/*
* @(#)JPEGCodec.java 1.8 03/12/19
*
* Copyright 2004 Sun Microsystems, Inc. All rights reserved.
* SUN PROPRIETARY/CONFIDENTIAL. Use is subject to license terms.
*/
/**********************************************************************
**********************************************************************
**********************************************************************
*** COPYRIGHT (c) 1997-1998 Eastman Kodak Company. ***
*** As an unpublished work pursuant to Title 17 of the United ***
*** States Code. All rights reserved. ***
**********************************************************************
**********************************************************************
**********************************************************************/
package com.sun.image.codec.jpeg;
import sun.awt.image.codec.JPEGImageDecoderImpl;
import sun.awt.image.codec.JPEGImageEncoderImpl;
import sun.awt.image.codec.JPEGParam;
import java.awt.image.BufferedImage;
import java.awt.image.Raster;
import java.awt.image.ColorModel;
import java.io.InputStream;
import java.io.OutputStream;
/**
* This class is a factory for implementations of the JPEG Image
* Decoder/Encoder.
* <p>
* Note that the classes in the com.sun.image.codec.jpeg package are not
* part of the core Java APIs. They are a part of Sun's JDK and JRE
* distributions. Although other licensees may choose to distribute these
* classes, developers cannot depend on their availability in non-Sun
* implementations. We expect that equivalent functionality will eventually
* be available in a core API or standard extension.
* <p>
*
* @see JPEGImageDecoder
* @see JPEGImageEncoder
*/
public class JPEGCodec {
private JPEGCodec() { }
/**
* This creates an instance of a JPEGImageDecoder that can be used
* to decode JPEG Data streams.
*/
public static JPEGImageDecoder createJPEGDecoder(InputStream src) {
return new JPEGImageDecoderImpl(src);
}
/**
* This creates an instance of a JPEGImageDecoder that can be used
* to decode JPEG Data streams.
*/
public static JPEGImageDecoder createJPEGDecoder(InputStream src,
JPEGDecodeParam jdp) {
return new JPEGImageDecoderImpl(src, jdp);
}
/**
* This creates an instance of a JPEGImageEncoder that can be used
* to encode image data as JPEG Data streams.
*/
public static JPEGImageEncoder createJPEGEncoder(OutputStream dest) {
return new JPEGImageEncoderImpl(dest);
}
/**
* This creates an instance of a JPEGImageEncoder that can be used
* to encode image data as JPEG Data streams.
*/
public static JPEGImageEncoder createJPEGEncoder(OutputStream dest,
JPEGEncodeParam jep) {
return new JPEGImageEncoderImpl(dest, jep);
}
/**
* This is a factory method for creating JPEGEncodeParam objects.
* The returned object should do a credible job of encoding the
* given BufferedImage.
* @param bi A BufferedImage that is similar to the BufferedImage(s)
* that will encoded using the returned JPEGEncodeParam object.
*/
public static JPEGEncodeParam getDefaultJPEGEncodeParam(BufferedImage bi)
{
int colorID = JPEGParam.getDefaultColorId(bi.getColorModel());
return getDefaultJPEGEncodeParam(bi.getRaster(), colorID);
}
/**
* This is a factory method for creating JPEGEncodeParam objects.
* It is the users responsiblity to match the colorID with the
* data contained in the Raster. Failure to do so may lead to
* either poor compression or poor image quality. If you don't
* understand much about JPEG it is strongly recommended that you
* stick to the BufferedImage interface.
* @param ras Raster that is similar to those to be encoded later.
* @param colorID the COLOR_ID for the encoded data. This should
* match the data in the raster.
*/
public static JPEGEncodeParam getDefaultJPEGEncodeParam(Raster ras,
int colorID)
{
JPEGParam ret = new JPEGParam(colorID, ras.getNumBands());
ret.setWidth(ras.getWidth());
ret.setHeight(ras.getHeight());
return ret;
}
/**
* This is a factory method for creating JPEGEncodeParam objects. It
* is the users responsiblity to match the colorID with the given
* number of bands, which should match the data being encoded.
* Failure to do so may lead to poor compression and/or poor image
* quality. If you don't understand much about JPEG it is strongly
* recommended that you stick to the BufferedImage interface.
*
* This can also be used as a factory for a JPEGDecodeParam object.
* However this usage is extremely rare, as one needs to be decoding
* abbreviated JPEG streams where the JPEG tables are coming from
* some source other than a JPEG tables only stream.
*
* @param numBands the number of bands that will be encoded (max of four).
* @param colorID the COLOR_ID for the encoded data. This is used to
* set reasonable defaults in the parameter object. This must match
* the number of bands given.
*/
public static JPEGEncodeParam getDefaultJPEGEncodeParam(int numBands,
int colorID)
throws ImageFormatException
{
return new JPEGParam(colorID, numBands);
}
/**
* This is a factory method for creating a JPEGEncodeParam from a
* JPEGDecodeParam. This will return a new JPEGEncodeParam object
* that is initialized from the JPEGDecodeParam object. All major
* pieces of information will be initialized from the DecodeParam
* (Markers, Tables, mappings).
* @param jdp The JPEGDecodeParam object to copy.
*/
public static JPEGEncodeParam getDefaultJPEGEncodeParam(JPEGDecodeParam jdp)
throws ImageFormatException {
return new JPEGParam(jdp);
}
}
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