C# (CSharp) ArcCore.Gameplay.Mathematics Rect2D примеры использования

Пример #1

        public static (float2?exactInput, Rect2D?inputPlane, int track) PerformInputRaycast(Ray cameraRay)
        {
            float3 origin = cameraRay.origin;
            float3 dir    = math.normalize(cameraRay.direction);

            //-GET AABB2D FOR INPUT PLANE-//
            Rect2D?inputPlane;
            float2?exactInput;

            //Edge case: tap will never collide with plane
            //Multiplication allows for simultaneous checks for no z difference between camera and origin, and invalid z signs
            if (origin.z * dir.z >= 0)
            {
                inputPlane = null;
                exactInput = null;
            }
            else
            {
                //Cast ray onto xy plane at z=0
                float zratio   = -origin.z / dir.z;
                float projPosX = origin.x + (dir.x * zratio);
                float projPosY = origin.y + (dir.y * zratio);

                exactInput = new float2(projPosX, projPosY);

                //FIND X LENIENCY USING 0TH'S MAGIC
                float deltaY = origin.y - projPosY;
                float deltaX = origin.x - projPosX;

                float distToXAxis = math.sqrt((deltaY * deltaY) + (origin.z * origin.z));
                float distToYAxis = math.sqrt((deltaX * deltaX) + (origin.z * origin.z));

                float nDeltaX = -deltaX;
                float nDeltaY = -deltaY;

                float xMax = distToXAxis * (nDeltaX + (TAN_EPSILON * distToXAxis)) / (
                    distToXAxis - (nDeltaX * TAN_EPSILON))
                             + origin.x;

                float xMin = distToXAxis * (nDeltaX - (TAN_EPSILON * distToXAxis)) / (
                    distToXAxis + (nDeltaX * TAN_EPSILON))
                             + origin.x;

                //FIND Y LENIENCY USING 0TH'S MAGIC
                float yMax = distToYAxis * (nDeltaY + (TAN_EPSILON * distToYAxis)) / (
                    distToYAxis - (nDeltaY * TAN_EPSILON))
                             + origin.y;

                float yMin = distToYAxis * (nDeltaY - (TAN_EPSILON * distToYAxis)) / (
                    distToYAxis + nDeltaY * TAN_EPSILON)
                             + origin.y;

                //Input plane
                inputPlane = new Rect2D(xMin, yMin, xMax, yMax);
            }

            //-GET TRACK RANGE-//
            int track = -1;

            //Check if the tap is too high on the input plane for a track tap
            if (
                (!inputPlane.HasValue || inputPlane.Value.min.y < Y_MAX_FOR_TRACK) &&
                origin.y * cameraRay.direction.y <= 0
                )
            {
                //Cast ray onto xz plane at y=0
                float yratio    = -origin.y / dir.y;
                float lProjPosX = origin.x + (dir.x * yratio);
                float lProjPosZ = origin.z + (dir.z * yratio);

                //Check if cast falls out of acceptable range
                if (-Constants.RenderFloorPositionRange <= lProjPosZ && lProjPosZ <= Constants.RenderFloorPositionRange)
                {
                    track = Conversion.XToTrack(lProjPosX);
                }

                track = track > 4 ? 4 : track;
                track = track < 1 ? 1 : track;
            }

            //RETURN
            return(exactInput, inputPlane, track);
        }

Пример #2

 public bool CollidesWith(Rect2D other)
 => min.x <= other.max.x && max.x >= other.min.x &&
 min.y <= other.max.y && max.y >= other.min.y;

Пример #3

Файл: Circle2D.cs Проект: 0thElement/ArcCore

 public bool CollidesWith(Rect2D other)
 => other.CollidesWith(this);