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/*
* $RCSfile: ImgDataJoiner.java,v $
* $Revision: 1.1 $
* $Date: 2005/02/11 05:02:13 $
* $State: Exp $
*
* Class: ImgDataJoiner
*
* Description: Get ImgData from different sources
*
*
*
* 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.image;
import java.awt.Point;
import jj2000.j2k.NoNextElementException;
/**
* This class implements the ImgData interface and allows to obtain data from
* different sources. Here, one source is represented by an ImgData and a
* component index. The typical use of this class is when the encoder needs
* different components (Red, Green, Blue, alpha, ...) from different input
* files (i.e. from different ImgReader objects).
*
* All input ImgData must not be tiled (i.e. must have only 1 tile) and the
* image origin must be the canvas origin. The different inputs can have
* different dimensions though (this will lead to different subsampling
* factors for each component).
*
* The input ImgData and component index list must be defined when
* constructing this class and can not be modified later.
*
* @see ImgData
* @see jj2000.j2k.image.input.ImgReader
* */
public class ImgDataJoiner implements BlkImgDataSrc {
/** The width of the image */
private int w;
/** The height of the image */
private int h;
/** The number of components in the image */
private int nc;
/** The list of input ImgData */
private BlkImgDataSrc[] imageData;
/** The component index associated with each ImgData */
private int[] compIdx;
/** The subsampling factor along the horizontal direction, for every
* component */
private int[] subsX;
/** The subsampling factor along the vertical direction, for every
* component */
private int[] subsY;
/**
* Class constructor. Each input BlkImgDataSrc and its component index
* must appear in the order wanted for the output components.
*
* Example: Reading R,G,B components from 3 PGM files.
*
* BlkImgDataSrc[] idList =
* {
* new ImgReaderPGM(new BEBufferedRandomAccessFile("R.pgm", "r")),
* new ImgReaderPGM(new BEBufferedRandomAccessFile("G.pgm", "r")),
* new ImgReaderPGM(new BEBufferedRandomAccessFile("B.pgm", "r"))
* };
* int[] compIdx = {0,0,0};
* ImgDataJoiner idj = new ImgDataJoiner(idList, compIdx);
*
*
* Of course, the 2 arrays must have the same length (This length is
* the number of output components). The image width and height are
* definded to be the maximum values of all the input ImgData.
*
* @param imD The list of input BlkImgDataSrc in an array.
*
* @param cIdx The component index associated with each ImgData.
* */
public ImgDataJoiner(BlkImgDataSrc[] imD, int[] cIdx){
int i;
int maxW, maxH;
// Initializes
imageData = imD;
compIdx = cIdx;
if(imageData.length != compIdx.length)
throw new IllegalArgumentException("imD and cIdx must have the"+
" same length");
nc = imD.length;
subsX = new int[nc];
subsY = new int[nc];
// Check that no source is tiled and that the image origin is at the
// canvas origin.
for(i=0; i maxW)
maxW = imD[i].getCompImgWidth(cIdx[i]);
if(imD[i].getCompImgHeight(cIdx[i]) > maxH)
maxH = imD[i].getCompImgHeight(cIdx[i]);
}
// Set the image width and height as the maximum ones
w = maxW;
h = maxH;
// Now get the sumsampling factors and check the subsampling factors,
// just to see if above hypothesis were correct.
for (i=0; ic in tilet.
* */
public int getTileCompWidth(int t,int c){
return imageData[c].getTileCompWidth(t,compIdx[c]);
}
/**
* Returns the height in pixels of the specified tile-component.
*
* @param t The tile index.
*
* @param c The index of the component, from 0 to N-1.
*
* @return The height in pixels of component c in the current
* tile.
* */
public int getTileCompHeight(int t,int c){
return imageData[c].getTileCompHeight(t,compIdx[c]);
}
/**
* 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){
return imageData[c].getCompImgWidth(compIdx[c]);
}
/**
* Returns the height in pixels of the specified component in the
* overall image.
*
* @param n 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 n){
return imageData[n].getCompImgHeight(compIdx[n]);
}
/**
* Returns the number of bits, referred to as the "range bits",
* corresponding to the nominal range of the data in the specified
* component. If this number is b then for unsigned data the
* nominal range is between 0 and 2^b-1, and for signed data it is between
* -2^(b-1) and 2^(b-1)-1. For floating point data this value is not
* applicable.
*
* @param c The index of the component.
*
* @return The number of bits corresponding to the nominal range of the
* data. Fro floating-point data this value is not applicable and the
* return value is undefined.
* */
public int getNomRangeBits(int c){
return imageData[c].getNomRangeBits(compIdx[c]);
}
/**
* Returns the position of the fixed point in the specified
* component. This is the position of the least significant integral
* (i.e. non-fractional) bit, which is equivalent to the number of
* fractional bits. For instance, for fixed-point values with 2 fractional
* bits, 2 is returned. For floating-point data this value does not apply
* and 0 should be returned. Position 0 is the position of the least
* significant bit in the data.
*
* @param c The index of the component.
*
* @return The position of the fixed-point, which is the same as the
* number of fractional bits. For floating-point data 0 is returned.
* */
public int getFixedPoint(int c){
return imageData[c].getFixedPoint(compIdx[c]);
}
/**
* Returns, in the blk argument, a block of image data containing the
* specifed rectangular area, in the specified component. The data is
* returned, as a reference to the internal data, if any, instead of as a
* copy, therefore the returned data should not be modified.
*
* The rectangular area to return is specified by the 'ulx', 'uly', 'w'
* and 'h' members of the 'blk' argument, relative to the current
* tile. These members are not modified by this method. The 'offset' and
* 'scanw' of the returned data can be arbitrary. See the 'DataBlk' class.
*
*
This method, in general, is more efficient than the 'getCompData()'
* method since it may not copy the data. However if the array of returned
* data is to be modified by the caller then the other method is probably
* preferable.
*
*
If the data array in blk is null, then a new one
* is created if necessary. The implementation of this interface may
* choose to return the same array or a new one, depending on what is more
* efficient. Therefore, the data array in blk prior to the
* method call should not be considered to contain the returned data, a
* new array may have been created. Instead, get the array from
* blk after the method has returned.
*
*
The returned data may have its 'progressive' attribute set. In this
* case the returned data is only an approximation of the "final" data.
*
* @param blk Its coordinates and dimensions specify the area to return,
* relative to the current tile. Some fields in this object are modified
* to return the data.
*
* @param c The index of the component from which to get the data.
*
* @return The requested DataBlk
*
* @see #getCompData
* */
public DataBlk getInternCompData(DataBlk blk, int c){
return imageData[c].getInternCompData(blk, compIdx[c]);
}
/**
* Returns, in the blk argument, a block of image data containing the
* specifed rectangular area, in the specified component. The data is
* returned, as a copy of the internal data, therefore the returned data
* can be modified "in place".
*
*
The rectangular area to return is specified by the 'ulx', 'uly', 'w'
* and 'h' members of the 'blk' argument, relative to the current
* tile. These members are not modified by this method. The 'offset' of
* the returned data is 0, and the 'scanw' is the same as the block's
* width. See the 'DataBlk' class.
*
*
This method, in general, is less efficient than the
* 'getInternCompData()' method since, in general, it copies the
* data. However if the array of returned data is to be modified by the
* caller then this method is preferable.
*
*
If the data array in 'blk' is 'null', then a new one is created. If
* the data array is not 'null' then it is reused, and it must be large
* enough to contain the block's data. Otherwise an 'ArrayStoreException'
* or an 'IndexOutOfBoundsException' is thrown by the Java system.
*
*
The returned data may have its 'progressive' attribute set. In this
* case the returned data is only an approximation of the "final" data.
*
* @param blk Its coordinates and dimensions specify the area to return,
* relative to the current tile. If it contains a non-null data array,
* then it must be large enough. If it contains a null data array a new
* one is created. Some fields in this object are modified to return the
* data.
*
* @param c The index of the component from which to get the data.
*
* @return The requested DataBlk
*
* @see #getInternCompData
* */
public DataBlk getCompData(DataBlk blk, int c){
return imageData[c].getCompData(blk, compIdx[c]);
}
/**
* Changes the current tile, given the new coordinates. An
* IllegalArgumentException is thrown if the coordinates do not correspond
* to a valid tile.
*
* @param x The horizontal coordinate of the tile.
*
* @param y The vertical coordinate of the new tile.
* */
public void setTile(int x, int y){
if (x!=0 || y != 0) {
throw new IllegalArgumentException();
}
}
/**
* Advances to the next tile, in standard scan-line order (by rows then
* columns). A NoNextElementException is thrown if the current tile is the
* last one (i.e. there is no next tile). This default implementation
* assumes no tiling, so NoNextElementException() is always thrown.
* */
public void nextTile() {
throw new NoNextElementException();
}
/**
* Returns the coordinates of the current tile. This default
* implementation assumes no-tiling, so (0,0) is returned.
*
* @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 coordinates.
* */
public Point getTile(Point co) {
if (co != null) {
co.x = 0;
co.y = 0;
return co;
}
else {
return new Point(0,0);
}
}
/**
* Returns the index of the current tile, relative to a standard scan-line
* order. This default implementations assumes no tiling, so 0 is always
* returned.
*
* @return The current tile's index (starts at 0).
* */
public int getTileIdx() {
return 0;
}
/**
* 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) {
return 0;
}
/**
* 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) {
return 0;
}
/** Returns the horizontal tile partition offset in the reference grid */
public int getTilePartULX() {
return 0;
}
/** Returns the vertical tile partition offset in the reference grid */
public int getTilePartULY() {
return 0;
}
/**
* Returns the horizontal coordinate of the image origin, the top-left
* corner, in the canvas system, on the reference grid.
*
* @return The horizontal coordinate of the image origin in the canvas
* system, on the reference grid.
* */
public int getImgULX() {
return 0;
}
/**
* Returns the vertical coordinate of the image origin, the top-left
* corner, in the canvas system, on the reference grid.
*
* @return The vertical coordinate of the image origin in the canvas
* system, on the reference grid.
* */
public int getImgULY() {
return 0;
}
/**
* Returns the number of tiles in the horizontal and vertical
* directions. This default implementation assumes no tiling, so (1,1) is
* always returned.
*
* @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) {
if (co != null) {
co.x = 1;
co.y = 1;
return co;
}
else {
return new Point(1,1);
}
}
/**
* Returns the total number of tiles in the image. This default
* implementation assumes no tiling, so 1 is always returned.
*
* @return The total number of tiles in the image.
* */
public int getNumTiles() {
return 1;
}
/**
* Returns a string of information about the object, more than 1 line
* long. The information string includes information from the several
* input ImgData (their toString() method are called one after the other).
*
* @return A string of information about the object.
* */
public String toString() {
String string = "ImgDataJoiner: WxH = " + w + "x" + h;
for(int i=0; i