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openmpi/ompi/mpi/f77/register_datarep_f.c
George Bosilca aee802ddfa Include the intercept_extra_state_t_class in the library. The logic I 
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.
2007-12-13 01:06:55 +00:00

247 строки
10 KiB
C
Исходник Ответственный История

/*
* Copyright (c) 2004-2007 The Trustees of Indiana University and Indiana
* University Research and Technology
* Corporation. All rights reserved.
* Copyright (c) 2004-2005 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 Cisco Systems, Inc. All rights reserved.
* $COPYRIGHT$
*
* Additional copyrights may follow
*
* $HEADER$
*/
#include "ompi_config.h"
#include "opal/class/opal_object.h"
#include "ompi/mpi/f77/bindings.h"
#include "ompi/mpi/f77/constants.h"
#include "ompi/mpi/f77/datarep.h"
#include "ompi/mpi/f77/f77_strings.h"
#include "ompi/mpi/f77/fint_2_int.h"
#include "ompi/runtime/mpiruntime.h"
#include "ompi/file/file.h"
#if OMPI_HAVE_WEAK_SYMBOLS && OMPI_PROFILE_LAYER
#pragma weak PMPI_REGISTER_DATAREP = mpi_register_datarep_f
#pragma weak pmpi_register_datarep = mpi_register_datarep_f
#pragma weak pmpi_register_datarep_ = mpi_register_datarep_f
#pragma weak pmpi_register_datarep__ = mpi_register_datarep_f
#elif OMPI_PROFILE_LAYER
OMPI_GENERATE_F77_BINDINGS (PMPI_REGISTER_DATAREP,
pmpi_register_datarep,
pmpi_register_datarep_,
pmpi_register_datarep__,
pmpi_register_datarep_f,
(char *datarep, ompi_mpi2_fortran_datarep_conversion_fn_t *read_conversion_fn, ompi_mpi2_fortran_datarep_conversion_fn_t *write_conversion_fn, ompi_mpi2_fortran_datarep_extent_fn_t *dtype_file_extent_fn, MPI_Aint *extra_state, MPI_Fint *ierr, int datarep_len),
(datarep, read_conversion_fn, write_conversion_fn, dtype_file_extent_fn, extra_state, ierr, datarep_len) )
#endif
#if OMPI_HAVE_WEAK_SYMBOLS
#pragma weak MPI_REGISTER_DATAREP = mpi_register_datarep_f
#pragma weak mpi_register_datarep = mpi_register_datarep_f
#pragma weak mpi_register_datarep_ = mpi_register_datarep_f
#pragma weak mpi_register_datarep__ = mpi_register_datarep_f
#endif
#if ! OMPI_HAVE_WEAK_SYMBOLS && ! OMPI_PROFILE_LAYER
OMPI_GENERATE_F77_BINDINGS (MPI_REGISTER_DATAREP,
mpi_register_datarep,
mpi_register_datarep_,
mpi_register_datarep__,
mpi_register_datarep_f,
(char *datarep, ompi_mpi2_fortran_datarep_conversion_fn_t *read_conversion_fn, ompi_mpi2_fortran_datarep_conversion_fn_t *write_conversion_fn, ompi_mpi2_fortran_datarep_extent_fn_t *dtype_file_extent_fn, MPI_Aint *extra_state, MPI_Fint *ierr, int datarep_len),
(datarep, read_conversion_fn, write_conversion_fn, dtype_file_extent_fn, extra_state, ierr, datarep_len) )
#endif
#if OMPI_PROFILE_LAYER && ! OMPI_HAVE_WEAK_SYMBOLS
#include "ompi/mpi/f77/profile/defines.h"
#endif
static const char FUNC_NAME[] = "MPI_REGISTER_DATAREP";
/* Intercept functions used below (see below for explanations in
comments) */
static int read_intercept_fn(void *userbuf, MPI_Datatype type_c, int count_c,
void *filebuf, MPI_Offset position,
void *extra_state);
static int write_intercept_fn(void *userbuf, MPI_Datatype type_c, int count_c,
void *filebuf, MPI_Offset position,
void *extra_state);
static int extent_intercept_fn(MPI_Datatype type_c, MPI_Aint *file_extent,
void *extra_state);
/* Data structure passed to the intercepts (see below). It is an OPAL
list_item_t so that we can clean this memory up during
MPI_FINALIZE. */
typedef struct intercept_extra_state {
opal_list_item_t base;
ompi_mpi2_fortran_datarep_conversion_fn_t *read_fn_f77;
ompi_mpi2_fortran_datarep_conversion_fn_t *write_fn_f77;
ompi_mpi2_fortran_datarep_extent_fn_t *extent_fn_f77;
MPI_Aint *extra_state_f77;
} intercept_extra_state_t;
OBJ_CLASS_DECLARATION(intercept_extra_state_t);
#if !OMPI_PROFILE_LAYER || OMPI_HAVE_WEAK_SYMBOLS
static void intercept_extra_state_constructor(intercept_extra_state_t *obj)
{
obj->read_fn_f77 = NULL;
obj->write_fn_f77 = NULL;
obj->extent_fn_f77 = NULL;
obj->extra_state_f77 = NULL;
}
OBJ_CLASS_INSTANCE(intercept_extra_state_t,
opal_list_item_t,
intercept_extra_state_constructor, NULL);
#endif /* !OMPI_PROFILE_LAYER */
/*
* This function works by calling the C version of
* MPI_Register_datarep (like most other MPI API functions). To do
* that, however, we need to call the C MPI_Register_datarep with *C*
* callback functions -- the callback functions passed in to this
* function are Fortran functions, and expect Fortran argument passing
* conventions.
*
* So we have 3 C intercept functions that are passed to the back-end
* MPI_Register_datarep. Hence, when/if this datarep is ever used,
* the intercept function(s) are invoked, who then translate the
* arguments to Fortran and then invoke the registered callback
* function.
*/
void mpi_register_datarep_f(char *datarep,
ompi_mpi2_fortran_datarep_conversion_fn_t *read_fn_f77,
ompi_mpi2_fortran_datarep_conversion_fn_t *write_fn_f77,
ompi_mpi2_fortran_datarep_extent_fn_t *extent_fn_f77,
MPI_Aint *extra_state_f77,
MPI_Fint *ierr, int datarep_len)
{
char *c_datarep;
int c_err, ret;
MPI_Datarep_conversion_function *read_fn_c, *write_fn_c;
intercept_extra_state_t *intercept;
/* Malloc space for the intercept callback data */
intercept = OBJ_NEW(intercept_extra_state_t);
if (NULL == intercept) {
c_err = OMPI_ERRHANDLER_INVOKE(MPI_FILE_NULL,
OMPI_ERR_OUT_OF_RESOURCE, FUNC_NAME);
*ierr = OMPI_INT_2_FINT(c_err);
return;
}
/* Save the new object on a global list because per MPI-2:9.5.3,
there are no ways for the user to deregister datareps once
they've been created. Hece, this is a memory leak. So we
track these extra resources in a global list so that they can
be freed during MPI_FINALIZE (so that memory-tracking debuggers
won't show MPI as leaking memory). */
opal_list_append(&ompi_registered_datareps, &(intercept->base));
/* Convert the fortran string */
if (OMPI_SUCCESS != (ret = ompi_fortran_string_f2c(datarep, datarep_len,
&c_datarep))) {
c_err = OMPI_ERRHANDLER_INVOKE(MPI_FILE_NULL, ret, FUNC_NAME);
*ierr = OMPI_INT_2_FINT(c_err);
return;
}
/* Convert the Fortran function callbacks to C equivalents. Use
local intercepts if they're not MPI_CONVERSION_FN_NULL so that
we can just call the C MPI API MPI_Register_datarep(). If they
*are* MPI_CONVERSION_FN_NULL, then just pass that to
MPI_Register_datarep so that it becomes a no-op (i.e., no
callback is ever triggered). */
if (OMPI_IS_FORTRAN_CONVERSION_FN_NULL(read_fn_f77)) {
/* Can't use the MPI_CONVERSION_FN_NULL macro here because it
is specifically not defined when compiling this file so
that we can prototype an all-caps Fortran function */
read_fn_c = (MPI_Datarep_conversion_function*) 0;
} else {
intercept->read_fn_f77 = read_fn_f77;
read_fn_c = read_intercept_fn;
}
if (OMPI_IS_FORTRAN_CONVERSION_FN_NULL(write_fn_f77)) {
/* Can't use the MPI_CONVERSION_FN_NULL macro here because it
is specifically not defined when compiling this file so
that we can prototype an all-caps Fortran function */
write_fn_c = (MPI_Datarep_conversion_function*) 0;
} else {
intercept->write_fn_f77 = write_fn_f77;
write_fn_c = write_intercept_fn;
}
intercept->extent_fn_f77 = extent_fn_f77;
intercept->extra_state_f77 = extra_state_f77;
/* Now that the intercept data has been setup, call the C function
with the setup intercept routines and the intercept-specific
data/extra state. */
*ierr = OMPI_INT_2_FINT(MPI_Register_datarep(c_datarep,
read_fn_c, write_fn_c,
extent_intercept_fn,
intercept));
free(c_datarep);
}
/*
* C->Fortran intercept for the read conversion.
*/
static int read_intercept_fn(void *userbuf, MPI_Datatype type_c, int count_c,
void *filebuf, MPI_Offset position,
void *extra_state)
{
MPI_Fint ierr, count_f77 = OMPI_FINT_2_INT(count_f77);
MPI_Fint type_f77 = MPI_Type_c2f(type_c);
intercept_extra_state_t *intercept_data =
(intercept_extra_state_t*) extra_state;
intercept_data->read_fn_f77(userbuf, &type_f77, &count_f77, filebuf,
&position, intercept_data->extra_state_f77,
&ierr);
return OMPI_FINT_2_INT(ierr);
}
/*
* C->Fortran intercept for the write conversion.
*/
static int write_intercept_fn(void *userbuf, MPI_Datatype type_c, int count_c,
void *filebuf, MPI_Offset position,
void *extra_state)
{
MPI_Fint ierr, count_f77 = OMPI_FINT_2_INT(count_f77);
MPI_Fint type_f77 = MPI_Type_c2f(type_c);
intercept_extra_state_t *intercept_data =
(intercept_extra_state_t*) extra_state;
intercept_data->write_fn_f77(userbuf, &type_f77, &count_f77, filebuf,
&position, intercept_data->extra_state_f77,
&ierr);
return OMPI_FINT_2_INT(ierr);
}
/*
* C->Fortran intercept for the extent calculation.
*/
static int extent_intercept_fn(MPI_Datatype type_c, MPI_Aint *file_extent_f77,
void *extra_state)
{
MPI_Fint ierr, type_f77 = MPI_Type_c2f(type_c);
intercept_extra_state_t *intercept_data =
(intercept_extra_state_t*) extra_state;
intercept_data->extent_fn_f77(&type_f77, file_extent_f77,
intercept_data->extra_state_f77, &ierr);
return OMPI_FINT_2_INT(ierr);
}
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