Exemplo n.º 1
0
        public XbimGeometryData TransformBy(XbimMatrix3D matrix)
        {
            XbimMatrix3D t = XbimMatrix3D.FromArray(DataArray2);

            t = XbimMatrix3D.Multiply(t, matrix);
            return(new XbimGeometryData(GeometryLabel, IfcProductLabel, GeometryType, IfcTypeId, ShapeData, t.ToArray(), GeometryHash, StyleLabel, Counter));
        }
Exemplo n.º 2
0
        public void MatrixArrayConversion()
        {
            var m = XbimMatrix3D.CreateTranslation(10, 20, 30);

            m.RotateAroundXAxis(Math.PI / 4);
            m.Scale(.05);

            var outM  = m.ToArray(true);
            var rback = XbimMatrix3D.FromArray(outM);

            Assert.AreEqual(rback.M11, m.M11);
            Assert.AreEqual(rback.M12, m.M12);
            Assert.AreEqual(rback.M13, m.M13);
            Assert.AreEqual(rback.M14, m.M14);

            Assert.AreEqual(rback.M21, m.M21);
            Assert.AreEqual(rback.M22, m.M22);
            Assert.AreEqual(rback.M23, m.M23);
            Assert.AreEqual(rback.M24, m.M24);

            Assert.AreEqual(rback.M31, m.M31);
            Assert.AreEqual(rback.M32, m.M32);
            Assert.AreEqual(rback.M33, m.M33);
            Assert.AreEqual(rback.M34, m.M34);

            Assert.AreEqual(rback.OffsetX, m.OffsetX);
            Assert.AreEqual(rback.OffsetY, m.OffsetY);
            Assert.AreEqual(rback.OffsetZ, m.OffsetZ);
            Assert.AreEqual(rback.M44, m.M44);
        }
Exemplo n.º 3
0
        /// <summary>
        /// Appends a geometry data object to the Mesh, returns false if the mesh would become too big and needs splitting
        /// </summary>
        /// <param name="geometryMeshData"></param>
        public bool Add(XbimGeometryData geometryMeshData, short modelId = 0)
        {
            var transform = XbimMatrix3D.FromArray(geometryMeshData.DataArray2);

            if (geometryMeshData.GeometryType == XbimGeometryType.TriangulatedMesh)
            {
                var strm     = new XbimTriangulatedModelStream(geometryMeshData.ShapeData);
                var fragment = strm.BuildWithNormals(this, transform, modelId);
                if (fragment.EntityLabel == -1) //nothing was added due to size being exceeded
                {
                    return(false);
                }
                fragment.EntityLabel  = geometryMeshData.IfcProductLabel;
                fragment.EntityTypeId = geometryMeshData.IfcTypeId;
                _meshes.Add(fragment);
            }
            else if (geometryMeshData.GeometryType == XbimGeometryType.BoundingBox)
            {
                var r3D = XbimRect3D.FromArray(geometryMeshData.ShapeData);
                Add(MakeBoundingBox(r3D, transform), geometryMeshData.IfcProductLabel, IfcMetaData.GetType(geometryMeshData.IfcTypeId), modelId);
            }
            else
            {
                throw new XbimException("Illegal geometry type found");
            }
            return(true);
        }
Exemplo n.º 4
0
        public void ReadAndWriteWexBimFile()
        {
            using (var m = IfcStore.Open("SolidTestFiles\\19 - TwoProxy.ifc"))
            {
                var m3D = new Xbim3DModelContext(m);
                m3D.CreateContext();
                using (var bw = new BinaryWriter(new FileStream("test.wexBIM", FileMode.Create)))
                {
                    m.SaveAsWexBim(bw);
                    bw.Close();
                }
                using (var fs = new FileStream(@"test.wexBIM", FileMode.Open, FileAccess.Read))
                {
                    using (var br = new BinaryReader(fs))
                    {
                        var magicNumber   = br.ReadInt32();
                        var version       = br.ReadByte();
                        var shapeCount    = br.ReadInt32();
                        var vertexCount   = br.ReadInt32();
                        var triangleCount = br.ReadInt32();
                        var matrixCount   = br.ReadInt32();
                        var productCount  = br.ReadInt32();
                        var styleCount    = br.ReadInt32();
                        var meter         = br.ReadSingle();
                        Assert.IsTrue(meter > 0);
                        var regionCount = br.ReadInt16();
                        for (int i = 0; i < regionCount; i++)
                        {
                            var population  = br.ReadInt32();
                            var centreX     = br.ReadSingle();
                            var centreY     = br.ReadSingle();
                            var centreZ     = br.ReadSingle();
                            var boundsBytes = br.ReadBytes(6 * sizeof(float));
                            var modelBounds = XbimRect3D.FromArray(boundsBytes);
                        }

                        for (int i = 0; i < styleCount; i++)
                        {
                            var styleId = br.ReadInt32();
                            var red     = br.ReadSingle();
                            var green   = br.ReadSingle();
                            var blue    = br.ReadSingle();
                            var alpha   = br.ReadSingle();
                        }
                        for (int i = 0; i < productCount; i++)
                        {
                            var        productLabel = br.ReadInt32();
                            var        productType  = br.ReadInt16();
                            var        boxBytes     = br.ReadBytes(6 * sizeof(float));
                            XbimRect3D bb           = XbimRect3D.FromArray(boxBytes);
                        }
                        for (int i = 0; i < shapeCount; i++)
                        {
                            var shapeRepetition = br.ReadInt32();
                            Assert.IsTrue(shapeRepetition > 0);
                            if (shapeRepetition > 1)
                            {
                                for (int j = 0; j < shapeRepetition; j++)
                                {
                                    var ifcProductLabel = br.ReadInt32();
                                    var instanceTypeId  = br.ReadInt16();
                                    var instanceLabel   = br.ReadInt32();
                                    var styleId         = br.ReadInt32();
                                    var transform       = XbimMatrix3D.FromArray(br.ReadBytes(sizeof(float) * 16));
                                }
                                var triangulation = br.ReadShapeTriangulation();
                            }
                            else if (shapeRepetition == 1)
                            {
                                var ifcProductLabel = br.ReadInt32();
                                var instanceTypeId  = br.ReadInt16();
                                var instanceLabel   = br.ReadInt32();
                                var styleId         = br.ReadInt32();
                                var triangulation   = br.ReadShapeTriangulation();
                            }
                        }
                    }
                }
            }
        }
Exemplo n.º 5
0
    public static void ReadWexBim(string wexBimPath)
    {
        //Dictionary<int, BimColor> colors = new Dictionary<int, BimColor>();
        List <BimColor>   colors   = new List <BimColor>();
        List <BimRegion>  regions  = new List <BimRegion>();
        List <BimProduct> products = new List <BimProduct>();

        using (var fs = new FileStream(wexBimPath, FileMode.Open, FileAccess.Read))
        {
            float   scale  = 0f;//关系到模型实际大小的比例
            Vector3 offset = Vector3.zero;
            using (var br = new BinaryReader(fs))
            {
                var magicNumber   = br.ReadInt32();
                var version       = br.ReadByte();
                var shapeCount    = br.ReadInt32();
                var vertexCount   = br.ReadInt32();
                var triangleCount = br.ReadInt32();
                var matrixCount   = br.ReadInt32();
                var productCount  = br.ReadInt32();
                var styleCount    = br.ReadInt32();
                var meter         = br.ReadSingle();
                var regionCount   = br.ReadInt16();
                scale = meter;

                for (int i = 0; i < regionCount; i++)
                {
                    var population  = br.ReadInt32();
                    var centreX     = br.ReadSingle();
                    var centreY     = br.ReadSingle();
                    var centreZ     = br.ReadSingle();
                    var boundsBytes = br.ReadBytes(6 * sizeof(float));
                    var modelBounds = XbimRect3D.FromArray(boundsBytes);

                    BimRegion region = new BimRegion(population, centreX, centreY, centreZ, (float)modelBounds.SizeX, (float)modelBounds.SizeY, (float)modelBounds.SizeZ);
                    regions.Add(region);
                }
                offset = regions[0].position;

                for (int i = 0; i < styleCount; i++)
                {
                    var styleId = br.ReadInt32();
                    var red     = br.ReadSingle();
                    var green   = br.ReadSingle();
                    var blue    = br.ReadSingle();
                    var alpha   = br.ReadSingle();

                    BimColor color = new BimColor(styleId, red, green, blue, alpha);
                    colors.Add(color);
                }

                for (int i = 0; i < productCount; i++)
                {
                    var        productLabel = br.ReadInt32();
                    var        productType  = br.ReadInt16();
                    var        boxBytes     = br.ReadBytes(6 * sizeof(float));
                    BimProduct product      = new BimProduct(productLabel, productType);

                    /*
                     * XbimRect3D bb = XbimRect3D.FromArray(boxBytes);
                     * XbimPoint3D doubleCenter = XbimPoint3D.Add(bb.Min, bb.Max);
                     * BimProduct product = new BimProduct(productLabel, productType, (float)doubleCenter.X / 2, (float)doubleCenter.Y / 2,
                     *  (float)doubleCenter.Z / 2, (float)bb.SizeX, (float)bb.SizeY, (float)bb.SizeZ);
                     */
                    products.Add(product);
                }

                for (int i = 0; i < shapeCount; i++)
                {
                    var shapeRepetition = br.ReadInt32();
                    if (shapeRepetition > 1)
                    {
                        List <BimShape> thisShape = new List <BimShape>();
                        for (int j = 0; j < shapeRepetition; j++)
                        {
                            var ifcProductLabel = br.ReadInt32();
                            var instanceTypeId  = br.ReadInt16();
                            var instanceLabel   = br.ReadInt32();
                            var styleId         = br.ReadInt32();
                            var transform       = XbimMatrix3D.FromArray(br.ReadBytes(sizeof(double) * 16));

                            BimShape shape = new BimShape(ifcProductLabel, instanceTypeId, instanceLabel, styleId, transform);
                            thisShape.Add(shape);
                            var p = products.Find(product => product.entityLabel == ifcProductLabel);
                            p.shapes.Add(shape);
                        }
                        var triangulation = br.ReadShapeTriangulation();
                        foreach (var s in thisShape)
                        {
                            var tri = new BimTriangulation(triangulation, scale, offset, s.transform, true);
                            s.triangulations.Add(tri);
                        }
                    }
                    else if (shapeRepetition == 1)
                    {
                        var ifcProductLabel = br.ReadInt32();
                        var instanceTypeId  = br.ReadInt16();
                        var instanceLabel   = br.ReadInt32();
                        var styleId         = br.ReadInt32();
                        XbimShapeTriangulation triangulation = br.ReadShapeTriangulation();

                        BimShape shape = new BimShape(ifcProductLabel, instanceTypeId, instanceLabel, styleId);
                        var      p     = products.Find(product => product.entityLabel == ifcProductLabel);
                        p.shapes.Add(shape);
                        var tri = new BimTriangulation(triangulation, scale, offset);
                        shape.triangulations.Add(tri);
                    }
                }
            }
        }
        ModelCreater.CreateModel(products, colors);
    }
Exemplo n.º 6
0
        public void ReadAndWriteWexBimFile()
        {
            using (var m = IfcStore.Open("SampleHouse4.ifc"))
            {
                var wall = m.Instances[1229] as IIfcWall;
                Assert.IsNotNull(wall, "No IfcWall found in file");
                var brep = m.Instances[1213] as IIfcFacetedBrep;
                Assert.IsNotNull(brep, "No IfcFacetedBrep found in file");
                var styledItem = brep.StyledByItem.FirstOrDefault(); //this is not fast do not do on large models
                Assert.IsNotNull(styledItem, "No StyledItem found in file");



                var repContext = m.Instances[100] as IIfcGeometricRepresentationContext;
                Assert.IsNotNull(repContext, "No context found in file");
                var geomStore = m.GeometryStore;
                using (var txn = geomStore.BeginInit())
                {
                    var tessellator = new XbimTessellator(m, XbimGeometryType.PolyhedronBinary);
                    var geom        = tessellator.Mesh(brep);


                    var geomId = txn.AddShapeGeometry(geom);
                    //ADD A SHAPE INSTANCE
                    var shapeInstance = new XbimShapeInstance()
                    {
                        BoundingBox           = geom.BoundingBox,
                        IfcProductLabel       = wall.EntityLabel,
                        IfcTypeId             = m.Metadata.ExpressTypeId("IFCWALL"),
                        StyleLabel            = m.Metadata.ExpressTypeId("IFCWALL") * -1,
                        RepresentationType    = XbimGeometryRepresentationType.OpeningsAndAdditionsIncluded,
                        ShapeGeometryLabel    = geomId,
                        Transformation        = XbimMatrix3D.Identity,
                        RepresentationContext = repContext.EntityLabel
                    };
                    txn.AddShapeInstance(shapeInstance, geomId);
                    txn.Commit();
                }
                using (var bw = new BinaryWriter(new FileStream("test.wexBIM", FileMode.Create)))
                {
                    m.SaveAsWexBim(bw);
                    bw.Close();
                }
            }
            using (var fs = new FileStream(@"test.wexBIM", FileMode.Open, FileAccess.Read))
            {
                using (var br = new BinaryReader(fs))
                {
                    var magicNumber = br.ReadInt32();
                    Assert.IsTrue(magicNumber == IfcStoreGeometryExtensions.WexBimId);
                    var version       = br.ReadByte();
                    var shapeCount    = br.ReadInt32();
                    var vertexCount   = br.ReadInt32();
                    var triangleCount = br.ReadInt32();
                    var matrixCount   = br.ReadInt32();
                    var productCount  = br.ReadInt32();
                    var styleCount    = br.ReadInt32();
                    var meter         = br.ReadSingle();
                    Assert.IsTrue(meter > 0);
                    var regionCount = br.ReadInt16();
                    for (int i = 0; i < regionCount; i++)
                    {
                        var population  = br.ReadInt32();
                        var centreX     = br.ReadSingle();
                        var centreY     = br.ReadSingle();
                        var centreZ     = br.ReadSingle();
                        var boundsBytes = br.ReadBytes(6 * sizeof(float));
                        var modelBounds = XbimRect3D.FromArray(boundsBytes);
                    }

                    for (int i = 0; i < styleCount; i++)
                    {
                        var styleId = br.ReadInt32();
                        var red     = br.ReadSingle();
                        var green   = br.ReadSingle();
                        var blue    = br.ReadSingle();
                        var alpha   = br.ReadSingle();
                    }
                    for (int i = 0; i < productCount; i++)
                    {
                        var        productLabel = br.ReadInt32();
                        var        productType  = br.ReadInt16();
                        var        boxBytes     = br.ReadBytes(6 * sizeof(float));
                        XbimRect3D bb           = XbimRect3D.FromArray(boxBytes);
                    }
                    for (int i = 0; i < shapeCount; i++)
                    {
                        var shapeRepetition = br.ReadInt32();
                        Assert.IsTrue(shapeRepetition > 0);
                        if (shapeRepetition > 1)
                        {
                            for (int j = 0; j < shapeRepetition; j++)
                            {
                                var ifcProductLabel = br.ReadInt32();
                                var instanceTypeId  = br.ReadInt16();
                                var instanceLabel   = br.ReadInt32();
                                var styleId         = br.ReadInt32();
                                var transform       = XbimMatrix3D.FromArray(br.ReadBytes(sizeof(double) * 16));
                            }
                            var triangulation = br.ReadShapeTriangulation();
                            Assert.IsTrue(triangulation.Vertices.Count > 0, "Number of vertices should be greater than zero");
                        }
                        else if (shapeRepetition == 1)
                        {
                            var ifcProductLabel = br.ReadInt32();
                            var instanceTypeId  = br.ReadInt16();
                            var instanceLabel   = br.ReadInt32();
                            var styleId         = br.ReadInt32();
                            var triangulation   = br.ReadShapeTriangulation();
                            Assert.IsTrue(triangulation.Vertices.Count > 0, "Number of vertices should be greater than zero");
                        }
                    }
                }
            }
        }
Exemplo n.º 7
0
        public const int WexBimId = 94132117;       // Magic

        /// <summary>
        /// This function is used to generate the .wexbim model files.
        /// </summary>
        /// <param name="model">The model to export</param>
        /// <param name="binaryStream">An open writable streamer.</param>
        /// <param name="products">Optional products to be written to the wexBIM file. If null, all products from the model will be saved</param>
        /// <param name="translation">Optional 3D vector to apply</param>
        public static void SaveAsWexBim(this IModel model, BinaryWriter binaryStream, IEnumerable <IIfcProduct> products = null,
                                        IVector3D translation = null)
        {
            products = products ?? model.Instances.OfType <IIfcProduct>();
            // ReSharper disable RedundantCast
            if (model.GeometryStore == null)
            {
                throw new XbimException("Geometry store has not been initialised");
            }
            // ReSharper disable once CollectionNeverUpdated.Local
            var colourMap = new XbimColourMap();

            using (var geomRead = model.GeometryStore.BeginRead())
            {
                var lookup  = geomRead.ShapeGeometries;
                var styles  = geomRead.StyleIds;
                var regions = geomRead.ContextRegions.SelectMany(r => r).ToList();
                //we need to get all the default styles for various products
                var defaultStyles      = geomRead.ShapeInstances.Select(i => - (int)i.IfcTypeId).Distinct();
                var allStyles          = defaultStyles.Concat(styles).ToList();
                int numberOfGeometries = 0;
                int numberOfVertices   = 0;
                int numberOfTriangles  = 0;
                int numberOfMatrices   = 0;
                int numberOfProducts   = 0;
                int numberOfStyles     = allStyles.Count;
                //start writing out

                binaryStream.Write((Int32)WexBimId);       //magic number

                binaryStream.Write((byte)2);               //version of stream, arrays now packed as doubles
                var start = (int)binaryStream.Seek(0, SeekOrigin.Current);
                binaryStream.Write((Int32)0);              //number of shapes
                binaryStream.Write((Int32)0);              //number of vertices
                binaryStream.Write((Int32)0);              //number of triangles
                binaryStream.Write((Int32)0);              //number of matrices
                binaryStream.Write((Int32)0);              //number of products
                binaryStream.Write((Int32)numberOfStyles); //number of styles
                binaryStream.Write(Convert.ToSingle(model.ModelFactors.OneMetre));
                //write out conversion to meter factor

                binaryStream.Write(Convert.ToInt16(regions.Count)); //write out the population data
                var t = XbimMatrix3D.Identity;
                t = Translate(t, translation);
                foreach (var r in regions)
                {
                    binaryStream.Write((Int32)(r.Population));
                    var bounds = r.ToXbimRect3D();
                    var centre = t.Transform(r.Centre);
                    //write out the centre of the region
                    binaryStream.Write((Single)centre.X);
                    binaryStream.Write((Single)centre.Y);
                    binaryStream.Write((Single)centre.Z);
                    //bounding box of largest region
                    binaryStream.Write(bounds.ToFloatArray());
                }
                //textures

                foreach (var styleId in allStyles)
                {
                    XbimColour colour;
                    if (styleId > 0)
                    {
                        var ss      = (IIfcSurfaceStyle)model.Instances[styleId];
                        var texture = XbimTexture.Create(ss);
                        colour = texture.ColourMap.FirstOrDefault();
                    }
                    else //use the default in the colour map for the enetity type
                    {
                        var theType = model.Metadata.GetType((short)Math.Abs(styleId));
                        colour = colourMap[theType.Name];
                    }
                    if (colour == null)
                    {
                        colour = XbimColour.DefaultColour;
                    }
                    binaryStream.Write((Int32)styleId); //style ID
                    binaryStream.Write((Single)colour.Red);
                    binaryStream.Write((Single)colour.Green);
                    binaryStream.Write((Single)colour.Blue);
                    binaryStream.Write((Single)colour.Alpha);
                }

                //write out all the product bounding boxes
                var prodIds = new HashSet <int>();
                foreach (var product in products)
                {
                    if (product is IIfcFeatureElement)
                    {
                        continue;
                    }
                    prodIds.Add(product.EntityLabel);

                    var bb = XbimRect3D.Empty;
                    foreach (var si in geomRead.ShapeInstancesOfEntity(product))
                    {
                        var transformation = Translate(si.Transformation, translation);
                        var bbPart         = XbimRect3D.TransformBy(si.BoundingBox, transformation);
                        //make sure we put the box in the right place and then convert to axis aligned
                        if (bb.IsEmpty)
                        {
                            bb = bbPart;
                        }
                        else
                        {
                            bb.Union(bbPart);
                        }
                    }
                    //do not write out anything with no geometry
                    if (bb.IsEmpty)
                    {
                        continue;
                    }

                    binaryStream.Write((Int32)product.EntityLabel);
                    binaryStream.Write((UInt16)model.Metadata.ExpressTypeId(product));
                    binaryStream.Write(bb.ToFloatArray());
                    numberOfProducts++;
                }

                //projections and openings have already been applied,

                var toIgnore = new short[4];
                toIgnore[0] = model.Metadata.ExpressTypeId("IFCOPENINGELEMENT");
                toIgnore[1] = model.Metadata.ExpressTypeId("IFCPROJECTIONELEMENT");
                if (model.SchemaVersion == XbimSchemaVersion.Ifc4 || model.SchemaVersion == XbimSchemaVersion.Ifc4x1)
                {
                    toIgnore[2] = model.Metadata.ExpressTypeId("IFCVOIDINGFEATURE");
                    toIgnore[3] = model.Metadata.ExpressTypeId("IFCSURFACEFEATURE");
                }

                foreach (var geometry in lookup)
                {
                    if (geometry.ShapeData.Length <= 0) //no geometry to display so don't write out any products for it
                    {
                        continue;
                    }
                    var instances = geomRead.ShapeInstancesOfGeometry(geometry.ShapeLabel);



                    var xbimShapeInstances = instances.Where(si => !toIgnore.Contains(si.IfcTypeId) &&
                                                             si.RepresentationType ==
                                                             XbimGeometryRepresentationType
                                                             .OpeningsAndAdditionsIncluded && prodIds.Contains(si.IfcProductLabel)).ToList();
                    if (!xbimShapeInstances.Any())
                    {
                        continue;
                    }
                    numberOfGeometries++;
                    binaryStream.Write(xbimShapeInstances.Count); //the number of repetitions of the geometry
                    if (xbimShapeInstances.Count > 1)
                    {
                        foreach (IXbimShapeInstanceData xbimShapeInstance in xbimShapeInstances)
                        //write out each of the ids style and transforms
                        {
                            binaryStream.Write(xbimShapeInstance.IfcProductLabel);
                            binaryStream.Write((UInt16)xbimShapeInstance.IfcTypeId);
                            binaryStream.Write((UInt32)xbimShapeInstance.InstanceLabel);
                            binaryStream.Write((Int32)xbimShapeInstance.StyleLabel > 0
                                ? xbimShapeInstance.StyleLabel
                                : xbimShapeInstance.IfcTypeId * -1);

                            var transformation = Translate(XbimMatrix3D.FromArray(xbimShapeInstance.Transformation), translation);
                            binaryStream.Write(transformation.ToArray());
                            numberOfTriangles +=
                                XbimShapeTriangulation.TriangleCount(((IXbimShapeGeometryData)geometry).ShapeData);
                            numberOfMatrices++;
                        }
                        numberOfVertices +=
                            XbimShapeTriangulation.VerticesCount(((IXbimShapeGeometryData)geometry).ShapeData);
                        // binaryStream.Write(geometry.ShapeData);
                        var ms = new MemoryStream(((IXbimShapeGeometryData)geometry).ShapeData);
                        var br = new BinaryReader(ms);
                        var tr = br.ReadShapeTriangulation();

                        tr.Write(binaryStream);
                    }
                    else //now do the single instances
                    {
                        var xbimShapeInstance = xbimShapeInstances[0];

                        // IXbimShapeGeometryData geometry = ShapeGeometry(kv.Key);
                        binaryStream.Write((Int32)xbimShapeInstance.IfcProductLabel);
                        binaryStream.Write((UInt16)xbimShapeInstance.IfcTypeId);
                        binaryStream.Write((Int32)xbimShapeInstance.InstanceLabel);
                        binaryStream.Write((Int32)xbimShapeInstance.StyleLabel > 0
                            ? xbimShapeInstance.StyleLabel
                            : xbimShapeInstance.IfcTypeId * -1);

                        //Read all vertices and normals in the geometry stream and transform

                        var ms             = new MemoryStream(((IXbimShapeGeometryData)geometry).ShapeData);
                        var br             = new BinaryReader(ms);
                        var tr             = br.ReadShapeTriangulation();
                        var transformation = Translate(xbimShapeInstance.Transformation, translation);
                        var trTransformed  = tr.Transform(transformation);
                        trTransformed.Write(binaryStream);
                        numberOfTriangles += XbimShapeTriangulation.TriangleCount(((IXbimShapeGeometryData)geometry).ShapeData);
                        numberOfVertices  += XbimShapeTriangulation.VerticesCount(((IXbimShapeGeometryData)geometry).ShapeData);
                    }
                }


                binaryStream.Seek(start, SeekOrigin.Begin);
                binaryStream.Write((Int32)numberOfGeometries);
                binaryStream.Write((Int32)numberOfVertices);
                binaryStream.Write((Int32)numberOfTriangles);
                binaryStream.Write((Int32)numberOfMatrices);
                binaryStream.Write((Int32)numberOfProducts);
                binaryStream.Seek(0, SeekOrigin.End); //go back to end
                // ReSharper restore RedundantCast
            }
        }
Exemplo n.º 8
0
        /// <summary>
        /// Get the space name holding the element
        /// </summary>
        /// <param name="el">IfcElement to get containing space for</param>
        /// <returns>Space name</returns>
        internal string GetSpaceHoldingElement(IfcElement el)
        {
            //see if we have space information, if not fill information list
            if (SpaceBoundingBoxInfo.Count == 0)
            {
                if (ifcSpaces == null)
                {
                    ifcSpaces = Model.Instances.OfType <IfcSpace>().ToList();
                }

                //get Geometry for spaces
                SpaceBoundingBoxInfo = Model.GetGeometryData(XbimGeometryType.BoundingBox)
                                       .Where(bb => bb.IfcTypeId == IfcMetaData.IfcTypeId(typeof(IfcSpace)))
                                       .Select(bb => new SpaceInfo
                {
                    Rectangle = XbimRect3D.FromArray(bb.ShapeData),
                    Matrix    = XbimMatrix3D.FromArray(bb.DataArray2),
                    Name      = ifcSpaces.Where(sp => (sp.EntityLabel == bb.IfcProductLabel)).Select(sp => sp.Name.ToString()).FirstOrDefault()
                }).ToList();
            }


            string spaceName = string.Empty;

            //only if we have any space information
            if (SpaceBoundingBoxInfo.Any())
            {
                //find the IfcElement Bounding Box and To WCS Matrix
                XbimGeometryData elGeoData = Model.GetGeometryData(el, XbimGeometryType.BoundingBox).FirstOrDefault();
                //check to see if we have any geometry within the file
                if (elGeoData == null)
                {
                    return(string.Empty); //No geometry
                }
                XbimRect3D   elBoundBox    = XbimRect3D.FromArray(elGeoData.ShapeData);
                XbimMatrix3D elWorldMatrix = XbimMatrix3D.FromArray(elGeoData.DataArray2);
                //Get object space top and bottom points of the bounding box
                List <XbimPoint3D> elBoxPts = new List <XbimPoint3D>();
                elBoxPts.Add(new XbimPoint3D(elBoundBox.X, elBoundBox.Y, elBoundBox.Z));
                elBoxPts.Add(new XbimPoint3D(elBoundBox.X + elBoundBox.SizeX, elBoundBox.Y + elBoundBox.SizeY, elBoundBox.Z + elBoundBox.SizeZ));
                elBoxPts.Add(elBoundBox.Centroid());

                //convert points of the bounding box to WCS
                IEnumerable <XbimPoint3D> elBoxPtsWCS = elBoxPts.Select(pt => elWorldMatrix.Transform(pt));
                //see if we hit any spaces
                spaceName = GetSpaceFromPoints(elBoxPtsWCS);
                //if we failed to get space on min points then use the remaining corner points
                if (string.IsNullOrEmpty(spaceName))
                {
                    XbimPoint3D elMinPt = elBoxPts[0];
                    XbimPoint3D elMaxPt = elBoxPts[1];
                    //elBoxPts.Clear(); //already tested points in list so clear them

                    //Extra testing on remaining corner points on the top and bottom plains
                    elBoxPts.Add(new XbimPoint3D(elMaxPt.X, elMaxPt.Y, elMinPt.Z));
                    elBoxPts.Add(new XbimPoint3D(elMaxPt.X, elMinPt.Y, elMinPt.Z));
                    elBoxPts.Add(new XbimPoint3D(elMinPt.X, elMaxPt.Y, elMinPt.Z));
                    elBoxPts.Add(new XbimPoint3D((elMaxPt.X - elMinPt.X) / 2.0, (elMaxPt.Y - elMinPt.Y) / 2.0, elMinPt.Z)); //centre face point

                    elBoxPts.Add(new XbimPoint3D(elMinPt.X, elMinPt.Y, elMaxPt.Z));
                    elBoxPts.Add(new XbimPoint3D(elMaxPt.X, elMinPt.Y, elMaxPt.Z));
                    elBoxPts.Add(new XbimPoint3D(elMinPt.X, elMaxPt.Y, elMaxPt.Z));
                    elBoxPts.Add(new XbimPoint3D((elMaxPt.X - elMinPt.X) / 2.0, (elMaxPt.Y - elMinPt.Y) / 2.0, elMaxPt.Z)); //centre face point
                    //convert points of the bounding box to WCS
                    elBoxPtsWCS = elBoxPts.Select(pt => elWorldMatrix.Transform(pt));
                    //see if we hit any spaces
                    spaceName = GetSpaceFromPoints(elBoxPtsWCS);
                }
                if (string.IsNullOrEmpty(spaceName))
                {
                    //Get tolerance size from element, 1% of smallest side size
                    double tol = elBoundBox.SizeX * 0.001;
                    if ((elBoundBox.SizeY * 0.001) < tol)
                    {
                        tol = elBoundBox.SizeY * 0.001;
                    }
                    if ((elBoundBox.SizeZ * 0.001) < tol)
                    {
                        tol = elBoundBox.SizeZ * 0.001;
                    }
                    if ((tol == 0.0) && //if tol 0.0
                        ((Context.WorkBookUnits.LengthUnit.Equals("meters", StringComparison.OrdinalIgnoreCase)) ||
                         (Context.WorkBookUnits.LengthUnit.Equals("metres", StringComparison.OrdinalIgnoreCase))
                        )
                        )
                    {
                        tol = 0.001;
                    }

                    spaceName = GetSpaceFromClosestPoints(elBoxPtsWCS, tol);
                }
            }
            return(spaceName);
        }
    /// <summary>
    /// read geomotry data from wexbim file
    /// </summary>
    /// <param name="fileName"></param>
    public static void ReadWexbimFile(string fileName)
    {
        Vector3 offsite;

        using (var fs = new FileStream(fileName, FileMode.Open, FileAccess.Read))
        {
            using (var br = new BinaryReader(fs))
            {
                var magicalNum    = br.ReadInt32();
                var version       = br.ReadByte();
                var shapeCount    = br.ReadInt32();
                var vertexCount   = br.ReadInt32();
                var triangleCount = br.ReadInt32();
                var matrixCount   = br.ReadInt32();
                var productCount  = br.ReadInt32();
                var styleCount    = br.ReadInt32();
                var scale         = br.ReadSingle();
                var regionCount   = br.ReadInt16();

                //Region
                for (int i = 0; i < regionCount; i++)
                {
                    var population  = br.ReadInt32();
                    var centreX     = br.ReadSingle(); centreX /= scale;
                    var centreY     = br.ReadSingle(); centreY /= scale;
                    var centreZ     = br.ReadSingle(); centreZ /= scale;
                    var boundsBytes = br.ReadBytes(6 * sizeof(float));
                    var bounds      = XbimRect3D.FromArray(boundsBytes);
                    bounds.X     /= scale; bounds.Y /= scale; bounds.Z /= scale;
                    bounds.SizeX /= scale; bounds.SizeY /= scale; bounds.SizeZ /= scale;
                    MyBimGeomorty.regions.Add(new MyBimRegion(population, centreX, centreY, centreZ, (float)bounds.SizeX, (float)bounds.SizeY, (float)bounds.SizeZ));
                }
                offsite = MyBimGeomorty.regions[0].position;

                //texture
                for (int i = 0; i < styleCount; i++)
                {
                    var styleId = br.ReadInt32();
                    var red     = br.ReadSingle();
                    var green   = br.ReadSingle();
                    var blue    = br.ReadSingle();
                    var alpha   = br.ReadSingle();
                    MyBimGeomorty.colors.Add(new MyBimColor(styleId, red, green, blue, alpha));
                }

                //product
                for (int i = 0; i < productCount; i++)
                {
                    var        entityLabel = br.ReadInt32();
                    var        typeId      = br.ReadInt16();
                    var        boxBytes    = br.ReadBytes(6 * sizeof(float));
                    XbimRect3D bb          = XbimRect3D.FromArray(boxBytes);
                    //float x = (float)bb.X, y = (float)bb.Y, z = (float)bb.Z;
                    //float sizeX = (float)bb.SizeX, sizeY = (float)bb.SizeY, sizeZ = (float)bb.SizeZ;
                    MyBimGeomorty.products.Add(new MyBimProduct(entityLabel, typeId));
                }

                //shape
                for (int i = 0; i < shapeCount; i++)
                {
                    var shapeRepetition = br.ReadInt32();
                    MyBimShapeInstance si;
                    if (shapeRepetition > 1)
                    {
                        List <MyBimShapeInstance> curShapeInstances = new List <MyBimShapeInstance>();
                        for (int j = 0; j < shapeRepetition; j++)
                        {
                            var ifcProductLabel = br.ReadInt32();
                            var ifcTypeId       = br.ReadInt16();
                            var instanceLabel   = br.ReadInt32();
                            var styleLabel      = br.ReadInt32();
                            var transform       = XbimMatrix3D.FromArray(br.ReadBytes(sizeof(double) * 16));

                            si = new MyBimShapeInstance(ifcProductLabel, ifcTypeId, instanceLabel, styleLabel, transform);
                            //MyBimGeomorty.shapeInstances.Add(si);
                            curShapeInstances.Add(si);
                            var p = MyBimGeomorty.products.Find(product => product.entityLabel == ifcProductLabel);
                            p.AddShapeInstance(si);
                        }
                        var triangulation = br.ReadShapeTriangulation();

                        foreach (var csi in curShapeInstances)
                        {
                            var tri = new MyBimTriangulation(triangulation, offsite, scale, csi.transform, true);
                            csi.AddTriangulation(tri);
                            //MyBimGeomorty.triangulations.Add(tri);
                        }
                    }
                    else if (shapeRepetition == 1)
                    {
                        var ifcProductLabel = br.ReadInt32();
                        var ifcTypeId       = br.ReadInt16();
                        var instanceLabel   = br.ReadInt32();
                        var styleLabel      = br.ReadInt32();

                        si = new MyBimShapeInstance(ifcProductLabel, ifcTypeId, instanceLabel, styleLabel);
                        //MyBimGeomorty.shapeInstances.Add(si);
                        var p = MyBimGeomorty.products.Find(product => product.entityLabel == ifcProductLabel);
                        p.AddShapeInstance(si);

                        XbimShapeTriangulation triangulation = br.ReadShapeTriangulation();
                        var tri = new MyBimTriangulation(triangulation, offsite, scale);
                        //MyBimGeomorty.triangulations.Add(tri);

                        si.AddTriangulation(tri);
                    }
                }
            }
        }
    }
    void Awake()
    {
        Material true_mat = new Material(Shader.Find("Standard"));

        GameObject parent = new GameObject("WexbimModel");
        GameObject go;
        Mesh       mesh;

        const string fileName = "IFCBuilding";

        using (var fs = new FileStream(fileName + ".wexBIM", FileMode.Open, FileAccess.Read))
        {
            using (var br = new BinaryReader(fs))
            {
                var magicNumber = br.ReadInt32();
                if (magicNumber != 94132117)
                {
                    throw new ArgumentException("Magic number mismatch.");
                }
                //   Assert.IsTrue(magicNumber == IfcStore.WexBimId);
                var version       = br.ReadByte();
                var shapeCount    = br.ReadInt32();
                var vertexCount   = br.ReadInt32();
                var triangleCount = br.ReadInt32();
                var matrixCount   = br.ReadInt32();
                var productCount  = br.ReadInt32();
                var styleCount    = br.ReadInt32();
                var meter         = br.ReadSingle();
                //    Assert.IsTrue(meter > 0);
                var regionCount = br.ReadInt16();


                for (int i = 0; i < regionCount; i++)
                {
                    var population  = br.ReadInt32();
                    var centreX     = br.ReadSingle();
                    var centreY     = br.ReadSingle();
                    var centreZ     = br.ReadSingle();
                    var boundsBytes = br.ReadBytes(6 * sizeof(float));
                    var modelBounds = XbimRect3D.FromArray(boundsBytes);
                }


                for (int i = 0; i < styleCount; i++)
                {
                    var styleId = br.ReadInt32();
                    var red     = br.ReadSingle();
                    var green   = br.ReadSingle();
                    var blue    = br.ReadSingle();
                    var alpha   = br.ReadSingle();

                    true_mat.SetColor(styleId, new Color(red, green, blue, alpha));
                }

                for (int i = 0; i < productCount; i++)
                {
                    var        productLabel = br.ReadInt32();
                    var        productType  = br.ReadInt16();
                    var        boxBytes     = br.ReadBytes(6 * sizeof(float));
                    XbimRect3D bb           = XbimRect3D.FromArray(boxBytes);
                    //is this the factor to magnify/demise an ifcproduct?
                    // Debug.Log("product Label: " + productLabel + " ,productType: " + productType);
                }
                for (int i = 0; i < shapeCount; i++)
                {
                    var shapeRepetition = br.ReadInt32();
                    //   Assert.IsTrue(shapeRepetition > 0);

                    if (shapeRepetition > 1)
                    {
                        GameObject[] repes        = new GameObject[shapeRepetition];
                        int[]        ColorStyleId = new int[shapeRepetition];
                        for (int j = 0; j < shapeRepetition; j++)
                        {
                            var ifcProductLabel = br.ReadInt32();
                            var instanceTypeId  = br.ReadInt16();
                            var instanceLabel   = br.ReadInt32();
                            var styleId         = br.ReadInt32();
                            var transform       = XbimMatrix3D.FromArray(br.ReadBytes(sizeof(double) * 16));
                            // Debug.Log("ifcProductLabel: " + ifcProductLabel+ " ,instanceTypeId: " + instanceTypeId + " ,instanceLabel: " + instanceLabel);

                            go = new GameObject(ifcProductLabel.ToString());
                            go.transform.parent = parent.transform;
                            repes[j]            = go;

                            //order of ro/po makes no diference
                            go.transform.rotation = new Quaternion(Flo_convert(transform.GetRotationQuaternion().X), Flo_convert(transform.GetRotationQuaternion().Y), Flo_convert(transform.GetRotationQuaternion().Z), Flo_convert(transform.GetRotationQuaternion().W));
                            go.transform.position = new Vector3(Flo_convert(transform.Translation.X / meter), Flo_convert(transform.Translation.Y / meter), Flo_convert(transform.Translation.Z / meter));

                            ColorStyleId[j] = styleId;
                        }
                        var triangulation = br.ReadShapeTriangulation();

                        int TriangleIndexCount = 0;


                        foreach (var face in triangulation.Faces)
                        {
                            foreach (var triIndex in face.Indices)
                            {
                                ++TriangleIndexCount;
                            }
                        }

                        int VerticesCount = triangulation.Vertices.Count;
                        int FaceCount     = triangulation.Faces.Count;

                        Vector3[] vertices        = new Vector3[VerticesCount]; //these eventully write into unity gameobject
                        int[]     triangleIndices = new int[TriangleIndexCount];

                        int TriangleIndex = 0;
                        for (int j = 0; j < VerticesCount; j++)
                        {
                            var vert = new Vector3(Flo_convert(triangulation.Vertices[j].X), Flo_convert(triangulation.Vertices[j].Y), Flo_convert(triangulation.Vertices[j].Z));
                            vertices[j] = vert / meter;
                        }

                        for (int j = 0; j < FaceCount; j++)
                        {
                            for (int k = 0; k < triangulation.Faces[j].Indices.Count; k++)
                            {
                                triangleIndices[TriangleIndex++] = triangulation.Faces[j].Indices[k];
                            }
                        }

                        foreach (var repete in repes)
                        {
                            int id = 0;
                            repete.AddComponent <MeshFilter>();
                            repete.AddComponent <MeshRenderer>();
                            mesh = new Mesh();
                            repete.GetComponent <MeshFilter>().mesh = mesh;

                            MeshRenderer meshRenderer = repete.GetComponent <MeshRenderer>();
                            meshRenderer.material.color = true_mat.GetColor(ColorStyleId[id++]);

                            mesh.vertices  = vertices;// in unity vertices must defined before triangles
                            mesh.triangles = triangleIndices;

                            mesh.RecalculateNormals();
                            repete.AddComponent <MeshCollider>();
                        }

                        //    Assert.IsTrue(triangulation.Vertices.Count > 0, "Number of vertices should be greater than zero");
                    }
                    else if (shapeRepetition == 1)
                    {
                        var ifcProductLabel = br.ReadInt32();
                        var instanceTypeId  = br.ReadInt16();
                        var instanceLabel   = br.ReadInt32();
                        var styleId         = br.ReadInt32();
                        XbimShapeTriangulation triangulation = br.ReadShapeTriangulation();
                        //     Assert.IsTrue(triangulation.Vertices.Count > 0, "Number of vertices should be greater than zero");
                        //Debug.Log("ifcProductLabel: " + ifcProductLabel + " ,instanceTypeId: " + instanceTypeId + " ,instanceLabel: " + instanceLabel);

                        go = new GameObject(ifcProductLabel.ToString());
                        go.transform.parent = parent.transform;
                        mesh = new Mesh();

                        go.AddComponent <MeshFilter>();
                        go.AddComponent <MeshRenderer>();
                        go.GetComponent <MeshFilter>().mesh = mesh;
                        MeshRenderer meshRenderer = go.GetComponent <MeshRenderer>();
                        meshRenderer.material.color = true_mat.GetColor(styleId);

                        int TriangleIndexCount = 0;
                        int TriangleIndex      = 0;

                        foreach (var face in triangulation.Faces)
                        {
                            foreach (var triIndex in face.Indices)
                            {
                                ++TriangleIndexCount;
                            }
                        }

                        int VerticesCount = triangulation.Vertices.Count;
                        int FaceCount     = triangulation.Faces.Count;

                        Vector3[] vertices        = new Vector3[VerticesCount]; //these eventully write into unity gameobject
                        int[]     triangleIndices = new int[TriangleIndexCount];

                        for (int j = 0; j < VerticesCount; j++)
                        {
                            vertices[j]  = new Vector3(Flo_convert(triangulation.Vertices[j].X), Flo_convert(triangulation.Vertices[j].Y), Flo_convert(triangulation.Vertices[j].Z));
                            vertices[j] /= meter;
                        }
                        mesh.vertices = vertices;

                        for (int j = 0; j < FaceCount; j++)
                        {
                            for (int k = 0; k < triangulation.Faces[j].Indices.Count; k++)
                            {
                                triangleIndices[TriangleIndex++] = triangulation.Faces[j].Indices[k];
                            }
                        }
                        mesh.triangles = triangleIndices;
                        mesh.RecalculateNormals();
                        go.AddComponent <MeshCollider>();
                    }
                }
            }
        }
        Debug.Log("finish start meathod");
    }
Exemplo n.º 11
0
    public static void ReadWexbim(string fileName)
    {
        Vector3 offset;

        using (var fs = new FileStream(fileName, FileMode.Open, FileAccess.Read))
        {
            using (var br = new BinaryReader(fs))
            {
                var magicalNum    = br.ReadInt32();
                var version       = br.ReadByte();
                var shapeCount    = br.ReadInt32();
                var vertexCount   = br.ReadInt32();
                var triangleCount = br.ReadInt32();
                var matrixCount   = br.ReadInt32();
                var productCount  = br.ReadInt32();
                var styleCount    = br.ReadInt32();
                var meter         = br.ReadSingle();
                var regionCount   = br.ReadInt16();

                for (int i = 0; i < regionCount; i++)
                {
                    var population  = br.ReadInt32();
                    var centreX     = br.ReadSingle(); centreX /= meter;
                    var centreY     = br.ReadSingle(); centreY /= meter;
                    var centreZ     = br.ReadSingle(); centreZ /= meter;
                    var boundsBytes = br.ReadBytes(6 * sizeof(float));
                    var modelBounds = XbimRect3D.FromArray(boundsBytes);
                    modelBounds.X     /= meter; modelBounds.Y /= meter; modelBounds.Z /= meter;
                    modelBounds.SizeX /= meter; modelBounds.SizeY /= meter; modelBounds.SizeZ /= meter;
                    BimGeomorty.regions.Add(new BimRegion(population, centreX, centreY, centreZ, (float)modelBounds.SizeX, (float)modelBounds.SizeY, (float)modelBounds.SizeZ));
                }
                //中心偏移
                offset = BimGeomorty.regions[0].position;

                for (int i = 0; i < styleCount; i++)
                {
                    var styleId = br.ReadInt32();
                    var red     = br.ReadSingle();
                    var green   = br.ReadSingle();
                    var blue    = br.ReadSingle();
                    var alpha   = br.ReadSingle();
                    BimGeomorty.styles.Add(new BimStyle(styleId, red, green, blue, alpha));
                }

                for (int i = 0; i < productCount; i++)
                {
                    var        productLabel = br.ReadInt32();
                    var        productType  = br.ReadInt16();
                    var        boxBytes     = br.ReadBytes(6 * sizeof(float));
                    XbimRect3D bb           = XbimRect3D.FromArray(boxBytes);
                    BimGeomorty.products.Add(new BimProduct(productLabel, productType));
                }

                for (int i = 0; i < shapeCount; i++)
                {
                    var shapeRepetition = br.ReadInt32();
                    BimShapeInstance shapeInstance;
                    if (shapeRepetition > 1)
                    {
                        List <BimShapeInstance> tempInstances = new List <BimShapeInstance>();
                        for (int j = 0; j < shapeRepetition; j++)
                        {
                            var ifcProductLabel = br.ReadInt32();
                            var ifcTypeId       = br.ReadInt16();
                            var instanceLabel   = br.ReadInt32();
                            var styleLabel      = br.ReadInt32();
                            var transform       = XbimMatrix3D.FromArray(br.ReadBytes(sizeof(double) * 16));

                            shapeInstance = new BimShapeInstance(ifcProductLabel, ifcTypeId, instanceLabel, styleLabel, transform);
                            BimGeomorty.shapeInstances.Add(shapeInstance);
                            tempInstances.Add(shapeInstance);
                            var p = BimGeomorty.products.Find(product => product.productLabel == ifcProductLabel);
                            p.AddShapeInstance(shapeInstance);
                        }
                        var triangulation = br.ReadShapeTriangulation();
                        foreach (var temp in tempInstances)
                        {
                            var tri = new BimTriangulation(triangulation, offset, meter, temp.xbimMatrix, true);
                            temp.AddTriangulation(tri);
                            BimGeomorty.triangulations.Add(tri);
                        }
                    }
                    else if (shapeRepetition == 1)
                    {
                        var ifcProductLabel = br.ReadInt32();
                        var ifcTypeId       = br.ReadInt16();
                        var instanceLabel   = br.ReadInt32();
                        var styleLabel      = br.ReadInt32();

                        shapeInstance = new BimShapeInstance(ifcProductLabel, ifcTypeId, instanceLabel, styleLabel);
                        BimGeomorty.shapeInstances.Add(shapeInstance);
                        var p = BimGeomorty.products.Find(product => product.productLabel == ifcProductLabel);
                        p.AddShapeInstance(shapeInstance);

                        XbimShapeTriangulation triangulation = br.ReadShapeTriangulation();
                        var tri = new BimTriangulation(triangulation, offset, meter);
                        BimGeomorty.triangulations.Add(tri);
                        shapeInstance.AddTriangulation(tri);
                    }
                }
            }
        }
    }
Exemplo n.º 12
0
    void Start()
    {
        //Mesh mesh = new Mesh();
        //List<>
        string path = @"E:\Unity\BIMForUnity\Assets\test1.wexbim";

        using (var fs = new FileStream(path, FileMode.Open, FileAccess.Read))
        {
            using (var br = new BinaryReader(fs))
            {
                var magicNumber   = br.ReadInt32();
                var version       = br.ReadByte();
                var shapeCount    = br.ReadInt32();
                var vertexCount   = br.ReadInt32();
                var triangleCount = br.ReadInt32();
                var matrixCount   = br.ReadInt32();
                var productCount  = br.ReadInt32();
                var styleCount    = br.ReadInt32();
                var meter         = br.ReadSingle();
                scale = meter;


                var regionCount = br.ReadInt16();


                for (int i = 0; i < regionCount; i++)
                {
                    var population  = br.ReadInt32();
                    var centreX     = br.ReadSingle();
                    var centreY     = br.ReadSingle();
                    var centreZ     = br.ReadSingle();
                    var boundsBytes = br.ReadBytes(6 * sizeof(float));

                    var modelBounds = XbimRect3D.FromArray(boundsBytes);
                }

                for (int i = 0; i < styleCount; i++)
                {
                    var styleId = br.ReadInt32();
                    var red     = br.ReadSingle();
                    var green   = br.ReadSingle();
                    var blue    = br.ReadSingle();
                    var alpha   = br.ReadSingle();

                    styleDictionary.Add(styleId, new Vector4(red, green, blue, alpha));
                }

                for (int i = 0; i < productCount; i++)
                {
                    var        productLabel = br.ReadInt32();
                    var        productType  = br.ReadInt16();
                    var        boxBytes     = br.ReadBytes(6 * sizeof(float));
                    XbimRect3D bb           = XbimRect3D.FromArray(boxBytes);

                    GameObject go = new GameObject(productLabel.ToString());
                    go.transform.SetParent(GameObject.Find("Model").transform);

                    //储存productLabel
                    productDictionary.Add(productLabel, go);
                }

                for (int i = 0; i < shapeCount; i++)
                {
                    var shapeRepetition = br.ReadInt32();

                    //   Assert.IsTrue(shapeRepetition > 0);
                    if (shapeRepetition > 1)
                    {
                        Material            material         = new Material(Shader.Find("CrossSection/OnePlaneBSP"));
                        Vector4             color            = new Vector4();
                        List <int>          ifcProductLabels = new List <int>();
                        List <int>          styleIds         = new List <int>();
                        List <XbimMatrix3D> transforms       = new List <XbimMatrix3D>();

                        for (int j = 0; j < shapeRepetition; j++)
                        {
                            var ifcProductLabel = br.ReadInt32();
                            var instanceTypeId  = br.ReadInt16();
                            var instanceLabel   = br.ReadInt32();
                            var styleId         = br.ReadInt32();
                            var transform       = XbimMatrix3D.FromArray(br.ReadBytes(sizeof(double) * 16));
                            styleDictionary.TryGetValue(styleId, out color);
                            ifcProductLabels.Add(ifcProductLabel);
                            styleIds.Add(styleId);
                            transforms.Add(transform);
                            //Debug.Log(transform.ToString());
                        }

                        var triangulation = br.ReadShapeTriangulation();

                        ////    Assert.IsTrue(triangulation.Vertices.Count > 0, "Number of vertices should be greater than zero");
                        for (int j = 0; j < shapeRepetition; j++)
                        {
                            GetModel(triangulation.Transform(transforms[j]), styleIds[j], ifcProductLabels[j]);
                        }
                    }
                    else if (shapeRepetition == 1)
                    {
                        var ifcProductLabel = br.ReadInt32();
                        var instanceTypeId  = br.ReadInt16();
                        var instanceLabel   = br.ReadInt32();
                        var styleId         = br.ReadInt32();
                        XbimShapeTriangulation triangulation = br.ReadShapeTriangulation();
                        //     Assert.IsTrue(triangulation.Vertices.Count > 0, "Number of vertices should be greater than zero");
                        //---------------------------------------------
                        //GetModel(triangulation, styleId, ifcProductLabel);
                    }
                }
            }
            GameObject.Find("Model").transform.eulerAngles = new Vector3(-90, 0, 0);
        }
    }