED_CFLAG(-fno-pie) fi if test "x$STARPU_DEVEL" != x; then AC_DEFINE(STARPU_DEVEL, [1], [enable developer warnings]) IS_SUPPORTED_CFLAG(-Wextra) IS_SUPPORTED_CFLAG(-Wunused) IS_SUPPORTED_CFLAG(-Wundef) IS_SUPPORTED_CFLAG(-Wshadow) IS_SUPPORTED_CFLAG(-Werror=pointer-arith) IS_SUPPORTED_CFLAG(-fno-common) if test x$enable_debug = xyes; then IS_SUPPORTED_CFLAG(-fno-optimize-sibling-calls) fi fi AM_CONDITIONAL([STARPU_DEVEL],[test "x$STARPU_DEVEL" != x]) AC_SUBST(GLOBAL_AM_CFLAGS) # Same value as Automake's, for use in other places. pkglibdir="\${libdir}/$PACKAGE" AC_SUBST([pkglibdir]) ############################################################################### # # # Fortran # # # ############################################################################### AC_ARG_ENABLE(fortran, [AS_HELP_STRING([--disable-fortran], [disable build of fortran examples])], enable_build_fortran_requested=$enableval, enable_build_fortran_requested=yes) use_mpi_fort=no enable_build_fortran=no if test "x$enable_build_fortran_requested" = "xyes" ; then if test "x$FC" != "x"; then if $FC --version|grep -q 'GNU Fortran'; then AC_COMPILE_IFELSE([AC_LANG_PROGRAM([[ #if __GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 9) int dummy; #else #error GFortran too old, version >= 4.9.x needed, Fortran examples will not be built #endif ]], )], [enable_build_fortran="yes"], [enable_build_fortran="no"]) if test "$enable_build_fortran" = "no" ; then AC_MSG_WARN([GFortran too old, version >= 4.9.x needed, Fortran examples will not be built]) fi else if $FC -V 2>&1|grep -q 'Intel(R) Fortran'; then ifort_fc_version=`$FC -V 2>&1 |head -1|sed 's/.*Version //;s/ Build.*//'` ifort_maj_version=`echo $ifort_fc_version|cut -d. -f1` if test $ifort_maj_version -lt 16; then AC_MSG_WARN([Intel Fortran compiler $ifort_fc_version too old, version >= 2016.x needed, Fortran examples will not be built]) enable_build_fortran="no" fi else if $FC -qversion 2>&1|grep -q 'IBM XL Fortran'; then xlf_fc_version=`$FC -V 2>&1 |tail -1|sed 's/.*Version: //'` xlf_maj_version=`echo $xlf_fc_version|cut -d. -f1` AC_MSG_WARN([IBM Fortran compiler $xlf_fc_version not validated with the native StarPU Fortran API, Fortran examples will not be built]) enable_build_fortran="no" else AC_MSG_WARN(Fortran compiler has not been tested for StarPU native Fortran support) fi fi fi if test "x$enable_build_fortran" = "xyes" ; then AC_DEFINE(STARPU_HAVE_FC, [1], [Define this if a Fortran compiler is available]) if test x$build_mpi_lib = xyes -o x$build_mpi_master_slave = xyes ; then AC_ARG_WITH(mpifort, [AS_HELP_STRING([--with-mpifort[=]], [Path of the mpifort compiler])], [ if test x$withval = xyes; then AC_MSG_ERROR(--with-mpifort must be given a pathname) else mpifort_path=$withval fi ], [ if test x$enable_simgrid = xyes ; then DEFAULT_MPIFORT=smpifort else DEFAULT_MPIFORT=mpif90 fi # nothing was specified: default value is used AC_PATH_PROG(mpifort_path, $DEFAULT_MPIFORT, [no], [$(dirname $mpicc_path):$simgrid_dir/bin:$PATH]) ]) # We test if the MPIFORT compiler exists if test ! -x $mpifort_path; then #MPIFORT does not exists or is not executable AC_MSG_RESULT(The mpifort compiler '$mpifort_path' does not have the execute permission) use_mpi_fort=no else OLD_CC=$CC CC=$mpicc_path AC_LINK_IFELSE( AC_LANG_PROGRAM( [[#include ]], [[AC_LANG_SOURCE([return MPI_Comm_f2c(0);])]] ), [use_mpi_fort=yes], [use_mpi_fort=no] ) CC=$OLD_CC if test "x$use_mpi_fort" = xyes; then AC_DEFINE([HAVE_MPI_COMM_F2C], [1], [Function MPI_Comm_f2c is available]) AC_MSG_CHECKING(mpifort path) AC_MSG_RESULT($mpifort_path) AC_SUBST(MPIFORT, $mpifort_path) fi fi fi fi fi fi if test "x$enable_build_fortran" = "xyes" ; then if test "x$FC" = "x" ; then enable_build_fortran="no" fi fi #We have MPI C/C++ compiler if test x$build_mpi_master_slave = xyes; then #Check if we can compile fortran cases if test x$use_mpi_fort = xyes ; then F77LD=$mpifort_path FCLD=$mpifort_path F77=$mpifort_path FC=$mpifort_path else enable_build_fortran=no fi fi AM_CONDITIONAL([STARPU_HAVE_FC], [test "x$FC" != "x" -a "x$enable_build_fortran" = "xyes"]) AM_CONDITIONAL([STARPU_HAVE_F77], [test "x$F77" != "x" -a "x$enable_build_fortran" = "xyes"]) AM_CONDITIONAL([STARPU_HAVE_MPIFORT], [test "x$use_mpi_fort" = "xyes"]) ######################################################################## # # # Cluster support # # # ######################################################################## AC_ARG_ENABLE(cluster, [AS_HELP_STRING([--enable-cluster], [build the cluster support])], enable_cluster=$enableval, enable_cluster=no) AC_MSG_CHECKING(for cluster support) if test x$enable_cluster = xyes; then AC_DEFINE(STARPU_CLUSTER, [1], [Define this to enable cluster support]) AC_OPENMP fi AM_CONDITIONAL([STARPU_CLUSTER], [test "x$enable_cluster" = "xyes"]) AC_MSG_RESULT($enable_cluster) ############################################################################### # # # OpenMP runtime support # # # ############################################################################### AC_ARG_ENABLE(openmp, [AS_HELP_STRING([--enable-openmp], [build the OpenMP runtime support])], enable_openmp=$enableval, enable_openmp=no) openmp_msg="" if test x$starpu_windows = xyes ; then enable_openmp=no openmp_msg="disabled on windows" fi if test "x$use_mpi_master_slave" = "xyes" ; then enable_openmp=no openmp_msg="incompatibility with MPI master slave support" fi if test x$enable_openmp = xyes; then AC_DEFINE(STARPU_OPENMP, [1], [Define this to enable OpenMP runtime support]) fi AC_MSG_CHECKING(for OpenMP runtime support) AM_CONDITIONAL([STARPU_OPENMP], [test "x$enable_openmp" = "xyes"]) AC_MSG_RESULT($enable_openmp $openmp_msg) if test x$enable_simgrid = xno; then if test -n "{OPENMP_CFLAGS}"; then CFLAGS="${CFLAGS} ${OPENMP_CFLAGS}" STARPU_OMP_LDFLAGS="${OPENMP_CFLAGS}" fi fi AM_CONDITIONAL([STARPU_HAVE_OPENMP],[test x$enable_simgrid = xno -a -n "$OPENMP_CFLAGS"]) ############################################################################### # # # SOCL interface # # # ############################################################################### AC_ARG_ENABLE([socl], [AS_HELP_STRING([--enable-socl], [build the OpenCL interface (experimental)])], [enable_socl="$enableval"], [enable_socl="maybe"]) AC_MSG_CHECKING(for SOCL) # in case SOCL was explicitely required, but is not available, this is an error if test "x$enable_socl" = "xyes" -a "$have_valid_opencl" = "no" ; then AC_MSG_ERROR([SOCL cannot be enabled without OpenCL]) fi # MPI Master Slave and SOCL are not compatible if test "x$use_mpi_master_slave" = "xyes" ; then if test "x$enable_socl" = "xyes" ; then AC_MSG_ERROR([MPI Master-Slave and SOCL can not be used at the same time !]) fi if test "x$enable_socl" = "xmaybe" ; then enable_socl=no fi fi # now we enable SOCL if and only if a proper setup is available if test "x$enable_socl" = "xyes" -o "x$enable_socl" = "xmaybe" ; then build_socl=$have_valid_opencl else build_socl=no fi AC_MSG_RESULT($build_socl) AM_CONDITIONAL([BUILD_SOCL], [test "x$build_socl" = "xyes"]) AM_CONDITIONAL([STARPU_USE_SOCL], [test "x$build_socl" = "xyes"]) if test "$build_socl" = "yes" ; then AC_CHECK_FUNCS([clGetExtensionFunctionAddressForPlatform]) if test -n "$SOCL_OCL_LIB_OPENCL" -a -f "$SOCL_OCL_LIB_OPENCL" ; then run_socl_check=yes SOCL_OCL_LIB_OPENCL_DIR=$(dirname $SOCL_OCL_LIB_OPENCL) AC_SUBST(SOCL_OCL_LIB_OPENCL_DIR) else run_socl_check=no fi else run_socl_check=no fi ############################################################################### # # # Debugging # # # ############################################################################### AC_PATH_PROG([GDB], [gdb], [not-found]) if test "x$GDB" != "xnot-found"; then AC_DEFINE_UNQUOTED([STARPU_GDB_PATH], ["$GDB"], [Path to the GNU debugger.]) fi ############################################################################### # # # Examples # # # ############################################################################### AC_ARG_ENABLE(build-tests, [AS_HELP_STRING([--disable-build-tests], [disable building of tests])], enable_build_tests=$enableval, enable_build_tests=yes) # check stuff for tests (todo) AM_CONDITIONAL(BUILD_TESTS, [test x$enable_build_tests != xno]) AC_ARG_ENABLE(build-examples, [AS_HELP_STRING([--disable-build-examples], [disable building of examples])], enable_build_examples=$enableval, enable_build_examples=yes) # check stuff for examples (todo) AM_CONDITIONAL(BUILD_EXAMPLES, [test x$enable_build_examples != xno]) AC_ARG_ENABLE(opengl-render, [AS_HELP_STRING([--enable-opengl-render], [enable OpenGL rendering of some examples])], enable_opengl_render=$enableval, enable_opengl_render=no) if test x$enable_opengl_render = xyes; then STARPU_CHECK_LIB(OPENGL_RENDER, glut, glutInit,,AC_MSG_ERROR([cannot find glut])) STARPU_CHECK_LIB(OPENGL_RENDER, GL, glXCreateContext,,AC_MSG_ERROR([cannot find GL])) STARPU_CHECK_LIB(OPENGL_RENDER, GLU, gluLookAt,,AC_MSG_ERROR([cannot find GLU])) AC_DEFINE(STARPU_OPENGL_RENDER, [1], [enable OpenGL rendering of some examples]) fi AC_MSG_CHECKING(whether OpenGL rendering is enabled) AC_SUBST(STARPU_OPENGL_RENDER, $enable_opengl_render) AC_MSG_RESULT($enable_opengl_render) AM_CONDITIONAL([HAVE_OPENGL], [test "x$enable_opengl_render" = xyes]) AC_PATH_XTRA if test "x$no_x" != "xyes"; then AC_DEFINE(STARPU_HAVE_X11, [1], [enable X11]) fi AM_CONDITIONAL([HAVE_X11], [test "x$no_x" != "xyes"]) # In case there are BLAS kernels that are used by the example applications # we may specify which library to use. Note that this is not used for StarPU # itself. blas_lib=maybe AC_ARG_ENABLE(blas-lib, [ --enable-blas-lib[=blaslibname]: none [default]: no BLAS lib is used atlas: use ATLAS library goto: use GotoBLAS library mkl: use MKL library (you may need to set specific CFLAGS and LDFLAGS with --with-mkl-cflags and --with-mkl-ldflags)], [ if test "x$enableval" = "xatlas" ; then blas_lib=atlas elif test "x$enableval" = "xgoto" ; then blas_lib=goto elif test "x$enableval" = "xopenblas" ; then blas_lib=openblas elif test "x$enableval" = "xnone" ; then blas_lib=none elif test "x$enableval" = "xmkl" ; then blas_lib=mkl elif test "x$enableval" = "xarmpl" ; then blas_lib=armpl elif test x$enableval = xno; then blas_lib=none else echo echo "Error!" echo "Unknown BLAS library" exit -1 fi ]) if test x$blas_lib = xmaybe -o x$blas_lib = xgoto; then AC_ARG_WITH(goto-dir, [AS_HELP_STRING([--with-goto-dir=], [specify GotoBLAS lib location])], [ blas_lib=goto gotodir=$withval AC_SUBST(GOTODIR, $gotodir) CPPFLAGS="${CPPFLAGS} -I$gotodir/ " LDFLAGS="${LDFLAGS} -L$gotodir/ " ] ) if test x$blas_lib = xgoto; then STARPU_CHECK_LIB(BLAS, gfortran, main,,) STARPU_CHECK_LIB(BLAS, ifcore, main,,) # Perhaps that GotoBLAS2 is available instead (so that we have libgotoblas2.{so,a}) STARPU_CHECK_LIB(BLAS, goto2, sgemm_,, [havegoto2=no], [$STARPU_BLAS_LDFLAGS]) if test x$havegoto2 = xno; then STARPU_CHECK_LIB(BLAS, goto, sgemm_,,AC_MSG_ERROR([cannot find goto lib]), [$STARPU_BLAS_LDFLAGS]) fi AC_DEFINE(STARPU_GOTO, [1], [use STARPU_GOTO library]) fi fi if test x$blas_lib = xmaybe -o x$blas_lib = xatlas; then AC_ARG_WITH(atlas-dir, [AS_HELP_STRING([--with-atlas-dir=], [specify ATLAS lib location])], [ AC_MSG_CHECKING(STARPU_ATLAS location) blas_lib=atlas atlasdir=$withval AC_MSG_RESULT($atlasdir) AC_SUBST(ATLASDIR, $atlasdir) CPPFLAGS="${CPPFLAGS} -I$atlasdir/include/ " LDFLAGS="${LDFLAGS} -L$atlasdir/lib/ " ] ) if test x$blas_lib = xatlas; then # test whether STARPU_ATLAS is actually available AC_CHECK_HEADER([cblas.h],,AC_MSG_ERROR([cannot find atlas headers])) STARPU_CHECK_LIB(BLAS, atlas, ATL_sgemm,,AC_MSG_ERROR([cannot find atlas lib]),) STARPU_CHECK_LIB(BLAS, cblas, cblas_sgemm,,AC_MSG_ERROR([cannot find atlas lib]),[-latlas]) AC_DEFINE(STARPU_ATLAS, [1], [use STARPU_ATLAS library]) fi fi if test x$blas_lib = xmaybe -o x$blas_lib = xopenblas; then PKG_CHECK_MODULES([OPENBLAS], [openblas], [PKG_CHECK_MODULES([BLAS_OPENBLAS], [blas-openblas], [AC_DEFINE([STARPU_OPENBLAS], [1], [Define to 1 if you use the openblas library.]) AC_SUBST([STARPU_OPENBLAS], [1]) CFLAGS="${CFLAGS} ${OPENBLAS_CFLAGS} ${BLAS_OPENBLAS_CFLAGS} " LIBS="${LIBS} ${OPENBLAS_LIBS} ${BLAS_OPENBLAS_LIBS} " blas_lib=openblas ], [ if test x$blas_lib = xopenblas; then STARPU_CHECK_LIB(OPENBLAS, blas-openblas, cblas_sgemm,,AC_MSG_ERROR([cannot find blas-openblas lib]),[-lblas-openblas]) AC_DEFINE([STARPU_OPENBLAS], [1], [Define to 1 if you use the openblas library.]) AC_SUBST([STARPU_OPENBLAS], [1]) fi ]) ], [ if test x$blas_lib = xopenblas; then STARPU_CHECK_LIB(OPENBLAS, openblas, cblas_sgemm,,AC_MSG_ERROR([cannot find openblas lib]),[-lopenblas]) AC_DEFINE([STARPU_OPENBLAS], [1], [Define to 1 if you use the openblas library.]) AC_SUBST([STARPU_OPENBLAS], [1]) fi ] ) fi if test x$blas_lib = xmaybe -o x$blas_lib = xmkl; then # Should we use MKL ? if test -n "$MKLROOT" ; then CPPFLAGS="${CPPFLAGS} -I$MKLROOT/include" case $host_vendor in *1om) mkl_plat=mic ;; *) mkl_plat=intel64 ;; esac SAVED_LIBS=$LIBS STARPU_BLAS_LDFLAGS="-L$MKLROOT/lib/$mkl_plat -lmkl_intel_lp64 -lmkl_sequential -lmkl_core -lm -lpthread -ldl" LIBS="$LIBS $STARPU_BLAS_LDFLAGS" AC_LINK_IFELSE( [AC_LANG_PROGRAM([[ #include ]], [[ ]])], [ blas_lib=mkl ], [ STARPU_BLAS_LDFLAGS="" ], ) LIBS=$SAVED_LIBS fi AC_ARG_WITH(mkl-cflags, [AS_HELP_STRING([--with-mkl-cflags], [specify MKL compilation flags])], [ CPPFLAGS="${CPPFLAGS} $withval" blas_lib=mkl ]) AC_ARG_WITH(mkl-ldflags, [AS_HELP_STRING([--with-mkl-ldflags], [specify MKL linking flags])], [ STARPU_BLAS_LDFLAGS="$withval" blas_lib=mkl ]) if test x$blas_lib = xmkl; then AC_DEFINE(STARPU_MKL, [1], [use MKL library]) fi fi if test x$blas_lib = xmaybe -o x$blas_lib = xarmpl; then # Should we use ARMPL ? if test -n "$ARMPL_DIR" ; then CPPFLAGS="${CPPFLAGS} -I$ARMPL_INCLUDES" SAVED_LIBS=$LIBS STARPU_BLAS_LDFLAGS="-L$ARMPL_LIBRARIES -larmpl_lp64 -lgfortran -lm" LIBS="$LIBS $STARPU_BLAS_LDFLAGS" AC_LINK_IFELSE( [AC_LANG_PROGRAM([[ #include ]], [[ ]])], [ blas_lib=armpl ], [ STARPU_BLAS_LDFLAGS="" ], ) LIBS=$SAVED_LIBS fi AC_ARG_WITH(armpl-cflags, [AS_HELP_STRING([--with-armpl-cflags], [specify ARMPL compilation flags])], [ CPPFLAGS="${CPPFLAGS} $withval" blas_lib=armpl ]) AC_ARG_WITH(armpl-ldflags, [AS_HELP_STRING([--with-armpl-ldflags], [specify ARMPL linking flags])], [ STARPU_BLAS_LDFLAGS="$withval" blas_lib=armpl ]) if test x$blas_lib = xarmpl; then AC_DEFINE(STARPU_ARMPL, [1], [use ARMPL library]) fi fi if test x$blas_lib = xmaybe; then #perhaps it is possible to use some BLAS lib from the system use_system_blas=no STARPU_SEARCH_LIBS(BLAS,[sgemm_],[blas],use_system_blas=yes,,) if test x$use_system_blas = xyes; then AC_DEFINE(STARPU_SYSTEM_BLAS, [1], [use refblas library]) blas_lib=system elif test x"$BLAS_LIBS" != x; then AC_DEFINE(STARPU_SYSTEM_BLAS, [1], [use user defined library]) STARPU_BLAS_LDFLAGS="$BLAS_LIBS" blas_lib=system AC_ARG_VAR([BLAS_LIBS], [linker flags for blas]) else blas_lib=none fi fi AM_CONDITIONAL(ATLAS_BLAS_LIB, test x$blas_lib = xatlas) AM_CONDITIONAL(GOTO_BLAS_LIB, test x$blas_lib = xgoto) AM_CONDITIONAL(MKL_BLAS_LIB, test x$blas_lib = xmkl) AM_CONDITIONAL(SYSTEM_BLAS_LIB, test x$blas_lib = xsystem) AM_CONDITIONAL(NO_BLAS_LIB, test x$blas_lib = xnone -a x$enable_simgrid = xno) AC_SUBST(STARPU_BLAS_LDFLAGS) AC_MSG_CHECKING(which BLAS lib should be used) AC_MSG_RESULT($blas_lib) AC_SUBST(BLAS_LIB,$blas_lib) ############################################################################### # # # Multiple linear regression # # # ############################################################################### if test x$enable_simgrid = xyes ; then # There is no need for building mlr models in simgrid mode default_enable_mlr=no else default_enable_mlr=yes fi AC_ARG_ENABLE(mlr, [AS_HELP_STRING([--disable-mlr], [Disable multiple linear regression models])], enable_mlr=$enableval, enable_mlr=$default_enable_mlr) AC_MSG_CHECKING(whether multiple linear regression models are disabled) if test x$enable_mlr = xyes -a "$starpu_windows" != "yes" ; then AC_MSG_RESULT(no) install_min_dgels=no support_mlr=yes STARPU_SEARCH_LIBS(LAPACK,[dgels_],[lapack],use_system_lapack=yes,,) if test x$use_system_lapack = xyes; then AC_DEFINE(STARPU_MLR_MODEL, [1], [use reflapack library]) LDFLAGS="-llapack $LDFLAGS" else if test x$blas_lib = xmkl; then AC_DEFINE(STARPU_MLR_MODEL, [1], [use mkl library]) else AC_MSG_CHECKING(whether min-dgels is linked) if test x"$DGELS_LIBS" != x; then AC_MSG_RESULT(yes) AC_DEFINE(STARPU_MLR_MODEL, [1], [use user defined library]) AC_ARG_VAR([DGELS_LIBS], [linker flags for lapack dgels]) else AC_MSG_RESULT(no) AC_MSG_CHECKING(min-dgels source) if test "${cross_compiling}" != "no" ; then # Cross-compiling is not supported by min-dgels AC_MSG_RESULT(no) install_min_dgels=no support_mlr=no else if test ! -d $PWD/min-dgels; then cp -r $srcdir/min-dgels $PWD/ fi AC_MSG_RESULT(yes) DGELS_LIBS="-Wl,--start-group $STARPU_BUILD_DIR/min-dgels/build/minlibblas.a $STARPU_BUILD_DIR/min-dgels/build/minlibdgels.a $STARPU_BUILD_DIR/min-dgels/build/minlibf2c.a -Wl,--end-group" AC_DEFINE(STARPU_MLR_MODEL, [1], [use user defined library]) AC_DEFINE(STARPU_BUILT_IN_MIN_DGELS, [1], [use built-in min_dgels]) AC_ARG_VAR([DGELS_LIBS], [linker flags for lapack dgels]) install_min_dgels=yes fi fi fi fi else AC_MSG_RESULT(yes) install_min_dgels=no support_mlr=no fi AM_CONDITIONAL(STARPU_USE_MIN_DGELS, test x$install_min_dgels = xyes) ########################################## # FFT # ########################################## have_fftw=no have_fftwf=no have_fftwl=no fft_support=no AC_ARG_ENABLE(starpufft, [AS_HELP_STRING([--disable-starpufft], [Disable build of StarPU-FFT])], enable_starpufft=$enableval,enable_starpufft=yes) PKG_CHECK_MODULES([FFTW], [fftw3], [ AC_DEFINE([STARPU_HAVE_FFTW], [1], [Define to 1 if you have the libfftw3 library.]) AC_SUBST([STARPU_HAVE_FFTW], [1]) have_fftw=yes ], [:]) AM_CONDITIONAL(STARPU_HAVE_FFTW, [test x$have_fftw = xyes]) PKG_CHECK_MODULES([FFTWF], [fftw3f], [ AC_DEFINE([STARPU_HAVE_FFTWF], [1], [Define to 1 if you have the libfftw3f library.]) AC_SUBST([STARPU_HAVE_FFTWF], [1]) have_fftwf=yes ], [:]) AM_CONDITIONAL(STARPU_HAVE_FFTWF, [test x$have_fftwf = xyes]) PKG_CHECK_MODULES([FFTWL], [fftw3l], [ AC_DEFINE([STARPU_HAVE_FFTWL], [1], [Define to 1 if you have the libfftw3l library.]) AC_SUBST([HAVE_FFTWFL], [1]) have_fftwl=yes ], [:]) AM_CONDITIONAL(STARPU_HAVE_FFTWL, [test x$have_fftwl = xyes]) if test x$enable_starpufft = xyes -a \( \( x$enable_cpu = xyes -a x$have_fftw = xyes -a x$have_fftwf = xyes \) -o x$have_cufftdoublecomplex = xyes \); then fft_support=yes fi AM_CONDITIONAL(BUILD_STARPUFFT, [test x$fft_support = xyes]) AC_ARG_ENABLE(starpufft-examples, [AS_HELP_STRING([--enable-starpufft-examples], [enable build of StarPU FFT examples])], enable_starpufft_examples=$enableval, enable_starpufft_examples=no) AM_CONDITIONAL(BUILD_STARPUFFT_EXAMPLES, [test x$enable_starpufft_examples = xyes]) ########################################## # hwloc # ########################################## have_valid_hwloc=no SAVED_LDFLAGS="${LDFLAGS}" SAVED_CPPFLAGS="${CPPFLAGS}" SAVED_PKG_CONFIG_PATH="$PKG_CONFIG_PATH" AC_ARG_WITH([hwloc], [AS_HELP_STRING([--without-hwloc], [Disable hwloc (enabled by default)])], [ if test x$withval != xno; then if test "$withval" = "yes" ; then use_hwloc=yes else # use specified path if test ! -d "$withval" ; then AC_MSG_ERROR("Directory specified for hwloc <$withval> does not exist") fi if test ! -d "$withval/lib/pkgconfig" ; then AC_MSG_ERROR("Hwloc directory <$withval> does not have a subdirectory lib/pkgconfig") fi export PKG_CONFIG_PATH=$withval/lib/pkgconfig:$PKG_CONFIG_PATH use_hwloc=yes fi else use_hwloc=no fi ], [ use_hwloc=maybe ]) AS_IF([test "$use_hwloc" != "no"], [PKG_CHECK_MODULES([HWLOC],[hwloc], [have_valid_hwloc=yes], [have_valid_hwloc=no])] ) AM_CONDITIONAL(STARPU_HAVE_HWLOC, test "x$have_valid_hwloc" = "xyes") # in case hwloc was explicitely required, but is not available, this is an error AS_IF([test "$use_hwloc" = "yes" -a "$have_valid_hwloc" = "no"], [AC_MSG_ERROR([cannot find hwloc])] ) # in case hwloc is not available but was not explicitely disabled, this is an error AS_IF([test "$have_valid_hwloc" = "no" -a "$use_hwloc" != "no"], [AC_MSG_ERROR([libhwloc or pkg-config was not found on your system. If the target machine is hyperthreaded the performance may be impacted a lot. It is strongly recommended to install libhwloc and pkg-config. However, if you really want to use StarPU without enabling libhwloc, please restart configure by specifying the option '--without-hwloc'.])] ) LDFLAGS="${HWLOC_LIBS} ${SAVED_LDFLAGS}" CPPFLAGS="${HWLOC_CFLAGS} ${SAVED_CPPFLAGS}" AS_IF([test "$have_valid_hwloc" = "yes"], [AC_DEFINE([STARPU_HAVE_HWLOC], [1], [Define to 1 if you have the hwloc library.]) HWLOC_REQUIRES=hwloc AC_SUBST([STARPU_HAVE_HWLOC], [1]) AC_CHECK_DECLS([hwloc_cuda_get_device_osdev_by_index], [], [], [[#include ]]) ]) AC_CHECK_FUNCS([hwloc_topology_dup]) AC_CHECK_FUNCS([hwloc_topology_set_components]) AM_CONDITIONAL(STARPU_HWLOC_HAVE_TOPOLOGY_DUP, test $ac_cv_func_hwloc_topology_dup = yes) LDFLAGS="${SAVED_LDFLAGS}" CPPFLAGS="${SAVED_CPPFLAGS}" export PKG_CONFIG_PATH=$SAVED_PKG_CONFIG_PATH AC_MSG_CHECKING(whether hwloc should be used) AC_MSG_RESULT($have_valid_hwloc) AC_SUBST(HWLOC_REQUIRES) # is the header file f77.h available ? AC_CHECK_HEADER([f77.h], [have_f77_h=yes], [have_f77_h=no]) AC_SUBST(STARPU_HAVE_F77_H, $have_f77_h) AM_CONDITIONAL(STARPU_HAVE_F77_H, test x$have_f77_h = xyes) if test x$have_f77_h = xyes; then AC_DEFINE([STARPU_HAVE_F77_H], [1], [Define to 1 if you have the header file.]) fi AC_ARG_ENABLE(icc, [AS_HELP_STRING([--enable-icc], [Enable the compilation of specific ICC examples])], enable_icc=$enableval, enable_icc=yes) ICC="" if test "$enable_icc" = "yes" ; then # Check if icc is available AC_CHECK_PROGS([ICC], [icc]) fi # If cuda and icc are both available, check they are compatible if test "$enable_cuda" = "yes" -a "$ICC" != ""; then AC_MSG_CHECKING(whether CUDA and ICC are compatible) OLD_CC="$CC" CC="$ICC" OLD_CFLAGS="$CFLAGS" CFLAGS="-I$PWD/include -I$srcdir/include" AC_COMPILE_IFELSE( [AC_LANG_PROGRAM( [[#include #include ]], [[]] )], AC_MSG_RESULT(yes), [ICC="" AC_MSG_RESULT(no)] ) CC="$OLD_CC" CFLAGS="$OLD_CFLAGS" fi # Disable ICC on windows if test "x$ICC" != "x" -a "$starpu_windows" = "yes" ; then ICC="" fi if test "x$ICC" != "x"; then AC_DEFINE(STARPU_HAVE_ICC, [1], [Define this if icc is available]) fi AM_CONDITIONAL([STARPU_HAVE_ICC], [test "x$ICC" != "x"]) # Do not generate manpages for the tools if we do not have help2man AC_CHECK_PROGS([HELP2MAN], [help2man]) # Disable on windows if test "$starpu_windows" = "yes" ; then HELP2MAN="" fi AM_CONDITIONAL([STARPU_HAVE_HELP2MAN], [test "x$HELP2MAN" != "x"]) AC_CHECK_MEMBER([struct cudaDeviceProp.pciDomainID], AC_DEFINE([STARPU_HAVE_DOMAINID],[1],[Define to 1 if CUDA device properties include DomainID]), , [[#include ]]) AC_CHECK_MEMBER([struct cudaDeviceProp.pciBusID], AC_DEFINE([STARPU_HAVE_BUSID],[1],[Define to 1 if CUDA device properties include BusID]), , [[#include ]]) dnl Set this condition when Automake 1.11 or later is being used. dnl Automake 1.11 introduced `silent-rules', hence the check. m4_ifdef([AM_SILENT_RULES], AM_CONDITIONAL([STARPU_HAVE_AM111], [true]), AM_CONDITIONAL([STARPU_HAVE_AM111], [false])) ########################################## # Resource Manager # ########################################## starpurm_support=no starpurm_dlb_support=no AC_ARG_ENABLE(starpurm, [AS_HELP_STRING([--enable-starpurm], [enable resource management support])], enable_starpurm=$enableval, enable_starpurm=no) if test "x$enable_starpurm" != xno then starpurm_support=yes AC_MSG_CHECKING(whether resource management debug messages should be displayed) AC_ARG_ENABLE(starpurm-verbose, [AS_HELP_STRING([--enable-starpurm-verbose], [display resource management verbose debug messages])], enable_starpurm_verbose=$enableval, enable_starpurm_verbose=no) AC_MSG_RESULT($enable_starpurm_verbose) if test x$enable_starpurm_verbose = xyes; then AC_DEFINE(STARPURM_VERBOSE, [1], [display resource management verbose debug messages]) fi # DLB DLB_CFLAGS="" DLB_LIBS="" AC_ARG_ENABLE(dlb, [AS_HELP_STRING([--enable-dlb], [enable DLB support])], enable_dlb=$enableval, enable_dlb=no) if test "x$enable_dlb" != xno then AC_ARG_WITH(dlb-include-dir, [AS_HELP_STRING([--with-dlb-include-dir=], [specify where DLB headers are installed])], [dlb_inc_dirs="$withval"], [dlb_inc_dirs=""]) dlb_inc_dirs="${dlb_inc_dirs} /usr/include/dlb" dlb_incdir_found=no for dlb_incdir in $dlb_inc_dirs do if test -n "$dlb_incdir" then SAVED_CPPFLAGS="${CPPFLAGS}" CPPFLAGS=-I${dlb_incdir} AC_CHECK_HEADERS([dlb.h]) if test "$ac_cv_header_dlb_h" = "yes" then CPPFLAGS="-I$dlb_incdir ${SAVED_CPPFLAGS}" DLB_CFLAGS="-I${dlb_incdir}" dlb_incdir_found=yes break else CPPFLAGS=${SAVED_CPPFLAGS} fi unset ac_cv_header_dlb_h fi done AC_ARG_WITH(dlb-lib-dir, [AS_HELP_STRING([--with-dlb-lib-dir=], [specify where DLB libraries are installed])], [dlb_lib_dirs="$withval"], [dlb_lib_dirs=""]) dlb_lib_dirs="${dlb_lib_dirs} /usr/lib/dlb" dlb_libdir_found=no for dlb_libdir in $dlb_lib_dirs do if test -n "$dlb_libdir" then SAVED_LDFLAGS="${LDFLAGS}" LDFLAGS=-L${dlb_libdir} AC_CHECK_LIB(dlb, [DLB_Init]) if test "$ac_cv_lib_dlb_DLB_Init" = "yes" then LDFLAGS="-L${dlb_libdir} ${SAVED_LDFLAGS} ${STARPU_DLB_LDFLAGS}" DLB_LIBS="-L${dlb_libdir} -ldlb" dlb_libdir_found=yes break else LDFLAGS=${SAVED_LDFLAGS} fi unset ac_cv_lib_dlb_DLB_Init fi done SAVED_CPPFLAGS="${CPPFLAGS}" SAVED_CFLAGS="${CFLAGS}" SAVED_LDFLAGS="${LDFLAGS}" CPPFLAGS="$HWLOC_CPPFLAGS -D_GNU_SOURCE $CPPFLAGS" CFLAGS="$HWLOC_CFLAGS $CFLAGS" LIBS="$HWLOC_LIBS $LIBS" # check whether libhwloc has a dedicated glibc-sched.h include for conversion with glibc cpusets AC_CHECK_HEADERS([hwloc/glibc-sched.h]) CPPFLAGS="$SAVED_CPPFLAGS" CFLAGS="$SAVED_CFLAGS" LIBS="$SAVED_LIBS" SAVED_CPPFLAGS="${CPPFLAGS}" SAVED_CFLAGS="${CFLAGS}" SAVED_LDFLAGS="${LDFLAGS}" CPPFLAGS="$STARPU_CPPFLAGS $CPPFLAGS" CFLAGS="$STARPU_CFLAGS $CFLAGS" LIBS="$STARPU_LIBS $LIBS" # check if StarPU implements starpu_worker_set_going_to_sleep_callback() if test x$enable_worker_cb = xyes ; then AC_DEFINE([STARPURM_STARPU_HAVE_WORKER_CALLBACKS], [1], [Define to 1 if StarPU has support for worker callbacks.]) fi #AC_CHECK_FUNC([starpu_worker_set_going_to_sleep_callback],AC_DEFINE([STARPURM_STARPU_HAVE_WORKER_CALLBACKS], [1], [Define to 1 if StarPU has support for worker callbacks.])) CPPFLAGS="$SAVED_CPPFLAGS" CFLAGS="$SAVED_CFLAGS" LIBS="$SAVED_LIBS" if test "x$dlb_incdir_found" != "xyes" -o "x$dlb_libdir_found" != "xyes" then enable_dlb=no fi fi AC_MSG_CHECKING(whether DLB support should be enabled) AC_MSG_RESULT($enable_dlb) if test "x$enable_dlb" != "xno" then AC_DEFINE([STARPURM_HAVE_DLB], [1], [Define to 1 if dlb support is enabled.]) starpurm_dlb_support=yes AC_MSG_CHECKING(whether DLB resource management debug messages should be displayed) AC_ARG_ENABLE(starpurm-dlb-verbose, [AS_HELP_STRING([--enable-starpurm-dlb-verbose], [display resource management verbose debug messages])], enable_starpurm_dlb_verbose=$enableval, enable_starpurm_dlb_verbose=no) AC_MSG_RESULT($enable_starpurm_dlb_verbose) if test x$enable_starpurm_dlb_verbose = xyes; then AC_DEFINE(STARPURM_DLB_VERBOSE, [1], [display DLB resource management verbose debug messages]) fi AX_DLB_CALLBACK_ARG() fi AC_SUBST(DLB_CFLAGS) AC_SUBST(DLB_LIBS) fi AM_CONDITIONAL(STARPURM_HAVE_DLB, test x$starpurm_dlb_support == "xyes") AM_CONDITIONAL(BUILD_STARPURM, [test x$starpurm_support = xyes]) AC_ARG_ENABLE(starpurm-examples, [AS_HELP_STRING([--enable-starpurm-examples], [enable build of StarPU Resource Manager examples])], enable_starpurm_examples=$enableval, enable_starpurm_examples=no) AM_CONDITIONAL(BUILD_STARPURM_EXAMPLES, [test x$enable_starpurm_examples = xyes]) ########################################## # Documentation # ########################################## AC_ARG_ENABLE(build-doc, [AS_HELP_STRING([--disable-build-doc], [disable building of documentation])], enable_build_doc=$enableval, enable_build_doc=yes) if test "$enable_build_doc" = "yes" ; then # Check whether doxygen needed tools are installed AC_PATH_PROG(doxygencommand, doxygen) if test "$doxygencommand" = "" ; then enable_build_doc="no" fi AC_PATH_PROG(pdflatexcommand, pdflatex) if test "$pdflatexcommand" = "" ; then enable_build_doc="no" fi AC_PATH_PROG(epstopdfcommand, epstopdf) if test "$epstopdfcommand" = "" ; then enable_build_doc="no" fi fi available_doc="no" if test -f "$srcdir/doc/doxygen/starpu.pdf" ; then enable_build_doc="no" available_doc="yes" fi AC_MSG_CHECKING(whether documentation should be compiled) AC_MSG_RESULT($enable_build_doc) AC_MSG_CHECKING(whether documentation is available) AC_MSG_RESULT($available_doc) AM_CONDITIONAL(BUILD_DOC, [test x$enable_build_doc != xno]) AM_CONDITIONAL(AVAILABLE_DOC, [test x$available_doc != xno]) ############################################################################### # # # Final settings # # # ############################################################################### # these are the flags needed for linking libstarpu (and thus also for static linking) LIBSTARPU_LDFLAGS="$STARPU_OPENCL_LDFLAGS $STARPU_CUDA_LDFLAGS $HWLOC_LIBS $FXT_LIBS $STARPU_COI_LDFLAGS $STARPU_SCIF_LDFLAGS $STARPU_RCCE_LDFLAGS $STARPU_LEVELDB_LDFLAGS $STARPU_GLPK_LDFLAGS $STARPU_LEVELDB_LDFLAGS $SIMGRID_LIBS $STARPU_BLAS_LDFLAGS $STARPU_OMP_LDFLAGS $DGELS_LIBS" AC_SUBST([LIBSTARPU_LDFLAGS]) LIBSTARPU_LINK=libstarpu-$STARPU_EFFECTIVE_VERSION.la AC_SUBST([LIBSTARPU_LINK]) if test "x$enable_shared" = xno; then # No .so, so application will unexpected have to know which -l to # use. Give them in .pc file. AC_DEFINE(STARPU_STATIC_ONLY, [1], [Only static compilation was made]) STARPU_EXPORTED_LIBS="$LDFLAGS $LIBS $LIBSTARPU_LDFLAGS" fi AC_SUBST(STARPU_EXPORTED_LIBS) # File configuration AC_CONFIG_COMMANDS([executable-scripts], [ chmod +x tests/regression/regression.sh chmod +x tests/loader-cross.sh chmod +x tests/model-checking/starpu-mc.sh chmod +x examples/loader-cross.sh chmod +x examples/stencil/loader-cross.sh chmod +x tools/starpu_codelet_profile chmod +x tools/starpu_codelet_histo_profile chmod +x tools/starpu_mpi_comm_matrix.py chmod +x tools/starpu_workers_activity chmod +x tools/starpu_paje_draw_histogram chmod +x tools/starpu_paje_state_stats chmod +x tools/starpu_paje_summary chmod +x tools/starpu_mlr_analysis chmod +x tools/starpu_paje_sort chmod +x tools/starpu_smpirun chmod +x doc/doxygen/doxygen_filter.sh chmod +x doc/doxygen_dev/doxygen_filter.sh mkdir -p tests/microbenchs test -e tests/microbenchs/tasks_size_overhead.sh || ln -sf $ac_abs_top_srcdir/tests/microbenchs/tasks_size_overhead.sh tests/microbenchs/ test -e tests/microbenchs/tasks_size_overhead_sched.sh || ln -sf $ac_abs_top_srcdir/tests/microbenchs/tasks_size_overhead_sched.sh tests/microbenchs/ test -e tests/microbenchs/tasks_size_overhead_scheds.sh || ln -sf $ac_abs_top_srcdir/tests/microbenchs/tasks_size_overhead_scheds.sh tests/microbenchs/ test -e tests/microbenchs/tasks_size_overhead.gp || ln -sf $ac_abs_top_srcdir/tests/microbenchs/tasks_size_overhead.gp tests/microbenchs/ test -e tests/microbenchs/microbench.sh || ln -sf $ac_abs_top_srcdir/tests/microbenchs/microbench.sh tests/microbenchs/ test -e tests/microbenchs/parallel_dependent_homogeneous_tasks_data.sh || ln -sf $ac_abs_top_srcdir/tests/microbenchs/parallel_dependent_homogeneous_tasks_data.sh tests/microbenchs/ test -e tests/microbenchs/parallel_independent_heterogeneous_tasks_data.sh || ln -sf $ac_abs_top_srcdir/tests/microbenchs/parallel_independent_heterogeneous_tasks_data.sh tests/microbenchs/ test -e tests/microbenchs/parallel_independent_heterogeneous_tasks.sh || ln -sf $ac_abs_top_srcdir/tests/microbenchs/parallel_independent_heterogeneous_tasks.sh tests/microbenchs/ test -e tests/microbenchs/parallel_independent_homogeneous_tasks_data.sh || ln -sf $ac_abs_top_srcdir/tests/microbenchs/parallel_independent_homogeneous_tasks_data.sh tests/microbenchs/ test -e tests/microbenchs/parallel_independent_homogeneous_tasks.sh || ln -sf $ac_abs_top_srcdir/tests/microbenchs/parallel_independent_homogeneous_tasks.sh tests/microbenchs/ test -e tests/microbenchs/parallel_redux_homogeneous_tasks_data.sh || ln -sf $ac_abs_top_srcdir/tests/microbenchs/parallel_redux_homogeneous_tasks_data.sh tests/microbenchs/ test -e tests/microbenchs/parallel_redux_heterogeneous_tasks_data.sh || ln -sf $ac_abs_top_srcdir/tests/microbenchs/parallel_redux_heterogeneous_tasks_data.sh tests/microbenchs/ mkdir -p tests/datawizard test -e tests/datawizard/locality.sh || ln -sf $ac_abs_top_srcdir/tests/datawizard/locality.sh tests/datawizard/ mkdir -p tests/overlap test -e tests/overlap/overlap.sh || ln -sf $ac_abs_top_srcdir/tests/overlap/overlap.sh tests/overlap/ mkdir -p tests/model-checking test -e tests/model-checking/prio_list.sh || ln -sf $ac_abs_top_srcdir/tests/model-checking/prio_list.sh tests/model-checking/ test -e tests/model-checking/barrier.sh || ln -sf $ac_abs_top_srcdir/tests/model-checking/barrier.sh tests/model-checking/ mkdir -p examples/heat test -e examples/heat/heat.sh || ln -sf $ac_abs_top_srcdir/examples/heat/heat.sh examples/heat/ mkdir -p examples/lu test -e examples/lu/lu.sh || ln -sf $ac_abs_top_srcdir/examples/lu/lu.sh examples/lu/ mkdir -p examples/cholesky test -e examples/cholesky/cholesky.sh || ln -sf $ac_abs_top_srcdir/examples/cholesky/cholesky.sh examples/cholesky/ test -e tools/starpu_paje_draw_histogram.R || ln -sf $ac_abs_top_srcdir/tools/starpu_paje_draw_histogram.R tools/starpu_paje_draw_histogram.R test -e tools/starpu_paje_state_stats.R || ln -sf $ac_abs_top_srcdir/tools/starpu_paje_state_stats.R tools/starpu_paje_state_stats.R test -e tools/starpu_trace_state_stats.py || ln -sf $ac_abs_top_srcdir/tools/starpu_trace_state_stats.py tools/starpu_trace_state_stats.py chmod +x tools/starpu_trace_state_stats.py ]) # Create links to ICD files in build/socl/vendors directory. SOCL will use this # directory as the OCL_ICD_VENDORS directory SOCL_VENDORS="vendors/install/socl.icd" for icd in /etc/OpenCL/vendors/*.icd ; do if test -f $icd ; then if test "$(basename $icd)" != "socl.icd" ; then new_icd=$(basename $icd) AC_CONFIG_LINKS([socl/vendors/$new_icd:$icd]) SOCL_VENDORS="$SOCL_VENDORS vendors/$new_icd" fi fi done AC_SUBST(SOCL_VENDORS) AC_CONFIG_FILES(tests/regression/regression.sh tests/regression/profiles tests/regression/profiles.build.only) AC_CONFIG_HEADER(src/common/config.h include/starpu_config.h starpurm/include/starpurm_config.h) SANITIZE=$(echo $CFLAGS | grep sanitize) AM_CONDITIONAL(STARPU_SANITIZE, test -n "$SANITIZE") AC_OUTPUT([ Makefile src/Makefile tools/Makefile tools/starpu_codelet_profile tools/starpu_codelet_histo_profile tools/starpu_mpi_comm_matrix.py tools/starpu_workers_activity tools/starpu_paje_draw_histogram tools/starpu_paje_state_stats tools/starpu_paje_summary tools/starpu_mlr_analysis tools/starpu_paje_sort tools/starpu_smpirun socl/Makefile socl/src/Makefile socl/examples/Makefile socl/vendors/socl.icd socl/vendors/install/socl.icd libstarpu.pc starpu-1.0.pc starpu-1.1.pc starpu-1.2.pc starpu-1.3.pc mpi/libstarpumpi.pc mpi/starpumpi-1.0.pc mpi/starpumpi-1.1.pc mpi/starpumpi-1.2.pc mpi/starpumpi-1.3.pc starpufft/Makefile starpufft/src/Makefile starpufft/tests/Makefile starpufft/libstarpufft.pc starpufft/starpufft-1.0.pc starpufft/starpufft-1.1.pc starpufft/starpufft-1.2.pc starpufft/starpufft-1.3.pc starpurm/Makefile starpurm/src/Makefile starpurm/examples/Makefile starpurm/starpurm-1.3.pc examples/Makefile examples/stencil/Makefile tests/Makefile tests/loader-cross.sh tests/model-checking/starpu-mc.sh examples/loader-cross.sh examples/stencil/loader-cross.sh mpi/Makefile mpi/src/Makefile mpi/tests/Makefile mpi/examples/Makefile sc_hypervisor/Makefile sc_hypervisor/src/Makefile sc_hypervisor/examples/Makefile doc/Makefile doc/doxygen/Makefile doc/doxygen/doxygen-config.cfg doc/doxygen/doxygen_filter.sh doc/doxygen_dev/Makefile doc/doxygen_dev/doxygen-config.cfg doc/doxygen_dev/doxygen_filter.sh tools/msvc/starpu_var.bat min-dgels/Makefile ]) AC_MSG_NOTICE([ CPUs enabled: $enable_cpu CUDA enabled: $enable_cuda OpenCL enabled: $enable_opencl MIC enabled: $enable_mic Compile-time limits (change these with --enable-maxcpus, --enable-maxcudadev, --enable-maxopencldev, --enable-maxmicdev, --enable-maxnodes, --enable-maxbuffers) (Note these numbers do not represent the number of detected devices, but the maximum number of devices StarPU can manage) Maximum number of CPUs: $maxcpus Maximum number of CUDA devices: $nmaxcudadev Maximum number of OpenCL devices: $nmaxopencldev Maximum number of MIC threads: $nmaxmicthreads Maximum number of MPI master-slave devices: $nmaxmpidev Maximum number of memory nodes: $maxnodes Maximum number of task buffers: $nmaxbuffers GPU-GPU transfers: $enable_cuda_memcpy_peer Allocation cache: $enable_allocation_cache Magma enabled: $have_magma BLAS library: $blas_lib hwloc: $have_valid_hwloc FxT trace enabled: $use_fxt Documentation: $enable_build_doc Examples: $enable_build_examples StarPU Extensions: StarPU MPI enabled: $build_mpi_lib StarPU MPI(nmad) enabled: $build_nmad_lib MPI test suite: $running_mpi_check Master-Slave MPI enabled: $use_mpi_master_slave FFT Support: $fft_support Resource Management enable: $starpurm_support OpenMP runtime support enabled: $enable_openmp Cluster support enabled: $enable_cluster SOCL enabled: $build_socl SOCL test suite: $run_socl_check Scheduler Hypervisor: $build_sc_hypervisor simgrid enabled: $enable_simgrid ayudame enabled: $ayu_msg Native fortran support: $enable_build_fortran Native MPI fortran support: $use_mpi_fort Support for multiple linear regression models: $support_mlr ]) if test "$build_socl" = "yes" -a "$run_socl_check" = "no" ; then AC_MSG_NOTICE([ WARNING: SOCL test suite will not be run as the environment variable SOCL_OCL_LIB_OPENCL is not defined. To run the tests, you need to install the OCL implementation of ICD (https://forge.imag.fr/projects/ocl-icd/ or Debian package ocl-icd-libopencl1) and set the variable SOCL_OCL_LIB_OPENCL to the location of the libOpenCL.so.]) fi if test x"$have_valid_hwloc" = xno -a "$enable_simgrid" = "no" ; then AC_MSG_NOTICE([ WARNING: hwloc was not enabled. If the target machine is hyperthreaded the performance may be impacted a lot. It is strongly recommended to install hwloc]) fi if test x"$starpu_windows" = xyes -a "x$STARPU_MS_LIB" = "x" ; then AC_MSG_NOTICE([ WARNING: lib was not found, you will not be able to build StarPU applications with Microsoft Visual Studio. Add to your PATH the directories for MSVC, e.g c:\Program Files (x86)\Microsoft Visual Studio 11.0\Common7\IDE; c:\Program Files (x86)\Microsoft Visual Studio 11.0\VC\bin]) fi