public static void Run(string configurationFileName)
{
TextWriter gDisaggregatedCsvFile = null;
TextWriter lAggregateMarginalDamage = null;
TextWriter lGlobalInputCsv = null;
TextWriter lRegionInputCsv = null;
TextWriter lYearInputCsv = null;
TextWriter lRegionYearInputCsv = null;
SimulationManager lSimulationManager;
var lDefaultConfigurationFile = Path.Combine(Path.Combine(Path.GetDirectoryName(System.Reflection.Assembly.GetExecutingAssembly().Location), "Data"), "DefaultSimulation.xml");
lSimulationManager = new SimulationManager(configurationFileName == null ? lDefaultConfigurationFile : configurationFileName);
lSimulationManager.Load();
if (!Directory.Exists(ConsoleApp.OutputPath))
Directory.CreateDirectory(ConsoleApp.OutputPath);
var lRandom = GetNewRandom(lSimulationManager);
lAggregateMarginalDamage = TextWriter.Synchronized(new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Aggregate marginal damage.csv")));
var TempOutputFile = new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Temp.csv"));
if (lSimulationManager.OutputVerbal)
{
lAggregateMarginalDamage.Write("Scenario");
lAggregateMarginalDamage.Write(";");
lAggregateMarginalDamage.Write("Gas");
lAggregateMarginalDamage.Write(";");
lAggregateMarginalDamage.Write("Emissionyear");
lAggregateMarginalDamage.Write(";");
lAggregateMarginalDamage.Write("Run");
lAggregateMarginalDamage.Write(";");
lAggregateMarginalDamage.Write("Weightingscheme");
lAggregateMarginalDamage.Write(";");
lAggregateMarginalDamage.Write("Marginal damage");
lAggregateMarginalDamage.WriteLine();
}
TextWriter lSummaryDamage = TextWriter.Synchronized(new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Summary damage.csv")));
if (lSimulationManager.OutputVerbal)
{
lSummaryDamage.WriteLine("Scenario;Gas;Emissionyear;Weightingscheme;Bestguess;Mean;TrimMean0.1%;TrimMean1%;TrimMean5%;Median;Std;Var;Skew;Kurt;Min;Max;SE");
}
if (lSimulationManager.Runs.Exists((Run r) => r.OutputDisaggregatedData))
{
gDisaggregatedCsvFile = TextWriter.Synchronized(new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Fact YearRegionSectorWeightingscheme.csv")));
if (lSimulationManager.OutputVerbal)
{
gDisaggregatedCsvFile.Write("Scenario");
gDisaggregatedCsvFile.Write(";");
gDisaggregatedCsvFile.Write("Run");
gDisaggregatedCsvFile.Write(";");
gDisaggregatedCsvFile.Write("Marginal Gas");
gDisaggregatedCsvFile.Write(";");
gDisaggregatedCsvFile.Write("Marginal Emission Year");
gDisaggregatedCsvFile.Write(";");
gDisaggregatedCsvFile.Write("Year");
gDisaggregatedCsvFile.Write(";");
gDisaggregatedCsvFile.Write("Region");
gDisaggregatedCsvFile.Write(";");
gDisaggregatedCsvFile.Write("Sector");
gDisaggregatedCsvFile.Write(";");
gDisaggregatedCsvFile.Write("Weightingscheme");
gDisaggregatedCsvFile.Write(";");
gDisaggregatedCsvFile.Write("Damage");
gDisaggregatedCsvFile.WriteLine();
}
}
using (var lDimGasCsv = new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Dim Gas.csv")))
{
lDimGasCsv.WriteLine("0;C");
lDimGasCsv.WriteLine("1;CH4");
lDimGasCsv.WriteLine("2;N2O");
lDimGasCsv.WriteLine("3;SF6");
}
using (var lDimSectorCsv = new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Dim Sector.csv")))
{
lDimSectorCsv.WriteLine("0;eloss;Water");
lDimSectorCsv.WriteLine("1;eloss;Forests");
lDimSectorCsv.WriteLine("2;eloss;Heating");
lDimSectorCsv.WriteLine("3;eloss;Cooling");
lDimSectorCsv.WriteLine("4;eloss;Agriculture");
lDimSectorCsv.WriteLine("5;eloss;Dryland");
lDimSectorCsv.WriteLine("6;eloss;SeaProtection");
lDimSectorCsv.WriteLine("7;eloss;Imigration");
lDimSectorCsv.WriteLine("8;sloss;Species");
lDimSectorCsv.WriteLine("9;sloss;Death");
lDimSectorCsv.WriteLine("10;sloss;Morbidity");
lDimSectorCsv.WriteLine("11;sloss;Wetland");
lDimSectorCsv.WriteLine("12;sloss;Emigration");
lDimSectorCsv.WriteLine("13;eloss;Hurricane");
lDimSectorCsv.WriteLine("14;eloss;ExtratropicalStorms");
}
using (var lDimScenarioCsv = new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Dim Scenario.csv")))
{
foreach (Scenario lScenario in lSimulationManager.Scenarios)
{
// Write Scenario dimension file
lDimScenarioCsv.Write(lScenario.Id);
lDimScenarioCsv.Write(";");
lDimScenarioCsv.Write(lScenario.Name);
lDimScenarioCsv.WriteLine();
}
}
using (var lDimYearCsv = new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Dim Year.csv")))
{
for (int i = 1950; i <= 2300; i++)
{
string lYearStr = i.ToString();
lDimYearCsv.Write(lYearStr);
lDimYearCsv.Write(";");
lDimYearCsv.Write(lYearStr.Substring(0, 2));
lDimYearCsv.Write("xx;");
lDimYearCsv.Write(lYearStr.Substring(0, 3));
lDimYearCsv.Write("x;");
lDimYearCsv.Write(lYearStr.Substring(0, 4));
lDimYearCsv.WriteLine();
}
}
var lDimEmissionYear = new ConcurrentBag<Timestep>();
if (lSimulationManager.OutputInputParameters)
{
lGlobalInputCsv = TextWriter.Synchronized(new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Fact Parameter.csv")));
lRegionInputCsv = TextWriter.Synchronized(new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Fact ParameterRegion.csv")));
lYearInputCsv = TextWriter.Synchronized(new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Fact ParameterYear.csv")));
lRegionYearInputCsv = TextWriter.Synchronized(new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Fact ParameterYearRegion.csv")));
}
if (lSimulationManager.RunParallel && !lSimulationManager.SameRandomStreamPerRun)
{
throw new ArgumentException("Cannot run in parallel but without random stream per run");
}
var parallelOptions = new System.Threading.Tasks.ParallelOptions()
{
MaxDegreeOfParallelism = lSimulationManager.RunParallel ? -1 : 1
};
if (lSimulationManager.RunParallel)
{
var parameterDefinition = new Parameters();
parameterDefinition.ReadExcelFile(@"Data\Parameter - base.xlsm");
// Create a new model that inits itself from the parameters just loaded
var model = new Esmf.Model.ModelTyped<FundWorkflow>();
model.Run(parameterDefinition.GetBestGuess());
}
System.Threading.Tasks.Parallel.ForEach<Run, object>(
lSimulationManager.Runs,
parallelOptions,
() =>
{
Thread.CurrentThread.CurrentCulture = CultureInfo.InvariantCulture;
Thread.CurrentThread.Priority = ThreadPriority.BelowNormal;
return null;
},
(lRun, loopState, dummy) =>
{
var tlRandom = lSimulationManager.SameRandomStreamPerRun ? GetNewRandom(lSimulationManager) : lRandom;
var lParam = new Parameters();
foreach (string filename in lRun.Scenario.ExcelFiles)
lParam.ReadExcelFile(filename);
Console.WriteLine(lRun.Scenario.Name);
if (lRun.Mode == RunMode.MarginalRun)
{
var lMarginalRun = new TMarginalRun(lRun, lRun.MarginalGas, lRun.EmissionYear, ConsoleApp.OutputPath, lParam, lRandom);
lDimEmissionYear.Add(lRun.EmissionYear);
lMarginalRun.AggregateDamageCsv = lAggregateMarginalDamage;
lMarginalRun.SummaryCsv = lSummaryDamage;
if (lRun.OutputDisaggregatedData)
{
lMarginalRun.YearRegionSectorWeightingSchemeCsv = gDisaggregatedCsvFile;
}
if (lSimulationManager.OutputInputParameters)
{
lMarginalRun.GlobalInputCsv = lGlobalInputCsv;
lMarginalRun.RegionInputCsv = lRegionInputCsv;
lMarginalRun.YearInputCsv = lYearInputCsv;
lMarginalRun.RegionYearInputCsv = lRegionYearInputCsv;
}
var watch = new System.Diagnostics.Stopwatch();
watch.Start();
lMarginalRun.Run();
watch.Stop();
//Console.WriteLine("Elapsed time: {0}", watch.Elapsed);
}
else if (lRun.Mode == RunMode.FullMarginalRun)
{
MarginalGas[] gases = { MarginalGas.C };
foreach (MarginalGas gas in gases)
{
for (int emissionyear = 2010; emissionyear <= 2100; emissionyear += 5)
{
lDimEmissionYear.Add(Timestep.FromYear(emissionyear));
Console.WriteLine("Now doing year {0} and gas {1}", emissionyear, gas);
// DA: Use MargMain for marginal cost, use Main for total cost and optimisation
// modes
var lMarginalRun = new TMarginalRun(lRun, gas, Timestep.FromYear(emissionyear), ConsoleApp.OutputPath, lParam, lRandom);
lMarginalRun.AggregateDamageCsv = lAggregateMarginalDamage;
if (lRun.OutputDisaggregatedData)
{
lMarginalRun.YearRegionSectorWeightingSchemeCsv = gDisaggregatedCsvFile;
}
if (lSimulationManager.OutputInputParameters)
{
lMarginalRun.GlobalInputCsv = lGlobalInputCsv;
lMarginalRun.RegionInputCsv = lRegionInputCsv;
lMarginalRun.YearInputCsv = lYearInputCsv;
lMarginalRun.RegionYearInputCsv = lRegionYearInputCsv;
}
var watch = new System.Diagnostics.Stopwatch();
watch.Start();
lMarginalRun.Run();
watch.Stop();
//Console.WriteLine("Elapsed time: {0}", watch.Elapsed);
}
}
}
else if (lRun.Mode == RunMode.TotalRun)
{
// DA: Use MargMain for marginal cost, use Main for total cost and optimisation
// modes
var lTotalDamageRun = new TotalDamage(lRun, ConsoleApp.OutputPath, lParam, lRun.EmissionYear);
lTotalDamageRun.AggregateDamageCsv = lAggregateMarginalDamage;
if (lRun.OutputDisaggregatedData)
{
lTotalDamageRun.YearRegionSectorWeightingSchemeCsv = gDisaggregatedCsvFile;
}
if (lSimulationManager.OutputInputParameters)
{
lTotalDamageRun.GlobalInputCsv = lGlobalInputCsv;
lTotalDamageRun.RegionInputCsv = lRegionInputCsv;
lTotalDamageRun.YearInputCsv = lYearInputCsv;
lTotalDamageRun.RegionYearInputCsv = lRegionYearInputCsv;
}
lTotalDamageRun.Run();
}
return null;
},
(dummy) => { return; });
lSummaryDamage.Close();
lAggregateMarginalDamage.Close();
TempOutputFile.Close();
using (var lDimEmissionYearCsv = new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Dim Emissionyear.csv")))
{
foreach (Timestep emissionyear in lDimEmissionYear.Distinct().OrderBy(i => i.Value))
lDimEmissionYearCsv.WriteLine("{0};{1}", emissionyear, emissionyear);
}
if (lSimulationManager.Runs.Exists((Run run) => run.OutputDisaggregatedData))
{
gDisaggregatedCsvFile.Close();
}
if (lSimulationManager.OutputInputParameters)
{
lGlobalInputCsv.Close();
lRegionInputCsv.Close();
lYearInputCsv.Close();
lRegionYearInputCsv.Close();
}
}
public static void Run(string configurationFileName)
{
TextWriter gDisaggregatedCsvFile = null;
TextWriter lAggregateMarginalDamage = null;
TextWriter lGlobalInputCsv = null;
TextWriter lRegionInputCsv = null;
TextWriter lYearInputCsv = null;
TextWriter lRegionYearInputCsv = null;
SimulationManager lSimulationManager;
var lDefaultConfigurationFile = Path.Combine(Path.Combine(Path.GetDirectoryName(System.Reflection.Assembly.GetExecutingAssembly().Location), "Data"), "DefaultSimulation.xml");
lSimulationManager = new SimulationManager(configurationFileName == null ? lDefaultConfigurationFile : configurationFileName);
lSimulationManager.Load();
if (!Directory.Exists(ConsoleApp.OutputPath))
{
Directory.CreateDirectory(ConsoleApp.OutputPath);
}
var lRandom = GetNewRandom(lSimulationManager);
lAggregateMarginalDamage = TextWriter.Synchronized(new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Aggregate marginal damage.csv")));
var TempOutputFile = new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Temp.csv"));
if (lSimulationManager.OutputVerbal)
{
lAggregateMarginalDamage.Write("Scenario");
lAggregateMarginalDamage.Write(";");
lAggregateMarginalDamage.Write("Gas");
lAggregateMarginalDamage.Write(";");
lAggregateMarginalDamage.Write("Emissionyear");
lAggregateMarginalDamage.Write(";");
lAggregateMarginalDamage.Write("Run");
lAggregateMarginalDamage.Write(";");
lAggregateMarginalDamage.Write("Weightingscheme");
lAggregateMarginalDamage.Write(";");
lAggregateMarginalDamage.Write("Marginal damage");
lAggregateMarginalDamage.WriteLine();
}
TextWriter lSummaryDamage = TextWriter.Synchronized(new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Summary damage.csv")));
if (lSimulationManager.OutputVerbal)
{
lSummaryDamage.WriteLine("Scenario;Gas;Emissionyear;Weightingscheme;Bestguess;Mean;TrimMean0.1%;TrimMean1%;TrimMean5%;Median;Std;Var;Skew;Kurt;Min;Max;SE");
}
if (lSimulationManager.Runs.Exists((Run r) => r.OutputDisaggregatedData))
{
gDisaggregatedCsvFile = TextWriter.Synchronized(new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Fact YearRegionSectorWeightingscheme.csv")));
if (lSimulationManager.OutputVerbal)
{
gDisaggregatedCsvFile.Write("Scenario");
gDisaggregatedCsvFile.Write(";");
gDisaggregatedCsvFile.Write("Run");
gDisaggregatedCsvFile.Write(";");
gDisaggregatedCsvFile.Write("Marginal Gas");
gDisaggregatedCsvFile.Write(";");
gDisaggregatedCsvFile.Write("Marginal Emission Year");
gDisaggregatedCsvFile.Write(";");
gDisaggregatedCsvFile.Write("Year");
gDisaggregatedCsvFile.Write(";");
gDisaggregatedCsvFile.Write("Region");
gDisaggregatedCsvFile.Write(";");
gDisaggregatedCsvFile.Write("Sector");
gDisaggregatedCsvFile.Write(";");
gDisaggregatedCsvFile.Write("Weightingscheme");
gDisaggregatedCsvFile.Write(";");
gDisaggregatedCsvFile.Write("Damage");
gDisaggregatedCsvFile.WriteLine();
}
}
using (var lDimGasCsv = new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Dim Gas.csv")))
{
lDimGasCsv.WriteLine("0;C");
lDimGasCsv.WriteLine("1;CH4");
lDimGasCsv.WriteLine("2;N2O");
lDimGasCsv.WriteLine("3;SF6");
}
using (var lDimSectorCsv = new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Dim Sector.csv")))
{
lDimSectorCsv.WriteLine("0;eloss;Water");
lDimSectorCsv.WriteLine("1;eloss;Forests");
lDimSectorCsv.WriteLine("2;eloss;Heating");
lDimSectorCsv.WriteLine("3;eloss;Cooling");
lDimSectorCsv.WriteLine("4;eloss;Agriculture");
lDimSectorCsv.WriteLine("5;eloss;Dryland");
lDimSectorCsv.WriteLine("6;eloss;SeaProtection");
lDimSectorCsv.WriteLine("7;eloss;Imigration");
lDimSectorCsv.WriteLine("8;sloss;Species");
lDimSectorCsv.WriteLine("9;sloss;Death");
lDimSectorCsv.WriteLine("10;sloss;Morbidity");
lDimSectorCsv.WriteLine("11;sloss;Wetland");
lDimSectorCsv.WriteLine("12;sloss;Emigration");
lDimSectorCsv.WriteLine("13;eloss;Hurricane");
lDimSectorCsv.WriteLine("14;eloss;ExtratropicalStorms");
}
using (var lDimScenarioCsv = new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Dim Scenario.csv")))
{
foreach (Scenario lScenario in lSimulationManager.Scenarios)
{
// Write Scenario dimension file
lDimScenarioCsv.Write(lScenario.Id);
lDimScenarioCsv.Write(";");
lDimScenarioCsv.Write(lScenario.Name);
lDimScenarioCsv.WriteLine();
}
}
using (var lDimYearCsv = new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Dim Year.csv")))
{
for (int i = 1950; i <= 2300; i++)
{
string lYearStr = i.ToString();
lDimYearCsv.Write(lYearStr);
lDimYearCsv.Write(";");
lDimYearCsv.Write(lYearStr.Substring(0, 2));
lDimYearCsv.Write("xx;");
lDimYearCsv.Write(lYearStr.Substring(0, 3));
lDimYearCsv.Write("x;");
lDimYearCsv.Write(lYearStr.Substring(0, 4));
lDimYearCsv.WriteLine();
}
}
var lDimEmissionYear = new ConcurrentBag <Timestep>();
if (lSimulationManager.OutputInputParameters)
{
lGlobalInputCsv = TextWriter.Synchronized(new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Fact Parameter.csv")));
lRegionInputCsv = TextWriter.Synchronized(new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Fact ParameterRegion.csv")));
lYearInputCsv = TextWriter.Synchronized(new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Fact ParameterYear.csv")));
lRegionYearInputCsv = TextWriter.Synchronized(new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Fact ParameterYearRegion.csv")));
}
if (lSimulationManager.RunParallel && !lSimulationManager.SameRandomStreamPerRun)
{
throw new ArgumentException("Cannot run in parallel but without random stream per run");
}
var parallelOptions = new System.Threading.Tasks.ParallelOptions()
{
MaxDegreeOfParallelism = lSimulationManager.RunParallel ? -1 : 1
};
if (lSimulationManager.RunParallel)
{
var parameterDefinition = new Parameters();
parameterDefinition.ReadExcelFile(@"Data\Parameter - base.xlsm");
// Create a new model that inits itself from the parameters just loaded
var model = new Esmf.Model.ModelTyped <FundWorkflow>();
model.Run(parameterDefinition.GetBestGuess());
}
System.Threading.Tasks.Parallel.ForEach <Run, object>(
lSimulationManager.Runs,
parallelOptions,
() =>
{
Thread.CurrentThread.CurrentCulture = CultureInfo.InvariantCulture;
Thread.CurrentThread.Priority = ThreadPriority.BelowNormal;
return(null);
},
(lRun, loopState, dummy) =>
{
var tlRandom = lSimulationManager.SameRandomStreamPerRun ? GetNewRandom(lSimulationManager) : lRandom;
var lParam = new Parameters();
foreach (string filename in lRun.Scenario.ExcelFiles)
{
lParam.ReadExcelFile(filename);
}
Console.WriteLine(lRun.Scenario.Name);
if (lRun.Mode == RunMode.MarginalRun)
{
var lMarginalRun = new TMarginalRun(lRun, lRun.MarginalGas, lRun.EmissionYear, ConsoleApp.OutputPath, lParam, lRandom);
lDimEmissionYear.Add(lRun.EmissionYear);
lMarginalRun.AggregateDamageCsv = lAggregateMarginalDamage;
lMarginalRun.SummaryCsv = lSummaryDamage;
if (lRun.OutputDisaggregatedData)
{
lMarginalRun.YearRegionSectorWeightingSchemeCsv = gDisaggregatedCsvFile;
}
if (lSimulationManager.OutputInputParameters)
{
lMarginalRun.GlobalInputCsv = lGlobalInputCsv;
lMarginalRun.RegionInputCsv = lRegionInputCsv;
lMarginalRun.YearInputCsv = lYearInputCsv;
lMarginalRun.RegionYearInputCsv = lRegionYearInputCsv;
}
var watch = new System.Diagnostics.Stopwatch();
watch.Start();
lMarginalRun.Run();
watch.Stop();
//Console.WriteLine("Elapsed time: {0}", watch.Elapsed);
}
else if (lRun.Mode == RunMode.FullMarginalRun)
{
MarginalGas[] gases = { MarginalGas.C };
foreach (MarginalGas gas in gases)
{
for (int emissionyear = 2010; emissionyear <= 2100; emissionyear += 5)
{
lDimEmissionYear.Add(Timestep.FromYear(emissionyear));
Console.WriteLine("Now doing year {0} and gas {1}", emissionyear, gas);
// DA: Use MargMain for marginal cost, use Main for total cost and optimisation
// modes
var lMarginalRun = new TMarginalRun(lRun, gas, Timestep.FromYear(emissionyear), ConsoleApp.OutputPath, lParam, lRandom);
lMarginalRun.AggregateDamageCsv = lAggregateMarginalDamage;
if (lRun.OutputDisaggregatedData)
{
lMarginalRun.YearRegionSectorWeightingSchemeCsv = gDisaggregatedCsvFile;
}
if (lSimulationManager.OutputInputParameters)
{
lMarginalRun.GlobalInputCsv = lGlobalInputCsv;
lMarginalRun.RegionInputCsv = lRegionInputCsv;
lMarginalRun.YearInputCsv = lYearInputCsv;
lMarginalRun.RegionYearInputCsv = lRegionYearInputCsv;
}
var watch = new System.Diagnostics.Stopwatch();
watch.Start();
lMarginalRun.Run();
watch.Stop();
//Console.WriteLine("Elapsed time: {0}", watch.Elapsed);
}
}
}
else if (lRun.Mode == RunMode.TotalRun)
{
// DA: Use MargMain for marginal cost, use Main for total cost and optimisation
// modes
var lTotalDamageRun = new TotalDamage(lRun, ConsoleApp.OutputPath, lParam, lRun.EmissionYear);
lTotalDamageRun.AggregateDamageCsv = lAggregateMarginalDamage;
if (lRun.OutputDisaggregatedData)
{
lTotalDamageRun.YearRegionSectorWeightingSchemeCsv = gDisaggregatedCsvFile;
}
if (lSimulationManager.OutputInputParameters)
{
lTotalDamageRun.GlobalInputCsv = lGlobalInputCsv;
lTotalDamageRun.RegionInputCsv = lRegionInputCsv;
lTotalDamageRun.YearInputCsv = lYearInputCsv;
lTotalDamageRun.RegionYearInputCsv = lRegionYearInputCsv;
}
lTotalDamageRun.Run();
}
return(null);
},
(dummy) => { return; });
lSummaryDamage.Close();
lAggregateMarginalDamage.Close();
TempOutputFile.Close();
using (var lDimEmissionYearCsv = new StreamWriter(Path.Combine(ConsoleApp.OutputPath, "Output - Dim Emissionyear.csv")))
{
foreach (Timestep emissionyear in lDimEmissionYear.Distinct().OrderBy(i => i.Value))
{
lDimEmissionYearCsv.WriteLine("{0};{1}", emissionyear, emissionyear);
}
}
if (lSimulationManager.Runs.Exists((Run run) => run.OutputDisaggregatedData))
{
gDisaggregatedCsvFile.Close();
}
if (lSimulationManager.OutputInputParameters)
{
lGlobalInputCsv.Close();
lRegionInputCsv.Close();
lYearInputCsv.Close();
lRegionYearInputCsv.Close();
}
}
