HStation/RevitTool.V1.0.git

			@@ -1,98 +1,130 @@
			using Autodesk.Revit.DB;
			using Autodesk.Revit.DB.Plumbing;
			using Glodon.Revit.Utility;
			using HStation.RevitDev.RevitDataExport.Common;
			using HStation.RevitDev.RevitDataExport.Utility;
			using HStation.RevitDev.RevitDataExport.Utils;
			using System;
			using System.Collections.Generic;

			namespace HStation.RevitDev.RevitDataExport.Parser
			{
			/// <summary>
			/// 管道
			/// </summary>
			public class PipeParser : BaseParser
			{
			public override List<BuiltInCategory> FilterCategories
			{
			get
			{
			return new List<BuiltInCategory>
			{
			BuiltInCategory.OST_PipeCurves
			};
			}
			}
			public override List<string> FilterRegexes
			{
			get
			{
			return new List<string>
			{
			""
			};
			}
			}

			public override string GetParserName()
			{
			return "管道";
			}

			public override List<Tuple<string, string>> PropertyParse(Element elem)
			{
			var result = new List<Tuple<string, string>>();
			var pipe = elem as Pipe;
			if (pipe == null) { return result; }
			var connectInfos = MEPHelper.GetConnecters(pipe);
			result.AddRange(CommonPropertyParse(elem));
			for (int i = 1; i <= 2; i++)
			{
			if (connectInfos.Count >= i)
			{
			result.Add(new Tuple<string, string>($"连接点{i}", connectInfos[i - 1]?.ElementId.ToString()));
			}
			else
			{
			result.Add(new Tuple<string, string>($"连接点{i}", string.Empty));
			}
			}

			//端点
			var location = pipe.Location as LocationCurve;
			if (location != null)
			{
			var start = location.Curve.GetEndPoint(0);
			var end = location.Curve.GetEndPoint(1);
			var standardStart = new XYZ(start.X * 304.8, start.Y * 304.8, start.Z * 304.8);
			var standardEnd = new XYZ(end.X * 304.8, end.Y * 304.8, end.Z * 304.8);
			result.Add(new Tuple<string, string>("端点", JsonHelper.ToJson(new { standardStart, standardEnd })));
			}

			// 直径
			result.Add(new Tuple<string, string>($"直径", pipe.Diameter.FeetToMM().ToString()));

			// 长度
			var length = ParameterOperator.GetParameterValueAsString(pipe, "长度"); //(pipe.Location as LocationCurve).Curve.Length.FeetToMM();
			result.Add(new Tuple<string, string>($"长度", (decimal.Parse(length.ToString()) / 1000).ToString()));

			// 流量
			var flow = ParameterOperator.GetParameterValueAsDouble(pipe, "流量");
			result.Add(new Tuple<string, string>($"流量", flow.ToString()));

			// 流速
			var flowSpeed = ParameterOperator.GetParameterValueAsDouble(pipe, "流速");
			result.Add(new Tuple<string, string>($"流速", flowSpeed.ToString()));

			// 压力损失
			var pressureLoss = ParameterOperator.GetParameterValueAsDouble(pipe, "压力损失");
			result.Add(new Tuple<string, string>($"压力损失", pressureLoss.ToString()));

			// 比摩阻
			var specificFriction = ParameterOperator.GetParameterValueAsDouble(pipe, "比摩阻");
			result.Add(new Tuple<string, string>($"比摩阻", specificFriction.ToString()));
			return result;
			}
			}
			}
			using Autodesk.Revit.DB;
			using Autodesk.Revit.DB.Plumbing;
			using Glodon.Revit.Utility;
			using HStation.RevitDev.RevitDataExport.Common;
			using System;
			using System.Collections.Generic;
			using HStation.RevitDev.Model.AttributeClass;
			using HStation.RevitDev.RevitDataExport.Entity;
			using HStation.RevitDev.RevitDataExport.Entity.ElementModels;
			using HStation.RevitDev.RevitDataExport.Utility;
			using System.Linq;

			namespace HStation.RevitDev.RevitDataExport.Parser
			{
			/// <summary>
			/// 管道
			/// </summary>
			///
			[RevitType(Model.ModelEnum.RevitType.RFT_Pipe)]
			public class PipeParser : BaseParser
			{
			public override List<BuiltInCategory> FilterCategories
			{
			get
			{
			return new List<BuiltInCategory>
			{
			BuiltInCategory.OST_PipeCurves
			};
			}
			}
			public override List<string> FilterRegexes
			{
			get
			{
			return new List<string>
			{
			""
			};
			}
			}

			public override string GetParserName()
			{
			return "管道";
			}

			public override ElementModel Parse(Element elem)
			{
			var elemModel = BaseParse(elem);
			var result = new PipeModel(elemModel);
			if (elem is Pipe pipe)
			{
			var diameter = pipe.Diameter.FeetToMM().ToString();
			var length = ParameterOperator.GetParameterValueAsString(pipe, "长度");
			var flow = ParameterOperator.GetParameterValueAsString(pipe, "流量");
			var flowSpeed = ParameterOperator.GetParameterValueAsString(pipe, "流速");
			var pressureLoss = ParameterOperator.GetParameterValueAsString(pipe, "压力损失");
			var specificFriction = ParameterOperator.GetParameterValueAsString(pipe, "比摩阻");
			result.编号 = elemModel.编号;
			result.连接构件 = ElementExtense2.GetLinkedElementIds(elemModel.编号);
			result.直径 = diameter;
			result.长度 = length;
			result.流量 = flow;
			result.流速 = flowSpeed;
			result.压力损失 = pressureLoss;
			result.比摩阻 = specificFriction;
			}

			return result;
			}



			public override List<Tuple<string, string>> PropertyParse(Element elem)
			{
			var result = new List<Tuple<string, string>>();
			var pipe = elem as Pipe;
			if (pipe == null) { return result; }
			var connectInfos = MEPHelper.GetConnecters(pipe);
			result.AddRange(CommonPropertyParse(elem));
			for (int i = 1; i <= 2; i++)
			{
			if (connectInfos.Count >= i)
			{
			result.Add(new Tuple<string, string>($"连接点{i}", connectInfos[i - 1]?.ElementId.ToString()));
			}
			else
			{
			result.Add(new Tuple<string, string>($"连接点{i}", string.Empty));
			}
			}

			//端点
			var location = pipe.Location as LocationCurve;
			if (location != null)
			{
			var start = location.Curve.GetEndPoint(0);
			var end = location.Curve.GetEndPoint(1);
			var standardStart = new XYZ(start.X * 304.8, start.Y * 304.8, start.Z * 304.8);
			var standardEnd = new XYZ(end.X * 304.8, end.Y * 304.8, end.Z * 304.8);
			result.Add(new Tuple<string, string>("端点", JsonHelper.ToJson(new { standardStart, standardEnd })));
			}

			// 直径
			result.Add(new Tuple<string, string>($"直径", pipe.Diameter.FeetToMM().ToString()));

			// 长度
			var length = ParameterOperator.GetParameterValueAsString(pipe, "长度"); //(pipe.Location as LocationCurve).Curve.Length.FeetToMM();
			result.Add(new Tuple<string, string>($"长度", (decimal.Parse(length.ToString()) / 1000).ToString()));

			// 流量
			var flow = ParameterOperator.GetParameterValueAsString(pipe, "流量");
			result.Add(new Tuple<string, string>($"流量", flow.ToString()));

			// 流速
			var flowSpeed = ParameterOperator.GetParameterValueAsString(pipe, "流速");
			result.Add(new Tuple<string, string>($"流速", flowSpeed.ToString()));

			// 压力损失
			var pressureLoss = ParameterOperator.GetParameterValueAsString(pipe, "压力损失");
			result.Add(new Tuple<string, string>($"压力损失", pressureLoss.ToString()));

			// 比摩阻
			var specificFriction = ParameterOperator.GetParameterValueAsString(pipe, "比摩阻");
			result.Add(new Tuple<string, string>($"比摩阻", specificFriction.ToString()));
			return result;
			}
			}
			}