/// <summary> /// Create Normal Map Texture. /// </summary> /// <param name="img">Reference FloatImage.</param> /// <param name="wm">Texture Wrap Mode.</param> /// <param name="heightWeights">float[4]-> Color Weights.</param> /// <param name="kdu">Kernel U.</param> /// <param name="kdv">Kernel V.</param> /// <returns></returns> public static FloatImage CreateNormalMap(FloatImage img, WrapMode wm, float[] heightWeights, Kernel2 kdu, Kernel2 kdv, ParsePixelEventHandler pixelParseEvent) { int w = (int)img.Width; int h = (int)img.Height; bool canceled = false; FloatImage fimage = new FloatImage(); fimage.Allocate(4, w, h); unsafe { float* alphaChannel = fimage.Channel(3); int x = 0, y = 0; for (uint i = 0; i < w * h; i++) { float r = img.Pixel((uint)x, (uint)y, 0); float g = img.Pixel((uint)x, (uint)y, 1); float b = img.Pixel((uint)x, (uint)y, 2); float a = img.ComponentCount > 3 ? img.Pixel((uint)x, (uint)y, 3) : 255f; float[] color = ColorToVector4(r, g, b, a); alphaChannel[i] = Float4Dot(color, heightWeights); if (!pixelParseEvent()) { canceled = true; break; } x++; if (x >= w) { x = 0; y++; } } float heightScale = 1.0f / 16.0f; // @@ Use a user defined factor. for (y = 0; y < h; y++) { for (x = 0; x < w; x++) { float du = fimage.ApplyKernel(kdu, x, y, 3, wm); float dv = fimage.ApplyKernel(kdv, x, y, 3, wm); float[] n = Float3Normalize(new float[] { du, dv, heightScale }); fimage.SetPixel(0.5f * n[0] + 0.5f, (uint)x, (uint)y, 0); fimage.SetPixel(0.5f * n[1] + 0.5f, (uint)x, (uint)y, 1); fimage.SetPixel(0.5f * n[2] + 0.5f, (uint)x, (uint)y, 2); if (canceled) break; if (!pixelParseEvent()) { canceled = true; break; } } if (canceled) break; } } return fimage; }
private void button1_Click(object sender, EventArgs e) { using (OpenFileDialog dlg = new OpenFileDialog()) { dlg.Filter = "Images (*.jpg;*.png;*.bmp)|*.jpg;*.png;*.bmp"; dlg.Multiselect = false; if (dlg.ShowDialog() == System.Windows.Forms.DialogResult.OK) { using (Bitmap tmp = new Bitmap(dlg.FileName)) { if (fi == null) fi = new FloatImage(tmp); else fi.InitFrom(tmp); UpdateNormalMap(); } } } }
/// <summary> /// Create Normal Map Texture. /// </summary> /// <param name="img">Reference Bitmap.</param> /// <param name="wm">Texture Wrap Mode.</param> /// <param name="heightWeights">float[4]-> Color Weights.</param> /// <param name="filterWeights">float[4]-> Filter Weights.</param> /// <returns></returns> public static FloatImage CreateNormalMap(Bitmap img, WrapMode wm, float[] heightWeights, float[] filterWeights, ParsePixelEventHandler pixelParseEvent) { FloatImage tmp = new FloatImage(); tmp.InitFrom(img); return CreateNormalMap(tmp, wm, heightWeights, filterWeights, pixelParseEvent); }
/// <summary> /// Create a new Instance of FloatImage. /// </summary> /// <param name="reference">FloatImage to Clone.</param> public FloatImage(FloatImage reference) : this() { Allocate((int)reference.ComponentCount, (int)reference.Width, (int)reference.Height); for (int n = 0; n < reference.m_mem.Length; n++) { m_mem[n] = reference.m_mem[n]; } }
/// <summary> /// Create Normal Map Texture. /// </summary> /// <param name="img">Reference FloatImage.</param> /// <param name="wm">Texture Wrap Mode.</param> /// <param name="heightWeights">float[4]-> Color Weights.</param> /// <param name="filterWeights">float[4]-> Filter Weights.</param> /// <returns></returns> public static FloatImage CreateNormalMap(FloatImage img, WrapMode wm, float[] heightWeights, float[] filterWeights, ParsePixelEventHandler pixelParseEvent) { Kernel2 kdu; Kernel2 kdv; kdu = new Kernel2(9); kdu.initBlendedSobel(filterWeights); kdu.normalize(); kdv = new Kernel2(kdu); kdv.transpose(); return CreateNormalMap(img, wm, heightWeights, kdu, kdv, pixelParseEvent); }