final/testsuite/c/omp_task_firstprivate.c - openmp - Git at Google

 <ompts:test>
 <ompts:testdescription>Test which checks the firstprivate clause of the task directive. We create a set of tasks in a single region. We defines a variable named sum unequal zero which gets declared firstprivate for each task. Now each task calcualtes a sum using this private variable. Before each calcualation step we introduce a flush command so that maybe the private variabel gets bad. At the end we check if the calculated sum was right.</ompts:testdescription>
 <ompts:ompversion>3.0</ompts:ompversion>
 <ompts:directive>omp task firstprivate</ompts:directive>
 <ompts:dependences>omp single,omp flush,omp critical</ompts:dependences>
 <ompts:testcode>
 #include <stdio.h>
 #include <math.h>
 #include "omp_testsuite.h"

 int <ompts:testcode:functionname>omp_task_firstprivate</ompts:testcode:functionname> (FILE * logFile)
 {
     int i;
     <ompts:orphan:vars>
     int sum = 1234;
     int known_sum;
     int result = 0; /* counts the wrong sums from tasks */
     </ompts:orphan:vars>

     known_sum = 1234 + (LOOPCOUNT * (LOOPCOUNT + 1)) / 2;

 #pragma omp parallel
     {
 #pragma omp single
         {
             for (i = 0; i < NUM_TASKS; i++)
             {
                 <ompts:orphan>
 #pragma omp task <ompts:check>firstprivate(sum)</ompts:check>
                 {
                     int j;
                     for (j = 0; j <= LOOPCOUNT; j++) {
 #pragma omp flush
                         sum += j;
                     }

                     /* check if calculated sum was right */
                     if (sum != known_sum) {
 #pragma omp critical
                       { result++; }
                     }
                 } /* end of omp task */
                 </ompts:orphan>
             }	/* end of for */
         } /* end of single */
     }	/* end of parallel*/

     return (result == 0);
 }
 </ompts:testcode>
 </ompts:test>
	<ompts:test>
	<ompts:testdescription>Test which checks the firstprivate clause of the task directive. We create a set of tasks in a single region. We defines a variable named sum unequal zero which gets declared firstprivate for each task. Now each task calcualtes a sum using this private variable. Before each calcualation step we introduce a flush command so that maybe the private variabel gets bad. At the end we check if the calculated sum was right.</ompts:testdescription>
	<ompts:ompversion>3.0</ompts:ompversion>
	<ompts:directive>omp task firstprivate</ompts:directive>
	<ompts:dependences>omp single,omp flush,omp critical</ompts:dependences>
	<ompts:testcode>
	#include <stdio.h>
	#include <math.h>
	#include "omp_testsuite.h"

	int <ompts:testcode:functionname>omp_task_firstprivate</ompts:testcode:functionname> (FILE * logFile)
	{
	int i;
	<ompts:orphan:vars>
	int sum = 1234;
	int known_sum;
	int result = 0; /* counts the wrong sums from tasks */
	</ompts:orphan:vars>

	known_sum = 1234 + (LOOPCOUNT * (LOOPCOUNT + 1)) / 2;

	#pragma omp parallel
	{
	#pragma omp single
	{
	for (i = 0; i < NUM_TASKS; i++)
	{
	<ompts:orphan>
	#pragma omp task <ompts:check>firstprivate(sum)</ompts:check>
	{
	int j;
	for (j = 0; j <= LOOPCOUNT; j++) {
	#pragma omp flush
	sum += j;
	}

	/* check if calculated sum was right */
	if (sum != known_sum) {
	#pragma omp critical
	{ result++; }
	}
	} /* end of omp task */
	</ompts:orphan>
	} /* end of for */
	} /* end of single */
	} /* end of parallel*/

	return (result == 0);
	}
	</ompts:testcode>
	</ompts:test>