private static void StandardWeightingCombinations(out WeightingCombination[] WeightingCombinations, Timestep baseYear)
{
var i_weightingCombinations = new List <WeightingCombination>();
WeightingCombination w;
w = new WeightingCombination();
w.Add(new RamseyRegionalDiscounting(0.00));
i_weightingCombinations.Add(w);
w = new WeightingCombination();
w.Add(new ConstantDiscountrate(0.0));
w.Add(new EquityWeighting(50, -1, 1.0));
i_weightingCombinations.Add(w);
w = new WeightingCombination();
w.Add(new RamseyRegionalDiscounting(0.01));
i_weightingCombinations.Add(w);
w = new WeightingCombination();
w.Add(new ConstantDiscountrate(0.01));
w.Add(new EquityWeighting(50, -1, 1.0));
i_weightingCombinations.Add(w);
w = new WeightingCombination();
w.Add(new RamseyRegionalDiscounting(0.03));
i_weightingCombinations.Add(w);
w = new WeightingCombination();
w.Add(new ConstantDiscountrate(0.03));
w.Add(new EquityWeighting(50, -1, 1.0));
i_weightingCombinations.Add(w);
WeightingCombinations = i_weightingCombinations.ToArray();
}
private static void StandardWeightingCombinations(out WeightingCombination[] WeightingCombinations, Timestep baseYear)
{
var i_weightingCombinations = new List<WeightingCombination>();
WeightingCombination w;
w = new WeightingCombination();
w.Add(new RamseyRegionalDiscounting(0.00));
i_weightingCombinations.Add(w);
w = new WeightingCombination();
w.Add(new ConstantDiscountrate(0.0));
w.Add(new EquityWeighting(50, -1, 1.0));
i_weightingCombinations.Add(w);
w = new WeightingCombination();
w.Add(new RamseyRegionalDiscounting(0.01));
i_weightingCombinations.Add(w);
w = new WeightingCombination();
w.Add(new ConstantDiscountrate(0.01));
w.Add(new EquityWeighting(50, -1, 1.0));
i_weightingCombinations.Add(w);
w = new WeightingCombination();
w.Add(new RamseyRegionalDiscounting(0.03));
i_weightingCombinations.Add(w);
w = new WeightingCombination();
w.Add(new ConstantDiscountrate(0.03));
w.Add(new EquityWeighting(50, -1, 1.0));
i_weightingCombinations.Add(w);
WeightingCombinations = i_weightingCombinations.ToArray();
}
private static void RawWeightingCombinations(out WeightingCombination[] WeightingCombinations, Timestep baseYear)
{
var i_weightingCombinations = new List <WeightingCombination>();
WeightingCombination w;
w = new WeightingCombination("RAW");
w.Add(new UnityWeight());
i_weightingCombinations.Add(w);
WeightingCombinations = i_weightingCombinations.ToArray();
}
private static void RawWeightingCombinations(out WeightingCombination[] WeightingCombinations, Timestep baseYear)
{
var i_weightingCombinations = new List<WeightingCombination>();
WeightingCombination w;
w = new WeightingCombination("RAW");
w.Add(new UnityWeight());
i_weightingCombinations.Add(w);
WeightingCombinations = i_weightingCombinations.ToArray();
}
public double Start()
{
int yearsToRun = Math.Min(1049, EmissionYear.Value + YearsToAggregate);
var f1 = FundModel.GetModel(storeFullVariablesByDefault: false, years: yearsToRun);
f1["impactwaterresources"].Variables["water"].StoreOutput = true;
f1["ImpactForests"].Variables["forests"].StoreOutput = true;
f1["ImpactHeating"].Variables["heating"].StoreOutput = true;
f1["ImpactCooling"].Variables["cooling"].StoreOutput = true;
f1["ImpactAgriculture"].Variables["agcost"].StoreOutput = true;
f1["ImpactSeaLevelRise"].Variables["drycost"].StoreOutput = true;
f1["ImpactSeaLevelRise"].Variables["protcost"].StoreOutput = true;
f1["ImpactSeaLevelRise"].Variables["entercost"].StoreOutput = true;
f1["ImpactTropicalStorms"].Variables["hurrdam"].StoreOutput = true;
f1["ImpactExtratropicalStorms"].Variables["extratropicalstormsdam"].StoreOutput = true;
f1["ImpactBioDiversity"].Variables["species"].StoreOutput = true;
f1["ImpactDeathMorbidity"].Variables["deadcost"].StoreOutput = true;
f1["ImpactDeathMorbidity"].Variables["morbcost"].StoreOutput = true;
f1["ImpactSeaLevelRise"].Variables["wetcost"].StoreOutput = true;
f1["ImpactSeaLevelRise"].Variables["leavecost"].StoreOutput = true;
f1["socioeconomic"].Variables["income"].StoreOutput = true;
f1["Population"].Variables["population"].StoreOutput = true;
if (AdditionalInitMethod != null)
AdditionalInitMethod(f1);
var result1 = f1.Run(Parameters);
var i_output1 = new ModelOutput();
i_output1.Load(result1, years: yearsToRun);
var f2 = FundModel.GetModel(storeFullVariablesByDefault: false, years: yearsToRun);
f2["impactwaterresources"].Variables["water"].StoreOutput = true;
f2["ImpactForests"].Variables["forests"].StoreOutput = true;
f2["ImpactHeating"].Variables["heating"].StoreOutput = true;
f2["ImpactCooling"].Variables["cooling"].StoreOutput = true;
f2["ImpactAgriculture"].Variables["agcost"].StoreOutput = true;
f2["ImpactSeaLevelRise"].Variables["drycost"].StoreOutput = true;
f2["ImpactSeaLevelRise"].Variables["protcost"].StoreOutput = true;
f2["ImpactSeaLevelRise"].Variables["entercost"].StoreOutput = true;
f2["ImpactTropicalStorms"].Variables["hurrdam"].StoreOutput = true;
f2["ImpactExtratropicalStorms"].Variables["extratropicalstormsdam"].StoreOutput = true;
f2["ImpactBioDiversity"].Variables["species"].StoreOutput = true;
f2["ImpactDeathMorbidity"].Variables["deadcost"].StoreOutput = true;
f2["ImpactDeathMorbidity"].Variables["morbcost"].StoreOutput = true;
f2["ImpactSeaLevelRise"].Variables["wetcost"].StoreOutput = true;
f2["ImpactSeaLevelRise"].Variables["leavecost"].StoreOutput = true;
f2["socioeconomic"].Variables["income"].StoreOutput = true;
f2["Population"].Variables["population"].StoreOutput = true;
if (AdditionalInitMethod != null)
AdditionalInitMethod(f2);
f2.AddComponent("marginalemission", typeof(Fund.Components.MarginalEmissionComponent), "emissions");
f2["marginalemission"].Parameters["emissionperiod"].SetValue(EmissionYear);
switch (Gas)
{
case MarginalGas.C:
f2["marginalemission"].Parameters["emission"].Bind("emissions", "mco2");
f2["climateco2cycle"].Parameters["mco2"].Bind("marginalemission", "modemission");
break;
case MarginalGas.CH4:
f2["marginalemission"].Parameters["emission"].Bind("emissions", "globch4");
f2["climatech4cycle"].Parameters["globch4"].Bind("marginalemission", "modemission");
break;
case MarginalGas.N2O:
f2["marginalemission"].Parameters["emission"].Bind("emissions", "globn2o");
f2["climaten2ocycle"].Parameters["globn2o"].Bind("marginalemission", "modemission");
break;
case MarginalGas.SF6:
f2["marginalemission"].Parameters["emission"].Bind("emissions", "globsf6");
f2["climatesf6cycle"].Parameters["globsf6"].Bind("marginalemission", "modemission");
break;
default:
throw new NotImplementedException();
}
var result2 = f2.Run(Parameters);
var i_output2 = new ModelOutput();
i_output2.Load(result2, years: yearsToRun);
// Take out growth effect effect of run 2 by transforming
// the damage from run 2 into % of GDP of run 2, and then
// multiplying that with GDP of run 1
for (int year = 1; year < LegacyConstants.NYear; year++)
{
for (int region = 0; region < LegacyConstants.NoReg; region++)
{
for (int sector = 0; sector < LegacyConstants.NoSector; sector++)
{
i_output2.Damages[year, region, (Sector)sector] = (i_output2.Damages[year, region, (Sector)sector] / i_output2.Incomes[year, region]) * i_output1.Incomes[year, region];
}
}
}
// Calculate the marginal damage between run 1 and 2 for each
// year/region/sector
var i_marginalDamages = Damages.CalculateMarginalDamage(i_output1.Damages, i_output2.Damages);
var weightingcom = new WeightingCombination();
if (UseEquityWeights)
{
weightingcom.Add(new ConstantDiscountrate(Prtp));
weightingcom.Add(new EquityWeighting(EmissionYear.Value, -1, Eta));
}
else
{
weightingcom.Add(new RamseyRegionalDiscounting(Prtp, Eta, EmissionYear.Value));
}
weightingcom.CalculateWeights(i_output1);
var i_aggregatedDamage = weightingcom.AddDamagesUp(i_marginalDamages, YearsToAggregate, EmissionYear);
return i_aggregatedDamage;
}
public double Start()
{
int yearsToRun = Math.Min(1049, EmissionYear.Value + YearsToAggregate);
var f1 = FundModel.GetModel(storeFullVariablesByDefault: false, years: yearsToRun);
f1["impactwaterresources"].Variables["water"].StoreOutput = true;
f1["ImpactForests"].Variables["forests"].StoreOutput = true;
f1["ImpactHeating"].Variables["heating"].StoreOutput = true;
f1["ImpactCooling"].Variables["cooling"].StoreOutput = true;
f1["ImpactAgriculture"].Variables["agcost"].StoreOutput = true;
f1["ImpactSeaLevelRise"].Variables["drycost"].StoreOutput = true;
f1["ImpactSeaLevelRise"].Variables["protcost"].StoreOutput = true;
f1["ImpactSeaLevelRise"].Variables["entercost"].StoreOutput = true;
f1["ImpactTropicalStorms"].Variables["hurrdam"].StoreOutput = true;
f1["ImpactExtratropicalStorms"].Variables["extratropicalstormsdam"].StoreOutput = true;
f1["ImpactBioDiversity"].Variables["species"].StoreOutput = true;
f1["ImpactDeathMorbidity"].Variables["deadcost"].StoreOutput = true;
f1["ImpactDeathMorbidity"].Variables["morbcost"].StoreOutput = true;
f1["ImpactSeaLevelRise"].Variables["wetcost"].StoreOutput = true;
f1["ImpactSeaLevelRise"].Variables["leavecost"].StoreOutput = true;
f1["socioeconomic"].Variables["income"].StoreOutput = true;
f1["Population"].Variables["population"].StoreOutput = true;
if (AdditionalInitMethod != null)
{
AdditionalInitMethod(f1);
}
var result1 = f1.Run(Parameters);
var i_output1 = new ModelOutput();
i_output1.Load(result1, years: yearsToRun);
var f2 = FundModel.GetModel(storeFullVariablesByDefault: false, years: yearsToRun);
f2["impactwaterresources"].Variables["water"].StoreOutput = true;
f2["ImpactForests"].Variables["forests"].StoreOutput = true;
f2["ImpactHeating"].Variables["heating"].StoreOutput = true;
f2["ImpactCooling"].Variables["cooling"].StoreOutput = true;
f2["ImpactAgriculture"].Variables["agcost"].StoreOutput = true;
f2["ImpactSeaLevelRise"].Variables["drycost"].StoreOutput = true;
f2["ImpactSeaLevelRise"].Variables["protcost"].StoreOutput = true;
f2["ImpactSeaLevelRise"].Variables["entercost"].StoreOutput = true;
f2["ImpactTropicalStorms"].Variables["hurrdam"].StoreOutput = true;
f2["ImpactExtratropicalStorms"].Variables["extratropicalstormsdam"].StoreOutput = true;
f2["ImpactBioDiversity"].Variables["species"].StoreOutput = true;
f2["ImpactDeathMorbidity"].Variables["deadcost"].StoreOutput = true;
f2["ImpactDeathMorbidity"].Variables["morbcost"].StoreOutput = true;
f2["ImpactSeaLevelRise"].Variables["wetcost"].StoreOutput = true;
f2["ImpactSeaLevelRise"].Variables["leavecost"].StoreOutput = true;
f2["socioeconomic"].Variables["income"].StoreOutput = true;
f2["Population"].Variables["population"].StoreOutput = true;
if (AdditionalInitMethod != null)
{
AdditionalInitMethod(f2);
}
f2.AddComponent("marginalemission", typeof(Fund.Components.MarginalEmissionComponent), "emissions");
f2["marginalemission"].Parameters["emissionperiod"].SetValue(EmissionYear);
switch (Gas)
{
case MarginalGas.C:
f2["marginalemission"].Parameters["emission"].Bind("emissions", "mco2");
f2["climateco2cycle"].Parameters["mco2"].Bind("marginalemission", "modemission");
break;
case MarginalGas.CH4:
f2["marginalemission"].Parameters["emission"].Bind("emissions", "globch4");
f2["climatech4cycle"].Parameters["globch4"].Bind("marginalemission", "modemission");
break;
case MarginalGas.N2O:
f2["marginalemission"].Parameters["emission"].Bind("emissions", "globn2o");
f2["climaten2ocycle"].Parameters["globn2o"].Bind("marginalemission", "modemission");
break;
case MarginalGas.SF6:
f2["marginalemission"].Parameters["emission"].Bind("emissions", "globsf6");
f2["climatesf6cycle"].Parameters["globsf6"].Bind("marginalemission", "modemission");
break;
default:
throw new NotImplementedException();
}
var result2 = f2.Run(Parameters);
var i_output2 = new ModelOutput();
i_output2.Load(result2, years: yearsToRun);
// Take out growth effect effect of run 2 by transforming
// the damage from run 2 into % of GDP of run 2, and then
// multiplying that with GDP of run 1
for (int year = 1; year < LegacyConstants.NYear; year++)
{
for (int region = 0; region < LegacyConstants.NoReg; region++)
{
for (int sector = 0; sector < LegacyConstants.NoSector; sector++)
{
i_output2.Damages[year, region, (Sector)sector] = (i_output2.Damages[year, region, (Sector)sector] / i_output2.Incomes[year, region]) * i_output1.Incomes[year, region];
}
}
}
// Calculate the marginal damage between run 1 and 2 for each
// year/region/sector
var i_marginalDamages = Damages.CalculateMarginalDamage(i_output1.Damages, i_output2.Damages);
var weightingcom = new WeightingCombination();
if (UseEquityWeights)
{
weightingcom.Add(new ConstantDiscountrate(Prtp, EmissionYear.Value));
weightingcom.Add(new EquityWeighting(EmissionYear.Value, -1, Eta));
}
else
{
weightingcom.Add(new RamseyRegionalDiscounting(Prtp, Eta, EmissionYear.Value));
}
weightingcom.CalculateWeights(i_output1);
var i_aggregatedDamage = weightingcom.AddDamagesUp(i_marginalDamages, YearsToAggregate, EmissionYear);
return(i_aggregatedDamage);
}
