public static SizeAndCostSettings getSizeAndCostSettings(GUIData gui) { SizeAndCostSettings sc = SizeAndCostSettings.getDefault(); sc.overall_cost_per_watt_dc = gui.cost_per_watt_dc; sc.use_overall_cost_per_watt_dc = gui.use_cost_per_watt_override ? 1 : 0; return sc; }
public static MultiplePVSystemModel multiRunModel(GISData gis, GUIData gui, int[] years) { MultiplePVSystemModel pv = new MultiplePVSystemModel(); for (int i = 0; i < years.Length; i++) { String fn = "ExampleFiles\\Prospector\\radwx_075153995_" + years[i] + "~.tm2"; pv.Add(runModel(gis, gui, fn)); } return pv; }
public static UtilityRateSettings getUtilityRateSettings(GUIData gui) { UtilityRateSettings ub = UtilityRateSettings.getDefault(); ub.analysis_years = gui.analysis_years; ub.rate_escalation = new float[] {gui.inflation_rate + gui.utility_ann_escal_rate}; ub.ur_monthly_fixed_charge = gui.utility_monthly_fixed_cost; ub.ur_flat_buy_rate = gui.utility_price_to_compare; ub.ur_flat_sell_rate = gui.utility_price_to_compare; return ub; }
public static PVSystemModel runModel(GISData gis, GUIData gui,string filename) { ArrayParameterListBuilder ab = new ArrayParameterListBuilder(); UtilityRateParameterBuilder ub = new UtilityRateParameterBuilder(); CashLoanParameterBuilder cb = new CashLoanParameterBuilder(); SizeAndCostParameterBuilder sc = new SizeAndCostParameterBuilder(); if (filename != null) { ab.weather_file(filename); } sc.overall_cost_per_watt_dc(gui.cost_per_watt_dc); ub.analysis_years(gui.analysis_years); ub.rate_escalation(gui.inflation_rate + gui.utility_ann_escal_rate); ub.ur_monthly_fixed_charge(gui.utility_monthly_fixed_cost); ub.ur_flat_buy_rate(gui.utility_price_to_compare); ub.ur_flat_sell_rate(gui.utility_price_to_compare); ub.ur_sell_eq_buy(true); cb.loan_rate(gui.loan_rate); cb.loan_term(gui.loan_term); cb.loan_debt(gui.loan_debt); cb.inflation_rate(gui.inflation_rate); cb.discount_rate(gui.discount_rate); if (gui.enable_incentives) {//Enable cb.pbi_sta_amount(gui.srec_price / 1000f); cb.itc_fed_percent(30); } else {//Disable cb.pbi_sta_amount(0); cb.itc_fed_percent(0); } PVSystemModel pv = new PVSystemModel(gis, ab, ub, cb, sc); pv.run(); return pv; }
public static CashLoanSettings getCashLoanSettings(GUIData gui) { CashLoanSettings cb = CashLoanSettings.getDefault(); cb.loan_rate = gui.loan_rate; cb.loan_term = gui.loan_term; cb.loan_debt = gui.loan_debt; cb.inflation_rate = gui.inflation_rate; cb.real_discount_rate = gui.discount_rate; if (gui.enable_incentives) {//Enable cb.pbi_sta_amount = new float[] {gui.srec_price / 1000f}; cb.itc_fed_percent = 30; } else {//Disable cb.pbi_sta_amount = new float[] {0}; cb.itc_fed_percent = 0; } return cb; }
public static CompiledOutputData run(GISData gis, GUIData gui) { PVSAMV1Settings pvss = GISAdapter.getSettings(gis); float arraypower = pvss.modules_per_string * pvss.strings_in_parallel * pvss.module_model.getRatedPower(); DatasheetInverterSettings inverter = new DatasheetInverterSettings("default", arraypower * 1.15f); pvss.inverter_model = inverter; PVSAMV1Output pvo = (PVSAMV1Output) ModuleRunner.runModule(pvss); UtilityRateSettings urs = GUIAdapter.getUtilityRateSettings(gui); urs.setValuesFromPriorOutput(pvo); UtilityRateOutput uro = (UtilityRateOutput)ModuleRunner.runModule(urs); SizeAndCostSettings sc = GUIAdapter.getSizeAndCostSettings(gui); sc.setValuesFromPriorOutput(pvo); CashLoanSettings cls = GUIAdapter.getCashLoanSettings(gui); cls.setValuesFromPriorOutput(sc, uro); CashLoanOutput clo = (CashLoanOutput)ModuleRunner.runModule(cls); return new CompiledOutputData(pvo, uro, clo, sc); }
public static PVSystemModel runModel(GISData gis, GUIData gui) { return runModel(gis, gui, null); }
public GUIData build() { GUIData d = new GUIData(this); return d; }
public GUIData build() { GUIData d = new GUIData(this); return(d); }