Esempio n. 1
0
        public static WavefrontFormat DrawCurve(this WavefrontFormat wf,
                                                string color,
                                                ICurve1 curve,
                                                int count = 100)
        {
            wf.UseMaterial(color);
            if (curve is ComposedCurve1)
            {
                int            i        = 0;
                ComposedCurve1 composed = (ComposedCurve1)curve;
                foreach (ICurve1 segment in composed.GetSegments())
                {
                    /*Point2d pt = segment.GetPosition(segment.TMin);
                     * wf.DrawFigure(color, WaveFigure.X, pt, 1);
                     * wf.DrawString(color, pt, FontFamily.GenericSerif, FontStyle.Regular, 1000, "" + (i++));*/

                    //if (segment is CircleArc2)
                    {
                        wf.AddLines(MathUtils.For(segment.TMin, segment.TMax, count).Select(x => new Point2d(x, segment.GetPosition(x))), false);
                    }
                }

                /*if (!curve.IsClosed)
                 * {
                 *  Point2d pt = curve.GetPosition(curve.TMax);
                 *  wf.DrawFigure(color, WaveFigure.X, pt, 1);
                 *  wf.DrawString(color, pt, FontFamily.GenericSerif, FontStyle.Regular, 1000, "" + (i++));
                 * }*/
            }
            else
            {
                wf.AddLines(MathUtils.For(curve.TMin, curve.TMax, count).Select(x => new Point2d(x, curve.GetPosition(x))), false);
            }
            return(wf);
        }
        private static void DrawPath(this WavefrontFormat wf, GraphicsPath path)
        {
            byte[]   types    = path.PathData.Types;
            PointF[] points   = path.PathData.Points;
            FillMode fillMode = path.FillMode;

            List <Point2d> _points = new List <Point2d>();

            for (int i = 0; i < types.Length; i++)
            {
                PathPointType tipo = (PathPointType)types[i] & PathPointType.PathTypeMask;
                switch (tipo)
                {
                case PathPointType.Start:
                {
                    _points.Add(new Point2d(points[i].X, points[i].Y));
                    break;
                }

                case PathPointType.Line:
                {
                    _points.Add(new Point2d(points[i].X, points[i].Y));
                    break;
                }

                case PathPointType.Bezier3:
                {
                    // NOTA: se pintará una bezier en breve.
                    _points.Add(new Point2d(points[i].X, points[i].Y));
                    i++;
                    _points.Add(new Point2d(points[i].X, points[i].Y));
                    i++;
                    _points.Add(new Point2d(points[i].X, points[i].Y));
                    break;
                }

                default:
                {
                    throw new IndexOutOfRangeException();
                }
                }

                // El ultimo tipo determina si hay que cerrar.
                bool cerrar = ((PathPointType)types[i] & PathPointType.CloseSubpath) == PathPointType.CloseSubpath;
                if (cerrar)
                {
                    if (_points.Count > 0)
                    {
                        wf.AddLines(_points, true);
                        _points.Clear();
                    }
                }
            }

            if (_points.Count > 0)
            {
                wf.AddLines(_points, false);
                _points.Clear();
            }
        }
        public static void DrawString(this WavefrontFormat wf,
                                      string color,
                                      Point2d pt,
                                      FontFamily family, FontStyle style, float sizeInPoints,
                                      string text)
        {
            float dpiY   = 1;
            float emSize = dpiY * sizeInPoints / 72;

            using (GraphicsPath path = new GraphicsPath())
            {
                //float dpiY = 1;
                path.AddString(text,
                               family, (int)style, emSize,
                               new PointF(0, 0),
                               StringFormat.GenericTypographic);

                float pathheight = path.GetBounds().Height;
                path.Transform(new Matrix(1, 0, 0, -1, 0, pathheight));
                path.Transform(new Matrix(1, 0, 0, 1, (float)pt.X, (float)pt.Y));

                path.Flatten(new Matrix(), 0.01f);

                DrawPath(wf, path);
            }
        }
Esempio n. 4
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        public static WavefrontFormat DrawClothoRadius(this WavefrontFormat wf,
                                                       bool invertY, double a,
                                                       string radiusColor)
        {
            List <int> indices = new List <int>();

            double lmax = ClothoUtils.GetMaxL(a);
            int    c    = 100;

            for (int i = -c; i <= c; i++)
            {
                double s = i * lmax / c;

                double r = ClothoUtils.ClothoRadious(s, invertY, a);
                if (double.IsInfinity(r))
                {
                    r = SysMath.Sign(r) * 1000;
                }

                int v0 = wf.AddVertex(new Point2d(s, r));
                indices.Add(v0);

                //double dx, dy;
                //MathUtils.DClotho(s, r, a, out dx, out dy);
            }

            wf.UseMaterial(radiusColor);
            wf.AddLines(indices, false);
            return(wf);
        }
Esempio n. 5
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        public static WavefrontFormat DrawClotho(this WavefrontFormat wf,
                                                 bool invertY, double a,
                                                 string clothoColor)
        {
            List <int> indices = new List <int>();

            int c = 100;

            for (int i = -c; i <= c; i++)
            {
                double lmax = ClothoUtils.GetMaxL(a);
                double s    = i * lmax / c;

                double x, y;
                ClothoUtils.Clotho(s, invertY, a, out x, out y);

                int v0 = wf.AddVertex(new Point2d(x, y));
                indices.Add(v0);

                //double dx, dy;
                //MathUtils.DClotho(s, r, a, out dx, out dy);
            }

            wf.UseMaterial(clothoColor);
            wf.AddLines(indices, false);
            return(wf);
        }
 public static void DrawString(this WavefrontFormat wf,
                               string color,
                               Point2d pt,
                               Font font,
                               string text)
 {
     DrawString(wf, color, pt, font.FontFamily, font.Style, font.SizeInPoints, text);
 }
Esempio n. 7
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 public static WavefrontFormat DrawClotho(this WavefrontFormat wf,
                                          string color,
                                          ClothoidArc2 arc)
 {
     wf.UseMaterial(color);
     wf.AddLines(MathUtils.For(arc.TMin, arc.TMax, 10).Select(arc.GetPosition), false);
     return(wf);
 }
Esempio n. 8
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 public static WavefrontFormat DrawPolyline(this WavefrontFormat wf,
                                            string color,
                                            IEnumerable <Point2d> points,
                                            bool close)
 {
     wf.UseMaterial(color);
     wf.AddLines(points, close);
     return(wf);
 }
Esempio n. 9
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 public static WavefrontFormat DrawVectors(this WavefrontFormat wf,
                                           string color,
                                           IEnumerable <Tuple <Point2d, Vector2d> > vectors)
 {
     wf.UseMaterial(color);
     foreach (Tuple <Point2d, Vector2d> tuple in vectors)
     {
         wf.AddLines(new[] { tuple.Item1, tuple.Item1 + tuple.Item2 });
     }
     return(wf);
 }
Esempio n. 10
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        public static WavefrontFormat DrawLine(this WavefrontFormat wf,
                                               string color,
                                               Point2d point,
                                               Vector2d v,
                                               double ext = 1000)
        {
            wf.UseMaterial(color);
            Point2d p0 = point.Sub(v.Mul(ext));
            Point2d p1 = point.Add(v.Mul(ext));

            wf.AddLines(new Point2d[] { p0, p1 }, false);
            return(wf);
        }
Esempio n. 11
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        public void Test2()
        {
            using (MaterialFormat mf = new MaterialFormat(@"C:\Temp\Default.mtl"))
            {
                mf.DefaultColors();
            }

            using (WavefrontFormat wf = new WavefrontFormat(@"C:\Temp\Radio+.obj"))
            {
                wf.LoadMaterialLib("Default.mtl");
                wf.DrawClotho(false, 10, "Red", "Yellow", "Green", "Magenta");
            }

            using (WavefrontFormat wf = new WavefrontFormat(@"C:\Temp\Radio-.obj"))
            {
                wf.LoadMaterialLib("Default.mtl");
                wf.DrawClotho(true, 10, "Blue", "Yellow", "Green", "Magenta");
            }
        }
Esempio n. 12
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 public static WavefrontFormat DrawCurve(this WavefrontFormat wf,
                                         string color,
                                         ICurve2 curve,
                                         int count = 100)
 {
     wf.UseMaterial(color);
     if (curve is ComposedCurve2)
     {
         int            i        = 0;
         ComposedCurve2 composed = (ComposedCurve2)curve;
         foreach (ICurve2 segment in composed.GetSegments())
         {
             wf.AddLines(MathUtils.For(segment.TMin, segment.TMax, count).Select(segment.GetPosition), false);
         }
     }
     else
     {
         wf.AddLines(MathUtils.For(curve.TMin, curve.TMax, count).Select(curve.GetPosition), false);
     }
     return(wf);
 }
Esempio n. 13
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        public static WavefrontFormat DrawClotho(this WavefrontFormat wf,
                                                 bool invertY, double a,
                                                 string clothoColor,
                                                 string dirColor,
                                                 string normalColor,
                                                 string radColor)
        {
            List <int> indices = new List <int>();
            List <Tuple <int, int> > normals = new List <Tuple <int, int> >();
            List <Tuple <int, int> > dirs    = new List <Tuple <int, int> >();
            List <Tuple <int, int> > radius  = new List <Tuple <int, int> >();

            int c = 100;

            for (int i = -c; i <= c; i++)
            {
                double lmax = ClothoUtils.GetMaxL(a);
                double s    = i * lmax / c;

                Point2d xy = ClothoUtils.Clotho(s, invertY, a);

                int v0 = wf.AddVertex(xy);
                indices.Add(v0);

                Vector2d n = ClothoUtils.ClothoLeftNormal(s, invertY, a).Unit;

                int v1 = wf.AddVertex(xy.Add(n));
                normals.Add(Tuple.Create(v0, v1));

                double   dir = ClothoUtils.ClothoTangent(s, invertY, a);
                Vector2d d   = Vector2d.NewRotate(dir);

                int v2 = wf.AddVertex(xy.Add(d.Mul(5)));
                dirs.Add(Tuple.Create(v0, v2));

                double r = ClothoUtils.ClothoRadious(s, invertY, a);
                if (double.IsInfinity(r))
                {
                    r = SysMath.Sign(r) * 100;
                }

                int v3 = wf.AddVertex(xy.Add(n.Mul(r)));
                radius.Add(Tuple.Create(v0, v3));

                //double dx, dy;
                //MathUtils.DClotho(s, r, a, out dx, out dy);
            }

            wf.UseMaterial(clothoColor);
            wf.AddLines(indices, false);

            wf.UseMaterial(normalColor);
            foreach (Tuple <int, int> normal in normals)
            {
                wf.AddLines(new[] { normal.Item1, normal.Item2 }, false);
            }

            wf.UseMaterial(dirColor);
            foreach (Tuple <int, int> dir in dirs)
            {
                wf.AddLines(new[] { dir.Item1, dir.Item2 }, false);
            }

            wf.UseMaterial(radColor);
            foreach (Tuple <int, int> rr in radius)
            {
                wf.AddLines(new[] { rr.Item1, rr.Item2 }, false);
            }
            return(wf);
        }
Esempio n. 14
0
        public static WavefrontFormat DrawFigure(this WavefrontFormat wf,
                                                 string color,
                                                 WaveFigure figure,
                                                 Point2d point,
                                                 double size)
        {
            wf.UseMaterial(color);
            switch (figure)
            {
            case WaveFigure.Circle:
            {
                wf.AddLines(MathUtils.For(0, 2 * SysMath.PI, 20).Select(t => point.Add(Vector2d.NewRotate(t).Mul(size))), true);
                break;
            }

            case WaveFigure.Rectangle:
            {
                wf.AddLines(new[]
                    {
                        point.Add(new Vector2d(size, size)),
                        point.Add(new Vector2d(-size, size)),
                        point.Add(new Vector2d(-size, -size)),
                        point.Add(new Vector2d(size, -size)),
                    }, true);
                break;
            }

            case WaveFigure.Diamond:
            {
                wf.AddLines(new[]
                    {
                        point.Add(new Vector2d(0, size)),
                        point.Add(new Vector2d(-size, 0)),
                        point.Add(new Vector2d(0, -size)),
                        point.Add(new Vector2d(size, 0)),
                    }, true);
                break;
            }

            case WaveFigure.Plus:
            {
                wf.AddLines(new[]
                    {
                        point.Add(new Vector2d(0, size)),
                        point.Add(new Vector2d(0, -size)),
                    }, false);
                wf.AddLines(new[]
                    {
                        point.Add(new Vector2d(size, 0)),
                        point.Add(new Vector2d(-size, 0)),
                    }, false);
                break;
            }

            case WaveFigure.X:
            {
                wf.AddLines(new[]
                    {
                        point.Add(new Vector2d(size, size)),
                        point.Add(new Vector2d(-size, -size)),
                    }, false);
                wf.AddLines(new[]
                    {
                        point.Add(new Vector2d(-size, size)),
                        point.Add(new Vector2d(size, -size)),
                    }, false);
                break;
            }

            default:
            {
                throw new Exception();
            }
            }
            return(wf);
        }