Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm wondering how to apply a variable mask to an image's transparency in Java (presumably using buffered image). So, for instance, I want to apply a mask such as the following:

Mask

To the an image such as the following:

Cute Cat

In order to get:

enter image description here

It's important that the transparency is changed by the gradient, not just the color, because I want to be able to to this kind of thing:

enter image description here

I've found an incredibly slow way of achieving this by going through and setting the transparency value of every single pixel manually, but as I said, it's super slow. What should I be looking at to try to accomplish this? Or should I even be doing it in Java? I've been getting to know python recently, so if anyone thinks it's better to try this sort of thing with a particular python module, that would be useful information as well.

Thank in advance!

share|improve this question

2 Answers 2

Here is one way to get a transparent mask.

GradientMask.java:

import Utilities.*;
import javax.swing.*;
import javax.imageio.*;
import java.awt.*;
import java.awt.image.*;
import java.io.*;
public class GradientMask {
    public static void main(String[] args) throws Exception{
        JFrame Main = new JFrame("Gradient Mask");
        JLabel imageLayer = new JLabel();
        JLabel maskLayer = new JLabel();
        BufferedImage image = ImageIO.read(new File("C:\\Users\\"+System.getenv("username")+"\\Desktop\\Cat Image.jpg"));
        BufferedImage gradientMask = new GradientImage(image.getWidth(), image.getHeight(), new Color[]{new Color(255, 255, 255, 125), Color.BLACK}, GradientImage.RADIAL_FROM_CENTER).getImage();
        Main.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE);
        Main.setBounds(100, 50, image.getWidth(), image.getHeight());
        imageLayer.setBounds(0, 0, Main.getWidth(), Main.getHeight());
        maskLayer.setBounds(0, 0, Main.getWidth(), Main.getHeight());
        imageLayer.setIcon(new ImageIcon((Image) image));
        maskLayer.setIcon(new ImageIcon((Image) gradientMask));
        Main.getContentPane().add(imageLayer);
        imageLayer.add(maskLayer);
        Main.setVisible(true);
    }
}

GradientImage.java:

package Utilities;
import java.awt.*;
import java.awt.image.*;
public class GradientImage {
    public final static int LINEAR_LEFT_TO_RIGHT = 1;
    public final static int LINEAR_RIGHT_TO_LEFT = 2;
    public final static int LINEAR_TOP_TO_BOTTOM = 3;
    public final static int LINEAR_BOTTOM_TO_TOP = 4;
    public final static int LINEAR_DIAGONAL_UP = 5;
    public final static int LINEAR_DIAGONAL_DOWN = 6;
    public final static int RADIAL_FROM_TOP_LEFT_CORNER = 7;
    public final static int RADIAL_FROM_BOTTOM_LEFT_CORNER = 8;
    public final static int RADIAL_FROM_TOP_RIGHT_CORNER = 9;
    public final static int RADIAL_FROM_BOTTOM_RIGHT_CORNER = 10;
    public final static int RADIAL_FROM_CENTER = 11;
    public final static int RADIAL_FROM_CORNERS = 12;
    public final static int PATH_FROM_CENTER = 13;
    public final static int PATH_FROM_TOP_LEFT_CORNER = 14;
    public final static int PATH_FROM_TOP_RIGHT_CORNER = 15;
    public final static int PATH_FROM_BOTTOM_LEFT_CORNER = 16;
    public final static int PATH_FROM_BOTTOM_RIGHT_CORNER = 17;
    public final static int LINEAR_FROM_TOP_RIGHT_CORNER = 18;
    public final static int LINEAR_FROM_TOP_LEFT_CORNER = 19;
    public final static int LINEAR_FROM_BOTTOM_RIGHT_CORNER = 20;
    public final static int LINEAR_FROM_BOTTOM_LEFT_CORNER = 21;
    public final static int LINEAR_FROM_CENTER = 22;
    public final static int LINEAR_FROM_CORNERS = 23;
    public final static int PATH_FROM_CORNERS = 24;
    private BufferedImage image = null;
    private BufferedImage circleImage = null;
    private int[] pixels;
    private int[] circlePixels;
    private int[] positions;
    private Color[] colors;
    private int[] rgbs;
    private int alignment;
    private int width;
    private int height;
    public GradientImage(int width, int height, Color[] colors, int alignment){
        image = new BufferedImage(width, height, BufferedImage.TYPE_INT_ARGB);
        pixels = ((DataBufferInt) image.getRaster().getDataBuffer()).getData();
        this.alignment = alignment;
        this.width = width;
        this.height = height;
        this.colors = colors;
        rgbs = new int[colors.length];
        for (int i=0;i<rgbs.length;i++){
            rgbs[i] = colors[i].getRGB();
        }
        try{
            renderImage();
        }catch(Exception error){error.printStackTrace();}
    }
    public GradientImage(int width, int height, Color[] colors, int[] positions, int alignment){
        image = new BufferedImage(width, height, BufferedImage.TYPE_INT_ARGB);
        pixels = ((DataBufferInt) image.getRaster().getDataBuffer()).getData();
        this.alignment = alignment;
        this.width = width;
        this.height = height;
        this.colors = colors;
        this.positions = positions;
        rgbs = new int[colors.length];
        for (int i=0;i<rgbs.length;i++){
            rgbs[i] = colors[i].getRGB();
        }
        try{
            renderImage();
        }catch(Exception error){error.printStackTrace();}
    }
    public BufferedImage getImage(){
        return image;
    }
    public BufferedImage getImageAsCircle(){
        if (circleImage==null){
            circleImage = new BufferedImage(width, height, BufferedImage.TYPE_INT_ARGB);
            circlePixels = ((DataBufferInt) circleImage.getRaster().getDataBuffer()).getData();
            int radius = Math.min(width, height)>>1;
            for (int x=0;x<width;x++){
                for (int y=0;y<height;y++){
                    if (Math.sqrt((Math.max(width>>1, x)-Math.min(width>>1, x))*(Math.max(width>>1, x)-Math.min(width>>1, x))+(Math.max(height>>1, y)-Math.min(height>>1, y))*(Math.max(height>>1, y)-Math.min(height>>1, y)))<=radius){
                        circlePixels[x+y*width] = pixels[x+y*width];
                    }
                }
            }
        }
        return circleImage;
    }
    private void renderImage() throws Exception{
        if (alignment==LINEAR_LEFT_TO_RIGHT){
            int[] rgbRange = loadRGBRange(width, rgbs, positions);
            for (int x=0;x<width;x++){
                for (int y=0;y<height;y++){
                    pixels[x+y*width] = rgbRange[x];
                }
            }
        }else if (alignment==LINEAR_RIGHT_TO_LEFT){
            int[] rgbRange = loadRGBRange(width, rgbs, positions);
            for (int x=0;x<width;x++){
                for (int y=0;y<height;y++){
                    pixels[x+y*width] = rgbRange[width-x-1];
                }
            }
        }else if (alignment==LINEAR_BOTTOM_TO_TOP){
            int[] rgbRange = loadRGBRange(height, rgbs, positions);
            for (int y=0;y<height;y++){
                for (int x=0;x<width;x++){
                    pixels[x+y*width] = rgbRange[height-y-1];
                }
            }
        }else if (alignment==LINEAR_TOP_TO_BOTTOM){
            int[] rgbRange = loadRGBRange(height, rgbs, positions);
            for (int y=0;y<height;y++){
                for (int x=0;x<width;x++){
                    pixels[x+y*width] = rgbRange[y];
                }
            }
        }else if (alignment==RADIAL_FROM_TOP_LEFT_CORNER){
            int[] rgbRange = loadRGBRange((int) Math.sqrt((width-1)*(width-1)+(height-1)*(height-1)), rgbs, positions);
            for (int x=0;x<width;x++){
                for (int y=0;y<height;y++){
                    pixels[x+y*width] = rgbRange[(int) Math.sqrt((x-1)*(x-1)+(y-1)*(y-1))];
                }
            }
        }else if (alignment==RADIAL_FROM_BOTTOM_LEFT_CORNER){
            int[] rgbRange = loadRGBRange((int) Math.sqrt((width-1)*(width-1)+(height-1)*(height-1)), rgbs, positions);
            for (int x=0;x<width;x++){
                for (int y=0;y<height;y++){
                    pixels[x+(height-y-1)*width] = rgbRange[(int) Math.sqrt((x-1)*(x-1)+(y-1)*(y-1))];
                }
            }
        }else if (alignment==RADIAL_FROM_TOP_RIGHT_CORNER){
            int[] rgbRange = loadRGBRange((int) Math.sqrt((width-1)*(width-1)+(height-1)*(height-1)), rgbs, positions);
            for (int x=0;x<width;x++){
                for (int y=0;y<height;y++){
                    pixels[(width-x-1)+y*width] = rgbRange[(int) Math.sqrt((x-1)*(x-1)+(y-1)*(y-1))];
                }
            }
        }else if (alignment==RADIAL_FROM_BOTTOM_RIGHT_CORNER){
            int[] rgbRange = loadRGBRange((int) Math.sqrt((width-1)*(width-1)+(height-1)*(height-1)), rgbs, positions);
            for (int x=0;x<width;x++){
                for (int y=0;y<height;y++){
                    pixels[(width-x-1)+(height-y-1)*width] = rgbRange[(int) Math.sqrt((x-1)*(x-1)+(y-1)*(y-1))];
                }
            }
        }else if (alignment==RADIAL_FROM_CENTER){
            int[] divArray = divideArray(positions, 2);
            BufferedImage quad1 = new GradientImage(width>>1, height>>1, colors, divArray, GradientImage.RADIAL_FROM_BOTTOM_RIGHT_CORNER).getImage();
            BufferedImage quad2 = new GradientImage(width>>1, height>>1, colors, divArray, GradientImage.RADIAL_FROM_BOTTOM_LEFT_CORNER).getImage();
            BufferedImage quad3 = new GradientImage(width>>1, height>>1, colors, divArray, GradientImage.RADIAL_FROM_TOP_RIGHT_CORNER).getImage();
            BufferedImage quad4 = new GradientImage(width>>1, height>>1, colors, divArray, GradientImage.RADIAL_FROM_TOP_LEFT_CORNER).getImage();
            Graphics2D g = image.createGraphics();
            g.drawImage(quad1, 0, 0, null);
            g.drawImage(quad2, width>>1, 0, null);
            g.drawImage(quad3, 0, height>>1, null);
            g.drawImage(quad4, width>>1, height>>1, null);
            g.dispose();
        }else if (alignment==RADIAL_FROM_CORNERS){
            int[] divArray = divideArray(positions, 2);
            BufferedImage quad1 = new GradientImage(width>>1, height>>1, colors, divArray, GradientImage.RADIAL_FROM_TOP_LEFT_CORNER).getImage();
            BufferedImage quad2 = new GradientImage(width>>1, height>>1, colors, divArray, GradientImage.RADIAL_FROM_TOP_RIGHT_CORNER).getImage();
            BufferedImage quad3 = new GradientImage(width>>1, height>>1, colors, divArray, GradientImage.RADIAL_FROM_BOTTOM_LEFT_CORNER).getImage();
            BufferedImage quad4 = new GradientImage(width>>1, height>>1, colors, divArray, GradientImage.RADIAL_FROM_BOTTOM_RIGHT_CORNER).getImage();
            Graphics2D g = image.createGraphics();
            g.drawImage(quad1, 0, 0, null);
            g.drawImage(quad2, width>>1, 0, null);
            g.drawImage(quad3, 0, height>>1, null);
            g.drawImage(quad4, width>>1, height>>1, null);
            g.dispose();
        }else if (alignment==LINEAR_DIAGONAL_UP){
            int[] rgbRange = loadRGBRange((int) Math.sqrt((width-1)*(width-1)+(height-1)*(height-1)), rgbs, positions);
            for (int x=0;x<width;x++){
                for (int y=0;y<height;y++){
                    pixels[x+(height-y-1)*width] = rgbRange[Math.max(y-x, x-y)];
                }
            }
        }else if (alignment==LINEAR_DIAGONAL_DOWN){
            int[] rgbRange = loadRGBRange((int) Math.sqrt((width-1)*(width-1)+(height-1)*(height-1)), rgbs, positions);
            for (int x=0;x<width;x++){
                for (int y=0;y<height;y++){
                    pixels[x+y*width] = rgbRange[Math.max(y-x, x-y)];
                }
            }
        }else if (alignment==LINEAR_FROM_TOP_RIGHT_CORNER){
            int[] rgbRange = loadRGBRange((width+height)>>1, rgbs, positions);
            for (int x=0;x<width;x++){
                for (int y=0;y<height;y++){
                    pixels[x+(height-y-1)*width] = rgbRange[rgbRange.length-((x+y)>>1)-1];
                }
            }
        }else if (alignment==LINEAR_FROM_TOP_LEFT_CORNER){
            int[] rgbRange = loadRGBRange((width+height)>>1, rgbs, positions);
            for (int x=0;x<width;x++){
                for (int y=0;y<height;y++){
                    pixels[(width-x-1)+(height-y-1)*width] = rgbRange[rgbRange.length-((x+y)>>1)-1];
                }
            }
        }else if (alignment==LINEAR_FROM_BOTTOM_RIGHT_CORNER){
            int[] rgbRange = loadRGBRange((width+height)>>1, rgbs, positions);
            for (int x=0;x<width;x++){
                for (int y=0;y<height;y++){
                    pixels[x+y*width] = rgbRange[rgbRange.length-((x+y)>>1)-1];
                }
            }
        }else if (alignment==LINEAR_FROM_BOTTOM_LEFT_CORNER){
            int[] rgbRange = loadRGBRange((width+height)>>1, rgbs, positions);
            for (int x=0;x<width;x++){
                for (int y=0;y<height;y++){
                    pixels[(width-x-1)+y*width] = rgbRange[rgbRange.length-((x+y)>>1)-1];
                }
            }
        }else if (alignment==LINEAR_FROM_CENTER){
            int[] divArray = divideArray(positions, 2);
            BufferedImage quad1 = new GradientImage(width>>1, height>>1, colors, divArray, GradientImage.LINEAR_FROM_BOTTOM_RIGHT_CORNER).getImage();
            BufferedImage quad2 = new GradientImage(width>>1, height>>1, colors, divArray, GradientImage.LINEAR_FROM_BOTTOM_LEFT_CORNER).getImage();
            BufferedImage quad3 = new GradientImage(width>>1, height>>1, colors, divArray, GradientImage.LINEAR_FROM_TOP_RIGHT_CORNER).getImage();
            BufferedImage quad4 = new GradientImage(width>>1, height>>1, colors, divArray, GradientImage.LINEAR_FROM_TOP_LEFT_CORNER).getImage();
            Graphics2D g = image.createGraphics();
            g.drawImage(quad1, 0, 0, null);
            g.drawImage(quad2, width>>1, 0, null);
            g.drawImage(quad3, 0, height>>1, null);
            g.drawImage(quad4, width>>1, height>>1, null);
            g.dispose();
        }else if (alignment==LINEAR_FROM_CORNERS){
            int[] divArray = divideArray(positions, 2);
            BufferedImage quad1 = new GradientImage(width>>1, height>>1, colors, divArray, GradientImage.LINEAR_FROM_TOP_LEFT_CORNER).getImage();
            BufferedImage quad2 = new GradientImage(width>>1, height>>1, colors, divArray, GradientImage.LINEAR_FROM_TOP_RIGHT_CORNER).getImage();
            BufferedImage quad3 = new GradientImage(width>>1, height>>1, colors, divArray, GradientImage.LINEAR_FROM_BOTTOM_LEFT_CORNER).getImage();
            BufferedImage quad4 = new GradientImage(width>>1, height>>1, colors, divArray, GradientImage.LINEAR_FROM_BOTTOM_RIGHT_CORNER).getImage();
            Graphics2D g = image.createGraphics();
            g.drawImage(quad1, 0, 0, null);
            g.drawImage(quad2, width>>1, 0, null);
            g.drawImage(quad3, 0, height>>1, null);
            g.drawImage(quad4, width>>1, height>>1, null);
            g.dispose();
        }else if (alignment==PATH_FROM_TOP_LEFT_CORNER){
            int[] rgbRange = loadRGBRange(Math.max(width, height), rgbs, positions);
            for (int x=0;x<width;x++){
                for (int y=0;y<height;y++){
                    pixels[x+y*width] = rgbRange[Math.max(x, y)];
                }
            }
        }else if (alignment==PATH_FROM_TOP_RIGHT_CORNER){
            int[] rgbRange = loadRGBRange(Math.max(width, height), rgbs, positions);
            for (int x=0;x<width;x++){
                for (int y=0;y<height;y++){
                    pixels[(width-x-1)+y*width] = rgbRange[Math.max(x, y)];
                }
            }
        }else if (alignment==PATH_FROM_BOTTOM_LEFT_CORNER){
            int[] rgbRange = loadRGBRange(Math.max(width, height), rgbs, positions);
            for (int x=0;x<width;x++){
                for (int y=0;y<height;y++){
                    pixels[x+(height-y-1)*width] = rgbRange[Math.max(x, y)];
                }
            }
        }else if (alignment==PATH_FROM_BOTTOM_RIGHT_CORNER){
            int[] rgbRange = loadRGBRange(Math.max(width, height), rgbs, positions);
            for (int x=0;x<width;x++){
                for (int y=0;y<height;y++){
                    pixels[(width-x-1)+(height-y-1)*width] = rgbRange[Math.max(x, y)];
                }
            }
        }else if (alignment==PATH_FROM_CENTER){
            int[] divArray = divideArray(positions, 2);
            BufferedImage quad1 = new GradientImage(width>>1, height>>1, colors, divArray, GradientImage.PATH_FROM_BOTTOM_RIGHT_CORNER).getImage();
            BufferedImage quad2 = new GradientImage(width>>1, height>>1, colors, divArray, GradientImage.PATH_FROM_BOTTOM_LEFT_CORNER).getImage();
            BufferedImage quad3 = new GradientImage(width>>1, height>>1, colors, divArray, GradientImage.PATH_FROM_TOP_RIGHT_CORNER).getImage();
            BufferedImage quad4 = new GradientImage(width>>1, height>>1, colors, divArray, GradientImage.PATH_FROM_TOP_LEFT_CORNER).getImage();
            Graphics2D g = image.createGraphics();
            g.drawImage(quad1, 0, 0, null);
            g.drawImage(quad2, width>>1, 0, null);
            g.drawImage(quad3, 0, height>>1, null);
            g.drawImage(quad4, width>>1, height>>1, null);
            g.dispose();
        }else if (alignment==PATH_FROM_CORNERS){
            int[] divArray = divideArray(positions, 2);
            BufferedImage quad1 = new GradientImage(width>>1, height>>1, colors, divArray, GradientImage.PATH_FROM_TOP_LEFT_CORNER).getImage();
            BufferedImage quad2 = new GradientImage(width>>1, height>>1, colors, divArray, GradientImage.PATH_FROM_TOP_RIGHT_CORNER).getImage();
            BufferedImage quad3 = new GradientImage(width>>1, height>>1, colors, divArray, GradientImage.PATH_FROM_BOTTOM_LEFT_CORNER).getImage();
            BufferedImage quad4 = new GradientImage(width>>1, height>>1, colors, divArray, GradientImage.PATH_FROM_BOTTOM_RIGHT_CORNER).getImage();
            Graphics2D g = image.createGraphics();
            g.drawImage(quad1, 0, 0, null);
            g.drawImage(quad2, width>>1, 0, null);
            g.drawImage(quad3, 0, height>>1, null);
            g.drawImage(quad4, width>>1, height>>1, null);
            g.dispose();
        }
    }
    public int[] divideArray(int[] array, int div){
        if (array==null){
            return null;
        }
        int[] arr = new int[array.length];
        if (div==2){
            for (int i=0;i<arr.length;i++){
                arr[i] = array[i]>>1;
            }
        }else{
            for (int i=0;i<arr.length;i++){
                arr[i] = array[i]/div;
            }
        }
        return arr;
    }
    public int[] loadRGBRange(int length, int[] rgbs) throws Exception {
        if (rgbs==null){
            throw new Exception("RGB[]'s cannot be null");
        }
        if (length==0){
            throw new Exception("Length cannot be 0");
        }
        if (rgbs.length==0){
            throw new Exception("RGB[]'s length cannot be 0");
        }
        int[] rgbRange = new int[length];
        if (rgbs.length==1){
            for (int i=0;i<rgbRange.length;i++){
                rgbRange[i] = rgbs[0];
            }
            return rgbRange;
        }
        int[] positions = new int[rgbs.length];
        double pos = 0;
        double block = (double) length/(rgbs.length-1);
        for (int i=0;i<positions.length;i++){
            positions[i] = (int) pos;
            pos+=block;
        }
        int[] as = new int[rgbs.length];
        int[] rs = new int[rgbs.length];
        int[] gs = new int[rgbs.length];
        int[] bs = new int[rgbs.length];
        for (int i=0;i<rgbs.length;i++){
            as[i] = (rgbs[i]>>24) & 0xff;
            rs[i] = (rgbs[i]>>16) & 0xff;
            gs[i] = (rgbs[i]>>8) & 0xff;
            bs[i] = (rgbs[i]) & 0xff;
        }
        int[] adifs = new int[rgbs.length-1];
        int[] rdifs = new int[rgbs.length-1];
        int[] gdifs = new int[rgbs.length-1];
        int[] bdifs = new int[rgbs.length-1];
        for (int i=0;i<rgbs.length-1;i++){
            adifs[i] = as[i]-as[i+1];
            rdifs[i] = rs[i]-rs[i+1];
            gdifs[i] = gs[i]-gs[i+1];
            bdifs[i] = bs[i]-bs[i+1];
        }
        double[] ab = new double[rgbs.length-1];
        double[] rb = new double[rgbs.length-1];
        double[] gb = new double[rgbs.length-1];
        double[] bb = new double[rgbs.length-1];
        for (int i=0;i<rgbs.length-1;i++){
            int l = positions[i+1]-positions[i];
            ab[i] = (double) adifs[i]/l;
            rb[i] = (double) rdifs[i]/l;
            gb[i] = (double) gdifs[i]/l;
            bb[i] = (double) bdifs[i]/l;
        }
        double a = as[0];
        double r = rs[0];
        double g = gs[0];
        double b = bs[0];
        int color = 0;
        for (int i=0;i<rgbRange.length;i++){
            rgbRange[i] = ((int)a<<24)|((int)r<<16)|((int)g<<8)|((int)b);
            if (i+1>positions[0] && i+1<positions[positions.length-1]){
                if (i==positions[color+1]){
                    color++;
                    a = as[color];
                    r = rs[color];
                    g = gs[color];
                    b = bs[color];
                }else{
                    a-=ab[color];
                    r-=rb[color];
                    g-=gb[color];
                    b-=bb[color];
                }
            }
        }
        return rgbRange;
    }
    public int[] loadRGBRange(int length, int[] rgbs, int[] positions) throws Exception {
        if (positions==null){
            return loadRGBRange(length, rgbs);
        }
        if (rgbs==null){
            throw new Exception("RGB[]'s cannot be null");
        }
        if (length==0){
            throw new Exception("Length cannot be 0");
        }
        if (rgbs.length==0 || positions.length==0){
            return null;
        }
        if (positions.length!=rgbs.length){
            throw new Exception("The length of Positions[] must equals the length of RGB[]'s");
        }
        for (int i=0;i<positions.length;i++){
            if (positions[i]>length){
                throw new Exception("Any positions cannot be greater than the length");
            }
        }
        int[] rgbRange = new int[length];
        if (rgbs.length==1){
            for (int i=0;i<rgbRange.length;i++){
                rgbRange[i] = rgbs[0];
            }
            return rgbRange;
        }
        int[] as = new int[rgbs.length];
        int[] rs = new int[rgbs.length];
        int[] gs = new int[rgbs.length];
        int[] bs = new int[rgbs.length];
        for (int i=0;i<rgbs.length;i++){
            as[i] = (rgbs[i]>>24) & 0xff;
            rs[i] = (rgbs[i]>>16) & 0xff;
            gs[i] = (rgbs[i]>>8) & 0xff;
            bs[i] = (rgbs[i]) & 0xff;
        }
        int[] adifs = new int[rgbs.length-1];
        int[] rdifs = new int[rgbs.length-1];
        int[] gdifs = new int[rgbs.length-1];
        int[] bdifs = new int[rgbs.length-1];
        for (int i=0;i<rgbs.length-1;i++){
            adifs[i] = as[i]-as[i+1];
            rdifs[i] = rs[i]-rs[i+1];
            gdifs[i] = gs[i]-gs[i+1];
            bdifs[i] = bs[i]-bs[i+1];
        }
        double[] ab = new double[rgbs.length-1];
        double[] rb = new double[rgbs.length-1];
        double[] gb = new double[rgbs.length-1];
        double[] bb = new double[rgbs.length-1];
        for (int i=0;i<rgbs.length-1;i++){
            int l = positions[i+1]-positions[i];
            ab[i] = (double) adifs[i]/l;
            rb[i] = (double) rdifs[i]/l;
            gb[i] = (double) gdifs[i]/l;
            bb[i] = (double) bdifs[i]/l;
        }
        double a = as[0];
        double r = rs[0];
        double g = gs[0];
        double b = bs[0];
        int color = 0;
        for (int i=0;i<rgbRange.length;i++){
            rgbRange[i] = ((int)a<<24)|((int)r<<16)|((int)g<<8)|((int)b);
            if (i+1>positions[0] && i+1<positions[positions.length-1]){
                if (i==positions[color+1]){
                    color++;
                    a = as[color];
                    r = rs[color];
                    g = gs[color];
                    b = bs[color];
                }else{
                    a-=ab[color];
                    r-=rb[color];
                    g-=gb[color];
                    b-=bb[color];
                }
            }
        }
        return rgbRange;
    }
}
share|improve this answer

I use the method at http://real-me.net/ddyer/java/imagedemo/imagedemo.java to apply arbitrary transparency to corresponding jpg images. Sorry, there used to be a demo applet but oracle nuked it in their security mania. You can see the method in action in all the games at http://boardspace.net/

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.