Ejemplo n.º 1
0
        public void Intersect()
        {
            Assert.AreEqual(diagD.Start, diagD.Intersect(diagD.Start));
            Assert.AreEqual(diagD.End, diagD.Intersect(diagD.End));

            Assert.AreEqual(diagF.Start, diagF.Intersect(diagF.Start));
            Assert.AreEqual(diagF.End, diagF.Intersect(diagF.End));

            Assert.AreEqual((PointD)diagI.Start, diagI.Intersect(diagI.Start));
            Assert.AreEqual((PointD)diagI.End, diagI.Intersect(diagI.End));

            for (int d = -2; d <= 4; d++)
            {
                Assert.AreEqual(new PointD(d, d), diagD.Intersect(new PointD(d, d)));
                Assert.AreEqual(new PointD(d, d), diagD.Intersect(new PointD(d - 1, d + 1)));
                Assert.AreEqual(new PointD(d, d), diagD.Intersect(new PointD(d + 1, d - 1)));

                Assert.AreEqual(new PointF(d, d), diagF.Intersect(new PointF(d, d)));
                Assert.AreEqual(new PointF(d, d), diagF.Intersect(new PointF(d - 1, d + 1)));
                Assert.AreEqual(new PointF(d, d), diagF.Intersect(new PointF(d + 1, d - 1)));

                Assert.AreEqual(new PointD(d, d), diagI.Intersect(new PointI(d, d)));
                Assert.AreEqual(new PointD(d, d), diagI.Intersect(new PointI(d - 1, d + 1)));
                Assert.AreEqual(new PointD(d, d), diagI.Intersect(new PointI(d + 1, d - 1)));
            }
        }
Ejemplo n.º 2
0
        private void GeometryBasicTest()
        {
            Stopwatch timer = new Stopwatch();
            long      polyTicks = 0, polyEpsilonTicks = 0, lineTicks = 0, lineEpsilonTicks = 0;

            const double epsilon = 1e-10;
            const int    outerLoop = 10000, innerLoop = 1000;
            const int    iterations = outerLoop * innerLoop;

            for (int i = 0; i < outerLoop; i++)
            {
                PointD[] polygon = GeoAlgorithms.RandomPolygon(0, 0, 1000, 1000);
                LineD    line    = GeoAlgorithms.RandomLine(0, 0, 1000, 1000);
                LineD    line2   = GeoAlgorithms.RandomLine(0, 0, 1000, 1000);
                PointD   q       = GeoAlgorithms.RandomPoint(0, 0, 1000, 1000);

                // trigger JIT compilation
                if (i == 0)
                {
                    GeoAlgorithms.PointInPolygon(q, polygon);
                    GeoAlgorithms.PointInPolygon(q, polygon, epsilon);
                    line.Intersect(line2);
                    line.Intersect(line2, epsilon);
                }

                timer.Restart();
                for (int j = 0; j < innerLoop; j++)
                {
                    line.Intersect(line2);
                }
                timer.Stop();
                lineTicks += timer.ElapsedTicks;

                timer.Restart();
                for (int j = 0; j < innerLoop; j++)
                {
                    line.Intersect(line2, epsilon);
                }
                timer.Stop();
                lineEpsilonTicks += timer.ElapsedTicks;

                timer.Restart();
                for (int j = 0; j < innerLoop; j++)
                {
                    GeoAlgorithms.PointInPolygon(q, polygon);
                }
                timer.Stop();
                polyTicks += timer.ElapsedTicks;

                timer.Restart();
                for (int j = 0; j < innerLoop; j++)
                {
                    GeoAlgorithms.PointInPolygon(q, polygon, epsilon);
                }
                timer.Stop();
                polyEpsilonTicks += timer.ElapsedTicks;
            }

            Output("                  ");
            Output(String.Format("{0,12}", "Exact"));
            Output(String.Format("{0,12}", "Epsilon"));

            Output("\nLine Intersection ");
            Output(String.Format("{0,12:N2}", 1000 * AverageMicrosecs(lineTicks, iterations)));
            Output(String.Format("{0,12:N2}", 1000 * AverageMicrosecs(lineEpsilonTicks, iterations)));

            Output("\nPoint in Polygon  ");
            Output(String.Format("{0,12:N2}", 1000 * AverageMicrosecs(polyTicks, iterations)));
            Output(String.Format("{0,12:N2}", 1000 * AverageMicrosecs(polyEpsilonTicks, iterations)));

            Output("\nTimes are nsec averages for exact and epsilon comparisons.\n");
            Output("Point in Polygon uses random polygons with 3-60 vertices.\n");
        }