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I am on the stage of development, where I have two modules and from one I got output as a OutputStream and second one, which accepts only inputStream. Do you know how to convert OutputStream to InputStream (not vice versa, I mean really this way) that I will be able to connect theese two parts?


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See stackoverflow.com/questions/1225909/… –  Bala R Apr 25 '11 at 13:14
@c0mrade, the op wants something like IOUtils.copy, only in the other direction. When someone writes into an OutputStream, it becomes available for someone else to use in an InputStream. This is basically what PipedOutputStream/PipedInputStream do. Unfortunately the Piped streams can't be built from other streams. –  MeBigFatGuy Apr 25 '11 at 13:17
so the PipedOutputStream/PipedInputStream is the solution? –  Waypoint Apr 25 '11 at 13:19
Basically in order for PipedStreams to work in your case, your OutputStream would need to be constructed like new YourOutputStream(thePipedOutputStream) and new YourInputStream(thePipedInputStream) which probably is not the way your stream works. So I don't think this is the solution. –  MeBigFatGuy Apr 25 '11 at 13:40

11 Answers 11

up vote 35 down vote accepted

An OutputStream is one where you write data to. If some module exposes an OutputStream, the expectation is that there is something at the other end that is reading.

Something that exposes an InputStream on the other hand is indicating that you will need to listen to this stream, and there will be data that you can read.

So it is possible to connect an InputStream to an OutputStream

InputStream----read---> intermediateBytes[n] ----write----> OutputStream

As someone metioned, this is what the copy() method from IOUtils lets you do. It does not make sense to go the other way... hopefully this makes some sense


Of course the more I think of this, the more I can see how this actually would be a requirement. I know some of the comments mentioned Piped input/ouput streams, but there is another possibility.

If the output stream that is exposed is a ByteArrayOutputStream, then you can always get the full contents by calling the toByteArray() method. Then you can create an input stream wrapper by using the ByteArrayInputStream sub-class. These two are pseudo-streams, they both basically just wrap an array of bytes. Using the streams this way, therefore, is technically possible, but to me it is still very strange...

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copy() do this IS to OS according to API, I need it to do backwards –  Waypoint Apr 25 '11 at 13:47
See my edit on the top, it is necesarry for me to make some conversion –  Waypoint Apr 25 '11 at 14:02
Make your output a ByteArrayOutputStream, and then make you input in the second case a BAIS. Does this solution not apply? Perhaps I am misunderstanding. –  Java Drinker Apr 25 '11 at 14:07
The usecase is very simple: Imagine you have a serialization library (for example, serializing to JSON) and a transport layer (say, Tomcat) which takes an InputStream. So you need to pipe the OutputStream from JSON over an HTTP connection which wants to read from an InputStream. –  JBCP Feb 21 '14 at 17:28
This is useful when unit testing and you are super pedantic about avoiding touching the file system. –  Jon Mar 13 '14 at 9:26

There seem to be many links and other such stuff, but no actual code using pipes. The advantage of using java.io.PipedInputStream and java.io.PipedOutputStream is that there is no additional consumption of memory. ByteArrayOutputStream.toByteArray() returns a copy of the original buffer, so that means that whatever you have in memory, you now have two copies of it. Then writing to an InputStream means you now have three copies of the data.

The code:

// take the copy of the stream and re-write it to an InputStream
PipedInputStream in = new PipedInputStream();
final PipedOutputStream out = new PipedOutputStream(in);
new Thread(
        new Runnable() {
            public void run () {
                try {
                    // write the original OutputStream to the PipedOutputStream
                catch (IOException e) {
                    // logging and exception handling should go here

This code assumes that the originalOutputStream is a ByteArrayOutputStream as it is usually the only usable output stream, unless you're writing to a file. I hope this helps! The great thing about this is that since it's in a separate thread, it also is working in parallel, so whatever is consuming your input stream will be streaming out of your old output stream too. That is beneficial because the buffer can remain smaller and you'll have less latency and less memory usage.

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You will need an intermediate class which will buffer between. Each time InputStream.read(byte[]...) is called, the buffering class will fill the passed in byte array with the next chunk passed in from OutputStream.write(byte[]...). Since the sizes of the chunks may not be the same, the adapter class will need to store a certain amount until it has enough to fill the read buffer and/or be able to store up any buffer overflow.

This article has a nice breakdown of a few different approaches to this problem:


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The link is dead. –  FDinoff May 13 at 3:44

The easystream open source library has direct support to convert an OutputStream to an InputStream: http://io-tools.sourceforge.net/easystream/tutorial/tutorial.html

They also list other options: http://io-tools.sourceforge.net/easystream/OutputStream_to_InputStream.html

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try to go through this link which might help you:


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reason for downvote? –  GuruKulki Apr 25 '11 at 13:42
That was not me, but there are pipedInputStreams in source code, I have pure inputStream and OutputStream, still I don't see any solution here... –  Waypoint Apr 25 '11 at 13:46
Info at the link was almost a decade old. Sorry, my comment is also a year old. I just wanted to clarify. That doesn't mean the info is any less useful, just really, really old. –  ingyhere Aug 31 '12 at 18:52

As input and output streams are just start and end point, the solution is to temporary store data in byte array. So you must create intermediate ByteArrayOutputStream, from which you create byte[] that is used as input for new ByteArrayInputStream.

public void doTwoThingsWithStream(InputStream inStream, OutputStream outStream){ 
  //create temporary bayte array output stream
  ByteArrayOutputStream baos = new ByteArrayOutputStream();
  doFirstThing(inStream, baos);
  //create input stream from baos
  InputStream isFromFirstData = new ByteArrayInputStream(baos.toByteArray()); 
  doSecondThing(isFromFirstData, outStream);

Hope it helps.

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I encountered the same problem with converting a ByteArrayOutputStream to a ByteArrayInputStream and solved it by using a derived class from ByteArrayOutputStream which is able to return a ByteArrayInputStream that is initialized with the internal buffer of the ByteArrayOutputStream. This way no additional memory is used and the 'conversion' is very fast:

package info.whitebyte.utils;
import java.io.ByteArrayInputStream;
import java.io.ByteArrayOutputStream;

 * This class extends the ByteArrayOutputStream by 
 * providing a method that returns a new ByteArrayInputStream
 * which uses the internal byte array buffer. This buffer
 * is not copied, so no additional memory is used. After
 * creating the ByteArrayInputStream the instance of the
 * ByteArrayInOutStream can not be used anymore.
 * <p>
 * The ByteArrayInputStream can be retrieved using <code>getInputStream()</code>.
 * @author Nick Russler
public class ByteArrayInOutStream extends ByteArrayOutputStream {
     * Creates a new ByteArrayInOutStream. The buffer capacity is
     * initially 32 bytes, though its size increases if necessary.
    public ByteArrayInOutStream() {

     * Creates a new ByteArrayInOutStream, with a buffer capacity of
     * the specified size, in bytes.
     * @param   size   the initial size.
     * @exception  IllegalArgumentException if size is negative.
    public ByteArrayInOutStream(int size) {

     * Creates a new ByteArrayInputStream that uses the internal byte array buffer 
     * of this ByteArrayInOutStream instance as its buffer array. The initial value 
     * of pos is set to zero and the initial value of count is the number of bytes 
     * that can be read from the byte array. The buffer array is not copied. This 
     * instance of ByteArrayInOutStream can not be used anymore after calling this
     * method.
     * @return the ByteArrayInputStream instance
    public ByteArrayInputStream getInputStream() {
        // create new ByteArrayInputStream that respect the current count
        ByteArrayInputStream in = new ByteArrayInputStream(this.buf);

        // set the buffer of the ByteArrayOutputStream 
        // to null so it can't be altered anymore
        this.buf = null;

        return in;

I put the stuff on github: https://github.com/nickrussler/ByteArrayInOutStream

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what if the content does not fit into the buffer? –  Vadimo Sep 15 '14 at 9:20
Then you should not use a ByteArrayInputStream in the first place. –  Nick Russler Sep 15 '14 at 9:39
This solution will have all bytes in memory. For small files this will be ok but then you can also use getBytes() on ByteArrayOutput Stream –  Vadimo Sep 15 '14 at 11:40
If you mean toByteArray this would cause the internal buffer to be copied, which would take twice as much memory as my approach. Edit: Ah i understand, for small files this works of course.. –  Nick Russler Sep 15 '14 at 15:40
Waste of time. ByteArrayOutputStream has a writeTo method to transfer content to another output stream –  Tony BenBrahim Feb 17 at 18:38

If you want to make an OutputStream from an InputStream there is one basic problem. A method writing to an OutputStream blocks until it is done. So the result is available when the writing method is finished. This has 2 consequences:

  1. If you use only one thread, you need to wait until everything is written (so you need to store the stream's data in memory or disk).
  2. If you want to access the data before it is finished, you need a second thread.

Variant 1 can be implemented using byte arrays or filed. Variant 1 can be implemented using pipies (either directly or with extra abstraction - e.g. RingBuffer or the google lib from the other comment).

Indeed with standard java there is no other way to solve the problem. Each solution is an implementataion of one of these.

There is one concept called "continuation" (see wikipedia for details). In this case basically this means:

  • there is a special output stream that expects a certain amount of data
  • if the ammount is reached, the stream gives control to it's counterpart which is a special input stream
  • the input stream makes the amount of data available until it is read, after that, it passes back the control to the output stream

While some languages have this concept built in, for java you need some "magic". For example "commons-javaflow" from apache implements such for java. The disadvantage is that this requires some special bytecode modifications at build time. So it would make sense to put all the stuff in an extra library whith custom build scripts.

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Old post but might help others, Use this way:

OutputStream out = new ByteArrayOutputStream();
ObjectInputStream ois = new ObjectInputStream(new ByteArrayInputStream(out.toString().getBytes()));
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to String --> size problem –  user1594895 Oct 9 '14 at 13:11

I think the best way to connect InputStream to an OutputStream is through piped streams - available in java.io package, as follow:

// 1- Define stream buffer
private static final int PIPE_BUFFER = 2048;

// 2 -Create PipedInputStream with the buffer
public PipedInputStream inPipe = new PipedInputStream(PIPE_BUFFER);

// 3 -Create PipedOutputStream and bound it to the PipedInputStream object
public PipedOutputStream outPipe = new PipedOutputStream(inPipe);

// 4- PipedOutputStream is an OutputStream, So you can write data to it
// in any way suitable to your data. for example:
while (Condition) {

/*Congratulations:D. Step 4 will write data to the PipedOutputStream
which is bound to the PipedInputStream so after filling the buffer
this data is available in the inPipe Object. Start reading it to
clear the buffer to be filled again by the PipedInputStream object.*/

In my opinion there are two main advantages for this code:

1 - There is no additional consumption of memory except for the buffer.

2 - You don't need to handle data queuing manually

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outputStream.toByteArray() is deprecated, use:

new ByteArrayInputStream(outputStream.getBytes());
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This does not seem to be the case, plus there is no .getBytes() method: docs.oracle.com/javase/7/docs/api/java/io/… –  mckamey May 26 '12 at 19:09

protected by Maarten Bodewes Oct 23 '14 at 15:14

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