Exemplo n.º 1
0
        public void AddPerforation()
        {
            if (IsPerforationAdded_)
            {
                return;
            }

            TFCOM.TFPerforatorList perfoList = AppTF.CreateTFPerforator();

            BCOM.ShapeElement perfoContour =
                Task.GetContourShape(BCOM.MsdFillMode.Filled);
            perfoList.InitFromElement(perfoContour,
                                      Task.DepthVec, Task.Depth * 1.01, App.Transform3dIdentity());

            perfoList.SetSweepMode(
                TFCOM.TFdPerforatorSweepMode.tfdPerforatorSweepModeBi);
            //perfoList.SetSenseDist(1.01 * length / 2);
            perfoList.SetPolicy(
                TFCOM.TFdPerforatorPolicy.tfdPerforatorPolicyThroughHoleWithinSenseDist);
            perfoList.SetIsVisible(false);

            FrameList.AsTFFrame.SetPerforatorList(perfoList);
            FrameList.AsTFFrame.SetSenseDistance2(Task.Depth);
            FrameList.AsTFFrame.SetPerforatorsAreActive(true);
            FrameList.Synchronize(string.Empty);

            FrameList.ApplyPerforatorInModel();

            IsPerforationAdded_ = true;
        }
Exemplo n.º 2
0
        BCOM.Element CreatePileCrossSectionElement(IPileProperty pileprop)
        {
            //double uorpermaster = app.ActiveModelReference.UORsPerMasterUnit;
            BCOM.Matrix3d m         = app.Matrix3dIdentity();
            BCOM.Point3d  centroidp = pileprop.PileTopPoint.Point3dToBCOMPoint3d(1e4 / uorpermaster);
            centroidp.Z = 0; // xy平面
            double pilediameter = pileprop.PileDiameter * 1e4 / uorpermaster;
            int    colorindex   = 3;

            if ((pileprop is SquarePileGeometry) || (pileprop is SquarePileGeometry))
            {
                BCOM.Point3d[] squarvertexs =
                {
                    app.Point3dFromXY(pilediameter / 2,  pilediameter / 2),
                    app.Point3dFromXY(-pilediameter / 2, pilediameter / 2),
                    app.Point3dFromXY(-pilediameter / 2, -pilediameter / 2),
                    app.Point3dFromXY(pilediameter / 2, -pilediameter / 2)
                };
                BCOM.ShapeElement shape = app.CreateShapeElement1(null, ref squarvertexs, BCOM.MsdFillMode.NotFilled);
                shape.Move(ref centroidp);
                shape.Color = colorindex;
                return(shape);
            }
            else
            {
                var c = app.CreateEllipseElement2(null, ref centroidp, pilediameter / 2, pilediameter / 2, ref m, BCOM.MsdFillMode.NotFilled);
                c.Color = colorindex;
                return(c);
            }
        }
Exemplo n.º 3
0
 public static bool GetPlane3DByPoints(out BCOM.Plane3d plane, BCOM.Point3d[] polygon)
 {
     plane = new BCOM.Plane3d();
     BCOM.ShapeElement shape = App.CreateShapeElement1(null, polygon);
     if (shape.IsPlanar)
     {
         plane.Origin = shape.Centroid();
         plane.Normal = shape.Normal;
         return(true);
     }
     return(false);
 }
Exemplo n.º 4
0
        public Opening(OpeningTask task)
        {
            Task      = task;
            FrameList = new TFCOM.TFFrameListClass();

            BCOM.Level level = ElementHelper.GetOrCreateLevel(LEVEL_NAME);

            contour_ = task.GetContourShape();

            BCOM.SmartSolidElement body =
                App.SmartSolid.ExtrudeClosedPlanarCurve(contour_, task.Depth, 0.0, false);
            body.Level = level;
            ElementHelper.setSymbologyByLevel(body);

            FrameList.Add3DElement(body);
            FrameList.AsTFFrame.SetName(CELL_NAME);
        }
Exemplo n.º 5
0
        public static bool getFacePlaneByLabel(out BCOM.Plane3d plane,
                                               TFCOM.TFBrepList brepList, TFCOM.TFdFaceLabel faceLabel)
        {
            plane = new BCOM.Plane3d();
            TFCOM.TFPlane tfPlane;

            var faceList =
                brepList.GetFacesByLabel(faceLabel) as TFCOM.TFBrepFaceListClass;

            if (faceList != null && faceList.IsPlanar(out tfPlane))
            {
                tfPlane.GetNormal(out plane.Normal);

                { // origin:
                    BCOM.Point3d[] verts;
                    faceList.AsTFBrepFace.GetVertexLocations(out verts);
                    BCOM.ShapeElement shape = App.CreateShapeElement1(null, verts);

                    plane.Origin = shape.Centroid();
                }
                return(true);
            }
            return(false);
        }
Exemplo n.º 6
0
        public static bool getFromElement(Element element, XDocument attrsXDoc,
                                          out OpeningTask task)
        {
            task = null;

            BCOM.Element bcomEl = element.ToElementCOM();

            var tfEl = AppTF.CreateTFElement();

            tfEl.InitFromElement(bcomEl);

            var tfElType = (TFCOM.TFdElementType)tfEl.AsTFElement.GetApplicationType();

            //if (tfElType != TFCOM.TFdElementType.tfdElementTypeEBrep)
            //{
            //    return false;
            //}

            BCOM.CellElement cell = element.ToCellElementCOM();


            var brep = AppTF.CreateTFBrep();

            brep.InitFromElement(bcomEl, App.ActiveModelReference);

            BCOM.Point3d[] verts;
            brep.GetVertexLocations(out verts);

            if (verts == null || verts.Count() < 8)
            {
                return(false);
            }

            if (verts.Count() > 8)
            {
                // встречались случаи с количеством вершин 24 шт.
                verts = new HashSet <BCOM.Point3d>(verts).Take(8).ToArray();
            }

            var formsIntersected = new List <TFCOM.TFElementList>();

            { // Пересечения со стеной/плитой/аркой;
                foreach (BCOM.Element current in bcomEl.scanIntersectsInElementRange())
                {
                    TFCOM.TFElementList tfList = AppTF.CreateTFElement();
                    tfList.InitFromElement(current);

                    if (tfList.AsTFElement == null)
                    {
                        continue;
                    }

                    int tfType = tfList.AsTFElement.GetApplicationType();

                    if (isAvaliableTFFromType(tfType))
                    {
                        //if (tfList.AsTFElement.GetIsFormType())
                        //{
                        formsIntersected.Add(tfList);
                        //}
                    }
                }
            }

            var planeFirst  = new BCOM.Plane3d();
            var planeSecond = new BCOM.Plane3d();

            TFFormTypeEnum formType = TFFormTypeEnum.UNDEFINED;

            bool planesAreFound = false;

            if (formsIntersected.Count > 0)
            {
                // todo определение граней параллельных поверхности стены/плиты/арки;

                var          tfElement = formsIntersected.First().AsTFElement;
                BCOM.Element formElement;
                tfElement.GetElement(out formElement);

                formType = ElementHelper.ParseFormType(tfElement.GetApplicationType());

                switch (formType)
                {
                case TFFormTypeEnum.TF_LINEAR_FORM_ELM:
                    planesAreFound = ElementHelper.getFacePlaneByLabel(out planeFirst,
                                                                       formElement, TFCOM.TFdFaceLabel.tfdFaceLabelLeft);
                    planesAreFound &= ElementHelper.getFacePlaneByLabel(out planeSecond,
                                                                        formElement, TFCOM.TFdFaceLabel.tfdFaceLabelRight);
                    break;

                case TFFormTypeEnum.TF_SLAB_FORM_ELM:
                    planesAreFound = ElementHelper.getFacePlaneByLabel(out planeFirst,
                                                                       formElement, TFCOM.TFdFaceLabel.tfdFaceLabelTop);
                    planesAreFound &= ElementHelper.getFacePlaneByLabel(out planeSecond,
                                                                        formElement, TFCOM.TFdFaceLabel.tfdFaceLabelBase);
                    break;

                case TFFormTypeEnum.TF_ARC_FORM_ELM:
                    // TODO РАДИАЛЬНЫЕ СТЕНЫ
                    break;

                case TFFormTypeEnum.TF_EBREP_ELM:
                case TFFormTypeEnum.TF_SMOOTH_FORM_ELM:

                    TFCOM.TFBrepList brepList = AppTF.CreateTFBrep();
                    brepList.InitFromElement(formElement, App.ActiveModelReference);

                    planesAreFound = ElementHelper.getFacePlaneByLabel(out planeFirst,
                                                                       brepList, TFCOM.TFdFaceLabel.tfdFaceLabelTop);

                    var intersectedPlanes = new List <TFCOM.TFPlane>();

                    TFCOM.TFPlane tfPlane;
                    IEnumerable <TFCOM.TFBrepFace> faceLists = brepList.GetFacesEx();
                    foreach (var faceList in faceLists)
                    {
                        if (faceList.IsPlanarAndIntersectsElement(bcomEl, out tfPlane))
                        {
                            intersectedPlanes.Add(tfPlane);
                        }
                    }

                    if (intersectedPlanes.Count > 2)
                    {
                        // TODO ??

                        /*
                         *  1. собрать коллекцию с суммой площадей параллельных поверхностей
                         *  2. у большей коллекции по суммарной площади вычислить нормаль
                         *  3. выбирать плоскости проекции задания в соответсвии с выбранной нормалью
                         */

                        var facesInfo = new List <FaceInfo>();
                        foreach (var faceList in faceLists)
                        {
                            TFCOM.TFPlane faceTFPlane;
                            if (faceList.IsPlanar(out faceTFPlane))
                            {
                                double area;
                                faceList.GetArea(out area, string.Empty);
                                BCOM.Plane3d plane3D = faceTFPlane.ToPlane3d();

                                FaceInfo faceInfo = facesInfo.FirstOrDefault(x =>
                                                                             x.Normal.IsVectorParallelTo(plane3D.Normal));

                                if (faceInfo.Area == 0)
                                {
                                    facesInfo.Add(new FaceInfo()
                                    {
                                        Area = area, Normal = plane3D.Normal
                                    });
                                }
                                else
                                {
                                    faceInfo.Area += area;
                                }
                            }
                        }
                        facesInfo.Sort((x, y) => - 1 * x.Area.CompareTo(y.Area));

                        FaceInfo faceTarget = facesInfo[0];

                        intersectedPlanes.RemoveAll((x) => {
                            BCOM.Point3d norm;
                            x.GetNormal(out norm);

                            return(!norm.IsVectorParallelTo(faceTarget.Normal));
                        });
                        ;
                    }

                    if (intersectedPlanes.Count == 2)
                    {
                        // ! должно выполняться условие параллельности
                        planeFirst  = intersectedPlanes[0].ToPlane3d();
                        planeSecond = intersectedPlanes[1].ToPlane3d();

                        planesAreFound = planeFirst.IsParallelTo(planeSecond);
                    }

                    {
                        /* TODO
                         * Если только одна поверхность:
                         *  1. через точку контура провести нормаль
                         *  2. найти поверхности, кот. пересекает нормаль
                         */
                    }

                    break;
                }
            }

            if (!planesAreFound)
            {
                return(false);
            }

            {
                // корректировка плоскостей относительно пользователя
                BCOM.Point3d projOrigin =
                    planeFirst.Origin.ProjectToPlane3d(planeSecond);

                switch (formType)
                {
                case TFFormTypeEnum.TF_LINEAR_FORM_ELM:
                    if ((int)projOrigin.Y < (int)planeFirst.Origin.Y ||
                        (int)projOrigin.X > (int)planeFirst.Origin.X)
                    {
                        BCOM.Plane3d buff = planeFirst;
                        planeFirst  = planeSecond;
                        planeSecond = buff;
                    }
                    break;

                case TFFormTypeEnum.TF_SLAB_FORM_ELM:
                case TFFormTypeEnum.TF_FREE_FORM_ELM:
                    if ((int)projOrigin.Z > (int)planeFirst.Origin.Z)
                    {
                        BCOM.Plane3d buff = planeFirst;
                        planeFirst  = planeSecond;
                        planeSecond = buff;
                    }
                    break;
                }
            }

            { // Определение параметров контура:
                var sorted = new List <VertexInfo>();
                foreach (BCOM.Point3d pt in verts)
                {
                    var projPt = pt.ProjectToPlane3d(planeFirst);
                    sorted.Add(new VertexInfo()
                    {
                        Distance = App.Point3dDistance(pt, projPt),
                        Point    = projPt
                    });
                }
                sorted.Sort();
                var firstFaceBounds = sorted.Take(4).Select(x => x.Point);

                var checkSet = new HashSet <BCOM.Point3d>(firstFaceBounds);
                if (checkSet.Count < 4)
                {
                    return(false);
                }

                sorted.Clear();
                foreach (BCOM.Point3d pt in verts)
                {
                    var projPt = pt.ProjectToPlane3d(planeSecond);
                    sorted.Add(new VertexInfo()
                    {
                        Distance = App.Point3dDistance(pt, projPt),
                        Point    = projPt
                    });
                }
                sorted.Sort();
                var secondFaceBounds = sorted.Take(4).Select(x => x.Point);
                checkSet = new HashSet <BCOM.Point3d>(secondFaceBounds);
                if (checkSet.Count < 4)
                {
                    return(false);
                }

                var pts = firstFaceBounds.ToArray();

                var dimensions = new List <DimensionInfo>()
                {
                    new DimensionInfo(pts[0], pts[1]),
                    new DimensionInfo(pts[0], pts[2]),
                    new DimensionInfo(pts[0], pts[3]),
                };
                dimensions.Sort();

                if (planeFirst.IsParallelTo(App.GetPlane3dXY()))
                {
                    // TOTO ширина и высота относительно ориентации
                }

                // опорная точка Origin:
                //contourOrigin
                BCOM.ShapeElement contour         = App.CreateShapeElement1(null, pts);
                BCOM.Point3d      projOriginFirst =
                    contour.Centroid().ProjectToPlane3d(planeFirst);

                task = new OpeningTask();
                { // инициализация объекта задания
                    XDocument xDoc = ElementHelper.getSp3dXDocument(element);
                    xDoc.Merge(attrsXDoc);
                    Sp3dToDGMapping.Instance.LoadValuesFromXDoc(xDoc, task.DataGroupPropsValues);

                    // TODO
                    //task.Code = xDoc.Root.
                    //    getChildByRegexPath("P3DEquipment/Name", out propName)?.Value;
                    //string propName;

                    task.Origin = projOriginFirst;

                    { // Высота
                        task.Height    = dimensions[0].Length;
                        task.HeigthVec = App.Point3dNormalize(dimensions[0].Vector);
                    }
                    { // Ширина
                        task.Width    = dimensions[1].Length;
                        task.WidthVec = App.Point3dNormalize(dimensions[1].Vector);
                    }
                    { // Глубина
                        BCOM.Point3d projOriginSecond =
                            projOriginFirst.ProjectToPlane3d(planeSecond);
                        task.Depth = Math.Round(
                            App.Point3dDistance(projOriginFirst, projOriginSecond), 5);
                        task.DepthVec = App.Point3dNormalize(
                            App.Point3dSubtract(projOriginSecond, projOriginFirst));
                    }
                }
            }
            return(true);
        }