Exemplo n.º 1
0
        public static Line GetFaceSideDirection(Face face, UnitVector xAxis)
        {
            switch (face.SurfaceType)
            {
            case SurfaceTypeEnum.kConeSurface:
                Cone       cone       = face.Geometry as Cone;
                UnitVector axisVector = cone.AxisVector;
                double     num        = (cone.IsExpanding ? -1.0 : 1.0) * cone.Radius / Math.Tan(cone.HalfAngle);
                Point      point1     = Toolkit._Tg.CreatePoint(cone.BasePoint.X + xAxis.X * cone.Radius, cone.BasePoint.Y + xAxis.Y * cone.Radius, cone.BasePoint.Z + xAxis.Z * cone.Radius);
                Point      point2     = Toolkit._Tg.CreatePoint(cone.BasePoint.X + axisVector.X * num, cone.BasePoint.Y + axisVector.Y * num, cone.BasePoint.Z + axisVector.Z * num);
                return(Toolkit._Tg.CreateLine(point1, point1.VectorTo(point2)));

            default:
                return((Line)null);
            }
        }
 ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
 // Use: Returns an UnitVector orthogonal to input vector
 //
 ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
 public static UnitVector GetOrthoVector(UnitVector vector)
 {
     if (Math.Abs(vector.Z) < _Tolerance)
     {
         return(InvApplication.TransientGeometry.CreateUnitVector(0, 0, 1));
     }
     else if (Math.Abs(vector.Y) < _Tolerance)
     {
         return(InvApplication.TransientGeometry.CreateUnitVector(0, 1, 0));
     }
     else
     {
         //Expr: - xx'/y = y'
         return(InvApplication.TransientGeometry.CreateUnitVector(1, -vector.X / vector.Y, 0));
     }
 }
Exemplo n.º 3
0
        public void TestSignedAngle()
        {
            var u = (new Vector(1, 0.5)).Unit;
            var a = u.ToAngle();

            AssertAreEqual(u, UnitVector.FromAngle(a));

            u = (new Vector(1, -0.5)).Unit;
            a = u.ToAngle();
            AssertAreEqual(u, UnitVector.FromAngle(a));

            u = (new Vector(-1, 0.5)).Unit;
            a = u.ToAngle();
            AssertAreEqual(u, UnitVector.FromAngle(a));

            u = (new Vector(-1, -0.5)).Unit;
            a = u.ToAngle();
            AssertAreEqual(u, UnitVector.FromAngle(a));
        }
Exemplo n.º 4
0
 public static string VectorToString(object pO)
 {
     if (pO is Vector)
     {
         Vector p = (Vector)pO;
         return(p.X + "," + p.Y + "," + p.Z);
     }
     else if (pO is UnitVector)
     {
         UnitVector p = (UnitVector)pO;
         return(p.X + "," + p.Y + "," + p.Z);
     }
     else if (pO is Point)
     {
         Point p = (Point)pO;
         return(p.X + "," + p.Y + "," + p.Z);
     }
     return("");
 }
Exemplo n.º 5
0
        public void TestRotate()
        {
            var pt1 = new Point(1, 1);
            var pt2 = new Point(2, 2);

            var pt1_1 = pt1.Rotate(UnitVector.FromAngle(Math.PI / 4), Point.Zero);
            var pt2_1 = pt2.Rotate(UnitVector.FromAngle(Math.PI / 4), Point.Zero);

            var a1 = (pt2_1 - pt1_1).Unit.ToAngle();

            var pt1_2 = pt1.Rotate(UnitVector.FromAngle(Math.PI / 8), Point.Zero);
            var pt2_2 = pt2.Rotate(UnitVector.FromAngle(Math.PI / 8), Point.Zero);

            pt2_2 = pt2_2.Rotate(UnitVector.FromAngle(Math.PI / 8), pt1_2);

            var a2 = (pt2_2 - pt1_2).Unit.ToAngle();

            Assert.AreEqual(a1, a2, Tol);
        }
Exemplo n.º 6
0
        public void TestGetAngle()
        {
            Assert.AreEqual(new UnitVector(1, 0), UnitVector.GetAngle(new Vector(10, 1), new Vector(10, 1)));

            var u = UnitVector.GetAngle(new Vector(10, 1), new Vector(10, 2));

            Assert.IsTrue(u.X > 0 && u.Y > 0);

            u = UnitVector.GetAngle(new Vector(10, 1), new Vector(-10, 2));
            Assert.IsTrue(u.X < 0 && u.Y > 0);

            u = UnitVector.GetAngle(new Vector(10, 1), new Vector(-10, -2));
            Assert.IsTrue(u.X < 0 && u.Y < 0);

            u = UnitVector.GetAngle(new Vector(10, 1), new Vector(10, -2));
            Assert.IsTrue(u.X > 0 && u.Y < 0);

            u = UnitVector.GetAngle(new Vector(-10, 1), new Vector(-10, -1));
            Assert.IsTrue(u.X > 0 && u.Y > 0);
        }
Exemplo n.º 7
0
        /////////////////////////////////////////////////////////////
        // Use: Returns thread major radius for tapered thread.
        //
        /////////////////////////////////////////////////////////////
        private static double GetThreadMajorRadiusTapered(
            ThreadInfo threadInfo,
            Face threadedFace)
        {
            UnitVector yAxis =
                threadInfo.ThreadDirection.AsUnitVector();

            UnitVector xAxis = Toolkit.GetOrthoVector(yAxis);

            Point basePoint =
                threadInfo.ThreadBasePoints[1] as Point;

            Line l1 = Toolkit.GetFaceSideDirection(
                threadedFace.Geometry, xAxis);

            Line l2 = _Tg.CreateLine(basePoint, xAxis.AsVector());

            Point p1 = l1.IntersectWithCurve(l2, 0.0001)[1] as Point;

            return(p1.DistanceTo(basePoint));
        }
        //////////////////////////////////////////////////////////////////////////////////////////////
        // Creates a new GraphicsNode that contains our graphic symbol
        //
        //////////////////////////////////////////////////////////////////////////////////////////////
        GraphicsNode DrawSymbol(
            UnitVector normal,
            Point center,
            double radius)
        {
            Circle circle = _Tg.CreateCircle(center, normal, radius);

            double[] up    = new double[] { center.X, center.Y + radius, 0 };
            double[] down  = new double[] { center.X, center.Y - radius, 0 };
            double[] right = new double[] { center.X + radius, center.Y, 0 };
            double[] left  = new double[] { center.X - radius, center.Y, 0 };

            GraphicsNode node = _clientGraphicsMng.CreateNewGraphicsNode();

            node.Selectable = true;

            CurveGraphics curve    = _clientGraphicsMng.DrawCurve(circle, node);
            LineGraphics  lineVert = _clientGraphicsMng.DrawLine(up, down, node);
            LineGraphics  lineHorz = _clientGraphicsMng.DrawLine(left, right, node);

            return(node);
        }
Exemplo n.º 9
0
        /////////////////////////////////////////////////////////////
        // Use: Returns direction of the cone side as Line object.
        //
        /////////////////////////////////////////////////////////////
        public static Line GetConeSideDirection(
            Cone cone,
            UnitVector xAxis)
        {
            UnitVector yAxis = cone.AxisVector;

            double height =
                (cone.IsExpanding ? -1.0 : 1.0)
                * cone.Radius / Math.Tan(cone.HalfAngle);

            Point p1 = _Tg.CreatePoint(
                cone.BasePoint.X + xAxis.X * cone.Radius,
                cone.BasePoint.Y + xAxis.Y * cone.Radius,
                cone.BasePoint.Z + xAxis.Z * cone.Radius);

            Point p2 = _Tg.CreatePoint(
                cone.BasePoint.X + yAxis.X * height,
                cone.BasePoint.Y + yAxis.Y * height,
                cone.BasePoint.Z + yAxis.Z * height);

            return(_Tg.CreateLine(p1, p1.VectorTo(p2)));
        }
Exemplo n.º 10
0
        //////////////////////////////////////////////////////////////////////////////////////////////
        // Creates a new GraphicsNode that contains our graphic symbol 
        //
        //////////////////////////////////////////////////////////////////////////////////////////////
        GraphicsNode DrawSymbol(
            UnitVector normal, 
            Point center, 
            double radius)
        {
            Circle circle = _Tg.CreateCircle(center, normal, radius);

            double[] up = new double[]{center.X, center.Y + radius, 0};
            double[] down = new double[]{center.X, center.Y - radius, 0};
            double[] right = new double[]{center.X + radius, center.Y, 0};
            double[] left = new double[]{center.X - radius, center.Y, 0};

            GraphicsNode node = _clientGraphicsMng.CreateNewGraphicsNode();
            
            node.Selectable = true;

            CurveGraphics curve = _clientGraphicsMng.DrawCurve(circle, node);
            LineGraphics lineVert = _clientGraphicsMng.DrawLine(up, down, node);
            LineGraphics lineHorz = _clientGraphicsMng.DrawLine(left, right, node);

            return node;
        }
Exemplo n.º 11
0
        private bool RelationWithSegment1(Segment segment, Coordinate coordinate)
        {
            UnitVector vector = new UnitVector()
            {
                X = Math.Abs(coordinate.x - segment.SegmentStart.x) < 0.1?0: coordinate.x - segment.SegmentStart.x, Y = Math.Abs(coordinate.y - segment.SegmentStart.y) < 0.00001?0: coordinate.y - segment.SegmentStart.y
            };
            UnitVector vector1 = new UnitVector()
            {
                X = Math.Abs(coordinate.x - segment.SegmentEnd.x) < 0.1?0:coordinate.x - segment.SegmentStart.x, Y = Math.Abs(coordinate.y - segment.SegmentEnd.y) < 0.00001 ? 0 : coordinate.y - segment.SegmentEnd.y
            };

            if (vector.X == 0 && vector1.X == 0)
            {
                if (vector.Y * vector1.Y < 0)//共线
                {
                    return(true);
                }
                else
                {
                    return(false);
                }
            }
            else if (vector.Y == 0 && vector1.Y == 0)//共线
            {
                if (vector.X * vector1.X < 0)
                {
                    return(true);
                }
                else
                {
                    return(false);
                }
            }
            else
            {
                return(false);
            }
        }
        //////////////////////////////////////////////////////////////////////////////////////////////
        // OnMouseMove Event is used to transform  current GraphicsNode moved by the user
        //
        //////////////////////////////////////////////////////////////////////////////////////////////
        void MouseEvents_OnMouseMove(
            MouseButtonEnum Button,
            ShiftStateEnum ShiftKeys,
            Inventor.Point ModelPosition,
            Point2d ViewPosition,
            Inventor.View View)
        {
            if (_symbolNode == null)
            {
                // Define symbol inputs: center, normal, radius
                Point center = _Tg.CreatePoint(0, 0, 0);

                UnitVector normal = _Tg.CreateUnitVector(0, 0, 1);

                double radius = _sheet.Width / 30;

                _symbolNode = DrawSymbol(normal, center, radius);
            }

            SetNodePosition(_symbolNode, ModelPosition);

            _clientGraphicsMng.UpdateView();
        }
Exemplo n.º 13
0
        public void UpdatePreviewGraphics()
        {
            m_graphicsCoordinateSet = null;

            InteractionGraphics interactionGraphics = m_interactionEvents.InteractionGraphics;
            GraphicsDataSets    graphicsDataSets    = interactionGraphics.GraphicsDataSets;

            if (graphicsDataSets.Count != 0)
            {
                graphicsDataSets[1].Delete();
            }

            //  m_graphicsCoordinateSet = graphicsDataSets.CreateCoordinateSet(1);

            //m_pointGraphics.CoordinateSet = m_graphicsCoordinateSet;

            //TransientGeometry transientGeometry = m_inventorApplication.TransientGeometry;

            PartDocument oPartDoc;

            oPartDoc = (PartDocument)m_inventorApplication.ActiveDocument;

            PartComponentDefinition oPartCompDef;

            oPartCompDef = oPartDoc.ComponentDefinition;

            WorkAxis workAxis;

            workAxis = oPartCompDef.WorkAxes.AddByRevolvedFace(m_selectFace, true);

            if (m_UCS == null)
            {
                return;
            }

            WorkPoint workPoint;

            workPoint = oPartCompDef.WorkPoints.AddByCurveAndEntity(workAxis, m_UCS.XYPlane);
            Point transPoint = workPoint.Point;

            UnitVector xUnitVector = m_UCS.XAxis.Line.Direction;
            UnitVector yUnitVector = m_UCS.YAxis.Line.Direction;

            Double[] xCoords = new Double[3];
            xUnitVector.GetUnitVectorData(ref xCoords);
            Double[] yCoords = new Double[3];
            yUnitVector.GetUnitVectorData(ref yCoords);

            double xOffset = this.GetValueFromExpression(m_moveCmdDlg.xOffsetText.Text);
            double yOffset = this.GetValueFromExpression(m_moveCmdDlg.yOffsetText.Text);

            Double[] transCoords = new Double[3];
            transCoords[0] = xOffset * xCoords[0] + yOffset * yCoords[0];
            transCoords[1] = xOffset * xCoords[1] + yOffset * yCoords[1];
            transCoords[2] = xOffset * xCoords[2] + yOffset * yCoords[2];

            Vector transVector = m_inventorApplication.TransientGeometry.CreateVector();

            transVector.PutVectorData(transCoords);

            transPoint.TranslateBy(transVector);

            Double[] oPointCoords = new Double[3];
            oPointCoords[0] = transPoint.X;
            oPointCoords[1] = transPoint.Y;
            oPointCoords[2] = transPoint.Z;

            m_graphicsCoordinateSet = graphicsDataSets.CreateCoordinateSet(1);

            m_graphicsCoordinateSet.PutCoordinates(oPointCoords);

            m_pointGraphics.CoordinateSet = m_graphicsCoordinateSet;

            TransientGeometry transientGeometry = m_inventorApplication.TransientGeometry;

            // m_graphicsCoordinateSet.Add(1, transPoint);

            m_inventorApplication.ActiveView.Update();
        }
Exemplo n.º 14
0
 public InfinitePlane(Material material, Point point, UnitVector normal)
     : base(material)
 {
     _point  = point;
     _normal = normal;
 }
Exemplo n.º 15
0
        public List <Coordinate> deleteOppositeVector(List <Coordinate> coordinates)
        {
            List <UnitVector> savedVectors = new List <UnitVector>();
            int flag = 0;

            if (coordinates.Count < 3)
            {
                throw new Exception("坐标数量小于三,无法进行判断");
            }
            //先判断第一个向量是不是等于最后一个向量
            UnitVector fistVector = calcuUnitVector(coordinates[0], coordinates[1]);
            //计算最后一条线的向量
            UnitVector lastVector = calcuUnitVector(coordinates[coordinates.Count - 2], coordinates[coordinates.Count - 1]);

            if ((Math.Abs(fistVector.X + lastVector.X) < 0.000001) && (Math.Abs(fistVector.Y + lastVector.Y) < 0.00001))//第一条线的向量等于最后一条线的向量
            {
                coordinates.RemoveAt(coordinates.Count - 1);
                coordinates.RemoveAt(0);
                coordinates.Insert(0, coordinates[coordinates.Count - 1]);//删完首尾的点还要在头部再加一个和尾部相同的点
            }
            //判断中间线串的中间有没有出现自相交
            for (int i = 0; i < coordinates.Count - 3; i++)
            {
                if (JudgeDirection(coordinates[i],
                                   coordinates[i + 1],
                                   coordinates[i + 2]))//ture,方向相反
                {
                    coordinates[i + 1].x = (coordinates[i].x + coordinates[i + 2].x) / 2;
                    coordinates[i + 1].y = (coordinates[i].y + coordinates[i + 2].y) / 2;
                }
            }
            List <Segment>    segments    = new List <Segment>();
            List <Coordinate> deleteCoord = new List <Coordinate>();
            int count = 0;

            if (coordinates.Count > 2)
            {
                Segment segmentfirst = new Segment()
                {
                    SegmentStart = coordinates[0], SegmentEnd = coordinates[1]
                };
                segments.Add(segmentfirst);
                for (int i = 1; i < coordinates.Count - 1; i++)
                {
                    foreach (var item in segments)
                    {
                        if (RelationWithSegment(item, coordinates[i]))//判断线段和坐标点的关系
                        {
                            deleteCoord.Add(coordinates[i]);
                        }
                    }
                    Segment segment = new Segment()
                    {
                        SegmentStart = coordinates[i], SegmentEnd = coordinates[i + 1]
                    };
                    segments.Add(segment);
                }
            }
            for (int i = coordinates.Count - 1; i > 0; i--)
            {
                foreach (var deleteitem in deleteCoord)
                {
                    if (coordinates[i].x == deleteitem.x && coordinates[i].y == deleteitem.y)
                    {
                        coordinates.Remove(deleteitem);
                    }
                }
            }
            //计算第一条线的向量

            return(coordinates);
        }
Exemplo n.º 16
0
 public override UnitVector SurfaceNormalAtPoint(Point point)
 {
     return(UnitVector.UnsafeCreateUnitVector(Point.Origin.To(point) * _inverseRadius));
 }
Exemplo n.º 17
0
 private ObjectsEnumerator InternalFindUsingVector(Point originPoint, UnitVector direction, SelectionFilterEnum[] objectTypes, bool useCylinder, Object proximityTolerance, bool visibleObjectsOnly, out Object locationPoints)
 {
     return(ComponentDefinitionInstance.FindUsingVector(originPoint.ToPoint(), direction, objectTypes, useCylinder, proximityTolerance, visibleObjectsOnly, out locationPoints));
 }
Exemplo n.º 18
0
        static public MirrorFeature addMirror(SheetMetalComponentDefinition smcd, ObjectCollection objs, string name, UnitVector vec)
        {
            SheetMetalFeatures smf = (SheetMetalFeatures)smcd.Features;
            WorkPlane          wp  = smcd.WorkPlanes.OfType <WorkPlane>().First(e => InvDoc.u.eq(vec, e.Plane.Normal));
            MirrorFeature      mir = smf.MirrorFeatures.Add(objs, wp, false, PatternComputeTypeEnum.kAdjustToModelCompute);

            mir.Name = name;
            return(mir);
        }
 private ObjectsEnumerator InternalFindUsingVector(Point originPoint, UnitVector direction, SelectionFilterEnum[] objectTypes, bool useCylinder, Object proximityTolerance, bool visibleObjectsOnly, out Object locationPoints)
 {
     return ComponentDefinitionInstance.FindUsingVector( originPoint.ToPoint(),  direction,  objectTypes,  useCylinder,  proximityTolerance,  visibleObjectsOnly, out  locationPoints);
 }
Exemplo n.º 20
0
 /*
  * public Equation DistanceTo(Vector3D point)
  * {
  * return UnitVector.Dot(point) - D;
  * }*/
 public double DistanceTo(Vector3D point)
 {
     return(UnitVector.Dot(point) - D);
 }
Exemplo n.º 21
0
        private void GetLayer(double[] del, ref int Layer, ref int direction, ref int clockwise)
        {
            Box sceneBox = GetSceneBox();

            if (null != sceneBox && null != mSelectedFace)
            {
                GraphicsNode node = mSelectedFace.Parent.Parent;

                Box      nodeBox = node.RangeBox;
                double[] midPt   = { (nodeBox.MaxPoint.X + nodeBox.MinPoint.X) / 2.0,
                                     (nodeBox.MaxPoint.Y + nodeBox.MinPoint.Y) / 2.0,
                                     (nodeBox.MaxPoint.Z + nodeBox.MinPoint.Z) / 2.0 };

                double[] delta = { nodeBox.MaxPoint.X - nodeBox.MinPoint.X
                                   , nodeBox.MaxPoint.Y - nodeBox.MinPoint.Y
                                   , nodeBox.MaxPoint.Z - nodeBox.MinPoint.Z };

                int i = (int)((midPt[0] - sceneBox.MinPoint.X) / delta[0]);
                int j = (int)((midPt[1] - sceneBox.MinPoint.Y) / delta[1]);
                int k = (int)((midPt[2] - sceneBox.MinPoint.Z) / delta[2]);

                Plane plane = mSelectedFace.Face.Geometry as Plane;
                if (null == plane)
                {
                    return;
                }

                UnitVector normal = plane.Normal;
                if (mSelectedFace.Face.IsParamReversed == true)
                {
                    normal.X = -normal.X;
                    normal.Y = -normal.Y;
                    normal.Z = -normal.Z;
                }
                normal.TransformBy(node.Transformation);
                if (Math.Abs(Math.Abs(normal.X) - 1.0) < 0.0001)
                {
                    if (Math.Abs(del[1]) > Math.Abs(del[2]))
                    {
                        Layer     = k;
                        direction = 2;
                        //clockwise = (del[1] > 0 ? 1 : -1) * (int)normal.X;
                        clockwise = (del[1] * normal.X > 0 ? 1 : -1);
                    }
                    else
                    {
                        Layer     = j;
                        direction = 1;
                        //clockwise = (del[2] > 0 ? -1 : 1) * (int)normal.X;
                        clockwise = (del[2] * normal.X > 0 ? -1 : 1);
                    }
                }
                else if (Math.Abs(Math.Abs(normal.Y) - 1.0) < 0.0001)
                {
                    if (Math.Abs(del[2]) > Math.Abs(del[0]))
                    {
                        Layer     = i;
                        direction = 0;
                        //clockwise = (del[2] > 0 ? 1 : -1) * (int)normal.Y;
                        clockwise = (del[2] * normal.Y > 0 ? 1 : -1);
                    }
                    else
                    {
                        Layer     = k;
                        direction = 2;
                        //clockwise = (del[0] > 0 ? -1 : 1) * (int)normal.Y;
                        clockwise = (del[0] * normal.Y > 0 ? -1 : 1);
                    }
                }
                else if (Math.Abs(Math.Abs(normal.Z) - 1.0) < 0.0001)
                {
                    if (Math.Abs(del[0]) > Math.Abs(del[1]))
                    {
                        Layer     = j;
                        direction = 1;
                        //clockwise = (del[0] > 0 ? 1 : -1) * (int)normal.Z;
                        clockwise = (del[0] * normal.Z > 0 ? 1 : -1);
                    }
                    else
                    {
                        Layer     = i;
                        direction = 0;
                        //clockwise = (del[1] > 0 ? -1 : 1) * (int)normal.Z;
                        clockwise = (del[1] * normal.Z > 0 ? -1 : 1);
                    }
                }
            }
        }
Exemplo n.º 22
0
 ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
 // Use: Returns an UnitVector orthogonal to input vector
 //
 ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
 public static UnitVector GetOrthoVector(UnitVector vector)
 {
     if (Math.Abs(vector.Z) < _Tolerance)
     {
         return InvApplication.TransientGeometry.CreateUnitVector(0, 0, 1);
     }
     else if (Math.Abs(vector.Y) < _Tolerance)
     {
         return InvApplication.TransientGeometry.CreateUnitVector(0, 1, 0);
     }
     else
     {
         //Expr: - xx'/y = y'
         return InvApplication.TransientGeometry.CreateUnitVector(1, -vector.X / vector.Y, 0);
     }
 }
Exemplo n.º 23
0
        /////////////////////////////////////////////////////////////
        // Use: Creates new solid bodies affected by the future
        //      CoilFeature for Tapered Thread.
        /////////////////////////////////////////////////////////////
        private static bool CreateCoilBodyTapered(PartDocument doc,
                                                  ThreadInfo threadInfo,
                                                  Face threadedFace,
                                                  double depth,
                                                  bool isInteriorFace)
        {
            try
            {
                PartComponentDefinition compDef =
                    doc.ComponentDefinition;

                Vector direction = threadInfo.ThreadDirection;

                Point basePoint =
                    threadInfo.ThreadBasePoints[1] as Point;

                Point endPoint = _Tg.CreatePoint(
                    basePoint.X + direction.X,
                    basePoint.Y + direction.Y,
                    basePoint.Z + direction.Z);

                UnitVector yAxis = direction.AsUnitVector();

                UnitVector xAxis = Toolkit.GetOrthoVector(yAxis);

                WorkPoint wpt = compDef.WorkPoints.AddFixed(basePoint,
                                                            _ConstructionWorkFeature);

                WorkPlane wpl = compDef.WorkPlanes.AddFixed(basePoint,
                                                            xAxis, yAxis, _ConstructionWorkFeature);

                WorkAxis xWa = compDef.WorkAxes.AddFixed(basePoint,
                                                         xAxis, _ConstructionWorkFeature);

                WorkAxis yWa = compDef.WorkAxes.AddFixed(basePoint,
                                                         yAxis, _ConstructionWorkFeature);

                PlanarSketch sketch =
                    compDef.Sketches.AddWithOrientation(wpl,
                                                        xWa, true, true, wpt, false);

                Cone cone = threadedFace.Geometry as Cone;

                double revDepth =
                    depth / Math.Cos(cone.HalfAngle) *
                    (isInteriorFace ? -1.0 : 1.0);

                Line l1 = Toolkit.GetFaceSideDirection(threadedFace, xAxis);

                Line l2 = _Tg.CreateLine(basePoint, xAxis.AsVector());

                Line l3 = _Tg.CreateLine(endPoint, xAxis.AsVector());

                Point p1 = l1.IntersectWithCurve(l2, 0.0001)[1] as Point;
                Point p2 = l1.IntersectWithCurve(l3, 0.0001)[1] as Point;

                Point p3 = _Tg.CreatePoint(
                    p2.X - xAxis.X * revDepth,
                    p2.Y - xAxis.Y * revDepth,
                    p2.Z - xAxis.Z * revDepth);

                Point p4 = _Tg.CreatePoint(
                    p1.X - xAxis.X * revDepth,
                    p1.Y - xAxis.Y * revDepth,
                    p1.Z - xAxis.Z * revDepth);

                SketchPoint skp1 = sketch.SketchPoints.Add(
                    sketch.ModelToSketchSpace(p1), false);

                SketchPoint skp2 = sketch.SketchPoints.Add(
                    sketch.ModelToSketchSpace(p2), false);

                SketchPoint skp3 = sketch.SketchPoints.Add(
                    sketch.ModelToSketchSpace(p3), false);

                SketchPoint skp4 = sketch.SketchPoints.Add(
                    sketch.ModelToSketchSpace(p4), false);

                sketch.SketchLines.AddByTwoPoints(skp1, skp2);
                sketch.SketchLines.AddByTwoPoints(skp2, skp3);
                sketch.SketchLines.AddByTwoPoints(skp3, skp4);
                sketch.SketchLines.AddByTwoPoints(skp4, skp1);

                Profile profile = sketch.Profiles.AddForSolid(true,
                                                              null, null);

                RevolveFeature rev1 =
                    compDef.Features.RevolveFeatures.AddFull(
                        profile,
                        yWa,
                        PartFeatureOperationEnum.kCutOperation);

                sketch = compDef.Sketches.AddWithOrientation(wpl,
                                                             xWa, true, true, wpt, false);

                skp1 = sketch.SketchPoints.Add(
                    sketch.ModelToSketchSpace(p1), false);

                skp2 = sketch.SketchPoints.Add(
                    sketch.ModelToSketchSpace(p2), false);

                skp3 = sketch.SketchPoints.Add(
                    sketch.ModelToSketchSpace(p3), false);

                skp4 = sketch.SketchPoints.Add(
                    sketch.ModelToSketchSpace(p4), false);

                sketch.SketchLines.AddByTwoPoints(skp1, skp2);
                sketch.SketchLines.AddByTwoPoints(skp2, skp3);
                sketch.SketchLines.AddByTwoPoints(skp3, skp4);
                sketch.SketchLines.AddByTwoPoints(skp4, skp1);

                profile = sketch.Profiles.AddForSolid(true, null, null);

                RevolveFeature rev2 =
                    compDef.Features.RevolveFeatures.AddFull(
                        profile,
                        yWa,
                        PartFeatureOperationEnum.kNewBodyOperation);

                return(true);
            }
            catch
            {
                return(false);
            }
        }
Exemplo n.º 24
0
 public ObjectsEnumerator FindUsingVector(Point originPoint, UnitVector direction, SelectionFilterEnum[] objectTypes, bool useCylinder, Object proximityTolerance, bool visibleObjectsOnly, out Object locationPoints)
 {
     return(InternalFindUsingVector(originPoint, direction, objectTypes, useCylinder, proximityTolerance, visibleObjectsOnly, out locationPoints));
 }
Exemplo n.º 25
0
    private int funds;     //Bank (income is handled in TeamManager)

    public Team(Commander co)
    {
        units   = new UnitVector();
        this.co = co;
        coBar   = 0;
    }
 public ObjectsEnumerator FindUsingVector(Point originPoint, UnitVector direction, SelectionFilterEnum[] objectTypes, bool useCylinder, Object proximityTolerance, bool visibleObjectsOnly, out Object locationPoints)
 {
     return InternalFindUsingVector( originPoint,  direction,  objectTypes,  useCylinder,  proximityTolerance,  visibleObjectsOnly, out  locationPoints);
 }
Exemplo n.º 27
0
        internal static bool AreSame(UnitVector u1, UnitVector u2)
        {
            var sin = u1 ^ u2;

            return(Math.Abs(sin) < angleTolSin && u1 * u2 > 0);
        }
        ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
        //
        //
        ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
        private static RectangularPatternFeature[] CopyRectangularPatternFeature(PartComponentDefinition partCompDef,
                                                                                 RectangularPatternFeature AsmFeature,
                                                                                 Matrix invTransfo,
                                                                                 int elementIdx,
                                                                                 ComponentOccurrence occurrence,
                                                                                 out ReportData[] reports)
        {
            List <RectangularPatternFeature> newFeatures = new List <RectangularPatternFeature>();

            ObjectCollection ParentFeatures = FeatureUtilities.CopyParentFeatures(partCompDef,
                                                                                  AsmFeature.Parent.Document as Document,
                                                                                  AsmFeature.ParentFeatures,
                                                                                  invTransfo,
                                                                                  occurrence,
                                                                                  out reports);

            if (ParentFeatures.Count == 0)
            {
                return(null);
            }

            Sketch3D sketch3D = partCompDef.Sketches3D.Add();

            List <RectangularPatternFeatureData> FeaturesDataList = new List <RectangularPatternFeatureData>();

            //Only along X Axis
            if (AsmFeature.XDirectionEntity != null && AsmFeature.YDirectionEntity == null)
            {
                UnitVector xDirection = FeatureUtilities.GetDirection(AsmFeature.XDirectionEntity);
                xDirection.TransformBy(invTransfo);

                Point         xDirStartPoint   = null;
                WorkAxis      xDirAxis         = null;
                SketchPoint3D xDirStartPoint3D = null;

                try
                {
                    xDirStartPoint = FeatureUtilities.GetPoint(AsmFeature.XDirectionStartPoint);
                    xDirStartPoint.TransformBy(invTransfo);

                    xDirAxis = partCompDef.WorkAxes.AddFixed(xDirStartPoint, xDirection, FeatureUtilities.ConstructionWorkAxis);

                    xDirStartPoint3D = sketch3D.SketchPoints3D.Add(xDirStartPoint, false);
                }
                catch
                {
                    xDirAxis = partCompDef.WorkAxes.AddFixed(partCompDef.WorkPoints[1].Point, xDirection, FeatureUtilities.ConstructionWorkAxis);
                }

                double count1 = (double)(AsmFeature.XCount.Value) - elementIdx + 1;

                //Check it's not the last pattern element
                if (count1 != 0 && elementIdx != (double)(AsmFeature.XCount.Value))
                {
                    RectangularPatternFeatureData featureData = newRectangularPatternFeatureData();

                    featureData.xCount = count1;

                    featureData.xSpacing = AsmFeature.XSpacing.Value;

                    featureData.naturalXDirection = AsmFeature.NaturalXDirection;

                    featureData.xDirectionSpacingType = AsmFeature.XDirectionSpacingType;

                    featureData.xDirAxis = xDirAxis;

                    featureData.xDirStartPoint3D = xDirStartPoint3D;

                    FeaturesDataList.Add(featureData);
                }

                double count2 = elementIdx;

                //Check it's not the first pattern element
                if (count2 != 0 && elementIdx != 1)
                {
                    RectangularPatternFeatureData featureData = newRectangularPatternFeatureData();

                    featureData.xCount = count2;

                    featureData.xSpacing = AsmFeature.XSpacing.Value;

                    featureData.naturalXDirection = !AsmFeature.NaturalXDirection;

                    featureData.xDirectionSpacingType = AsmFeature.XDirectionSpacingType;

                    featureData.xDirAxis = xDirAxis;

                    featureData.xDirStartPoint3D = xDirStartPoint3D;

                    FeaturesDataList.Add(featureData);
                }
            }

            //Only along Y Axis
            if (AsmFeature.YDirectionEntity != null && AsmFeature.XDirectionEntity == null)
            {
            }

            //Only along both Axes
            if (AsmFeature.XDirectionEntity != null && AsmFeature.YDirectionEntity != null)
            {
            }

            foreach (RectangularPatternFeatureData featureData in FeaturesDataList)
            {
                RectangularPatternFeature newFeature = partCompDef.Features.RectangularPatternFeatures.Add(ParentFeatures,

                                                                                                           featureData.xDirAxis,
                                                                                                           featureData.naturalXDirection,
                                                                                                           featureData.xCount,
                                                                                                           featureData.xSpacing,
                                                                                                           featureData.xDirectionSpacingType,
                                                                                                           featureData.xDirStartPoint3D,

                                                                                                           featureData.yDirAxis,
                                                                                                           featureData.naturalYDirection,
                                                                                                           featureData.yCount,
                                                                                                           featureData.ySpacing,
                                                                                                           featureData.yDirectionSpacingType,
                                                                                                           featureData.yDirStartPoint3D,

                                                                                                           AsmFeature.ComputeType,
                                                                                                           AsmFeature.OrientationMethod);

                foreach (FeaturePatternElement element in newFeature.PatternElements)
                {
                    if (newFeature.HealthStatus == HealthStatusEnum.kUpToDateHealth)
                    {
                        break;
                    }

                    if (element.Faces.Count == 0 && element.Index != 1)
                    {
                        element.Suppressed = true;
                    }
                }

                if (newFeature != null)
                {
                    newFeatures.Add(newFeature);
                }
            }

            return(newFeatures.ToArray());
        }
Exemplo n.º 29
0
        public static void addProjectCut(PartDocument oDoc, WorkPlane oWpReference, bool manual = false)
        {
            SheetMetalComponentDefinition oCompDef = (SheetMetalComponentDefinition)oDoc.ComponentDefinition;

            WorkPlane oWpWork = oCompDef.WorkPlanes.AddByPlaneAndOffset(oWpReference, 0);

            oWpWork.Name    = "wpWork";
            oWpWork.Visible = false;

            PlanarSketch oSketch     = oCompDef.Sketches.Add(oWpWork);
            ProjectedCut oProjectCut = oSketch.ProjectedCuts.Add();

            if (!manual)
            {
                int tmpSegmThk = countThicknessSegment(oProjectCut.SketchEntities);

                int    loop   = 0;
                double offset = 1;
                while (tmpSegmThk != 2)
                {
                    // Devo spostare il piano se ci sono cose nel mezzo
                    oWpWork.SetByPlaneAndOffset(oWpReference, offset);

                    tmpSegmThk = countThicknessSegment(oProjectCut.SketchEntities);
                    loop++;

                    offset += offset;

                    if (loop == 20)
                    {
                        throw new Exception("Numero massimo offset piano.");
                    }
                }

                oProjectCut.Delete();

                oProjectCut = oSketch.ProjectedCuts.Add();
            }

            List <ObjectCollection> dataLine = splittoLinea(oProjectCut.SketchEntities);

            ObjectCollection linea = lengthPerimetro();

            TransientGeometry oTransGeom     = iApp.TransientGeometry;
            UnitVector        oNormalVector  = oSketch.PlanarEntityGeometry.Normal;
            UnitVector2d      oLineDir       = linea[1].Geometry.Direction;
            UnitVector        oLineVector    = (UnitVector)oTransGeom.CreateUnitVector(oLineDir.X, oLineDir.Y, 0);
            UnitVector        oOffsetVector  = (UnitVector)oLineVector.CrossProduct(oNormalVector);
            UnitVector        oDesiredVector = (UnitVector)oTransGeom.CreateUnitVector(0, 1, 0);

            bool bNaturalOffsetDir;

            if (oOffsetVector.IsEqualTo(oDesiredVector))
            {
                bNaturalOffsetDir = true;
            }
            else
            {
                bNaturalOffsetDir = false;
            }

            SketchEntitiesEnumerator oSSketchEntitiesEnum = oSketch.OffsetSketchEntitiesUsingDistance(linea, 0.5, bNaturalOffsetDir, false);

            oProjectCut.Delete();

            styleSketch(oSketch.SketchEntities);

            int countThicknessSegment(SketchEntitiesEnumerator oSketchEntities)
            {
                int result = 0;

                foreach (SketchEntity e in oSketchEntities)
                {
                    if (e.Type == ObjectTypeEnum.kSketchLineObject)
                    {
                        SketchLine oSketchLine = (SketchLine)e;

                        double length = Math.Round(oSketchLine.Length * 100) / 100;

                        if (length == Math.Round(oCompDef.Thickness.Value * 100) / 100)
                        {
                            result++;
                        }
                    }
                }

                return(result);
            }

            List <ObjectCollection> splittoLinea(SketchEntitiesEnumerator oSketchEntities)
            {
                List <ObjectCollection> tmp = new List <ObjectCollection>();

                tmp.Add(iApp.TransientObjects.CreateObjectCollection());
                tmp.Add(iApp.TransientObjects.CreateObjectCollection());
                tmp.Add(iApp.TransientObjects.CreateObjectCollection());

                int indice = 0;

                foreach (SketchEntity oSketchEntity in oSketchEntities)
                {
                    if (oSketchEntity.Type != ObjectTypeEnum.kSketchPointObject)
                    {
                        if (oSketchEntity.Type == ObjectTypeEnum.kSketchLineObject)
                        {
                            SketchLine oSketchLine = (SketchLine)oSketchEntity;

                            if (Math.Round(oSketchLine.Length * 100) / 100 == Math.Round(oCompDef.Thickness.Value * 100) / 100)
                            {
                                if (indice == 0)
                                {
                                    indice = 1;
                                }
                                else
                                {
                                    indice = 2;
                                }
                            }
                            else
                            {
                                tmp[indice].Add(oSketchEntity);
                            }
                        }

                        if (oSketchEntity.Type == ObjectTypeEnum.kSketchArcObject)
                        {
                            tmp[indice].Add(oSketchEntity);
                        }
                    }
                }

                foreach (SketchEntity oSketchEntity in tmp[0])
                {
                    tmp[2].Add(oSketchEntity);
                }

                List <ObjectCollection> result = new List <ObjectCollection>();

                result.Add(tmp[1]);
                result.Add(tmp[2]);

                return(result);
            }

            void styleSketch(SketchEntitiesEnumerator oSketchEntities)
            {
                foreach (SketchEntity oSe in oSketchEntities)
                {
                    if (oSe.Type == ObjectTypeEnum.kSketchLineObject)
                    {
                        SketchLine se = (SketchLine)oSe;

                        se.OverrideColor = iApp.TransientObjects.CreateColor(0, 0, 255);
                        se.LineType      = LineTypeEnum.kDashDottedLineType;
                    }
                    else if (oSe.Type == ObjectTypeEnum.kSketchArcObject)
                    {
                        SketchArc sa = (SketchArc)oSe;

                        sa.OverrideColor = iApp.TransientObjects.CreateColor(0, 0, 255);
                        sa.LineType      = LineTypeEnum.kDashDottedLineType;
                    }
                }
            }

            ObjectCollection lengthPerimetro()
            {
                double l0 = 0;
                double l1 = 0;

                foreach (SketchEntity oSE in dataLine[0])
                {
                    if (oSE.Type == ObjectTypeEnum.kSketchLineObject)
                    {
                        SketchLine se = (SketchLine)oSE;

                        l0 = l0 + se.Length;
                    }
                    else if (oSE.Type == ObjectTypeEnum.kSketchArcObject)
                    {
                        SketchArc se = (SketchArc)oSE;

                        l0 = l0 + se.Length;
                    }
                }
                foreach (SketchEntity oSE in dataLine[1])
                {
                    if (oSE.Type == ObjectTypeEnum.kSketchLineObject)
                    {
                        SketchLine se = (SketchLine)oSE;

                        l1 = l1 + se.Length;
                    }
                    else if (oSE.Type == ObjectTypeEnum.kSketchArcObject)
                    {
                        SketchArc se = (SketchArc)oSE;

                        l1 = l1 + se.Length;
                    }
                }

                if (l0 > l1)
                {
                    return(dataLine[0]);
                }
                else
                {
                    return(dataLine[1]);
                }
            }
        }
Exemplo n.º 30
0
        ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
        // Use: Returns two orthogonal vectors depending on the input normal
        //
        ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
        public static void GetOrthoBase(UnitVector normal,
            out UnitVector xAxis,
            out UnitVector yAxis)
        {
            xAxis = GetOrthoVector(normal);

            yAxis = normal.CrossProduct(xAxis);
        }
Exemplo n.º 31
0
        ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
        //
        //
        ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
        public bool UpdateFeatureFromAsm(PartFeature AsmFeature,
                                         PartFeature PartFeature,
                                         Matrix invTransfo)
        {
            ExtrudeFeature asmFeature  = AsmFeature as ExtrudeFeature;
            ExtrudeFeature partFeature = PartFeature as ExtrudeFeature;

            try
            {
                PartComponentDefinition partCompDef = partFeature.Parent as PartComponentDefinition;

                PlanarSketch partSketch = partFeature.Profile.Parent as PlanarSketch;

                UnitVector xAxis = null;
                UnitVector yAxis = null;

                FeatureUtilities.UpdateSketch(asmFeature.Profile.Parent as PlanarSketch,
                                              partSketch,
                                              invTransfo,
                                              out xAxis,
                                              out yAxis);

                Document asmDocument = asmFeature.Parent.Document as Document;

                bool suppressed = partFeature.Suppressed;

                //Feature needs to be suppressed if we change the Profile
                partFeature.Suppressed = true;

                Profile newPartProfile = FeatureUtilities.UpdateProfile(asmDocument,
                                                                        partCompDef.Document as Document,
                                                                        asmFeature.Profile,
                                                                        partFeature.Profile,
                                                                        true);

                if (newPartProfile != null)
                {
                    partFeature.Profile = newPartProfile;
                }

                partFeature.Suppressed = suppressed;

                partFeature.TaperAngle.Value = asmFeature.TaperAngle.Value;

                if (FeatureUtilities.UpdateFeatureExtent(asmFeature.Extent, partFeature.Extent, invTransfo))
                {
                    return(true);
                }

                switch (asmFeature.ExtentType)
                {
                case PartFeatureExtentEnum.kThroughAllExtent:
                {
                    ThroughAllExtent asmThroughAllExtent = asmFeature.Extent as ThroughAllExtent;

                    partFeature.SetThroughAllExtent(asmThroughAllExtent.Direction);

                    break;
                }

                case PartFeatureExtentEnum.kDistanceExtent:
                {
                    DistanceExtent asmDistanceExtent = asmFeature.Extent as DistanceExtent;

                    partFeature.SetDistanceExtent(asmDistanceExtent.Distance.Value, asmDistanceExtent.Direction);

                    break;
                }

                case PartFeatureExtentEnum.kToExtent:
                {
                    ToExtent asmToExtent = asmFeature.Extent as ToExtent;

                    object ToEntity = FeatureUtilities.CopyFromToEntity(asmToExtent.ToEntity,
                                                                        partCompDef,
                                                                        invTransfo);

                    partFeature.SetToExtent(ToEntity, false);

                    break;
                }

                case PartFeatureExtentEnum.kFromToExtent:
                {
                    FromToExtent asmFromToExtent = asmFeature.Extent as FromToExtent;

                    object FromEntity = FeatureUtilities.CopyFromToEntity(asmFromToExtent.FromFace,
                                                                          partCompDef,
                                                                          invTransfo);

                    object ToEntity = FeatureUtilities.CopyFromToEntity(asmFromToExtent.ToFace,
                                                                        partCompDef,
                                                                        invTransfo);

                    partFeature.SetFromToExtent(FromEntity, false, ToEntity, false);

                    break;
                }

                default:
                    return(false);
                }

                return(true);
            }
            catch
            {
                //Something went wrong
                return(false);
            }
        }
Exemplo n.º 32
0
        /// <summary>
        /// Returns two orthogonal vectors depending on the input normal
        /// </summary>
        /// <returns>Void</returns>
        public static void GetOrthoBase(UnitVector normal, out UnitVector xAxis, out UnitVector yAxis)
        {
            xAxis = GetOrthoVector(normal);

            yAxis = normal.CrossProduct(xAxis);
        }
Exemplo n.º 33
0
        ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
        //
        //
        ////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
        public PartFeature CopyFeature(PartComponentDefinition partCompDef,
                                       PartFeature AsmFeature,
                                       Matrix invTransfo)
        {
            try
            {
                ExtrudeFeature extrudeFeature = AsmFeature as ExtrudeFeature;

                ExtrudeFeature newFeature = null;

                UnitVector xAxis = null;
                UnitVector yAxis = null;

                PlanarSketch asmSketch = extrudeFeature.Profile.Parent as PlanarSketch;

                PlanarSketch partSketch = FeatureUtilities.CopySketch(partCompDef,
                                                                      asmSketch,
                                                                      invTransfo,
                                                                      out xAxis,
                                                                      out yAxis);

                ObjectCollection pathSegments = FeatureUtilities.GetPathSegments(extrudeFeature.Profile,
                                                                                 partSketch);

                Profile partProfile = partSketch.Profiles.AddForSolid(true, pathSegments, null);

                FeatureUtilities.CopyProfile(extrudeFeature.Profile, partProfile);

                switch (extrudeFeature.ExtentType)
                {
                case PartFeatureExtentEnum.kThroughAllExtent:
                {
                    ThroughAllExtent ThroughAllExtent = extrudeFeature.Extent as ThroughAllExtent;

                    newFeature = partCompDef.Features.ExtrudeFeatures.AddByThroughAllExtent(partProfile,
                                                                                            ThroughAllExtent.Direction,
                                                                                            extrudeFeature.Operation,
                                                                                            extrudeFeature.TaperAngle.Value);

                    break;
                }

                case PartFeatureExtentEnum.kDistanceExtent:
                {
                    DistanceExtent DistanceExtent = extrudeFeature.Extent as DistanceExtent;

                    newFeature = partCompDef.Features.ExtrudeFeatures.AddByDistanceExtent(partProfile,
                                                                                          DistanceExtent.Distance.Value,
                                                                                          DistanceExtent.Direction,
                                                                                          extrudeFeature.Operation,
                                                                                          extrudeFeature.TaperAngle.Value);

                    break;
                }

                case PartFeatureExtentEnum.kToExtent:
                {
                    ToExtent ToExtent = extrudeFeature.Extent as ToExtent;

                    object ToEntity = FeatureUtilities.CopyFromToEntity(ToExtent.ToEntity,
                                                                        partCompDef,
                                                                        invTransfo);

                    newFeature = partCompDef.Features.ExtrudeFeatures.AddByToExtent(partProfile,
                                                                                    ToEntity,
                                                                                    extrudeFeature.Operation,
                                                                                    false,
                                                                                    extrudeFeature.TaperAngle.Value);

                    break;
                }

                case PartFeatureExtentEnum.kFromToExtent:
                {
                    FromToExtent FromToExtent = extrudeFeature.Extent as FromToExtent;

                    object FromEntity = FeatureUtilities.CopyFromToEntity(FromToExtent.FromFace,
                                                                          partCompDef,
                                                                          invTransfo);

                    object ToEntity = FeatureUtilities.CopyFromToEntity(FromToExtent.ToFace,
                                                                        partCompDef,
                                                                        invTransfo);

                    newFeature = partCompDef.Features.ExtrudeFeatures.AddByFromToExtent(partProfile,
                                                                                        FromEntity,
                                                                                        false,
                                                                                        ToEntity,
                                                                                        false,
                                                                                        extrudeFeature.Operation,
                                                                                        extrudeFeature.TaperAngle.Value);

                    break;
                }

                default:
                    break;
                }

                return(newFeature as PartFeature);
            }
            catch
            {
                return(null);
            }
        }
Exemplo n.º 34
0
        private void HandleCollision()
        {
            Vector2 distance        = LocalPosition - PreviousLocation;
            int     stateCount      = (int)distance.Length() + 1;
            Vector2 currentPosition = LocalPosition;
            int     count;

            for (count = 0; count < stateCount; count++)
            {
                LocalPosition = PreviousLocation + count * UnitVelocity;

                var normals = new List <Vector2>();

                if (HitBottomWall())
                {
                    Drop();
                    break;
                }

                if (HitRightWall())
                {
                    normals.Add(UnitVector.Angle180);
                }

                if (HitLeftWall())
                {
                    normals.Add(UnitVector.Angle0);
                }

                if (HitTopWall())
                {
                    normals.Add(UnitVector.Angle270);
                }

                RefreshTouchedBrick();

                normals.AddRange(ListBrick.Instance.GetNormalVectorsWhenTouchBall(this));

                if (normals.Any())
                {
                    Vector2 combineNormal = normals[0];
                    foreach (var normal in normals)
                    {
                        combineNormal = UnitVector.Combine(combineNormal, normal);
                    }
                    LocalPosition = PreviousLocation + (count - 1) * UnitVelocity;
                    if (Reflect(combineNormal))
                    {
                        break;
                    }
                    else
                    {
                        RevertTouchedBricks();
                    }
                }

                ListItemAddBall.Instance.CheckCollisionWithBall(this);
                ListItemClearRow.Instance.CheckCollisionWithBall(this);
                ListItemClearColumn.Instance.CheckCollisionWithBall(this);
                ListItemAddCoin.Instance.CheckCollisionWithBall(this);
                if (ListItemSpreadBall.Instance.CheckCollisionWithBall(this))
                {
                    break;
                }
            }

            if (count == stateCount)
            {
                LocalPosition = currentPosition;
            }
        }
Exemplo n.º 35
0
        //////////////////////////////////////////////////////////////////////////////////////////////
        // Draws dimension graphics
        //
        //////////////////////////////////////////////////////////////////////////////////////////////
        DimData DrawDimension(Point point1, Point point2, Point dimText, Vector normal)
        {
            // Compute extension points
            Vector xAxis = point1.VectorTo(point2);

            Vector upVector = normal.CrossProduct(xAxis);

            upVector.Normalize();

            Plane plane = _Tg.CreatePlane(point1, normal);

            Point dimTextProj = AdnInventorUtilities.ProjectOnPlane(dimText, plane);

            double dotP1 = point1.VectorTo(dimTextProj).DotProduct(upVector);
            double dotP2 = point2.VectorTo(dimTextProj).DotProduct(upVector);

            Point extP1 = _Tg.CreatePoint(
                point1.X + upVector.X * dotP1,
                point1.Y + upVector.Y * dotP1,
                point1.Z + upVector.Z * dotP1);

            Point extP2 = _Tg.CreatePoint(
                point2.X + upVector.X * dotP2,
                point2.Y + upVector.Y * dotP2,
                point2.Z + upVector.Z * dotP2);

            double dimValue = extP1.DistanceTo(extP2);


            GraphicsNode node = _clientGraphicsMng.CreateNewGraphicsNode();

            LineGraphics extLine1 = _clientGraphicsMng.DrawLine(
                AdnInventorUtilities.ToArray(point1),
                AdnInventorUtilities.ToArray(extP1),
                node);

            LineGraphics extLine2 = _clientGraphicsMng.DrawLine(
                AdnInventorUtilities.ToArray(point2),
                AdnInventorUtilities.ToArray(extP2),
                node);

            LineGraphics dimLine = _clientGraphicsMng.DrawLine(
                AdnInventorUtilities.ToArray(extP1),
                AdnInventorUtilities.ToArray(extP2),
                node);

            extLine1.LineType = LineTypeEnum.kDashedLineType;
            extLine2.LineType = LineTypeEnum.kDashedLineType;

            UnitVector v = extP1.VectorTo(extP2).AsUnitVector();

            double length = 20.0;
            double radius = 7.0;

            Point bottom1 = _Tg.CreatePoint(
                extP1.X + length * v.X,
                extP1.Y + length * v.Y,
                extP1.Z + length * v.Z);

            Point bottom2 = _Tg.CreatePoint(
                extP2.X - length * v.X,
                extP2.Y - length * v.Y,
                extP2.Z - length * v.Z);

            SurfaceBody cone1 = _TBrep.CreateSolidCylinderCone(
                bottom1, extP1,
                radius, radius, 0.0, null);

            SurfaceBody cone2 = _TBrep.CreateSolidCylinderCone(
                bottom2, extP2,
                radius, radius, 0.0, null);

            GraphicsNode dimNode = _clientGraphicsMng.CreateNewGraphicsNode();

            SurfaceGraphics arrow1 = _clientGraphicsMng.DrawSurface(cone1, dimNode);
            SurfaceGraphics arrow2 = _clientGraphicsMng.DrawSurface(cone2, dimNode);

            arrow1.SetTransformBehavior(extP1,
                                        DisplayTransformBehaviorEnum.kPixelScaling,
                                        1.0);

            arrow2.SetTransformBehavior(extP2,
                                        DisplayTransformBehaviorEnum.kPixelScaling,
                                        1.0);


            TextGraphics text = _clientGraphicsMng.DrawText(
                AdnInventorUtilities.GetStringFromAPILength(dimValue),
                false,
                dimNode);

            text.Font     = "Arial";
            text.Bold     = false;
            text.Italic   = false;
            text.FontSize = 20;
            text.PutTextColor(221, 0, 0);
            text.VerticalAlignment   = VerticalTextAlignmentEnum.kAlignTextMiddle;
            text.HorizontalAlignment = HorizontalTextAlignmentEnum.kAlignTextLeft;

            Point txtPos = _Tg.CreatePoint(
                (extP1.X + extP2.X) * 0.5,
                (extP1.Y + extP2.Y) * 0.5,
                (extP1.Z + extP2.Z) * 0.5);

            text.Anchor = txtPos;

            text.SetTransformBehavior(txtPos,
                                      DisplayTransformBehaviorEnum.kFrontFacingAndPixelScaling,
                                      1.0);

            node.Selectable    = true;
            dimNode.Selectable = true;

            return(new DimData(point1, point2, extLine1, extLine2, dimLine, dimNode));
        }