package ij.process;
import java.util.*;
import java.awt.*;
import java.awt.image.*;
import ij.gui.*;
import ij.ImageStack;
public class ColorProcessor extends ImageProcessor {
protected int[] pixels;
protected int[] snapshotPixels = null;
private int bgColor = 0xffffffff; private int min=0, max=255;
private WritableRaster rgbRaster;
private SampleModel rgbSampleModel;
private boolean caSnapshot;
private static double rWeight=1d/3d, gWeight=1d/3d, bWeight=1d/3d;
private double[] weights;
public ColorProcessor(Image img) {
width = img.getWidth(null);
height = img.getHeight(null);
pixels = new int[width * height];
PixelGrabber pg = new PixelGrabber(img, 0, 0, width, height, pixels, 0, width);
try {
pg.grabPixels();
} catch (InterruptedException e){};
createColorModel();
fgColor = 0xff000000; resetRoi();
}
public ColorProcessor(int width, int height) {
this(width, height, new int[width*height]);
}
public ColorProcessor(int width, int height, int[] pixels) {
if (pixels!=null && width*height!=pixels.length)
throw new IllegalArgumentException(WRONG_LENGTH);
this.width = width;
this.height = height;
createColorModel();
fgColor = 0xff000000; resetRoi();
this.pixels = pixels;
}
void createColorModel() {
cm = new DirectColorModel(24, 0xff0000, 0xff00, 0xff);
}
public Image createImage() {
if (ij.IJ.isJava16())
return createBufferedImage();
if (source==null) {
source = new MemoryImageSource(width, height, cm, pixels, 0, width);
source.setAnimated(true);
source.setFullBufferUpdates(true);
img = Toolkit.getDefaultToolkit().createImage(source);
} else if (newPixels) {
source.newPixels(pixels, cm, 0, width);
newPixels = false;
} else
source.newPixels();
return img;
}
Image createBufferedImage() {
if (rgbSampleModel==null)
rgbSampleModel = getRGBSampleModel();
if (rgbRaster==null) {
DataBuffer dataBuffer = new DataBufferInt(pixels, width*height, 0);
rgbRaster = Raster.createWritableRaster(rgbSampleModel, dataBuffer, null);
}
if (image==null) {
image = new BufferedImage(cm, rgbRaster, false, null);
}
return image;
}
SampleModel getRGBSampleModel() {
WritableRaster wr = cm.createCompatibleWritableRaster(1, 1);
SampleModel sampleModel = wr.getSampleModel();
sampleModel = sampleModel.createCompatibleSampleModel(width, height);
return sampleModel;
}
public void setColorModel(ColorModel cm) {
if (cm!=null && (cm instanceof IndexColorModel))
throw new IllegalArgumentException("DirectColorModel required");
this.cm = cm;
newPixels = true;
source = null;
rgbSampleModel = null;
rgbRaster = null;
}
public ImageProcessor createProcessor(int width, int height) {
ImageProcessor ip2 = new ColorProcessor(width, height);
ip2.setInterpolationMethod(interpolationMethod);
return ip2;
}
public Color getColor(int x, int y) {
int c = pixels[y*width+x];
int r = (c&0xff0000)>>16;
int g = (c&0xff00)>>8;
int b = c&0xff;
return new Color(r,g,b);
}
public void setColor(Color color) {
fgColor = color.getRGB();
drawingColor = color;
}
public void setColor(int color) {
fgColor = color;
}
public void setValue(double value) {
fgColor = (int)value;
}
public void setBackgroundValue(double value) {
bgColor = (int)value;
}
public double getBackgroundValue() {
return bgColor;
}
public double getMin() {
return min;
}
public double getMax() {
return max;
}
public void setMinAndMax(double min, double max) {
setMinAndMax(min, max, 7);
}
public void setMinAndMax(double min, double max, int channels) {
if (max<min)
return;
this.min = (int)min;
this.max = (int)max;
int v;
int[] lut = new int[256];
for (int i=0; i<256; i++) {
v = i-this.min;
v = (int)(256.0*v/(max-min));
if (v < 0)
v = 0;
if (v > 255)
v = 255;
lut[i] = v;
}
reset();
if (channels==7)
applyTable(lut);
else
applyTable(lut, channels);
}
public void snapshot() {
snapshotWidth = width;
snapshotHeight = height;
if (snapshotPixels==null || (snapshotPixels!=null && snapshotPixels.length!=pixels.length))
snapshotPixels = new int[width * height];
System.arraycopy(pixels, 0, snapshotPixels, 0, width*height);
caSnapshot = false;
}
public void reset() {
if (snapshotPixels!=null)
System.arraycopy(snapshotPixels, 0, pixels, 0, width*height);
}
public void reset(ImageProcessor mask) {
if (mask==null || snapshotPixels==null)
return;
if (mask.getWidth()!=roiWidth||mask.getHeight()!=roiHeight)
throw new IllegalArgumentException(maskSizeError(mask));
byte[] mpixels = (byte[])mask.getPixels();
for (int y=roiY, my=0; y<(roiY+roiHeight); y++, my++) {
int i = y * width + roiX;
int mi = my * roiWidth;
for (int x=roiX; x<(roiX+roiWidth); x++) {
if (mpixels[mi++]==0)
pixels[i] = snapshotPixels[i];
i++;
}
}
}
public void caSnapshot(boolean set) {
caSnapshot = set;
}
public boolean caSnapshot() {
return caSnapshot;
}
public void swapPixelArrays() {
if (snapshotPixels==null)
return;
int pixel;
for (int i=0; i<pixels.length; i++) {
pixel = pixels[i];
pixels[i] = snapshotPixels[i];
snapshotPixels[i] = pixel;
}
caSnapshot = false;
}
public void setSnapshotPixels(Object pixels) {
if (caSnapshot && pixels==null)
return;
snapshotPixels = (int[])pixels;
snapshotWidth=width;
snapshotHeight=height;
caSnapshot = false;
}
public Object getSnapshotPixels() {
return snapshotPixels;
}
public void fill(ImageProcessor mask) {
if (mask==null)
{fill(); return;}
int roiWidth=this.roiWidth, roiHeight=this.roiHeight;
int roiX=this.roiX, roiY=this.roiY;
if (mask.getWidth()!=roiWidth||mask.getHeight()!=roiHeight)
return;
byte[] mpixels = (byte[])mask.getPixels();
for (int y=roiY, my=0; y<(roiY+roiHeight); y++, my++) {
int i = y * width + roiX;
int mi = my * roiWidth;
for (int x=roiX; x<(roiX+roiWidth); x++) {
if (mpixels[mi++]!=0)
pixels[i] = fgColor;
i++;
}
}
}
public Object getPixelsCopy() {
if (snapshotPixels!=null && snapshotCopyMode) {
snapshotCopyMode = false;
return snapshotPixels;
} else {
int[] pixels2 = new int[width*height];
System.arraycopy(pixels, 0, pixels2, 0, width*height);
return pixels2;
}
}
public int getPixel(int x, int y) {
if (x>=0 && x<width && y>=0 && y<height)
return pixels[y*width+x];
else
return 0;
}
public final int get(int x, int y) {
return pixels[y*width+x];
}
public final void set(int x, int y, int value) {
pixels[y*width + x] = value;
}
public final int get(int index) {
return pixels[index];
}
public final void set(int index, int value) {
pixels[index] = value;
}
public final float getf(int x, int y) {
return pixels[y*width+x];
}
public final void setf(int x, int y, float value) {
pixels[y*width + x] = (int)value;
}
public final float getf(int index) {
return pixels[index];
}
public final void setf(int index, float value) {
pixels[index] = (int)value;
}
public int[] getPixel(int x, int y, int[] iArray) {
if (iArray==null) iArray = new int[3];
int c = getPixel(x, y);
iArray[0] = (c&0xff0000)>>16;
iArray[1] = (c&0xff00)>>8;
iArray[2] = c&0xff;
return iArray;
}
public final void putPixel(int x, int y, int[] iArray) {
int r=iArray[0], g=iArray[1], b=iArray[2];
putPixel(x, y, (r<<16)+(g<<8)+b);
}
public double getInterpolatedPixel(double x, double y) {
int ix = (int)(x+0.5);
int iy = (int)(y+0.5);
if (ix<0) ix = 0;
if (ix>=width) ix = width-1;
if (iy<0) iy = 0;
if (iy>=height) iy = height-1;
return getPixelValue(ix, iy);
}
final public int getPixelInterpolated(double x,double y) {
if (x<0.0 || y<0.0 || x>=width-1 || y>=height-1)
return 0;
else
return getInterpolatedPixel(x, y, pixels);
}
public final void putPixel(int x, int y, int value) {
if (x>=0 && x<width && y>=0 && y<height)
pixels[y*width + x] = value;
}
public void putPixelValue(int x, int y, double value) {
if (x>=0 && x<width && y>=0 && y<height) {
if (value>255.0)
value = 255;
else if (value<0.0)
value = 0.0;
int gray = (int)(value+0.5);
pixels[y*width + x] = 0xff000000 + (gray<<16) + (gray<<8) + gray;
}
}
public float getPixelValue(int x, int y) {
if (x>=0 && x<width && y>=0 && y<height) {
int c = pixels[y*width+x];
int r = (c&0xff0000)>>16;
int g = (c&0xff00)>>8;
int b = c&0xff;
if (weights!=null)
return (float)(r*weights[0] + g*weights[1] + b*weights[2]);
else
return (float)(r*rWeight + g*gWeight + b*bWeight);
}
else
return 0;
}
public void drawPixel(int x, int y) {
if (x>=clipXMin && x<=clipXMax && y>=clipYMin && y<=clipYMax)
pixels[y*width + x] = fgColor;
}
public Object getPixels() {
return (Object)pixels;
}
public void setPixels(Object pixels) {
this.pixels = (int[])pixels;
resetPixels(pixels);
if (pixels==null)
snapshotPixels = null;
rgbRaster = null;
image = null;
caSnapshot = false;
}
public void getHSB(byte[] H, byte[] S, byte[] B) {
int c, r, g, b;
float[] hsb = new float[3];
for (int i=0; i < width*height; i++) {
c = pixels[i];
r = (c&0xff0000)>>16;
g = (c&0xff00)>>8;
b = c&0xff;
hsb = Color.RGBtoHSB(r, g, b, hsb);
H[i] = (byte)((int)(hsb[0]*255.0));
S[i] = (byte)((int)(hsb[1]*255.0));
B[i] = (byte)((int)(hsb[2]*255.0));
}
}
public ImageStack getHSBStack() {
int width = getWidth();
int height = getHeight();
byte[] H = new byte[width*height];
byte[] S = new byte[width*height];
byte[] B = new byte[width*height];
getHSB(H, S, B);
ColorModel cm = getDefaultColorModel();
ImageStack stack = new ImageStack(width, height, cm);
stack.addSlice("Hue", H);
stack.addSlice("Saturation", S);
stack.addSlice("Brightness", B);
return stack;
}
public FloatProcessor getBrightness() {
int c, r, g, b;
int size = width*height;
float[] brightness = new float[size];
float[] hsb = new float[3];
for (int i=0; i<size; i++) {
c = pixels[i];
r = (c&0xff0000)>>16;
g = (c&0xff00)>>8;
b = c&0xff;
hsb = Color.RGBtoHSB(r, g, b, hsb);
brightness[i] = hsb[2];
}
return new FloatProcessor(width, height, brightness, null);
}
public void getRGB(byte[] R, byte[] G, byte[] B) {
int c, r, g, b;
for (int i=0; i < width*height; i++) {
c = pixels[i];
r = (c&0xff0000)>>16;
g = (c&0xff00)>>8;
b = c&0xff;
R[i] = (byte)r;
G[i] = (byte)g;
B[i] = (byte)b;
}
}
public byte[] getChannel(int channel) {
ByteProcessor bp = getChannel(channel, null);
return (byte[])bp.getPixels();
}
public ByteProcessor getChannel(int channel, ByteProcessor bp) {
int size = width*height;
if (bp == null || bp.getWidth()!=width || bp.getHeight()!=height)
bp = new ByteProcessor(width, height);
byte[] bPixels = (byte[])bp.getPixels();
int shift = 16 - 8*(channel-1);
if (channel==4) shift=24;
for (int i=0; i<size; i++)
bPixels[i] = (byte)(pixels[i]>>shift);
return bp;
}
public void setChannel(int channel, ByteProcessor bp) {
byte[] bPixels = (byte[])bp.getPixels();
int value;
int size = width*height;
int shift = 16 - 8*(channel-1);
if (channel==4) shift=24;
int resetMask = 0xffffffff^(255<<shift);
for (int i=0; i<size; i++)
pixels[i] = (pixels[i]&resetMask) | ((bPixels[i]&255)<<shift);
}
public void setRGB(byte[] R, byte[] G, byte[] B) {
int c, r, g, b;
for (int i=0; i < width*height; i++)
pixels[i] = 0xff000000 | ((R[i]&0xff)<<16) | ((G[i]&0xff)<<8) | B[i]&0xff;
}
public void setHSB(byte[] H, byte[] S, byte[] B) {
float hue, saturation, brightness;
for (int i=0; i < width*height; i++) {
hue = (float)((H[i]&0xff)/255.0);
saturation = (float)((S[i]&0xff)/255.0);
brightness = (float)((B[i]&0xff)/255.0);
pixels[i] = Color.HSBtoRGB(hue, saturation, brightness);
}
}
public void setBrightness(FloatProcessor fp) {
int c, r, g, b;
int size = width*height;
float[] hsb = new float[3];
float[] brightness = (float[])fp.getPixels();
if (brightness.length!=size)
throw new IllegalArgumentException("fp is wrong size");
for (int i=0; i<size; i++) {
c = pixels[i];
r = (c&0xff0000)>>16;
g = (c&0xff00)>>8;
b = c&0xff;
hsb = Color.RGBtoHSB(r, g, b, hsb);
float bvalue = brightness[i];
if (bvalue<0f) bvalue = 0f;
if (bvalue>1.0f) bvalue = 1.0f;
pixels[i] = Color.HSBtoRGB(hsb[0], hsb[1], bvalue);
}
}
public void copyBits(ImageProcessor ip, int xloc, int yloc, int mode) {
ip = ip.convertToRGB();
new ColorBlitter(this).copyBits(ip, xloc, yloc, mode);
}
public void applyTable(int[] lut) {
int c, r, g, b;
for (int y=roiY; y<(roiY+roiHeight); y++) {
int i = y * width + roiX;
for (int x=roiX; x<(roiX+roiWidth); x++) {
c = pixels[i];
r = lut[(c&0xff0000)>>16];
g = lut[(c&0xff00)>>8];
b = lut[c&0xff];
pixels[i] = 0xff000000 + (r<<16) + (g<<8) + b;
i++;
}
}
}
public void applyTable(int[] lut, int channels) {
int c, r=0, g=0, b=0;
for (int y=roiY; y<(roiY+roiHeight); y++) {
int i = y * width + roiX;
for (int x=roiX; x<(roiX+roiWidth); x++) {
c = pixels[i];
if (channels==4) {
r = lut[(c&0xff0000)>>16];
g = (c&0xff00)>>8;
b = c&0xff;
} else if (channels==2) {
r = (c&0xff0000)>>16;
g = lut[(c&0xff00)>>8];
b = c&0xff;
} else if (channels==1) {
r = (c&0xff0000)>>16;
g = (c&0xff00)>>8;
b = lut[c&0xff];
} else if ((channels&6)==6) {
r = lut[(c&0xff0000)>>16];
g = lut[(c&0xff00)>>8];
b = c&0xff;
} else if ((channels&5)==5) {
r = lut[(c&0xff0000)>>16];
g = (c&0xff00)>>8;
b = lut[c&0xff];
} else if ((channels&3)==3) {
r = (c&0xff0000)>>16;
g = lut[(c&0xff00)>>8];
b = lut[c&0xff];
}
pixels[i] = 0xff000000 + (r<<16) + (g<<8) + b;
i++;
}
}
}
public void fill() {
for (int y=roiY; y<(roiY+roiHeight); y++) {
int i = y * width + roiX;
for (int x=roiX; x<(roiX+roiWidth); x++)
pixels[i++] = fgColor;
}
}
public static final int RGB_NOISE=0, RGB_MEDIAN=1, RGB_FIND_EDGES=2,
RGB_ERODE=3, RGB_DILATE=4, RGB_THRESHOLD=5, RGB_ROTATE=6,
RGB_SCALE=7, RGB_RESIZE=8, RGB_TRANSLATE=9;
public void filterRGB(int type, double arg) {
filterRGB(type, arg, 0.0);
}
final ImageProcessor filterRGB(int type, double arg, double arg2) {
showProgress(0.01);
byte[] R = new byte[width*height];
byte[] G = new byte[width*height];
byte[] B = new byte[width*height];
getRGB(R, G, B);
Rectangle roi = new Rectangle(roiX, roiY, roiWidth, roiHeight);
ByteProcessor r = new ByteProcessor(width, height, R, null);
r.setRoi(roi);
ByteProcessor g = new ByteProcessor(width, height, G, null);
g.setRoi(roi);
ByteProcessor b = new ByteProcessor(width, height, B, null);
b.setRoi(roi);
r.setBackgroundValue((bgColor&0xff0000)>>16);
g.setBackgroundValue((bgColor&0xff00)>>8);
b.setBackgroundValue(bgColor&0xff);
r.setInterpolationMethod(interpolationMethod);
g.setInterpolationMethod(interpolationMethod);
b.setInterpolationMethod(interpolationMethod);
showProgress(0.15);
switch (type) {
case RGB_NOISE:
r.noise(arg); showProgress(0.40);
g.noise(arg); showProgress(0.65);
b.noise(arg); showProgress(0.90);
break;
case RGB_MEDIAN:
r.medianFilter(); showProgress(0.40);
g.medianFilter(); showProgress(0.65);
b.medianFilter(); showProgress(0.90);
break;
case RGB_FIND_EDGES:
r.findEdges(); showProgress(0.40);
g.findEdges(); showProgress(0.65);
b.findEdges(); showProgress(0.90);
break;
case RGB_ERODE:
r.erode(); showProgress(0.40);
g.erode(); showProgress(0.65);
b.erode(); showProgress(0.90);
break;
case RGB_DILATE:
r.dilate(); showProgress(0.40);
g.dilate(); showProgress(0.65);
b.dilate(); showProgress(0.90);
break;
case RGB_THRESHOLD:
r.autoThreshold(); showProgress(0.40);
g.autoThreshold(); showProgress(0.65);
b.autoThreshold(); showProgress(0.90);
break;
case RGB_ROTATE:
ij.IJ.showStatus("Rotating red");
r.rotate(arg); showProgress(0.40);
ij.IJ.showStatus("Rotating green");
g.rotate(arg); showProgress(0.65);
ij.IJ.showStatus("Rotating blue");
b.rotate(arg); showProgress(0.90);
break;
case RGB_SCALE:
ij.IJ.showStatus("Scaling red");
r.scale(arg, arg2); showProgress(0.40);
ij.IJ.showStatus("Scaling green");
g.scale(arg, arg2); showProgress(0.65);
ij.IJ.showStatus("Scaling blue");
b.scale(arg, arg2); showProgress(0.90);
break;
case RGB_RESIZE:
int w=(int)arg, h=(int)arg2;
ij.IJ.showStatus("Resizing red");
ImageProcessor r2 = r.resize(w, h); showProgress(0.40);
ij.IJ.showStatus("Resizing green");
ImageProcessor g2 = g.resize(w, h); showProgress(0.65);
ij.IJ.showStatus("Resizing blue");
ImageProcessor b2 = b.resize(w, h); showProgress(0.90);
R = (byte[])r2.getPixels();
G = (byte[])g2.getPixels();
B = (byte[])b2.getPixels();
ColorProcessor ip2 = new ColorProcessor(w, h);
ip2.setRGB(R, G, B);
showProgress(1.0);
return ip2;
case RGB_TRANSLATE:
ij.IJ.showStatus("Translating red");
r.translate(arg, arg2); showProgress(0.40);
ij.IJ.showStatus("Translating green");
g.translate(arg, arg2); showProgress(0.65);
ij.IJ.showStatus("Translating blue");
b.translate(arg, arg2); showProgress(0.90);
break;
}
R = (byte[])r.getPixels();
G = (byte[])g.getPixels();
B = (byte[])b.getPixels();
setRGB(R, G, B);
showProgress(1.0);
return null;
}
public void noise(double range) {
filterRGB(RGB_NOISE, range);
}
public void medianFilter() {
filterRGB(RGB_MEDIAN, 0.0);
}
public void findEdges() {
filterRGB(RGB_FIND_EDGES, 0.0);
}
public void erode() {
filterRGB(RGB_ERODE, 0.0);
}
public void dilate() {
filterRGB(RGB_DILATE, 0.0);
}
public void autoThreshold() {
filterRGB(RGB_THRESHOLD, 0.0);
}
public void scale(double xScale, double yScale) {
if (interpolationMethod==BICUBIC) {
filterRGB(RGB_SCALE, xScale, yScale);
return;
}
double xCenter = roiX + roiWidth/2.0;
double yCenter = roiY + roiHeight/2.0;
int xmin, xmax, ymin, ymax;
if ((xScale>1.0) && (yScale>1.0)) {
xmin = (int)(xCenter-(xCenter-roiX)*xScale);
if (xmin<0) xmin = 0;
xmax = xmin + (int)(roiWidth*xScale) - 1;
if (xmax>=width) xmax = width - 1;
ymin = (int)(yCenter-(yCenter-roiY)*yScale);
if (ymin<0) ymin = 0;
ymax = ymin + (int)(roiHeight*yScale) - 1;
if (ymax>=height) ymax = height - 1;
} else {
xmin = roiX;
xmax = roiX + roiWidth - 1;
ymin = roiY;
ymax = roiY + roiHeight - 1;
}
int[] pixels2 = (int[])getPixelsCopy();
boolean checkCoordinates = (xScale < 1.0) || (yScale < 1.0);
int index1, index2, xsi, ysi;
double ys, xs;
double xlimit = width-1.0, xlimit2 = width-1.001;
double ylimit = height-1.0, ylimit2 = height-1.001;
for (int y=ymin; y<=ymax; y++) {
ys = (y-yCenter)/yScale + yCenter;
ysi = (int)ys;
if (ys<0.0) ys = 0.0;
if (ys>=ylimit) ys = ylimit2;
index1 = y*width + xmin;
index2 = width*(int)ys;
for (int x=xmin; x<=xmax; x++) {
xs = (x-xCenter)/xScale + xCenter;
xsi = (int)xs;
if (checkCoordinates && ((xsi<xmin) || (xsi>xmax) || (ysi<ymin) || (ysi>ymax)))
pixels[index1++] = bgColor;
else {
if (interpolationMethod==BILINEAR) {
if (xs<0.0) xs = 0.0;
if (xs>=xlimit) xs = xlimit2;
pixels[index1++] = getInterpolatedPixel(xs, ys, pixels2);
} else
pixels[index1++] = pixels2[index2+xsi];
}
}
if (y%20==0)
showProgress((double)(y-ymin)/height);
}
showProgress(1.0);
}
public ImageProcessor crop() {
int[] pixels2 = new int[roiWidth*roiHeight];
for (int ys=roiY; ys<roiY+roiHeight; ys++) {
int offset1 = (ys-roiY)*roiWidth;
int offset2 = ys*width+roiX;
for (int xs=0; xs<roiWidth; xs++)
pixels2[offset1++] = pixels[offset2++];
}
ColorProcessor cp2 = new ColorProcessor(roiWidth, roiHeight, pixels2);
return cp2;
}
public ImageProcessor duplicate() {
int[] pixels2 = new int[width*height];
System.arraycopy(pixels, 0, pixels2, 0, width*height);
return new ColorProcessor(width, height, pixels2);
}
public int getInterpolatedRGBPixel(double x, double y) {
if (width==1||height==1)
return getPixel((int)x, (int)y);
if (x<0.0) x = 0.0;
if (x>=width-1.0)
x = width-1.001;
if (y<0.0) y = 0.0;
if (y>=height-1.0) y = height-1.001;
return getInterpolatedPixel(x, y, pixels);
}
private final int getInterpolatedPixel(double x, double y, int[] pixels) {
int xbase = (int)x;
int ybase = (int)y;
double xFraction = x - xbase;
double yFraction = y - ybase;
int offset = ybase * width + xbase;
int lowerLeft = pixels[offset];
int rll = (lowerLeft&0xff0000)>>16;
int gll = (lowerLeft&0xff00)>>8;
int bll = lowerLeft&0xff;
int lowerRight = pixels[offset + 1];
int rlr = (lowerRight&0xff0000)>>16;
int glr = (lowerRight&0xff00)>>8;
int blr = lowerRight&0xff;
int upperRight = pixels[offset + width + 1];
int rur = (upperRight&0xff0000)>>16;
int gur = (upperRight&0xff00)>>8;
int bur = upperRight&0xff;
int upperLeft = pixels[offset + width];
int rul = (upperLeft&0xff0000)>>16;
int gul = (upperLeft&0xff00)>>8;
int bul = upperLeft&0xff;
int r, g, b;
double upperAverage, lowerAverage;
upperAverage = rul + xFraction * (rur - rul);
lowerAverage = rll + xFraction * (rlr - rll);
r = (int)(lowerAverage + yFraction * (upperAverage - lowerAverage)+0.5);
upperAverage = gul + xFraction * (gur - gul);
lowerAverage = gll + xFraction * (glr - gll);
g = (int)(lowerAverage + yFraction * (upperAverage - lowerAverage)+0.5);
upperAverage = bul + xFraction * (bur - bul);
lowerAverage = bll + xFraction * (blr - bll);
b = (int)(lowerAverage + yFraction * (upperAverage - lowerAverage)+0.5);
return 0xff000000 | ((r&0xff)<<16) | ((g&0xff)<<8) | b&0xff;
}
public ImageProcessor resize(int dstWidth, int dstHeight) {
if (roiWidth==dstWidth && roiHeight==dstHeight)
return crop();
if (interpolationMethod!=NONE && (width==1||height==1)) {
ByteProcessor r2 = (ByteProcessor)getChannel(1,null).resizeLinearly(dstWidth, dstHeight);
ByteProcessor g2 = (ByteProcessor)getChannel(2,null).resizeLinearly(dstWidth, dstHeight);
ByteProcessor b2 = (ByteProcessor)getChannel(3,null).resizeLinearly(dstWidth, dstHeight);
ColorProcessor ip2 = new ColorProcessor(dstWidth, dstHeight);
ip2.setChannel(1, r2); ip2.setChannel(2, g2); ip2.setChannel(3, b2);
return ip2;
}
if (interpolationMethod==BICUBIC)
return filterRGB(RGB_RESIZE, dstWidth, dstHeight);
double srcCenterX = roiX + roiWidth/2.0;
double srcCenterY = roiY + roiHeight/2.0;
double dstCenterX = dstWidth/2.0;
double dstCenterY = dstHeight/2.0;
double xScale = (double)dstWidth/roiWidth;
double yScale = (double)dstHeight/roiHeight;
double xlimit = width-1.0, xlimit2 = width-1.001;
double ylimit = height-1.0, ylimit2 = height-1.001;
if (interpolationMethod==BILINEAR) {
if (dstWidth!=width) dstCenterX+=xScale/4.0;
if (dstHeight!=height) dstCenterY+=yScale/4.0;
}
ImageProcessor ip2 = createProcessor(dstWidth, dstHeight);
int[] pixels2 = (int[])ip2.getPixels();
double xs, ys;
int index1, index2;
for (int y=0; y<=dstHeight-1; y++) {
ys = (y-dstCenterY)/yScale + srcCenterY;
if (interpolationMethod==BILINEAR) {
if (ys<0.0) ys = 0.0;
if (ys>=ylimit) ys = ylimit2;
}
index1 = width*(int)ys;
index2 = y*dstWidth;
for (int x=0; x<=dstWidth-1; x++) {
xs = (x-dstCenterX)/xScale + srcCenterX;
if (interpolationMethod==BILINEAR) {
if (xs<0.0) xs = 0.0;
if (xs>=xlimit) xs = xlimit2;
pixels2[index2++] = getInterpolatedPixel(xs, ys, pixels);
} else
pixels2[index2++] = pixels[index1+(int)xs];
}
if (y%20==0)
showProgress((double)y/dstHeight);
}
showProgress(1.0);
return ip2;
}
public ImageProcessor makeThumbnail(int width2, int height2, double smoothFactor) {
return resize(width2, height2, true);
}
public void rotate(double angle) {
if (angle%360==0)
return;
if (interpolationMethod==BICUBIC) {
filterRGB(RGB_ROTATE, angle);
return;
}
int[] pixels2 = (int[])getPixelsCopy();
double centerX = roiX + (roiWidth-1)/2.0;
double centerY = roiY + (roiHeight-1)/2.0;
int xMax = roiX + this.roiWidth - 1;
double angleRadians = -angle/(180.0/Math.PI);
double ca = Math.cos(angleRadians);
double sa = Math.sin(angleRadians);
double tmp1 = centerY*sa-centerX*ca;
double tmp2 = -centerX*sa-centerY*ca;
double tmp3, tmp4, xs, ys;
int index, ixs, iys;
double dwidth = width, dheight=height;
double xlimit = width-1.0, xlimit2 = width-1.001;
double ylimit = height-1.0, ylimit2 = height-1.001;
for (int y=roiY; y<(roiY + roiHeight); y++) {
index = y*width + roiX;
tmp3 = tmp1 - y*sa + centerX;
tmp4 = tmp2 + y*ca + centerY;
for (int x=roiX; x<=xMax; x++) {
xs = x*ca + tmp3;
ys = x*sa + tmp4;
if ((xs>=-0.01) && (xs<dwidth) && (ys>=-0.01) && (ys<dheight)) {
if (interpolationMethod==BILINEAR) {
if (xs<0.0) xs = 0.0;
if (xs>=xlimit) xs = xlimit2;
if (ys<0.0) ys = 0.0;
if (ys>=ylimit) ys = ylimit2;
pixels[index++] = getInterpolatedPixel(xs, ys, pixels2);
} else {
ixs = (int)(xs+0.5);
iys = (int)(ys+0.5);
if (ixs>=width) ixs = width - 1;
if (iys>=height) iys = height -1;
pixels[index++] = pixels2[width*iys+ixs];
}
} else
pixels[index++] = bgColor;
}
if (y%30==0)
showProgress((double)(y-roiY)/roiHeight);
}
showProgress(1.0);
}
public void flipVertical() {
int index1,index2;
int tmp;
for (int y=0; y<roiHeight/2; y++) {
index1 = (roiY+y)*width+roiX;
index2 = (roiY+roiHeight-1-y)*width+roiX;
for (int i=0; i<roiWidth; i++) {
tmp = pixels[index1];
pixels[index1++] = pixels[index2];
pixels[index2++] = tmp;
}
}
}
public void convolve3x3(int[] kernel) {
int p1, p2, p3, p4, p5, p6, p7, p8, p9;
int k1=kernel[0], k2=kernel[1], k3=kernel[2],
k4=kernel[3], k5=kernel[4], k6=kernel[5],
k7=kernel[6], k8=kernel[7], k9=kernel[8];
int scale = 0;
for (int i=0; i<kernel.length; i++)
scale += kernel[i];
if (scale==0) scale = 1;
int inc = roiHeight/25;
if (inc<1) inc = 1;
int[] pixels2 = (int[])getPixelsCopy();
int offset;
int rsum = 0, gsum = 0, bsum = 0;
int rowOffset = width;
for (int y=yMin; y<=yMax; y++) {
offset = xMin + y * width;
p1 = 0;
p2 = pixels2[offset-rowOffset-1];
p3 = pixels2[offset-rowOffset];
p4 = 0;
p5 = pixels2[offset-1];
p6 = pixels2[offset];
p7 = 0;
p8 = pixels2[offset+rowOffset-1];
p9 = pixels2[offset+rowOffset];
for (int x=xMin; x<=xMax; x++) {
p1 = p2; p2 = p3;
p3 = pixels2[offset-rowOffset+1];
p4 = p5; p5 = p6;
p6 = pixels2[offset+1];
p7 = p8; p8 = p9;
p9 = pixels2[offset+rowOffset+1];
rsum = k1*((p1 & 0xff0000) >> 16)
+ k2*((p2 & 0xff0000) >> 16)
+ k3*((p3 & 0xff0000) >> 16)
+ k4*((p4 & 0xff0000) >> 16)
+ k5*((p5 & 0xff0000) >> 16)
+ k6*((p6 & 0xff0000) >> 16)
+ k7*((p7 & 0xff0000) >> 16)
+ k8*((p8 & 0xff0000) >> 16)
+ k9*((p9 & 0xff0000) >> 16);
rsum /= scale;
if(rsum>255) rsum = 255;
if(rsum<0) rsum = 0;
gsum = k1*((p1 & 0xff00) >> 8)
+ k2*((p2 & 0xff00) >> 8)
+ k3*((p3 & 0xff00) >> 8)
+ k4*((p4 & 0xff00) >> 8)
+ k5*((p5 & 0xff00) >> 8)
+ k6*((p6 & 0xff00) >> 8)
+ k7*((p7 & 0xff00) >> 8)
+ k8*((p8 & 0xff00) >> 8)
+ k9*((p9 & 0xff00) >> 8);
gsum /= scale;
if(gsum>255) gsum = 255;
else if(gsum<0) gsum = 0;
bsum = k1*(p1 & 0xff)
+ k2*(p2 & 0xff)
+ k3*(p3 & 0xff)
+ k4*(p4 & 0xff)
+ k5*(p5 & 0xff)
+ k6*(p6 & 0xff)
+ k7*(p7 & 0xff)
+ k8*(p8 & 0xff)
+ k9*(p9 & 0xff);
bsum /= scale;
if (bsum>255) bsum = 255;
if (bsum<0) bsum = 0;
pixels[offset++] = 0xff000000
| ((rsum << 16) & 0xff0000)
| ((gsum << 8 ) & 0xff00)
| (bsum & 0xff);
}
if (y%inc==0)
showProgress((double)(y-roiY)/roiHeight);
}
showProgress(1.0);
}
public void filter(int type) {
int p1, p2, p3, p4, p5, p6, p7, p8, p9;
int inc = roiHeight/25;
if (inc<1) inc = 1;
int[] pixels2 = (int[])getPixelsCopy();
int offset, rsum=0, gsum=0, bsum=0;
int rowOffset = width;
for (int y=yMin; y<=yMax; y++) {
offset = xMin + y * width;
p1 = 0;
p2 = pixels2[offset-rowOffset-1];
p3 = pixels2[offset-rowOffset];
p4 = 0;
p5 = pixels2[offset-1];
p6 = pixels2[offset];
p7 = 0;
p8 = pixels2[offset+rowOffset-1];
p9 = pixels2[offset+rowOffset];
for (int x=xMin; x<=xMax; x++) {
p1 = p2; p2 = p3;
p3 = pixels2[offset-rowOffset+1];
p4 = p5; p5 = p6;
p6 = pixels2[offset+1];
p7 = p8; p8 = p9;
p9 = pixels2[offset+rowOffset+1];
rsum = (p1 & 0xff0000) + (p2 & 0xff0000) + (p3 & 0xff0000) + (p4 & 0xff0000) + (p5 & 0xff0000)
+ (p6 & 0xff0000) + (p7 & 0xff0000) + (p8 & 0xff0000) + (p9 & 0xff0000);
gsum = (p1 & 0xff00) + (p2 & 0xff00) + (p3 & 0xff00) + (p4 & 0xff00) + (p5 & 0xff00)
+ (p6 & 0xff00) + (p7 & 0xff00) + (p8 & 0xff00) + (p9 & 0xff00);
bsum = (p1 & 0xff) + (p2 & 0xff) + (p3 & 0xff) + (p4 & 0xff) + (p5 & 0xff)
+ (p6 & 0xff) + (p7 & 0xff) + (p8 & 0xff) + (p9 & 0xff);
pixels[offset++] = 0xff000000 | ((rsum/9) & 0xff0000) | ((gsum/9) & 0xff00) | (bsum/9);
}
if (y%inc==0)
showProgress((double)(y-roiY)/roiHeight);
}
showProgress(1.0);
}
public int[] getHistogram() {
if (mask!=null)
return getHistogram(mask);
double rw=rWeight, gw=gWeight, bw=bWeight;
if (weights!=null)
{rw=weights[0]; gw=weights[1]; bw=weights[2];}
int c, r, g, b, v;
int[] histogram = new int[256];
for (int y=roiY; y<(roiY+roiHeight); y++) {
int i = y * width + roiX;
for (int x=roiX; x<(roiX+roiWidth); x++) {
c = pixels[i++];
r = (c&0xff0000)>>16;
g = (c&0xff00)>>8;
b = c&0xff;
v = (int)(r*rw + g*gw + b*bw + 0.5);
histogram[v]++;
}
}
return histogram;
}
public int[] getHistogram(ImageProcessor mask) {
if (mask.getWidth()!=roiWidth||mask.getHeight()!=roiHeight)
throw new IllegalArgumentException(maskSizeError(mask));
double rw=rWeight, gw=gWeight, bw=bWeight;
if (weights!=null)
{rw=weights[0]; gw=weights[1]; bw=weights[2];}
byte[] mpixels = (byte[])mask.getPixels();
int c, r, g, b, v;
int[] histogram = new int[256];
for (int y=roiY, my=0; y<(roiY+roiHeight); y++, my++) {
int i = y * width + roiX;
int mi = my * roiWidth;
for (int x=roiX; x<(roiX+roiWidth); x++) {
if (mpixels[mi++]!=0) {
c = pixels[i];
r = (c&0xff0000)>>16;
g = (c&0xff00)>>8;
b = c&0xff;
v = (int)(r*rw + g*gw + b*bw + 0.5);
histogram[v]++;
}
i++;
}
}
return histogram;
}
public void convolve(float[] kernel, int kernelWidth, int kernelHeight) {
int size = width*height;
byte[] r = new byte[size];
byte[] g = new byte[size];
byte[] b = new byte[size];
getRGB(r,g,b);
ImageProcessor rip = new ByteProcessor(width, height, r, null);
ImageProcessor gip = new ByteProcessor(width, height, g, null);
ImageProcessor bip = new ByteProcessor(width, height, b, null);
ImageProcessor ip2 = rip.convertToFloat();
Rectangle roi = getRoi();
ip2.setRoi(roi);
ip2.convolve(kernel, kernelWidth, kernelHeight);
ImageProcessor r2 = ip2.convertToByte(false);
ip2 = gip.convertToFloat();
ip2.setRoi(roi);
ip2.convolve(kernel, kernelWidth, kernelHeight);
ImageProcessor g2 = ip2.convertToByte(false);
ip2 = bip.convertToFloat();
ip2.setRoi(roi);
ip2.convolve(kernel, kernelWidth, kernelHeight);
ImageProcessor b2 = ip2.convertToByte(false);
setRGB((byte[])r2.getPixels(), (byte[])g2.getPixels(), (byte[])b2.getPixels());
}
public static void setWeightingFactors(double rFactor, double gFactor, double bFactor) {
rWeight = rFactor;
gWeight = gFactor;
bWeight = bFactor;
}
public static double[] getWeightingFactors() {
double[] weights = new double[3];
weights[0] = rWeight;
weights[1] = gWeight;
weights[2] = bWeight;
return weights;
}
public void setRGBWeights(double rweight, double gweight, double bweight) {
weights = new double[3];
weights[0] = rweight;
weights[1] = gweight;
weights[2] = bweight;
}
public double[] getRGBWeights() {
return weights;
}
public boolean isInvertedLut() {
return false;
}
public final boolean isGrayscale() {
int c, r, g, b;
for (int i=0; i<pixels.length; i++) {
c = pixels[i];
r = (c&0xff0000)>>16;
g = (c&0xff00)>>8;
b = c&0xff;
if (r!=g || r!=b) return false;
}
return true;
}
public int getBestIndex(Color c) {
return 0;
}
public void invertLut() {
}
public void updateComposite(int[] rgbPixels, int channel) {
}
public void threshold(int level) {}
public int getNChannels() {
return 3;
}
public FloatProcessor toFloat(int channelNumber, FloatProcessor fp) {
int size = width*height;
if (fp == null || fp.getWidth()!=width || fp.getHeight()!=height)
fp = new FloatProcessor(width, height, new float[size], null);
float[] fPixels = (float[])fp.getPixels();
int shift = 16 - 8*channelNumber;
int byteMask = 255<<shift;
for (int i=0; i<size; i++)
fPixels[i] = (pixels[i]&byteMask)>>shift;
fp.setRoi(getRoi());
fp.setMask(mask);
fp.setMinAndMax(0, 255);
return fp;
}
public void setPixels(int channelNumber, FloatProcessor fp) {
float[] fPixels = (float[])fp.getPixels();
float value;
int size = width*height;
int shift = 16 - 8*channelNumber;
int resetMask = 0xffffffff^(255<<shift);
for (int i=0; i<size; i++) {
value = fPixels[i] + 0.5f;
if (value<0f) value = 0f;
if (value>255f) value = 255f;
pixels[i] = (pixels[i]&resetMask) | ((int)value<<shift);
}
}
public int getBitDepth() {
return 24;
}
}