1

I am reading an array of bytes passed in to me (not my choice, but i have to use it this way). I need to get the data to a LinkedBlockingQueue, and ultimately step through the bytes to build one or more (may contain partial messages) xml messages. So my question is this:

What generic should i use for the LBQ type? what is the most efficient way to get the byte[] to that generic type?

Here is my example code:

parsebytes(byte[] bytes, int length)
{
    //assume that i am doing other checks on data

    if (length > 0)
    {
        myThread.putBytes(bytes, length);
    }
}

in my thread:

putBytes(byte[] bytes, int length)
{
    for (int i = 0; i < length; i++)
    { 
        blockingQueue.put(bytes[i]);
    }
}

I also do not want to have to pull off the blocking queue byte-by-byte either. I would rather grab everything that is in the queue and process it.

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  • 2
    is there an issue with using the Byte type and letting java auto convert for you (not sure about performance efficiency, but lines of code this will probably be easiest).
    – zbrunson
    Nov 20, 2012 at 15:34
  • Do you have a byte[] or a ByteArrayInputStream or somesuch? Is the thing that's giving you the byte[] going to keep updating it as you get more data? If the answers to these questions are no, why do you need the Queue to be blocking?
    – durron597
    Nov 20, 2012 at 15:45
  • The function parameter is byte[]. Basically i need to exit that function as fast as possible so i am pulling the data off and handling it in another thread using a put/take on the LBQ. I currently have the LBQ as a Byte, but it just seems wasteful to have to loop to put in byte-by-byte.
    – Jason
    Nov 20, 2012 at 15:51

2 Answers 2

4

There is no such thing as a ListBlockingQueue. However, any BlockingQueue<Object> will accept byte[] since Java arrays are objects.

In the absence of other design considerations, the simplest option might be to just stick the arrays into the queue as they arrive, and let the consumer stich them together.

4
  • Sorry, mistyped. It is a LinkedBlockingQueue.
    – Jason
    Nov 20, 2012 at 15:46
  • That is part of the problem. For the definition: LinkedBlockingQueue<Byte[]> blockingQueue = new LinkedBlockingQueue<Byte[]>(); you cannot do: blockingQueue.put(bytes); //where bytes == byte[]
    – Jason
    Nov 20, 2012 at 16:12
  • 1
    Can you change the queue to LinkedBlockingQueue<Object>? If you do, you'll be able to place the arrays directly into the queue.
    – NPE
    Nov 20, 2012 at 17:20
  • this allows me to compile. It will be a little while before i can get it to the lab and get results, but i'm hopeful.
    – Jason
    Nov 20, 2012 at 18:37
4

Consider this:

    BlockingQueue<byte[]> q = new LinkedBlockingQueue<>();
    q.put(new byte[] {1,2,3});
    byte[] bytes = q.take();
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  • if we put different size byte[] in queue, how many bytes will it return on q.take()?
    – SohailAziz
    Jun 11, 2014 at 13:05
  • @SohailAziz - Use bytes.length to check how many bytes are in the byte[] returned by q.take(). The BlockingQueue will return the same object (in this case a byte[] object) that you put into it. You can check the number of bytes in a byte array by interrogating the length field of the array (i.e. bytes.length),
    – yegeniy
    Aug 7, 2015 at 13:31

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