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# Support for the Message Passing Interface (MPI)
#
# (C) Copyright 2005, 2006 Trustees of Indiana University
# (C) Copyright 2005 Douglas Gregor
#
# Distributed under the Boost Software License, Version 1.0. (See accompanying
# file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt.)
#
# Authors: Douglas Gregor
# Andrew Lumsdaine
#
# ==== MPI Configuration ====
#
# For many users, MPI support can be enabled simply by adding the following
# line to your user-config.jam file:
#
# using mpi ;
#
# This should auto-detect MPI settings based on the MPI wrapper compiler in
# your path, e.g., "mpic++". If the wrapper compiler is not in your path, or
# has a different name, you can pass the name of the wrapper compiler as the
# first argument to the mpi module:
#
# using mpi : /opt/mpich2-1.0.4/bin/mpiCC ;
#
# If your MPI implementation does not have a wrapper compiler, or the MPI
# auto-detection code does not work with your MPI's wrapper compiler,
# you can pass MPI-related options explicitly via the second parameter to the
# mpi module:
#
# using mpi : : <find-shared-library>lammpio <find-shared-library>lammpi++
# <find-shared-library>mpi <find-shared-library>lam
# <find-shared-library>dl ;
#
# To see the results of MPI auto-detection, pass "--debug-configuration" on
# the bjam command line.
#
# The (optional) fourth argument configures Boost.MPI for running
# regression tests. These parameters specify the executable used to
# launch jobs (default: "mpirun") followed by any necessary arguments
# to this to run tests and tell the program to expect the number of
# processors to follow (default: "-np"). With the default parameters,
# for instance, the test harness will execute, e.g.,
#
# mpirun -np 4 all_gather_test
#
# ==== Linking Against the MPI Libraries ===
#
# To link against the MPI libraries, import the "mpi" module and add the
# following requirement to your target:
#
# <library>/mpi//mpi
#
# Since MPI support is not always available, you should check
# "mpi.configured" before trying to link against the MPI libraries.
import "class" : new ;
import common ;
import feature : feature ;
import generators ;
import os ;
import project ;
import property ;
import testing ;
import toolset ;
import type ;
import path ;
# Make this module a project
project.initialize $(__name__) ;
project mpi ;
if [ MATCH (--debug-configuration) : [ modules.peek : ARGV ] ]
{
.debug-configuration = true ;
}
# Assuming the first part of the command line is the given prefix
# followed by some non-empty value, remove the first argument. Returns
# either nothing (if there was no prefix or no value) or a pair
#
# <name>value rest-of-cmdline
#
# This is a subroutine of cmdline_to_features
rule add_feature ( prefix name cmdline )
{
local match = [ MATCH "^$(prefix)([^\" ]+|\"[^\"]+\") *(.*)$" : $(cmdline) ] ;
# If there was no value associated with the prefix, abort
if ! $(match) {
return ;
}
local value = $(match[1]) ;
if [ MATCH " +" : $(value) ] {
value = "\"$(value)\"" ;
}
return "<$(name)>$(value)" $(match[2]) ;
}
# Strip any end-of-line characters off the given string and return the
# result.
rule strip-eol ( string )
{
local match = [ MATCH "^(([A-Za-z0-9~`\.!@#$%^&*()_+={};:'\",.<>/?\\| -]|[|])*).*$" : $(string) ] ;
if $(match)
{
return $(match[1]) ;
}
else
{
return $(string) ;
}
}
# Split a command-line into a set of features. Certain kinds of
# compiler flags are recognized (e.g., -I, -D, -L, -l) and replaced
# with their Boost.Build equivalents (e.g., <include>, <define>,
# <library-path>, <find-library>). All other arguments are introduced
# using the features in the unknown-features parameter, because we
# don't know how to deal with them. For instance, if your compile and
# correct. The incoming command line should be a string starting with
# an executable (e.g., g++ -I/include/path") and may contain any
# number of command-line arguments thereafter. The result is a list of
# features corresponding to the given command line, ignoring the
# executable.
rule cmdline_to_features ( cmdline : unknown-features ? )
{
local executable ;
local features ;
local otherflags ;
local result ;
unknown-features ?= <cxxflags> <linkflags> ;
# Pull the executable out of the command line. At this point, the
# executable is just thrown away.
local match = [ MATCH "^([^\" ]+|\"[^\"]+\") *(.*)$" : $(cmdline) ] ;
executable = $(match[1]) ;
cmdline = $(match[2]) ;
# List the prefix/feature pairs that we will be able to transform.
# Every kind of parameter not mentioned here will be placed in both
# cxxflags and linkflags, because we don't know where they should go.
local feature_kinds-D = "define" ;
local feature_kinds-I = "include" ;
local feature_kinds-L = "library-path" ;
local feature_kinds-l = "find-shared-library" ;
while $(cmdline) {
# Check for one of the feature prefixes we know about. If we
# find one (and the associated value is nonempty), convert it
# into a feature.
local match = [ MATCH "^(-.)(.*)" : $(cmdline) ] ;
local matched ;
if $(match) && $(match[2]) {
local prefix = $(match[1]) ;
if $(feature_kinds$(prefix)) {
local name = $(feature_kinds$(prefix)) ;
local add = [ add_feature $(prefix) $(name) $(cmdline) ] ;
if $(add) {
if $(add[1]) = <find-shared-library>pthread
{
# Uhm. It's not really nice that this MPI implementation
# uses -lpthread as opposed to -pthread. We do want to
# set <threading>multi, instead of -lpthread.
result += "<threading>multi" ;
MPI_EXTRA_REQUIREMENTS += "<threading>multi" ;
}
else
{
result += $(add[1]) ;
}
cmdline = $(add[2]) ;
matched = yes ;
}
}
}
# If we haven't matched a feature prefix, just grab the command-line
# argument itself. If we can map this argument to a feature
# (e.g., -pthread -> <threading>multi), then do so; otherwise,
# and add it to the list of "other" flags that we don't
# understand.
if ! $(matched) {
match = [ MATCH "^([^\" ]+|\"[^\"]+\") *(.*)$" : $(cmdline) ] ;
local value = $(match[1]) ;
cmdline = $(match[2]) ;
# Check for multithreading support
if $(value) = "-pthread" || $(value) = "-pthreads"
{
result += "<threading>multi" ;
# DPG: This is a hack intended to work around a BBv2 bug where
# requirements propagated from libraries are not checked for
# conflicts when BBv2 determines which "common" properties to
# apply to a target. In our case, the <threading>single property
# gets propagated from the common properties to Boost.MPI
# targets, even though <threading>multi is in the usage
# requirements of <library>/mpi//mpi.
MPI_EXTRA_REQUIREMENTS += "<threading>multi" ;
}
else if [ MATCH "(.*[a-zA-Z0-9<>?-].*)" : $(value) ] {
otherflags += $(value) ;
}
}
}
# If there are other flags that we don't understand, add them to the
# result as both <cxxflags> and <linkflags>
if $(otherflags) {
for unknown in $(unknown-features)
{
result += "$(unknown)$(otherflags:J= )" ;
}
}
return $(result) ;
}
# Determine if it is safe to execute the given shell command by trying
# to execute it and determining whether the exit code is zero or
# not. Returns true for an exit code of zero, false otherwise.
local rule safe-shell-command ( cmdline )
{
local result = [ SHELL "$(cmdline) > /dev/null 2>/dev/null; if [ "$?" -eq "0" ]; then echo SSCOK; fi" ] ;
return [ MATCH ".*(SSCOK).*" : $(result) ] ;
}
# Initialize the MPI module.
rule init ( mpicxx ? : options * : mpirun-with-options * )
{
if ! $(options) && $(.debug-configuration)
{
ECHO "===============MPI Auto-configuration===============" ;
}
if ! $(mpicxx) && [ os.on-windows ]
{
# Try to auto-configure to the Microsoft Compute Cluster Pack
local cluster_pack_path_native = "C:\\Program Files\\Microsoft Compute Cluster Pack" ;
local cluster_pack_path = [ path.make $(cluster_pack_path_native) ] ;
if [ GLOB $(cluster_pack_path_native)\\Include : mpi.h ]
{
if $(.debug-configuration)
{
ECHO "Found Microsoft Compute Cluster Pack: $(cluster_pack_path_native)" ;
}
# Pick up either the 32-bit or 64-bit library, depending on which address
# model the user has selected. Default to 32-bit.
options = <include>$(cluster_pack_path)/Include
<address-model>64:<library-path>$(cluster_pack_path)/Lib/amd64
<library-path>$(cluster_pack_path)/Lib/i386
<find-static-library>msmpi
<toolset>msvc:<define>_SECURE_SCL=0
;
# Setup the "mpirun" equivalent (mpiexec)
.mpirun = "\"$(cluster_pack_path_native)\\Bin\\mpiexec.exe"\" ;
.mpirun_flags = -n ;
}
else if $(.debug-configuration)
{
ECHO "Did not find Microsoft Compute Cluster Pack in $(cluster_pack_path_native)." ;
}
}
if ! $(options)
{
# Try to auto-detect options based on the wrapper compiler
local command = [ common.get-invocation-command mpi : mpic++ : $(mpicxx) ] ;
if ! $(mpicxx) && ! $(command)
{
# Try "mpiCC", which is used by MPICH
command = [ common.get-invocation-command mpi : mpiCC ] ;
}
if ! $(mpicxx) && ! $(command)
{
# Try "mpicxx", which is used by OpenMPI and MPICH2
command = [ common.get-invocation-command mpi : mpicxx ] ;
}
local result ;
local compile_flags ;
local link_flags ;
if ! $(command)
{
# Do nothing: we'll complain later
}
# OpenMPI and newer versions of LAM-MPI have -showme:compile and
# -showme:link.
else if [ safe-shell-command "$(command) -showme:compile" ] &&
[ safe-shell-command "$(command) -showme:link" ]
{
if $(.debug-configuration)
{
ECHO "Found recent LAM-MPI or Open MPI wrapper compiler: $(command)" ;
}
compile_flags = [ SHELL "$(command) -showme:compile" ] ;
link_flags = [ SHELL "$(command) -showme:link" ] ;
# Prepend COMPILER as the executable name, to match the format of
# other compilation commands.
compile_flags = "COMPILER $(compile_flags)" ;
link_flags = "COMPILER $(link_flags)" ;
}
# Look for LAM-MPI's -showme
else if [ safe-shell-command "$(command) -showme" ]
{
if $(.debug-configuration)
{
ECHO "Found older LAM-MPI wrapper compiler: $(command)" ;
}
result = [ SHELL "$(command) -showme" ] ;
}
# Look for MPICH
else if [ safe-shell-command "$(command) -show" ]
{
if $(.debug-configuration)
{
ECHO "Found MPICH wrapper compiler: $(command)" ;
}
compile_flags = [ SHELL "$(command) -compile_info" ] ;
link_flags = [ SHELL "$(command) -link_info" ] ;
}
# Sun HPC and Ibm POE
else if [ SHELL "$(command) -v 2>/dev/null" ]
{
compile_flags = [ SHELL "$(command) -c -v -xtarget=native64 2>/dev/null" ] ;
local back = [ MATCH "--------------------(.*)" : $(compile_flags) ] ;
if $(back)
{
# Sun HPC
if $(.debug-configuration)
{
ECHO "Found Sun MPI wrapper compiler: $(command)" ;
}
compile_flags = [ MATCH "(.*)--------------------" : $(back) ] ;
compile_flags = [ MATCH "(.*)-v" : $(compile_flags) ] ;
link_flags = [ SHELL "$(command) -v -xtarget=native64 2>/dev/null" ] ;
link_flags = [ MATCH "--------------------(.*)" : $(link_flags) ] ;
link_flags = [ MATCH "(.*)--------------------" : $(link_flags) ] ;
# strip out -v from compile options
local front = [ MATCH "(.*)-v" : $(link_flags) ] ;
local back = [ MATCH "-v(.*)" : $(link_flags) ] ;
link_flags = "$(front) $(back)" ;
front = [ MATCH "(.*)-xtarget=native64" : $(link_flags) ] ;
back = [ MATCH "-xtarget=native64(.*)" : $(link_flags) ] ;
link_flags = "$(front) $(back)" ;
}
else
{
# Ibm POE
if $(.debug-configuration)
{
ECHO "Found IBM MPI wrapper compiler: $(command)" ;
}
#
compile_flags = [ SHELL "$(command) -c -v 2>/dev/null" ] ;
compile_flags = [ MATCH "(.*)exec: export.*" : $(compile_flags) ] ;
local front = [ MATCH "(.*)-v" : $(compile_flags) ] ;
local back = [ MATCH "-v(.*)" : $(compile_flags) ] ;
compile_flags = "$(front) $(back)" ;
front = [ MATCH "(.*)-c" : $(compile_flags) ] ;
back = [ MATCH "-c(.*)" : $(compile_flags) ] ;
compile_flags = "$(front) $(back)" ;
link_flags = $(compile_flags) ;
# get location of mpif.h from mpxlf
local f_flags = [ SHELL "mpxlf -v 2>/dev/null" ] ;
f_flags = [ MATCH "(.*)exec: export.*" : $(f_flags) ] ;
front = [ MATCH "(.*)-v" : $(f_flags) ] ;
back = [ MATCH "-v(.*)" : $(f_flags) ] ;
f_flags = "$(front) $(back)" ;
f_flags = [ MATCH "xlf_r(.*)" : $(f_flags) ] ;
f_flags = [ MATCH "-F:mpxlf_r(.*)" : $(f_flags) ] ;
compile_flags = [ strip-eol $(compile_flags) ] ;
compile_flags = "$(compile_flags) $(f_flags)" ;
}
}
if $(result) || $(compile_flags) && $(link_flags)
{
if $(result)
{
result = [ strip-eol $(result) ] ;
options = [ cmdline_to_features $(result) ] ;
}
else
{
compile_flags = [ strip-eol $(compile_flags) ] ;
link_flags = [ strip-eol $(link_flags) ] ;
# Separately process compilation and link features, then combine
# them at the end.
local compile_features = [ cmdline_to_features $(compile_flags)
: "<cxxflags>" ] ;
local link_features = [ cmdline_to_features $(link_flags)
: "<linkflags>" ] ;
options = $(compile_features) $(link_features) ;
}
# If requested, display MPI configuration information.
if $(.debug-configuration)
{
if $(result)
{
ECHO " Wrapper compiler command line: $(result)" ;
}
else
{
local match = [ MATCH "^([^\" ]+|\"[^\"]+\") *(.*)$"
: $(compile_flags) ] ;
ECHO "MPI compilation flags: $(match[2])" ;
local match = [ MATCH "^([^\" ]+|\"[^\"]+\") *(.*)$"
: $(link_flags) ] ;
ECHO "MPI link flags: $(match[2])" ;
}
}
}
else
{
if $(command)
{
ECHO "MPI auto-detection failed: unknown wrapper compiler $(command)" ;
ECHO "Please report this error to the Boost mailing list: http://www.boost.org" ;
}
else if $(mpicxx)
{
ECHO "MPI auto-detection failed: unable to find wrapper compiler $(mpicxx)" ;
}
else
{
ECHO "MPI auto-detection failed: unable to find wrapper compiler `mpic++' or `mpiCC'" ;
}
ECHO "You will need to manually configure MPI support." ;
}
}
# Find mpirun (or its equivalent) and its flags
if ! $(.mpirun)
{
.mpirun =
[ common.get-invocation-command mpi : mpirun : $(mpirun-with-options[1]) ] ;
.mpirun_flags = $(mpirun-with-options[2-]) ;
.mpirun_flags ?= -np ;
}
if $(.debug-configuration)
{
if $(options)
{
echo "MPI build features: " ;
ECHO $(options) ;
}
if $(.mpirun)
{
echo "MPI launcher: $(.mpirun) $(.mpirun_flags)" ;
}
ECHO "====================================================" ;
}
if $(options)
{
.configured = true ;
# Set up the "mpi" alias
alias mpi : : : : $(options) ;
}
}
# States whether MPI has bee configured
rule configured ( )
{
return $(.configured) ;
}
# Returs the "extra" requirements needed to build MPI. These requirements are
# part of the /mpi//mpi library target, but they need to be added to anything
# that uses MPI directly to work around bugs in BBv2's propagation of
# requirements.
rule extra-requirements ( )
{
return $(MPI_EXTRA_REQUIREMENTS) ;
}
# Support for testing; borrowed from Python
type.register RUN_MPI_OUTPUT ;
type.register RUN_MPI : : TEST ;
class mpi-test-generator : generator
{
import property-set ;
rule __init__ ( * : * )
{
generator.__init__ $(1) : $(2) : $(3) : $(4) : $(5) : $(6) : $(7) : $(8) : $(9) ;
self.composing = true ;
}
rule run ( project name ? : property-set : sources * : multiple ? )
{
# Generate an executable from the sources. This is the executable we will run.
local executable =
[ generators.construct $(project) $(name) : EXE : $(property-set) : $(sources) ] ;
result =
[ construct-result $(executable[2-]) : $(project) $(name)-run : $(property-set) ] ;
}
}
# Use mpi-test-generator to generate MPI tests from sources
generators.register
[ new mpi-test-generator mpi.capture-output : : RUN_MPI_OUTPUT ] ;
generators.register-standard testing.expect-success
: RUN_MPI_OUTPUT : RUN_MPI ;
# The number of processes to spawn when executing an MPI test.
feature mpi:processes : : free incidental ;
# The flag settings on testing.capture-output do not
# apply to mpi.capture output at the moment.
# Redo this explicitly.
toolset.flags mpi.capture-output ARGS <testing.arg> ;
rule capture-output ( target : sources * : properties * )
{
# Use the standard capture-output rule to run the tests
testing.capture-output $(target) : $(sources[1]) : $(properties) ;
# Determine the number of processes we should run on.
local num_processes = [ property.select <mpi:processes> : $(properties) ] ;
num_processes = $(num_processes:G=) ;
# serialize the MPI tests to avoid overloading systems
JAM_SEMAPHORE on $(target) = <s>mpi-run-semaphore ;
# We launch MPI processes using the "mpirun" equivalent specified by the user.
LAUNCHER on $(target) =
[ on $(target) return $(.mpirun) $(.mpirun_flags) $(num_processes) ] ;
}
# Creates a set of test cases to be run through the MPI launcher. The name, sources,
# and requirements are the same as for any other test generator. However, schedule is
# a list of numbers, which indicates how many processes each test run will use. For
# example, passing 1 2 7 will run the test with 1 process, then 2 processes, then 7
# 7 processes. The name provided is just the base name: the actual tests will be
# the name followed by a hypen, then the number of processes.
rule mpi-test ( name : sources * : requirements * : schedule * )
{
sources ?= $(name).cpp ;
schedule ?= 1 2 3 4 7 8 13 17 ;
local result ;
for processes in $(schedule)
{
result += [ testing.make-test
run-mpi : $(sources) /boost/mpi//boost_mpi
: $(requirements) <toolset>msvc:<link>static <mpi:processes>$(processes) : $(name)-$(processes) ] ;
}
return $(result) ;
}
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