public static Kernel createWithDefaultPlugins(String currentVersion) { Kernel kernel = new Kernel(currentVersion); kernel.registerPlugin(TrayPlugin.class); kernel.registerPlugin(DropDaemonPlugin.class); kernel.registerPlugin(SyncPlugin.class); return kernel; }
/** Convolve with a 2D kernel */ public static void convolveHV( Kernel kernel, int[] inPixels, int[] outPixels, int width, int height, boolean alpha, int edgeAction) { int index = 0; float[] matrix = kernel.getKernelData(null); int rows = kernel.getHeight(); int cols = kernel.getWidth(); int rows2 = rows / 2; int cols2 = cols / 2; for (int y = 0; y < height; y++) { for (int x = 0; x < width; x++) { float r = 0, g = 0, b = 0, a = 0; for (int row = -rows2; row <= rows2; row++) { int iy = y + row; int ioffset; if (0 <= iy && iy < height) ioffset = iy * width; else if (edgeAction == CLAMP_EDGES) ioffset = y * width; else if (edgeAction == WRAP_EDGES) ioffset = ((iy + height) % height) * width; else continue; int moffset = cols * (row + rows2) + cols2; for (int col = -cols2; col <= cols2; col++) { float f = matrix[moffset + col]; if (f != 0) { int ix = x + col; if (!(0 <= ix && ix < width)) { if (edgeAction == CLAMP_EDGES) ix = x; else if (edgeAction == WRAP_EDGES) ix = (x + width) % width; else continue; } int rgb = inPixels[ioffset + ix]; a += f * ((rgb >> 24) & 0xff); r += f * ((rgb >> 16) & 0xff); g += f * ((rgb >> 8) & 0xff); b += f * (rgb & 0xff); } } } int ia = alpha ? PixelUtils.clamp((int) (a + 0.5)) : 0xff; int ir = PixelUtils.clamp((int) (r + 0.5)); int ig = PixelUtils.clamp((int) (g + 0.5)); int ib = PixelUtils.clamp((int) (b + 0.5)); outPixels[index++] = (ia << 24) | (ir << 16) | (ig << 8) | ib; } } }
public static void convolve( Kernel kernel, int[] inPixels, int[] outPixels, int width, int height, boolean alpha, int edgeAction) { if (kernel.getHeight() == 1) convolveH(kernel, inPixels, outPixels, width, height, alpha, edgeAction); else if (kernel.getWidth() == 1) convolveV(kernel, inPixels, outPixels, width, height, alpha, edgeAction); else convolveHV(kernel, inPixels, outPixels, width, height, alpha, edgeAction); }
/** Convolve with a kernel consisting of one column */ public static void convolveV( Kernel kernel, int[] inPixels, int[] outPixels, int width, int height, boolean alpha, int edgeAction) { int index = 0; float[] matrix = kernel.getKernelData(null); int rows = kernel.getHeight(); int rows2 = rows / 2; for (int y = 0; y < height; y++) { for (int x = 0; x < width; x++) { float r = 0, g = 0, b = 0, a = 0; for (int row = -rows2; row <= rows2; row++) { int iy = y + row; int ioffset; if (iy < 0) { if (edgeAction == CLAMP_EDGES) ioffset = 0; else if (edgeAction == WRAP_EDGES) ioffset = ((y + height) % height) * width; else ioffset = iy * width; } else if (iy >= height) { if (edgeAction == CLAMP_EDGES) ioffset = (height - 1) * width; else if (edgeAction == WRAP_EDGES) ioffset = ((y + height) % height) * width; else ioffset = iy * width; } else ioffset = iy * width; float f = matrix[row + rows2]; if (f != 0) { int rgb = inPixels[ioffset + x]; a += f * ((rgb >> 24) & 0xff); r += f * ((rgb >> 16) & 0xff); g += f * ((rgb >> 8) & 0xff); b += f * (rgb & 0xff); } } int ia = alpha ? PixelUtils.clamp((int) (a + 0.5)) : 0xff; int ir = PixelUtils.clamp((int) (r + 0.5)); int ig = PixelUtils.clamp((int) (g + 0.5)); int ib = PixelUtils.clamp((int) (b + 0.5)); outPixels[index++] = (ia << 24) | (ir << 16) | (ig << 8) | ib; } } }
/** Convolve with a kernel consisting of one row */ public static void convolveH( Kernel kernel, int[] inPixels, int[] outPixels, int width, int height, boolean alpha, int edgeAction) { int index = 0; float[] matrix = kernel.getKernelData(null); int cols = kernel.getWidth(); int cols2 = cols / 2; for (int y = 0; y < height; y++) { int ioffset = y * width; for (int x = 0; x < width; x++) { float r = 0, g = 0, b = 0, a = 0; int moffset = cols2; for (int col = -cols2; col <= cols2; col++) { float f = matrix[moffset + col]; if (f != 0) { int ix = x + col; if (ix < 0) { if (edgeAction == CLAMP_EDGES) ix = 0; else if (edgeAction == WRAP_EDGES) ix = (x + width) % width; } else if (ix >= width) { if (edgeAction == CLAMP_EDGES) ix = width - 1; else if (edgeAction == WRAP_EDGES) ix = (x + width) % width; } int rgb = inPixels[ioffset + ix]; a += f * ((rgb >> 24) & 0xff); r += f * ((rgb >> 16) & 0xff); g += f * ((rgb >> 8) & 0xff); b += f * (rgb & 0xff); } } int ia = alpha ? PixelUtils.clamp((int) (a + 0.5)) : 0xff; int ir = PixelUtils.clamp((int) (r + 0.5)); int ig = PixelUtils.clamp((int) (g + 0.5)); int ib = PixelUtils.clamp((int) (b + 0.5)); outPixels[index++] = (ia << 24) | (ir << 16) | (ig << 8) | ib; } } }