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llvm-project/openmp/libompd/src/omp-icv.cpp
Joachim 822142ffdf
[OpenMP][OMPD] libompd must not link libomp (#83119) 
Fixes a regression introduced in 91ccd8248.
The code for libompd includes kmp.h for enum kmp_sched. The dependency
to hwloc is not necessary. Avoid the dependency by skipping the
definitions in kmp.h using types from hwloc.h.

Fixes #80750
2024-02-27 16:24:55 +01:00

1279 lines
42 KiB
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/*
* omp-icv.cpp -- OMPD Internal Control Variable handling
*/
//===----------------------------------------------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
// clang-format off
/* clang-format expect kmp.h before omp.h which results in build break
* due to a few redeclarations.
*/
#include "omp-debug.h"
// NOLINTNEXTLINE "to avoid clang tidy warning for the same reason as above."
#include "omp.h"
#include "ompd-private.h"
#include "TargetValue.h"
#define OMPD_SKIP_HWLOC 1
#include "kmp.h"
#undef OMPD_SKIP_HWLOC
#include <cstring>
/* The ICVs ompd-final-var and ompd-implicit-var below are for backward
* compatibility with 5.0.
*/
#define FOREACH_OMPD_ICV(macro) \
macro(dyn_var, "dyn-var", ompd_scope_thread, 0) \
macro(run_sched_var, "run-sched-var", ompd_scope_task, 0) \
macro(stacksize_var, "stacksize-var", ompd_scope_address_space, 0) \
macro(cancel_var, "cancel-var", ompd_scope_address_space, 0) \
macro(max_task_priority_var, "max-task-priority-var", ompd_scope_address_space, 0)\
macro(debug_var, "debug-var", ompd_scope_address_space, 0) \
macro(nthreads_var, "nthreads-var", ompd_scope_thread, 0) \
macro(display_affinity_var, "display-affinity-var", ompd_scope_address_space, 0) \
macro(affinity_format_var, "affinity-format-var", ompd_scope_address_space, 0) \
macro(default_device_var, "default-device-var", ompd_scope_thread, 0) \
macro(tool_var, "tool-var", ompd_scope_address_space, 0) \
macro(tool_libraries_var, "tool-libraries-var", ompd_scope_address_space, 0) \
macro(tool_verbose_init_var, "tool-verbose-init-var", ompd_scope_address_space, 0)\
macro(levels_var, "levels-var", ompd_scope_parallel, 1) \
macro(active_levels_var, "active-levels-var", ompd_scope_parallel, 0) \
macro(thread_limit_var, "thread-limit-var", ompd_scope_task, 0) \
macro(max_active_levels_var, "max-active-levels-var", ompd_scope_task, 0) \
macro(bind_var, "bind-var", ompd_scope_task, 0) \
macro(num_procs_var, "num-procs-var", ompd_scope_address_space, 0) \
macro(ompd_num_procs_var, "ompd-num-procs-var", ompd_scope_address_space, 0) \
macro(thread_num_var, "thread-num-var", ompd_scope_thread, 1) \
macro(ompd_thread_num_var, "ompd-thread-num-var", ompd_scope_thread, 1) \
macro(final_var, "final-task-var", ompd_scope_task, 0) \
macro(ompd_final_var, "ompd-final-var", ompd_scope_task, 0) \
macro(ompd_final_task_var, "ompd-final-task-var", ompd_scope_task, 0) \
macro(implicit_var, "implicit-task-var", ompd_scope_task, 0) \
macro(ompd_implicit_var, "ompd-implicit-var", ompd_scope_task, 0) \
macro(ompd_implicit_task_var, "ompd-implicit-task-var", ompd_scope_task, 0) \
macro(team_size_var, "team-size-var", ompd_scope_parallel, 1) \
macro(ompd_team_size_var, "ompd-team-size-var", ompd_scope_parallel, 1)
void __ompd_init_icvs(const ompd_callbacks_t *table) { callbacks = table; }
enum ompd_icv {
ompd_icv_undefined_marker =
0, // ompd_icv_undefined is already defined in ompd.h
#define ompd_icv_macro(v, n, s, d) ompd_icv_##v,
FOREACH_OMPD_ICV(ompd_icv_macro)
#undef ompd_icv_macro
ompd_icv_after_last_icv
};
static const char *ompd_icv_string_values[] = {"undefined",
#define ompd_icv_macro(v, n, s, d) n,
FOREACH_OMPD_ICV(ompd_icv_macro)
#undef ompd_icv_macro
};
static const ompd_scope_t ompd_icv_scope_values[] = {
ompd_scope_global, // undefined marker
#define ompd_icv_macro(v, n, s, d) s,
FOREACH_OMPD_ICV(ompd_icv_macro)
#undef ompd_icv_macro
};
// clang-format on
ompd_rc_t ompd_enumerate_icvs(ompd_address_space_handle_t *handle,
ompd_icv_id_t current, ompd_icv_id_t *next_id,
const char **next_icv_name,
ompd_scope_t *next_scope, int *more) {
if (!handle) {
return ompd_rc_stale_handle;
}
if (!next_id || !next_icv_name || !next_scope || !more) {
return ompd_rc_bad_input;
}
if (current + 1 >= ompd_icv_after_last_icv) {
return ompd_rc_bad_input;
}
*next_id = current + 1;
char *icv_name = NULL;
ompd_rc_t ret = callbacks->alloc_memory(
std::strlen(ompd_icv_string_values[*next_id]) + 1, (void **)&icv_name);
*next_icv_name = icv_name;
if (ret != ompd_rc_ok) {
return ret;
}
std::strcpy(icv_name, ompd_icv_string_values[*next_id]);
*next_scope = ompd_icv_scope_values[*next_id];
if ((*next_id) + 1 >= ompd_icv_after_last_icv) {
*more = 0;
} else {
*more = 1;
}
return ompd_rc_ok;
}
static ompd_rc_t create_empty_string(const char **empty_string_ptr) {
char *empty_str;
ompd_rc_t ret;
if (!callbacks) {
return ompd_rc_callback_error;
}
ret = callbacks->alloc_memory(1, (void **)&empty_str);
if (ret != ompd_rc_ok) {
return ret;
}
empty_str[0] = '\0';
*empty_string_ptr = empty_str;
return ompd_rc_ok;
}
static ompd_rc_t ompd_get_dynamic(
ompd_thread_handle_t *thread_handle, /* IN: OpenMP thread handle */
ompd_word_t *dyn_val /* OUT: Dynamic adjustment of threads */
) {
if (!thread_handle)
return ompd_rc_stale_handle;
if (!thread_handle->ah)
return ompd_rc_stale_handle;
ompd_address_space_context_t *context = thread_handle->ah->context;
if (!context)
return ompd_rc_stale_handle;
if (!callbacks) {
return ompd_rc_callback_error;
}
int8_t dynamic;
ompd_rc_t ret =
TValue(context, thread_handle->th) /*__kmp_threads[t]->th*/
.cast("kmp_base_info_t")
.access("th_current_task") /*__kmp_threads[t]->th.th_current_task*/
.cast("kmp_taskdata_t", 1)
.access("td_icvs") /*__kmp_threads[t]->th.th_current_task->td_icvs*/
.cast("kmp_internal_control_t", 0)
.access(
"dynamic") /*__kmp_threads[t]->th.th_current_task->td_icvs.dynamic*/
.castBase()
.getValue(dynamic);
*dyn_val = dynamic;
return ret;
}
static ompd_rc_t
ompd_get_stacksize(ompd_address_space_handle_t
*addr_handle, /* IN: handle for the address space */
ompd_word_t *stacksize_val /* OUT: per thread stack size */
) {
ompd_address_space_context_t *context = addr_handle->context;
if (!context)
return ompd_rc_stale_handle;
ompd_rc_t ret;
if (!callbacks) {
return ompd_rc_callback_error;
}
size_t stacksize;
ret = TValue(context, "__kmp_stksize")
.castBase("__kmp_stksize")
.getValue(stacksize);
*stacksize_val = stacksize;
return ret;
}
static ompd_rc_t ompd_get_cancellation(
ompd_address_space_handle_t
*addr_handle, /* IN: handle for the address space */
ompd_word_t *cancellation_val /* OUT: cancellation value */
) {
ompd_address_space_context_t *context = addr_handle->context;
if (!context)
return ompd_rc_stale_handle;
if (!callbacks) {
return ompd_rc_callback_error;
}
ompd_rc_t ret;
int omp_cancellation;
ret = TValue(context, "__kmp_omp_cancellation")
.castBase("__kmp_omp_cancellation")
.getValue(omp_cancellation);
*cancellation_val = omp_cancellation;
return ret;
}
static ompd_rc_t ompd_get_max_task_priority(
ompd_address_space_handle_t
*addr_handle, /* IN: handle for the address space */
ompd_word_t *max_task_priority_val /* OUT: max task priority value */
) {
ompd_address_space_context_t *context = addr_handle->context;
if (!context)
return ompd_rc_stale_handle;
if (!callbacks) {
return ompd_rc_callback_error;
}
ompd_rc_t ret;
int max_task_priority;
ret = TValue(context, "__kmp_max_task_priority")
.castBase("__kmp_max_task_priority")
.getValue(max_task_priority);
*max_task_priority_val = max_task_priority;
return ret;
}
static ompd_rc_t
ompd_get_debug(ompd_address_space_handle_t
*addr_handle, /* IN: handle for the address space */
ompd_word_t *debug_val /* OUT: debug value */
) {
ompd_address_space_context_t *context = addr_handle->context;
if (!context)
return ompd_rc_stale_handle;
if (!callbacks) {
return ompd_rc_callback_error;
}
ompd_rc_t ret;
uint64_t ompd_state_val;
ret = TValue(context, "ompd_state")
.castBase("ompd_state")
.getValue(ompd_state_val);
if (ompd_state_val > 0) {
*debug_val = 1;
} else {
*debug_val = 0;
}
return ret;
}
/* Helper routine for the ompd_get_nthreads routines */
static ompd_rc_t ompd_get_nthreads_aux(ompd_thread_handle_t *thread_handle,
uint32_t *used,
uint32_t *current_nesting_level,
uint32_t *nproc) {
if (!thread_handle)
return ompd_rc_stale_handle;
if (!thread_handle->ah)
return ompd_rc_stale_handle;
ompd_address_space_context_t *context = thread_handle->ah->context;
if (!context)
return ompd_rc_stale_handle;
if (!callbacks) {
return ompd_rc_callback_error;
}
ompd_rc_t ret = TValue(context, "__kmp_nested_nth")
.cast("kmp_nested_nthreads_t")
.access("used")
.castBase(ompd_type_int)
.getValue(*used);
if (ret != ompd_rc_ok)
return ret;
TValue taskdata =
TValue(context, thread_handle->th) /*__kmp_threads[t]->th*/
.cast("kmp_base_info_t")
.access("th_current_task") /*__kmp_threads[t]->th.th_current_task*/
.cast("kmp_taskdata_t", 1);
ret = taskdata
.access("td_team") /*__kmp_threads[t]->th.th_current_task.td_team*/
.cast("kmp_team_p", 1)
.access("t") /*__kmp_threads[t]->th.th_current_task.td_team->t*/
.cast("kmp_base_team_t", 0) /*t*/
.access("t_level") /*t.t_level*/
.castBase(ompd_type_int)
.getValue(*current_nesting_level);
if (ret != ompd_rc_ok)
return ret;
ret = taskdata.cast("kmp_taskdata_t", 1)
.access("td_icvs") /*__kmp_threads[t]->th.th_current_task->td_icvs*/
.cast("kmp_internal_control_t", 0)
.access(
"nproc") /*__kmp_threads[t]->th.th_current_task->td_icvs.nproc*/
.castBase(ompd_type_int)
.getValue(*nproc);
if (ret != ompd_rc_ok)
return ret;
return ompd_rc_ok;
}
static ompd_rc_t ompd_get_nthreads(
ompd_thread_handle_t *thread_handle, /* IN: handle for the thread */
ompd_word_t *nthreads_var_val /* OUT: nthreads-var (of integer type)
value */
) {
uint32_t used;
uint32_t nproc;
uint32_t current_nesting_level;
ompd_rc_t ret;
ret = ompd_get_nthreads_aux(thread_handle, &used, &current_nesting_level,
&nproc);
if (ret != ompd_rc_ok)
return ret;
/*__kmp_threads[t]->th.th_current_task->td_icvs.nproc*/
*nthreads_var_val = nproc;
/* If the nthreads-var is a list with more than one element, then the value of
this ICV cannot be represented by an integer type. In this case,
ompd_rc_incomplete is returned. The tool can check the return value and
can choose to invoke ompd_get_icv_string_from_scope() if needed. */
if (current_nesting_level < used - 1) {
return ompd_rc_incomplete;
}
return ompd_rc_ok;
}
static ompd_rc_t ompd_get_nthreads(
ompd_thread_handle_t *thread_handle, /* IN: handle for the thread */
const char **nthreads_list_string /* OUT: string list of comma separated
nthreads values */
) {
uint32_t used;
uint32_t nproc;
uint32_t current_nesting_level;
ompd_rc_t ret;
ret = ompd_get_nthreads_aux(thread_handle, &used, &current_nesting_level,
&nproc);
if (ret != ompd_rc_ok)
return ret;
uint32_t num_list_elems;
if (used == 0 || current_nesting_level >= used) {
num_list_elems = 1;
} else {
num_list_elems = used - current_nesting_level;
}
size_t buffer_size = 16 /* digits per element including the comma separator */
* num_list_elems +
1; /* string terminator NULL */
char *nthreads_list_str;
ret = callbacks->alloc_memory(buffer_size, (void **)&nthreads_list_str);
if (ret != ompd_rc_ok)
return ret;
/* The nthreads-var list would be:
[__kmp_threads[t]->th.th_current_task->td_icvs.nproc,
__kmp_nested_nth.nth[current_nesting_level + 1],
__kmp_nested_nth.nth[current_nesting_level + 2],
…,
__kmp_nested_nth.nth[used - 1]]*/
sprintf(nthreads_list_str, "%d", nproc);
*nthreads_list_string = nthreads_list_str;
if (num_list_elems == 1) {
return ompd_rc_ok;
}
char temp_value[16];
uint32_t nth_value;
for (current_nesting_level++; /* the list element for this nesting
* level has already been accounted for
by nproc */
current_nesting_level < used; current_nesting_level++) {
ret = TValue(thread_handle->ah->context, "__kmp_nested_nth")
.cast("kmp_nested_nthreads_t")
.access("nth")
.cast("int", 1)
.getArrayElement(current_nesting_level)
.castBase(ompd_type_int)
.getValue(nth_value);
if (ret != ompd_rc_ok)
return ret;
sprintf(temp_value, ",%d", nth_value);
strcat(nthreads_list_str, temp_value);
}
return ompd_rc_ok;
}
static ompd_rc_t ompd_get_display_affinity(
ompd_address_space_handle_t
*addr_handle, /* IN: handle for the address space */
ompd_word_t *display_affinity_val /* OUT: display affinity value */
) {
ompd_address_space_context_t *context = addr_handle->context;
if (!context)
return ompd_rc_stale_handle;
ompd_rc_t ret;
if (!callbacks) {
return ompd_rc_callback_error;
}
ret = TValue(context, "__kmp_display_affinity")
.castBase("__kmp_display_affinity")
.getValue(*display_affinity_val);
return ret;
}
static ompd_rc_t ompd_get_affinity_format(
ompd_address_space_handle_t *addr_handle, /* IN: address space handle*/
const char **affinity_format_string /* OUT: affinity format string */
) {
ompd_address_space_context_t *context = addr_handle->context;
if (!context)
return ompd_rc_stale_handle;
if (!callbacks) {
return ompd_rc_callback_error;
}
ompd_rc_t ret;
ret = TValue(context, "__kmp_affinity_format")
.cast("char", 1)
.getString(affinity_format_string);
return ret;
}
static ompd_rc_t ompd_get_tool_libraries(
ompd_address_space_handle_t *addr_handle, /* IN: address space handle*/
const char **tool_libraries_string /* OUT: tool libraries string */
) {
if (!tool_libraries_string)
return ompd_rc_bad_input;
ompd_address_space_context_t *context = addr_handle->context;
if (!context)
return ompd_rc_stale_handle;
if (!callbacks) {
return ompd_rc_callback_error;
}
ompd_rc_t ret;
ret = TValue(context, "__kmp_tool_libraries")
.cast("char", 1)
.getString(tool_libraries_string);
if (ret == ompd_rc_unsupported) {
ret = create_empty_string(tool_libraries_string);
}
return ret;
}
static ompd_rc_t ompd_get_default_device(
ompd_thread_handle_t *thread_handle, /* IN: handle for the thread */
ompd_word_t *default_device_val /* OUT: default device value */
) {
if (!thread_handle)
return ompd_rc_stale_handle;
if (!thread_handle->ah)
return ompd_rc_stale_handle;
ompd_address_space_context_t *context = thread_handle->ah->context;
if (!context)
return ompd_rc_stale_handle;
if (!callbacks)
return ompd_rc_callback_error;
ompd_rc_t ret =
TValue(context, thread_handle->th) /*__kmp_threads[t]->th*/
.cast("kmp_base_info_t")
.access("th_current_task") /*__kmp_threads[t]->th.th_current_task*/
.cast("kmp_taskdata_t", 1)
.access("td_icvs") /*__kmp_threads[t]->th.th_current_task->td_icvs*/
.cast("kmp_internal_control_t", 0)
/*__kmp_threads[t]->th.th_current_task->td_icvs.default_device*/
.access("default_device")
.castBase()
.getValue(*default_device_val);
return ret;
}
static ompd_rc_t
ompd_get_tool(ompd_address_space_handle_t
*addr_handle, /* IN: handle for the address space */
ompd_word_t *tool_val /* OUT: tool value */
) {
ompd_address_space_context_t *context = addr_handle->context;
if (!context)
return ompd_rc_stale_handle;
if (!callbacks) {
return ompd_rc_callback_error;
}
ompd_rc_t ret;
ret =
TValue(context, "__kmp_tool").castBase("__kmp_tool").getValue(*tool_val);
return ret;
}
static ompd_rc_t ompd_get_tool_verbose_init(
ompd_address_space_handle_t *addr_handle, /* IN: address space handle*/
const char **tool_verbose_init_string /* OUT: tool verbose init string */
) {
ompd_address_space_context_t *context = addr_handle->context;
if (!context)
return ompd_rc_stale_handle;
if (!callbacks) {
return ompd_rc_callback_error;
}
ompd_rc_t ret;
ret = TValue(context, "__kmp_tool_verbose_init")
.cast("char", 1)
.getString(tool_verbose_init_string);
if (ret == ompd_rc_unsupported) {
ret = create_empty_string(tool_verbose_init_string);
}
return ret;
}
static ompd_rc_t ompd_get_level(
ompd_parallel_handle_t *parallel_handle, /* IN: OpenMP parallel handle */
ompd_word_t *val /* OUT: nesting level */
) {
if (!parallel_handle->ah)
return ompd_rc_stale_handle;
ompd_address_space_context_t *context = parallel_handle->ah->context;
if (!context)
return ompd_rc_stale_handle;
if (!callbacks) {
return ompd_rc_callback_error;
}
uint32_t res;
ompd_rc_t ret = TValue(context, parallel_handle->th)
.cast("kmp_base_team_t", 0) /*t*/
.access("t_level") /*t.t_level*/
.castBase()
.getValue(res);
*val = res;
return ret;
}
static ompd_rc_t ompd_get_active_level(
ompd_parallel_handle_t *parallel_handle, /* IN: OpenMP parallel handle */
ompd_word_t *val /* OUT: active nesting level */
) {
if (!parallel_handle->ah)
return ompd_rc_stale_handle;
ompd_address_space_context_t *context = parallel_handle->ah->context;
if (!context)
return ompd_rc_stale_handle;
if (!callbacks) {
return ompd_rc_callback_error;
}
uint32_t res;
ompd_rc_t ret = TValue(context, parallel_handle->th)
.cast("kmp_base_team_t", 0) /*t*/
.access("t_active_level") /*t.t_active_level*/
.castBase()
.getValue(res);
*val = res;
return ret;
}
static ompd_rc_t
ompd_get_num_procs(ompd_address_space_handle_t
*addr_handle, /* IN: handle for the address space */
ompd_word_t *val /* OUT: number of processes */
) {
ompd_address_space_context_t *context = addr_handle->context;
if (!context)
return ompd_rc_stale_handle;
if (!callbacks) {
return ompd_rc_callback_error;
}
if (!val)
return ompd_rc_bad_input;
ompd_rc_t ret;
int nth;
ret = TValue(context, "__kmp_avail_proc")
.castBase("__kmp_avail_proc")
.getValue(nth);
*val = nth;
return ret;
}
static ompd_rc_t ompd_get_thread_limit(
ompd_task_handle_t *task_handle, /* IN: OpenMP task handle*/
ompd_word_t *val /* OUT: max number of threads */
) {
if (!task_handle->ah)
return ompd_rc_stale_handle;
ompd_address_space_context_t *context = task_handle->ah->context;
if (!context)
return ompd_rc_stale_handle;
if (!callbacks) {
return ompd_rc_callback_error;
}
ompd_rc_t ret = TValue(context, task_handle->th)
.cast("kmp_taskdata_t") // td
.access("td_icvs") // td->td_icvs
.cast("kmp_internal_control_t", 0)
.access("thread_limit") // td->td_icvs.thread_limit
.castBase()
.getValue(*val);
return ret;
}
static ompd_rc_t ompd_get_thread_num(
ompd_thread_handle_t *thread_handle, /* IN: OpenMP thread handle*/
ompd_word_t *val /* OUT: number of the thread within the team */
) {
if (!thread_handle)
return ompd_rc_stale_handle;
if (!thread_handle->ah)
return ompd_rc_stale_handle;
ompd_address_space_context_t *context = thread_handle->ah->context;
if (!context)
return ompd_rc_stale_handle;
if (!callbacks) {
return ompd_rc_callback_error;
}
ompd_rc_t ret =
TValue(context, thread_handle->th) /*__kmp_threads[t]->th*/
.cast("kmp_base_info_t")
.access("th_info") /*__kmp_threads[t]->th.th_info*/
.cast("kmp_desc_t")
.access("ds") /*__kmp_threads[t]->th.th_info.ds*/
.cast("kmp_desc_base_t")
.access("ds_tid") /*__kmp_threads[t]->th.th_info.ds.ds_tid*/
.castBase()
.getValue(*val);
return ret;
}
static ompd_rc_t
ompd_in_final(ompd_task_handle_t *task_handle, /* IN: OpenMP task handle*/
ompd_word_t *val /* OUT: max number of threads */
) {
if (!task_handle->ah)
return ompd_rc_stale_handle;
ompd_address_space_context_t *context = task_handle->ah->context;
if (!context)
return ompd_rc_stale_handle;
if (!callbacks) {
return ompd_rc_callback_error;
}
ompd_rc_t ret = TValue(context, task_handle->th)
.cast("kmp_taskdata_t") // td
.access("td_flags") // td->td_flags
.cast("kmp_tasking_flags_t")
.check("final", val); // td->td_flags.tasktype
return ret;
}
static ompd_rc_t ompd_get_max_active_levels(
ompd_task_handle_t *task_handle, /* IN: OpenMP task handle*/
ompd_word_t *val /* OUT: max number of threads */
) {
if (!task_handle->ah)
return ompd_rc_stale_handle;
ompd_address_space_context_t *context = task_handle->ah->context;
if (!context)
return ompd_rc_stale_handle;
if (!callbacks) {
return ompd_rc_callback_error;
}
ompd_rc_t ret =
TValue(context, task_handle->th)
.cast("kmp_taskdata_t") // td
.access("td_icvs") // td->td_icvs
.cast("kmp_internal_control_t", 0)
.access("max_active_levels") // td->td_icvs.max_active_levels
.castBase()
.getValue(*val);
return ret;
}
static ompd_rc_t ompd_get_run_schedule(
ompd_task_handle_t *task_handle, /* IN: OpenMP task handle*/
const char **run_sched_string /* OUT: Run Schedule String
consisting of kind and modifier */
) {
if (!task_handle->ah)
return ompd_rc_stale_handle;
ompd_address_space_context_t *context = task_handle->ah->context;
if (!context)
return ompd_rc_stale_handle;
if (!callbacks) {
return ompd_rc_callback_error;
}
int kind;
TValue sched = TValue(context, task_handle->th)
.cast("kmp_taskdata_t") // td
.access("td_icvs") // td->td_icvs
.cast("kmp_internal_control_t", 0)
.access("sched") // td->td_icvs.sched
.cast("kmp_r_sched_t", 0);
ompd_rc_t ret = sched
.access("r_sched_type") // td->td_icvs.sched.r_sched_type
.castBase()
.getValue(kind);
if (ret != ompd_rc_ok) {
return ret;
}
int chunk = 0;
ret = sched
.access("chunk") // td->td_icvs.sched.chunk
.castBase()
.getValue(chunk);
if (ret != ompd_rc_ok) {
return ret;
}
char *run_sched_var_string;
ret = callbacks->alloc_memory(100, (void **)&run_sched_var_string);
if (ret != ompd_rc_ok) {
return ret;
}
run_sched_var_string[0] = '\0';
if (SCHEDULE_HAS_MONOTONIC(kind)) {
strcpy(run_sched_var_string, "monotonic:");
} else if (SCHEDULE_HAS_NONMONOTONIC(kind)) {
strcpy(run_sched_var_string, "nonmonotonic:");
}
bool static_unchunked = false;
switch (SCHEDULE_WITHOUT_MODIFIERS(kind)) {
case kmp_sch_static:
case kmp_sch_static_greedy:
case kmp_sch_static_balanced:
static_unchunked = true;
strcat(run_sched_var_string, "static");
break;
case kmp_sch_static_chunked:
strcat(run_sched_var_string, "static");
break;
case kmp_sch_dynamic_chunked:
strcat(run_sched_var_string, "dynamic");
break;
case kmp_sch_guided_chunked:
case kmp_sch_guided_iterative_chunked:
case kmp_sch_guided_analytical_chunked:
strcat(run_sched_var_string, "guided");
break;
case kmp_sch_auto:
strcat(run_sched_var_string, "auto");
break;
case kmp_sch_trapezoidal:
strcat(run_sched_var_string, "trapezoidal");
break;
case kmp_sch_static_steal:
strcat(run_sched_var_string, "static_steal");
break;
default:
ret = callbacks->free_memory((void *)(run_sched_var_string));
if (ret != ompd_rc_ok) {
return ret;
}
ret = create_empty_string(run_sched_string);
return ret;
}
if (static_unchunked == true) {
// To be in sync with what OMPT returns.
// Chunk was not set. Shown with a zero value.
chunk = 0;
}
char temp_str[16];
sprintf(temp_str, ",%d", chunk);
strcat(run_sched_var_string, temp_str);
*run_sched_string = run_sched_var_string;
return ret;
}
/* Helper routine for the ompd_get_proc_bind routines */
static ompd_rc_t ompd_get_proc_bind_aux(ompd_task_handle_t *task_handle,
uint32_t *used,
uint32_t *current_nesting_level,
uint32_t *proc_bind) {
if (!task_handle->ah)
return ompd_rc_stale_handle;
ompd_address_space_context_t *context = task_handle->ah->context;
if (!context)
return ompd_rc_stale_handle;
if (!callbacks) {
return ompd_rc_callback_error;
}
ompd_rc_t ret = TValue(context, "__kmp_nested_proc_bind")
.cast("kmp_nested_proc_bind_t")
.access("used")
.castBase(ompd_type_int)
.getValue(*used);
if (ret != ompd_rc_ok)
return ret;
TValue taskdata = TValue(context, task_handle->th) /* td */
.cast("kmp_taskdata_t");
ret = taskdata
.access("td_team") /* td->td_team*/
.cast("kmp_team_p", 1)
.access("t") /* td->td_team->t*/
.cast("kmp_base_team_t", 0) /*t*/
.access("t_level") /*t.t_level*/
.castBase(ompd_type_int)
.getValue(*current_nesting_level);
if (ret != ompd_rc_ok)
return ret;
ret = taskdata
.access("td_icvs") /* td->td_icvs */
.cast("kmp_internal_control_t", 0)
.access("proc_bind") /* td->td_icvs.proc_bind */
.castBase()
.getValue(*proc_bind);
return ret;
}
static ompd_rc_t
ompd_get_proc_bind(ompd_task_handle_t *task_handle, /* IN: OpenMP task handle */
ompd_word_t *bind /* OUT: Kind of proc-binding */
) {
uint32_t used;
uint32_t proc_bind;
uint32_t current_nesting_level;
ompd_rc_t ret;
ret = ompd_get_proc_bind_aux(task_handle, &used, &current_nesting_level,
&proc_bind);
if (ret != ompd_rc_ok)
return ret;
*bind = proc_bind;
/* If bind-var is a list with more than one element, then the value of
this ICV cannot be represented by an integer type. In this case,
ompd_rc_incomplete is returned. The tool can check the return value and
can choose to invoke ompd_get_icv_string_from_scope() if needed. */
if (current_nesting_level < used - 1) {
return ompd_rc_incomplete;
}
return ompd_rc_ok;
}
static ompd_rc_t ompd_get_proc_bind(
ompd_task_handle_t *task_handle, /* IN: OpenMP task handle */
const char **proc_bind_list_string /* OUT: string list of comma separated
bind-var values */
) {
uint32_t used;
uint32_t proc_bind;
uint32_t current_nesting_level;
ompd_rc_t ret;
ret = ompd_get_proc_bind_aux(task_handle, &used, &current_nesting_level,
&proc_bind);
if (ret != ompd_rc_ok)
return ret;
uint32_t num_list_elems;
if (used == 0 || current_nesting_level >= used) {
num_list_elems = 1;
} else {
num_list_elems = used - current_nesting_level;
}
size_t buffer_size = 16 /* digits per element including the comma separator */
* num_list_elems +
1; /* string terminator NULL */
char *proc_bind_list_str;
ret = callbacks->alloc_memory(buffer_size, (void **)&proc_bind_list_str);
if (ret != ompd_rc_ok)
return ret;
/* The bind-var list would be:
[td->td_icvs.proc_bind,
__kmp_nested_proc_bind.bind_types[current_nesting_level + 1],
__kmp_nested_proc_bind.bind_types[current_nesting_level + 2],
…,
__kmp_nested_proc_bind.bind_types[used - 1]]*/
sprintf(proc_bind_list_str, "%d", proc_bind);
*proc_bind_list_string = proc_bind_list_str;
if (num_list_elems == 1) {
return ompd_rc_ok;
}
char temp_value[16];
uint32_t bind_types_value;
for (current_nesting_level++; /* the list element for this nesting
level has already been accounted for
by proc_bind */
current_nesting_level < used; current_nesting_level++) {
ret = TValue(task_handle->ah->context, "__kmp_nested_proc_bind")
.cast("kmp_nested_proc_bind_t")
.access("bind_types")
.cast("int", 1)
.getArrayElement(current_nesting_level)
.castBase(ompd_type_int)
.getValue(bind_types_value);
if (ret != ompd_rc_ok)
return ret;
sprintf(temp_value, ",%d", bind_types_value);
strcat(proc_bind_list_str, temp_value);
}
return ompd_rc_ok;
}
static ompd_rc_t
ompd_is_implicit(ompd_task_handle_t *task_handle, /* IN: OpenMP task handle*/
ompd_word_t *val /* OUT: max number of threads */
) {
if (!task_handle)
return ompd_rc_stale_handle;
if (!task_handle->ah)
return ompd_rc_stale_handle;
ompd_address_space_context_t *context = task_handle->ah->context;
if (!context)
return ompd_rc_stale_handle;
if (!callbacks) {
return ompd_rc_callback_error;
}
ompd_rc_t ret = TValue(context, task_handle->th)
.cast("kmp_taskdata_t") // td
.access("td_flags") // td->td_flags
.cast("kmp_tasking_flags_t")
.check("tasktype", val); // td->td_flags.tasktype
*val ^= 1; // tasktype: explicit = 1, implicit = 0 => invert the value
return ret;
}
ompd_rc_t ompd_get_num_threads(
ompd_parallel_handle_t *parallel_handle, /* IN: OpenMP parallel handle */
ompd_word_t *val /* OUT: number of threads */
) {
if (!parallel_handle->ah)
return ompd_rc_stale_handle;
ompd_address_space_context_t *context = parallel_handle->ah->context;
if (!context)
return ompd_rc_stale_handle;
if (!callbacks) {
return ompd_rc_callback_error;
}
ompd_rc_t ret = ompd_rc_ok;
if (parallel_handle->lwt.address != 0) {
*val = 1;
} else {
uint32_t res;
ret = TValue(context, parallel_handle->th)
.cast("kmp_base_team_t", 0) /*t*/
.access("t_nproc") /*t.t_nproc*/
.castBase()
.getValue(res);
*val = res;
}
return ret;
}
ompd_rc_t ompd_get_icv_from_scope(void *handle, ompd_scope_t scope,
ompd_icv_id_t icv_id,
ompd_word_t *icv_value) {
if (!handle) {
return ompd_rc_stale_handle;
}
if (icv_id >= ompd_icv_after_last_icv || icv_id == 0) {
return ompd_rc_bad_input;
}
if (scope != ompd_icv_scope_values[icv_id]) {
return ompd_rc_bad_input;
}
ompd_device_t device_kind;
switch (scope) {
case ompd_scope_thread:
device_kind = ((ompd_thread_handle_t *)handle)->ah->kind;
break;
case ompd_scope_parallel:
device_kind = ((ompd_parallel_handle_t *)handle)->ah->kind;
break;
case ompd_scope_address_space:
device_kind = ((ompd_address_space_handle_t *)handle)->kind;
break;
case ompd_scope_task:
device_kind = ((ompd_task_handle_t *)handle)->ah->kind;
break;
default:
return ompd_rc_bad_input;
}
if (device_kind == OMPD_DEVICE_KIND_HOST) {
switch (icv_id) {
case ompd_icv_dyn_var:
return ompd_get_dynamic((ompd_thread_handle_t *)handle, icv_value);
case ompd_icv_run_sched_var:
return ompd_rc_incompatible;
case ompd_icv_stacksize_var:
return ompd_get_stacksize((ompd_address_space_handle_t *)handle,
icv_value);
case ompd_icv_cancel_var:
return ompd_get_cancellation((ompd_address_space_handle_t *)handle,
icv_value);
case ompd_icv_max_task_priority_var:
return ompd_get_max_task_priority((ompd_address_space_handle_t *)handle,
icv_value);
case ompd_icv_debug_var:
return ompd_get_debug((ompd_address_space_handle_t *)handle, icv_value);
case ompd_icv_nthreads_var:
return ompd_get_nthreads((ompd_thread_handle_t *)handle, icv_value);
case ompd_icv_display_affinity_var:
return ompd_get_display_affinity((ompd_address_space_handle_t *)handle,
icv_value);
case ompd_icv_affinity_format_var:
return ompd_rc_incompatible;
case ompd_icv_tool_libraries_var:
return ompd_rc_incompatible;
case ompd_icv_default_device_var:
return ompd_get_default_device((ompd_thread_handle_t *)handle, icv_value);
case ompd_icv_tool_var:
return ompd_get_tool((ompd_address_space_handle_t *)handle, icv_value);
case ompd_icv_tool_verbose_init_var:
return ompd_rc_incompatible;
case ompd_icv_levels_var:
return ompd_get_level((ompd_parallel_handle_t *)handle, icv_value);
case ompd_icv_active_levels_var:
return ompd_get_active_level((ompd_parallel_handle_t *)handle, icv_value);
case ompd_icv_thread_limit_var:
return ompd_get_thread_limit((ompd_task_handle_t *)handle, icv_value);
case ompd_icv_max_active_levels_var:
return ompd_get_max_active_levels((ompd_task_handle_t *)handle,
icv_value);
case ompd_icv_bind_var:
return ompd_get_proc_bind((ompd_task_handle_t *)handle, icv_value);
case ompd_icv_num_procs_var:
case ompd_icv_ompd_num_procs_var:
return ompd_get_num_procs((ompd_address_space_handle_t *)handle,
icv_value);
case ompd_icv_thread_num_var:
case ompd_icv_ompd_thread_num_var:
return ompd_get_thread_num((ompd_thread_handle_t *)handle, icv_value);
case ompd_icv_final_var:
case ompd_icv_ompd_final_var:
case ompd_icv_ompd_final_task_var:
return ompd_in_final((ompd_task_handle_t *)handle, icv_value);
case ompd_icv_implicit_var:
case ompd_icv_ompd_implicit_var:
case ompd_icv_ompd_implicit_task_var:
return ompd_is_implicit((ompd_task_handle_t *)handle, icv_value);
case ompd_icv_team_size_var:
case ompd_icv_ompd_team_size_var:
return ompd_get_num_threads((ompd_parallel_handle_t *)handle, icv_value);
default:
return ompd_rc_unsupported;
}
}
return ompd_rc_unsupported;
}
ompd_rc_t ompd_get_icv_string_from_scope(void *handle, ompd_scope_t scope,
ompd_icv_id_t icv_id,
const char **icv_string) {
if (!handle) {
return ompd_rc_stale_handle;
}
if (icv_id >= ompd_icv_after_last_icv || icv_id == 0) {
return ompd_rc_bad_input;
}
if (scope != ompd_icv_scope_values[icv_id]) {
return ompd_rc_bad_input;
}
ompd_device_t device_kind;
switch (scope) {
case ompd_scope_thread:
device_kind = ((ompd_thread_handle_t *)handle)->ah->kind;
break;
case ompd_scope_parallel:
device_kind = ((ompd_parallel_handle_t *)handle)->ah->kind;
break;
case ompd_scope_address_space:
device_kind = ((ompd_address_space_handle_t *)handle)->kind;
break;
case ompd_scope_task:
device_kind = ((ompd_task_handle_t *)handle)->ah->kind;
break;
default:
return ompd_rc_bad_input;
}
if (device_kind == OMPD_DEVICE_KIND_HOST) {
switch (icv_id) {
case ompd_icv_run_sched_var:
return ompd_get_run_schedule((ompd_task_handle_t *)handle, icv_string);
case ompd_icv_nthreads_var:
return ompd_get_nthreads((ompd_thread_handle_t *)handle, icv_string);
case ompd_icv_bind_var:
return ompd_get_proc_bind((ompd_task_handle_t *)handle, icv_string);
case ompd_icv_affinity_format_var:
return ompd_get_affinity_format((ompd_address_space_handle_t *)handle,
icv_string);
case ompd_icv_tool_libraries_var:
return ompd_get_tool_libraries((ompd_address_space_handle_t *)handle,
icv_string);
case ompd_icv_tool_verbose_init_var:
return ompd_get_tool_verbose_init((ompd_address_space_handle_t *)handle,
icv_string);
default:
return ompd_rc_unsupported;
}
}
return ompd_rc_unsupported;
}
static ompd_rc_t __ompd_get_tool_data(TValue &dataValue, ompd_word_t *value,
ompd_address_t *ptr) {
ompd_rc_t ret = dataValue.getError();
if (ret != ompd_rc_ok)
return ret;
ret = dataValue.access("value").castBase().getValue(*value);
if (ret != ompd_rc_ok)
return ret;
ptr->segment = OMPD_SEGMENT_UNSPECIFIED;
ret = dataValue.access("ptr").castBase().getValue(ptr->address);
return ret;
}
ompd_rc_t ompd_get_task_data(ompd_task_handle_t *task_handle,
ompd_word_t *value, ompd_address_t *ptr) {
ompd_address_space_context_t *context = task_handle->ah->context;
if (!context)
return ompd_rc_stale_handle;
if (!callbacks) {
return ompd_rc_callback_error;
}
TValue dataValue;
if (task_handle->lwt.address) {
dataValue = TValue(context, task_handle->lwt)
.cast("ompt_lw_taskteam_t") /*lwt*/
.access("ompt_task_info") // lwt->ompt_task_info
.cast("ompt_task_info_t")
.access("task_data") // lwt->ompd_task_info.task_data
.cast("ompt_data_t");
} else {
dataValue = TValue(context, task_handle->th)
.cast("kmp_taskdata_t") /*td*/
.access("ompt_task_info") // td->ompt_task_info
.cast("ompt_task_info_t")
.access("task_data") // td->ompd_task_info.task_data
.cast("ompt_data_t");
}
return __ompd_get_tool_data(dataValue, value, ptr);
}
ompd_rc_t ompd_get_parallel_data(ompd_parallel_handle_t *parallel_handle,
ompd_word_t *value, ompd_address_t *ptr) {
ompd_address_space_context_t *context = parallel_handle->ah->context;
if (!context)
return ompd_rc_stale_handle;
if (!callbacks) {
return ompd_rc_callback_error;
}
TValue dataValue;
if (parallel_handle->lwt.address) {
dataValue =
TValue(context, parallel_handle->lwt)
.cast("ompt_lw_taskteam_t") /*lwt*/
.access("ompt_team_info") // lwt->ompt_team_info
.cast("ompt_team_info_t")
.access("parallel_data") // lwt->ompt_team_info.parallel_data
.cast("ompt_data_t");
} else {
dataValue = TValue(context, parallel_handle->th)
.cast("kmp_base_team_t") /*t*/
.access("ompt_team_info") // t->ompt_team_info
.cast("ompt_team_info_t")
.access("parallel_data") // t->ompt_team_info.parallel_data
.cast("ompt_data_t");
}
return __ompd_get_tool_data(dataValue, value, ptr);
}
ompd_rc_t ompd_get_thread_data(ompd_thread_handle_t *thread_handle,
ompd_word_t *value, ompd_address_t *ptr) {
ompd_address_space_context_t *context = thread_handle->ah->context;
if (!context)
return ompd_rc_stale_handle;
if (!callbacks) {
return ompd_rc_callback_error;
}
TValue dataValue =
TValue(context, thread_handle->th)
.cast("kmp_base_info_t") /*th*/
.access("ompt_thread_info") // th->ompt_thread_info
.cast("ompt_thread_info_t")
.access("thread_data") // th->ompt_thread_info.thread_data
.cast("ompt_data_t");
return __ompd_get_tool_data(dataValue, value, ptr);
}
ompd_rc_t ompd_get_tool_data(void *handle, ompd_scope_t scope,
ompd_word_t *value, ompd_address_t *ptr) {
if (!handle) {
return ompd_rc_stale_handle;
}
ompd_device_t device_kind;
switch (scope) {
case ompd_scope_thread:
device_kind = ((ompd_thread_handle_t *)handle)->ah->kind;
break;
case ompd_scope_parallel:
device_kind = ((ompd_parallel_handle_t *)handle)->ah->kind;
break;
case ompd_scope_task:
device_kind = ((ompd_task_handle_t *)handle)->ah->kind;
break;
default:
return ompd_rc_bad_input;
}
if (device_kind == OMPD_DEVICE_KIND_HOST) {
switch (scope) {
case ompd_scope_thread:
return ompd_get_thread_data((ompd_thread_handle_t *)handle, value, ptr);
case ompd_scope_parallel:
return ompd_get_parallel_data((ompd_parallel_handle_t *)handle, value,
ptr);
case ompd_scope_task:
return ompd_get_task_data((ompd_task_handle_t *)handle, value, ptr);
default:
return ompd_rc_unsupported;
}
}
return ompd_rc_unsupported;
}
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