/// <summary> /// 按照Centre重处理数据 支持Circle /// </summary> /// <param name="In_Data"></param> /// <param name="Centre"></param> /// <returns></returns> public List <Entity_Data> CentrelizeCircle(List <Entity_Data> In_Data, Vector Centre) { //结果变量 List <Entity_Data> Result = new List <Entity_Data>(); //结果 Entity_Data Temp_Data = new Entity_Data(); //临时数据 //初始清除 Result.Clear(); Temp_Data.Empty(); //数据处理部分 //提取数据 foreach (var o in In_Data) { //数据获取 Temp_Data = new Entity_Data(o); //RTC 圆弧加工圆心坐标转换 Temp_Data.Center_x = o.Center_x - Centre.X; Temp_Data.Center_y = o.Center_y - Centre.Y; //RTC加工终点 Temp_Data.Start_x = Temp_Data.Center_x; Temp_Data.Start_y = Temp_Data.Center_y + o.Circle_radius; Temp_Data.End_x = Temp_Data.Center_x; Temp_Data.End_y = Temp_Data.Center_y + o.Circle_radius; //RTC加工整圆角度 // arc angle in ° as a 64 - bit IEEE floating point value // (positive angle values correspond to clockwise angles); // allowed range: [–3600.0° … +3600.0°] (±10 full circles); // out-of-range values will be edge-clipped. Temp_Data.Angle = 370;//这个参数得看RTC手册,整圆的旋转角度 //追加数据 Result.Add(new Entity_Data(Temp_Data)); } //返回结果 return(Result); }
/// <summary> /// 处理Dxf 提取指定图层,颜色的Circle数据 /// </summary> /// <param name="dxf"></param> /// <returns></returns> public List <Entity_Data> DistractCircle(DxfDocument dxf, int color, string Layer_Name) { List <Entity_Data> Result = new List <Entity_Data>(); //建立临时Entity数据 Entity_Data Temp_Entity = new Entity_Data(); //临时变量 int i = 0; //提取符合要求的圆 for (i = 0; i < dxf.Circles.Count; i++) { if ((dxf.Circles[i].Layer.Name == Layer_Name) && (dxf.Circles[i].Color.R == color)) { Temp_Entity.Type = 3;//圆 //圆心提取 Temp_Entity.Center_x = Convert.ToDecimal(dxf.Circles[i].Center.X); Temp_Entity.Center_y = Convert.ToDecimal(dxf.Circles[i].Center.Y); Temp_Entity.Circle_radius = Convert.ToDecimal(dxf.Circles[i].Radius); Temp_Entity.Start_x = Temp_Entity.Center_x + Temp_Entity.Circle_radius; Temp_Entity.Start_y = Temp_Entity.Center_y; Temp_Entity.End_x = Temp_Entity.Center_x + Temp_Entity.Circle_radius; Temp_Entity.End_y = Temp_Entity.Center_y; Temp_Entity.Circle_dir = 0; //方向 顺时针画圆 Temp_Entity.Cir_End_Angle = 0.0m; //起始角度 Temp_Entity.Cir_Start_Angle = 360.0m; //终止角度 //提交进入Circle_Entity_Data Result.Add(new Entity_Data(Temp_Entity)); } } //返回结果 return(Result); }
/// <summary> /// 处理Dxf 提取指定图层,颜色的多边形 /// </summary> /// <param name="dxf"></param> /// <returns></returns> public List <List <Entity_Data> > DistractLWPolyline(DxfDocument dxf, int color, string Layer_Name) { List <List <Entity_Data> > Result = new List <List <Entity_Data> >(); List <Entity_Data> Temp_List = new List <Entity_Data>(); //建立临时Entity数据 Entity_Data Temp_Entity = new Entity_Data(); //临时变量 int i = 0, j = 0; //提取符合要求的多边形 for (i = 0; i < dxf.LwPolylines.Count; i++) { if ((dxf.LwPolylines[i].Layer.Name == Layer_Name) && (dxf.LwPolylines[i].Color.R == color))//提取图层名、颜色符合的直线 { for (j = 0; j < dxf.LwPolylines[i].Vertexes.Count; j++) { Temp_Entity.Empty(); //清空数据 if (j <= dxf.LwPolylines[i].Vertexes.Count - 2) //倒数第二个点 { if (!(dxf.LwPolylines[i].Vertexes[j].Position.X == dxf.LwPolylines[i].Vertexes[j + 1].Position.X) || !(dxf.LwPolylines[i].Vertexes[j].Position.Y == dxf.LwPolylines[i].Vertexes[j + 1].Position.Y)) { Temp_Entity.Type = 1;//直线插补 //起终点提取 Temp_Entity.Start_x = Convert.ToDecimal(dxf.LwPolylines[i].Vertexes[j].Position.X); Temp_Entity.Start_y = Convert.ToDecimal(dxf.LwPolylines[i].Vertexes[j].Position.Y); Temp_Entity.End_x = Convert.ToDecimal(dxf.LwPolylines[i].Vertexes[j + 1].Position.X); Temp_Entity.End_y = Convert.ToDecimal(dxf.LwPolylines[i].Vertexes[j + 1].Position.Y); //提交进入Temp_List Temp_List.Add(new Entity_Data(Temp_Entity)); } } else if (j == (dxf.LwPolylines[i].Vertexes.Count - 1)) //最后一个点 { if (dxf.LwPolylines[i].IsClosed) //判断是否闭合 { Temp_Entity.Type = 1; //直线插补 //起终点提取 Temp_Entity.Start_x = Convert.ToDecimal(dxf.LwPolylines[i].Vertexes[j].Position.X); Temp_Entity.Start_y = Convert.ToDecimal(dxf.LwPolylines[i].Vertexes[j].Position.Y); Temp_Entity.End_x = Convert.ToDecimal(dxf.LwPolylines[i].Vertexes[0].Position.X); Temp_Entity.End_y = Convert.ToDecimal(dxf.LwPolylines[i].Vertexes[0].Position.Y); //提交进入Temp_List Temp_List.Add(new Entity_Data(Temp_Entity)); } } } //当前LwPolyline数据提取完成,追加数据 Result.Add(new List <Entity_Data>(Temp_List)); Temp_List.Clear();//清空数据 } } //返回结果 return(Result); }
public short Circle_dir; //圆弧方向:顺时针-0,逆时针-1 public Entity_Data(Entity_Data Ini) { this.Type = Ini.Type; //插补代号:1-直线插补,2-圆弧插补(圆心描述),3-圆弧插补(半径描述,不可描述整圆) this.Backup = Ini.Backup; //备用 this.Start_x = Ini.Start_x; //插补起点X坐标 this.Start_y = Ini.Start_y; //插补起点Y坐标 this.End_x = Ini.End_x; //插补终点X坐标 this.End_y = Ini.End_y; //插补终点Y坐标 this.Center_x = Ini.Center_x; //圆心坐标x this.Center_y = Ini.Center_y; //圆心坐标y this.Center_Start_x = Ini.Center_Start_x; //圆心坐标x-起点坐标x this.Center_Start_y = Ini.Center_Start_y; //圆心坐标y-起点坐标y this.Cir_Start_Angle = Ini.Cir_Start_Angle; //圆弧起始角度 this.Cir_End_Angle = Ini.Cir_End_Angle; //圆弧终止角度 this.Circle_radius = Ini.Circle_radius; //圆弧半径 this.Circle_dir = Ini.Circle_dir; //圆弧方向:顺时针-0,逆时针-1 }
/// <summary> /// 按照Centre重处理数据 支持ArcLine 和 LWPolyline /// </summary> /// <param name="In_Data"></param> /// <param name="Centre"></param> /// <returns></returns> public List <List <Entity_Data> > CentrelizeArcLine(List <List <Entity_Data> > In_Data, Vector Centre) { //结果变量 List <List <Entity_Data> > Result = new List <List <Entity_Data> >(); //结果 List <Entity_Data> Temp_List_Data = new List <Entity_Data>(); //内层数据 Entity_Data Temp_Data = new Entity_Data(); //临时数据 //初始清除 Result.Clear(); Temp_List_Data.Clear(); Temp_Data.Empty(); //数据处理部分 foreach (var p in In_Data) { //清空内层数据 Temp_List_Data.Clear(); //提取数据 foreach (var o in p) { //数据获取 Temp_Data = new Entity_Data(o); //直线和圆弧 通用坐标转换 Temp_Data.Start_x = o.Start_x - Centre.X; Temp_Data.Start_y = o.Start_y - Centre.Y; Temp_Data.End_x = o.End_x - Centre.X; Temp_Data.End_y = o.End_y - Centre.Y; //圆弧数据处理 if (o.Type == 2) { //RTC 圆弧加工圆心坐标转换 Temp_Data.Center_x = o.Center_x - Centre.X; Temp_Data.Center_y = o.Center_y - Centre.Y; //角度处理 Temp_Data.Angle = o.Cir_Start_Angle - o.Cir_End_Angle; } Temp_List_Data.Add(new Entity_Data(Temp_Data)); } //追加结果 Result.Add(new List <Entity_Data>(Temp_List_Data)); } //返回结果 return(Result); }
/// <summary> /// 用指定Matrix校准List<List<Entity_Data>>数据,True - 校准,False - 不校准 /// </summary> /// <param name="List_Datas"></param> /// <param name="Matrices"></param> /// <param name="Flag"></param> /// <returns></returns> public List <Entity_Data> CalDataByMatrix(List <Entity_Data> List_Datas, Affinity_Matrix Matrices, int Flag) { //建立变量 List <Entity_Data> Result = new List <Entity_Data>(); Entity_Data Temp_Data = new Entity_Data(); //处理数据 foreach (var O in List_Datas) { //先清空 Temp_Data.Empty(); //后赋值 Temp_Data = new Entity_Data(O); switch (Flag) { case 0: //原点起始 //起点计算 Temp_Data.Start_x = O.Start_x - Program.SystemContainer.SysPara.Rtc_Org.X; Temp_Data.Start_y = O.Start_y - Program.SystemContainer.SysPara.Rtc_Org.Y; //终点计算 Temp_Data.End_x = O.End_x - Program.SystemContainer.SysPara.Rtc_Org.X; Temp_Data.End_y = O.End_y - Program.SystemContainer.SysPara.Rtc_Org.Y; //圆心计算 Temp_Data.Center_x = O.Center_x - Program.SystemContainer.SysPara.Rtc_Org.X; Temp_Data.Center_y = O.Center_y - Program.SystemContainer.SysPara.Rtc_Org.Y; break; case 1: //Mark矫正 //起点计算 Temp_Data.Start_x = O.Start_x * Matrices.Stretch_X + O.Start_y * Matrices.Distortion_X + Matrices.Delta_X - Program.SystemContainer.SysPara.Rtc_Org.X; Temp_Data.Start_y = O.Start_y * Matrices.Stretch_Y + O.Start_x * Matrices.Distortion_Y + Matrices.Delta_Y - Program.SystemContainer.SysPara.Rtc_Org.Y; //终点计算 Temp_Data.End_x = O.End_x * Matrices.Stretch_X + O.End_y * Matrices.Distortion_X + Matrices.Delta_X - Program.SystemContainer.SysPara.Rtc_Org.X; Temp_Data.End_y = O.End_y * Matrices.Stretch_Y + O.End_x * Matrices.Distortion_Y + Matrices.Delta_Y - Program.SystemContainer.SysPara.Rtc_Org.Y; //圆心计算 Temp_Data.Center_x = O.Center_x * Matrices.Stretch_X + O.Center_y * Matrices.Distortion_X + Matrices.Delta_X - Program.SystemContainer.SysPara.Rtc_Org.X; Temp_Data.Center_y = O.Center_y * Matrices.Stretch_Y + O.Center_x * Matrices.Distortion_Y + Matrices.Delta_Y - Program.SystemContainer.SysPara.Rtc_Org.Y; break; case 2: //指定点起始 //起点计算 Temp_Data.Start_x = O.Start_x - Program.SystemContainer.SysPara.Rtc_Org.X + Program.SystemContainer.SysPara.ResignationPoint.X; Temp_Data.Start_y = O.Start_y - Program.SystemContainer.SysPara.Rtc_Org.Y + Program.SystemContainer.SysPara.ResignationPoint.Y; //终点计算 Temp_Data.End_x = O.End_x - Program.SystemContainer.SysPara.Rtc_Org.X + Program.SystemContainer.SysPara.ResignationPoint.X; Temp_Data.End_y = O.End_y - Program.SystemContainer.SysPara.Rtc_Org.Y + Program.SystemContainer.SysPara.ResignationPoint.Y; //圆心计算 Temp_Data.Center_x = O.Center_x - Program.SystemContainer.SysPara.Rtc_Org.X + Program.SystemContainer.SysPara.ResignationPoint.X; Temp_Data.Center_y = O.Center_y - Program.SystemContainer.SysPara.Rtc_Org.Y + Program.SystemContainer.SysPara.ResignationPoint.Y; break; default: break; } //追加数据至Temp_List Result.Add(new Entity_Data(Temp_Data)); //清空Temp_Data Temp_Data.Empty(); } //返回结果 return(Result); }
/// <summary> /// 用指定Matrix校准List<List<Entity_Data>>数据,0 - 原点起始,1 - Mark校准,2 - 指定点起始 /// </summary> /// <param name="List_Datas"></param> /// <param name="Matrices"></param> /// <param name="Flag"></param> /// <returns></returns> public List <List <Entity_Data> > CalDataByMatrix(List <List <Entity_Data> > List_Datas, Affinity_Matrix Matrices, int Flag) { //建立变量 List <List <Entity_Data> > Result = new List <List <Entity_Data> >(); List <Entity_Data> Temp_List = new List <Entity_Data>(); Entity_Data Temp_Data = new Entity_Data(); foreach (var entity_Datas in List_Datas) { foreach (var O in entity_Datas) { //先清空 Temp_Data.Empty(); //后赋值 Temp_Data = new Entity_Data(O); //加工起始位置选择 switch (Flag) { case 0: //原点起始加工 //起点计算 Temp_Data.Start_x = O.Start_x - Program.SystemContainer.SysPara.Rtc_Org.X; Temp_Data.Start_y = O.Start_y - Program.SystemContainer.SysPara.Rtc_Org.Y; //终点计算 Temp_Data.End_x = O.End_x - Program.SystemContainer.SysPara.Rtc_Org.X; Temp_Data.End_y = O.End_y - Program.SystemContainer.SysPara.Rtc_Org.Y; //圆心计算 if (Temp_Data.Type == 1) { break; } Temp_Data.Center_x = O.Center_x - Program.SystemContainer.SysPara.Rtc_Org.X; Temp_Data.Center_y = O.Center_y - Program.SystemContainer.SysPara.Rtc_Org.Y; break; case 1: //Mark矫正 //sin取正 (当前坐标系采用) 已验证 //起点计算 Temp_Data.Start_x = O.Start_x * Matrices.Stretch_X + O.Start_y * Matrices.Distortion_X + Matrices.Delta_X - Program.SystemContainer.SysPara.Rtc_Org.X; Temp_Data.Start_y = O.Start_y * Matrices.Stretch_Y + O.Start_x * Matrices.Distortion_Y + Matrices.Delta_Y - Program.SystemContainer.SysPara.Rtc_Org.Y; //终点计算 Temp_Data.End_x = O.End_x * Matrices.Stretch_X + O.End_y * Matrices.Distortion_X + Matrices.Delta_X - Program.SystemContainer.SysPara.Rtc_Org.X; Temp_Data.End_y = O.End_y * Matrices.Stretch_Y + O.End_x * Matrices.Distortion_Y + Matrices.Delta_Y - Program.SystemContainer.SysPara.Rtc_Org.Y; //圆心计算 if (Temp_Data.Type == 1) { break; } Temp_Data.Center_x = O.Center_x * Matrices.Stretch_X + O.Center_y * Matrices.Distortion_X + Matrices.Delta_X - Program.SystemContainer.SysPara.Rtc_Org.X; Temp_Data.Center_y = O.Center_y * Matrices.Stretch_Y + O.Center_x * Matrices.Distortion_Y + Matrices.Delta_Y - Program.SystemContainer.SysPara.Rtc_Org.Y; break; case 2: //指定点加工 //起点计算 Temp_Data.Start_x = O.Start_x - Program.SystemContainer.SysPara.Rtc_Org.X + Program.SystemContainer.SysPara.ResignationPoint.X; Temp_Data.Start_y = O.Start_y - Program.SystemContainer.SysPara.Rtc_Org.Y + Program.SystemContainer.SysPara.ResignationPoint.Y; //终点计算 Temp_Data.End_x = O.End_x - Program.SystemContainer.SysPara.Rtc_Org.X + Program.SystemContainer.SysPara.ResignationPoint.X; Temp_Data.End_y = O.End_y - Program.SystemContainer.SysPara.Rtc_Org.Y + Program.SystemContainer.SysPara.ResignationPoint.Y; //圆心计算 if (Temp_Data.Type == 1) { break; } Temp_Data.Center_x = O.Center_x - Program.SystemContainer.SysPara.Rtc_Org.X + Program.SystemContainer.SysPara.ResignationPoint.X; Temp_Data.Center_y = O.Center_y - Program.SystemContainer.SysPara.Rtc_Org.Y + Program.SystemContainer.SysPara.ResignationPoint.Y; break; default: break; } //追加数据至Temp_List Temp_List.Add(new Entity_Data(Temp_Data)); //清空Temp_Data Temp_Data.Empty(); } //追加至结果数据 Result.Add(new List <Entity_Data>(Temp_List)); //清空数据 Temp_List.Clear(); } return(Result); }
/// <summary> /// 整合ArcLine数据 /// </summary> /// <param name="Arc_Line_Datas"></param> /// <returns></returns> public List <List <Entity_Data> > CombineArcLine(List <Entity_Data> Arc_Line_Datas) { //结果变量 List <List <Entity_Data> > Result = new List <List <Entity_Data> >(); List <Entity_Data> Single_Data = new List <Entity_Data>(); //辅助运算 用途:提取顺序的衔接和处理 //临时变量 Entity_Data Temp_Data = new Entity_Data(); int i = 0; int Num = 0; //初始清除 Single_Data.Clear(); Temp_Data.Empty(); //处理Line_Arc生成加工数据 初始数据 属于切入加工起点,故强制使用 //直线插补走刀 //强制生成独立的 List<Interpolation_Data>,并将其写入独立运行数据块 List<List<Interpolation_Data>> if (Arc_Line_Datas.Count > 0) { Single_Data.Add(new Entity_Data(Arc_Line_Datas[0])); //追加首数据 Arc_Line_Datas.RemoveAt(0); //移除索引0数据 //整理数据 do { Num = Arc_Line_Datas.Count;//记录当前Arc_Line_Datas.Count,用于判断数据是否处理完或封闭寻找结束 for (i = 0; i < Arc_Line_Datas.Count; i++) { if (Differ_Err(Single_Data[Single_Data.Count - 1].End_x, Single_Data[Single_Data.Count - 1].End_y, Arc_Line_Datas[i].End_x, Arc_Line_Datas[i].End_y))//当前插补终点是 数据处理终点 同CAD文件规定方向相反 { //提取当前数据 Temp_Data = new Entity_Data(Arc_Line_Datas[i]); //替换起点坐标 Temp_Data.Start_x = Arc_Line_Datas[i].End_x; Temp_Data.Start_y = Arc_Line_Datas[i].End_y; //替换终点坐标 Temp_Data.End_x = Arc_Line_Datas[i].Start_x; Temp_Data.End_y = Arc_Line_Datas[i].Start_y; //圆弧数据处理 if (Temp_Data.Type == 2)//圆弧 { //重新计算圆弧中心减起点坐标值 Temp_Data.Center_Start_x = Temp_Data.Center_x - Temp_Data.Start_x; Temp_Data.Center_Start_y = Temp_Data.Center_y - Temp_Data.Start_y; //计算圆弧角度 Temp_Data.Cir_Start_Angle = Arc_Line_Datas[i].Cir_End_Angle; Temp_Data.Cir_End_Angle = Arc_Line_Datas[i].Cir_Start_Angle; //圆弧方向 Temp_Data.Circle_dir = 0; } //提交进入Arc_Data Single_Data.Add(new Entity_Data(Temp_Data)); //清空数据 Temp_Data.Empty(); //删除当前的Entity数据 Arc_Line_Datas.RemoveAt(i); break; } else if (Differ_Err(Single_Data[Single_Data.Count - 1].End_x, Single_Data[Single_Data.Count - 1].End_y, Arc_Line_Datas[i].Start_x, Arc_Line_Datas[i].Start_y)) //当前插补终点是 数据处理起点 同CAD文件规定方向相同 { //提取当前数据 Temp_Data = new Entity_Data(Arc_Line_Datas[i]); //圆弧数据处理 if (Temp_Data.Type == 2)//圆弧 { //重新计算圆弧中心减起点坐标值 Temp_Data.Center_Start_x = Temp_Data.Center_x - Temp_Data.Start_x; Temp_Data.Center_Start_y = Temp_Data.Center_y - Temp_Data.Start_y; //圆弧方向 Temp_Data.Circle_dir = 1; } //提交进入Arc_Data Single_Data.Add(new Entity_Data(Temp_Data)); //清空数据 Temp_Data.Empty(); //删除当前的Entity数据 Arc_Line_Datas.RemoveAt(i); break; } } //寻找结束点失败,意味着重新开始新的 线段或圆弧 if ((Arc_Line_Datas.Count > 0) && (Num == Arc_Line_Datas.Count)) { //整合数据生成代码 当前结束的封闭图形加工数据 if (Single_Data.Count > 0) { Result.Add(new List <Entity_Data>(Single_Data)); //追加数据 } //清空数据 Single_Data.Clear(); //跳刀直接使用直线插补走刀 Single_Data.Add(new Entity_Data(Arc_Line_Datas[0])); //追加首数据 Arc_Line_Datas.RemoveAt(0); //移除索引0数据 if (Arc_Line_Datas.Count > 0) { continue; } } //序列中已无整合的数据 if ((Arc_Line_Datas.Count == 0) && ((Num == 1) || (Num == 0)))//寻找到最后一组 { if (Single_Data.Count > 0) { //整合数据生成代码 当前结束的封闭图形加工数据 Result.Add(new List <Entity_Data>(Single_Data));//追加数据 //清空数据 Single_Data.Clear(); } } } while (Arc_Line_Datas.Count > 0);//实体Line_Arc数据未清空完 } //返回结果 return(Result); }
/// <summary> /// 处理Dxf 提取指定图层,颜色的圆弧和直线 /// </summary> /// <param name="dxf"></param> /// <returns></returns> public List <List <Entity_Data> > DistractArcLine(DxfDocument dxf, int color, string Layer_Name) { //结果数组 List <Entity_Data> TemArcLine = new List <Entity_Data>(); //建立临时Entity数据 Entity_Data Temp_Entity = new Entity_Data(); //临时变量 int i = 0; //提取符合要求的直线 for (i = 0; i < dxf.Lines.Count; i++) { if ((dxf.Lines[i].Layer.Name == Layer_Name) && (dxf.Lines[i].Color.R == color)) //提取图层名、颜色符合的直线 { Temp_Entity.Empty(); //清空数据 Temp_Entity.Type = 1; //标记为直线 //起点计算 Temp_Entity.Start_x = Convert.ToDecimal(dxf.Lines[i].StartPoint.X); Temp_Entity.Start_y = Convert.ToDecimal(dxf.Lines[i].StartPoint.Y); //终点计算 Temp_Entity.End_x = Convert.ToDecimal(dxf.Lines[i].EndPoint.X); Temp_Entity.End_y = Convert.ToDecimal(dxf.Lines[i].EndPoint.Y); //追加数据 TemArcLine.Add(new Entity_Data(Temp_Entity)); } } //提取符合要求的圆弧 for (i = 0; i < dxf.Arcs.Count; i++) { if ((dxf.Arcs[i].Layer.Name == Layer_Name) && (dxf.Arcs[i].Color.R == color)) //提取图层名、颜色符合的圆弧 { Temp_Entity.Empty(); //清空数据 Temp_Entity.Type = 2; //标记为圆弧 //起点计算 Temp_Entity.Start_x = Convert.ToDecimal(dxf.Arcs[i].StartPoint.X); Temp_Entity.Start_y = Convert.ToDecimal(dxf.Arcs[i].StartPoint.Y); //终点计算 Temp_Entity.End_x = Convert.ToDecimal(dxf.Arcs[i].EndPoint.X); Temp_Entity.End_y = Convert.ToDecimal(dxf.Arcs[i].EndPoint.Y); //起始和终止角度提取 Temp_Entity.Cir_Start_Angle = Convert.ToDecimal(dxf.Arcs[i].StartAngle); Temp_Entity.Cir_End_Angle = Convert.ToDecimal(dxf.Arcs[i].EndAngle); //角度处理 if (Temp_Entity.Cir_Start_Angle >= 359.99m) { Temp_Entity.Cir_Start_Angle = 0.0m; } if (Temp_Entity.Cir_End_Angle <= 0.01m) { Temp_Entity.Cir_End_Angle = 360.0m; } //圆心计算 Temp_Entity.Center_x = Convert.ToDecimal(dxf.Arcs[i].Center.X); Temp_Entity.Center_y = Convert.ToDecimal(dxf.Arcs[i].Center.Y); Temp_Entity.Circle_radius = Convert.ToDecimal(dxf.Arcs[i].Radius); Temp_Entity.Circle_dir = 1; //提交 TemArcLine.Add(new Entity_Data(Temp_Entity)); } } //判断圆弧直线数量,并排序 //if (TemArcLine.Count > 0) //{ // TemArcLine = TemArcLine.OrderBy(o => o.Start_x).ThenBy(o => o.Start_y).ToList(); //} //首尾相接处理并返回结果 if (TemArcLine.Count <= 0) { return(new List <List <Entity_Data> >()); } else { return(CombineArcLine(TemArcLine)); } }