public ComplexPoint DoCmplxAdd(ComplexPoint arg) { x += arg.x; y += arg.y; return(this); }
public ComplexPoint GetAbsoluteMathsCoord(ComplexPoint pixelCoord) { ComplexPoint result = new ComplexPoint( (convConstX2 + pixelCoord.x) / convConstX1, (convConstY1 - pixelCoord.y) / convConstY2); return(result); }
public ComplexPoint GetDeltaMathsCoord(ComplexPoint pixelCoord) { ComplexPoint result = new ComplexPoint( pixelCoord.x / convConstX1, pixelCoord.y / convConstY2); return(result); }
public PixelCoord GetPixelCoord(ComplexPoint cmplxPoint) { PixelCoord result = new PixelCoord(); result.xPixel = (int)(convConstX1 * cmplxPoint.x - convConstX2); result.yPixel = (int)(convConstY1 - convConstY2 * cmplxPoint.y); return(result); }
public ScreenPixelManage(Bitmap graphics, ComplexPoint screenBottomLeftCorner, ComplexPoint screenTopRightCorner) { convConstX1 = graphics.Width / (screenTopRightCorner.x - screenBottomLeftCorner.x); convConstX2 = convConstX1 * screenBottomLeftCorner.x; convConstY1 = graphics.Size.Height * (1.0 + screenBottomLeftCorner.y / (screenTopRightCorner.y - screenBottomLeftCorner.y)); convConstY2 = graphics.Size.Height / (screenTopRightCorner.y - screenBottomLeftCorner.y); }
public ComplexPoint DoCmplxSq() { ComplexPoint result = new ComplexPoint(0, 0); result.x = x * x - y * y; result.y = 2 * x * y; return(result); }
public ComplexPoint DoCmplxSqPlusConst(ComplexPoint arg) { ComplexPoint result = new ComplexPoint(0, 0); result.x = x * x - y * y; result.y = 2 * x * y; result.x += arg.x; result.y += arg.y; return(result); }
public Bitmap GetImage(int width, int height, double xMinParam, double xMaxParam, double yMinParam, double yMaxParam, int kParam, double power, int startHue, int endHue, double power2, float light) { int kMax = kParam; int xyPixelStep = 1; double yMin = yMinParam; double yMax = yMaxParam; double xMin = xMinParam; double xMax = xMaxParam; Bitmap bmp = new Bitmap(width, height); int numColours = kMax; ColourTable colourTable = new ColourTable(numColours, power, power2, startHue, endHue, light); int kLast = -1; double modulusSquared; Color color; Color colorLast = Color.Red; ComplexPoint screenBottomLeft = new ComplexPoint(xMinParam, yMinParam); ComplexPoint screenTopRight = new ComplexPoint(xMaxParam, yMaxParam); ScreenPixelManage myPixelManager = new ScreenPixelManage(bmp, screenBottomLeft, screenTopRight); ComplexPoint pixelStep = new ComplexPoint(xyPixelStep, xyPixelStep); ComplexPoint xyStep = myPixelManager.GetDeltaMathsCoord(pixelStep); int yPix = bmp.Height - 1; for (double y = yMinParam; y < yMaxParam; y += xyStep.y) { int xPix = 0; for (double x = xMinParam; x < xMaxParam; x += xyStep.x) { ComplexPoint c = new ComplexPoint(x, y); ComplexPoint zk = new ComplexPoint(0, 0); int k = 0; do { zk = zk.DoCmplxSqPlusConst(c); modulusSquared = zk.DoModulusSq(); k++; }while ((modulusSquared <= 4.0) && (k < kMax)); if (k == kLast) { color = colorLast; } else { color = colourTable.GetColour(k); colorLast = color; } if (k == kMax) { color = Color.Black; } if (xyPixelStep == 1) { if ((xPix < bmp.Width) && (yPix >= 0)) { bmp.SetPixel(xPix, yPix, color); } } else { for (int pX = 0; pX < xyPixelStep; pX++) { for (int pY = 0; pY < xyPixelStep; pY++) { if (((xPix + pX) < bmp.Width) && ((yPix - pY) >= 0)) { bmp.SetPixel(xPix + pX, yPix - pY, color); } } } } xPix += xyPixelStep; } yPix -= xyPixelStep; } return(bmp); }