// copy constructor public RectangleR(RectangleR r) { _x = r.X; _y = r.Y; _width = r.Width; _height = r.Height; }
// scales the points so that they form the size given. does not restore the // origin of the box. // adapted from ScaleTo() to smartly handle 1D scaling -- ie, if a gesture is 1D, // scale to the longer dimension only, or we warp our gestures too much // Lisa 12/28/2007 public static List <PointR> ScaleTo1D(List <PointR> points, SizeR sz) { List <PointR> newPoints = new List <PointR>(points.Count); RectangleR r = FindBox(points); // scale both by same factor double scaleFactor = 0.0; if (r.Width > r.Height) { scaleFactor = r.Width; } else { scaleFactor = r.Height; } for (int i = 0; i < points.Count; i++) { PointR p = (PointR)points[i]; if (r.Width != 0d) { p.X *= (sz.Width / scaleFactor); } if (r.Height != 0d) { p.Y *= (sz.Height / scaleFactor); } newPoints.Add(p); } return(newPoints); }
public override bool Equals(object obj) { if (obj is RectangleR) { RectangleR r = (RectangleR)obj; return(X == r.X && Y == r.Y && Width == r.Width && Height == r.Height); } return(false); }
// scales the points so that the length of their shorter side // matches the length of the shorter side of the given box. // thus, both dimensions are warped proportionally, rather than // independently, like in the function ScaleTo. public static List <PointR> ScaleToMin(List <PointR> points, RectangleR box) { List <PointR> newPoints = new List <PointR>(points.Count); RectangleR r = FindBox(points); for (int i = 0; i < points.Count; i++) { PointR p = (PointR)points[i]; p.X *= (box.MinSide / r.MinSide); p.Y *= (box.MinSide / r.MinSide); newPoints.Add(p); } return(newPoints); }
// translates the points so that the upper-left corner of their bounding box lies at 'toPt' public static List <PointR> TranslateBBoxTo(List <PointR> points, PointR toPt) { List <PointR> newPoints = new List <PointR>(points.Count); RectangleR r = Utils.FindBox(points); for (int i = 0; i < points.Count; i++) { PointR p = (PointR)points[i]; p.X += (toPt.X - r.X); p.Y += (toPt.Y - r.Y); newPoints.Add(p); } return(newPoints); }
// scales by the percentages contained in the 'sz' parameter. values of 1.0 would result in the // identity scale (that is, no change). public static List <PointR> ScaleBy(List <PointR> points, SizeR sz) { List <PointR> newPoints = new List <PointR>(points.Count); RectangleR r = FindBox(points); for (int i = 0; i < points.Count; i++) { PointR p = (PointR)points[i]; p.X *= sz.Width; p.Y *= sz.Height; newPoints.Add(p); } return(newPoints); }
public static List <PointR> ScaleByDimension(List <PointR> points, double oneDRatio, SizeR size) // scales properly based on 1D or 2D { RectangleR B = FindBox(points); bool uniformly = false; // Lisa 8/16/2009; if we're not testing for 1D (i.e., when emulating $1), never scale uniformly if (NDollarParameters.Instance.TestFor1D) { uniformly = (Math.Min(B.Width / B.Height, B.Height / B.Width) <= oneDRatio); // 1D or 2D gesture test } List <PointR> newpoints = new List <PointR>(points.Count); for (int i = 0; i < points.Count; i++) { double qx = uniformly ? ((PointR)points[i]).X * (size.Width / Math.Max(B.Width, B.Height)) : ((PointR)points[i]).X * (size.Width / B.Width); double qy = uniformly ? ((PointR)points[i]).Y * (size.Height / Math.Max(B.Width, B.Height)) : ((PointR)points[i]).Y * (size.Height / B.Height); newpoints.Add(new PointR(qx, qy)); } return(newpoints); }
// determine if this gesture is 1D or 2D based on ratio of "oriented" (rotated to 0) // bounding box compared to a threshold (determined empirically) // Lisa 1/2/2008 public static bool Is1DGesture(List <PointR> rawPts) //, String name) { // make a copy of the pts List <PointR> pts = new List <PointR>(rawPts); // rotate points to 0 (temporarily!) double radians = Utils.AngleInRadians(Utils.Centroid(pts), (PointR)pts[0], false); pts = Utils.RotateByRadians(pts, -radians); // undo angle // determine ratio of height to width to see which side is shorter RectangleR r = Utils.FindBox(pts); // check for divide by zero if ((r.Width == 0) || (r.Height == 0)) { return(true); } else if ((r.Width / r.Height) < (r.Height / r.Width)) // width is shorter side { if ((r.Width / r.Height) < GeometricRecognizer._1DThreshold) { return(true); } else { return(false); } } else // else height is shorter side { if ((r.Height / r.Width) < GeometricRecognizer._1DThreshold) { return(true); } else { return(false); } } }
// scales the points so that they form the size given. does not restore the // origin of the box. public static List <PointR> ScaleTo(List <PointR> points, SizeR sz) { List <PointR> newPoints = new List <PointR>(points.Count); RectangleR r = FindBox(points); for (int i = 0; i < points.Count; i++) { PointR p = (PointR)points[i]; if (r.Width != 0d) { p.X *= (sz.Width / r.Width); } if (r.Height != 0d) { p.Y *= (sz.Height / r.Height); } newPoints.Add(p); } return(newPoints); }