/// <summary> /// Subdivide this QuadTree and move it's children into the appropriate Quads where applicable. /// </summary> private void Subdivide() { // We've reached capacity, subdivide... PrecisePoint size = new PrecisePoint(rect.Width / 2.0d, rect.Height / 2.0d); PrecisePoint mid = new PrecisePoint(rect.X + size.X, rect.Y + size.Y); childTL = new QuadTreeNode <T>(this, new PreciseRectangle(rect.Left, rect.Top, size.X, size.Y)); childTR = new QuadTreeNode <T>(this, new PreciseRectangle(mid.X, rect.Top, size.X, size.Y)); childBL = new QuadTreeNode <T>(this, new PreciseRectangle(rect.Left, mid.Y, size.X, size.Y)); childBR = new QuadTreeNode <T>(this, new PreciseRectangle(mid.X, mid.Y, size.X, size.Y)); // If they're completely contained by the quad, bump objects down for (int i = 0; i < objects.Count; i++) { QuadTreeNode <T> destTree = GetDestinationTree(objects[i]); if (destTree != this) { // Insert to the appropriate tree, remove the object, and back up one in the loop destTree.Insert(objects[i]); Remove(objects[i]); i--; } } }
private void reScale(PrecisePoint scale) { if (scale.X != _scale.X || scale.Y != _scale.Y) { LocalTransform.Scale((float)scale.X, (float)scale.Y, (float)_offset.X, (float)_offset.Y); _scale.X = scale.X; _scale.Y = scale.Y; } }
private PrecisePoint unScale() { PrecisePoint oldScale = new PrecisePoint(_scale.X, _scale.Y); if (_scale.X != 1.0d || _scale.Y != 1.0d) { LocalTransform.Scale((float)(1.0d / _scale.X), (float)(1.0d / _scale.Y), (float)_offset.X, (float)_offset.Y); _scale.X = 1.0d; _scale.Y = 1.0d; } return(oldScale); }
protected override void OnUpdate(double deltaTime) { if (inputEngine.Keyboard.IsAnyKeyDown(leftKeys)) { sprite.X -= sprite.Speed * deltaTime; sprite.Rotation -= sprite.Speed * deltaTime; } if (inputEngine.Keyboard.IsAnyKeyDown(rightKeys)) { sprite.X += sprite.Speed * deltaTime; sprite.Rotation += sprite.Speed * deltaTime; } if (inputEngine.Controllers.NumControllers > 0) { PrecisePoint left = inputEngine.Controllers.GetStickPosition(0, XboxStickSide.Left); if (left.Length > inputEngine.Controllers.StickDeadZone) { sprite.X += left.X * sprite.Speed * deltaTime; sprite.Rotation += left.X * sprite.Speed * deltaTime; } } }
private void LineTool(int x1, int y1, int x2, int y2, Color c) { if (!(x1 < 0 || x1 > Pixels[0].Length - 1 || y1 < 0 || y1 > Pixels[0].Length - 1)) Pixels[x1][y1].Color = c; if (!(x2 < 0 || x2 > Pixels[0].Length - 1 || y2 < 0 || y2 > Pixels[0].Length - 1)) Pixels[x2][y2].Color = c; PrecisePoint slope = new PrecisePoint() { x = -1, y = -1 }; int xdistance = Math.Abs(x2 - x1); int ydistance = Math.Abs(y2 - y1); // Right or left quadrants if (xdistance >= ydistance && xdistance != 0) { slope.x = Math.Sign(x2 - x1); slope.y = (double)(y2 - y1) / (double)Math.Abs(x2 - x1); double y = y1 + 0.5 + slope.y; for (int x = x1 + (int)slope.x; (x2 - x1 > 0 && x < x2) || (x2 - x1 < 0 && x > x2); x += (int)slope.x) { if (!(x < 0 || x > Pixels.Length - 1 || (int)y < 0 || (int)y > Pixels[0].Length - 1)) Pixels[x][(int)y].Color = c; y += slope.y; } } // Top or bottom quadrants else { slope.y = Math.Sign(y2 - y1); slope.x = (double)(x2 - x1) / (double)Math.Abs(y2 - y1); double x = x1 + 0.5 + slope.x; for (int y = y1 + (int)slope.y; (y2 - y1 > 0 && y < y2) || (y2 - y1 < 0 && y > y2); y += (int)slope.y) { if (!((int)x < 0 || (int)x > Pixels.Length - 1 || y < 0 || y > Pixels[0].Length - 1)) Pixels[(int)x][y].Color = c; x += slope.x; } } }
//constructor public StickEventArgs(XboxStickCode code, PrecisePoint position) { _code = code; _position = position; }