OMPI_* to OPAL_*. This allows opal layer to be used more independent
from the whole of ompi.
NOTE: 9 "svn mv" operations immediately follow this commit.
This commit was SVN r21180.
- Delete unnecessary header files using
contrib/check_unnecessary_headers.sh after applying
patches, that include headers, being "lost" due to
inclusion in one of the now deleted headers...
In total 817 files are touched.
In ompi/mpi/c/ header files are moved up into the actual c-file,
where necessary (these are the only additional #include),
otherwise it is only deletions of #include (apart from the above
additions required due to notifier...)
- To get different MCAs (OpenIB, TM, ALPS), an earlier version was
successfully compiled (yesterday) on:
Linux locally using intel-11, gcc-4.3.2 and gcc-SVN + warnings enabled
Smoky cluster (x86-64 running Linux) using PGI-8.0.2 + warnings enabled
Lens cluster (x86-64 running Linux) using Pathscale-3.2 + warnings enabled
This commit was SVN r21096.
This has turned into an MPI spec interpretation issue. :-(
Open MPI has intrepreted the spec one way for the past several years;
these commits reflect a different interpretation that changes how we
treat the EXTRA_STATE parameter to the Fortran attribute copy and
delete callbacks. This new way breaks our internal copy of the Intel
Fortran attribute tests. So after talking with Terry/Sun, we're going
to back out these changes (both here and on the v1.3 branch) until we
get further clarification from the Forum.
This commit was SVN r21028.
The following SVN revision numbers were found above:
r20926 --> open-mpi/ompi@0a24eadaad
r20941 --> open-mpi/ompi@045b0e8871
r20950 --> open-mpi/ompi@73af921c22
The fix for #1864 in r20926 caused gcc to emit some warnings. Also,
Jeff Squyres pointed out parallel bugs in mpi_type_create_keyval and
mpi_win_create_keyval.
This commit was SVN r20950.
The following SVN revision numbers were found above:
r20926 --> open-mpi/ompi@0a24eadaad
The EXTRA_STATE parameter is passed by reference, and thus should be
dereferenced before it is stored. Similarly, the stored value should
be passed by reference to the copy and delete routines.
This fixes trac:1864.
This commit was SVN r20926.
The following Trac tickets were found above:
Ticket 1864 --> https://svn.open-mpi.org/trac/ompi/ticket/1864
In case we use memcmp, strlen, strup and friends include <string.h>
Also several constants.h are not included directly
- Let's have mca_topo_base_cart_create return ompi-errors in
ompi/mca/topo/base/topo_base_cart_create.c
This commit was SVN r20773.
get bitten by header depending on having already included
the corresponding [opal|orte|ompi]_config.h header.
When separating, things like [OPAL|ORTE|OMPI]_DECLSPEC
are missed.
Script to add the corresponding header in front of all following
(taking care of possible #ifdef HAVE_...)
- Including some minor cleanups to
- ompi/group/group.h -- include _after_ #ifndef OMPI_GROUP_H
- ompi/mca/btl/btl.h -- nclude _after_ #ifndef MCA_BTL_H
- ompi/mca/crcp/bkmrk/crcp_bkmrk_btl.c -- still no need for
orte/util/output.h
- ompi/mca/pml/dr/pml_dr_recvreq.c -- no need for mpool.h
- ompi/mca/btl/btl.h -- reorder to fit
- ompi/mca/bml/bml.h -- reorder to fit
- ompi/runtime/ompi_mpi_finalize.c -- reorder to fit
- ompi/request/request.h -- additionally need ompi/constants.h
- Tested on linux/x86-64
This commit was SVN r20720.
have different sizes:
1. Do not modify the read only parameter of the Fortran MPI interface (i.e be
standard compliant).
2. When Fortran integers are 64 bits long, don't generate unlawful code.
Thanks to Christoph van Wullen for the bug report.
This commit was SVN r20420.
* New "op" MPI layer framework
* Addition of the MPI_REDUCE_LOCAL proposed function (for MPI-2.2)
= Op framework =
Add new "op" framework in the ompi layer. This framework replaces the
hard-coded MPI_Op back-end functions for (MPI_Op, MPI_Datatype) tuples
for pre-defined MPI_Ops, allowing components and modules to provide
the back-end functions. The intent is that components can be written
to take advantage of hardware acceleration (GPU, FPGA, specialized CPU
instructions, etc.). Similar to other frameworks, components are
intended to be able to discover at run-time if they can be used, and
if so, elect themselves to be selected (or disqualify themselves from
selection if they cannot run). If specialized hardware is not
available, there is a default set of functions that will automatically
be used.
This framework is ''not'' used for user-defined MPI_Ops.
The new op framework is similar to the existing coll framework, in
that the final set of function pointers that are used on any given
intrinsic MPI_Op can be a mixed bag of function pointers, potentially
coming from multiple different op modules. This allows for hardware
that only supports some of the operations, not all of them (e.g., a
GPU that only supports single-precision operations).
All the hard-coded back-end MPI_Op functions for (MPI_Op,
MPI_Datatype) tuples still exist, but unlike coll, they're in the
framework base (vs. being in a separate "basic" component) and are
automatically used if no component is found at runtime that provides a
module with the necessary function pointers.
There is an "example" op component that will hopefully be useful to
those writing meaningful op components. It is currently
.ompi_ignore'd so that it doesn't impinge on other developers (it's
somewhat chatty in terms of opal_output() so that you can tell when
its functions have been invoked). See the README file in the example
op component directory. Developers of new op components are
encouraged to look at the following wiki pages:
https://svn.open-mpi.org/trac/ompi/wiki/devel/Autogenhttps://svn.open-mpi.org/trac/ompi/wiki/devel/CreateComponenthttps://svn.open-mpi.org/trac/ompi/wiki/devel/CreateFramework
= MPI_REDUCE_LOCAL =
Part of the MPI-2.2 proposal listed here:
https://svn.mpi-forum.org/trac/mpi-forum-web/ticket/24
is to add a new function named MPI_REDUCE_LOCAL. It is very easy to
implement, so I added it (also because it makes testing the op
framework pretty easy -- you can do it in serial rather than via
parallel reductions). There's even a man page!
This commit was SVN r20280.
pondering about this problem, we came to the conclusion that the best approach
is to keep what we had before (i.e. the original approach).
The main reason for this is being nice with tool developers. In the current
incarnation, they can either catch the Fortran calls or the C calls. If they
provide both, then they will have to figure out how to cope with the double
calls (as your example highlight).
Here is the behavior Open MPI will stick too:
Fortran MPI -> C MPI
Fortran PMPI -> C MPI
However, the is another possible approach. This might avoid the double calls
while preserving the tool writers friendliness. This possible approach will do:
Fortran MPI -> C MPI
Fortran PMPI -> C PMPI
^
Unfortunately, we will have to heavily modify all files in the Fortran
interface layer in order to support this approach.
This commit was SVN r20079.
"make distclean". It's not clear whether it's an Automake bug or
whether what I did simply is not supported (I've got pending mail into
Ralf W. asking about it). The short version is that during "make
distclean", ompi/mpi/f77/Makefile would rm -rf ompi/mpi/f77/.deps.
But ompi/Makefile still include's some .Plo files from that directory,
so Bad Things happened when "make distclean" unrolled from the
ompi/mpi/f77 dir back up to the ompi/ dir.
So I went with George's original suggestion and moved the f77 "base"
files in question into a new directory: ompi/mpi/f77/base and put a
Makefile.include in there. That way, this directory is not traversed
twice by distclean, and .deps is only removed when it is supposed to
be. Maybe we'll be able to do it a little better someday, but that's
the way it is now.
I'll check this with a fresh checkout once this is committed to SVN as
well; some of these kinds of problems don't show up until you do a
build from a completely fresh SVN checkout.
This commit was SVN r19054.
The following SVN revision numbers were found above:
r19040 --> open-mpi/ompi@9f4d4c4312
are properly linked against libmpi.la.
This required a little creative AM usage, inspired by discussion on
OMPI devel list:
* Make a new ompi/mpi/f77/Makefile_f77base.include; effectively move
the building of the f77 "base" glue stuff (libmpi_f77base.la) into
this Makefile and away from ompi/mpi/f77/Makefile.am. The sources
in question require some specific CPPFLAGS, so we couldn't just add
the raw sources into libmpi_la_SOURCES, unfortunately.
* Include this new Makefile in the top-level ompi/Makefile.am
* The libmpi_f77base.la LT convenience library was already sucked
into libmpi.la; breaking it out into its own Makefile allows us
to build it earlier and therefore complete buidling libmpi.la
earlier.
* Side effect: the ompi/mpi/Makefile.am is now mostly unnecessary; it
no longer specifies a SUBDIRS for each of the bindings directories
to traverse into (since they are now in the top-level SUBDIRS). As
such, the man pages are now also now included in the top-level
ompi/Makefile.am.
The end of the result is that libmpi.la -- including a few sources
from mpi/f77 -- is fully built before the C++, F77, and F90 bindings
are built. Therefore, the C++, F77, and F90 bindings libraries can
all link against libmpi.la.
This commit was SVN r19040.
The following Trac tickets were found above:
Ticket 1409 --> https://svn.open-mpi.org/trac/ompi/ticket/1409
of strings. We mostly did the Right Things already; I simplified the
code a bit and also had us not write to more characters in the C
bindings than we're supposed to (per language in the MPI-2.1 spec).
Fixes trac:1238.
This commit was SVN r18705.
The following Trac tickets were found above:
Ticket 1238 --> https://svn.open-mpi.org/trac/ompi/ticket/1238
to *not* use the STL as well as removing the STL use from the error handler
routines. This was removing the STL from the C++ bindings (Solaris has 2
versions of the STL; if OMPI uses one and an MPI application wants to use
another, Bad Things happen).
The main idea is to wrap up the C++ callback function pointers and the user's
extra_state into our own struct that is passed as the extra_state to the C
keyval registration along with the intercept routines in intercepts.cc. When the
C++ intercepts are activated, they unwrap the user's callback and extra state
and call them.
This commit was SVN r17409.
added there on my last commit was wrong. This variable should be included
only once, and here is the right way of doing:
- if we have weak symbols we compile each file once, so the variable should
[always] get included.
- if we don't have weak symbols, then each file will get compiled multiple
times (if profiling is enabled). In this case include the variable only
when we build the generic layer (not the profile one).
This commit was SVN r16950.
only defined when we build the normal version (not in the profiling compilation step).
Make sure the conversion_null function compil in all cases.
This commit was SVN r16908.
This commit brings over all the work from the /tmp-public/datarep
branch. See commits r16855, r16859, r16860 for the highlights of what
was done.
This commit was SVN r16891.
The following SVN revisions from the original message are invalid or
inconsistent and therefore were not cross-referenced:
r16855
r16859
r16860
The following Trac tickets were found above:
Ticket 1029 --> https://svn.open-mpi.org/trac/ompi/ticket/1029
methods (in order of precedence):
1. #pragma ident <ident string> (e.g., Intel and Sun)
1. #ident <ident string> (e.g., GCC)
1. static const char ident[] = <ident string> (all others)
By default, the ident string used is the standard Open MPI version string. Only
the following libraries will get the embedded version strings (e.g., DSOs will
not):
* libmpi.so
* libmpi_cxx.so
* libmpi_f77.so
* libopen-pal.so
* libopen-rte.so
* Added two new configure options:
* `--with-package-name="STRING"` (defaults to "Open MPI username@hostname
Distribution"). `STRING` is displayed by `ompi_info` next to the "Package"
heading.
* `--with-ident-string="STRING"` (defaults to the standard Open MPI version
string - e.g., X.Y.Zr######). `%VERSION%` will expand to the Open MPI
version string if it is supplied to this configure option.
This commit was SVN r16644.
- If one wants to use this solution, remember to unload the project 'orte-restart' which is currently not working for Windows.
This commit was SVN r15680.
interface:
- Fix the handling of MPI_BOTTOM in various places
Update of r15030
- While being at it, handle MPI_IN_PLACE in the same way.
Convert OMPI_ADDR -> OMPI_F2C_BOTTOM
Convert OMPI_IN_PLACE -> OMPI_F2C_IN_PLACE
and have them converted before the actual call.
- Approved by George and tested with icc and simple f77 mpi-program and
with program by Daniel.
This commit was SVN r15129.
The following SVN revision numbers were found above:
r15030 --> open-mpi/ompi@15f9e58c68
The C++ bindings were not tracking keyvals properly -- they were
freeing some internal meta data when Free_keyval() was called, not
when the keyval was actually destroyed (keyvals are refcounted in the
C layer, just like all other MPI objects, because they can live for
long after their corresponding Free call is invoked). This commit
fixes this problem and several other things:
* Add infrastructure on the ompi_attribute_keyval_t for an "extra"
destructor pointer that will be invoked during the "real"
constructor (i.e., when OBJ_RELEASE puts the refcount to 0). This
allows calling back into the C++ layer to release meta data
associated with the keyval.
* Adjust all cases where keyvals are created to pass in relevant
destructors (NULL or the C++ destructor).
* Do essentially the same for MPI::Comm, MPI::Win, and MPI:Datatype:
* Move several functions out of the .cc file into the _inln.h file
since they no longer require locks
* Make the 4 Create_keyval() functions call a common back-end
keyval creation function that does the Right Thing depending on
whether C or C++ function pointers were used for the keyval
functions. The back-end function does not call the corresponding
C MPI_*_create_keyval function, but rather does the work itself
so that it can associate a "destructor" callback for the C++
bindings for when the keyval is actually destroyed.
* Change a few type names to be more indicative of what they are
(mostly dealing with keyvals [not "keys"]).
* Add the 3 missing bindings for MPI::Comm::Create_keyval().
* Remove MPI::Comm::comm_map (and associated types) because it's no
longer necessary in the intercepts -- it was a by-product of being
a portable C++ bindings layer. Now we can just query the C layer
directly to figure out what type a communicator is. This solves
some logistics / callback issues, too.
* Rename several types, variables, and fix many comments in the
back-end C attribute implementation to make the names really
reflect what they are (keyvals vs. attributes). The previous names
heavily overloaded the name "key" and were ''extremely''
confusing.
This commit was SVN r13565.
The following Trac tickets were found above:
Ticket 817 --> https://svn.open-mpi.org/trac/ompi/ticket/817
return the buffer address from Fortran. It is not expected
behavior. For MPI_Buffer_attach, adjust the address of
the buffer handed in so it is always aligned.
Refs trac:750
Buffer detach reviewed by Jeff Squyres
Buffer attach alignment reviewed by George Bosilca
This commit was SVN r13205.
The following Trac tickets were found above:
Ticket 750 --> https://svn.open-mpi.org/trac/ompi/ticket/750
