/*
* $RCSfile: JPEGTileDecoderFactory.java,v $
*
* Copyright (c) 2005 Sun Microsystems, Inc. All rights reserved.
*
* Use is subject to license terms.
*
* $Revision: 1.1 $
* $Date: 2005/02/11 04:56:57 $
* $State: Exp $
*/package com.lightcrafts.media.jai.tilecodec ;
import java.io.InputStream;
import java.util.Vector;
import com.lightcrafts.mediax.jai.JAI;
import com.lightcrafts.mediax.jai.ParameterListDescriptor;
import com.lightcrafts.mediax.jai.ParameterListDescriptorImpl;
import com.lightcrafts.mediax.jai.remote.NegotiableCapability;
import com.lightcrafts.mediax.jai.remote.NegotiableNumericRange;
import com.lightcrafts.mediax.jai.remote.NegotiableCollection;
import com.lightcrafts.mediax.jai.tilecodec.TileCodecParameterList;
import com.lightcrafts.mediax.jai.tilecodec.TileDecoder;
import com.lightcrafts.mediax.jai.tilecodec.TileDecoderFactory;
/**
* A factory for creating <code>JPEGTileDecoder</code>s.
*
* <p> This class stipulates that the capabilities of the
* <code>TileDecoder</code> be specified by implementing the
* <code>getDecodingCapability()</code> method.
*
* @see com.lightcrafts.mediax.jai.remote.NegotiableCapability
*/
public class JPEGTileDecoderFactory implements TileDecoderFactory {
/**
* Creates a <code>JPEGTileDecoder</code> capable of decoding the encoded
* data from the given <code>InputStream</code> using the specified
* <code>TileCodecParameterList</code> containing the decoding
* parameters to be used.
*
* <p> This method can return null if the <code>TileDecoder</code> is not
* capable of producing output for the given set of parameters.
* For example, if a <code>TileDecoder</code> is only capable of dealing
* with a jpeg quality factor of 0.5, and the associated
* <code>TileCodecParameterList</code> specifies a quality factor of 0.75,
* null should be returned.
*
* <p>It is recommended that the data in the supplied
* <code>InputStream</code> not be used as a factor in determining
* whether this <code>InputStream</code> can be successfully decoded,
* unless the supplied <code>InputStream</code> is known to be rewindable
* (i.e. its <code>markSupported()</code> method returns true or it has
* additional functionality that allows backward seeking). It is required
* that <code>the</code> InputStream contain the same data on
* returning from this method as before this method was called.
* In other words, the <code>InputStream</code> should only be used as a
* discriminator if it can be rewound to its starting position
* before returning from this method. Note that wrapping the
* incoming <code>InputStream</code> in a <code>PushbackInputStream</code>
* and then rewinding the <code>PushbackInputStream</code> before returning
* does not rewind the wrapped <code>InputStream</code>.
*
* <p> If the supplied <code>TileCodecParameterList</code> is null,
* a default <code>TileCodecParameterList</code> from the
* <code>TileCodecDescriptor</code> will be used to create the decoder.
*
* <p> Exceptions thrown by the <code>TileDecoder</code> will be
* caught by this method and will not be propagated.
*
* @param input The <code>InputStream</code> containing the encoded data
* to decode.
* @param param The parameters to be be used in the decoding process.
* @throws IllegalArgumentException if input is null.
*/
public TileDecoder createDecoder(InputStream input,
TileCodecParameterList param) {
if(input == null)
throw new IllegalArgumentException(JaiI18N.getString("TileDecoder0"));
return new JPEGTileDecoder(input, param ) ;
}
/**
* Returns the capabilities of this <code>TileDecoder</code> as a
* <code>NegotiableCapability</code>.
*/
public NegotiableCapability getDecodeCapability() {
Vector generators = new Vector();
generators.add(JPEGTileDecoderFactory.class);
ParameterListDescriptor jpegPld = JAI.getDefaultInstance().getOperationRegistry().getDescriptor("tileDecoder", "jpeg").getParameterListDescriptor("tileDecoder");
Class paramClasses[] = {
NegotiableNumericRange.class,
NegotiableCollection.class,
// XXX Find a way to create a negotiable representing integer
// arrays
// integer array, horizontal subsampling
// integer array, vertical subsampling
// integer array, quantization table mapping
// integer array, quantizationTable0
// integer array, quantizationTable1
// integer array, quantizationTable2
// integer array, quantizationTable3
NegotiableNumericRange.class,
NegotiableCollection.class,
NegotiableCollection.class,
NegotiableCollection.class
};
String paramNames[] = {
"quality",
"qualitySet",
"restartInterval",
"writeImageInfo",
"writeTableInfo",
"writeJFIFHeader"
};
// A collection containing the valid values for a boolean valued
// parameters
Vector v = new Vector();
v.add(new Boolean(true));
v.add(new Boolean(false));
NegotiableCollection negCollection = new NegotiableCollection(v);
NegotiableNumericRange nnr1 =
new NegotiableNumericRange(
jpegPld.getParamValueRange(paramNames[0]));
NegotiableNumericRange nnr2 =
new NegotiableNumericRange(
jpegPld.getParamValueRange(paramNames[2]));
// The default values
Object defaults[] = {
nnr1,
negCollection,
nnr2,
negCollection,
negCollection,
negCollection
};
NegotiableCapability decodeCap =
new NegotiableCapability("tileCodec",
"jpeg",
generators,
new ParameterListDescriptorImpl(
null, //descriptor
paramNames,
paramClasses,
defaults,
null), // validValues
false); // non-preference
// Set the Negotiables representing the valid values on the capability
decodeCap.setParameter(paramNames[0], nnr1);
decodeCap.setParameter(paramNames[1], negCollection);
decodeCap.setParameter(paramNames[2], nnr2);
decodeCap.setParameter(paramNames[3], negCollection);
decodeCap.setParameter(paramNames[4], negCollection);
decodeCap.setParameter(paramNames[5], negCollection);
return decodeCap;
}
}