/// <summary> /// Constructs a new Integral image from a Bitmap image. /// </summary> /// public static SIntegralImage FromBitmap(Bitmap image, int channel, bool computeTilted) { // check image format if (!(image.PixelFormat == PixelFormat.Format8bppIndexed || image.PixelFormat == PixelFormat.Format24bppRgb || image.PixelFormat == PixelFormat.Format32bppArgb)) { throw new UnsupportedImageFormatException("Only grayscale and 24 bpp RGB images are supported."); } // lock source image BitmapData imageData = image.LockBits( new Rectangle(0, 0, image.Width, image.Height), ImageLockMode.ReadOnly, image.PixelFormat); // process the image SIntegralImage im = FromBitmap(imageData, channel, computeTilted); // unlock image image.UnlockBits(imageData); return(im); }
/// <summary> /// Constructs a new Integral image from an unmanaged image. /// </summary> /// public static SIntegralImage FromBitmap(UnmanagedImage image, int channel, bool computeTilted) { // check image format if (!(image.PixelFormat == PixelFormat.Format8bppIndexed || image.PixelFormat == PixelFormat.Format24bppRgb || image.PixelFormat == PixelFormat.Format32bppArgb)) { throw new UnsupportedImageFormatException("Only grayscale and 24 bpp RGB images are supported."); } int pixelSize = System.Drawing.Image.GetPixelFormatSize(image.PixelFormat) / 8; // get source image size int width = image.Width; int height = image.Height; int stride = image.Stride; int offset = stride - width * pixelSize; // create integral image SIntegralImage im = new SIntegralImage(width, height, computeTilted); int * nSum = im.nSum, sSum = im.sSum, tSum = im.tSum; int nWidth = im.nWidth, nHeight = im.nHeight; int tWidth = im.tWidth, tHeight = im.tHeight; if (image.PixelFormat == PixelFormat.Format8bppIndexed && channel != 0) { throw new ArgumentException("Only the first channel is available for 8 bpp images.", "channel"); } byte *srcStart = (byte *)image.ImageData.ToPointer() + channel; // do the job byte *src = srcStart; // for each line for (int y = 1; y <= height; y++) { int yy = nWidth * (y); int y1 = nWidth * (y - 1); // for each pixel for (int x = 1; x <= width; x++, src += pixelSize) { int p1 = *src; int p2 = p1 * p1; int r = yy + (x); int a = yy + (x - 1); int b = y1 + (x); int c = y1 + (x - 1); nSum[r] = p1 + nSum[a] + nSum[b] - nSum[c]; sSum[r] = p2 + sSum[a] + sSum[b] - sSum[c]; } src += offset; } if (computeTilted) { src = srcStart; // Left-to-right, top-to-bottom pass for (int y = 1; y <= height; y++, src += offset) { int yy = tWidth * (y); int y1 = tWidth * (y - 1); for (int x = 2; x < width + 2; x++, src += pixelSize) { int a = y1 + (x - 1); int b = yy + (x - 1); int c = y1 + (x - 2); int r = yy + (x); tSum[r] = *src + tSum[a] + tSum[b] - tSum[c]; } } { int yy = tWidth * (height); int y1 = tWidth * (height + 1); for (int x = 2; x < width + 2; x++, src += pixelSize) { int a = yy + (x - 1); int c = yy + (x - 2); int b = y1 + (x - 1); int r = y1 + (x); tSum[r] = tSum[a] + tSum[b] - tSum[c]; } } // Right-to-left, bottom-to-top pass for (int y = height; y >= 0; y--) { int yy = tWidth * (y); int y1 = tWidth * (y + 1); for (int x = width + 1; x >= 1; x--) { int r = yy + (x); int b = y1 + (x - 1); tSum[r] += tSum[b]; } } for (int y = height + 1; y >= 0; y--) { int yy = tWidth * (y); for (int x = width + 1; x >= 2; x--) { int r = yy + (x); int b = yy + (x - 2); tSum[r] -= tSum[b]; } } } return(im); }