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package javax.imageio.stream;

import java.io.InputStream;
import java.io.IOException;
import com.sun.imageio.stream.StreamFinalizer;
import sun.java2d.Disposer;
import sun.java2d.DisposerRecord;

An implementation of ImageInputStream that gets its input from a regular InputStream. A memory buffer is used to cache at least the data between the discard position and the current read position.

In general, it is preferable to use a FileCacheImageInputStream when reading from a regular InputStream. This class is provided for cases where it is not possible to create a writable temporary file.

/** * An implementation of <code>ImageInputStream</code> that gets its * input from a regular <code>InputStream</code>. A memory buffer is * used to cache at least the data between the discard position and * the current read position. * * <p> In general, it is preferable to use a * <code>FileCacheImageInputStream</code> when reading from a regular * <code>InputStream</code>. This class is provided for cases where * it is not possible to create a writable temporary file. * */
public class MemoryCacheImageInputStream extends ImageInputStreamImpl { private InputStream stream; private MemoryCache cache = new MemoryCache();
The referent to be registered with the Disposer.
/** The referent to be registered with the Disposer. */
private final Object disposerReferent;
The DisposerRecord that resets the underlying MemoryCache.
/** The DisposerRecord that resets the underlying MemoryCache. */
private final DisposerRecord disposerRecord;
Constructs a MemoryCacheImageInputStream that will read from a given InputStream.
Params:
  • stream – an InputStream to read from.
Throws:
/** * Constructs a <code>MemoryCacheImageInputStream</code> that will read * from a given <code>InputStream</code>. * * @param stream an <code>InputStream</code> to read from. * * @exception IllegalArgumentException if <code>stream</code> is * <code>null</code>. */
public MemoryCacheImageInputStream(InputStream stream) { if (stream == null) { throw new IllegalArgumentException("stream == null!"); } this.stream = stream; disposerRecord = new StreamDisposerRecord(cache); if (getClass() == MemoryCacheImageInputStream.class) { disposerReferent = new Object(); Disposer.addRecord(disposerReferent, disposerRecord); } else { disposerReferent = new StreamFinalizer(this); } } public int read() throws IOException { checkClosed(); bitOffset = 0; long pos = cache.loadFromStream(stream, streamPos+1); if (pos >= streamPos+1) { return cache.read(streamPos++); } else { return -1; } } public int read(byte[] b, int off, int len) throws IOException { checkClosed(); if (b == null) { throw new NullPointerException("b == null!"); } if (off < 0 || len < 0 || off + len > b.length || off + len < 0) { throw new IndexOutOfBoundsException ("off < 0 || len < 0 || off+len > b.length || off+len < 0!"); } bitOffset = 0; if (len == 0) { return 0; } long pos = cache.loadFromStream(stream, streamPos+len); len = (int)(pos - streamPos); // In case stream ended early if (len > 0) { cache.read(b, off, len, streamPos); streamPos += len; return len; } else { return -1; } } public void flushBefore(long pos) throws IOException { super.flushBefore(pos); // this will call checkClosed() for us cache.disposeBefore(pos); }
Returns true since this ImageInputStream caches data in order to allow seeking backwards.
See Also:
Returns:true.
/** * Returns <code>true</code> since this * <code>ImageInputStream</code> caches data in order to allow * seeking backwards. * * @return <code>true</code>. * * @see #isCachedMemory * @see #isCachedFile */
public boolean isCached() { return true; }
Returns false since this ImageInputStream does not maintain a file cache.
See Also:
Returns:false.
/** * Returns <code>false</code> since this * <code>ImageInputStream</code> does not maintain a file cache. * * @return <code>false</code>. * * @see #isCached * @see #isCachedMemory */
public boolean isCachedFile() { return false; }
Returns true since this ImageInputStream maintains a main memory cache.
See Also:
Returns:true.
/** * Returns <code>true</code> since this * <code>ImageInputStream</code> maintains a main memory cache. * * @return <code>true</code>. * * @see #isCached * @see #isCachedFile */
public boolean isCachedMemory() { return true; }
Closes this MemoryCacheImageInputStream, freeing the cache. The source InputStream is not closed.
/** * Closes this <code>MemoryCacheImageInputStream</code>, freeing * the cache. The source <code>InputStream</code> is not closed. */
public void close() throws IOException { super.close(); disposerRecord.dispose(); // this resets the MemoryCache stream = null; cache = null; }
{@inheritDoc}
/** * {@inheritDoc} */
protected void finalize() throws Throwable { // Empty finalizer: for performance reasons we instead use the // Disposer mechanism for ensuring that the underlying // MemoryCache is reset prior to garbage collection } private static class StreamDisposerRecord implements DisposerRecord { private MemoryCache cache; public StreamDisposerRecord(MemoryCache cache) { this.cache = cache; } public synchronized void dispose() { if (cache != null) { cache.reset(); cache = null; } } } }