Files
clang-p2996/openmp/runtime/test/ompt/callback.h
Jonas Hahnfeld 5e44069857 [OMPT] Fix test tasks/serialized.c with optimization
The compiler inlines the user code in the task. Check for that case at
runtime by comparing the frame addresses and print the expected exit
address.

Also showcase how I think the OMPT tests could be reformatted to match
LLVM's code style. In my opinion it would be great to that kind of change
to all tests that need to be touched for whatever reason...

Differential Revision: https://reviews.llvm.org/D43191

llvm-svn: 325921
2018-02-23 16:46:11 +00:00

740 lines
32 KiB
C
Executable File

#define _BSD_SOURCE
#define _DEFAULT_SOURCE
#include <stdio.h>
#include <inttypes.h>
#include <omp.h>
#include <ompt.h>
#include "ompt-signal.h"
// Used to detect architecture
#include "../../src/kmp_platform.h"
static const char* ompt_thread_type_t_values[] = {
NULL,
"ompt_thread_initial",
"ompt_thread_worker",
"ompt_thread_other"
};
static const char* ompt_task_status_t_values[] = {
NULL,
"ompt_task_complete",
"ompt_task_yield",
"ompt_task_cancel",
"ompt_task_others"
};
static const char* ompt_cancel_flag_t_values[] = {
"ompt_cancel_parallel",
"ompt_cancel_sections",
"ompt_cancel_do",
"ompt_cancel_taskgroup",
"ompt_cancel_activated",
"ompt_cancel_detected",
"ompt_cancel_discarded_task"
};
static ompt_set_callback_t ompt_set_callback;
static ompt_get_task_info_t ompt_get_task_info;
static ompt_get_thread_data_t ompt_get_thread_data;
static ompt_get_parallel_info_t ompt_get_parallel_info;
static ompt_get_unique_id_t ompt_get_unique_id;
static ompt_get_num_procs_t ompt_get_num_procs;
static ompt_get_num_places_t ompt_get_num_places;
static ompt_get_place_proc_ids_t ompt_get_place_proc_ids;
static ompt_get_place_num_t ompt_get_place_num;
static ompt_get_partition_place_nums_t ompt_get_partition_place_nums;
static ompt_get_proc_id_t ompt_get_proc_id;
static ompt_enumerate_states_t ompt_enumerate_states;
static ompt_enumerate_mutex_impls_t ompt_enumerate_mutex_impls;
static void print_ids(int level)
{
ompt_frame_t* frame ;
ompt_data_t* parallel_data;
ompt_data_t* task_data;
int exists_task = ompt_get_task_info(level, NULL, &task_data, &frame, &parallel_data, NULL);
if (frame)
{
printf("%" PRIu64 ": task level %d: parallel_id=%" PRIu64 ", task_id=%" PRIu64 ", exit_frame=%p, reenter_frame=%p\n", ompt_get_thread_data()->value, level, exists_task ? parallel_data->value : 0, exists_task ? task_data->value : 0, frame->exit_frame, frame->enter_frame);
}
else
printf("%" PRIu64 ": task level %d: parallel_id=%" PRIu64 ", task_id=%" PRIu64 ", frame=%p\n", ompt_get_thread_data()->value, level, exists_task ? parallel_data->value : 0, exists_task ? task_data->value : 0, frame);
}
#define get_frame_address(level) __builtin_frame_address(level)
#define print_frame(level) \
printf("%" PRIu64 ": __builtin_frame_address(%d)=%p\n", \
ompt_get_thread_data()->value, level, get_frame_address(level))
// clang (version 5.0 and above) adds an intermediate function call with debug flag (-g)
#if defined(TEST_NEED_PRINT_FRAME_FROM_OUTLINED_FN)
#if defined(DEBUG) && defined(__clang__) && __clang_major__ >= 5
#define print_frame_from_outlined_fn(level) print_frame(level+1)
#else
#define print_frame_from_outlined_fn(level) print_frame(level)
#endif
#if defined(__clang__) && __clang_major__ >= 5
#warning "Clang 5.0 and later add an additional wrapper for outlined functions when compiling with debug information."
#warning "Please define -DDEBUG iff you manually pass in -g to make the tests succeed!"
#endif
#endif
// This macro helps to define a label at the current position that can be used
// to get the current address in the code.
//
// For print_current_address():
// To reliably determine the offset between the address of the label and the
// actual return address, we insert a NOP instruction as a jump target as the
// compiler would otherwise insert an instruction that we can't control. The
// instruction length is target dependent and is explained below.
//
// (The empty block between "#pragma omp ..." and the __asm__ statement is a
// workaround for a bug in the Intel Compiler.)
#define define_ompt_label(id) \
{} \
__asm__("nop"); \
ompt_label_##id:
// This macro helps to get the address of a label that is inserted by the above
// macro define_ompt_label(). The address is obtained with a GNU extension
// (&&label) that has been tested with gcc, clang and icc.
#define get_ompt_label_address(id) (&& ompt_label_##id)
// This macro prints the exact address that a previously called runtime function
// returns to.
#define print_current_address(id) \
define_ompt_label(id) \
print_possible_return_addresses(get_ompt_label_address(id))
#if KMP_ARCH_X86 || KMP_ARCH_X86_64
// On X86 the NOP instruction is 1 byte long. In addition, the comiler inserts
// a MOV instruction for non-void runtime functions which is 3 bytes long.
#define print_possible_return_addresses(addr) \
printf("%" PRIu64 ": current_address=%p or %p for non-void functions\n", \
ompt_get_thread_data()->value, ((char *)addr) - 1, ((char *)addr) - 4)
#elif KMP_ARCH_PPC64
// On Power the NOP instruction is 4 bytes long. In addition, the compiler
// inserts an LD instruction which accounts for another 4 bytes. In contrast to
// X86 this instruction is always there, even for void runtime functions.
#define print_possible_return_addresses(addr) \
printf("%" PRIu64 ": current_address=%p\n", ompt_get_thread_data()->value, \
((char *)addr) - 8)
#elif KMP_ARCH_AARCH64
// On AArch64 the NOP instruction is 4 bytes long, can be followed by inserted
// store instruction (another 4 bytes long).
#define print_possible_return_addresses(addr) \
printf("%" PRIu64 ": current_address=%p or %p\n", ompt_get_thread_data()->value, \
((char *)addr) - 4, ((char *)addr) - 8)
#else
#error Unsupported target architecture, cannot determine address offset!
#endif
// This macro performs a somewhat similar job to print_current_address(), except
// that it discards a certain number of nibbles from the address and only prints
// the most significant bits / nibbles. This can be used for cases where the
// return address can only be approximated.
//
// To account for overflows (ie the most significant bits / nibbles have just
// changed as we are a few bytes above the relevant power of two) the addresses
// of the "current" and of the "previous block" are printed.
#define print_fuzzy_address(id) \
define_ompt_label(id) \
print_fuzzy_address_blocks(get_ompt_label_address(id))
// If you change this define you need to adapt all capture patterns in the tests
// to include or discard the new number of nibbles!
#define FUZZY_ADDRESS_DISCARD_NIBBLES 2
#define FUZZY_ADDRESS_DISCARD_BYTES (1 << ((FUZZY_ADDRESS_DISCARD_NIBBLES) * 4))
#define print_fuzzy_address_blocks(addr) \
printf("%" PRIu64 ": fuzzy_address=0x%" PRIx64 " or 0x%" PRIx64 " (%p)\n", \
ompt_get_thread_data()->value, \
((uint64_t)addr) / FUZZY_ADDRESS_DISCARD_BYTES - 1, \
((uint64_t)addr) / FUZZY_ADDRESS_DISCARD_BYTES, addr)
static void format_task_type(int type, char* buffer)
{
char* progress = buffer;
if(type & ompt_task_initial) progress += sprintf(progress, "ompt_task_initial");
if(type & ompt_task_implicit) progress += sprintf(progress, "ompt_task_implicit");
if(type & ompt_task_explicit) progress += sprintf(progress, "ompt_task_explicit");
if(type & ompt_task_target) progress += sprintf(progress, "ompt_task_target");
if(type & ompt_task_undeferred) progress += sprintf(progress, "|ompt_task_undeferred");
if(type & ompt_task_untied) progress += sprintf(progress, "|ompt_task_untied");
if(type & ompt_task_final) progress += sprintf(progress, "|ompt_task_final");
if(type & ompt_task_mergeable) progress += sprintf(progress, "|ompt_task_mergeable");
if(type & ompt_task_merged) progress += sprintf(progress, "|ompt_task_merged");
}
static void
on_ompt_callback_mutex_acquire(
ompt_mutex_kind_t kind,
unsigned int hint,
unsigned int impl,
ompt_wait_id_t wait_id,
const void *codeptr_ra)
{
switch(kind)
{
case ompt_mutex_lock:
printf("%" PRIu64 ": ompt_event_wait_lock: wait_id=%" PRIu64 ", hint=%" PRIu32 ", impl=%" PRIu32 ", codeptr_ra=%p \n", ompt_get_thread_data()->value, wait_id, hint, impl, codeptr_ra);
break;
case ompt_mutex_nest_lock:
printf("%" PRIu64 ": ompt_event_wait_nest_lock: wait_id=%" PRIu64 ", hint=%" PRIu32 ", impl=%" PRIu32 ", codeptr_ra=%p \n", ompt_get_thread_data()->value, wait_id, hint, impl, codeptr_ra);
break;
case ompt_mutex_critical:
printf("%" PRIu64 ": ompt_event_wait_critical: wait_id=%" PRIu64 ", hint=%" PRIu32 ", impl=%" PRIu32 ", codeptr_ra=%p \n", ompt_get_thread_data()->value, wait_id, hint, impl, codeptr_ra);
break;
case ompt_mutex_atomic:
printf("%" PRIu64 ": ompt_event_wait_atomic: wait_id=%" PRIu64 ", hint=%" PRIu32 ", impl=%" PRIu32 ", codeptr_ra=%p \n", ompt_get_thread_data()->value, wait_id, hint, impl, codeptr_ra);
break;
case ompt_mutex_ordered:
printf("%" PRIu64 ": ompt_event_wait_ordered: wait_id=%" PRIu64 ", hint=%" PRIu32 ", impl=%" PRIu32 ", codeptr_ra=%p \n", ompt_get_thread_data()->value, wait_id, hint, impl, codeptr_ra);
break;
default:
break;
}
}
static void
on_ompt_callback_mutex_acquired(
ompt_mutex_kind_t kind,
ompt_wait_id_t wait_id,
const void *codeptr_ra)
{
switch(kind)
{
case ompt_mutex_lock:
printf("%" PRIu64 ": ompt_event_acquired_lock: wait_id=%" PRIu64 ", codeptr_ra=%p \n", ompt_get_thread_data()->value, wait_id, codeptr_ra);
break;
case ompt_mutex_nest_lock:
printf("%" PRIu64 ": ompt_event_acquired_nest_lock_first: wait_id=%" PRIu64 ", codeptr_ra=%p \n", ompt_get_thread_data()->value, wait_id, codeptr_ra);
break;
case ompt_mutex_critical:
printf("%" PRIu64 ": ompt_event_acquired_critical: wait_id=%" PRIu64 ", codeptr_ra=%p \n", ompt_get_thread_data()->value, wait_id, codeptr_ra);
break;
case ompt_mutex_atomic:
printf("%" PRIu64 ": ompt_event_acquired_atomic: wait_id=%" PRIu64 ", codeptr_ra=%p \n", ompt_get_thread_data()->value, wait_id, codeptr_ra);
break;
case ompt_mutex_ordered:
printf("%" PRIu64 ": ompt_event_acquired_ordered: wait_id=%" PRIu64 ", codeptr_ra=%p \n", ompt_get_thread_data()->value, wait_id, codeptr_ra);
break;
default:
break;
}
}
static void
on_ompt_callback_mutex_released(
ompt_mutex_kind_t kind,
ompt_wait_id_t wait_id,
const void *codeptr_ra)
{
switch(kind)
{
case ompt_mutex_lock:
printf("%" PRIu64 ": ompt_event_release_lock: wait_id=%" PRIu64 ", codeptr_ra=%p \n", ompt_get_thread_data()->value, wait_id, codeptr_ra);
break;
case ompt_mutex_nest_lock:
printf("%" PRIu64 ": ompt_event_release_nest_lock_last: wait_id=%" PRIu64 ", codeptr_ra=%p \n", ompt_get_thread_data()->value, wait_id, codeptr_ra);
break;
case ompt_mutex_critical:
printf("%" PRIu64 ": ompt_event_release_critical: wait_id=%" PRIu64 ", codeptr_ra=%p \n", ompt_get_thread_data()->value, wait_id, codeptr_ra);
break;
case ompt_mutex_atomic:
printf("%" PRIu64 ": ompt_event_release_atomic: wait_id=%" PRIu64 ", codeptr_ra=%p \n", ompt_get_thread_data()->value, wait_id, codeptr_ra);
break;
case ompt_mutex_ordered:
printf("%" PRIu64 ": ompt_event_release_ordered: wait_id=%" PRIu64 ", codeptr_ra=%p \n", ompt_get_thread_data()->value, wait_id, codeptr_ra);
break;
default:
break;
}
}
static void
on_ompt_callback_nest_lock(
ompt_scope_endpoint_t endpoint,
ompt_wait_id_t wait_id,
const void *codeptr_ra)
{
switch(endpoint)
{
case ompt_scope_begin:
printf("%" PRIu64 ": ompt_event_acquired_nest_lock_next: wait_id=%" PRIu64 ", codeptr_ra=%p \n", ompt_get_thread_data()->value, wait_id, codeptr_ra);
break;
case ompt_scope_end:
printf("%" PRIu64 ": ompt_event_release_nest_lock_prev: wait_id=%" PRIu64 ", codeptr_ra=%p \n", ompt_get_thread_data()->value, wait_id, codeptr_ra);
break;
}
}
static void
on_ompt_callback_sync_region(
ompt_sync_region_kind_t kind,
ompt_scope_endpoint_t endpoint,
ompt_data_t *parallel_data,
ompt_data_t *task_data,
const void *codeptr_ra)
{
switch(endpoint)
{
case ompt_scope_begin:
switch(kind)
{
case ompt_sync_region_barrier:
printf("%" PRIu64 ": ompt_event_barrier_begin: parallel_id=%" PRIu64 ", task_id=%" PRIu64 ", codeptr_ra=%p\n", ompt_get_thread_data()->value, parallel_data->value, task_data->value, codeptr_ra);
print_ids(0);
break;
case ompt_sync_region_taskwait:
printf("%" PRIu64 ": ompt_event_taskwait_begin: parallel_id=%" PRIu64 ", task_id=%" PRIu64 ", codeptr_ra=%p\n", ompt_get_thread_data()->value, parallel_data->value, task_data->value, codeptr_ra);
break;
case ompt_sync_region_taskgroup:
printf("%" PRIu64 ": ompt_event_taskgroup_begin: parallel_id=%" PRIu64 ", task_id=%" PRIu64 ", codeptr_ra=%p\n", ompt_get_thread_data()->value, parallel_data->value, task_data->value, codeptr_ra);
break;
}
break;
case ompt_scope_end:
switch(kind)
{
case ompt_sync_region_barrier:
printf("%" PRIu64 ": ompt_event_barrier_end: parallel_id=%" PRIu64 ", task_id=%" PRIu64 ", codeptr_ra=%p\n", ompt_get_thread_data()->value, (parallel_data)?parallel_data->value:0, task_data->value, codeptr_ra);
break;
case ompt_sync_region_taskwait:
printf("%" PRIu64 ": ompt_event_taskwait_end: parallel_id=%" PRIu64 ", task_id=%" PRIu64 ", codeptr_ra=%p\n", ompt_get_thread_data()->value, (parallel_data)?parallel_data->value:0, task_data->value, codeptr_ra);
break;
case ompt_sync_region_taskgroup:
printf("%" PRIu64 ": ompt_event_taskgroup_end: parallel_id=%" PRIu64 ", task_id=%" PRIu64 ", codeptr_ra=%p\n", ompt_get_thread_data()->value, (parallel_data)?parallel_data->value:0, task_data->value, codeptr_ra);
break;
}
break;
}
}
static void
on_ompt_callback_sync_region_wait(
ompt_sync_region_kind_t kind,
ompt_scope_endpoint_t endpoint,
ompt_data_t *parallel_data,
ompt_data_t *task_data,
const void *codeptr_ra)
{
switch(endpoint)
{
case ompt_scope_begin:
switch(kind)
{
case ompt_sync_region_barrier:
printf("%" PRIu64 ": ompt_event_wait_barrier_begin: parallel_id=%" PRIu64 ", task_id=%" PRIu64 ", codeptr_ra=%p\n", ompt_get_thread_data()->value, parallel_data->value, task_data->value, codeptr_ra);
break;
case ompt_sync_region_taskwait:
printf("%" PRIu64 ": ompt_event_wait_taskwait_begin: parallel_id=%" PRIu64 ", task_id=%" PRIu64 ", codeptr_ra=%p\n", ompt_get_thread_data()->value, parallel_data->value, task_data->value, codeptr_ra);
break;
case ompt_sync_region_taskgroup:
printf("%" PRIu64 ": ompt_event_wait_taskgroup_begin: parallel_id=%" PRIu64 ", task_id=%" PRIu64 ", codeptr_ra=%p\n", ompt_get_thread_data()->value, parallel_data->value, task_data->value, codeptr_ra);
break;
}
break;
case ompt_scope_end:
switch(kind)
{
case ompt_sync_region_barrier:
printf("%" PRIu64 ": ompt_event_wait_barrier_end: parallel_id=%" PRIu64 ", task_id=%" PRIu64 ", codeptr_ra=%p\n", ompt_get_thread_data()->value, (parallel_data)?parallel_data->value:0, task_data->value, codeptr_ra);
break;
case ompt_sync_region_taskwait:
printf("%" PRIu64 ": ompt_event_wait_taskwait_end: parallel_id=%" PRIu64 ", task_id=%" PRIu64 ", codeptr_ra=%p\n", ompt_get_thread_data()->value, (parallel_data)?parallel_data->value:0, task_data->value, codeptr_ra);
break;
case ompt_sync_region_taskgroup:
printf("%" PRIu64 ": ompt_event_wait_taskgroup_end: parallel_id=%" PRIu64 ", task_id=%" PRIu64 ", codeptr_ra=%p\n", ompt_get_thread_data()->value, (parallel_data)?parallel_data->value:0, task_data->value, codeptr_ra);
break;
}
break;
}
}
static void
on_ompt_callback_flush(
ompt_data_t *thread_data,
const void *codeptr_ra)
{
printf("%" PRIu64 ": ompt_event_flush: codeptr_ra=%p\n", thread_data->value, codeptr_ra);
}
static void
on_ompt_callback_cancel(
ompt_data_t *task_data,
int flags,
const void *codeptr_ra)
{
const char* first_flag_value;
const char* second_flag_value;
if(flags & ompt_cancel_parallel)
first_flag_value = ompt_cancel_flag_t_values[0];
else if(flags & ompt_cancel_sections)
first_flag_value = ompt_cancel_flag_t_values[1];
else if(flags & ompt_cancel_do)
first_flag_value = ompt_cancel_flag_t_values[2];
else if(flags & ompt_cancel_taskgroup)
first_flag_value = ompt_cancel_flag_t_values[3];
if(flags & ompt_cancel_activated)
second_flag_value = ompt_cancel_flag_t_values[4];
else if(flags & ompt_cancel_detected)
second_flag_value = ompt_cancel_flag_t_values[5];
else if(flags & ompt_cancel_discarded_task)
second_flag_value = ompt_cancel_flag_t_values[6];
printf("%" PRIu64 ": ompt_event_cancel: task_data=%" PRIu64 ", flags=%s|%s=%" PRIu32 ", codeptr_ra=%p\n", ompt_get_thread_data()->value, task_data->value, first_flag_value, second_flag_value, flags, codeptr_ra);
}
static void
on_ompt_callback_idle(
ompt_scope_endpoint_t endpoint)
{
switch(endpoint)
{
case ompt_scope_begin:
printf("%" PRIu64 ": ompt_event_idle_begin:\n", ompt_get_thread_data()->value);
break;
case ompt_scope_end:
printf("%" PRIu64 ": ompt_event_idle_end:\n", ompt_get_thread_data()->value);
break;
}
}
static void
on_ompt_callback_implicit_task(
ompt_scope_endpoint_t endpoint,
ompt_data_t *parallel_data,
ompt_data_t *task_data,
unsigned int team_size,
unsigned int thread_num)
{
switch(endpoint)
{
case ompt_scope_begin:
if(task_data->ptr)
printf("%s\n", "0: task_data initially not null");
task_data->value = ompt_get_unique_id();
printf("%" PRIu64 ": ompt_event_implicit_task_begin: parallel_id=%" PRIu64 ", task_id=%" PRIu64 ", team_size=%" PRIu32 ", thread_num=%" PRIu32 "\n", ompt_get_thread_data()->value, parallel_data->value, task_data->value, team_size, thread_num);
break;
case ompt_scope_end:
printf("%" PRIu64 ": ompt_event_implicit_task_end: parallel_id=%" PRIu64 ", task_id=%" PRIu64 ", team_size=%" PRIu32 ", thread_num=%" PRIu32 "\n", ompt_get_thread_data()->value, (parallel_data)?parallel_data->value:0, task_data->value, team_size, thread_num);
break;
}
}
static void
on_ompt_callback_lock_init(
ompt_mutex_kind_t kind,
unsigned int hint,
unsigned int impl,
ompt_wait_id_t wait_id,
const void *codeptr_ra)
{
switch(kind)
{
case ompt_mutex_lock:
printf("%" PRIu64 ": ompt_event_init_lock: wait_id=%" PRIu64 ", hint=%" PRIu32 ", impl=%" PRIu32 ", codeptr_ra=%p \n", ompt_get_thread_data()->value, wait_id, hint, impl, codeptr_ra);
break;
case ompt_mutex_nest_lock:
printf("%" PRIu64 ": ompt_event_init_nest_lock: wait_id=%" PRIu64 ", hint=%" PRIu32 ", impl=%" PRIu32 ", codeptr_ra=%p \n", ompt_get_thread_data()->value, wait_id, hint, impl, codeptr_ra);
break;
default:
break;
}
}
static void
on_ompt_callback_lock_destroy(
ompt_mutex_kind_t kind,
ompt_wait_id_t wait_id,
const void *codeptr_ra)
{
switch(kind)
{
case ompt_mutex_lock:
printf("%" PRIu64 ": ompt_event_destroy_lock: wait_id=%" PRIu64 ", codeptr_ra=%p \n", ompt_get_thread_data()->value, wait_id, codeptr_ra);
break;
case ompt_mutex_nest_lock:
printf("%" PRIu64 ": ompt_event_destroy_nest_lock: wait_id=%" PRIu64 ", codeptr_ra=%p \n", ompt_get_thread_data()->value, wait_id, codeptr_ra);
break;
default:
break;
}
}
static void
on_ompt_callback_work(
ompt_work_type_t wstype,
ompt_scope_endpoint_t endpoint,
ompt_data_t *parallel_data,
ompt_data_t *task_data,
uint64_t count,
const void *codeptr_ra)
{
switch(endpoint)
{
case ompt_scope_begin:
switch(wstype)
{
case ompt_work_loop:
printf("%" PRIu64 ": ompt_event_loop_begin: parallel_id=%" PRIu64 ", parent_task_id=%" PRIu64 ", codeptr_ra=%p, count=%" PRIu64 "\n", ompt_get_thread_data()->value, parallel_data->value, task_data->value, codeptr_ra, count);
break;
case ompt_work_sections:
printf("%" PRIu64 ": ompt_event_sections_begin: parallel_id=%" PRIu64 ", parent_task_id=%" PRIu64 ", codeptr_ra=%p, count=%" PRIu64 "\n", ompt_get_thread_data()->value, parallel_data->value, task_data->value, codeptr_ra, count);
break;
case ompt_work_single_executor:
printf("%" PRIu64 ": ompt_event_single_in_block_begin: parallel_id=%" PRIu64 ", parent_task_id=%" PRIu64 ", codeptr_ra=%p, count=%" PRIu64 "\n", ompt_get_thread_data()->value, parallel_data->value, task_data->value, codeptr_ra, count);
break;
case ompt_work_single_other:
printf("%" PRIu64 ": ompt_event_single_others_begin: parallel_id=%" PRIu64 ", task_id=%" PRIu64 ", codeptr_ra=%p, count=%" PRIu64 "\n", ompt_get_thread_data()->value, parallel_data->value, task_data->value, codeptr_ra, count);
break;
case ompt_work_workshare:
//impl
break;
case ompt_work_distribute:
printf("%" PRIu64 ": ompt_event_distribute_begin: parallel_id=%" PRIu64 ", parent_task_id=%" PRIu64 ", codeptr_ra=%p, count=%" PRIu64 "\n", ompt_get_thread_data()->value, parallel_data->value, task_data->value, codeptr_ra, count);
break;
case ompt_work_taskloop:
//impl
printf("%" PRIu64 ": ompt_event_taskloop_begin: parallel_id=%" PRIu64 ", parent_task_id=%" PRIu64 ", codeptr_ra=%p, count=%" PRIu64 "\n", ompt_get_thread_data()->value, parallel_data->value, task_data->value, codeptr_ra, count);
break;
}
break;
case ompt_scope_end:
switch(wstype)
{
case ompt_work_loop:
printf("%" PRIu64 ": ompt_event_loop_end: parallel_id=%" PRIu64 ", task_id=%" PRIu64 ", codeptr_ra=%p, count=%" PRIu64 "\n", ompt_get_thread_data()->value, parallel_data->value, task_data->value, codeptr_ra, count);
break;
case ompt_work_sections:
printf("%" PRIu64 ": ompt_event_sections_end: parallel_id=%" PRIu64 ", task_id=%" PRIu64 ", codeptr_ra=%p, count=%" PRIu64 "\n", ompt_get_thread_data()->value, parallel_data->value, task_data->value, codeptr_ra, count);
break;
case ompt_work_single_executor:
printf("%" PRIu64 ": ompt_event_single_in_block_end: parallel_id=%" PRIu64 ", task_id=%" PRIu64 ", codeptr_ra=%p, count=%" PRIu64 "\n", ompt_get_thread_data()->value, parallel_data->value, task_data->value, codeptr_ra, count);
break;
case ompt_work_single_other:
printf("%" PRIu64 ": ompt_event_single_others_end: parallel_id=%" PRIu64 ", task_id=%" PRIu64 ", codeptr_ra=%p, count=%" PRIu64 "\n", ompt_get_thread_data()->value, parallel_data->value, task_data->value, codeptr_ra, count);
break;
case ompt_work_workshare:
//impl
break;
case ompt_work_distribute:
printf("%" PRIu64 ": ompt_event_distribute_end: parallel_id=%" PRIu64 ", parent_task_id=%" PRIu64 ", codeptr_ra=%p, count=%" PRIu64 "\n", ompt_get_thread_data()->value, parallel_data->value, task_data->value, codeptr_ra, count);
break;
case ompt_work_taskloop:
//impl
printf("%" PRIu64 ": ompt_event_taskloop_end: parallel_id=%" PRIu64 ", parent_task_id=%" PRIu64 ", codeptr_ra=%p, count=%" PRIu64 "\n", ompt_get_thread_data()->value, parallel_data->value, task_data->value, codeptr_ra, count);
break;
}
break;
}
}
static void
on_ompt_callback_master(
ompt_scope_endpoint_t endpoint,
ompt_data_t *parallel_data,
ompt_data_t *task_data,
const void *codeptr_ra)
{
switch(endpoint)
{
case ompt_scope_begin:
printf("%" PRIu64 ": ompt_event_master_begin: parallel_id=%" PRIu64 ", task_id=%" PRIu64 ", codeptr_ra=%p\n", ompt_get_thread_data()->value, parallel_data->value, task_data->value, codeptr_ra);
break;
case ompt_scope_end:
printf("%" PRIu64 ": ompt_event_master_end: parallel_id=%" PRIu64 ", task_id=%" PRIu64 ", codeptr_ra=%p\n", ompt_get_thread_data()->value, parallel_data->value, task_data->value, codeptr_ra);
break;
}
}
static void
on_ompt_callback_parallel_begin(
ompt_data_t *encountering_task_data,
const ompt_frame_t *encountering_task_frame,
ompt_data_t* parallel_data,
uint32_t requested_team_size,
ompt_invoker_t invoker,
const void *codeptr_ra)
{
if(parallel_data->ptr)
printf("0: parallel_data initially not null\n");
parallel_data->value = ompt_get_unique_id();
printf("%" PRIu64 ": ompt_event_parallel_begin: parent_task_id=%" PRIu64 ", parent_task_frame.exit=%p, parent_task_frame.reenter=%p, parallel_id=%" PRIu64 ", requested_team_size=%" PRIu32 ", codeptr_ra=%p, invoker=%d\n", ompt_get_thread_data()->value, encountering_task_data->value, encountering_task_frame->exit_frame, encountering_task_frame->enter_frame, parallel_data->value, requested_team_size, codeptr_ra, invoker);
}
static void
on_ompt_callback_parallel_end(
ompt_data_t *parallel_data,
ompt_data_t *encountering_task_data,
ompt_invoker_t invoker,
const void *codeptr_ra)
{
printf("%" PRIu64 ": ompt_event_parallel_end: parallel_id=%" PRIu64 ", task_id=%" PRIu64 ", invoker=%d, codeptr_ra=%p\n", ompt_get_thread_data()->value, parallel_data->value, encountering_task_data->value, invoker, codeptr_ra);
}
static void
on_ompt_callback_task_create(
ompt_data_t *encountering_task_data,
const ompt_frame_t *encountering_task_frame,
ompt_data_t* new_task_data,
int type,
int has_dependences,
const void *codeptr_ra)
{
if(new_task_data->ptr)
printf("0: new_task_data initially not null\n");
new_task_data->value = ompt_get_unique_id();
char buffer[2048];
format_task_type(type, buffer);
//there is no parallel_begin callback for implicit parallel region
//thus it is initialized in initial task
if(type & ompt_task_initial)
{
ompt_data_t *parallel_data;
ompt_get_parallel_info(0, &parallel_data, NULL);
if(parallel_data->ptr)
printf("%s\n", "0: parallel_data initially not null");
parallel_data->value = ompt_get_unique_id();
}
printf("%" PRIu64 ": ompt_event_task_create: parent_task_id=%" PRIu64 ", parent_task_frame.exit=%p, parent_task_frame.reenter=%p, new_task_id=%" PRIu64 ", codeptr_ra=%p, task_type=%s=%d, has_dependences=%s\n", ompt_get_thread_data()->value, encountering_task_data ? encountering_task_data->value : 0, encountering_task_frame ? encountering_task_frame->exit_frame : NULL, encountering_task_frame ? encountering_task_frame->enter_frame : NULL, new_task_data->value, codeptr_ra, buffer, type, has_dependences ? "yes" : "no");
}
static void
on_ompt_callback_task_schedule(
ompt_data_t *first_task_data,
ompt_task_status_t prior_task_status,
ompt_data_t *second_task_data)
{
printf("%" PRIu64 ": ompt_event_task_schedule: first_task_id=%" PRIu64 ", second_task_id=%" PRIu64 ", prior_task_status=%s=%d\n", ompt_get_thread_data()->value, first_task_data->value, second_task_data->value, ompt_task_status_t_values[prior_task_status], prior_task_status);
if(prior_task_status == ompt_task_complete)
{
printf("%" PRIu64 ": ompt_event_task_end: task_id=%" PRIu64 "\n", ompt_get_thread_data()->value, first_task_data->value);
}
}
static void
on_ompt_callback_task_dependences(
ompt_data_t *task_data,
const ompt_task_dependence_t *deps,
int ndeps)
{
printf("%" PRIu64 ": ompt_event_task_dependences: task_id=%" PRIu64 ", deps=%p, ndeps=%d\n", ompt_get_thread_data()->value, task_data->value, (void *)deps, ndeps);
}
static void
on_ompt_callback_task_dependence(
ompt_data_t *first_task_data,
ompt_data_t *second_task_data)
{
printf("%" PRIu64 ": ompt_event_task_dependence_pair: first_task_id=%" PRIu64 ", second_task_id=%" PRIu64 "\n", ompt_get_thread_data()->value, first_task_data->value, second_task_data->value);
}
static void
on_ompt_callback_thread_begin(
ompt_thread_type_t thread_type,
ompt_data_t *thread_data)
{
if(thread_data->ptr)
printf("%s\n", "0: thread_data initially not null");
thread_data->value = ompt_get_unique_id();
printf("%" PRIu64 ": ompt_event_thread_begin: thread_type=%s=%d, thread_id=%" PRIu64 "\n", ompt_get_thread_data()->value, ompt_thread_type_t_values[thread_type], thread_type, thread_data->value);
}
static void
on_ompt_callback_thread_end(
ompt_data_t *thread_data)
{
printf("%" PRIu64 ": ompt_event_thread_end: thread_id=%" PRIu64 "\n", ompt_get_thread_data()->value, thread_data->value);
}
static int
on_ompt_callback_control_tool(
uint64_t command,
uint64_t modifier,
void *arg,
const void *codeptr_ra)
{
ompt_frame_t* omptTaskFrame;
ompt_get_task_info(0, NULL, (ompt_data_t**) NULL, &omptTaskFrame, NULL, NULL);
printf("%" PRIu64 ": ompt_event_control_tool: command=%" PRIu64 ", modifier=%" PRIu64 ", arg=%p, codeptr_ra=%p, current_task_frame.exit=%p, current_task_frame.reenter=%p \n", ompt_get_thread_data()->value, command, modifier, arg, codeptr_ra, omptTaskFrame->exit_frame, omptTaskFrame->enter_frame);
return 0; //success
}
#define register_callback_t(name, type) \
do{ \
type f_##name = &on_##name; \
if (ompt_set_callback(name, (ompt_callback_t)f_##name) == \
ompt_set_never) \
printf("0: Could not register callback '" #name "'\n"); \
}while(0)
#define register_callback(name) register_callback_t(name, name##_t)
int ompt_initialize(
ompt_function_lookup_t lookup,
ompt_data_t *tool_data)
{
ompt_set_callback = (ompt_set_callback_t) lookup("ompt_set_callback");
ompt_get_task_info = (ompt_get_task_info_t) lookup("ompt_get_task_info");
ompt_get_thread_data = (ompt_get_thread_data_t) lookup("ompt_get_thread_data");
ompt_get_parallel_info = (ompt_get_parallel_info_t) lookup("ompt_get_parallel_info");
ompt_get_unique_id = (ompt_get_unique_id_t) lookup("ompt_get_unique_id");
ompt_get_num_procs = (ompt_get_num_procs_t) lookup("ompt_get_num_procs");
ompt_get_num_places = (ompt_get_num_places_t) lookup("ompt_get_num_places");
ompt_get_place_proc_ids = (ompt_get_place_proc_ids_t) lookup("ompt_get_place_proc_ids");
ompt_get_place_num = (ompt_get_place_num_t) lookup("ompt_get_place_num");
ompt_get_partition_place_nums = (ompt_get_partition_place_nums_t) lookup("ompt_get_partition_place_nums");
ompt_get_proc_id = (ompt_get_proc_id_t) lookup("ompt_get_proc_id");
ompt_enumerate_states = (ompt_enumerate_states_t) lookup("ompt_enumerate_states");
ompt_enumerate_mutex_impls = (ompt_enumerate_mutex_impls_t) lookup("ompt_enumerate_mutex_impls");
register_callback(ompt_callback_mutex_acquire);
register_callback_t(ompt_callback_mutex_acquired, ompt_callback_mutex_t);
register_callback_t(ompt_callback_mutex_released, ompt_callback_mutex_t);
register_callback(ompt_callback_nest_lock);
register_callback(ompt_callback_sync_region);
register_callback_t(ompt_callback_sync_region_wait, ompt_callback_sync_region_t);
register_callback(ompt_callback_control_tool);
register_callback(ompt_callback_flush);
register_callback(ompt_callback_cancel);
register_callback(ompt_callback_idle);
register_callback(ompt_callback_implicit_task);
register_callback_t(ompt_callback_lock_init, ompt_callback_mutex_acquire_t);
register_callback_t(ompt_callback_lock_destroy, ompt_callback_mutex_t);
register_callback(ompt_callback_work);
register_callback(ompt_callback_master);
register_callback(ompt_callback_parallel_begin);
register_callback(ompt_callback_parallel_end);
register_callback(ompt_callback_task_create);
register_callback(ompt_callback_task_schedule);
register_callback(ompt_callback_task_dependences);
register_callback(ompt_callback_task_dependence);
register_callback(ompt_callback_thread_begin);
register_callback(ompt_callback_thread_end);
printf("0: NULL_POINTER=%p\n", (void*)NULL);
return 1; //success
}
void ompt_finalize(ompt_data_t *tool_data)
{
printf("0: ompt_event_runtime_shutdown\n");
}
ompt_start_tool_result_t* ompt_start_tool(
unsigned int omp_version,
const char *runtime_version)
{
static ompt_start_tool_result_t ompt_start_tool_result = {&ompt_initialize,&ompt_finalize, 0};
return &ompt_start_tool_result;
}