ports/openmpi
ports/openmpi
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Silence some compiler warnings, and reindent the code.

Просмотр исходного кода 
This commit was SVN r20385.
Этот коммит содержится в:
George Bosilca 2009-01-29 18:04:54 +00:00
родитель 35c5e28a8e
Коммит 04a3b29b76
1 изменённых файлов: 115 добавлений и 119 удалений
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234
ompi/datatype/convertor_raw.c
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@ -43,27 +43,27 @@ ompi_convertor_raw( ompi_convertor_t* pConvertor,
assert( (*iov_count) > 0 );
if( OPAL_LIKELY(pConvertor->flags & CONVERTOR_NO_OP) ) {
/* The convertor contain minimal informations, we only use the bConverted
* to manage the conversion. This function work even after the convertor
* was moved to a specific position.
* to manage the conversion. This function work even after the convertor
* was moved to a specific position.
*/
ompi_convertor_get_current_pointer( pConvertor, (void**)&iov[0].iov_base );
iov[0].iov_len = pConvertor->local_size - pConvertor->bConverted;
*length = iov[0].iov_len;
pConvertor->bConverted = pConvertor->local_size;
pConvertor->flags |= CONVERTOR_COMPLETED;
*iov_count = 1;
return 1; /* we're done */
*length = iov[0].iov_len;
pConvertor->bConverted = pConvertor->local_size;
pConvertor->flags |= CONVERTOR_COMPLETED;
*iov_count = 1;
return 1; /* we're done */
}
DO_DEBUG( opal_output( 0, "ompi_convertor_raw( %p, {%p, %lu}, %p )\n", (void*)pConvertor,
iov, *iov_count, *length ); );
DO_DEBUG( opal_output( 0, "ompi_convertor_raw( %p, {%p, %u}, %lu )\n", (void*)pConvertor,
(void*)iov, *iov_count, *length ); );
description = pConvertor->use_desc->desc;
/* For the first step we have to add both displacement to the source. After in the
* main while loop we will set back the source_base to the correct value. This is
* due to the fact that the convertor can stop in the middle of a data with a count
*/
* main while loop we will set back the source_base to the correct value. This is
* due to the fact that the convertor can stop in the middle of a data with a count
*/
pStack = pConvertor->pStack + pConvertor->stack_pos;
pos_desc = pStack->index;
source_base = pConvertor->pBaseBuf + pStack->disp;
@ -72,124 +72,120 @@ ompi_convertor_raw( ompi_convertor_t* pConvertor,
pConvertor->stack_pos--;
pElem = &(description[pos_desc]);
source_base += pStack->disp;
DO_DEBUG( opal_output( 0, "raw start pos_desc %d count_desc %d disp %ld\n"
"stack_pos %d pos_desc %d count_desc %d disp %ld\n",
pos_desc, count_desc, (long)(source_base - pConvertor->pBaseBuf),
pConvertor->stack_pos, pStack->index, (int)pStack->count, (long)pStack->disp ); );
while( 1 ) {
while( pElem->elem.common.flags & DT_FLAG_DATA ) {
size_t blength = ompi_ddt_basicDatatypes[pElem->elem.common.type]->size;
source_base += pElem->elem.disp;
if( blength == pElem->elem.extent ) { /* no resized data */
if( index < *iov_count ) {
blength *= count_desc;
/* now here we have a basic datatype */
OMPI_DDT_SAFEGUARD_POINTER( source_base, blength, pConvertor->pBaseBuf,
pConvertor->pDesc, pConvertor->count );
DO_DEBUG( opal_output( 0, "raw 1. iov[%d] = {base %p, length %lu}\n",
index, source_base, (unsigned long)blength ); );
iov[index].iov_base = source_base;
iov[index].iov_len = blength;
source_base += blength;
raw_data += blength;
index++;
count_desc = 0;
}
} else {
for( i = count_desc; (i > 0) && (index < *iov_count); i--, index++ ) {
OMPI_DDT_SAFEGUARD_POINTER( source_base, blength, pConvertor->pBaseBuf,
pConvertor->pDesc, pConvertor->count );
DO_DEBUG( opal_output( 0, "raw 2. iov[%d] = {base %p, length %lu}\n",
index, source_base, (unsigned long)blength ); );
iov[index].iov_base = source_base;
iov[index].iov_len = blength;
source_base += blength;
raw_data += blength;
count_desc--;
}
}
source_base -= pElem->elem.disp;
if( 0 == count_desc ) { /* completed */
source_base = pConvertor->pBaseBuf + pStack->disp;
pos_desc++; /* advance to the next data */
UPDATE_INTERNAL_COUNTERS( description, pos_desc, pElem, count_desc );
continue;
}
goto complete_loop;
}
if( DT_END_LOOP == pElem->elem.common.type ) { /* end of the current loop */
DO_DEBUG( opal_output( 0, "raw end_loop count %d stack_pos %d"
" pos_desc %d disp %ld space %lu\n",
(int)pStack->count, pConvertor->stack_pos,
pos_desc, (long)pStack->disp, (unsigned long)raw_data ); );
if( --(pStack->count) == 0 ) { /* end of loop */
if( pConvertor->stack_pos == 0 ) {
/* we lie about the size of the next element in order to
* make sure we exit the main loop.
*/
*iov_count = index;
goto complete_loop; /* completed */
}
pConvertor->stack_pos--;
pStack--;
pos_desc++;
} else {
pos_desc = pStack->index + 1;
if( pStack->index == -1 ) {
pStack->disp += (pData->ub - pData->lb);
} else {
assert( DT_LOOP == description[pStack->index].loop.common.type );
pStack->disp += description[pStack->index].loop.extent;
}
}
source_base = pConvertor->pBaseBuf + pStack->disp;
UPDATE_INTERNAL_COUNTERS( description, pos_desc, pElem, count_desc );
DO_DEBUG( opal_output( 0, "raw new_loop count %d stack_pos %d "
"pos_desc %d disp %ld space %lu\n",
(int)pStack->count, pConvertor->stack_pos,
pos_desc, (long)pStack->disp, (unsigned long)raw_data ); );
}
if( DT_LOOP == pElem->elem.common.type ) {
ptrdiff_t local_disp = (ptrdiff_t)source_base;
ddt_endloop_desc_t* end_loop = (ddt_endloop_desc_t*)(pElem + pElem->loop.items);
if( pElem->loop.common.flags & DT_FLAG_CONTIGUOUS ) {
uint32_t i;
size_t blength = ompi_ddt_basicDatatypes[pElem->elem.common.type]->size;
source_base += pElem->elem.disp;
if( blength == (size_t)pElem->elem.extent ) { /* no resized data */
if( index < *iov_count ) {
blength *= count_desc;
/* now here we have a basic datatype */
OMPI_DDT_SAFEGUARD_POINTER( source_base, blength, pConvertor->pBaseBuf,
pConvertor->pDesc, pConvertor->count );
DO_DEBUG( opal_output( 0, "raw 1. iov[%d] = {base %p, length %lu}\n",
index, source_base, (unsigned long)blength ); );
iov[index].iov_base = source_base;
iov[index].iov_len = blength;
source_base += blength;
raw_data += blength;
index++;
count_desc = 0;
}
} else {
for( i = count_desc; (i > 0) && (index < *iov_count); i--, index++ ) {
OMPI_DDT_SAFEGUARD_POINTER( source_base, blength, pConvertor->pBaseBuf,
pConvertor->pDesc, pConvertor->count );
DO_DEBUG( opal_output( 0, "raw 2. iov[%d] = {base %p, length %lu}\n",
index, source_base, (unsigned long)blength ); );
iov[index].iov_base = source_base;
iov[index].iov_len = blength;
source_base += blength;
raw_data += blength;
count_desc--;
}
}
source_base -= pElem->elem.disp;
if( 0 == count_desc ) { /* completed */
source_base = pConvertor->pBaseBuf + pStack->disp;
pos_desc++; /* advance to the next data */
UPDATE_INTERNAL_COUNTERS( description, pos_desc, pElem, count_desc );
continue;
}
goto complete_loop;
}
if( DT_END_LOOP == pElem->elem.common.type ) { /* end of the current loop */
DO_DEBUG( opal_output( 0, "raw end_loop count %d stack_pos %d"
" pos_desc %d disp %ld space %lu\n",
(int)pStack->count, pConvertor->stack_pos,
pos_desc, (long)pStack->disp, (unsigned long)raw_data ); );
if( --(pStack->count) == 0 ) { /* end of loop */
if( pConvertor->stack_pos == 0 ) {
/* we lie about the size of the next element in order to
* make sure we exit the main loop.
*/
*iov_count = index;
goto complete_loop; /* completed */
}
pConvertor->stack_pos--;
pStack--;
pos_desc++;
} else {
pos_desc = pStack->index + 1;
if( pStack->index == -1 ) {
pStack->disp += (pData->ub - pData->lb);
} else {
assert( DT_LOOP == description[pStack->index].loop.common.type );
pStack->disp += description[pStack->index].loop.extent;
}
}
source_base = pConvertor->pBaseBuf + pStack->disp;
UPDATE_INTERNAL_COUNTERS( description, pos_desc, pElem, count_desc );
DO_DEBUG( opal_output( 0, "raw new_loop count %d stack_pos %d "
"pos_desc %d disp %ld space %lu\n",
(int)pStack->count, pConvertor->stack_pos,
pos_desc, (long)pStack->disp, (unsigned long)raw_data ); );
}
if( DT_LOOP == pElem->elem.common.type ) {
ptrdiff_t local_disp = (ptrdiff_t)source_base;
ddt_endloop_desc_t* end_loop = (ddt_endloop_desc_t*)(pElem + pElem->loop.items);
source_base += end_loop->first_elem_disp;
for( i = count_desc; (i > 0) && (index < *iov_count); i--, index++ ) {
OMPI_DDT_SAFEGUARD_POINTER( source_base, end_loop->size, pConvertor->pBaseBuf,
pConvertor->pDesc, pConvertor->count );
iov[index].iov_base = source_base;
iov[index].iov_len = end_loop->size;
source_base += pElem->loop.extent;
raw_data += end_loop->size;
count_desc--;
}
source_base -= end_loop->first_elem_disp;
if( 0 == count_desc ) { /* completed */
pos_desc += pElem->loop.items + 1;
goto update_loop_description;
}
}
local_disp = (ptrdiff_t)source_base - local_disp;
PUSH_STACK( pStack, pConvertor->stack_pos, pos_desc, DT_LOOP, count_desc,
pStack->disp + local_disp);
pos_desc++;
update_loop_description: /* update the current state */
source_base = pConvertor->pBaseBuf + pStack->disp;
UPDATE_INTERNAL_COUNTERS( description, pos_desc, pElem, count_desc );
DDT_DUMP_STACK( pConvertor->pStack, pConvertor->stack_pos, pElem, "advance loop" );
continue;
}
if( pElem->loop.common.flags & DT_FLAG_CONTIGUOUS ) {
uint32_t i;
source_base += end_loop->first_elem_disp;
for( i = count_desc; (i > 0) && (index < *iov_count); i--, index++ ) {
OMPI_DDT_SAFEGUARD_POINTER( source_base, end_loop->size, pConvertor->pBaseBuf,
pConvertor->pDesc, pConvertor->count );
iov[index].iov_base = source_base;
iov[index].iov_len = end_loop->size;
source_base += pElem->loop.extent;
raw_data += end_loop->size;
count_desc--;
}
source_base -= end_loop->first_elem_disp;
if( 0 == count_desc ) { /* completed */
pos_desc += pElem->loop.items + 1;
goto update_loop_description;
}
}
local_disp = (ptrdiff_t)source_base - local_disp;
PUSH_STACK( pStack, pConvertor->stack_pos, pos_desc, DT_LOOP, count_desc,
pStack->disp + local_disp);
pos_desc++;
update_loop_description: /* update the current state */
source_base = pConvertor->pBaseBuf + pStack->disp;
UPDATE_INTERNAL_COUNTERS( description, pos_desc, pElem, count_desc );
DDT_DUMP_STACK( pConvertor->pStack, pConvertor->stack_pos, pElem, "advance loop" );
continue;
}
}
complete_loop:
complete_loop:
pConvertor->bConverted += raw_data; /* update the already converted bytes */
*length = raw_data;
*iov_count = index;
if( pConvertor->bConverted == pConvertor->local_size ) {
pConvertor->flags |= CONVERTOR_COMPLETED;
return 1;