hytos / DTI_PID / SPPIDConverter_AutoModeling / Utill / SPPIDUtill.cs @ b8ff72eb
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using System; |
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using System.Collections.Generic; |
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using System.Linq; |
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using System.Text; |
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using System.Threading.Tasks; |
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using SPPID.Model; |
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using SPPID.Modeling; |
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using System.Xml.Linq; |
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|
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namespace SPPID.Utill |
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{
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public static class SPPIDUtill |
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{
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private static readonly double _DWG_X = 0.875; |
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private static readonly double _DWG_Y = 0.617; |
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public static string defaultPath = ""; |
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public static string mappingFilePath = ""; |
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public static void ConvertSPPIDPoint(ref double dX, ref double dY, double dDwgX, double dDwgY) |
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{
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double calcX = 0; |
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double calcY = 0; |
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calcX = (dX * _DWG_X) / dDwgX; |
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calcX = Math.Truncate(calcX * 1000) / 1000; |
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calcY = _DWG_Y - ((dY * _DWG_Y) / dDwgY); |
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calcY = Math.Truncate(calcY * 1000) / 1000; |
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dX = calcX; |
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dY = calcY; |
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} |
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public static bool ConvertPointBystring(string sPoint, ref double dX, ref double dY) |
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{
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try |
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{
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string[] pointArr = sPoint.Split(new char[] { ',' });
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if (pointArr.Length == 2) |
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{
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dX = Convert.ToDouble(pointArr[0]); |
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dY = Convert.ToDouble(pointArr[1]); |
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} |
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} |
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catch (Exception) |
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{
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dX = 0; |
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dY = 0; |
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return false; |
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} |
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return true; |
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} |
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|
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public static Line.SlopeType CalcSlop(PointInfo point1, PointInfo point2) |
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{
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Line.SlopeType _type = Line.SlopeType.NONE; |
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if (point1.X - point2.X == 0) |
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_type = Line.SlopeType.VERTICAL; |
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else |
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{
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double angle = Math.Atan(Math.Abs(point2.Y - point1.Y) / Math.Abs(point2.X - point1.X)) * 180 / Math.PI; |
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if (angle < 20) |
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_type = Line.SlopeType.HORIZONTAL; |
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else if (angle > 70) |
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_type = Line.SlopeType.VERTICAL; |
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else |
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_type = Line.SlopeType.SLOPE; |
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} |
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return _type; |
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} |
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public static object FindObjectByUID(Document document, string UID) |
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{
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foreach (Symbol item in document.SYMBOLS) |
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{
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if (item.UID == UID) |
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return item; |
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} |
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foreach (Line item in document.LINES) |
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{
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if (item.UID == UID) |
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return item; |
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} |
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foreach (Text item in document.TEXTS) |
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{
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if (item.UID == UID) |
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return item; |
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} |
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foreach (LineNumber item in document.LINENUMBERS) |
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{
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if (item.UID == UID) |
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return item; |
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} |
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return null; |
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} |
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public static string GetSPPIDSymbolMappingName(string name, Dictionary<string, string> symbolMapping) |
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{
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if (name == "SIZE") |
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{
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if (symbolMapping.ContainsKey(Text.pipingCompSize) && symbolMapping.ContainsKey(Text.instrumentSize)) |
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{
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return "true"; |
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} |
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else |
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{
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return ""; |
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} |
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} |
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if (symbolMapping.ContainsKey(name)) |
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return symbolMapping[name]; |
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else |
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return ""; |
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} |
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public static string GetSPPIDAttributeMappingName(string name, Dictionary<string, string> attributeMapping) |
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{
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if (attributeMapping.ContainsKey(name)) |
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return attributeMapping[name]; |
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else |
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return ""; |
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} |
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public static bool IsBranchLine(string UID, Line connectedLine) |
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{
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try |
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{
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if (connectedLine.CONNECTORS[0].CONNECTEDITEM != UID && connectedLine.CONNECTORS[1].CONNECTEDITEM != UID) |
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return true; |
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} |
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catch (Exception ex) |
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{
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Log.WriteLine(ex); |
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} |
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return false; |
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} |
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public static double CalcPointToPointdDistance(PointInfo point1, PointInfo point2) |
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{
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return Math.Pow(Math.Pow(point1.X - point2.X, 2) + Math.Pow(point1.Y - point2.Y, 2), 0.5); |
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} |
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public static double CalcLineToPointDistance(PointInfo linePoint1, PointInfo linePoint2, PointInfo point) |
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{
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double distance = 0; |
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if (linePoint1.X == linePoint2.X) |
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distance = Math.Abs(point.X - linePoint1.X); |
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else |
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{
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double a; |
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double b; |
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double c; |
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a = (linePoint2.Y - linePoint1.Y) / (linePoint2.X - linePoint1.X); |
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b = -1; |
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c = -a * linePoint1.X + linePoint1.Y; |
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distance = Math.Abs(a * point.X + b * point.Y + c) / Math.Pow(a * a + b * b, 0.5); |
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} |
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return distance; |
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} |
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public static bool GroupValidationCheck(Group group) |
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{
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bool result = true; |
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foreach (SPPID_ITEM item in group.Items) |
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{
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} |
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return result; |
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} |
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public static void SaveMapping(Dictionary<string, string> symbolMapping, Dictionary<string,string> attributeMapping) |
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{
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XElement mappingElement = new XElement("Mapping");
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XElement symbolElement = new XElement("Symbol");
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foreach (var item in symbolMapping) |
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{
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string name = item.Key; |
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string SPPID_Name = item.Value; |
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XElement element = new XElement("DATA");
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element.SetAttributeValue("SPPID", SPPID_Name);
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element.Value = name; |
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symbolElement.Add(element); |
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} |
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mappingElement.Add(symbolElement); |
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XElement attributeElement = new XElement("Attribute");
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foreach (var item in attributeMapping) |
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{
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string name = item.Key; |
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string SPPID_Name = item.Value; |
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XElement element = new XElement("DATA");
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element.SetAttributeValue("SPPID", SPPID_Name);
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element.Value = name; |
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attributeElement.Add(element); |
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} |
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mappingElement.Add(attributeElement); |
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mappingElement.Save(mappingFilePath); |
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} |
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public static void LoadMapping(Dictionary<string, string> symbolMapping, Dictionary<string, string> attributeMapping) |
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{
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try |
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{
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if (System.IO.File.Exists(mappingFilePath)) |
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{
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XElement xml = XElement.Load(mappingFilePath); |
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XElement symbolXml = xml.Element("Symbol");
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foreach (XElement mappingData in symbolXml.Elements("DATA"))
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{
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if (symbolMapping.ContainsKey(mappingData.Value)) |
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symbolMapping[mappingData.Value] = mappingData.Attribute("SPPID").Value;
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else |
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symbolMapping.Add(mappingData.Value, mappingData.Attribute("SPPID").Value);
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} |
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XElement attributeXml = xml.Element("Attribute");
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foreach (XElement mappingData in attributeXml.Elements("DATA"))
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{
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if (attributeMapping.ContainsKey(mappingData.Value)) |
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attributeMapping[mappingData.Value] = mappingData.Attribute("SPPID").Value;
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else |
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attributeMapping.Add(mappingData.Value, mappingData.Attribute("SPPID").Value);
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} |
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} |
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} |
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catch (Exception ex) |
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{
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Log.WriteLine(ex); |
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} |
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} |
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} |
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} |
