Exemplo n.º 1
0
        public void VectorMath_DetermineQuadrant()
        {
            uint quadrant;

            // 1st quadrant, on the same line to the left, angle = 0
            quadrant = VectorMath.DetermineQuadrant(new Point(10, 10), new Point(9, 10));
            Assert.AreEqual((uint)1, quadrant);

            // 1st quadrant, angle 45 degree (PI/4)
            quadrant = VectorMath.DetermineQuadrant(new Point(10, 10), new Point(7, 7));
            Assert.AreEqual((uint)1, quadrant);

            // 2nd quadrant, angle 90 degree (PI/2)
            quadrant = VectorMath.DetermineQuadrant(new Point(10, 10), new Point(10, 8));
            Assert.AreEqual((uint)2, quadrant);

            // 2nd quadrant, angle 135 degree (3/4 PI)
            quadrant = VectorMath.DetermineQuadrant(new Point(10, 10), new Point(11, 9));
            Assert.AreEqual((uint)2, quadrant);

            // 3rd quadrant, angle 180 degree (PI)
            quadrant = VectorMath.DetermineQuadrant(new Point(10, 10), new Point(11, 10));
            Assert.AreEqual((uint)3, quadrant);

            // 3rd quadrant, angle 225 degree (5/4 PI)
            quadrant = VectorMath.DetermineQuadrant(new Point(10, 10), new Point(12, 12));
            Assert.AreEqual((uint)3, quadrant);

            // 3rd quadrant...
            quadrant = VectorMath.DetermineQuadrant(new Point(10, 10), new Point(1100, 5000));
            Assert.AreEqual((uint)3, quadrant);

            // 4th quadrant, angle 270 degree (3/2 PI)
            quadrant = VectorMath.DetermineQuadrant(new Point(10, 10), new Point(10, 14));
            Assert.AreEqual((uint)4, quadrant);

            // 4th quadrant, angle 315 degree (7/4 PI)
            quadrant = VectorMath.DetermineQuadrant(new Point(10, 10), new Point(9, 11));
            Assert.AreEqual((uint)4, quadrant);
        }
        public void ComputerDriverHelper_FilterCandidatePoints_RemoveUnfavorableDir()
        {
            Point middleGridPoint = new Point(20, 10);

            // routeGridPoints with a valid x+2, y-2 movement in the first quadrant
            IList <Point> routeGridPoints = new List <Point>();
            Point         startPoint      = new Point(5, 10);
            Point         endPoint        = new Point(7, 8);

            routeGridPoints.Add(startPoint);
            routeGridPoints.Add(endPoint);
            uint quadrant = VectorMath.DetermineQuadrant(middleGridPoint, endPoint);

            Assert.AreEqual((uint)1, quadrant);
            bool resultValidity = ComputerDriverHelper.DirectionValid4Quadrant(quadrant, startPoint, endPoint);

            Assert.IsTrue(resultValidity);

            {
                // the regular list of candidates (for a standard car with acceleration = 1)
                // all of which are valid
                IList <Point> candidateGridPoints = new List <Point>();
                candidateGridPoints.Add(new Point(8, 5));
                candidateGridPoints.Add(new Point(8, 6));
                candidateGridPoints.Add(new Point(8, 7));
                candidateGridPoints.Add(new Point(9, 5));
                candidateGridPoints.Add(new Point(9, 6));
                candidateGridPoints.Add(new Point(9, 7));
                candidateGridPoints.Add(new Point(10, 5));
                candidateGridPoints.Add(new Point(10, 6));
                candidateGridPoints.Add(new Point(10, 7));

                IList <Point> filterResult = ComputerDriverHelper.FilterCandidatePoints_RemoveUnfavorableDir(candidateGridPoints, routeGridPoints, middleGridPoint);
                Assert.AreEqual(candidateGridPoints.Count, filterResult.Count);
            }

            {
                IList <Point> candidateGridPoints = new List <Point>();
                // 3 valid
                candidateGridPoints.Add(new Point(8, 5));
                candidateGridPoints.Add(new Point(8, 6));
                candidateGridPoints.Add(new Point(8, 7));
                // 5 invalid
                candidateGridPoints.Add(new Point(6, 5));                   // x too small
                candidateGridPoints.Add(new Point(6, 100));                 // x too small, y too big
                candidateGridPoints.Add(new Point(10, 100));                // y too small
                candidateGridPoints.Add(new Point(1, 1));
                candidateGridPoints.Add(new Point(1000, 1000));

                IList <Point> filterResult = ComputerDriverHelper.FilterCandidatePoints_RemoveUnfavorableDir(candidateGridPoints, routeGridPoints, middleGridPoint);
                Assert.AreEqual(3, filterResult.Count);
            }

            {
                IList <Point> candidateGridPoints = new List <Point>();

                // 5 invalid
                candidateGridPoints.Add(new Point(6, 5));                   // x too small
                candidateGridPoints.Add(new Point(6, 100));                 // x too small, y too big
                candidateGridPoints.Add(new Point(10, 100));                // y too small
                candidateGridPoints.Add(new Point(1, 1));                   // x too small
                candidateGridPoints.Add(new Point(1000, 1000));             // y too big

                IList <Point> filterResult = ComputerDriverHelper.FilterCandidatePoints_RemoveUnfavorableDir(candidateGridPoints, routeGridPoints, middleGridPoint);
                Assert.AreEqual(0, filterResult.Count);
            }

            {
                IList <Point> candidateGridPoints = new List <Point>();

                IList <Point> filterResult = ComputerDriverHelper.FilterCandidatePoints_RemoveUnfavorableDir(candidateGridPoints, routeGridPoints, middleGridPoint);
                Assert.AreEqual(0, filterResult.Count);
            }
        }