Visual Studio C# 關於我寫 multi-thread 的起手式:Thread、ManualResetEvent、ConcurrentQueue
IPFS
private static System.Collections.Concurrent.ConcurrentQueue<byte[]> _fifo = null;
private static System.Threading.ManualResetEvent _pauseEvent = null;
private static System.Threading.Thread _thread = null;
/// <summary>
/// 使用 Thread 創建多執行緒避免鎖住 UI
/// 使用 ManualResetEvent 控制 執行緒的運作
/// 使用 ConcurrentQueue 令多執行緒可以安全的共用資料
/// </summary>
/// <param name="args"></param>
private static void Main(string[] args)
{
_thread = new System.Threading.Thread(MyThreadMethod); // 初始化 "Thread"
_pauseEvent = new System.Threading.ManualResetEvent(false); // 初始化 "ManualResetEvent" 並預設為 暫停 (false)
_fifo = new System.Collections.Concurrent.ConcurrentQueue<byte[]>(); // 初始化 "安全執行緒的先進先出 (FIFO) 集合"
_thread.Start();
Task.Factory.StartNew(MyTestMethod);
READ_CMD:
var ck = Console.ReadKey(true);
if (ck.Key == ConsoleKey.S)
{
_pauseEvent.Set(); // 釋放 "ManualResetEvent"
}
else if (ck.Key == ConsoleKey.R)
{
_pauseEvent.Reset(); // 鎖住 "ManualResetEvent"
}
goto READ_CMD;
}
private static void MyTestMethod()
{
do
{
_pauseEvent.WaitOne(System.Threading.Timeout.Infinite);
var result = _fifo.TryDequeue(out var array);
if (result && array != null)
{
Console.Write($"{nameof(array)}: ");
for (var idx = 0; idx < array.Length; idx++)
{
Console.Write($"{array[idx]} ");
}
}
Console.WriteLine();
System.Threading.Thread.Sleep(800);
} while (true);
}
private static void MyThreadMethod()
{
var random = new Random();
do
{
_pauseEvent.WaitOne(System.Threading.Timeout.Infinite);
var array = new byte[10];
random.NextBytes(array);
_fifo.Enqueue(array);
Console.Write($"{nameof(array)}: ");
for (var idx = 0; idx < array.Length; idx++)
{
Console.Write($"{array[idx]} ");
}
Console.WriteLine();
System.Threading.Thread.Sleep(500);
} while (true);
}原文連結Leo Studio
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