Exemplo n.º 1
1
        public static void ModifyingXData()
        {
            Line line = new Line(Vector2.Zero, Vector2.UnitX);

            ApplicationRegistry appReg = new ApplicationRegistry("netDxf");
            XData xdata = new XData(appReg);
            xdata.XDataRecord.Add(new XDataRecord(XDataCode.String, "Length"));
            line.XData.Add(xdata);

            DxfDocument doc = new DxfDocument();
            doc.AddEntity(line);

            // modifying existing extended data
            line.XData[appReg.Name].XDataRecord.Add(new XDataRecord(XDataCode.Real, Vector3.Distance(line.StartPoint, line.EndPoint)));

            // adding new extended data entry to an existing entity
            ApplicationRegistry appReg2 = new ApplicationRegistry("newXData");
            XData xdata2 = new XData(appReg2);
            xdata2.XDataRecord.Add(new XDataRecord(XDataCode.String, "XData entries"));
            line.XData.Add(xdata2);

            Debug.Assert(ReferenceEquals(line.XData[appReg2.Name].ApplicationRegistry, doc.ApplicationRegistries[appReg2.Name]));

            // deleting existing extended data
            line.XData.Remove(appReg.Name);

            // we can also change the name of the application registry name
            doc.ApplicationRegistries["newXData"].Name = "netDxfRenamed";

            doc.Save("xData.dxf");

            doc = DxfDocument.Load("xData.dxf");
        }
Exemplo n.º 2
0
        private void DrawGridInternal(DxfDocument doc, Layer layer, Core2D.ShapeStyle style, double offsetX, double offsetY, double cellWidth, double cellHeight, ref Core2D.Rect2 rect)
        {
            var stroke            = GetColor(style.Stroke);
            var strokeTansparency = GetTransparency(style.Stroke);
            var lineweight        = ThicknessToLineweight(style.Thickness);

            double ox = rect.X;
            double oy = rect.Y;
            double sx = ox + offsetX;
            double sy = oy + offsetY;
            double ex = ox + rect.Width;
            double ey = oy + rect.Height;

            for (double gx = sx; gx < ex; gx += cellWidth)
            {
                var dxfLine = CreateLine(gx, oy, gx, ey);
                dxfLine.Layer = layer;
                dxfLine.Color = stroke;
                dxfLine.Transparency.Value = strokeTansparency;
                dxfLine.Lineweight.Value   = lineweight;
                doc.AddEntity(dxfLine);
            }

            for (double gy = sy; gy < ey; gy += cellHeight)
            {
                var dxfLine = CreateLine(ox, gy, ex, gy);
                dxfLine.Layer = layer;
                dxfLine.Color = stroke;
                dxfLine.Transparency.Value = strokeTansparency;
                dxfLine.Lineweight.Value   = lineweight;
                doc.AddEntity(dxfLine);
            }
        }
Exemplo n.º 3
0
        public static DxfDocument generateDXF(StructuralModel structure)
        {
            var dxf = new netDxf.DxfDocument();

            var ColumnLayer = new netDxf.Tables.Layer("Column")
            {
                Color      = netDxf.AciColor.Red,
                Lineweight = netDxf.Lineweight.W50
            };
            var SlabLayer = new netDxf.Tables.Layer("Slab")
            {
                Color      = netDxf.AciColor.Yellow,
                Lineweight = netDxf.Lineweight.W50
            };
            var OpeningLayer = new netDxf.Tables.Layer("Opening")
            {
                Color      = netDxf.AciColor.Blue,
                Lineweight = netDxf.Lineweight.W50
            };
            var WallLayer = new netDxf.Tables.Layer("Wall")
            {
                Color      = netDxf.AciColor.Green,
                Lineweight = netDxf.Lineweight.W50
            };

            dxf.Layers.Add(ColumnLayer);
            dxf.Layers.Add(SlabLayer);
            dxf.Layers.Add(OpeningLayer);
            dxf.Layers.Add(WallLayer);

            foreach (var item in structure.Columns)
            {
                dxf.AddEntity(getPolylineFromPoints(item.Points, ColumnLayer));
            }
            foreach (var item in structure.Slabs)
            {
                dxf.AddEntity(getPolylineFromPoints(item.Points, SlabLayer));
            }
            foreach (var item in structure.Walls)
            {
                dxf.AddEntity(getPolylineFromPoints(item.Points, WallLayer, false));
            }
            foreach (var item in structure.Openings)
            {
                dxf.AddEntity(getPolylineFromPoints(item.Points, OpeningLayer));
            }

            return(dxf);
        }
Exemplo n.º 4
0
        public static void Draw(DxfDocument dxf, Location location)
        {
            Vector3f v1 = new Vector3f(location.X - 2.0f, location.Y + 4.0f, location.Z);
            Vector3f v2 = new Vector3f(location.X + 2.0f, location.Y + 4.0f, location.Z);
            Vector3f v0=new Vector3f(location.X,location.Y,location.Z);
            Layer layer = new Layer("line");

            Line line10 = new Line(v0, v1);
            line10.Layer = layer;
            dxf.AddEntity(line10);

            Line line20 = new Line(v0, v2);
            line20.Layer = layer;
            dxf.AddEntity(line20);
        }
Exemplo n.º 5
0
Arquivo: Fan.cs Projeto: Spritutu/ntxx
        /// <summary>
        /// 绘制风扇
        /// </summary>
        /// <param name="dxf"></param>
        /// <param name="startPoint">风扇起点,如果为横置,由左向右;如果为竖置,由下到上</param>
        /// <param name="endPoint">风扇终点,如果为横置,由左向右;如果为竖置,由下到上</param>
        /// <param name="pointerLocation">箭头位置,默认=0为无,=1代表箭头在中间,=2代表箭头在底部</param>
        public static void Draw(DxfDocument dxf, Vector3f startPoint, Vector3f endPoint,int pointerLocation=0)
        {
            Layer layer = new Layer("line");
            Line line = new Line(startPoint, endPoint);
            line.Layer = layer;
            dxf.AddEntity(line);

            //如果为横置
            if (startPoint.Y == endPoint.Y)
            {
                float segment = (endPoint.X - startPoint.X) / 4;
                Slash.Draw(dxf, new Location(startPoint.X + segment, startPoint.Y, startPoint.Z));
                Slash.Draw(dxf, new Location(startPoint.X + 2 * segment, startPoint.Y, startPoint.Z));
                Slash.Draw(dxf, new Location(startPoint.X + 3 * segment, startPoint.Y, startPoint.Z));
            }
            //如果为竖置
            else if (startPoint.X == endPoint.X)
            {
                float segment = (endPoint.Y - startPoint.Y) / 5;
                Slash.Draw(dxf, new Location(startPoint.X, startPoint.Y + segment, startPoint.Z));
                Slash.Draw(dxf, new Location(startPoint.X, startPoint.Y + 2 * segment, startPoint.Z));
                Slash.Draw(dxf, new Location(startPoint.X, startPoint.Y + 3 * segment, startPoint.Z));
                Slash.Draw(dxf, new Location(startPoint.X, startPoint.Y + 4 * segment, startPoint.Z));
                if (pointerLocation == 1)
                {
                    LinePointer.Draw(dxf,new Location(startPoint.X,(startPoint.Y+endPoint.Y)/2,startPoint.Z));
                }
                else if(pointerLocation==2)
                {
                    LinePointer.Draw(dxf, new Location(startPoint.X, startPoint.Y, startPoint.Z));
                }
            }
        }
Exemplo n.º 6
0
        protected override Task _save()
        {
            RecordSet layer = _layer as RecordSet;

            layer.Position           = transform.position.ToPoint();
            layer.Transform.Position = Vector3.zero;
            layer.Transform.Rotate   = transform.rotation;
            layer.Transform.Scale    = transform.localScale;
            EditableMesh[] meshes = GetComponentsInChildren <EditableMesh>();
            string         ex     = Path.GetExtension(layer.Source).ToLower();

            features = new List <DMesh3>();
            foreach (EditableMesh mesh in meshes)
            {
                features.Add(mesh.GetMesh());
            }
            if (ex == ".obj")
            {
                List <WriteMesh> wmeshes = new List <WriteMesh>();
                foreach (DMesh3 dmesh in features)
                {
                    DMesh3 mesh = new DMesh3(dmesh);
                    foreach (int idx in mesh.VertexIndices())
                    {
                        Vector3d vtx = mesh.GetVertex(idx);
                        mesh.SetVertex(idx, new Vector3d(vtx.x, vtx.z, vtx.y));
                    }
                    wmeshes.Add(new WriteMesh(mesh, ""));
                }
                saveObj(layer.Source, wmeshes);
            }
            if (ex == ".dxf")
            {
                DXF.DxfDocument          doc       = new DXF.DxfDocument();
                CoordinateTransformation transform = null;
                if (GetCrs() != null)
                {
                    transform = new CoordinateTransformation(AppState.instance.mapProj, GetCrs());
                }
                foreach (DMesh3 dmesh in features)
                {
                    foreach (Index3i tri in dmesh.Triangles())
                    {
                        DXF.Vector3 v1 = dmesh.GetVertex(tri.a).ToDxfVector3(transform);
                        DXF.Vector3 v2 = dmesh.GetVertex(tri.b).ToDxfVector3(transform);
                        DXF.Vector3 v3 = dmesh.GetVertex(tri.c).ToDxfVector3(transform);
                        doc.AddEntity(new Face3d(v1, v2, v3));
                    }
                }
                using (Stream stream = File.Open(layer.Source, FileMode.OpenOrCreate, FileAccess.Write, FileShare.ReadWrite)) {
                    doc.Save(stream);
                    stream.Close();
                }
            }
            return(Task.CompletedTask);
        }
Exemplo n.º 7
0
        private void DrawEllipseInternal(DxfDocument doc, Layer layer, bool isFilled, bool isStroked, Core2D.BaseStyle style, ref Core2D.Rect2 rect)
        {
            var dxfEllipse = CreateEllipse(rect.X, rect.Y, rect.Width, rect.Height);

            if (isFilled)
            {
                var fill             = GetColor(style.Fill);
                var fillTransparency = GetTransparency(style.Fill);

                // TODO: The netDxf does not create hatch for Ellipse with end angle equal to 360.
                var bounds =
                    new List <HatchBoundaryPath>
                {
                    new HatchBoundaryPath(
                        new List <EntityObject>
                    {
                        (Ellipse)dxfEllipse.Clone()
                    })
                };

                var hatch = new Hatch(HatchPattern.Solid, bounds, false);
                hatch.Layer = layer;
                hatch.Color = fill;
                hatch.Transparency.Value = fillTransparency;

                doc.AddEntity(hatch);
            }

            if (isStroked)
            {
                var stroke            = GetColor(style.Stroke);
                var strokeTansparency = GetTransparency(style.Stroke);
                var lineweight        = ThicknessToLineweight(style.Thickness);

                dxfEllipse.Layer = layer;
                dxfEllipse.Color = stroke;
                dxfEllipse.Transparency.Value = strokeTansparency;
                dxfEllipse.Lineweight.Value   = lineweight;

                doc.AddEntity(dxfEllipse);
            }
        }
Exemplo n.º 8
0
        public static void Draw(DxfDocument dxf, Location location,List<string> configurations)
        {
            Vector3f confStrVector3f = new Vector3f(location.X + 5.0f, location.Y - 5.0f, location.Z);
            TextStyle style = new TextStyle("True type font", "Arial.ttf");
            Text text1 = new Text("CONFIGURATION:                   NOTE:  Assembly drawing for overall dimesions,  actual door size and handle position may vary",
                confStrVector3f, 2.0f, style);
            Layer layer = new Layer("text");
            text1.Layer = layer;
            //text1.Layer.Color.Index = 8;
            text1.Alignment = TextAlignment.TopLeft;
            dxf.AddEntity(text1);

            for (int i = 0; i < configurations.Count(); i++)
            {
                Vector3f confVector3f = new Vector3f(location.X+10.0f, location.Y - 5.0f * (i + 2), location.Z);
                Text text = new Text(configurations[i], confVector3f, 2.0f, style);
                text.Layer = layer;
                //text.Layer.Color.Index = 8;
                text.Alignment = TextAlignment.TopLeft;
                dxf.AddEntity(text);
            }
        }
Exemplo n.º 9
0
        /// <summary>
        /// 风向绘制
        /// </summary>
        /// <param name="dxf"></param>
        /// <param name="location"></param>
        /// <param name="isRight"></param>
        public static void Draw(DxfDocument dxf, Location location, bool isRight)
        {
            float factor = 0.5f;
            Vector3f v1 = new Vector3f();
            Vector3f v2 = new Vector3f();
            Vector3f v3 = new Vector3f();
            Vector3f v4 = new Vector3f();
            Vector3f v5 = new Vector3f();
            Vector3f v6 = new Vector3f();
            Vector3f v7 = new Vector3f();
            if (isRight)
            {
                v1 = new Vector3f(10*factor + location.X, location.Y, location.Z);
                v2 = new Vector3f(location.X, location.Y + 10 * factor, location.Z);
                v3 = new Vector3f(location.X + 10 * factor, location.Y + 10 * factor, location.Z);
                v4 = new Vector3f(location.X + 20 * factor, location.Y + 15 * factor, location.Z);
                v5 = new Vector3f(location.X, location.Y + 20 * factor, location.Z);
                v6 = new Vector3f(location.X + 10 * factor, location.Y + 20 * factor, location.Z);
                v7 = new Vector3f(location.X + 10 * factor, location.Y + 30 * factor, location.Z);
            }
            else
            {
                v1 = new Vector3f(10 * factor + location.X, location.Y, location.Z);
                v2 = new Vector3f(location.X + 20 * factor, location.Y + 10 * factor, location.Z);
                v3 = new Vector3f(location.X + 10 * factor, location.Y + 10 * factor, location.Z);
                v4 = new Vector3f(location.X, location.Y + 15 * factor, location.Z);
                v5 = new Vector3f(location.X + 20 * factor, location.Y + 20 * factor, location.Z);
                v6 = new Vector3f(location.X + 10 * factor, location.Y + 20 * factor, location.Z);
                v7 = new Vector3f(location.X + 10 * factor, location.Y + 30 * factor, location.Z);
            }
            Layer layer = new Layer("line");
            Line line23 = new Line(v2, v3);
            line23.Layer = layer;
            dxf.AddEntity(line23);

            Line line56 = new Line(v5, v6);
            line56.Layer = layer;
            dxf.AddEntity(line56);

            Line line14 = new Line(v1, v4);
            line14.Layer = layer;
            dxf.AddEntity(line14);

            Line line74 = new Line(v7, v4);
            line74.Layer = layer;
            dxf.AddEntity(line74);

            Line line25 = new Line(v2, v5);
            line25.Layer = layer;
            dxf.AddEntity(line25);

            Line line71 = new Line(v7, v1);
            line71.Layer = layer;
            dxf.AddEntity(line71);
        }
Exemplo n.º 10
0
        static void Main(string[] args)
        {
            var dxf = new netDxf.DxfDocument();

            var rValues1 = new List <double>()
            {
                1, 1.2, 1.5, 1.8, 2.2, 2.7, 3.3, 3.9,
                4.7, 5.6, 6.8, 8.2, 10, 12, 15, 18, 22,
                27, 33, 39, 47, 56, 68, 82, 100,
                120, 150, 180, 220, 270, 330, 390, 470,
                560, 680, 820,

                1e3, 1.2e3, 1.5e3, 1.8e3, 2.2e3, 2.7e3,
                3.3e3, 3.9e3, 4.7e3, 5.5e3, 6.8e3, 7.2e3, 8.2e3, 10e3, 12e3,
                15e3, 18e3, 22e3, 27e3, 33e3, 39e3, 47e3, 56e3, 82e3, 100e3,
                120e3, 150e3, 180e3, 220e3, 270e3, 330e3, 380e3,
                470e3, 560e3, 680e3, 820e3,

                1e6, 1.2e6, 1.5e6, 1.8e6, 2.2e6, 2.7e6, 3.3e6, 3.9e6, 4.7e6,
                5.6e6, 6.8e6, 8.2e6, 10e6
            };

            var rValues2 = new List <double>()
            {
                7.5, 75, 200, 510,

                2e3, 3e3, 5.1e3, 7.5e3, 20e3, 51e3, 68e3, 75e3, 200e3, 510e3, 750e3,

                2e6
            };

            var rValues3 = new List <double>()
            {
                1.2, 1.5, 1.8, 2.7, 3.3, 3.9, 6.8, 12, 18, 560, 820,
                1.2e3, 1.8e3, 2.7e3, 12e3, 18e3, 27e3, 270e3, 380e3,
                5.6e3, 300e3,
                1.2e6, 1.8e6, 2.2e6, 2.7e6, 3.9e6, 6.8e6, 8.2e6
            };

            var DATA = rValues1.Union(rValues2).Union(rValues3).OrderBy(w => w).ToList();

            var PAGE_W = 210d;
            var PAGE_H = 297d;

            var LABEL_W = 25d;
            var LABEL_H = 20d;

            var MARGINS_LTRB = new[] { 10d, 10d, 10d, 10d };

            var COLS = Math.Truncate((PAGE_W - MARGINS_LTRB[0] - MARGINS_LTRB[2]) / LABEL_W);
            var ROWS = Math.Truncate((PAGE_H - MARGINS_LTRB[1] - MARGINS_LTRB[3]) / LABEL_H);

            var XORIGIN = 0d;
            var YORIGIN = 0d;

            var TXT_HEIGHT = 5d;
            var OHM_HEIGHT = 3d;
            var TXT_FONT   = new netDxf.Tables.TextStyle("Ubuntu Condensed", netDxf.Tables.FontStyle.Regular);

            var x = XORIGIN;
            var y = YORIGIN;

            int page = 0;

            for (int i = 0; i < DATA.Count; ++i)
            {
                var r = DATA[i];

                var prefix = "";
                if (r >= 1e6)
                {
                    prefix = " M";
                    r     /= 1e6;
                }
                else if (r >= 1e3)
                {
                    prefix = " k";
                    r     /= 1e3;
                }

                var txt = Invariant($"\\H{TXT_HEIGHT};{r}{prefix} \\H{OHM_HEIGHT};Ω");

                {
                    var ent = new LwPolyline(new[]
                    {
                        new Vector2(x, y),
                        new Vector2(x + LABEL_W, y),
                        new Vector2(x + LABEL_W, y + LABEL_H),
                        new Vector2(x, y + LABEL_H),
                    }, isClosed: true);
                    dxf.AddEntity(ent);
                }

                {
                    var ent = new MText(txt)
                    {
                        Position        = new Vector3(x + LABEL_W / 2, y + LABEL_H / 2, 0),
                        Height          = TXT_HEIGHT,
                        RectangleWidth  = LABEL_W,
                        AttachmentPoint = MTextAttachmentPoint.MiddleCenter,
                        Style           = TXT_FONT
                    };
                    dxf.AddEntity(ent);
                }

                x += LABEL_W;
                if ((i + 1) % COLS == 0)
                {
                    y += LABEL_H;

                    if (y >= ROWS * LABEL_H)
                    {
                        y = YORIGIN;
                        ++page;
                    }
                    x = XORIGIN + page * (PAGE_W + LABEL_W);
                }
            }

            dxf.Save("output.dxf", isBinary: false);

            Process.Start(new ProcessStartInfo("output.dxf")
            {
                UseShellExecute = true
            });
        }
Exemplo n.º 11
0
        private static void NestedBlock()
        {
            Block blockMM = new Block("BlockMM");
            blockMM.Record.Units = DrawingUnits.Millimeters;
            AttributeDefinition attDefMM = new AttributeDefinition("MyAttributeMM");
            attDefMM.Height = 1.0;
            attDefMM.Value = "This is block mm";
            blockMM.AttributeDefinitions.Add(attDefMM);
            Line line1MM = new Line(Vector2.Zero, Vector2.UnitX);
            blockMM.Entities.Add(line1MM);
            Insert insMM = new Insert(blockMM);
            insMM.TransformAttributes();

            Block blockCM = new Block("BlockCM");
            blockCM.Record.Units = DrawingUnits.Centimeters;
            AttributeDefinition attDefCM = new AttributeDefinition("MyAttributeCM");
            attDefCM.Height = 1.0;
            attDefCM.Value = "This is block cm";
            blockCM.AttributeDefinitions.Add(attDefCM);
            Line line1CM = new Line(Vector2.Zero, Vector2.UnitY);
            blockCM.Entities.Add(line1CM);
            blockCM.Entities.Add(insMM);
            Insert insCM = new Insert(blockCM);

            DxfDocument doc = new DxfDocument();
            doc.DrawingVariables.InsUnits = DrawingUnits.Meters;
            //doc.AddEntity(insMM);
            doc.AddEntity(insCM);

            doc.Save("test.dxf");
        }
Exemplo n.º 12
0
        private static void SolidEntity()
        {
            // The solid vertexes are expressed in OCS (object coordinate system)
            // Now they are stored as Vector2 to force all vertexes to lay on a plane, this is similar as how the LwPolyline works.
            // The Z coordinate is controlled by the elevation property of the Solid.
            Vector2 a = new Vector2(-1, -1);
            Vector2 b = new Vector2(1, -1);
            Vector2 c = new Vector2(-1, 1);
            Vector2 d = new Vector2(1, 1);

            Solid solid = new Solid(a, b, c, d);
            solid.Normal = new Vector3(1, 1, 0);

            solid.Elevation = 2;

            DxfDocument doc = new DxfDocument();
            doc.AddEntity(solid);
            doc.Save("SolidEntity.dxf");
        }
        static void doDXF(List<Polyline3dVertex> vertexes, double[] x)
        {
            // create a dxf for those who want to "see" the calibration
            DxfDocument dxf = new DxfDocument();

            Polyline3d polyline = new Polyline3d(vertexes, true);
            polyline.Layer = new Layer("polyline3d");
            polyline.Layer.Color.Index = 24;
            dxf.AddEntity(polyline);

            var pnt = new Point(new Vector3f(-(float) x[0], -(float) x[1], -(float) x[2]));
            pnt.Layer = new Layer("new offset");
            pnt.Layer.Color.Index = 21;
            dxf.AddEntity(pnt);

            dxf.Save("magoffset.dxf", DxfVersion.AutoCad2000);

            log.Info("dxf Done " + DateTime.Now);
        }
Exemplo n.º 14
0
        /// <summary>
        /// 绘制左下角区域的Section块
        /// </summary>
        /// <param name="dxf"></param>
        /// <param name="location"></param>
        /// <param name="configurations"></param>
        public static void Draw(DxfDocument dxf, Location location,SectionEntity sectionEntity)
        {
            float factor=0.6f;
            Vector3f v1 = new Vector3f(location.X, location.Y + 40.0f*factor, location.Z);
            Vector3f v2 = new Vector3f(location.X + 50.0f * factor, location.Y + 40.0f * factor, location.Z);
            Vector3f v3 = new Vector3f(location.X + 90.0f * factor, location.Y + 40.0f * factor, location.Z);
            Vector3f v4 = new Vector3f(location.X + 140.0f * factor, location.Y + 40.0f * factor, location.Z);

            Vector3f v5 = new Vector3f(location.X, location.Y + 50.0f * factor, location.Z);
            Vector3f v6 = new Vector3f(location.X + 140.0f * factor, location.Y + 50.0f * factor, location.Z);

            Vector3f v7 = new Vector3f(location.X, location.Y + 60.0f * factor, location.Z);
            Vector3f v8 = new Vector3f(location.X + 140.0f * factor, location.Y + 60.0f * factor, location.Z);

            Vector3f v9 = new Vector3f(location.X, location.Y + 70.0f * factor, location.Z);
            Vector3f v10 = new Vector3f(location.X + 50.0f * factor, location.Y + 70.0f * factor, location.Z);
            Vector3f v11 = new Vector3f(location.X + 90.0f * factor, location.Y + 70.0f * factor, location.Z);
            Vector3f v12 = new Vector3f(location.X + 140.0f * factor, location.Y + 70.0f * factor, location.Z);

            Layer layer = new Layer("line");

            //横向四道
            Line line14 = new Line(v1, v4);
            line14.Layer = layer;
            dxf.AddEntity(line14);

            Line line56 = new Line(v5, v6);
            line56.Layer = layer;
            dxf.AddEntity(line56);

            Line line78 = new Line(v7, v8);
            line78.Layer = layer;
            dxf.AddEntity(line78);

            Line line912 = new Line(v9, v12);
            line912.Layer = layer;
            dxf.AddEntity(line912);

            //纵向四道
            Line line91 = new Line(v9, v1);
            line91.Layer = layer;
            dxf.AddEntity(line91);

            Line line210 = new Line(v2, v10);
            line210.Layer = layer;
            dxf.AddEntity(line210);

            Line line311 = new Line(v3, v11);
            line311.Layer = layer;
            dxf.AddEntity(line311);

            Line line412 = new Line(v4, v12);
            line412.Layer = layer;
            dxf.AddEntity(line412);

            TextStyle style = new TextStyle("True type font", "Arial.ttf");
            Vector3f vt1 = new Vector3f(v1.X+1.0f, v1.Y+2.5f, v1.Z);
            Text t1 = new Text("COIL", vt1, 2.0f, style);
            t1.Layer = layer;
            t1.Alignment = TextAlignment.TopLeft;
            dxf.AddEntity(t1);

            Vector3f vt2 = new Vector3f(v2.X + 1.0f, v2.Y + 2.5f, v2.Z);
            Text t2 = new Text("CLF", vt2, 2.0f, style);
            t2.Layer = layer;
            t2.Alignment = TextAlignment.TopLeft;
            dxf.AddEntity(t2);

            Vector3f vt3 = new Vector3f(v3.X + 1.0f, v3.Y + 2.5f, v3.Z);
            Text t3 = new Text(sectionEntity.CoolValue, vt3, 2.0f, style);
            t3.Layer = layer;
            t3.Alignment = TextAlignment.TopLeft;
            dxf.AddEntity(t3);

            Vector3f vt4 = new Vector3f(v5.X + 1.0f, v5.Y + 2.5f, v5.Z);
            Text t4 = new Text("FILTER", vt4, 2.0f, style);
            t4.Layer = layer;
            t4.Alignment = TextAlignment.TopLeft;
            dxf.AddEntity(t4);

            Vector3f vt5 = new Vector3f(v2.X + 1.0f, v5.Y + 2.5f, v5.Z);
            Text t5 = new Text("FTA", vt5, 2.0f, style);
            t5.Layer = layer;
            t5.Alignment = TextAlignment.TopLeft;
            dxf.AddEntity(t5);

            Vector3f vt6 = new Vector3f(v3.X + 1.0f, v5.Y + 2.5f, v5.Z);
            Text t6 = new Text(sectionEntity.FilterValue, vt6, 2.0f, style);
            t6.Layer = layer;
            t6.Alignment = TextAlignment.TopLeft;
            dxf.AddEntity(t6);

            Vector3f vt7 = new Vector3f(v7.X + 1.0f, v7.Y + 2.5f, v7.Z);
            Text t7 = new Text("SECTION", vt7, 2.0f, style);
            t7.Layer = layer;
            t7.Alignment = TextAlignment.TopLeft;
            dxf.AddEntity(t7);

            Vector3f vt8 = new Vector3f(v2.X + 1.0f, v7.Y + 2.5f, v7.Z);
            Text t8 = new Text("MODULE", vt8, 2.0f, style);
            t8.Layer = layer;
            t8.Alignment = TextAlignment.TopLeft;
            dxf.AddEntity(t8);

            Vector3f vt9 = new Vector3f(v3.X + 1.0f, v7.Y + 2.5f, v7.Z);
            Text t9 = new Text("CLEARANCE", vt9, 2.0f, style);
            t9.Layer = layer;
            t9.Alignment = TextAlignment.TopLeft;
            dxf.AddEntity(t9);
        }
Exemplo n.º 15
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        public static void ModifyingGroups()
        {
            Line line1 = new Line(new Vector2(0, 0), new Vector2(100, 100));
            line1.Color = AciColor.Red;
            Line line2 = new Line(new Vector2(100, 0), new Vector2(200, 100));
            line2.Color = AciColor.Yellow;
            Line line3 = new Line(new Vector2(200, 0), new Vector2(300, 100));
            line3.Color = AciColor.Magenta;

            DxfDocument doc = new DxfDocument();

            Block blk = new Block("MyBlock");
            blk.Entities.Add(line1);
            Insert ins = new Insert(blk);
            doc.AddEntity(ins);

            doc.AddEntity(line2);

            Layout layout = new Layout("Layout1");
            doc.Layouts.Add(layout);
            doc.ActiveLayout = layout.Name;
            doc.AddEntity(line3);
            
            // group
            Group group = new Group("MyGroup");
            doc.Groups.Add(group);

            // the Add method will also add the entities contained in a group to the document (in the active layout).
            doc.Groups.Add(group);

            // when the group belongs to a document, all entities must belong to the same document.
            // even if it does not sound very useful, a group can contain entities that belongs to different layouts and even blocks.
            group.Entities.Add(line1);
            group.Entities.Add(line2);
            group.Entities.Add(line3);

            Line line4 = new Line(new Vector2(300, 0), new Vector2(400, 100));
            line4.Color = AciColor.Blue;
            // if a new entity, that does not belong to any document, is added to the group, it will be added to the group document active layout.
            doc.ActiveLayout = Layout.ModelSpaceName;
            group.Entities.Add(line4);

            Line line5 = new Line(new Vector2(400, 0), new Vector2(500, 100));
            line5.Color = AciColor.Green;
            DxfDocument doc2 = new DxfDocument();
            doc2.AddEntity(line5);

            // this is illegal, line5 belongs to another document.
            //group.Entities.Add(line5);
            // you need to clone the entity before adding it to the group. This is also the common practice to copy entities between documents.
            group.Entities.Add((EntityObject) line5.Clone());

            // remember removing a group only deletes it from the collection not the entities
            //doc.Groups.Remove(group);
            doc.Save("group.dxf");

            doc = DxfDocument.Load("group.dxf");
        }
Exemplo n.º 16
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        public static void ModifyingDocumentEntities()
        {
            Layer layer1 = new Layer("layer1");
            Layer layer2 = new Layer("layer2");
            Layer layer3 = new Layer("layer3");

            LineType lineType1 = LineType.Dot;
            LineType lineType2 = LineType.Dashed;

            Line line = new Line(Vector2.Zero, Vector2.UnitX);
            line.Layer = layer1;
            line.LineType = lineType1;

            DxfDocument doc = new DxfDocument();
            doc.AddEntity(line);

            // if the layer does not exist in the document it will be added automatically
            line.Layer = layer2;
            Debug.Assert(ReferenceEquals(line.Layer, doc.Layers[line.Layer.Name]), "References are not equal.");

            // you can always add it first
            doc.Layers.Add(layer3);
            // layer3 is defined in the document
            line.Layer = layer3;
            Debug.Assert(ReferenceEquals(line.Layer, doc.Layers[line.Layer.Name]), "References are not equal.");

            // same thing is applicable to line types
            line.LineType = lineType2;
            Debug.Assert(ReferenceEquals(line.LineType, doc.LineTypes[line.LineType.Name]), "References are not equal.");

            doc.Save("entity.dxf");

            // it is also possible to rename table objects
            layer1.Name = "New layer1 name";
            lineType1.Name = "DotDot";

            // this operation is illegal, you cannot rename reserved table objects.
            //doc.Layers[Layer.DefaultName].Name = "NewName";

            doc.Save("test.dxf");
        }
Exemplo n.º 17
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        public static void ModifyingBlockProperties()
        {
            DxfDocument doc = new DxfDocument();
            doc.DrawingVariables.InsUnits = DrawingUnits.Centimeters;
            Line existingLine = new Line(new Vector2(-10, 10), new Vector2(10, -10));
            doc.AddEntity(existingLine);

            AttributeDefinition attDef4 = new AttributeDefinition("MyAttribute4");
            attDef4.Value = "MyValue4";
            attDef4.Alignment = TextAlignment.TopCenter;
            Block block = new Block("MyBlock", null, new List<AttributeDefinition>{attDef4});
            block.Record.Units = DrawingUnits.Millimeters;

            // this is incorrect we cannot add an entity that belongs to a document when the block does not belong to anyone.
            //block.Entities.Add(existingLine);
            doc.Blocks.Add(block);
            // when the block and the entity that is being added belong to the same document, the entity will be removed from its current layout and added to the block
            // you cannot add an entity that belongs to a different document or block. Clone it instead.
            block.Entities.Add(existingLine);

            // now we can modify the block properties even if it has been already added to the document
            Line line = new Line(new Vector2(-10, -10), new Vector2(10, 10));

            // when new entities that do not belong to anyone are added to an existing block, they will also be added to the document
            block.Entities.Add(line);

            DxfDocument doc2 = new DxfDocument();
            Circle circle = new Circle(Vector2.Zero, 5);
            doc2.AddEntity(circle);

            // this is incorrect the circle already belongs to another document
            //block.Entities.Add(circle);
            // we need to clone it first
            Circle circle2 = (Circle) circle.Clone();
            circle2.Radius = 2.5;
            block.Entities.Add(circle2);

            //you could also remove circle2 from doc2 and add it to the block
            doc2.RemoveEntity(circle);
            block.Entities.Add(circle);

            AttributeDefinition attDef = new AttributeDefinition("MyAttribute1");
            attDef.Value = "MyValue1";
            block.AttributeDefinitions.Add(attDef);

            // the same that is applicable to entities is also true to attribute definitions
            AttributeDefinition attDef2 = new AttributeDefinition("MyAttribute2");
            attDef2.Value = "MyValue2";
            attDef2.Alignment = TextAlignment.BaselineRight;
            block.AttributeDefinitions.Add(attDef2);

            Insert ins = new Insert(block);
            doc.AddEntity(ins);

            // if the insert has been added to a document, any new attribute definitions added to the block will not be reflected in the insert
            // this mimics the behavior in AutoCad
            AttributeDefinition attDef3 = new AttributeDefinition("MyAttribute3");
            attDef3.Value = "MyValue3";
            attDef3.Alignment = TextAlignment.TopCenter;
            block.AttributeDefinitions.Add(attDef3);
            ins.Rotation = 30;

            // to update the insert attributes call the method Sync, this method will also call the method TransformAttributes
            ins.Sync();

            // the ins2 will have all three attributes
            Insert ins2 = new Insert(block, new Vector2(20,0));
            doc.AddEntity(ins2);

            doc.Save("Test.dxf");

            block.Name = "MyBlockRenamed";

            doc.Save("BlockRename.dxf");

            doc = Test("BlockRename.dxf");
        }
Exemplo n.º 18
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        private static void RemoveBlock()
        {
            DxfDocument dxf = new DxfDocument();
            Block block = new Block("MyBlock");

            Line line1 = new Line(new Vector3(-5, -5, 0), new Vector3(5, 5, 0));
            Line line2 = new Line(new Vector3(5, -5, 0), new Vector3(-5, 5, 0));
            block.Entities.Add(line1);
            block.Entities.Add(line2);

            Insert insert = new Insert(block);

            dxf.AddEntity(insert);

            bool ok;
            // line1 is used by block and cannot be removed (ok = false)
            ok = dxf.RemoveEntity(line1);
            // block is used by insert and cannot be removed (ok = false)
            ok = dxf.Blocks.Remove(block);
            // it is safe to remove insert, it doesn't belong to anybody (ok = true)
            ok = dxf.RemoveEntity(insert);
            // it is safe to remove block, it doesn't belong to anybody (ok = true)
            // at the same time, all entities that were part of the block have been also removed
            ok = dxf.Blocks.Remove(block);
            // obj is null the line1 does not exist in the document, the block was removed
            DxfObject obj = dxf.GetObjectByHandle(line1.Handle);

            Console.WriteLine("Press a key...");
            Console.ReadKey();

        }
Exemplo n.º 19
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        public static void DimensionUserText()
        {
            DxfDocument dxf = new DxfDocument(DxfVersion.AutoCad2010);

            Vector3 p2 = new Vector3(0, 0, 0);
            Vector3 p1 = new Vector3(5, 0, 0);

            Line line1 = new Line(p1, p2)
            {
                Layer = new Layer("Reference line")
                {
                    Color = AciColor.Green
                }
            };
            dxf.AddEntity(line1);

            DimensionStyle style = new DimensionStyle("MyStyle");

            double offset = 0.75;
            LinearDimension dim = new LinearDimension(line1, offset, 0, style);
            dim.UserText = null;    // 5.00 (this is the default behavior)
            dxf.AddEntity(dim);

            dim = new LinearDimension(line1, 2 * offset, 0, style);
            dim.UserText = string.Empty;    // 5.00 (same behavior as null)
            dxf.AddEntity(dim);

            dim = new LinearDimension(line1, 3 * offset, 0, style);
            dim.UserText = " ";    // No dimension text will be drawn (one blank space)
            dxf.AddEntity(dim);

            dim = new LinearDimension(line1, 4 * offset, 0, style);
            dim.UserText = "<>";    // 5.00 (the characters <> will be substituted with the style.DIMPOST property)
            dxf.AddEntity(dim);

            dim = new LinearDimension(line1, 5 * offset, 0, style);
            dim.UserText = "Length: <> mm"; // Length: 5.00 mm (the characters <> will be substituted with the style.DIMPOST property)
            dxf.AddEntity(dim);

            dim = new LinearDimension(line1, 6 * offset, 0, style);
            dim.UserText = "User text"; // User text
            dxf.AddEntity(dim);

            dxf.Save("DimensionUserText.dxf");

        }
Exemplo n.º 20
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        public static void DimensionsLinearAndAngularUnits()
        {
            DimensionStyle style = new DimensionStyle("MyStyle")
            {
                // DIMDEC defines the number of decimal places.
                // For Architectural and Fractional units the minimum fraction is defined by 1/2^DIMDEC.
                DIMDEC = 4,
                DIMFRAC = FractionFormatType.Horizontal,
                DIMLUNIT = LinearUnitType.Engineering,
                SuppressLinearTrailingZeros = true,
                SuppressZeroFeet = false,
                SuppressZeroInches = false,
                DIMLFAC = 10.0,
                // the round off to nearest DIMRND is applied to the linear dimension measurement after applying the scale DIMLFAC
                DIMRND = 0.025,
                DIMADEC = 2,
                DIMAUNIT = AngleUnitType.DegreesMinutesSeconds
            };

            Layer layer = new Layer("Layer1") { Color = AciColor.Blue };

            Vector3 p1 = new Vector3(0, 0, 0);
            Vector3 p2 = new Vector3(21.2548, 0, 0);

            LinearDimension dim = new LinearDimension(p1, p2, 4, 0, style);

            Vector2 s1 = new Vector2(-2, 2);
            Vector2 s2 = new Vector2(2, -2);

            Vector2 e1 = new Vector2(-1, -3);
            Vector2 e2 = new Vector2(1, 3);

            Line line1 = new Line(s1, s2) { Layer = layer };
            Line line2 = new Line(e1, e2) { Layer = layer };
            Angular2LineDimension dim1 = new Angular2LineDimension(line2, line1, 4, style);

            DxfDocument doc = new DxfDocument();
            doc.AddEntity(dim);
            doc.AddEntity(dim1);
            doc.Save("DimensionsLinearAndAngularUnits.dxf");

            DxfDocument dxf = DxfDocument.Load("DimensionsLinearAndAngularUnits.dxf");
        }
Exemplo n.º 21
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        public static void ModifyingMLineStyles()
        {
            DxfDocument doc = new DxfDocument(DxfVersion.AutoCad2010);
            doc.DrawingVariables.LtScale = 10;

            List<Vector2> vertexes = new List<Vector2>
                                            {
                                                new Vector2(0, 0),
                                                new Vector2(0, 150),
                                                new Vector2(150, 150),
                                                new Vector2(150, 0)
                                            };

            MLine mline = new MLine(vertexes);
            mline.Scale = 20;
            mline.Justification = MLineJustification.Zero;

            MLineStyle style = new MLineStyle("MyStyle", "Personalized style.");
            style.Elements.Add(new MLineStyleElement(0.25));
            style.Elements.Add(new MLineStyleElement(-0.25));
         
            // if we add new elements directly to the list we need to sort the list,
            style.Elements.Sort();           
            style.Flags = MLineStyleFlags.EndInnerArcsCap | MLineStyleFlags.EndRoundCap | MLineStyleFlags.StartInnerArcsCap | MLineStyleFlags.StartRoundCap;

            // AutoCad2000 dxf version does not support true colors for MLineStyle elements
            style.Elements[0].Color = new AciColor(180, 230, 147);
           
            doc.AddEntity(mline);

            // change the multi line style after it has been added to the document
            mline.Style = style;
            Debug.Assert(ReferenceEquals(mline.Style, doc.MlineStyles[mline.Style.Name]), "Reference not equals.");

            // VERY IMPORTANT: We have modified the MLine after setting its vertexes so we need to manually call this method.
            // It is also necessary when manually editing the vertex distances.
            mline.Update();
            
            // the line type will be automatically added to the document
            foreach (MLineStyleElement e in style.Elements)
            {
                // making changes after the MLineStyle has been added to the document
                e.LineType = LineType.Dashed;
                Debug.Assert(ReferenceEquals(e.LineType, doc.LineTypes[e.LineType.Name]), "Reference not equals.");
            }

            MLine copy = (MLine) mline.Clone();
            copy.Scale = 100;
            doc.AddEntity(copy);
            // once the entity has been added to the document, changing its style requires that the new style is also present in the document.
            copy.Style = doc.MlineStyles["standard"];
            // VERY IMPORTANT: We have modified the MLine after setting its vertexes so we need to manually call this method.
            // It is also necessary when manually editing the vertex distances.
            copy.Update();

            doc.Save("ModifyingMLineStyle.dxf");
            Test("ModifyingMLineStyle.dxf");
        }
Exemplo n.º 22
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        private void DrawRectangleInternal(DxfDocument doc, Layer layer, bool isFilled, bool isStroked, Core2D.BaseStyle style, ref Core2D.Rect2 rect)
        {
            double x = rect.X;
            double y = rect.Y;
            double w = rect.Width;
            double h = rect.Height;

            var dxfLine1 = CreateLine(x, y, x + w, y);
            var dxfLine2 = CreateLine(x + w, y, x + w, y + h);
            var dxfLine3 = CreateLine(x + w, y + h, x, y + h);
            var dxfLine4 = CreateLine(x, y + h, x, y);

            if (isFilled)
            {
                var fill             = GetColor(style.Fill);
                var fillTransparency = GetTransparency(style.Fill);

                var bounds =
                    new List <HatchBoundaryPath>
                {
                    new HatchBoundaryPath(
                        new List <EntityObject>
                    {
                        (Line)dxfLine1.Clone(),
                        (Line)dxfLine2.Clone(),
                        (Line)dxfLine3.Clone(),
                        (Line)dxfLine4.Clone()
                    })
                };

                var hatch = new Hatch(HatchPattern.Solid, bounds, false);
                hatch.Layer = layer;
                hatch.Color = fill;
                hatch.Transparency.Value = fillTransparency;

                doc.AddEntity(hatch);
            }

            if (isStroked)
            {
                var stroke            = GetColor(style.Stroke);
                var strokeTansparency = GetTransparency(style.Stroke);
                var lineweight        = ThicknessToLineweight(style.Thickness);

                dxfLine1.Layer = layer;
                dxfLine1.Color = stroke;
                dxfLine1.Transparency.Value = strokeTansparency;
                dxfLine1.Lineweight.Value   = lineweight;

                dxfLine2.Layer = layer;
                dxfLine2.Color = stroke;
                dxfLine2.Transparency.Value = strokeTansparency;
                dxfLine2.Lineweight.Value   = lineweight;

                dxfLine3.Layer = layer;
                dxfLine3.Color = stroke;
                dxfLine3.Transparency.Value = strokeTansparency;
                dxfLine3.Lineweight.Value   = lineweight;

                dxfLine4.Layer = layer;
                dxfLine4.Color = stroke;
                dxfLine4.Transparency.Value = strokeTansparency;
                dxfLine4.Lineweight.Value   = lineweight;

                doc.AddEntity(dxfLine1);
                doc.AddEntity(dxfLine2);
                doc.AddEntity(dxfLine3);
                doc.AddEntity(dxfLine4);
            }
        }
Exemplo n.º 23
0
        private void DrawRectangleInternal(DxfDocument doc, Layer layer, bool isFilled, bool isStroked, Test2d.BaseStyle style, ref Test2d.Rect2 rect)
        {
            double x = rect.X;
            double y = rect.Y;
            double w = rect.Width;
            double h = rect.Height;

            var dxfLine1 = CreateLine(x, y, x + w, y);
            var dxfLine2 = CreateLine(x + w, y, x + w, y + h);
            var dxfLine3 = CreateLine(x + w, y + h, x, y + h);
            var dxfLine4 = CreateLine(x, y + h, x, y);

            if (isFilled)
            {
                var fill = GetColor(style.Fill);
                var fillTransparency = GetTransparency(style.Fill);

                var bounds =
                    new List<HatchBoundaryPath>
                    {
                        new HatchBoundaryPath(
                            new List<EntityObject>
                            {
                                (Line)dxfLine1.Clone(),
                                (Line)dxfLine2.Clone(),
                                (Line)dxfLine3.Clone(),
                                (Line)dxfLine4.Clone()
                            })
                    };

                var hatch = new Hatch(HatchPattern.Solid, bounds, false);
                hatch.Layer = layer;
                hatch.Color = fill;
                hatch.Transparency.Value = fillTransparency;

                doc.AddEntity(hatch);
            }

            if (isStroked)
            {
                var stroke = GetColor(style.Stroke);
                var strokeTansparency = GetTransparency(style.Stroke);
                var lineweight = ThicknessToLineweight(style.Thickness);

                dxfLine1.Layer = layer;
                dxfLine1.Color = stroke;
                dxfLine1.Transparency.Value = strokeTansparency;
                dxfLine1.Lineweight.Value = lineweight;

                dxfLine2.Layer = layer;
                dxfLine2.Color = stroke;
                dxfLine2.Transparency.Value = strokeTansparency;
                dxfLine2.Lineweight.Value = lineweight;

                dxfLine3.Layer = layer;
                dxfLine3.Color = stroke;
                dxfLine3.Transparency.Value = strokeTansparency;
                dxfLine3.Lineweight.Value = lineweight;

                dxfLine4.Layer = layer;
                dxfLine4.Color = stroke;
                dxfLine4.Transparency.Value = strokeTansparency;
                dxfLine4.Lineweight.Value = lineweight;

                doc.AddEntity(dxfLine1);
                doc.AddEntity(dxfLine2);
                doc.AddEntity(dxfLine3);
                doc.AddEntity(dxfLine4);
            }
        }
Exemplo n.º 24
0
        public static void ModifyingDimensionGeometryAndStyle()
        {
            DimensionStyle style = new DimensionStyle("MyStyle");
            Vector3 p1 = new Vector3(-2.5, 0, 0);
            Vector3 p2 = new Vector3(2.5, 0, 0);

            LinearDimension dim = new LinearDimension(p1, p2, 4, 0, style);

            // This is illegal. Trying to rebuild the dimension block before it has been added to a document will throw an exception
            //dim.RebuildBlock();

            DxfDocument doc = new DxfDocument();
            doc.AddEntity(dim);

            // modifying the dimension style
            dim.Style.DIMBLK = DimensionArrowhead.ArchitecturalTick;
            // if we make any change to the dimension style, we need to manually call the RebuildBlock method to reflect the new changes
            // since we will also modify the geometry of the dimension we will rebuild the block latter
            //dim.RebuildBlock();

            // the same kind of procedure needs to be done when modifying the geometry of a dimension
            dim.FirstReferencePoint = new Vector3(-5.0, 0, 0);
            dim.SecondReferencePoint = new Vector3(5.0, 0, 0);
            // now that all necessary changes has been made, we will rebuild the block.
            // this is an expensive operation, use it only when need it.

            dim.Style.DIMBLK = DimensionArrowhead.Box;
            dim.Style.DIMBLK = DimensionArrowhead.ArchitecturalTick;
            Debug.Assert(ReferenceEquals(dim.Style.DIMBLK, doc.Blocks[dim.Style.DIMBLK.Name]), "References are not equal.");
            Debug.Assert(ReferenceEquals(style.DIMBLK, doc.Blocks[style.DIMBLK.Name]), "References are not equal.");
            //dim.Style.DIMBLK = null;

            // VERY IMPORTANT: If any change is made to the dimension geometry and/or its style, we need to rebuild the drawing representation
            // so the dimension block will reflect the new changes. This is only necessary for dimension that already belongs to a document.
            // This process is automatically called when a new dimension is added to a document.
            dim.Update();
            Debug.Assert(ReferenceEquals(dim.Block, doc.Blocks[dim.Block.Name]));

            doc.Save("dimension.dxf");
            Test("dimension.dxf");

        }
Exemplo n.º 25
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        /// <summary>
        /// 绘制订单信息块
        /// </summary>
        /// <param name="dxf"></param>
        /// <param name="location"></param>
        /// <param name="boxWidth"></param>
        /// <param name="configurations"></param>
        public static void Draw(DxfDocument dxf, Location location,float boxWidth, OrderEntity orderEntity)
        {
            float factor = 0.6f;
            Vector3f v1 = new Vector3f(location.X,location.Y,location.Z);
            Vector3f v2 = new Vector3f(location.X + boxWidth, location.Y, location.Z);
            Vector3f v3 = new Vector3f(location.X + boxWidth, location.Y + 40.0f * factor, location.Z);
            Vector3f v4 = new Vector3f(location.X, location.Y + 40.0f * factor, location.Z);

            Vector3f v5 = new Vector3f(location.X, location.Y + 10.0f * factor, location.Z);
            Vector3f v6 = new Vector3f(location.X + boxWidth / 4, location.Y + 10.0f * factor, location.Z);
            Vector3f v7 = new Vector3f(location.X + boxWidth / 2, location.Y + 10.0f * factor, location.Z);
            Vector3f v8 = new Vector3f(location.X + boxWidth * 3 / 4, location.Y + 10.0f * factor, location.Z);
            Vector3f v9 = new Vector3f(location.X + boxWidth * 7 / 8, location.Y + 10.0f * factor, location.Z);

            Vector3f v10 = new Vector3f(location.X + boxWidth / 4, location.Y + 20.0f * factor, location.Z);
            Vector3f v11 = new Vector3f(location.X + boxWidth / 2, location.Y + 20.0f * factor, location.Z);
            Vector3f v12 = new Vector3f(location.X + boxWidth * 3 / 4, location.Y + 20.0f * factor, location.Z);
            Vector3f v13 = new Vector3f(location.X + boxWidth * 7 / 8, location.Y + 20.0f * factor, location.Z);
            Vector3f v14 = new Vector3f(location.X + boxWidth, location.Y + 20.0f * factor, location.Z);

            Vector3f v15 = new Vector3f(location.X + boxWidth / 4, location.Y + 40.0f * factor, location.Z);
            Vector3f v16 = new Vector3f(location.X + boxWidth * 3 / 4, location.Y + 40.0f * factor, location.Z);

            Vector3f v17 = new Vector3f(location.X + boxWidth / 4, location.Y, location.Z);
            Vector3f v18 = new Vector3f(location.X + boxWidth / 2, location.Y, location.Z);
            Vector3f v19 = new Vector3f(location.X + boxWidth * 3 / 4, location.Y, location.Z);

            Vector3f v20 = new Vector3f(location.X + boxWidth, location.Y + 10.0f * factor, location.Z);

            Layer layer = new Layer("line");

            //横向四道
            Line line12 = new Line(v1, v2);
            line12.Layer = layer;
            dxf.AddEntity(line12);

            Line line520 = new Line(v5, v20);
            line520.Layer = layer;
            dxf.AddEntity(line520);

            Line line1014 = new Line(v10, v14);
            line1014.Layer = layer;
            dxf.AddEntity(line1014);

            Line line43 = new Line(v4, v3);
            line43.Layer = layer;
            dxf.AddEntity(line43);

            //纵向6道
            Line line41 = new Line(v4, v1);
            line41.Layer = layer;
            dxf.AddEntity(line41);

            Line line1517 = new Line(v15, v17);
            line1517.Layer = layer;
            dxf.AddEntity(line1517);

            Line line1118 = new Line(v11, v18);
            line1118.Layer = layer;
            dxf.AddEntity(line1118);

            Line line1619 = new Line(v16, v19);
            line1619.Layer = layer;
            dxf.AddEntity(line1619);

            Line line139 = new Line(v13, v9);
            line139.Layer = layer;
            dxf.AddEntity(line139);

            Line line32= new Line(v3, v2);
            line32.Layer = layer;
            dxf.AddEntity(line32);

            //文字

            TextStyle style = new TextStyle("True type font", "Arial.ttf");
            Vector3f vt1 = new Vector3f(v1.X + 1.0f, v1.Y + 2.5f, v1.Z);
            Text t1 = new Text("Celebrity 1.0.0", vt1, 2.0f, style);
            t1.Layer = layer;
            t1.Alignment = TextAlignment.TopLeft;
            dxf.AddEntity(t1);

            Vector3f vt2 = new Vector3f(v17.X + 1.0f, v17.Y + 2.5f, v1.Z);
            Text t2 = new Text("PREPARER:  "+orderEntity.Preparer, vt2, 2.0f, style);
            t2.Layer = layer;
            t1.Alignment = TextAlignment.TopLeft;
            dxf.AddEntity(t2);

            Vector3f vt3 = new Vector3f(v18.X + 1.0f, v18.Y + 2.5f, v1.Z);
            Text t3 = new Text("ENGINEER:  "+orderEntity.Engineer, vt3, 2.0f, style);
            t3.Layer = layer;
            t3.Alignment = TextAlignment.TopLeft;
            dxf.AddEntity(t3);

            Vector3f vt4 = new Vector3f(v19.X + 1.0f, v19.Y + 2.5f, v1.Z);
            Text t4 = new Text("SHIP ORDER NO:  "+orderEntity.ShipOrderNo, vt4, 2.0f, style);
            t4.Layer = layer;
            t4.Alignment = TextAlignment.TopLeft;
            dxf.AddEntity(t4);

            Vector3f vt5 = new Vector3f(v4.X + 1.0f, v10.Y + 2.5f, v1.Z);
            Text t5= new Text("     AAON  COIL  PRODUCTS  inc.", vt5, 3.0f, style);
            t5.Layer = layer;
            t5.Alignment = TextAlignment.TopLeft;
            dxf.AddEntity(t5);

            Vector3f vt6 = new Vector3f(v5.X + 1.0f, v5.Y + 2.5f, v1.Z);
            Text t6 = new Text("LONGVIEW  TEXAS", vt6, 2.0f, style);
            t6.Layer = layer;
            t6.Alignment = TextAlignment.TopLeft;
            dxf.AddEntity(t6);

            Vector3f vt7 = new Vector3f(v6.X + 1.0f, v6.Y + 2.5f, v1.Z);
            Text t7 = new Text("PURCHASER:  " + orderEntity.Purchaser, vt7, 2.0f, style);
            t7.Layer = layer;
            t7.Alignment = TextAlignment.TopLeft;
            dxf.AddEntity(t7);

            Vector3f vt8 = new Vector3f(v7.X + 1.0f, v7.Y + 2.5f, v1.Z);
            Text t8 = new Text("PURCHASE ORDER:  " + orderEntity.PurchaseOrder, vt8, 2.0f, style);
            t8.Layer = layer;
            t8.Alignment = TextAlignment.TopLeft;
            dxf.AddEntity(t8);

            Vector3f vt9 = new Vector3f(v8.X + 1.0f, v8.Y + 2.5f, v1.Z);
            Text t9 = new Text("SERIAL NO:  " + orderEntity.SeriaNo, vt9, 2.0f, style);
            t9.Layer = layer;
            t9.Alignment = TextAlignment.TopLeft;
            dxf.AddEntity(t9);

            Vector3f vt10 = new Vector3f(v9.X + 1.0f, v9.Y + 2.5f, v1.Z);
            Text t10 = new Text("DATE: "+DateTime.Now.ToShortDateString(), vt10, 2.0f, style);
            t10.Layer = layer;
            t10.Alignment = TextAlignment.TopLeft;
            dxf.AddEntity(t10);

            Vector3f vt11 = new Vector3f(v15.X + 1.0f, v15.Y - 7.5f, v1.Z);
            Text t11 = new Text("JOB NAME:", vt11, 2.0f, style);
            t11.Layer = layer;
            t11.Alignment = TextAlignment.TopLeft;
            dxf.AddEntity(t11);

            Vector3f vt12 = new Vector3f(v10.X + 10.0f, v10.Y + 2.5f, v1.Z);
            Text t12 = new Text(orderEntity.JobName, vt12, 2.0f, style);
            t12.Layer = layer;
            t12.Alignment = TextAlignment.TopLeft;
            dxf.AddEntity(t12);

            Vector3f vt13 = new Vector3f(v16.X + 1.0f, v16.Y - 7.5f, v1.Z);
            Text t13 = new Text("UNIT TAG:", vt13, 2.0f, style);
            t13.Layer = layer;
            t13.Alignment = TextAlignment.TopLeft;
            dxf.AddEntity(t13);

            Vector3f vt14 = new Vector3f(v12.X + 20.0f, v12.Y + 2.5f, v1.Z);
            Text t14 = new Text(orderEntity.UnitTag, vt14, 2.0f, style);
            t14.Layer = layer;
            t14.Alignment = TextAlignment.TopLeft;
            dxf.AddEntity(t14);
        }
Exemplo n.º 26
0
        //画标注
        public static void writeDimension(DxfDocument doc,Location firstLocation,Location secondLocation,float textHeight,float textWidth,float dimensionHeight,string dimensionDirection)
        {
            float numWidth;
            string strNumWidth = "";
            Layer dimensionLayer=new Layer("dimensionLayer");
            Line line1 = new Line();
            Line line2 = new Line();
            Line leftLine = new Line();
            Line rightLine = new Line();
            Line upLeftLine = new Line();
            Line downLeftLine = new Line();
            Line upRightLine = new Line();
            Line downRightLine = new Line();
            Text strText = new Text();
            line1.Layer = dimensionLayer;
            line2.Layer = dimensionLayer;
            leftLine.Layer = dimensionLayer;
            rightLine.Layer = dimensionLayer;
            upLeftLine.Layer = dimensionLayer;
            downLeftLine.Layer = dimensionLayer;
            upRightLine.Layer = dimensionLayer;
            downRightLine.Layer = dimensionLayer;
            strText.Layer = dimensionLayer;
            if (dimensionDirection.Equals("top"))
            {
                line1.StartPoint = new Vector3f(firstLocation.X, firstLocation.Y, firstLocation.Z);
                line1.EndPoint = new Vector3f(firstLocation.X, firstLocation.Y + dimensionHeight, firstLocation.Z);
                line2.StartPoint = new Vector3f(secondLocation.X,secondLocation.Y,secondLocation.Z);
                line2.EndPoint = new Vector3f(secondLocation.X,secondLocation.Y+dimensionHeight,secondLocation.Z);
                leftLine.StartPoint = new Vector3f(firstLocation.X, firstLocation.Y + 7 * dimensionHeight / 8,firstLocation.Z);
                leftLine.EndPoint = new Vector3f(firstLocation.X+Math.Abs(firstLocation.X-secondLocation.X)/2-textWidth/2,firstLocation.Y+7*dimensionHeight/8, firstLocation.Z);
                upLeftLine.StartPoint = new Vector3f(firstLocation.X, firstLocation.Y + 7 * dimensionHeight / 8,firstLocation.Z);
                upLeftLine.EndPoint = new Vector3f(firstLocation.X + 0.2f, firstLocation.Y + 7 * dimensionHeight / 8+0.2f,firstLocation.Z);
                downLeftLine.StartPoint = new Vector3f(firstLocation.X, firstLocation.Y + 7 * dimensionHeight / 8, firstLocation.Z);
                downLeftLine.EndPoint = new Vector3f(firstLocation.X + 0.2f, firstLocation.Y + 7 * dimensionHeight / 8 - 0.2f, firstLocation.Z);
                upRightLine.StartPoint = new Vector3f(secondLocation.X, secondLocation.Y + 7 * dimensionHeight/8,secondLocation.Z);
                upRightLine.EndPoint = new Vector3f(secondLocation.X - 0.2f, secondLocation.Y + 7 * dimensionHeight / 8 + 0.2f, secondLocation.Z);
                downRightLine.StartPoint = new Vector3f(secondLocation.X,secondLocation.Y+7*dimensionHeight/8,secondLocation.Z);
                downRightLine.EndPoint = new Vector3f(secondLocation.X-0.2f,secondLocation.Y+7*dimensionHeight/8-0.2f,secondLocation.Z);

                rightLine.StartPoint = new Vector3f(secondLocation.X,secondLocation.Y+7*dimensionHeight/8,secondLocation.Z);
                rightLine.EndPoint = new Vector3f(secondLocation.X-Math.Abs(firstLocation.X-secondLocation.X)/2+textWidth/2,secondLocation.Y+7*dimensionHeight/8,secondLocation.Z);

                numWidth = secondLocation.X - firstLocation.X;
                strNumWidth = "" + numWidth;
               strText.BasePoint=new Vector3f(firstLocation.X+Math.Abs(firstLocation.X-secondLocation.X)/2-textWidth/2+0.2f,firstLocation.Y+7*dimensionHeight/8, firstLocation.Z);
               strText.Height=0.5f;
                strText.Value=strNumWidth;
            }
            else if(dimensionDirection.Equals("bottom")){
                line1.StartPoint = new Vector3f(firstLocation.X, firstLocation.Y, firstLocation.Z);
                line1.EndPoint = new Vector3f(firstLocation.X, firstLocation.Y - dimensionHeight, firstLocation.Z);
                line2.StartPoint = new Vector3f(secondLocation.X, secondLocation.Y, secondLocation.Z);
                line2.EndPoint = new Vector3f(secondLocation.X, secondLocation.Y - dimensionHeight, secondLocation.Z);
                leftLine.StartPoint = new Vector3f(firstLocation.X, firstLocation.Y - 7 * dimensionHeight / 8, firstLocation.Z);
                leftLine.EndPoint = new Vector3f(firstLocation.X + Math.Abs(firstLocation.X - secondLocation.X) / 2 - textWidth / 2, firstLocation.Y - 7 * dimensionHeight / 8, firstLocation.Z);
                upLeftLine.StartPoint = new Vector3f(firstLocation.X, firstLocation.Y - 7 * dimensionHeight / 8, firstLocation.Z);
                upLeftLine.EndPoint = new Vector3f(firstLocation.X + 0.2f, firstLocation.Y - 7 * dimensionHeight / 8 + 0.2f, firstLocation.Z);
                downLeftLine.StartPoint = new Vector3f(firstLocation.X, firstLocation.Y - 7 * dimensionHeight / 8, firstLocation.Z);
                downLeftLine.EndPoint = new Vector3f(firstLocation.X + 0.2f, firstLocation.Y - 7 * dimensionHeight / 8 - 0.2f, firstLocation.Z);
                upRightLine.StartPoint = new Vector3f(secondLocation.X, secondLocation.Y - 7 * dimensionHeight / 8, secondLocation.Z);
                upRightLine.EndPoint = new Vector3f(secondLocation.X - 0.2f, secondLocation.Y - 7 * dimensionHeight / 8 + 0.2f, secondLocation.Z);
                downRightLine.StartPoint = new Vector3f(secondLocation.X, secondLocation.Y - 7 * dimensionHeight / 8, secondLocation.Z);
                downRightLine.EndPoint = new Vector3f(secondLocation.X - 0.2f, secondLocation.Y - 7 * dimensionHeight / 8 - 0.2f, secondLocation.Z);

                rightLine.StartPoint = new Vector3f(secondLocation.X, secondLocation.Y - 7 * dimensionHeight / 8, secondLocation.Z);
                rightLine.EndPoint = new Vector3f(secondLocation.X - Math.Abs(firstLocation.X - secondLocation.X) / 2 + textWidth / 2, secondLocation.Y - 7 * dimensionHeight / 8, secondLocation.Z);

                numWidth = secondLocation.X - firstLocation.X;
                strNumWidth = "" + numWidth;
                strText.BasePoint=new Vector3f(firstLocation.X+Math.Abs(firstLocation.X-secondLocation.X)/2-textWidth/2+0.2f,firstLocation.Y-7*dimensionHeight/8, firstLocation.Z);
               strText.Height=0.5f;
                strText.Value=strNumWidth;
            }
            else if(dimensionDirection.Equals("left")){
                line1.StartPoint = new Vector3f(firstLocation.X, firstLocation.Y, firstLocation.Z);
                line1.EndPoint = new Vector3f(firstLocation.X - dimensionHeight, firstLocation.Y, firstLocation.Z);
                line2.StartPoint = new Vector3f(secondLocation.X, secondLocation.Y, secondLocation.Z);
                line2.EndPoint = new Vector3f(secondLocation.X - dimensionHeight, secondLocation.Y, secondLocation.Z);
                leftLine.StartPoint = new Vector3f(firstLocation.X - 7 * dimensionHeight / 8, firstLocation.Y, firstLocation.Z);
                leftLine.EndPoint = new Vector3f(firstLocation.X - 7 * dimensionHeight / 8, firstLocation.Y + Math.Abs(firstLocation.Y - secondLocation.Y) / 2 - textWidth / 2, firstLocation.Z);
                upLeftLine.StartPoint = new Vector3f(firstLocation.X - 7 * dimensionHeight / 8, firstLocation.Y, firstLocation.Z);
                upLeftLine.EndPoint = new Vector3f(firstLocation.X - 7 * dimensionHeight / 8 - 0.2f, firstLocation.Y + 0.2f, firstLocation.Z);
                downLeftLine.StartPoint = new Vector3f(firstLocation.X - 7 * dimensionHeight / 8, firstLocation.Y, firstLocation.Z);
                downLeftLine.EndPoint = new Vector3f(firstLocation.X - 7 * dimensionHeight / 8 + 0.2f, firstLocation.Y+0.2f, firstLocation.Z);
                upRightLine.StartPoint = new Vector3f(secondLocation.X - 7 * dimensionHeight / 8, secondLocation.Y, secondLocation.Z);
                upRightLine.EndPoint = new Vector3f(secondLocation.X - 7 * dimensionHeight / 8 - 0.2f, secondLocation.Y - 0.2f, secondLocation.Z);
                downRightLine.StartPoint = new Vector3f(secondLocation.X - 7 * dimensionHeight / 8, secondLocation.Y, secondLocation.Z);
                downRightLine.EndPoint = new Vector3f(secondLocation.X - 7 * dimensionHeight / 8 + 0.2f, secondLocation.Y-0.2f, secondLocation.Z);

                rightLine.StartPoint = new Vector3f(secondLocation.X - 7 * dimensionHeight / 8, secondLocation.Y, secondLocation.Z);
                rightLine.EndPoint = new Vector3f(secondLocation.X - 7 * dimensionHeight / 8, secondLocation.Y - Math.Abs(firstLocation.Y - secondLocation.Y) / 2 + textWidth / 2, secondLocation.Z);

                numWidth = secondLocation.Y - firstLocation.Y;
                strNumWidth = "" + numWidth;
                strText.BasePoint = new Vector3f(firstLocation.X - 7 * dimensionHeight / 8, firstLocation.Y + Math.Abs(firstLocation.Y - secondLocation.Y) / 2 - textWidth / 2 + 0.2f, firstLocation.Z);
               strText.Height=0.5f;
                strText.Value=strNumWidth;
            }
            else if (dimensionDirection.Equals("right"))
            {
                line1.StartPoint = new Vector3f(firstLocation.X, firstLocation.Y, firstLocation.Z);
                line1.EndPoint = new Vector3f(firstLocation.X + dimensionHeight, firstLocation.Y, firstLocation.Z);
                line2.StartPoint = new Vector3f(secondLocation.X, secondLocation.Y, secondLocation.Z);
                line2.EndPoint = new Vector3f(secondLocation.X + dimensionHeight, secondLocation.Y, secondLocation.Z);
                leftLine.StartPoint = new Vector3f(firstLocation.X + 7 * dimensionHeight / 8, firstLocation.Y, firstLocation.Z);
                leftLine.EndPoint = new Vector3f(firstLocation.X + 7 * dimensionHeight / 8, firstLocation.Y + Math.Abs(firstLocation.Y - secondLocation.Y) / 2 - textWidth / 2, firstLocation.Z);
                upLeftLine.StartPoint = new Vector3f(firstLocation.X + 7 * dimensionHeight / 8, firstLocation.Y, firstLocation.Z);
                upLeftLine.EndPoint = new Vector3f(firstLocation.X + 7 * dimensionHeight / 8 - 0.2f, firstLocation.Y + 0.2f, firstLocation.Z);
                downLeftLine.StartPoint = new Vector3f(firstLocation.X + 7 * dimensionHeight / 8, firstLocation.Y, firstLocation.Z);
                downLeftLine.EndPoint = new Vector3f(firstLocation.X + 7 * dimensionHeight / 8 + 0.2f, firstLocation.Y + 0.2f, firstLocation.Z);
                upRightLine.StartPoint = new Vector3f(secondLocation.X + 7 * dimensionHeight / 8, secondLocation.Y, secondLocation.Z);
                upRightLine.EndPoint = new Vector3f(secondLocation.X + 7 * dimensionHeight / 8 - 0.2f, secondLocation.Y - 0.2f, secondLocation.Z);
                downRightLine.StartPoint = new Vector3f(secondLocation.X + 7 * dimensionHeight / 8, secondLocation.Y, secondLocation.Z);
                downRightLine.EndPoint = new Vector3f(secondLocation.X + 7 * dimensionHeight / 8 + 0.2f, secondLocation.Y - 0.2f, secondLocation.Z);

                rightLine.StartPoint = new Vector3f(secondLocation.X + 7 * dimensionHeight / 8, secondLocation.Y, secondLocation.Z);
                rightLine.EndPoint = new Vector3f(secondLocation.X + 7 * dimensionHeight / 8, secondLocation.Y - Math.Abs(firstLocation.Y - secondLocation.Y) / 2 + textWidth / 2, secondLocation.Z);

                numWidth = secondLocation.Y - firstLocation.Y;
                strNumWidth = "" + numWidth;
                strText.BasePoint=new Vector3f(firstLocation.X + 7 * dimensionHeight / 8, firstLocation.Y + Math.Abs(firstLocation.Y - secondLocation.Y) / 2 - textWidth / 2+0.2f, firstLocation.Z);
               strText.Height=0.5f;
                strText.Value=strNumWidth;
            }
            doc.AddEntity(line1);
            doc.AddEntity(line2);
            doc.AddEntity(leftLine);
            doc.AddEntity(rightLine);
            doc.AddEntity(upLeftLine);
            doc.AddEntity(downLeftLine);
            doc.AddEntity(upRightLine);
            doc.AddEntity(downRightLine);
            doc.AddEntity(strText);
        }
Exemplo n.º 27
0
		public void WriteProject(WaveguideDesignerProjectData project)
			{
			if( project == null ) return;

			Type type;
			EntityObject obj = null;
			DxfDocument doc = new DxfDocument();

			doc.Name = project.Name;

			Layer dxfLayer;
			LayerData layerData;
			foreach( VirtualLayer vLayer in project.VirtualGraphics.Layers )
				{
				layerData = null;
				foreach( LayerData tmp in project.Layers )
					if( tmp.VirtualLayer == vLayer )
						{
						layerData = tmp;
						break;
						}
				if( layerData == null ) continue;
				dxfLayer = new Layer( layerData.Name );
				dxfLayer.Color.Index = (short)layerData.LayerNumber;
				doc.Layers.Add( dxfLayer );

				foreach( VirtualShapeBase vShape in vLayer.Shapes )
					{
					type = vShape.GetType();
					if( type == typeof( VirtualRectangle ) )
						{
						VirtualRectangle rect = (VirtualRectangle)vShape;
						Polyline dxfrect = new Polyline();
						obj = new Polyline();
						dxfrect.IsClosed = true;
						dxfrect.Vertexes.Add( new PolylineVertex( rect.Location.X, rect.Location.Y, 0 ) );
						dxfrect.Vertexes.Add( new PolylineVertex( rect.Location.X + rect.Size.W, rect.Location.Y, 0 ) );
						dxfrect.Vertexes.Add( new PolylineVertex( rect.Location.X + rect.Size.W, rect.Location.Y + rect.Size.H, 0 ) );
						dxfrect.Vertexes.Add( new PolylineVertex( rect.Location.X, rect.Location.Y + rect.Size.H, 0 ) );
						dxfrect.Vertexes.Add( new PolylineVertex( rect.Location.X, rect.Location.Y, 0 ) );
						obj = dxfrect;
						}
					else if( type == typeof( VirtualPolygon ) )
						{
						VirtualPolygon poly = (VirtualPolygon)vShape;
						Polyline dxfpoly = new Polyline();
						dxfpoly.IsClosed = true;
						foreach( PointD p in poly.Vertices )
							dxfpoly.Vertexes.Add( conv( p ) );
						dxfpoly.Vertexes.Add( conv( poly.Vertices[0] ) );
						obj = dxfpoly;
						}
					else if( type == typeof( VirtualEllipse ) )
						{
						VirtualEllipse elli = (VirtualEllipse)vShape;
						Ellipse dxfelli = new Ellipse();
						dxfelli.Center = new netDxf.Vector3( elli.Center.X, elli.Center.Y, 0 );
						dxfelli.StartAngle = 0;
						dxfelli.EndAngle = 360;
						dxfelli.MajorAxis = Math.Max( elli.Radius.W, elli.Radius.H );
						dxfelli.MinorAxis = Math.Min( elli.Radius.W, elli.Radius.H );
						dxfelli.Rotation = elli.Radius.W >= elli.Radius.H ? 0 : 90;
						obj = dxfelli;
						}
					else if( type == typeof( VirtualPie ) )
						{
						VirtualPie pie = (VirtualPie)vShape;
						Ellipse dxfelli = new Ellipse();
						dxfelli.Center = new netDxf.Vector3( pie.Center.X, pie.Center.Y, 0 );
						dxfelli.StartAngle = pie.StartAngle;
						dxfelli.EndAngle = pie.EndAngle;
						dxfelli.MajorAxis = Math.Max( pie.Radius.W, pie.Radius.H );
						dxfelli.MinorAxis = Math.Min( pie.Radius.W, pie.Radius.H );
						dxfelli.Rotation = pie.Radius.W >= pie.Radius.H ? 0 : 90;
						obj = dxfelli;
						}
					else obj = null;

					if( obj == null )
						continue;
					obj.Layer = dxfLayer;
					doc.AddEntity( obj );
					}
				}

			doc.Save( FileName );
			}
Exemplo n.º 28
0
        //画无门栓的矩形框
        public static void writeDoorRectangle(DxfDocument doc, Location location, string[] text, float height, float width, float outer_mid_space, float outer_in_space)
        {
            Layer doorRectangleLayer = new Layer("nonDoorBarLayer");
            //最外围矩形
            writeOuterDoorRectangle(doc,location,height,width);
            //中间矩形
            Line midBottomLine=new Line(new Vector3f(location.X+outer_mid_space,location.Y+outer_mid_space,location.Z),new Vector3f(location.X+width-outer_mid_space,location.Y+outer_mid_space,location.Z));
            midBottomLine.Layer=doorRectangleLayer;
            Line midLeftLine=new Line(new Vector3f(location.X+outer_mid_space,location.Y+outer_mid_space,location.Z),new Vector3f(location.X+outer_mid_space,location.Y+height-outer_mid_space,location.Z));
            midLeftLine.Layer=doorRectangleLayer;
            Line midTopLine=new Line(new Vector3f(location.X+outer_mid_space,location.Y+height-outer_mid_space,location.Z),new Vector3f(location.X+width-outer_mid_space,location.Y+height-outer_mid_space,location.Z));
            midTopLine.Layer=doorRectangleLayer;
            Line midRightLine = new Line(new Vector3f(location.X + width - outer_mid_space, location.Y + height - outer_mid_space, location.Z), new Vector3f(location.X + width - outer_mid_space, location.Y + outer_mid_space, location.Z));
            midRightLine.Layer = doorRectangleLayer;

            doc.AddEntity(midBottomLine);
            doc.AddEntity(midLeftLine);
            doc.AddEntity(midTopLine);
            doc.AddEntity(midRightLine);

            //内部矩形
            Line inBottomLine = new Line(new Vector3f(location.X + outer_in_space, location.Y + outer_in_space, location.Z), new Vector3f(location.X + width - outer_in_space, location.Y + outer_in_space, location.Z));
            inBottomLine.Layer = doorRectangleLayer;
            Line inLeftLine = new Line(new Vector3f(location.X + outer_in_space, location.Y + outer_in_space, location.Z), new Vector3f(location.X + outer_in_space, location.Y + height - outer_in_space, location.Z));
            inLeftLine.Layer = doorRectangleLayer;
            Line inTopLine = new Line(new Vector3f(location.X + outer_in_space, location.Y + height - outer_in_space, location.Z), new Vector3f(location.X + width - outer_in_space, location.Y + height - outer_in_space, location.Z));
            inTopLine.Layer = doorRectangleLayer;
            Line inRightLine = new Line(new Vector3f(location.X + width - outer_in_space, location.Y + height - outer_in_space, location.Z), new Vector3f(location.X + width - outer_in_space, location.Y + outer_in_space, location.Z));
            inRightLine.Layer = doorRectangleLayer;

            doc.AddEntity(inBottomLine);
            doc.AddEntity(inLeftLine);
            doc.AddEntity(inTopLine);
            doc.AddEntity(inRightLine);

            //门中文字
            float textHeight=DoorInitHeightAndWidth.textHeight;
            for(int i=0;i<text.Length;i++){
                Text doorRectangleText = new Text(text[i], new Vector3f(location.X + width / 3, location.Y + 3*height / 4- i * textHeight, location.Z), textHeight);
                doorRectangleText.Layer = doorRectangleLayer;
                doc.AddEntity(doorRectangleText);
            }
        }
Exemplo n.º 29
0
        private void DrawGridInternal(DxfDocument doc, Layer layer, Test2d.ShapeStyle style, double offsetX, double offsetY, double cellWidth, double cellHeight, ref Test2d.Rect2 rect)
        {
            var stroke = GetColor(style.Stroke);
            var strokeTansparency = GetTransparency(style.Stroke);
            var lineweight = ThicknessToLineweight(style.Thickness);

            double ox = rect.X;
            double oy = rect.Y;
            double sx = ox + offsetX;
            double sy = oy + offsetY;
            double ex = ox + rect.Width;
            double ey = oy + rect.Height;

            for (double gx = sx; gx < ex; gx += cellWidth)
            {
                var dxfLine = CreateLine(gx, oy, gx, ey);
                dxfLine.Layer = layer;
                dxfLine.Color = stroke;
                dxfLine.Transparency.Value = strokeTansparency;
                dxfLine.Lineweight.Value = lineweight;
                doc.AddEntity(dxfLine);
            }

            for (double gy = sy; gy < ey; gy += cellHeight)
            {
                var dxfLine = CreateLine(ox, gy, ex, gy);
                dxfLine.Layer = layer;
                dxfLine.Color = stroke;
                dxfLine.Transparency.Value = strokeTansparency;
                dxfLine.Lineweight.Value = lineweight;
                doc.AddEntity(dxfLine);
            }
        }
Exemplo n.º 30
0
        //画两个门有门闩的设备
        public static void writeDoubleDoorBarRectangle(DxfDocument doc, Location location, string[] text, float height, float width, float outer_mid_space, float outer_in_space,float barHeight,float barWidth)
        {
            Layer doorLineLayer = new Layer("DoubleDoorBarRectangle");
            Line outerLeftLine = new Line(new Vector3f(location.X + width / 2 - width / 14, location.Y + outer_mid_space, location.Z), new Vector3f(location.X + width / 2 - width / 14, location.Y + height - outer_mid_space, location.Z));
            outerLeftLine.Layer = doorLineLayer;
            Line inLeftLine = new Line(new Vector3f(location.X + width / 2 - width / 14 + 0.5f, location.Y + outer_in_space, location.Z), new Vector3f(location.X + width / 2 - width / 14 + 0.5f, location.Y + height - outer_in_space, location.Z));
            inLeftLine.Layer = doorLineLayer;
            Line inDownRightLine = new Line(new Vector3f(location.X + width / 2 + width / 14, location.Y + outer_in_space, location.Z), new Vector3f(location.X + width / 2 + width / 14, location.Y + height/4, location.Z));
            inDownRightLine.Layer = doorLineLayer;
            Line inMidRightLine = new Line(new Vector3f(location.X + width / 2 + width / 14, location.Y + height / 4 + barHeight, location.Z), new Vector3f(location.X + width / 2 + width / 14, location.Y + 3 * height / 4 - barHeight, location.Z));
            inMidRightLine.Layer = doorLineLayer;
            Line inUpRightLine = new Line(new Vector3f(location.X + width / 2 + width / 14, location.Y + 3*height / 4, location.Z), new Vector3f(location.X + width / 2 + width / 14, location.Y + height-outer_in_space, location.Z));
            inUpRightLine.Layer = doorLineLayer;
            Line outerDownRightLine = new Line(new Vector3f(location.X + width / 2 + width / 14 + 0.5f, location.Y + outer_mid_space, location.Z), new Vector3f(location.X + width / 2 + width / 14 + 0.5f, location.Y + height/4, location.Z));
            outerDownRightLine.Layer = doorLineLayer;
            Line outerMidRightLine = new Line(new Vector3f(location.X + width / 2 + width / 14 + 0.5f, location.Y + height/4+barHeight, location.Z), new Vector3f(location.X + width / 2 + width / 14 + 0.5f, location.Y + 3*height / 4-barHeight, location.Z));
            outerMidRightLine.Layer = doorLineLayer;
            Line outerUpRightLine = new Line(new Vector3f(location.X + width / 2 + width / 14 + 0.5f, location.Y + 3*height / 4, location.Z), new Vector3f(location.X + width / 2 + width / 14 + 0.5f, location.Y + height-outer_in_space, location.Z));
            outerUpRightLine.Layer = doorLineLayer;

            doc.AddEntity(outerLeftLine);
            doc.AddEntity(inLeftLine);
            doc.AddEntity(inDownRightLine);
            doc.AddEntity(inMidRightLine);
            doc.AddEntity(inUpRightLine);
            doc.AddEntity(outerDownRightLine);
            doc.AddEntity(outerMidRightLine);
            doc.AddEntity(outerUpRightLine);
            writeDoorBarRectangle(doc, location, text, height, width, outer_mid_space, outer_in_space,barHeight,barWidth);
        }
Exemplo n.º 31
0
        private void DrawEllipseInternal(DxfDocument doc, Layer layer, bool isFilled, bool isStroked, Test2d.BaseStyle style, ref Test2d.Rect2 rect)
        {
            var dxfEllipse = CreateEllipse(rect.X, rect.Y, rect.Width, rect.Height);

            if (isFilled)
            {
                var fill = GetColor(style.Fill);
                var fillTransparency = GetTransparency(style.Fill);

                // TODO: The netDxf does not create hatch for Ellipse with end angle equal to 360.
                var bounds =
                    new List<HatchBoundaryPath>
                    {
                        new HatchBoundaryPath(
                            new List<EntityObject>
                            {
                                (Ellipse)dxfEllipse.Clone()
                            })
                    };

                var hatch = new Hatch(HatchPattern.Solid, bounds, false);
                hatch.Layer = layer;
                hatch.Color = fill;
                hatch.Transparency.Value = fillTransparency;

                doc.AddEntity(hatch);
            }

            if (isStroked)
            {
                var stroke = GetColor(style.Stroke);
                var strokeTansparency = GetTransparency(style.Stroke);
                var lineweight = ThicknessToLineweight(style.Thickness);

                dxfEllipse.Layer = layer;
                dxfEllipse.Color = stroke;
                dxfEllipse.Transparency.Value = strokeTansparency;
                dxfEllipse.Lineweight.Value = lineweight;

                doc.AddEntity(dxfEllipse);
            }
        }
Exemplo n.º 32
0
        //画两个门无门闩的设备
        public static void writeDoubleDoorRectangle(DxfDocument doc,Location location,string [] text,float height,float width,float outer_mid_space,float outer_in_space)
        {
            Layer doorLineLayer=new Layer("doorLineLayer");
            Line outerLeftLine=new Line(new Vector3f(location.X+width/2-width/14,location.Y+outer_mid_space,location.Z),new Vector3f(location.X+width/2-width/14,location.Y+height-outer_mid_space,location.Z));
            outerLeftLine.Layer = doorLineLayer;
            Line inLeftLine = new Line(new Vector3f(location.X + width / 2 - width / 14 + 0.5f, location.Y + outer_in_space, location.Z), new Vector3f(location.X + width / 2 - width / 14 + 0.5f, location.Y + height - outer_in_space, location.Z));
            inLeftLine.Layer = doorLineLayer;
            Line inRightLine = new Line(new Vector3f(location.X + width / 2 + width / 14, location.Y + outer_in_space, location.Z), new Vector3f(location.X + width / 2 + width / 14, location.Y + height - outer_in_space, location.Z));
            inRightLine.Layer = doorLineLayer;
            Line outerRightLine = new Line(new Vector3f(location.X + width / 2 + width / 14 + 0.5f, location.Y + outer_mid_space, location.Z), new Vector3f(location.X + width / 2 + width / 14 + 0.5f, location.Y + height - outer_mid_space, location.Z));
            outerRightLine.Layer = doorLineLayer;

            doc.AddEntity(outerLeftLine);
            doc.AddEntity(inLeftLine);
            doc.AddEntity(inRightLine);
            doc.AddEntity(outerRightLine);
            writeDoorRectangle(doc, location,text, height, width, outer_mid_space, outer_in_space);
        }
Exemplo n.º 33
0
        /// <summary>
        /// Processes a tlog to get the offsets - creates dxf of data
        /// </summary>
        /// <param name="fn">Filename</param>
        /// <returns>Offsets</returns>
        public static double[] getOffsets(string fn, int throttleThreshold = 0)
        {
            // based off tridge's work
            string logfile = fn;

            // old method
            float minx = 0;
            float maxx = 0;
            float miny = 0;
            float maxy = 0;
            float minz = 0;
            float maxz = 0;

            // this is for a dxf
            Polyline3dVertex vertex;
            List<Polyline3dVertex> vertexes = new List<Polyline3dVertex>();

            // data storage
            Tuple<float, float, float> offset = new Tuple<float, float, float>(0, 0, 0);
            List<Tuple<float, float, float>> data = new List<Tuple<float, float, float>>();

            Hashtable filter = new Hashtable();

            // track data to use
            bool useData = false;

            log.Info("Start log: " + DateTime.Now);

                MAVLink mine = new MAVLink();
                try
                {
                    mine.logplaybackfile = new BinaryReader(File.Open(logfile, FileMode.Open, FileAccess.Read, FileShare.Read));
                }
                catch (Exception ex) { log.Debug(ex.ToString()); CustomMessageBox.Show("Log Can not be opened. Are you still connected?"); return new double[] {0}; }

                mine.logreadmode = true;

                mine.MAV.packets.Initialize(); // clear

                // gather data
                while (mine.logplaybackfile.BaseStream.Position < mine.logplaybackfile.BaseStream.Length)
                {
                    byte[] packetraw = mine.readPacket();

                    var packet = mine.DebugPacket(packetraw, false);

                    // this is for packets we dont know about
                    if (packet == null)
                        continue;

                    if (packet.GetType() == typeof(MAVLink.mavlink_vfr_hud_t))
                    {
                        if (((MAVLink.mavlink_vfr_hud_t)packet).throttle >= throttleThreshold)
                        {
                            useData = true;
                        }
                        else
                        {
                            useData = false;
                        }

                    }

                    if (packet.GetType() == typeof(MAVLink.mavlink_sensor_offsets_t))
                    {
                        offset = new Tuple<float, float, float>(
                            ((MAVLink.mavlink_sensor_offsets_t)packet).mag_ofs_x,
                            ((MAVLink.mavlink_sensor_offsets_t)packet).mag_ofs_y,
                            ((MAVLink.mavlink_sensor_offsets_t)packet).mag_ofs_z);
                    }
                    else if (packet.GetType() == typeof(MAVLink.mavlink_raw_imu_t) && useData)
                    {
                        int div = 20;

                        // fox dxf
                        vertex = new Polyline3dVertex(new Vector3f(
                            ((MAVLink.mavlink_raw_imu_t)packet).xmag - offset.Item1,
                            ((MAVLink.mavlink_raw_imu_t)packet).ymag - offset.Item2,
                            ((MAVLink.mavlink_raw_imu_t)packet).zmag - offset.Item3)
                            );
                        vertexes.Add(vertex);

                        // for old method
                        setMinorMax(((MAVLink.mavlink_raw_imu_t)packet).xmag - offset.Item1, ref minx, ref maxx);
                        setMinorMax(((MAVLink.mavlink_raw_imu_t)packet).ymag - offset.Item2, ref miny, ref maxy);
                        setMinorMax(((MAVLink.mavlink_raw_imu_t)packet).zmag - offset.Item3, ref minz, ref maxz);

                        // for new lease sq
                        string item = (int)(((MAVLink.mavlink_raw_imu_t)packet).xmag / div) + "," +
                            (int)(((MAVLink.mavlink_raw_imu_t)packet).ymag / div) + "," +
                            (int)(((MAVLink.mavlink_raw_imu_t)packet).zmag / div);

                        if (filter.ContainsKey(item))
                        {
                            filter[item] = (int)filter[item] + 1;

                            if ((int)filter[item] > 3)
                                continue;
                        }
                        else
                        {
                            filter[item] = 1;
                        }

                        data.Add(new Tuple<float, float, float>(
                            ((MAVLink.mavlink_raw_imu_t)packet).xmag - offset.Item1,
                            ((MAVLink.mavlink_raw_imu_t)packet).ymag - offset.Item2,
                            ((MAVLink.mavlink_raw_imu_t)packet).zmag - offset.Item3));

                    }

                }

                log.Info("Log Processed " + DateTime.Now);

                Console.WriteLine("Extracted " + data.Count + " data points");
                Console.WriteLine("Current offset: " + offset);

                mine.logreadmode = false;
                mine.logplaybackfile.Close();
                mine.logplaybackfile = null;

                if (data.Count < 10)
                {
                    CustomMessageBox.Show("Log does not contain enough data");
                    throw new Exception("Not Enough Data");
                }

                data.Sort(
                    delegate(Tuple<float, float, float> d1, Tuple<float, float, float> d2)
                    {
                        // get distance from 0,0,0
                        double ans1 = Math.Sqrt(d1.Item1 * d1.Item1 + d1.Item2 * d1.Item2+ d1.Item3 * d1.Item3);
                        double ans2 = Math.Sqrt(d2.Item1 * d2.Item1 + d2.Item2 * d2.Item2+ d2.Item3 * d2.Item3);
                        if (ans1 > ans2)
                            return 1;
                        if (ans1 < ans2)
                            return -1;
                        return 0;
                    }
                    );

                data.RemoveRange(data.Count - (data.Count / 16), data.Count / 16);

                double[] x = LeastSq(data);

                System.Console.WriteLine("Old Method {0} {1} {2}", -(maxx + minx) / 2, -(maxy + miny) / 2, -(maxz + minz) / 2);

                log.Info("Least Sq Done " + DateTime.Now);

                // create a dxf for those who want to "see" the calibration
                DxfDocument dxf = new DxfDocument();

                Polyline3d polyline = new Polyline3d(vertexes, true);
                polyline.Layer = new Layer("polyline3d");
                polyline.Layer.Color.Index = 24;
                dxf.AddEntity(polyline);

                Point pnt = new Point(new Vector3f(-offset.Item1, -offset.Item2, -offset.Item3));
                pnt.Layer = new Layer("old offset");
                pnt.Layer.Color.Index = 22;
                dxf.AddEntity(pnt);

                pnt = new Point(new Vector3f(-(float)x[0], -(float)x[1], -(float)x[2]));
                pnt.Layer = new Layer("new offset");
                pnt.Layer.Color.Index = 21;
                dxf.AddEntity(pnt);

                dxf.Save("magoffset.dxf", DxfVersion.AutoCad2000);

                log.Info("dxf Done " + DateTime.Now);

                Array.Resize<double>(ref x, 3);

                return x;
        }
Exemplo n.º 34
0
        //最外围矩形
        public static void writeOuterDoorRectangle(DxfDocument doc, Location location,float height, float width)
        {
            //最外围矩形
            Layer doorRectangleLayer = new Layer("DoorRectangleLayer");
            Line outerBottomLine = new Line(new Vector3f(location.X, location.Y, location.Z), new Vector3f(location.X + width, location.Y, location.Z));
            outerBottomLine.Layer = doorRectangleLayer;
            Line outerLeftLine = new Line(new Vector3f(location.X, location.Y, location.Z), new Vector3f(location.X, location.Y + height, location.Z));
            outerLeftLine.Layer = doorRectangleLayer;
            Line outerTopLine = new Line(new Vector3f(location.X, location.Y + height, location.Z), new Vector3f(location.X + width, location.Y + height, location.Z));
            outerTopLine.Layer = doorRectangleLayer;
            Line outerRightLine = new Line(new Vector3f(location.X + width, location.Y + height, location.Z), new Vector3f(location.X + width, location.Y, location.Z));
            outerRightLine.Layer = doorRectangleLayer;

            doc.AddEntity(outerBottomLine);
            doc.AddEntity(outerLeftLine);
            doc.AddEntity(outerTopLine);
            doc.AddEntity(outerRightLine);
        }
Exemplo n.º 35
0
        /// <summary>
        /// 门把手绘制
        /// </summary>
        /// <param name="dxf"></param>
        /// <param name="location"></param>
        public static void Draw(DxfDocument dxf, Location location)
        {
            float factor = 0.05f;
             float distance = 30;
            //底部小圆的圆心
             Vector3f sCircle = new Vector3f(location.X + 10 * factor, location.Y, location.Z);
            //上部同心圆圆心
             Vector3f bCircle = new Vector3f(location.X + 10 * factor, location.Y + 5 * factor + distance*factor, location.Z);

             double alpha = Math.Asin(3 / distance);
             double beta = Math.Acos(0.8);

             Vector3f v1 = new Vector3f(
                 location.X + 10 * factor - float.Parse((5 * factor * Math.Cos(alpha)).ToString()),
                 location.Y + 5 * factor - float.Parse((5 * factor * Math.Sin(alpha)).ToString()),
                 location.Z);

             Vector3f v2 = new Vector3f(
                  location.X + 10 * factor + float.Parse((5 * factor * Math.Cos(alpha)).ToString()),
                  location.Y + 5 * factor - float.Parse((5 * factor * Math.Sin(alpha)).ToString()),
                  location.Z);

             Vector3f v4 = new Vector3f(
                 location.X + 10 * factor -float.Parse((8*factor* Math.Cos(alpha)).ToString()),
                 location.Y + 5 * factor + distance * factor - float.Parse((8 * factor * Math.Sin(alpha)).ToString()),
                 location.Z
                 );

             Vector3f v5 = new Vector3f(
             location.X + 10 * factor  + float.Parse((8*factor*Math.Cos(alpha)).ToString()),
             location.Y + 5 * factor + distance * factor - float.Parse((8 * factor * Math.Sin(alpha)).ToString()),
             location.Z
             );
             Layer layer = new Layer("line");
             Line line14 = new Line(v1, v4);
             line14.Layer = layer;
             line14.Layer.Color.Index = 6;
             dxf.AddEntity(line14);

             Line line25 = new Line(v2, v5);
             line25.Layer = new Layer("line");
             line25.Layer = layer;
             dxf.AddEntity(line25);

             //arc
             Arc arc = new Arc(
                 new Vector3f(location.X + 10 * factor, location.Y + 5 * factor, location.Z),
                 5 * factor, Convert.ToInt32(180 + alpha * 180 / Math.PI), Convert.ToInt32(360 - alpha * 180 / Math.PI));
             arc.Layer = layer;
             dxf.AddEntity(arc);

             //arcup
             Arc arcup = new Arc(
                 new Vector3f(location.X + 10 * factor, location.Y + 5 * factor + distance * factor, location.Z),
                 8 * factor, Convert.ToInt32(-alpha * 180 / Math.PI), Convert.ToInt32(180 + alpha * 180 / Math.PI));
             arcup.Layer = layer;
             dxf.AddEntity(arcup);

             //arcround
             Arc arcround = new Arc(
                 new Vector3f(location.X + 10 * factor, location.Y + 5 * factor + distance * factor, location.Z),
                 10 * factor,
                 Convert.ToInt32(-(alpha +beta) * 180 / Math.PI),
                 Convert.ToInt32(180 + (alpha +beta) * 180 / Math.PI));
             arcround.Layer = layer;
             dxf.AddEntity(arcround);

             //circle
             Vector3f extrusion = new Vector3f(0, 0, 1);
             Vector3f centerWCS = new Vector3f(location.X+10*factor, location.Y+5*factor+distance*factor, location.Z);
             Vector3d centerOCS = MathHelper.Transform((Vector3d)centerWCS,
                                                       (Vector3d)extrusion,
                                                       MathHelper.CoordinateSystem.World,
                                                       MathHelper.CoordinateSystem.Object);

             Circle circle = new Circle((Vector3f)centerOCS, 7*factor);
             circle.Layer = layer;
             circle.LineType = LineType.Continuous;
             circle.Normal = extrusion;
             dxf.AddEntity(circle);

             //上部同心圆圆心
             Vector3f t1 = new Vector3f(
                 location.X + 8 * factor,
                 location.Y + 5 * factor + (distance - 7) * factor * 0.7f,
                 location.Z);
             Vector3f t2 = new Vector3f(
                 location.X + 8 * factor,
                 location.Y + 5 * factor + (distance - 7) * factor * 0.5f,
                 location.Z);
             Vector3f t3 = new Vector3f(
                 location.X + 8 * factor,
                 location.Y + 5 * factor + (distance - 7) * factor * 0.3f,
                 location.Z);
             Vector3f t4 = new Vector3f(
                 location.X + 8 * factor,
                 location.Y + 5 * factor + (distance - 7) * factor * 0.1f,
                 location.Z);

             //text
             TextStyle style = new TextStyle("True type font", "Arial.ttf");
             Text text1 = new Text("A", t1, 0.2f, style);
             text1.Layer = layer;
             text1.Alignment = TextAlignment.TopLeft;
             dxf.AddEntity(text1);

             //text
             Text text2 = new Text("A", t2, 0.2f, style);
             text2.Layer = layer;
             text2.Alignment = TextAlignment.TopLeft;
             dxf.AddEntity(text2);

             //text
             Text text3 = new Text("O", t3, 0.2f, style);
             text3.Layer = layer;
             text3.Alignment = TextAlignment.TopLeft;
             dxf.AddEntity(text3);

             //text
             Text text4 = new Text("N", t4, 0.2f, style);
             text4.Layer = layer;
             text4.Alignment = TextAlignment.TopLeft;
             dxf.AddEntity(text4);
        }
Exemplo n.º 36
0
        //画表示门闩的小矩形
        public static void writeRepresentDoorBarRectangle(DxfDocument doc, Location location, string[] text, float height, float width, float outer_mid_space, float outer_in_space, float barHeight, float barWidth)
        {
            Layer representDoorBarRectangleLayer = new Layer("RepresentDoorBarRectangle");
            Line bottomLine = new Line(new Vector3f(location.X, location.Y, location.Z), new Vector3f(location.X + barWidth, location.Y, location.Z));
            bottomLine.Layer = representDoorBarRectangleLayer;
            Line leftLine = new Line(new Vector3f(location.X, location.Y, location.Z), new Vector3f(location.X, location.Y + barHeight, location.Z));
            leftLine.Layer = representDoorBarRectangleLayer;
            Line topLine = new Line(new Vector3f(location.X, location.Y + barHeight, location.Z), new Vector3f(location.X + barWidth, location.Y + barHeight, location.Z));
            topLine.Layer = representDoorBarRectangleLayer;
            Line rightLine = new Line(new Vector3f(location.X + barWidth, location.Y + barHeight, location.Z), new Vector3f(location.X + barWidth, location.Y, location.Z));
            rightLine.Layer = representDoorBarRectangleLayer;

               //内部折线
            Line upLine = new Line(new Vector3f(location.X + barWidth / 2-(outer_in_space-outer_mid_space)/2, location.Y + barHeight, location.Z), new Vector3f(location.X + barWidth / 2-(outer_in_space-outer_mid_space)/2, location.Y + barHeight / 2, location.Z));
            upLine.Layer = representDoorBarRectangleLayer;
            Line midLine = new Line(new Vector3f(location.X + barWidth / 2 - (outer_in_space - outer_mid_space) / 2, location.Y + barHeight / 2, location.Z), new Vector3f(location.X + barWidth / 2 + (outer_in_space - outer_mid_space) / 2,location.Y+barHeight/2,location.Z));
            midLine.Layer = representDoorBarRectangleLayer;
            Line downLine = new Line(new Vector3f(location.X + barWidth / 2 + (outer_in_space - outer_mid_space) / 2, location.Y + barHeight / 2, location.Z), new Vector3f(location.X+barWidth/2+(outer_in_space-outer_mid_space)/2, location.Y, location.Z));
            downLine.Layer = representDoorBarRectangleLayer;
            doc.AddEntity(bottomLine);
            doc.AddEntity(leftLine);
            doc.AddEntity(topLine);
            doc.AddEntity(rightLine);
            doc.AddEntity(upLine);
            doc.AddEntity(midLine);
            doc.AddEntity(downLine);
        }