public IEnumerable <MapObject> Create(IDGenerator generator, Box box, ITexture texture, int roundDecimals) { var width = box.Width; var length = Math.Max(1, Math.Abs((int)box.Length)); var height = box.Height; var flatten = (float)_flattenFactor.Value; var text = _text.GetValue(); var family = _fontChooser.GetFontFamily(); var style = Enum.GetValues(typeof(FontStyle)).OfType <FontStyle>().FirstOrDefault(fs => family.IsStyleAvailable(fs)); if (!family.IsStyleAvailable(style)) { family = FontFamily.GenericSansSerif; } var set = new PolygonSet(); var sizes = new List <RectangleF>(); using (var bmp = new Bitmap(1, 1)) { using (var g = System.Drawing.Graphics.FromImage(bmp)) { using (var font = new Font(family, length, style, GraphicsUnit.Pixel)) { for (var i = 0; i < text.Length; i += 32) { using (var sf = new StringFormat(StringFormat.GenericTypographic)) { var rem = Math.Min(text.Length, i + 32) - i; var range = Enumerable.Range(0, rem).Select(x => new CharacterRange(x, 1)).ToArray(); sf.SetMeasurableCharacterRanges(range); var reg = g.MeasureCharacterRanges(text.Substring(i, rem), font, new RectangleF(0, 0, float.MaxValue, float.MaxValue), sf); sizes.AddRange(reg.Select(x => x.GetBounds(g))); } } } } } var xOffset = box.Start.DX; var yOffset = box.End.DY; for (var ci = 0; ci < text.Length; ci++) { var c = text[ci]; var size = sizes[ci]; var gp = new GraphicsPath(); gp.AddString(c.ToString(CultureInfo.InvariantCulture), family, (int)style, length, new PointF(0, 0), StringFormat.GenericTypographic); gp.Flatten(new System.Drawing.Drawing2D.Matrix(), flatten); var polygons = new List <Polygon>(); var poly = new List <PolygonPoint>(); for (var i = 0; i < gp.PointCount; i++) { var type = gp.PathTypes[i]; var point = gp.PathPoints[i]; poly.Add(new PolygonPoint(point.X + xOffset, -point.Y + yOffset)); if ((type & 0x80) == 0x80) { polygons.Add(new Polygon(poly)); poly.Clear(); } } var tri = new List <Polygon>(); Polygon polygon = null; foreach (var p in polygons) { if (polygon == null) { polygon = p; tri.Add(p); } else if (p.CalculateWindingOrder() != polygon.CalculateWindingOrder()) { polygon.AddHole(p); } else { polygon = null; tri.Add(p); } } foreach (var pp in tri) { try { P2T.Triangulate(pp); set.Add(pp); } catch { // Ignore } } xOffset += size.Width; } var zOffset = box.Start.Z; foreach (var polygon in set.Polygons) { foreach (var t in polygon.Triangles) { var points = t.Points.Select(x => new Coordinate((decimal)x.X, (decimal)x.Y, zOffset).Round(roundDecimals)).ToList(); var faces = new List <Coordinate[]>(); // Add the vertical faces var z = new Coordinate(0, 0, height).Round(roundDecimals); for (var j = 0; j < points.Count; j++) { var next = (j + 1) % points.Count; faces.Add(new[] { points[j], points[j] + z, points[next] + z, points[next] }); } // Add the top and bottom faces faces.Add(points.ToArray()); faces.Add(points.Select(x => x + z).Reverse().ToArray()); // Nothing new here, move along var solid = new Solid(generator.GetNextObjectID()) { Colour = Colour.GetRandomBrushColour() }; foreach (var arr in faces) { var face = new Face(generator.GetNextFaceID()) { Parent = solid, Plane = new Plane(arr[0], arr[1], arr[2]), Colour = solid.Colour, Texture = { Texture = texture } }; face.Vertices.AddRange(arr.Select(x => new Vertex(x, face))); face.UpdateBoundingBox(); face.AlignTextureToFace(); solid.Faces.Add(face); } solid.UpdateBoundingBox(); yield return(solid); } } }