libgomp/testsuite/libgomp.oacc-c-c++-common/acc_prof-init-1.c - gcc - Git at Google

 /* Test dispatch of events to callbacks.  */

 #undef NDEBUG
 #include <assert.h>
 #include <stdlib.h>
 #include <string.h>

 #include <acc_prof.h>


 /* Use explicit 'copyin' clauses, to work around "'firstprivate'
    optimizations", which will cause the value at the point of call to be used
    (*before* any potential modifications done in callbacks), as opposed to its
    address being taken, which then later gets dereferenced (*after* any
    modifications done in callbacks).  */
 #define COPYIN(...) copyin(__VA_ARGS__)


 #define DEBUG_printf(...) //__builtin_printf (__VA_ARGS__)


 static acc_prof_reg reg;
 static acc_prof_reg unreg;
 static acc_prof_lookup_func lookup;
 void acc_register_library (acc_prof_reg reg_, acc_prof_reg unreg_, acc_prof_lookup_func lookup_)
 {
   DEBUG_printf ("%s\n", __FUNCTION__);

   reg = reg_;
   unreg = unreg_;
   lookup = lookup_;
 }


 static int state = -1;

 #define STATE_OP(state, op) \
   do \
     { \
       typeof (state) state_o = (state); \
       (void) state_o; \
       (state)op; \
       DEBUG_printf("state: %d -> %d\n", state_o, (state)); \
     } \
   while (0)


 static acc_device_t acc_device_type;
 static int acc_device_num;
 static int acc_async = acc_async_sync;


 struct tool_info
 {
   acc_event_info event_info;
   struct tool_info *nested;
 };
 struct tool_info *tool_info;

 static void cb_device_init_start (acc_prof_info *prof_info, acc_event_info *event_info, acc_api_info *api_info)
 {
   DEBUG_printf ("%s\n", __FUNCTION__);

   assert (state == 0
 	  || state == 100);
   STATE_OP (state, ++);

   assert (tool_info == NULL);
   tool_info = (struct tool_info *) malloc(sizeof *tool_info);
   assert (tool_info != NULL);
   tool_info->nested = NULL;

   assert (prof_info->event_type == acc_ev_device_init_start);
   assert (prof_info->valid_bytes == _ACC_PROF_INFO_VALID_BYTES);
   assert (prof_info->version == _ACC_PROF_INFO_VERSION);
   if (state == 1)
     assert (prof_info->device_type == acc_device_host);
   else
     assert (prof_info->device_type == acc_device_default);
   assert (prof_info->device_number == acc_device_num);
   assert (prof_info->thread_id == -1);
   assert (prof_info->async == acc_async_sync);
   assert (prof_info->async_queue == prof_info->async);
   assert (prof_info->src_file == NULL);
   assert (prof_info->func_name == NULL);
   assert (prof_info->line_no == -1);
   assert (prof_info->end_line_no == -1);
   assert (prof_info->func_line_no == -1);
   assert (prof_info->func_end_line_no == -1);

   assert (event_info->other_event.event_type == prof_info->event_type);
   assert (event_info->other_event.valid_bytes == _ACC_OTHER_EVENT_INFO_VALID_BYTES);
   assert (event_info->other_event.parent_construct == acc_construct_runtime_api);
   assert (event_info->other_event.implicit == 0);
   assert (event_info->other_event.tool_info == NULL);

   assert (api_info->device_api == acc_device_api_none);
   assert (api_info->valid_bytes == _ACC_API_INFO_VALID_BYTES);
   assert (api_info->device_type == prof_info->device_type);
   assert (api_info->vendor == -1);
   assert (api_info->device_handle == NULL);
   assert (api_info->context_handle == NULL);
   assert (api_info->async_handle == NULL);

   tool_info->event_info.other_event.event_type = event_info->other_event.event_type;
   event_info->other_event.tool_info = tool_info;
 }

 static void cb_device_init_end (acc_prof_info *prof_info, acc_event_info *event_info, acc_api_info *api_info)
 {
   DEBUG_printf ("%s\n", __FUNCTION__);

   assert (state == 1
 	  || state == 101);
   STATE_OP (state, ++);

   assert (tool_info != NULL);
   assert (tool_info->event_info.other_event.event_type == acc_ev_device_init_start);

   assert (prof_info->event_type == acc_ev_device_init_end);
   assert (prof_info->valid_bytes == _ACC_PROF_INFO_VALID_BYTES);
   assert (prof_info->version == _ACC_PROF_INFO_VERSION);
   if (state == 2)
     assert (prof_info->device_type == acc_device_host);
   else
     assert (prof_info->device_type == acc_device_default);
   assert (prof_info->device_number == acc_device_num);
   assert (prof_info->thread_id == -1);
   assert (prof_info->async == acc_async_sync);
   assert (prof_info->async_queue == prof_info->async);
   assert (prof_info->src_file == NULL);
   assert (prof_info->func_name == NULL);
   assert (prof_info->line_no == -1);
   assert (prof_info->end_line_no == -1);
   assert (prof_info->func_line_no == -1);
   assert (prof_info->func_end_line_no == -1);

   assert (event_info->other_event.event_type == prof_info->event_type);
   assert (event_info->other_event.valid_bytes == _ACC_OTHER_EVENT_INFO_VALID_BYTES);
   assert (event_info->other_event.parent_construct == acc_construct_runtime_api);
   assert (event_info->other_event.implicit == 0);
   assert (event_info->other_event.tool_info == tool_info);

   assert (api_info->device_api == acc_device_api_none);
   assert (api_info->valid_bytes == _ACC_API_INFO_VALID_BYTES);
   assert (api_info->device_type == prof_info->device_type);
   assert (api_info->vendor == -1);
   assert (api_info->device_handle == NULL);
   assert (api_info->context_handle == NULL);
   assert (api_info->async_handle == NULL);

   free (tool_info);
   tool_info = NULL;
 }

 static void cb_compute_construct_start (acc_prof_info *prof_info, acc_event_info *event_info, acc_api_info *api_info)
 {
   DEBUG_printf ("%s\n", __FUNCTION__);

   assert (state == 10
 	  || state == 110);
   STATE_OP (state, ++);

   assert (tool_info == NULL);
   tool_info = (struct tool_info *) malloc(sizeof *tool_info);
   assert (tool_info != NULL);
   tool_info->nested = NULL;

   assert (prof_info->event_type == acc_ev_compute_construct_start);
   assert (prof_info->valid_bytes == _ACC_PROF_INFO_VALID_BYTES);
   assert (prof_info->version == _ACC_PROF_INFO_VERSION);
   assert (prof_info->device_type == acc_device_type);
   assert (prof_info->device_number == acc_device_num);
   assert (prof_info->thread_id == -1);
   assert (prof_info->async == /* TODO acc_async */ acc_async_sync);
   assert (prof_info->async_queue == prof_info->async);
   assert (prof_info->src_file == NULL);
   assert (prof_info->func_name == NULL);
   assert (prof_info->line_no == -1);
   assert (prof_info->end_line_no == -1);
   assert (prof_info->func_line_no == -1);
   assert (prof_info->func_end_line_no == -1);

   assert (event_info->other_event.event_type == prof_info->event_type);
   assert (event_info->other_event.valid_bytes == _ACC_OTHER_EVENT_INFO_VALID_BYTES);
   assert (event_info->other_event.parent_construct == acc_construct_parallel);
   assert (event_info->other_event.implicit == 0);
   assert (event_info->other_event.tool_info == NULL);

   assert (api_info->device_api == acc_device_api_none);
   assert (api_info->valid_bytes == _ACC_API_INFO_VALID_BYTES);
   assert (api_info->device_type == prof_info->device_type);
   assert (api_info->vendor == -1);
   assert (api_info->device_handle == NULL);
   assert (api_info->context_handle == NULL);
   assert (api_info->async_handle == NULL);

   tool_info->event_info.other_event.event_type = event_info->other_event.event_type;
   event_info->other_event.tool_info = tool_info;
 }

 static void cb_compute_construct_end (acc_prof_info *prof_info, acc_event_info *event_info, acc_api_info *api_info)
 {
   DEBUG_printf ("%s\n", __FUNCTION__);

   assert (state == 11
 	  || state == 111);
 #if defined COPYIN
   /* In an 'async' setting, this event may be triggered before actual 'async'
      data copying has completed.  Given that 'state' appears in 'COPYIN', we
      first have to synchronize (that is, let the 'async' 'COPYIN' read the
      current 'state' value)...  */
   if (acc_async != acc_async_sync)
     {
       /* "We're not yet accounting for the fact that _OpenACC events may occur
 	 during event processing_"; temporarily disable to avoid deadlock.  */
       unreg (acc_ev_none, NULL, acc_toggle_per_thread);
       acc_wait (acc_async);
       reg (acc_ev_none, NULL, acc_toggle_per_thread);
     }
   /* ... before modifying it in the following.  */
 #endif
   STATE_OP (state, ++);

   assert (tool_info != NULL);
   assert (tool_info->event_info.other_event.event_type == acc_ev_compute_construct_start);
   assert (tool_info->nested == NULL);

   assert (prof_info->event_type == acc_ev_compute_construct_end);
   assert (prof_info->valid_bytes == _ACC_PROF_INFO_VALID_BYTES);
   assert (prof_info->version == _ACC_PROF_INFO_VERSION);
   assert (prof_info->device_type == acc_device_type);
   assert (prof_info->device_number == acc_device_num);
   assert (prof_info->thread_id == -1);
   if (acc_device_type == acc_device_host)
     assert (prof_info->async == acc_async_sync);
   else
     assert (prof_info->async == acc_async);
   assert (prof_info->async_queue == prof_info->async);
   assert (prof_info->src_file == NULL);
   assert (prof_info->func_name == NULL);
   assert (prof_info->line_no == -1);
   assert (prof_info->end_line_no == -1);
   assert (prof_info->func_line_no == -1);
   assert (prof_info->func_end_line_no == -1);

   assert (event_info->other_event.event_type == prof_info->event_type);
   assert (event_info->other_event.valid_bytes == _ACC_OTHER_EVENT_INFO_VALID_BYTES);
   assert (event_info->other_event.parent_construct == acc_construct_parallel);
   assert (event_info->other_event.implicit == 0);
   assert (event_info->other_event.tool_info == tool_info);

   if (acc_device_type == acc_device_host)
     assert (api_info->device_api == acc_device_api_none);
   else if (acc_device_type == acc_device_radeon)
     assert (api_info->device_api == acc_device_api_other);
   else
     assert (api_info->device_api == acc_device_api_cuda);
   assert (api_info->valid_bytes == _ACC_API_INFO_VALID_BYTES);
   assert (api_info->device_type == prof_info->device_type);
   assert (api_info->vendor == -1);
   assert (api_info->device_handle == NULL);
   assert (api_info->context_handle == NULL);
   assert (api_info->async_handle == NULL);

   free (tool_info);
   tool_info = NULL;
 }


 int main()
 {
   acc_register_library (acc_prof_register, acc_prof_unregister, acc_prof_lookup);

   STATE_OP (state, = 0);
   reg (acc_ev_device_init_start, cb_device_init_start, acc_reg);
   reg (acc_ev_device_init_end, cb_device_init_end, acc_reg);
   reg (acc_ev_compute_construct_start, cb_compute_construct_start, acc_reg);
   reg (acc_ev_compute_construct_end, cb_compute_construct_end, acc_reg);
   assert (state == 0);

   acc_init (acc_device_host);
   assert (state == 2);

   STATE_OP (state, = 10);

   acc_device_type = acc_get_device_type ();
   acc_device_num = acc_get_device_num (acc_device_type);

   {
     int state_init;
     acc_async = 12;
 #pragma acc parallel async(acc_async) COPYIN(state) copyout(state_init)
     {
       state_init = state;
     }
     acc_async = acc_async_sync;
 #pragma acc wait
     assert (state_init == 11);
   }
   assert (state == 12);

   STATE_OP (state, = 90);
   acc_shutdown (acc_device_host);
   assert (state == 90);


   STATE_OP (state, = 100);
   acc_init (acc_device_default);
   assert (state == 102);

   STATE_OP (state, = 110);

   acc_device_type = acc_get_device_type ();
   acc_device_num = acc_get_device_num (acc_device_type);

   {
     int state_init;
     acc_async = 12;
 #pragma acc parallel async(acc_async) COPYIN(state) copyout(state_init)
     {
       state_init = state;
     }
     acc_async = acc_async_sync;
 #pragma acc wait
     assert (state_init == 111);
   }
   assert (state == 112);

   STATE_OP (state, = 190);
   acc_shutdown (acc_device_default);
   assert (state == 190);

   return 0;
 }
	/* Test dispatch of events to callbacks. */

	#undef NDEBUG
	#include <assert.h>
	#include <stdlib.h>
	#include <string.h>

	#include <acc_prof.h>


	/* Use explicit 'copyin' clauses, to work around "'firstprivate'
	optimizations", which will cause the value at the point of call to be used
	(before any potential modifications done in callbacks), as opposed to its
	address being taken, which then later gets dereferenced (after any
	modifications done in callbacks). */
	#define COPYIN(...) copyin(__VA_ARGS__)


	#define DEBUG_printf(...) //__builtin_printf (__VA_ARGS__)


	static acc_prof_reg reg;
	static acc_prof_reg unreg;
	static acc_prof_lookup_func lookup;
	void acc_register_library (acc_prof_reg reg_, acc_prof_reg unreg_, acc_prof_lookup_func lookup_)
	{
	DEBUG_printf ("%s\n", __FUNCTION__);

	reg = reg_;
	unreg = unreg_;
	lookup = lookup_;
	}


	static int state = -1;

	#define STATE_OP(state, op) \
	do \
	{ \
	typeof (state) state_o = (state); \
	(void) state_o; \
	(state)op; \
	DEBUG_printf("state: %d -> %d\n", state_o, (state)); \
	} \
	while (0)


	static acc_device_t acc_device_type;
	static int acc_device_num;
	static int acc_async = acc_async_sync;


	struct tool_info
	{
	acc_event_info event_info;
	struct tool_info *nested;
	};
	struct tool_info *tool_info;

	static void cb_device_init_start (acc_prof_info prof_info, acc_event_info event_info, acc_api_info *api_info)
	{
	DEBUG_printf ("%s\n", __FUNCTION__);

	assert (state == 0
	\|\| state == 100);
	STATE_OP (state, ++);

	assert (tool_info == NULL);
	tool_info = (struct tool_info ) malloc(sizeof tool_info);
	assert (tool_info != NULL);
	tool_info->nested = NULL;

	assert (prof_info->event_type == acc_ev_device_init_start);
	assert (prof_info->valid_bytes == _ACC_PROF_INFO_VALID_BYTES);
	assert (prof_info->version == _ACC_PROF_INFO_VERSION);
	if (state == 1)
	assert (prof_info->device_type == acc_device_host);
	else
	assert (prof_info->device_type == acc_device_default);
	assert (prof_info->device_number == acc_device_num);
	assert (prof_info->thread_id == -1);
	assert (prof_info->async == acc_async_sync);
	assert (prof_info->async_queue == prof_info->async);
	assert (prof_info->src_file == NULL);
	assert (prof_info->func_name == NULL);
	assert (prof_info->line_no == -1);
	assert (prof_info->end_line_no == -1);
	assert (prof_info->func_line_no == -1);
	assert (prof_info->func_end_line_no == -1);

	assert (event_info->other_event.event_type == prof_info->event_type);
	assert (event_info->other_event.valid_bytes == _ACC_OTHER_EVENT_INFO_VALID_BYTES);
	assert (event_info->other_event.parent_construct == acc_construct_runtime_api);
	assert (event_info->other_event.implicit == 0);
	assert (event_info->other_event.tool_info == NULL);

	assert (api_info->device_api == acc_device_api_none);
	assert (api_info->valid_bytes == _ACC_API_INFO_VALID_BYTES);
	assert (api_info->device_type == prof_info->device_type);
	assert (api_info->vendor == -1);
	assert (api_info->device_handle == NULL);
	assert (api_info->context_handle == NULL);
	assert (api_info->async_handle == NULL);

	tool_info->event_info.other_event.event_type = event_info->other_event.event_type;
	event_info->other_event.tool_info = tool_info;
	}

	static void cb_device_init_end (acc_prof_info prof_info, acc_event_info event_info, acc_api_info *api_info)
	{
	DEBUG_printf ("%s\n", __FUNCTION__);

	assert (state == 1
	\|\| state == 101);
	STATE_OP (state, ++);

	assert (tool_info != NULL);
	assert (tool_info->event_info.other_event.event_type == acc_ev_device_init_start);

	assert (prof_info->event_type == acc_ev_device_init_end);
	assert (prof_info->valid_bytes == _ACC_PROF_INFO_VALID_BYTES);
	assert (prof_info->version == _ACC_PROF_INFO_VERSION);
	if (state == 2)
	assert (prof_info->device_type == acc_device_host);
	else
	assert (prof_info->device_type == acc_device_default);
	assert (prof_info->device_number == acc_device_num);
	assert (prof_info->thread_id == -1);
	assert (prof_info->async == acc_async_sync);
	assert (prof_info->async_queue == prof_info->async);
	assert (prof_info->src_file == NULL);
	assert (prof_info->func_name == NULL);
	assert (prof_info->line_no == -1);
	assert (prof_info->end_line_no == -1);
	assert (prof_info->func_line_no == -1);
	assert (prof_info->func_end_line_no == -1);

	assert (event_info->other_event.event_type == prof_info->event_type);
	assert (event_info->other_event.valid_bytes == _ACC_OTHER_EVENT_INFO_VALID_BYTES);
	assert (event_info->other_event.parent_construct == acc_construct_runtime_api);
	assert (event_info->other_event.implicit == 0);
	assert (event_info->other_event.tool_info == tool_info);

	assert (api_info->device_api == acc_device_api_none);
	assert (api_info->valid_bytes == _ACC_API_INFO_VALID_BYTES);
	assert (api_info->device_type == prof_info->device_type);
	assert (api_info->vendor == -1);
	assert (api_info->device_handle == NULL);
	assert (api_info->context_handle == NULL);
	assert (api_info->async_handle == NULL);

	free (tool_info);
	tool_info = NULL;
	}

	static void cb_compute_construct_start (acc_prof_info prof_info, acc_event_info event_info, acc_api_info *api_info)
	{
	DEBUG_printf ("%s\n", __FUNCTION__);

	assert (state == 10
	\|\| state == 110);
	STATE_OP (state, ++);

	assert (tool_info == NULL);
	tool_info = (struct tool_info ) malloc(sizeof tool_info);
	assert (tool_info != NULL);
	tool_info->nested = NULL;

	assert (prof_info->event_type == acc_ev_compute_construct_start);
	assert (prof_info->valid_bytes == _ACC_PROF_INFO_VALID_BYTES);
	assert (prof_info->version == _ACC_PROF_INFO_VERSION);
	assert (prof_info->device_type == acc_device_type);
	assert (prof_info->device_number == acc_device_num);
	assert (prof_info->thread_id == -1);
	assert (prof_info->async == /* TODO acc_async */ acc_async_sync);
	assert (prof_info->async_queue == prof_info->async);
	assert (prof_info->src_file == NULL);
	assert (prof_info->func_name == NULL);
	assert (prof_info->line_no == -1);
	assert (prof_info->end_line_no == -1);
	assert (prof_info->func_line_no == -1);
	assert (prof_info->func_end_line_no == -1);

	assert (event_info->other_event.event_type == prof_info->event_type);
	assert (event_info->other_event.valid_bytes == _ACC_OTHER_EVENT_INFO_VALID_BYTES);
	assert (event_info->other_event.parent_construct == acc_construct_parallel);
	assert (event_info->other_event.implicit == 0);
	assert (event_info->other_event.tool_info == NULL);

	assert (api_info->device_api == acc_device_api_none);
	assert (api_info->valid_bytes == _ACC_API_INFO_VALID_BYTES);
	assert (api_info->device_type == prof_info->device_type);
	assert (api_info->vendor == -1);
	assert (api_info->device_handle == NULL);
	assert (api_info->context_handle == NULL);
	assert (api_info->async_handle == NULL);

	tool_info->event_info.other_event.event_type = event_info->other_event.event_type;
	event_info->other_event.tool_info = tool_info;
	}

	static void cb_compute_construct_end (acc_prof_info prof_info, acc_event_info event_info, acc_api_info *api_info)
	{
	DEBUG_printf ("%s\n", __FUNCTION__);

	assert (state == 11
	\|\| state == 111);
	#if defined COPYIN
	/* In an 'async' setting, this event may be triggered before actual 'async'
	data copying has completed. Given that 'state' appears in 'COPYIN', we
	first have to synchronize (that is, let the 'async' 'COPYIN' read the
	current 'state' value)... */
	if (acc_async != acc_async_sync)
	{
	/* "We're not yet accounting for the fact that _OpenACC events may occur
	during event processing_"; temporarily disable to avoid deadlock. */
	unreg (acc_ev_none, NULL, acc_toggle_per_thread);
	acc_wait (acc_async);
	reg (acc_ev_none, NULL, acc_toggle_per_thread);
	}
	/* ... before modifying it in the following. */
	#endif
	STATE_OP (state, ++);

	assert (tool_info != NULL);
	assert (tool_info->event_info.other_event.event_type == acc_ev_compute_construct_start);
	assert (tool_info->nested == NULL);

	assert (prof_info->event_type == acc_ev_compute_construct_end);
	assert (prof_info->valid_bytes == _ACC_PROF_INFO_VALID_BYTES);
	assert (prof_info->version == _ACC_PROF_INFO_VERSION);
	assert (prof_info->device_type == acc_device_type);
	assert (prof_info->device_number == acc_device_num);
	assert (prof_info->thread_id == -1);
	if (acc_device_type == acc_device_host)
	assert (prof_info->async == acc_async_sync);
	else
	assert (prof_info->async == acc_async);
	assert (prof_info->async_queue == prof_info->async);
	assert (prof_info->src_file == NULL);
	assert (prof_info->func_name == NULL);
	assert (prof_info->line_no == -1);
	assert (prof_info->end_line_no == -1);
	assert (prof_info->func_line_no == -1);
	assert (prof_info->func_end_line_no == -1);

	assert (event_info->other_event.event_type == prof_info->event_type);
	assert (event_info->other_event.valid_bytes == _ACC_OTHER_EVENT_INFO_VALID_BYTES);
	assert (event_info->other_event.parent_construct == acc_construct_parallel);
	assert (event_info->other_event.implicit == 0);
	assert (event_info->other_event.tool_info == tool_info);

	if (acc_device_type == acc_device_host)
	assert (api_info->device_api == acc_device_api_none);
	else if (acc_device_type == acc_device_radeon)
	assert (api_info->device_api == acc_device_api_other);
	else
	assert (api_info->device_api == acc_device_api_cuda);
	assert (api_info->valid_bytes == _ACC_API_INFO_VALID_BYTES);
	assert (api_info->device_type == prof_info->device_type);
	assert (api_info->vendor == -1);
	assert (api_info->device_handle == NULL);
	assert (api_info->context_handle == NULL);
	assert (api_info->async_handle == NULL);

	free (tool_info);
	tool_info = NULL;
	}


	int main()
	{
	acc_register_library (acc_prof_register, acc_prof_unregister, acc_prof_lookup);

	STATE_OP (state, = 0);
	reg (acc_ev_device_init_start, cb_device_init_start, acc_reg);
	reg (acc_ev_device_init_end, cb_device_init_end, acc_reg);
	reg (acc_ev_compute_construct_start, cb_compute_construct_start, acc_reg);
	reg (acc_ev_compute_construct_end, cb_compute_construct_end, acc_reg);
	assert (state == 0);

	acc_init (acc_device_host);
	assert (state == 2);

	STATE_OP (state, = 10);

	acc_device_type = acc_get_device_type ();
	acc_device_num = acc_get_device_num (acc_device_type);

	{
	int state_init;
	acc_async = 12;
	#pragma acc parallel async(acc_async) COPYIN(state) copyout(state_init)
	{
	state_init = state;
	}
	acc_async = acc_async_sync;
	#pragma acc wait
	assert (state_init == 11);
	}
	assert (state == 12);

	STATE_OP (state, = 90);
	acc_shutdown (acc_device_host);
	assert (state == 90);


	STATE_OP (state, = 100);
	acc_init (acc_device_default);
	assert (state == 102);

	STATE_OP (state, = 110);

	acc_device_type = acc_get_device_type ();
	acc_device_num = acc_get_device_num (acc_device_type);

	{
	int state_init;
	acc_async = 12;
	#pragma acc parallel async(acc_async) COPYIN(state) copyout(state_init)
	{
	state_init = state;
	}
	acc_async = acc_async_sync;
	#pragma acc wait
	assert (state_init == 111);
	}
	assert (state == 112);

	STATE_OP (state, = 190);
	acc_shutdown (acc_device_default);
	assert (state == 190);

	return 0;
	}