dnl -*- shell-script -*- dnl dnl Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana dnl University Research and Technology dnl Corporation. All rights reserved. dnl Copyright (c) 2004-2005 The University of Tennessee and The University dnl of Tennessee Research Foundation. All rights dnl reserved. dnl Copyright (c) 2004-2005 High Performance Computing Center Stuttgart, dnl University of Stuttgart. All rights reserved. dnl Copyright (c) 2004-2005 The Regents of the University of California. dnl All rights reserved. dnl Copyright (c) 2010 Cisco Systems, Inc. All rights reserved. dnl $COPYRIGHT$ dnl dnl Additional copyrights may follow dnl dnl $HEADER$ dnl # OMPI_EVAL_ARG(arg) # ------------------ # evaluates and returns argument AC_DEFUN([OMPI_EVAL_ARG], [$1]) ###################################################################### # # OMPI_MCA # # configure the MCA (modular component architecture). Works hand in hand # with Open MPI's autogen.pl, requiring it's specially formatted lists # of frameworks, components, etc. # # USAGE: # OMPI_MCA() # ###################################################################### AC_DEFUN([OMPI_MCA],[ dnl for OPAL_CONFIGURE_USER env variable AC_REQUIRE([OPAL_CONFIGURE_SETUP]) # Find which components should be built as run-time loadable components # Acceptable combinations: # # [default -- no option given] # --enable-mca-dso # --enable-mca-dso=[.+,]*COMPONENT_TYPE[.+,]* # --enable-mca-dso=[.+,]*COMPONENT_TYPE-COMPONENT_NAME[.+,]* # --disable-mca-dso # AC_ARG_ENABLE([mca-no-build], [AC_HELP_STRING([--enable-mca-no-build=LIST], [Comma-separated list of - pairs that will not be built. Example: "--enable-mca-no-build=maffinity,btl-portals" will disable building all maffinity components and the "portals" btl components.])]) AC_ARG_ENABLE(mca-dso, AC_HELP_STRING([--enable-mca-dso=LIST], [Comma-separated list of types and/or type-component pairs that will be built as run-time loadable components (as opposed to statically linked in), if supported on this platform. The default is to build all components as DSOs.])) AC_ARG_ENABLE(mca-static, AC_HELP_STRING([--enable-mca-static=LIST], [Comma-separated list of types and/or type-component pairs that will be built statically linked into the library. The default (if DSOs are supported) is to build all components as DSOs. Enabling a component as static disables it building as a DSO.])) AC_ARG_ENABLE(mca-direct, AC_HELP_STRING([--enable-mca-direct=LIST], [Comma-separated list of type-component pairs that will be hard coded as the one component to use for a given component type, saving the (small) overhead of the component architecture. LIST must not be empty and implies given component pairs are build as static components.])) AC_MSG_CHECKING([which components should be disabled]) if test "$enable_mca_no_build" = "yes"; then AC_MSG_RESULT([yes]) AC_MSG_ERROR([*** The enable-mca-no-build flag requires an explicit list *** of type-component pairs. For example, --enable-mca-direct=pml-ob1]) else ifs_save="$IFS" IFS="${IFS}$PATH_SEPARATOR," msg= for item in $enable_mca_no_build; do type="`echo $item | cut -s -f1 -d-`" comp="`echo $item | cut -s -f2- -d-`" if test -z $type ; then type=$item fi if test -z $comp ; then str="`echo DISABLE_${type}=1 | sed s/-/_/g`" eval $str msg="$item $msg" else str="`echo DISABLE_${type}_${comp}=1 | sed s/-/_/g`" eval $str msg="$item $msg" fi done IFS="$ifs_save" fi AC_MSG_RESULT([$msg]) unset msg # # First, add all the mca-direct components / types into the mca-static # lists and create a list of component types that are direct compile, # in the form DIRECT_[type]=[component] # AC_MSG_CHECKING([which components should be direct-linked into the library]) if test "$enable_mca_direct" = "yes" ; then AC_MSG_RESULT([yes]) AC_MSG_ERROR([*** The enable-mca-direct flag requires an explicit list of *** type-component pairs. For example, --enable-mca-direct=pml-ob1,coll-basic]) elif test ! -z "$enable_mca_direct" -a "$enable_mca_direct" != "" ; then # # we need to add this into the static list, unless the static list # is everything # if test "$enable_mca_static" = "no" ; then AC_MSG_WARN([*** Re-enabling static component support for direct call]) enable_mca_static="$enable_mca_direct" elif test -z "$enable_mca_static" ; then enable_mca_static="$enable_mca_direct" elif test "$enable_mca_static" != "yes" ; then enable_mca_static="$enable_mca_direct,$enable_mca_static" fi ifs_save="$IFS" IFS="${IFS}$PATH_SEPARATOR," msg= for item in $enable_mca_direct; do type="`echo $item | cut -f1 -d-`" comp="`echo $item | cut -f2- -d-`" if test -z $type -o -z $comp ; then AC_MSG_ERROR([*** The enable-mca-direct flag requires a *** list of type-component pairs. Invalid input detected.]) else str="`echo DIRECT_$type=$comp | sed s/-/_/g`" eval $str msg="$item $msg" fi done IFS="$ifs_save" fi AC_MSG_RESULT([$msg]) unset msg # # Second, set the DSO_all and STATIC_all variables. conflict # resolution (prefer static) is done in the big loop below # AC_MSG_CHECKING([which components should be run-time loadable]) if test "$enable_static" != "no"; then DSO_all=0 msg=none elif test -z "$enable_mca_dso" -o "$enable_mca_dso" = "yes"; then DSO_all=1 msg=all elif test "$enable_mca_dso" = "no"; then DSO_all=0 msg=none else DSO_all=0 ifs_save="$IFS" IFS="${IFS}$PATH_SEPARATOR," msg= for item in $enable_mca_dso; do str="`echo DSO_$item=1 | sed s/-/_/g`" eval $str msg="$item $msg" done IFS="$ifs_save" fi AC_MSG_RESULT([$msg]) unset msg if test "$enable_static" != "no"; then AC_MSG_WARN([*** Shared libraries have been disabled (--disable-shared)]) AC_MSG_WARN([*** Building MCA components as DSOs automatically disabled]) fi AC_MSG_CHECKING([which components should be static]) if test "$enable_mca_static" = "yes"; then STATIC_all=1 msg=all elif test -z "$enable_mca_static" -o "$enable_mca_static" = "no"; then STATIC_all=0 msg=none else STATIC_all=0 ifs_save="$IFS" IFS="${IFS}$PATH_SEPARATOR," msg= for item in $enable_mca_static; do str="`echo STATIC_$item=1 | sed s/-/_/g`" eval $str msg="$item $msg" done IFS="$ifs_save" fi AC_MSG_RESULT([$msg]) unset msg AC_MSG_CHECKING([for projects containing MCA frameworks]) AC_MSG_RESULT([mca_project_list]) # if there isn't a project list, abort m4_ifdef([mca_project_list], [], [m4_fatal([Could not find project list - please rerun autogen.pl!])]) # now configre all the projects, frameworks, and components. Most # of the hard stuff is in here MCA_PROJECT_SUBDIRS= m4_foreach(mca_project, [mca_project_list], [MCA_PROJECT_SUBDIRS="$MCA_PROJECT_SUBDIRS mca_project" MCA_CONFIGURE_PROJECT(mca_project)]) # BWB - fix me... need to automate this somehow MCA_SETUP_DIRECT_CALL(ompi, pml) MCA_SETUP_DIRECT_CALL(ompi, mtl) AC_SUBST(MCA_PROJECT_SUBDIRS) ]) ###################################################################### # # MCA_CONFIGURE_PROJECT # # Configure all frameworks inside the given project name. Assumes that # the frameworks are located in [project_name]/mca/[frameworks] and that # there is an m4_defined list named mca_[project]_framework_list with # the list of frameworks. # # USAGE: # MCA_CONFIGURE_PROJECT(project_name) # ###################################################################### AC_DEFUN([MCA_CONFIGURE_PROJECT],[ # can't use a variable rename here because these need to be evaled # at auto* time. ompi_show_subtitle "Configuring MCA for $1" AC_MSG_CHECKING([for frameworks for $1]) AC_MSG_RESULT([mca_$1_framework_list]) # iterate through the list of frameworks. There is something # funky with m4 foreach if the list is defined, but empty. It # will call the 3rd argument once with an empty value for the # first argument. Protect against calling MCA_CONFIGURE_FRAMEWORK # with an empty second argument. Grrr.... # if there isn't a project list, abort # # Also setup two variables for Makefiles: # MCA_project_FRAMEWORKS - list of frameworks in that project # MCA_project_FRAMEWORK_LIBS - list of libraries (or variables pointing # to more libraries) that must be included # in the project's main library m4_ifdef([mca_$1_framework_list], [], [m4_fatal([Could not find mca_$1_framework_list - please rerun autogen.pl])]) MCA_$1_FRAMEWORKS= MCA_$1_FRAMEWORKS_SUBDIRS= MCA_$1_FRAMEWORK_COMPONENT_ALL_SUBDIRS= MCA_$1_FRAMEWORK_COMPONENT_DSO_SUBDIRS= MCA_$1_FRAMEWORK_COMPONENT_STATIC_SUBDIRS= MCA_$1_FRAMEWORK_LIBS= m4_foreach(mca_framework, [mca_$1_framework_list], [m4_ifval(mca_framework, [dnl common has to go up front m4_if(mca_framework, [common], [MCA_$1_FRAMEWORKS="mca_framework $MCA_$1_FRAMEWORKS" MCA_$1_FRAMEWORKS_SUBDIRS="[mca/]mca_framework $MCA_$1_FRAMEWORKS_SUBDIRS" MCA_$1_FRAMEWORK_COMPONENT_ALL_SUBDIRS="[\$(MCA_]$1[_]mca_framework[_ALL_SUBDIRS)] $MCA_$1_FRAMEWORK_COMPONENT_ALL_SUBDIRS" MCA_$1_FRAMEWORK_COMPONENT_DSO_SUBDIRS="[\$(MCA_]$1[_]mca_framework[_DSO_SUBDIRS)] $MCA_$1_FRAMEWORK_COMPONENT_DSO_SUBDIRS" MCA_$1_FRAMEWORK_COMPONENT_STATIC_SUBDIRS="[\$(MCA_]$1[_]mca_framework[_STATIC_SUBDIRS)] $MCA_$1_FRAMEWORK_COMPONENT_STATIC_SUBDIRS" ], [ MCA_$1_FRAMEWORKS="$MCA_$1_FRAMEWORKS mca_framework" MCA_$1_FRAMEWORKS_SUBDIRS="$MCA_$1_FRAMEWORKS_SUBDIRS [mca/]mca_framework" MCA_$1_FRAMEWORK_COMPONENT_ALL_SUBDIRS="$MCA_$1_FRAMEWORK_COMPONENT_ALL_SUBDIRS [\$(MCA_]$1[_]mca_framework[_ALL_SUBDIRS)]" MCA_$1_FRAMEWORK_COMPONENT_DSO_SUBDIRS="$MCA_$1_FRAMEWORK_COMPONENT_DSO_SUBDIRS [\$(MCA_]$1[_]mca_framework[_DSO_SUBDIRS)]" MCA_$1_FRAMEWORK_COMPONENT_STATIC_SUBDIRS="$MCA_$1_FRAMEWORK_COMPONENT_STATIC_SUBDIRS [\$(MCA_]$1[_]mca_framework[_STATIC_SUBDIRS)]" MCA_$1_FRAMEWORK_LIBS="$MCA_$1_FRAMEWORK_LIBS [mca/]mca_framework[/libmca_]mca_framework[.la]"]) MCA_$1_FRAMEWORK_LIBS="$MCA_$1_FRAMEWORK_LIBS [\$(MCA_]$1[_]mca_framework[_STATIC_LTLIBS)]" m4_ifdef([MCA_]$1[_]mca_framework[_CONFIG], [MCA_]$1[_]mca_framework[_CONFIG]($1, mca_framework), [MCA_CONFIGURE_FRAMEWORK($1, mca_framework, 1)])])]) AC_SUBST(MCA_$1_FRAMEWORKS) AC_SUBST(MCA_$1_FRAMEWORKS_SUBDIRS) AC_SUBST(MCA_$1_FRAMEWORK_COMPONENT_ALL_SUBDIRS) AC_SUBST(MCA_$1_FRAMEWORK_COMPONENT_DSO_SUBDIRS) AC_SUBST(MCA_$1_FRAMEWORK_COMPONENT_STATIC_SUBDIRS) AC_SUBST(MCA_$1_FRAMEWORK_LIBS) ]) # MCA_ORDER_COMPONENT_LIST(project_name, framework_name) AC_DEFUN([MCA_ORDER_COMPONENT_LIST], [ m4_foreach(mca_component, [mca_$1_$2_m4_config_component_list], [m4_ifval(mca_component, [m4_ifdef([MCA_]$1[_]$2[_]mca_component[_PRIORITY], [], [m4_fatal([MCA_$1_$2_]mca_component[_PRIORITY not found, but required.])])])]) m4_define([component_list], [esyscmd([config/ompi_mca_priority_sort.pl] m4_foreach([mca_component], [mca_$1_$2_m4_config_component_list], [m4_ifval(mca_component, [mca_component ]OMPI_EVAL_ARG([MCA_]$1[_]$2[_]mca_component[_PRIORITY ]))]))]) ]) AC_DEFUN([MCA_CHECK_IGNORED_PRIORITY], [ m4_foreach(mca_component, [mca_$1_$2_m4_config_component_list], [m4_ifval(mca_component, [m4_ifdef([MCA_]$1[_]$2[_]mca_component[_PRIORITY], [m4_warn([unsupported], [MCA_]$1[_]$2[_]mca_component[_PRIORITY found, but ignored.])])])]) ]) ###################################################################### # # MCA_CONFIGURE_FRAMEWORK # # Configure the given framework and all components inside the # framework. Assumes that the framework is located in # [project_name]/mca/[framework], and that all components are # available under the framework directory. Will configure all # no-configure and builtin components, then search for components with # configure scripts. Assumes that no component is marked as builtin # AND has a configure script. # # USAGE: # MCA_CONFIGURE_PROJECT(project_name, framework_name, allow_succeed) # ###################################################################### AC_DEFUN([MCA_CONFIGURE_FRAMEWORK],[ ompi_show_subsubtitle "Configuring MCA framework $2" m4_ifdef([mca_$1_$2_no_config_component_list], [], [m4_fatal([Could not find mca_$1_$2_no_config_component_list - please rerun autogen.pl])]) m4_ifdef([mca_$1_$2_m4_config_component_list], [], [m4_fatal([Could not find mca_$1_$2_m4_config_component_list - please rerun autogen.pl])]) # setup for framework all_components= static_components= dso_components= static_ltlibs= # Ensure that the directory where the #include file is to live # exists. Need to do this for VPATH builds, because the directory # may not exist yet. For the "common" type, it's not really a # component, so it doesn't have a base. m4_if([$2], [common], [outdir=$1/mca/common], [outdir=$1/mca/$2/base]) AS_MKDIR_P([$outdir]) # emit Makefile rule AC_CONFIG_FILES([$1/mca/$2/Makefile]) # remove any previously generated #include files outfile_real=$outdir/static-components.h outfile=$outfile_real.new rm -f $outfile $outfile.struct $outfile.extern touch $outfile.struct $outfile.extern # print some nice messages about what we're about to do... AC_MSG_CHECKING([for no configure components in framework $2]) AC_MSG_RESULT([mca_$1_$2_no_config_component_list]) AC_MSG_CHECKING([for m4 configure components in framework $2]) AC_MSG_RESULT([mca_$1_$2_m4_config_component_list]) # If there are components in the no configure list, but we're # doing one of the "special" selection logics, abort with a # reasonable message. m4_if(OMPI_EVAL_ARG([MCA_$1_$2_CONFIGURE_MODE]), [STOP_AT_FIRST], [m4_ifval(mca_$1_$2_no_config_component_list, [m4_fatal([Framework $2 using STOP_AT_FIRST but at least one component has no configure.m4])])]) m4_if(OMPI_EVAL_ARG([MCA_$1_$2_CONFIGURE_MODE]), [STOP_AT_FIRST_PRIORITY], [m4_ifval(mca_$1_$2_no_config_component_list, [m4_fatal([Framework $2 using STOP_AT_FIRST_PRIORITY but at least one component has no configure.m4])])]) m4_if(OMPI_EVAL_ARG([MCA_$1_$2_CONFIGURE_MODE]), [PRIORITY], [m4_ifval(mca_$1_$2_no_config_component_list, [m4_fatal([Framework $2 using PRIORITY but at least one component has no configure.m4])])]) # run the configure logic for the no-config components m4_foreach(mca_component, [mca_$1_$2_no_config_component_list], [m4_ifval(mca_component, [MCA_CONFIGURE_NO_CONFIG_COMPONENT($1, $2, mca_component, [all_components], [static_components], [dso_components], [static_ltlibs], [$3])])]) # configure components that use built-in configuration scripts m4_ifdef([component_list], [m4_undefine([component_list])]) m4_if(OMPI_EVAL_ARG([MCA_$1_$2_CONFIGURE_MODE]), [STOP_AT_FIRST], [MCA_ORDER_COMPONENT_LIST($1, $2)], [m4_if(OMPI_EVAL_ARG([MCA_$1_$2_CONFIGURE_MODE]), [STOP_AT_FIRST_PRIORITY], [MCA_ORDER_COMPONENT_LIST($1, $2)], [m4_if(OMPI_EVAL_ARG([MCA_$1_$2_CONFIGURE_MODE]), [PRIORITY], [MCA_ORDER_COMPONENT_LIST($1, $2)], [m4_define([component_list], [mca_$1_$2_m4_config_component_list])])])]) best_mca_component_priority=0 components_looking_for_succeed=$3 components_last_result=0 m4_foreach(mca_component, [component_list], [m4_ifval(mca_component, [m4_if(OMPI_EVAL_ARG([MCA_$1_$2_CONFIGURE_MODE]), [STOP_AT_FIRST_PRIORITY], [AS_IF([test $best_mca_component_priority -gt MCA_$1_$2_]mca_component[_PRIORITY], [components_looking_for_succeed=0])]) MCA_CONFIGURE_M4_CONFIG_COMPONENT($1, $2, mca_component, [all_components], [static_components], [dso_components], [static_ltlibs], [$components_looking_for_succeed], [components_last_result=1], [components_last_result=0]) m4_if(OMPI_EVAL_ARG([MCA_$1_$2_CONFIGURE_MODE]), [STOP_AT_FIRST], [AS_IF([test $components_last_result -eq 1], [components_looking_for_succeed=0])]) m4_if(OMPI_EVAL_ARG([MCA_$1_$2_CONFIGURE_MODE]), [STOP_AT_FIRST_PRIORITY], [AS_IF([test $components_last_result -eq 1], [best_mca_component_priority=]OMPI_EVAL_ARG([MCA_$1_$2_]mca_component[_PRIORITY]))]) ])]) # configure components that provide their own configure script. # It would be really hard to run these for "find first that # works", so we don't :) m4_if(OMPI_EVAL_ARG([MCA_$1_]$2[_CONFIGURE_MODE]), [STOP_AT_FIRST], [], [m4_if(OMPI_EVAL_ARG([MCA_$1_]$2[_CONFIGURE_MODE]), [STOP_AT_FIRST_PRIORITY], [], [m4_if(OMPI_EVAL_ARG([MCA_$1_]$2[_CONFIGURE_MODE]), [PRIORITY], [], [MCA_CHECK_IGNORED_PRIORITY($1, $2) AS_IF([test "$3" != "0"], [MCA_CONFIGURE_ALL_CONFIG_COMPONENTS($1, $2, [all_components], [static_components], [dso_components], [static_ltlibs])])])])]) MCA_$1_$2_ALL_COMPONENTS="$all_components" MCA_$1_$2_STATIC_COMPONENTS="$static_components" MCA_$1_$2_DSO_COMPONENTS="$dso_components" MCA_$1_$2_STATIC_LTLIBS="$static_ltlibs" AC_SUBST(MCA_$1_$2_ALL_COMPONENTS) AC_SUBST(MCA_$1_$2_STATIC_COMPONENTS) AC_SUBST(MCA_$1_$2_DSO_COMPONENTS) AC_SUBST(MCA_$1_$2_STATIC_LTLIBS) OMPI_MCA_MAKE_DIR_LIST(MCA_$1_$2_ALL_SUBDIRS, $2, [$all_components]) OMPI_MCA_MAKE_DIR_LIST(MCA_$1_$2_STATIC_SUBDIRS, $2, [$static_components]) OMPI_MCA_MAKE_DIR_LIST(MCA_$1_$2_DSO_SUBDIRS, $2, [$dso_components]) # Create the final .h file that will be included in the type's # top-level glue. This lists all the static components. We don't # need to do this for "common". if test "$2" != "common"; then cat > $outfile < /dev/null 2>&1 if test "$?" != "0"; then mv $outfile $outfile_real else rm -f $outfile fi fi rm -f $outfile.struct $outfile.extern unset all_components static_components dso_components outfile outfile_real ]) ###################################################################### # # MCA_CONFIGURE_NO_CONFIG_COMPONENT # # Configure the given framework and all components inside the framework. # Assumes that the framework is located in [project_name]/mca/[framework], # and that all components are available under the framework directory. # Will configure all builtin components, then search for components with # configure scripts. Assumes that no component is marked as builtin # AND has a configure script. # # USAGE: # MCA_CONFIGURE_PROJECT(project_name, framework_name, component_name # all_components_variable, # static_components_variable, # dso_components_variable, # static_ltlibs_variable, # allowed_to_succeed) # ###################################################################### AC_DEFUN([MCA_CONFIGURE_NO_CONFIG_COMPONENT],[ ompi_show_subsubsubtitle "MCA component $2:$3 (no configuration)" MCA_COMPONENT_BUILD_CHECK($1, $2, $3, [should_build=$8], [should_build=0]) MCA_COMPONENT_COMPILE_MODE($1, $2, $3, compile_mode) if test "$should_build" = "1" ; then MCA_PROCESS_COMPONENT($1, $2, $3, $4, $5, $6, $7, $compile_mode) else MCA_PROCESS_DEAD_COMPONENT($1, $2, $3) # add component to all component list $4="$$4 $3" fi # set the AM_CONDITIONAL on how we should build if test "$compile_mode" = "dso" ; then BUILD_$1_$2_$3_DSO=1 else BUILD_$1_$2_$3_DSO=0 fi AM_CONDITIONAL(MCA_BUILD_$1_$2_$3_DSO, test "$BUILD_$1_$2_$3_DSO" = "1") AC_CONFIG_FILES([$1/mca/$2/$3/Makefile]) unset compile_mode ]) ###################################################################### # # MCA_CONFIGURE_M4_CONFIG_COMPONENT # # # USAGE: # MCA_CONFIGURE_PROJECT(project_name, framework_name, component_name # all_components_variable, # static_components_variable, # dso_components_variable, # static_ltlibs_variable, # allowed_to_succeed, # [eval if should build], # [eval if should not build]) # ###################################################################### AC_DEFUN([MCA_CONFIGURE_M4_CONFIG_COMPONENT],[ m4_ifdef([MCA_$1_$2_$3_PRIORITY], [ompi_show_subsubsubtitle "MCA component $2:$3 (m4 configuration macro, priority MCA_$1_$2_$3_PRIORITY)"], [ompi_show_subsubsubtitle "MCA component $2:$3 (m4 configuration macro)"]) MCA_COMPONENT_BUILD_CHECK($1, $2, $3, [should_build=$8], [should_build=0]) # Allow the component to override the build mode if it really wants to. # It is, of course, free to end up calling MCA_COMPONENT_COMPILE_MODE m4_ifdef([MCA_$1_$2_$3_COMPILE_MODE], [MCA_$1_$2_$3_COMPILE_MODE($1, $2, $3, compile_mode)], [MCA_COMPONENT_COMPILE_MODE($1, $2, $3, compile_mode)]) # try to configure the component. pay no attention to # --enable-dist, since we'll always have makefiles. m4_ifdef([MCA_$1_$2_$3_CONFIG], [MCA_$1_$2_$3_CONFIG([should_build=$should_build], [should_build=0])], [m4_fatal([MCA_$1_$2_$3_CONFIG macro not found])]) AS_IF([test "$should_build" = "1"], [MCA_PROCESS_COMPONENT($1, $2, $3, $4, $5, $6, $7, $compile_mode)], [MCA_PROCESS_DEAD_COMPONENT($1, $2, $3) # add component to all component list $4="$$4 $3"]) m4_ifdef([MCA_$1_$2_$3_POST_CONFIG], [MCA_$1_$2_$3_POST_CONFIG($should_build)]) # set the AM_CONDITIONAL on how we should build AS_IF([test "$compile_mode" = "dso"], [BUILD_$1_$2_$3_DSO=1], [BUILD_$1_$2_$3_DSO=0]) AM_CONDITIONAL(MCA_BUILD_$1_$2_$3_DSO, test "$BUILD_$1_$2_$3_DSO" = "1") AS_IF([test "$should_build" = "1"], [$9], [$10]) unset compile_mode ]) ###################################################################### # # MCA_CONFIGURE_ALL_CONFIG_COMPONENTS # # configure all components in the given framework that have configure # scripts and should be configured according to the usual rules... # # USAGE: # MCA_CONFIGURE_ALL_CONFIG_COMPONENTS(project_name, # framework_name, # all_components_variable, # static_components_variable, # dso_components_variable, # static_ltlibs_variable) # ###################################################################### AC_DEFUN([MCA_CONFIGURE_ALL_CONFIG_COMPONENTS],[ for component_path in $srcdir/$1/mca/$2/* ; do component="`basename $component_path`" if test -d $component_path -a -x $component_path/configure ; then ompi_show_subsubsubtitle "MCA component $2:$component (need to configure)" MCA_COMPONENT_BUILD_CHECK($1, $2, $component, [should_build=1], [should_build=0]) MCA_COMPONENT_COMPILE_MODE($1, $2, $component, compile_mode) if test "$should_build" = "1" ; then OMPI_CONFIG_SUBDIR([$1/mca/$2/$component], [$ompi_subdir_args], [should_build=1], [should_build=0]) fi if test "$should_build" = "1" ; then MCA_PROCESS_COMPONENT($1, $2, $component, $3, $4, $5, $6, $compile_mode) else MCA_PROCESS_DEAD_COMPONENT($1, $2, $component) fi fi done ]) ###################################################################### # # MCA_COMPONENT_COMPILE_MODE # # set compile_mode_variable to the compile mode for the given component # # USAGE: # MCA_COMPONENT_COMPILE_MODE(project_name, # framework_name, component_name # compile_mode_variable) # # NOTE: component_name may not be determined until runtime.... # ###################################################################### AC_DEFUN([MCA_COMPONENT_COMPILE_MODE],[ project=$1 framework=$2 component=$3 # Is this component going to built staic or shared? $component # might not be known until configure time, so have to use eval # tricks - can't set variable names at autogen time. str="SHARED_FRAMEWORK=\$DSO_$framework" eval $str str="SHARED_COMPONENT=\$DSO_${framework}_$component" eval $str str="STATIC_FRAMEWORK=\$STATIC_$framework" eval $str str="STATIC_COMPONENT=\$STATIC_${framework}_$component" eval $str shared_mode_override=static # Setup for either shared or static if test "$STATIC_FRAMEWORK" = "1" -o \ "$STATIC_COMPONENT" = "1" -o \ "$STATIC_all" = "1" ; then $4="static" elif test "$shared_mode_override" = "dso" -o \ "$SHARED_FRAMEWORK" = "1" -o \ "$SHARED_COMPONENT" = "1" -o \ "$DSO_all" = "1"; then $4="dso" else $4="static" fi AC_MSG_CHECKING([for MCA component $framework:$component compile mode]) if test "$DIRECT_$2" = "$component" ; then AC_MSG_RESULT([$$4 - direct]) else AC_MSG_RESULT([$$4]) fi ]) ###################################################################### # # MCA_PROCESS_COMPONENT # # does all setup work for given component. It should be known before # calling that this component can build properly (and exists) # # USAGE: # MCA_CONFIGURE_ALL_CONFIG_COMPONENTS(project_name, # framework_name, component_name # all_components_variable (4), # static_components_variable (5), # dso_components_variable (6), # static_ltlibs_variable (7), # compile_mode_variable (8)) # # NOTE: component_name may not be determined until runtime.... # ###################################################################### AC_DEFUN([MCA_PROCESS_COMPONENT],[ AC_REQUIRE([AC_PROG_GREP]) project=$1 framework=$2 component=$3 # See if it dropped an output file for us to pick up some # shell variables in. infile="$srcdir/$project/mca/$framework/$component/post_configure.sh" # Add this subdir to the mast list of all MCA component subdirs $4="$$4 $component" if test "$8" = "dso" ; then $6="$$6 $component" else $7="mca/$framework/$component/libmca_${framework}_${component}.la $$7" echo "extern const mca_base_component_t mca_${framework}_${component}_component;" >> $outfile.extern echo " &mca_${framework}_${component}_component, " >> $outfile.struct $5="$$5 $component" fi # Output pretty results AC_MSG_CHECKING([if MCA component $framework:$component can compile]) AC_MSG_RESULT([yes]) # If there's an output file, add the values to # scope_EXTRA_flags. if test -f $infile; then # First check for the ABORT tag line="`$GREP ABORT= $infile | cut -d= -f2-`" if test -n "$line" -a "$line" != "no"; then AC_MSG_WARN([MCA component configure script told me to abort]) AC_MSG_ERROR([cannot continue]) fi # Check for flags passed up from the component. If we're # compiling statically, then take all flags passed up from the # component. if test "$8" = "static"; then m4_foreach(flags, [LDFLAGS, LIBS], [[line="`$GREP WRAPPER_EXTRA_]flags[= $infile | cut -d= -f2-`"] eval "line=$line" if test -n "$line"; then $1[_WRAPPER_EXTRA_]flags[="$]$1[_WRAPPER_EXTRA_]flags[ $line"] fi ])dnl fi dnl check for direct call header to include. This will be dnl AC_SUBSTed later. if test "$DIRECT_$2" = "$component" ; then if test "`$GREP DIRECT_CALL_HEADER $infile`" != "" ; then line="`$GREP DIRECT_CALL_HEADER $infile | cut -d= -f2-`" str="MCA_${project}_${framework}_DIRECT_CALL_HEADER=$line" eval $str else AC_MSG_ERROR([*** ${framework} component ${component} was supposed to be direct-called, but *** does not appear to support direct calling. *** Aborting]) fi fi else # were we supposed to have found something in the # post_configure.sh, but the file didn't exist? if test "$DIRECT_$2" = "$component" ; then AC_MSG_ERROR([*** ${framework} component ${component} was supposed to be direct-called, but *** does not appear to support direct calling. *** Aborting]) fi fi # now add the flags that were set in the environment variables # framework_component_FOO (for example, the flags set by # m4_configure components) # # Check for flags passed up from the component. If we're # compiling statically, then take all flags passed up from the # component. if test "$8" = "static"; then m4_foreach(flags, [LDFLAGS, LIBS], [[str="line=\$${framework}_${component}_WRAPPER_EXTRA_]flags["] eval "$str" if test -n "$line" ; then $1[_WRAPPER_EXTRA_]flags[="$]$1[_WRAPPER_EXTRA_]flags[ $line"] fi ])dnl fi ]) ###################################################################### # # MCA_PROCESS_DEAD_COMPONENT # # process a component that can not be built. Do the last minute checks # to make sure the user isn't doing something stupid. # # USAGE: # MCA_PROCESS_DEAD_COMPONENT(project_name, # framework_name, component_name) # # NOTE: component_name may not be determined until runtime.... # ###################################################################### AC_DEFUN([MCA_PROCESS_DEAD_COMPONENT],[ AC_MSG_CHECKING([if MCA component $2:$3 can compile]) AC_MSG_RESULT([no]) # If this component was requested as the default for this # type, then abort. if test "$with_$2" = "$3" ; then AC_MSG_WARN([MCA component "$3" failed to configure properly]) AC_MSG_WARN([This component was selected as the default]) AC_MSG_ERROR([Cannot continue]) exit 1 fi if test ! -z "$DIRECT_$2" ; then if test "$DIRECT_$2" = "$3" ; then AC_MSG_WARN([MCA component "$3" failed to configure properly]) AC_MSG_WARN([This component was selected as the default (direct call)]) AC_MSG_ERROR([Cannot continue]) exit 1 fi fi ]) ###################################################################### # # MCA_COMPONENT_BUILD_CHECK # # checks the standard rules of component building to see if the # given component should be built. # # USAGE: # MCA_COMPONENT_BUILD_CHECK(project, framework, component, # action-if-build, action-if-not-build) # ###################################################################### AC_DEFUN([MCA_COMPONENT_BUILD_CHECK],[ AC_REQUIRE([AC_PROG_GREP]) project=$1 framework=$2 component=$3 component_path="$srcdir/$project/mca/$framework/$component" want_component=0 # build if: # - the component type is direct and we are that component # - there is no ompi_ignore file # - there is an ompi_ignore, but there is an empty ompi_unignore # - there is an ompi_ignore, but username is in ompi_unignore if test -d $component_path ; then # decide if we want the component to be built or not. This # is spread out because some of the logic is a little complex # and test's syntax isn't exactly the greatest. We want to # build the component by default. want_component=1 if test -f $component_path/.ompi_ignore ; then # If there is an ompi_ignore file, don't build # the component. Note that this decision can be # overridden by the unignore logic below. want_component=0 fi if test -f $component_path/.ompi_unignore ; then # if there is an empty ompi_unignore, that is # equivalent to having your userid in the unignore file. # If userid is in the file, unignore the ignore file. if test ! -s $component_path/.ompi_unignore ; then want_component=1 elif test ! -z "`$GREP $OPAL_CONFIGURE_USER $component_path/.ompi_unignore`" ; then want_component=1 fi fi # if this component type is direct and we are not it, we don't want # to be built. Otherwise, we do want to be built. if test ! -z "$DIRECT_$2" ; then if test "$DIRECT_$2" = "$component" ; then want_component=1 else want_component=0 fi fi fi # if we were explicitly disabled, don't build :) str="DISABLED_COMPONENT_CHECK=\$DISABLE_${framework}" eval $str if test "$DISABLED_COMPONENT_CHECK" = "1" ; then want_component=0 fi str="DISABLED_COMPONENT_CHECK=\$DISABLE_${framework}_$component" eval $str if test "$DISABLED_COMPONENT_CHECK" = "1" ; then want_component=0 fi AS_IF([test "$want_component" = "1"], [$4], [$5]) ]) ###################################################################### # # MCA_SETUP_DIRECT_CALL # # Do all the things necessary to setup the given framework for direct # call building # # USAGE: # MCA_SETUP_DIRECT_CALL(project, framework) # ###################################################################### AC_DEFUN([MCA_SETUP_DIRECT_CALL],[ if test ! -z "$DIRECT_$2" ; then MCA_$1_$2_DIRECT_CALL_COMPONENT=$DIRECT_$2 MCA_$1_$2_DIRECT_CALL=1 else MCA_$1_$2_DIRECT_CALL_COMPONENT= MCA_$1_$2_DIRECT_CALL=0 fi AC_SUBST(MCA_$1_$2_DIRECT_CALL_HEADER) AC_DEFINE_UNQUOTED([MCA_$1_$2_DIRECT_CALL], [$MCA_$1_$2_DIRECT_CALL], [Defined to 1 if $1:$2 should use direct calls instead of components]) AC_DEFINE_UNQUOTED([MCA_$1_$2_DIRECT_CALL_COMPONENT], [$MCA_$1_$2_DIRECT_CALL_COMPONENT], [name of component to use for direct calls, if MCA_$1_$2_DIRECT_CALL is 1]) AC_DEFINE_UNQUOTED([MCA_$1_$2_DIRECT_CALL_HEADER], ["[$MCA_]$1[_]$2[_DIRECT_CALL_HEADER]"], [Header $1:$2 includes to be direct called]) ]) # OMPI_MCA_MAKE_DIR_LIST(subst'ed variable, framework, shell list) # ------------------------------------------------------------------------- AC_DEFUN([OMPI_MCA_MAKE_DIR_LIST],[ $1= for item in $3 ; do $1="$$1 mca/$2/$item" done AC_SUBST($1) ])