Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I want to write java tcp socket programming using java NIO. Its working fine. But I am using the same selector for accepting reading from and writing to the clients.

How Can I create different selectors for accepting new connection in java NIO, reading and writing. Is there any online help.

Actually when I am busy in reading or writing my selector uses more iterator. So If more number of clients are connected then performance of accepting new coneection became slow. But I donot want the accepting clients to be slow

// Create a selector and register two socket channels Selector selector = null; try { // Create the selector selector = Selector.open();

    // Create two non-blocking sockets. This method is implemented in
    // e173 Creating a Non-Blocking Socket.
    SocketChannel sChannel1 = createSocketChannel("hostname.com", 80);
    SocketChannel sChannel2 = createSocketChannel("hostname.com", 80);

    // Register the channel with selector, listening for all events
    sChannel1.register(selector, sChannel1.validOps());
    sChannel2.register(selector, sChannel1.validOps());
} catch (IOException e) {

// Wait for events
while (true) {
    try {
        // Wait for an event
    } catch (IOException e) {
        // Handle error with selector

    // Get list of selection keys with pending events
    Iterator it = selector.selectedKeys().iterator();

    // Process each key at a time
    while (it.hasNext()) {
        // Get the selection key
        SelectionKey selKey = (SelectionKey)it.next();

        // Remove it from the list to indicate that it is being processed

        try {
        } catch (IOException e) {
            // Handle error with channel and unregister

public void processSelectionKey(SelectionKey selKey) throws IOException {
    // Since the ready operations are cumulative,
    // need to check readiness for each operation
    if (selKey.isValid() && selKey.isConnectable()) {
        // Get channel with connection request
        SocketChannel sChannel = (SocketChannel)selKey.channel();

        boolean success = sChannel.finishConnect();
        if (!success) {
            // An error occurred; handle it

            // Unregister the channel with this selector
    if (selKey.isValid() && selKey.isReadable()) {
        // Get channel with bytes to read
        SocketChannel sChannel = (SocketChannel)selKey.channel();

        // See e174 Reading from a SocketChannel
    if (selKey.isValid() && selKey.isWritable()) {
        // Get channel that's ready for more bytes
        SocketChannel sChannel = (SocketChannel)selKey.channel();

Thanks Deepak

share|improve this question
Clients are pre-accepted by the TCP stack. Thats what the backlog queue is for. The performance of that isn't affected by the performance of the iterator. Your question seems pretty pointless. You can increase the backlog easily enough, that's all you need. – EJP Jul 11 '11 at 0:10

There is plenty of online help.

If you want to create a new selector, go ahead and create another one (the same way it was done in the sample code you copied). You can register channels with it for just the connect operation if you want (the docs cover this, but the operation is OP_ACCEPT). You probably want a thread pool to handle the work of client processing - that way your main thread can queue up work items and get back onto accepting new connections on the listening socket right away.

share|improve this answer
I was unable to create – Deepak May 24 '09 at 13:59
Well why not paste whatever code you're actually using, instead of sample client code? If you're accepting connections, you must be using a ServerSocketChannel somewhere. – JimG May 24 '09 at 14:48

Each selector needs its own thread.

If you want multiple selectors, why not just use blocking NIO, that would be a lot simpler. Non-blocking IO only makes sense if you want to connections to share threads.

share|improve this answer
I don't see anything to suggest two selectors can't be used on the same thread. It seems to work fine for me (though two is also not necessary for just about any reason I can think of). – JimG May 24 '09 at 15:44
You can use any number of selectors in one thread. However, I don't see the point i.e. what does it give you that a single selector wouldn't? – Peter Lawrey May 24 '09 at 18:58
Sounds like we are in agreement. It was just the wording of "needs its own thread" that was confusing me. It would be possible to have one selector exclusively to deal with accept operations, so you could prioritise those over read/write operations. I think this is what he's asking for, even though it doesn't make sense and won't actually improve performance in the way he expects without additional work. – JimG May 24 '09 at 21:16
There are some valid patterns that use multiple selectors at different stages. For instance, one selector to accept connections with another selector for active reads/writes. Sometimes this makes it easier to deal with the "quirks" of SelectionKeys showing up as ready too often (i.e., on multiple calls to select()) because the worker thread hasn't gotten around to clearing the op yet, or the issues of changing interest ops in non-select()-calling threads. Grizzly does this very well. – mtnygard Jul 28 '09 at 1:30
The op should be cleared in the select thread, not a worker thread. That's just an invitation for trouble. – EJP Nov 20 '10 at 11:43

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.