标签:row fill with post var waiting process produce ase
BarrierSample
using System; using System.Collections.Generic; using System.Linq; using System.Text; using System.Threading; using System.Threading.Tasks; namespace Wrox.ProCSharp.Threading { class Program { static void Main() { const int numberTasks = 2; const int partitionSize = 1000000; var data = new List<string>(FillData(partitionSize * numberTasks)); var barrier = new Barrier(numberTasks + 1); var tasks = new Task<int[]>[numberTasks]; for (int i = 0; i < numberTasks; i++) { //tasks[i] = taskFactory.StartNew<int[]>(CalculationInTask, // Tuple.Create(i, partitionSize, barrier, data)); int jobNumber = i; tasks[i] = Task.Run(() => CalculationInTask(jobNumber, partitionSize, barrier, data)); } barrier.SignalAndWait(); var resultCollection = tasks[0].Result.Zip(tasks[1].Result, (c1, c2) => { return c1 + c2; }); char ch = ‘a‘; int sum = 0; foreach (var x in resultCollection) { Console.WriteLine("{0}, count: {1}", ch++, x); sum += x; } Console.WriteLine("main finished {0}", sum); Console.WriteLine("remaining {0}, phase {1}", barrier.ParticipantsRemaining, barrier.CurrentPhaseNumber); } // static int[] CalculationInTask(object p) static int[] CalculationInTask(int jobNumber, int partitionSize, Barrier barrier, IList<string> coll) { var data = new List<string>(coll); int start = jobNumber * partitionSize; int end = start + partitionSize; Console.WriteLine("Task {0}: partition from {1} to {2}", Task.CurrentId, start, end); int[] charCount = new int[26]; for (int j = start; j < end; j++) { char c = data[j][0]; charCount[c - 97]++; } Console.WriteLine("Calculation completed from task {0}. {1} times a, {2} times z", Task.CurrentId, charCount[0], charCount[25]); barrier.RemoveParticipant(); Console.WriteLine("Task {0} removed from barrier, remaining participants {1}", Task.CurrentId, barrier.ParticipantsRemaining); return charCount; } public static IEnumerable<string> FillData(int size) { var data = new List<string>(size); var r = new Random(); for (int i = 0; i < size; i++) { data.Add(GetString(r)); } return data; } private static string GetString(Random r) { var sb = new StringBuilder(6); for (int i = 0; i < 6; i++) { sb.Append((char)(r.Next(26) + 97)); } return sb.ToString(); } } }
CancellationSamples
using System; using System.Collections.Generic; using System.Linq; using System.Text; using System.Threading; using System.Threading.Tasks; namespace Wrox.ProCSharp.Threading { class Program { static void Main() { // CancelParallelLoop(); CancelTask(); Console.ReadLine(); } static void CancelParallelLoop() { var cts = new CancellationTokenSource(); cts.Token.ThrowIfCancellationRequested(); cts.Token.Register(() => Console.WriteLine("** token cancelled")); // start a task that sends a cancel after 500 ms cts.CancelAfter(500); try { ParallelLoopResult result = Parallel.For(0, 100, new ParallelOptions() { CancellationToken = cts.Token }, x => { Console.WriteLine("loop {0} started", x); int sum = 0; for (int i = 0; i < 100; i++) { Thread.Sleep(2); sum += i; } Console.WriteLine("loop {0} finished", x); }); } catch (OperationCanceledException ex) { Console.WriteLine(ex.Message); } } static void CancelTask() { var cts = new CancellationTokenSource(); cts.Token.Register(() => Console.WriteLine("*** task cancelled")); // send a cancel after 500 ms cts.CancelAfter(500); Task t1 = Task.Run(() => { Console.WriteLine("in task"); for (int i = 0; i < 20; i++) { Thread.Sleep(100); CancellationToken token = cts.Token; if (token.IsCancellationRequested) { Console.WriteLine("cancelling was requested, cancelling from within the task"); token.ThrowIfCancellationRequested(); break; } Console.WriteLine("in loop"); } Console.WriteLine("task finished without cancellation"); }, cts.Token); try { t1.Wait(); } catch (AggregateException ex) { Console.WriteLine("exception: {0}, {1}", ex.GetType().Name, ex.Message); foreach (var innerException in ex.InnerExceptions) { Console.WriteLine("inner excepion: {0}, {1}", ex.InnerException.GetType().Name, ex.InnerException.Message); } } } } }
DataFlowSample
using System; using System.Collections.Generic; using System.IO; using System.Linq; using System.Threading; using System.Threading.Tasks; using System.Threading.Tasks.Dataflow; namespace DataFlowSample { class Program { static void Main() { // ActionBlockSample(); // SourceAndTargetBlocksSample(); var target = SetupPipeline(); target.Post("../.."); Console.ReadLine(); } private static void ActionBlockSample() { var processInput = new ActionBlock<string>(s => { Console.WriteLine("user input: {0}", s); }); bool exit = false; while (!exit) { string input = Console.ReadLine(); if (string.Compare(input, "exit", ignoreCase: true) == 0) { exit = true; } else { processInput.Post(input); } } } private static void SourceAndTargetBlocksSample() { Task t1 = Task.Run(() => Producer()); Task t2 = Task.Run(() => Consumer()); Task.WaitAll(t1, t2); } static BufferBlock<string> buffer = new BufferBlock<string>(); static void Producer() { bool exit = false; while (!exit) { string input = Console.ReadLine(); if (string.Compare(input, "exit", ignoreCase: true) == 0) { exit = true; } else { buffer.Post(input); } } } static async void Consumer() { while (true) { string data = await buffer.ReceiveAsync(); Console.WriteLine("user input: {0}", data); } } static ITargetBlock<string> SetupPipeline() { var fileNames = new TransformBlock<string, IEnumerable<string>>(path => { try { return GetFileNames(path); } catch (OperationCanceledException) { return Enumerable.Empty<string>(); } }); var lines = new TransformBlock<IEnumerable<string>, IEnumerable<string>>(input => { try { return LoadLines(input); } catch (OperationCanceledException) { return Enumerable.Empty<string>(); } }); var words = new TransformBlock<IEnumerable<string>, IEnumerable<string>>(lines2 => { return GetWords(lines2); }); var display = new ActionBlock<IEnumerable<string>>(coll => { foreach (var s in coll) { Console.WriteLine(s); } }); fileNames.LinkTo(lines); lines.LinkTo(words); words.LinkTo(display); // fileNames.LinkTo(loadLines, fn => fn.Count() > 0); return fileNames; } static IEnumerable<string> GetWords(IEnumerable<string> lines) { foreach (var line in lines) { string[] words = line.Split(‘ ‘, ‘;‘, ‘(‘, ‘)‘, ‘{‘, ‘}‘, ‘.‘, ‘,‘); foreach (var word in words) { if (!string.IsNullOrEmpty(word)) { yield return word; } } } } static IEnumerable<string> LoadLines(IEnumerable<string> fileNames) { foreach (var fileName in fileNames) { using (FileStream stream = File.OpenRead(fileName)) { var reader = new StreamReader(stream); string line = null; while ((line = reader.ReadLine()) != null) { // Console.WriteLine("LoadLines {0}", line); yield return line; } } } } static IEnumerable<string> GetFileNames(string path) { foreach (var fileName in Directory.EnumerateFiles(path, "*.cs")) { Console.WriteLine("GetFileNames {0}", fileName); yield return fileName; } } } }
EventSample
using System; using System.Threading; using System.Threading.Tasks; namespace Wrox.ProCSharp.Threading { public class Calculator { private ManualResetEventSlim mEvent; private CountdownEvent cEvent; public int Result { get; private set; } public Calculator(ManualResetEventSlim ev) { this.mEvent = ev; } public Calculator(CountdownEvent ev) { this.cEvent = ev; } public void Calculation(int x, int y) { Console.WriteLine("Task {0} starts calculation", Task.CurrentId); Thread.Sleep(new Random().Next(3000)); Result = x + y; // signal the event—completed! Console.WriteLine("Task {0} is ready", Task.CurrentId); mEvent.Set(); // cEvent.Signal(); } } }
using System; using System.Threading; using System.Threading.Tasks; namespace Wrox.ProCSharp.Threading { class Program { static void Main() { const int taskCount = 4; var mEvents = new ManualResetEventSlim[taskCount]; // var cEvent = new CountdownEvent(taskCount); var waitHandles = new WaitHandle[taskCount]; var calcs = new Calculator[taskCount]; for (int i = 0; i < taskCount; i++) { int i1 = i; mEvents[i] = new ManualResetEventSlim(false); waitHandles[i] = mEvents[i].WaitHandle; calcs[i] = new Calculator(mEvents[i]); //calcs[i] = new Calculator(cEvent); Task.Run(() => calcs[i1].Calculation(i1 + 1, i1 + 3)); } //cEvent.Wait(); //Console.WriteLine("all finished"); //for (int i = 0; i < taskCount; i++) //{ // Console.WriteLine("task for {0}, result: {1}", i, calcs[i].Result); //} for (int i = 0; i < taskCount; i++) { int index = WaitHandle.WaitAny(waitHandles); if (index == WaitHandle.WaitTimeout) { Console.WriteLine("Timeout!!"); } else { mEvents[index].Reset(); Console.WriteLine("finished task for {0}, result: {1}", index, calcs[index].Result); } } } } }
ParallelSamples
using System; using System.Collections.Generic; using System.Linq; using System.Text; using System.Threading; using System.Threading.Tasks; namespace Wrox.ProCSharp.Threading { class Program { static void Main() { // ParallelFor(); // ParallelForeach(); ParallelInvoke(); Console.ReadLine(); } static void ParallelInvoke() { Parallel.Invoke(Foo, Bar); } static void Foo() { Console.WriteLine("foo"); } static void Bar() { Console.WriteLine("bar"); } static void ParallelForeach() { string[] data = { "zero", "one", "two", "three", "four", "five", "six", "seven", "eight", "nine", "ten", "eleven", "twelve" }; ParallelLoopResult result = Parallel.ForEach<string>(data, s => { Console.WriteLine(s); }); Parallel.ForEach<string>(data, (s, pls, l) => { Console.WriteLine("{0} {1}", s, l); }); } static void ParallelFor() { //// simple scenario //ParallelLoopResult result = // Parallel.For(0, 10, async i => // { // Console.WriteLine("{0}, task: {1}, thread: {2}", i, // Task.CurrentId, Thread.CurrentThread.ManagedThreadId); // await Task.Delay(10); // Console.WriteLine("{0}, task: {1}, thread: {2}", i, // Task.CurrentId, Thread.CurrentThread.ManagedThreadId); // }); //Console.WriteLine("is completed: {0}", result.IsCompleted); // breaking early //ParallelLoopResult result = // Parallel.For(10, 40, (int i, ParallelLoopState pls) => // { // Console.WriteLine("i: {0} task {1}", i, Task.CurrentId); // Thread.Sleep(10); // if (i > 15) // pls.Break(); // }); //Console.WriteLine("Is completed: {0}", result.IsCompleted); //if (!result.IsCompleted) // Console.WriteLine("lowest break iteration: {0}", result.LowestBreakIteration); Parallel.For<string>(0, 20, () => { // invoked once for each thread Console.WriteLine("init thread {0}, task {1}", Thread.CurrentThread.ManagedThreadId, Task.CurrentId); return String.Format("t{0}", Thread.CurrentThread.ManagedThreadId); }, (i, pls, str1) => { // invoked for each member Console.WriteLine("body i {0} str1 {1} thread {2} task {3}", i, str1, Thread.CurrentThread.ManagedThreadId, Task.CurrentId); Thread.Sleep(10); return String.Format("i {0}", i); }, (str1) => { // final action on each thread Console.WriteLine("finally {0}", str1); }); } } }
ReaderWriterSample
using System; using System.Collections.Generic; using System.Threading; using System.Threading.Tasks; namespace Wrox.ProCSharp.Threading { class Program { private static List<int> items = new List<int>() { 0, 1, 2, 3, 4, 5 }; private static ReaderWriterLockSlim rwl = new ReaderWriterLockSlim(LockRecursionPolicy.SupportsRecursion); static void ReaderMethod(object reader) { try { rwl.EnterReadLock(); for (int i = 0; i < items.Count; i++) { Console.WriteLine("reader {0}, loop: {1}, item: {2}", reader, i, items[i]); Thread.Sleep(40); } } finally { rwl.ExitReadLock(); } } static void WriterMethod(object writer) { try { while (!rwl.TryEnterWriteLock(50)) { Console.WriteLine("Writer {0} waiting for the write lock", writer); Console.WriteLine("current reader count: {0}", rwl.CurrentReadCount); } Console.WriteLine("Writer {0} acquired the lock", writer); for (int i = 0; i < items.Count; i++) { items[i]++; Thread.Sleep(50); } Console.WriteLine("Writer {0} finished", writer); } finally { rwl.ExitWriteLock(); } } static void Main() { var taskFactory = new TaskFactory(TaskCreationOptions.LongRunning, TaskContinuationOptions.None); var tasks = new Task[6]; tasks[0] = taskFactory.StartNew(WriterMethod, 1); tasks[1] = taskFactory.StartNew(ReaderMethod, 1); tasks[2] = taskFactory.StartNew(ReaderMethod, 2); tasks[3] = taskFactory.StartNew(WriterMethod, 2); tasks[4] = taskFactory.StartNew(ReaderMethod, 3); tasks[5] = taskFactory.StartNew(ReaderMethod, 4); for (int i = 0; i < 6; i++) { tasks[i].Wait(); } } } }
SemaphoreSample
using System; using System.Threading; using System.Threading.Tasks; namespace Wrox.ProCSharp.Threading { class Program { static void Main() { int taskCount = 6; int semaphoreCount = 3; var semaphore = new SemaphoreSlim(semaphoreCount, semaphoreCount); var tasks = new Task[taskCount]; for (int i = 0; i < taskCount; i++) { tasks[i] = Task.Run(() => TaskMain(semaphore)); } Task.WaitAll(tasks); Console.WriteLine("All tasks finished"); } static void TaskMain(SemaphoreSlim semaphore) { bool isCompleted = false; while (!isCompleted) { if (semaphore.Wait(600)) { try { Console.WriteLine("Task {0} locks the semaphore", Task.CurrentId); Thread.Sleep(2000); } finally { Console.WriteLine("Task {0} releases the semaphore", Task.CurrentId); semaphore.Release(); isCompleted = true; } } else { Console.WriteLine("Timeout for task {0}; wait again", Task.CurrentId); } } } } }
SynchronizationSamples
using System; using System.Collections.Generic; using System.Linq; using System.Text; namespace Wrox.ProCSharp.Threading { public class Job { SharedState sharedState; public Job(SharedState sharedState) { this.sharedState = sharedState; } public void DoTheJob() { for (int i = 0; i < 50000; i++) { // lock (sharedState) { sharedState.State += 1; // sharedState.IncrementState(); } } } } }
using System; using System.Threading; using System.Threading.Tasks; namespace Wrox.ProCSharp.Threading { class Program { static void Main() { for (int i = 0; i < 5; i++) { SyncSample(); } } static void SyncSample() { object obj = new object(); bool lockTaken = false; Monitor.TryEnter(obj, 500, ref lockTaken); if (lockTaken) { try { // acquired the lock // synchronized region for obj } finally { Monitor.Exit(obj); } } else { // didn‘t get the lock, do something else } int numTasks = 20; var state = new SharedState(); var tasks = new Task[numTasks]; for (int i = 0; i < numTasks; i++) { tasks[i] = Task.Run(() => new Job(state).DoTheJob()); } for (int i = 0; i < numTasks; i++) { tasks[i].Wait(); } Console.WriteLine("summarized {0}", state.State); } } }
using System; using System.Collections.Generic; using System.Linq; using System.Text; namespace Wrox.ProCSharp.Threading { public class SharedState { private int state = 0; public int State { get; set; } public int IncrementState() { // lock (this) { return ++state; } // return Interlocked.Increment(ref state); } } }
TaskSamples
using System; using System.Collections.Generic; using System.Linq; using System.Text; using System.Threading; using System.Threading.Tasks; using System.IO; namespace TaskSamples { class Program { static void Main() { //ParallelDemo(); //1、创建任务的几种方法 //TasksUsingThreadPool(); //2、同步任务,任务可以同步运行,以相同的线程作为主调线程 // RunSynchronousTask(); //3、使用单独线程的任务,创建一个长时间运行的任务 // LongRunningTask(); //任务的结果,返回某个结果的任务 // ResultsFromTasks(); //连续的任务 // ContinuationTask(); //任务层次结构 ParentAndChild(); // HierarchyTasks("c:\\"); Console.ReadLine(); } private static void RunSynchronousTask() { TaskMethod("just the main thread"); var t1 = new Task(TaskMethod, "run sync"); t1.RunSynchronously(); } private static void LongRunningTask() { var t1 = new Task(TaskMethod, "long running", TaskCreationOptions.LongRunning); t1.Start(); } static void ResultsFromTasks() { var t1 = new Task<Tuple<int, int>>(TaskWithResult, Tuple.Create<int, int>(8, 3)); t1.Start(); Console.WriteLine(t1.Result); t1.Wait(); Console.WriteLine("result from task: {0} {1}", t1.Result.Item1, t1.Result.Item2); } static Tuple<int, int> TaskWithResult(object division) { Tuple<int, int> div = (Tuple<int, int>)division; int result = div.Item1 / div.Item2; int reminder = div.Item1 % div.Item2; Console.WriteLine("task creates a result..."); return Tuple.Create<int, int>(result, reminder); } static void TasksUsingThreadPool() { var tf = new TaskFactory(); Task t1 = tf.StartNew(TaskMethod, "using a task factory"); Task t2 = Task.Factory.StartNew(TaskMethod, "factory via a task"); var t3 = new Task(TaskMethod, "using a task constructor and Start"); t3.Start(); Task t4 = Task.Run(() => TaskMethod("using the Run method")); } static void ContinuationTask() { Task t1 = new Task(DoOnFirst); Task t2 = t1.ContinueWith(DoOnSecond); Task t3 = t1.ContinueWith(DoOnSecond); Task t4 = t2.ContinueWith(DoOnSecond); Task t5 = t1.ContinueWith(DoOnError, TaskContinuationOptions.OnlyOnFaulted); t1.Start(); Thread.Sleep(5000); } static void DoOnFirst() { Console.WriteLine("doing some task {0}", Task.CurrentId); Thread.Sleep(3000); } static void DoOnSecond(Task t) { Console.WriteLine("task {0} finished", t.Id); Console.WriteLine("this task id {0}", Task.CurrentId); Console.WriteLine("do some cleanup"); Thread.Sleep(3000); } static void DoOnError(Task t) { Console.WriteLine("task {0} had an error!", t.Id); Console.WriteLine("my id {0}", Task.CurrentId); Console.WriteLine("do some cleanup"); } static void ParentAndChild() { var parent = new Task(ParentTask); parent.Start(); Thread.Sleep(2000); Console.WriteLine(parent.Status); Thread.Sleep(4000); Console.WriteLine(parent.Status); } static void ParentTask() { Console.WriteLine("task id {0}", Task.CurrentId); var child = new Task(ChildTask,TaskCreationOptions.AttachedToParent); // , TaskCreationOptions.DetachedFromParent); child.Start(); Thread.Sleep(1000); Console.WriteLine("parent started child"); // Thread.Sleep(3000); } static void ChildTask() { // Console.WriteLine("task id {0}, parent: {1}", Task.Current.Id, Task.Current.Parent.Id); Console.WriteLine("child"); Thread.Sleep(5000); Console.WriteLine("child finished"); } static object taskMethodLock = new object(); static void TaskMethod(object title) { lock (taskMethodLock) { Console.WriteLine(title); Console.WriteLine("Task id: {0}, thread: {1}", Task.CurrentId == null ? "no task" : Task.CurrentId.ToString(), Thread.CurrentThread.ManagedThreadId); Console.WriteLine("is pooled thread: {0}", Thread.CurrentThread.IsThreadPoolThread); Console.WriteLine("is background thread: {0}", Thread.CurrentThread.IsBackground); Console.WriteLine(); } } static void ParallelDemo() { // Parallel.For(0, 5, i => Console.WriteLine(i)); Parallel.For<string>(0, 20, () => "abcd", (x, ls, str) => { Console.WriteLine(x); return "defg"; }, (str) => { Console.WriteLine("action {0}", str); }); ParallelOptions po = new ParallelOptions(); } //static void ParentAndChild() //{ // TaskFactory factory = new TaskFactory(); // var t1 = factory.StartNew(() => // { // Console.WriteLine("parent task {0}", Task.CurrentId); // factory.StartNew(() => // { // Console.WriteLine("child task {0}", Task.CurrentId); // Thread.Sleep(2000); // Console.WriteLine("finished child"); // }, TaskCreationOptions.AttachedToParent); // Console.WriteLine("finished parent"); // }); // t1.Wait(); //} } }
ThreadingIssues
using System; using System.Collections.Generic; using System.Text; using System.Threading; using System.Threading.Tasks; namespace Wrox.ProCSharp.Threading { class Program { static void Main() { // RaceConditions(); Deadlock(); Console.ReadLine(); } static void RaceConditions() { var state = new StateObject(); for (int i = 0; i < 2; i++) { Task.Run(() => new SampleTask().RaceCondition(state)); } } static void Deadlock() { var s1 = new StateObject(); var s2 = new StateObject(); Task.Run(() => new SampleTask(s1, s2).Deadlock1()); Task.Run(() => new SampleTask(s1, s2).Deadlock2()); Thread.Sleep(100000); } } }
using System; using System.Diagnostics; using System.Threading; namespace Wrox.ProCSharp.Threading { public class StateObject { private int state = 5; private object sync = new object(); public void ChangeState(int loop) { // lock (sync) { if (state == 5) { state++; Trace.Assert(state == 6, "Race condition occurred after " + loop + " loops"); } state = 5; } } } public class SampleTask { //internal static int a; //private static Object sync = new object(); public SampleTask() { } public void RaceCondition(object o) { Trace.Assert(o is StateObject, "o must be of type StateObject"); StateObject state = o as StateObject; int i = 0; while (true) { // lock (state) // no race condition with this lock { state.ChangeState(i++); } } } public SampleTask(StateObject s1, StateObject s2) { this.s1 = s1; this.s2 = s2; } StateObject s1; StateObject s2; public void Deadlock1() { int i = 0; while (true) { lock (s1) { lock (s2) { s1.ChangeState(i); s2.ChangeState(i++); Console.WriteLine("still running, {0}", i); } } } } public void Deadlock2() { int i = 0; while (true) { lock (s2) { lock (s1) { s1.ChangeState(i); s2.ChangeState(i++); Console.WriteLine("still running, {0}", i); } } } } } }
ThreadPoolSamples
using System; using System.Threading; namespace Wrox.ProCSharp.Threading { class Program { static void Main() { int nWorkerThreads; int nCompletionPortThreads; ThreadPool.GetMaxThreads(out nWorkerThreads, out nCompletionPortThreads); Console.WriteLine("Max worker threads: {0}, I/O completion threads: {1}", nWorkerThreads, nCompletionPortThreads); for (int i = 0; i < 5; i++) { ThreadPool.QueueUserWorkItem(JobForAThread); } Thread.Sleep(3000); Console.ReadLine(); } static void JobForAThread(object state) { for (int i = 0; i < 3; i++) { Console.WriteLine("loop {0}, running inside pooled thread {1}", i, Thread.CurrentThread.ManagedThreadId); Thread.Sleep(50); } } } }
ThreadSamples
using System; using System.Collections.Generic; using System.Linq; using System.Text; using System.Threading; namespace Wrox.ProCSharp.Threading { public class MyThread { private string data; public MyThread(string data) { this.data = data; } public void ThreadMain() { Console.WriteLine("Running in a thread, data: {0}", data); } } public struct Data { public string Message; } class Program { static void Main() { FirstThread(); //var t1 = new Thread(Prio); //t1.Name = "First"; //var t2 = new Thread(Prio); //t2.Name = "Second"; //t1.Priority = ThreadPriority.Highest; //t2.Priority = ThreadPriority.Lowest; //t1.Start(); //t2.Start(); //var t1 = new Thread(ThreadMain); //t1.Name = "MyNewThread1"; //t1.IsBackground = true; //t1.Start(); //Console.WriteLine("Main thread ending now..."); //var d = new Data { Message = "Info" }; //var t2 = new Thread(ThreadMainWithParameters); //t2.Start(d); //var obj = new MyThread("info"); //var t3 = new Thread(obj.ThreadMain); //t3.Start(); } static void Prio() { for (int i = 0; i < 10000; i++) { Console.WriteLine("{0}, {1}", Thread.CurrentThread.Name, i); } } static void ThreadMain() { Console.WriteLine("Thread {0} started", Thread.CurrentThread.Name); Thread.Sleep(3000); // Console.WriteLine("Running in the thread {0}, id: {1}.", Thread.CurrentThread.Name, Thread.CurrentThread.ManagedThreadId); Console.WriteLine("Thread {0} completed", Thread.CurrentThread.Name); } static void ThreadMainWithParameters(object o) { Data d = (Data)o; Console.WriteLine("Running in a thread, received {0}", d.Message); } static void FirstThread() { new Thread(() => Console.WriteLine("Running in a thread, id: {0}", Thread.CurrentThread.ManagedThreadId)).Start(); Console.WriteLine("This is the main thread, id: {0}", Thread.CurrentThread.ManagedThreadId); } } }
TimerSample
using System; using System.Collections.Generic; using System.Linq; using System.Text; using System.Threading; namespace Wrox.ProCSharp.Threading { class Program { private static void ThreadingTimer() { using (var t1 = new System.Threading.Timer( TimeAction, null, TimeSpan.FromSeconds(2), TimeSpan.FromSeconds(3))) { Thread.Sleep(15000); } } static void TimeAction(object o) { Console.WriteLine("System.Threading.Timer {0:T}", DateTime.Now); } private static void TimersTimer() { var t1 = new System.Timers.Timer(1000); t1.AutoReset = true; t1.Elapsed += TimeAction; t1.Start(); Thread.Sleep(10000); t1.Stop(); t1.Dispose(); } static void TimeAction(object sender, System.Timers.ElapsedEventArgs e) { Console.WriteLine("System.Timers.Timer {0:T}", e.SignalTime); } static void Main(string[] args) { //ThreadingTimer(); TimersTimer(); } } }
标签:row fill with post var waiting process produce ase
原文地址:http://www.cnblogs.com/liuslayer/p/7263185.html
