Index

A B C D E F G H I K L M N O P Q R S T U V W X Y
All Classes and Interfaces|All Packages|Constant Field Values

A

a_s_Default - Static variable in class net.simplace.sim.components.util.helper.EquationsFAO56: default Value for Angstrom variables, regression constant
ActualVapourPressureFromRelativeHumidityHourly(double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Estimates hourly actual vapour pressure from hourly relative humidity Eq. (54)
AddLinearTrendIncrease(double, int, int) - Static method in class net.simplace.sim.components.models.lintulfast.TrendAndTechnologyFunctions
AddTechnology(double, int, double, double, double, double, int) - Static method in class net.simplace.sim.components.models.lintulfast.TrendAndTechnologyFunctions
AddTrend(double, int, double, double) - Static method in class net.simplace.sim.components.models.lintulfast.TrendAndTechnologyFunctions
addTrendAndTechnologyToYield() - Method in class net.simplace.sim.components.models.lintulfast.LintulFast
addVariable(Double[]) - Method in class net.simplace.sim.components.management.tillage.StateMixer
addVariable(FWSimVariable<Double[]>) - Method in class net.simplace.sim.components.management.tillage.StateMixer
AdjustedKCoefficientToWindAndHumidity(double, double, double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Adjustment of coefficient in climates where RH_min differs from 45% or where u2 is larger or smaller than 2 m/s Eq. (62) Same formula is used to adjust K_cmid [Eq. (62)], K_cend [Eq. (65)], K_cb [Eq. (70)], K_cmax [Eq. (72)], K_cbfull [Eq. (99)]
AerodynamicResistanceCalculator - Class in net.simplace.sim.components.experimental.canopytemperature
AerodynamicResistanceCalculator() - Constructor for class net.simplace.sim.components.experimental.canopytemperature.AerodynamicResistanceCalculator
AFGEN(Double[], double) - Static method in class net.simplace.sim.components.util.FSTFunctions: Computes a linear interpolation for t from a table.
AFGEN(Double[], Double[], double) - Static method in class net.simplace.sim.components.util.FSTFunctions: Computes a linear interpolation for t from a table.
AFGEN(TreeMap<Double, Double>, double) - Static method in class net.simplace.sim.components.util.FSTFunctions: Computes a linear interpolation for t from a table.
AFGEN(InterpolationTable, double) - Static method in class net.simplace.sim.components.util.FSTFunctions: Computes a linear interpolation for t from a table.
AFGEN(FWSimVariable<Double[]>, double) - Static method in class net.simplace.sim.components.util.FSTFunctions: Computes a linear interpolation for t from a table.
AFGEN(FWSimVariable<Double[]>, FWSimVariable<Double[]>, double) - Static method in class net.simplace.sim.components.util.FSTFunctions: Computes a linear interpolation for t from a table.
albedo - Static variable in class net.simplace.sim.components.util.helper.EquationsFAO56: default albedo for the hypothetical grass reference crop
alpha(double, double, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.HypresFunctions
alpha(double, double, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.RawlsFunctions
alpha(double, double, double, double, boolean) - Method in interface net.simplace.sim.components.soil.pedotransfer.VanGenuchtenPedoTransferFunction
alpha(int, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.KartierungsanleitungFunctions
alpha(int, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.TextureClassesFunctions
alpha(int, double, double, boolean) - Method in interface net.simplace.sim.components.soil.pedotransfer.TextureClassPedoTransferFunction
Ammonia - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamSoil
AmountFromConcentration(Double[], Double[], Double[]) - Static method in class net.simplace.sim.components.experimental.slim.SlimPhosphorusFunctions: Calculates amout of P from P-concentration in all layers.
AmountFromConcentration(Double, Double, Double) - Static method in class net.simplace.sim.components.experimental.slim.SlimPhosphorusFunctions: Calculates amount of P from P-concentration in one layer.
angleDegreeFromSlope(double) - Static method in class net.simplace.sim.components.experimental.erosion.ErosionFunctions: Calculates the angle in degree from slope
angleDegreeFromSlopePercent(double) - Static method in class net.simplace.sim.components.experimental.erosion.ErosionFunctions: Calculates the angle in degree from slope in percent
Area - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamSoil
ArrayHelper - Class in net.simplace.sim.components.util.helper: Methods for dealing with arrays of layers WIKI_START Includes methods for resampling layers of different vertical resolution.
ArrayHelper() - Constructor for class net.simplace.sim.components.util.helper.ArrayHelper
ArrayHelper.RESAMPLE_MODE - Enum Class in net.simplace.sim.components.util.helper: Resample modes - CENTER - takes the value of the source layer that hits the center of target layer - FIRST - takes the value of the first source layer that overlaps with the target layer - LAST - takes the value of the last source layer that overlaps with the target layer - AVG - takes the weighted average of the overlapping source layers - SUM - takes the sum of overlapping source layers, multiplied by the proportion of their overlap
ArrayResampler - Class in net.simplace.sim.components.util: Resamples array values from one resolution to another resolution WIKI_START The resolutions of original dataset and resampled datasets are determined by the arrays `iOriginalDepths` ($D_o$) and `iResampledDepths` ($D_r$) which contains the depths of the layers' bottom.
ArrayResampler() - Constructor for class net.simplace.sim.components.util.ArrayResampler: Empty constructor used by class.forName()
ASSIM(double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.sucros.SucrosFunctions
ASSIM(int, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.experimental.lintulcc.LintulCCFunctions: Calculates assimilates for C3 or C4 crops Variable parameters for C3 or C4 crops
assimilate() - Method in class net.simplace.sim.components.experimental.lintulcc.HillFlow1DLintulCCDiurnal
ASSIMOzone(int, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.experimental.lintulcc.LintulCCFunctions
ASTRO(int, double) - Static method in class net.simplace.sim.components.experimental.lintulcc.LintulCCFunctions
ASTRO(int, double) - Static method in class net.simplace.sim.components.models.sucros.SucrosFunctions
AstronomicParameters(int, double) - Static method in class net.simplace.sim.components.util.helper.AstronomicParametersCalculator: Calculates day length and other parameters from DOY and latitude
AstronomicParameters(int, double, double) - Static method in class net.simplace.sim.components.util.helper.AstronomicParametersCalculator: Calculates day length and other parameters from DOY, latitude and sun inclination
AstronomicParametersCalculator - Class in net.simplace.sim.components.util.helper: Methods for calculating daylength and diurnal values WIKI_START Includes methods for integration/normalization/rescaling of piecewise linear functions, as well as methods for calculating diurnal values for radiation and temperature. == Reference == (G) Goudriaan, Modeling Potential Crop Growth Processes, 1994, (revised version Nov. 2004) WIKI_END
AstronomicParametersCalculator() - Constructor for class net.simplace.sim.components.util.helper.AstronomicParametersCalculator
AstronomicParametersTransformer - Class in net.simplace.sim.transformers: WIKI_START Calculated daylength, photoperiodic daylength, solar constant and daily total effective solar height for each DOY for a set of given latitudes. == Input and output of the transformer == For each row in the resource it creates 366 rows containing values for each day of year (DOY) The transformer needs the field names of a resource, that contain - location id - latitude in decimal degrees - inclination of sun angle in decimal degrees Normally you do not enter the numeric value for latitude, but a reference to the value, i. e. the column name of the resource's column containing the latitudes.
AstronomicParametersTransformer(FWSimSession, Integer) - Constructor for class net.simplace.sim.transformers.AstronomicParametersTransformer
AstronomicParametersTransformer(FWSimSession, Element, Integer) - Constructor for class net.simplace.sim.transformers.AstronomicParametersTransformer
AtmosphericDensity(double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Calculates atmospheric density Eq. (3-5)
AtmosphericPressure(double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Calculates the atmospheric Pressure P Eq. (7)
aux - Variable in class net.simplace.sim.components.soil.soilcn.SoilCN
Auxiliary - Class in net.simplace.sim.components.soil.soilcn.valueobjects: Helper Class that manages the creation of related Sim Variables.
Auxiliary() - Constructor for class net.simplace.sim.components.soil.soilcn.valueobjects.Auxiliary
Avail(Double[], Double[], Double) - Static method in class net.simplace.sim.components.experimental.slim.SlimPhosphorusFunctions: Calculates plant available P.
averagedLayerProportions(Double[], Double[], double) - Static method in class net.simplace.sim.components.util.helper.ArrayHelper
averageOfLayerMasses(Double[], Double[], double) - Static method in class net.simplace.sim.components.util.helper.ArrayHelper
averageOfLayerProportions(Double[], Double[], double) - Static method in class net.simplace.sim.components.util.helper.ArrayHelper
AVG - Enum constant in enum class net.simplace.sim.components.util.helper.ArrayHelper.RESAMPLE_MODE

B

b_s_Default - Static variable in class net.simplace.sim.components.util.helper.EquationsFAO56: default Value for Angstrom variables, regression slope
Bactnc - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamN
Bactpc - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.ParamP
BelowgroundAllocationFactor - Class in net.simplace.sim.components.experimental.intercropping: Calculates factors for below ground allocation of two crops from their root distribution.
BelowgroundAllocationFactor() - Constructor for class net.simplace.sim.components.experimental.intercropping.BelowgroundAllocationFactor: called from class.forName()
BelowgroundAllocationFactor(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.intercropping.BelowgroundAllocationFactor
BelowgroundAllocationFactors(Double[], Double[]) - Static method in class net.simplace.sim.components.experimental.intercropping.IntercroppingFunctions: Calculates belowground allocation factors from given root information per layer of two plants Root information can be root length density per layer or root restriction factor or any information that reflects root uptake capacity.
BETAF(double, double, double, double) - Static method in class net.simplace.sim.components.models.gecros.GecrosFunctions: Calculates the dynamics of expected growth of sinks, based on the beta sigmoid growth equation
Biomass - Class in net.simplace.sim.components.experimental.grassland.lintul5: Lintul5 - Simple generic model for simulation of crop growth - Biomass part WIKI_START This sim component calculates the biomass part from Lintul5.
Biomass - Class in net.simplace.sim.components.experimental.lintul5.translocation: Lintul5 - Simple generic model for simulation of crop growth - Biomass part WIKI_START This sim component calculates the biomass part from Lintul5.
Biomass - Class in net.simplace.sim.components.models.lintul5.amei: Lintul5 - Simple generic model for simulation of crop growth - Biomass part WIKI_START This sim component calculates the biomass part from Lintul5.
Biomass - Class in net.simplace.sim.components.models.lintul5.modular: Lintul5 - Simple generic model for simulation of crop growth - Biomass part WIKI_START This sim component calculates the biomass part from Lintul5.
Biomass() - Constructor for class net.simplace.sim.components.experimental.grassland.lintul5.Biomass: Empty constructor used by class.forName()
Biomass() - Constructor for class net.simplace.sim.components.experimental.lintul5.translocation.Biomass: Empty constructor used by class.forName()
Biomass() - Constructor for class net.simplace.sim.components.models.lintul5.amei.Biomass: Empty constructor used by class.forName()
Biomass() - Constructor for class net.simplace.sim.components.models.lintul5.modular.Biomass: Empty constructor used by class.forName()
Biomass(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.grassland.lintul5.Biomass
Biomass(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.lintul5.translocation.Biomass
Biomass(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.models.lintul5.amei.Biomass
Biomass(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.models.lintul5.modular.Biomass
BiomassTranslocation - Class in net.simplace.sim.components.crop.translocation: WIKI_START !
BiomassTranslocation() - Constructor for class net.simplace.sim.components.crop.translocation.BiomassTranslocation: Empty constructor used by class.forName()
BiomassTranslocation(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.crop.translocation.BiomassTranslocation
BiomassTranslocationForDrought - Class in net.simplace.sim.components.experimental.canopytemperature: WIKI_START BiomassTranslocation calculates daily biomass translocation after anthesis.
BiomassTranslocationForDrought() - Constructor for class net.simplace.sim.components.experimental.canopytemperature.BiomassTranslocationForDrought: Empty constructor used by class.forName()
BiomassTranslocationForDrought(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.canopytemperature.BiomassTranslocationForDrought
BotDepth - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamSoil
BotDepth - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
Brabove - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamC
BranchsurfC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
BranchsurfC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
BranchsurfN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
BranchsurfN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
BranchsurfP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.InitialStatesP
BranchsurfP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
BulkDensity - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamSoil
BulkDensityDayOfTillage(Double[], Double[], double, double) - Static method in class net.simplace.sim.components.management.tillage.TillageFunctions: Calculates bulk density for the day of tillage (Eq. 1 - modified)
BypassForNitrogen - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
BypassForP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP

C

Cactlab - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Cactrst - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
CalcCFlows - Class in net.simplace.sim.components.soil.soilcn.calculation: CalcCFlows strategy calculates the different carbon flows in the soil system
CalcCFlows() - Constructor for class net.simplace.sim.components.soil.soilcn.calculation.CalcCFlows
CalcCPools - Class in net.simplace.sim.components.soil.soilcn.calculation: CalcCPools strategy updates the different carbon pools in the soil system
CalcCPools() - Constructor for class net.simplace.sim.components.soil.soilcn.calculation.CalcCPools
calcInterceptionFractionOneCrop(double, double, double, double, double) - Static method in class net.simplace.sim.components.experimental.intercropping.IntercroppingFunctions: Calculates radiation fraction that is intercepted by the crop if only one crop is present
calcInterceptionFractions(double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.experimental.intercropping.IntercroppingFunctions: Calculates radiation interception fractions for two crops
calcInterceptionFractionsSorted(double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.experimental.intercropping.IntercroppingFunctions: Calculates radiation interception for two crops where height of first crop is bigger than of second
CalcNFlows - Class in net.simplace.sim.components.soil.soilcn.calculation: CalcNFlows strategy calculates the different nitrogen flows in the soil system
CalcNFlows() - Constructor for class net.simplace.sim.components.soil.soilcn.calculation.CalcNFlows
CalcNPools - Class in net.simplace.sim.components.soil.soilcn.calculation: CalcNPools strategy updates the different nitrogen pools in the soil system
CalcNPools() - Constructor for class net.simplace.sim.components.soil.soilcn.calculation.CalcNPools
CalcPFlows - Class in net.simplace.sim.components.soil.soilcn.calculationP: CalcNFlows strategy calculates the different nitrogen flows in the soil system
CalcPFlows() - Constructor for class net.simplace.sim.components.soil.soilcn.calculationP.CalcPFlows
CalcPPools - Class in net.simplace.sim.components.soil.soilcn.calculationP: CalcNPools strategy updates the different nitrogen pools in the soil system
CalcPPools() - Constructor for class net.simplace.sim.components.soil.soilcn.calculationP.CalcPPools
calcRowAndColSums(Double[][]) - Static method in class net.simplace.sim.components.experimental.intercropping.IntercroppingFunctions: Calculates sum of rows, cols and total of a 2-dimensional array
calcSoilInterceptionFractionPath(double, double, double, double, double) - Static method in class net.simplace.sim.components.experimental.intercropping.IntercroppingFunctions: Calculates radiation fraction that is intercepted by the soil
calcSoilInterceptionFractionStrip(double, double, double, double, double) - Static method in class net.simplace.sim.components.experimental.intercropping.IntercroppingFunctions: Calculates radiation fraction that is intercepted by the crop
CalcStressFactors - Class in net.simplace.sim.components.soil.soilcn.calculation: CalcStressFactors strategy calculates the different factors affecting decomposition
CalcStressFactors() - Constructor for class net.simplace.sim.components.soil.soilcn.calculation.CalcStressFactors
calculate() - Method in class net.simplace.sim.components.soil.pedotransfer.Pedotransfer
calculate_albedo(double, double, double) - Static method in class net.simplace.sim.components.experimental.lintulcc.LintulCCFunctions
calculate_et0(int, double, double, double, double, double, double, double, double, double, double, double, double, double, double) - Method in class net.simplace.sim.components.experimental.lintulcc.HillFlow1DLintulCCDiurnal
calculate_radiation_and_vap(int, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.experimental.lintulcc.LintulCCFunctions
calculate_twpaw(double, Double[], Double[], Double[], double, double, boolean, double, double, double, double, Double[], Double[]) - Method in class net.simplace.sim.components.experimental.lintulcc.HillFlow1DLintulCCDiurnal
calculateAggregatedData(FWSimVariable<String>, FWSimVariable<String>, FWSimVariable<String>, String, FWSimResourceCache) - Method in class net.simplace.sim.transformers.LayerAggregationTransformer
calculateDaylength(FWSimVariable<String>, FWSimVariable<String>, FWSimVariable<String>, FWSimResourceCache, FWSimVarMap) - Method in class net.simplace.sim.transformers.AstronomicParametersTransformer: Calculates Daylengths
calculateDenitrification(Double, Double, Double, Double) - Static method in class net.simplace.sim.components.experimental.n2o.N2Ofunctions
calculateDenitrificationRate(Double, Double, Double, Double[], Double[], Double, Double[], Double[], Double[]) - Static method in class net.simplace.sim.components.experimental.n2o.N2Ofunctions: Calculates Denitrification per Layer The potential denitrification rate is split proportionally to the layers in the topsoil.
calculateDiurnalValues(int, double, double, double, String, String, String, String, String, String, FWSimResourceCache) - Method in class net.simplace.sim.transformers.DiurnalSineWeatherTransformer: Calculates Daylengths
CalculateDiurnalValues(double, LocalDateTime, int, double, double, double, double, double, double, double) - Method in class net.simplace.sim.components.util.helper.diurnal.DiurnalWeatherCalculator
CalculateDiurnalValues(double, LocalDateTime, int, double, double, double, double, double, double, double) - Method in class net.simplace.sim.components.util.helper.diurnal.DiurnalWeatherCalculatorSinbeta
CalculateDiurnalValues(double, LocalDateTime, int, double, double, double, double, double, double, double) - Method in class net.simplace.sim.components.util.helper.diurnal.DiurnalWeatherCalculatorSinbetaEffective
CalculateDiurnalValues(double, LocalDateTime, int, double, double, double, double, double, double, double) - Method in class net.simplace.sim.components.util.helper.diurnal.DiurnalWeatherCalculatorSine
CalculateFlowCoefficients(int, Double[], Double[], Double[], Double[], Double[]) - Static method in class net.simplace.sim.components.experimental.slim.SlimPhosphorusFunctions: Calculates adsorption and fixation coefficients based on soil properties for different soil types.
CalculateFlowCoefficientsCalcareous(Double[]) - Static method in class net.simplace.sim.components.experimental.slim.SlimPhosphorusFunctions: Calculates adsorption and fixation coefficients for calcareous soils.
CalculateFlowCoefficientsHighlyWeathered(Double[]) - Static method in class net.simplace.sim.components.experimental.slim.SlimPhosphorusFunctions: Calculates adsorption and fixation coefficients for highly weathered, non-calcareous soils.
CalculateFlowCoefficientsModeratelyWeathered(Double[], Double[]) - Static method in class net.simplace.sim.components.experimental.slim.SlimPhosphorusFunctions: Calculates adsorption and fixation coefficients for moderately weathered, non-calcareous soils.
CalculateFlowCoefficientsSlightlyWeathered(Double[]) - Static method in class net.simplace.sim.components.experimental.slim.SlimPhosphorusFunctions: Calculates adsorption and fixation coefficients for slightly weathered, non-calcareous soils.
calculateLinearRegression(int, double[], double[]) - Static method in class net.simplace.sim.components.models.lintulfast.TrendAndTechnologyFunctions
calculateLinearRegression(FWSimVariable<String>, FWSimVariable<String>, String, FWSimResourceCache) - Method in class net.simplace.sim.transformers.LinearRegressionTransformer: Calculates the linear regression from two vectors X and Y by the least square approach.
CalculateLinearTrend(Integer[], Double[], Boolean) - Static method in class net.simplace.sim.components.models.lintulfast.TrendAndTechnologyFunctions
calculateN2O(Double, Double, Double, Double, Double, Double, Double) - Static method in class net.simplace.sim.components.experimental.n2o.N2Ofunctions
calculateN2O(Double, Double, Double, Double, Double, Double, Double, Double, Double, Double) - Static method in class net.simplace.sim.components.experimental.n2o.N2Ofunctions
calculateN2O(FWSimVariable<Double[]>, FWSimVariable<Double>, FWSimVariable<Double>, FWSimVariable<Double>, FWSimVariable<Double>, FWSimVariable<Double[]>, FWSimVariable<Double[]>, FWSimVariable<Double[]>, FWSimVariable<Double[]>, FWSimVariable<Double[]>, FWSimVariable<Double[]>, FWSimVariable<Double[]>, FWSimVariable<Double[]>, FWSimVariable<Double>) - Static method in class net.simplace.sim.components.experimental.n2o.N2Ofunctions
calculateNFixationFraction(double, double, double, Double[], Double[], Double[], Double[], Double[]) - Static method in class net.simplace.sim.components.models.lintul5.amei.LintulFunctions: Calculate the fraction of N demand that is fullfilled by N fixation The fraction depends on development, soil water content in the upper 30cm and total N content in the rooted zone.
calculateNFixationFraction(double, double, double, Double[], Double[], Double[], Double[], Double[]) - Static method in class net.simplace.sim.components.models.lintul5.LintulFunctions: Calculate the fraction of N demand that is fullfilled by N fixation The fraction depends on development, soil water content in the upper 30cm and total N content in the rooted zone.
calculateNitrateLimitFactor(Double, Double) - Static method in class net.simplace.sim.components.experimental.n2o.N2Ofunctions
CalculatePhenology() - Method in class net.simplace.sim.components.experimental.grassland.lintul5.Phenology
CalculatePhenology() - Method in class net.simplace.sim.components.models.lintul5.Phenology
calculatePools(ParamSoil, ParamCrop, ParamC, ParamN, Auxiliary, States, Rates) - Method in class net.simplace.sim.components.soil.soilcn.SoilCN
calculatePools(ParamSoil, ParamCrop, ParamC, ParamN, ParamP, Auxiliary, StatesP, RatesP) - Method in class net.simplace.sim.components.soil.soilcn.SoilCNP
calculatePopulationRates(Double[], Double[], Double[], Double[], Double[], Double, Double, Double, Double[], Double, Double, Double, int) - Static method in class net.simplace.sim.components.experimental.livestock.LivestockFunctions: Rate function for livestock
calculatePopulationRatesExcelCompatible(Double[], Double[], Double[], Double[], Double[], Double[], Double, Double, Double, int) - Static method in class net.simplace.sim.components.experimental.livestock.LivestockFunctions: Rate function for livestock (compatibility mode) Perform same calculation as in the Excel version.
calculateRates() - Method in class net.simplace.sim.components.models.sucros.modular.splitting1.Sucros2Crop
calculateRates() - Method in class net.simplace.sim.components.models.sucros.modular.splitting1.Sucros2PotEvapTranWater
calculateRates() - Method in class net.simplace.sim.components.models.sucros.modular.splitting2.Sucros2CropPotEvapTran
calculateRates() - Method in class net.simplace.sim.components.models.sucros.modular.splitting2.Sucros2EvapTranWater
calculateRates() - Method in class net.simplace.sim.components.models.sucros.Sucros2
CalculateRegression(Double[], Double[]) - Static method in class net.simplace.sim.components.util.helper.DataTransformHelper: Calculates the linear regression of two variables.
CalculateRootAgeFactor() - Method in class net.simplace.sim.components.soil.slim.SlimRoots: To model root Density
calculateSlimAlfa(FWSimVariable<Double>, FWSimVariable<Integer>, FWSimVariable<String>, FWSimVariable<String>, String, FWSimResourceCache) - Method in class net.simplace.sim.transformers.SlimAlfaTransformer: Rescales the soil layer
calculateSoilPhosphorus() - Method in class net.simplace.sim.components.experimental.slim.NPKDemandSlimNP
calculateSoilPotassiumSimplified() - Method in class net.simplace.sim.components.experimental.slim.NPKDemandSlimNP
calculateTemperatureLimitFactor(Double) - Static method in class net.simplace.sim.components.experimental.n2o.N2Ofunctions
calculateWaterLimitFactor(Double, Double, Double) - Static method in class net.simplace.sim.components.experimental.n2o.N2Ofunctions
CalculateYrt0(double, double, int, double, double) - Static method in class net.simplace.sim.components.models.lintulfast.TrendAndTechnologyFunctions
calcValue(Double, Double[], Double[]) - Method in class net.simplace.sim.components.util.helper.TabulatedValues
calcValue(Double, Double[], Integer[]) - Method in class net.simplace.sim.components.util.helper.TabulatedValues
calcValue(Integer, Integer[], Double[]) - Method in class net.simplace.sim.components.util.helper.TabulatedValues
calcValue(Integer, Integer[], Integer[]) - Method in class net.simplace.sim.components.util.helper.TabulatedValues
calcValue(Number, Number[], String[]) - Method in class net.simplace.sim.components.util.helper.TabulatedValues
calcValue(String, String[], Y[]) - Method in class net.simplace.sim.components.util.helper.TabulatedValues
calcViewFactor(double, double) - Static method in class net.simplace.sim.components.experimental.intercropping.IntercroppingFunctions: Calculates view factor
calcWeightsMatrix(Double[][]) - Static method in class net.simplace.sim.components.experimental.intercropping.IntercroppingFunctions: Divides the elements of a matrix by its total sum and calculates row- and colsums.
CanopyTemperature_hrlyET - Class in net.simplace.sim.components.experimental.canopytemperature
CanopyTemperature_hrlyET() - Constructor for class net.simplace.sim.components.experimental.canopytemperature.CanopyTemperature_hrlyET: Empty constructor used by class.forName()
CanopyTemperature_hrlyET(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.canopytemperature.CanopyTemperature_hrlyET
CapillaryRise(double, int) - Method in class net.simplace.sim.components.soil.pedotransfer.KartierungsanleitungFunctions
CarbonInHumus - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamSoil
Carbonloss - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
CascadingIsUsed - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
CBalance - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Outputs
Cellose1 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Cellose2 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Cellose3 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Cellose4 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
CellosesoilC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
CellosesoilC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
CellosesoilN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
CellosesoilN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
CellosesoilP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.InitialStatesP
CellosesoilP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
CellosesurfC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
CelloseSurfC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
CellosesurfN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
CellosesurfN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
CellosesurfP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.InitialStatesP
CellosesurfP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
Celroot - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamCrop
Celshoot - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamCrop
CENTER - Enum constant in enum class net.simplace.sim.components.util.helper.ArrayHelper.RESAMPLE_MODE
CFlows - Variable in class net.simplace.sim.components.soil.soilcn.calculation.CutbackDecomp: simple strategy called
CFlows - Variable in class net.simplace.sim.components.soil.soilcn.SoilCN
CinLitt - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Cinmicrob - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
CinmicrobP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
CinSoil - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Clay - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamSoil
Clay - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
ClearSkyRadiation(double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Calculates the clear-sky solar radiation when values for a_s and b_s are not available Eq. (37)
ClearSkyRadiationWithAngstromVariables(double, double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Calculates the clear-sky solar radiation when values for a_s and b_s are available Eq. (36)
Clisl - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Clisu - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
clone(FWSimVarMap) - Method in class net.simplace.sim.components.crop.co2.Co2InfluenceOnLUE
clone(FWSimVarMap) - Method in class net.simplace.sim.components.crop.co2.Co2InfluenceOnTranspiration
clone(FWSimVarMap) - Method in class net.simplace.sim.components.crop.heatstress.HeatStressOnGrain: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.crop.heatstress.HeatStressOnLeafSenescence: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.crop.SimpleTranspirationReductionFactor: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.crop.translocation.BiomassTranslocation
clone(FWSimVarMap) - Method in class net.simplace.sim.components.crop.translocation.SeedsToSprouts: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.crop.VernalisationAndPhotoresponse
clone(FWSimVarMap) - Method in class net.simplace.sim.components.evapotran.fao56.CropEvapoTranspirationDualCoeff
clone(FWSimVarMap) - Method in class net.simplace.sim.components.evapotran.fao56.ReferenceETHargreaves
clone(FWSimVarMap) - Method in class net.simplace.sim.components.evapotran.fao56.ReferenceETPM
clone(FWSimVarMap) - Method in class net.simplace.sim.components.evapotran.fao56.ReferenceETPMHourly
clone(FWSimVarMap) - Method in class net.simplace.sim.components.evapotran.ReferenceETPriestleyTaylor
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.amei.DayLength
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.amei.Partitioning
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.amei.Photoperiod
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.amei.Vernalisation
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.canopytemperature.BiomassTranslocationForDrought: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.canopytemperature.CanopyTemperature_hrlyET: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.canopytemperature.CropHeight: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.canopytemperature.HeatStressHourly: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.canopytemperature.HourEvapTran: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.canopytemperature.HourLintulWaterStress
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.canopytemperature.HourlyPenmanEvapTranDemand
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.canopytemperature.Total_LWRad: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.canopytemperature.WindTranslation: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.cropresidues.CropResidues
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.erosion.ErosionFreebairn
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.erosion.ErosionFreebairnAPSIM
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.erosion.ErosionRoseAPSIM
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationDualCoeffHourly
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationDualCoeffPot
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationSoilEvap
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationWaterStress
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.FarmFinance
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.grassland.lintul.LintulBiomass
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.grassland.lintul.LintulPhenology
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.grassland.lintul5.Biomass: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.grassland.lintul5.Phenology: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.intercropping.BelowgroundAllocationFactor
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.intercropping.RadiationInterception
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.intercropping.SplitWaterUptake
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.lintul5.translocation.Biomass: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.lintulcc.HillFlow1DLintulCCDiurnal
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.lintulcc.LintulCC: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.lintulcc.LintulCCDiurnal
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.lintulcc.LintulCCDiurnalCrop
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.lintulcc.LintulCCDiurnalCropOzone
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.lintulcc.PlantSystemConductance
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.livestock.FeedEnergyContent
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.livestock.FeedEnergySupply
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.livestock.FodderConsumption
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.livestock.LivestockEnergyDemand
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.livestock.LivestockEnergyStress
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.livestock.ManureProduction
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.livestock.MethaneEmission
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.livestock.MethaneEmissionLite
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.livestock.MilkProduction
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.livestock.PopulationGrowth
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.livestock.SellOutManagement
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.livestock.WeightAndMeatProduction
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.n2o.N2O
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.n2o.N2Odenit
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.PlantHeightByTemperature
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.runoff.RunoffCurveNumber_ET
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.runoff.RunoffCurveNumber_SW
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.runoff.RunoffCurveNumber
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.runoff.RunoffCurveNumberAPSIM
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.runoff.RunoffSurfaceCover
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.slim.NPKDemandSlimNitrogen
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.slim.NPKDemandSlimNP: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.slim.SlimPhosphorus
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.slim.SlimWater2
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.slim.SlimWater3
clone(FWSimVarMap) - Method in class net.simplace.sim.components.experimental.slim.SlimWater3Modified
clone(FWSimVarMap) - Method in class net.simplace.sim.components.management.Fertilizer: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.management.HarvestKillManagement
clone(FWSimVarMap) - Method in class net.simplace.sim.components.management.NitrogenSurplus: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.management.ReSowManagement: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.management.SimpleAutomaticIrrigation: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.management.SimpleFertilizer: Deprecated.

creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.management.SimpleIrrigation: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.management.tillage.TillageSoilProperties
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.gecros.Gecros
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.gecros.modular.GecrosCrop
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.gecros.modular.GecrosCropLAI
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.gecros.modular.GecrosSoilWater
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul.EvapTran: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul.EvapTranDemand
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul.LintulBiomass
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul.LintulDRUNIR
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul.LintulPartitioning
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul.LintulPhenology
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul.LintulRoot
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul.LintulWaterStress
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul.NitrogenDemand
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul.TemperatureIncrement
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul2.Lintul2: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul5.amei.Biomass
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul5.amei.Irradiation
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul5.amei.NPKDemand
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul5.amei.NPKSupply
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul5.amei.Phenology
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul5.amei.PotentialEvapoTranspiration
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul5.amei.RadiationUseEfficiency
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul5.amei.WaterBalance
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul5.extended.cassava.LayeredWaterAggregatorForCassava: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul5.extended.cassava.Lintul5Cassava: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul5.Irradiation: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul5.Lintul5: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul5.modular.Biomass: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul5.modular.NPK: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul5.modular.NPKDemand: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul5.modular.NPKSupply: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul5.modular.WaterStress
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul5.Phenology: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul5.PotentialEvapoTranspiration: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul5.RadiationUseEfficiency: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintul5.WaterBalance
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.lintulfast.LintulFast: creates a clone from this SimComponent for use in other threads
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.sucros.modular.splitting1.Sucros2Crop
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.sucros.modular.splitting1.Sucros2PotEvapTranWater
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.sucros.modular.splitting2.Sucros2CropPotEvapTran
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.sucros.modular.splitting2.Sucros2EvapTranWater
clone(FWSimVarMap) - Method in class net.simplace.sim.components.models.sucros.Sucros2
clone(FWSimVarMap) - Method in class net.simplace.sim.components.phenology.CustomPhenologyStage
clone(FWSimVarMap) - Method in class net.simplace.sim.components.radiation.fao56.NetRadiationFromAny
clone(FWSimVarMap) - Method in class net.simplace.sim.components.radiation.fao56.NetRadiationFromSolarRadiation
clone(FWSimVarMap) - Method in class net.simplace.sim.components.radiation.fao56.NetRadiationFromSolarRadiationHourly
clone(FWSimVarMap) - Method in class net.simplace.sim.components.radiation.fao56.NetRadiationFromSunHours
clone(FWSimVarMap) - Method in class net.simplace.sim.components.radiation.fao56.SolarRadiationFromTemperature
clone(FWSimVarMap) - Method in class net.simplace.sim.components.soil.hillflow.HillFlow1D
clone(FWSimVarMap) - Method in class net.simplace.sim.components.soil.pedotransfer.Pedotransfer
clone(FWSimVarMap) - Method in class net.simplace.sim.components.soil.slim.ImprovedSoilWater
clone(FWSimVarMap) - Method in class net.simplace.sim.components.soil.slim.SlimNitrogen
clone(FWSimVarMap) - Method in class net.simplace.sim.components.soil.slim.SlimNitrogenLegacy
clone(FWSimVarMap) - Method in class net.simplace.sim.components.soil.slim.SlimRoots
clone(FWSimVarMap) - Method in class net.simplace.sim.components.soil.slim.SlimWater
clone(FWSimVarMap) - Method in class net.simplace.sim.components.soil.soilcn.SoilCN
clone(FWSimVarMap) - Method in class net.simplace.sim.components.soil.soilcn.SoilCNP
clone(FWSimVarMap) - Method in class net.simplace.sim.components.soil.temperature.SnowCoverCalculator
clone(FWSimVarMap) - Method in class net.simplace.sim.components.soil.temperature.STMPsimCalculator
clone(FWSimVarMap) - Method in class net.simplace.sim.components.util.ArrayResampler
clone(FWSimVarMap) - Method in class net.simplace.sim.components.util.InterpolatedValueFromTable
clone(FWSimVarMap) - Method in class net.simplace.sim.components.util.LinearTransformArray
clone(FWSimVarMap) - Method in class net.simplace.sim.components.util.SimpleCounter
clone(FWSimVarMap) - Method in class net.simplace.sim.components.util.SimpleMovingAverage
clone(FWSimVarMap) - Method in class net.simplace.sim.components.util.ValueToTableConverter
clone(FWSimVarMap) - Method in class net.simplace.sim.components.vapourpressure.fao56.Vapourpressure
clone(FWSimVarMap) - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromAny
clone(FWSimVarMap) - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromDewPoint
clone(FWSimVarMap) - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourPressureFromPsychrometricData
clone(FWSimVarMap) - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromRelHumidityMax
clone(FWSimVarMap) - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromRelHumidityMaxMin
clone(FWSimVarMap) - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromRelHumidityMean
Cmtsl - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Cmtsu - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
CN(double) - Static method in class net.simplace.sim.components.experimental.runoff.CNEquations: Curve number calculated from the retention parameter (this is SWAT2009 eq. 2:1.1.2 rearranged).
CN2s(double, double) - Static method in class net.simplace.sim.components.experimental.runoff.CNEquations: Slope adjustment of curve number 2 SWAT2009 eq. 2:1.1.12
CN2slope(double, Double) - Static method in class net.simplace.sim.components.experimental.runoff.CNEquations: Slope adjustment of curve number 2 - if slope is null, no correction is made
CNEquations - Class in net.simplace.sim.components.experimental.runoff: Shared equations for the components calculating runoff using the SCS curve number method and variants thereof.
CNEquations() - Constructor for class net.simplace.sim.components.experimental.runoff.CNEquations
CNSoil - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
Co2_1 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Co2_10 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Co2_11 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Co2_12 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Co2_13 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Co2_2 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Co2_3 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Co2_4 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Co2_5 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Co2_6 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Co2InfluenceOnLUE - Class in net.simplace.sim.components.crop.co2: Calculates LUE in dependence of $CO_2$ concentration in the atmosphere.
Co2InfluenceOnLUE() - Constructor for class net.simplace.sim.components.crop.co2.Co2InfluenceOnLUE: Empty constructor used by class.forName()
Co2InfluenceOnTranspiration - Class in net.simplace.sim.components.crop.co2: Reduces the Transpiration due to increasing $CO_2$ concentration in the atmosphere WIKI_START === $CO_2$ calculation === The actual $CO_2$ concentration in the atmosphere is calculated by a linear function based on the $CO_2$ concentration (`cStartValue`) in the start year (`cStartYear`) and the slope (`cSlope`).
Co2InfluenceOnTranspiration() - Constructor for class net.simplace.sim.components.crop.co2.Co2InfluenceOnTranspiration: Empty constructor used by class.forName()
combineData(String, String, String, int, String) - Static method in class net.simplace.sim.components.util.helper.CombineData
CombineData - Class in net.simplace.sim.components.util.helper
CombineData() - Constructor for class net.simplace.sim.components.util.helper.CombineData
combineFiles(String, String, boolean, String) - Static method in class net.simplace.sim.components.util.helper.CombineData
ComparableWeatherEntry - Class in net.simplace.sim.components.util.helper.diurnal: Objects for sortable weather entries Holds date, minTemp, maxTemp, radiation and key value Implements compareTo by comparing the dates.
ComparableWeatherEntry(LocalDateTime, double, double, double, Object) - Constructor for class net.simplace.sim.components.util.helper.diurnal.ComparableWeatherEntry
compareTo(ComparableWeatherEntry) - Method in class net.simplace.sim.components.util.helper.diurnal.ComparableWeatherEntry
ConcentrationFromAmount(Double[], Double[], Double[]) - Static method in class net.simplace.sim.components.experimental.slim.SlimPhosphorusFunctions: Calculates P-concentration from P-amount in all layers.
ConcentrationFromAmount(Double, Double, Double) - Static method in class net.simplace.sim.components.experimental.slim.SlimPhosphorusFunctions: Calculates P-concentration from P-amount for one layer.
convertToBBCH(double) - Static method in class net.simplace.sim.components.phenology.DvsBbchTranslator
convertToDVS(int) - Static method in class net.simplace.sim.components.phenology.DvsBbchTranslator
CoutSoil - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
coverageOfLayers(Double[], double) - Static method in class net.simplace.sim.components.util.helper.ArrayHelper
coverFractionFromLAIandResidues(double, double, double) - Static method in class net.simplace.sim.components.experimental.erosion.ErosionFunctions: Calculates fraction of covered soil from LAI and crop residues Equation from EPIC documentation
coverIndexFromLAIandResidues(double, double, double) - Static method in class net.simplace.sim.components.experimental.erosion.ErosionFunctions: Calculates soil cover index from LAI and crop residues Equation from EPIC documentation
Cpas - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
CPools - Variable in class net.simplace.sim.components.soil.soilcn.SoilCN
CPSoil - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
createEmptyLayers(States, Rates, Outputs) - Method in class net.simplace.sim.components.soil.soilcn.SoilCN: initialise the number of soil layers
createEmptyLayers(StatesP, RatesP, OutputsP) - Method in class net.simplace.sim.components.soil.soilcn.SoilCNP: initialise the number of soil layers
createHillflow1DBasic(FWSimComponent) - Static method in class net.simplace.sim.components.experimental.lintulcc.SimVariableCreation
createHillflow1DPsiLeafExtended(FWSimComponent) - Static method in class net.simplace.sim.components.experimental.lintulcc.SimVariableCreation
createLintulCCAdditionalCropParameters(FWSimComponent) - Static method in class net.simplace.sim.components.experimental.lintulcc.SimVariableCreation
createLintulCCBasic(FWSimComponent) - Static method in class net.simplace.sim.components.experimental.lintulcc.SimVariableCreation
createLintulCCDaily(FWSimComponent) - Static method in class net.simplace.sim.components.experimental.lintulcc.SimVariableCreation
createLintulCCDiurnal(FWSimComponent) - Static method in class net.simplace.sim.components.experimental.lintulcc.SimVariableCreation
createLintulCCDiurnalCrop(FWSimComponent) - Static method in class net.simplace.sim.components.experimental.lintulcc.SimVariableCreation
createLintulCCDiurnalCropForHillflow(FWSimComponent) - Static method in class net.simplace.sim.components.experimental.lintulcc.SimVariableCreation
createLintulCCDiurnalCropForHillflowExtended(FWSimComponent) - Static method in class net.simplace.sim.components.experimental.lintulcc.SimVariableCreation
createLintulCCDiurnalInOutPart(FWSimComponent) - Static method in class net.simplace.sim.components.experimental.lintulcc.SimVariableCreation
createLintulCCOzonePart(FWSimComponent) - Static method in class net.simplace.sim.components.experimental.lintulcc.SimVariableCreation
createLintulCCSoilPropertiesPart(FWSimComponent) - Static method in class net.simplace.sim.components.experimental.lintulcc.SimVariableCreation
createLintulCCWaterBalancePart(FWSimComponent) - Static method in class net.simplace.sim.components.experimental.lintulcc.SimVariableCreation
createVariables() - Method in class net.simplace.sim.components.crop.co2.Co2InfluenceOnLUE: create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.crop.co2.Co2InfluenceOnTranspiration: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.crop.heatstress.HeatStressOnGrain
createVariables() - Method in class net.simplace.sim.components.crop.heatstress.HeatStressOnLeafSenescence
createVariables() - Method in class net.simplace.sim.components.crop.SimpleTranspirationReductionFactor
createVariables() - Method in class net.simplace.sim.components.crop.translocation.BiomassTranslocation
createVariables() - Method in class net.simplace.sim.components.crop.translocation.SeedsToSprouts
createVariables() - Method in class net.simplace.sim.components.crop.VernalisationAndPhotoresponse: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.evapotran.fao56.CropEvapoTranspirationDualCoeff: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.evapotran.fao56.ReferenceETHargreaves: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.evapotran.fao56.ReferenceETPM: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.evapotran.fao56.ReferenceETPMHourly: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.evapotran.ReferenceETPriestleyTaylor: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.amei.DayLength: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.amei.Partitioning: create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.amei.Photoperiod: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.amei.Vernalisation: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.canopytemperature.BiomassTranslocationForDrought
createVariables() - Method in class net.simplace.sim.components.experimental.canopytemperature.CanopyTemperature_hrlyET
createVariables() - Method in class net.simplace.sim.components.experimental.canopytemperature.CropHeight
createVariables() - Method in class net.simplace.sim.components.experimental.canopytemperature.HeatStressHourly
createVariables() - Method in class net.simplace.sim.components.experimental.canopytemperature.HourEvapTran: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.canopytemperature.HourLintulWaterStress: create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.canopytemperature.HourlyPenmanEvapTranDemand: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.canopytemperature.Total_LWRad
createVariables() - Method in class net.simplace.sim.components.experimental.canopytemperature.WindTranslation
createVariables() - Method in class net.simplace.sim.components.experimental.cropresidues.CropResidues: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.erosion.ErosionFreebairn
createVariables() - Method in class net.simplace.sim.components.experimental.erosion.ErosionFreebairnAPSIM
createVariables() - Method in class net.simplace.sim.components.experimental.erosion.ErosionRoseAPSIM
createVariables() - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationDualCoeffHourly: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationDualCoeffPot: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationSoilEvap: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationWaterStress: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.FarmFinance: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.grassland.lintul.LintulBiomass: create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.grassland.lintul.LintulPhenology: create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.grassland.lintul5.Biomass: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.grassland.lintul5.Phenology
createVariables() - Method in class net.simplace.sim.components.experimental.intercropping.BelowgroundAllocationFactor
createVariables() - Method in class net.simplace.sim.components.experimental.intercropping.RadiationInterception
createVariables() - Method in class net.simplace.sim.components.experimental.intercropping.SplitWaterUptake
createVariables() - Method in class net.simplace.sim.components.experimental.lintul5.translocation.Biomass: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.lintulcc.HillFlow1DLintulCCDiurnal: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.lintulcc.LintulCC: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.lintulcc.LintulCCDiurnal: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.lintulcc.LintulCCDiurnalCrop: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.lintulcc.LintulCCDiurnalCropOzone: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.lintulcc.PlantSystemConductance: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.livestock.FeedEnergyContent: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.livestock.FeedEnergySupply: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.livestock.FodderConsumption: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.livestock.LivestockEnergyDemand: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.livestock.LivestockEnergyStress: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.livestock.ManureProduction: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.livestock.MethaneEmission: Taken from IPCC Report 2006 Vol 4, Chapter 10: Emissions from Livestock and Manure Management: V4_10_Ch10_Livestock.pdf Emission factor development An emission factor for each animal category was developed following Equation 10.21: EQUATION 10.21 CH4 EMISSION FACTORS FOR ENTERIC FERMENTATION FROM A LIVESTOCK CATEGORY EF = (GE * (Ym / 100) / 55.56 Where: EF = emission factor, kg CH4 head-1 yr-1 GE = gross energy intake, MJ head-1 day-1 Ym = methane conversion factor, per cent of gross energy in feed converted to methane The factor 55.65 (MJ/kg CH4) is the energy content of methane This emission factor equation assumes that the emission factors are being developed for an animal category for an entire year (365 days).
createVariables() - Method in class net.simplace.sim.components.experimental.livestock.MethaneEmissionLite
createVariables() - Method in class net.simplace.sim.components.experimental.livestock.MilkProduction: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.livestock.PopulationGrowth: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.livestock.SellOutManagement: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.livestock.WeightAndMeatProduction: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.n2o.N2O: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.n2o.N2Odenit: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.PlantHeightByTemperature: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.runoff.RunoffCurveNumber_ET: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.runoff.RunoffCurveNumber_SW: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.runoff.RunoffCurveNumber: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.runoff.RunoffCurveNumberAPSIM: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.runoff.RunoffSurfaceCover: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.slim.NPKDemandSlimNitrogen: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.slim.NPKDemandSlimNP: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.experimental.slim.SlimPhosphorus
createVariables() - Method in class net.simplace.sim.components.experimental.slim.SlimWater2
createVariables() - Method in class net.simplace.sim.components.experimental.slim.SlimWater3
createVariables() - Method in class net.simplace.sim.components.experimental.slim.SlimWater3Modified
createVariables() - Method in class net.simplace.sim.components.management.Fertilizer
createVariables() - Method in class net.simplace.sim.components.management.HarvestKillManagement
createVariables() - Method in class net.simplace.sim.components.management.NitrogenSurplus
createVariables() - Method in class net.simplace.sim.components.management.ReSowManagement
createVariables() - Method in class net.simplace.sim.components.management.SimpleAutomaticIrrigation
createVariables() - Method in class net.simplace.sim.components.management.SimpleFertilizer: Deprecated.
createVariables() - Method in class net.simplace.sim.components.management.SimpleIrrigation
createVariables() - Method in class net.simplace.sim.components.management.tillage.TillageSoilProperties
createVariables() - Method in class net.simplace.sim.components.models.gecros.Gecros: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.gecros.modular.GecrosCrop: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.gecros.modular.GecrosCropLAI: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.gecros.modular.GecrosSoilWater: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.lintul.EvapTran: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.lintul.EvapTranDemand: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.lintul.LintulBiomass: create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.lintul.LintulDRUNIR
createVariables() - Method in class net.simplace.sim.components.models.lintul.LintulPartitioning: create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.lintul.LintulPhenology: create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.lintul.LintulRoot: create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.lintul.LintulWaterStress: create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.lintul.NitrogenDemand: create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.lintul.TemperatureIncrement: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.lintul2.Lintul2: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.lintul5.amei.Biomass: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.lintul5.amei.Irradiation
createVariables() - Method in class net.simplace.sim.components.models.lintul5.amei.NPKDemand: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.lintul5.amei.NPKSupply: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.lintul5.amei.Phenology
createVariables() - Method in class net.simplace.sim.components.models.lintul5.amei.PotentialEvapoTranspiration
createVariables() - Method in class net.simplace.sim.components.models.lintul5.amei.RadiationUseEfficiency
createVariables() - Method in class net.simplace.sim.components.models.lintul5.amei.WaterBalance: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.lintul5.extended.cassava.LayeredWaterAggregatorForCassava: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.lintul5.extended.cassava.Lintul5Cassava: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.lintul5.Irradiation
createVariables() - Method in class net.simplace.sim.components.models.lintul5.Lintul5: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.lintul5.modular.Biomass: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.lintul5.modular.NPK: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.lintul5.modular.NPKDemand: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.lintul5.modular.NPKSupply: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.lintul5.modular.WaterStress: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.lintul5.Phenology
createVariables() - Method in class net.simplace.sim.components.models.lintul5.PotentialEvapoTranspiration
createVariables() - Method in class net.simplace.sim.components.models.lintul5.RadiationUseEfficiency
createVariables() - Method in class net.simplace.sim.components.models.lintul5.WaterBalance: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.lintulfast.LintulFast: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.sucros.modular.splitting1.Sucros2Crop: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.sucros.modular.splitting1.Sucros2PotEvapTranWater: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.sucros.modular.splitting2.Sucros2CropPotEvapTran: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.sucros.modular.splitting2.Sucros2EvapTranWater: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.models.sucros.Sucros2: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.phenology.CustomPhenologyStage: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.radiation.fao56.NetRadiationFromAny: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.radiation.fao56.NetRadiationFromSolarRadiation: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.radiation.fao56.NetRadiationFromSolarRadiationHourly: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.radiation.fao56.NetRadiationFromSunHours: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.radiation.fao56.SolarRadiationFromTemperature: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.soil.hillflow.HillFlow1D: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.soil.pedotransfer.Pedotransfer
createVariables() - Method in class net.simplace.sim.components.soil.slim.ImprovedSoilWater
createVariables() - Method in class net.simplace.sim.components.soil.slim.SlimNitrogen
createVariables() - Method in class net.simplace.sim.components.soil.slim.SlimNitrogenLegacy
createVariables() - Method in class net.simplace.sim.components.soil.slim.SlimRoots: create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.soil.slim.SlimWater
createVariables() - Method in class net.simplace.sim.components.soil.soilcn.SoilCN
createVariables() - Method in class net.simplace.sim.components.soil.soilcn.SoilCNP
createVariables() - Method in class net.simplace.sim.components.soil.temperature.SnowCoverCalculator: create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.soil.temperature.STMPsimCalculator: create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.util.ArrayResampler: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.util.InterpolatedValueFromTable: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.util.LinearTransformArray: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.util.SimpleCounter: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.util.SimpleMovingAverage: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.util.ValueToTableConverter: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.vapourpressure.fao56.Vapourpressure: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromAny: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromDewPoint: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourPressureFromPsychrometricData: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromRelHumidityMax: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromRelHumidityMaxMin: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromRelHumidityMean: Create the FWSimVariables as interface for this SimComponent
createVariables() - Method in class net.simplace.sim.control.generators.LHSSimGenerator
createVariables() - Method in class net.simplace.sim.control.generators.MCMCGenerator
createVariables() - Method in class net.simplace.sim.control.generators.RandomSimGenerator
createVariables() - Method in class net.simplace.sim.transformers.AstronomicParametersTransformer
createVariables() - Method in class net.simplace.sim.transformers.DayLengthTransformer
createVariables() - Method in class net.simplace.sim.transformers.DiurnalSineWeatherTransformer
createVariables() - Method in class net.simplace.sim.transformers.LayerAggregationTransformer
createVariables() - Method in class net.simplace.sim.transformers.LinearRegressionTransformer
createVariables() - Method in class net.simplace.sim.transformers.MissingDataTransformer
createVariables() - Method in class net.simplace.sim.transformers.NetRadiationFromAnyTransformer
createVariables() - Method in class net.simplace.sim.transformers.PedotransferTransformer
createVariables() - Method in class net.simplace.sim.transformers.SlimAlfaTransformer
createVariables() - Method in class net.simplace.sim.transformers.SoilLayerTransformer
createVariables() - Method in class net.simplace.sim.transformers.SoilLayerTransformerLegacy
createVariables(HashMap<String, FWSimVariable<?>>, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjects.Auxiliary: create the FWSimVariables as interface for this SimComponent
createVariables(HashMap<String, FWSimVariable<?>>, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
createVariables(HashMap<String, FWSimVariable<?>>, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjects.Inputs
createVariables(HashMap<String, FWSimVariable<?>>, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjects.Outputs
createVariables(HashMap<String, FWSimVariable<?>>, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamC
createVariables(HashMap<String, FWSimVariable<?>>, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamCrop
createVariables(HashMap<String, FWSimVariable<?>>, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamN
createVariables(HashMap<String, FWSimVariable<?>>, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamSoil
createVariables(HashMap<String, FWSimVariable<?>>, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamTillage
createVariables(HashMap<String, FWSimVariable<?>>, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
createVariables(HashMap<String, FWSimVariable<?>>, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjects.States
createVariables(HashMap<String, FWSimVariable<?>>, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjectsP.InitialStatesP
createVariables(HashMap<String, FWSimVariable<?>>, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjectsP.InputsP
createVariables(HashMap<String, FWSimVariable<?>>, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjectsP.OutputsP
createVariables(HashMap<String, FWSimVariable<?>>, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjectsP.ParamP
createVariables(HashMap<String, FWSimVariable<?>>, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
createVariables(HashMap<String, FWSimVariable<?>>, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
Critinflow - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamN
CritinflowP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.ParamP
CropEvapoTranspirationDualCoeff - Class in net.simplace.sim.components.evapotran.fao56: This SimComponent calculates the potential rates of crop transpiration and soil evaporation following the methods described in the FAO-56 bulletin (Allen et al., 1998).
CropEvapoTranspirationDualCoeff() - Constructor for class net.simplace.sim.components.evapotran.fao56.CropEvapoTranspirationDualCoeff: Empty constructor used by class.forName()
CropEvapoTranspirationDualCoeffHourly - Class in net.simplace.sim.components.experimental.fao56: Calculates the basal crop coefficient and the soil evaporation coefficient, as well as potential crop transpiration and potential soil evaporation using formulas from (FAO 56).
CropEvapoTranspirationDualCoeffHourly() - Constructor for class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationDualCoeffHourly: Empty constructor used by class.forName()
CropEvapoTranspirationDualCoeffPot - Class in net.simplace.sim.components.experimental.fao56: Calculates the basal crop coefficient and the soil evaporation coefficient, as well as potential crop transpiration and potential soil evaporation using formulas from (FAO 56).
CropEvapoTranspirationDualCoeffPot() - Constructor for class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationDualCoeffPot: Empty constructor used by class.forName()
CropEvapoTranspirationSoilEvap - Class in net.simplace.sim.components.experimental.fao56: Calculates the soil evaporation reduction coefficient K_r using formulas from (FAO 56).
CropEvapoTranspirationSoilEvap() - Constructor for class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationSoilEvap: Empty constructor used by class.forName()
CropEvapoTranspirationWaterStress - Class in net.simplace.sim.components.experimental.fao56: Calculates the water stress coefficient K_s using formulas from (FAO 56).
CropEvapoTranspirationWaterStress() - Constructor for class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationWaterStress: Empty constructor used by class.forName()
CropHeight - Class in net.simplace.sim.components.experimental.canopytemperature
CropHeight() - Constructor for class net.simplace.sim.components.experimental.canopytemperature.CropHeight: Empty constructor used by class.forName()
CropHeight(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.canopytemperature.CropHeight
CropID - Static variable in class net.simplace.sim.components.management.NitrogenSurplus
CropResidues - Class in net.simplace.sim.components.experimental.cropresidues: Adds living biomass to dead biomass rates when plant dies or is partially harvested Adds leaves and/or stems to storage organs for yield if provided WIKI_START The component takes daily dead plant biomass (leaves, stems, storage organs, roots) and adds actual living biomass (green leaves, stems, storage organs, roots) to the rates when plant is killed or when parts of the plant are not removed on harvest (by default the roots).
CropResidues() - Constructor for class net.simplace.sim.components.experimental.cropresidues.CropResidues: Empty constructor used by class.forName()
Cslo - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Cstsl - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Cstsu - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
CummulatedDeadPlantN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Outputs
CummulatedDeadPlantP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.OutputsP
CummulatedLossMineralN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Outputs
CummulatedLossMineralP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.OutputsP
currentDay - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
CustomPhenologyStage - Class in net.simplace.sim.components.phenology: Outputs the Date/DOY when an user defined DVS is reached WIKI_START == Stage calculation == The module takes an arbitrary value for development stage as paramer `cStageDVS` and the actual development as an input `iDVS`.
CustomPhenologyStage() - Constructor for class net.simplace.sim.components.phenology.CustomPhenologyStage: Empty constructor used by class.forName()
Cutback - Variable in class net.simplace.sim.components.soil.soilcn.SoilCN
CutbackDecomp - Class in net.simplace.sim.components.soil.soilcn.calculation: CutbackDecomp strategy calculates a cutback of the decomposition in case of a lack of inorganic nitrogen
CutbackDecomp() - Constructor for class net.simplace.sim.components.soil.soilcn.calculation.CutbackDecomp
CuttingRate(double, double, double, double, double, boolean, boolean) - Static method in class net.simplace.sim.components.models.lintul5.extended.cassava.LintulCassavaFunctions
cyclic(Integer, Integer, Integer) - Method in class net.simplace.sim.components.util.SimpleCounter

D

DailyNleach - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
DailyPleach - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
DailyTotalIrradiation(int, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.amei.LintulFunctions: Computes daily total irradiation
DailyTotalIrradiation(int, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.LintulFunctions: Computes daily total irradiation
DataTransformHelper - Class in net.simplace.sim.components.util.helper: Methods for interpolating and integrating piecewise linear functions WIKI_START Functions are given by arrays of x and y values.
DataTransformHelper() - Constructor for class net.simplace.sim.components.util.helper.DataTransformHelper
date - Variable in class net.simplace.sim.components.util.helper.diurnal.ComparableWeatherEntry
DayLength - Class in net.simplace.sim.components.experimental.amei: Calculates the day length from physical dependences with the latitude only.
DayLength() - Constructor for class net.simplace.sim.components.experimental.amei.DayLength: Empty constructor used by class.forName()
DayLength(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.amei.DayLength: Called by Clone method only
DayLengthTransformer - Class in net.simplace.sim.transformers: Calculates the Daylengths for a given latitude.
DayLengthTransformer(FWSimSession, Integer) - Constructor for class net.simplace.sim.transformers.DayLengthTransformer
DayLengthTransformer(FWSimSession, Element, Integer) - Constructor for class net.simplace.sim.transformers.DayLengthTransformer
DaylightHours(double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Dayligth hours Eq. (34)
DeadBiomassCRatio - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamC
DeadBiomassNCRatio - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamN
DeadBiomassPCRatio - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.ParamP
deadbranch - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
deadbranchN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
deadbranchP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
deadleafN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
deadleafP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
deadleaves - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
DeadLeaves - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Inputs
DeadLeavesC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Inputs
DeadLeavesN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Inputs
DeadLeavesP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.InputsP
deadrootN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
deadrootP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
deadroots - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
DeadRoots - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Inputs
DeadRootsC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Inputs
DeadRootsN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Inputs
DeadRootsP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.InputsP
DeadRootsStemsRate(double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.amei.LintulFunctions: Computes the N/P/K losses due to death of leaves, stems and roots
DeadRootsStemsRate(double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.LintulFunctions: Computes the N/P/K losses due to death of leaves, stems and roots
deadstemN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
deadstemP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
deadstems - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
DeadStems - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Inputs
DeadStemsC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Inputs
DeadStemsN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Inputs
DeadStemsP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.InputsP
DEATHL(double, boolean, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.amei.LintulFunctions: Computes the relative death rate (d-1) of leaves due to age, shading and drought and due to nutrient (NPK) stress and the death rate of leaves in total
DEATHL(double, boolean, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.LintulFunctions: Computes the relative death rate (d-1) of leaves due to age, shading and drought and due to nutrient (NPK) stress and the death rate of leaves in total
DEATHL(double, boolean, double, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.LintulFunctions: Computes the relative death rate (d-1) of leaves due to age, shading and drought and due to nutrient (NPK) stress and the death rate of leaves in total
DEATHLCassava(double, boolean, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, boolean, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.extended.cassava.LintulCassavaFunctions
DecimalDegreesToRadians(double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Convert decimal degrees to radians Eq. (22)
degreeFromRadiant(double) - Static method in class net.simplace.sim.components.experimental.erosion.ErosionFunctions: Convert from radiant to angular degrees
DeltaNinorg - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
DeltaPinorgSol - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
depth(Double[], int) - Static method in class net.simplace.sim.components.util.helper.ArrayHelper: Returns the depth of the bottom border of a layer Deals also with layernr that are out of the layers bounds.
depthOfLayers(Double[]) - Static method in class net.simplace.sim.components.util.helper.ArrayHelper: Calculates depths of layer from given thickness per layer
depthOfLayers(Double[], double) - Static method in class net.simplace.sim.components.util.helper.ArrayHelper: Calculates the depth of layers from thickness of each layer up to maxdepth Once maxdepth is reached, all following layer depths are set to maxdepth
DiurnalPenman - Class in net.simplace.sim.components.experimental.canopytemperature
DiurnalPenman() - Constructor for class net.simplace.sim.components.experimental.canopytemperature.DiurnalPenman
DiurnalSineWeatherTransformer - Class in net.simplace.sim.transformers: Transforms daily radiation and temperature to diurnal values using sine curves.
DiurnalSineWeatherTransformer(FWSimSession, Integer) - Constructor for class net.simplace.sim.transformers.DiurnalSineWeatherTransformer
DiurnalSineWeatherTransformer(FWSimSession, Element, Integer) - Constructor for class net.simplace.sim.transformers.DiurnalSineWeatherTransformer
DiurnalWeatherCalculator - Class in net.simplace.sim.components.util.helper.diurnal: Abstract class for calculating diurnal weather values.
DiurnalWeatherCalculator() - Constructor for class net.simplace.sim.components.util.helper.diurnal.DiurnalWeatherCalculator
DiurnalWeatherCalculatorSinbeta - Class in net.simplace.sim.components.util.helper.diurnal: Calculates diurnal values for temperature and radiation using SinBeta curve Temperature is calculated according to [G] Radiation is calculated according to [G] Reference: (G) Goudriaan, Modeling Potential Crop Growth Processes, 1994, (revised version Nov. 2004)
DiurnalWeatherCalculatorSinbeta() - Constructor for class net.simplace.sim.components.util.helper.diurnal.DiurnalWeatherCalculatorSinbeta
DiurnalWeatherCalculatorSinbetaEffective - Class in net.simplace.sim.components.util.helper.diurnal: Calculates diurnal values for temperature and radiation using SinBeta*(1+0.4*SinBeta) curve Temperature is calculated according to [G] Radiation is calculated according to [G] Reference: (G) Goudriaan, Modeling Potential Crop Growth Processes, 1994, (revised version Nov. 2004)
DiurnalWeatherCalculatorSinbetaEffective() - Constructor for class net.simplace.sim.components.util.helper.diurnal.DiurnalWeatherCalculatorSinbetaEffective
DiurnalWeatherCalculatorSine - Class in net.simplace.sim.components.util.helper.diurnal: Calculates diurnal values for temperature and radiation using sine curve Temperature is calculated according to [G] Radiation is calculated using simple sine curve Reference: (G) Goudriaan, Modeling Potential Crop Growth Processes, 1994, (revised version Nov. 2004)
DiurnalWeatherCalculatorSine() - Constructor for class net.simplace.sim.components.util.helper.diurnal.DiurnalWeatherCalculatorSine
DiurnalWeatherHelper - Class in net.simplace.sim.components.util.helper.diurnal: Methods for calculating daylength and diurnal values WIKI_START Includes methods for integration/normalization/rescaling of piecewise linear functions, as well as methods for calculating diurnal values for radiation and temperature. == Reference == (G) Goudriaan, Modeling Potential Crop Growth Processes, 1994, (revised version Nov. 2004) WIKI_END
DiurnalWeatherHelper() - Constructor for class net.simplace.sim.components.util.helper.diurnal.DiurnalWeatherHelper
DormancyConditions(double, double, double, double, double, double, double, double, double, double, double, double, double, double, boolean, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.extended.cassava.LintulCassavaFunctions
DormancyDurationRate(boolean) - Static method in class net.simplace.sim.components.models.lintul5.extended.cassava.LintulCassavaFunctions
DormancyRates(double, double, double, double, double, double, boolean, boolean, boolean, boolean, boolean) - Static method in class net.simplace.sim.components.models.lintul5.extended.cassava.LintulCassavaFunctions
DormancyRecoverTsumRate(double, double, boolean, boolean) - Static method in class net.simplace.sim.components.models.lintul5.extended.cassava.LintulCassavaFunctions
DormancyTsumRate(double, double, boolean, boolean) - Static method in class net.simplace.sim.components.models.lintul5.extended.cassava.LintulCassavaFunctions
DRUNIR(double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul2.Lintul2Functions
DRUNIR(double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintulfast.LintulFastFunctions
DvsBbchTranslator - Class in net.simplace.sim.components.phenology
DvsBbchTranslator() - Constructor for class net.simplace.sim.components.phenology.DvsBbchTranslator

E

EquationsFAO56 - Class in net.simplace.sim.components.util.helper: Helper EquationsFAO56 for computing values due to equations from (FAO 56) WIKI_START Equation numbers refers to the paper cited below. == References == - [http://www.fao.org/docrep/x0490e/x0490e00.htm (FAO 56): Allen, Crop evapotranspiration - Guidelines for computing crop water requirements - FAO Irrigation and drainage paper 56, 1998] - (Harrison) Harrison, L.P. 1963.
EquationsFAO56() - Constructor for class net.simplace.sim.components.util.helper.EquationsFAO56
ErosionFreebairn - Class in net.simplace.sim.components.experimental.erosion: WIKI_START WIKI_END
ErosionFreebairn() - Constructor for class net.simplace.sim.components.experimental.erosion.ErosionFreebairn
ErosionFreebairn(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.erosion.ErosionFreebairn
ErosionFreebairn(double, double, double, double, double, double) - Static method in class net.simplace.sim.components.experimental.erosion.ErosionFunctions: Calculates erosion with Freebairn equation
ErosionFreebairnAPSIM - Class in net.simplace.sim.components.experimental.erosion: WIKI_START This !
ErosionFreebairnAPSIM() - Constructor for class net.simplace.sim.components.experimental.erosion.ErosionFreebairnAPSIM
ErosionFreebairnAPSIM(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.erosion.ErosionFreebairnAPSIM
ErosionFunctions - Class in net.simplace.sim.components.experimental.erosion
ErosionFunctions() - Constructor for class net.simplace.sim.components.experimental.erosion.ErosionFunctions
ErosionRose(double, double, double, double) - Static method in class net.simplace.sim.components.experimental.erosion.ErosionFunctions: Calculates erosion with Rose equation
ErosionRoseAPSIM - Class in net.simplace.sim.components.experimental.erosion: WIKI_START This !
ErosionRoseAPSIM() - Constructor for class net.simplace.sim.components.experimental.erosion.ErosionRoseAPSIM
ErosionRoseAPSIM(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.erosion.ErosionRoseAPSIM
et() - Method in class net.simplace.sim.components.experimental.lintulcc.HillFlow1DLintulCCDiurnal
EvaporationEquivalentToRadiation(double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Converts radiation [energy/surface] to equivalent evaporation [depth of water] Eq. (20)
EvaporationEquivalentToRadiation(double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Converts radiation [energy/surface] to equivalent evaporation [depth of water] Correction by daily mean temperature (for 21.18°C it yields a conversion factor of 0.408) See (Harrison)
EvaporationReduction() - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationSoilEvap: Calculates K_r.
EVAPTR(double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul2.Lintul2Functions
EVAPTR(double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintulfast.LintulFastFunctions
EvapTran - Class in net.simplace.sim.components.models.lintul: EvapTran.java estimates the potential actual crop transpiration and soil evaporation WIKI_START EvapTran.java estimates the potential actual crop transpiration and soil evaporation based on the potential values considering the crop available soil water content and the crop water demand at a given day as a function of LAI .
EvapTran() - Constructor for class net.simplace.sim.components.models.lintul.EvapTran: Empty constructor used by class.forName()
EvapTranDemand - Class in net.simplace.sim.components.models.lintul: EvapTranDemand.java estimates the potential crop transpiration and potential soil evaporation WIKI_START `EvapTranDemand.java` estimates the potential crop transpiration and potential soil evaporation either from daily reference ET (REFET) measurements which are specified by the user or by a modified PENMAN approach. === Reference ET measurements (Citation to this section not found) === This approach assumes that daily observations of a reference ET (r.g.
EvapTranDemand() - Constructor for class net.simplace.sim.components.models.lintul.EvapTranDemand: Empty constructor used by class.forName()
ExposedAndWettedSoilFraction(double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Exposed and wetted soil fraction Eq. (75)
Extract1 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Extract2 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Extract3 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Extract4 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
ExtraterrestrialRadiation(double, double, double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Calculates extraterrestrial radiation Eq. (21)
ExtraterrestrialRadiationDiurnal(double, double, double, double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Diurnal extraterrestrial radiation Eq. (29(

F

FarmFinance - Class in net.simplace.sim.components.experimental
FarmFinance() - Constructor for class net.simplace.sim.components.experimental.FarmFinance: Empty constructor used by class.forName()
FeedEnergyContent - Class in net.simplace.sim.components.experimental.livestock
FeedEnergyContent() - Constructor for class net.simplace.sim.components.experimental.livestock.FeedEnergyContent: Empty constructor used by class.forName()
FeedEnergySupply - Class in net.simplace.sim.components.experimental.livestock
FeedEnergySupply() - Constructor for class net.simplace.sim.components.experimental.livestock.FeedEnergySupply: Empty constructor used by class.forName()
Fertilizer - Class in net.simplace.sim.components.management: The purpose of this sim-component is to calculate the amount of major nutrients, e.g.,organic C, organic N, ammonium, phosphorus and potassium released from applied solid manure.
Fertilizer() - Constructor for class net.simplace.sim.components.management.Fertilizer: Empty constructor used by class.forName()
Fertilizer(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.management.Fertilizer
FertilizerMinus - Static variable in class net.simplace.sim.components.management.NitrogenSurplus
FertilizerOrganicC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Inputs
FertilizerOrganicN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Inputs
FertilizerOrganicP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.InputsP
FertilizerPlus - Static variable in class net.simplace.sim.components.management.NitrogenSurplus
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.crop.co2.Co2InfluenceOnLUE: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.crop.co2.Co2InfluenceOnTranspiration: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.crop.heatstress.HeatStressOnGrain: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.crop.heatstress.HeatStressOnLeafSenescence: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.crop.SimpleTranspirationReductionFactor: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.crop.translocation.BiomassTranslocation: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.crop.translocation.SeedsToSprouts: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.crop.VernalisationAndPhotoresponse: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.evapotran.fao56.CropEvapoTranspirationDualCoeff: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.evapotran.fao56.ReferenceETHargreaves: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.evapotran.fao56.ReferenceETPM: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.evapotran.fao56.ReferenceETPMHourly: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.evapotran.ReferenceETPriestleyTaylor: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.amei.DayLength: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.amei.Partitioning: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.amei.Photoperiod: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.amei.Vernalisation: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.canopytemperature.BiomassTranslocationForDrought: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.canopytemperature.CanopyTemperature_hrlyET: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.canopytemperature.CropHeight: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.canopytemperature.HeatStressHourly: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.canopytemperature.HourEvapTran: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.canopytemperature.HourLintulWaterStress: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.canopytemperature.HourlyPenmanEvapTranDemand: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.canopytemperature.Total_LWRad: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.canopytemperature.WindTranslation: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.cropresidues.CropResidues: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.erosion.ErosionFreebairn: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.erosion.ErosionFreebairnAPSIM: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.erosion.ErosionRoseAPSIM: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationDualCoeffHourly: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationDualCoeffPot: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationSoilEvap: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationWaterStress: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.FarmFinance: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.grassland.lintul.LintulBiomass: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.grassland.lintul.LintulPhenology: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.grassland.lintul5.Biomass: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.grassland.lintul5.Phenology: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.intercropping.BelowgroundAllocationFactor: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.intercropping.RadiationInterception: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.intercropping.SplitWaterUptake: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.lintul5.translocation.Biomass: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.lintulcc.HillFlow1DLintulCCDiurnal: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.lintulcc.LintulCC: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.lintulcc.LintulCCDiurnal: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.lintulcc.LintulCCDiurnalCrop: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.lintulcc.LintulCCDiurnalCropOzone: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.lintulcc.PlantSystemConductance: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.livestock.FeedEnergyContent: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.livestock.FeedEnergySupply: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.livestock.FodderConsumption: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.livestock.LivestockEnergyDemand: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.livestock.LivestockEnergyStress: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.livestock.ManureProduction: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.livestock.MethaneEmission: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.livestock.MethaneEmissionLite: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.livestock.MilkProduction: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.livestock.PopulationGrowth: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.livestock.SellOutManagement: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.livestock.WeightAndMeatProduction: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.n2o.N2O: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.n2o.N2Odenit: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.PlantHeightByTemperature: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.runoff.RunoffCurveNumber_ET: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.runoff.RunoffCurveNumber_SW: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.runoff.RunoffCurveNumber: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.runoff.RunoffCurveNumberAPSIM: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.runoff.RunoffSurfaceCover: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.slim.NPKDemandSlimNitrogen: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.slim.NPKDemandSlimNP: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.slim.SlimPhosphorus: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.slim.SlimWater2: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.slim.SlimWater3: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.experimental.slim.SlimWater3Modified: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.management.Fertilizer: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.management.HarvestKillManagement: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.management.NitrogenSurplus: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.management.ReSowManagement: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.management.SimpleAutomaticIrrigation: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.management.SimpleFertilizer: Deprecated.

called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.management.SimpleIrrigation: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.management.tillage.TillageSoilProperties: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.gecros.Gecros: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.gecros.modular.GecrosCrop: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.gecros.modular.GecrosCropLAI: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.gecros.modular.GecrosSoilWater: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul.EvapTran: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul.EvapTranDemand: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul.LintulBiomass: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul.LintulDRUNIR: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul.LintulPartitioning: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul.LintulPhenology: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul.LintulRoot: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul.LintulWaterStress: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul.NitrogenDemand: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul.TemperatureIncrement: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul2.Lintul2: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul5.amei.Biomass: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul5.amei.Irradiation: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul5.amei.NPKDemand: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul5.amei.NPKSupply: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul5.amei.Phenology: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul5.amei.PotentialEvapoTranspiration: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul5.amei.RadiationUseEfficiency: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul5.amei.WaterBalance: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul5.extended.cassava.LayeredWaterAggregatorForCassava: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul5.extended.cassava.Lintul5Cassava: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul5.Irradiation: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul5.Lintul5: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul5.modular.Biomass: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul5.modular.NPK: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul5.modular.NPKDemand: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul5.modular.NPKSupply: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul5.modular.WaterStress: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul5.Phenology: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul5.PotentialEvapoTranspiration: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul5.RadiationUseEfficiency: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintul5.WaterBalance: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.lintulfast.LintulFast: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.sucros.modular.splitting1.Sucros2Crop: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.sucros.modular.splitting1.Sucros2PotEvapTranWater: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.sucros.modular.splitting2.Sucros2CropPotEvapTran: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.sucros.modular.splitting2.Sucros2EvapTranWater: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.models.sucros.Sucros2: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.phenology.CustomPhenologyStage: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.radiation.fao56.NetRadiationFromAny: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.radiation.fao56.NetRadiationFromSolarRadiation: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.radiation.fao56.NetRadiationFromSolarRadiationHourly: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.radiation.fao56.NetRadiationFromSunHours: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.radiation.fao56.SolarRadiationFromTemperature: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.soil.hillflow.HillFlow1D: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.soil.pedotransfer.Pedotransfer: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.soil.slim.ImprovedSoilWater: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.soil.slim.SlimNitrogen: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.soil.slim.SlimNitrogenLegacy: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.soil.slim.SlimRoots: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.soil.slim.SlimWater: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.soil.soilcn.SoilCN: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.soil.temperature.SnowCoverCalculator: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.soil.temperature.STMPsimCalculator: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.util.ArrayResampler: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.util.InterpolatedValueFromTable: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.util.LinearTransformArray: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.util.SimpleCounter: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.util.SimpleMovingAverage: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.util.ValueToTableConverter: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.vapourpressure.fao56.Vapourpressure: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromAny: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromDewPoint: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourPressureFromPsychrometricData: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromRelHumidityMax: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromRelHumidityMaxMin: called for single component test to check the components algorithm.
fillTestVariables(int, FWSimComponent.TEST_STATE) - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromRelHumidityMean: called for single component test to check the components algorithm.
Finesoil - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
FIRST - Enum constant in enum class net.simplace.sim.components.util.helper.ArrayHelper.RESAMPLE_MODE
fixMissingData(String, String, FWSimResourceCache) - Method in class net.simplace.sim.transformers.MissingDataTransformer
Fmicrolab - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamC
FodderConsumption - Class in net.simplace.sim.components.experimental.livestock
FodderConsumption() - Constructor for class net.simplace.sim.components.experimental.livestock.FodderConsumption: Empty constructor used by class.forName()
FracDisturb - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamTillage
FracNH4Volat - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamN
FSTFunctions - Class in net.simplace.sim.components.util: Defines some helper functions similar to some FST functions (FortranSimulationTranslator) WIKI_START Defines some of the FST-Functions (sometimes with different signatures than the original FST ones). == References: == (FST) [https://www.wageningenur.nl/en/Publication-details.htm?
FSTFunctions() - Constructor for class net.simplace.sim.components.util.FSTFunctions
Functions - Class in net.simplace.sim.components.models.lintul
Functions() - Constructor for class net.simplace.sim.components.models.lintul.Functions
Fungnc - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamN
Fungpc - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.ParamP

G

gamma(double, double) - Static method in class net.simplace.sim.components.experimental.livestock.LivestockFunctions: Calculates the transition probability from one age class to the next one
Gecros - Class in net.simplace.sim.components.models.gecros: Simulates crop biomass by calculating photosynthesis.
Gecros() - Constructor for class net.simplace.sim.components.models.gecros.Gecros: Empty constructor used by class.forName()
GecrosCrop - Class in net.simplace.sim.components.models.gecros.modular: Simulates crop biomass by calculating photosynthesis.
GecrosCrop() - Constructor for class net.simplace.sim.components.models.gecros.modular.GecrosCrop: Empty constructor used by class.forName()
GecrosCropLAI - Class in net.simplace.sim.components.models.gecros.modular: Simulates crop biomass by calculating photosynthesis.
GecrosCropLAI() - Constructor for class net.simplace.sim.components.models.gecros.modular.GecrosCropLAI: Empty constructor used by class.forName()
GecrosFunctions - Class in net.simplace.sim.components.models.gecros: Here you find functions that are part of the Gecros algorithm and are used by the related sim components.
GecrosFunctions() - Constructor for class net.simplace.sim.components.models.gecros.GecrosFunctions
GecrosSoilWater - Class in net.simplace.sim.components.models.gecros.modular: Simulates soil water.
GecrosSoilWater() - Constructor for class net.simplace.sim.components.models.gecros.modular.GecrosSoilWater: Empty constructor used by class.forName()
generate(FWSimulationControlCache, ResultSet) - Method in class net.simplace.sim.control.generators.LHSSimGenerator
generate(FWSimulationControlCache, ResultSet) - Method in class net.simplace.sim.control.generators.MCMCGenerator
generate(FWSimulationControlCache, ResultSet) - Method in class net.simplace.sim.control.generators.RandomSimGenerator
genuk(double, double, double, double) - Static method in class net.simplace.sim.components.soil.hillflow.VanGenuchtenFormulas: Calculates conductivity from water potential
genup(double, double, double, double, double, double) - Static method in class net.simplace.sim.components.soil.hillflow.VanGenuchtenFormulas: Calculates water pressure from water content
genuth(double, double, double, double, double, double) - Static method in class net.simplace.sim.components.soil.hillflow.VanGenuchtenFormulas: Calculates water content from water pressure potential
getAlfa(double, double) - Method in class net.simplace.sim.transformers.SlimAlfaTransformer
getColSums(Double[][]) - Static method in class net.simplace.sim.components.experimental.intercropping.IntercroppingFunctions: Retrieves the colums calculated by calcRowAndColSums
getData(FWSimVarMap) - Method in class net.simplace.sim.transformers.AstronomicParametersTransformer: standard method from outside
getData(FWSimVarMap) - Method in class net.simplace.sim.transformers.DayLengthTransformer: standard method from outside
getData(FWSimVarMap) - Method in class net.simplace.sim.transformers.DiurnalSineWeatherTransformer: standard method from outside
getData(FWSimVarMap) - Method in class net.simplace.sim.transformers.LayerAggregationTransformer: standard method from outside
getData(FWSimVarMap) - Method in class net.simplace.sim.transformers.LinearRegressionTransformer: standard method from outside
getData(FWSimVarMap) - Method in class net.simplace.sim.transformers.MissingDataTransformer: standard method from outside
getData(FWSimVarMap) - Method in class net.simplace.sim.transformers.NetRadiationFromAnyTransformer: standard method from outside
getData(FWSimVarMap) - Method in class net.simplace.sim.transformers.PedotransferTransformer: standard method from outside
getData(FWSimVarMap) - Method in class net.simplace.sim.transformers.SlimAlfaTransformer: standard method from outside
getData(FWSimVarMap) - Method in class net.simplace.sim.transformers.SoilLayerTransformer: standard method from outside
getData(FWSimVarMap) - Method in class net.simplace.sim.transformers.SoilLayerTransformerLegacy: standard method from outside
getData(FWSimVarMap, FWSimResourceCache) - Method in class net.simplace.sim.transformers.AstronomicParametersTransformer: used by test cases
getData(FWSimVarMap, FWSimResourceCache) - Method in class net.simplace.sim.transformers.DayLengthTransformer: used by test cases
getData(FWSimVarMap, FWSimResourceCache) - Method in class net.simplace.sim.transformers.DiurnalSineWeatherTransformer: used by test cases
getData(FWSimVarMap, FWSimResourceCache) - Method in class net.simplace.sim.transformers.LayerAggregationTransformer: used by test cases
getData(FWSimVarMap, FWSimResourceCache) - Method in class net.simplace.sim.transformers.LinearRegressionTransformer: used by test cases
getData(FWSimVarMap, FWSimResourceCache) - Method in class net.simplace.sim.transformers.MissingDataTransformer: used by test cases
getData(FWSimVarMap, FWSimResourceCache) - Method in class net.simplace.sim.transformers.NetRadiationFromAnyTransformer: used by test cases
getData(FWSimVarMap, FWSimResourceCache) - Method in class net.simplace.sim.transformers.PedotransferTransformer: used by test cases
getData(FWSimVarMap, FWSimResourceCache) - Method in class net.simplace.sim.transformers.SlimAlfaTransformer: used by test cases
getData(FWSimVarMap, FWSimResourceCache) - Method in class net.simplace.sim.transformers.SoilLayerTransformer: used by test cases
getData(FWSimVarMap, FWSimResourceCache) - Method in class net.simplace.sim.transformers.SoilLayerTransformerLegacy: used by test cases
getIndex(double, Double[]) - Static method in class net.simplace.sim.control.generators.RandomSimGenerator: Return the index of the first break, that is bigger than the value.
getReferenceAlfa(double) - Method in class net.simplace.sim.transformers.SlimAlfaTransformer
getRescaledAlfa(double, double, double) - Method in class net.simplace.sim.transformers.SlimAlfaTransformer
getRowSums(Double[][]) - Static method in class net.simplace.sim.components.experimental.intercropping.IntercroppingFunctions: Retrieves the rowsums calculated by calcRowAndColSums
GetRTSUM(boolean, boolean, double, double, double, double, double, double, double, int, double) - Method in class net.simplace.sim.components.models.lintulfast.VernalisationAndPhotoresponseFastFunctions
getScaleFactor() - Method in class net.simplace.sim.components.util.ScalableInterpolationTable
getSimpleLH(int, int) - Method in class net.simplace.sim.control.generators.LHSSimGenerator: Generate matrix (nSamples x nDim) so that each column is a permutation of 1->N
getTextureClassIndex(String, double) - Method in class net.simplace.sim.components.soil.pedotransfer.KartierungsanleitungFunctions
getTextureClassIndex(String, double) - Method in class net.simplace.sim.components.soil.pedotransfer.TextureClassesFunctions
getTextureClassIndex(String, double) - Method in interface net.simplace.sim.components.soil.pedotransfer.TextureClassPedoTransferFunction
getTotalSum(Double[][]) - Static method in class net.simplace.sim.components.experimental.intercropping.IntercroppingFunctions: Retrieves the total sum calculated by calcRowAndColSums
getUnscaledValueAt(double) - Method in class net.simplace.sim.components.util.ScalableInterpolationTable
getValueAt(double) - Method in class net.simplace.sim.components.util.InterpolationTable
getValueAt(double) - Method in class net.simplace.sim.components.util.LookupTable
getValueAt(double) - Method in class net.simplace.sim.components.util.ScalableInterpolationTable
getValueAt(X) - Method in class net.simplace.sim.components.util.helper.TabulatedValues: Returns for a value x a coresponding value y by using tabulated data.
getWeightsColsum(Double[][][]) - Static method in class net.simplace.sim.components.experimental.intercropping.IntercroppingFunctions: Retrieves the colsums for a weight matrix
getWeightsMatrix(Double[][][]) - Static method in class net.simplace.sim.components.experimental.intercropping.IntercroppingFunctions: Retrieves the weights matrix
getWeightsMatrixRow(Double[][][], int) - Static method in class net.simplace.sim.components.experimental.intercropping.IntercroppingFunctions: Retrieves a specific row from the weights matrix
getWeightsRowsum(Double[][][]) - Static method in class net.simplace.sim.components.experimental.intercropping.IntercroppingFunctions: Retrieves the rowsums for a weight matrix
getXValues() - Method in class net.simplace.sim.components.util.InterpolationTable
getXYValues() - Method in class net.simplace.sim.components.util.InterpolationTable
getYValues() - Method in class net.simplace.sim.components.util.InterpolationTable
GLA(double, boolean, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.amei.LintulFunctions: Computes daily increase of leaf area index
GLA(double, boolean, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.LintulFunctions: Computes daily increase of leaf area index
GLA(double, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.experimental.lintulcc.LintulCCFunctions
GLA(int, int, double, double, double, double, double, double, double, boolean) - Static method in class net.simplace.sim.components.models.sucros.SucrosFunctions
GLA(int, int, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul2.Lintul2Functions
GLACassava(double, boolean, double, double, double, double, double, double, double, double, double, double, double, double, double, boolean) - Static method in class net.simplace.sim.components.models.lintul5.extended.cassava.LintulCassavaFunctions
gm2_to_kgha - Variable in class net.simplace.sim.components.soil.soilcn.SoilCN
Grossminlit - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
GrossminlitP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
GROWTH(double, boolean, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.amei.LintulFunctions: Computes the total growth rate
GROWTH(double, boolean, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.LintulFunctions: Computes the total growth rate

H

HarvestKillManagement - Class in net.simplace.sim.components.management
HarvestKillManagement() - Constructor for class net.simplace.sim.components.management.HarvestKillManagement: called from class.forName()
HarvestKillManagement(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.management.HarvestKillManagement
HeatStressHourly - Class in net.simplace.sim.components.experimental.canopytemperature
HeatStressHourly() - Constructor for class net.simplace.sim.components.experimental.canopytemperature.HeatStressHourly: Empty constructor used by class.forName()
HeatStressHourly(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.canopytemperature.HeatStressHourly
HeatStressOnGrain - Class in net.simplace.sim.components.crop.heatstress: WIKI_START !
HeatStressOnGrain() - Constructor for class net.simplace.sim.components.crop.heatstress.HeatStressOnGrain: Empty constructor used by class.forName()
HeatStressOnGrain(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.crop.heatstress.HeatStressOnGrain
HeatStressOnLeafSenescence - Class in net.simplace.sim.components.crop.heatstress: WIKI_START Calculates the effect of heat stress on leaf senescence .
HeatStressOnLeafSenescence() - Constructor for class net.simplace.sim.components.crop.heatstress.HeatStressOnLeafSenescence: Empty constructor used by class.forName()
HeatStressOnLeafSenescence(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.crop.heatstress.HeatStressOnLeafSenescence
HfromP(double, double) - Static method in class net.simplace.sim.components.experimental.livestock.LivestockFunctions: Calculate hazard rate from probabilities
HfromPOld(double, double) - Static method in class net.simplace.sim.components.experimental.livestock.LivestockFunctions: Estimates offtake hazard rate approximately from offtake and death probability ho and hd are dependent on po and ph, and therefore an equation system has to be solved.
HillFlow1D - Class in net.simplace.sim.components.soil.hillflow: Hillflow1D is a SimComponent for transient simulations of soil water balance of a multiple layer soil profile (Bronstert & Plate 1997).
HillFlow1D() - Constructor for class net.simplace.sim.components.soil.hillflow.HillFlow1D
HillFlow1DLintulCCDiurnal - Class in net.simplace.sim.components.experimental.lintulcc: Hillflow1D is a SimComponent for transient simulations of soil water balance of a multiple layer soil profile (Bronstert & Plate 1997).
HillFlow1DLintulCCDiurnal() - Constructor for class net.simplace.sim.components.experimental.lintulcc.HillFlow1DLintulCCDiurnal
horizonToLayer(Double[], Double[], Double[]) - Method in class net.simplace.sim.components.soil.soilcn.SoilCN
HourEvapTran - Class in net.simplace.sim.components.experimental.canopytemperature
HourEvapTran() - Constructor for class net.simplace.sim.components.experimental.canopytemperature.HourEvapTran: Empty constructor used by class.forName()
HourLintulWaterStress - Class in net.simplace.sim.components.experimental.canopytemperature: Component for the Lintul crop model
HourLintulWaterStress() - Constructor for class net.simplace.sim.components.experimental.canopytemperature.HourLintulWaterStress: Empty constructor used by class.forName()
HourlyPenmanEvapTranDemand - Class in net.simplace.sim.components.experimental.canopytemperature
HourlyPenmanEvapTranDemand() - Constructor for class net.simplace.sim.components.experimental.canopytemperature.HourlyPenmanEvapTranDemand: Empty constructor used by class.forName()
Humads1 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Humads2 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Humads3 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Humus1 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Humus2 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
HypresFunctions - Class in net.simplace.sim.components.soil.pedotransfer: Pedotransfer functions (PTFs) are being developed as simplified methods to estimate soil hydraulic properties (including the soil water retention characteristic) as an alternative to direct measurements.
HypresFunctions() - Constructor for class net.simplace.sim.components.soil.pedotransfer.HypresFunctions

I

iDoInitialize - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Auxiliary
Immob10 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Immob10P - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Immob11 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Immob11P - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Immob12 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Immob12P - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Immob13 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Immob13P - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Impassive - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
ImpassiveP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
ImprovedSoilWater - Class in net.simplace.sim.components.soil.slim: ImprovedSoilWater.java is derived from SlimWater.java as a SimComponent for transient simulations of soil water balance of a multiple layer soil profile.
ImprovedSoilWater() - Constructor for class net.simplace.sim.components.soil.slim.ImprovedSoilWater: called from class.forName()
ImprovedSoilWater(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.soil.slim.ImprovedSoilWater
Imslow1 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Imslow1P - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Imslow2 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Imslow2P - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Imslow3 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Imslow3P - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Imslow4 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Imslow4P - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Imslow5 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Imslow5P - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Imslow6 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Imslow6P - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Imslow7 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Imslow7P - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
init() - Method in class net.simplace.sim.components.crop.co2.Co2InfluenceOnLUE: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.crop.co2.Co2InfluenceOnTranspiration: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.crop.heatstress.HeatStressOnGrain
init() - Method in class net.simplace.sim.components.crop.heatstress.HeatStressOnLeafSenescence
init() - Method in class net.simplace.sim.components.crop.SimpleTranspirationReductionFactor
init() - Method in class net.simplace.sim.components.crop.translocation.BiomassTranslocation
init() - Method in class net.simplace.sim.components.crop.translocation.SeedsToSprouts
init() - Method in class net.simplace.sim.components.crop.VernalisationAndPhotoresponse
init() - Method in class net.simplace.sim.components.evapotran.fao56.CropEvapoTranspirationDualCoeff: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.evapotran.fao56.ReferenceETHargreaves: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.evapotran.fao56.ReferenceETPM: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.evapotran.fao56.ReferenceETPMHourly: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.evapotran.ReferenceETPriestleyTaylor: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.amei.DayLength
init() - Method in class net.simplace.sim.components.experimental.amei.Partitioning: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.amei.Photoperiod
init() - Method in class net.simplace.sim.components.experimental.amei.Vernalisation
init() - Method in class net.simplace.sim.components.experimental.canopytemperature.BiomassTranslocationForDrought
init() - Method in class net.simplace.sim.components.experimental.canopytemperature.CanopyTemperature_hrlyET
init() - Method in class net.simplace.sim.components.experimental.canopytemperature.CropHeight
init() - Method in class net.simplace.sim.components.experimental.canopytemperature.HeatStressHourly
init() - Method in class net.simplace.sim.components.experimental.canopytemperature.HourEvapTran: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.canopytemperature.HourLintulWaterStress: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.canopytemperature.HourlyPenmanEvapTranDemand: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.canopytemperature.Total_LWRad
init() - Method in class net.simplace.sim.components.experimental.canopytemperature.WindTranslation
init() - Method in class net.simplace.sim.components.experimental.cropresidues.CropResidues: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.erosion.ErosionFreebairn
init() - Method in class net.simplace.sim.components.experimental.erosion.ErosionFreebairnAPSIM
init() - Method in class net.simplace.sim.components.experimental.erosion.ErosionRoseAPSIM
init() - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationDualCoeffHourly: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationDualCoeffPot: Initialises the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationSoilEvap: Initialises the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationWaterStress: Initialises the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.FarmFinance: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.grassland.lintul.LintulBiomass: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.grassland.lintul.LintulPhenology: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.grassland.lintul5.Biomass: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.grassland.lintul5.Phenology
init() - Method in class net.simplace.sim.components.experimental.intercropping.BelowgroundAllocationFactor
init() - Method in class net.simplace.sim.components.experimental.intercropping.RadiationInterception
init() - Method in class net.simplace.sim.components.experimental.intercropping.SplitWaterUptake
init() - Method in class net.simplace.sim.components.experimental.lintul5.translocation.Biomass: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.lintulcc.HillFlow1DLintulCCDiurnal: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.lintulcc.LintulCC
init() - Method in class net.simplace.sim.components.experimental.lintulcc.LintulCCDiurnal
init() - Method in class net.simplace.sim.components.experimental.lintulcc.LintulCCDiurnalCrop
init() - Method in class net.simplace.sim.components.experimental.lintulcc.LintulCCDiurnalCropOzone
init() - Method in class net.simplace.sim.components.experimental.lintulcc.PlantSystemConductance: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.livestock.FeedEnergyContent: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.livestock.FeedEnergySupply: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.livestock.FodderConsumption: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.livestock.LivestockEnergyDemand: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.livestock.LivestockEnergyStress: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.livestock.ManureProduction: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.livestock.MethaneEmission: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.livestock.MethaneEmissionLite: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.livestock.MilkProduction: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.livestock.PopulationGrowth: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.livestock.SellOutManagement: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.livestock.WeightAndMeatProduction: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.n2o.N2O: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.n2o.N2Odenit: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.PlantHeightByTemperature: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.runoff.RunoffCurveNumber_ET: Initialises the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.runoff.RunoffCurveNumber_SW: Initialises the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.runoff.RunoffCurveNumber: Initialises the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.runoff.RunoffCurveNumberAPSIM: Initialises the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.runoff.RunoffSurfaceCover: Initialises the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.slim.NPKDemandSlimNitrogen: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.slim.NPKDemandSlimNP: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.experimental.slim.SlimPhosphorus
init() - Method in class net.simplace.sim.components.experimental.slim.SlimWater2
init() - Method in class net.simplace.sim.components.experimental.slim.SlimWater3
init() - Method in class net.simplace.sim.components.experimental.slim.SlimWater3Modified
init() - Method in class net.simplace.sim.components.management.Fertilizer
init() - Method in class net.simplace.sim.components.management.HarvestKillManagement
init() - Method in class net.simplace.sim.components.management.NitrogenSurplus
init() - Method in class net.simplace.sim.components.management.ReSowManagement
init() - Method in class net.simplace.sim.components.management.SimpleAutomaticIrrigation
init() - Method in class net.simplace.sim.components.management.SimpleFertilizer: Deprecated.
init() - Method in class net.simplace.sim.components.management.SimpleIrrigation
init() - Method in class net.simplace.sim.components.management.tillage.TillageSoilProperties
init() - Method in class net.simplace.sim.components.models.gecros.Gecros: Initializes the fields by getting input and output FWSimVariables from VarMap Initial values are calculated and states are set to these initial Values.
init() - Method in class net.simplace.sim.components.models.gecros.modular.GecrosCrop: Initializes the fields by getting input and output FWSimVariables from VarMap Initial values are calculated and states are set to these initial Values.
init() - Method in class net.simplace.sim.components.models.gecros.modular.GecrosCropLAI: Initializes the fields by getting input and output FWSimVariables from VarMap Initial values are calculated and states are set to these initial Values.
init() - Method in class net.simplace.sim.components.models.gecros.modular.GecrosSoilWater: Initializes the fields by getting input and output FWSimVariables from VarMap Initial values are calculated and states are set to these initial Values.
init() - Method in class net.simplace.sim.components.models.lintul.EvapTran: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.lintul.EvapTranDemand: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.lintul.LintulBiomass: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.lintul.LintulDRUNIR: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.lintul.LintulPartitioning: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.lintul.LintulPhenology: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.lintul.LintulRoot: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.lintul.LintulWaterStress: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.lintul.NitrogenDemand: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.lintul.TemperatureIncrement: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.lintul2.Lintul2: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.lintul5.amei.Biomass: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.lintul5.amei.Irradiation
init() - Method in class net.simplace.sim.components.models.lintul5.amei.NPKDemand: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.lintul5.amei.NPKSupply: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.lintul5.amei.Phenology
init() - Method in class net.simplace.sim.components.models.lintul5.amei.PotentialEvapoTranspiration
init() - Method in class net.simplace.sim.components.models.lintul5.amei.RadiationUseEfficiency
init() - Method in class net.simplace.sim.components.models.lintul5.amei.WaterBalance: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.lintul5.extended.cassava.LayeredWaterAggregatorForCassava: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.lintul5.extended.cassava.Lintul5Cassava: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.lintul5.Irradiation
init() - Method in class net.simplace.sim.components.models.lintul5.Lintul5: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.lintul5.modular.Biomass: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.lintul5.modular.NPK: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.lintul5.modular.NPKDemand: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.lintul5.modular.NPKSupply: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.lintul5.modular.WaterStress: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.lintul5.Phenology
init() - Method in class net.simplace.sim.components.models.lintul5.PotentialEvapoTranspiration
init() - Method in class net.simplace.sim.components.models.lintul5.RadiationUseEfficiency
init() - Method in class net.simplace.sim.components.models.lintul5.WaterBalance: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.lintulfast.LintulFast: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.sucros.modular.splitting1.Sucros2Crop: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.sucros.modular.splitting1.Sucros2PotEvapTranWater: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.sucros.modular.splitting2.Sucros2CropPotEvapTran: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.sucros.modular.splitting2.Sucros2EvapTranWater: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.models.sucros.Sucros2: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.phenology.CustomPhenologyStage: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.radiation.fao56.NetRadiationFromAny: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.radiation.fao56.NetRadiationFromSolarRadiation: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.radiation.fao56.NetRadiationFromSolarRadiationHourly: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.radiation.fao56.NetRadiationFromSunHours: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.radiation.fao56.SolarRadiationFromTemperature: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.soil.hillflow.HillFlow1D: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.soil.pedotransfer.Pedotransfer
init() - Method in class net.simplace.sim.components.soil.slim.ImprovedSoilWater
init() - Method in class net.simplace.sim.components.soil.slim.SlimNitrogen: Set the soil water and nitrogen content for all layers.
init() - Method in class net.simplace.sim.components.soil.slim.SlimNitrogenLegacy: Set the soil water and nitrogen content for all layers.
init() - Method in class net.simplace.sim.components.soil.slim.SlimRoots: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.soil.slim.SlimWater
init() - Method in class net.simplace.sim.components.soil.soilcn.SoilCN
init() - Method in class net.simplace.sim.components.soil.soilcn.SoilCNP
init() - Method in class net.simplace.sim.components.soil.temperature.SnowCoverCalculator: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.soil.temperature.STMPsimCalculator: initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.util.ArrayResampler: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.util.InterpolatedValueFromTable: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.util.LinearTransformArray: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.util.SimpleCounter: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.util.SimpleMovingAverage: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.util.ValueToTableConverter: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.vapourpressure.fao56.Vapourpressure: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromAny: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromDewPoint: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourPressureFromPsychrometricData: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromRelHumidityMax: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromRelHumidityMaxMin: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromRelHumidityMean: Initializes the fields by getting input and output FWSimVariables from VarMap
init() - Method in class net.simplace.sim.control.generators.LHSSimGenerator
init() - Method in class net.simplace.sim.control.generators.MCMCGenerator
init() - Method in class net.simplace.sim.control.generators.RandomSimGenerator
initializeModel() - Method in class net.simplace.sim.components.models.gecros.Gecros
initializeModel() - Method in class net.simplace.sim.components.models.gecros.modular.GecrosCrop
initializeModel() - Method in class net.simplace.sim.components.models.gecros.modular.GecrosCropLAI
initializeModel() - Method in class net.simplace.sim.components.models.gecros.modular.GecrosSoilWater
initializeVariables() - Method in class net.simplace.sim.components.models.sucros.modular.splitting1.Sucros2Crop
initializeVariables() - Method in class net.simplace.sim.components.models.sucros.modular.splitting1.Sucros2PotEvapTranWater
initializeVariables() - Method in class net.simplace.sim.components.models.sucros.modular.splitting2.Sucros2CropPotEvapTran
initializeVariables() - Method in class net.simplace.sim.components.models.sucros.modular.splitting2.Sucros2EvapTranWater
initializeVariables() - Method in class net.simplace.sim.components.models.sucros.Sucros2
initializeVariables() - Method in class net.simplace.sim.components.soil.hillflow.HillFlow1D
initializeVariables() - Method in class net.simplace.sim.components.soil.soilcn.SoilCN: initialize Variables
initializeVariables() - Method in class net.simplace.sim.components.soil.soilcn.SoilCNP: initialize Variables
InitialPNRatio - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.InitialStatesP
InitialStates - Class in net.simplace.sim.components.soil.soilcn.valueobjects: Helper Class that manages the creation of related Sim Variables.
InitialStates() - Constructor for class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
InitialStatesP - Class in net.simplace.sim.components.soil.soilcn.valueobjectsP: Helper Class that manages the creation of related Sim Variables.
InitialStatesP() - Constructor for class net.simplace.sim.components.soil.soilcn.valueobjectsP.InitialStatesP
initKSupply() - Method in class net.simplace.sim.components.experimental.slim.NPKDemandSlimNP
initLintulCC() - Method in class net.simplace.sim.components.experimental.lintulcc.HillFlow1DLintulCCDiurnal
initNPKDemand() - Method in class net.simplace.sim.components.experimental.slim.NPKDemandSlimNP
initOnFirstCalculationDay() - Method in class net.simplace.sim.components.experimental.grassland.lintul5.Phenology
initOnFirstCalculationDay() - Method in class net.simplace.sim.components.models.lintul5.Phenology
initOnSowing() - Method in class net.simplace.sim.components.experimental.grassland.lintul5.Phenology
initOnSowing() - Method in class net.simplace.sim.components.models.lintul5.Phenology
initSlimNitrogen() - Method in class net.simplace.sim.components.experimental.slim.NPKDemandSlimNitrogen
initSlimNitrogen() - Method in class net.simplace.sim.components.experimental.slim.NPKDemandSlimNP
initSlimPhosphorus() - Method in class net.simplace.sim.components.experimental.slim.NPKDemandSlimNP
initValues() - Method in class net.simplace.sim.components.evapotran.fao56.CropEvapoTranspirationDualCoeff
initValues() - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationDualCoeffHourly
initValues() - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationDualCoeffPot
initValues() - Method in class net.simplace.sim.components.experimental.grassland.lintul5.Biomass
initValues() - Method in class net.simplace.sim.components.experimental.grassland.lintul5.Phenology
initValues() - Method in class net.simplace.sim.components.experimental.lintul5.translocation.Biomass
initValues() - Method in class net.simplace.sim.components.experimental.slim.NPKDemandSlimNitrogen
initValues() - Method in class net.simplace.sim.components.models.lintul2.Lintul2
initValues() - Method in class net.simplace.sim.components.models.lintul5.amei.NPKSupply
initValues() - Method in class net.simplace.sim.components.models.lintul5.extended.cassava.LayeredWaterAggregatorForCassava
initValues() - Method in class net.simplace.sim.components.models.lintul5.extended.cassava.Lintul5Cassava
initValues() - Method in class net.simplace.sim.components.models.lintul5.Lintul5
initValues() - Method in class net.simplace.sim.components.models.lintul5.modular.Biomass
initValues() - Method in class net.simplace.sim.components.models.lintul5.modular.NPK
initValues() - Method in class net.simplace.sim.components.models.lintul5.modular.NPKDemand
initValues() - Method in class net.simplace.sim.components.models.lintul5.modular.NPKSupply
initValues() - Method in class net.simplace.sim.components.models.lintul5.modular.WaterStress
initValues() - Method in class net.simplace.sim.components.models.lintul5.Phenology
initValues() - Method in class net.simplace.sim.components.models.lintul5.WaterBalance
initValues() - Method in class net.simplace.sim.components.models.lintulfast.LintulFast
initVariables() - Method in class net.simplace.sim.components.experimental.intercropping.BelowgroundAllocationFactor
initVariables() - Method in class net.simplace.sim.components.experimental.intercropping.RadiationInterception
initVariables() - Method in class net.simplace.sim.components.experimental.intercropping.SplitWaterUptake
initVariables() - Method in class net.simplace.sim.components.experimental.lintulcc.LintulCC
initVariables() - Method in class net.simplace.sim.components.experimental.lintulcc.LintulCCDiurnal
initVariables() - Method in class net.simplace.sim.components.experimental.lintulcc.LintulCCDiurnalCrop
initVariables() - Method in class net.simplace.sim.components.experimental.lintulcc.LintulCCDiurnalCropOzone
initVariables() - Method in class net.simplace.sim.components.experimental.slim.SlimPhosphorus
initVariablesLintulCC() - Method in class net.simplace.sim.components.experimental.lintulcc.HillFlow1DLintulCCDiurnal
Inputs - Class in net.simplace.sim.components.soil.soilcn.valueobjects: Helper Class that manages the creation of related Sim Variables.
Inputs() - Constructor for class net.simplace.sim.components.soil.soilcn.valueobjects.Inputs
InputsP - Class in net.simplace.sim.components.soil.soilcn.valueobjectsP: Helper Class that manages the creation of related Sim Variables.
InputsP() - Constructor for class net.simplace.sim.components.soil.soilcn.valueobjectsP.InputsP
INSW(boolean, double, double) - Static method in class net.simplace.sim.components.util.FSTFunctions: Returns one value, if the test value is false and another value, if the test value ist nonnegative
INSW(double, double, double) - Static method in class net.simplace.sim.components.util.FSTFunctions: Returns one value, if the test value is negative and another value, if the test value ist nonnegative
Integral(double[], double[]) - Static method in class net.simplace.sim.components.util.helper.DataTransformHelper: Calculates the area under the curve defined by arrays of x and y values
IntegralFromTo(double, double, double[], double[]) - Static method in class net.simplace.sim.components.util.helper.DataTransformHelper: Calculates the area under the curve defined by arrays of x and y values between the points t1 and t2
integrateStates() - Method in class net.simplace.sim.components.models.sucros.modular.splitting1.Sucros2Crop
integrateStates() - Method in class net.simplace.sim.components.models.sucros.modular.splitting1.Sucros2PotEvapTranWater
integrateStates() - Method in class net.simplace.sim.components.models.sucros.modular.splitting2.Sucros2CropPotEvapTran
integrateStates() - Method in class net.simplace.sim.components.models.sucros.modular.splitting2.Sucros2EvapTranWater
integrateStates() - Method in class net.simplace.sim.components.models.sucros.Sucros2
IntercroppingFunctions - Class in net.simplace.sim.components.experimental.intercropping
IntercroppingFunctions() - Constructor for class net.simplace.sim.components.experimental.intercropping.IntercroppingFunctions
Interpolate(double, double[], double[], boolean) - Static method in class net.simplace.sim.components.util.helper.DataTransformHelper: Linear interpolation of a piecewise linear curve
InterpolatedValueFromTable - Class in net.simplace.sim.components.util: Interpolates values from a table of x and y values.
InterpolatedValueFromTable() - Constructor for class net.simplace.sim.components.util.InterpolatedValueFromTable: Empty constructor used by class.forName()
interpolateTable() - Method in class net.simplace.sim.components.util.ValueToTableConverter
InterpolationTable - Class in net.simplace.sim.components.util
InterpolationTable(FWSimVariable<Double[]>) - Constructor for class net.simplace.sim.components.util.InterpolationTable
InterpolationTable(FWSimVariable<Double[]>, FWSimVariable<Double[]>) - Constructor for class net.simplace.sim.components.util.InterpolationTable
InterpolationTable(FWSimVariable<Double[]>, FWSimVariable<Double[]>, FWSimVariable<Double[]>) - Constructor for class net.simplace.sim.components.util.InterpolationTable
InterpolationTable(FWSimVariable<Double[]>, FWSimVariable<Double[]>, FWSimVariable<Double[]>, Object) - Constructor for class net.simplace.sim.components.util.InterpolationTable
INTGRL(FWSimVariable<Double>, double) - Static method in class net.simplace.sim.components.util.FSTFunctions: Integrates a state by adding a rate
INTGRL(FWSimVariable<Double>, double, double) - Static method in class net.simplace.sim.components.util.FSTFunctions: Integrates a state by adding a rate
INTGRL(FWSimVariable<Double>, FWSimVariable<Double>) - Static method in class net.simplace.sim.components.util.FSTFunctions: Integrates a state by adding a rate
INTGRL(FWSimVariable<Double>, FWSimVariable<Double>, double) - Static method in class net.simplace.sim.components.util.FSTFunctions: Integrates a state by adding a rate
INTGRLA(FWSimVariable<Double[]>, double[]) - Static method in class net.simplace.sim.components.util.FSTFunctions: Integrates a state array by adding a rate array
INTGRLA(FWSimVariable<Double[]>, double[], double) - Static method in class net.simplace.sim.components.util.FSTFunctions: Integrates a state array by adding a rate array
INTGRLA(FWSimVariable<Double[]>, FWSimVariable<Double[]>) - Static method in class net.simplace.sim.components.util.FSTFunctions: Integrates a state array by adding a rate array
INTGRLA(FWSimVariable<Double[]>, FWSimVariable<Double[]>, double) - Static method in class net.simplace.sim.components.util.FSTFunctions: Integrates a state array by adding a rate array
intializePools(InitialStates, Auxiliary, ParamSoil, ParamN, States, Rates) - Method in class net.simplace.sim.components.soil.soilcn.SoilCN: initialize microbs, SOM and Mineral nitrogen pools
intializePools(InitialStatesP, ParamSoil, ParamN, ParamP, Auxiliary, StatesP, RatesP) - Method in class net.simplace.sim.components.soil.soilcn.SoilCNP: initialize microbs, SOM and Mineral nitrogen pools
InverseRelativeDistanceEarthSun(int) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Inverse relative distance Earth-Sun Eq. (23)
Irradiation - Class in net.simplace.sim.components.models.lintul5.amei: Lintul5 - Simple generic model for simulation of crop growth - Radiation part WIKI_START == Introduction == The sim components in the package lintul5 implement the Lintul5 algorithms from (L5).
Irradiation - Class in net.simplace.sim.components.models.lintul5: Lintul5 - Simple generic model for simulation of crop growth - Radiation part WIKI_START == Introduction == The sim components in the package lintul5 implement the Lintul5 algorithms from (L5).
Irradiation() - Constructor for class net.simplace.sim.components.models.lintul5.amei.Irradiation: Empty constructor used by class.forName()
Irradiation() - Constructor for class net.simplace.sim.components.models.lintul5.Irradiation: Empty constructor used by class.forName()
Irradiation(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.models.lintul5.amei.Irradiation
Irradiation(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.models.lintul5.Irradiation
IsDormancy(double, double, double, double, boolean, boolean, boolean) - Static method in class net.simplace.sim.components.models.lintul5.extended.cassava.LintulCassavaFunctions
IsDormancyRecover(double, double, double, double, double, boolean, boolean) - Static method in class net.simplace.sim.components.models.lintul5.extended.cassava.LintulCassavaFunctions
isOldstyle - Variable in class net.simplace.sim.components.util.InterpolationTable
isOldStyle - Variable in class net.simplace.sim.components.util.LookupTable
IsRedistribution(double, double, boolean) - Static method in class net.simplace.sim.components.models.lintul5.extended.cassava.LintulCassavaFunctions
IsRedistributionEnd(double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.extended.cassava.LintulCassavaFunctions

K

K10act - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
K11act - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
K12slo - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
K5act - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
K6act - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
K7act - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
K8act - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
K9act - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
KartierungsanleitungFunctions - Class in net.simplace.sim.components.soil.pedotransfer: Kartierungsanleitung Function are developed to determine soil hydraulic properties e.g., field capacity at 18,25 and 35 bar, wilting point, saturated hydraulic conductivity, saturation for different soil texture classes based on German soil texture classification.
KartierungsanleitungFunctions() - Constructor for class net.simplace.sim.components.soil.pedotransfer.KartierungsanleitungFunctions
KCoefficientByLAI(double, double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Estimated basal K_cb during the mid-season when plant density is lower than full cover Eq. (97) - assumes a canopy light extiction factor of 0.7
KCoefficientByLAI(double, double, double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Estimated basal K_cb during the mid-season when plant density is lower than full cover Eq. (97)
Kdecomp1 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamC
Kdecomp10 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamC
Kdecomp11 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamC
Kdecomp12 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamC
Kdecomp13 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamC
Kdecomp2 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamC
Kdecomp3 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamC
Kdecomp4 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamC
Kdecomp5 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamC
Kdecomp6 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamC
KDIFF(double, double, double) - Static method in class net.simplace.sim.components.models.gecros.GecrosFunctions: Calculates extinction coefficient for diffuse radiation
key - Variable in class net.simplace.sim.components.util.helper.diurnal.ComparableWeatherEntry
Ks(double, double, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.HypresFunctions
Ks(double, double, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.RawlsFunctions
Ks(double, double, double, double, boolean) - Method in interface net.simplace.sim.components.soil.pedotransfer.VanGenuchtenPedoTransferFunction
Ks(int, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.KartierungsanleitungFunctions
Ks(int, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.TextureClassesFunctions
Ks(int, double, double, boolean) - Method in interface net.simplace.sim.components.soil.pedotransfer.TextureClassPedoTransferFunction

L

l(double, double, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.HypresFunctions
l(double, double, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.RawlsFunctions
l(double, double, double, double, boolean) - Method in interface net.simplace.sim.components.soil.pedotransfer.VanGenuchtenPedoTransferFunction
l(int, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.KartierungsanleitungFunctions
l(int, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.TextureClassesFunctions
l(int, double, double, boolean) - Method in interface net.simplace.sim.components.soil.pedotransfer.TextureClassPedoTransferFunction
Lactlab - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
LactlabP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Lactrst - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
LactrstP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
lambda - Static variable in class net.simplace.sim.components.util.helper.EquationsFAO56: latent heat of vaporization [MJ kg-1]
LAST - Enum constant in enum class net.simplace.sim.components.util.helper.ArrayHelper.RESAMPLE_MODE
LayerAggregationTransformer - Class in net.simplace.sim.transformers: Aggregates values of several soil layers up to the user-specified maximal soil depth.
LayerAggregationTransformer(FWSimSession, Integer) - Constructor for class net.simplace.sim.transformers.LayerAggregationTransformer
LayerAggregationTransformer(FWSimSession, Element, Integer) - Constructor for class net.simplace.sim.transformers.LayerAggregationTransformer
LayeredWaterAggregatorForCassava - Class in net.simplace.sim.components.models.lintul5.extended.cassava: LayeredWaterAggregatorForCassava - Aggregates values from a layered water model to use them in Lintul5Cassava WIKI_START == Introduction == This component calculates the average wilting point, field capacity as well as the volumetric water content over the rooted layers of a soil profile.
LayeredWaterAggregatorForCassava() - Constructor for class net.simplace.sim.components.models.lintul5.extended.cassava.LayeredWaterAggregatorForCassava: Empty constructor used by class.forName()
LayeredWaterAggregatorForCassava(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.models.lintul5.extended.cassava.LayeredWaterAggregatorForCassava
LayThick - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
Leaching(Double[], Double[], Double[], Double, Double) - Static method in class net.simplace.sim.components.experimental.slim.SlimPhosphorusFunctions: Calculates phosphorus leaching in (layered) soil.
LeafAgeTsumRate(double, double, boolean, boolean) - Static method in class net.simplace.sim.components.models.lintul5.extended.cassava.LintulCassavaFunctions
LeavesRedistributionRate(double, double, boolean) - Static method in class net.simplace.sim.components.models.lintul5.extended.cassava.LintulCassavaFunctions
LHSSimGenerator - Class in net.simplace.sim.control.generators: Generate simulations with parameters created using random Latin hypercube sampling WIKI_START == Example == Three dimensional hypercube with 1600 samples: {{{ | | | | | 1600 | }}} == References == LHS and permutation functions by Le Minh Nghia, NTU-Singapore ([https://code.google.com/p/evolutionary-algorithm/ Google code link]) WIKI_END
LHSSimGenerator(Element, FWSimSession, HashMap<String, FWSimVariable<?>>, FWSimVariable.CONTENT_TYPE) - Constructor for class net.simplace.sim.control.generators.LHSSimGenerator
Li - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamC
Ligbranch - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamCrop
Ligncellose1 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Ligncellose2 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Ligncellose3 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Ligncellose4 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Ligncellose5 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Ligncellose6 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
LigncellosesoilC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
LigncellosesoilC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
LigncellosesoilN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
LigncellosesoilN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
LigncellosesoilP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.InitialStatesP
LigncellosesoilP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
LigncellosesurfC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
LigncellosesurfC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
LigncellosesurfN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
LigncellosesurfN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
LigncellosesurfP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.InitialStatesP
LigncellosesurfP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
Ligncmax - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamN
Ligncmin - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamN
Lignfct - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamC
Lignfctr - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
Lignfcts - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
Ligpcmax - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.ParamP
Ligpcmin - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.ParamP
Ligroot - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamCrop
Ligshoot - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamCrop
Ligstem - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamCrop
LIMIT(double, double, double) - Static method in class net.simplace.sim.components.util.FSTFunctions: Limits a value to a lower and upper bound
LinearRegressionTransformer - Class in net.simplace.sim.transformers: Calculates linear Regression (slope and intercept) from two double arrays WIKI_START == Inputs and outputs == The transformer takes the field/column names from a resource that act as x and y values.
LinearRegressionTransformer(FWSimSession, Integer) - Constructor for class net.simplace.sim.transformers.LinearRegressionTransformer
LinearRegressionTransformer(FWSimSession, Element, Integer) - Constructor for class net.simplace.sim.transformers.LinearRegressionTransformer
LinearTransformArray - Class in net.simplace.sim.components.util: Scales and shifts DOUBLEARRAY SimVariables.
LinearTransformArray() - Constructor for class net.simplace.sim.components.util.LinearTransformArray: Empty constructor used by class.forName()
linkSimVariables(FWSimVarMap, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjects.Auxiliary
linkSimVariables(FWSimVarMap, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
linkSimVariables(FWSimVarMap, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjects.Inputs
linkSimVariables(FWSimVarMap, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjects.Outputs
linkSimVariables(FWSimVarMap, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamC
linkSimVariables(FWSimVarMap, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamCrop
linkSimVariables(FWSimVarMap, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamN
linkSimVariables(FWSimVarMap, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamSoil
linkSimVariables(FWSimVarMap, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamTillage
linkSimVariables(FWSimVarMap, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
linkSimVariables(FWSimVarMap, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjects.States
linkSimVariables(FWSimVarMap, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjectsP.InitialStatesP
linkSimVariables(FWSimVarMap, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjectsP.InputsP
linkSimVariables(FWSimVarMap, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjectsP.OutputsP
linkSimVariables(FWSimVarMap, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjectsP.ParamP
linkSimVariables(FWSimVarMap, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
linkSimVariables(FWSimVarMap, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
Lintul2 - Class in net.simplace.sim.components.models.lintul2: WIKI_START Lintul2 is the implementation of the original FST Version of Lintul2, which you find at (L2). == Model description == For the model description please consult the original documentation from (L2). == Changes in the SIMPLACE version == In order to integrate in the SIMPLACE Framework and make the model run over multiple years, following changes were made
Lintul2() - Constructor for class net.simplace.sim.components.models.lintul2.Lintul2: Empty constructor used by class.forName()
Lintul2(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.models.lintul2.Lintul2
Lintul2Functions - Class in net.simplace.sim.components.models.lintul2: Implements functions for the model Lintul2.
Lintul2Functions() - Constructor for class net.simplace.sim.components.models.lintul2.Lintul2Functions
Lintul2ModelOneStep() - Method in class net.simplace.sim.components.models.lintulfast.LintulFast
Lintul5 - Class in net.simplace.sim.components.models.lintul5: Lintul5 - Simple generic model for simulation of crop growth - Biomass and NPK part WIKI_START == Introduction == The sim components in the package lintul5 implement the Lintul5 algorithms from (L5).
Lintul5() - Constructor for class net.simplace.sim.components.models.lintul5.Lintul5: Empty constructor used by class.forName()
Lintul5(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.models.lintul5.Lintul5
Lintul5Cassava - Class in net.simplace.sim.components.models.lintul5.extended.cassava: Lintul5Cassava - Model to simulate cassava growth - based on Lintul5 model WIKI_START == Introduction == Lintul5Cassava extends Lintul5 to simulate growth of cassava.
Lintul5Cassava() - Constructor for class net.simplace.sim.components.models.lintul5.extended.cassava.Lintul5Cassava: Empty constructor used by class.forName()
Lintul5Cassava(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.models.lintul5.extended.cassava.Lintul5Cassava
LintulBiomass - Class in net.simplace.sim.components.experimental.grassland.lintul: WIKI_START LintulBiomass.java calculates daily increase in crop total biomass and LAI depending on intercepted radiation and the occurence of nitrogen or water stress === Light interception === Incoming radiation (input variable DTR in MJ m-2) is intercepted by the crop canopy depending on the extinction coefficient kc and the actual LAI assuming that photosynthetically active radiation is 50% of the global radiation Intercepted photosynthetically active radiation (PARINT in MJ m-2) is then calculated as: WIKI_END \[ \begin{eqnarray} PARINT & = & 0.5 \cdot DRT (1 - e^{-k LAI}) \end{eqnarray} \] WIKI_START === Daily increase in total biomass === Daily increase in total crop biomass is calculated based on the intercepted photosynthetically active radiation (PARINT) depending on the crop specific light use efficiency (LUE) and on the major stress occuring at the same day.
LintulBiomass - Class in net.simplace.sim.components.models.lintul: WIKI_START LintulBiomass.java calculates daily increase in crop total biomass and LAI depending on intercepted radiation and the occurrence of nitrogen or water stress === Light interception === Incoming radiation (input variable DTR in MJ m-2) is intercepted by the crop canopy depending on the extinction coefficient kc and the actual LAI assuming that photosynthetically active radiation is 50% of the global radiation Intercepted photosynthetically active radiation (PARINT in MJ m-2) is then calculated as: WIKI_END \[ \begin{eqnarray} PARINT & = & 0.5 \cdot DRT (1 - e^{-k LAI}) \end{eqnarray} \] WIKI_START === Daily increase in total biomass === Daily increase in total crop biomass is calculated based on the intercepted photosynthetically active radiation (PARINT) depending on the crop specific light use efficiency (LUE) and on the major stress occuring at the same day.
LintulBiomass() - Constructor for class net.simplace.sim.components.experimental.grassland.lintul.LintulBiomass: Empty constructor used by class.forName()
LintulBiomass() - Constructor for class net.simplace.sim.components.models.lintul.LintulBiomass: Empty constructor used by class.forName()
LintulBiomass(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.grassland.lintul.LintulBiomass
LintulBiomass(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.models.lintul.LintulBiomass
LintulCassavaFunctions - Class in net.simplace.sim.components.models.lintul5.extended.cassava: Implements functions for the model Lintul5.
LintulCassavaFunctions() - Constructor for class net.simplace.sim.components.models.lintul5.extended.cassava.LintulCassavaFunctions
LintulCC - Class in net.simplace.sim.components.experimental.lintulcc: LintulCC - Calculates Biomass by photosynthesis.
LintulCC() - Constructor for class net.simplace.sim.components.experimental.lintulcc.LintulCC: Empty constructor used by class.forName()
LintulCC(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.lintulcc.LintulCC
LintulCCDiurnal - Class in net.simplace.sim.components.experimental.lintulcc: LintulCC - Calculates Biomass by photosynthesis with hourly weather data.
LintulCCDiurnal() - Constructor for class net.simplace.sim.components.experimental.lintulcc.LintulCCDiurnal: Empty constructor used by class.forName()
LintulCCDiurnal(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.lintulcc.LintulCCDiurnal
LintulCCDiurnalCrop - Class in net.simplace.sim.components.experimental.lintulcc: LintulCC - Calculates Biomass by photosynthesis with houryl weather data.
LintulCCDiurnalCrop() - Constructor for class net.simplace.sim.components.experimental.lintulcc.LintulCCDiurnalCrop: Empty constructor used by class.forName()
LintulCCDiurnalCrop(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.lintulcc.LintulCCDiurnalCrop
LintulCCDiurnalCropOzone - Class in net.simplace.sim.components.experimental.lintulcc: LintulCC - Calculates Biomass by photosynthesis by considering ozone effect .
LintulCCDiurnalCropOzone() - Constructor for class net.simplace.sim.components.experimental.lintulcc.LintulCCDiurnalCropOzone: Empty constructor used by class.forName()
LintulCCDiurnalCropOzone(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.lintulcc.LintulCCDiurnalCropOzone
LintulCCFunctions - Class in net.simplace.sim.components.experimental.lintulcc: Defines various functions for the LintulCC SimComponent and its extensions.
LintulCCFunctions() - Constructor for class net.simplace.sim.components.experimental.lintulcc.LintulCCFunctions
LintulDRUNIR - Class in net.simplace.sim.components.models.lintul: WIKI_START Soil water balance calculation during crop growth for a one layer soil profile including canopy interception, Drainage, RUNoff and IRrigation routines from LINTUL.
LintulDRUNIR() - Constructor for class net.simplace.sim.components.models.lintul.LintulDRUNIR: Empty constructor used by class.forName()
LintulFast - Class in net.simplace.sim.components.models.lintulfast: WIKI_START Model to reproduce the same results as the LintulFAST implementation in C# used for the AGRIADAPT project.
LintulFast() - Constructor for class net.simplace.sim.components.models.lintulfast.LintulFast: Empty constructor used by class.forName()
LintulFast(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.models.lintulfast.LintulFast
LintulFastFunctions - Class in net.simplace.sim.components.models.lintulfast: Class that implements some methods from the LintulFAST C# version to calculate evapotranspiration and drainage, runoff and irrigation.
LintulFastFunctions() - Constructor for class net.simplace.sim.components.models.lintulfast.LintulFastFunctions
LintulFunctions - Class in net.simplace.sim.components.models.lintul5.amei: Implements functions for the model Lintul5.
LintulFunctions - Class in net.simplace.sim.components.models.lintul5: Implements functions for the model Lintul5.
LintulFunctions() - Constructor for class net.simplace.sim.components.models.lintul5.amei.LintulFunctions
LintulFunctions() - Constructor for class net.simplace.sim.components.models.lintul5.LintulFunctions
LintulPartitioning - Class in net.simplace.sim.components.models.lintul: WIKI_START !
LintulPartitioning() - Constructor for class net.simplace.sim.components.models.lintul.LintulPartitioning: Empty constructor used by class.forName()
LintulPhenology - Class in net.simplace.sim.components.experimental.grassland.lintul: WIKI_START LintulPhenology.java calculates the development stage (DevStage) of a crop based on the ratio between accumulated degree days and the a user-defined, crop and cultivar specific temperature sum requirement .
LintulPhenology - Class in net.simplace.sim.components.models.lintul: WIKI_START LintulPhenology.java calculates the development stage (DevStage) of a crop based on the ratio between accumulated degree days and the a user-defined, crop and cultivar specific temperature sum requirement .
LintulPhenology() - Constructor for class net.simplace.sim.components.experimental.grassland.lintul.LintulPhenology: Empty constructor used by class.forName()
LintulPhenology() - Constructor for class net.simplace.sim.components.models.lintul.LintulPhenology: Empty constructor used by class.forName()
LintulRoot - Class in net.simplace.sim.components.models.lintul: Root depth growth calculation (only root depth, no root biomass) WIKI_START LintulRoot.java The SimComponent LintulRoot.java calculates the daily increase in root depth (RROOTD in m d-1) depending on the crop development stage (DevStage) and the actual volumetric soil water content (WC).
LintulRoot() - Constructor for class net.simplace.sim.components.models.lintul.LintulRoot: Empty constructor used by class.forName()
LintulWaterStress - Class in net.simplace.sim.components.models.lintul: WIKI_START LintulWaterStress calculates the transpiration reduction factor (TRANRF) based on the ratio between actual crop transpiration (TRAN in mm) and potential crop transpiration (PTRAN in mm): WIKI_END \[ \begin{eqnarray} TRANRF &=& MIN(1,\frac{TRAN}{PTRAN} \cdot \frac{1}{DroughtTolerance}); \end{eqnarray} \] WIKI_START TRAN and PTRAN are provided by the SimComponent EvapTran.java.
LintulWaterStress() - Constructor for class net.simplace.sim.components.models.lintul.LintulWaterStress: Empty constructor used by class.forName()
Litimmobslow - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
LitimmobslowP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
LitterC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
LitterCutback - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
LitterN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
LitterP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
LittersoilC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
LittersoilN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
LittersoilP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
LittersurfC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
LittersurfN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
LittersurfP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
LittWC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
LivestockEnergyDemand - Class in net.simplace.sim.components.experimental.livestock
LivestockEnergyDemand() - Constructor for class net.simplace.sim.components.experimental.livestock.LivestockEnergyDemand: Empty constructor used by class.forName()
LivestockEnergyStress - Class in net.simplace.sim.components.experimental.livestock
LivestockEnergyStress() - Constructor for class net.simplace.sim.components.experimental.livestock.LivestockEnergyStress: Empty constructor used by class.forName()
LivestockFunctions - Class in net.simplace.sim.components.experimental.livestock: Functions to calculate Livestock population See: M.
LivestockFunctions() - Constructor for class net.simplace.sim.components.experimental.livestock.LivestockFunctions
Llisl - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
LlislP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Llisu - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
LlisuP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Lmtsl - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
LmtslP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Lmtsu - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
LmtsuP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
LookupTable - Class in net.simplace.sim.components.util
LookupTable(FWSimVariable<Double>, FWSimVariable<Double[]>) - Constructor for class net.simplace.sim.components.util.LookupTable
LookupTable(FWSimVariable<Double>, FWSimVariable<Double[]>, Object) - Constructor for class net.simplace.sim.components.util.LookupTable
Lpas - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
LpasP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
LSfactor(double, double) - Static method in class net.simplace.sim.components.experimental.erosion.ErosionFunctions: Calculates LS factor
Lslo - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
LsloP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Lstbra - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
LstbraP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Lstcoro - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
LstcoroP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Lstsl - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
LstslP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Lststem - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
LststemP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Lstsu - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
LstsuP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP

M

m(double, double, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.HypresFunctions
m(double, double, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.RawlsFunctions
m(double, double, double, double, boolean) - Method in interface net.simplace.sim.components.soil.pedotransfer.VanGenuchtenPedoTransferFunction
m(int, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.KartierungsanleitungFunctions
m(int, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.TextureClassesFunctions
m(int, double, double, boolean) - Method in interface net.simplace.sim.components.soil.pedotransfer.TextureClassPedoTransferFunction
main(String[]) - Static method in class net.simplace.sim.components.util.helper.CombineData
MaintainanceLossRedistributionRate(double, double) - Static method in class net.simplace.sim.components.models.lintul5.extended.cassava.LintulCassavaFunctions
ManureProduction - Class in net.simplace.sim.components.experimental.livestock
ManureProduction() - Constructor for class net.simplace.sim.components.experimental.livestock.ManureProduction: Empty constructor used by class.forName()
MaxFWC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
maxLayerDepth(Double[], double) - Static method in class net.simplace.sim.components.util.helper.ArrayHelper: Calculates the minimum of layer depth and a given maxdepth
maxLayerIndex(Double[], double) - Static method in class net.simplace.sim.components.util.helper.ArrayHelper: Calculates the array index (layernr) of the depth array that coresponds to the maxdepth
Maxncact - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
Maxpcact - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
maxTemp - Variable in class net.simplace.sim.components.util.helper.diurnal.ComparableWeatherEntry
MCMCGenerator - Class in net.simplace.sim.control.generators: Generate simulations with parameters created randomly from specified distributions.
MCMCGenerator(Element, FWSimSession, HashMap<String, FWSimVariable<?>>, FWSimVariable.CONTENT_TYPE) - Constructor for class net.simplace.sim.control.generators.MCMCGenerator
MeanSaturatedVapourPressure(double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Mean vapour pressure of a period Eq. (12)
MergeKeysAndValues(int, Object, Object[]) - Method in class net.simplace.sim.transformers.LayerAggregationTransformer
MergeKeysAndValues(int, Object, HashMap<String, Object>) - Method in class net.simplace.sim.transformers.DiurnalSineWeatherTransformer
MergeKeysAndValues(int, Object, HashMap<String, Object>) - Method in class net.simplace.sim.transformers.LinearRegressionTransformer
MetabsoilC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
MetabsoilC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
MetabsoilN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
MetabsoilN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
MetabsoilP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.InitialStatesP
MetabsoilP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
MetabsurfC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
MetabsurfC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
MetabsurfN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
MetabsurfN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
MetabsurfP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.InitialStatesP
MetabsurfP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
MethaneEmission - Class in net.simplace.sim.components.experimental.livestock
MethaneEmission() - Constructor for class net.simplace.sim.components.experimental.livestock.MethaneEmission: Empty constructor used by class.forName()
MethaneEmissionLite - Class in net.simplace.sim.components.experimental.livestock: This are the two equations to calculate Daily Methane Production in the paper of Ndungu et al 2019 Ndungu uses two equations (eq 16 and 17 in the paper): 1.
MethaneEmissionLite() - Constructor for class net.simplace.sim.components.experimental.livestock.MethaneEmissionLite: Empty constructor used by class.forName()
mExponent(double) - Static method in class net.simplace.sim.components.experimental.erosion.ErosionFunctions: Calculates exponent m for Freebairn equation
Microb1 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Microb2 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Microb3 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Microb4 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Microb5 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Microb6 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
MicroblabC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
MicroblabN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
MicroblabP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
MicrobrstC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
MicrobrstN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
MicrobrstP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
MicrobsoilC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
MicrobsoilN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
MicrobsoilP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
microLabCN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
microLabFrac - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
microRstCN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
microRstFrac - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
MilkProduction - Class in net.simplace.sim.components.experimental.livestock
MilkProduction() - Constructor for class net.simplace.sim.components.experimental.livestock.MilkProduction: Empty constructor used by class.forName()
MineralisationDepth - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamC
MinFWC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
Minncact - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamN
Minpcact - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.ParamP
minTemp - Variable in class net.simplace.sim.components.util.helper.diurnal.ComparableWeatherEntry
MissingDataTransformer - Class in net.simplace.sim.transformers: Fills missing datasets.
MissingDataTransformer(FWSimSession, Integer) - Constructor for class net.simplace.sim.transformers.MissingDataTransformer
MissingDataTransformer(FWSimSession, Element, Integer) - Constructor for class net.simplace.sim.transformers.MissingDataTransformer
mix(Double, Double) - Method in class net.simplace.sim.components.management.tillage.StateMixer
MixedMaterialsAfterTillage(Double[], Double[], double, double) - Static method in class net.simplace.sim.components.management.tillage.TillageFunctions: Calculates new material content per layer after tillage (Eq. 16) Equivalent to Eq. 17+18 with EF = M%/100
MixedProportionsAfterTillage(Double[], Double[], double, double) - Static method in class net.simplace.sim.components.management.tillage.TillageFunctions: Calculates new material content per layer after tillage (Eq. 16)
MixEff - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamTillage

N

n(double, double, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.HypresFunctions
n(double, double, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.RawlsFunctions
n(double, double, double, double, boolean) - Method in interface net.simplace.sim.components.soil.pedotransfer.VanGenuchtenPedoTransferFunction
n(int, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.KartierungsanleitungFunctions
n(int, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.TextureClassesFunctions
n(int, double, double, boolean) - Method in interface net.simplace.sim.components.soil.pedotransfer.TextureClassPedoTransferFunction
N2O - Class in net.simplace.sim.components.experimental.n2o
N2O() - Constructor for class net.simplace.sim.components.experimental.n2o.N2O: Empty constructor used by class.forName()
N2Odenit - Class in net.simplace.sim.components.experimental.n2o
N2Odenit() - Constructor for class net.simplace.sim.components.experimental.n2o.N2Odenit: Empty constructor used by class.forName()
N2Ofunctions - Class in net.simplace.sim.components.experimental.n2o
N2Ofunctions() - Constructor for class net.simplace.sim.components.experimental.n2o.N2Ofunctions
Nactlab - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Nactrst - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
NBalance - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Outputs
NCfluxratio - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
Ncsommicro - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamN
NDemand_Plant1 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
NDemand_Plant2 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
NDemandByLayer_Plant1 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
NDemandByLayer_Plant2 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
NDEMND(double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.amei.LintulFunctions: Computes the N/P/K demands of crop organs
NDEMND(double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.LintulFunctions: Computes the N/P/K demands of crop organs
net.simplace.sim.components - package net.simplace.sim.components: Diverse sim components that can be used with different models WIKI_START == Overview == The package components contains a couple of smaller models, which can be used with other models.
net.simplace.sim.components.crop - package net.simplace.sim.components.crop
net.simplace.sim.components.crop.co2 - package net.simplace.sim.components.crop.co2
net.simplace.sim.components.crop.heatstress - package net.simplace.sim.components.crop.heatstress
net.simplace.sim.components.crop.translocation - package net.simplace.sim.components.crop.translocation
net.simplace.sim.components.evapotran - package net.simplace.sim.components.evapotran
net.simplace.sim.components.evapotran.fao56 - package net.simplace.sim.components.evapotran.fao56: FAO 56 methods for computing evaporation and transpiration WIKI_START The sim components calculate ET with different methods.
net.simplace.sim.components.experimental - package net.simplace.sim.components.experimental: This package contains models / sim components that are marked as experimental WIKI_START The status of experimental implies one or more of the following - algorithms are not yet validated - the methodology is not yet published - interface (inputs/outputs) is not finally established - user should use the model at their own risk - no assistance is provided - behaviour of model/interface can change any time WIKI_END
net.simplace.sim.components.experimental.amei - package net.simplace.sim.components.experimental.amei
net.simplace.sim.components.experimental.canopytemperature - package net.simplace.sim.components.experimental.canopytemperature
net.simplace.sim.components.experimental.cropresidues - package net.simplace.sim.components.experimental.cropresidues
net.simplace.sim.components.experimental.erosion - package net.simplace.sim.components.experimental.erosion
net.simplace.sim.components.experimental.fao56 - package net.simplace.sim.components.experimental.fao56
net.simplace.sim.components.experimental.grassland.lintul - package net.simplace.sim.components.experimental.grassland.lintul
net.simplace.sim.components.experimental.grassland.lintul5 - package net.simplace.sim.components.experimental.grassland.lintul5
net.simplace.sim.components.experimental.intercropping - package net.simplace.sim.components.experimental.intercropping: !
net.simplace.sim.components.experimental.lintul5.translocation - package net.simplace.sim.components.experimental.lintul5.translocation
net.simplace.sim.components.experimental.lintulcc - package net.simplace.sim.components.experimental.lintulcc
net.simplace.sim.components.experimental.livestock - package net.simplace.sim.components.experimental.livestock
net.simplace.sim.components.experimental.n2o - package net.simplace.sim.components.experimental.n2o
net.simplace.sim.components.experimental.runoff - package net.simplace.sim.components.experimental.runoff: This package contains components to calculation surface runoff.
net.simplace.sim.components.experimental.slim - package net.simplace.sim.components.experimental.slim
net.simplace.sim.components.management - package net.simplace.sim.components.management
net.simplace.sim.components.management.tillage - package net.simplace.sim.components.management.tillage
net.simplace.sim.components.models.gecros - package net.simplace.sim.components.models.gecros: WIKI_START == Overview == This package contains the Gecros sim component.
net.simplace.sim.components.models.gecros.modular - package net.simplace.sim.components.models.gecros.modular: WIKI_START == Overview == This subpackage contains the splitting of Gecros into !
net.simplace.sim.components.models.lintul - package net.simplace.sim.components.models.lintul: Crop model based on Lintul2 with additional changes WIKI_START == Overview == The sim components of this model are based on Lintul2, but include some changes - nitrogen limitation from Lintul3 - addition of drought tolerance parameter - optional use of reference evapotranspiration - etc.
net.simplace.sim.components.models.lintul2 - package net.simplace.sim.components.models.lintul2: Crop model that implements the Lintul2 algorithm WIKI_START == Overview == Implements the Lintul2 algorithm.
net.simplace.sim.components.models.lintul5 - package net.simplace.sim.components.models.lintul5: Lintul5 - Simple generic model for simulation of crop growth WIKI_START == Introduction == The sim components in the package lintul5 implement the Lintul5 algorithms from (L5).
net.simplace.sim.components.models.lintul5.amei - package net.simplace.sim.components.models.lintul5.amei
net.simplace.sim.components.models.lintul5.extended.cassava - package net.simplace.sim.components.models.lintul5.extended.cassava
net.simplace.sim.components.models.lintul5.modular - package net.simplace.sim.components.models.lintul5.modular: Splitting of the Lintul5 sim component into submodules WIKI_START In order to use only parts of the Lintul5 algorithm and combine the sim component with other model's sim components, the Lintul5 sim component has been split ||'''!
net.simplace.sim.components.models.lintulfast - package net.simplace.sim.components.models.lintulfast: Crop that implements the LintulFAST model WIKI_START == Overview == Implementations is based on LintulFAST, a C# program that is itself based on Lintul2, but made some changes in algorithms and added vernalisation, photoresponse, trend and technology etc.
net.simplace.sim.components.models.sucros - package net.simplace.sim.components.models.sucros: Sim component that implements the Sucros2 algorithm WIKI_START == Description == The sim component Sucros2.java implements the crop model Sucros2.
net.simplace.sim.components.models.sucros.modular - package net.simplace.sim.components.models.sucros.modular: Two splittings of the sim component Sucros2 into a crop and water module WIKI_START == Description == The Sucros2 sim component is split into a crop and water module.
net.simplace.sim.components.models.sucros.modular.splitting1 - package net.simplace.sim.components.models.sucros.modular.splitting1: Splitting of the sim component Sucros2 into a crop and water module WIKI_START == Description == The Sucros2 sim component is split into a crop and water module.
net.simplace.sim.components.models.sucros.modular.splitting2 - package net.simplace.sim.components.models.sucros.modular.splitting2: Splitting of the sim component Sucros2 into a crop and water module WIKI_START == Description == The Sucros2 sim component is split into a crop and water module.
net.simplace.sim.components.phenology - package net.simplace.sim.components.phenology
net.simplace.sim.components.radiation.fao56 - package net.simplace.sim.components.radiation.fao56: FAO 56 methods for computing radiation WIKI_START The sim components calculate radiation with different methods and from different inputs.
net.simplace.sim.components.soil.hillflow - package net.simplace.sim.components.soil.hillflow
net.simplace.sim.components.soil.pedotransfer - package net.simplace.sim.components.soil.pedotransfer
net.simplace.sim.components.soil.slim - package net.simplace.sim.components.soil.slim: SLIM - Model for soilwater, root growth and nitrogen WIKI_START == Overview == This package contains sim components that implements algorithms from the SLIM model.
net.simplace.sim.components.soil.soilcn - package net.simplace.sim.components.soil.soilcn
net.simplace.sim.components.soil.soilcn.calculation - package net.simplace.sim.components.soil.soilcn.calculation
net.simplace.sim.components.soil.soilcn.calculationP - package net.simplace.sim.components.soil.soilcn.calculationP
net.simplace.sim.components.soil.soilcn.valueobjects - package net.simplace.sim.components.soil.soilcn.valueobjects
net.simplace.sim.components.soil.soilcn.valueobjectsP - package net.simplace.sim.components.soil.soilcn.valueobjectsP
net.simplace.sim.components.soil.temperature - package net.simplace.sim.components.soil.temperature
net.simplace.sim.components.util - package net.simplace.sim.components.util: Sim components that perform auxiliary technical calculations WIKI_START == Overview == The components from this package perform auxiliary technical calculations like counting or transforming of array values.
net.simplace.sim.components.util.helper - package net.simplace.sim.components.util.helper: Helper classes with auxiliary functions and methods WIKI_START == Overview == In this package (and it's subpackages) you find helper classes with methods and functions, that are used by sim components and transformers.
net.simplace.sim.components.util.helper.diurnal - package net.simplace.sim.components.util.helper.diurnal: Helper methods for calculating diurnal weather values WIKI_START == Overview == The classes of this package define some helper functions and methods to calculate diurnal weather values (e.g. sorting weatherdata, calculating diurnal radiation by different methods etc.)
net.simplace.sim.components.vapourpressure.fao56 - package net.simplace.sim.components.vapourpressure.fao56: FAO 56 methods for computing vapour pressure WIKI_START Sim components to calculate vapour pressure with different methods from different inputs.
net.simplace.sim.control.generators - package net.simplace.sim.control.generators: Parameter generators for calibration and sensitivity analysis WIKI_START Generators generate a number of parameter sets and create for each parameter set a simulation.
net.simplace.sim.transformers - package net.simplace.sim.transformers: Transformers change data from resources before simulation start WIKI_START == Overview == Transformers normally act on resources and produce new resources, e.g. unit conversion, subdivision of layered data, aggregation etc.
NetLongwaveRadiation(double, double, double, double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Net longwave radiation Eq. (39)
NetLongwaveRadiationHourly(double, double, double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Net longwave radiation Eq. (39) hourly
Netminsom - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
NetminsomP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
NetRadiation(double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Net radiation (difference between incoming shortwave and outgoing longwave radiation) Eq. (40) Remark: equation works also for hourly values.
NetRadiationFromAny - Class in net.simplace.sim.components.radiation.fao56: Calculates net radiation from either global radiation or, if no global radiation available, from sun hours using (FAO 56) methods.
NetRadiationFromAny() - Constructor for class net.simplace.sim.components.radiation.fao56.NetRadiationFromAny: Empty constructor used by class.forName()
NetRadiationFromAnyTransformer - Class in net.simplace.sim.transformers: Calculates net radiation from either global radiation or, if no global radiation available, from sun hours using (FAO 56) methods.
NetRadiationFromAnyTransformer(FWSimSession, Integer) - Constructor for class net.simplace.sim.transformers.NetRadiationFromAnyTransformer
NetRadiationFromAnyTransformer(FWSimSession, Element, Integer) - Constructor for class net.simplace.sim.transformers.NetRadiationFromAnyTransformer
NetRadiationFromSolarRadiation - Class in net.simplace.sim.components.radiation.fao56: Calculates net radiation from solar radiation, using (FAO 56) methods.
NetRadiationFromSolarRadiation() - Constructor for class net.simplace.sim.components.radiation.fao56.NetRadiationFromSolarRadiation: Empty constructor used by class.forName()
NetRadiationFromSolarRadiationHourly - Class in net.simplace.sim.components.radiation.fao56: Calculates net radiation from solar radiation, using (FAO 56) methods.
NetRadiationFromSolarRadiationHourly() - Constructor for class net.simplace.sim.components.radiation.fao56.NetRadiationFromSolarRadiationHourly: Empty constructor used by class.forName()
NetRadiationFromSunHours - Class in net.simplace.sim.components.radiation.fao56: Calculates net radiation from sun hours using (FAO 56) methods.
NetRadiationFromSunHours() - Constructor for class net.simplace.sim.components.radiation.fao56.NetRadiationFromSunHours: Empty constructor used by class.forName()
NetShortwaveRadiation(double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Net solar or net shortwave radiation Eq. (38) Calculates the amount of solar radiation that is not reflected.
NetSolarRadiation(double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Net shortvawe radiation resulting from balance of incoming and reflected solar radiation Eq. (38) Calculates the amount of solar radiation that is not reflected.
nextRandom(Random, String, double, double, double, double, double, double, int) - Static method in class net.simplace.sim.control.generators.RandomSimGenerator: Generates a next random number
Nferti - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
NFlows - Variable in class net.simplace.sim.components.soil.soilcn.SoilCN
Ngross - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Nimmob - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Ninorg - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Inputs
Ninorg - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Outputs
Ninorg - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
Ninorgcrit - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamN
Nitract - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
Nitrate - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamSoil
NitrogenDemand - Class in net.simplace.sim.components.models.lintul: The SimComponent NitrogenDemand calculates crop specific nitrogen demand as a function of crop development stage WIKI_START The routines for this SimComponent are taken from Lintul 3 (Shibu et al. 2010).
NitrogenDemand - Static variable in class net.simplace.sim.components.management.NitrogenSurplus
NitrogenDemand() - Constructor for class net.simplace.sim.components.models.lintul.NitrogenDemand: Empty constructor used by class.forName()
NitrogenSurplus - Class in net.simplace.sim.components.management: The purpose of this sim-component is to calculate the balance of applied and available major nitrogen fertilizer, e.g., organic N, ammonium, nitrate with the plant update resp. demand.
NitrogenSurplus() - Constructor for class net.simplace.sim.components.management.NitrogenSurplus: Empty constructor used by class.forName()
NitrogenSurplus(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.management.NitrogenSurplus
Nleach - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Nlisl - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Nlisu - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Nloss - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Nmicrobupt - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Nmstl - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Nmtsu - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
NNINDX(double, double, boolean, int, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.amei.LintulFunctions: Computes NPK and N/P/K Nutrition Indices
NNINDX(double, double, boolean, int, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.LintulFunctions: Computes NPK and N/P/K Nutrition Indices
NOPTM(double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.amei.LintulFunctions: Computes the optimal N/P/K concentrations of crop organs
NOPTM(double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.LintulFunctions: Computes the optimal N/P/K concentrations of crop organs
NormalizeCurve(double[], double[]) - Static method in class net.simplace.sim.components.util.helper.DataTransformHelper: Normalizes the y-values of an x-y-curve so that the area under the curve is 1.
NormalizeCurve(double[], double[], double) - Static method in class net.simplace.sim.components.util.helper.DataTransformHelper: Normalizes the y-values of an x-y-curve so that the area under the curve has given value.
NOTNUL(double) - Static method in class net.simplace.sim.components.util.FSTFunctions: Returns 1 instead of 0 if the value is 0.
Npas - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
NPK - Class in net.simplace.sim.components.models.lintul5.modular: Lintul5 - Simple generic model for simulation of crop growth - NPK part WIKI_START This sim component calculates the NPK part from Lintul5.
NPK() - Constructor for class net.simplace.sim.components.models.lintul5.modular.NPK: Empty constructor used by class.forName()
NPK(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.models.lintul5.modular.NPK
NPKDemand - Class in net.simplace.sim.components.models.lintul5.amei: Lintul5 - Simple generic model for simulation of crop growth - NPKDemand part WIKI_START This sim component calculates the NPK demand part from NPK sim component.
NPKDemand - Class in net.simplace.sim.components.models.lintul5.modular: Lintul5 - Simple generic model for simulation of crop growth - NPKDemand part WIKI_START This sim component calculates the NPK demand part from NPK sim component.
NPKDemand() - Constructor for class net.simplace.sim.components.models.lintul5.amei.NPKDemand: Empty constructor used by class.forName()
NPKDemand() - Constructor for class net.simplace.sim.components.models.lintul5.modular.NPKDemand: Empty constructor used by class.forName()
NPKDemand(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.models.lintul5.amei.NPKDemand
NPKDemand(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.models.lintul5.modular.NPKDemand
NPKDemandSlimNitrogen - Class in net.simplace.sim.components.experimental.slim: This SimComponent is deprecated.
NPKDemandSlimNitrogen() - Constructor for class net.simplace.sim.components.experimental.slim.NPKDemandSlimNitrogen: Empty constructor used by class.forName()
NPKDemandSlimNitrogen(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.slim.NPKDemandSlimNitrogen
NPKDemandSlimNP - Class in net.simplace.sim.components.experimental.slim: Soil and plant nutrients - Combination of Lintul5 (plant) and Slim (soil) WIKI_START == Overview == This is a merge of Lintul5 (NPKDemand) and !
NPKDemandSlimNP() - Constructor for class net.simplace.sim.components.experimental.slim.NPKDemandSlimNP: Empty constructor used by class.forName()
NPKDemandSlimNP(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.slim.NPKDemandSlimNP
NPKSupply - Class in net.simplace.sim.components.models.lintul5.amei: Lintul5 - Simple generic model for simulation of crop growth - NPKSupply part WIKI_START This sim component calculates the NPK supply part from NPK sim component.
NPKSupply - Class in net.simplace.sim.components.models.lintul5.modular: Lintul5 - Simple generic model for simulation of crop growth - NPKSupply part WIKI_START This sim component calculates the NPK supply part from NPK sim component.
NPKSupply() - Constructor for class net.simplace.sim.components.models.lintul5.amei.NPKSupply: Empty constructor used by class.forName()
NPKSupply() - Constructor for class net.simplace.sim.components.models.lintul5.modular.NPKSupply: Empty constructor used by class.forName()
NPKSupply(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.models.lintul5.amei.NPKSupply
NPKSupply(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.models.lintul5.modular.NPKSupply
NPools - Variable in class net.simplace.sim.components.soil.soilcn.SoilCN
Nslo - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Nstbra - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Nstcoro - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Nstsl - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Nststem - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
Nstsu - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
NTRANS(double, double, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.amei.LintulFunctions: Computes the N/P/K translocated from different organs
NTRANS(double, double, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.LintulFunctions: Computes the N/P/K translocated from different organs
NTRLOC(double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.amei.LintulFunctions: Computes the translocatable N/P/K in the organs
NTRLOC(double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.LintulFunctions: Computes the translocatable N/P/K in the organs
NumLayers - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
NUptake(boolean, int, double, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.amei.LintulFunctions: Computes NUptake
NUptake(boolean, int, double, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.LintulFunctions: Computes NUptake
NUptake_Plant1 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
NUptake_Plant2 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
NUptakeByLayer_Plant1 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
NUptakeByLayer_Plant2 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates

O

OldSOMCN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
OldSOMCP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.InitialStatesP
OldSOMsoilC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
OldSOMsoilN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
OldSOMsoilP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
OrganicCarbon - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamSoil
OrganicCToMetabsoilCFraction - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamC
OrganicMatter_InitialSplitting - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Auxiliary
OrganicNToMetabsoilNFraction - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamN
OrganicPToMetabsoilPFraction - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.ParamP
Outputs - Class in net.simplace.sim.components.soil.soilcn.valueobjects: Helper Class that manages the creation of related Sim Variables.
Outputs() - Constructor for class net.simplace.sim.components.soil.soilcn.valueobjects.Outputs
OutputsP - Class in net.simplace.sim.components.soil.soilcn.valueobjectsP: Helper Class that manages the creation of related Sim Variables.
OutputsP() - Constructor for class net.simplace.sim.components.soil.soilcn.valueobjectsP.OutputsP
overlap(Double[], int, Double[], int) - Static method in class net.simplace.sim.components.util.helper.ArrayHelper: Returns the overlap of two layers from different resolutions.

P

p(double) - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationWaterStress: Adjustment of depletion factor p according to formula in footnote 2 of Table 22 (Allen et al., 1998).
p(double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Calculates the ETC-adjusted depletion fraction/factor p.
Pactlab - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Pactrst - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
paramC - Variable in class net.simplace.sim.components.soil.soilcn.SoilCN
ParamC - Class in net.simplace.sim.components.soil.soilcn.valueobjects: Helper Class that manages the creation of related Sim Variables.
ParamC() - Constructor for class net.simplace.sim.components.soil.soilcn.valueobjects.ParamC
paramCrop - Variable in class net.simplace.sim.components.soil.soilcn.SoilCN
ParamCrop - Class in net.simplace.sim.components.soil.soilcn.valueobjects: Helper Class that manages the creation of related Sim Variables.
ParamCrop() - Constructor for class net.simplace.sim.components.soil.soilcn.valueobjects.ParamCrop
paramN - Variable in class net.simplace.sim.components.soil.soilcn.SoilCN
ParamN - Class in net.simplace.sim.components.soil.soilcn.valueobjects: Helper Class that manages the creation of related Sim Variables.
ParamN() - Constructor for class net.simplace.sim.components.soil.soilcn.valueobjects.ParamN
paramP - Variable in class net.simplace.sim.components.soil.soilcn.SoilCNP
ParamP - Class in net.simplace.sim.components.soil.soilcn.valueobjectsP: Helper Class that manages the creation of related Sim Variables.
ParamP() - Constructor for class net.simplace.sim.components.soil.soilcn.valueobjectsP.ParamP
paramSoil - Variable in class net.simplace.sim.components.soil.soilcn.SoilCN
ParamSoil - Class in net.simplace.sim.components.soil.soilcn.valueobjects: Helper Class that manages the creation of related Sim Variables.
ParamSoil() - Constructor for class net.simplace.sim.components.soil.soilcn.valueobjects.ParamSoil
ParamTillage - Class in net.simplace.sim.components.soil.soilcn.valueobjects: Helper Class that manages the creation of related Sim Variables.
ParamTillage() - Constructor for class net.simplace.sim.components.soil.soilcn.valueobjects.ParamTillage
PART(double, double, double, double, Double[], Double[], Double[], Double[]) - Static method in class net.simplace.sim.components.experimental.lintulcc.LintulCCFunctions: Calculates partitioning fractions
PART(double, double, double, double, Double[], Double[], Double[], Double[], double, double, double, double) - Static method in class net.simplace.sim.components.experimental.lintulcc.LintulCCFunctions: Calculate partition Fractions
partialAveragedLayerAmounts(Double[], Double[], double, double) - Static method in class net.simplace.sim.components.util.helper.ArrayHelper
partialAveragedLayerProportions(Double[], Double[], double, double) - Static method in class net.simplace.sim.components.util.helper.ArrayHelper
Partitioning - Class in net.simplace.sim.components.experimental.amei: WIKI_START !
Partitioning() - Constructor for class net.simplace.sim.components.experimental.amei.Partitioning: Empty constructor used by class.forName()
PBalance - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.OutputsP
PCfluxratio - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
Pcsommicro - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.ParamP
PDemand_Plant1 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
PDemand_Plant2 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Pedotransfer - Class in net.simplace.sim.components.soil.pedotransfer: WIKI_START Takes data with depth, clay percentage, silt percentage, sand percentage (optional, default 100-(clay+silt)), organic matter percentage (optional, default 0) bulk density (optional, default 1.4), top soil depth (optional, default 0.3 m), pedotransfer function (optional, default 'Hypres'), gravel percentage (optional, default 0) in n soil layers and transforms it to Van Genuchten parameters alpha, l, m, n and Ks or Volumetric water contents. == Description == Soil data is mostly delivered with the layer specific information.
Pedotransfer() - Constructor for class net.simplace.sim.components.soil.pedotransfer.Pedotransfer
Pedotransfer(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.soil.pedotransfer.Pedotransfer
PedotransferTransformer - Class in net.simplace.sim.transformers: WIKI_START Takes data with depth, clay percentage, silt percentage, sand percentage (optional, default 100-(clay+silt)), organic matter percentage (optional, default 0) bulk density (optional, default 1.4), top soil depth (optional, default 0.3 m), pedotransfer function (optional, default 'Hypres'), gravel percentage (optional, default 0) in n soil layers and transforms it to Van Genuchten parameters alpha, l, m, n and Ks or Volumetric water contents. == Description == Soil data is mostly delivered with the layer specific information.
PedotransferTransformer(FWSimSession, Integer) - Constructor for class net.simplace.sim.transformers.PedotransferTransformer
PedotransferTransformer(FWSimSession, Element, Integer) - Constructor for class net.simplace.sim.transformers.PedotransferTransformer
PEN_MONTH(double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.experimental.lintulcc.LintulCCFunctions
PEN_MONTH_Diurnal(double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.experimental.lintulcc.LintulCCFunctions
PENMAN(double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul.Functions: Computation of the PENMAN EQUATION, daily values of potential evaporation and transpiration
PENMAN(double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul2.Lintul2Functions
PENMAN(double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintulfast.LintulFastFunctions
PENMAN(double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul.Functions: Computation of the PENMAN EQUATION - fraction of daily values (e.g. hourly) for potential evaporation and transpiration The modified Penman routine calculates sub-daily (e.g. hourly) values for potential transpiration and evaporation.
PENMAN(double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.experimental.canopytemperature.DiurnalPenman: Computation of the PENMAN EQUATION
PENMAN(double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.amei.LintulFunctions: This subroutine calculates atmospheric transmission, potential evaporation from a free water surface (E0), a bare soil surface (ES0) and the potential transpiration of a closed crop canopy (ET0); CO2 effect on crop transpiration is included.
PENMAN(double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.LintulFunctions: This subroutine calculates atmospheric transmission, potential evaporation from a free water surface (E0), a bare soil surface (ES0) and the potential transpiration of a closed crop canopy (ET0); CO2 effect on crop transpiration is included.
PFlows - Variable in class net.simplace.sim.components.soil.soilcn.SoilCNP
PfromH(double, double) - Static method in class net.simplace.sim.components.experimental.livestock.LivestockFunctions: Calculate probability from hazard rates
Pgross - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
PHENO(double, boolean, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.gecros.GecrosFunctions: Calculates phenological development rate.
Phenology - Class in net.simplace.sim.components.experimental.grassland.lintul5: Lintul5 - Simple generic model for simulation of crop growth - Phenology part WIKI_START == Introduction == The sim components in the package lintul5 implement the Lintul5 algorithms from (L5).
Phenology - Class in net.simplace.sim.components.models.lintul5.amei: Lintul5 - Simple generic model for simulation of crop growth - Phenology part WIKI_START == Introduction == The sim components in the package lintul5 implement the Lintul5 algorithms from (L5).
Phenology - Class in net.simplace.sim.components.models.lintul5: Lintul5 - Simple generic model for simulation of crop growth - Phenology part WIKI_START == Introduction == The sim components in the package lintul5 implement the Lintul5 algorithms from (L5).
Phenology() - Constructor for class net.simplace.sim.components.experimental.grassland.lintul5.Phenology: Empty constructor used by class.forName()
Phenology() - Constructor for class net.simplace.sim.components.models.lintul5.amei.Phenology: Empty constructor used by class.forName()
Phenology() - Constructor for class net.simplace.sim.components.models.lintul5.Phenology: Empty constructor used by class.forName()
Phenology(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.grassland.lintul5.Phenology
Phenology(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.models.lintul5.amei.Phenology
Phenology(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.models.lintul5.Phenology
PhenologyVariables(int, LocalDateTime, Double, Double, Double, Double, Double, Boolean, Boolean, Boolean, Integer, Integer, Integer, LocalDateTime, LocalDateTime, LocalDateTime) - Static method in class net.simplace.sim.components.experimental.lintulcc.LintulCCFunctions
PHOTOP(int, double, int, double) - Static method in class net.simplace.sim.components.experimental.lintulcc.LintulCCFunctions: Calculates the rate of change of the photoperiod at emergence.
Photoperiod - Class in net.simplace.sim.components.experimental.amei: Reduces daily temperature increment by photoperiod.
Photoperiod() - Constructor for class net.simplace.sim.components.experimental.amei.Photoperiod: Empty constructor used by class.forName()
Photoperiod(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.amei.Photoperiod: Called by Clone method only
PhotoResponseToArray(InterpolationTable) - Static method in class net.simplace.sim.components.crop.VernalisationAndPhotoresponse: Stores the photo response factors for a duration in minutes in an array
Pimmob - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Pinorgcrit - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.ParamP
PinorgSol - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.InputsP
PinorgSol - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.OutputsP
PinorgSol - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
PinorgSolRate - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.OutputsP
PlantHeightByTemperature - Class in net.simplace.sim.components.experimental: Calculates plant height from temperature WIKI_START The model calculates plant height increment by using daily mean temperature.
PlantHeightByTemperature() - Constructor for class net.simplace.sim.components.experimental.PlantHeightByTemperature: Empty constructor used by class.forName()
PlantSystemConductance - Class in net.simplace.sim.components.experimental.lintulcc: Calculates root system and plant hydraulic conductances.
PlantSystemConductance() - Constructor for class net.simplace.sim.components.experimental.lintulcc.PlantSystemConductance: Empty constructor used by class.forName()
Pleach - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Plisl - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Plisu - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Ploss - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Pmicrobupt - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Pmstl - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Pmtsu - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
PoolsInterchange(Double[], Double[], Double[], Double[], Double[]) - Static method in class net.simplace.sim.components.experimental.slim.SlimPhosphorusFunctions: Moves phoshporus between the three inorganic pools: dissolved, adsorbed and fixed.
PopulationGrowth - Class in net.simplace.sim.components.experimental.livestock
PopulationGrowth() - Constructor for class net.simplace.sim.components.experimental.livestock.PopulationGrowth: Empty constructor used by class.forName()
PotentialEvapoTranspiration - Class in net.simplace.sim.components.models.lintul5.amei: Lintul5 - Simple generic model for simulation of crop growth - Biomass and NPK part WIKI_START == Introduction == The sim components in the package lintul5 implement the Lintul5 algorithms from (L5).
PotentialEvapoTranspiration - Class in net.simplace.sim.components.models.lintul5: Lintul5 - Simple generic model for simulation of crop growth - Biomass and NPK part WIKI_START == Introduction == The sim components in the package lintul5 implement the Lintul5 algorithms from (L5).
PotentialEvapoTranspiration() - Constructor for class net.simplace.sim.components.models.lintul5.amei.PotentialEvapoTranspiration: Empty constructor used by class.forName()
PotentialEvapoTranspiration() - Constructor for class net.simplace.sim.components.models.lintul5.PotentialEvapoTranspiration: Empty constructor used by class.forName()
PotentialEvapoTranspiration(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.models.lintul5.amei.PotentialEvapoTranspiration
PotentialEvapoTranspiration(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.models.lintul5.PotentialEvapoTranspiration
PotSoilEvap() - Method in class net.simplace.sim.components.evapotran.fao56.CropEvapoTranspirationDualCoeff: Calculates K_e and potential soil evaporation
PotSoilEvap() - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationDualCoeffHourly: Calculates K_e and potential soil evaporation
PotTran() - Method in class net.simplace.sim.components.evapotran.fao56.CropEvapoTranspirationDualCoeff: Calculates K_cb and potential transpiration of crop
PotTran() - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationDualCoeffHourly: Calculates K_cb and potential transpiration of crop
PotTran() - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationDualCoeffPot: Calculates K_cb and potential transpiration of crop
Ppas - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
PPools - Variable in class net.simplace.sim.components.soil.soilcn.SoilCNP
PRescaled(double, double, double) - Static method in class net.simplace.sim.components.experimental.livestock.LivestockFunctions: Rescales probability to different time unit
process() - Method in class net.simplace.sim.components.crop.co2.Co2InfluenceOnLUE: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.crop.co2.Co2InfluenceOnTranspiration: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.crop.heatstress.HeatStressOnGrain
process() - Method in class net.simplace.sim.components.crop.heatstress.HeatStressOnLeafSenescence
process() - Method in class net.simplace.sim.components.crop.SimpleTranspirationReductionFactor
process() - Method in class net.simplace.sim.components.crop.translocation.BiomassTranslocation
process() - Method in class net.simplace.sim.components.crop.translocation.SeedsToSprouts
process() - Method in class net.simplace.sim.components.crop.VernalisationAndPhotoresponse
process() - Method in class net.simplace.sim.components.evapotran.fao56.CropEvapoTranspirationDualCoeff: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.evapotran.fao56.ReferenceETHargreaves: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.evapotran.fao56.ReferenceETPM: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.evapotran.fao56.ReferenceETPMHourly: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.evapotran.ReferenceETPriestleyTaylor: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.amei.DayLength
process() - Method in class net.simplace.sim.components.experimental.amei.Partitioning: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.amei.Photoperiod
process() - Method in class net.simplace.sim.components.experimental.amei.Vernalisation
process() - Method in class net.simplace.sim.components.experimental.canopytemperature.BiomassTranslocationForDrought
process() - Method in class net.simplace.sim.components.experimental.canopytemperature.CanopyTemperature_hrlyET
process() - Method in class net.simplace.sim.components.experimental.canopytemperature.CropHeight
process() - Method in class net.simplace.sim.components.experimental.canopytemperature.HeatStressHourly
process() - Method in class net.simplace.sim.components.experimental.canopytemperature.HourEvapTran: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.canopytemperature.HourLintulWaterStress: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.canopytemperature.HourlyPenmanEvapTranDemand: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.canopytemperature.Total_LWRad
process() - Method in class net.simplace.sim.components.experimental.canopytemperature.WindTranslation
process() - Method in class net.simplace.sim.components.experimental.cropresidues.CropResidues: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.erosion.ErosionFreebairn
process() - Method in class net.simplace.sim.components.experimental.erosion.ErosionFreebairnAPSIM
process() - Method in class net.simplace.sim.components.experimental.erosion.ErosionRoseAPSIM
process() - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationDualCoeffHourly: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationDualCoeffPot: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationSoilEvap: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationWaterStress: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.FarmFinance: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.grassland.lintul.LintulBiomass: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.grassland.lintul.LintulPhenology: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.grassland.lintul5.Biomass: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.grassland.lintul5.Phenology
process() - Method in class net.simplace.sim.components.experimental.intercropping.BelowgroundAllocationFactor
process() - Method in class net.simplace.sim.components.experimental.intercropping.RadiationInterception
process() - Method in class net.simplace.sim.components.experimental.intercropping.SplitWaterUptake
process() - Method in class net.simplace.sim.components.experimental.lintul5.translocation.Biomass: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.lintulcc.HillFlow1DLintulCCDiurnal
process() - Method in class net.simplace.sim.components.experimental.lintulcc.LintulCC
process() - Method in class net.simplace.sim.components.experimental.lintulcc.LintulCCDiurnal
process() - Method in class net.simplace.sim.components.experimental.lintulcc.LintulCCDiurnalCrop
process() - Method in class net.simplace.sim.components.experimental.lintulcc.LintulCCDiurnalCropOzone
process() - Method in class net.simplace.sim.components.experimental.lintulcc.PlantSystemConductance: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.livestock.FeedEnergyContent: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.livestock.FeedEnergySupply: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.livestock.FodderConsumption: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.livestock.LivestockEnergyDemand: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.livestock.LivestockEnergyStress: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.livestock.ManureProduction: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.livestock.MethaneEmission: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.livestock.MethaneEmissionLite: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.livestock.MilkProduction: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.livestock.PopulationGrowth: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.livestock.SellOutManagement: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.livestock.WeightAndMeatProduction: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.n2o.N2O: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.n2o.N2Odenit: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.PlantHeightByTemperature: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.runoff.RunoffCurveNumber_ET: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.runoff.RunoffCurveNumber_SW: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.runoff.RunoffCurveNumber: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.runoff.RunoffCurveNumberAPSIM: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.runoff.RunoffSurfaceCover: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.slim.NPKDemandSlimNitrogen: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.slim.NPKDemandSlimNP: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.experimental.slim.SlimPhosphorus
process() - Method in class net.simplace.sim.components.experimental.slim.SlimWater2
process() - Method in class net.simplace.sim.components.experimental.slim.SlimWater3
process() - Method in class net.simplace.sim.components.experimental.slim.SlimWater3Modified
process() - Method in class net.simplace.sim.components.management.Fertilizer
process() - Method in class net.simplace.sim.components.management.HarvestKillManagement
process() - Method in class net.simplace.sim.components.management.NitrogenSurplus
process() - Method in class net.simplace.sim.components.management.ReSowManagement
process() - Method in class net.simplace.sim.components.management.SimpleAutomaticIrrigation
process() - Method in class net.simplace.sim.components.management.SimpleFertilizer: Deprecated.
process() - Method in class net.simplace.sim.components.management.SimpleIrrigation
process() - Method in class net.simplace.sim.components.management.tillage.TillageSoilProperties
process() - Method in class net.simplace.sim.components.models.gecros.Gecros: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.gecros.modular.GecrosCrop: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.gecros.modular.GecrosCropLAI: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.gecros.modular.GecrosSoilWater: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.lintul.EvapTran: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.lintul.EvapTranDemand: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.lintul.LintulBiomass: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.lintul.LintulDRUNIR: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.lintul.LintulPartitioning: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.lintul.LintulPhenology: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.lintul.LintulRoot: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.lintul.LintulWaterStress: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.lintul.NitrogenDemand: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.lintul.TemperatureIncrement: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.lintul2.Lintul2: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.lintul5.amei.Biomass: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.lintul5.amei.Irradiation
process() - Method in class net.simplace.sim.components.models.lintul5.amei.NPKDemand: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.lintul5.amei.NPKSupply: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.lintul5.amei.Phenology
process() - Method in class net.simplace.sim.components.models.lintul5.amei.PotentialEvapoTranspiration
process() - Method in class net.simplace.sim.components.models.lintul5.amei.RadiationUseEfficiency
process() - Method in class net.simplace.sim.components.models.lintul5.amei.WaterBalance: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.lintul5.extended.cassava.LayeredWaterAggregatorForCassava: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.lintul5.extended.cassava.Lintul5Cassava: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.lintul5.Irradiation
process() - Method in class net.simplace.sim.components.models.lintul5.Lintul5: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.lintul5.modular.Biomass: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.lintul5.modular.NPK: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.lintul5.modular.NPKDemand: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.lintul5.modular.NPKSupply: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.lintul5.modular.WaterStress: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.lintul5.Phenology
process() - Method in class net.simplace.sim.components.models.lintul5.PotentialEvapoTranspiration
process() - Method in class net.simplace.sim.components.models.lintul5.RadiationUseEfficiency
process() - Method in class net.simplace.sim.components.models.lintul5.WaterBalance: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.lintulfast.LintulFast: process the algorithm and write the results back to VarMap Implements the same behavior as in LintulFAST (C#-Version)
process() - Method in class net.simplace.sim.components.models.sucros.modular.splitting1.Sucros2Crop: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.sucros.modular.splitting1.Sucros2PotEvapTranWater: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.sucros.modular.splitting2.Sucros2CropPotEvapTran: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.sucros.modular.splitting2.Sucros2EvapTranWater: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.models.sucros.Sucros2: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.phenology.CustomPhenologyStage: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.radiation.fao56.NetRadiationFromAny: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.radiation.fao56.NetRadiationFromSolarRadiation: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.radiation.fao56.NetRadiationFromSolarRadiationHourly: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.radiation.fao56.NetRadiationFromSunHours: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.radiation.fao56.SolarRadiationFromTemperature: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.soil.hillflow.HillFlow1D
process() - Method in class net.simplace.sim.components.soil.pedotransfer.Pedotransfer
process() - Method in class net.simplace.sim.components.soil.slim.ImprovedSoilWater
process() - Method in class net.simplace.sim.components.soil.slim.SlimNitrogen: Calculates one step (i.e. one day)
process() - Method in class net.simplace.sim.components.soil.slim.SlimNitrogenLegacy: Calculates one step (i.e. one day)
process() - Method in class net.simplace.sim.components.soil.slim.SlimRoots: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.soil.slim.SlimWater
process() - Method in class net.simplace.sim.components.soil.soilcn.SoilCN
process() - Method in class net.simplace.sim.components.soil.soilcn.SoilCNP
process() - Method in class net.simplace.sim.components.soil.temperature.SnowCoverCalculator: process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.soil.temperature.STMPsimCalculator: process the algorithm and write the results back to VarMap TMX = Maximum air temperature at 2 m (Â°C) TMN = Minimum air temperature at 2 m (Â°C) RA = RA(t) = Mean daily solar radiation on day t (kJ/m2*d) PREC = Precipitation on day t (mm) CV = Crop residues plus above ground biomass (kg/ha) SNO = Water content in snow layer (mm) SW = ST(t) = Soil water stored in the soil profile at day t (mm) SLA = Leaf area index (m*m-1) PEVAP = Potential soil evaporation (mm)
process() - Method in class net.simplace.sim.components.util.ArrayResampler: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.util.InterpolatedValueFromTable: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.util.LinearTransformArray: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.util.SimpleCounter: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.util.SimpleMovingAverage: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.util.ValueToTableConverter: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.vapourpressure.fao56.Vapourpressure: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromAny: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromDewPoint: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourPressureFromPsychrometricData: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromRelHumidityMax: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromRelHumidityMaxMin: Process the algorithm and write the results back to VarMap
process() - Method in class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromRelHumidityMean: Process the algorithm and write the results back to VarMap
Pslo - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Pstbra - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Pstcoro - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Pstsl - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Pststem - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
Pstsu - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
PsychrometricConstant(double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Calculates the psychrometric constant gamma as function of atmospheric pressure P Eq. (8) The factor is calculated from parameters for average atmospheric conditions and is rounded to 3 decimals to be consistent with the reference.
PUptake - Class in net.simplace.sim.components.soil.soilcn.calculationP: CutbackDecomp strategy calculates a cutback of the decomposition in case of a lack of inorganic nitrogen
PUptake - Variable in class net.simplace.sim.components.soil.soilcn.SoilCNP
PUptake() - Constructor for class net.simplace.sim.components.soil.soilcn.calculationP.PUptake
PUptake_Plant1 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
PUptake_Plant2 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
PUptakeByLayer_Plant1 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
PUptakeByLayer_Plant2 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP

Q

Q_surf(double, double) - Static method in class net.simplace.sim.components.experimental.runoff.CNEquations: Surface runoff SWAT2009 eq. 2:1.1.1

R

ra(double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.experimental.canopytemperature.AerodynamicResistanceCalculator: iterative calculation of aerodynamic resistance without assumptions of atmospheric stability ra is calculated on the basis of the atmospheric stability regime, which is determined using the Richardson number the stability correction functions depend on the Monin-Obukhov length
radiantFromDegree(double) - Static method in class net.simplace.sim.components.experimental.erosion.ErosionFunctions: Converts from angular degrees to radiant
radiation - Variable in class net.simplace.sim.components.util.helper.diurnal.ComparableWeatherEntry
RadiationIntensitySinBeta(double, double, double, int, double, double, double) - Static method in class net.simplace.sim.components.util.helper.diurnal.DiurnalWeatherHelper: Calculates the radiation intensity [radiation per hour] at a specified hour using SinBeta curve Uses SinBeta curve as defined in (G), eq. 3.2
RadiationIntensitySinBetaEffective(double, double, double, int, double, double, double) - Static method in class net.simplace.sim.components.util.helper.diurnal.DiurnalWeatherHelper: Calculates the radiation intensity [radiation per hour] at a specified hour using SinBeta*(1+0.4*SinBeta) curve Uses SinBeta*(1+0.4*SinBeta) curve with SinBeta as defined in (G), eq. 3.2
RadiationIntensitySine(double, double, double) - Static method in class net.simplace.sim.components.util.helper.diurnal.DiurnalWeatherHelper: Calculates the radiation intensity [radiation per hour] at a specified hour using simple sine curve
RadiationInterception - Class in net.simplace.sim.components.experimental.intercropping: Calculates each crops radiation interceptions for two crops WIKI_START == Calculation == Calculates radiation interception of two crops planted in strips, possibly with space between the strips.
RadiationInterception() - Constructor for class net.simplace.sim.components.experimental.intercropping.RadiationInterception: called from class.forName()
RadiationInterception(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.intercropping.RadiationInterception
RadiationSinBeta(double, double, double, int, double, double, double) - Static method in class net.simplace.sim.components.util.helper.diurnal.DiurnalWeatherHelper: Calculates the radiation accumulated from beginning of day till a specified hour using SinBeta curve Uses SinBeta curve as defined in (G), eq. 3.2
RadiationSinBetaEffective(double, double, double, int, double, double, double) - Static method in class net.simplace.sim.components.util.helper.diurnal.DiurnalWeatherHelper: Calculates the radiation accumulated from beginning of day till a specified hour using SinBeta*(1+0.4*SinBeta) curve Uses SinBeta*(1+0.4*SinBeta) curve with SinBeta as defined in (G), eq. 3.2
RadiationSinBetaEffectiveFromTo(double, double, double, double, int, double, double, double) - Static method in class net.simplace.sim.components.util.helper.diurnal.DiurnalWeatherHelper: Calculates the radiation that is accumulated within the time span from a to b using SinBeta*(1+0.4*SinBeta) curve Uses SinBeta*(1+0.4*SinBeta) curve with SinBeta as defined in (G), eq. 3.2
RadiationSinBetaFromTo(double, double, double, double, int, double, double, double) - Static method in class net.simplace.sim.components.util.helper.diurnal.DiurnalWeatherHelper: Calculates the radiation that is accumulated within the time span from a to b using SinBeta curve Uses SinBeta curve as defined in (G), eq. 3.2
RadiationSine(double, double, double) - Static method in class net.simplace.sim.components.util.helper.diurnal.DiurnalWeatherHelper: Calculates the radiation accumulated from beginning of day till a specified hour using simple sine curve
RadiationSineFromTo(double, double, double, double) - Static method in class net.simplace.sim.components.util.helper.diurnal.DiurnalWeatherHelper: Calculates the radiation that is accumulated within the time span from t1 to t2 using simple sine curve
RadiationUseEfficiency - Class in net.simplace.sim.components.models.lintul5.amei: Lintul5 - Simple generic model for simulation of crop growth - Radiation use efficiency part WIKI_START == Introduction == The sim components in the package lintul5 implement the Lintul5 algorithms from (L5).
RadiationUseEfficiency - Class in net.simplace.sim.components.models.lintul5: Lintul5 - Simple generic model for simulation of crop growth - Radiation use efficiency part WIKI_START == Introduction == The sim components in the package lintul5 implement the Lintul5 algorithms from (L5).
RadiationUseEfficiency() - Constructor for class net.simplace.sim.components.models.lintul5.amei.RadiationUseEfficiency: Empty constructor used by class.forName()
RadiationUseEfficiency() - Constructor for class net.simplace.sim.components.models.lintul5.RadiationUseEfficiency: Empty constructor used by class.forName()
RadiationUseEfficiency(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.models.lintul5.amei.RadiationUseEfficiency
RadiationUseEfficiency(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.models.lintul5.RadiationUseEfficiency
RandomSimGenerator - Class in net.simplace.sim.control.generators: Generate simulations with parameters created randomly from specified distributions.
RandomSimGenerator(Element, FWSimSession, HashMap<String, FWSimVariable<?>>, FWSimVariable.CONTENT_TYPE) - Constructor for class net.simplace.sim.control.generators.RandomSimGenerator
Ratemicrobup - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamN
RatemicrobupP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.ParamP
Rates - Class in net.simplace.sim.components.soil.soilcn.valueobjects: Helper Class that manages the creation of related Sim Variables.
Rates() - Constructor for class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
RatesP - Class in net.simplace.sim.components.soil.soilcn.valueobjectsP: Helper Class that manages the creation of related Sim Variables.
RatesP() - Constructor for class net.simplace.sim.components.soil.soilcn.valueobjectsP.RatesP
RawlsFunctions - Class in net.simplace.sim.components.soil.pedotransfer
RawlsFunctions() - Constructor for class net.simplace.sim.components.soil.pedotransfer.RawlsFunctions
REAAND(double, double) - Static method in class net.simplace.sim.components.util.FSTFunctions: Tests whether two values are positive
REANOR(double, double) - Static method in class net.simplace.sim.components.util.FSTFunctions: Returns 1 if two values are both zero or negative, returns 0 otherwise
redistributeLayersCenter(Double[], Double[], T[], T[]) - Static method in class net.simplace.sim.components.util.helper.ArrayHelper: Resamples layer values from one resolution to another by taking the value of the source layer hitting the center of target layer Values have to be proportions (e.g. water content in mm or volumetric water content in mm^3/mm^3)
redistributeLayersFirst(Double[], Double[], T[], T[]) - Static method in class net.simplace.sim.components.util.helper.ArrayHelper: Resamples layer values from one resolution to another by taking the value of first overlapping layer Values have to be proportions (e.g. water content in mm or volumetric water content in mm^3/mm^3)
redistributeLayersLast(Double[], Double[], T[], T[]) - Static method in class net.simplace.sim.components.util.helper.ArrayHelper: Resamples layer values from one resolution to another by taking the value of last overlapping layer Values have to be proportions (e.g. water content in mm or volumetric water content in mm^3/mm^3)
RedistributionEndTsumRate(double, double, boolean, boolean) - Static method in class net.simplace.sim.components.models.lintul5.extended.cassava.LintulCassavaFunctions
RedistributionRates(double, double, double, double, double, boolean, boolean) - Static method in class net.simplace.sim.components.models.lintul5.extended.cassava.LintulCassavaFunctions
RedistributionTsumRate(double, double, boolean, boolean) - Static method in class net.simplace.sim.components.models.lintul5.extended.cassava.LintulCassavaFunctions
ReferenceETHargreaves - Class in net.simplace.sim.components.evapotran.fao56: Calculates reference evapotranspiration ET0 by Hargreaves method using solar radiation and temperature WIKI_START == Hargreaves 1975 == Uses the Hargreaves 1975 formula for ET0 calculation from temperature and solar radiation WIKI_END $ ET0 = 0.0135 (MeanTemperature + 17.8) SolarRadiationMM $ WIKI_START Where WIKI_END $ SolarRadiationMM = 0.408 \cdot \text{iSolarRadiation} $ WIKI_START is the solar radiation in mm/day, converted from MJ/(m^2 d).
ReferenceETHargreaves() - Constructor for class net.simplace.sim.components.evapotran.fao56.ReferenceETHargreaves: Empty constructor used by class.forName()
ReferenceETPM - Class in net.simplace.sim.components.evapotran.fao56: Calculates reference evapotranspiration ET0 by Penman-Monteith with the FAO56 approach.
ReferenceETPM() - Constructor for class net.simplace.sim.components.evapotran.fao56.ReferenceETPM: Empty constructor used by class.forName()
ReferenceETPMHourly - Class in net.simplace.sim.components.evapotran.fao56: Calculates reference evapotranspiration ET0 by Penman-Monteith with the FAO56 approach.
ReferenceETPMHourly() - Constructor for class net.simplace.sim.components.evapotran.fao56.ReferenceETPMHourly: Empty constructor used by class.forName()
ReferenceETPriestleyTaylor - Class in net.simplace.sim.components.evapotran: Calculates reference evapotranspiration ET0 according to the Priestley-Taylor method, using solar radiation and temperature.
ReferenceETPriestleyTaylor() - Constructor for class net.simplace.sim.components.evapotran.ReferenceETPriestleyTaylor: Empty constructor used by class.forName()
ReferenceEvapotranspiration(double, double, double, double, double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Calculates the daily crop evapotranspiration with the FAO-Penman-Montheith method Eq. (6) FAO Penman-Monteith equation determines the evapotranspiration from the hypothetical grass reference surface and provides a standard to which evapotranspiration in different periods of the year or in other regions can be compared and to which the evapotranspiration from other crops can be related.
ReferenceEvapoTranspirationByExtraterrestrialRadiation(double, double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Estimates the reference evapo transpiration by extraterrestrial radiation and temperature Eq. (52)
ReferenceEvapoTranspirationFromSolarRadiation(double, double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Estimates the reference evapotranspiration by solar radiation and temperature Eq. (52) & Eq. (50) with k_Rs=0.17 see: Hargreaves, Allen, 2003, History and Evaluation of Hargreaves Evapotranspiration Equation: Eq. (3)
ReferenceEvapoTranspirationHourly(double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Calculates hourly reference evapotranspiration Eq. (53)
reInitialize() - Method in class net.simplace.sim.components.experimental.slim.NPKDemandSlimNitrogen
reInitialize() - Method in class net.simplace.sim.components.experimental.slim.NPKDemandSlimNP
reInitialize() - Method in class net.simplace.sim.components.experimental.slim.SlimPhosphorus
reInitialize() - Method in class net.simplace.sim.components.experimental.slim.SlimWater2
reInitialize() - Method in class net.simplace.sim.components.experimental.slim.SlimWater3Modified
reInitialize() - Method in class net.simplace.sim.components.soil.slim.SlimNitrogen
reInitialize() - Method in class net.simplace.sim.components.soil.slim.SlimRoots
reInitialize() - Method in class net.simplace.sim.components.soil.slim.SlimWater
reInitialize() - Method in class net.simplace.sim.components.soil.temperature.SnowCoverCalculator
reInitialize() - Method in class net.simplace.sim.components.soil.temperature.STMPsimCalculator
RELGR(double, double, boolean, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.amei.LintulFunctions: Computes the relative growth rate of roots, leaves, stem and storage organs
RELGR(double, double, boolean, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.LintulFunctions: Computes the relative growth rate of roots, leaves, stem and storage organs
RELGRCassava(double, double, boolean, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.extended.cassava.LintulCassavaFunctions
RemovedN(double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.amei.LintulFunctions: Computes N in remmoved biomass (dead and living)
RemovedN(double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.LintulFunctions: Computes N in remmoved biomass (dead and living)
RemovedP(double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.amei.LintulFunctions: Computes P in removed biomass (dead and living)
RemovedP(double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.LintulFunctions: Computes P in removed biomass (dead and living)
RemoveLinearTrendFromYieldArray(int[], double[], double, double) - Static method in class net.simplace.sim.components.models.lintulfast.TrendAndTechnologyFunctions
resampleArrays() - Method in class net.simplace.sim.components.util.ArrayResampler
resampleLayerAmounts(Double[], Double[], Double[]) - Static method in class net.simplace.sim.components.util.helper.ArrayHelper: Resamples layer values from one resolution to another by summing up Values have to be amounts (e.g. water content in mm)
resampleLayerProportions(Double[], Double[], Double[]) - Static method in class net.simplace.sim.components.util.helper.ArrayHelper: Resamples layer values from one resolution to another by averaging Values have to be proportions (e.g. water content in mm or volumetric water content in mm^3/mm^3)
resampleLayers(Double[], Double[], Double[], boolean) - Static method in class net.simplace.sim.components.util.helper.ArrayHelper: Resamples layer values from one resolution to another One has to specify, whether the values are amounts or proportions (e.g. water content in mm or volumetric water content in mm^3/mm^3)
resampleLayers(Double[], Double[], Double[], ArrayHelper.RESAMPLE_MODE) - Static method in class net.simplace.sim.components.util.helper.ArrayHelper: Resamples numeric layer values from one resolution to another The target value of each layer is calculated from the overlapping source layers, depending on the mode: - AVG - average of source values weighted by the overlap proportion - SUM - sum of source values multiplied by the overlap proportion - FIRST - value of first source layer that overlaps with the target layer - LAST - value of last source layer that overlaps with the target layer - CENTER - value of the source layer that overlaps the center of the target layer
resampleLayers(Double[], Double[], String[], ArrayHelper.RESAMPLE_MODE) - Static method in class net.simplace.sim.components.util.helper.ArrayHelper: Resamples string layer values from one resolution to another
resampleSoilLayers(FWSimVariable<Double>, FWSimVariable<Integer>, FWSimVariable<String>, String, FWSimResourceCache) - Method in class net.simplace.sim.transformers.SoilLayerTransformer: Rescales the soil layer
reScaleSoilLayers(FWSimVariable<Double>, FWSimVariable<Integer>, FWSimVariable<String>, String, FWSimResourceCache) - Method in class net.simplace.sim.transformers.SoilLayerTransformerLegacy: Rescales the soil layer
RescaleValues(double, double, double[]) - Static method in class net.simplace.sim.components.util.helper.DataTransformHelper: Rescales an array of values proportionally from new mininimum to new maximum.
reset() - Method in class net.simplace.sim.components.experimental.amei.Vernalisation
reset() - Method in class net.simplace.sim.components.experimental.canopytemperature.HeatStressHourly
reset() - Method in class net.simplace.sim.components.management.ReSowManagement
reset() - Method in class net.simplace.sim.components.soil.hillflow.HillFlow1D: Initializes the fields by getting input and output FWSimVariables from VarMap
reset() - Method in class net.simplace.sim.components.soil.soilcn.SoilCN: Resets variables to initial conditions
reset() - Method in class net.simplace.sim.components.soil.soilcn.SoilCNP: Resets variables to initial conditions
Reset() - Method in class net.simplace.sim.components.models.lintulfast.LintulFast
Reset() - Method in class net.simplace.sim.components.models.lintulfast.VernalisationAndPhotoresponseFastFunctions
resetOnHarvest() - Method in class net.simplace.sim.components.evapotran.fao56.CropEvapoTranspirationDualCoeff
resetOnHarvest() - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationDualCoeffHourly
resetOnHarvest() - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationDualCoeffPot
resetOnHarvest() - Method in class net.simplace.sim.components.experimental.grassland.lintul5.Phenology
resetOnHarvest() - Method in class net.simplace.sim.components.experimental.lintulcc.LintulCCDiurnalCropOzone
resetOnHarvest() - Method in class net.simplace.sim.components.experimental.slim.NPKDemandSlimNitrogen
resetOnHarvest() - Method in class net.simplace.sim.components.experimental.slim.NPKDemandSlimNP
resetOnHarvest() - Method in class net.simplace.sim.components.models.lintul2.Lintul2
resetOnHarvest() - Method in class net.simplace.sim.components.models.lintul5.extended.cassava.Lintul5Cassava
resetOnHarvest() - Method in class net.simplace.sim.components.models.lintul5.Phenology
resetOnHarvest() - Method in class net.simplace.sim.components.models.lintul5.WaterBalance
resetValues() - Method in class net.simplace.sim.components.experimental.grassland.lintul5.Biomass
resetValues() - Method in class net.simplace.sim.components.experimental.lintul5.translocation.Biomass
resetValues() - Method in class net.simplace.sim.components.models.lintul5.amei.NPKSupply
resetValues() - Method in class net.simplace.sim.components.models.lintul5.Lintul5
resetValues() - Method in class net.simplace.sim.components.models.lintul5.modular.Biomass
resetValues() - Method in class net.simplace.sim.components.models.lintul5.modular.NPK
resetValues() - Method in class net.simplace.sim.components.models.lintul5.modular.NPKDemand
resetValues() - Method in class net.simplace.sim.components.models.lintul5.modular.NPKSupply
resetValues() - Method in class net.simplace.sim.components.models.lintul5.modular.WaterStress
ReSowManagement - Class in net.simplace.sim.components.management: Determines sowing or re-sowing date as function of precipitation.
ReSowManagement() - Constructor for class net.simplace.sim.components.management.ReSowManagement: Empty constructor used by class.forName()
ReSowManagement(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.management.ReSowManagement
Resp - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
RLAIC(double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.gecros.GecrosFunctions: Calculates the daily increase of leaf area index (m2 leaf/m2 ground/day)
RNACC(double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.gecros.GecrosFunctions: Calculates rate of N accumulation in organs
RNLD(double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.amei.LintulFunctions: Computes the N/P/K losses due to death of leaves, stems
RNLD(double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.LintulFunctions: Computes the N/P/K losses due to death of leaves, stems
RNUSUB(double, double, boolean, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.amei.LintulFunctions: Computes the partitioning of the total N/P/K uptake rates (NUPTR,PUPTR,KUPTR) over leaves, stem, and roots
RNUSUB(double, double, boolean, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.LintulFunctions: Computes the partitioning of the total N/P/K uptake rates (NUPTR,PUPTR,KUPTR) over leaves, stem, and roots
Root() - Method in class net.simplace.sim.components.soil.slim.SlimRoots: To model seminal and lateral root growth
RootLengthDensity_Plant1 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
RootLengthDensity_Plant2 - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
RootsoilC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
RootsoilC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
RootsoilN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
RootsoilN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
RootsoilP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.InitialStatesP
RootsoilP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
RSISO(double, double, int, double, double, double, double, double, double, double, double, double, double, double, Double[], Double[], double, double, int, double, double, Double[], Integer[]) - Static method in class net.simplace.sim.components.experimental.lintulcc.LintulCCFunctions
RunoffCurveNumber - Class in net.simplace.sim.components.experimental.runoff: Calculates runoff according to the SCS Runoff Curve Number method, - with optional slope correction to the SWAT2009 model.
RunoffCurveNumber() - Constructor for class net.simplace.sim.components.experimental.runoff.RunoffCurveNumber: Empty constructor used by class.forName()
RunoffCurveNumber_ET - Class in net.simplace.sim.components.experimental.runoff: Calculates runoff according to the SCS Runoff Curve Number method, - with optional slope correction to the SWAT2009 model, - and with the retention parameter varying with plant evapotranspiration according to the SWAT2009 model.
RunoffCurveNumber_ET() - Constructor for class net.simplace.sim.components.experimental.runoff.RunoffCurveNumber_ET: Empty constructor used by class.forName()
RunoffCurveNumber_SW - Class in net.simplace.sim.components.experimental.runoff: Calculates runoff according to the SCS Runoff Curve Number method, - with optional slope correction to the SWAT2009 model, - with the retention parameter varying - either with soil profile water content according to the SWAT2009 model, - or with depth-weighted soil profile water content according to the EPIC model, - and with optional retention parameter adjustment in case of frozen soil.
RunoffCurveNumber_SW() - Constructor for class net.simplace.sim.components.experimental.runoff.RunoffCurveNumber_SW: Empty constructor used by class.forName()
RunoffCurveNumberAPSIM - Class in net.simplace.sim.components.experimental.runoff: WIKI_START This !
RunoffCurveNumberAPSIM() - Constructor for class net.simplace.sim.components.experimental.runoff.RunoffCurveNumberAPSIM: Empty constructor used by class.forName()
RunoffSurfaceCover - Class in net.simplace.sim.components.experimental.runoff: WIKI_START This !
RunoffSurfaceCover() - Constructor for class net.simplace.sim.components.experimental.runoff.RunoffSurfaceCover: Empty constructor used by class.forName()

S

S(double) - Static method in class net.simplace.sim.components.experimental.runoff.CNEquations: Potential maximum retention after runoff begins (unadjusted) SWAT2009 eq. 2:1.1.2
S_3(double) - Static method in class net.simplace.sim.components.experimental.runoff.CNEquations: Minimum retention parameter value, i.e. retention parameter for CN3 SWAT2009 pg. 104
S_ET(double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.experimental.runoff.CNEquations: Retention parameter that varies with plant evapotranspiration SWAT2009 eq. 2:1.1.9
S_frz(double, double) - Static method in class net.simplace.sim.components.experimental.runoff.CNEquations: Retention parameter adjustment for frozen soil.
S_max(double) - Static method in class net.simplace.sim.components.experimental.runoff.CNEquations: Maximum retention parameter value, i.e. retention parameter for CN1 SWAT2009 pg. 104
S_SW(double, double, double, double) - Static method in class net.simplace.sim.components.experimental.runoff.CNEquations: Retention parameter that varies with soil water content SWAT2009 eq. 2:1.1.6
Sand - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamSoil
SaturationVapourPressureAtTemperature(double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Saturation vapour pressure at air temperature T Eq. (11)
ScalableInterpolationTable - Class in net.simplace.sim.components.util
ScalableInterpolationTable(FWSimVariable<Double[]>, FWSimVariable<Double[]>, FWSimVariable<Double[]>, FWSimVariable<Double>) - Constructor for class net.simplace.sim.components.util.ScalableInterpolationTable
ScalableInterpolationTable(FWSimVariable<Double[]>, FWSimVariable<Double[]>, FWSimVariable<Double[]>, FWSimVariable<Double>, Object) - Constructor for class net.simplace.sim.components.util.ScalableInterpolationTable
ScalableInterpolationTable(FWSimVariable<Double[]>, FWSimVariable<Double[]>, FWSimVariable<Double>) - Constructor for class net.simplace.sim.components.util.ScalableInterpolationTable
ScalableInterpolationTable(FWSimVariable<Double[]>, FWSimVariable<Double>) - Constructor for class net.simplace.sim.components.util.ScalableInterpolationTable
SeasonalCorrectionSolarTime(int) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Seasonal correction for solar time Eq. (32) and (33) *
SeedsToSprouts - Class in net.simplace.sim.components.crop.translocation: Distributes biomass from the seed to roots and leaves at begin of growth WIKI_START The module is initialized/reset on `iDoStart`.
SeedsToSprouts() - Constructor for class net.simplace.sim.components.crop.translocation.SeedsToSprouts: Empty constructor used by class.forName()
SeedsToSprouts(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.crop.translocation.SeedsToSprouts
SellOutManagement - Class in net.simplace.sim.components.experimental.livestock
SellOutManagement() - Constructor for class net.simplace.sim.components.experimental.livestock.SellOutManagement: Empty constructor used by class.forName()
setCallingComponent(FWSimFieldContainer) - Method in class net.simplace.sim.components.management.tillage.StateMixer
SettledBulkDensity(Double[], Double[], double, double) - Static method in class net.simplace.sim.components.management.tillage.TillageFunctions: Calculates settled bulk density after tillage The settled bulk density is calculated as the average of the tillaged layers by taking the mixing efficiency into account.
SettlingBulkDensity(Double[], Double[], Double[], Double[], Double[], double, double) - Static method in class net.simplace.sim.components.management.tillage.TillageFunctions: Calculates the settling of the soil after tillage (Eq. 1 and 2)
Silt - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
SimpleAutomaticIrrigation - Class in net.simplace.sim.components.management: Simple automatic irrigation component to be used in combination with SimComponents calculating soil water balance in layered soils WIKI_START This !
SimpleAutomaticIrrigation() - Constructor for class net.simplace.sim.components.management.SimpleAutomaticIrrigation: Empty constructor used by class.forName()
SimpleAutomaticIrrigation(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.management.SimpleAutomaticIrrigation
SimpleCounter - Class in net.simplace.sim.components.util: Provides a resettable counter of simulation days.
SimpleCounter() - Constructor for class net.simplace.sim.components.util.SimpleCounter: Empty constructor used by class.forName()
SimpleFertilizer - Class in net.simplace.sim.components.management: Deprecated.
SimpleFertilizer() - Constructor for class net.simplace.sim.components.management.SimpleFertilizer: Deprecated.

Empty constructor used by class.forName()
SimpleFertilizer(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.management.SimpleFertilizer: Deprecated.
SimpleIrrigation - Class in net.simplace.sim.components.management: Applies irrigation by using table values - designed to use Lintul5 irrigation tables WIKI_START Irrigation has to be provided as an array `cIRRTAB`, where the entries containing DOY of irrigation alternate with entries containing corresponding irrigation amount: .
SimpleIrrigation() - Constructor for class net.simplace.sim.components.management.SimpleIrrigation: Empty constructor used by class.forName()
SimpleIrrigation(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.management.SimpleIrrigation
SimpleMovingAverage - Class in net.simplace.sim.components.util: Calculates simple moving average of a variable (non centered) WIKI_START == Averaging == Calculates the simple moving average by taking the sum of the last `cDays` values of the variable `iValue` and dividing by the number of days with available data during the averaging window.
SimpleMovingAverage() - Constructor for class net.simplace.sim.components.util.SimpleMovingAverage: Empty constructor used by class.forName()
SimpleTranspirationReductionFactor - Class in net.simplace.sim.components.crop: Calculates transpiration reduction factor as ratio of actual and potential transpiration \[ TRANRF = \frac{iActualTranspiration}{iPotentialTranspiration}\] WIKI_START If `iPotentialTranspiration` is 0, then `TRANRF` is also 0.
SimpleTranspirationReductionFactor() - Constructor for class net.simplace.sim.components.crop.SimpleTranspirationReductionFactor: Empty constructor used by class.forName()
SimpleTranspirationReductionFactor(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.crop.SimpleTranspirationReductionFactor
SimVariableCreation - Class in net.simplace.sim.components.experimental.lintulcc: Helper class that modularises the definition of SimVariables to be used by different LintulCC-variants.
SimVariableCreation() - Constructor for class net.simplace.sim.components.experimental.lintulcc.SimVariableCreation
sinAngleFromSlope(double) - Static method in class net.simplace.sim.components.experimental.erosion.ErosionFunctions: Calculates sine of angle (rise / slope length) from slope
sinAngleFromSlopePercent(double) - Static method in class net.simplace.sim.components.experimental.erosion.ErosionFunctions: Calculates sine of angle (rise / slope length) from slope
SINKG(double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.gecros.GecrosFunctions: Calculates carbon demand for sink growth.
SlimAlfaTransformer - Class in net.simplace.sim.transformers: WIKI_START Extension of the !
SlimAlfaTransformer(FWSimSession, Integer) - Constructor for class net.simplace.sim.transformers.SlimAlfaTransformer
SlimAlfaTransformer(FWSimSession, Element, Integer) - Constructor for class net.simplace.sim.transformers.SlimAlfaTransformer
SlimNitrogen - Class in net.simplace.sim.components.soil.slim: Calculates crop uptake, turnover, leaching of soil mineral nitrogen (Nitrate-N and Ammonium-N) in layered soils WIKI_START The routines for this SimComponent are taken from the SLIM model (Addiscott & Whitmore, 1991).
SlimNitrogen() - Constructor for class net.simplace.sim.components.soil.slim.SlimNitrogen: called from class.forName()
SlimNitrogen(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.soil.slim.SlimNitrogen
SlimNitrogenLegacy - Class in net.simplace.sim.components.soil.slim: Calculates the amount of Nitrate and Ammonium in the soil per layer.
SlimNitrogenLegacy() - Constructor for class net.simplace.sim.components.soil.slim.SlimNitrogenLegacy: called from class.forName()
SlimNitrogenLegacy(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.soil.slim.SlimNitrogenLegacy
SlimPhosphorus - Class in net.simplace.sim.components.experimental.slim: Calculates P leaching, plant availability and uptake and transition between dissolved, active and fixed phosphorus.
SlimPhosphorus() - Constructor for class net.simplace.sim.components.experimental.slim.SlimPhosphorus: called from class.forName()
SlimPhosphorus(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.slim.SlimPhosphorus
SlimPhosphorusFunctions - Class in net.simplace.sim.components.experimental.slim
SlimPhosphorusFunctions() - Constructor for class net.simplace.sim.components.experimental.slim.SlimPhosphorusFunctions
SlimRoots - Class in net.simplace.sim.components.soil.slim: SlimRoots.java is a SimComponent for the simulation of the growth of seminal and lateral roots in a multiple layer soil profile WIKI_START The SimComponent SlimRoots estimates the daily increase in the biomass of seminal and lateral roots in a variable number of soil layers based and converts it into root length per layer.
SlimRoots() - Constructor for class net.simplace.sim.components.soil.slim.SlimRoots: called from class.forName()
SlimWater - Class in net.simplace.sim.components.soil.slim: SlimWater.java is a routine for transient simulations of soil water balance of a multiple layer soil profile WIKI_START The SimComponent SlimWater estimates the daily change in soil water content in a variable number of soil layers based on the volumes of crop water uptake, soil evaporation, surface run-off and seepage below the root zone.
SlimWater() - Constructor for class net.simplace.sim.components.soil.slim.SlimWater: called from class.forName()
SlimWater(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.soil.slim.SlimWater
SlimWater2 - Class in net.simplace.sim.components.experimental.slim
SlimWater2() - Constructor for class net.simplace.sim.components.experimental.slim.SlimWater2: called from class.forName()
SlimWater2(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.slim.SlimWater2
SlimWater3 - Class in net.simplace.sim.components.experimental.slim: SlimWater3.java is derived from SlimWater and ImprovedSoilWater as a SimComponent for transient simulations of the soil water balance of a multiple layer soil profile.
SlimWater3() - Constructor for class net.simplace.sim.components.experimental.slim.SlimWater3: called from class.forName()
SlimWater3(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.slim.SlimWater3
SlimWater3Modified - Class in net.simplace.sim.components.experimental.slim: == Modification to SlimWater3 == The FAO extraction method is slightly different.
SlimWater3Modified() - Constructor for class net.simplace.sim.components.experimental.slim.SlimWater3Modified: called from class.forName()
SlimWater3Modified(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.slim.SlimWater3Modified
slopeFromAngleDegree(double) - Static method in class net.simplace.sim.components.experimental.erosion.ErosionFunctions: Calculates the slope (tan(a)) from an angle
slopeFromSinAngle(double) - Static method in class net.simplace.sim.components.experimental.erosion.ErosionFunctions: Calculates slope from sine of angle (rise / slope length)
SlopeOfSaturationVapPressureCurve(double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Calculates the slope of saturation vapour pressure curve Delta as function of temperature T Eq (13)
slopePercentFromAngleDegree(double) - Static method in class net.simplace.sim.components.experimental.erosion.ErosionFunctions: Calculates the slope in percent (tan(a)*100) from an angle
slopePercentFromSinAngle(double) - Static method in class net.simplace.sim.components.experimental.erosion.ErosionFunctions: Calculates slope in percent from sine of angle (rise / slope length)
SnowCoverCalculator - Class in net.simplace.sim.components.soil.temperature: Calculates the snow cover, first soil layer temperature and biomass on ground factor depending on climate and soil conditions.
SnowCoverCalculator() - Constructor for class net.simplace.sim.components.soil.temperature.SnowCoverCalculator: Empty constructor used by class.forName()
SoilC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
SoilCN - Class in net.simplace.sim.components.soil.soilcn: Calculates turnover processes of soil organic carbon and nitrogen in multiple storage pools in multi-layered soil profiles WIKI_START The routines for this SimComponent are taken from Corbeels et al 2004..
SoilCN() - Constructor for class net.simplace.sim.components.soil.soilcn.SoilCN
SoilCN(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.soil.soilcn.SoilCN
SoilCNP - Class in net.simplace.sim.components.soil.soilcn
SoilCNP() - Constructor for class net.simplace.sim.components.soil.soilcn.SoilCNP
SoilCNP(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.soil.soilcn.SoilCNP
Soildecomp - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
SoilEvap() - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationDualCoeffPot: Calculates K_e and potential soil evaporation
SoilFieldCapacity - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamSoil
SoilHeatFluxHourly(double, double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Soil heat flux for hourly periods Eq. (46)
SoilHeatFluxHourlyDaylight(double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Soil heat flux for hourly periods during daylight periods Eq. (45)
SoilHeatFluxHourlyNighttime(double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Soil heat flux for hourly periods during nighttime periods Eq. (46)
SoilLayerTransformer - Class in net.simplace.sim.transformers: WIKI_START Distributes values of n layers of arbitrary thickness to m layers with uniform thickness. == Description == Original resolution is taken from an array that contains the depth of the lower boundary of each layer.
SoilLayerTransformer(FWSimSession, Integer) - Constructor for class net.simplace.sim.transformers.SoilLayerTransformer
SoilLayerTransformer(FWSimSession, Element, Integer) - Constructor for class net.simplace.sim.transformers.SoilLayerTransformer
SoilLayerTransformerLegacy - Class in net.simplace.sim.transformers: WIKI_START Takes data with n depth depended layers and creates m layers with the same information == Description == Soil data is mostly delivered with the layer specific information.
SoilLayerTransformerLegacy(FWSimSession, Integer) - Constructor for class net.simplace.sim.transformers.SoilLayerTransformerLegacy
SoilLayerTransformerLegacy(FWSimSession, Element, Integer) - Constructor for class net.simplace.sim.transformers.SoilLayerTransformerLegacy
SoilMineralKRates(boolean, double, Double, Double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.amei.LintulFunctions
SoilMineralKRates(boolean, double, Double, Double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.LintulFunctions
SoilN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
SoilNutrientRates(boolean, double, Double, Double, Double, Double, Double, Double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.amei.LintulFunctions
SoilNutrientRates(boolean, double, Double, Double, Double, Double, Double, Double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.LintulFunctions
SoilNutrientRates(boolean, double, Double, Double, Double, Double, Double, Double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.amei.LintulFunctions
SoilNutrientRates(boolean, double, Double, Double, Double, Double, Double, Double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.LintulFunctions
SoilorgN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
SoilorgP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
SoilP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
SoilTemp - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Inputs
SoilTemp - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
SoilWC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Inputs
SoilWC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
SoilWiltingPoint - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamSoil
SolarDeclination(int) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Solar declination Eq. (24)
SolarRadiation(double, double, double, double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Calculates Solar Radiation from sunshine hours Eq. (35)
SolarRadiationFromExtraterrestrialRadiationAndTemp(double, double, double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Estimates solar radiation by extraterrestrial radiation and temperature Eq. (50)
SolarRadiationFromTemperature - Class in net.simplace.sim.components.radiation.fao56: Calculates Solar radiation from max and min temperatures using (FAO 56) methods.
SolarRadiationFromTemperature() - Constructor for class net.simplace.sim.components.radiation.fao56.SolarRadiationFromTemperature: Empty constructor used by class.forName()
SolarTimeAngleBeginning(double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Solar time angle at beginning of period Eq. (29)
SolarTimeAngleEnd(double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Solar time angle at end of period Eq. (30)
SolarTimeAngleMidpoint(double, double, double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Solar time angel at midpoint of period Eq. (31)
SOMStabilisationByTexture - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamSoil
sortWeather(Set<Map.Entry<Object, Object[]>>, FWSimResourceCache, String, String, String, String) - Static method in class net.simplace.sim.components.util.helper.diurnal.DiurnalWeatherHelper: Extracts radiation and temperature information from resource and add it to a sorted TreeSet of weather entries.
SplitWaterUptake - Class in net.simplace.sim.components.experimental.intercropping: Splits water uptake between two crops WIKI_START The water uptake per layer is split between the two crops proportionally to the given factors per layer.
SplitWaterUptake() - Constructor for class net.simplace.sim.components.experimental.intercropping.SplitWaterUptake: called from class.forName()
SplitWaterUptake(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.intercropping.SplitWaterUptake
stabtext - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
StateMixer - Class in net.simplace.sim.components.management.tillage
StateMixer(Double[]) - Constructor for class net.simplace.sim.components.management.tillage.StateMixer
StateMixer(Double[], boolean) - Constructor for class net.simplace.sim.components.management.tillage.StateMixer
States - Class in net.simplace.sim.components.soil.soilcn.valueobjects: Helper Class that manages the creation of related Sim Variables.
States() - Constructor for class net.simplace.sim.components.soil.soilcn.valueobjects.States
StatesP - Class in net.simplace.sim.components.soil.soilcn.valueobjectsP: Helper Class that manages the creation of related Sim Variables.
StatesP() - Constructor for class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
StemsurfC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
StemsurfC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
StemsurfN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
StemsurfN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
StemsurfP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.InitialStatesP
StemsurfP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
STMPsimCalculator - Class in net.simplace.sim.components.soil.temperature: Calculates the soil temperature in n layers depending on climate and soil conditions.
STMPsimCalculator() - Constructor for class net.simplace.sim.components.soil.temperature.STMPsimCalculator: Empty constructor used by class.forName()
StorageOrgansRedistributionRate(double, double, double, double, boolean) - Static method in class net.simplace.sim.components.models.lintul5.extended.cassava.LintulCassavaFunctions
Stress - Variable in class net.simplace.sim.components.soil.soilcn.SoilCN
StructsoilC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
StructsoilN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
StructsoilP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
StructsurfC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
StructsurfN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
StructsurfP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
SUBEAI(double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.sucros.SucrosFunctions
SUBFR(double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.sucros.SucrosFunctions
SUBGRT(double, double, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.sucros.SucrosFunctions
SUBPAR(double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.amei.LintulFunctions: Modification of dry matter partitioning to leaves, stems, roots and storage organs in dependence of water and N stress
SUBPAR(double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.lintul5.LintulFunctions: Modification of dry matter partitioning to leaves, stems, roots and storage organs in dependence of water and N stress
Sucros2 - Class in net.simplace.sim.components.models.sucros: Sim component that implements the Sucros2 algorithm WIKI_START == Description == This sim component implements the crop model Sucros2.
Sucros2() - Constructor for class net.simplace.sim.components.models.sucros.Sucros2: Empty constructor used by class.forName()
Sucros2Crop - Class in net.simplace.sim.components.models.sucros.modular.splitting1: Sim component that calculates only the crop part of Sucros2 WIKI_START == Description == For more Information about the splitting please consult the package info on [package_net.simplace.sim.components.models.sucros.modular.splitting1.html splitting1] For detailed information about the Sucros2 model please consult the original documentation (S). == References == - (S) [http://models.pps.wur.nl/sites/models.pps.wur.nl/files/sucros8Apr2009.pdf SUCROS97: Simulation of crop growth for potential and water-limited production situations] - (P) [http://models.pps.wur.nl/sites/models.pps.wur.nl/files/SUCROS97_models_0.zip Simple and Universal Crop growth Simulator (SUCROS)] WIKI_END
Sucros2Crop() - Constructor for class net.simplace.sim.components.models.sucros.modular.splitting1.Sucros2Crop: Empty constructor used by class.forName()
Sucros2CropPotEvapTran - Class in net.simplace.sim.components.models.sucros.modular.splitting2: Sim component that calculates only the crop and potential evapotranspiration part of Sucros2 WIKI_START == Description == For more Information about the splitting please consult the package info on [package_net.simplace.sim.components.models.sucros.modular.splitting2.html splitting2] For detailed information about the Sucros2 model please consult the original documentation (S). == References == - (S) [http://models.pps.wur.nl/sites/models.pps.wur.nl/files/sucros8Apr2009.pdf SUCROS97: Simulation of crop growth for potential and water-limited production situations] - (P) [http://models.pps.wur.nl/sites/models.pps.wur.nl/files/SUCROS97_models_0.zip Simple and Universal Crop growth Simulator (SUCROS)] WIKI_END
Sucros2CropPotEvapTran() - Constructor for class net.simplace.sim.components.models.sucros.modular.splitting2.Sucros2CropPotEvapTran: Empty constructor used by class.forName()
Sucros2EvapTranWater - Class in net.simplace.sim.components.models.sucros.modular.splitting2: Sim component that calculates only the water and actual evapotranspiration part of Sucros2 WIKI_START == Description == For more Information about the splitting please consult the package info on [package_net.simplace.sim.components.models.sucros.modular.splitting2.html splitting2] For detailed information about the Sucros2 model please consult the original documentation (S). == References == - (S) [http://models.pps.wur.nl/sites/models.pps.wur.nl/files/sucros8Apr2009.pdf SUCROS97: Simulation of crop growth for potential and water-limited production situations] - (P) [http://models.pps.wur.nl/sites/models.pps.wur.nl/files/SUCROS97_models_0.zip Simple and Universal Crop growth Simulator (SUCROS)] WIKI_END
Sucros2EvapTranWater() - Constructor for class net.simplace.sim.components.models.sucros.modular.splitting2.Sucros2EvapTranWater: Empty constructor used by class.forName()
Sucros2PotEvapTranWater - Class in net.simplace.sim.components.models.sucros.modular.splitting1: Sim component that calculates only the water and evapotranspiration (potential and actual) part of Sucros2 WIKI_START == Description == For more Information about the splitting please consult the package info on [package_net.simplace.sim.components.models.sucros.modular.splitting1.html splitting1] For detailed information about the Sucros2 model please consult the original documentation (S). == References == - (S) [http://models.pps.wur.nl/sites/models.pps.wur.nl/files/sucros8Apr2009.pdf SUCROS97: Simulation of crop growth for potential and water-limited production situations] - (P) [http://models.pps.wur.nl/sites/models.pps.wur.nl/files/SUCROS97_models_0.zip Simple and Universal Crop growth Simulator (SUCROS)] WIKI_END
Sucros2PotEvapTranWater() - Constructor for class net.simplace.sim.components.models.sucros.modular.splitting1.Sucros2PotEvapTranWater: Empty constructor used by class.forName()
SucrosFunctions - Class in net.simplace.sim.components.models.sucros: Functions that are used by the Gecros sim components.
SucrosFunctions() - Constructor for class net.simplace.sim.components.models.sucros.SucrosFunctions
SUM - Enum constant in enum class net.simplace.sim.components.util.helper.ArrayHelper.RESAMPLE_MODE
sumOfLayers(Double[], Double[], double) - Static method in class net.simplace.sim.components.util.helper.ArrayHelper
SunsetHourAngle(double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Sunset hour angle Eq. (25)
surv(double, double) - Static method in class net.simplace.sim.components.experimental.livestock.LivestockFunctions: Calculates survive probability
SWEAF(double, double) - Static method in class net.simplace.sim.components.models.lintul5.amei.LintulFunctions: Calculates the fraction of easily available soil water between fc and wp Chapter 20 in documentation WOFOST Version 4.1 (1988) The fraction of easily available soil water between field capacity and wilting point is a function of the potential evapotranspiration rate (for a closed canopy) in cm/day, ET0, and the crop group number, CGNR (from 1 (=drought-sensitive) to 5 (=drought-resistent)).
SWEAF(double, double) - Static method in class net.simplace.sim.components.models.lintul5.LintulFunctions: Calculates the fraction of easily available soil water between fc and wp Chapter 20 in documentation WOFOST Version 4.1 (1988) The fraction of easily available soil water between field capacity and wilting point is a function of the potential evapotranspiration rate (for a closed canopy) in cm/day, ET0, and the crop group number, CGNR (from 1 (=drought-sensitive) to 5 (=drought-resistent)).

T

TabulatedValues<X,Y> - Class in net.simplace.sim.components.util.helper: Handles tabulated values (X and Y column) and returns for a x-value a y-value by using the table (lookup, interpolation etc.)
TabulatedValues(FWSimVariable<X[]>, FWSimVariable<Y[]>) - Constructor for class net.simplace.sim.components.util.helper.TabulatedValues: Creates Tabulated Values from two array valued SimVariables
TAW(int) - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationWaterStress: Total available water in the root zone
tCropIDs - Static variable in class net.simplace.sim.components.management.NitrogenSurplus
Tempact - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
Temperature(double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.util.helper.diurnal.DiurnalWeatherHelper: Calculates temperature at hour t Calculates the temperature during day and night according to (G) eq. 3.9, 3.10
TemperatureIncrement - Class in net.simplace.sim.components.models.lintul: Calculates effective temperature sums for anthesis and maturity based on daily temperature and base temperatures WIKI_START == Daily rates of temperature sums == The model takes daily mean temperature `iAirTemperatureMean` and the parameters `cBaseTempBeforeAnt` and `cBaseTempAfterAnt` and calculates the coresponding `EffectiveTempRateBeforeAnt` and `EffectiveTempRateAfterAnt` by subtracting the base temperatures from the mean temperatures.
TemperatureIncrement() - Constructor for class net.simplace.sim.components.models.lintul.TemperatureIncrement: Empty constructor used by class.forName()
Textact - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
textureClass(double, double) - Method in class net.simplace.sim.components.soil.pedotransfer.KartierungsanleitungFunctions
textureClass(double, double) - Method in class net.simplace.sim.components.soil.pedotransfer.TextureClassesFunctions
textureClass(double, double) - Method in interface net.simplace.sim.components.soil.pedotransfer.TextureClassPedoTransferFunction
TextureClassesFunctions - Class in net.simplace.sim.components.soil.pedotransfer: Texture Class Functions are developed to determine soil hydraulic properties e.g. total porosity, residual water, field capacity, permanent wilting point, saturated hydraulic conductivity, ALPHA, and N for different soil texture classes based on USDA soil texture classification.
TextureClassesFunctions() - Constructor for class net.simplace.sim.components.soil.pedotransfer.TextureClassesFunctions
TextureClassPedoTransferFunction - Interface in net.simplace.sim.components.soil.pedotransfer
thickness(Double[], int) - Static method in class net.simplace.sim.components.util.helper.ArrayHelper: Returns the thickness of a layer Deals also with layernr that are out of the layer bounds.
thicknessOfLayers(Double[]) - Static method in class net.simplace.sim.components.util.helper.ArrayHelper: Calculates the thickness of layers from given depths
thicknessOfLayers(Double[], double) - Static method in class net.simplace.sim.components.util.helper.ArrayHelper: Calculates the thickness of layers from given depths up to a maximum depth Thickness of layers beyond maxdepth are set to 0.
TillageFunctions - Class in net.simplace.sim.components.management.tillage
TillageFunctions() - Constructor for class net.simplace.sim.components.management.tillage.TillageFunctions
TillageSoilProperties - Class in net.simplace.sim.components.management.tillage: WIKI_START == Description == WIKI_END
TillageSoilProperties() - Constructor for class net.simplace.sim.components.management.tillage.TillageSoilProperties
TillageSoilProperties(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.management.tillage.TillageSoilProperties
TimeDiv - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Auxiliary
tNumLayers - Variable in class net.simplace.sim.components.soil.soilcn.SoilCN
Total_LWRad - Class in net.simplace.sim.components.experimental.canopytemperature
Total_LWRad() - Constructor for class net.simplace.sim.components.experimental.canopytemperature.Total_LWRad: Empty constructor used by class.forName()
Total_LWRad(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.canopytemperature.Total_LWRad
TotalC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
TotalCarbonLosses - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
TotalCBefore - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
TotalN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
TotalNBefore - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
TotalNUp - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
TotalorgN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
TotalorgP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
TotalP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
TotalPUp - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
TotalSoilC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
TotalSoilCBefore - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
TotalSoilN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
TotalSoilNBefore - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
TotalSoilP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
TotalSoilPBefore - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP
TOTASS(double, double, double, int, int, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.experimental.lintulcc.LintulCCFunctions
TOTASS(int, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.sucros.SucrosFunctions
TOTASSDiurnal(Double[], double, int, int, double, double[], double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double[], double, double, double, double, double, double) - Static method in class net.simplace.sim.components.experimental.lintulcc.LintulCCFunctions
TOTASSDiurnalOzone(Double[], double, int, int, double, double[], double, double, double, double, double, double, double, double, double, Double[], double, double, double, double, double, double, double, double, double[], double, double, double, double, double, double, Double[], double, double, double) - Static method in class net.simplace.sim.components.experimental.lintulcc.LintulCCFunctions
TOTPT(double, double, double, double, double, double, double, double, double, double, boolean, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, double, boolean) - Static method in class net.simplace.sim.components.models.gecros.GecrosFunctions: Calculates daily total gross photosynthesis and transpiration by performing a Gaussian integration over time.
tr(double, double, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.HypresFunctions
tr(double, double, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.RawlsFunctions
tr(double, double, double, double, boolean) - Method in interface net.simplace.sim.components.soil.pedotransfer.VanGenuchtenPedoTransferFunction
tr(int, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.KartierungsanleitungFunctions
tr(int, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.TextureClassesFunctions
tr(int, double, double, boolean) - Method in interface net.simplace.sim.components.soil.pedotransfer.TextureClassPedoTransferFunction
transformArray() - Method in class net.simplace.sim.components.util.LinearTransformArray
TranslocationLeavesToStorageOrgansRate(double, double, double, boolean) - Static method in class net.simplace.sim.components.models.lintul5.extended.cassava.LintulCassavaFunctions
TrendAndTechnologyFunctions - Class in net.simplace.sim.components.models.lintulfast: Class that implements some methods from the LintulFAST C# version to calculate trend and technology effect on yield.
TrendAndTechnologyFunctions() - Constructor for class net.simplace.sim.components.models.lintulfast.TrendAndTechnologyFunctions
ts(double, double, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.HypresFunctions
ts(double, double, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.RawlsFunctions
ts(double, double, double, double, boolean) - Method in interface net.simplace.sim.components.soil.pedotransfer.VanGenuchtenPedoTransferFunction
TUNIT(double, double, double, double, double, double, double, double, double) - Static method in class net.simplace.sim.components.models.gecros.GecrosFunctions: Calculates the daily amount of thermal day
twpaw() - Method in class net.simplace.sim.components.experimental.lintulcc.HillFlow1DLintulCCDiurnal

U

UpdateCalcCFlowsSimple(Rates, States, ParamC, ParamCrop, ParamSoil, int, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.calculation.CalcCFlows: Calculates the different carbon flows
UpdateCalcCPoolsSimple(Rates, States, double, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.calculation.CalcCPools: Update the different C Pools
UpdateCalcNFlowsSimple(Rates, States, ParamC, ParamCrop, ParamN, ParamSoil, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.calculation.CalcNFlows: Calculates the different nitrogen flows
UpdateCalcNPoolsSimple(Rates, States, double, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.calculation.CalcNPools: Update the different C Pools
UpdateCalcPFlowsSimple(RatesP, StatesP, ParamC, ParamCrop, ParamP, ParamSoil, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.calculationP.CalcPFlows: Calculates the different nitrogen flows
UpdateCalcPPoolsSimple(RatesP, StatesP, double, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.calculationP.CalcPPools: Update the different C Pools
UpdateCalcStressFactorsSimple(Rates, States, Auxiliary, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.calculation.CalcStressFactors: Calculates the different factors affecting the decomposition
UpdateCutbackDecompSimple(Rates, States, Auxiliary, ParamC, ParamCrop, ParamN, ParamSoil, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.calculation.CutbackDecomp: Calculates the different nitrogen flows
updateFields(FWObservable) - Method in class net.simplace.sim.transformers.AstronomicParametersTransformer
updateFields(FWObservable) - Method in class net.simplace.sim.transformers.DayLengthTransformer
updateFields(FWObservable) - Method in class net.simplace.sim.transformers.DiurnalSineWeatherTransformer
updateFields(FWObservable) - Method in class net.simplace.sim.transformers.LayerAggregationTransformer
updateFields(FWObservable) - Method in class net.simplace.sim.transformers.LinearRegressionTransformer
updateFields(FWObservable) - Method in class net.simplace.sim.transformers.MissingDataTransformer
updateFields(FWObservable) - Method in class net.simplace.sim.transformers.NetRadiationFromAnyTransformer
updateFields(FWObservable) - Method in class net.simplace.sim.transformers.PedotransferTransformer
updateFields(FWObservable) - Method in class net.simplace.sim.transformers.SlimAlfaTransformer
updateFields(FWObservable) - Method in class net.simplace.sim.transformers.SoilLayerTransformer
updateFields(FWObservable) - Method in class net.simplace.sim.transformers.SoilLayerTransformerLegacy
updateInput(ParamC, ParamN, Inputs, States, Rates) - Method in class net.simplace.sim.components.soil.soilcn.SoilCN
updateInput(ParamC, ParamN, ParamP, InputsP, StatesP, RatesP) - Method in class net.simplace.sim.components.soil.soilcn.SoilCNP
updateOutput(Inputs, Outputs, States, Rates) - Method in class net.simplace.sim.components.soil.soilcn.SoilCN
updateOutput(InputsP, OutputsP, StatesP, RatesP) - Method in class net.simplace.sim.components.soil.soilcn.SoilCNP
updateStates(States, Rates) - Method in class net.simplace.sim.components.soil.soilcn.SoilCN
updateStates(StatesP, RatesP) - Method in class net.simplace.sim.components.soil.soilcn.SoilCNP
UpperLimitKCoefficient(double, double, double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Upper limit on the evaporation and transpiration from any cropped surface Eq. (72)
Uptake(Double[], Double[], Double, Double) - Static method in class net.simplace.sim.components.experimental.slim.SlimPhosphorusFunctions: Performs the P uptake by plant.
Uptake(RatesP, StatesP, Auxiliary, ParamC, ParamCrop, ParamP, ParamSoil, FWSimComponent) - Method in class net.simplace.sim.components.soil.soilcn.calculationP.PUptake: Calculates the different nitrogen flows

V

v - Variable in class net.simplace.sim.components.util.LookupTable
valueOf(String) - Static method in enum class net.simplace.sim.components.util.helper.ArrayHelper.RESAMPLE_MODE: Returns the enum constant of this class with the specified name.
values() - Static method in enum class net.simplace.sim.components.util.helper.ArrayHelper.RESAMPLE_MODE: Returns an array containing the constants of this enum class, in the order they are declared.
ValueToTableConverter - Class in net.simplace.sim.components.util: Creates an table from two scalar values.
ValueToTableConverter() - Constructor for class net.simplace.sim.components.util.ValueToTableConverter: Empty constructor used by class.forName()
VanGenuchtenFormulas - Class in net.simplace.sim.components.soil.hillflow: Soil water retention functions according to Van Genuchten (1980) Code extracted from the HillFlow1D model.
VanGenuchtenFormulas() - Constructor for class net.simplace.sim.components.soil.hillflow.VanGenuchtenFormulas
VanGenuchtenPedoTransferFunction - Interface in net.simplace.sim.components.soil.pedotransfer
Vapourpressure - Class in net.simplace.sim.components.vapourpressure.fao56: Calculates vapour pressure by one of (FAO 56) methods chosen by the user.
Vapourpressure() - Constructor for class net.simplace.sim.components.vapourpressure.fao56.Vapourpressure: Empty constructor used by class.forName()
VapourpressureFromAny - Class in net.simplace.sim.components.vapourpressure.fao56: Calculates vapour pressure according to FAO56 methods.
VapourpressureFromAny() - Constructor for class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromAny: Empty constructor used by class.forName()
VapourpressureFromDewPoint - Class in net.simplace.sim.components.vapourpressure.fao56: Calculates vapour pressure from dew point temperature by (FAO 56) method.
VapourpressureFromDewPoint() - Constructor for class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromDewPoint: Empty constructor used by class.forName()
VapourPressureFromDewpoint(double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Actual vapour pressure at dewpoint Eq. (14)
VapourPressureFromPsychrometricData - Class in net.simplace.sim.components.vapourpressure.fao56: Calculates vapour pressure from psychrometric data by (FAO 56) method.
VapourPressureFromPsychrometricData() - Constructor for class net.simplace.sim.components.vapourpressure.fao56.VapourPressureFromPsychrometricData: Empty constructor used by class.forName()
VapourPressureFromPsychrometricData(double, double, double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Actual vapour pressure derived from psychrometric data Eq. (15)
VapourpressureFromRelHumidityMax - Class in net.simplace.sim.components.vapourpressure.fao56: Calculates vapour pressure from maximum relative humidity by (FAO 56) method.
VapourpressureFromRelHumidityMax() - Constructor for class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromRelHumidityMax: Empty constructor used by class.forName()
VapourPressureFromRelHumidityMax(double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Actual vapour pressure from maximum relative humidity Eq. (18)
VapourpressureFromRelHumidityMaxMin - Class in net.simplace.sim.components.vapourpressure.fao56: Calculates vapour pressure from min and max relative humidity by (FAO 56) method.
VapourpressureFromRelHumidityMaxMin() - Constructor for class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromRelHumidityMaxMin: Empty constructor used by class.forName()
VapourPressureFromRelHumidityMaxMin(double, double, double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Actual vapour pressure from maximum and minimum relative humidity Eq. (17)
VapourpressureFromRelHumidityMean - Class in net.simplace.sim.components.vapourpressure.fao56: Calculates vapour pressure from mean relative humidity by (FAO 56) method.
VapourpressureFromRelHumidityMean() - Constructor for class net.simplace.sim.components.vapourpressure.fao56.VapourpressureFromRelHumidityMean: Empty constructor used by class.forName()
VapourPressureFromRelHumidityMean(double, double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Actual vapour pressure from mean relative humidity Eq. (19)
VegetationCoveredSoilFraction(double, double, double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Effective fraction of soil covered by vegetation Eq. (76)
Vernalisation - Class in net.simplace.sim.components.experimental.amei: Reduces daily temperature increment by vernalisation and photoresponse.
Vernalisation() - Constructor for class net.simplace.sim.components.experimental.amei.Vernalisation: Empty constructor used by class.forName()
Vernalisation(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.amei.Vernalisation: Called by Clone method only
VernalisationAndPhotoresponse - Class in net.simplace.sim.components.crop: Reduces daily temperature increment by vernalisation and photoresponse.
VernalisationAndPhotoresponse() - Constructor for class net.simplace.sim.components.crop.VernalisationAndPhotoresponse: Empty constructor used by class.forName()
VernalisationAndPhotoresponse(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.crop.VernalisationAndPhotoresponse: Called by Clone method only
VernalisationAndPhotoresponseFastFunctions - Class in net.simplace.sim.components.models.lintulfast: Class that implements some methods from the LintulFAST C# version to calculate Vernalisation and Photoresponse.
VernalisationAndPhotoresponseFastFunctions(double, double[]) - Constructor for class net.simplace.sim.components.models.lintulfast.VernalisationAndPhotoresponseFastFunctions
VirtualTemperature(double, double, double) - Static method in class net.simplace.sim.components.util.helper.EquationsFAO56: Calculates virtual temperature Eq. (3-6)

W

w1(double, double, double, double) - Static method in class net.simplace.sim.components.experimental.runoff.CNEquations: Shape coefficient 1 SWAT2009 eq. 2:1.1.7
w2(double, double, double, double) - Static method in class net.simplace.sim.components.experimental.runoff.CNEquations: Shape coefficient 2 SWAT2009 eq. 2:1.1.8
Watactsoil - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
Watactsurf - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
Watactype - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Auxiliary
WATBALS() - Method in class net.simplace.sim.components.models.lintul5.WaterBalance
WATERB(double, double, Double[], double, double, double, double, double, Double[], Double[], Double[], Double[], Double[], double, double, int, double, double, double, double, boolean, double, double, double, double, double, double, Double[], double, double, int, Double[], Double[]) - Static method in class net.simplace.sim.components.experimental.lintulcc.LintulCCFunctions
WATERB_Simple(Double[], Double[], Double[], boolean, Double[], Double[]) - Static method in class net.simplace.sim.components.experimental.lintulcc.LintulCCFunctions
WaterBalance - Class in net.simplace.sim.components.models.lintul5.amei: Lintul5 - Simple generic model for simulation of crop growth - Biomass and NPK part WIKI_START == Introduction == The sim components in the package lintul5 implement the Lintul5 algorithms from (L5).
WaterBalance - Class in net.simplace.sim.components.models.lintul5: Lintul5 - Simple generic model for simulation of crop growth - Biomass and NPK part WIKI_START == Introduction == The sim components in the package lintul5 implement the Lintul5 algorithms from (L5).
WaterBalance() - Constructor for class net.simplace.sim.components.models.lintul5.amei.WaterBalance: Empty constructor used by class.forName()
WaterBalance() - Constructor for class net.simplace.sim.components.models.lintul5.WaterBalance: Empty constructor used by class.forName()
WaterBalance(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.models.lintul5.amei.WaterBalance
WaterBalance(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.models.lintul5.WaterBalance
WaterContent(double, double, double, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.HypresFunctions
WaterContent(double, double, double, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.RawlsFunctions
WaterContent(double, double, double, double, double, boolean) - Method in interface net.simplace.sim.components.soil.pedotransfer.WaterContentPedoTransferFunction
WaterContent(double, int, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.KartierungsanleitungFunctions
WaterContent(double, int, double, double, boolean) - Method in class net.simplace.sim.components.soil.pedotransfer.TextureClassesFunctions
WaterContent(double, int, double, double, boolean) - Method in interface net.simplace.sim.components.soil.pedotransfer.TextureClassPedoTransferFunction
WaterContentPedoTransferFunction - Interface in net.simplace.sim.components.soil.pedotransfer
WaterEffectSwitch - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Auxiliary
WaterStress - Class in net.simplace.sim.components.models.lintul5.modular: Lintul5 - Simple generic model for simulation of crop growth - WaterStress part WIKI_START == Introduction == This SimComponent calculates the transpiration reduction factor TRANRF.
WaterStress() - Constructor for class net.simplace.sim.components.models.lintul5.modular.WaterStress: Empty constructor used by class.forName()
WaterStress(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.models.lintul5.modular.WaterStress
WaterStressFactor(double, int) - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationWaterStress
WatFlux - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.Rates
WATUP(int, double, double, double, double, Double[], Double[], Double[], Double[], double, double, int, Double[], Double[]) - Static method in class net.simplace.sim.components.experimental.lintulcc.LintulCCFunctions
WeightAndMeatProduction - Class in net.simplace.sim.components.experimental.livestock
WeightAndMeatProduction() - Constructor for class net.simplace.sim.components.experimental.livestock.WeightAndMeatProduction: Empty constructor used by class.forName()
WFLOW(int, Double[], Double[], double, Double[], Double[], Double[]) - Static method in class net.simplace.sim.components.experimental.lintulcc.LintulCCFunctions
WindTranslation - Class in net.simplace.sim.components.experimental.canopytemperature
WindTranslation() - Constructor for class net.simplace.sim.components.experimental.canopytemperature.WindTranslation: Empty constructor used by class.forName()
WindTranslation(String, HashMap<String, FWSimVariable<?>>, HashMap<String, String>, Element, FWSimVarMap, int) - Constructor for class net.simplace.sim.components.experimental.canopytemperature.WindTranslation
WR_r(int) - Method in class net.simplace.sim.components.experimental.fao56.CropEvapoTranspirationWaterStress: Retained + mobile water above WP in root zone [mm]

X

x - Variable in class net.simplace.sim.components.util.InterpolationTable
xy - Variable in class net.simplace.sim.components.util.InterpolationTable
xy - Variable in class net.simplace.sim.components.util.LookupTable

Y

y - Variable in class net.simplace.sim.components.util.InterpolationTable
y_scale - Variable in class net.simplace.sim.components.util.ScalableInterpolationTable
Yfact - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
YieldGap - Static variable in class net.simplace.sim.components.management.NitrogenSurplus
YieldLevel - Static variable in class net.simplace.sim.components.management.NitrogenSurplus
Ymin - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.ParamC
YoungSOMCN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.InitialStates
YoungSOMCP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.InitialStatesP
YoungSOMsoilC - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
YoungSOMsoilN - Variable in class net.simplace.sim.components.soil.soilcn.valueobjects.States
YoungSOMsoilP - Variable in class net.simplace.sim.components.soil.soilcn.valueobjectsP.StatesP

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