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openmpi/autogen.pl

1322 строки
41 KiB
Perl
Исходник Обычный вид История

#!/usr/bin/env perl
#
# Copyright (c) 2009-2014 Cisco Systems, Inc. All rights reserved.
# Copyright (c) 2010 Oracle and/or its affiliates. All rights reserved.
# Copyright (c) 2013 Mellanox Technologies, Inc.
# All rights reserved.
# Copyright (c) 2013-2014 Intel, Inc. All rights reserved.
# $COPYRIGHT$
#
# Additional copyrights may follow
#
# $HEADER$
#
use strict;
use Cwd;
use File::Basename;
use File::Find;
use Data::Dumper;
use Getopt::Long;
#
# Global variables
#
# Sentinel file to remove if we fail
my $sentinel;
# The m4 file we'll write at the end
my $m4_output_file = "config/autogen_found_items.m4";
my $m4;
# Sanity check file
my $topdir_file = "opal/include/opal_config_bottom.h";
my $dnl_line = "dnl ---------------------------------------------------------------------------";
# Data structures to fill up with all the stuff we find
my $mca_found;
my $mpiext_found;
my $mpicontrib_found;
my @subdirs;
# Command line parameters
my $no_ompi_arg = 0;
my $no_orte_arg = 0;
my $no_oshmem_arg = 0;
my $quiet_arg = 0;
my $debug_arg = 0;
my $help_arg = 0;
my $platform_arg = 0;
my $include_arg = 0;
my $exclude_arg = 0;
# Include/exclude lists
my $include_list;
my $exclude_list;
# Minimum versions
my $ompi_automake_version = "1.12.2";
my $ompi_autoconf_version = "2.69";
my $ompi_libtool_version = "2.4.2";
# Search paths
my $ompi_autoconf_search = "autoconf";
my $ompi_automake_search = "automake";
my $ompi_libtoolize_search = "libtoolize;glibtoolize";
# One-time setup
my $username;
my $hostname;
my $full_hostname;
# Patch program
my $patch_prog = "patch";
# Solaris "patch" doesn't understand unified diffs, and will cause
# autogen.pl to hang with a "File to patch:" prompt. Default to Linux
# "patch", but use "gpatch" on Solaris.
if ($^O eq "solaris") {
$patch_prog = "gpatch";
}
$username = getpwuid($>);
$full_hostname = `hostname`;
chomp($full_hostname);
$hostname = $full_hostname;
$hostname =~ s/^([\w\-]+)\..+/\1/;
##############################################################################
sub my_die {
unlink($sentinel)
if ($sentinel);
die @_;
}
sub my_exit {
my ($ret) = @_;
unlink($sentinel)
if ($sentinel && $ret != 0);
exit($ret);
}
##############################################################################
sub verbose {
print @_
if (!$quiet_arg);
}
sub debug {
print @_
if ($debug_arg);
}
sub debug_dump {
my $d = new Data::Dumper([@_]);
$d->Purity(1)->Indent(1);
debug $d->Dump;
}
##############################################################################
sub read_config_params {
my ($filename, $dir_prefix) = @_;
my $dir = dirname($filename);
open(FILE, $filename) ||
my_die "Can't open $filename";
my $file;
$file .= $_
while(<FILE>);
close(FILE);
# Save all lines of the form "foo = bar" in a hash
my $ret;
while ($file =~ s/^\s*(\w+)\s*=\s*(.+)\s*$//m) {
my $key = $1;
my $val = $2;
# Strip off any leading and trailing "'s
$val = $1
if ($val =~ m/^\"(.+)\"$/);
$ret->{$key} = $val;
}
# Split PARAM_CONFIG_FILES into an array
if (exists($ret->{PARAM_CONFIG_FILES})) {
my @out;
foreach my $f (split(/\s+/, $ret->{PARAM_CONFIG_FILES})) {
push(@out, "$dir_prefix/$f");
}
$ret->{PARAM_CONFIG_FILES} = \@out;
}
debug_dump($ret);
return $ret;
}
##############################################################################
# Process a "subdir", meaning that the directory isn't a component or
# an extension; it probably just needs an autoreconf, autogen, etc.
sub process_subdir {
my ($dir) = @_;
# Chdir to the subdir
print "\n=== Processing subdir: $dir\n";
my $start = Cwd::cwd();
chdir($dir);
# Run an action depending on what we find in that subdir
if (-x "autogen.pl") {
print "--- Found autogen.pl; running...\n";
safe_system("./autogen.pl");
} elsif (-x "autogen.sh") {
print "--- Found autogen.sh; running...\n";
safe_system("./autogen.sh");
} elsif (-f "configure.in" || -f "configure.ac") {
print "--- Found configure.in|ac; running autoreconf...\n";
safe_system("autoreconf -ivf");
print "--- Patching autotools output... :-(\n";
patch_autotools_output($start);
} else {
my_die "Found subdir, but no autogen.sh or configure.in|ac to do anything";
}
# Ensure that we got a good configure executable.
my_die "Did not generate a \"configure\" executable in $dir.\n"
if (! -x "configure");
# Chdir back to where we came from
chdir($start);
}
##############################################################################
sub process_autogen_subdirs {
my ($dir) = @_;
my $file = "$dir/autogen.subdirs";
if (-f $file) {
open(FILE, $file) || my_die "Can't open $file";
while (<FILE>) {
chomp;
$_ =~ s/#.*$//;
$_ =~ s/^\s*//;
$_ =~ s/\s*$//;
if ($_ ne "") {
print " Found subdir: $_ (will process later)\n";
# Note: there's no real technical reason to defer
# processing the subdirs. It's more of an aesthetic
# reason -- don't interrupt the current flow of
# finding mca / ext / contribs (which is a nice, fast
# process). Then process the subdirs (which is a slow
# process) all at once.
push(@subdirs, "$dir/$_");
}
}
close(FILE);
}
}
##############################################################################
sub mca_process_component {
my ($topdir, $project, $framework, $component) = @_;
my $pname = $project->{name};
my $pdir = $project->{dir};
my $cdir = "$topdir/$pdir/mca/$framework/$component";
return
if (! -d $cdir);
# Process this directory (pretty much the same treatment as for
# mpiext, so it's in a sub).
my $found_component;
# Does this directory have a configure.m4 file?
if (-f "$cdir/configure.m4") {
$found_component->{"configure.m4"} = 1;
verbose " Found configure.m4 file\n";
}
$found_component->{"name"} = $component;
# Push the results onto the $mca_found hash array
push(@{$mca_found->{$pname}->{$framework}->{"components"}},
$found_component);
# Is there an autogen.subdirs in here?
process_autogen_subdirs($cdir);
}
##############################################################################
sub ignored {
my ($dir) = @_;
# If this directory does not have .ompi_ignore, or if it has a
# .ompi_unignore that has my username in it, then add it to the
# list of components.
my $ignored = 0;
if (-f "$dir/.ompi_ignore") {
$ignored = 1;
}
if (-f "$dir/.ompi_unignore") {
open(UNIGNORE, "$dir/.ompi_unignore") ||
my_die "Can't open $dir/.ompi_unignore file";
my $unignore;
$unignore .= $_
while (<UNIGNORE>);
close(UNIGNORE);
$ignored = 0
if ($unignore =~ /^$username$/m ||
$unignore =~ /^$username\@$hostname$/m ||
$unignore =~ /^$username\@$full_hostname$/m);
}
return $ignored;
}
##############################################################################
sub mca_process_framework {
my ($topdir, $project, $framework) = @_;
my $pname = $project->{name};
my $pdir = $project->{dir};
# Does this framework have a configure.m4 file?
my $dir = "$topdir/$pdir/mca/$framework";
if (-f "$dir/configure.m4") {
$mca_found->{$pname}->{$framework}->{"configure.m4"} = 1;
verbose " Found framework configure.m4 file\n";
}
# Did we exclude all components for this framework?
if (exists($exclude_list->{$framework}) &&
$exclude_list->{$framework}[0] eq "AGEN_EXCLUDE_ALL") {
verbose " => Excluded\n";
} else {
# Look for component directories in this framework
if (-d $dir) {
$mca_found->{$pname}->{$framework}->{found} = 1;
opendir(DIR, $dir) ||
my_die "Can't open $dir directory";
foreach my $d (readdir(DIR)) {
# Skip any non-directory, "base", or any dir that
# begins with "."
next
if (! -d "$dir/$d" || $d eq "base" ||
substr($d, 0, 1) eq ".");
# Skip any component that doesn't have a configure.m4
# or Makefile.am as we couldn't build it anyway
if (! -f "$dir/$d/configure.m4" &&
! -f "$dir/$d/Makefile.am" &&
! -f "$dir/$d/configure.ac" &&
! -f "$dir/$d/configure.in") {
verbose " => No sentinel file found in $dir/$d -> Excluded\n";
next;
}
verbose "--- Found $pname / $framework / $d component\n";
# Skip if specifically excluded
if (exists($exclude_list->{$framework}) &&
$exclude_list->{$framework}[0] eq $d) {
verbose " => Excluded\n";
next;
}
# Skip if the framework is on the include list, but
# doesn't contain this component
if (exists($include_list->{$framework})) {
my $tst = 0;
foreach my $ck (@{$include_list->{$framework}}) {
if ($ck ne $d) {
verbose " => Not included\n";
$tst = 1;
last;
}
}
if ($tst) {
next;
}
}
# Check ignore status
if (ignored("$dir/$d")) {
verbose " => Ignored (found .ompi_ignore file)\n";
} else {
mca_process_component($topdir, $project, $framework, $d);
}
}
}
closedir(DIR);
}
}
##############################################################################
sub mca_generate_framework_header(\$\@) {
my ($project, @frameworks) = @_;
my $framework_array_output="";
my $framework_decl_output="";
foreach my $framework (@frameworks) {
# There is no common framework object
if ($framework ne "common") {
my $framework_name = "${project}_${framework}_base_framework";
$framework_array_output .= " &$framework_name,\n";
$framework_decl_output .= "extern mca_base_framework_t $framework_name;\n";
}
}
my $ifdef_string = uc "${project}_FRAMEWORKS_H";
open(FRAMEWORKS_OUT, ">$project/include/$project/frameworks.h");
printf FRAMEWORKS_OUT "%s", "/*
* This file is autogenerated by autogen.pl. Do not edit this file by hand.
*/
#ifndef $ifdef_string
#define $ifdef_string
#include <opal/mca/base/mca_base_framework.h>
$framework_decl_output
static mca_base_framework_t *${project}_frameworks[] = {
$framework_array_output NULL
};
#endif /* $ifdef_string */\n\n";
close(FRAMEWORKS_OUT);
}
##############################################################################
sub mca_process_project {
my ($topdir, $project) = @_;
my $pname = $project->{name};
my $pdir = $project->{dir};
# Does this project have a configure.m4 file?
if (-f "$topdir/$pdir/configure.m4") {
$mca_found->{$pname}->{"configure.m4"} = 1;
verbose " Found $topdir/$pdir/configure.m4 file\n";
}
# Look for framework directories in this project
my $dir = "$topdir/$pdir/mca";
if (-d $dir) {
opendir(DIR, $dir) ||
my_die "Can't open $dir directory";
my @my_dirs = readdir(DIR);
@my_dirs = sort(@my_dirs);
foreach my $d (@my_dirs) {
# Skip any non-directory, "base", or any dir that begins with "."
next
if (! -d "$dir/$d" || $d eq "base" || substr($d, 0, 1) eq ".");
# If this directory has a $dir.h file and a base/
# subdirectory, or its name is "common", then it's a
# framework.
if ("common" eq $d || !$project->{need_base} ||
(-f "$dir/$d/$d.h" && -d "$dir/$d/base")) {
verbose "\n=== Found $pname / $d framework\n";
mca_process_framework($topdir, $project, $d);
}
}
closedir(DIR);
}
}
##############################################################################
sub mca_run_global {
my ($projects) = @_;
# For each project, go find a list of frameworks, and for each of
# those, go find a list of components.
my $topdir = Cwd::cwd();
foreach my $p (@$projects) {
if (-d "$topdir/$p->{dir}") {
verbose "\n*** Found $p->{name} project\n";
mca_process_project($topdir, $p);
}
}
# Debugging output
debug_dump($mca_found);
# Save (just) the list of MCA projects in the m4 file
my $str;
foreach my $p (@$projects) {
my $pname = $p->{name};
# Check if this project is an MCA project (contains MCA framework)
if (exists($mca_found->{$pname})) {
$str .= "$p->{name}, ";
}
}
$str =~ s/, $//;
$m4 .= "\ndnl List of MCA projects found by autogen.pl
m4_define([mca_project_list], [$str])\n";
#-----------------------------------------------------------------------
$m4 .= "\n$dnl_line
$dnl_line
$dnl_line
dnl MCA information\n";
# Array for all the m4_includes that we'll need to pick up the
# configure.m4's.
my @includes;
# Next, for each project, write the list of frameworks
foreach my $p (@$projects) {
my $pname = $p->{name};
my $pdir = $p->{dir};
if (exists($mca_found->{$pname})) {
my $frameworks_comma;
# Does this project have a configure.m4 file?
push(@includes, "$pdir/configure.m4")
if (exists($mca_found->{$p}->{"configure.m4"}));
# Print out project-level info
my @mykeys = keys(%{$mca_found->{$pname}});
@mykeys = sort(@mykeys);
# Ensure that the "common" framework is listed first
# (if it exists)
my @tmp;
push(@tmp, "common")
if (grep(/common/, @mykeys));
foreach my $f (@mykeys) {
push(@tmp, $f)
if ($f ne "common");
}
@mykeys = @tmp;
foreach my $f (@mykeys) {
$frameworks_comma .= ", $f";
# Does this framework have a configure.m4 file?
push(@includes, "$pdir/mca/$f/configure.m4")
if (exists($mca_found->{$pname}->{$f}->{"configure.m4"}));
# This framework does have a Makefile.am (or at least,
# it should!)
my_die "Missing $pdir/mca/$f/Makefile.am"
if (! -f "$pdir/mca/$f/Makefile.am");
}
$frameworks_comma =~ s/^, //;
&mca_generate_framework_header($pname, @mykeys);
$m4 .= "$dnl_line
dnl Frameworks in the $pname project and their corresponding directories
m4_define([mca_${pname}_framework_list], [$frameworks_comma])
";
# Print out framework-level info
foreach my $f (@mykeys) {
my $components;
my $m4_config_component_list;
my $no_config_component_list;
# Troll through each of the found components
foreach my $comp (@{$mca_found->{$pname}->{$f}->{components}}) {
my $c = $comp->{name};
$components .= "$c ";
# Does this component have a configure.m4 file?
if (exists($comp->{"configure.m4"})) {
push(@includes, "$pdir/mca/$f/$c/configure.m4");
$m4_config_component_list .= ", $c";
} else {
$no_config_component_list .= ", $c";
}
}
$m4_config_component_list =~ s/^, //;
$no_config_component_list =~ s/^, //;
$m4 .= "dnl Components in the $pname / $f framework
m4_define([mca_${pname}_${f}_m4_config_component_list], [$m4_config_component_list])
m4_define([mca_${pname}_${f}_no_config_component_list], [$no_config_component_list])
";
}
}
}
# List out all the m4_include
$m4 .= "$dnl_line
dnl List of configure.m4 files to include\n";
foreach my $i (@includes) {
$m4 .= "m4_include([$i])\n";
}
}
##############################################################################
sub mpiext_process_extension {
my ($topdir, $ext_prefix, $extdir) = @_;
my $edir = "$topdir/$ext_prefix/$extdir";
return
if (! -d $edir);
# Process this directory (pretty much the same treatment as for
# MCA components, so it's in a sub).
my $found_ext;
$found_ext->{"name"} = $extdir;
# Push the results onto the hash array
push(@{$mpiext_found}, $found_ext);
# Is there an autogen.subdirs in here?
process_autogen_subdirs($edir);
}
##############################################################################
sub mpiext_run_global {
my ($ext_prefix) = @_;
my $topdir = Cwd::cwd();
my $dir = "$topdir/$ext_prefix";
opendir(DIR, $dir) ||
my_die "Can't open $dir directory";
foreach my $d (readdir(DIR)) {
# Skip any non-directory, "base", or any dir that begins with "."
next
if (! -d "$dir/$d" || $d eq "base" || substr($d, 0, 1) eq ".");
# If this directory has a configure.m4, then it's an
# extension.
if (-f "$dir/$d/configure.m4") {
verbose "=== Found $d MPI extension";
# Check ignore status
if (ignored("$dir/$d")) {
verbose " (ignored)\n";
} else {
verbose "\n";
mpiext_process_extension($topdir, $ext_prefix, $d);
}
}
}
closedir(DIR);
debug_dump($mpiext_found);
#-----------------------------------------------------------------------
$m4 .= "\n$dnl_line
$dnl_line
$dnl_line
dnl Open MPI extensions information
$dnl_line\n\n";
# Array for all the m4_includes that we'll need to pick up the
# configure.m4's.
my @includes;
my $m4_config_ext_list;
# Troll through each of the found exts
foreach my $ext (@{$mpiext_found}) {
my $e = $ext->{name};
push(@includes, "$ext_prefix/$e/configure.m4");
$m4_config_ext_list .= ", $e";
}
$m4_config_ext_list =~ s/^, //;
# List the M4 and no configure exts
$m4 .= "dnl List of all MPI extensions
m4_define([ompi_mpiext_list], [$m4_config_ext_list])\n";
# List out all the m4_include
$m4 .= "\ndnl List of configure.m4 files to include\n";
foreach my $i (@includes) {
$m4 .= "m4_include([$i])\n";
}
}
##############################################################################
sub mpicontrib_process {
my ($topdir, $contrib_prefix, $contribdir) = @_;
my $cdir = "$topdir/$contrib_prefix/$contribdir";
return
if (! -d $cdir);
# Process this directory (pretty much the same treatment as for
# MCA components, so it's in a sub).
my $found_contrib;
$found_contrib->{"name"} = $contribdir;
# Push the results onto the hash array
push(@{$mpicontrib_found}, $found_contrib);
# Is there an autogen.subdirs in here?
process_autogen_subdirs($cdir);
}
##############################################################################
sub mpicontrib_run_global {
my ($contrib_prefix) = @_;
my $topdir = Cwd::cwd();
my $dir = "$topdir/$contrib_prefix";
opendir(DIR, $dir) ||
my_die "Can't open $dir directory";
foreach my $d (readdir(DIR)) {
# Skip any non-directory, "base", or any dir that begins with "."
next
if (! -d "$dir/$d" || $d eq "base" || substr($d, 0, 1) eq ".");
# If this directory has a configure.m4, then it's an
# extension.
if (-f "$dir/$d/configure.m4") {
verbose "=== Found $d MPI contrib";
# Check ignore status
if (ignored("$dir/$d")) {
verbose " (ignored)\n";
} else {
verbose "\n";
mpicontrib_process($topdir, $contrib_prefix, $d);
}
}
}
closedir(DIR);
debug_dump($mpiext_found);
#-----------------------------------------------------------------------
$m4 .= "\n$dnl_line
$dnl_line
$dnl_line
dnl Open MPI contrib information
$dnl_line\n\n";
# Array for all the m4_includes that we'll need to pick up the
# configure.m4's.
my @includes;
my $m4_config_contrib_list;
# Troll through each of the found contribs
foreach my $contrib (@{$mpicontrib_found}) {
my $c = $contrib->{name};
push(@includes, "$contrib_prefix/$c/configure.m4");
$m4_config_contrib_list .= ", $c";
}
$m4_config_contrib_list =~ s/^, //;
# List the M4 and no configure exts
$m4 .= "dnl List of all MPI contribs
m4_define([ompi_mpicontrib_list], [$m4_config_contrib_list])\n";
# List out all the m4_include
$m4 .= "\ndnl List of configure.m4 files to include\n";
foreach my $i (@includes) {
$m4 .= "m4_include([$i])\n";
}
}
##############################################################################
# Find and remove stale files
sub find_and_delete {
foreach my $file (@_) {
my $removed = 0;
if (-f $file) {
unlink($file);
$removed = 1;
}
if (-f "config/$file") {
unlink("config/$file");
$removed = 1;
}
debug " Removed stale copy of $file\n"
if ($removed);
}
}
##############################################################################
# Find a specific executable and ensure that it is a recent enough
# version.
sub find_and_check {
my ($app, $app_name, $req_version) = @_;
my @search_path = split(/;/, $app_name);
my @min_version = split(/\./, $req_version);
my @versions_found = ();
foreach (@search_path) {
verbose " Searching for $_\n";
my $version = `$_ --version`;
if (!defined($version)) {
verbose " $_ not found\n";
next;
}
# Matches a version string with 1 or more parts possibly prefixed with a letter (ex:
# v2.2) or followed by a letter (ex: 2.2.6b). This regex assumes there is a space
# before the version string and that the version is ok if there is no version.
if (!($version =~ m/\s[vV]?(\d[\d\.]*\w?)/m)) {
verbose " WARNING: $_ does not appear to support --version. Assuming it is ok\n";
return;
}
$version = $1;
verbose " Found $_ version $version; checking version...\n";
push(@versions_found, $version);
my @parts = split(/\./, $version);
my $i = 0;
# Check every component of the version number
while ($i <= $#min_version) {
verbose " Found version component $parts[$i] -- need $min_version[$i]\n";
# Check to see if there are any characters (!) in the
# version number (e.g., Libtool's "2.2.6b" -- #%@#$%!!!).
# Do separate comparisons between the number and any
# trailing digits. You can't just "lt" compare the whole
# string because "10 lt 2b" will return true. #@$@#$#@$
# Libtool!!
$parts[$i] =~ m/(\d+)([a-z]*)/i;
my $pn = $1;
my $pa = $2;
$min_version[$i] =~ m/(\d+)([a-z]*)/i;
my $mn = $1;
my $ma = $2;
# If the version is higher, we're done.
if ($pn > $mn) {
verbose " ==> ACCEPTED\n";
return;
}
# If the version is lower, we're done.
elsif ($pn < $mn ||
($pn == $mn && $pa lt $ma)) {
verbose " ==> Too low! Skipping this version\n";
last;
}
# If the version was equal, keep checking.
++$i;
}
# If we found a good version, return.
if ($i > $#min_version) {
verbose " ==> ACCEPTED\n";
return;
}
}
# if no acceptable version found, reject it
print "
=================================================================
I could not find a recent enough copy of $app.
I need at least $req_version, but only found the following versions:\n\n";
my $i = 0;
foreach (@search_path) {
print " $_: $versions_found[$i]\n";
$i++;
}
print "\nI am gonna abort. :-(
Please make sure you are using at least the following versions of the
tools:
GNU Autoconf: $ompi_autoconf_version
GNU Automake: $ompi_automake_version
GNU Libtool: $ompi_libtool_version
=================================================================\n";
my_exit(1);
}
##############################################################################
sub safe_system {
== Highlights == 1. New mpifort wrapper compiler: you can utilize mpif.h, use mpi, and use mpi_f08 through this one wrapper compiler 1. mpif77 and mpif90 still exist, but are sym links to mpifort and may be removed in a future release 1. The mpi module has been re-implemented and is significantly "mo' bettah" 1. The mpi_f08 module offers many, many improvements over mpif.h and the mpi module This stuff is coming from a VERY long-lived mercurial branch (3 years!); it'll almost certainly take a few SVN commits and a bunch of testing before I get it correctly committed to the SVN trunk. == More details == Craig Rasmussen and I have been working with the MPI-3 Fortran WG and Fortran J3 committees for a long, long time to make a prototype MPI-3 Fortran bindings implementation. We think we're at a stable enough state to bring this stuff back to the trunk, with the goal of including it in OMPI v1.7. Special thanks go out to everyone who has been incredibly patient and helpful to us in this journey: * Rolf Rabenseifner/HLRS (mastermind/genius behind the entire MPI-3 Fortran effort) * The Fortran J3 committee * Tobias Burnus/gfortran * Tony !Goetz/Absoft * Terry !Donte/Oracle * ...and probably others whom I'm forgetting :-( There's still opportunities for optimization in the mpi_f08 implementation, but by and large, it is as far along as it can be until Fortran compilers start implementing the new F08 dimension(..) syntax. Note that gfortran is currently unsupported for the mpi_f08 module and the new mpi module. gfortran users will a) fall back to the same mpi module implementation that is in OMPI v1.5.x, and b) not get the new mpi_f08 module. The gfortran maintainers are actively working hard to add the necessary features to support both the new mpi_f08 module and the new mpi module implementations. This will take some time. As mentioned above, ompi/mpi/f77 and ompi/mpi/f90 no longer exist. All the fortran bindings implementations have been collated under ompi/mpi/fortran; each implementation has its own subdirectory: {{{ ompi/mpi/fortran/ base/ - glue code mpif-h/ - what used to be ompi/mpi/f77 use-mpi-tkr/ - what used to be ompi/mpi/f90 use-mpi-ignore-tkr/ - new mpi module implementation use-mpi-f08/ - new mpi_f08 module implementation }}} There's also a prototype 6-function-MPI implementation under use-mpi-f08-desc that emulates the new F08 dimension(..) syntax that isn't fully available in Fortran compilers yet. We did that to prove it to ourselves that it could be done once the compilers fully support it. This directory/implementation will likely eventually replace the use-mpi-f08 version. Other things that were done: * ompi_info grew a few new output fields to describe what level of Fortran support is included * Existing Fortran examples in examples/ were renamed; new mpi_f08 examples were added * The old Fortran MPI libraries were renamed: * libmpi_f77 -> libmpi_mpifh * libmpi_f90 -> libmpi_usempi * The configury for Fortran was consolidated and significantly slimmed down. Note that the F77 env variable is now IGNORED for configure; you should only use FC. Example: {{{ shell$ ./configure CC=icc CXX=icpc FC=ifort ... }}} All of this work was done in a Mercurial branch off the SVN trunk, and hosted at Bitbucket. This branch has got to be one of OMPI's longest-running branches. Its first commit was Tue Apr 07 23:01:46 2009 -0400 -- it's over 3 years old! :-) We think we've pulled in all relevant changes from the OMPI trunk (e.g., Fortran implementations of the new MPI-3 MPROBE stuff for mpif.h, use mpi, and use mpi_f08, and the recent Fujitsu Fortran patches). I anticipate some instability when we bring this stuff into the trunk, simply because it touches a LOT of code in the MPI layer in the OMPI code base. We'll try our best to make it as pain-free as possible, but please bear with us when it is committed. This commit was SVN r26283.
2012-04-18 19:57:29 +04:00
print "Running: " . join(/ /, @_) . "\n";
my $ret = system(@_);
$ret >>= 8;
if (0 != $ret) {
print "Command failed: @_\n";
my_exit($ret);
}
$ret;
}
##############################################################################
sub patch_autotools_output {
my ($topdir) = @_;
# Set indentation string for verbose output depending on current directory.
my $indent_str = " ";
if ($topdir eq ".") {
$indent_str = "=== ";
}
# Patch ltmain.sh error for PGI version numbers. Redirect stderr to
# /dev/null because this patch is only necessary for some versions of
# Libtool (e.g., 2.2.6b); it'll [rightfully] fail if you have a new
# enough Libtool that dosn't need this patch. But don't alarm the
# user and make them think that autogen failed if this patch fails --
# make the errors be silent.
if (-f "config/ltmain.sh") {
verbose "$indent_str"."Patching PGI compiler version numbers in ltmain.sh\n";
system("$patch_prog -N -p0 < $topdir/config/ltmain_pgi_tp.diff >/dev/null 2>&1");
unlink("config/ltmain.sh.rej");
}
# Total ugh. We have to patch the configure script itself. See below
# for explainations why.
open(IN, "configure") || my_die "Can't open configure";
my $c;
$c .= $_
while(<IN>);
close(IN);
# LT <=2.2.6b need to be patched for the PGI 10.0 fortran compiler
# name (pgfortran). The following comes from the upstream LT patches:
# http://lists.gnu.org/archive/html/libtool-patches/2009-11/msg00012.html
# http://lists.gnu.org/archive/html/bug-libtool/2009-11/msg00045.html
# Note that that patch is part of Libtool (which is not in this OMPI
# source tree); we can't fix it. So all we can do is patch the
# resulting configure script. :-(
verbose "$indent_str"."Patching configure for Libtool PGI 10 fortran compiler name\n";
$c =~ s/gfortran g95 xlf95 f95 fort ifort ifc efc pgf95 lf95 ftn/gfortran g95 xlf95 f95 fort ifort ifc efc pgfortran pgf95 lf95 ftn/g;
$c =~ s/pgcc\* \| pgf77\* \| pgf90\* \| pgf95\*\)/pgcc* | pgf77* | pgf90* | pgf95* | pgfortran*)/g;
$c =~ s/pgf77\* \| pgf90\* \| pgf95\*\)/pgf77* | pgf90* | pgf95* | pgfortran*)/g;
# Similar issue as above -- the PGI 10 version number broke <=LT
# 2.2.6b's version number checking regexps. Again, we can't fix the
# Libtool install; all we can do is patch the resulting configure
# script. :-( The following comes from the upstream patch:
# http://lists.gnu.org/archive/html/libtool-patches/2009-11/msg00016.html
verbose "$indent_str"."Patching configure for Libtool PGI version number regexps\n";
$c =~ s/\*pgCC\\ \[1-5\]\* \| \*pgcpp\\ \[1-5\]\*/*pgCC\\ [1-5]\.* | *pgcpp\\ [1-5]\.*/g;
# Similar issue as above -- fix the case statements that handle the Sun
# Fortran version strings.
#
# Note: we have to use octal escapes to match '*Sun\ F*) and the
# four succeeding lines in the bourne shell switch statement.
# \ = 134
# ) = 051
# * = 052
#
# Below is essentially an upstream patch for Libtool which we want
# made available to Open MPI users running older versions of Libtool
foreach my $tag (("", "_FC")) {
# We have to change the search pattern and substitution on each
# iteration to take into account the tag changing
my $search_string = '\052Sun\134 F\052.*\n.*\n\s+' .
"lt_prog_compiler_pic${tag}" . '.*\n.*\n.*\n.*\n';
my $replace_string = "
*Sun\\ Ceres\\ Fortran* | *Sun*Fortran*\\ [[1-7]].* | *Sun*Fortran*\\ 8.[[0-3]]*)
# Sun Fortran 8.3 passes all unrecognized flags to the linker
lt_prog_compiler_pic${tag}='-KPIC'
lt_prog_compiler_static${tag}='-Bstatic'
lt_prog_compiler_wl${tag}=''
;;
*Sun\\ F* | *Sun*Fortran*)
lt_prog_compiler_pic${tag}='-KPIC'
lt_prog_compiler_static${tag}='-Bstatic'
lt_prog_compiler_wl${tag}='-Qoption ld '
;;
";
verbose "$indent_str"."Patching configure for Sun Studio Fortran version strings ($tag)\n";
$c =~ s/$search_string/$replace_string/;
}
# See http://git.savannah.gnu.org/cgit/libtool.git/commit/?id=v2.2.6-201-g519bf91 for details
# Note that this issue was fixed in LT 2.2.8, however most distros are still using 2.2.6b
verbose "$indent_str"."Patching configure for IBM xlf libtool bug\n";
$c =~ s/(\$LD -shared \$libobjs \$deplibs \$)compiler_flags( -soname \$soname)/$1linker_flags$2/g;
open(OUT, ">configure.patched") || my_die "Can't open configure.patched";
print OUT $c;
close(OUT);
# Use cp so that we preserve permissions on configure
safe_system("cp configure.patched configure");
unlink("configure.patched");
}
##############################################################################
##############################################################################
## main - do the real work...
##############################################################################
##############################################################################
# Command line parameters
my $ok = Getopt::Long::GetOptions("no-ompi" => \$no_ompi_arg,
"no-orte" => \$no_orte_arg,
"no-oshmem" => \$no_oshmem_arg,
"quiet|q" => \$quiet_arg,
"debug|d" => \$debug_arg,
"help|h" => \$help_arg,
"platform=s" => \$platform_arg,
"include=s" => \$include_arg,
"exclude=s" => \$exclude_arg,
);
if (!$ok || $help_arg) {
print "Invalid command line argument.\n\n"
if (!$ok);
print "Options:
--no-ompi | -no-ompi Do not build the Open MPI layer
--no-orte | -no-orte Do not build the ORTE layer
--no-oshmem | -no-oshmem Do not build the OSHMEM layer
--quiet | -q Do not display normal verbose output
--debug | -d Output lots of debug information
--help | -h This help list
--platform | -p Specify a platform file to be parsed for no_build
and only_build directives
--include | -i Comma-separated list of framework-component pairs
to be exclusively built - i.e., all other components
will be ignored and only those specified will be marked
to build
--exclude | -e Comma-separated list of framework or framework-component
to be excluded from the build\n";
my_exit($ok ? 0 : 1);
}
#---------------------------------------------------------------------------
# Check for project existence
my $project_name_long = "Open MPI";
my $project_name_short = "openmpi";
if (! -e "ompi") {
$no_ompi_arg = 1;
debug "No ompi subdirectory found - will not build MPI layer\n";
}
if (! -e "orte") {
$no_orte_arg = 1;
debug "No orte subdirectory found - will not build ORTE\n";
}
if (! -e "oshmem") {
$no_oshmem_arg = 1;
debug "No oshmem subdirectory found - will not build OSHMEM\n";
}
if (-e "orcm") {
# bozo check - ORCM requires ORTE
if ($no_orte_arg == 1) {
print "Cannot build ORCM without ORTE\n";
my_exit(1);
}
$project_name_long = "Open Resilient Cluster Manager";
$project_name_short = "open-rcm";
} elsif ($no_ompi_arg == 1) {
if ($no_orte_arg == 0) {
$project_name_long = "Open MPI Run Time Environment";
$project_name_short = "open-rte";
} else {
$project_name_long = "Open Portability Access Layer";
$project_name_short = "open-pal";
}
}
#---------------------------------------------------------------------------
$full_hostname = `hostname`;
chomp($full_hostname);
$m4 = "dnl
dnl \$HEADER\$
dnl
$dnl_line
dnl This file is automatically created by autogen.pl; it should not
dnl be edited by hand!!
dnl
dnl Generated by $username at " . localtime(time) . "
dnl on $full_hostname.
$dnl_line\n\n";
#---------------------------------------------------------------------------
# Verify that we're in the OMPI root directorty by checking for a token file.
my_die "Not at the root directory of an OMPI source tree"
if (! -f "config/ompi_try_assemble.m4");
# Now that we've verified that we're in the top-level OMPI directory,
# set the sentinel file to remove if we abort.
$sentinel = Cwd::cwd() . "/configure";
#---------------------------------------------------------------------------
my $step = 1;
verbose "Open MPI autogen (buckle up!)
$step. Checking tool versions\n\n";
# Check the autotools revision levels
&find_and_check("autoconf", $ompi_autoconf_search, $ompi_autoconf_version);
&find_and_check("libtool", $ompi_libtoolize_search, $ompi_libtool_version);
&find_and_check("automake", $ompi_automake_search, $ompi_automake_version);
#---------------------------------------------------------------------------
# Save the platform file in the m4
$m4 .= "dnl Platform file\n";
# Process platform arg, if provided
if ($platform_arg) {
$m4 .= "m4_define([autogen_platform_file], [$platform_arg])\n\n";
open(IN, $platform_arg) || my_die "Can't open $platform_arg";
# Read all lines from the file
while (<IN>) {
my $line = $_;
my @fields = split(/=/,$line);
if ($fields[0] eq "enable_mca_no_build") {
if ($exclude_arg) {
print "The specified platform file includes an
enable_mca_no_build line. However, your command line
also contains an exclude specification. Only one of
these directives can be given.\n";
my_exit(1);
}
$exclude_arg = $fields[1];
} elsif ($fields[0] eq "enable_mca_only_build") {
if ($include_arg) {
print "The specified platform file includes an
enable_mca_only_build line. However, your command line
also contains an include specification. Only one of
these directives can be given.\n";
my_exit(1);
}
$include_arg = $fields[1];
}
}
close(IN);
} else {
# No platform file -- write an empty list
$m4 .= "m4_define([autogen_platform_file], [])\n\n";
}
if ($exclude_arg) {
debug "Using exclude list: $exclude_arg";
my @list = split(/,/, $exclude_arg);
foreach (@list) {
my @pairs = split(/-/, $_);
if (exists($pairs[1])) {
# Remove any trailing newlines
chomp($pairs[1]);
debug " Adding ".$pairs[0]."->".$pairs[1]." to exclude list\n";
push(@{$exclude_list->{$pairs[0]}}, $pairs[1]);
} else {
debug " Adding $pairs[0] to exclude list\n";
push(@{$exclude_list->{$pairs[0]}}, "AGEN_EXCLUDE_ALL");
}
}
}
if ($include_arg) {
debug "Using include list: $include_arg";
my @list = split(/,/, $include_arg);
foreach (@list) {
my @pairs = split(/-/, $_);
if (exists($pairs[1])) {
# Remove any trailing newlines
chomp($pairs[1]);
debug " Adding ".$pairs[0]."->".$pairs[1]." to include list\n";
push(@{$include_list->{$pairs[0]}}, $pairs[1]);
}
# NOTE: it makes no sense to include all as that is the default
# so ignore that scenario here, if given
}
}
#---------------------------------------------------------------------------
== Highlights == 1. New mpifort wrapper compiler: you can utilize mpif.h, use mpi, and use mpi_f08 through this one wrapper compiler 1. mpif77 and mpif90 still exist, but are sym links to mpifort and may be removed in a future release 1. The mpi module has been re-implemented and is significantly "mo' bettah" 1. The mpi_f08 module offers many, many improvements over mpif.h and the mpi module This stuff is coming from a VERY long-lived mercurial branch (3 years!); it'll almost certainly take a few SVN commits and a bunch of testing before I get it correctly committed to the SVN trunk. == More details == Craig Rasmussen and I have been working with the MPI-3 Fortran WG and Fortran J3 committees for a long, long time to make a prototype MPI-3 Fortran bindings implementation. We think we're at a stable enough state to bring this stuff back to the trunk, with the goal of including it in OMPI v1.7. Special thanks go out to everyone who has been incredibly patient and helpful to us in this journey: * Rolf Rabenseifner/HLRS (mastermind/genius behind the entire MPI-3 Fortran effort) * The Fortran J3 committee * Tobias Burnus/gfortran * Tony !Goetz/Absoft * Terry !Donte/Oracle * ...and probably others whom I'm forgetting :-( There's still opportunities for optimization in the mpi_f08 implementation, but by and large, it is as far along as it can be until Fortran compilers start implementing the new F08 dimension(..) syntax. Note that gfortran is currently unsupported for the mpi_f08 module and the new mpi module. gfortran users will a) fall back to the same mpi module implementation that is in OMPI v1.5.x, and b) not get the new mpi_f08 module. The gfortran maintainers are actively working hard to add the necessary features to support both the new mpi_f08 module and the new mpi module implementations. This will take some time. As mentioned above, ompi/mpi/f77 and ompi/mpi/f90 no longer exist. All the fortran bindings implementations have been collated under ompi/mpi/fortran; each implementation has its own subdirectory: {{{ ompi/mpi/fortran/ base/ - glue code mpif-h/ - what used to be ompi/mpi/f77 use-mpi-tkr/ - what used to be ompi/mpi/f90 use-mpi-ignore-tkr/ - new mpi module implementation use-mpi-f08/ - new mpi_f08 module implementation }}} There's also a prototype 6-function-MPI implementation under use-mpi-f08-desc that emulates the new F08 dimension(..) syntax that isn't fully available in Fortran compilers yet. We did that to prove it to ourselves that it could be done once the compilers fully support it. This directory/implementation will likely eventually replace the use-mpi-f08 version. Other things that were done: * ompi_info grew a few new output fields to describe what level of Fortran support is included * Existing Fortran examples in examples/ were renamed; new mpi_f08 examples were added * The old Fortran MPI libraries were renamed: * libmpi_f77 -> libmpi_mpifh * libmpi_f90 -> libmpi_usempi * The configury for Fortran was consolidated and significantly slimmed down. Note that the F77 env variable is now IGNORED for configure; you should only use FC. Example: {{{ shell$ ./configure CC=icc CXX=icpc FC=ifort ... }}} All of this work was done in a Mercurial branch off the SVN trunk, and hosted at Bitbucket. This branch has got to be one of OMPI's longest-running branches. Its first commit was Tue Apr 07 23:01:46 2009 -0400 -- it's over 3 years old! :-) We think we've pulled in all relevant changes from the OMPI trunk (e.g., Fortran implementations of the new MPI-3 MPROBE stuff for mpif.h, use mpi, and use mpi_f08, and the recent Fujitsu Fortran patches). I anticipate some instability when we bring this stuff into the trunk, simply because it touches a LOT of code in the MPI layer in the OMPI code base. We'll try our best to make it as pain-free as possible, but please bear with us when it is committed. This commit was SVN r26283.
2012-04-18 19:57:29 +04:00
++$step;
verbose "\n$step. Running template-generating scripts\n\n";
Many updates and bug fixes for the Fortran bindings. Sorry these aren't separated out into individual commits; they represent a few months of work in the Mercurial branch, and it seemed error-prone to try to break them up into multiple SVN commits. * Remove 2nd overloaded interfaces for MPI_TESTALL, MPI_TESTSOME, MPI_WAITALL, and MPI_WAITSOME in the "mpi" module implementations (because we're not allowed to have them, anyway -- it causes complications in the profiling interface). This forced an MPI-2.2 errata in the MPI Forum; we applied the errata here (the array of statuses parameter could not have a specific dimension specified in the dummy argument). Fixes trac:3166. * Similarly, fix type for MPI_ARGVS_NULL in Fortran * Add MPI_3.0 function MPI_F_SYNC_REG (Fortran interfaces only). * Add MPI-3.0 MPI_MESSAGE_NO_PROC in the mpi_f08 module. * Added mpi_f08 handle comparison operators, per MPI-3.0 addendum to the F08 proposal at the last Forum meeting. * Added missing type(MPI_File) and type(Message) in mpi_f08 module. * Fix --disable-mpi-io configure switch with all Fortran interfaces * Re-factor the Fortran header files to be fundamentally simpler and easier to maintain. Fortran constant values in the header files are now generated by a script named mpif-values.pl during autogen.pl (they were previously generated by mpif-common.pl, but it was quite a bit more subtle/complex). A second commit will follow this one to update svn:ignore values (just to ensure we don't muck up the first commit with the SVN client getting confused by the changed ignore values and new/changed files). * Fix some dependencies for compile ordering in ompi/mpi/fortran/use-mpi-ignore-tkr/Makefile.am. * Fix bad wording in several places (.m4 file name, ompi_info output, etc.): we previoulsy said "F08 assumed shape" when we really meant "F08 assumed rank" (for Fortran gurus, those are very different things). * Removed the GREEK/SVN version string from mpif.h. It really had no purpose being there. Still to be done: * Handling of 2D array of strings in MPI_COMM_SPAWN_MULTIPLE still isn't right yet. Not sure how many people really care about this :-), but it is still broken. This commit was SVN r26997. The following Trac tickets were found above: Ticket 3166 --> https://svn.open-mpi.org/trac/ompi/ticket/3166
2012-08-11 01:19:47 +04:00
# These scripts generate fortran header files of different types, but
# guaranteed to have the same value (i.e., so humans don't have to
# maintain two sets of files, and potentially have values get out of
# sync).
== Highlights == 1. New mpifort wrapper compiler: you can utilize mpif.h, use mpi, and use mpi_f08 through this one wrapper compiler 1. mpif77 and mpif90 still exist, but are sym links to mpifort and may be removed in a future release 1. The mpi module has been re-implemented and is significantly "mo' bettah" 1. The mpi_f08 module offers many, many improvements over mpif.h and the mpi module This stuff is coming from a VERY long-lived mercurial branch (3 years!); it'll almost certainly take a few SVN commits and a bunch of testing before I get it correctly committed to the SVN trunk. == More details == Craig Rasmussen and I have been working with the MPI-3 Fortran WG and Fortran J3 committees for a long, long time to make a prototype MPI-3 Fortran bindings implementation. We think we're at a stable enough state to bring this stuff back to the trunk, with the goal of including it in OMPI v1.7. Special thanks go out to everyone who has been incredibly patient and helpful to us in this journey: * Rolf Rabenseifner/HLRS (mastermind/genius behind the entire MPI-3 Fortran effort) * The Fortran J3 committee * Tobias Burnus/gfortran * Tony !Goetz/Absoft * Terry !Donte/Oracle * ...and probably others whom I'm forgetting :-( There's still opportunities for optimization in the mpi_f08 implementation, but by and large, it is as far along as it can be until Fortran compilers start implementing the new F08 dimension(..) syntax. Note that gfortran is currently unsupported for the mpi_f08 module and the new mpi module. gfortran users will a) fall back to the same mpi module implementation that is in OMPI v1.5.x, and b) not get the new mpi_f08 module. The gfortran maintainers are actively working hard to add the necessary features to support both the new mpi_f08 module and the new mpi module implementations. This will take some time. As mentioned above, ompi/mpi/f77 and ompi/mpi/f90 no longer exist. All the fortran bindings implementations have been collated under ompi/mpi/fortran; each implementation has its own subdirectory: {{{ ompi/mpi/fortran/ base/ - glue code mpif-h/ - what used to be ompi/mpi/f77 use-mpi-tkr/ - what used to be ompi/mpi/f90 use-mpi-ignore-tkr/ - new mpi module implementation use-mpi-f08/ - new mpi_f08 module implementation }}} There's also a prototype 6-function-MPI implementation under use-mpi-f08-desc that emulates the new F08 dimension(..) syntax that isn't fully available in Fortran compilers yet. We did that to prove it to ourselves that it could be done once the compilers fully support it. This directory/implementation will likely eventually replace the use-mpi-f08 version. Other things that were done: * ompi_info grew a few new output fields to describe what level of Fortran support is included * Existing Fortran examples in examples/ were renamed; new mpi_f08 examples were added * The old Fortran MPI libraries were renamed: * libmpi_f77 -> libmpi_mpifh * libmpi_f90 -> libmpi_usempi * The configury for Fortran was consolidated and significantly slimmed down. Note that the F77 env variable is now IGNORED for configure; you should only use FC. Example: {{{ shell$ ./configure CC=icc CXX=icpc FC=ifort ... }}} All of this work was done in a Mercurial branch off the SVN trunk, and hosted at Bitbucket. This branch has got to be one of OMPI's longest-running branches. Its first commit was Tue Apr 07 23:01:46 2009 -0400 -- it's over 3 years old! :-) We think we've pulled in all relevant changes from the OMPI trunk (e.g., Fortran implementations of the new MPI-3 MPROBE stuff for mpif.h, use mpi, and use mpi_f08, and the recent Fujitsu Fortran patches). I anticipate some instability when we bring this stuff into the trunk, simply because it touches a LOT of code in the MPI layer in the OMPI code base. We'll try our best to make it as pain-free as possible, but please bear with us when it is committed. This commit was SVN r26283.
2012-04-18 19:57:29 +04:00
my @scripts;
Many updates and bug fixes for the Fortran bindings. Sorry these aren't separated out into individual commits; they represent a few months of work in the Mercurial branch, and it seemed error-prone to try to break them up into multiple SVN commits. * Remove 2nd overloaded interfaces for MPI_TESTALL, MPI_TESTSOME, MPI_WAITALL, and MPI_WAITSOME in the "mpi" module implementations (because we're not allowed to have them, anyway -- it causes complications in the profiling interface). This forced an MPI-2.2 errata in the MPI Forum; we applied the errata here (the array of statuses parameter could not have a specific dimension specified in the dummy argument). Fixes trac:3166. * Similarly, fix type for MPI_ARGVS_NULL in Fortran * Add MPI_3.0 function MPI_F_SYNC_REG (Fortran interfaces only). * Add MPI-3.0 MPI_MESSAGE_NO_PROC in the mpi_f08 module. * Added mpi_f08 handle comparison operators, per MPI-3.0 addendum to the F08 proposal at the last Forum meeting. * Added missing type(MPI_File) and type(Message) in mpi_f08 module. * Fix --disable-mpi-io configure switch with all Fortran interfaces * Re-factor the Fortran header files to be fundamentally simpler and easier to maintain. Fortran constant values in the header files are now generated by a script named mpif-values.pl during autogen.pl (they were previously generated by mpif-common.pl, but it was quite a bit more subtle/complex). A second commit will follow this one to update svn:ignore values (just to ensure we don't muck up the first commit with the SVN client getting confused by the changed ignore values and new/changed files). * Fix some dependencies for compile ordering in ompi/mpi/fortran/use-mpi-ignore-tkr/Makefile.am. * Fix bad wording in several places (.m4 file name, ompi_info output, etc.): we previoulsy said "F08 assumed shape" when we really meant "F08 assumed rank" (for Fortran gurus, those are very different things). * Removed the GREEK/SVN version string from mpif.h. It really had no purpose being there. Still to be done: * Handling of 2D array of strings in MPI_COMM_SPAWN_MULTIPLE still isn't right yet. Not sure how many people really care about this :-), but it is still broken. This commit was SVN r26997. The following Trac tickets were found above: Ticket 3166 --> https://svn.open-mpi.org/trac/ompi/ticket/3166
2012-08-11 01:19:47 +04:00
push(@scripts, "ompi/include/mpif-values.pl");
== Highlights == 1. New mpifort wrapper compiler: you can utilize mpif.h, use mpi, and use mpi_f08 through this one wrapper compiler 1. mpif77 and mpif90 still exist, but are sym links to mpifort and may be removed in a future release 1. The mpi module has been re-implemented and is significantly "mo' bettah" 1. The mpi_f08 module offers many, many improvements over mpif.h and the mpi module This stuff is coming from a VERY long-lived mercurial branch (3 years!); it'll almost certainly take a few SVN commits and a bunch of testing before I get it correctly committed to the SVN trunk. == More details == Craig Rasmussen and I have been working with the MPI-3 Fortran WG and Fortran J3 committees for a long, long time to make a prototype MPI-3 Fortran bindings implementation. We think we're at a stable enough state to bring this stuff back to the trunk, with the goal of including it in OMPI v1.7. Special thanks go out to everyone who has been incredibly patient and helpful to us in this journey: * Rolf Rabenseifner/HLRS (mastermind/genius behind the entire MPI-3 Fortran effort) * The Fortran J3 committee * Tobias Burnus/gfortran * Tony !Goetz/Absoft * Terry !Donte/Oracle * ...and probably others whom I'm forgetting :-( There's still opportunities for optimization in the mpi_f08 implementation, but by and large, it is as far along as it can be until Fortran compilers start implementing the new F08 dimension(..) syntax. Note that gfortran is currently unsupported for the mpi_f08 module and the new mpi module. gfortran users will a) fall back to the same mpi module implementation that is in OMPI v1.5.x, and b) not get the new mpi_f08 module. The gfortran maintainers are actively working hard to add the necessary features to support both the new mpi_f08 module and the new mpi module implementations. This will take some time. As mentioned above, ompi/mpi/f77 and ompi/mpi/f90 no longer exist. All the fortran bindings implementations have been collated under ompi/mpi/fortran; each implementation has its own subdirectory: {{{ ompi/mpi/fortran/ base/ - glue code mpif-h/ - what used to be ompi/mpi/f77 use-mpi-tkr/ - what used to be ompi/mpi/f90 use-mpi-ignore-tkr/ - new mpi module implementation use-mpi-f08/ - new mpi_f08 module implementation }}} There's also a prototype 6-function-MPI implementation under use-mpi-f08-desc that emulates the new F08 dimension(..) syntax that isn't fully available in Fortran compilers yet. We did that to prove it to ourselves that it could be done once the compilers fully support it. This directory/implementation will likely eventually replace the use-mpi-f08 version. Other things that were done: * ompi_info grew a few new output fields to describe what level of Fortran support is included * Existing Fortran examples in examples/ were renamed; new mpi_f08 examples were added * The old Fortran MPI libraries were renamed: * libmpi_f77 -> libmpi_mpifh * libmpi_f90 -> libmpi_usempi * The configury for Fortran was consolidated and significantly slimmed down. Note that the F77 env variable is now IGNORED for configure; you should only use FC. Example: {{{ shell$ ./configure CC=icc CXX=icpc FC=ifort ... }}} All of this work was done in a Mercurial branch off the SVN trunk, and hosted at Bitbucket. This branch has got to be one of OMPI's longest-running branches. Its first commit was Tue Apr 07 23:01:46 2009 -0400 -- it's over 3 years old! :-) We think we've pulled in all relevant changes from the OMPI trunk (e.g., Fortran implementations of the new MPI-3 MPROBE stuff for mpif.h, use mpi, and use mpi_f08, and the recent Fujitsu Fortran patches). I anticipate some instability when we bring this stuff into the trunk, simply because it touches a LOT of code in the MPI layer in the OMPI code base. We'll try our best to make it as pain-free as possible, but please bear with us when it is committed. This commit was SVN r26283.
2012-04-18 19:57:29 +04:00
foreach my $s (@scripts) {
verbose "=== $s\n";
if (! -x $s) {
print "Cannot find executable $s!\nAborting.\n";
my_exit(1);
}
if (system($s) != 0) {
print "Script failed: $s\n";
my_exit(1);
}
== Highlights == 1. New mpifort wrapper compiler: you can utilize mpif.h, use mpi, and use mpi_f08 through this one wrapper compiler 1. mpif77 and mpif90 still exist, but are sym links to mpifort and may be removed in a future release 1. The mpi module has been re-implemented and is significantly "mo' bettah" 1. The mpi_f08 module offers many, many improvements over mpif.h and the mpi module This stuff is coming from a VERY long-lived mercurial branch (3 years!); it'll almost certainly take a few SVN commits and a bunch of testing before I get it correctly committed to the SVN trunk. == More details == Craig Rasmussen and I have been working with the MPI-3 Fortran WG and Fortran J3 committees for a long, long time to make a prototype MPI-3 Fortran bindings implementation. We think we're at a stable enough state to bring this stuff back to the trunk, with the goal of including it in OMPI v1.7. Special thanks go out to everyone who has been incredibly patient and helpful to us in this journey: * Rolf Rabenseifner/HLRS (mastermind/genius behind the entire MPI-3 Fortran effort) * The Fortran J3 committee * Tobias Burnus/gfortran * Tony !Goetz/Absoft * Terry !Donte/Oracle * ...and probably others whom I'm forgetting :-( There's still opportunities for optimization in the mpi_f08 implementation, but by and large, it is as far along as it can be until Fortran compilers start implementing the new F08 dimension(..) syntax. Note that gfortran is currently unsupported for the mpi_f08 module and the new mpi module. gfortran users will a) fall back to the same mpi module implementation that is in OMPI v1.5.x, and b) not get the new mpi_f08 module. The gfortran maintainers are actively working hard to add the necessary features to support both the new mpi_f08 module and the new mpi module implementations. This will take some time. As mentioned above, ompi/mpi/f77 and ompi/mpi/f90 no longer exist. All the fortran bindings implementations have been collated under ompi/mpi/fortran; each implementation has its own subdirectory: {{{ ompi/mpi/fortran/ base/ - glue code mpif-h/ - what used to be ompi/mpi/f77 use-mpi-tkr/ - what used to be ompi/mpi/f90 use-mpi-ignore-tkr/ - new mpi module implementation use-mpi-f08/ - new mpi_f08 module implementation }}} There's also a prototype 6-function-MPI implementation under use-mpi-f08-desc that emulates the new F08 dimension(..) syntax that isn't fully available in Fortran compilers yet. We did that to prove it to ourselves that it could be done once the compilers fully support it. This directory/implementation will likely eventually replace the use-mpi-f08 version. Other things that were done: * ompi_info grew a few new output fields to describe what level of Fortran support is included * Existing Fortran examples in examples/ were renamed; new mpi_f08 examples were added * The old Fortran MPI libraries were renamed: * libmpi_f77 -> libmpi_mpifh * libmpi_f90 -> libmpi_usempi * The configury for Fortran was consolidated and significantly slimmed down. Note that the F77 env variable is now IGNORED for configure; you should only use FC. Example: {{{ shell$ ./configure CC=icc CXX=icpc FC=ifort ... }}} All of this work was done in a Mercurial branch off the SVN trunk, and hosted at Bitbucket. This branch has got to be one of OMPI's longest-running branches. Its first commit was Tue Apr 07 23:01:46 2009 -0400 -- it's over 3 years old! :-) We think we've pulled in all relevant changes from the OMPI trunk (e.g., Fortran implementations of the new MPI-3 MPROBE stuff for mpif.h, use mpi, and use mpi_f08, and the recent Fujitsu Fortran patches). I anticipate some instability when we bring this stuff into the trunk, simply because it touches a LOT of code in the MPI layer in the OMPI code base. We'll try our best to make it as pain-free as possible, but please bear with us when it is committed. This commit was SVN r26283.
2012-04-18 19:57:29 +04:00
}
#---------------------------------------------------------------------------
# Find projects, frameworks, components
++$step;
verbose "\n$step. Searching for projects, MCA frameworks, and MCA components\n";
my $ret;
# Figure out if we're at the top level of the OMPI tree or not.
if (! (-f "VERSION" && -f "configure.ac" && -f $topdir_file)) {
print("\n\nYou must run this script from the top-level directory of the Open MPI tree.\n\n");
my_exit(1);
}
# Top-level projects to examine
my $projects;
push(@{$projects}, { name => "opal", dir => "opal", need_base => 1 });
push(@{$projects}, { name => "orte", dir => "orte", need_base => 1 })
if (!$no_orte_arg);
push(@{$projects}, { name => "ompi", dir => "ompi", need_base => 1 })
if (!$no_ompi_arg);
push(@{$projects}, { name => "oshmem", dir => "oshmem", need_base => 1 })
if (!$no_ompi_arg && !$no_orte_arg && !$no_oshmem_arg);
push(@{$projects}, { name => "orcm", dir => "orcm", need_base => 1 })
if (-e "orcm");
$m4 .= "dnl Separate m4 define for each project\n";
foreach my $p (@$projects) {
$m4 .= "m4_define([project_$p->{name}], [1])\n";
}
$m4 .= "\ndnl Project names
m4_define([project_name_long], [$project_name_long])
m4_define([project_name_short], [$project_name_short])\n";
# Setup MCA
mca_run_global($projects);
#---------------------------------------------------------------------------
# Find MPI extensions and contribs
if (!$no_ompi_arg) {
++$step;
verbose "\n$step. Searching for Open MPI extensions\n\n";
mpiext_run_global("ompi/mpiext");
++$step;
verbose "\n$step. Searching for Open MPI contribs\n\n";
mpicontrib_run_global("ompi/contrib");
}
#---------------------------------------------------------------------------
# Process all subdirs that we found in previous steps
++$step;
verbose "\n$step. Processing autogen.subdirs directories\n";
if ($#subdirs >= 0) {
foreach my $d (@subdirs) {
process_subdir($d);
}
} else {
print "<none found>\n";
}
#---------------------------------------------------------------------------
# If we got here, all was good. Run the auto tools.
++$step;
verbose "\n$step. Running autotools on top-level tree\n\n";
# Remove old versions of the files (this is probably overkill, but...)
verbose "==> Remove stale files\n";
find_and_delete(qw/config.guess config.sub depcomp compile install-sh ltconfig
ltmain.sh missing mkinstalldirs libtool/);
system("rm -rf opal/libltdl");
# Remove the old m4 file and write the new one
verbose "==> Writing m4 file with autogen.pl results\n";
unlink($m4_output_file);
open(M4, ">$m4_output_file") ||
my_die "Can't open $m4_output_file";
print M4 $m4;
close(M4);
# Generate the version checking script with autom4te
verbose "==> Generating opal_get_version.sh\n";
chdir("config");
safe_system("autom4te --language=m4sh opal_get_version.m4sh -o opal_get_version.sh");
# Run autoreconf
verbose "==> Running autoreconf\n";
chdir("..");
my $cmd = "autoreconf -ivf --warnings=all,no-obsolete,no-override -I config";
foreach my $project (@{$projects}) {
$cmd .= " -I $project->{dir}/config"
if (-d "$project->{dir}/config");
}
safe_system($cmd);
#---------------------------------------------------------------------------
# For FreeBSD (carried over from autogen.sh); apparently some versions
# of automake don't so this (prior to 1.9.7...?).
system("chmod u+w opal/libltdl/configure");
#---------------------------------------------------------------------------
++$step;
verbose "\n$step. Patching autotools output on top-level tree :-(\n\n";
# Patch preopen error in libltdl
if (-f "opal/libltdl/loaders/preopen.c") {
verbose "=== Patching preopen error masking in libltdl\n";
safe_system("$patch_prog -N -p0 < config/libltdl-preopen-error.diff");
unlink("opal/libltdl/loaders/preopen.c.rej");
}
patch_autotools_output(".");
#---------------------------------------------------------------------------
verbose "
================================================
Open MPI autogen: completed successfully. w00t!
================================================\n\n";
# Done!
exit(0);