예제 #1
0
        protected override Rectangle DrawShape(Rectangle r, Layer l)
        {
            Path path = PintaCore.Layers.SelectionPath;

            using (Context g = new Context (l.Surface))
                PintaCore.Layers.SelectionPath = g.CreateEllipsePath (r);

            (path as IDisposable).Dispose ();

            return r;
        }
예제 #2
0
        protected override Rectangle DrawShape(Rectangle r, Layer l)
        {
            Document doc = PintaCore.Workspace.ActiveDocument;

            Path path = doc.SelectionPath;

            using (Context g = new Context (l.Surface))
                doc.SelectionPath = g.CreateEllipsePath (r);

            (path as IDisposable).Dispose ();

            return r;
        }
예제 #3
0
        /// <summary>
        /// Create an elliptical Selection from a bounding Rectangle.
        /// </summary>
        /// <param name="selectionSurface">The selection surface to use for calculating the elliptical Path.</param>
        /// <param name="r">The bounding Rectangle surrounding the ellipse.</param>
        public void CreateEllipseSelection(Surface selectionSurface, Rectangle r)
        {
            using (Context g = new Context(selectionSurface))
            {
                SelectionPath = g.CreateEllipsePath(r);
            }

            //These values were calculated in the static CreateEllipsePath method
            //in Pinta.Core.CairoExtensions, so they were used here as well.
            double rx = r.Width / 2; //1/2 of the bounding Rectangle Width.
            double ry = r.Height / 2; //1/2 of the bounding Rectangle Height.
            double cx = r.X + rx; //The middle of the bounding Rectangle, horizontally speaking.
            double cy = r.Y + ry; //The middle of the bounding Rectangle, vertically speaking.
            double c1 = 0.552285; //A constant factor used to give the least approximation error.

            //Clear the Selection Polygons collection to start from a clean slate.
            SelectionPolygons.Clear();

            //Calculate an appropriate interval at which to increment t based on
            //the bounding Rectangle's Width and Height properties. The increment
            //for t determines how many intermediate Points to calculate for the
            //ellipse. For each curve, t will go from tInterval to 1. The lower
            //the value of tInterval, the higher number of intermediate Points
            //that will be calculated and stored into the Polygon collection.
            double tInterval = 1d / (r.Width + r.Height);

            //Create a new Polygon to store the upcoming ellipse.
            List<IntPoint> newPolygon = new List<IntPoint>();

            //These values were also calculated in the CreateEllipsePath method. This is where
            //the ellipse's 4 curves (and all of the Points on each curve) are determined.
            //Note: each curve is consecutive to the previous one, but they *do not* overlap,
            //other than the first/last Point (which is how it is supposed to work).

            //The starting Point.
            newPolygon.Add(new IntPoint((long)(cx + rx), (long)cy));

            //Curve 1.
            newPolygon.AddRange(CalculateCurvePoints(tInterval,
                cx + rx, cy,
                cx + rx, cy - c1 * ry,
                cx + c1 * rx, cy - ry,
                cx, cy - ry));

            //Curve 2.
            newPolygon.AddRange(CalculateCurvePoints(tInterval,
                cx, cy - ry,
                cx - c1 * rx, cy - ry,
                cx - rx, cy - c1 * ry,
                cx - rx, cy));

            //Curve 3.
            newPolygon.AddRange(CalculateCurvePoints(tInterval,
                cx - rx, cy,
                cx - rx, cy + c1 * ry,
                cx - c1 * rx, cy + ry,
                cx, cy + ry));

            //Curve 4.
            newPolygon.AddRange(CalculateCurvePoints(tInterval,
                cx, cy + ry,
                cx + c1 * rx, cy + ry,
                cx + rx, cy + c1 * ry,
                cx + rx, cy));

            //Add the newly calculated elliptical Polygon.
            SelectionPolygons.Add(newPolygon);
        }