Example #1
0
        void _selectedController_StateChanged(object sender, XboxControllerStateChangedEventArgs e)
        {
            OnPropertyChanged("SelectedController");

            var p = new DoublePoint(-SelectedController.RightThumbStick.X,
                SelectedController.RightThumbStick.Y);

            System.Diagnostics.Trace.WriteLine(string.Format("game x({0}) y({1})", p.X, p.Y));

            if (Math.Abs(p.X) > 10000 || Math.Abs(p.Y) > 10000)
            {
                changeDebounce = 0;

                DiamondPoint = DiamondToolbox.CartesianToDiamond(p, 32767);
                DiamondPoint.Left = Scale(DiamondPoint.Left, -32767, 32767, -100, 100);
                DiamondPoint.Right = Scale(DiamondPoint.Right, -32767, 32767, -100, 100);

                System.Diagnostics.Trace.WriteLine(string.Format("DiamondPoint left({0}) right({1})",
                    DiamondPoint.Left, DiamondPoint.Right));

                string jsn = JsonConvert.SerializeObject(new { Cmd = "MOV", M1 = (float)DiamondPoint.Left, M2 = (float)DiamondPoint.Right });
                if (Mqtt?.IsConnected ?? false)
                    Mqtt.Publish("robot1/Cmd", UTF8Encoding.ASCII.GetBytes(jsn));
            }
            else
            {
                if (++changeDebounce < 10 )
                {
                    string jsn = JsonConvert.SerializeObject(new { Cmd = "MOV", M1 = (float)0, M2 = (float)0 });
                    if (Mqtt?.IsConnected ?? false)
                        Mqtt.Publish("robot1/Cmd", UTF8Encoding.ASCII.GetBytes(jsn));
                }
            }
        }
Example #2
0
        protected override void OnMouseMove(MouseEventArgs e)
        {
            base.OnMouseMove(e);
            if (draggingStarted)
            {
                mouseDraggedLocation = e.GetPosition(this);
                var p = new DoublePoint(
                    map((int) mouseDraggedLocation.X, 0, (int) ActualWidth, 100, -100),
                    map((int) mouseDraggedLocation.Y, 0, (int) ActualHeight, 100, -100)
                    );
                DiamondPoint = DiamondToolbox.CartesianToDiamond(p, 100);

                if (JoystickMovedListeners != null)
                    JoystickMovedListeners(DiamondPoint);

                e.Handled = true;
            }
        }
Example #3
0
        /// <summary>
        ///     IsInsidePolygon takes a pollygon as an array of points as type DoublePoint and determines
        ///     if a testpoint as type DoublePoint is within the polygon
        /// </summary>
        /// <param name="polygon">array of type DoublePoint that defines a polygon</param>
        /// <param name="testPoint">a point of type DoublePoint to test</param>
        /// <returns>True if the point is within the polygon, else false</returns>
        public static bool IsInsidePolygon(DoublePoint[] polygon, DoublePoint testPoint)
        {
            bool ret = true;
            DoublePoint p1;
            DoublePoint p2;
            Int32 indx;
            double xcross;
            Int32 counter = 0;

            if (polygon.GetLength(0) < 3)
                ret = false; // polygon isn't even a triangle
            else
                foreach (DoublePoint corner in polygon)
                    if (corner.X == testPoint.X && corner.Y == testPoint.Y)
                        ret = false; // testPoint is one of the corners

            if (!ret) return ret;

            // This algorithm creates a ray from the test point to
            // the right.  It counts the number of line segments of
            // the polygon that the ray crosses.  An even number
            // means the test point is outside of the polygon, an
            // odd number means the test point is inside the polygon.

            // start with last point hence the closing line segment
            p1 = polygon[polygon.GetLength(0) - 1];
            for (indx = 0; indx < polygon.GetLength(0); indx++)
            {
                p2 = polygon[indx];
                if (testPoint.Y > System.Math.Min(p1.Y, p2.Y))
                    if (testPoint.Y <= System.Math.Max(p1.Y, p2.Y))
                        if (testPoint.X <= System.Math.Max(p1.X, p2.X))
                            // horizontal segments are invalid
                            if (p1.Y != p2.Y)
                            {
                                xcross = (testPoint.Y - p1.Y) * (p2.X - p1.X)
                                         / (p2.Y - p1.Y) + p1.X;
                                if (p1.X == p2.X || testPoint.X <= xcross)
                                    counter++;
                            }
                p1 = p2;
            }
            ret = (counter % 2 != 0);
            return ret;
        }
Example #4
0
        /// <summary>
        ///     CartesianToDiamond is the main method in DiamondToolbox class.
        ///     This method converts a Cartesian coordinate into a Diamond coordinate.
        /// </summary>
        /// <param name="cartPoint">Cartesian coordiant in DoublePoint type</param>
        /// <param name="radius">Maximum Cartesian value positive or negative on either axis in double type</param>
        /// <returns>Diamond coordinate in DiamondPoint type</returns>
        public static DiamondPoint CartesianToDiamond(DoublePoint cartPoint, double radius)
        {
            DoublePoint[] diamondPolygon =
            {
                new DoublePoint(0, radius),
                new DoublePoint(radius, 0),
                new DoublePoint(0, -radius),
                new DoublePoint(-radius, 0)
            };

            // If the Cartesian point is outside of the diamond ...
            if (!IsInsidePolygon(diamondPolygon, cartPoint))
                // If the Cartesian point is on the Y axis ...
                if (cartPoint.X == 0)
                    // If the Cartesian point if North of the Diamond ...
                    if (cartPoint.Y > 0)
                        // Bring it back to the North most point
                        cartPoint.Y = radius;
                    else // If the Cartesian point is South of the Diamond ...
                        // Bring it back to the South most point
                        cartPoint.Y = -radius;
                // If the Cartesian point is on the X axis ...
                else if (cartPoint.Y == 0)
                    // If the Cartesian point if East of the Diamond ...
                    if (cartPoint.X > 0)
                        // Bring it back to the East most point
                        cartPoint.X = radius;
                    else // If the Cartesian point is West of the Diamond ...
                        // Bring it back to the West most point
                        cartPoint.X = -radius;
                else
                    // If the Cartesian point is in the Northeast ...
                    if (cartPoint.X > 0 && cartPoint.Y > 0)
                    // Move the Cartesian point to the diamond in
                    //   the direction of the center
                    //   This could throw an Exception, but it shouldn't
                    cartPoint = GetIntersection(
                        cartPoint, // line from test point
                        new DoublePoint(0, 0), //   to center
                        new DoublePoint(0, radius), // Line from North point
                        new DoublePoint(radius, 0)); //   to East point
                                                     // If the Cartesian point is in the Southeast ...
                else if (cartPoint.X > 0 && cartPoint.Y < 0)
                    // Move the Cartesian point to the diamond in
                    //   the direction of the center
                    //   This could throw an Exception, but it shouldn't
                    cartPoint = GetIntersection(
                        cartPoint, // line from test point
                        new DoublePoint(0, 0), //   to center
                        new DoublePoint(0, -radius), // Line from South point
                        new DoublePoint(radius, 0)); //   to East point
                                                     // If the Cartesian point is in the Southwest ...
                else if (cartPoint.X < 0 && cartPoint.Y < 0)
                    // Move the Cartesian point to the diamond in
                    //   the direction of the center
                    //   This could throw an Exception, but it shouldn't
                    cartPoint = GetIntersection(
                        cartPoint, // line from test point
                        new DoublePoint(0, 0), //   to center
                        new DoublePoint(0, -radius), // Line from South point
                        new DoublePoint(-radius, 0)); //   to West point
                                                      // If the Cartesian point is in the Northwest ...
                else
                    // Move the Cartesian point to the diamond in
                    //   the direction of the center
                    //   This could throw an Exception, but it shouldn't
                    cartPoint = GetIntersection(
                        cartPoint, // line from test point
                        new DoublePoint(0, 0), //   to center
                        new DoublePoint(0, radius), // Line from North point
                        new DoublePoint(-radius, 0)); //   to West point

            // Now that we have migrated the Cartesian point to the diamond ...

            // Calculate the left axis diamond value of the Cartesian point

            // Create a ray from the Cartesian point at a 45 degree angle through
            //   the upper left side of the diamond
            DoublePoint leftOuterEnd =
                new DoublePoint(cartPoint.X - (2 * radius), cartPoint.Y + (2 * radius));
            // Get the point on the ray that intesects the upper left diamond edge
            DoublePoint leftIntersect = GetIntersection(
                cartPoint, // Ray from Cartesian point
                leftOuterEnd, //   beyond the diamond at 45 degrees Northwest
                new DoublePoint(0, radius), // Line from North point
                new DoublePoint(-radius, 0)); //   to West point
            // Use the Cartesian Y values to find the diamond scale values
            double leftScale = (leftIntersect.Y - (radius / 2)) * 2;

            // Calculate the right axis diamond value of the Cartesian point

            // Create a ray from the Cartesian point at a 45 degree angle through
            //   the upper right side of the diamond
            DoublePoint rightOuterEnd =
                new DoublePoint(cartPoint.X + (2 * radius), cartPoint.Y + (2 * radius));
            // Get the point on the ray that intesects the upper right diamond edge
            DoublePoint rightIntersect = GetIntersection(
                cartPoint, // Ray from Cartesian point
                rightOuterEnd, //   beyond the diamond at 45 degrees Northeast
                new DoublePoint(0, radius), // Line from North point
                new DoublePoint(radius, 0)); //   to East point
            // Use the Cartesian Y values to find the diamond scale values
            double rightScale = (rightIntersect.Y - (radius / 2)) * 2;

            // Build the return value
            DiamondPoint ret = new DiamondPoint(leftScale, rightScale);

            return ret;
        }
Example #5
0
        /// <summary>
        ///     GetIntersection finds the intersection as type DoublePoint of two lines each of which
        ///     is defined by two end points of type DoublePoint
        /// </summary>
        /// <param name="l1p1">First endpoint of type DoublePoint of first line</param>
        /// <param name="l1p2">Second endpoint of type DoublePoint of first line</param>
        /// <param name="l2p1">First endpoint of type DoublePoint of second line</param>
        /// <param name="l2p2">Second endpoint of type DoublePoint of second line</param>
        /// <returns>The intersection of the two lines as type DoublePoint</returns>
        public static DoublePoint GetIntersection(DoublePoint l1p1, DoublePoint l1p2, DoublePoint l2p1, DoublePoint l2p2)
        {
            DoublePoint intersection = new DoublePoint(0, 0);
            DoublePoint tempPoint;
            double intercept1;
            double intercept2;
            double slope1;
            double slope2;

            if (l1p1.X == l1p2.X) throw new Exception("Line one is vertical");
            if (l2p1.X == l2p2.X) throw new Exception("Line two is vertical");

            if (l1p2.X < l1p1.X)
            {
                tempPoint = l1p1;
                l1p1 = l1p2;
                l1p2 = tempPoint;
            }
            if (l2p2.X < l2p1.X)
            {
                tempPoint = l2p1;
                l2p1 = l2p2;
                l2p2 = tempPoint;
            }

            slope1 = (l1p2.Y - l1p1.Y) / (l1p2.X - l1p1.X);
            slope2 = (l2p2.Y - l2p1.Y) / (l2p2.X - l2p1.X);

            if (slope1 == slope2) throw new Exception("Lines are parallel");

            intercept1 = -((slope1 * l1p1.X) - l1p1.Y);
            intercept2 = -((slope2 * l2p1.X) - l2p1.Y);

            intersection.X = (intercept2 - intercept1) / (slope1 - slope2);
            intersection.Y = (slope1 * intersection.X) + intercept1;

            return intersection;
        }