Example #1
0
        static void Main(string[] args)
        {
            NestPath bin       = new NestPath();
            double   binWidth  = 75;
            double   binHeight = 41;

            bin.add(0, 0);
            bin.add(binWidth, 0);
            bin.add(binWidth, binHeight);
            bin.add(0, binHeight);
            Console.WriteLine("Bin Size : Width = " + binWidth + " Height=" + binHeight);
            //将多边形转换为坐标形式
            var nestPaths = SvgUtil.transferSvgIntoPolygons("test3.xml");

            Console.WriteLine("Reading File = test1.xml");
            Console.WriteLine("No of parts = " + nestPaths.Count);
            Config config = new Config();

            Console.WriteLine("Configuring Nest");
            Nest nest = new Nest(bin, nestPaths, config, 2);

            Console.WriteLine("Performing Nest");
            List <List <Placement> > appliedPlacement = nest.startNest();

            Console.WriteLine("Nesting Completed");
            var svgPolygons = SvgUtil.svgGenerator(nestPaths, appliedPlacement, binWidth, binHeight);

            Console.WriteLine("Converted to SVG format");
            SvgUtil.saveSvgFile(svgPolygons, "output.svg");
            Console.WriteLine("Saved svg file..Opening File");
            Process.Start("output.svg");
            Console.ReadLine();
        }
Example #2
0
        public static List <NestPath> transferSvgIntoPolygons(string xmlFilePath)
        {
            List <NestPath> nestPaths = new List <NestPath>();

            XDocument       document    = XDocument.Load(xmlFilePath);
            List <XElement> elementList = document.Root.DescendantNodes().OfType <XElement>().ToList();
            int             count       = 0;

            foreach (XElement element in elementList)
            {
                count++;
                if ("polygon" == (element.Name))
                {
                    String   datalist = element.Attributes((XName)"points").ToList()[0].Value.ToString();
                    NestPath polygon  = new NestPath();
                    foreach (String s in datalist.Split(' '))
                    {
                        var temp = s.Trim();
                        if (temp.IndexOf(",") == -1)
                        {
                            continue;
                        }
                        String[] value = s.Split(',');
                        double   x     = Double.Parse(value[0]);
                        double   y     = Double.Parse(value[1]);
                        polygon.add(x, y);
                    }
                    polygon.bid = count;
                    polygon.setRotation(4);
                    nestPaths.Add(polygon);
                }
                else if ("rect" == element.Name)
                {
                    double   width  = Double.Parse(element.Attributes((XName)"width").ToList()[0].Value.ToString());
                    double   height = Double.Parse(element.Attributes((XName)"height").ToList()[0].Value.ToString());
                    double   x      = Double.Parse(element.Attributes((XName)"x").ToList()[0].Value.ToString());
                    double   y      = Double.Parse(element.Attributes((XName)"y").ToList()[0].Value.ToString());
                    NestPath rect   = new NestPath();
                    rect.add(x, y);
                    rect.add(x + width, y);
                    rect.add(x + width, y + height);
                    rect.add(x, y + height);
                    rect.bid = count;
                    rect.setRotation(4);
                    nestPaths.Add(rect);
                }
            }
            return(nestPaths);
        }
Example #3
0
        public static NestPath toNestCoordinates(Path polygon)
        {
            NestPath clone = new NestPath();

            for (int i = 0; i < polygon.Count; i++)
            {
                Segment s = new Segment((double)polygon[i].X / Config.CLIIPER_SCALE, (double)polygon[i].Y / Config.CLIIPER_SCALE);
                clone.add(s);
            }
            return(clone);
        }
Example #4
0
        public static NestPath clipperToNestPath(Path polygon)
        {
            NestPath normal = new NestPath();

            for (int i = 0; i < polygon.Count; i++)
            {
                NestCoor nestCoor = toNestCoor(polygon[i].X, polygon[i].Y);
                normal.add(new Segment(nestCoor.getX(), nestCoor.getY()));
            }
            return(normal);
        }
Example #5
0
        public static NestPath Path2NestPath(Path path)
        {
            NestPath nestPath = new NestPath();

            for (int i = 0; i < path.Count; i++)
            {
                IntPoint lp   = path[i];
                NestCoor coor = CommonUtil.toNestCoor(lp.X, lp.Y);
                nestPath.add(new Segment(coor.getX(), coor.getY()));
            }
            return(nestPath);
        }
Example #6
0
        public static List <NestPath> polygonOffset(NestPath polygon, double offset)
        {
            List <NestPath> result = new List <NestPath>();

            if (offset == 0 || GeometryUtil.almostEqual(offset, 0))
            {
                /**
                 * return EmptyResult
                 */
                return(result);
            }
            Path p = new Path();

            foreach (Segment s in polygon.getSegments())
            {
                ClipperCoor cc = toClipperCoor(s.getX(), s.getY());
                p.Add(new IntPoint(cc.getX(), cc.getY()));
            }

            int           miterLimit = 2;
            ClipperOffset co         = new ClipperOffset(miterLimit, Config.CURVE_TOLERANCE * Config.CLIIPER_SCALE);

            co.AddPath(p, JoinType.jtRound, EndType.etClosedPolygon);

            Paths newpaths = new Paths();

            co.Execute(ref newpaths, offset * Config.CLIIPER_SCALE);


            /**
             * 这里的length是1的话就是我们想要的
             */
            for (int i = 0; i < newpaths.Count; i++)
            {
                result.Add(CommonUtil.clipperToNestPath(newpaths[i]));
            }

            if (offset > 0)
            {
                NestPath from = result[0];
                if (GeometryUtil.polygonArea(from) > 0)
                {
                    from.reverse();
                }
                from.add(from.get(0)); from.getSegments().RemoveAt(0);
            }


            return(result);
        }
Example #7
0
        /**
         * 根据板件列表与旋转角列表,通过nfp,计算板件在底板上的位置,并返回这个种群的fitness
         * @param paths
         * @return
         */
        public Result placePaths(List <NestPath> paths)
        {
            List <NestPath> rotated = new List <NestPath>();

            for (int i = 0; i < paths.Count; i++)
            {
                NestPath r = GeometryUtil.rotatePolygon2Polygon(paths[i], paths[i].getRotation());
                r.setRotation(paths[i].getRotation());
                r.setSource(paths[i].getSource());
                r.setId(paths[i].getId());
                rotated.Add(r);
            }
            paths = rotated;

            List <List <Vector> > allplacements = new List <List <Vector> >();
            double          fitness             = 0;
            double          binarea             = Math.Abs(GeometryUtil.polygonArea(this.binPolygon));
            String          key = null;
            List <NestPath> nfp = null;

            while (paths.Count > 0)
            {
                List <NestPath> placed     = new List <NestPath>();
                List <Vector>   placements = new List <Vector>();

                fitness += 1;
                double minwidth = Double.MaxValue;
                for (int i = 0; i < paths.Count; i++)
                {
                    NestPath path = paths[i];

                    //inner NFP
                    key = new JavaScriptSerializer().Serialize(new NfpKey(-1, path.getId(), true, 0, path.getRotation()));

                    //key = gson.toJson(new NfpKey(-1, path.getId(), true, 0, path.getRotation()));

                    if (!nfpCache.ContainsKey(key))
                    {
                        continue;
                    }

                    List <NestPath> binNfp = nfpCache[key];



                    // ensure exists
                    bool error = false;
                    for (int j = 0; j < placed.Count; j++)
                    {
                        key = new JavaScriptSerializer().Serialize(new NfpKey(placed[j].getId(), path.getId(), false, placed[j].getRotation(), path.getRotation()));
                        // key = gson.toJson(new NfpKey(placed[j].getId(), path.getId(), false, placed[j].getRotation(), path.getRotation()));
                        if (nfpCache.ContainsKey(key))
                        {
                            nfp = nfpCache[key];
                        }
                        else
                        {
                            error = true;
                            break;
                        }
                    }
                    if (error)
                    {
                        continue;
                    }


                    Vector position = null;
                    if (placed.Count == 0)
                    {
                        // first placement , put it on the lefth
                        for (int j = 0; j < binNfp.Count; j++)
                        {
                            for (int k = 0; k < binNfp[j].size(); k++)
                            {
                                if (position == null || binNfp[j].get(k).x - path.get(0).x < position.x)
                                {
                                    position = new Vector(
                                        binNfp[j].get(k).x - path.get(0).x,
                                        binNfp[j].get(k).y - path.get(0).y,
                                        path.getId(),
                                        path.getRotation()
                                        );
                                }
                            }
                        }
                        placements.Add(position);
                        placed.Add(path);
                        continue;
                    }

                    Paths clipperBinNfp = new Paths();

                    for (int j = 0; j < binNfp.Count; j++)
                    {
                        NestPath binNfpj = binNfp[j];
                        clipperBinNfp.Add(scaleUp2ClipperCoordinates(binNfpj));
                    }
                    Clipper clipper     = new Clipper();
                    Paths   combinedNfp = new Paths();


                    for (int j = 0; j < placed.Count; j++)
                    {
                        key = new JavaScriptSerializer().Serialize(new NfpKey(placed[j].getId(), path.getId(), false, placed[j].getRotation(), path.getRotation()));
                        //key = gson.toJson(new NfpKey(placed[j].getId(), path.getId(), false, placed[j].getRotation(), path.getRotation()));
                        nfp = nfpCache[key];
                        if (nfp == null)
                        {
                            continue;
                        }

                        for (int k = 0; k < nfp.Count; k++)
                        {
                            Path clone = PlacementWorker.scaleUp2ClipperCoordinates(nfp[k]);
                            for (int m = 0; m < clone.Count; m++)
                            {
                                long     clx      = (long)clone[m].X;
                                long     cly      = (long)clone[m].Y;
                                IntPoint intPoint = clone[m];
                                intPoint.X = (clx + (long)(placements[j].x * Config.CLIIPER_SCALE));
                                intPoint.Y = (cly + (long)(placements[j].y * Config.CLIIPER_SCALE));
                                clone[m]   = intPoint;
                            }
                            //clone = clone.Cleaned(0.0001 * Config.CLIIPER_SCALE);
                            clone = Clipper.CleanPolygon(clone, 0.0001 * Config.CLIIPER_SCALE);
                            double areaPoly = Math.Abs(Clipper.Area(clone));
                            if (clone.Count > 2 && areaPoly > 0.1 * Config.CLIIPER_SCALE * Config.CLIIPER_SCALE)
                            {
                                clipper.AddPath(clone, PolyType.ptSubject, true);
                            }
                        }
                    }
                    if (!clipper.Execute(ClipType.ctUnion, combinedNfp, PolyFillType.pftNonZero, PolyFillType.pftNonZero))
                    {
                        continue;
                    }

                    //difference with bin polygon
                    Paths finalNfp = new Paths();
                    clipper = new Clipper();

                    clipper.AddPaths(combinedNfp, PolyType.ptClip, true);
                    clipper.AddPaths(clipperBinNfp, PolyType.ptSubject, true);
                    if (!clipper.Execute(ClipType.ctDifference, finalNfp, PolyFillType.pftNonZero, PolyFillType.pftNonZero))
                    {
                        continue;
                    }

                    // finalNfp = finalNfp.Cleaned(0.0001 * Config.CLIIPER_SCALE);
                    finalNfp = Clipper.CleanPolygons(finalNfp, 0.0001 * Config.CLIIPER_SCALE);
                    for (int j = 0; j < finalNfp.Count(); j++)
                    {
                        //double areaPoly = Math.Abs(finalNfp[j].Area);
                        double areaPoly = Math.Abs(Clipper.Area(finalNfp[j]));
                        if (finalNfp[j].Count < 3 || areaPoly < 0.1 * Config.CLIIPER_SCALE * Config.CLIIPER_SCALE)
                        {
                            finalNfp.RemoveAt(j);
                            j--;
                        }
                    }

                    if (finalNfp == null || finalNfp.Count == 0)
                    {
                        continue;
                    }

                    List <NestPath> f = new List <NestPath>();
                    for (int j = 0; j < finalNfp.Count; j++)
                    {
                        f.Add(toNestCoordinates(finalNfp[j]));
                    }

                    List <NestPath> finalNfpf  = f;
                    double          minarea    = Double.MinValue;
                    double          minX       = Double.MaxValue;
                    NestPath        nf         = null;
                    double          area       = Double.MinValue;
                    Vector          shifvector = null;
                    for (int j = 0; j < finalNfpf.Count; j++)
                    {
                        nf = finalNfpf[j];
                        if (Math.Abs(GeometryUtil.polygonArea(nf)) < 2)
                        {
                            continue;
                        }
                        for (int k = 0; k < nf.size(); k++)
                        {
                            NestPath allpoints = new NestPath();
                            for (int m = 0; m < placed.Count; m++)
                            {
                                for (int n = 0; n < placed[m].size(); n++)
                                {
                                    allpoints.add(new Segment(placed[m].get(n).x + placements[m].x,
                                                              placed[m].get(n).y + placements[m].y));
                                }
                            }
                            shifvector = new Vector(nf.get(k).x - path.get(0).x, nf.get(k).y - path.get(0).y, path.getId(), path.getRotation(), combinedNfp);
                            for (int m = 0; m < path.size(); m++)
                            {
                                allpoints.add(new Segment(path.get(m).x + shifvector.x, path.get(m).y + shifvector.y));
                            }
                            Bound rectBounds = GeometryUtil.getPolygonBounds(allpoints);

                            area = rectBounds.getWidth() * 2 + rectBounds.getHeight();
                            if (minarea == Double.MinValue ||
                                area < minarea ||
                                (GeometryUtil.almostEqual(minarea, area) &&
                                 (minX == Double.MinValue || shifvector.x < minX)))
                            {
                                minarea  = area;
                                minwidth = rectBounds.getWidth();
                                position = shifvector;
                                minX     = shifvector.x;
                            }
                        }
                    }
                    if (position != null)
                    {
                        placed.Add(path);
                        placements.Add(position);
                    }
                }
                if (minwidth != Double.MinValue)
                {
                    fitness += minwidth / binarea;
                }



                for (int i = 0; i < placed.Count; i++)
                {
                    int index = paths.IndexOf(placed[i]);
                    if (index >= 0)
                    {
                        paths.RemoveAt(index);
                    }
                }

                if (placements != null && placements.Count > 0)
                {
                    allplacements.Add(placements);
                }
                else
                {
                    break; // something went wrong
                }
            }
            // there were paths that couldn't be placed
            fitness += 2 * paths.Count;
            return(new Result(allplacements, fitness, paths, binarea));
        }
Example #8
0
        public static List <NestPath> transferSvgIntoPolygons(string xmlFilePath)
        {
            List <NestPath> nestPaths = new List <NestPath>();

            XDocument       document    = XDocument.Load(xmlFilePath);
            List <XElement> elementList = document.Root.DescendantNodes().OfType <XElement>().ToList();
            //对于测试库的数据,需要做一下筛选,如果是自己弄得测试数据,这句可以不要
            var elements = elementList.Where(p => p.Name == "polygon");
            int count    = 0;
            int index    = 0;

            foreach (XElement element in elements)
            {
                count++;
                //对于测试库的数据要加上这一句
                var elementFirstNode = (XElement)element.FirstNode;
                var rotation         = int.Parse(element.Attributes((XName)"nVertices").ToList()[0].Value.ToString());

                switch (elementFirstNode.Name.ToString())
                {
                case "polyline":
                case "polygon":
                {
                    String   datalist = element.Attributes((XName)"points").ToList()[0].Value.ToString();
                    NestPath polygon  = new NestPath();
                    polygon.setElement(element.ToString());
                    foreach (String s in datalist.Split(' '))
                    {
                        var temp = s.Trim();
                        if (temp.IndexOf(",") == -1)
                        {
                            continue;
                        }
                        String[] value = s.Split(',');
                        double   x     = Double.Parse(value[0]);
                        double   y     = Double.Parse(value[1]);
                        polygon.add(x, y);      //点的坐标
                    }
                    polygon.bid = count;        //多边形的序号
                    polygon.setRotation(4);     //旋转角度,值设为4时代表角度可以旋转90、180、270,该值一般为360的倍数
                    nestPaths.Add(polygon);
                    break;
                }

                case "lines":
                {
                    index++;
                    var      piesCount = int.Parse(elementFirstNode.Attributes((XName)"count").ToList()[0].Value.ToString());
                    var      dataList  = elementFirstNode.DescendantNodes().OfType <XElement>().ToList();
                    NestPath polygon   = new NestPath();
                    string   point     = null;
                    foreach (var data in dataList)
                    {
                        if (data.Name == "segment")
                        {
                            //为了保证在排样前各个图形的坐标不重合,所以后面增加2000 * index
                            var x0 = Double.Parse(data.Attributes((XName)"x0").ToList()[0].Value.ToString()) + 20 * index;
                            var y0 = Double.Parse(data.Attributes((XName)"y0").ToList()[0].Value.ToString()) + 20 * index;
                            var x1 = Double.Parse(data.Attributes((XName)"x1").ToList()[0].Value.ToString()) + 20 * index;
                            var y1 = Double.Parse(data.Attributes((XName)"y1").ToList()[0].Value.ToString()) + 20 * index;
                            point += x0 + "," + y0 + " ";
                            polygon.add(x0, y0);
                            polygon.add(x1, y1);
                        }
                    }

                    var listTemp = polygon.getSegments();
                    var newList  = new List <Segment>();
                    for (int i = 0; i < listTemp.Count; i++)
                    {
                        if (i % 2 == 0)
                        {
                            newList.Add(listTemp[i]);
                        }
                    }
                    polygon.setSegments(newList);
                    polygon.bid = count;           //多边形的序号
                    polygon.setRotation(rotation); //旋转角度,值设为4时代表角度可以旋转90、180、270,该值一般为360的倍数
                    var elementTemp = " <polygon fill=\"none\" stroke=\"#010101\" stroke-miterlimit=\"10\" points= \"" + point + " \"></polygon>";
                    for (int i = 0; i < piesCount; i++)
                    {
                        polygon.setElement(elementTemp);
                        nestPaths.Add(polygon);
                    }
                    break;
                }

                case "rect":
                {
                    double   width  = Double.Parse(element.Attributes((XName)"width").ToList()[0].Value.ToString());
                    double   height = Double.Parse(element.Attributes((XName)"height").ToList()[0].Value.ToString());
                    double   x      = Double.Parse(element.Attributes((XName)"x").ToList()[0].Value.ToString());
                    double   y      = Double.Parse(element.Attributes((XName)"y").ToList()[0].Value.ToString());
                    NestPath rect   = new NestPath();
                    rect.setElement(element.ToString());
                    rect.add(x, y);
                    rect.add(x + width, y);
                    rect.add(x + width, y + height);
                    rect.add(x, y + height);
                    rect.bid = count;
                    rect.setRotation(4);
                    nestPaths.Add(rect);
                    break;
                }

                case "circle":    //对于圆形,给转换成坐标形式
                {
                    double cx     = Double.Parse(element.Attributes((XName)"cx").ToList()[0].Value.ToString());
                    double cy     = Double.Parse(element.Attributes((XName)"cy").ToList()[0].Value.ToString());
                    double radius = Double.Parse(element.Attributes((XName)"r").ToList()[0].Value.ToString());

                    // num is the smallest number of segments required to approximate the circle to the given tolerance
                    var num = Math.Ceiling((2 * Math.PI) / Math.Acos(1 - (ToleranceConfig.tolerance / radius)));

                    if (num < 3)
                    {
                        num = 3;
                    }

                    NestPath circle = new NestPath();
                    circle.setElement(element.ToString());
                    circle.bid = count;
                    circle.setRotation(4);

                    for (var i = 0; i < num; i++)
                    {
                        var    theta = i * ((2 * Math.PI) / num);
                        double x     = radius * Math.Cos(theta) + cx;
                        double y     = radius * Math.Sin(theta) + cy;
                        circle.add(x, y);
                    }
                    nestPaths.Add(circle);

                    break;
                }

                case "ellipse":    //对于椭圆,给转换成坐标形式
                {
                    // same as circle case. There is probably a way to reduce points but for convenience we will just flatten the equivalent circular polygon
                    var rx = Double.Parse(element.Attributes((XName)"rx").ToList()[0].Value.ToString());

                    var ry        = Double.Parse(element.Attributes((XName)"ry").ToList()[0].Value.ToString());
                    var maxradius = Math.Max(rx, ry);

                    var cx = Double.Parse(element.Attributes((XName)"cx").ToList()[0].Value.ToString());
                    var cy = Double.Parse(element.Attributes((XName)"cy").ToList()[0].Value.ToString());

                    var num = Math.Ceiling((2 * Math.PI) / Math.Acos(1 - (ToleranceConfig.tolerance / maxradius)));

                    if (num < 3)
                    {
                        num = 3;
                    }

                    NestPath ellipse = new NestPath();
                    ellipse.setElement(element.ToString());
                    ellipse.bid = count;
                    ellipse.setRotation(4);
                    for (var i = 0; i < num; i++)
                    {
                        var    theta = i * ((2 * Math.PI) / num);
                        double x     = maxradius * Math.Cos(theta) + cx;
                        double y     = maxradius * Math.Sin(theta) + cy;
                        ellipse.add(x, y);
                    }
                    nestPaths.Add(ellipse);
                    break;
                }

                case "path":    //对于带弧形的多边形,给转换成坐标形式
                {
                    var      path           = element.Attributes((XName)"d").ToList()[0].Value.ToString();
                    var      pathNumbers    = transferPathToNumber(path);
                    string   pathNumberType = "MLHVCSQTA";
                    NestPath pathPloy       = new NestPath();
                    pathPloy.setElement(element.ToString());
                    pathPloy.bid = count;
                    pathPloy.setRotation(4);

                    double x, y, x0, y0, x1, y1, x2, y2, prevx, prevy, prevx1, prevy1, prevx2, prevy2;
                    x = y = x0 = y0 = x1 = y1 = x2 = y2 = prevx = prevy = prevx1 = prevy1 = prevx2 = prevy2 = 0;

                    for (var i = 0; i < pathNumbers.Count; i++)
                    {
                        var s       = pathNumbers[i].Numbers;  ////对应C#中的pathNumber的Numbers
                        var command = pathNumbers[i].Type;     //对应C#中的pathNumber的path type

                        prevx = x;
                        prevy = y;

                        prevx1 = x1;
                        prevy1 = y1;

                        prevx2 = x2;
                        prevy2 = y2;

                        if (pathNumberType.Contains(command))
                        {
                            switch (command)
                            {
                            case "M":
                            case "L":
                            case "T":
                            {
                                x = s[0];
                                y = s[1];
                                break;
                            }

                            case "H":
                            {
                                x = s[0];
                                break;
                            }

                            case "V":
                            {
                                y = s[0];
                                break;
                            }

                            case "Q":
                            {
                                x1 = s[0];
                                y1 = s[1];
                                x  = s[2];
                                y  = s[3];
                                break;
                            }

                            case "S":
                            {
                                x2 = s[0];
                                y2 = s[1];
                                x  = s[2];
                                y  = s[3];
                                break;
                            }

                            case "C":
                            {
                                x1 = s[0];
                                y1 = s[1];
                                x2 = s[2];
                                y2 = s[3];
                                x  = s[4];
                                y  = s[5];
                                break;
                            }
                            }
                        }
                        else
                        {
                            switch (command)
                            {
                            case "m":
                            case "l":
                            case "t":
                            {
                                x += s[0];
                                y += s[1];
                                break;
                            }

                            case "h":
                            {
                                x += s[0];
                                break;
                            }

                            case "v":
                            {
                                y += s[0];
                                break;
                            }

                            case "q":
                            {
                                x1 = x + s[0];
                                y1 = y + s[1];
                                x += s[2];
                                y += s[3];
                                break;
                            }

                            case "s":
                            {
                                x2 = x + s[0];
                                y2 = y + s[1];
                                x += s[2];
                                y += s[3];
                                break;
                            }

                            case "c":
                            {
                                x1 = x + s[0];
                                y1 = y + s[1];
                                x2 = x + s[2];
                                y2 = y + s[3];
                                x += s[4];
                                y += s[5];
                                break;
                            }
                            }
                        }

                        switch (command)
                        {
                        // linear line types
                        case "m":
                        case "M":
                        case "l":
                        case "L":
                        case "h":
                        case "H":
                        case "v":
                        case "V":
                            pathPloy.add(x, y);
                            break;

                        // Quadratic Beziers
                        case "t":
                        case "T":
                        {
                            // implicit control point
                            var tPathNumberType = "QqTt";
                            if (i > 0 && tPathNumberType.Contains(pathNumbers[i - 1].Type))
                            {
                                x1 = prevx + (prevx - prevx1);
                                y1 = prevy + (prevy - prevy1);
                            }
                            else
                            {
                                x1 = prevx;
                                y1 = prevy;
                            }
                            break;
                        }

                        case "q":
                        case "Q":
                        {
                            var pointlist = GeometryUtil.QuadraticBezierLinearize(new Segment(x: prevx, y: prevy), new Segment(x: x, y: y), new Segment(x: x1, y: y1), ToleranceConfig.tolerance);
                            pointlist.Remove(pointlist[0]);                 // firstpoint would already be in the poly
                            for (var j = 0; j < pointlist.Count; j++)
                            {
                                pathPloy.add(pointlist[j].x, pointlist[j].y);
                            }
                            break;
                        }

                        case "s":
                        case "S":
                        {
                            var sPathNumberType = "CcSs";
                            if (i > 0 && sPathNumberType.Contains(pathNumbers[i - 1].Type))
                            {
                                x1 = prevx + (prevx - prevx2);
                                y1 = prevy + (prevy - prevy2);
                            }
                            else
                            {
                                x1 = prevx;
                                y1 = prevy;
                            }
                            break;
                        }

                        case "c":
                        case "C":
                        {
                            var pointlist = GeometryUtil.CubicBezierLinearize(new Segment(x: prevx, y: prevy), new Segment(x: x, y: y), new Segment(x: x1, y: y1), new Segment(x: x2, y: y2), ToleranceConfig.tolerance);
                            pointlist.Remove(pointlist[0]);                 // firstpoint would already be in the poly
                            for (var j = 0; j < pointlist.Count; j++)
                            {
                                pathPloy.add(pointlist[j].x, pointlist[j].y);
                            }
                            break;
                        }

                        case "a":
                        case "A":
                        {
                            //var pointlist = GeometryUtil.Arc.linearize({ x: prevx, y: prevy}, { x: x, y: y}, s.r1, s.r2, s.angle, s.largeArcFlag,s.sweepFlag, this.conf.tolerance
                            //pointlist.shift();

                            //for (var j = 0; j < pointlist.length; j++)
                            //{
                            //    var point = { };
                            //    point.x = pointlist[j].x;
                            //    point.y = pointlist[j].y;
                            //    poly.push(point);
                            //}
                            break;
                        }

                        case "z":
                        case "Z":
                        {
                            x = x0;
                            y = y0;
                            break;
                        }
                        }
                        // Record the start of a subpath
                        if (command == "M" || command == "m")
                        {
                            x0 = x;
                            y0 = y;
                        }
                    }


                    // 判断最后一个点是不是和第一个点一样,如果一样,就去除最后一个点
                    while (pathPloy.getSegments().Count > 0 && GeometryUtil.almostEqual(pathPloy.getSegments()[0].x, pathPloy.getSegments()[pathPloy.getSegments().Count - 1].x, ToleranceConfig.toleranceSvg) && GeometryUtil.almostEqual(pathPloy.getSegments()[0].y, pathPloy.getSegments()[pathPloy.getSegments().Count - 1].y, ToleranceConfig.toleranceSvg))
                    {
                        pathPloy.getSegments().RemoveAt(pathPloy.getSegments().Count - 1);
                    }

                    nestPaths.Add(pathPloy);
                    break;
                }
                }
            }
            return(nestPaths);
        }