* { - - - X X X X X X X - - - - - }
* ^ ^
* | |
* out in
* ...or wrapped around the buffer's end:
* { X X X X - - - - - - - - X X X }
* ^ ^
* | |
* in out
* When the buffer is empty, {@code in == -1}. Reading when the buffer is
* empty will block until data is available. When the buffer is full,
* {@code in == out}. Writing when the buffer is full will block until free
* space is available.
*/
protected byte[] buffer;
/**
* The index in {@code buffer} where the next byte will be written.
*/
protected int in = -1;
/**
* The index in {@code buffer} where the next byte will be read.
*/
protected int out;
/**
* The size of the default pipe in bytes.
*/
protected static final int PIPE_SIZE = 1024;
/**
* Indicates if this pipe is connected.
*/
boolean isConnected;
/**
* Constructs a new unconnected {@code PipedInputStream}. The resulting
* stream must be connected to a {@link PipedOutputStream} before data may
* be read from it.
*/
public PipedInputStream() {}
/**
* Constructs a new {@code PipedInputStream} connected to the
* {@link PipedOutputStream} {@code out}. Any data written to the output
* stream can be read from the this input stream.
*
* @param out
* the piped output stream to connect to.
* @throws IOException
* if this stream or {@code out} are already connected.
*/
public PipedInputStream(PipedOutputStream out) throws IOException {
connect(out);
}
/**
* Constructs a new unconnected {@code PipedInputStream} with the given
* buffer size. The resulting stream must be connected to a
* {@code PipedOutputStream} before data may be read from it.
*
* @param pipeSize the size of the buffer in bytes.
* @throws IllegalArgumentException if pipeSize is less than or equal to zero.
* @since 1.6
*/
public PipedInputStream(int pipeSize) {
if (pipeSize <= 0) {
throw new IllegalArgumentException("pipe size " + pipeSize + " too small");
}
buffer = new byte[pipeSize];
}
/**
* Constructs a new {@code PipedInputStream} connected to the given {@code PipedOutputStream},
* with the given buffer size. Any data written to the output stream can be read from this
* input stream.
*
* @param out the {@code PipedOutputStream} to connect to.
* @param pipeSize the size of the buffer in bytes.
* @throws IOException if an I/O error occurs.
* @throws IllegalArgumentException if pipeSize is less than or equal to zero.
* @since 1.6
*/
public PipedInputStream(PipedOutputStream out, int pipeSize) throws IOException {
this(pipeSize);
connect(out);
}
/**
* {@inheritDoc}
*
* Unlike most streams, {@code PipedInputStream} returns 0 rather than throwing * {@code IOException} if the stream has been closed. Unconnected and broken pipes also * return 0. * * @throws IOException if an I/O error occurs */ @Override public synchronized int available() throws IOException { if (buffer == null || in == -1) { return 0; } return in <= out ? buffer.length - out + in : in - out; } /** * Closes this stream. This implementation releases the buffer used for the * pipe and notifies all threads waiting to read or write. * * @throws IOException * if an error occurs while closing this stream. */ @Override public synchronized void close() throws IOException { buffer = null; notifyAll(); } /** * Connects this {@code PipedInputStream} to a {@link PipedOutputStream}. * Any data written to the output stream becomes readable in this input * stream. * * @param src * the source output stream. * @throws IOException * if either stream is already connected. */ public void connect(PipedOutputStream src) throws IOException { src.connect(this); } /** * Establishes the connection to the PipedOutputStream. * * @throws IOException * If this Reader is already connected. */ synchronized void establishConnection() throws IOException { if (isConnected) { throw new IOException("Pipe already connected"); } if (buffer == null) { // We may already have allocated the buffer. buffer = new byte[PipedInputStream.PIPE_SIZE]; } isConnected = true; } /** * Reads a single byte from this stream and returns it as an integer in the * range from 0 to 255. Returns -1 if the end of this stream has been * reached. If there is no data in the pipe, this method blocks until data * is available, the end of the stream is detected or an exception is * thrown. *
* Separate threads should be used to read from a {@code PipedInputStream} * and to write to the connected {@link PipedOutputStream}. If the same * thread is used, a deadlock may occur. * * @return the byte read or -1 if the end of the source stream has been * reached. * @throws IOException * if this stream is closed or not connected to an output * stream, or if the thread writing to the connected output * stream is no longer alive. */ @Override public synchronized int read() throws IOException { if (!isConnected) { throw new IOException("Not connected"); } if (buffer == null) { throw new IOException("InputStream is closed"); } /** * Set the last thread to be reading on this PipedInputStream. If * lastReader dies while someone is waiting to write an IOException of * "Pipe broken" will be thrown in receive() */ lastReader = Thread.currentThread(); try { int attempts = 3; while (in == -1) { // Are we at end of stream? if (isClosed) { return -1; } if ((attempts-- <= 0) && lastWriter != null && !lastWriter.isAlive()) { throw new IOException("Pipe broken"); } // Notify callers of receive() notifyAll(); wait(1000); } } catch (InterruptedException e) { IoUtils.throwInterruptedIoException(); } int result = buffer[out++] & 0xff; if (out == buffer.length) { out = 0; } if (out == in) { // empty buffer in = -1; out = 0; } // let blocked writers write to the newly available buffer space notifyAll(); return result; } /** * Reads up to {@code byteCount} bytes from this stream and stores them in the * byte array {@code bytes} starting at {@code byteOffset}. Blocks until at * least one byte has been read, the end of the stream is detected or an * exception is thrown. * *
Separate threads should be used to read from a {@code PipedInputStream} * and to write to the connected {@link PipedOutputStream}. If the same * thread is used, a deadlock may occur. * *
Returns the number of bytes actually read or -1 if the end of the stream * has been reached. * * @throws IndexOutOfBoundsException * if {@code byteOffset < 0 || byteCount < 0 || byteOffset + byteCount > bytes.length}. * @throws InterruptedIOException * if the thread reading from this stream is interrupted. * @throws IOException * if this stream is closed or not connected to an output * stream, or if the thread writing to the connected output * stream is no longer alive. * @throws NullPointerException * if {@code bytes} is {@code null}. */ @Override public synchronized int read(byte[] bytes, int byteOffset, int byteCount) throws IOException { Arrays.checkOffsetAndCount(bytes.length, byteOffset, byteCount); if (byteCount == 0) { return 0; } if (!isConnected) { throw new IOException("Not connected"); } if (buffer == null) { throw new IOException("InputStream is closed"); } /* * Set the last thread to be reading on this PipedInputStream. If * lastReader dies while someone is waiting to write an IOException of * "Pipe broken" will be thrown in receive() */ lastReader = Thread.currentThread(); try { int attempts = 3; while (in == -1) { // Are we at end of stream? if (isClosed) { return -1; } if ((attempts-- <= 0) && lastWriter != null && !lastWriter.isAlive()) { throw new IOException("Pipe broken"); } // Notify callers of receive() notifyAll(); wait(1000); } } catch (InterruptedException e) { IoUtils.throwInterruptedIoException(); } int totalCopied = 0; // copy bytes from out thru the end of buffer if (out >= in) { int leftInBuffer = buffer.length - out; int length = leftInBuffer < byteCount ? leftInBuffer : byteCount; System.arraycopy(buffer, out, bytes, byteOffset, length); out += length; if (out == buffer.length) { out = 0; } if (out == in) { // empty buffer in = -1; out = 0; } totalCopied += length; } // copy bytes from out thru in if (totalCopied < byteCount && in != -1) { int leftInBuffer = in - out; int leftToCopy = byteCount - totalCopied; int length = leftToCopy < leftInBuffer ? leftToCopy : leftInBuffer; System.arraycopy(buffer, out, bytes, byteOffset + totalCopied, length); out += length; if (out == in) { // empty buffer in = -1; out = 0; } totalCopied += length; } // let blocked writers write to the newly available buffer space notifyAll(); return totalCopied; } /** * Receives a byte and stores it in this stream's {@code buffer}. This * method is called by {@link PipedOutputStream#write(int)}. The least * significant byte of the integer {@code oneByte} is stored at index * {@code in} in the {@code buffer}. *
* This method blocks as long as {@code buffer} is full. * * @param oneByte * the byte to store in this pipe. * @throws InterruptedIOException * if the {@code buffer} is full and the thread that has called * this method is interrupted. * @throws IOException * if this stream is closed or the thread that has last read * from this stream is no longer alive. */ protected synchronized void receive(int oneByte) throws IOException { if (buffer == null || isClosed) { throw new IOException("Pipe is closed"); } /* * Set the last thread to be writing on this PipedInputStream. If * lastWriter dies while someone is waiting to read an IOException of * "Pipe broken" will be thrown in read() */ lastWriter = Thread.currentThread(); try { while (buffer != null && out == in) { if (lastReader != null && !lastReader.isAlive()) { throw new IOException("Pipe broken"); } notifyAll(); wait(1000); } } catch (InterruptedException e) { IoUtils.throwInterruptedIoException(); } if (buffer == null) { throw new IOException("Pipe is closed"); } if (in == -1) { in = 0; } buffer[in++] = (byte) oneByte; if (in == buffer.length) { in = 0; } // let blocked readers read the newly available data notifyAll(); } synchronized void done() { isClosed = true; notifyAll(); } }