b62faa54de
Currently for windows only, this is an initial commit towards native support of NUMA. Current commit makes it so Cycles will use all logical processors on Windows running on system with more than 64 threads. Reviewers: juicyfruit, dingto, lukasstockner97, maiself, brecht Subscribers: LazyDodo Differential Revision: https://developer.blender.org/D2049
495 lines
9.4 KiB
C++
495 lines
9.4 KiB
C++
/*
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* Copyright 2011-2013 Blender Foundation
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include "util_debug.h"
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#include "util_foreach.h"
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#include "util_logging.h"
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#include "util_system.h"
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#include "util_task.h"
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#include "util_time.h"
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//#define THREADING_DEBUG_ENABLED
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#ifdef THREADING_DEBUG_ENABLED
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#include <stdio.h>
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#define THREADING_DEBUG(...) do { printf(__VA_ARGS__); fflush(stdout); } while(0)
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#else
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#define THREADING_DEBUG(...)
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#endif
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CCL_NAMESPACE_BEGIN
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/* Task Pool */
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TaskPool::TaskPool()
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{
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num_tasks_handled = 0;
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num = 0;
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do_cancel = false;
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}
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TaskPool::~TaskPool()
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{
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stop();
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}
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void TaskPool::push(Task *task, bool front)
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{
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TaskScheduler::Entry entry;
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entry.task = task;
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entry.pool = this;
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TaskScheduler::push(entry, front);
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}
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void TaskPool::push(const TaskRunFunction& run, bool front)
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{
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push(new Task(run), front);
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}
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void TaskPool::wait_work(Summary *stats)
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{
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thread_scoped_lock num_lock(num_mutex);
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while(num != 0) {
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num_lock.unlock();
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thread_scoped_lock queue_lock(TaskScheduler::queue_mutex);
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/* find task from this pool. if we get a task from another pool,
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* we can get into deadlock */
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TaskScheduler::Entry work_entry;
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bool found_entry = false;
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list<TaskScheduler::Entry>::iterator it;
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for(it = TaskScheduler::queue.begin(); it != TaskScheduler::queue.end(); it++) {
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TaskScheduler::Entry& entry = *it;
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if(entry.pool == this) {
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work_entry = entry;
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found_entry = true;
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TaskScheduler::queue.erase(it);
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break;
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}
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}
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queue_lock.unlock();
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/* if found task, do it, otherwise wait until other tasks are done */
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if(found_entry) {
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/* run task */
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work_entry.task->run(0);
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/* delete task */
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delete work_entry.task;
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/* notify pool task was done */
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num_decrease(1);
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}
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num_lock.lock();
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if(num == 0)
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break;
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if(!found_entry) {
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THREADING_DEBUG("num==%d, Waiting for condition in TaskPool::wait_work !found_entry\n", num);
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num_cond.wait(num_lock);
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THREADING_DEBUG("num==%d, condition wait done in TaskPool::wait_work !found_entry\n", num);
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}
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}
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if(stats != NULL) {
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stats->time_total = time_dt() - start_time;
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stats->num_tasks_handled = num_tasks_handled;
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}
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}
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void TaskPool::cancel()
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{
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do_cancel = true;
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TaskScheduler::clear(this);
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{
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thread_scoped_lock num_lock(num_mutex);
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while(num) {
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THREADING_DEBUG("num==%d, Waiting for condition in TaskPool::cancel\n", num);
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num_cond.wait(num_lock);
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THREADING_DEBUG("num==%d condition wait done in TaskPool::cancel\n", num);
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}
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}
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do_cancel = false;
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}
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void TaskPool::stop()
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{
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TaskScheduler::clear(this);
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assert(num == 0);
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}
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bool TaskPool::canceled()
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{
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return do_cancel;
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}
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void TaskPool::num_decrease(int done)
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{
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num_mutex.lock();
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num -= done;
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assert(num >= 0);
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if(num == 0) {
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THREADING_DEBUG("num==%d, notifying all in TaskPool::num_decrease\n", num);
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num_cond.notify_all();
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}
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num_mutex.unlock();
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}
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void TaskPool::num_increase()
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{
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thread_scoped_lock num_lock(num_mutex);
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if(num_tasks_handled == 0) {
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start_time = time_dt();
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}
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num++;
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num_tasks_handled++;
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THREADING_DEBUG("num==%d, notifying all in TaskPool::num_increase\n", num);
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num_cond.notify_all();
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}
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/* Task Scheduler */
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thread_mutex TaskScheduler::mutex;
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int TaskScheduler::users = 0;
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vector<thread*> TaskScheduler::threads;
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bool TaskScheduler::do_exit = false;
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list<TaskScheduler::Entry> TaskScheduler::queue;
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thread_mutex TaskScheduler::queue_mutex;
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thread_condition_variable TaskScheduler::queue_cond;
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void TaskScheduler::init(int num_threads)
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{
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thread_scoped_lock lock(mutex);
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/* multiple cycles instances can use this task scheduler, sharing the same
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* threads, so we keep track of the number of users. */
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if(users == 0) {
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do_exit = false;
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if(num_threads == 0) {
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/* automatic number of threads */
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num_threads = system_cpu_thread_count();
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}
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VLOG(1) << "Creating pool of " << num_threads << " threads.";
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/* launch threads that will be waiting for work */
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threads.resize(num_threads);
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int num_groups = system_cpu_group_count();
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int thread_index = 0;
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for(int group = 0; group < num_groups; ++group) {
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/* NOTE: That's not really efficient from threading point of view,
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* but it is simple to read and it doesn't make sense to use more
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* user-specified threads than logical threads anyway.
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*/
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int num_group_threads = (group == num_groups - 1)
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? (threads.size() - thread_index)
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: system_cpu_group_thread_count(group);
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for(int group_thread = 0;
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group_thread < num_group_threads && thread_index < threads.size();
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++group_thread, ++thread_index)
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{
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threads[thread_index] = new thread(function_bind(&TaskScheduler::thread_run,
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thread_index + 1),
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group);
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}
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}
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}
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users++;
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}
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void TaskScheduler::exit()
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{
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thread_scoped_lock lock(mutex);
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users--;
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if(users == 0) {
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/* stop all waiting threads */
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TaskScheduler::queue_mutex.lock();
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do_exit = true;
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TaskScheduler::queue_cond.notify_all();
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TaskScheduler::queue_mutex.unlock();
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/* delete threads */
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foreach(thread *t, threads) {
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t->join();
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delete t;
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}
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threads.clear();
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}
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}
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void TaskScheduler::free_memory()
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{
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assert(users == 0);
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threads.free_memory();
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}
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bool TaskScheduler::thread_wait_pop(Entry& entry)
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{
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thread_scoped_lock queue_lock(queue_mutex);
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while(queue.empty() && !do_exit)
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queue_cond.wait(queue_lock);
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if(queue.empty()) {
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assert(do_exit);
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return false;
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}
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entry = queue.front();
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queue.pop_front();
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return true;
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}
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void TaskScheduler::thread_run(int thread_id)
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{
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Entry entry;
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/* todo: test affinity/denormal mask */
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/* keep popping off tasks */
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while(thread_wait_pop(entry)) {
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/* run task */
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entry.task->run(thread_id);
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/* delete task */
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delete entry.task;
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/* notify pool task was done */
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entry.pool->num_decrease(1);
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}
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}
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void TaskScheduler::push(Entry& entry, bool front)
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{
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entry.pool->num_increase();
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/* add entry to queue */
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TaskScheduler::queue_mutex.lock();
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if(front)
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TaskScheduler::queue.push_front(entry);
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else
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TaskScheduler::queue.push_back(entry);
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TaskScheduler::queue_cond.notify_one();
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TaskScheduler::queue_mutex.unlock();
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}
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void TaskScheduler::clear(TaskPool *pool)
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{
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thread_scoped_lock queue_lock(TaskScheduler::queue_mutex);
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/* erase all tasks from this pool from the queue */
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list<Entry>::iterator it = queue.begin();
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int done = 0;
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while(it != queue.end()) {
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Entry& entry = *it;
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if(entry.pool == pool) {
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done++;
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delete entry.task;
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it = queue.erase(it);
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}
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else
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it++;
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}
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queue_lock.unlock();
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/* notify done */
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pool->num_decrease(done);
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}
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/* Dedicated Task Pool */
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DedicatedTaskPool::DedicatedTaskPool()
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{
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do_cancel = false;
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do_exit = false;
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num = 0;
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worker_thread = new thread(function_bind(&DedicatedTaskPool::thread_run, this));
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}
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DedicatedTaskPool::~DedicatedTaskPool()
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{
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stop();
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worker_thread->join();
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delete worker_thread;
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}
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void DedicatedTaskPool::push(Task *task, bool front)
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{
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num_increase();
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/* add task to queue */
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queue_mutex.lock();
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if(front)
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queue.push_front(task);
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else
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queue.push_back(task);
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queue_cond.notify_one();
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queue_mutex.unlock();
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}
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void DedicatedTaskPool::push(const TaskRunFunction& run, bool front)
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{
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push(new Task(run), front);
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}
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void DedicatedTaskPool::wait()
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{
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thread_scoped_lock num_lock(num_mutex);
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while(num)
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num_cond.wait(num_lock);
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}
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void DedicatedTaskPool::cancel()
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{
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do_cancel = true;
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clear();
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wait();
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do_cancel = false;
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}
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void DedicatedTaskPool::stop()
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{
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clear();
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do_exit = true;
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queue_cond.notify_all();
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wait();
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assert(num == 0);
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}
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bool DedicatedTaskPool::canceled()
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{
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return do_cancel;
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}
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void DedicatedTaskPool::num_decrease(int done)
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{
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thread_scoped_lock num_lock(num_mutex);
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num -= done;
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assert(num >= 0);
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if(num == 0)
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num_cond.notify_all();
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}
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void DedicatedTaskPool::num_increase()
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{
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thread_scoped_lock num_lock(num_mutex);
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num++;
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num_cond.notify_all();
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}
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bool DedicatedTaskPool::thread_wait_pop(Task*& task)
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{
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thread_scoped_lock queue_lock(queue_mutex);
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while(queue.empty() && !do_exit)
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queue_cond.wait(queue_lock);
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if(queue.empty()) {
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assert(do_exit);
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return false;
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}
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task = queue.front();
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queue.pop_front();
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return true;
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}
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void DedicatedTaskPool::thread_run()
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{
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Task *task;
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/* keep popping off tasks */
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while(thread_wait_pop(task)) {
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/* run task */
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task->run(0);
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/* delete task */
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delete task;
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/* notify task was done */
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num_decrease(1);
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}
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}
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void DedicatedTaskPool::clear()
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{
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thread_scoped_lock queue_lock(queue_mutex);
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/* erase all tasks from the queue */
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list<Task*>::iterator it = queue.begin();
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int done = 0;
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while(it != queue.end()) {
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done++;
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delete *it;
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it = queue.erase(it);
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}
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queue_lock.unlock();
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/* notify done */
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num_decrease(done);
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}
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string TaskPool::Summary::full_report() const
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{
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string report = "";
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report += string_printf("Total time: %f\n", time_total);
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report += string_printf("Tasks handled: %d\n", num_tasks_handled);
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return report;
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}
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CCL_NAMESPACE_END
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