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openmpi/ompi/tools/ompi_info/param.c
Jeff Squyres 253444c6d0 == 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 15:57:29 +00:00

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/*
* Copyright (c) 2004-2010 The Trustees of Indiana University and Indiana
* University Research and Technology
* Corporation. All rights reserved.
* Copyright (c) 2004-2006 The University of Tennessee and The University
* of Tennessee Research Foundation. All rights
* reserved.
* Copyright (c) 2004-2005 High Performance Computing Center Stuttgart,
* University of Stuttgart. All rights reserved.
* Copyright (c) 2004-2005 The Regents of the University of California.
* All rights reserved.
* Copyright (c) 2007-2012 Cisco Systems, Inc. All rights reserved.
* Copyright (c) 2009 Oak Ridge National Labs. All rights reserved.
* $COPYRIGHT$
*
* Additional copyrights may follow
*
* $HEADER$
*/
#include "ompi_config.h"
#include "mpi.h"
#include <string.h>
#include <ctype.h>
#ifdef HAVE_UNISTD_H
#include <unistd.h>
#endif
#ifdef HAVE_SYS_PARAM_H
#include <sys/param.h>
#endif
#ifdef HAVE_NETDB_H
#include <netdb.h>
#endif
#include MCA_timer_IMPLEMENTATION_HEADER
#include "opal/mca/installdirs/installdirs.h"
#include "opal/class/opal_value_array.h"
#include "opal/class/opal_pointer_array.h"
#include "opal/util/printf.h"
#include "opal/memoryhooks/memory.h"
#include "opal/mca/base/mca_base_param.h"
#include "orte/util/show_help.h"
#include "ompi/tools/ompi_info/ompi_info.h"
#include "ompi/include/mpi_portable_platform.h"
/*
* Public variables
*/
const char *ompi_info_component_all = "all";
const char *ompi_info_param_all = "all";
const char *ompi_info_path_prefix = "prefix";
const char *ompi_info_path_bindir = "bindir";
const char *ompi_info_path_libdir = "libdir";
const char *ompi_info_path_incdir = "incdir";
const char *ompi_info_path_mandir = "mandir";
const char *ompi_info_path_pkglibdir = "pkglibdir";
const char *ompi_info_path_sysconfdir = "sysconfdir";
const char *ompi_info_path_exec_prefix = "exec_prefix";
const char *ompi_info_path_sbindir = "sbindir";
const char *ompi_info_path_libexecdir = "libexecdir";
const char *ompi_info_path_datarootdir = "datarootdir";
const char *ompi_info_path_datadir = "datadir";
const char *ompi_info_path_sharedstatedir = "sharedstatedir";
const char *ompi_info_path_localstatedir = "localstatedir";
const char *ompi_info_path_infodir = "infodir";
const char *ompi_info_path_pkgdatadir = "pkgdatadir";
const char *ompi_info_path_pkgincludedir = "pkgincludedir";
const char *ompi_info_deprecated_value = "deprecated-ompi-info-value";
/*
* External variables
*
* This exists in mca/base/mca_base_param.c. It's not extern'ed
* in mca_base_param.h so that no one else will use it.
*/
extern opal_value_array_t mca_base_params;
void ompi_info_do_params(bool want_all_in, bool want_internal)
{
int count;
char *type, *component, *str;
bool found;
int i;
bool want_all = false;
opal_list_t *info;
ompi_info_open_components();
if (want_all_in) {
want_all = true;
} else {
/* See if the special param "all" was givin to --param; that
* superceeds any individual type
*/
count = opal_cmd_line_get_ninsts(ompi_info_cmd_line, "param");
for (i = 0; i < count; ++i) {
type = opal_cmd_line_get_param(ompi_info_cmd_line, "param", (int)i, 0);
if (0 == strcmp(ompi_info_type_all, type)) {
want_all = true;
break;
}
}
}
/* Get a dump of all the MCA params */
mca_base_param_dump(&info, want_internal);
/* Show the params */
if (want_all) {
for (i = 0; i < mca_types.size; ++i) {
if (NULL == (type = (char *)opal_pointer_array_get_item(&mca_types, i))) {
continue;
}
ompi_info_show_mca_params(info, type, ompi_info_component_all, want_internal);
}
} else {
for (i = 0; i < count; ++i) {
type = opal_cmd_line_get_param(ompi_info_cmd_line, "param", (int)i, 0);
component = opal_cmd_line_get_param(ompi_info_cmd_line, "param", (int)i, 1);
for (found = false, i = 0; i < mca_types.size; ++i) {
if (NULL == (str = (char *)opal_pointer_array_get_item(&mca_types, i))) {
continue;
}
if (0 == strcmp(str, type)) {
found = true;
break;
}
}
if (!found) {
char *usage = opal_cmd_line_get_usage_msg(ompi_info_cmd_line);
orte_show_help("help-ompi_info.txt", "not-found", true, type);
free(usage);
exit(1);
}
ompi_info_show_mca_params(info, type, component, want_internal);
}
}
/* Release all the MCA param memory */
mca_base_param_dump_release(info);
}
void ompi_info_show_mca_params(opal_list_t *info,
const char *type, const char *component,
bool want_internal)
{
opal_list_item_t *i;
mca_base_param_info_t *p;
char *value_string, *empty = "";
char *message, *content, *tmp;
int value_int, j;
mca_base_param_source_t source;
char *src_file;
for (i = opal_list_get_first(info); i != opal_list_get_last(info);
i = opal_list_get_next(i)) {
p = (mca_base_param_info_t*) i;
if (NULL != p->mbpp_type_name && 0 == strcmp(type, p->mbpp_type_name)) {
if (0 == strcmp(component, ompi_info_component_all) ||
NULL == p->mbpp_component_name ||
(NULL != p->mbpp_component_name &&
0 == strcmp(component, p->mbpp_component_name))) {
/* Find the source of the value */
if (OPAL_SUCCESS !=
mca_base_param_lookup_source(p->mbpp_index, &source, &src_file)) {
continue;
}
/* Make a char *for the default value. Invoke a
* lookup because it may transform the char *("~/" ->
* "<home dir>/") or get the value from the
* environment, a file, etc.
*/
if (MCA_BASE_PARAM_TYPE_STRING == p->mbpp_type) {
mca_base_param_lookup_string(p->mbpp_index,
&value_string);
/* Can't let the char *be NULL because we
* assign it to a std::string, below
*/
if (NULL == value_string) {
value_string = strdup(empty);
}
} else {
mca_base_param_lookup_int(p->mbpp_index, &value_int);
asprintf(&value_string, "%d", value_int);
}
/* Build up the strings to ompi_info_output. */
if (ompi_info_pretty) {
asprintf(&message, "MCA %s", p->mbpp_type_name);
/* Put in the real, full name (which may be
* different than the categorization).
*/
asprintf(&content, "%s \"%s\" (%s: <%s>, data source: ",
p->mbpp_read_only ? "information" : "parameter",
p->mbpp_full_name,
p->mbpp_read_only ? "value" : "current value",
(0 == strlen(value_string)) ? "none" : value_string);
/* Indicate where the param was set from */
switch(source) {
case MCA_BASE_PARAM_SOURCE_DEFAULT:
asprintf(&tmp, "%sdefault value", content);
free(content);
content = tmp;
break;
case MCA_BASE_PARAM_SOURCE_ENV:
asprintf(&tmp, "%senvironment or cmdline", content);
free(content);
content = tmp;
break;
case MCA_BASE_PARAM_SOURCE_FILE:
asprintf(&tmp, "%sfile [%s]", content, src_file);
free(content);
content = tmp;
break;
case MCA_BASE_PARAM_SOURCE_OVERRIDE:
asprintf(&tmp, "%sAPI override", content);
free(content);
content = tmp;
break;
default:
break;
}
/* Is this parameter deprecated? */
if (p->mbpp_deprecated) {
asprintf(&tmp, "%s, deprecated", content);
free(content);
content = tmp;
}
/* Does this parameter have any synonyms? */
if (p->mbpp_synonyms_len > 0) {
asprintf(&tmp, "%s, synonyms: ", content);
free(content);
content = tmp;
for (j = 0; j < p->mbpp_synonyms_len; ++j) {
if (j > 0) {
asprintf(&tmp, "%s, %s", content, p->mbpp_synonyms[j]->mbpp_full_name);
free(content);
content = tmp;
} else {
asprintf(&tmp, "%s%s", content, p->mbpp_synonyms[j]->mbpp_full_name);
free(content);
content = tmp;
}
}
}
/* Is this parameter a synonym of something else? */
else if (NULL != p->mbpp_synonym_parent) {
asprintf(&tmp, "%s, synonym of: %s", content, p->mbpp_synonym_parent->mbpp_full_name);
free(content);
content = tmp;
}
asprintf(&tmp, "%s)", content);
free(content);
content = tmp;
ompi_info_out(message, message, content);
free(message);
free(content);
/* If we have a help message, ompi_info_output it */
if (NULL != p->mbpp_help_msg) {
ompi_info_out("", "", p->mbpp_help_msg);
}
} else {
/* build the message*/
asprintf(&tmp, "mca:%s:%s:param:%s:", p->mbpp_type_name,
(NULL == p->mbpp_component_name) ? "base" : p->mbpp_component_name,
p->mbpp_full_name);
/* Output the value */
asprintf(&message, "%svalue", tmp);
ompi_info_out(message, message, value_string);
free(message);
/* Indicate where the param was set from */
asprintf(&message, "%sdata_source", tmp);
switch(source) {
case MCA_BASE_PARAM_SOURCE_DEFAULT:
content = strdup("default value");
break;
case MCA_BASE_PARAM_SOURCE_ENV:
content = strdup("environment-cmdline");
break;
case MCA_BASE_PARAM_SOURCE_FILE:
asprintf(&content, "file: %s", src_file);
break;
case MCA_BASE_PARAM_SOURCE_OVERRIDE:
content = strdup("API override");
break;
default:
break;
}
ompi_info_out(message, message, content);
free(message);
free(content);
/* Output whether it's read only or writable */
asprintf(&message, "%sstatus", tmp);
content = p->mbpp_read_only ? "read-only" : "writable";
ompi_info_out(message, message, content);
free(message);
/* If it has a help message, ompi_info_output that */
if (NULL != p->mbpp_help_msg) {
asprintf(&message, "%shelp", tmp);
content = p->mbpp_help_msg;
ompi_info_out(message, message, content);
free(message);
}
/* Is this parameter deprecated? */
asprintf(&message, "%sdeprecated", tmp);
content = p->mbpp_deprecated ? "yes" : "no";
ompi_info_out(message, message, content);
free(message);
/* Does this parameter have any synonyms? */
if (p->mbpp_synonyms_len > 0) {
for (j = 0; j < p->mbpp_synonyms_len; ++j) {
asprintf(&message, "%ssynonym:name", tmp);
content = p->mbpp_synonyms[j]->mbpp_full_name;
ompi_info_out(message, message, content);
free(message);
}
}
/* Is this parameter a synonym of something else? */
else if (NULL != p->mbpp_synonym_parent) {
asprintf(&message, "%ssynonym_of:name", tmp);
content = p->mbpp_synonym_parent->mbpp_full_name;
ompi_info_out(message, message, content);
free(message);
}
}
/* If we allocated the string, then free it */
if (NULL != value_string) {
free(value_string);
}
}
}
}
}
void ompi_info_do_path(bool want_all, opal_cmd_line_t *cmd_line)
{
int i, count;
char *scope;
/* Check bozo case */
count = opal_cmd_line_get_ninsts(cmd_line, "path");
for (i = 0; i < count; ++i) {
scope = opal_cmd_line_get_param(cmd_line, "path", i, 0);
if (0 == strcmp("all", scope)) {
want_all = true;
break;
}
}
if (want_all) {
ompi_info_show_path(ompi_info_path_prefix, opal_install_dirs.prefix);
ompi_info_show_path(ompi_info_path_exec_prefix, opal_install_dirs.exec_prefix);
ompi_info_show_path(ompi_info_path_bindir, opal_install_dirs.bindir);
ompi_info_show_path(ompi_info_path_sbindir, opal_install_dirs.sbindir);
ompi_info_show_path(ompi_info_path_libdir, opal_install_dirs.libdir);
ompi_info_show_path(ompi_info_path_incdir, opal_install_dirs.includedir);
ompi_info_show_path(ompi_info_path_mandir, opal_install_dirs.mandir);
ompi_info_show_path(ompi_info_path_pkglibdir, opal_install_dirs.pkglibdir);
ompi_info_show_path(ompi_info_path_libexecdir, opal_install_dirs.libexecdir);
ompi_info_show_path(ompi_info_path_datarootdir, opal_install_dirs.datarootdir);
ompi_info_show_path(ompi_info_path_datadir, opal_install_dirs.datadir);
ompi_info_show_path(ompi_info_path_sysconfdir, opal_install_dirs.sysconfdir);
ompi_info_show_path(ompi_info_path_sharedstatedir, opal_install_dirs.sharedstatedir);
ompi_info_show_path(ompi_info_path_localstatedir, opal_install_dirs.localstatedir);
ompi_info_show_path(ompi_info_path_infodir, opal_install_dirs.infodir);
ompi_info_show_path(ompi_info_path_pkgdatadir, opal_install_dirs.pkgdatadir);
ompi_info_show_path(ompi_info_path_pkglibdir, opal_install_dirs.pkglibdir);
ompi_info_show_path(ompi_info_path_pkgincludedir, opal_install_dirs.pkgincludedir);
} else {
count = opal_cmd_line_get_ninsts(cmd_line, "path");
for (i = 0; i < count; ++i) {
scope = opal_cmd_line_get_param(cmd_line, "path", i, 0);
if (0 == strcmp(ompi_info_path_prefix, scope)) {
ompi_info_show_path(ompi_info_path_prefix, opal_install_dirs.prefix);
} else if (0 == strcmp(ompi_info_path_bindir, scope)) {
ompi_info_show_path(ompi_info_path_bindir, opal_install_dirs.bindir);
} else if (0 == strcmp(ompi_info_path_libdir, scope)) {
ompi_info_show_path(ompi_info_path_libdir, opal_install_dirs.libdir);
} else if (0 == strcmp(ompi_info_path_incdir, scope)) {
ompi_info_show_path(ompi_info_path_incdir, opal_install_dirs.includedir);
} else if (0 == strcmp(ompi_info_path_mandir, scope)) {
ompi_info_show_path(ompi_info_path_mandir, opal_install_dirs.mandir);
} else if (0 == strcmp(ompi_info_path_pkglibdir, scope)) {
ompi_info_show_path(ompi_info_path_pkglibdir, opal_install_dirs.pkglibdir);
} else if (0 == strcmp(ompi_info_path_sysconfdir, scope)) {
ompi_info_show_path(ompi_info_path_sysconfdir, opal_install_dirs.sysconfdir);
} else if (0 == strcmp(ompi_info_path_exec_prefix, scope)) {
ompi_info_show_path(ompi_info_path_exec_prefix, opal_install_dirs.exec_prefix);
} else if (0 == strcmp(ompi_info_path_sbindir, scope)) {
ompi_info_show_path(ompi_info_path_sbindir, opal_install_dirs.sbindir);
} else if (0 == strcmp(ompi_info_path_libexecdir, scope)) {
ompi_info_show_path(ompi_info_path_libexecdir, opal_install_dirs.libexecdir);
} else if (0 == strcmp(ompi_info_path_datarootdir, scope)) {
ompi_info_show_path(ompi_info_path_datarootdir, opal_install_dirs.datarootdir);
} else if (0 == strcmp(ompi_info_path_datadir, scope)) {
ompi_info_show_path(ompi_info_path_datadir, opal_install_dirs.datadir);
} else if (0 == strcmp(ompi_info_path_sharedstatedir, scope)) {
ompi_info_show_path(ompi_info_path_sharedstatedir, opal_install_dirs.sharedstatedir);
} else if (0 == strcmp(ompi_info_path_localstatedir, scope)) {
ompi_info_show_path(ompi_info_path_localstatedir, opal_install_dirs.localstatedir);
} else if (0 == strcmp(ompi_info_path_infodir, scope)) {
ompi_info_show_path(ompi_info_path_infodir, opal_install_dirs.infodir);
} else if (0 == strcmp(ompi_info_path_pkgdatadir, scope)) {
ompi_info_show_path(ompi_info_path_pkgdatadir, opal_install_dirs.pkgdatadir);
} else if (0 == strcmp(ompi_info_path_pkgincludedir, scope)) {
ompi_info_show_path(ompi_info_path_pkgincludedir, opal_install_dirs.pkgincludedir);
} else {
char *usage = opal_cmd_line_get_usage_msg(cmd_line);
orte_show_help("help-ompi_info.txt", "usage", true, usage);
free(usage);
exit(1);
}
}
}
}
void ompi_info_show_path(const char *type, const char *value)
{
char *pretty, *path;
pretty = strdup(type);
pretty[0] = toupper(pretty[0]);
asprintf(&path, "path:%s", type);
ompi_info_out(pretty, path, value);
free(pretty);
free(path);
}
void ompi_info_do_arch()
{
ompi_info_out("Configured architecture", "config:arch", OPAL_ARCH);
}
void ompi_info_do_hostname()
{
ompi_info_out("Configure host", "config:host", OPAL_CONFIGURE_HOST);
}
static void append(char *dest, size_t max, int *first, char *src)
{
size_t len;
if (NULL == src) {
return;
}
len = max - strlen(dest);
if (!(*first)) {
strncat(dest, ", ", len);
len = max - strlen(dest);
}
strncat(dest, src, len);
*first = 0;
}
/*
* do_config
* Accepts:
* - want_all: boolean flag; TRUE -> display all options
* FALSE -> display selected options
*
* This function displays all the options with which the current
* installation of ompi was configured. There are many options here
* that are carried forward from OMPI-7 and are not mca parameters
* in OMPI-10. I have to dig through the invalid options and replace
* them with OMPI-10 options.
*/
void ompi_info_do_config(bool want_all)
{
char *cxx;
char *fortran_mpifh;
char *fortran_usempi;
char *fortran_usempif08;
char *fortran_usempif08_compliance;
char *fortran_have_ignore_tkr;
char *fortran_have_f08_assumed_shape;
char *fortran_build_f08_subarrays;
char *fortran_have_optional_args;
char *fortran_have_bind_c;
char *fortran_have_private;
char *fortran_have_abstract;
char *fortran_have_asynchronous;
char *fortran_have_procedure;
char *fortran_08_using_wrappers_for_choice_buffer_functions;
char *java;
char *heterogeneous;
char *memprofile;
char *memdebug;
char *debug;
char *log_event;
char *mpi_interface_warning;
char *cprofiling;
char *cxxprofiling;
char *fortran_mpifh_profiling;
char *fortran_usempi_profiling;
char *fortran_usempif08_profiling;
char *cxxexceptions;
char *threads;
char *want_libltdl;
char *mpirun_prefix_by_default;
char *sparse_groups;
char *have_mpi_io;
char *wtime_support;
char *symbol_visibility;
char *ft_support;
char *crdebug_support;
char *topology_support;
char *vt_support;
/* Do a little preprocessor trickery here to figure ompi_info_out the
* tri-state of MPI_PARAM_CHECK (which will be either 0, 1, or
* ompi_mpi_param_check). The preprocessor will only allow
* comparisons against constants, so you'll get a warning if you
* check MPI_PARAM_CHECK against 0 or 1, but its real value is the
* char *ompi_mpi_param_check. So define ompi_mpi_param_check to
* be a constant, and then all the preprocessor comparisons work
* ompi_info_out ok. Note that we chose the preprocessor
* comparison rompi_info_oute because it is not sufficient to
* simply set the variable ompi_mpi_param_check to a non-0/non-1
* value. This is because the compiler will generate a warning
* that that C variable is unused when MPI_PARAM_CHECK is
* hard-coded to 0 or 1.
*/
char *paramcheck;
#define ompi_mpi_param_check 999
#if 0 == MPI_PARAM_CHECK
paramcheck = "never";
#elif 1 == MPI_PARAM_CHECK
paramcheck = "always";
#else
paramcheck = "runtime";
#endif
/* setup the strings that don't require allocations*/
cxx = OMPI_BUILD_CXX_BINDINGS ? "yes" : "no";
if (OMPI_BUILD_FORTRAN_USEMPI_BINDINGS) {
if (OMPI_FORTRAN_HAVE_IGNORE_TKR) {
fortran_usempi = "yes (full: ignore TKR)";
} else {
fortran_usempi = "yes (limited: overloading)";
}
} else {
fortran_usempi = "no";
}
fortran_usempif08 = OMPI_BUILD_FORTRAN_USEMPIF08_BINDINGS ? "yes" : "no";
fortran_have_f08_assumed_shape = OMPI_FORTRAN_HAVE_F08_ASSUMED_SHAPE ?
"yes" : "no";
fortran_build_f08_subarrays = OMPI_BUILD_FORTRAN_F08_SUBARRAYS ?
"yes" : "no";
fortran_have_optional_args = OMPI_FORTRAN_HAVE_OPTIONAL_ARGS ?
"yes" : "no";
fortran_have_bind_c = OMPI_FORTRAN_HAVE_BIND_C ? "yes" : "no";
fortran_have_private = OMPI_FORTRAN_HAVE_PRIVATE ? "yes" : "no";
fortran_have_abstract = OMPI_FORTRAN_HAVE_ABSTRACT ? "yes" : "no";
fortran_have_asynchronous = OMPI_FORTRAN_HAVE_ASYNCHRONOUS ? "yes" : "no";
fortran_have_procedure = OMPI_FORTRAN_HAVE_PROCEDURE ? "yes" : "no";
fortran_08_using_wrappers_for_choice_buffer_functions =
OMPI_FORTRAN_NEED_WRAPPER_ROUTINES ? "yes" : "no";
/* Build a string describing what level of compliance the mpi_f08
module has */
if (OMPI_BUILD_FORTRAN_USEMPIF08_BINDINGS) {
/* Do we have everything? */
if (OMPI_BUILD_FORTRAN_F08_SUBARRAYS &&
OMPI_FORTRAN_HAVE_PRIVATE &&
OMPI_FORTRAN_HAVE_ABSTRACT &&
OMPI_FORTRAN_HAVE_ASYNCHRONOUS &&
OMPI_FORTRAN_HAVE_PROCEDURE &&
OMPI_FORTRAN_NEED_WRAPPER_ROUTINES) {
fortran_usempif08_compliance = strdup("The mpi_f08 module is available, and is fully compliant. w00t!");
} else {
char f08[1024];
int first = 1;
snprintf(f08, sizeof(f08),
"The mpi_f08 module is available, but due to limitations in the %s compiler, does not support the following: ",
OMPI_FC);
if (!OMPI_BUILD_FORTRAN_F08_SUBARRAYS) {
append(f08, sizeof(f08), &first, "array subsections");
}
if (!OMPI_FORTRAN_HAVE_PRIVATE) {
append(f08, sizeof(f08), &first, "private MPI_Status members");
}
if (!OMPI_FORTRAN_HAVE_ABSTRACT) {
append(f08, sizeof(f08), &first, "ABSTRACT INTERFACE function pointers");
}
if (!OMPI_FORTRAN_HAVE_ASYNCHRONOUS) {
append(f08, sizeof(f08), &first, "Fortran '08-specified ASYNCHRONOUS behavior");
}
if (!OMPI_FORTRAN_HAVE_PROCEDURE) {
append(f08, sizeof(f08), &first, "PROCEDUREs");
}
if (OMPI_FORTRAN_NEED_WRAPPER_ROUTINES) {
append(f08, sizeof(f08), &first, "direct passthru (where possible) to underlying Open MPI's C functionality");
}
fortran_usempif08_compliance = strdup(f08);
}
} else {
fortran_usempif08_compliance = strdup("The mpi_f08 module was not built");
}
java = OMPI_WANT_JAVA_BINDINGS ? "yes" : "no";
heterogeneous = OPAL_ENABLE_HETEROGENEOUS_SUPPORT ? "yes" : "no";
memprofile = OPAL_ENABLE_MEM_PROFILE ? "yes" : "no";
memdebug = OPAL_ENABLE_MEM_DEBUG ? "yes" : "no";
debug = OPAL_ENABLE_DEBUG ? "yes" : "no";
log_event = ORTE_WANT_NOTIFIER_LOG_EVENT ? "yes" : "no";
mpi_interface_warning = OMPI_WANT_MPI_INTERFACE_WARNING ? "yes" : "no";
cprofiling = OMPI_ENABLE_MPI_PROFILING ? "yes" : "no";
cxxprofiling = (OMPI_BUILD_CXX_BINDINGS && OMPI_ENABLE_MPI_PROFILING) ? "yes" : "no";
cxxexceptions = (OMPI_BUILD_CXX_BINDINGS && OMPI_HAVE_CXX_EXCEPTION_SUPPORT) ? "yes" : "no";
fortran_mpifh_profiling = (OMPI_ENABLE_MPI_PROFILING && OMPI_BUILD_FORTRAN_MPIFH_BINDINGS) ? "yes" : "no";
fortran_usempi_profiling = (OMPI_ENABLE_MPI_PROFILING && OMPI_BUILD_FORTRAN_USEMPI_BINDINGS) ? "yes" : "no";
fortran_usempif08_profiling = (OMPI_ENABLE_MPI_PROFILING && OMPI_BUILD_FORTRAN_USEMPIF08_BINDINGS) ? "yes" : "no";
want_libltdl = OPAL_WANT_LIBLTDL ? "yes" : "no";
mpirun_prefix_by_default = ORTE_WANT_ORTERUN_PREFIX_BY_DEFAULT ? "yes" : "no";
sparse_groups = OMPI_GROUP_SPARSE ? "yes" : "no";
have_mpi_io = OMPI_PROVIDE_MPI_FILE_INTERFACE ? "yes" : "no";
wtime_support = OPAL_TIMER_USEC_NATIVE ? "native" : "gettimeofday";
symbol_visibility = OPAL_C_HAVE_VISIBILITY ? "yes" : "no";
topology_support = OPAL_HAVE_HWLOC ? "yes" : "no";
vt_support = OMPI_ENABLE_CONTRIB_vt ? "yes" : "no";
/* setup strings that require allocation */
if (OMPI_BUILD_FORTRAN_MPIFH_BINDINGS) {
asprintf(&fortran_mpifh, "yes (%s)",
(OPAL_HAVE_WEAK_SYMBOLS ? "all" :
(OMPI_FORTRAN_CAPS ? "caps" :
(OMPI_FORTRAN_PLAIN ? "lower case" :
(OMPI_FORTRAN_SINGLE_UNDERSCORE ? "single underscore" : "double underscore")))));
} else {
fortran_mpifh = strdup("no");
}
if (OMPI_FORTRAN_HAVE_IGNORE_TKR) {
/* OMPI_FORTRAN_IGNORE_TKR_PREDECL is already in quotes; it
didn't work consistently to put it in _STRINGIFY because
sometimes the compiler would actually interpret the pragma
in there before stringify-ing it. */
asprintf(&fortran_have_ignore_tkr, "yes (%s)",
OMPI_FORTRAN_IGNORE_TKR_PREDECL);
} else {
fortran_have_ignore_tkr = strdup("no");
}
if (OPAL_HAVE_SOLARIS_THREADS || OPAL_HAVE_POSIX_THREADS) { /* should just test OPAL_HAVE_THREADS */
asprintf(&threads, "%s (MPI_THREAD_MULTIPLE: %s, progress: %s)", OPAL_HAVE_SOLARIS_THREADS ? "solaris" :
(OPAL_HAVE_POSIX_THREADS ? "posix" : "type unknown"), /* "type unknown" can presumably never happen */
OMPI_ENABLE_THREAD_MULTIPLE ? "yes" : "no",
OMPI_ENABLE_PROGRESS_THREADS ? "yes" : "no");
} else {
threads = strdup("no");
}
asprintf(&ft_support, "%s (checkpoint thread: %s)",
OPAL_ENABLE_FT ? "yes" : "no", OPAL_ENABLE_FT_THREAD ? "yes" : "no");;
asprintf(&crdebug_support, "%s",
OPAL_ENABLE_CRDEBUG ? "yes" : "no");
/* output values */
ompi_info_out("Configured by", "config:user", OPAL_CONFIGURE_USER);
ompi_info_out("Configured on", "config:timestamp", OPAL_CONFIGURE_DATE);
ompi_info_out("Configure host", "config:host", OPAL_CONFIGURE_HOST);
ompi_info_out("Built by", "build:user", OMPI_BUILD_USER);
ompi_info_out("Built on", "build:timestamp", OMPI_BUILD_DATE);
ompi_info_out("Built host", "build:host", OMPI_BUILD_HOST);
ompi_info_out("C bindings", "bindings:c", "yes");
ompi_info_out("C++ bindings", "bindings:cxx", cxx);
ompi_info_out("Fort mpif.h", "bindings:mpif.h", fortran_mpifh);
free(fortran_mpifh);
ompi_info_out("Fort use mpi", "bindings:use_mpi",
fortran_usempi);
ompi_info_out("Fort use mpi size", "bindings:use_mpi:size",
ompi_info_deprecated_value);
ompi_info_out("Fort use mpi_f08", "bindings:use_mpi_f08",
fortran_usempif08);
ompi_info_out("Fort mpi_f08 compliance", "bindings:use_mpi_f08:compliance",
fortran_usempif08_compliance);
if (NULL != fortran_usempif08_compliance) {
free(fortran_usempif08_compliance);
}
ompi_info_out("Fort mpi_f08 subarrays", "bindings:use_mpi_f08:subarrays-supported",
fortran_build_f08_subarrays);
ompi_info_out("Java bindings", "bindings:java", java);
ompi_info_out("C compiler", "compiler:c:command", OPAL_CC);
ompi_info_out("C compiler absolute", "compiler:c:absolute",
OPAL_CC_ABSOLUTE);
ompi_info_out("C compiler family name", "compiler:c:familyname",
_STRINGIFY(OPAL_BUILD_PLATFORM_COMPILER_FAMILYNAME));
ompi_info_out("C compiler version", "compiler:c:version",
_STRINGIFY(OPAL_BUILD_PLATFORM_COMPILER_VERSION_STR));
if (want_all) {
ompi_info_out_int("C char size", "compiler:c:sizeof:char", sizeof(char));
/* JMS: should be fixed in MPI-2.2 to differentiate between C
_Bool and C++ bool. For the moment, the code base assumes
that they are the same. Because of opal_config_bottom.h,
we can sizeof(bool) here, so we might as well -- even
though this technically isn't right. This should be fixed
when we update to MPI-2.2. See below for note about C++
bool alignment. */
ompi_info_out_int("C bool size", "compiler:c:sizeof:bool", sizeof(bool));
ompi_info_out_int("C short size", "compiler:c:sizeof:short", sizeof(short));
ompi_info_out_int("C int size", "compiler:c:sizeof:int", sizeof(int));
ompi_info_out_int("C long size", "compiler:c:sizeof:long", sizeof(long));
ompi_info_out_int("C float size", "compiler:c:sizeof:float", sizeof(float));
ompi_info_out_int("C double size", "compiler:c:sizeof:double", sizeof(double));
ompi_info_out_int("C pointer size", "compiler:c:sizeof:pointer", sizeof(void *));
ompi_info_out_int("C char align", "compiler:c:align:char", OPAL_ALIGNMENT_CHAR);
#if OMPI_BUILD_CXX_BINDINGS
/* JMS: See above for note about C++ bool size. We don't have
the bool alignment the way configure currently runs -- need
to clean this up when we update for MPI-2.2. */
ompi_info_out_int("C bool align", "compiler:c:align:bool", OPAL_ALIGNMENT_CXX_BOOL);
#else
ompi_info_out("C bool align", "compiler:c:align:bool", "skipped");
#endif
ompi_info_out_int("C int align", "compiler:c:align:int", OPAL_ALIGNMENT_INT);
ompi_info_out_int("C float align", "compiler:c:align:float", OPAL_ALIGNMENT_FLOAT);
ompi_info_out_int("C double align", "compiler:c:align:double", OPAL_ALIGNMENT_DOUBLE);
}
ompi_info_out("C++ compiler", "compiler:cxx:command", OMPI_CXX);
ompi_info_out("C++ compiler absolute", "compiler:cxx:absolute", OMPI_CXX_ABSOLUTE);
ompi_info_out("Fort compiler", "compiler:fortran:command", OMPI_FC);
ompi_info_out("Fort compiler abs", "compiler:fortran:absolute",
OMPI_FC_ABSOLUTE);
ompi_info_out("Fort ignore TKR", "compiler:fortran:ignore_tkr",
fortran_have_ignore_tkr);
free(fortran_have_ignore_tkr);
ompi_info_out("Fort 08 assumed shape",
"compiler:fortran:f08_assumed_shape",
fortran_have_f08_assumed_shape);
ompi_info_out("Fort optional args",
"compiler:fortran:optional_arguments",
fortran_have_optional_args);
ompi_info_out("Fort BIND(C)",
"compiler:fortran:bind_c",
fortran_have_bind_c);
ompi_info_out("Fort PRIVATE",
"compiler:fortran:private",
fortran_have_private);
ompi_info_out("Fort ABSTRACT",
"compiler:fortran:abstract",
fortran_have_abstract);
ompi_info_out("Fort ASYNCHRONOUS",
"compiler:fortran:asynchronous",
fortran_have_asynchronous);
ompi_info_out("Fort PROCEDURE",
"compiler:fortran:procedure",
fortran_have_procedure);
ompi_info_out("Fort f08 using wrappers",
"compiler:fortran:08_wrappers",
fortran_08_using_wrappers_for_choice_buffer_functions);
if (want_all) {
/* Will always have the size of Fortran integer */
ompi_info_out_int("Fort integer size", "compiler:fortran:sizeof:integer",
OMPI_SIZEOF_FORTRAN_INTEGER);
ompi_info_out_int("Fort logical size", "compiler:fortran:sizeof:logical",
OMPI_SIZEOF_FORTRAN_LOGICAL);
ompi_info_out_int("Fort logical value true", "compiler:fortran:value:true",
OMPI_FORTRAN_VALUE_TRUE);
/* May or may not have the other Fortran sizes */
if (OMPI_BUILD_FORTRAN_MPIFH_BINDINGS ||
OMPI_BUILD_FORTRAN_USEMPI_BINDINGS ||
OMPI_BUILD_FORTRAN_USEMPIF08_BINDINGS) {
ompi_info_out("Fort have integer1", "compiler:fortran:have:integer1",
OMPI_HAVE_FORTRAN_INTEGER1 ? "yes" : "no");
ompi_info_out("Fort have integer2", "compiler:fortran:have:integer2",
OMPI_HAVE_FORTRAN_INTEGER2 ? "yes" : "no");
ompi_info_out("Fort have integer4", "compiler:fortran:have:integer4",
OMPI_HAVE_FORTRAN_INTEGER4 ? "yes" : "no");
ompi_info_out("Fort have integer8", "compiler:fortran:have:integer8",
OMPI_HAVE_FORTRAN_INTEGER8 ? "yes" : "no");
ompi_info_out("Fort have integer16", "compiler:fortran:have:integer16",
OMPI_HAVE_FORTRAN_INTEGER16 ? "yes" : "no");
ompi_info_out("Fort have real4", "compiler:fortran:have:real4",
OMPI_HAVE_FORTRAN_REAL4 ? "yes" : "no");
ompi_info_out("Fort have real8", "compiler:fortran:have:real8",
OMPI_HAVE_FORTRAN_REAL8 ? "yes" : "no");
ompi_info_out("Fort have real16", "compiler:fortran:have:real16",
OMPI_HAVE_FORTRAN_REAL16 && OMPI_REAL16_MATCHES_C ? "yes" : "no");
ompi_info_out("Fort have complex8", "compiler:fortran:have:complex8",
OMPI_HAVE_FORTRAN_COMPLEX8 ? "yes" : "no");
ompi_info_out("Fort have complex16", "compiler:fortran:have:complex16",
OMPI_HAVE_FORTRAN_COMPLEX16 ? "yes" : "no");
ompi_info_out("Fort have complex32", "compiler:fortran:have:complex32",
OMPI_HAVE_FORTRAN_COMPLEX32 && OMPI_REAL16_MATCHES_C ? "yes" : "no");
ompi_info_out_int("Fort integer1 size", "compiler:fortran:sizeof:integer1",
OMPI_HAVE_FORTRAN_INTEGER1 ? OMPI_SIZEOF_FORTRAN_INTEGER1 : -1);
ompi_info_out_int("Fort integer2 size", "compiler:fortran:sizeof:integer2",
OMPI_HAVE_FORTRAN_INTEGER2 ? OMPI_SIZEOF_FORTRAN_INTEGER2 : -1);
ompi_info_out_int("Fort integer4 size", "compiler:fortran:sizeof:integer4",
OMPI_HAVE_FORTRAN_INTEGER4 ? OMPI_SIZEOF_FORTRAN_INTEGER4 : -1);
ompi_info_out_int("Fort integer8 size", "compiler:fortran:sizeof:integer8",
OMPI_HAVE_FORTRAN_INTEGER8 ? OMPI_SIZEOF_FORTRAN_INTEGER8 : -1);
ompi_info_out_int("Fort integer16 size", "compiler:fortran:sizeof:integer16",
OMPI_HAVE_FORTRAN_INTEGER16 ? OMPI_SIZEOF_FORTRAN_INTEGER16 : -1);
ompi_info_out_int("Fort real size", "compiler:fortran:sizeof:real",
OMPI_SIZEOF_FORTRAN_REAL);
ompi_info_out_int("Fort real4 size", "compiler:fortran:sizeof:real4",
OMPI_HAVE_FORTRAN_REAL4 ? OMPI_SIZEOF_FORTRAN_REAL4 : -1);
ompi_info_out_int("Fort real8 size", "compiler:fortran:sizeof:real8",
OMPI_HAVE_FORTRAN_REAL8 ? OMPI_SIZEOF_FORTRAN_REAL8 : -1);
ompi_info_out_int("Fort real16 size", "compiler:fortran:sizeof:real17",
OMPI_HAVE_FORTRAN_REAL16 ? OMPI_SIZEOF_FORTRAN_REAL16 : -1);
ompi_info_out_int("Fort dbl prec size",
"compiler:fortran:sizeof:double_precision",
OMPI_SIZEOF_FORTRAN_DOUBLE_PRECISION);
ompi_info_out_int("Fort cplx size", "compiler:fortran:sizeof:complex",
OMPI_SIZEOF_FORTRAN_COMPLEX);
ompi_info_out_int("Fort dbl cplx size",
"compiler:fortran:sizeof:double_complex",
OMPI_HAVE_FORTRAN_DOUBLE_COMPLEX ? OMPI_SIZEOF_FORTRAN_DOUBLE_COMPLEX : -1);
ompi_info_out_int("Fort cplx8 size", "compiler:fortran:sizeof:complex8",
OMPI_HAVE_FORTRAN_COMPLEX8 ? OMPI_SIZEOF_FORTRAN_COMPLEX8 : -1);
ompi_info_out_int("Fort cplx16 size", "compiler:fortran:sizeof:complex16",
OMPI_HAVE_FORTRAN_COMPLEX16 ? OMPI_SIZEOF_FORTRAN_COMPLEX16 : -1);
ompi_info_out_int("Fort cplx32 size", "compiler:fortran:sizeof:complex32",
OMPI_HAVE_FORTRAN_COMPLEX32 ? OMPI_SIZEOF_FORTRAN_COMPLEX32 : -1);
ompi_info_out_int("Fort integer align", "compiler:fortran:align:integer",
OMPI_ALIGNMENT_FORTRAN_INTEGER);
ompi_info_out_int("Fort integer1 align", "compiler:fortran:align:integer1",
OMPI_HAVE_FORTRAN_INTEGER1 ? OMPI_ALIGNMENT_FORTRAN_INTEGER1 : -1);
ompi_info_out_int("Fort integer2 align", "compiler:fortran:align:integer2",
OMPI_HAVE_FORTRAN_INTEGER2 ? OMPI_ALIGNMENT_FORTRAN_INTEGER2 : -1);
ompi_info_out_int("Fort integer4 align", "compiler:fortran:align:integer4",
OMPI_HAVE_FORTRAN_INTEGER4 ? OMPI_ALIGNMENT_FORTRAN_INTEGER4 : -1);
ompi_info_out_int("Fort integer8 align", "compiler:fortran:align:integer8",
OMPI_HAVE_FORTRAN_INTEGER8 ? OMPI_ALIGNMENT_FORTRAN_INTEGER8 : -1);
ompi_info_out_int("Fort integer16 align", "compiler:fortran:align:integer16",
OMPI_HAVE_FORTRAN_INTEGER16 ? OMPI_ALIGNMENT_FORTRAN_INTEGER16 : -1);
ompi_info_out_int("Fort real align", "compiler:fortran:align:real",
OMPI_ALIGNMENT_FORTRAN_REAL);
ompi_info_out_int("Fort real4 align", "compiler:fortran:align:real4",
OMPI_HAVE_FORTRAN_REAL4 ? OMPI_ALIGNMENT_FORTRAN_REAL4 : -1);
ompi_info_out_int("Fort real8 align", "compiler:fortran:align:real8",
OMPI_HAVE_FORTRAN_REAL8 ? OMPI_ALIGNMENT_FORTRAN_REAL8 : -1);
ompi_info_out_int("Fort real16 align", "compiler:fortran:align:real16",
OMPI_HAVE_FORTRAN_REAL16 ? OMPI_ALIGNMENT_FORTRAN_REAL16 : -1);
ompi_info_out_int("Fort dbl prec align",
"compiler:fortran:align:double_precision",
OMPI_ALIGNMENT_FORTRAN_DOUBLE_PRECISION);
ompi_info_out_int("Fort cplx align", "compiler:fortran:align:complex",
OMPI_ALIGNMENT_FORTRAN_COMPLEX);
ompi_info_out_int("Fort dbl cplx align",
"compiler:fortran:align:double_complex",
OMPI_HAVE_FORTRAN_DOUBLE_COMPLEX ? OMPI_ALIGNMENT_FORTRAN_DOUBLE_COMPLEX : -1);
ompi_info_out_int("Fort cplx8 align", "compiler:fortran:align:complex8",
OMPI_HAVE_FORTRAN_COMPLEX8 ? OMPI_ALIGNMENT_FORTRAN_COMPLEX8 : -1);
ompi_info_out_int("Fort cplx16 align", "compiler:fortran:align:complex16",
OMPI_HAVE_FORTRAN_COMPLEX16 ? OMPI_ALIGNMENT_FORTRAN_COMPLEX16 : -1);
ompi_info_out_int("Fort cplx32 align", "compiler:fortran:align:complex32",
OMPI_HAVE_FORTRAN_COMPLEX32 ? OMPI_ALIGNMENT_FORTRAN_COMPLEX32 : -1);
} else {
ompi_info_out("Fort real size", "compiler:fortran:sizeof:real", "skipped");
ompi_info_out("Fort dbl prec size",
"compiler:fortran:sizeof:double_precision", "skipped");
ompi_info_out("Fort cplx size", "compiler:fortran:sizeof:complex", "skipped");
ompi_info_out("Fort dbl cplx size",
"compiler:fortran:sizeof:double_complex", "skipped");
ompi_info_out("Fort integer align", "compiler:fortran:align:integer", "skipped");
ompi_info_out("Fort real align", "compiler:fortran:align:real", "skipped");
ompi_info_out("Fort dbl prec align",
"compiler:fortran:align:double_precision","skipped");
ompi_info_out("Fort cplx align", "compiler:fortran:align:complex", "skipped");
ompi_info_out("Fort dbl cplx align",
"compiler:fortran:align:double_complex", "skipped");
}
}
ompi_info_out("C profiling", "option:profiling:c", cprofiling);
ompi_info_out("C++ profiling", "option:profiling:cxx", cxxprofiling);
ompi_info_out("Fort mpif.h profiling", "option:profiling:mpif.h",
fortran_mpifh_profiling);
ompi_info_out("Fort use mpi profiling", "option:profiling:use_mpi",
fortran_usempi_profiling);
ompi_info_out("Fort use mpi_f08 prof",
"option:profiling:use_mpi_f08",
fortran_usempif08_profiling);
ompi_info_out("C++ exceptions", "option:cxx_exceptions", cxxexceptions);
ompi_info_out("Thread support", "option:threads", threads);
free(threads);
ompi_info_out("Sparse Groups", "option:sparse:groups", sparse_groups);
if (want_all) {
/* Don't display the build CPPFLAGS or CXXCPPFLAGS because they're
* just -I$(top_srcdir)/include, etc. Hence, they're a) boring,
* and c) specific for ompi_info.
*/
ompi_info_out("Build CFLAGS", "option:build:cflags", OMPI_BUILD_CFLAGS);
ompi_info_out("Build CXXFLAGS", "option:build:cxxflags", OMPI_BUILD_CXXFLAGS);
ompi_info_out("Build FCFLAGS", "option:build:fcflags", OMPI_BUILD_FCFLAGS);
ompi_info_out("Build LDFLAGS", "option:build:ldflags", OMPI_BUILD_LDFLAGS);
ompi_info_out("Build LIBS", "option:build:libs", OMPI_BUILD_LIBS);
ompi_info_out("Wrapper extra CFLAGS", "option:wrapper:extra_cflags",
WRAPPER_EXTRA_CFLAGS);
ompi_info_out("Wrapper extra CXXFLAGS", "option:wrapper:extra_cxxflags",
WRAPPER_EXTRA_CXXFLAGS);
ompi_info_out("Wrapper extra FCFLAGS", "option:wrapper:extra_fcflags",
WRAPPER_EXTRA_FCFLAGS);
ompi_info_out("Wrapper extra LDFLAGS", "option:wrapper:extra_ldflags",
WRAPPER_EXTRA_LDFLAGS);
ompi_info_out("Wrapper extra LIBS", "option:wrapper:extra_libs",
WRAPPER_EXTRA_LIBS);
}
ompi_info_out("Internal debug support", "option:debug", debug);
ompi_info_out("MPI interface warnings", "option:mpi-interface-warning", mpi_interface_warning);
ompi_info_out("MPI parameter check", "option:mpi-param-check", paramcheck);
ompi_info_out("Memory profiling support", "option:mem-profile", memprofile);
ompi_info_out("Memory debugging support", "option:mem-debug", memdebug);
ompi_info_out("Unusual events notif.", "option:log-event", log_event);
ompi_info_out("libltdl support", "option:dlopen", want_libltdl);
ompi_info_out("Heterogeneous support", "options:heterogeneous", heterogeneous);
ompi_info_out("mpirun default --prefix", "mpirun:prefix_by_default",
mpirun_prefix_by_default);
ompi_info_out("MPI I/O support", "options:mpi-io", have_mpi_io);
ompi_info_out("MPI_WTIME support", "options:mpi-wtime", wtime_support);
ompi_info_out("Symbol vis. support", "options:visibility", symbol_visibility);
ompi_info_out("Host topology support", "options:host-topology",
topology_support);
ompi_info_out("MPI extensions", "options:mpi_ext", OMPI_MPIEXT_COMPONENTS);
ompi_info_out("FT Checkpoint support", "options:ft_support", ft_support);
free(ft_support);
ompi_info_out("C/R Enabled Debugging", "options:crdebug_support", crdebug_support);
free(crdebug_support);
ompi_info_out("VampirTrace support", "options:vt", vt_support);
ompi_info_out_int("MPI_MAX_PROCESSOR_NAME", "options:mpi-max-processor-name",
MPI_MAX_PROCESSOR_NAME);
ompi_info_out_int("MPI_MAX_ERROR_STRING", "options:mpi-max-error-string",
MPI_MAX_ERROR_STRING);
ompi_info_out_int("MPI_MAX_OBJECT_NAME", "options:mpi-max-object-name",
MPI_MAX_OBJECT_NAME);
ompi_info_out_int("MPI_MAX_INFO_KEY", "options:mpi-max-info-key",
MPI_MAX_INFO_KEY);
ompi_info_out_int("MPI_MAX_INFO_VAL", "options:mpi-max-info-val",
MPI_MAX_INFO_VAL);
ompi_info_out_int("MPI_MAX_PORT_NAME", "options:mpi-max-port-name",
MPI_MAX_PORT_NAME);
#if OMPI_PROVIDE_MPI_FILE_INTERFACE
ompi_info_out_int("MPI_MAX_DATAREP_STRING", "options:mpi-max-datarep-string",
MPI_MAX_DATAREP_STRING);
#else
ompi_info_out("MPI_MAX_DATAREP_STRING", "options:mpi-max-datarep-string",
"IO interface not provided");
#endif
}
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