ErrorAnalysis.git

			@@ -1,14 +1,20 @@
			using ErrorAnalysis.Repository;
			using ErrorAnalysis.Repository.Entity;
			using Microsoft.VisualBasic;
			using System;
			using System.Collections.Generic;
			using System.Linq;
			using System.Text;
			using System.Threading.Tasks;
			using static System.Runtime.InteropServices.JavaScript.JSType;

			namespace ErrorAnalysis.Service
			{
			public class COMergeCalcService
			{
			//Ncoef=1e82.542.5426112770.2/0.6*speed;
			//Fcoef=1e82.542.5446211770.2/0.6*speed;

			const double _gg = (9.0 - 0.0) / 255.0;//0.03529
			const double _offset = 0.0;

			@@ -18,67 +24,400 @@
			const int _oWinStartIndex = (int)(4.88 / _gg + _offset); // org
			const int _oWinEndIndex = (int)(6.36 / _gg + _offset); // width = 6.36-4.88=1.48

			public static double GetFarMergeCResult(string connectionString, string modelId, int porosity)
			{
			var repository = new COFarResultRepository(connectionString);
			var cResult = repository.GetCOFarResult(modelId, porosity, 0);
			if (cResult == null)
			throw new InvalidDataException("COFarResult not found");
			var cArr = cResult.InelasticSpec?.Split(',').Select(v => Convert.ToDouble(v)).ToArray();
			if (cArr == null)
			throw new InvalidDataException("COFarResult InelasticSpec is null");
			//const double _coef = 1e8 * 2.54 * 2.54 * 4 * 6 * 2 * 11 * 77 * 0.2 / 0.6;

			var length = _cWinEndIndex - _cWinStartIndex + 1;
			var result = cArr.Skip(_cWinStartIndex).Take(length).Sum();
			private static (double, double) GetFarInterplolateResult(string modelId, double porosity, double sw, double speed, double depth, double yieldCounting, int countStart, int countEnd)
			{
			var countLen = countEnd - countStart + 1;
			var cWinLength = _cWinEndIndex - _cWinStartIndex + 1;
			var oWinLength = _oWinEndIndex - _oWinStartIndex + 1;
			var oilLine = RepositoryInstance.Instance.COFarResultRepository?.GetCOFarResult(modelId, (int)porosity, 0);
			var waterLine = RepositoryInstance.Instance.COFarResultRepository?.GetCOFarResult(modelId, (int)porosity, 100);
			if (oilLine == null \|\| waterLine == null)
			throw new InvalidDataException("COFarResult Line is null");
			var oilLineValArr = oilLine.CInelasticSpec.Split(',').Select(v => Convert.ToDouble(v)).ToArray();
			var waterLineValArr = waterLine.CInelasticSpec.Split(',').Select(v => Convert.ToDouble(v)).ToArray();

			var oilLineCR = oilLineValArr.Skip(_cWinStartIndex - 1).Take(cWinLength).Sum() / oilLineValArr.Skip(countStart).Take(countLen).Sum();
			var oilLineOR = oilLineValArr.Skip(_oWinStartIndex - 1).Take(oWinLength).Sum() / oilLineValArr.Skip(countStart).Take(countLen).Sum();

			var oilLineC = 36d / 160d * oilLineCR * yieldCounting / speed * depth * 0.0762d;
			var oilLineO = 36d / 160d * oilLineOR * yieldCounting / speed * depth * 0.0762d;

			var waterLineCR = waterLineValArr.Skip(_cWinStartIndex - 1).Take(cWinLength).Sum() / waterLineValArr.Skip(countStart).Take(countLen).Sum();
			var waterLineOR = waterLineValArr.Skip(_oWinStartIndex - 1).Take(oWinLength).Sum() / waterLineValArr.Skip(countStart).Take(countLen).Sum();
			var waterLineC = 36d / 160d * waterLineCR * yieldCounting / speed * depth * 0.0762d;
			var waterLineO = 36d / 160d * waterLineOR * yieldCounting / speed * depth * 0.0762d;

			double cRes = 0, oRes = 0;
			if (sw == 0)
			{
			cRes = oilLineC;
			oRes = oilLineO;
			}
			else if (sw == 100)
			{
			cRes = waterLineC;
			oRes = waterLineO;
			}
			else if (sw > 0 && sw < 100)
			{
			cRes = Utility.Interpolate(sw, 100, waterLineC, 0, oilLineC);
			oRes = Utility.Interpolate(sw, 0, oilLineO, 100, waterLineO);
			}
			return (cRes, oRes);
			}

			private static (double, double) GetNearInterplolateResult(string modelId, double porosity, double sw, double speed, double depth, double yieldCounting, int countStart, int countEnd)
			{
			var countLen = countEnd - countStart + 1;
			var cWinLength = _cWinEndIndex - _cWinStartIndex + 1;
			var oWinLength = _oWinEndIndex - _oWinStartIndex + 1;
			var oilLine = RepositoryInstance.Instance.CONearResultRepository?.GetCONearResult(modelId, (int)porosity, 0);
			var waterLine = RepositoryInstance.Instance.CONearResultRepository?.GetCONearResult(modelId, (int)porosity, 100);
			if (oilLine == null \|\| waterLine == null)
			throw new InvalidDataException("COFarResult Line is null");
			var oilLineValArr = oilLine.CInelasticSpec.Split(',').Select(v => Convert.ToDouble(v)).ToArray();
			var waterLineValArr = waterLine.CInelasticSpec.Split(',').Select(v => Convert.ToDouble(v)).ToArray();

			var oilLineCR = oilLineValArr.Skip(_cWinStartIndex - 1).Take(cWinLength).Sum() / oilLineValArr.Skip(countStart).Take(countLen).Sum();
			var oilLineOR = oilLineValArr.Skip(_oWinStartIndex - 1).Take(oWinLength).Sum() / oilLineValArr.Skip(countStart).Take(countLen).Sum();
			var oilLineC = (36d / 160d) * oilLineCR * yieldCounting / speed * depth * 0.0762d;
			var oilLineO = (36d / 160d) * oilLineOR * yieldCounting / speed * depth * 0.0762d;

			var waterLineCR = waterLineValArr.Skip(_cWinStartIndex - 1).Take(cWinLength).Sum() / waterLineValArr.Skip(countStart).Take(countLen).Sum();
			var waterLineOR = waterLineValArr.Skip(_oWinStartIndex - 1).Take(oWinLength).Sum() / waterLineValArr.Skip(countStart).Take(countLen).Sum();
			var waterLineC = (36d / 160d) * waterLineCR * yieldCounting / speed * depth * 0.0762d;
			var waterLineO = (36d / 160d) * waterLineOR * yieldCounting / speed * depth * 0.0762d;

			double cRes = 0, oRes = 0;
			if (sw == 0)
			{
			cRes = waterLineC;
			oRes = waterLineO;
			}
			else if (sw == 100)
			{
			cRes = waterLineC;
			oRes = waterLineO;
			}
			else if (sw > 0 && sw < 100)
			{
			cRes = Utility.Interpolate(sw, 100, waterLineC, 0, oilLineC);
			oRes = Utility.Interpolate(sw, 0, oilLineO, 100, waterLineO);
			}
			return (cRes, oRes);
			}

			/// <summary>
			/// 获取远探头C或O值（废弃）
			/// </summary>
			/// <param name="connectionString">数据库连接字符串</param>
			/// <param name="modelId">管柱ID</param>
			/// <param name="porosity">孔隙度</param>
			/// <param name="sw">含水饱和度</param>
			/// <param name="readSw">读取含水饱和度（0为碳，100为氧）</param>
			/// <param name="speed">测速</param>
			/// <param name="depth">深度</param>
			/// <returns>碳和氧值</returns>
			/// <exception cref="InvalidDataException">孔隙度超过范围</exception>
			public static (double, double) GetFarMergeCOResult(string modelId, double porosity, double sw, double speed, double depth, double yieldCounting, int countStart, int countEnd)
			{
			if (porosity > 40)
			throw new InvalidDataException("Porosity value out of range!");

			(double, double) result = (0, 0);
			if (porosity % 5 == 0)
			{
			result = GetFarInterplolateResult(modelId, porosity, sw, speed, depth, yieldCounting, countStart, countEnd);
			}
			else
			{
			var ceilingPorosity = Math.Ceiling(porosity / 5) * 5;
			var ceilingResult = GetFarInterplolateResult(modelId, ceilingPorosity, sw, speed, depth, yieldCounting, countStart, countEnd);

			var floorPorosity = Math.Floor(porosity / 5) * 5;
			var floorResult = GetFarInterplolateResult(modelId, floorPorosity, sw, speed, depth, yieldCounting, countStart, countEnd);

			result.Item1 = Utility.Interpolate(porosity, floorPorosity, floorResult.Item1, ceilingPorosity, ceilingResult.Item1);
			result.Item2 = Utility.Interpolate(porosity, floorPorosity, floorResult.Item2, ceilingPorosity, ceilingResult.Item2);
			}
			return result;
			}

			/// <summary>
			/// 获取近探头C或O值（废弃）
			/// </summary>
			/// <param name="connectionString">数据库连接字符串</param>
			/// <param name="modelId">管柱ID</param>
			/// <param name="porosity">孔隙度</param>
			/// <param name="sw">含水饱和度</param>
			/// <param name="readSw">读取含水饱和度（0为碳，100为氧）</param>
			/// <param name="speed">测速</param>
			/// <param name="depth">深度</param>
			/// <returns>碳或氧值</returns>
			/// <exception cref="InvalidDataException">孔隙度超过范围</exception>
			public static (double, double) GetNearMergeCOResult(string modelId, double porosity, double sw, double speed, double depth, double yieldCounting, int countStart, int countEnd)
			{
			if (porosity > 40)
			throw new InvalidDataException("Porosity value out of range!");

			(double, double) result = (0, 0);
			if (porosity % 5 == 0)
			{
			result = GetNearInterplolateResult(modelId, porosity, sw, speed, depth, yieldCounting, countStart, countEnd);
			}
			else
			{
			var ceilingPorosity = Math.Ceiling(porosity / 5) * 5;
			var ceilingResult = GetNearInterplolateResult(modelId, ceilingPorosity, sw, speed, depth, yieldCounting, countStart, countEnd);

			var floorPorosity = Math.Floor(porosity / 5) * 5;
			var floorResult = GetNearInterplolateResult(modelId, floorPorosity, sw, speed, depth, yieldCounting, countStart, countEnd);

			result.Item1 = Utility.Interpolate(porosity, floorPorosity, floorResult.Item1, ceilingPorosity, ceilingResult.Item1);
			result.Item2 = Utility.Interpolate(porosity, floorPorosity, floorResult.Item2, ceilingPorosity, ceilingResult.Item2);
			}
			return result;
			}

			public static List<double[]> GetFarSpectrum(string modelId, double porosity, double sw)
			{
			var result = new List<double[]>();
			if (porosity > 40)
			throw new InvalidDataException("Porosity value out of range!");

			double[] oilLineSpec;
			double[] waterLineSpec;

			if (porosity % 5 == 0)
			{
			oilLineSpec = RepositoryInstance.Instance.COFarResultRepository.GetCOFarResult(modelId, (int)porosity, 0).CInelasticSpec.Split(',').Select(v => Convert.ToDouble(v)).ToArray();
			waterLineSpec = RepositoryInstance.Instance.COFarResultRepository.GetCOFarResult(modelId, (int)porosity, 100).CInelasticSpec.Split(',').Select(v => Convert.ToDouble(v)).ToArray();
			}
			else
			{
			var ceilingPorosity = Math.Ceiling(porosity / 5) * 5;
			double[] ceilingOilLineSpec = RepositoryInstance.Instance.COFarResultRepository.GetCOFarResult(modelId, (int)ceilingPorosity, 0).CInelasticSpec.Split(',').Select(v => Convert.ToDouble(v)).ToArray();
			double[] ceilingWaterLineSpec = RepositoryInstance.Instance.COFarResultRepository.GetCOFarResult(modelId, (int)ceilingPorosity, 100).CInelasticSpec.Split(',').Select(v => Convert.ToDouble(v)).ToArray();

			var floorPorosity = Math.Floor(porosity / 5) * 5;
			double[] floorOilLineSpec = RepositoryInstance.Instance.COFarResultRepository.GetCOFarResult(modelId, (int)floorPorosity, 0).CInelasticSpec.Split(',').Select(v => Convert.ToDouble(v)).ToArray();
			double[] floorWaterLineSpec = RepositoryInstance.Instance.COFarResultRepository.GetCOFarResult(modelId, (int)floorPorosity, 100).CInelasticSpec.Split(',').Select(v => Convert.ToDouble(v)).ToArray();

			oilLineSpec = ceilingOilLineSpec;
			waterLineSpec = ceilingWaterLineSpec;

			for (int i = 0; i < ceilingOilLineSpec.Length; i++)
			{
			oilLineSpec[i] = Utility.Interpolate(porosity, floorPorosity, floorOilLineSpec[i], ceilingPorosity, ceilingOilLineSpec[i]);
			waterLineSpec[i] = Utility.Interpolate(porosity, floorPorosity, floorWaterLineSpec[i], ceilingPorosity, ceilingWaterLineSpec[i]);
			}
			}
			if (sw == 0)
			{
			for (int i = 0; i < oilLineSpec.Length; i++)
			{
			result.Add([i, oilLineSpec[i]]);
			}
			}
			else if (sw == 100)
			{
			for (int i = 0; i < waterLineSpec.Length; i++)
			{
			result.Add([i, waterLineSpec[i]]);
			}
			}
			else if (sw > 0 && sw < 100)
			{
			for (int i = 0; i < waterLineSpec.Length; i++)
			{
			var val = Utility.Interpolate(sw, 0, oilLineSpec[i], 100, waterLineSpec[i]);
			result.Add([i, val]);
			}
			}

			return result;
			}

			public static double GetFarMergeOResult(string connectionString, string modelId, int porosity)
			public static List<double[]> GetNearSpectrum(string modelId, double porosity, double sw)
			{
			var repository = new COFarResultRepository(connectionString);
			var cResult = repository.GetCOFarResult(modelId, porosity, 100);
			if (cResult == null)
			throw new InvalidDataException("COFarResult not found");
			var cArr = cResult.InelasticSpec?.Split(',').Select(v => Convert.ToDouble(v)).ToArray();
			if (cArr == null)
			throw new InvalidDataException("COFarResult InelasticSpec is null");
			var result = new List<double[]>();
			if (porosity > 40)
			throw new InvalidDataException("Porosity value out of range!");

			var length = _oWinEndIndex - _oWinStartIndex + 1;
			var result = cArr.Skip(_oWinStartIndex).Take(length).Sum();
			double[] oilLineSpec;
			double[] waterLineSpec;

			if (porosity % 5 == 0)
			{
			oilLineSpec = RepositoryInstance.Instance.CONearResultRepository.GetCONearResult(modelId, (int)porosity, 0).CInelasticSpec.Split(',').Select(v => Convert.ToDouble(v)).ToArray();
			waterLineSpec = RepositoryInstance.Instance.CONearResultRepository.GetCONearResult(modelId, (int)porosity, 100).CInelasticSpec.Split(',').Select(v => Convert.ToDouble(v)).ToArray();
			}
			else
			{
			var ceilingPorosity = Math.Ceiling(porosity / 5) * 5;
			double[] ceilingOilLineSpec = RepositoryInstance.Instance.CONearResultRepository.GetCONearResult(modelId, (int)ceilingPorosity, 0).CInelasticSpec.Split(',').Select(v => Convert.ToDouble(v)).ToArray();
			double[] ceilingWaterLineSpec = RepositoryInstance.Instance.CONearResultRepository.GetCONearResult(modelId, (int)ceilingPorosity, 100).CInelasticSpec.Split(',').Select(v => Convert.ToDouble(v)).ToArray();

			var floorPorosity = Math.Floor(porosity / 5) * 5;
			double[] floorOilLineSpec = RepositoryInstance.Instance.CONearResultRepository.GetCONearResult(modelId, (int)floorPorosity, 0).CInelasticSpec.Split(',').Select(v => Convert.ToDouble(v)).ToArray();
			double[] floorWaterLineSpec = RepositoryInstance.Instance.CONearResultRepository.GetCONearResult(modelId, (int)floorPorosity, 100).CInelasticSpec.Split(',').Select(v => Convert.ToDouble(v)).ToArray();

			oilLineSpec = ceilingOilLineSpec;
			waterLineSpec = ceilingWaterLineSpec;

			for (int i = 0; i < ceilingOilLineSpec.Length; i++)
			{
			oilLineSpec[i] = Utility.Interpolate(porosity, floorPorosity, floorOilLineSpec[i], ceilingPorosity, ceilingOilLineSpec[i]);
			waterLineSpec[i] = Utility.Interpolate(porosity, floorPorosity, floorWaterLineSpec[i], ceilingPorosity, ceilingWaterLineSpec[i]);
			}
			}
			if (sw == 0)
			{
			for (int i = 0; i < oilLineSpec.Length; i++)
			{
			result.Add([i, oilLineSpec[i]]);
			}
			}
			else if (sw == 100)
			{
			for (int i = 0; i < waterLineSpec.Length; i++)
			{
			result.Add([i, waterLineSpec[i]]);
			}
			}
			else if (sw > 0 && sw < 100)
			{
			for (int i = 0; i < waterLineSpec.Length; i++)
			{
			var val = Utility.Interpolate(sw, 0, oilLineSpec[i], 100, waterLineSpec[i]);
			result.Add([i, val]);
			}
			}

			return result;
			}

			public static double GetNearMergeCResult(string connectionString, string modelId, int porosity)
			public static (double, double) GetFarCROR(string modelId, double porosity, double sw, int countStart, int countEnd)
			{
			var repository = new CONearResultRepository(connectionString);
			var cResult = repository.GetCONearResult(modelId, porosity, 0);
			if (cResult == null)
			throw new InvalidDataException("CONearResult not found");
			var cArr = cResult.InelasticSpec?.Split(',').Select(v => Convert.ToDouble(v)).ToArray();
			if (cArr == null)
			throw new InvalidDataException("CONearResult InelasticSpec is null");
			int countLen = countEnd - countStart + 1;
			var cWinLength = _cWinEndIndex - _cWinStartIndex + 1;
			var oWinLength = _oWinEndIndex - _oWinStartIndex + 1;
			var oilLine = RepositoryInstance.Instance.COFarResultRepository?.GetCOFarResult(modelId, (int)porosity, 0);
			var waterLine = RepositoryInstance.Instance.COFarResultRepository?.GetCOFarResult(modelId, (int)porosity, 100);
			if (oilLine == null \|\| waterLine == null)
			throw new InvalidDataException("COFarResult Line is null");
			var oilLineValArr = oilLine.CInelasticSpec.Split(',').Select(v => Convert.ToDouble(v)).ToArray();
			var waterLineValArr = waterLine.CInelasticSpec.Split(',').Select(v => Convert.ToDouble(v)).ToArray();

			var length = _cWinEndIndex - _cWinStartIndex + 1;
			var result = cArr.Skip(_cWinStartIndex).Take(length).Sum();
			var oilLineCR = oilLineValArr.Skip(_cWinStartIndex - 1).Take(cWinLength).Sum() / oilLineValArr.Skip(countStart).Take(countLen).Sum();
			var oilLineOR = oilLineValArr.Skip(_oWinStartIndex - 1).Take(oWinLength).Sum() / oilLineValArr.Skip(countStart).Take(countLen).Sum();

			var waterLineCR = waterLineValArr.Skip(_cWinStartIndex - 1).Take(cWinLength).Sum() / waterLineValArr.Skip(countStart).Take(countLen).Sum();
			var waterLineOR = waterLineValArr.Skip(_oWinStartIndex - 1).Take(oWinLength).Sum() / waterLineValArr.Skip(countStart).Take(countLen).Sum();

			double cRes = 0, oRes = 0;
			if (sw == 0)
			{
			cRes = oilLineCR;
			oRes = oilLineOR;
			}
			else if (sw == 100)
			{
			cRes = waterLineCR;
			oRes = waterLineOR;
			}
			else if (sw > 0 && sw < 100)
			{
			cRes = Utility.Interpolate(sw, 100, waterLineCR, 0, oilLineCR);
			oRes = Utility.Interpolate(sw, 0, oilLineOR, 100, waterLineOR);
			}
			return (cRes, oRes);
			}

			public static (double, double) GetNearCROR(string modelId, double porosity, double sw, int countStart, int countEnd)
			{
			int countLen = countEnd - countStart + 1;
			var cWinLength = _cWinEndIndex - _cWinStartIndex + 1;
			var oWinLength = _oWinEndIndex - _oWinStartIndex + 1;
			var oilLine = RepositoryInstance.Instance.CONearResultRepository?.GetCONearResult(modelId, (int)porosity, 0);
			var waterLine = RepositoryInstance.Instance.CONearResultRepository?.GetCONearResult(modelId, (int)porosity, 100);
			if (oilLine == null \|\| waterLine == null)
			throw new InvalidDataException("COFarResult Line is null");
			var oilLineValArr = oilLine.CInelasticSpec.Split(',').Select(v => Convert.ToDouble(v)).ToArray();
			var waterLineValArr = waterLine.CInelasticSpec.Split(',').Select(v => Convert.ToDouble(v)).ToArray();

			var oilLineCR = oilLineValArr.Skip(_cWinStartIndex - 1).Take(cWinLength).Sum() / oilLineValArr.Skip(countStart).Take(countLen).Sum();
			var oilLineOR = oilLineValArr.Skip(_oWinStartIndex - 1).Take(oWinLength).Sum() / oilLineValArr.Skip(countStart).Take(countLen).Sum();

			var waterLineCR = waterLineValArr.Skip(_cWinStartIndex - 1).Take(cWinLength).Sum() / waterLineValArr.Skip(countStart).Take(countLen).Sum();
			var waterLineOR = waterLineValArr.Skip(_oWinStartIndex - 1).Take(oWinLength).Sum() / waterLineValArr.Skip(countStart).Take(countLen).Sum();

			double crRes = 0, orRes = 0;
			if (sw == 0)
			{
			crRes = oilLineCR;
			orRes = oilLineOR;
			}
			else if (sw == 100)
			{
			crRes = waterLineCR;
			orRes = waterLineOR;
			}
			else if (sw > 0 && sw < 100)
			{
			crRes = Utility.Interpolate(sw, 100, waterLineCR, 0, oilLineCR);
			orRes = Utility.Interpolate(sw, 0, oilLineOR, 100, waterLineOR);
			}
			return (crRes, orRes);
			}

			public static (double, double) GetFarCOORResult(string modelId, double porosity, double sw, int countStart, int countEnd)
			{
			if (porosity > 40)
			throw new InvalidDataException("Porosity value out of range!");

			(double, double) result = (0, 0);
			if (porosity % 5 == 0)
			{
			result = GetFarCROR(modelId, porosity, sw, countStart, countEnd);
			}
			else
			{
			var ceilingPorosity = Math.Ceiling(porosity / 5) * 5;
			var ceilingResult = GetFarCROR(modelId, ceilingPorosity, sw, countStart, countEnd);

			var floorPorosity = Math.Floor(porosity / 5) * 5;
			var floorResult = GetFarCROR(modelId, floorPorosity, sw, countStart, countEnd);

			result.Item1 = Utility.Interpolate(porosity, floorPorosity, floorResult.Item1, ceilingPorosity, ceilingResult.Item1);
			result.Item2 = Utility.Interpolate(porosity, floorPorosity, floorResult.Item2, ceilingPorosity, ceilingResult.Item2);
			}
			return result;
			}

			public static double GetNearMergeOResult(string connectionString, string modelId, int porosity)
			public static (double, double) GetNearCOORResult(string modelId, double porosity, double sw, int countStart, int countEnd)
			{
			var repository = new CONearResultRepository(connectionString);
			var cResult = repository.GetCONearResult(modelId, porosity, 100);
			if (cResult == null)
			throw new InvalidDataException("CONearResult not found");
			var cArr = cResult.InelasticSpec?.Split(',').Select(v => Convert.ToDouble(v)).ToArray();
			if (cArr == null)
			throw new InvalidDataException("CONearResult InelasticSpec is null");
			if (porosity > 40)
			throw new InvalidDataException("Porosity value out of range!");

			var length = _oWinEndIndex - _oWinStartIndex + 1;
			var result = cArr.Skip(_oWinStartIndex).Take(length).Sum();
			(double, double) result = (0, 0);
			if (porosity % 5 == 0)
			{
			result = GetNearCROR(modelId, porosity, sw, countStart, countEnd);
			}
			else
			{
			var ceilingPorosity = Math.Ceiling(porosity / 5) * 5;
			var ceilingResult = GetNearCROR(modelId, ceilingPorosity, sw, countStart, countEnd);

			var floorPorosity = Math.Floor(porosity / 5) * 5;
			var floorResult = GetNearCROR(modelId, floorPorosity, sw, countStart, countEnd);

			result.Item1 = Utility.Interpolate(porosity, floorPorosity, floorResult.Item1, ceilingPorosity, ceilingResult.Item1);
			result.Item2 = Utility.Interpolate(porosity, floorPorosity, floorResult.Item2, ceilingPorosity, ceilingResult.Item2);
			}
			return result;
			}