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I've "discovered" this idiom recently, and I am wondering if there is something I am missing. I've never seen it used. Nearly all Java code I've worked with "in the wild" favors slurping data into a string or buffer, rather than something like this example (using HttpClient and XML APIs for example):

    final LSOutput output; // XML stuff initialized elsewhere
    final LSSerializer serializer;
    final Document doc;
    // ...
    PostMethod post; // HttpClient post request
    final PipedOutputStream source = new PipedOutputStream();
    PipedInputStream sink = new PipedInputStream(source);
    // ...
    executor.execute(new Runnable() {
            public void run() {
                output.setByteStream(source);
                serializer.write(doc, output);
                try {
                    source.close();
                } catch (IOException e) {
                    throw new RuntimeException(e);
                }
            }});

    post.setRequestEntity(new InputStreamRequestEntity(sink));
    int status = httpClient.executeMethod(post);

That code uses a Unix-piping style technique to prevent multiple copies of the XML data being kept in memory. It uses the HTTP Post OutputStream and the DOM Load/Save API to serialize an XML Document as the content of the HTTP request. As far as I can tell it minimizes the use of memory with very little extra code (just the few lines for Runnable, PipedInputStream, and PipedOutputStream).

So, what's wrong with this idiom? If there's nothing wrong with this idiom, why haven't I seen it?

EDIT: to clarify, PipedInputStream and PipedOutputStream replace the boilerplate buffer-by-buffer copy that shows up everywhere, and they also allow you to process incoming data concurrently with writing out the processed data. They don't use OS pipes.

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I saw your code and made an example for JAXB xml (pastebin.com/zsWR8Dgx). The code just seems fragile to me. It would be good to see a solid example of this. –  TJR Aug 18 '11 at 15:45
    
Try Pipe4j: code.google.com/p/pipe4j –  user940846 Sep 12 '11 at 15:17
1  
For what it's worth, I do use this all the time and it's not fragile in any way. You do have to store the exceptions thrown in the Runnable object somewhere and rethrow them if you want more meaningful tracebacks. It's still way better than coding to explicit buffers. –  Steven Huwig Sep 17 '11 at 2:51

7 Answers 7

up vote 22 down vote accepted

From the Javadocs:

Typically, data is read from a PipedInputStream object by one thread and data is written to the corresponding PipedOutputStream by some other thread. Attempting to use both objects from a single thread is not recommended, as it may deadlock the thread.

This may partially explain why it is not more commonly used.

I'd assume another reason is that many developers do not understand its purpose / benefit.

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2  
So maybe the real question is "why doesn't more Java code use concurrency?" ... –  Steven Huwig Jan 27 '09 at 17:12
    
Concurrency is heavily used in most java code. –  iny Jan 27 '09 at 17:34
5  
Sadly concurrency is overused where it isn't needed, and underused where it was needed... oops! :) –  John Gardner Jan 27 '09 at 17:59
1  
@iny, I'd argue that most developers aren't writing concurrent code. Maybe it's running in a concurrent environment, but I think that it is a minority of developers who deal every day with multithreading (and this is probably a good thing) –  matt b Jan 27 '09 at 18:27
    
"many developers do not understand it's purpose / benefit" probably those developers who have not previously used Unix,and therefore have not been exposed to the usefulness of the pips-and-filters design pattern. –  Raedwald Feb 28 '12 at 14:14

In your example you're creating two threads to do the work that could be done by one. And introducing I/O delays into the mix.

Do you have a better example? Or did I just answer your question.


To pull some of the comments (at least my view of them) into the main response:

  • Concurrency introduces complexity into an application. Instead of dealing with a single linear flow of data, you now have to be concerned about sequencing of independent data flows. In some cases, the added complexity may be justified, particularly if you can leverage multiple cores/CPUs to do CPU-intensive work.
  • If you are in a situation where you can benefit from concurrent operations, there's usually a better way to coordinate the flow of data between threads. For example, passing objects between threads using a concurrent queue, rather than wrapping the piped streams in object streams.
  • Where a piped stream may be a good solution is when you have multiple threads performing text processing, a la a Unix pipeline (eg: grep | sort).


In the specific example, the piped stream allows use of an existing RequestEntity implementation class provided by HttpClient. I believe that a better solution is to create a new implementation class, as below, because the example is ultimately a sequential operation that cannot benefit from the complexity and overhead of a concurrent implementation. While I show the RequestEntity as an anonymous class, reusability would indicate that it should be a first-class class.

post.setRequestEntity(new RequestEntity()
{
    public long getContentLength()
    {
        return 0-1;
    }

    public String getContentType()
    {
        return "text/xml";
    }

    public boolean isRepeatable()
    {
        return false;
    }

    public void writeRequest(OutputStream out) throws IOException
    {
        output.setByteStream(out);
        serializer.write(doc, output);
    }
});
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That's an example I have handy. What IO delays are being introduced? PipedInputStreams and PipedOutputStreams are memory buffers. –  Steven Huwig Jan 27 '09 at 16:56
    
They may be memory buffers, but they use the underlying pipe implementation, which is a kernel I/O operation. –  kdgregory Jan 27 '09 at 16:59
3  
Not according to the source they don't. –  Steven Huwig Jan 27 '09 at 17:02
    
As for your example: I haven't used HttpClient, but I would expect an alternate method to get access to the request body as an OutputStream. Perhaps not, although are you sure that PostMethod doesn't buffer its content in memory (in which case you don't gain anything) –  kdgregory Jan 27 '09 at 17:05
    
PostMethod can buffer or not, depending on whether the method has been configured to chunk the enclosed entity. By default it chunks when the content length is not set. It'd be more helpful if you assumed I had already read the APIs and source in question when you answer. –  Steven Huwig Jan 27 '09 at 17:08

Also, back to the original example: no, it does not exactly minimize memory usage either. DOM tree(s) get built, in-memory buffering done -- while that is better than full byte array replicas, it's not that much better. But buffering in this case will be slower; and an extra thread is also created -- you can not use PipedInput/OutputStream pair from within a single thread.

Sometimes PipedXxxStreams are useful, but the reason they are not used more is because quite often they are not the right solution. They are ok for inter-thread communication, and that's where I have used them for what that's worth. It's just that there aren't that many use cases for this, given how SOA pushes most such boundaries to be between services, instead of between threads.

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I too only discovered the PipedInputStream/PipedOutputStream classes recently.

I am developing an Eclipse plug-in that needs to execute commands on a remote server via SSH. I am using JSch and the Channel API reads from an input stream and writes to an output stream. But I need to feed commands through the input stream and read the responses from an output stream. Thats where PipedInput/OutputStream comes in.

import java.io.PipedInputStream;
import java.io.PipedOutputStream;

import com.jcraft.jsch.Channel;

Channel channel;
PipedInputStream channelInputStream = new PipedInputStream();
PipedOutputStream channelOutputStream = new PipedOutputStream();

channel.setInputStream(new PipedInputStream(this.channelOutputStream));
channel.setOutputStream(new PipedOutputStream(this.channelInputStream));
channel.connect();

// Write to channelInputStream
// Read from channelInputStream

channel.disconnect();
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javadoc said piped streams could get deadlock on one thread???? (which sucks as I want to use something exactly like this with no extra thread).....does that actually work or do you get deadlock? –  Dean Hiller Feb 28 '12 at 19:46

I tried using these classes a while back for something, I forget the details. But I did discover that their implementation is fatally flawed. I can't remember what it was but I have a sneaky memory that it may have been a race condition which meant that they occasionally deadlocked (And yes, of course I was using them in separately threads: they simply aren't usable in a single thread and weren't designed to be).

I might have a look at their source code andsee if I can see what the problem might have been.

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1  
I found that both ends need to be closed. –  Steven Huwig Jan 27 '09 at 21:49

So, what's wrong with this idiom? If there's nothing wrong with this idiom, why haven't I seen it?

EDIT: to clarify, PipedInputStream and PipedOutputStream replace the boilerplate buffer-by-buffer copy that shows up everywhere, and they also allow you to process incoming data concurrently with writing out the processed data. They don't use OS pipes.

You have stated what it does but haven't stated why you are doing this.

If you believe that this will either reduce resources used (cpu/memory) or improve performance then it won't do either. However it will make your code more complex.

Basically you have a solution without a problem for which it solves.

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In this particular case you are right -- there is another way to code it that avoids unbounded memory consumption. In the general case, however, it requires less code to avoid unbounded memory consumption than would equivalent buffer copying code. –  Steven Huwig Jan 27 '09 at 20:07
    
What do you see as an "unbounded memory consumption" I have been developing networking solutions for trading system for six years and I have never come across this problem. –  Peter Lawrey Jan 29 '09 at 7:23
    
Do your trading systems handle single messages with gigs of payload without running out of space? If so then they have bounded memory consumption; otherwise they have unbounded memory consumption. (Not that I would expect trading systems to do anything but reject messages over a certain size, but believe it or not that's not the case in every domain.) –  Steven Huwig Jul 20 '09 at 21:22
1  
It is true that trading messages are typically small as latency is important. They can add up fairly quickly and we end up with 10s of gigs of data in memory. However, I am not sure how this is relevant. The solution posted will not help you deal with very large messages as far as I can see, in fact instead of having one copy of the message passed around you will end up with two copies (as the writer cannot complete serialization of a large message and discard the original until the reader has almost read/rebuilt the copy) –  Peter Lawrey Jul 22 '09 at 5:52
    
The reader can be streaming to the server as far as I can tell, with content-encoding: chunked. There doesn't need to be a second copy constructed (in this process, anyway). –  Steven Huwig Aug 21 '09 at 2:25

java.io pipes have too much context switching (per byte read/write) and their java.nio counterpart requires you to have some NIO background and proper usage of channels and stuff, this is my own implementation of pipes using a blocking queue which for a single producer/consumer will perform fast and scale well:

import java.io.IOException;
import java.io.OutputStream;
import java.util.concurrent.*;

public class QueueOutputStream extends OutputStream
{
  private static final int DEFAULT_BUFFER_SIZE=1024;
  private static final byte[] END_SIGNAL=new byte[]{};

  private final BlockingQueue<byte[]> queue=new LinkedBlockingDeque<>();
  private final byte[] buffer;

  private boolean closed=false;
  private int count=0;

  public QueueOutputStream()
  {
    this(DEFAULT_BUFFER_SIZE);
  }

  public QueueOutputStream(final int bufferSize)
  {
    if(bufferSize<=0){
      throw new IllegalArgumentException("Buffer size <= 0");
    }
    this.buffer=new byte[bufferSize];
  }

  private synchronized void flushBuffer()
  {
    if(count>0){
      final byte[] copy=new byte[count];
      System.arraycopy(buffer,0,copy,0,count);
      queue.offer(copy);
      count=0;
    }
  }

  @Override
  public synchronized void write(final int b) throws IOException
  {
    if(closed){
      throw new IllegalStateException("Stream is closed");
    }
    if(count>=buffer.length){
      flushBuffer();
    }
    buffer[count++]=(byte)b;
  }

  @Override
  public synchronized void write(final byte[] b, final int off, final int len) throws IOException
  {
    super.write(b,off,len);
  }

  @Override
  public synchronized void close() throws IOException
  {
    flushBuffer();
    queue.offer(END_SIGNAL);
    closed=true;
  }

  public Future<Void> asyncSendToOutputStream(final ExecutorService executor, final OutputStream outputStream)
  {
    return executor.submit(
            new Callable<Void>()
            {
              @Override
              public Void call() throws Exception
              {
                try{
                  byte[] buffer=queue.take();
                  while(buffer!=END_SIGNAL){
                    outputStream.write(buffer);
                    buffer=queue.take();
                  }
                  outputStream.flush();
                } catch(Exception e){
                  close();
                  throw e;
                } finally{
                  outputStream.close();
                }
                return null;
              }
            }
    );
  }
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