/// <summary>
        /// Return geometry for a particular representation item.
        /// </summary>
        /// <param name="shapeEditScope">The geometry creation scope.</param>
        /// <param name="unscaledLcs">The unscaled local coordinate system for the geometry, if the scaled version isn't supported downstream.</param>
        /// <param name="scaledLcs">The scaled (true) local coordinate system for the geometry.</param>
        /// <param name="guid">The guid of an element for which represntation is being created.</param>
        /// <returns>The created geometry.</returns>
        protected override IList <GeometryObject> CreateGeometryInternal(
            IFCImportShapeEditScope shapeEditScope, Transform unscaledLcs, Transform scaledLcs, string guid)
        {
            Transform unscaledObjectPosition = (unscaledLcs == null) ? Position : unscaledLcs.Multiply(Position);
            Transform scaledObjectPosition   = (scaledLcs == null) ? Position : scaledLcs.Multiply(Position);

            CurveLoop baseProfileCurve = Directrix.GetCurveLoop();

            if (baseProfileCurve == null)
            {
                return(null);
            }

            CurveLoop trimmedDirectrix = IFCGeometryUtil.TrimCurveLoop(Id, baseProfileCurve, StartParameter, EndParameter);

            if (trimmedDirectrix == null)
            {
                return(null);
            }

            double    startParam  = 0.0; // If the directrix isn't bound, this arbitrary parameter will do.
            Transform originTrf0  = null;
            Curve     firstCurve0 = trimmedDirectrix.First();

            if (firstCurve0.IsBound)
            {
                startParam = firstCurve0.GetEndParameter(0);
            }
            originTrf0 = firstCurve0.ComputeDerivatives(startParam, false);
            if (originTrf0 == null)
            {
                return(null);
            }

            // Note: the computation of the reference Surface Local Transform must be done before the directrix is transform to LCS (because the ref surface isn't)
            //     and therefore the origin is at the start of the curve should be the start of the directrix that lies on the surface.
            //     This is needed to transform the swept area that must be perpendicular to the start of the directrix curve

            Transform referenceSurfaceLocalTransform = ReferenceSurface.GetTransformAtPoint(originTrf0.Origin);

            CurveLoop trimmedDirectrixInLCS = IFCGeometryUtil.CreateTransformed(trimmedDirectrix, Id, unscaledObjectPosition, scaledObjectPosition);

            // Create the sweep.
            Transform originTrf  = null;
            Curve     firstCurve = trimmedDirectrixInLCS.First();

            //if (firstCurve.IsBound)
            //    startParam = firstCurve.GetEndParameter(0);
            originTrf = firstCurve.ComputeDerivatives(startParam, false);

            Transform unscaledReferenceSurfaceTransform = unscaledObjectPosition.Multiply(referenceSurfaceLocalTransform);
            Transform scaledReferenceSurfaceTransform   = scaledObjectPosition.Multiply(referenceSurfaceLocalTransform);

            Transform profileCurveLoopsTransform = Transform.CreateTranslation(originTrf.Origin);

            profileCurveLoopsTransform.BasisX = scaledReferenceSurfaceTransform.BasisZ;
            profileCurveLoopsTransform.BasisZ = originTrf.BasisX.Normalize();
            profileCurveLoopsTransform.BasisY = profileCurveLoopsTransform.BasisZ.CrossProduct(profileCurveLoopsTransform.BasisX);

            ISet <IList <CurveLoop> > profileCurveLoops = GetTransformedCurveLoops(profileCurveLoopsTransform, profileCurveLoopsTransform);

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

            SolidOptions           solidOptions = new SolidOptions(GetMaterialElementId(shapeEditScope), shapeEditScope.GraphicsStyleId);
            IList <GeometryObject> myObjs       = new List <GeometryObject>();

            foreach (IList <CurveLoop> loops in profileCurveLoops)
            {
                GeometryObject myObj = GeometryCreationUtilities.CreateSweptGeometry(trimmedDirectrixInLCS, 0, startParam, loops, solidOptions);
                if (myObj != null)
                {
                    myObjs.Add(myObj);
                }
            }

            return(myObjs);
        }
Пример #2
0
        /// <summary>
        /// Return geometry for a particular representation item.
        /// </summary>
        /// <param name="shapeEditScope">The geometry creation scope.</param>
        /// <param name="lcs">Local coordinate system for the geometry.</param>
        /// <param name="guid">The guid of an element for which represntation is being created.</param>
        /// <returns>The created geometry.</returns>
        protected override IList <GeometryObject> CreateGeometryInternal(
            IFCImportShapeEditScope shapeEditScope, Transform lcs, Transform scaledLcs, string guid)
        {
            Transform objectPosition = (lcs == null) ? Position : lcs.Multiply(Position);

            CurveLoop baseProfileCurve = Directrix.GetCurveLoop();

            if (baseProfileCurve == null)
            {
                return(null);
            }

            CurveLoop trimmedDirectrix = IFCGeometryUtil.TrimCurveLoop(baseProfileCurve, StartParameter, EndParameter);

            if (trimmedDirectrix == null)
            {
                return(null);
            }

            CurveLoop trimmedDirectrixInLCS = IFCGeometryUtil.CreateTransformed(trimmedDirectrix, objectPosition);

            // Create the sweep.
            double    startParam = 0.0; // If the directrix isn't bound, this arbitrary parameter will do.
            Transform originTrf  = null;
            Curve     firstCurve = trimmedDirectrixInLCS.First();

            if (firstCurve.IsBound)
            {
                startParam = firstCurve.GetEndParameter(0);
            }
            originTrf = firstCurve.ComputeDerivatives(startParam, false);

            if (originTrf == null)
            {
                return(null);
            }

            Transform referenceSurfaceLocalTransform = ReferenceSurface.GetTransformAtPoint(originTrf.Origin);
            Transform referenceSurfaceTransform      = objectPosition.Multiply(referenceSurfaceLocalTransform);

            Transform profileCurveLoopsTransform = Transform.CreateTranslation(originTrf.Origin);

            profileCurveLoopsTransform.BasisX = referenceSurfaceTransform.BasisZ;
            profileCurveLoopsTransform.BasisZ = originTrf.BasisX.Normalize();
            profileCurveLoopsTransform.BasisY = profileCurveLoopsTransform.BasisZ.CrossProduct(profileCurveLoopsTransform.BasisX);

            ISet <IList <CurveLoop> > profileCurveLoops = GetTransformedCurveLoops(profileCurveLoopsTransform);

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

            SolidOptions           solidOptions = new SolidOptions(GetMaterialElementId(shapeEditScope), shapeEditScope.GraphicsStyleId);
            IList <GeometryObject> myObjs       = new List <GeometryObject>();

            foreach (IList <CurveLoop> loops in profileCurveLoops)
            {
                GeometryObject myObj = GeometryCreationUtilities.CreateSweptGeometry(trimmedDirectrixInLCS, 0, startParam, loops, solidOptions);
                if (myObj != null)
                {
                    myObjs.Add(myObj);
                }
            }

            return(myObjs);
        }
Пример #3
0
        /// <summary>
        /// Return geometry for a particular representation item.
        /// </summary>
        /// <param name="shapeEditScope">The geometry creation scope.</param>
        /// <param name="lcs">Local coordinate system for the geometry, without scale.</param>
        /// <param name="scaledLcs">Local coordinate system for the geometry, including scale, potentially non-uniform.</param>
        /// <param name="guid">The guid of an element for which represntation is being created.</param>
        /// <returns>Zero or more created geometries.</returns>
        protected override IList <GeometryObject> CreateGeometryInternal(
            IFCImportShapeEditScope shapeEditScope, Transform lcs, Transform scaledLcs, string guid)
        {
            Transform sweptDiskPosition = (lcs == null) ? Transform.Identity : lcs;

            CurveLoop baseProfileCurve = Directrix.GetCurveLoop();

            if (baseProfileCurve == null)
            {
                return(null);
            }

            CurveLoop trimmedDirectrix = IFCGeometryUtil.TrimCurveLoop(baseProfileCurve, StartParameter, EndParameter);

            if (trimmedDirectrix == null)
            {
                return(null);
            }

            CurveLoop trimmedDirectrixInLCS = IFCGeometryUtil.CreateTransformed(trimmedDirectrix, sweptDiskPosition);

            // Create the disk.
            Transform originTrf  = null;
            double    startParam = 0.0; // If the directrix isn't bound, this arbitrary parameter will do.

            foreach (Curve curve in trimmedDirectrixInLCS)
            {
                if (curve.IsBound)
                {
                    startParam = curve.GetEndParameter(0);
                }
                originTrf = curve.ComputeDerivatives(startParam, false);
                break;
            }

            if (originTrf == null)
            {
                return(null);
            }

            // The X-dir of the transform of the start of the directrix will form the normal of the disk.
            Plane diskPlane = new Plane(originTrf.BasisX, originTrf.Origin);

            IList <CurveLoop> profileCurveLoops = new List <CurveLoop>();

            CurveLoop diskOuterCurveLoop = new CurveLoop();

            diskOuterCurveLoop.Append(Arc.Create(diskPlane, Radius, 0, Math.PI));
            diskOuterCurveLoop.Append(Arc.Create(diskPlane, Radius, Math.PI, 2.0 * Math.PI));
            profileCurveLoops.Add(diskOuterCurveLoop);

            if (InnerRadius.HasValue)
            {
                CurveLoop diskInnerCurveLoop = new CurveLoop();
                diskInnerCurveLoop.Append(Arc.Create(diskPlane, InnerRadius.Value, 0, Math.PI));
                diskInnerCurveLoop.Append(Arc.Create(diskPlane, InnerRadius.Value, Math.PI, 2.0 * Math.PI));
                profileCurveLoops.Add(diskInnerCurveLoop);
            }

            SolidOptions solidOptions   = new SolidOptions(GetMaterialElementId(shapeEditScope), shapeEditScope.GraphicsStyleId);
            Solid        sweptDiskSolid = GeometryCreationUtilities.CreateSweptGeometry(trimmedDirectrixInLCS, 0, startParam, profileCurveLoops,
                                                                                        solidOptions);

            IList <GeometryObject> myObjs = new List <GeometryObject>();

            if (sweptDiskSolid != null)
            {
                myObjs.Add(sweptDiskSolid);
            }
            return(myObjs);
        }
Пример #4
0
        /// <summary>
        /// Return geometry for a particular representation item.
        /// </summary>
        /// <param name="shapeEditScope">The geometry creation scope.</param>
        /// <param name="lcs">Local coordinate system for the geometry, without scale.</param>
        /// <param name="scaledLcs">Local coordinate system for the geometry, including scale, potentially non-uniform.</param>
        /// <param name="guid">The guid of an element for which represntation is being created.</param>
        /// <returns>Zero or more created geometries.</returns>
        protected override IList <GeometryObject> CreateGeometryInternal(
            IFCImportShapeEditScope shapeEditScope, Transform lcs, Transform scaledLcs, string guid)
        {
            Transform sweptDiskPosition = (lcs == null) ? Transform.Identity : lcs;

            CurveLoop baseProfileCurve = Directrix.GetCurveLoop();

            if (baseProfileCurve == null)
            {
                return(null);
            }

            CurveLoop trimmedDirectrix = IFCGeometryUtil.TrimCurveLoop(baseProfileCurve, StartParameter, EndParameter);

            if (trimmedDirectrix == null)
            {
                return(null);
            }

            CurveLoop trimmedDirectrixInWCS = IFCGeometryUtil.CreateTransformed(trimmedDirectrix, sweptDiskPosition);

            // Create the disk.
            Curve firstCurve = null;

            foreach (Curve curve in trimmedDirectrixInWCS)
            {
                firstCurve = curve;
                break;
            }

            double            startParam        = 0.0;
            IList <CurveLoop> profileCurveLoops = CreateProfileCurveLoopsForDirectrix(firstCurve, out startParam);

            if (profileCurveLoops == null)
            {
                return(null);
            }

            SolidOptions           solidOptions = new SolidOptions(GetMaterialElementId(shapeEditScope), shapeEditScope.GraphicsStyleId);
            IList <GeometryObject> myObjs       = new List <GeometryObject>();

            try
            {
                Solid sweptDiskSolid = GeometryCreationUtilities.CreateSweptGeometry(trimmedDirectrixInWCS, 0, startParam, profileCurveLoops,
                                                                                     solidOptions);
                if (sweptDiskSolid != null)
                {
                    myObjs.Add(sweptDiskSolid);
                }
            }
            catch (Exception ex)
            {
                // If we can't create a solid, we will attempt to split the Solid into valid pieces (that will likely have some overlap).
                if (ex.Message.Contains("self-intersections"))
                {
                    Importer.TheLog.LogWarning(Id, "The IfcSweptDiskSolid definition does not define a valid solid, likely due to self-intersections or other such problems; the profile probably extends too far toward the inner curvature of the sweep path. Creating the minimum number of solids possible to represent the geometry.", false);
                    myObjs = SplitSweptDiskIntoValidPieces(trimmedDirectrixInWCS, profileCurveLoops, solidOptions);
                }
                else
                {
                    throw ex;
                }
            }

            return(myObjs);
        }