166df0896c
Using codespell 2.3-dev from current git. And fix typo in `methods.py` for `vsproj=yes` option (still won't work though).
475 lines
16 KiB
C++
475 lines
16 KiB
C++
/*************************************************************************/
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/* worker_thread_pool.cpp */
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/*************************************************************************/
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/* This file is part of: */
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/* GODOT ENGINE */
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/* https://godotengine.org */
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/*************************************************************************/
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/* Copyright (c) 2007-2022 Juan Linietsky, Ariel Manzur. */
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/* Copyright (c) 2014-2022 Godot Engine contributors (cf. AUTHORS.md). */
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/* */
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/* Permission is hereby granted, free of charge, to any person obtaining */
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/* a copy of this software and associated documentation files (the */
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/* "Software"), to deal in the Software without restriction, including */
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/* without limitation the rights to use, copy, modify, merge, publish, */
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/* distribute, sublicense, and/or sell copies of the Software, and to */
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/* permit persons to whom the Software is furnished to do so, subject to */
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/* the following conditions: */
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/* */
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/* The above copyright notice and this permission notice shall be */
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/* included in all copies or substantial portions of the Software. */
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/* */
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/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, */
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/* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF */
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/* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.*/
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/* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY */
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/* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, */
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/* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE */
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/* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */
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/*************************************************************************/
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#include "worker_thread_pool.h"
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#include "core/os/os.h"
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void WorkerThreadPool::Task::free_template_userdata() {
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ERR_FAIL_COND(!template_userdata);
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ERR_FAIL_COND(native_func_userdata == nullptr);
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BaseTemplateUserdata *btu = (BaseTemplateUserdata *)native_func_userdata;
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memdelete(btu);
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}
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WorkerThreadPool *WorkerThreadPool::singleton = nullptr;
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void WorkerThreadPool::_process_task_queue() {
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task_mutex.lock();
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Task *task = task_queue.first()->self();
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task_queue.remove(task_queue.first());
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task_mutex.unlock();
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_process_task(task);
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}
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void WorkerThreadPool::_process_task(Task *p_task) {
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bool low_priority = p_task->low_priority;
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if (p_task->group) {
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// Handling a group
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bool do_post = false;
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Callable::CallError ce;
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Variant ret;
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Variant arg;
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Variant *argptr = &arg;
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while (true) {
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uint32_t work_index = p_task->group->index.postincrement();
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if (work_index >= p_task->group->max) {
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break;
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}
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if (p_task->native_group_func) {
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p_task->native_group_func(p_task->native_func_userdata, work_index);
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} else if (p_task->template_userdata) {
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p_task->template_userdata->callback_indexed(work_index);
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} else {
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arg = work_index;
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p_task->callable.callp((const Variant **)&argptr, 1, ret, ce);
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}
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// This is the only way to ensure posting is done when all tasks are really complete.
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uint32_t completed_amount = p_task->group->completed_index.increment();
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if (completed_amount == p_task->group->max) {
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do_post = true;
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}
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}
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if (do_post && p_task->template_userdata) {
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memdelete(p_task->template_userdata); // This is no longer needed at this point, so get rid of it.
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}
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if (low_priority && use_native_low_priority_threads) {
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p_task->completed = true;
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p_task->done_semaphore.post();
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if (do_post) {
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p_task->group->completed.set_to(true);
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}
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} else {
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if (do_post) {
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p_task->group->done_semaphore.post();
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p_task->group->completed.set_to(true);
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}
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uint32_t max_users = p_task->group->tasks_used + 1; // Add 1 because the thread waiting for it is also user. Read before to avoid another thread freeing task after increment.
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uint32_t finished_users = p_task->group->finished.increment();
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if (finished_users == max_users) {
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// Get rid of the group, because nobody else is using it.
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task_mutex.lock();
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group_allocator.free(p_task->group);
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task_mutex.unlock();
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}
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// For groups, tasks get rid of themselves.
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task_mutex.lock();
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task_allocator.free(p_task);
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task_mutex.unlock();
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}
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} else {
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if (p_task->native_func) {
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p_task->native_func(p_task->native_func_userdata);
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} else if (p_task->template_userdata) {
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p_task->template_userdata->callback();
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memdelete(p_task->template_userdata);
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} else {
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Callable::CallError ce;
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Variant ret;
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p_task->callable.callp(nullptr, 0, ret, ce);
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}
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p_task->completed = true;
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p_task->done_semaphore.post();
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}
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if (!use_native_low_priority_threads && low_priority) {
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// A low prioriry task was freed, so see if we can move a pending one to the high priority queue.
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bool post = false;
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task_mutex.lock();
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if (low_priority_task_queue.first()) {
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Task *low_prio_task = low_priority_task_queue.first()->self();
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low_priority_task_queue.remove(low_priority_task_queue.first());
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task_queue.add_last(&low_prio_task->task_elem);
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post = true;
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} else {
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low_priority_threads_used.decrement();
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}
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task_mutex.lock();
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if (post) {
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task_available_semaphore.post();
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}
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}
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}
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void WorkerThreadPool::_thread_function(void *p_user) {
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while (true) {
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singleton->task_available_semaphore.wait();
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if (singleton->exit_threads.is_set()) {
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break;
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}
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singleton->_process_task_queue();
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}
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}
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void WorkerThreadPool::_native_low_priority_thread_function(void *p_user) {
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Task *task = (Task *)p_user;
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singleton->_process_task(task);
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}
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void WorkerThreadPool::_post_task(Task *p_task, bool p_high_priority) {
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task_mutex.lock();
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p_task->low_priority = !p_high_priority;
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if (!p_high_priority && use_native_low_priority_threads) {
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task_mutex.unlock();
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p_task->low_priority_thread = native_thread_allocator.alloc();
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p_task->low_priority_thread->start(_native_low_priority_thread_function, p_task); // Pask task directly to thread.
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} else if (p_high_priority || low_priority_threads_used.get() < max_low_priority_threads) {
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task_queue.add_last(&p_task->task_elem);
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if (!p_high_priority) {
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low_priority_threads_used.increment();
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}
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task_mutex.unlock();
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task_available_semaphore.post();
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} else {
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// Too many threads using low priority, must go to queue.
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low_priority_task_queue.add_last(&p_task->task_elem);
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task_mutex.unlock();
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}
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}
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WorkerThreadPool::TaskID WorkerThreadPool::add_native_task(void (*p_func)(void *), void *p_userdata, bool p_high_priority, const String &p_description) {
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return _add_task(Callable(), p_func, p_userdata, nullptr, p_high_priority, p_description);
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}
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WorkerThreadPool::TaskID WorkerThreadPool::_add_task(const Callable &p_callable, void (*p_func)(void *), void *p_userdata, BaseTemplateUserdata *p_template_userdata, bool p_high_priority, const String &p_description) {
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task_mutex.lock();
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// Get a free task
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Task *task = task_allocator.alloc();
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TaskID id = last_task++;
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task->callable = p_callable;
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task->native_func = p_func;
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task->native_func_userdata = p_userdata;
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task->description = p_description;
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task->template_userdata = p_template_userdata;
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tasks.insert(id, task);
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task_mutex.unlock();
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_post_task(task, p_high_priority);
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return id;
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}
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WorkerThreadPool::TaskID WorkerThreadPool::add_task(const Callable &p_action, bool p_high_priority, const String &p_description) {
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return _add_task(p_action, nullptr, nullptr, nullptr, p_high_priority, p_description);
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}
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bool WorkerThreadPool::is_task_completed(TaskID p_task_id) const {
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task_mutex.lock();
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const Task *const *taskp = tasks.getptr(p_task_id);
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if (!taskp) {
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task_mutex.unlock();
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ERR_FAIL_V_MSG(false, "Invalid Task ID"); // Invalid task
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}
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bool completed = (*taskp)->completed;
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task_mutex.unlock();
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return completed;
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}
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void WorkerThreadPool::wait_for_task_completion(TaskID p_task_id) {
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task_mutex.lock();
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Task **taskp = tasks.getptr(p_task_id);
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if (!taskp) {
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task_mutex.unlock();
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ERR_FAIL_MSG("Invalid Task ID"); // Invalid task
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}
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Task *task = *taskp;
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if (task->waiting) {
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String description = task->description;
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task_mutex.unlock();
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if (description.is_empty()) {
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ERR_FAIL_MSG("Another thread is waiting on this task: " + itos(p_task_id)); // Invalid task
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} else {
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ERR_FAIL_MSG("Another thread is waiting on this task: " + description + " (" + itos(p_task_id) + ")"); // Invalid task
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}
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}
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task->waiting = true;
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task_mutex.unlock();
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if (use_native_low_priority_threads && task->low_priority) {
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task->low_priority_thread->wait_to_finish();
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native_thread_allocator.free(task->low_priority_thread);
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} else {
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int *index = thread_ids.getptr(Thread::get_caller_id());
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if (index) {
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// We are an actual process thread, we must not be blocked so continue processing stuff if available.
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while (true) {
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if (task->done_semaphore.try_wait()) {
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// If done, exit
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break;
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}
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if (task_available_semaphore.try_wait()) {
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// Solve tasks while they are around.
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_process_task_queue();
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continue;
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}
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OS::get_singleton()->delay_usec(1); // Microsleep, this could be converted to waiting for multiple objects in supported platforms for a bit more performance.
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}
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} else {
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task->done_semaphore.wait();
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}
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}
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task_mutex.lock();
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tasks.erase(p_task_id);
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task_allocator.free(task);
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task_mutex.unlock();
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}
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WorkerThreadPool::GroupID WorkerThreadPool::_add_group_task(const Callable &p_callable, void (*p_func)(void *, uint32_t), void *p_userdata, BaseTemplateUserdata *p_template_userdata, int p_elements, int p_tasks, bool p_high_priority, const String &p_description) {
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ERR_FAIL_COND_V(p_elements < 0, INVALID_TASK_ID);
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if (p_tasks < 0) {
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p_tasks = threads.size();
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}
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task_mutex.lock();
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Group *group = group_allocator.alloc();
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GroupID id = last_task++;
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group->max = p_elements;
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group->self = id;
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Task **tasks_posted = nullptr;
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if (p_elements == 0) {
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// Should really not call it with zero Elements, but at least it should work.
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group->completed.set_to(true);
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group->done_semaphore.post();
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group->tasks_used = 0;
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p_tasks = 0;
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if (p_template_userdata) {
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memdelete(p_template_userdata);
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}
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} else {
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group->tasks_used = p_tasks;
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tasks_posted = (Task **)alloca(sizeof(Task *) * p_tasks);
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for (int i = 0; i < p_tasks; i++) {
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Task *task = task_allocator.alloc();
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task->native_group_func = p_func;
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task->native_func_userdata = p_userdata;
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task->description = p_description;
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task->group = group;
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task->callable = p_callable;
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task->template_userdata = p_template_userdata;
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tasks_posted[i] = task;
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// No task ID is used.
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}
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}
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groups[id] = group;
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task_mutex.unlock();
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if (!p_high_priority && use_native_low_priority_threads) {
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group->low_priority_native_tasks.resize(p_tasks);
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}
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for (int i = 0; i < p_tasks; i++) {
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_post_task(tasks_posted[i], p_high_priority);
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if (!p_high_priority && use_native_low_priority_threads) {
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group->low_priority_native_tasks[i] = tasks_posted[i];
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}
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}
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return id;
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}
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WorkerThreadPool::GroupID WorkerThreadPool::add_native_group_task(void (*p_func)(void *, uint32_t), void *p_userdata, int p_elements, int p_tasks, bool p_high_priority, const String &p_description) {
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return _add_group_task(Callable(), p_func, p_userdata, nullptr, p_elements, p_tasks, p_high_priority, p_description);
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}
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WorkerThreadPool::GroupID WorkerThreadPool::add_group_task(const Callable &p_action, int p_elements, int p_tasks, bool p_high_priority, const String &p_description) {
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return _add_group_task(p_action, nullptr, nullptr, nullptr, p_elements, p_tasks, p_high_priority, p_description);
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}
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uint32_t WorkerThreadPool::get_group_processed_element_count(GroupID p_group) const {
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task_mutex.lock();
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const Group *const *groupp = groups.getptr(p_group);
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if (!groupp) {
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task_mutex.unlock();
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ERR_FAIL_V_MSG(0, "Invalid Group ID");
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}
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uint32_t elements = (*groupp)->completed_index.get();
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task_mutex.unlock();
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return elements;
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}
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bool WorkerThreadPool::is_group_task_completed(GroupID p_group) const {
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task_mutex.lock();
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const Group *const *groupp = groups.getptr(p_group);
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if (!groupp) {
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task_mutex.unlock();
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ERR_FAIL_V_MSG(false, "Invalid Group ID");
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}
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bool completed = (*groupp)->completed.is_set();
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task_mutex.unlock();
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return completed;
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}
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void WorkerThreadPool::wait_for_group_task_completion(GroupID p_group) {
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task_mutex.lock();
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Group **groupp = groups.getptr(p_group);
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task_mutex.unlock();
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if (!groupp) {
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ERR_FAIL_MSG("Invalid Group ID");
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}
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Group *group = *groupp;
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if (group->low_priority_native_tasks.size() > 0) {
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for (uint32_t i = 0; i < group->low_priority_native_tasks.size(); i++) {
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group->low_priority_native_tasks[i]->low_priority_thread->wait_to_finish();
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native_thread_allocator.free(group->low_priority_native_tasks[i]->low_priority_thread);
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task_mutex.lock();
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task_allocator.free(group->low_priority_native_tasks[i]);
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task_mutex.unlock();
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}
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task_mutex.lock();
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group_allocator.free(group);
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task_mutex.unlock();
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} else {
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group->done_semaphore.wait();
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uint32_t max_users = group->tasks_used + 1; // Add 1 because the thread waiting for it is also user. Read before to avoid another thread freeing task after increment.
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uint32_t finished_users = group->finished.increment(); // fetch happens before inc, so increment later.
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if (finished_users == max_users) {
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// All tasks using this group are gone (finished before the group), so clear the group too.
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task_mutex.lock();
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group_allocator.free(group);
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task_mutex.unlock();
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}
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}
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groups.erase(p_group); // Threads do not access this, so safe to erase here.
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}
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void WorkerThreadPool::init(int p_thread_count, bool p_use_native_threads_low_priority, float p_low_priority_task_ratio) {
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ERR_FAIL_COND(threads.size() > 0);
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if (p_thread_count < 0) {
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p_thread_count = OS::get_singleton()->get_default_thread_pool_size();
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}
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if (p_use_native_threads_low_priority) {
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max_low_priority_threads = 0;
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} else {
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max_low_priority_threads = CLAMP(p_thread_count * p_low_priority_task_ratio, 1, p_thread_count);
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}
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use_native_low_priority_threads = p_use_native_threads_low_priority;
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threads.resize(p_thread_count);
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for (uint32_t i = 0; i < threads.size(); i++) {
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threads[i].index = i;
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threads[i].thread.start(&WorkerThreadPool::_thread_function, &threads[i]);
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thread_ids.insert(threads[i].thread.get_id(), i);
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}
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}
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void WorkerThreadPool::finish() {
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if (threads.size() == 0) {
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return;
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}
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task_mutex.lock();
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SelfList<Task> *E = low_priority_task_queue.first();
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while (E) {
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print_error("Task waiting was never re-claimed: " + E->self()->description);
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E = E->next();
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}
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task_mutex.unlock();
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exit_threads.set_to(true);
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for (uint32_t i = 0; i < threads.size(); i++) {
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task_available_semaphore.post();
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}
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for (uint32_t i = 0; i < threads.size(); i++) {
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threads[i].thread.wait_to_finish();
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}
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threads.clear();
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}
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void WorkerThreadPool::_bind_methods() {
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ClassDB::bind_method(D_METHOD("add_task", "action", "high_priority", "description"), &WorkerThreadPool::add_task, DEFVAL(false), DEFVAL(String()));
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ClassDB::bind_method(D_METHOD("is_task_completed", "task_id"), &WorkerThreadPool::is_task_completed);
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ClassDB::bind_method(D_METHOD("wait_for_task_completion", "task_id"), &WorkerThreadPool::wait_for_task_completion);
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ClassDB::bind_method(D_METHOD("add_group_task", "action", "elements", "tasks_needed", "high_priority", "description"), &WorkerThreadPool::add_group_task, DEFVAL(-1), DEFVAL(false), DEFVAL(String()));
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ClassDB::bind_method(D_METHOD("is_group_task_completed", "group_id"), &WorkerThreadPool::is_group_task_completed);
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ClassDB::bind_method(D_METHOD("get_group_processed_element_count", "group_id"), &WorkerThreadPool::get_group_processed_element_count);
|
|
ClassDB::bind_method(D_METHOD("wait_for_group_task_completion", "group_id"), &WorkerThreadPool::wait_for_group_task_completion);
|
|
}
|
|
|
|
WorkerThreadPool::WorkerThreadPool() {
|
|
singleton = this;
|
|
}
|
|
|
|
WorkerThreadPool::~WorkerThreadPool() {
|
|
finish();
|
|
}
|