static ImageData convertToSWT(BufferedImage bufferedImage) {
if (bufferedImage.getColorModel() instanceof DirectColorModel) {
DirectColorModel colorModel = (DirectColorModel) bufferedImage.getColorModel();
PaletteData palette =
new PaletteData(
colorModel.getRedMask(), colorModel.getGreenMask(), colorModel.getBlueMask());
ImageData data =
new ImageData(
bufferedImage.getWidth(),
bufferedImage.getHeight(),
colorModel.getPixelSize(),
palette);
WritableRaster raster = bufferedImage.getRaster();
int[] pixelArray = new int[3];
for (int y = 0; y < data.height; y++) {
for (int x = 0; x < data.width; x++) {
raster.getPixel(x, y, pixelArray);
int pixel = palette.getPixel(new RGB(pixelArray[0], pixelArray[1], pixelArray[2]));
data.setPixel(x, y, pixel);
}
}
return data;
} else if (bufferedImage.getColorModel() instanceof IndexColorModel) {
IndexColorModel colorModel = (IndexColorModel) bufferedImage.getColorModel();
int size = colorModel.getMapSize();
byte[] reds = new byte[size];
byte[] greens = new byte[size];
byte[] blues = new byte[size];
colorModel.getReds(reds);
colorModel.getGreens(greens);
colorModel.getBlues(blues);
RGB[] rgbs = new RGB[size];
for (int i = 0; i < rgbs.length; i++) {
rgbs[i] = new RGB(reds[i] & 0xFF, greens[i] & 0xFF, blues[i] & 0xFF);
}
PaletteData palette = new PaletteData(rgbs);
ImageData data =
new ImageData(
bufferedImage.getWidth(),
bufferedImage.getHeight(),
colorModel.getPixelSize(),
palette);
data.transparentPixel = colorModel.getTransparentPixel();
WritableRaster raster = bufferedImage.getRaster();
int[] pixelArray = new int[1];
for (int y = 0; y < data.height; y++) {
for (int x = 0; x < data.width; x++) {
raster.getPixel(x, y, pixelArray);
data.setPixel(x, y, pixelArray[0]);
}
}
return data;
}
return null;
}
private ImageData getDownImageData() {
ImageData imageData = getEmptyImageData();
int numTransparentPixels = 0;
for (int row = 0; row < height; ++row) {
for (int col = numTransparentPixels; col < width / 2; ++col) {
imageData.setPixel(col, row, 1);
imageData.setPixel(width - col - 1, row, 1);
}
++numTransparentPixels;
}
return imageData;
}
private static void setBrightness() {
if (image.isDisposed()) {
return;
}
ImageData imageData = image.getImageData();
for (int x = 0; x < imageData.width; x++) {
for (int y = 0; y < imageData.height; y++) {
RGB rgb = imageData.palette.getRGB(imageData.getPixel(x, y));
float[] hsb = rgb.getHSB();
hsb[2] = hsb[2] + 0.1f;
if (hsb[2] > 1.0f) {
hsb[2] = 1.0f;
}
// hsb[1] = hsb[1] - 0.1f;
// if (hsb[1] < 0.0f) {
// hsb[1] = 0.0f;
// }
RGB newRGB = new RGB(hsb[0], hsb[1], hsb[2]);
int pixel = imageData.palette.getPixel(newRGB);
imageData.setPixel(x, y, pixel);
}
}
image.dispose();
image = new Image(Display.getDefault(), imageData);
imageFigure.setImage(image);
}
private Image createTransparentBackground(int width, int height) {
PaletteData paletteData =
new PaletteData(new RGB[] {new RGB(204, 204, 204), new RGB(255, 255, 255)});
System.out.println("createTransparent width,height (" + width + "," + height + ")");
ImageData imageData = new ImageData(width, height, 8, paletteData);
RGB grayRGB = new RGB(204, 204, 204);
RGB whiteRGB = new RGB(255, 255, 255);
RGB currentColor = null;
int switchColorNum = 0;
for (int x = 0; x < width; x++) {
if (x != 0 && (x % 8) == 0) {
switchColorNum = switchColorNum == 0 ? 1 : 0;
}
for (int y = 0; y < height; y++) {
if (y < 8) {
currentColor = switchColorNum == 0 ? grayRGB : whiteRGB;
} else if ((y % 8) == 0) {
currentColor = currentColor == grayRGB ? whiteRGB : grayRGB;
}
int pixel = paletteData.getPixel(currentColor);
imageData.setPixel(x, y, pixel);
}
}
return new Image(Display.getDefault(), imageData);
}
@Override
public Image process(Image image) {
ImageData oldData = image.getImageData();
ImageData newData = oldData;
int[] pixelData = ImageUtil.getPixelData(oldData); // 保存了所有的像素值,大小是 width * height
// int[] rData = pixelData;
// int[] gData = pixelData;
// int[] bData = pixelData;
// int[][] rgbs = new int[3][pixelData.length];
int[] rgb = new int[3];
int width = oldData.width;
int height = oldData.height;
for (int i = 0; i < height; i++) {
for (int j = 0; j < width; j++) {
rgb = ImageUtil.getRGBFromPixel(pixelData[i * width + j]);
newData.setPixel(j, i, ImageUtil.getPixelFromRGB(oldData, new RGB(0, 0, rgb[2])));
}
}
// for (int i = 0; i < pixelData.length; i++) {
// rgb = ImageUtil.getRGBFromPixel(pixelData[i]);
// newData.setPixel(x, y, pixelValue) = ImageUtil.getPixelFromRGB(oldData,new
// int[]{rgb[0],0,0});
// rData[i] = ImageUtil.getPixelFromRGB(oldData,new int[]{rgb[0],0,0});
// gData[i] = ImageUtil.getPixelFromRGB(oldData,new int[]{0,rgb[1],0});
// bData[i] = ImageUtil.getPixelFromRGB(oldData,new int[]{0,0,rgb[2]});
// }
// ImageUtil.calculateNewDataInRGB(rData, newData);
Image newImage = new Image(Display.getDefault(), newData);
Image newGreyImage = new Image(Display.getDefault(), newImage, SWT.IMAGE_GRAY);
return newGreyImage;
}
/**
* @param height The height of drag handle to generate.
* @param backgroundColor background color to generate drag handle.
* @param embossed if <code>true</code> generated embossed drag handle, otherwise generated
* engraved one.
* @return Drag handle {@link ImageData}.
*/
public ImageData create(int height, HSB backgroundColor, boolean embossed) {
ImageData source = null;
if (embossed) {
source = SharedImages.getImageDescriptor(SharedImages.HANDLE_EMBOSSED).getImageData();
} else {
source = SharedImages.getImageDescriptor(SharedImages.HANDLE).getImageData();
}
ImageData result = new ImageData(source.width, height, source.depth, source.palette);
int offset = (result.height - source.height) / 2;
for (int x = 0; x < result.width; x++) {
for (int y = 0; y < result.height; y++) {
if (y >= offset && y < offset + source.height) {
result.setPixel(x, y, source.getPixel(x, y - offset));
} else {
result.setPixel(x, y, source.transparentPixel);
}
}
}
result.transparentPixel = source.transparentPixel;
List<RGB> newRGBs = new ArrayList<RGB>();
for (RGB each : result.palette.colors) {
try {
HSB hsb = backgroundColor.getCopy();
hsb.brightness = new HSB(each).brightness;
hsb = hsb.mixWith(backgroundColor, 0.7f);
newRGBs.add(hsb.toRGB());
} catch (Exception e) {
e.printStackTrace();
}
}
result.palette.colors = newRGBs.toArray(new RGB[newRGBs.size()]);
return result;
}
public void testModifyData() throws Exception {
ImageData originalData = getImageData(Fixture.IMAGE1);
Image image = ResourceFactory.findImage(originalData);
cache.putImageData(image, originalData);
ImageData copyData1 = cache.getImageData(image);
assertNotSame(originalData, copyData1);
assertEqualsImageData(originalData, copyData1);
// modify original data
originalData.setPixel(0, 0, 23);
ImageData copyData2 = cache.getImageData(image);
assertNotSame(copyData1, copyData2);
assertEqualsImageData(copyData1, copyData2);
}
public Image overlay(Image buttomImage, Image topImage) {
ImageData topData = topImage.getImageData();
ImageData bottomData = buttomImage.getImageData();
int zeroX = (bottomData.width - topData.width) / 2;
int zeroY = (bottomData.height - topData.height) / 2;
for (int y = 0; y < topData.height; y++) {
for (int x = 0; x < topData.width; x++) {
bottomData.setPixel(zeroX + x, zeroY + y, topData.getPixel(x, y));
}
}
return new Image(Display.getCurrent(), bottomData);
}
private Image buildContentAreaPreview() {
if (mContentAreaImage != null) {
mContentAreaImage.dispose();
}
Rectangle rect = mNinePatchedImage.getContentArea();
int yLen = rect.y + rect.height;
for (int y = rect.y; y < yLen; y++) {
int xLen = rect.x + rect.width;
for (int x = rect.x; x < xLen; x++) {
mContentAreaImageData.setPixel(x, y, PADDING_COLOR);
mContentAreaImageData.setAlpha(x, y, PADDING_COLOR_ALPHA);
}
}
return new Image(AdtPlugin.getDisplay(), mContentAreaImageData);
}
/**
* Extract image from bounds.
*
* @param baseImageData the base image data
* @param r the entity bounds
* @return the image data
*/
public static ImageData extractImageFromBounds(ImageData baseImageData, Rectangle r) {
final ImageData id =
new ImageData(r.width, r.height, baseImageData.depth, baseImageData.palette);
int ey = r.y;
int ex = r.x;
for (int i = 0; i < r.height; i++) {
int py = ey + i;
for (int j = 0; j < r.width; j++) {
int px = ex + j;
id.setPixel(j, i, baseImageData.getPixel(px, py));
id.setAlpha(j, i, baseImageData.getAlpha(px, py));
}
}
return id;
}
private Image createContentImage(Image image, ContentData data) {
ImageData imageData = image.getImageData();
ImageData imageData2 = new ImageData(imageData.width, imageData.height, 24, imageData.palette);
int endX = data.getStartX() + data.getWidth();
int startX = data.getStartX();
int startY = data.getStartY();
int endY = data.getStartY() + data.getHeight();
int pixel = imageData.palette.getPixel(new RGB(255, 255, 0));
for (int x = 0; x < imageData2.width; x++) {
for (int y = 0; y < imageData2.height; y++) {
if ((startX <= x && endX >= x) && (startY <= y && endY >= y)) {
imageData2.setPixel(x, y, pixel);
imageData2.setAlpha(x, y, 150);
}
}
}
return new Image(Display.getDefault(), imageData2);
}
public ImageData getImageData(BufferedImage bufferedImage) {
DirectColorModel colorModel = (DirectColorModel) bufferedImage.getColorModel();
PaletteData palette =
new PaletteData(
colorModel.getRedMask(), colorModel.getGreenMask(), colorModel.getBlueMask());
ImageData data =
new ImageData(
bufferedImage.getWidth(),
bufferedImage.getHeight(),
colorModel.getPixelSize(),
palette);
WritableRaster raster = bufferedImage.getRaster();
int[] pixelArray = new int[3];
for (int y = 0; y < data.height; y++) {
for (int x = 0; x < data.width; x++) {
raster.getPixel(x, y, pixelArray);
int pixel = palette.getPixel(new RGB(pixelArray[0], pixelArray[1], pixelArray[2]));
data.setPixel(x, y, pixel);
}
}
return data;
}
public static Image getPrintImage(Image image, Color bgColor) {
Image newImage = (Image) iconCashe.get(image);
if (newImage == null) {
ImageData imageData = image.getImageData();
ImageData imgData = (ImageData) imageData.clone();
ImageData mask = imgData.getTransparencyMask();
int bgPixelValue = imgData.palette.getPixel(bgColor.getRGB());
for (int x = 0; x < mask.width; x++) {
for (int y = 0; y < mask.height; y++) {
int pixelValue = mask.getPixel(x, y);
if (pixelValue == 0) {
imgData.setPixel(x, y, bgPixelValue);
}
}
}
imgData.maskData = null;
newImage = new Image(null, imgData);
iconCashe.put(image, newImage);
}
return newImage;
}
public ImageData image(BufferedImage image) {
if (image.getColorModel() instanceof DirectColorModel) {
DirectColorModel cmodel = (DirectColorModel) image.getColorModel();
PaletteData palette =
new PaletteData(cmodel.getRedMask(), cmodel.getGreenMask(), cmodel.getBlueMask());
ImageData data =
new ImageData(image.getWidth(), image.getHeight(), cmodel.getPixelSize(), palette);
for (int y = 0; y < data.height; y++) {
for (int x = 0; x < data.width; x++) {
int rgb = image.getRGB(x, y);
int pixel = palette.getPixel(new RGB((rgb >> 16) & 0xFF, (rgb >> 8) & 0xFF, rgb & 0xFF));
data.setPixel(x, y, pixel);
if (cmodel.hasAlpha()) data.setAlpha(x, y, (rgb >> 24) & 0xFF);
}
}
return data;
} else if (image.getColorModel() instanceof IndexColorModel) {
IndexColorModel cmodel = (IndexColorModel) image.getColorModel();
int size = cmodel.getMapSize();
byte[] reds = new byte[size];
byte[] greens = new byte[size];
byte[] blues = new byte[size];
cmodel.getReds(reds);
cmodel.getGreens(greens);
cmodel.getBlues(blues);
RGB[] rgbs = new RGB[size];
for (int ii = 0; ii < rgbs.length; ii++) {
rgbs[ii] = new RGB(reds[ii] & 0xFF, greens[ii] & 0xFF, blues[ii] & 0xFF);
}
PaletteData palette = new PaletteData(rgbs);
ImageData data =
new ImageData(image.getWidth(), image.getHeight(), cmodel.getPixelSize(), palette);
data.transparentPixel = cmodel.getTransparentPixel();
WritableRaster raster = image.getRaster();
int[] pixelArray = new int[1];
for (int y = 0; y < data.height; y++) {
for (int x = 0; x < data.width; x++) {
raster.getPixel(x, y, pixelArray);
data.setPixel(x, y, pixelArray[0]);
}
}
return data;
} else if (image.getColorModel() instanceof ComponentColorModel) {
ComponentColorModel cmodel = (ComponentColorModel) image.getColorModel();
PaletteData palette = new PaletteData(0x0000FF, 0x00FF00, 0xFF0000); // BGR
ImageData data = new ImageData(image.getWidth(), image.getHeight(), 24, palette);
if (cmodel.hasAlpha()) data.alphaData = new byte[image.getWidth() * image.getHeight()];
WritableRaster raster = image.getRaster();
int[] pixelArray = new int[4];
for (int y = 0; y < data.height; y++) {
for (int x = 0; x < data.width; x++) {
raster.getPixel(x, y, pixelArray);
data.setPixel(x, y, (pixelArray[2] << 16) | (pixelArray[1] << 8) | (pixelArray[0]));
if (data.alphaData != null) data.alphaData[y * data.width + x] = (byte) pixelArray[3];
}
}
return data;
}
return null;
}
@Override
public Image run(Image input, int imageType) {
ImageData inData = input.getImageData(); // Die echten Bilddaten sind hier drin
// RGB zu YUV Umwandlungsmatrix
// double[] linear_conversion = {
// 0.2126, 0.7152, 0.0722,
// -0.09991, -0.33609, 0.436,
// 0.615, -0.55861, -0.05639
// };
double[] linear_conversion = {0.299, 0.587, 0.114, -0.147, -0.289, 0.436, 0.615, -0.515, -0.1};
Matrix m = new Matrix(3, 3, linear_conversion);
// YUV zu RGB Umwandlungmatrix (das Inverse)
// double[] inv_linear_conversion = {
// 1.0000, 0.0000, 1.28033,
// 1.0000, -0.21482, -0.38059,
// 1.0000, 2.12798, -0.0005
// };
double[] inv_linear_conversion = {
1.0000, 0.0000, 1.1398, 1.0000, -0.3946, -0.5805, 1.0000, 2.0320, -0.0005
};
Matrix minv = new Matrix(3, 3, inv_linear_conversion);
for (int v = 0; v < inData.height; v++) {
for (int u = 0; u < inData.width; u++) {
int pixel = inData.getPixel(u, v);
RGB rgb = inData.palette.getRGB(pixel);
// Variante mit Farbwerte U und V von YUV auf 0 setzen
Vector r = new Vector(rgb.red, rgb.green, rgb.blue);
double[] y = m.times(r).getV();
y[2] = 0;
y[1] = 0;
r = minv.times(new Vector(y));
rgb.red = (int) r.x(1);
rgb.green = (int) r.x(2);
rgb.blue = (int) r.x(3);
if (rgb.red < 0) rgb.red = 0;
else if (rgb.red > 255) rgb.red = 255;
if (rgb.green < 0) rgb.green = 0;
else if (rgb.green > 255) rgb.green = 255;
if (rgb.blue < 0) rgb.blue = 0;
else if (rgb.blue > 255) rgb.blue = 255;
// Variante mit der Sättigung auf 0 gesetzt (schlechter)
// float[] hsb = inData.palette.getRGB(pixel).getHSB();
//
// hsb[1] = 0; //Sättigung auf 0 setzen
//
// Color c = new Color(Color.HSBtoRGB(hsb[0],hsb[1],hsb[2]));
// RGB rgb = new RGB(0,0,0);
// rgb.red = c.getRed();
// rgb.green = c.getGreen();
// rgb.blue = c.getBlue();
inData.setPixel(u, v, inData.palette.getPixel(rgb));
}
}
return new Image(input.getDevice(), inData);
}
private void hilbertWalk(ImageData id, InputStream pixData, int order, int x, int y, int dir)
throws IOException {
if (x >= id.width || y >= id.height) {
return;
} else if (order == 0) {
try {
int p = pixData.read();
if (p >= 0) {
// flip along x=y axis; assume width == height
id.setPixel(y, x, p);
/* Skanky; use an otherwise-unused ImageData field
* to keep track of the max x,y used. Note that x and y are inverted.
*/
if (y > id.x) {
id.x = y;
}
if (x > id.y) {
id.y = x;
}
}
// xxx just give up; don't bother walking the rest of the image
} catch (IllegalArgumentException ex) {
System.out.println(
"bad pixels: order "
+ order
+ ", dir "
+ dir
+ ", w "
+ id.width
+ ", h "
+ id.height
+ ", x "
+ x
+ ", y "
+ y);
throw ex;
}
} else {
order--;
int delta = 1 << order;
int nextX = x + delta;
int nextY = y + delta;
switch (dir) {
case HILBERT_DIR_E:
hilbertWalk(id, pixData, order, x, y, HILBERT_DIR_N);
hilbertWalk(id, pixData, order, x, nextY, HILBERT_DIR_E);
hilbertWalk(id, pixData, order, nextX, nextY, HILBERT_DIR_E);
hilbertWalk(id, pixData, order, nextX, y, HILBERT_DIR_S);
break;
case HILBERT_DIR_N:
hilbertWalk(id, pixData, order, x, y, HILBERT_DIR_E);
hilbertWalk(id, pixData, order, nextX, y, HILBERT_DIR_N);
hilbertWalk(id, pixData, order, nextX, nextY, HILBERT_DIR_N);
hilbertWalk(id, pixData, order, x, nextY, HILBERT_DIR_W);
break;
case HILBERT_DIR_S:
hilbertWalk(id, pixData, order, nextX, nextY, HILBERT_DIR_W);
hilbertWalk(id, pixData, order, x, nextY, HILBERT_DIR_S);
hilbertWalk(id, pixData, order, x, y, HILBERT_DIR_S);
hilbertWalk(id, pixData, order, nextX, y, HILBERT_DIR_E);
break;
case HILBERT_DIR_W:
hilbertWalk(id, pixData, order, nextX, nextY, HILBERT_DIR_S);
hilbertWalk(id, pixData, order, nextX, y, HILBERT_DIR_W);
hilbertWalk(id, pixData, order, x, y, HILBERT_DIR_W);
hilbertWalk(id, pixData, order, x, nextY, HILBERT_DIR_N);
break;
default:
throw new RuntimeException("Unexpected Hilbert direction " + dir);
}
}
}
private int zOrderData(ImageData id, byte pixData[]) {
int maxX = 0;
for (int i = 0; i < pixData.length; i++) {
/* Tread the pixData index as a z-order curve index and
* decompose into Cartesian coordinates.
*/
int x =
(i & 1)
| ((i >>> 2) & 1) << 1
| ((i >>> 4) & 1) << 2
| ((i >>> 6) & 1) << 3
| ((i >>> 8) & 1) << 4
| ((i >>> 10) & 1) << 5
| ((i >>> 12) & 1) << 6
| ((i >>> 14) & 1) << 7
| ((i >>> 16) & 1) << 8
| ((i >>> 18) & 1) << 9
| ((i >>> 20) & 1) << 10
| ((i >>> 22) & 1) << 11
| ((i >>> 24) & 1) << 12
| ((i >>> 26) & 1) << 13
| ((i >>> 28) & 1) << 14
| ((i >>> 30) & 1) << 15;
int y =
((i >>> 1) & 1) << 0
| ((i >>> 3) & 1) << 1
| ((i >>> 5) & 1) << 2
| ((i >>> 7) & 1) << 3
| ((i >>> 9) & 1) << 4
| ((i >>> 11) & 1) << 5
| ((i >>> 13) & 1) << 6
| ((i >>> 15) & 1) << 7
| ((i >>> 17) & 1) << 8
| ((i >>> 19) & 1) << 9
| ((i >>> 21) & 1) << 10
| ((i >>> 23) & 1) << 11
| ((i >>> 25) & 1) << 12
| ((i >>> 27) & 1) << 13
| ((i >>> 29) & 1) << 14
| ((i >>> 31) & 1) << 15;
try {
id.setPixel(x, y, pixData[i]);
if (x > maxX) {
maxX = x;
}
} catch (IllegalArgumentException ex) {
System.out.println(
"bad pixels: i "
+ i
+ ", w "
+ id.width
+ ", h "
+ id.height
+ ", x "
+ x
+ ", y "
+ y);
throw ex;
}
}
return maxX;
}
