mirror of
https://github.com/smallmain/cocos-enhance-kit.git
synced 2024-12-26 11:48:29 +00:00
446 lines
12 KiB
C++
446 lines
12 KiB
C++
/****************************************************************************
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Copyright (c) 2016-2017 Chukong Technologies Inc.
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http://www.cocos2d-x.org
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Permission is hereby granted, free of charge, to any person obtaining a copy
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of this software and associated documentation files (the "Software"), to deal
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in the Software without restriction, including without limitation the rights
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to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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copies of the Software, and to permit persons to whom the Software is
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furnished to do so, subject to the following conditions:
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The above copyright notice and this permission notice shall be included in
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all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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THE SOFTWARE.
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Inspired by https://github.com/vit-vit/CTPL
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****************************************************************************/
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#include "base/CCThreadPool.h"
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#ifdef __ANDROID__
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#include <android/log.h>
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#define LOG_TAG "ThreadPool"
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#define LOGD(...) __android_log_print(ANDROID_LOG_DEBUG, LOG_TAG,__VA_ARGS__)
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#elif OPENHARMONY
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#include <hilog/log.h>
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#define LOGD(...) ((void) OH_LOG_Print(LOG_APP, LOG_DEBUG, LOG_DOMAIN, "HMG_LOG", __VA_ARGS__))
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#else
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#define LOGD(...) printf(__VA_ARGS__)
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#endif
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namespace cocos2d {
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#define DEFAULT_THREAD_POOL_MIN_NUM (4)
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#define DEFAULT_THREAD_POOL_MAX_NUM (20)
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#define DEFAULT_SHRINK_INTERVAL (5.0f)
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#define DEFAULT_SHRINK_STEP (2)
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#define DEFAULT_STRETCH_STEP (2)
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static ThreadPool *__defaultThreadPool = nullptr;
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ThreadPool *ThreadPool::getDefaultThreadPool()
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{
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if (__defaultThreadPool == nullptr)
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{
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__defaultThreadPool = newCachedThreadPool(DEFAULT_THREAD_POOL_MIN_NUM,
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DEFAULT_THREAD_POOL_MAX_NUM,
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DEFAULT_SHRINK_INTERVAL, DEFAULT_SHRINK_STEP,
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DEFAULT_STRETCH_STEP);
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}
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return __defaultThreadPool;
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}
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void ThreadPool::destroyDefaultThreadPool()
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{
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delete __defaultThreadPool;
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__defaultThreadPool = nullptr;
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}
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ThreadPool *ThreadPool::newCachedThreadPool(int minThreadNum, int maxThreadNum, int shrinkInterval,
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int shrinkStep, int stretchStep)
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{
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ThreadPool *pool = new(std::nothrow) ThreadPool(minThreadNum, maxThreadNum);
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if (pool != nullptr)
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{
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pool->setFixedSize(false);
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pool->setShrinkInterval(shrinkInterval);
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pool->setShrinkStep(shrinkStep);
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pool->setStretchStep(stretchStep);
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}
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return pool;
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}
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ThreadPool *ThreadPool::newFixedThreadPool(int threadNum)
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{
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ThreadPool *pool = new(std::nothrow) ThreadPool(threadNum, threadNum);
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if (pool != nullptr)
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{
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pool->setFixedSize(true);
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}
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return pool;
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}
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ThreadPool *ThreadPool::newSingleThreadPool()
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{
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ThreadPool *pool = new(std::nothrow) ThreadPool(1, 1);
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if (pool != nullptr)
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{
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pool->setFixedSize(true);
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}
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return pool;
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}
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ThreadPool::ThreadPool(int minNum, int maxNum)
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: _isDone(false), _isStop(false), _idleThreadNum(0), _minThreadNum(minNum),
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_maxThreadNum(maxNum), _initedThreadNum(0), _shrinkInterval(DEFAULT_SHRINK_INTERVAL),
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_shrinkStep(DEFAULT_SHRINK_STEP), _stretchStep(DEFAULT_STRETCH_STEP),
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_isFixedSize(false)
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{
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init();
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}
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// the destructor waits for all the functions in the queue to be finished
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ThreadPool::~ThreadPool()
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{
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stop();
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}
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// number of idle threads
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int ThreadPool::getIdleThreadNum() const
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{
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ThreadPool* thiz = const_cast<ThreadPool*>(this);
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std::lock_guard<std::mutex> lk(thiz->_idleThreadNumMutex);
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return _idleThreadNum;
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}
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void ThreadPool::init()
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{
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gettimeofday(&_lastShrinkTime, nullptr);
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_maxThreadNum = std::max(_minThreadNum, _maxThreadNum);
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_threads.resize(_maxThreadNum);
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_abortFlags.resize(_maxThreadNum);
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_idleFlags.resize(_maxThreadNum);
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_initedFlags.resize(_maxThreadNum);
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for (int i = 0; i < _maxThreadNum; ++i)
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{
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_idleFlags[i] = std::make_shared<std::atomic<bool>>(false);
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if (i < _minThreadNum)
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{
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_abortFlags[i] = std::make_shared<std::atomic<bool>>(false);
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setThread(i);
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_initedFlags[i] = std::make_shared<std::atomic<bool>>(true);
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++_initedThreadNum;
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}
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else
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{
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_abortFlags[i] = std::make_shared<std::atomic<bool>>(true);
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_initedFlags[i] = std::make_shared<std::atomic<bool>>(false);
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}
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}
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}
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bool ThreadPool::tryShrinkPool()
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{
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LOGD("shrink pool, _idleThreadNum = %d \n", getIdleThreadNum());
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struct timeval before;
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gettimeofday(&before, nullptr);
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std::vector<int> threadIDsToJoin;
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int maxThreadNumToJoin = std::min(_initedThreadNum - _minThreadNum, _shrinkStep);
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for (int i = 0; i < _maxThreadNum; ++i)
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{
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if ((int)threadIDsToJoin.size() >= maxThreadNumToJoin)
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{
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break;
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}
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if (*_idleFlags[i])
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{
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*_abortFlags[i] = true;
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threadIDsToJoin.push_back(i);
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}
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}
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{
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// stop the detached threads that were waiting
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std::unique_lock<std::mutex> lock(_mutex);
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_cv.notify_all();
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}
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for (const auto& threadID : threadIDsToJoin)
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{ // wait for the computing threads to finish
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if (_threads[threadID]->joinable())
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{
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_threads[threadID]->join();
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}
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_threads[threadID].reset();
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*_initedFlags[threadID] = false;
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--_initedThreadNum;
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}
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struct timeval after;
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gettimeofday(&after, nullptr);
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float seconds = (after.tv_sec - before.tv_sec) + (after.tv_usec - before.tv_usec) / 1000000.0f;
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LOGD("shrink %d threads, waste: %f seconds\n", (int) threadIDsToJoin.size(), seconds);
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if (_initedThreadNum <= _minThreadNum)
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return true;
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return false;
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}
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void ThreadPool::stretchPool(int count)
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{
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struct timeval before;
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gettimeofday(&before, nullptr);
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int oldThreadCount = _initedThreadNum;
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int newThreadCount = 0;
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for (int i = 0; i < _maxThreadNum; ++i)
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{
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if (!*_initedFlags[i])
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{
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*_abortFlags[i] = false;
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setThread(i);
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*_initedFlags[i] = true;
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++_initedThreadNum;
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if (++newThreadCount >= count)
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{
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break;
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}
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}
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}
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if (newThreadCount > 0)
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{
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struct timeval after;
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gettimeofday(&after, nullptr);
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float seconds =
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(after.tv_sec - before.tv_sec) + (after.tv_usec - before.tv_usec) / 1000000.0f;
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LOGD("stretch pool from %d to %d, waste %f seconds\n", oldThreadCount, _initedThreadNum,
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seconds);
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}
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}
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void ThreadPool::pushTask(const std::function<void(int)>& runnable,
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TaskType type/* = DEFAULT*/)
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{
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if (!_isFixedSize)
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{
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_idleThreadNumMutex.lock();
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int idleNum = _idleThreadNum;
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_idleThreadNumMutex.unlock();
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if (idleNum > _minThreadNum)
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{
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if (_taskQueue.empty())
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{
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struct timeval now;
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gettimeofday(&now, nullptr);
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float seconds = (now.tv_sec - _lastShrinkTime.tv_sec) +
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(now.tv_usec - _lastShrinkTime.tv_usec) / 1000000.0f;
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if (seconds > _shrinkInterval)
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{
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tryShrinkPool();
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_lastShrinkTime = now;
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}
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}
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}
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else if (idleNum == 0)
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{
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stretchPool(_stretchStep);
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}
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}
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auto callback = new(std::nothrow) std::function<void(int)>([runnable](int tid) {
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runnable(tid);
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});
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Task task;
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task.type = type;
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task.callback = callback;
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_taskQueue.push(std::move(task));
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{
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std::unique_lock<std::mutex> lock(_mutex);
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_cv.notify_one();
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}
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}
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void ThreadPool::stopAllTasks()
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{
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Task task;
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while (_taskQueue.pop(task))
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{
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delete task.callback; // empty the queue
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}
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}
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void ThreadPool::stopTasksByType(TaskType type)
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{
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Task task;
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std::vector<Task> notStopTasks;
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notStopTasks.reserve(_taskQueue.size());
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while (_taskQueue.pop(task))
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{
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if (task.type == type)
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{// Delete the task from queue
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delete task.callback;
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}
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else
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{// If task type isn't match, push it into a vector, then insert to task queue again
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notStopTasks.push_back(task);
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}
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}
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if (!notStopTasks.empty())
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{
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for (const auto& t : notStopTasks)
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{
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_taskQueue.push(t);
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}
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}
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}
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void ThreadPool::joinThread(int tid)
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{
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if (tid < 0 || tid >= (int)_threads.size())
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{
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LOGD("Invalid thread id %d\n", tid);
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return;
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}
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// wait for the computing threads to finish
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if (*_initedFlags[tid] && _threads[tid]->joinable())
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{
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_threads[tid]->join();
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*_initedFlags[tid] = false;
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--_initedThreadNum;
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}
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}
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int ThreadPool::getTaskNum() const
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{
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return (int) _taskQueue.size();
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}
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void ThreadPool::setFixedSize(bool isFixedSize)
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{
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_isFixedSize = isFixedSize;
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}
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void ThreadPool::setShrinkInterval(int seconds)
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{
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if (seconds >= 0)
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_shrinkInterval = seconds;
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}
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void ThreadPool::setShrinkStep(int step)
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{
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if (step > 0)
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_shrinkStep = step;
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}
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void ThreadPool::setStretchStep(int step)
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{
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if (step > 0)
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_stretchStep = step;
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}
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void ThreadPool::stop()
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{
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if (_isDone || _isStop)
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return;
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_isDone = true; // give the waiting threads a command to finish
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{
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std::unique_lock<std::mutex> lock(_mutex);
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_cv.notify_all(); // stop all waiting threads
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}
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for (int i = 0, n = static_cast<int>(_threads.size()); i < n; ++i)
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{
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joinThread(i);
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_threads[i].reset();
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}
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// if there were no threads in the pool but some functors in the queue, the functors are not deleted by the threads
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// therefore delete them here
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stopAllTasks();
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_threads.clear();
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_abortFlags.clear();
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}
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void ThreadPool::setThread(int tid)
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{
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std::shared_ptr<std::atomic<bool>> abort_ptr(
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_abortFlags[tid]); // a copy of the shared ptr to the flag
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auto f = [this, tid, abort_ptr/* a copy of the shared ptr to the abort */]() {
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std::atomic<bool>& abort = *abort_ptr;
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Task task;
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bool isPop = _taskQueue.pop(task);
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while (true)
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{
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while (isPop)
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{ // if there is anything in the queue
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std::unique_ptr<std::function<void(int)>> func(
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task.callback); // at return, delete the function even if an exception occurred
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(*task.callback)(tid);
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if (abort)
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return; // the thread is wanted to stop, return even if the queue is not empty yet
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else
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isPop = _taskQueue.pop(task);
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}
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// the queue is empty here, wait for the next command
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std::unique_lock<std::mutex> lock(_mutex);
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_idleThreadNumMutex.lock();
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++_idleThreadNum;
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_idleThreadNumMutex.unlock();
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*_idleFlags[tid] = true;
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_cv.wait(lock, [this, &task, &isPop, &abort]() {
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isPop = _taskQueue.pop(task);
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return isPop || _isDone || abort;
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});
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*_idleFlags[tid] = false;
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_idleThreadNumMutex.lock();
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--_idleThreadNum;
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_idleThreadNumMutex.unlock();
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if (!isPop)
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return; // if the queue is empty and isDone == true or *flag then return
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}
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};
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_threads[tid].reset(
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new(std::nothrow) std::thread(f)); // compiler may not support std::make_unique()
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}
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} // namespace cocos2d {
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