// RUN: %libomp-compile-and-run
#include <stdio.h>
#include <math.h>
#include "omp_testsuite.h"
#define DOUBLE_DIGITS 20 /* dt^DOUBLE_DIGITS */
#define MAX_FACTOR 10
#define KNOWN_PRODUCT 3628800 /* 10! */
int test_omp_parallel_for_reduction()
{
int sum;
int known_sum;
double dsum;
double dknown_sum;
double dt=0.5; /* base of geometric row for + and - test*/
double rounding_error= 1.E-9;
int diff;
double ddiff;
int product;
int known_product;
int logic_and;
int logic_or;
int bit_and;
int bit_or;
int exclusiv_bit_or;
int logics[LOOPCOUNT];
int i;
double dpt;
int result;
sum =0;
dsum=0;
dt = 1./3.;
result = 0;
product = 1;
logic_and=1;
logic_or=0;
bit_and=1;
bit_or=0;
exclusiv_bit_or=0;
/* Tests for integers */
known_sum = (LOOPCOUNT*(LOOPCOUNT+1))/2;
#pragma omp parallel for schedule(dynamic,1) private(i) reduction(+:sum)
for (i=1;i<=LOOPCOUNT;i++) {
sum=sum+i;
}
if(known_sum!=sum) {
result++;
fprintf(stderr,"Error in sum with integers: Result was %d"
" instead of %d\n",sum,known_sum);
}
diff = (LOOPCOUNT*(LOOPCOUNT+1))/2;
#pragma omp parallel for schedule(dynamic,1) private(i) reduction(-:diff)
for (i=1;i<=LOOPCOUNT;++i) {
diff=diff-i;
}
if(diff != 0) {
result++;
fprintf(stderr,"Error in difference with integers: Result was %d"
" instead of 0.\n",diff);
}
/* Tests for doubles */
dsum=0;
dpt=1;
for (i=0;i<DOUBLE_DIGITS;++i) {
dpt*=dt;
}
dknown_sum = (1-dpt)/(1-dt);
#pragma omp parallel for schedule(dynamic,1) private(i) reduction(+:dsum)
for (i=0;i<DOUBLE_DIGITS;++i) {
dsum += pow(dt,i);
}
if( fabs(dsum-dknown_sum) > rounding_error ) {
result++;
fprintf(stderr,"Error in sum with doubles: Result was %f"
" instead of %f (Difference: %E)\n",
dsum, dknown_sum, dsum-dknown_sum);
}
dpt=1;
for (i=0;i<DOUBLE_DIGITS;++i) {
dpt*=dt;
}
fprintf(stderr,"\n");
ddiff = (1-dpt)/(1-dt);
#pragma omp parallel for schedule(dynamic,1) private(i) reduction(-:ddiff)
for (i=0;i<DOUBLE_DIGITS;++i) {
ddiff -= pow(dt,i);
}
if( fabs(ddiff) > rounding_error) {
result++;
fprintf(stderr,"Error in Difference with doubles: Result was %E"
" instead of 0.0\n",ddiff);
}
/* Tests for integers */
#pragma omp parallel for schedule(dynamic,1) private(i) reduction(*:product)
for(i=1;i<=MAX_FACTOR;i++) {
product *= i;
}
known_product = KNOWN_PRODUCT;
if(known_product != product) {
result++;
fprintf(stderr,"Error in Product with integers: Result was %d"
" instead of %d\n\n",product,known_product);
}
/* Tests for logic AND */
for(i=0;i<LOOPCOUNT;i++) {
logics[i]=1;
}
#pragma omp parallel for schedule(dynamic,1) private(i) \
reduction(&&:logic_and)
for(i=0;i<LOOPCOUNT;++i) {
logic_and = (logic_and && logics[i]);
}
if(!logic_and) {
result++;
fprintf(stderr,"Error in logic AND part 1.\n");
}
logic_and = 1;
logics[LOOPCOUNT/2]=0;
#pragma omp parallel for schedule(dynamic,1) private(i) \
reduction(&&:logic_and)
for(i=0;i<LOOPCOUNT;++i) {
logic_and = logic_and && logics[i];
}
if(logic_and) {
result++;
fprintf(stderr,"Error in logic AND part 2.\n");
}
/* Tests for logic OR */
for(i=0;i<LOOPCOUNT;i++) {
logics[i]=0;
}
#pragma omp parallel for schedule(dynamic,1) private(i) \
reduction(||:logic_or)
for(i=0;i<LOOPCOUNT;++i) {
logic_or = logic_or || logics[i];
}
if(logic_or) {
result++;
fprintf(stderr,"Error in logic OR part 1.\n");
}
logic_or = 0;
logics[LOOPCOUNT/2]=1;
#pragma omp parallel for schedule(dynamic,1) private(i) \
reduction(||:logic_or)
for(i=0;i<LOOPCOUNT;++i) {
logic_or = logic_or || logics[i];
}
if(!logic_or) {
result++;
fprintf(stderr,"Error in logic OR part 2.\n");
}
/* Tests for bitwise AND */
for(i=0;i<LOOPCOUNT;++i) {
logics[i]=1;
}
#pragma omp parallel for schedule(dynamic,1) private(i) \
reduction(&:bit_and)
for(i=0;i<LOOPCOUNT;++i) {
bit_and = (bit_and & logics[i]);
}
if(!bit_and) {
result++;
fprintf(stderr,"Error in BIT AND part 1.\n");
}
bit_and = 1;
logics[LOOPCOUNT/2]=0;
#pragma omp parallel for schedule(dynamic,1) private(i) \
reduction(&:bit_and)
for(i=0;i<LOOPCOUNT;++i) {
bit_and = bit_and & logics[i];
}
if(bit_and) {
result++;
fprintf(stderr,"Error in BIT AND part 2.\n");
}
/* Tests for bitwise OR */
for(i=0;i<LOOPCOUNT;i++) {
logics[i]=0;
}
#pragma omp parallel for schedule(dynamic,1) private(i) \
reduction(|:bit_or)
for(i=0;i<LOOPCOUNT;++i) {
bit_or = bit_or | logics[i];
}
if(bit_or) {
result++;
fprintf(stderr,"Error in BIT OR part 1\n");
}
bit_or = 0;
logics[LOOPCOUNT/2]=1;
#pragma omp parallel for schedule(dynamic,1) private(i) \
reduction(|:bit_or)
for(i=0;i<LOOPCOUNT;++i) {
bit_or = bit_or | logics[i];
}
if(!bit_or) {
result++;
fprintf(stderr,"Error in BIT OR part 2\n");
}
/* Tests for bitwise XOR */
for(i=0;i<LOOPCOUNT;i++) {
logics[i]=0;
}
#pragma omp parallel for schedule(dynamic,1) private(i) \
reduction(^:exclusiv_bit_or)
for(i=0;i<LOOPCOUNT;++i) {
exclusiv_bit_or = exclusiv_bit_or ^ logics[i];
}
if(exclusiv_bit_or) {
result++;
fprintf(stderr,"Error in EXCLUSIV BIT OR part 1\n");
}
exclusiv_bit_or = 0;
logics[LOOPCOUNT/2]=1;
#pragma omp parallel for schedule(dynamic,1) private(i) \
reduction(^:exclusiv_bit_or)
for(i=0;i<LOOPCOUNT;++i) {
exclusiv_bit_or = exclusiv_bit_or ^ logics[i];
}
if(!exclusiv_bit_or) {
result++;
fprintf(stderr,"Error in EXCLUSIV BIT OR part 2\n");
}
/*printf("\nResult:%d\n",result);*/
return (result==0);
}
int main()
{
int i;
int num_failed=0;
for(i = 0; i < REPETITIONS; i++) {
if(!test_omp_parallel_for_reduction()) {
num_failed++;
}
}
return num_failed;
}