C# (CSharp) Sample06 GJKTool示例

示例#1

        public Edge createEdge(SupportPoint a, SupportPoint b)
        {
            Edge e = new Edge();

            e.a = a;
            e.b = b;

            e.normal = GJKTool.getPerpendicularToOrigin(a.point, b.point);
            float lengthSq = e.normal.sqrMagnitude;

            // 单位化边
            if (lengthSq > 0.0001f)
            {
                e.distance = Mathf.Sqrt(lengthSq);
                e.normal  *= 1.0f / e.distance;
            }
            else
            {
                // 如果距离原点太近，用数学的方法来得到直线的垂线
                // 方向可以随便取，刚好另外一边是反着来的
                Vector2 v = a.point - b.point;
                v.Normalize();
                e.normal = new Vector2(-v.y, v.x);
            }
            return(e);
        }

示例#2

        public Vector2 findNextDirection()
        {
            if (simplex.count() == 2)
            {
                Vector2 crossPoint = GJKTool.getClosestPointToOrigin(simplex.get(0), simplex.get(1));
                // 取靠近原点方向的向量
                return(Vector2.zero - crossPoint);
            }
            else if (simplex.count() == 3)
            {
                Vector2 crossOnCA = GJKTool.getClosestPointToOrigin(simplex.get(2), simplex.get(0));
                Vector2 crossOnCB = GJKTool.getClosestPointToOrigin(simplex.get(2), simplex.get(1));

                // 保留距离原点近的，移除较远的那个点
                if (crossOnCA.sqrMagnitude < crossOnCB.sqrMagnitude)
                {
                    simplex.remove(1);
                    return(Vector2.zero - crossOnCA);
                }
                else
                {
                    simplex.remove(0);
                    return(Vector2.zero - crossOnCB);
                }
            }
            else
            {
                // 不应该执行到这里
                return(new Vector2(0, 0));
            }
        }

示例#3

文件： GJKDebuger.cs 项目： Emerson92/learn-physics

        void UpdateSelection()
        {
            if (Input.GetMouseButtonDown(0))
            {
                Vector2 mousePos = Camera.main.ScreenToWorldPoint(Input.mousePosition);
                //Debug.Log("mousePos: " + mousePos);

                selectedIndex = -1;
                for (int i = 0; i < shapes.Count; ++i)
                {
                    if (GJKTool.contains(shapes[i].vertices, mousePos))
                    {
                        selectedIndex = i;
                        break;
                    }
                }

                if (selectedIndex >= 0)
                {
                    var     t        = shapes[selectedIndex].rigidbody;
                    Vector2 position = t.position;
                    selectedOffset = mousePos - position;

                    float mouseAngle = Mathf.Atan2(selectedOffset.y, selectedOffset.x) * Mathf.Rad2Deg;
                    selectedAngle = mouseAngle - t.rotation;
                }
            }
            else if (Input.GetMouseButtonUp(0))
            {
                selectedIndex = -1;
            }
            else if (Input.GetMouseButton(0))
            {
                if (selectedIndex < 0)
                {
                    return;
                }

                Rigidbody t = shapes[selectedIndex].rigidbody;

                Vector2 mousePos = Camera.main.ScreenToWorldPoint(Input.mousePosition);
                if (selectedOffset.magnitude < 0.4f) // 移动
                {
                    Vector3 position = t.position;
                    position.x = mousePos.x - selectedOffset.x;
                    position.y = mousePos.y - selectedOffset.y;
                    t.position = position;
                }
                else // 旋转
                {
                    Vector2 position   = t.position;
                    Vector2 mouseDir   = mousePos - position;
                    float   mouseAngle = Mathf.Atan2(mouseDir.y, mouseDir.x) * Mathf.Rad2Deg;

                    float angle = mouseAngle - selectedAngle;
                    t.rotation = angle;
                }
            }
        }

示例#4

 public bool contains(Vector2 point)
 {
     return(GJKTool.contains(points, point));
 }

示例#5

        public bool queryCollision(Shape shapeA, Shape shapeB)
        {
            this.shapeA = shapeA;
            this.shapeB = shapeB;

            simplex.clear();
            isCollision = false;
            direction   = Vector2.zero;

            closestOnA = Vector2.zero;
            closestOnB = Vector2.zero;

            simplexEdge.clear();
            currentEpaEdge    = null;
            penetrationVector = Vector2.zero;

            direction = findFirstDirection();
            simplex.add(support(direction));
            simplex.add(support(-direction));

            direction = -GJKTool.getClosestPointToOrigin(simplex.get(0), simplex.get(1));
            for (int i = 0; i < maxIterCount; ++i)
            {
                // 方向接近于0，说明原点就在边上
                if (direction.sqrMagnitude < epsilon)
                {
                    isCollision = true;
                    break;
                }

                SupportPoint p = support(direction);
                // 新点与之前的点重合了。也就是沿着dir的方向，已经找不到更近的点了。
                if (GJKTool.sqrDistance(p.point, simplex.get(0)) < epsilon ||
                    GJKTool.sqrDistance(p.point, simplex.get(1)) < epsilon)
                {
                    isCollision = false;
                    break;
                }

                simplex.add(p);

                // 单形体包含原点了
                if (simplex.contains(Vector2.zero))
                {
                    isCollision = true;
                    break;
                }

                direction = findNextDirection();
            }

            if (!isCollision)
            {
                computeClosetPoint(simplex.getSupport(0), simplex.getSupport(1));
            }
            else
            {
                queryEPA();
                computeClosetPoint(currentEpaEdge.a, currentEpaEdge.b);
            }

            return(isCollision);
        }

示例#6

        public void applyTorqueImpulse(Vector2 point, Vector2 torque)
        {
            Vector2 radius = point - position;

            angleVelocity += GJKTool.cross(radius, torque) * Mathf.Rad2Deg * invInertial;
        }