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JPEG2000 support for Java Advanced Imaging Image I/O Tools API core.
This module is licensed under the [JJ2000 license](LICENSE.txt) and
is therefore NOT compatible with the GPL 3 license. It should be
compatible with the LGPL 2.1 license.
/*
* $RCSfile: InvWTAdapter.java,v $
* $Revision: 1.1 $
* $Date: 2005/02/11 05:02:32 $
* $State: Exp $
*
* Class: InvWTAdapter
*
* Description:
*
*
*
* COPYRIGHT:
*
* This software module was originally developed by Raphaël Grosbois and
* Diego Santa Cruz (Swiss Federal Institute of Technology-EPFL); Joel
* Askelöf (Ericsson Radio Systems AB); and Bertrand Berthelot, David
* Bouchard, Félix 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 java.awt.Point;
import jj2000.j2k.decoder.DecoderSpecs;
/**
* 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.
*
* 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.
*
* 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.
*
* 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.
*
* @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.
*
* 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.
*
* 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.
*
* @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.
*
* This default implementation returns the value of the source at the
* current reconstruction resolution level.
*
* @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; cThis default implementation returns the value of the source at the
* current reconstruction resolution level.
*
* @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; cn in tile t.
* */
public int getTileCompWidth(int t,int c) {
// Retrieves the tile-component maximum resolution index and gets the
// width from the source.
int rl = mressrc.getSynSubbandTree(t,c).resLvl;
return mressrc.getTileCompWidth(t,c,rl);
}
/**
* Returns the height in pixels of the specified tile-component.
*
* This default implementation returns the value of the source at the
* current reconstruction resolution level.
*
* @param t The tile index.
*
* @param c The index of the component, from 0 to N-1.
*
* @return The height in pixels of component n in tile
* t.
* */
public int getTileCompHeight(int t,int c) {
// Retrieves the tile-component maximum resolution index and gets the
// height from the source.
int rl = mressrc.getSynSubbandTree(t,c).resLvl;
return mressrc.getTileCompHeight(t,c,rl);
}
/**
* Returns the width in pixels of the specified component in the overall
* image.
*
* @param c The index of the component, from 0 to N-1.
*
* @return The width in pixels of component c in the overall
* image.
* */
public int getCompImgWidth(int c) {
// Retrieves the component maximum resolution index and gets the width
// from the source module.
int rl = decSpec.dls.getMinInComp(c);
return mressrc.getCompImgWidth(c,rl);
}
/**
* Returns the height in pixels of the specified component in the overall
* image.
*
* This default implementation returns the value of the source at the
* current reconstruction resolution level.
*
* @param c The index of the component, from 0 to N-1.
*
* @return The height in pixels of component n in the overall
* image.
* */
public int getCompImgHeight(int c) {
// Retrieves the component maximum resolution index and gets the
// height from the source module.
int rl = decSpec.dls.getMinInComp(c);
return mressrc.getCompImgHeight(c,rl);
}
/**
* Changes the current tile, given the new indices. An
* IllegalArgumentException is thrown if the coordinates do not correspond
* to a valid tile.
*
* This default implementation calls the same method on the source.
*
* @param x The horizontal index of the tile.
*
* @param y The vertical index of the new tile.
* */
public void setTile(int x, int y) {
mressrc.setTile(x,y);
}
/**
* Advances to the next tile, in standard scan-line order (by rows then
* columns). An NoNextElementException is thrown if the current tile is
* the last one (i.e. there is no next tile).
*
* This default implementation calls the same method on the source.
* */
public void nextTile() {
mressrc.nextTile();
}
/**
* Returns the indixes of the current tile. These are the horizontal and
* vertical indexes of the current tile.
*
* This default implementation returns the value of the source.
*
* @param co If not null this object is used to return the information. If
* null a new one is created and returned.
*
* @return The current tile's indices (vertical and horizontal indexes).
* */
public Point getTile(Point co) {
return mressrc.getTile(co);
}
/**
* Returns the index of the current tile, relative to a standard scan-line
* order.
*
* This default implementation returns the value of the source.
*
* @return The current tile's index (starts at 0).
* */
public int getTileIdx() {
return mressrc.getTileIdx();
}
/**
* Returns the horizontal coordinate of the upper-left corner of the
* specified component in the current tile.
*
* @param c The component index.
* */
public int getCompULX(int c) {
// Find tile-component maximum resolution index and gets information
// from the source module.
int tIdx = getTileIdx();
int rl = mressrc.getSynSubbandTree(tIdx,c).resLvl;
return mressrc.getResULX(c,rl);
}
/**
* Returns the vertical coordinate of the upper-left corner of the
* specified component in the current tile.
*
* @param c The component index.
* */
public int getCompULY(int c) {
// Find tile-component maximum resolution index and gets information
// from the source module.
int tIdx = getTileIdx();
int rl = mressrc.getSynSubbandTree(tIdx,c).resLvl;
return mressrc.getResULY(c,rl);
}
/**
* Returns the horizontal coordinate of the image origin, the top-left
* corner, in the canvas system, on the reference grid.
*
* This default implementation returns the value of the source at the
* current reconstruction resolution level.
*
* @return The horizontal coordinate of the image origin in the canvas
* system, on the reference grid.
* */
public int getImgULX() {
return mressrc.getImgULX(reslvl);
}
/**
* Returns the vertical coordinate of the image origin, the top-left
* corner, in the canvas system, on the reference grid.
*
* This default implementation returns the value of the source at the
* current reconstruction resolution level.
*
* @return The vertical coordinate of the image origin in the canvas
* system, on the reference grid.
* */
public int getImgULY() {
return mressrc.getImgULY(reslvl);
}
/** Returns the horizontal tile partition offset in the reference grid */
public int getTilePartULX() {
return mressrc.getTilePartULX();
}
/** Returns the vertical tile partition offset in the reference grid */
public int getTilePartULY() {
return mressrc.getTilePartULY();
}
/**
* Returns the number of tiles in the horizontal and vertical directions.
*
* This default implementation returns the value of the source.
*
* @param co If not null this object is used to return the information. If
* null a new one is created and returned.
*
* @return The number of tiles in the horizontal (Point.x) and vertical
* (Point.y) directions.
* */
public Point getNumTiles(Point co) {
return mressrc.getNumTiles(co);
}
/**
* Returns the total number of tiles in the image.
*
* This default implementation returns the value of the source.
*
* @return The total number of tiles in the image.
* */
public int getNumTiles() {
return mressrc.getNumTiles();
}
/**
* Returns the specified synthesis subband tree
*
* @param t Tile index.
*
* @param c Component index.
* */
public SubbandSyn getSynSubbandTree(int t,int c) {
return mressrc.getSynSubbandTree(t,c);
}
}