/* * include/50/omp-tools.h.var */ //===----------------------------------------------------------------------===// // // The LLVM Compiler Infrastructure // // This file is dual licensed under the MIT and the University of Illinois Open // Source Licenses. See LICENSE.txt for details. // //===----------------------------------------------------------------------===// #ifndef __OMPT__ #define __OMPT__ /***************************************************************************** * system include files *****************************************************************************/ #include #include /***************************************************************************** * iteration macros *****************************************************************************/ #define FOREACH_OMPT_INQUIRY_FN(macro) \ macro (ompt_enumerate_states) \ macro (ompt_enumerate_mutex_impls) \ \ macro (ompt_set_callback) \ macro (ompt_get_callback) \ \ macro (ompt_get_state) \ \ macro (ompt_get_parallel_info) \ macro (ompt_get_task_info) \ macro (ompt_get_task_memory) \ macro (ompt_get_thread_data) \ macro (ompt_get_unique_id) \ macro (ompt_finalize_tool) \ \ macro(ompt_get_num_procs) \ macro(ompt_get_num_places) \ macro(ompt_get_place_proc_ids) \ macro(ompt_get_place_num) \ macro(ompt_get_partition_place_nums) \ macro(ompt_get_proc_id) \ \ macro(ompt_get_target_info) \ macro(ompt_get_num_devices) #define FOREACH_OMPT_STATE(macro) \ \ /* first available state */ \ macro (ompt_state_undefined, 0x102) /* undefined thread state */ \ \ /* work states (0..15) */ \ macro (ompt_state_work_serial, 0x000) /* working outside parallel */ \ macro (ompt_state_work_parallel, 0x001) /* working within parallel */ \ macro (ompt_state_work_reduction, 0x002) /* performing a reduction */ \ \ /* barrier wait states (16..31) */ \ macro (ompt_state_wait_barrier, 0x010) /* waiting at a barrier */ \ macro (ompt_state_wait_barrier_implicit_parallel, 0x011) \ /* implicit barrier at the end of parallel region */\ macro (ompt_state_wait_barrier_implicit_workshare, 0x012) \ /* implicit barrier at the end of worksharing */ \ macro (ompt_state_wait_barrier_implicit, 0x013) /* implicit barrier */ \ macro (ompt_state_wait_barrier_explicit, 0x014) /* explicit barrier */ \ \ /* task wait states (32..63) */ \ macro (ompt_state_wait_taskwait, 0x020) /* waiting at a taskwait */ \ macro (ompt_state_wait_taskgroup, 0x021) /* waiting at a taskgroup */ \ \ /* mutex wait states (64..127) */ \ macro (ompt_state_wait_mutex, 0x040) \ macro (ompt_state_wait_lock, 0x041) /* waiting for lock */ \ macro (ompt_state_wait_critical, 0x042) /* waiting for critical */ \ macro (ompt_state_wait_atomic, 0x043) /* waiting for atomic */ \ macro (ompt_state_wait_ordered, 0x044) /* waiting for ordered */ \ \ /* target wait states (128..255) */ \ macro (ompt_state_wait_target, 0x080) /* waiting for target region */ \ macro (ompt_state_wait_target_map, 0x081) /* waiting for target data mapping operation */ \ macro (ompt_state_wait_target_update, 0x082) /* waiting for target update operation */ \ \ /* misc (256..511) */ \ macro (ompt_state_idle, 0x100) /* waiting for work */ \ macro (ompt_state_overhead, 0x101) /* overhead excluding wait states */ \ \ /* implementation-specific states (512..) */ #define FOREACH_KMP_MUTEX_IMPL(macro) \ macro (kmp_mutex_impl_none, 0) /* unknown implementation */ \ macro (kmp_mutex_impl_spin, 1) /* based on spin */ \ macro (kmp_mutex_impl_queuing, 2) /* based on some fair policy */ \ macro (kmp_mutex_impl_speculative, 3) /* based on HW-supported speculation */ #define FOREACH_OMPT_EVENT(macro) \ \ /*--- Mandatory Events ---*/ \ macro (ompt_callback_thread_begin, ompt_callback_thread_begin_t, 1) /* thread begin */ \ macro (ompt_callback_thread_end, ompt_callback_thread_end_t, 2) /* thread end */ \ \ macro (ompt_callback_parallel_begin, ompt_callback_parallel_begin_t, 3) /* parallel begin */ \ macro (ompt_callback_parallel_end, ompt_callback_parallel_end_t, 4) /* parallel end */ \ \ macro (ompt_callback_task_create, ompt_callback_task_create_t, 5) /* task begin */ \ macro (ompt_callback_task_schedule, ompt_callback_task_schedule_t, 6) /* task schedule */ \ macro (ompt_callback_implicit_task, ompt_callback_implicit_task_t, 7) /* implicit task */ \ \ macro (ompt_callback_target, ompt_callback_target_t, 8) /* target */ \ macro (ompt_callback_target_data_op, ompt_callback_target_data_op_t, 9) /* target data op */ \ macro (ompt_callback_target_submit, ompt_callback_target_submit_t, 10) /* target submit */ \ \ macro (ompt_callback_control_tool, ompt_callback_control_tool_t, 11) /* control tool */ \ \ macro (ompt_callback_device_initialize, ompt_callback_device_initialize_t, 12) /* device initialize */ \ macro (ompt_callback_device_finalize, ompt_callback_device_finalize_t, 13) /* device finalize */ \ \ macro (ompt_callback_device_load, ompt_callback_device_load_t, 14) /* device load */ \ macro (ompt_callback_device_unload, ompt_callback_device_unload_t, 15) /* device unload */ \ \ /* Optional Events */ \ macro (ompt_callback_sync_region_wait, ompt_callback_sync_region_t, 16) /* sync region wait begin or end */ \ \ macro (ompt_callback_mutex_released, ompt_callback_mutex_t, 17) /* mutex released */ \ \ macro (ompt_callback_dependences, ompt_callback_dependences_t, 18) /* report task dependences */ \ macro (ompt_callback_task_dependence, ompt_callback_task_dependence_t, 19) /* report task dependence */ \ \ macro (ompt_callback_work, ompt_callback_work_t, 20) /* task at work begin or end */ \ \ macro (ompt_callback_master, ompt_callback_master_t, 21) /* task at master begin or end */ \ \ macro (ompt_callback_target_map, ompt_callback_target_map_t, 22) /* target map */ \ \ macro (ompt_callback_sync_region, ompt_callback_sync_region_t, 23) /* sync region begin or end */ \ \ macro (ompt_callback_lock_init, ompt_callback_mutex_acquire_t, 24) /* lock init */ \ macro (ompt_callback_lock_destroy, ompt_callback_mutex_t, 25) /* lock destroy */ \ \ macro (ompt_callback_mutex_acquire, ompt_callback_mutex_acquire_t, 26) /* mutex acquire */ \ macro (ompt_callback_mutex_acquired, ompt_callback_mutex_t, 27) /* mutex acquired */ \ \ macro (ompt_callback_nest_lock, ompt_callback_nest_lock_t, 28) /* nest lock */ \ \ macro (ompt_callback_flush, ompt_callback_flush_t, 29) /* after executing flush */ \ \ macro (ompt_callback_cancel, ompt_callback_cancel_t, 30) /* cancel innermost binding region */ \ \ macro (ompt_callback_reduction, ompt_callback_sync_region_t, 31) /* reduction */ \ \ macro (ompt_callback_dispatch, ompt_callback_dispatch_t, 32) /* dispatch of work */ /***************************************************************************** * implementation specific types *****************************************************************************/ typedef enum kmp_mutex_impl_t { #define kmp_mutex_impl_macro(impl, code) impl = code, FOREACH_KMP_MUTEX_IMPL(kmp_mutex_impl_macro) #undef kmp_mutex_impl_macro } kmp_mutex_impl_t; /***************************************************************************** * definitions generated from spec *****************************************************************************/ typedef enum ompt_callbacks_t { ompt_callback_thread_begin = 1, ompt_callback_thread_end = 2, ompt_callback_parallel_begin = 3, ompt_callback_parallel_end = 4, ompt_callback_task_create = 5, ompt_callback_task_schedule = 6, ompt_callback_implicit_task = 7, ompt_callback_target = 8, ompt_callback_target_data_op = 9, ompt_callback_target_submit = 10, ompt_callback_control_tool = 11, ompt_callback_device_initialize = 12, ompt_callback_device_finalize = 13, ompt_callback_device_load = 14, ompt_callback_device_unload = 15, ompt_callback_sync_region_wait = 16, ompt_callback_mutex_released = 17, ompt_callback_dependences = 18, ompt_callback_task_dependence = 19, ompt_callback_work = 20, ompt_callback_master = 21, ompt_callback_target_map = 22, ompt_callback_sync_region = 23, ompt_callback_lock_init = 24, ompt_callback_lock_destroy = 25, ompt_callback_mutex_acquire = 26, ompt_callback_mutex_acquired = 27, ompt_callback_nest_lock = 28, ompt_callback_flush = 29, ompt_callback_cancel = 30, ompt_callback_reduction = 31, ompt_callback_dispatch = 32 } ompt_callbacks_t; typedef enum ompt_record_t { ompt_record_ompt = 1, ompt_record_native = 2, ompt_record_invalid = 3 } ompt_record_t; typedef enum ompt_record_native_t { ompt_record_native_info = 1, ompt_record_native_event = 2 } ompt_record_native_t; typedef enum ompt_set_result_t { ompt_set_error = 0, ompt_set_never = 1, ompt_set_impossible = 2, ompt_set_sometimes = 3, ompt_set_sometimes_paired = 4, ompt_set_always = 5 } ompt_set_result_t; typedef uint64_t ompt_id_t; typedef uint64_t ompt_device_time_t; typedef uint64_t ompt_buffer_cursor_t; typedef enum ompt_thread_t { ompt_thread_initial = 1, ompt_thread_worker = 2, ompt_thread_other = 3, ompt_thread_unknown = 4 } ompt_thread_t; typedef enum ompt_scope_endpoint_t { ompt_scope_begin = 1, ompt_scope_end = 2 } ompt_scope_endpoint_t; typedef enum ompt_dispatch_t { ompt_dispatch_iteration = 1, ompt_dispatch_section = 2 } ompt_dispatch_t; typedef enum ompt_sync_region_t { ompt_sync_region_barrier = 1, ompt_sync_region_barrier_implicit = 2, ompt_sync_region_barrier_explicit = 3, ompt_sync_region_barrier_implementation = 4, ompt_sync_region_taskwait = 5, ompt_sync_region_taskgroup = 6, ompt_sync_region_reduction = 7 } ompt_sync_region_t; typedef enum ompt_target_data_op_t { ompt_target_data_alloc = 1, ompt_target_data_transfer_to_device = 2, ompt_target_data_transfer_from_device = 3, ompt_target_data_delete = 4, ompt_target_data_associate = 5, ompt_target_data_disassociate = 6 } ompt_target_data_op_t; typedef enum ompt_work_t { ompt_work_loop = 1, ompt_work_sections = 2, ompt_work_single_executor = 3, ompt_work_single_other = 4, ompt_work_workshare = 5, ompt_work_distribute = 6, ompt_work_taskloop = 7 } ompt_work_t; typedef enum ompt_mutex_t { ompt_mutex_lock = 1, ompt_mutex_test_lock = 2, ompt_mutex_nest_lock = 3, ompt_mutex_test_nest_lock = 4, ompt_mutex_critical = 5, ompt_mutex_atomic = 6, ompt_mutex_ordered = 7 } ompt_mutex_t; typedef enum ompt_native_mon_flag_t { ompt_native_data_motion_explicit = 0x01, ompt_native_data_motion_implicit = 0x02, ompt_native_kernel_invocation = 0x04, ompt_native_kernel_execution = 0x08, ompt_native_driver = 0x10, ompt_native_runtime = 0x20, ompt_native_overhead = 0x40, ompt_native_idleness = 0x80 } ompt_native_mon_flag_t; typedef enum ompt_task_flag_t { ompt_task_initial = 0x00000001, ompt_task_implicit = 0x00000002, ompt_task_explicit = 0x00000004, ompt_task_target = 0x00000008, ompt_task_undeferred = 0x08000000, ompt_task_untied = 0x10000000, ompt_task_final = 0x20000000, ompt_task_mergeable = 0x40000000, ompt_task_merged = 0x80000000 } ompt_task_flag_t; typedef enum ompt_task_status_t { ompt_task_complete = 1, ompt_task_yield = 2, ompt_task_cancel = 3, ompt_task_detach = 4, ompt_task_early_fulfill = 5, ompt_task_late_fulfill = 6, ompt_task_switch = 7 } ompt_task_status_t; typedef enum ompt_target_t { ompt_target = 1, ompt_target_enter_data = 2, ompt_target_exit_data = 3, ompt_target_update = 4 } ompt_target_t; typedef enum ompt_parallel_flag_t { ompt_parallel_invoker_program = 0x00000001, ompt_parallel_invoker_runtime = 0x00000002, ompt_parallel_league = 0x40000000, ompt_parallel_team = 0x80000000 } ompt_parallel_flag_t; typedef enum ompt_target_map_flag_t { ompt_target_map_flag_to = 0x01, ompt_target_map_flag_from = 0x02, ompt_target_map_flag_alloc = 0x04, ompt_target_map_flag_release = 0x08, ompt_target_map_flag_delete = 0x10, ompt_target_map_flag_implicit = 0x20 } ompt_target_map_flag_t; typedef enum ompt_dependence_type_t { ompt_dependence_type_in = 1, ompt_dependence_type_out = 2, ompt_dependence_type_inout = 3, ompt_dependence_type_mutexinoutset = 4, ompt_dependence_type_source = 5, ompt_dependence_type_sink = 6 } ompt_dependence_type_t; typedef enum ompt_cancel_flag_t { ompt_cancel_parallel = 0x01, ompt_cancel_sections = 0x02, ompt_cancel_loop = 0x04, ompt_cancel_taskgroup = 0x08, ompt_cancel_activated = 0x10, ompt_cancel_detected = 0x20, ompt_cancel_discarded_task = 0x40 } ompt_cancel_flag_t; typedef uint64_t ompt_hwid_t; typedef uint64_t ompt_wait_id_t; typedef enum ompt_frame_flag_t { ompt_frame_runtime = 0x00, ompt_frame_application = 0x01, ompt_frame_cfa = 0x10, ompt_frame_framepointer = 0x20, ompt_frame_stackaddress = 0x30 } ompt_frame_flag_t; typedef enum ompt_state_t { ompt_state_work_serial = 0x000, ompt_state_work_parallel = 0x001, ompt_state_work_reduction = 0x002, ompt_state_wait_barrier = 0x010, ompt_state_wait_barrier_implicit_parallel = 0x011, ompt_state_wait_barrier_implicit_workshare = 0x012, ompt_state_wait_barrier_implicit = 0x013, ompt_state_wait_barrier_explicit = 0x014, ompt_state_wait_taskwait = 0x020, ompt_state_wait_taskgroup = 0x021, ompt_state_wait_mutex = 0x040, ompt_state_wait_lock = 0x041, ompt_state_wait_critical = 0x042, ompt_state_wait_atomic = 0x043, ompt_state_wait_ordered = 0x044, ompt_state_wait_target = 0x080, ompt_state_wait_target_map = 0x081, ompt_state_wait_target_update = 0x082, ompt_state_idle = 0x100, ompt_state_overhead = 0x101, ompt_state_undefined = 0x102 } ompt_state_t; typedef uint64_t (*ompt_get_unique_id_t) (void); typedef uint64_t ompd_size_t; typedef uint64_t ompd_wait_id_t; typedef uint64_t ompd_addr_t; typedef int64_t ompd_word_t; typedef uint64_t ompd_seg_t; typedef uint64_t ompd_device_t; typedef uint64_t ompd_thread_id_t; typedef enum ompd_scope_t { ompd_scope_global = 1, ompd_scope_address_space = 2, ompd_scope_thread = 3, ompd_scope_parallel = 4, ompd_scope_implicit_task = 5, ompd_scope_task = 6 } ompd_scope_t; typedef uint64_t ompd_icv_id_t; typedef enum ompd_rc_t { ompd_rc_ok = 0, ompd_rc_unavailable = 1, ompd_rc_stale_handle = 2, ompd_rc_bad_input = 3, ompd_rc_error = 4, ompd_rc_unsupported = 5, ompd_rc_needs_state_tracking = 6, ompd_rc_incompatible = 7, ompd_rc_device_read_error = 8, ompd_rc_device_write_error = 9, ompd_rc_nomem = 10, } ompd_rc_t; typedef void (*ompt_interface_fn_t) (void); typedef ompt_interface_fn_t (*ompt_function_lookup_t) ( const char *interface_function_name ); typedef union ompt_data_t { uint64_t value; void *ptr; } ompt_data_t; typedef struct ompt_frame_t { ompt_data_t exit_frame; ompt_data_t enter_frame; int exit_frame_flags; int enter_frame_flags; } ompt_frame_t; typedef void (*ompt_callback_t) (void); typedef void ompt_device_t; typedef void ompt_buffer_t; typedef void (*ompt_callback_buffer_request_t) ( int device_num, ompt_buffer_t **buffer, size_t *bytes ); typedef void (*ompt_callback_buffer_complete_t) ( int device_num, ompt_buffer_t *buffer, size_t bytes, ompt_buffer_cursor_t begin, int buffer_owned ); typedef void (*ompt_finalize_t) ( ompt_data_t *tool_data ); typedef int (*ompt_initialize_t) ( ompt_function_lookup_t lookup, int initial_device_num, ompt_data_t *tool_data ); typedef struct ompt_start_tool_result_t { ompt_initialize_t initialize; ompt_finalize_t finalize; ompt_data_t tool_data; } ompt_start_tool_result_t; typedef struct ompt_record_abstract_t { ompt_record_native_t rclass; const char *type; ompt_device_time_t start_time; ompt_device_time_t end_time; ompt_hwid_t hwid; } ompt_record_abstract_t; typedef struct ompt_dependence_t { ompt_data_t variable; ompt_dependence_type_t dependence_type; } ompt_dependence_t; typedef int (*ompt_enumerate_states_t) ( int current_state, int *next_state, const char **next_state_name ); typedef int (*ompt_enumerate_mutex_impls_t) ( int current_impl, int *next_impl, const char **next_impl_name ); typedef ompt_set_result_t (*ompt_set_callback_t) ( ompt_callbacks_t event, ompt_callback_t callback ); typedef int (*ompt_get_callback_t) ( ompt_callbacks_t event, ompt_callback_t *callback ); typedef ompt_data_t *(*ompt_get_thread_data_t) (void); typedef int (*ompt_get_num_procs_t) (void); typedef int (*ompt_get_num_places_t) (void); typedef int (*ompt_get_place_proc_ids_t) ( int place_num, int ids_size, int *ids ); typedef int (*ompt_get_place_num_t) (void); typedef int (*ompt_get_partition_place_nums_t) ( int place_nums_size, int *place_nums ); typedef int (*ompt_get_proc_id_t) (void); typedef int (*ompt_get_state_t) ( ompt_wait_id_t *wait_id ); typedef int (*ompt_get_parallel_info_t) ( int ancestor_level, ompt_data_t **parallel_data, int *team_size ); typedef int (*ompt_get_task_info_t) ( int ancestor_level, int *flags, ompt_data_t **task_data, ompt_frame_t **task_frame, ompt_data_t **parallel_data, int *thread_num ); typedef int (*ompt_get_task_memory_t)( void **addr, size_t *size, int block ); typedef int (*ompt_get_target_info_t) ( uint64_t *device_num, ompt_id_t *target_id, ompt_id_t *host_op_id ); typedef int (*ompt_get_num_devices_t) (void); typedef void (*ompt_finalize_tool_t) (void); typedef int (*ompt_get_device_num_procs_t) ( ompt_device_t *device ); typedef ompt_device_time_t (*ompt_get_device_time_t) ( ompt_device_t *device ); typedef double (*ompt_translate_time_t) ( ompt_device_t *device, ompt_device_time_t time ); typedef ompt_set_result_t (*ompt_set_trace_ompt_t) ( ompt_device_t *device, unsigned int enable, unsigned int etype ); typedef ompt_set_result_t (*ompt_set_trace_native_t) ( ompt_device_t *device, int enable, int flags ); typedef int (*ompt_start_trace_t) ( ompt_device_t *device, ompt_callback_buffer_request_t request, ompt_callback_buffer_complete_t complete ); typedef int (*ompt_pause_trace_t) ( ompt_device_t *device, int begin_pause ); typedef int (*ompt_flush_trace_t) ( ompt_device_t *device ); typedef int (*ompt_stop_trace_t) ( ompt_device_t *device ); typedef int (*ompt_advance_buffer_cursor_t) ( ompt_device_t *device, ompt_buffer_t *buffer, size_t size, ompt_buffer_cursor_t current, ompt_buffer_cursor_t *next ); typedef ompt_record_t (*ompt_get_record_type_t) ( ompt_buffer_t *buffer, ompt_buffer_cursor_t current ); typedef void *(*ompt_get_record_native_t) ( ompt_buffer_t *buffer, ompt_buffer_cursor_t current, ompt_id_t *host_op_id ); typedef ompt_record_abstract_t * (*ompt_get_record_abstract_t) ( void *native_record ); typedef void (*ompt_callback_thread_begin_t) ( ompt_thread_t thread_type, ompt_data_t *thread_data ); typedef struct ompt_record_thread_begin_t { ompt_thread_t thread_type; } ompt_record_thread_begin_t; typedef void (*ompt_callback_thread_end_t) ( ompt_data_t *thread_data ); typedef void (*ompt_callback_parallel_begin_t) ( ompt_data_t *encountering_task_data, const ompt_frame_t *encountering_task_frame, ompt_data_t *parallel_data, unsigned int requested_parallelism, int flags, const void *codeptr_ra ); typedef struct ompt_record_parallel_begin_t { ompt_id_t encountering_task_id; ompt_id_t parallel_id; unsigned int requested_parallelism; int flags; const void *codeptr_ra; } ompt_record_parallel_begin_t; typedef void (*ompt_callback_parallel_end_t) ( ompt_data_t *parallel_data, ompt_data_t *encountering_task_data, int flags, const void *codeptr_ra ); typedef struct ompt_record_parallel_end_t { ompt_id_t parallel_id; ompt_id_t encountering_task_id; int flags; const void *codeptr_ra; } ompt_record_parallel_end_t; typedef void (*ompt_callback_work_t) ( ompt_work_t wstype, ompt_scope_endpoint_t endpoint, ompt_data_t *parallel_data, ompt_data_t *task_data, uint64_t count, const void *codeptr_ra ); typedef struct ompt_record_work_t { ompt_work_t wstype; ompt_scope_endpoint_t endpoint; ompt_id_t parallel_id; ompt_id_t task_id; uint64_t count; const void *codeptr_ra; } ompt_record_work_t; typedef void (*ompt_callback_dispatch_t) ( ompt_data_t *parallel_data, ompt_data_t *task_data, ompt_dispatch_t kind, ompt_data_t instance ); typedef struct ompt_record_dispatch_t { ompt_id_t parallel_id; ompt_id_t task_id; ompt_dispatch_t kind; ompt_data_t instance; } ompt_record_dispatch_t; typedef void (*ompt_callback_task_create_t) ( ompt_data_t *encountering_task_data, const ompt_frame_t *encountering_task_frame, ompt_data_t *new_task_data, int flags, int has_dependences, const void *codeptr_ra ); typedef struct ompt_record_task_create_t { ompt_id_t encountering_task_id; ompt_id_t new_task_id; int flags; int has_dependences; const void *codeptr_ra; } ompt_record_task_create_t; typedef void (*ompt_callback_dependences_t) ( ompt_data_t *task_data, const ompt_dependence_t *deps, int ndeps ); typedef struct ompt_record_dependences_t { ompt_id_t task_id; ompt_dependence_t dep; int ndeps; } ompt_record_dependences_t; typedef void (*ompt_callback_task_dependence_t) ( ompt_data_t *src_task_data, ompt_data_t *sink_task_data ); typedef struct ompt_record_task_dependence_t { ompt_id_t src_task_id; ompt_id_t sink_task_id; } ompt_record_task_dependence_t; typedef void (*ompt_callback_task_schedule_t) ( ompt_data_t *prior_task_data, ompt_task_status_t prior_task_status, ompt_data_t *next_task_data ); typedef struct ompt_record_task_schedule_t { ompt_id_t prior_task_id; ompt_task_status_t prior_task_status; ompt_id_t next_task_id; } ompt_record_task_schedule_t; typedef void (*ompt_callback_implicit_task_t) ( ompt_scope_endpoint_t endpoint, ompt_data_t *parallel_data, ompt_data_t *task_data, unsigned int actual_parallelism, unsigned int index, int flags ); typedef struct ompt_record_implicit_task_t { ompt_scope_endpoint_t endpoint; ompt_id_t parallel_id; ompt_id_t task_id; unsigned int actual_parallelism; unsigned int index; int flags; } ompt_record_implicit_task_t; typedef void (*ompt_callback_master_t) ( ompt_scope_endpoint_t endpoint, ompt_data_t *parallel_data, ompt_data_t *task_data, const void *codeptr_ra ); typedef struct ompt_record_master_t { ompt_scope_endpoint_t endpoint; ompt_id_t parallel_id; ompt_id_t task_id; const void *codeptr_ra; } ompt_record_master_t; typedef void (*ompt_callback_sync_region_t) ( ompt_sync_region_t kind, ompt_scope_endpoint_t endpoint, ompt_data_t *parallel_data, ompt_data_t *task_data, const void *codeptr_ra ); typedef struct ompt_record_sync_region_t { ompt_sync_region_t kind; ompt_scope_endpoint_t endpoint; ompt_id_t parallel_id; ompt_id_t task_id; const void *codeptr_ra; } ompt_record_sync_region_t; typedef void (*ompt_callback_mutex_acquire_t) ( ompt_mutex_t kind, unsigned int hint, unsigned int impl, ompt_wait_id_t wait_id, const void *codeptr_ra ); typedef struct ompt_record_mutex_acquire_t { ompt_mutex_t kind; unsigned int hint; unsigned int impl; ompt_wait_id_t wait_id; const void *codeptr_ra; } ompt_record_mutex_acquire_t; typedef void (*ompt_callback_mutex_t) ( ompt_mutex_t kind, ompt_wait_id_t wait_id, const void *codeptr_ra ); typedef struct ompt_record_mutex_t { ompt_mutex_t kind; ompt_wait_id_t wait_id; const void *codeptr_ra; } ompt_record_mutex_t; typedef void (*ompt_callback_nest_lock_t) ( ompt_scope_endpoint_t endpoint, ompt_wait_id_t wait_id, const void *codeptr_ra ); typedef struct ompt_record_nest_lock_t { ompt_scope_endpoint_t endpoint; ompt_wait_id_t wait_id; const void *codeptr_ra; } ompt_record_nest_lock_t; typedef void (*ompt_callback_flush_t) ( ompt_data_t *thread_data, const void *codeptr_ra ); typedef struct ompt_record_flush_t { const void *codeptr_ra; } ompt_record_flush_t; typedef void (*ompt_callback_cancel_t) ( ompt_data_t *task_data, int flags, const void *codeptr_ra ); typedef struct ompt_record_cancel_t { ompt_id_t task_id; int flags; const void *codeptr_ra; } ompt_record_cancel_t; typedef void (*ompt_callback_device_initialize_t) ( int device_num, const char *type, ompt_device_t *device, ompt_function_lookup_t lookup, const char *documentation ); typedef void (*ompt_callback_device_finalize_t) ( int device_num ); typedef void (*ompt_callback_device_load_t) ( int device_num, const char *filename, int64_t offset_in_file, void *vma_in_file, size_t bytes, void *host_addr, void *device_addr, uint64_t module_id ); typedef void (*ompt_callback_device_unload_t) ( int device_num, uint64_t module_id ); typedef void (*ompt_callback_target_data_op_t) ( ompt_id_t target_id, ompt_id_t host_op_id, ompt_target_data_op_t optype, void *src_addr, int src_device_num, void *dest_addr, int dest_device_num, size_t bytes, const void *codeptr_ra ); typedef struct ompt_record_target_data_op_t { ompt_id_t host_op_id; ompt_target_data_op_t optype; void *src_addr; int src_device_num; void *dest_addr; int dest_device_num; size_t bytes; ompt_device_time_t end_time; const void *codeptr_ra; } ompt_record_target_data_op_t; typedef void (*ompt_callback_target_t) ( ompt_target_t kind, ompt_scope_endpoint_t endpoint, int device_num, ompt_data_t *task_data, ompt_id_t target_id, const void *codeptr_ra ); typedef struct ompt_record_target_t { ompt_target_t kind; ompt_scope_endpoint_t endpoint; int device_num; ompt_id_t task_id; ompt_id_t target_id; const void *codeptr_ra; } ompt_record_target_t; typedef void (*ompt_callback_target_map_t) ( ompt_id_t target_id, unsigned int nitems, void **host_addr, void **device_addr, size_t *bytes, unsigned int *mapping_flags, const void *codeptr_ra ); typedef struct ompt_record_target_map_t { ompt_id_t target_id; unsigned int nitems; void **host_addr; void **device_addr; size_t *bytes; unsigned int *mapping_flags; const void *codeptr_ra; } ompt_record_target_map_t; typedef void (*ompt_callback_target_submit_t) ( ompt_id_t target_id, ompt_id_t host_op_id, unsigned int requested_num_teams ); typedef struct ompt_record_target_kernel_t { ompt_id_t host_op_id; unsigned int requested_num_teams; unsigned int granted_num_teams; ompt_device_time_t end_time; } ompt_record_target_kernel_t; typedef int (*ompt_callback_control_tool_t) ( uint64_t command, uint64_t modifier, void *arg, const void *codeptr_ra ); typedef struct ompt_record_control_tool_t { uint64_t command; uint64_t modifier; const void *codeptr_ra; } ompt_record_control_tool_t; typedef struct ompd_address_t { ompd_seg_t segment; ompd_addr_t address; } ompd_address_t; typedef struct ompd_frame_info_t { ompd_address_t frame_address; ompd_word_t frame_flag; } ompd_frame_info_t; typedef struct _ompd_aspace_handle ompd_address_space_handle_t; typedef struct _ompd_thread_handle ompd_thread_handle_t; typedef struct _ompd_parallel_handle ompd_parallel_handle_t; typedef struct _ompd_task_handle ompd_task_handle_t; typedef struct _ompd_aspace_cont ompd_address_space_context_t; typedef struct _ompd_thread_cont ompd_thread_context_t; typedef struct ompd_device_type_sizes_t { uint8_t sizeof_char; uint8_t sizeof_short; uint8_t sizeof_int; uint8_t sizeof_long; uint8_t sizeof_long_long; uint8_t sizeof_pointer; } ompd_device_type_sizes_t; typedef struct ompt_record_ompt_t { ompt_callbacks_t type; ompt_device_time_t time; ompt_id_t thread_id; ompt_id_t target_id; union { ompt_record_thread_begin_t thread_begin; ompt_record_parallel_begin_t parallel_begin; ompt_record_parallel_end_t parallel_end; ompt_record_work_t work; ompt_record_dispatch_t dispatch; ompt_record_task_create_t task_create; ompt_record_dependences_t dependences; ompt_record_task_dependence_t task_dependence; ompt_record_task_schedule_t task_schedule; ompt_record_implicit_task_t implicit_task; ompt_record_master_t master; ompt_record_sync_region_t sync_region; ompt_record_mutex_acquire_t mutex_acquire; ompt_record_mutex_t mutex; ompt_record_nest_lock_t nest_lock; ompt_record_flush_t flush; ompt_record_cancel_t cancel; ompt_record_target_t target; ompt_record_target_data_op_t target_data_op; ompt_record_target_map_t target_map; ompt_record_target_kernel_t target_kernel; ompt_record_control_tool_t control_tool; } record; } ompt_record_ompt_t; typedef ompt_record_ompt_t *(*ompt_get_record_ompt_t) ( ompt_buffer_t *buffer, ompt_buffer_cursor_t current ); #define ompt_id_none 0 #define ompt_data_none {0} #define ompt_time_none 0 #define ompt_hwid_none 0 #define ompt_addr_none ~0 #define ompt_mutex_impl_none 0 #define ompt_wait_id_none 0 #define ompd_segment_none 0 #endif /* __OMPT__ */