java.awt.image

Class RescaleOp

Implemented Interfaces:
BufferedImageOp, RasterOp

public class RescaleOp
extends Object
implements BufferedImageOp, RasterOp

This class performs a pixel-by-pixel rescaling of the data in the source image by multiplying the sample values for each pixel by a scale factor and then adding an offset. The scaled sample values are clipped to the minimum/maximum representable in the destination image.

The pseudo code for the rescaling operation is as follows:

for each pixel from Source object {
    for each band/component of the pixel {
        dstElement = (srcElement*scaleFactor) + offset
    }
}
 

For Rasters, rescaling operates on bands. The number of sets of scaling constants may be one, in which case the same constants are applied to all bands, or it must equal the number of Source Raster bands.

For BufferedImages, rescaling operates on color and alpha components. The number of sets of scaling constants may be one, in which case the same constants are applied to all color (but not alpha) components. Otherwise, the number of sets of scaling constants may equal the number of Source color components, in which case no rescaling of the alpha component (if present) is performed. If neither of these cases apply, the number of sets of scaling constants must equal the number of Source color components plus alpha components, in which case all color and alpha components are rescaled.

BufferedImage sources with premultiplied alpha data are treated in the same manner as non-premultiplied images for purposes of rescaling. That is, the rescaling is done per band on the raw data of the BufferedImage source without regard to whether the data is premultiplied. If a color conversion is required to the destination ColorModel, the premultiplied state of both source and destination will be taken into account for this step.

Images with an IndexColorModel cannot be rescaled.

If a RenderingHints object is specified in the constructor, the color rendering hint and the dithering hint may be used when color conversion is required.

Note that in-place operation is allowed (i.e. the source and destination can be the same object).

See Also:
RenderingHints.KEY_COLOR_RENDERING, RenderingHints.KEY_DITHERING

Constructor Summary

RescaleOp(float scaleFactor, float offset, RenderingHints hints)
Constructs a new RescaleOp with the desired scale factor and offset.
RescaleOp(float[] scaleFactors, float[] offsets, RenderingHints hints)
Constructs a new RescaleOp with the desired scale factors and offsets.

Method Summary

BufferedImage
createCompatibleDestImage(BufferedImage src, ColorModel destCM)
Creates a zeroed destination image with the correct size and number of bands.
WritableRaster
createCompatibleDestRaster(Raster src)
Creates a zeroed-destination Raster with the correct size and number of bands, given this source.
BufferedImage
filter(BufferedImage src, BufferedImage dst)
Rescales the source BufferedImage.
WritableRaster
filter(Raster src, WritableRaster dst)
Rescales the pixel data in the source Raster.
Rectangle2D
getBounds2D(BufferedImage src)
Returns the bounding box of the rescaled destination image.
Rectangle2D
getBounds2D(Raster src)
Returns the bounding box of the rescaled destination Raster.
int
getNumFactors()
Returns the number of scaling factors and offsets used in this RescaleOp.
float[]
getOffsets(offsets[] )
Returns the offsets in the given array.
Point2D
getPoint2D(Point2D srcPt, Point2D dstPt)
Returns the location of the destination point given a point in the source.
RenderingHints
getRenderingHints()
Returns the rendering hints for this op.
float[]
getScaleFactors(scaleFactors[] )
Returns the scale factors in the given array.

Methods inherited from class java.lang.Object

clone, equals, extends Object> getClass, finalize, hashCode, notify, notifyAll, toString, wait, wait, wait

Constructor Details

RescaleOp

public RescaleOp(float scaleFactor,
                 float offset,
                 RenderingHints hints)
Constructs a new RescaleOp with the desired scale factor and offset. The scaleFactor and offset will be applied to all bands in a source Raster and to all color (but not alpha) components in a BufferedImage. The RenderingHints argument may be null.
Parameters:
scaleFactor - the specified scale factor
offset - the specified offset
hints - the specified RenderingHints, or null
Usages and Demos :

View More Examples of RescaleOp(float scaleFactor,float offset,RenderingHints hints)
   1: public class Rescale extends Lens {
   2:   private static RescaleOp op_ = new RescaleOp(1.5f, 1.0f, null);
   3: 
   4: 
   5:   public boolean paintAfter(Context cx, Node node) {

View Full Code Here
   1:         else if (option.equals("brighten"))
   2:           op = new RescaleOp(1.5f, 0, null);
   3:         else if (option.equals("darken"))
   4:         ...
   5:           op = new RescaleOp(.5f, 0, null);
   6:         else if (option.equals("rotate"))
   7:           op = new AffineTransformOp(
   8:               AffineTransform.getRotateInstance(Math.PI / 6), null);

View Full Code Here
   1: 
   2:         RescaleOp op = new RescaleOp(.5f, 0f, null);
   3:         g.drawImage(image,op,5,10);
   4:         
   5:         g.translate(-150, 0);

View Full Code Here
   1:         RenderingHints rh = new RenderingHints(null);
   2:         BufferedImageOp bio = new RescaleOp(1f,0f, rh);
   3:         g.drawImage(getImage(), bio, 0,0);
   4: 
   5:         Writer out = null;

View Full Code Here
   1: 
   2:         java.awt.image.RescaleOp brighten = new java.awt.image.RescaleOp(1.5f, 0, null);
   3:         ...
   4:         java.awt.image.RescaleOp darken = new java.awt.image.RescaleOp(.6f, 0, null);
   5: 
   6:         g.setPaint(Color.black);
   7:         g.drawString("Brighter / Normal / Darker", 10, 20);

View Full Code Here

RescaleOp

public RescaleOp(float[] scaleFactors,
                 float[] offsets,
                 RenderingHints hints)
Constructs a new RescaleOp with the desired scale factors and offsets. The length of the scaleFactor and offset arrays must meet the restrictions stated in the class comments above. The RenderingHints argument may be null.
Parameters:
scaleFactors - the specified scale factors
offsets - the specified offsets
hints - the specified RenderingHints, or null
Usages and Demos :

View More Examples of RescaleOp(float[] scaleFactors,float[] offsets,RenderingHints hints)
   1: public class Rescale extends Lens {
   2:   private static RescaleOp op_ = new RescaleOp(1.5f, 1.0f, null);
   3: 
   4: 
   5:   public boolean paintAfter(Context cx, Node node) {

View Full Code Here
   1:         else if (option.equals("brighten"))
   2:           op = new RescaleOp(1.5f, 0, null);
   3:         else if (option.equals("darken"))
   4:         ...
   5:           op = new RescaleOp(.5f, 0, null);
   6:         else if (option.equals("rotate"))
   7:           op = new AffineTransformOp(
   8:               AffineTransform.getRotateInstance(Math.PI / 6), null);

View Full Code Here
   1: 
   2:         RescaleOp op = new RescaleOp(.5f, 0f, null);
   3:         g.drawImage(image,op,5,10);
   4:         
   5:         g.translate(-150, 0);

View Full Code Here
   1:         RenderingHints rh = new RenderingHints(null);
   2:         BufferedImageOp bio = new RescaleOp(1f,0f, rh);
   3:         g.drawImage(getImage(), bio, 0,0);
   4: 
   5:         Writer out = null;

View Full Code Here
   1: 
   2:         java.awt.image.RescaleOp brighten = new java.awt.image.RescaleOp(1.5f, 0, null);
   3:         ...
   4:         java.awt.image.RescaleOp darken = new java.awt.image.RescaleOp(.6f, 0, null);
   5: 
   6:         g.setPaint(Color.black);
   7:         g.drawString("Brighter / Normal / Darker", 10, 20);

View Full Code Here

Method Details

createCompatibleDestImage

public BufferedImage createCompatibleDestImage(BufferedImage src,
                                               ColorModel destCM)
Creates a zeroed destination image with the correct size and number of bands.
Specified by:
createCompatibleDestImage in interface BufferedImageOp
Parameters:
src - Source image for the filter operation.
destCM - ColorModel of the destination. If null, the ColorModel of the source will be used.
Returns:
the zeroed-destination image.

createCompatibleDestRaster

public WritableRaster createCompatibleDestRaster(Raster src)
Creates a zeroed-destination Raster with the correct size and number of bands, given this source.
Specified by:
createCompatibleDestRaster in interface RasterOp
Parameters:
src - the source Raster
Returns:
the zeroed-destination Raster.

filter

public final BufferedImage filter(BufferedImage src,
                                  BufferedImage dst)
Rescales the source BufferedImage. If the color model in the source image is not the same as that in the destination image, the pixels will be converted in the destination. If the destination image is null, a BufferedImage will be created with the source ColorModel. An IllegalArgumentException may be thrown if the number of scaling factors/offsets in this object does not meet the restrictions stated in the class comments above, or if the source image has an IndexColorModel.
Specified by:
filter in interface BufferedImageOp
Parameters:
src - the BufferedImage to be filtered
dst - the destination for the filtering operation or null
Returns:
the filtered BufferedImage.
Throws:
IllegalArgumentException - if the ColorModel of src is an IndexColorModel, or if the number of scaling factors and offsets in this RescaleOp do not meet the requirements stated in the class comments.
Usages and Demos :

View More Examples of filter(BufferedImage src,BufferedImage dst)
   1:         String theDesc[] = { "Convolve LowPass", "Convolve Sharpen", 
   2:             "LookupOp", "RescaleOp"};
   3:         for ( int i = 0; i < bi.length; i++ ) {
   4:         ...
   5:                                                 null);
   6:                 cop.filter(bi[i],bimg);
   7:                 biop = new AffineTransformOp(at,
   8:         ...
   9:                 LookupOp lop = new LookupOp(blut, null); 
  10:                 lop.filter(bi[i],bimg);  
  11:                 biop = new AffineTransformOp(at,
  12:         ...
  13:             case 3 : x = w/2+3; y = h/2+15;
  14:                 RescaleOp rop = new RescaleOp(1.1f,20.0f, null);

View Full Code Here
   1:         if (Picture == null) return;
   2:         RescaleOp op = new RescaleOp(a, b, null);
   3:         BufferedImage fImage = new BufferedImage(Picture.getWidth(), Picture.getHeight(),
   4:         ...
   5:                                                 Picture.getType());
   6:         op.filter(Picture, fImage);
   7:         SavePrevChange();
   8:         ...
   9:     {
  10:         RescaleOp op = new RescaleOp(1.0f, 0.0f, null);
  11:         BufferedImage fImage = new BufferedImage(Pic.getWidth(), Pic.getHeight(),
  12:         ...
  13:                                                 Pic.getType());
  14:         op.filter(Pic, fImage);

View Full Code Here

filter

public final WritableRaster filter(Raster src,
                                   WritableRaster dst)
Rescales the pixel data in the source Raster. If the destination Raster is null, a new Raster will be created. The source and destination must have the same number of bands. Otherwise, an IllegalArgumentException is thrown. Note that the number of scaling factors/offsets in this object must meet the restrictions stated in the class comments above. Otherwise, an IllegalArgumentException is thrown.
Specified by:
filter in interface RasterOp
Parameters:
src - the Raster to be filtered
dst - the destination for the filtering operation or null
Returns:
the filtered WritableRaster.
Throws:
IllegalArgumentException - if src and dst do not have the same number of bands, or if the number of scaling factors and offsets in this RescaleOp do not meet the requirements stated in the class comments.
Usages and Demos :

View More Examples of filter(Raster src,WritableRaster dst)
   1:         String theDesc[] = { "Convolve LowPass", "Convolve Sharpen", 
   2:             "LookupOp", "RescaleOp"};
   3:         for ( int i = 0; i < bi.length; i++ ) {
   4:         ...
   5:                                                 null);
   6:                 cop.filter(bi[i],bimg);
   7:                 biop = new AffineTransformOp(at,
   8:         ...
   9:                 LookupOp lop = new LookupOp(blut, null); 
  10:                 lop.filter(bi[i],bimg);  
  11:                 biop = new AffineTransformOp(at,
  12:         ...
  13:             case 3 : x = w/2+3; y = h/2+15;
  14:                 RescaleOp rop = new RescaleOp(1.1f,20.0f, null);

View Full Code Here
   1:         if (Picture == null) return;
   2:         RescaleOp op = new RescaleOp(a, b, null);
   3:         BufferedImage fImage = new BufferedImage(Picture.getWidth(), Picture.getHeight(),
   4:         ...
   5:                                                 Picture.getType());
   6:         op.filter(Picture, fImage);
   7:         SavePrevChange();
   8:         ...
   9:     {
  10:         RescaleOp op = new RescaleOp(1.0f, 0.0f, null);
  11:         BufferedImage fImage = new BufferedImage(Pic.getWidth(), Pic.getHeight(),
  12:         ...
  13:                                                 Pic.getType());
  14:         op.filter(Pic, fImage);

View Full Code Here

getBounds2D

public final Rectangle2D getBounds2D(BufferedImage src)
Returns the bounding box of the rescaled destination image. Since this is not a geometric operation, the bounding box does not change.
Specified by:
getBounds2D in interface BufferedImageOp

getBounds2D

public final Rectangle2D getBounds2D(Raster src)
Returns the bounding box of the rescaled destination Raster. Since this is not a geometric operation, the bounding box does not change.
Specified by:
getBounds2D in interface RasterOp
Parameters:
src - the rescaled destination Raster
Returns:
the bounds of the specified Raster.

getNumFactors

public final int getNumFactors()
Returns the number of scaling factors and offsets used in this RescaleOp.
Returns:
the number of scaling factors and offsets of this RescaleOp.

getOffsets

public final float[] getOffsets(offsets[] )
Returns the offsets in the given array. The array is also returned for convenience. If offsets is null, a new array will be allocated.
Parameters:
Returns:
the offsets of this RescaleOp.
Usages and Demos :

View More Examples of getOffsets(offsets[] )
   1: import java.awt.image.BufferedImageOp;
   2: import java.awt.image.RescaleOp;
   3: 
   4:         ...
   5:                                      Rectangle filterRect) {
   6:         if(filter instanceof RescaleOp)
   7:         ...
   8:             return toSVG((RescaleOp)filter);
   9:         else
  10:         ...
  11: 
  12:             float offsets[] = rescaleOp.getOffsets(null);

View Full Code Here

getPoint2D

public final Point2D getPoint2D(Point2D srcPt,
                                Point2D dstPt)
Returns the location of the destination point given a point in the source. If dstPt is non-null, it will be used to hold the return value. Since this is not a geometric operation, the srcPt will equal the dstPt.
Specified by:
getPoint2D in interface BufferedImageOp
getPoint2D in interface RasterOp
Parameters:
srcPt - a point in the source image
dstPt - the destination point or null
Returns:
the location of the destination point.

getRenderingHints

public final RenderingHints getRenderingHints()
Returns the rendering hints for this op.
Specified by:
getRenderingHints in interface BufferedImageOp
getRenderingHints in interface RasterOp
Returns:
the rendering hints of this RescaleOp.

getScaleFactors

public final float[] getScaleFactors(scaleFactors[] )
Returns the scale factors in the given array. The array is also returned for convenience. If scaleFactors is null, a new array will be allocated.
Parameters:
Returns:
the scale factors of this RescaleOp.
Usages and Demos :

View More Examples of getScaleFactors(scaleFactors[] )
   1: import java.awt.image.BufferedImageOp;
   2: import java.awt.image.RescaleOp;
   3: 
   4:         ...
   5:                                      Rectangle filterRect) {
   6:         if(filter instanceof RescaleOp)
   7:         ...
   8:             return toSVG((RescaleOp)filter);
   9:         else
  10:         ...
  11:             float offsets[] = rescaleOp.getOffsets(null);
  12:             float scaleFactors[] = rescaleOp.getScaleFactors(null);

View Full Code Here