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openmpi/test/lfc/lam_pointer_array.c

139 строки
3.2 KiB
C
Исходник Обычный вид История

/*
* $HEADER$
*/
/*
* This test is intended to test the lam_pointer_array
* class
*/
#include <stdlib.h>
#include <stdio.h>
#include <assert.h>
#include <string.h>
#include "support.h"
#include "lfc/lam_pointer_array.h"
static void test(bool thread_usage){
/* local variables */
lam_pointer_array_t *array;
char *test_value;
char **test_data;
size_t len_test_data,i,test_len_in_array,error_cnt;
size_t ele_index;
int use_threads,error_code;
/* initialize thread levels */
use_threads=(int)lam_set_using_threads(thread_usage);
array=OBJ_NEW(lam_pointer_array_t);
assert(array);
len_test_data=5;
test_data=malloc(sizeof(char *)*len_test_data);
assert(test_data);
for(i=0 ; i < len_test_data ; i++ ) {
test_data[i]=(char *)(i+1);
}
/* add data to table */
test_len_in_array=3;
assert(len_test_data>=test_len_in_array);
for(i=0 ; i < test_len_in_array ; i++ ) {
lam_pointer_array_add(array,test_data[i]);
}
/* check to see that test_len_in_array are in array */
if( (array->size - array->number_free) ==
test_len_in_array) {
test_success();
} else {
test_failure("check on number of elments in array");
}
/* check order of data */
error_cnt=0;
for(i=0 ; i < test_len_in_array ; i++ ) {
if( ((char *)(i+1)) != array->addr[i] )
error_cnt++;
}
if( 0 == error_cnt ) {
test_success();
} else {
test_failure(" data check ");
}
/* free 2nd element and make sure that value is reset correctly,
* and that the lowest_index is also reset correctly */
ele_index=1;
error_code=lam_pointer_array_set_item(array,ele_index,NULL);
if( 0 == error_code ) {
test_success();
} else {
test_failure(" lam_pointer_array_set_item ");
}
if( NULL == array->addr[ele_index]){
test_success();
} else {
test_failure(" set pointer value");
}
if( ele_index == array->lowest_free ) {
test_success();
} else {
test_failure(" lowest free ");
}
/* test lam_pointer_array_get_item */
array->number_free=array->size;
array->lowest_free=0;
for(i=0 ; i < array->size ; i++ ) {
array->addr[i] = NULL;
}
error_cnt=0;
for(i=0 ; i < array->size ; i++ ) {
ele_index=lam_pointer_array_add(array,((char *)(i+2)) );
if( i != ele_index ) {
error_cnt++;
}
}
if( 0 == error_cnt ) {
test_success();
} else {
test_failure(" lam_pointer_array_add 2nd ");
}
error_cnt=0;
for(i=0 ; i < array->size ; i++ ) {
test_value=lam_pointer_array_get_item(array,i);
if( ((char *)(i+2)) != test_value ) {
error_cnt++;
}
}
if( 0 == error_cnt ) {
test_success();
} else {
test_failure(" data check - 2nd ");
}
free (array);
free(test_data);
return;
}
int main(int argc, char **argv)
{
test_init("lam_pointer_array");
/* run through tests with thread usage set to false */
test(false);
/* run through tests with thread usage set to true */
test(true);
return test_finalize();
}