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BandCombineOp.javaAPI DocJava SE 5 API10093Fri Aug 26 14:56:52 BST 2005java.awt.image

BandCombineOp

public class BandCombineOp extends Object implements RasterOp
This class performs an arbitrary linear combination of the bands in a Raster, using a specified matrix.

The width of the matrix must be equal to the number of bands in the source Raster, optionally plus one. If there is one more column in the matrix than the number of bands, there is an implied 1 at the end of the vector of band samples representing a pixel. The height of the matrix must be equal to the number of bands in the destination.

For example, a 3-banded Raster might have the following transformation applied to each pixel in order to invert the second band of the Raster.

[ 1.0 0.0 0.0 0.0 ] [ b1 ]
[ 0.0 -1.0 0.0 255.0 ] x [ b2 ]
[ 0.0 0.0 1.0 0.0 ] [ b3 ]
[ 1 ]

Note that the source and destination can be the same object.

version
10 Feb 1997

Fields Summary
float[]
matrix
int
nrows
int
ncols
RenderingHints
hints
Constructors Summary
public BandCombineOp(float[] matrix, RenderingHints hints)
Constructs a BandCombineOp with the specified matrix. The width of the matrix must be equal to the number of bands in the source Raster, optionally plus one. If there is one more column in the matrix than the number of bands, there is an implied 1 at the end of the vector of band samples representing a pixel. The height of the matrix must be equal to the number of bands in the destination.

The first subscript is the row index and the second is the column index. This operation uses none of the currently defined rendering hints; the RenderingHints argument can be null.

param
matrix The matrix to use for the band combine operation.
param
hints The RenderingHints object for this operation. Not currently used so it can be null.

    
                                                                                                                                                        
          
        nrows = matrix.length;
        ncols = matrix[0].length;
        this.matrix = new float[nrows][ncols+1];
        for (int i=0; i < nrows; i++) {
            System.arraycopy(matrix[i], 0, this.matrix[i], 0, ncols);
        }
        this.hints  = hints;
    
Methods Summary
public java.awt.image.WritableRastercreateCompatibleDestRaster(java.awt.image.Raster src)
Creates a zeroed destination Raster with the correct size and number of bands. An IllegalArgumentException may be thrown if the number of bands in the source is incompatible with the matrix. See the class comments for more details.

param
src The Raster to be filtered.
return
The zeroed destination Raster.

        int nBands = src.getNumBands();
        if ((ncols != nBands) && (ncols != (nBands+1))) {
            throw new IllegalArgumentException("Number of columns in the "+
                                               "matrix ("+ncols+
                                               ") must be equal to the number"+
                                               " of bands ([+1]) in src ("+
                                               nBands+").");
        }
        if (src.getNumBands() == nrows) {
            return src.createCompatibleWritableRaster();
        }
        else {
            throw new IllegalArgumentException("Don't know how to create a "+
                                               " compatible Raster with "+
                                               nrows+" bands.");
        }
    
public java.awt.image.WritableRasterfilter(java.awt.image.Raster src, java.awt.image.WritableRaster dst)
Transforms the Raster using the matrix specified in the constructor. An IllegalArgumentException may be thrown if the number of bands in the source or destination is incompatible with the matrix. See the class comments for more details.

If the destination is null, it will be created with a number of bands equalling the number of rows in the matrix. No exception is thrown if the operation causes a data overflow.

param
src The Raster to be filtered.
param
dst The Raster in which to store the results of the filter operation.
return
The filtered Raster.
throws
IllegalArgumentException If the number of bands in the source or destination is incompatible with the matrix.

        int nBands = src.getNumBands();
        if (ncols != nBands && ncols != (nBands+1)) {
            throw new IllegalArgumentException("Number of columns in the "+
                                               "matrix ("+ncols+
                                               ") must be equal to the number"+
                                               " of bands ([+1]) in src ("+
                                               nBands+").");
        }
        if (dst == null) {
            dst = createCompatibleDestRaster(src);
        }
        else if (nrows != dst.getNumBands()) {
            throw new IllegalArgumentException("Number of rows in the "+
                                               "matrix ("+nrows+
                                               ") must be equal to the number"+
                                               " of bands ([+1]) in dst ("+
                                               nBands+").");
        }

        if (ImagingLib.filter(this, src, dst) != null) {
            return dst;
        }

        int[] pixel = null;
        int[] dstPixel = new int[dst.getNumBands()];
        float accum;
        int sminX = src.getMinX();
        int sY = src.getMinY();
        int dminX = dst.getMinX();
        int dY = dst.getMinY();
        int sX;
        int dX;
        if (ncols == nBands) {
            for (int y=0; y < src.getHeight(); y++, sY++, dY++) {
                dX = dminX;
                sX = sminX;
                for (int x=0; x < src.getWidth(); x++, sX++, dX++) {
                    pixel = src.getPixel(sX, sY, pixel);
                    for (int r=0; r < nrows; r++) {
                        accum = 0.f;
                        for (int c=0; c < ncols; c++) {
                            accum += matrix[r][c]*pixel[c];
                        }
                        dstPixel[r] = (int) accum;
                    }
                    dst.setPixel(dX, dY, dstPixel);
                }
            }
        }
        else {
            // Need to add constant
            for (int y=0; y < src.getHeight(); y++, sY++, dY++) {
                dX = dminX;
                sX = sminX;
                for (int x=0; x < src.getWidth(); x++, sX++, dX++) {
                    pixel = src.getPixel(sX, sY, pixel);
                    for (int r=0; r < nrows; r++) {
                        accum = 0.f;
                        for (int c=0; c < nBands; c++) {
                            accum += matrix[r][c]*pixel[c];
                        }
                        dstPixel[r] = (int) (accum+matrix[r][nBands]);
                    }
                    dst.setPixel(dX, dY, dstPixel);
                }
            }
        }

        return dst;
    
public final java.awt.geom.Rectangle2DgetBounds2D(java.awt.image.Raster src)
Returns the bounding box of the transformed destination. Since this is not a geometric operation, the bounding box is the same for the source and destination. An IllegalArgumentException may be thrown if the number of bands in the source is incompatible with the matrix. See the class comments for more details.

param
src The Raster to be filtered.
return
The Rectangle2D representing the destination image's bounding box.
throws
IllegalArgumentException If the number of bands in the source is incompatible with the matrix.

	return src.getBounds();
    
public final float[][]getMatrix()
Returns the matrix.

return
The matrix associated with this band combine operation.

        return (float[][]) matrix.clone();
    
public final java.awt.geom.Point2DgetPoint2D(java.awt.geom.Point2D srcPt, java.awt.geom.Point2D dstPt)
Returns the location of the corresponding destination point given a point in the source Raster. If dstPt is specified, it is used to hold the return value. Since this is not a geometric operation, the point returned is the same as the specified srcPt.

param
srcPt The Point2D that represents the point in the source Raster
param
dstPt The Point2D in which to store the result.
return
The Point2D in the destination image that corresponds to the specified point in the source image.

        if (dstPt == null) {
            dstPt = new Point2D.Float();
        }
	dstPt.setLocation(srcPt.getX(), srcPt.getY());

        return dstPt;
    
public final java.awt.RenderingHintsgetRenderingHints()
Returns the rendering hints for this operation.

return
The RenderingHints object associated with this operation. Returns null if no hints have been set.

        return hints;