• The threads in the thread pool will process the requests on the connections concurrently.


    https://docs.oracle.com/javase/tutorial/essential/concurrency/pools.html

    Most of the executor implementations in java.util.concurrent use thread pools, which consist of worker threads. This kind of thread exists separately from the Runnableand Callable tasks it executes and is often used to execute multiple tasks.

    Using worker threads minimizes the overhead due to thread creation. Thread objects use a significant amount of memory, and in a large-scale application, allocating and deallocating many thread objects creates a significant memory management overhead.

    One common type of thread pool is the fixed thread pool. This type of pool always has a specified number of threads running; if a thread is somehow terminated while it is still in use, it is automatically replaced with a new thread. Tasks are submitted to the pool via an internal queue, which holds extra tasks whenever there are more active tasks than threads.

    An important advantage of the fixed thread pool is that applications using it degrade gracefully. To understand this, consider a web server application where each HTTP request is handled by a separate thread. If the application simply creates a new thread for every new HTTP request, and the system receives more requests than it can handle immediately, the application will suddenly stop responding to all requests when the overhead of all those threads exceed the capacity of the system. With a limit on the number of the threads that can be created, the application will not be servicing HTTP requests as quickly as they come in, but it will be servicing them as quickly as the system can sustain.

    A simple way to create an executor that uses a fixed thread pool is to invoke the newFixedThreadPool factory method in java.util.concurrent.Executors This class also provides the following factory methods:

    • The newCachedThreadPool method creates an executor with an expandable thread pool. This executor is suitable for applications that launch many short-lived tasks.
    • The newSingleThreadExecutor method creates an executor that executes a single task at a time.
    • Several factory methods are ScheduledExecutorService versions of the above executors.

    If none of the executors provided by the above factory methods meet your needs, constructing instances of java.util.concurrent.ThreadPoolExecutor orjava.util.concurrent.ScheduledThreadPoolExecutor will give you additional options.

    Java Concurrency Tutorial: Thread Pools

    Thread Pools are useful when you need to limit the number of threads running in your application at the same time. There is a performance overhead associated with starting a new thread, and each thread is also allocated some memory for its stack etc.

    Instead of starting a new thread for every task to execute concurrently, the task can be passed to a thread pool. As soon as the pool has any idle threads the task is assigned to one of them and executed. Internally the tasks are inserted into a Blocking Queue which the threads in the pool are dequeuing from. When a new task is inserted into the queue one of the idle threads will dequeue it successfully and execute it. The rest of the idle threads in the pool will be blocked waiting to dequeue tasks.

    【多线程服务器 每个连接会在线程池中开启一个新的线程 线程池并发地处理这些请求】

    Thread pools are often used in multi threaded servers. Each connection arriving at the server via the network is wrapped as a task and passed on to a thread pool. The threads in the thread pool will process the requests on the connections concurrently. A later trail will get into detail about implementing multithreaded servers in Java.

    https://docs.oracle.com/javase/tutorial/essential/concurrency/runthread.html

    public class SimpleThreads {
    
        // Display a message, preceded by
        // the name of the current thread
        static void threadMessage(String message) {
            String threadName =
                    Thread.currentThread().getName();
            System.out.format("%s: %s%n",
                    threadName,
                    message);
        }
    
        private static class MessageLoop
                implements Runnable {
            public void run() {
                String importantInfo[] = {
                        "Mares eat oats",
                        "Does eat oats",
                        "Little lambs eat ivy",
                        "A kid will eat ivy too"
                };
                try {
                    for (int i = 0;
                         i < importantInfo.length;
                         i++) {
                        // Pause for 4 seconds
                        Thread.sleep(4000);
                        // Print a message
                        threadMessage(importantInfo[i]);
                    }
                } catch (InterruptedException e) {
                    threadMessage("I wasn't done!");
                }
            }
        }
    
        public static void main(String args[])
                throws InterruptedException {
    
            // Delay, in milliseconds before
            // we interrupt MessageLoop
            // thread (default one hour).
            long patience = 1000 * 60 * 60;
    
            // If command line argument
            // present, gives patience
            // in seconds.
            if (args.length > 0) {
                try {
                    patience = Long.parseLong(args[0]) * 1000;
                } catch (NumberFormatException e) {
                    System.err.println("Argument must be an integer.");
                    System.exit(1);
                }
            }
    
            threadMessage("Starting MessageLoop thread");
            long startTime = System.currentTimeMillis();
            Thread t = new Thread(new MessageLoop());
            t.start();
    
            threadMessage("Waiting for MessageLoop thread to finish");
            // loop until MessageLoop
            // thread exits
            while (t.isAlive()) {
                threadMessage("Still waiting...");
                // Wait maximum of 1 second
                // for MessageLoop thread
                // to finish.
                t.join(1000);
                if (((System.currentTimeMillis() - startTime) > patience)
                        && t.isAlive()) {
                    threadMessage("Tired of waiting!");
                    t.interrupt();
                    // Shouldn't be long now
                    // -- wait indefinitely
                    t.join();
                }
            }
            threadMessage("Finally!");
        }
    }
  • 相关阅读:
    西山赏梅归来
    创建 WebRequest 实例并返回响应
    C# WinForm开发系列 DataGridView
    DataTable C#
    delphi 制作资源文件
    Windows Mobile上使用钩子
    OO系统分析员之路用例分析系列(7)用例规约的编写业务规则和实体描述[整理重发]
    iis下PHP5配置
    ie firefox 点flash 卡死解决方案
    PHP获取字符串编码类型
  • 原文地址:https://www.cnblogs.com/rsapaper/p/7841446.html
Copyright © 2020-2023  润新知