// RUN: %libomp-cxx-compile-and-run
/*
* This test aims to check whether hidden helper task can work with regular task
* in terms of dependences. It is equivalent to the following code:
*
* #pragma omp parallel
* for (int i = 0; i < N; ++i) {
* int data1 = 0, data2 = 0;
* #pragma omp taskgroup
* {
* #pragma omp hidden helper task shared(data1)
* {
* data1 = 1;
* }
* #pragma omp hidden helper task shared(data2)
* {
* data2 = 2;
* }
* }
* assert(data1 == 1);
* assert(data2 == 2);
* }
*/
#include "common.h"
extern "C" {
struct kmp_task_t_with_privates {
kmp_task_t task;
};
struct anon {
int32_t *data;
};
}
template <int I>
kmp_int32 omp_task_entry(kmp_int32 gtid, kmp_task_t_with_privates *task) {
auto shareds = reinterpret_cast<anon *>(task->task.shareds);
auto p = shareds->data;
*p = I;
return 0;
}
int main(int argc, char *argv[]) {
constexpr const int N = 1024;
#pragma omp parallel for
for (int i = 0; i < N; ++i) {
int32_t gtid = __kmpc_global_thread_num(nullptr);
int32_t data1 = 0, data2 = 0;
__kmpc_taskgroup(nullptr, gtid);
auto task1 = __kmpc_omp_target_task_alloc(
nullptr, gtid, 1, sizeof(kmp_task_t_with_privates), sizeof(anon),
reinterpret_cast<kmp_routine_entry_t>(omp_task_entry<1>), -1);
auto shareds = reinterpret_cast<anon *>(task1->shareds);
shareds->data = &data1;
__kmpc_omp_task(nullptr, gtid, task1);
auto task2 = __kmpc_omp_target_task_alloc(
nullptr, gtid, 1, sizeof(kmp_task_t_with_privates), sizeof(anon),
reinterpret_cast<kmp_routine_entry_t>(omp_task_entry<2>), -1);
shareds = reinterpret_cast<anon *>(task2->shareds);
shareds->data = &data2;
__kmpc_omp_task(nullptr, gtid, task2);
__kmpc_end_taskgroup(nullptr, gtid);
assert(data1 == 1);
assert(data2 == 2);
}
std::cout << "PASS\n";
return 0;
}
// CHECK: PASS