//支座与L1最远交点共点梁线 public MxDrawLine GetXpoint(MxDrawPoint pts, MxDrawPoint pte, MxDrawPolyline seat) { MxDrawPoints pty = new MxDrawPoints(); MxDrawSelectionSet collect = new MxDrawSelectionSet(); for (int i = 0; i < seat.NumVerts; i++) { MxDrawPoint temp1 = seat.GetPointAt(i); temp1.x = Math.Round(temp1.x, 6); temp1.y = Math.Round(temp1.y, 6); double angle = MathSience.GetAngle2(pts, pte); if ((angle < 3 && angle > -2) || Math.Round(Math.Abs(angle)) == 180)//左右 { if (Math.Round(pts.x, 6) != temp1.x && Math.Round(pte.x, 6) != temp1.x) { pty.Add2(temp1); } } if ((angle > 80 && angle < 95) || (angle < -80 && angle > -95))//上下 { if (Math.Round(pts.y, 6) != temp1.y && Math.Round(pte.y, 6) != temp1.y) { pty.Add2(temp1); } } } if (pty.Count > 1) { PointF ptx = MathSience.point_intersection(pts, pte, pty.Item(0), pty.Item(1)); collect.AllSelect(); for (int i = 0; i < collect.Count; i++) { MxDrawLine line = collect.Item(i) as MxDrawLine; if (line == null) { continue; } if (line.ObjectName == "McDbLine") { MxDrawPoint t1 = line.StartPoint; MxDrawPoint t2 = line.EndPoint; MxDrawPoint tp = new MxDrawPoint { x = ptx.X, y = ptx.Y }; if (Math.Abs(Math.Round(t1.x) - ptx.X) < 1.5 && Math.Abs(Math.Round(t1.y) - ptx.Y) < 1.5) { return(line); } else if (Math.Abs(Math.Round(t2.x) - ptx.X) < 1.5 && Math.Abs(Math.Round(t2.y) - ptx.Y) < 1.5) { return(line); } } } } return(new MxDrawLine()); }
//获取支座 public MxDrawPolyline GetSeatForRange(MxDrawPoint pt, MxDrawPoint spt) { double range1 = 2000, range2 = 300; MxDrawSelectionSet collect = new MxDrawSelectionSet(); MxDrawResbuf filter = new MxDrawResbuf(); MxDrawLayerTable layer = (Program.MainForm.axMxDrawX1.GetDatabase() as MxDrawDatabase).GetLayerTable(); MxDrawPoint start = new MxDrawPoint { x = pt.x + range1, y = pt.y + range1, z = pt.z }; MxDrawPoint end = new MxDrawPoint { x = pt.x - range1, y = pt.y - range1, z = pt.z }; //Program.MainForm.axMxDrawX1.DrawLine(start.x, start.y, start.x, start.y); //Program.MainForm.axMxDrawX1.DrawLine(start.x, start.y, start.x, end.y); //Program.MainForm.axMxDrawX1.DrawLine(start.x, end.y, end.x, end.y); //Program.MainForm.axMxDrawX1.DrawLine(end.x, end.y, end.x, start.y); //Program.MainForm.axMxDrawX1.DrawLine(end.x, start.y, start.x, start.y); collect.Select(MCAD_McSelect.mcSelectionSetCrossing, start, end, filter); MxDrawEntity entity; //MxDrawLayerTable layer = (Program.MainForm.axMxDrawX1.GetDatabase() as MxDrawDatabase).GetLayerTable(); //MxDrawLayerTableRecord dd; for (int i = 0; i < collect.Count; i++) { entity = collect.Item(i); if (entity == null) { continue; } if (entity.ObjectName == "McDbPolyline") { MxDrawPolyline polyline = entity as MxDrawPolyline; MxDrawLayerTableRecord dd = layer.GetAt(entity.Layer); if (dd.Color.colorIndex != 9) { MxDrawPoint st = polyline.GetStartPoint(); MxDrawPoint et = polyline.GetEndPoint(); if (st.x == et.x && st.y == et.y) { return(polyline); } } } } return(new MxDrawPolyline()); }
private void FillBeamStruct() { #region beam HLTSmart smart = new HLTSmart(); //第一步:遍历所有文字,找出满足如下正则表达式的文字,即为集中标注第一行 List <Regex> regex1 = new List <Regex> { //new Regex(@"(KL|L|WKL|WL|KZL|LL|JL|DL)[-]?\d{1,4}") new Regex(@"((KL|L|WKL|WL|KZL|LL|JL|DL)(\d{1,4})\([A-Z0-9]{1,4}\)\s)?(\d{1,4})X(\d{1,4})") }; List <Text> texts = new List <Text>(); //获取dim_text值 MxDrawText entity; foreach (var item in beam.dim_texts) { entity = Program.MainForm.axMxDrawX1.HandleToObject(item) as MxDrawText; if (entity != null) { texts.Add(new Text { Position = new Point3d { X = entity.Position.x, Y = entity.Position.y, Z = entity.Position.z }, Layer = entity.Layer, TextString = entity.TextString, Height = entity.Height, Rotation = entity.Rotation }); } } List <Text> Restexts = smart.GetWord(texts, regex1); //第二步:找到后还需验证这个字的左侧定位点 字体高度2倍范围内有无直线(即指示线) Point3d pt = new Point3d(); MxDrawSelectionSet select = new MxDrawSelectionSet(); foreach (var item in Restexts) { pt = item.Position; MxDrawPoint pt1 = new MxDrawPoint { x = pt.X - 1 * item.Height, y = pt.Y - 1 * item.Height, z = pt.Z }; MxDrawPoint pt2 = new MxDrawPoint { x = pt.X + 1 * item.Height, y = pt.Y + 1 * item.Height, z = pt.Z }; //Program.MainForm.axMxDrawX1.DrawLine(pt.X, pt.Y, pt.X+1, pt.Y+1); //Program.MainForm.axMxDrawX1.DrawLine(pt1.x, pt1.y, pt1.x, pt2.y); //Program.MainForm.axMxDrawX1.DrawLine(pt1.x, pt2.y, pt2.x, pt2.y); //Program.MainForm.axMxDrawX1.DrawLine(pt2.x, pt2.y, pt2.x, pt1.y); //Program.MainForm.axMxDrawX1.DrawLine(pt2.x, pt1.y, pt1.x, pt1.y); select.Select(MCAD_McSelect.mcSelectionSetCrossing, pt1, pt2, new MxDrawResbuf()); MxDrawLine drawEntity; MxDrawPoint pst, ped; List <Text> text3 = new List <Text>(); for (int i = 0; i < select.Count; i++) { drawEntity = select.Item(i) as MxDrawLine; //第三步:遍历第二步的结果,逐一按下面计算,例如第n个结果 if (drawEntity != null && drawEntity.ObjectName == "McDbLine") { Program.MainForm.axMxDrawX1.TwinkeEnt(drawEntity.ObjectID); pst = drawEntity.GetStartPoint(); ped = drawEntity.GetEndPoint(); text3 = smart.SelectTextByBox(texts, new Point3d { X = pst.x, Y = pst.y, Z = pst.z }, item.Position); //第四步:从第三步结果中逐行用关键字匹配出参数信息 Beam beams = new Beam(); beams.owner = new List <string>(); beams.Sections = new List <Beam_Section>(); beams.Stirrup_info = new List <Stirrup_Dim>(); beams.Public_Bar = new List <Rebar_Dim>(); beams.Mid_Beam_Rebars = new List <List <Rebar_Dim> >(); beams.Waist_Bar = new List <Rebar_Dim>(); beams.Twist_Bar = new List <Rebar_Dim>(); string kval = ""; for (int k = 0; k < text3.Count; k++) { //KL14(1A) 300X400 kval = Regex.Match(text3[k].TextString, @"(KL|L|WKL|WL|KZL|LL|JL|DL)").Value; if (kval != "") { beams.type = kval;//(Side_type)Enum.Parse(typeof(Side_type),kval); beams.owner = GetItemAsync(text3[k].TextString); } //梁截面 kval = Regex.Match(text3[k].TextString, @"(\d{2,4}~)?(\d{2,4})(x|X)(\d{2,4})(~\d{2,4})?").Value; string[] vals = kval.Split(new char[] { '~', 'x', 'X' }); if (kval != "") { if (kval.IndexOf('~') == -1) { beams.Sections.Add(new Beam_Section { a = 1, b = Convert.ToDouble(vals[0]), h = Convert.ToDouble(vals[1]) }); } else { if (kval.IndexOf("x", StringComparison.OrdinalIgnoreCase) > kval.IndexOf('~')) { //变截面宽 350~450x700 beams.Sections.Add(new Beam_Section { a = 1, b = Convert.ToDouble(vals[0]), h = Convert.ToDouble(vals[2]), }); beams.Sections.Add(new Beam_Section { a = 1, b = Convert.ToDouble(vals[1]), h = Convert.ToDouble(vals[2]), }); } else { //变截面高 350x650~800 beams.Sections.Add(new Beam_Section { a = 1, b = Convert.ToDouble(vals[0]), h = Convert.ToDouble(vals[1]), }); beams.Sections.Add(new Beam_Section { a = 1, b = Convert.ToDouble(vals[0]), h = Convert.ToDouble(vals[2]), }); } } continue; } //箍筋 Φ12@100/200(4) kval = Regex.Match(text3[k].TextString, @"((%%130)|(%%131)|(%%132))(\d{1,3})@(\d{2,3})(/\d{2,3})?\(\d{1,2}\)").Value; if (kval != "") { beams.Stirrup_info.Add(new Stirrup_Dim { D = Convert.ToDouble(kval.Substring(5, kval.IndexOf('@') - 5)), Se = Convert.ToDouble(SplitStr(kval, kval.IndexOf('@'), "/(")), Sa = Convert.ToDouble(SplitStr(kval, kval.IndexOf('/'), "((")), n = Convert.ToInt32(SplitStr(kval, kval.IndexOf('('), "))")) }); continue; } //通长钢筋 4Φ20;7Φ20 3/4 kval = Regex.Match(text3[k].TextString, @"^[A-Z]{0}(\(?\d{1,3}%%132\d{1,3}\)?)(\+\(?\d{1,3}%%132\d{1,3}\))?;?(\(?\d{1,3}%%132\d{1,3}\)?)?\s?(/?(\d{1,3})?)*").Value; if (kval != "") { string[] sp1 = kval.Split(';'); for (int v = 0; v < sp1.Count(); v++) { string[] sp2 = sp1[v].Split('+'); for (int f = 0; f < sp2.Count(); f++) { sp2[f] = sp2[f].Replace("(", ""); sp2[f] = sp2[f].Replace(")", ""); sp2[f] = sp2[f].Replace("%%132", "|"); string[] sp3 = sp2[f].Split('|'); List <Rebar_Dim> Bdim = new List <Rebar_Dim>(); if (sp2[f].IndexOf('/') == -1) { int c = 0; if (sp2.Count() > 1) { c = f + 1; } if (v == 1) { Bdim.Add(new Rebar_Dim { C = c, n = Convert.ToInt32(sp3[0]), D = Convert.ToInt32(sp3[1]) }); } else { beams.Public_Bar.Add(new Rebar_Dim { C = c, n = Convert.ToInt32(sp3[0]), D = Convert.ToInt32(sp3[1]) }); } } else { sp3[1] = sp3[1].Split(' ')[0]; string xi = sp2[f].Substring(sp2[f].IndexOf(' ')); string[] sp4 = xi.Trim().Split('/'); for (int s = 0; s < sp4.Count(); s++) { if (v == 1) { Bdim.Add(new Rebar_Dim { n = Convert.ToInt32(sp4[s]), D = Convert.ToInt32(sp3[1]) }); } else { beams.Public_Bar.Add(new Rebar_Dim { n = Convert.ToInt32(sp4[s]), D = Convert.ToInt32(sp3[1]) }); } } } beams.Mid_Beam_Rebars.Add(Bdim); } } continue; } //腰筋 G4Φ12+N4Φ12 kval = Regex.Match(text3[k].TextString, @"(\+?(G|N)\d{1,3}%%132\d{1,3})*").Value; if (kval != null) { string[] sp1 = kval.Split('+'); for (int c = 0; c < sp1.Length; c++) { sp1[c] = sp1[c].Replace("%%132", "|"); string[] sp2 = sp1[c].Split('|'); if (sp2.Length == 2) { char G = sp2[0][0]; int N = Convert.ToInt32(sp2[0].Substring(1)); int C = 0; if (sp1.Length == 2) { C = c + 1; } if (G == 'G') { beams.Waist_Bar.Add(new Rebar_Dim { n = N, C = C, D = Convert.ToDouble(sp2[1]) }); } if (G == 'N') { beams.Twist_Bar.Add(new Rebar_Dim { n = N, C = C, D = Convert.ToDouble(sp2[1]) }); } } } continue; } //标高 (-0.150) kval = Regex.Match(text3[k].TextString, @"(\(?-?\d{1,3}.\d{3}\)?)").Value; if (kval != null) { kval = kval.Replace("(", ""); kval = kval.Replace(")", ""); beams.Sections = beams.Sections.Select(x => { x.H = Convert.ToDouble(kval); return(x); }).ToList(); } } beam.beams.Add(beams); beams.side_lines = new List <string>(); //识别梁 //1.集中标注指示线两个端点分别找到垂直距离最近的梁线,两者最近的就是第一根梁线L1 MxDrawLine LT1; MxDrawLine L1 = GetLineForRange(drawEntity); beams.side_lines.Add(L1.handle); //L1 = Program.MainForm.axMxDrawX1.HandleToObject("61FBA") as MxDrawLine; LT1 = L1; for (int c1 = 0; c1 < 2; c1++) { //2.L1有两个点P1,P2,先从P1开始如下步骤,完了之后再P2 //3.找距离P1点2000内的支座线,并且L1与支座线交点距离P1小于300,若有结果则按3.2若无结果按3.1 L1 = LT1; Program.MainForm.axMxDrawX1.TwinkeEnt(L1.ObjectID); int cs = 0; do { if (c1 == 1) { MxDrawPoint temp = L1.StartPoint; L1.StartPoint = L1.EndPoint; L1.EndPoint = temp; } MxDrawPolyline seat = GetSeatForRange(L1.EndPoint, L1.StartPoint); MxDrawLine L2 = new MxDrawLine(); MxDrawLine L2s = new MxDrawLine(); MxDrawLine Rline = new MxDrawLine(); if (seat.handle != "0") { //有结果3.2 L2 = GetparallelLine(L1); Rline = GetXpoint(L1.EndPoint, L1.StartPoint, seat); L1 = Rline; beams.side_lines.Add(L2.handle); beams.side_lines.Add(Rline.handle); } else { //无结果3.1 L2s = GetMoreLine(L1); L2 = GetparallelLine(L1); L1 = L2s; beams.side_lines.Add(L2s.handle); } //3.1 找到另一根梁线L2,L2的两个端点之一与P1最近且距离小于600且两线角度差别不超过2度,找到后凭L2另一个端点重复3 /*3.2 说明一段梁结束,去寻找这段梁已识别梁线的平行线,即水平距离小于梁宽的1.5倍且两线相关, * 再寻找与这些梁线共点且角度差别小于40度的梁线,找完写入beam; * 然后用3的支座线与L1求到最远相关交点P3,求与P3最近的梁线,且角度差别小于40度,用这根新梁线远端点作为P1重复3 */ cs++; //Program.MainForm.axMxDrawX1.StopAllTwinkeEnt(); Program.MainForm.axMxDrawX1.TwinkeEnt(L1.ObjectID); Program.MainForm.axMxDrawX1.TwinkeEnt(L2s.ObjectID); Program.MainForm.axMxDrawX1.TwinkeEnt(seat.ObjectID); Program.MainForm.axMxDrawX1.TwinkeEnt(L2.ObjectID); Program.MainForm.axMxDrawX1.TwinkeEnt(Rline.ObjectID); if (cs > 10) { break; } } while (L1.handle != "0"); } //break; } } } #endregion over }