invwtadapter.java
来自「jpeg2000编解码」· Java 代码 · 共 477 行 · 第 1/2 页
JAVA
477 行
/* * CVS identifier: * * $Id: InvWTAdapter.java,v 1.2 2002/07/23 12:21:42 grosbois Exp $ * * Class: InvWTAdapter * * Description: <short description of class> * * * * COPYRIGHT: * * This software module was originally developed by Rapha雔 Grosbois and * Diego Santa Cruz (Swiss Federal Institute of Technology-EPFL); Joel * Askel鰂 (Ericsson Radio Systems AB); and Bertrand Berthelot, David * Bouchard, F閘ix Henry, Gerard Mozelle and Patrice Onno (Canon Research * Centre France S.A) in the course of development of the JPEG2000 * standard as specified by ISO/IEC 15444 (JPEG 2000 Standard). This * software module is an implementation of a part of the JPEG 2000 * Standard. Swiss Federal Institute of Technology-EPFL, Ericsson Radio * Systems AB and Canon Research Centre France S.A (collectively JJ2000 * Partners) agree not to assert against ISO/IEC and users of the JPEG * 2000 Standard (Users) any of their rights under the copyright, not * including other intellectual property rights, for this software module * with respect to the usage by ISO/IEC and Users of this software module * or modifications thereof for use in hardware or software products * claiming conformance to the JPEG 2000 Standard. Those intending to use * this software module in hardware or software products are advised that * their use may infringe existing patents. The original developers of * this software module, JJ2000 Partners and ISO/IEC assume no liability * for use of this software module or modifications thereof. No license * or right to this software module is granted for non JPEG 2000 Standard * conforming products. JJ2000 Partners have full right to use this * software module for his/her own purpose, assign or donate this * software module to any third party and to inhibit third parties from * using this software module for non JPEG 2000 Standard conforming * products. This copyright notice must be included in all copies or * derivative works of this software module. * * Copyright (c) 1999/2000 JJ2000 Partners. * */package jj2000.j2k.wavelet.synthesis;import jj2000.j2k.decoder.*;import jj2000.j2k.image.*;/** * This class provides default implementation of the methods in the 'InvWT' * interface. The source is always a 'MultiResImgData', which is a * multi-resolution image. The default implementation is just to return the * value of the source at the current image resolution level, which is set by * the 'setImgResLevel()' method. * * <p>This abstract class can be used to facilitate the development of other * classes that implement the 'InvWT' interface, because most of the trivial * methods are already implemented.</p> * * <p>If the default implementation of a method provided in this class does * not suit a particular implementation of the 'InvWT' interface, the method * can be overriden to implement the proper behaviour.</p> * * <p>If the 'setImgResLevel()' method is overriden then it is very important * that the one of this class is called from the overriding method, so that * the other methods in this class return the correct values.</p> * * @see InvWT * */public abstract class InvWTAdapter implements InvWT { /** The decoder specifications */ protected DecoderSpecs decSpec; /** The 'MultiResImgData' source */ protected MultiResImgData mressrc; /** The resquested image resolution level for reconstruction. */ protected int reslvl; /** The maximum available image resolution level */ protected int maxImgRes; /** * Instantiates the 'InvWTAdapter' object using the specified * 'MultiResImgData' source. The reconstruction resolution level is set to * full resolution (i.e. the maximum resolution level). * * @param src From where to obtain the values to return * * @param decSpec The decoder specifications * */ protected InvWTAdapter(MultiResImgData src,DecoderSpecs decSpec) { mressrc = src; this.decSpec = decSpec; maxImgRes = decSpec.dls.getMin(); } /** * Sets the image reconstruction resolution level. A value of 0 means * reconstruction of an image with the lowest resolution (dimension) * available. * * <p>Note: Image resolution level indexes may differ from tile-component * resolution index. They are indeed indexed starting from the lowest * number of decomposition levels of each component of each tile.</p> * * <p>Example: For an image (1 tile) with 2 components (component 0 having * 2 decomposition levels and component 1 having 3 decomposition levels), * the first (tile-) component has 3 resolution levels and the second one * has 4 resolution levels, whereas the image has only 3 resolution levels * available.</p> * * @param rl The image resolution level. * * @return The vertical coordinate of the image origin in the canvas * system, on the reference grid. * */ public void setImgResLevel(int rl) { if(rl<0) { throw new IllegalArgumentException("Resolution level index "+ "cannot be negative."); } reslvl = rl; } /** * Returns the overall width of the current tile in pixels. This is the * tile's width without accounting for any component subsampling. This is * also referred as the reference grid width in the current tile. * * <p>This default implementation returns the value of the source at the * current reconstruction resolution level.</p> * * @return The total current tile's width in pixels. * */ public int getTileWidth() { // Retrieves the tile maximum resolution level index and request the // width from the source module. int tIdx = getTileIdx(); int rl = 10000; int mrl; int nc = mressrc.getNumComps(); for(int c=0; c<nc; c++) { mrl = mressrc.getSynSubbandTree(tIdx,c).resLvl; if(mrl<rl) rl = mrl; } return mressrc.getTileWidth(rl); } /** * Returns the overall height of the current tile in pixels. This * is the tile's height without accounting for any component * subsampling. This is also referred as the reference grid height * in the current tile. * * <p>This default implementation returns the value of the source at the * current reconstruction resolution level.</p> * * @return The total current tile's height in pixels. * */ public int getTileHeight() { // Retrieves the tile maximum resolution level index and request the // height from the source module. int tIdx = getTileIdx(); int rl = 10000; int mrl; int nc = mressrc.getNumComps(); for(int c=0; c<nc; c++) { mrl = mressrc.getSynSubbandTree(tIdx,c).resLvl; if(mrl<rl) rl = mrl; } return mressrc.getTileHeight(rl); } /** Returns the nominal width of tiles */ public int getNomTileWidth() { return mressrc.getNomTileWidth(); } /** Returns the nominal height of tiles */ public int getNomTileHeight() { return mressrc.getNomTileHeight(); } /** * Returns the overall width of the image in pixels. This is the * image's width without accounting for any component subsampling * or tiling. * * @return The total image's width in pixels. * */ public int getImgWidth() { return mressrc.getImgWidth(reslvl); } /** * Returns the overall height of the image in pixels. This is the * image's height without accounting for any component subsampling * or tiling. * * @return The total image's height in pixels. * */ public int getImgHeight() { return mressrc.getImgHeight(reslvl); } /** * Returns the number of components in the image. * * @return The number of components in the image. * */ public int getNumComps() { return mressrc.getNumComps(); } /** * Returns the component subsampling factor in the horizontal * direction, for the specified component. This is, approximately, * the ratio of dimensions between the reference grid and the * component itself, see the 'ImgData' interface desription for * details. * * @param c The index of the component (between 0 and N-1). * * @return The horizontal subsampling factor of component 'c'. * * @see jj2000.j2k.image.ImgData * */ public int getCompSubsX(int c) { return mressrc.getCompSubsX(c); } /** * Returns the component subsampling factor in the vertical * direction, for the specified component. This is, approximately, * the ratio of dimensions between the reference grid and the * component itself, see the 'ImgData' interface desription for * details. *
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