d324a7725c
- Add #include "ompi_config.h" to all .c files, and ensure that it's the first #included file - remove a few useless #if HAVE_CONFIG_H checks This commit was SVN r3229.
260 строки
7.0 KiB
C
260 строки
7.0 KiB
C
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/*
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* $HEADER$
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*/
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#include "ompi_config.h"
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#include <stdlib.h>
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#include "support.h"
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#include "mca/mpool/mpool.h"
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static void *malloc_noalign(size_t size, size_t dummy) {
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return malloc(size);
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}
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size_t offset;
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static void *malloc_base_addr(void){
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return (void *)offset;
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}
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#include "class/ompi_circular_buffer_fifo.h"
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/* simple allocator for some simple tests */
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mca_mpool_base_module_t pool = {
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NULL, /* component structure */
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malloc_base_addr, /* mca_mpool_base_module_address_fn_t */
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malloc_noalign, /* mca_mpool_base_module_alloc_fn_t */
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realloc, /* ca_mpool_base_module_realloc_fn_t */
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free, /*mca_mpool_base_module_free_fn_t */
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NULL, /* mca_mpool_base_module_register_fn_t */
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NULL, /* mca_mpool_base_module_deregister_fn_t */
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NULL /* mca_mpool_base_module_finalize_fn_t */
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};
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int main(int argc, char **argv) {
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/* local variables */
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ompi_cb_fifo_t fifo;
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int i,size_of_fifo,lazy_free,return_status,error_cnt,loop_cnt;
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void *ptr;
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bool queue_empty;
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/* get queue size */
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size_of_fifo=atoi(argv[1]);
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lazy_free=atoi(argv[2]);
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loop_cnt=atoi(argv[3]);
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offset=atol(argv[4]);
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/* init result tracking */
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test_init("ompi_circular_buffer_fifo");
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/* init fifo */
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return_status=ompi_cb_fifo_init(size_of_fifo,lazy_free,0,0,0,&fifo,
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&pool);
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/* check to see that retrun status is success */
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if( OMPI_SUCCESS == return_status ) {
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test_success();
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} else {
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test_failure(" ompi_cv_fifo_init \n");
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}
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/* populate fifo */
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error_cnt=0;
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for( i=0 ; i < ompi_cb_fifo_size(&fifo); i++ ) {
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return_status=ompi_cb_fifo_write_to_head((void *)(i+5),&fifo,
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(size_t)pool.mpool_base());
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if( OMPI_CB_ERROR == return_status ) {
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test_failure(" ompi_cb_fifo_write_to_head\n");
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error_cnt++;
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}
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}
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if( 0 == error_cnt ) {
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test_success();
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}
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/* try an over-fill the queue */
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error_cnt=0;
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for( i=0 ; i < 3 ; i++ ) {
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return_status=ompi_cb_fifo_write_to_head((void *)i,&fifo,
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(size_t)pool.mpool_base());
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if( OMPI_CB_ERROR != return_status ) {
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test_failure(" ompi_cb_fifo_write_to_head :: over-fill queue\n");
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error_cnt++;
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}
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}
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if( 0 == error_cnt ) {
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test_success();
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}
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/* pop items off the queue */
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error_cnt=0;
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for( i=0 ; i < ompi_cb_fifo_size(&fifo); i++ ) {
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ptr=ompi_cb_fifo_read_from_tail(&fifo,0,&queue_empty,
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(size_t)pool.mpool_base());
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if( (void *)(i+5) != ptr ) {
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test_failure(" ompi_cb_fifo_read_from_tail\n");
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error_cnt++;
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}
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}
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if( 0 == error_cnt ) {
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test_success();
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}
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/* free fifo */
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return_status=ompi_cb_fifo_free(&fifo,&pool);
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if( OMPI_SUCCESS == return_status ) {
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test_success();
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} else {
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test_failure(" ompi_cv_fifo_init \n");
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}
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/* init fifo - lazy_free greater than size ==> should return error*/
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return_status=ompi_cb_fifo_init(size_of_fifo,size_of_fifo*2,0,0,0,&fifo,
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&pool);
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/* check to see that retrun status is success */
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if( OMPI_SUCCESS != return_status ) {
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test_success();
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} else {
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test_failure(" ompi_cv_fifo_init with lazy_free too large \n");
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}
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/* split the writting of data to the slot to a reserve, and then a
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* write */
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/* init fifo */
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return_status=ompi_cb_fifo_init(size_of_fifo,lazy_free,0,0,0,&fifo,
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&pool);
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/* check to see that retrun status is success */
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if( OMPI_SUCCESS == return_status ) {
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test_success();
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} else {
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test_failure(" ompi_cv_fifo_init \n");
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}
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/* populate fifo */
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error_cnt=0;
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for( i=0 ; i < ompi_cb_fifo_size(&fifo); i++ ) {
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return_status=ompi_cb_fifo_get_slot(&fifo,(size_t)pool.mpool_base());
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if( OMPI_CB_ERROR == return_status ) {
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test_failure(" ompi_cb_fifo_get_slot \n");
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error_cnt++;
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}
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}
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if( 0 == error_cnt ) {
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test_success();
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}
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/* try an over-fill the queue */
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error_cnt=0;
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for( i=0 ; i < 3 ; i++ ) {
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return_status=ompi_cb_fifo_get_slot(&fifo,(size_t)pool.mpool_base());
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if( OMPI_CB_ERROR != return_status ) {
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test_failure(" ompi_cb_fifo_get_slot :: over-fill queue\n");
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error_cnt++;
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}
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}
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if( 0 == error_cnt ) {
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test_success();
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}
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/* write to slot - all slots previously reserved, so just use
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* them now */
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error_cnt=0;
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for( i=0 ; i < ompi_cb_fifo_size(&fifo); i++ ) {
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return_status=ompi_cb_fifo_write_to_slot(i,(void *)(i+5),&fifo,
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(size_t)pool.mpool_base());
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if( OMPI_CB_ERROR == return_status ) {
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test_failure(" ompi_cb_fifo_write_to_slot \n");
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error_cnt++;
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}
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}
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if( 0 == error_cnt ) {
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test_success();
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}
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/* pop items off the queue */
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error_cnt=0;
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for( i=0 ; i < ompi_cb_fifo_size(&fifo); i++ ) {
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ptr=ompi_cb_fifo_read_from_tail(&fifo,0,&queue_empty,
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(size_t)pool.mpool_base());
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if( (void *)(i+5) != ptr ) {
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test_failure(" ompi_cb_fifo_read_from_tail\n");
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error_cnt++;
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}
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}
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if( 0 == error_cnt ) {
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test_success();
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}
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/* free fifo */
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return_status=ompi_cb_fifo_free(&fifo,&pool);
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if( OMPI_SUCCESS == return_status ) {
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test_success();
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} else {
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test_failure(" ompi_cv_fifo_init \n");
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}
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/* go through the fifo multiple times */
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/* init fifo */
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return_status=ompi_cb_fifo_init(size_of_fifo,lazy_free,0,0,0,&fifo,
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&pool);
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/* check to see that retrun status is success */
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if( OMPI_SUCCESS == return_status ) {
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test_success();
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} else {
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test_failure(" ompi_cv_fifo_init \n");
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}
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error_cnt=0;
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for( i=0 ; i < ompi_cb_fifo_size(&fifo)*loop_cnt ; i++ ) {
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/* populate fifo */
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return_status=ompi_cb_fifo_get_slot(&fifo,
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(size_t)pool.mpool_base());
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if( OMPI_CB_ERROR == return_status ) {
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test_failure(" ompi_cb_fifo_get_slot \n");
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error_cnt++;
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}
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/* write to the slot */
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return_status=ompi_cb_fifo_write_to_slot(i%(ompi_cb_fifo_size(&fifo)),
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(void *)(i+5),&fifo, (size_t)pool.mpool_base());
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if( OMPI_CB_ERROR == return_status ) {
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test_failure(" ompi_cb_fifo_write_to_slot \n");
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error_cnt++;
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}
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/* pop items off the queue */
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if( (i % ompi_cb_fifo_size(&fifo) ) ==
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ompi_cb_fifo_size(&fifo)/2 ) {
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/* force a flush */
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ptr=ompi_cb_fifo_read_from_tail(&fifo,1,&queue_empty,
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(size_t)pool.mpool_base());
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} else {
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ptr=ompi_cb_fifo_read_from_tail(&fifo,0,&queue_empty,
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(size_t)pool.mpool_base());
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}
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if( (void *)(i+5) != ptr ) {
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test_failure(" ompi_cb_fifo_read_from_tail\n");
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error_cnt++;
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}
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}
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if( 0 == error_cnt ) {
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test_success();
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}
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/* free fifo */
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return_status=ompi_cb_fifo_free(&fifo,&pool);
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if( OMPI_SUCCESS == return_status ) {
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test_success();
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} else {
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test_failure(" ompi_cv_fifo_init \n");
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}
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/* finalize result tracking */
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return test_finalize();
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}
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