openmp/runtime/test/tasking/omp51_task_dep_inoutset.c - llvm-project - Git at Google

 // RUN: %libomp-compile-and-run
 // RUN: %libomp-cxx-compile-and-run
 // UNSUPPORTED: gcc

 // Tests OMP 5.0 task dependences "mutexinoutset" and 5.1 "inoutset",
 // emulates compiler codegen for new dep kinds
 // Mutually exclusive tasks get same input dependency info array
 //
 // Task tree created:
 //      task0 - task1 (in)
 //             \
 //        task2 - task3 (inoutset)
 //             /
 //      task3 - task4 (in)
 //           /
 //  task6 <-->task7  (mutexinoutset)
 //       \    /
 //       task8 (in)
 //
 #include <stdio.h>
 #include <omp.h>

 #ifdef _WIN32
 #include <windows.h>
 #define mysleep(n) Sleep(n)
 #else
 #include <unistd.h>
 #define mysleep(n) usleep((n)*1000)
 #endif

 // to check the # of concurrent tasks (must be 1 for MTX, <3 for other kinds)
 static int volatile checker = 0;
 static int err = 0;
 #ifndef DELAY
 #define DELAY 100
 #endif

 // ---------------------------------------------------------------------------
 // internal data to emulate compiler codegen
 typedef struct DEP {
   size_t addr;
   size_t len;
   unsigned char flags;
 } dep;
 typedef struct task {
   void** shareds;
   void* entry;
   int part_id;
   void* destr_thunk;
   int priority;
   long long device_id;
   int f_priv;
 } task_t;
 #define TIED 1
 typedef int(*entry_t)(int, task_t*);
 typedef struct ID {
   int reserved_1;
   int flags;
   int reserved_2;
   int reserved_3;
   char *psource;
 } id;
 // thunk routine for tasks with MTX dependency
 int thunk_m(int gtid, task_t* ptask) {
   int th = omp_get_thread_num();
   #pragma omp atomic
     ++checker;
   printf("task _%d, th %d\n", ptask->f_priv, th);
   if (checker != 1) { // no more than 1 task at a time
     err++;
     printf("Error1, checker %d != 1\n", checker);
   }
   mysleep(DELAY);
   if (checker != 1) { // no more than 1 task at a time
     err++;
     printf("Error2, checker %d != 1\n", checker);
   }
   #pragma omp atomic
     --checker;
   return 0;
 }
 // thunk routine for tasks with inoutset dependency
 int thunk_s(int gtid, task_t* ptask) {
   int th = omp_get_thread_num();
   #pragma omp atomic
     ++checker;
   printf("task _%d, th %d\n", ptask->f_priv, th);
   if (checker > 2) { // no more than 2 tasks concurrently
     err++;
     printf("Error1, checker %d > 2\n", checker);
   }
   mysleep(DELAY);
   if (checker > 2) { // no more than 2 tasks concurrently
     err++;
     printf("Error2, checker %d > 2\n", checker);
   }
   #pragma omp atomic
     --checker;
   return 0;
 }

 #ifdef __cplusplus
 extern "C" {
 #endif
 int __kmpc_global_thread_num(id*);
 extern task_t* __kmpc_omp_task_alloc(id *loc, int gtid, int flags,
                                      size_t sz, size_t shar, entry_t rtn);
 int
 __kmpc_omp_task_with_deps(id *loc, int gtid, task_t *task, int nd, dep *dep_lst,
                           int nd_noalias, dep *noalias_dep_lst);
 static id loc = {0, 2, 0, 0, ";file;func;0;0;;"};
 #ifdef __cplusplus
 } // extern "C"
 #endif
 // End of internal data
 // ---------------------------------------------------------------------------

 int main()
 {
   int i1,i2,i3;
   omp_set_num_threads(4);
   omp_set_dynamic(0);
   #pragma omp parallel
   {
     #pragma omp single nowait
     {
       dep sdep[2];
       task_t *ptr;
       int gtid = __kmpc_global_thread_num(&loc);
       int t = omp_get_thread_num();
       #pragma omp task depend(in: i1, i2)
       { int th = omp_get_thread_num();
         printf("task 0_%d, th %d\n", t, th);
         #pragma omp atomic
           ++checker;
         if (checker > 2) { // no more than 2 tasks concurrently
           err++;
           printf("Error1, checker %d > 2\n", checker);
         }
         mysleep(DELAY);
         if (checker > 2) { // no more than 2 tasks concurrently
           err++;
           printf("Error1, checker %d > 2\n", checker);
         }
         #pragma omp atomic
           --checker;
       }
       #pragma omp task depend(in: i1, i2)
       { int th = omp_get_thread_num();
         printf("task 1_%d, th %d\n", t, th);
         #pragma omp atomic
           ++checker;
         if (checker > 2) { // no more than 2 tasks concurrently
           err++;
           printf("Error1, checker %d > 2\n", checker);
         }
         mysleep(DELAY);
         if (checker > 2) { // no more than 2 tasks concurrently
           err++;
           printf("Error1, checker %d > 2\n", checker);
         }
         #pragma omp atomic
           --checker;
       }
 // compiler codegen start
       // task2
       ptr = __kmpc_omp_task_alloc(&loc, gtid, TIED, sizeof(task_t), 0, thunk_s);
       sdep[0].addr = (size_t)&i1;
       sdep[0].len = 0;   // not used
       sdep[0].flags = 1; // IN
       sdep[1].addr = (size_t)&i2;
       sdep[1].len = 0;   // not used
       sdep[1].flags = 8; // INOUTSET
       ptr->f_priv = t + 10; // init single first-private variable
       __kmpc_omp_task_with_deps(&loc, gtid, ptr, 2, sdep, 0, 0);

       // task3
       ptr = __kmpc_omp_task_alloc(&loc, gtid, TIED, sizeof(task_t), 0, thunk_s);
       ptr->f_priv = t + 20; // init single first-private variable
       __kmpc_omp_task_with_deps(&loc, gtid, ptr, 2, sdep, 0, 0);
 // compiler codegen end
       t = omp_get_thread_num();
       #pragma omp task depend(in: i1, i2)
       { int th = omp_get_thread_num();
         printf("task 4_%d, th %d\n", t, th);
         #pragma omp atomic
           ++checker;
         if (checker > 2) { // no more than 2 tasks concurrently
           err++;
           printf("Error1, checker %d > 2\n", checker);
         }
         mysleep(DELAY);
         if (checker > 2) { // no more than 2 tasks concurrently
           err++;
           printf("Error1, checker %d > 2\n", checker);
         }
         #pragma omp atomic
           --checker;
       }
       #pragma omp task depend(in: i1, i2)
       { int th = omp_get_thread_num();
         printf("task 5_%d, th %d\n", t, th);
         #pragma omp atomic
           ++checker;
         if (checker > 2) { // no more than 2 tasks concurrently
           err++;
           printf("Error1, checker %d > 2\n", checker);
         }
         mysleep(DELAY);
         if (checker > 2) { // no more than 2 tasks concurrently
           err++;
           printf("Error1, checker %d > 2\n", checker);
         }
         #pragma omp atomic
           --checker;
       }
 // compiler codegen start
       // task6
       ptr = __kmpc_omp_task_alloc(&loc, gtid, TIED, sizeof(task_t), 0, thunk_m);
       sdep[0].addr = (size_t)&i1;
       sdep[0].len = 0;   // not used
       sdep[0].flags = 4; // MUTEXINOUTSET
       sdep[1].addr = (size_t)&i3;
       sdep[1].len = 0;   // not used
       sdep[1].flags = 4; // MUTEXINOUTSET
       ptr->f_priv = t + 30; // init single first-private variable
       __kmpc_omp_task_with_deps(&loc, gtid, ptr, 2, sdep, 0, 0);

       // task7
       ptr = __kmpc_omp_task_alloc(&loc, gtid, TIED, sizeof(task_t), 0, thunk_m);
       ptr->f_priv = t + 40; // init single first-private variable
       __kmpc_omp_task_with_deps(&loc, gtid, ptr, 2, sdep, 0, 0);
 // compiler codegen end
       #pragma omp task depend(in: i3)
       { int th = omp_get_thread_num();
         printf("task 8_%d, th %d\n", t, th);
         #pragma omp atomic
           ++checker;
         if (checker != 1) { // last task should run exclusively
           err++;
           printf("Error1, checker %d != 1\n", checker); }
         mysleep(DELAY);
         if (checker != 1) { // last task should run exclusively
           err++;
           printf("Error1, checker %d != 1\n", checker); }
         #pragma omp atomic
           --checker;
       }
     } // single
   } // parallel
   if (err == 0) {
     printf("passed\n");
     return 0;
   } else {
     printf("failed\n");
     return 1;
   }
 }
	// RUN: %libomp-compile-and-run
	// RUN: %libomp-cxx-compile-and-run
	// UNSUPPORTED: gcc

	// Tests OMP 5.0 task dependences "mutexinoutset" and 5.1 "inoutset",
	// emulates compiler codegen for new dep kinds
	// Mutually exclusive tasks get same input dependency info array
	//
	// Task tree created:
	// task0 - task1 (in)
	// \
	// task2 - task3 (inoutset)
	// /
	// task3 - task4 (in)
	// /
	// task6 <-->task7 (mutexinoutset)
	// \ /
	// task8 (in)
	//
	#include <stdio.h>
	#include <omp.h>

	#ifdef _WIN32
	#include <windows.h>
	#define mysleep(n) Sleep(n)
	#else
	#include <unistd.h>
	#define mysleep(n) usleep((n)*1000)
	#endif

	// to check the # of concurrent tasks (must be 1 for MTX, <3 for other kinds)
	static int volatile checker = 0;
	static int err = 0;
	#ifndef DELAY
	#define DELAY 100
	#endif

	// ---------------------------------------------------------------------------
	// internal data to emulate compiler codegen
	typedef struct DEP {
	size_t addr;
	size_t len;
	unsigned char flags;
	} dep;
	typedef struct task {
	void** shareds;
	void* entry;
	int part_id;
	void* destr_thunk;
	int priority;
	long long device_id;
	int f_priv;
	} task_t;
	#define TIED 1
	typedef int(entry_t)(int, task_t);
	typedef struct ID {
	int reserved_1;
	int flags;
	int reserved_2;
	int reserved_3;
	char *psource;
	} id;
	// thunk routine for tasks with MTX dependency
	int thunk_m(int gtid, task_t* ptask) {
	int th = omp_get_thread_num();
	#pragma omp atomic
	++checker;
	printf("task _%d, th %d\n", ptask->f_priv, th);
	if (checker != 1) { // no more than 1 task at a time
	err++;
	printf("Error1, checker %d != 1\n", checker);
	}
	mysleep(DELAY);
	if (checker != 1) { // no more than 1 task at a time
	err++;
	printf("Error2, checker %d != 1\n", checker);
	}
	#pragma omp atomic
	--checker;
	return 0;
	}
	// thunk routine for tasks with inoutset dependency
	int thunk_s(int gtid, task_t* ptask) {
	int th = omp_get_thread_num();
	#pragma omp atomic
	++checker;
	printf("task _%d, th %d\n", ptask->f_priv, th);
	if (checker > 2) { // no more than 2 tasks concurrently
	err++;
	printf("Error1, checker %d > 2\n", checker);
	}
	mysleep(DELAY);
	if (checker > 2) { // no more than 2 tasks concurrently
	err++;
	printf("Error2, checker %d > 2\n", checker);
	}
	#pragma omp atomic
	--checker;
	return 0;
	}

	#ifdef __cplusplus
	extern "C" {
	#endif
	int __kmpc_global_thread_num(id*);
	extern task_t* __kmpc_omp_task_alloc(id *loc, int gtid, int flags,
	size_t sz, size_t shar, entry_t rtn);
	int
	__kmpc_omp_task_with_deps(id loc, int gtid, task_t task, int nd, dep *dep_lst,
	int nd_noalias, dep *noalias_dep_lst);
	static id loc = {0, 2, 0, 0, ";file;func;0;0;;"};
	#ifdef __cplusplus
	} // extern "C"
	#endif
	// End of internal data
	// ---------------------------------------------------------------------------

	int main()
	{
	int i1,i2,i3;
	omp_set_num_threads(4);
	omp_set_dynamic(0);
	#pragma omp parallel
	{
	#pragma omp single nowait
	{
	dep sdep[2];
	task_t *ptr;
	int gtid = __kmpc_global_thread_num(&loc);
	int t = omp_get_thread_num();
	#pragma omp task depend(in: i1, i2)
	{ int th = omp_get_thread_num();
	printf("task 0_%d, th %d\n", t, th);
	#pragma omp atomic
	++checker;
	if (checker > 2) { // no more than 2 tasks concurrently
	err++;
	printf("Error1, checker %d > 2\n", checker);
	}
	mysleep(DELAY);
	if (checker > 2) { // no more than 2 tasks concurrently
	err++;
	printf("Error1, checker %d > 2\n", checker);
	}
	#pragma omp atomic
	--checker;
	}
	#pragma omp task depend(in: i1, i2)
	{ int th = omp_get_thread_num();
	printf("task 1_%d, th %d\n", t, th);
	#pragma omp atomic
	++checker;
	if (checker > 2) { // no more than 2 tasks concurrently
	err++;
	printf("Error1, checker %d > 2\n", checker);
	}
	mysleep(DELAY);
	if (checker > 2) { // no more than 2 tasks concurrently
	err++;
	printf("Error1, checker %d > 2\n", checker);
	}
	#pragma omp atomic
	--checker;
	}
	// compiler codegen start
	// task2
	ptr = __kmpc_omp_task_alloc(&loc, gtid, TIED, sizeof(task_t), 0, thunk_s);
	sdep[0].addr = (size_t)&i1;
	sdep[0].len = 0; // not used
	sdep[0].flags = 1; // IN
	sdep[1].addr = (size_t)&i2;
	sdep[1].len = 0; // not used
	sdep[1].flags = 8; // INOUTSET
	ptr->f_priv = t + 10; // init single first-private variable
	__kmpc_omp_task_with_deps(&loc, gtid, ptr, 2, sdep, 0, 0);

	// task3
	ptr = __kmpc_omp_task_alloc(&loc, gtid, TIED, sizeof(task_t), 0, thunk_s);
	ptr->f_priv = t + 20; // init single first-private variable
	__kmpc_omp_task_with_deps(&loc, gtid, ptr, 2, sdep, 0, 0);
	// compiler codegen end
	t = omp_get_thread_num();
	#pragma omp task depend(in: i1, i2)
	{ int th = omp_get_thread_num();
	printf("task 4_%d, th %d\n", t, th);
	#pragma omp atomic
	++checker;
	if (checker > 2) { // no more than 2 tasks concurrently
	err++;
	printf("Error1, checker %d > 2\n", checker);
	}
	mysleep(DELAY);
	if (checker > 2) { // no more than 2 tasks concurrently
	err++;
	printf("Error1, checker %d > 2\n", checker);
	}
	#pragma omp atomic
	--checker;
	}
	#pragma omp task depend(in: i1, i2)
	{ int th = omp_get_thread_num();
	printf("task 5_%d, th %d\n", t, th);
	#pragma omp atomic
	++checker;
	if (checker > 2) { // no more than 2 tasks concurrently
	err++;
	printf("Error1, checker %d > 2\n", checker);
	}
	mysleep(DELAY);
	if (checker > 2) { // no more than 2 tasks concurrently
	err++;
	printf("Error1, checker %d > 2\n", checker);
	}
	#pragma omp atomic
	--checker;
	}
	// compiler codegen start
	// task6
	ptr = __kmpc_omp_task_alloc(&loc, gtid, TIED, sizeof(task_t), 0, thunk_m);
	sdep[0].addr = (size_t)&i1;
	sdep[0].len = 0; // not used
	sdep[0].flags = 4; // MUTEXINOUTSET
	sdep[1].addr = (size_t)&i3;
	sdep[1].len = 0; // not used
	sdep[1].flags = 4; // MUTEXINOUTSET
	ptr->f_priv = t + 30; // init single first-private variable
	__kmpc_omp_task_with_deps(&loc, gtid, ptr, 2, sdep, 0, 0);

	// task7
	ptr = __kmpc_omp_task_alloc(&loc, gtid, TIED, sizeof(task_t), 0, thunk_m);
	ptr->f_priv = t + 40; // init single first-private variable
	__kmpc_omp_task_with_deps(&loc, gtid, ptr, 2, sdep, 0, 0);
	// compiler codegen end
	#pragma omp task depend(in: i3)
	{ int th = omp_get_thread_num();
	printf("task 8_%d, th %d\n", t, th);
	#pragma omp atomic
	++checker;
	if (checker != 1) { // last task should run exclusively
	err++;
	printf("Error1, checker %d != 1\n", checker); }
	mysleep(DELAY);
	if (checker != 1) { // last task should run exclusively
	err++;
	printf("Error1, checker %d != 1\n", checker); }
	#pragma omp atomic
	--checker;
	}
	} // single
	} // parallel
	if (err == 0) {
	printf("passed\n");
	return 0;
	} else {
	printf("failed\n");
	return 1;
	}
	}