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/** Licensed to the Apache Software Foundation (ASF) under one* or more contributor license agreements. See the NOTICE file* distributed with this work for additional information* regarding copyright ownership. The ASF licenses this file* to you under the Apache License, Version 2.0 (the* "License"); you may not use this file except in compliance* with the License. You may obtain a copy of the License at** http://www.apache.org/licenses/LICENSE-2.0** Unless required by applicable law or agreed to in writing,* software distributed under the License is distributed on an* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY* KIND, either express or implied. See the License for the* specific language governing permissions and limitations* under the License.*/#include <iostream>#include <vector>#include <string>#include "ThreadFactoryTests.h"#include "TimerManagerTests.h"#include "ThreadManagerTests.h"int main(int argc, char** argv) {std::string arg;std::vector<std::string> args(argc - 1 > 1 ? argc - 1 : 1);args[0] = "all";for (int ix = 1; ix < argc; ix++) {args[ix - 1] = std::string(argv[ix]);}bool runAll = args[0].compare("all") == 0;if (runAll || args[0].compare("thread-factory") == 0) {ThreadFactoryTests threadFactoryTests;std::cout << "ThreadFactory tests..." << std::endl;size_t count = 1000;size_t floodLoops = 1;size_t floodCount = 100000;std::cout << "\t\tThreadFactory reap N threads test: N = " << count << std::endl;assert(threadFactoryTests.reapNThreads(count));std::cout << "\t\tThreadFactory floodN threads test: N = " << floodCount << std::endl;assert(threadFactoryTests.floodNTest(floodLoops, floodCount));std::cout << "\t\tThreadFactory synchronous start test" << std::endl;assert(threadFactoryTests.synchStartTest());std::cout << "\t\tThreadFactory monitor timeout test" << std::endl;assert(threadFactoryTests.monitorTimeoutTest());}if (runAll || args[0].compare("util") == 0) {std::cout << "Util tests..." << std::endl;std::cout << "\t\tUtil minimum time" << std::endl;int64_t time00 = Util::currentTime();int64_t time01 = Util::currentTime();std::cout << "\t\t\tMinimum time: " << time01 - time00 << "ms" << std::endl;time00 = Util::currentTime();time01 = time00;size_t count = 0;while (time01 < time00 + 10) {count++;time01 = Util::currentTime();}std::cout << "\t\t\tscall per ms: " << count / (time01 - time00) << std::endl;}if (runAll || args[0].compare("timer-manager") == 0) {std::cout << "TimerManager tests..." << std::endl;std::cout << "\t\tTimerManager test00" << std::endl;TimerManagerTests timerManagerTests;assert(timerManagerTests.test00());}if (runAll || args[0].compare("thread-manager") == 0) {std::cout << "ThreadManager tests..." << std::endl;{size_t workerCount = 100;size_t taskCount = 100000;int64_t delay = 10LL;std::cout << "\t\tThreadManager load test: worker count: " << workerCount << " task count: " << taskCount << " delay: " << delay << std::endl;ThreadManagerTests threadManagerTests;assert(threadManagerTests.loadTest(taskCount, delay, workerCount));std::cout << "\t\tThreadManager block test: worker count: " << workerCount << " delay: " << delay << std::endl;assert(threadManagerTests.blockTest(delay, workerCount));}}if (runAll || args[0].compare("thread-manager-benchmark") == 0) {std::cout << "ThreadManager benchmark tests..." << std::endl;{size_t minWorkerCount = 2;size_t maxWorkerCount = 512;size_t tasksPerWorker = 1000;int64_t delay = 10LL;for (size_t workerCount = minWorkerCount; workerCount < maxWorkerCount; workerCount*= 2) {size_t taskCount = workerCount * tasksPerWorker;std::cout << "\t\tThreadManager load test: worker count: " << workerCount << " task count: " << taskCount << " delay: " << delay << std::endl;ThreadManagerTests threadManagerTests;threadManagerTests.loadTest(taskCount, delay, workerCount);}}}}