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Dorchies David authored
Refs #111
dd7ef429
RunModel_GR4H <- function(InputsModel, RunOptions, Param) { .ArgumentsCheckGR(InputsModel, RunOptions, Param) Param <- as.double(Param) Param_X1X3_threshold <- 1e-2 Param_X4_threshold <- 0.5 if (Param[1L] < Param_X1X3_threshold) { warning(sprintf("Param[1] (X1: production store capacity [mm]) < %.2f\n X1 set to %.2f", Param_X1X3_threshold, Param_X1X3_threshold)) Param[1L] <- Param_X1X3_threshold } if (Param[3L] < Param_X1X3_threshold) { warning(sprintf("Param[3] (X3: routing store capacity [mm]) < %.2f\n X3 set to %.2f", Param_X1X3_threshold, Param_X1X3_threshold)) Param[3L] <- Param_X1X3_threshold } if (Param[4L] < Param_X4_threshold) { warning(sprintf("Param[4] (X4: unit hydrograph time constant [h]) < %.2f\n X4 set to %.2f", Param_X4_threshold, Param_X4_threshold)) Param[4L] <- Param_X4_threshold } ## Input data preparation if (identical(RunOptions$IndPeriod_WarmUp, 0L)) { RunOptions$IndPeriod_WarmUp <- NULL } IndPeriod1 <- c(RunOptions$IndPeriod_WarmUp, RunOptions$IndPeriod_Run) LInputSeries <- as.integer(length(IndPeriod1)) if ("all" %in% RunOptions$Outputs_Sim) { IndOutputs <- as.integer(1:length(RunOptions$FortranOutputs$GR)) } else { IndOutputs <- which(RunOptions$FortranOutputs$GR %in% RunOptions$Outputs_Sim) } ## Output data preparation IndPeriod2 <- (length(RunOptions$IndPeriod_WarmUp)+1):LInputSeries ExportDatesR <- "DatesR" %in% RunOptions$Outputs_Sim ExportStateEnd <- "StateEnd" %in% RunOptions$Outputs_Sim ## Use of IniResLevels if (!is.null(RunOptions$IniResLevels)) { RunOptions$IniStates[1] <- RunOptions$IniResLevels[1] * Param[1] ### production store level (mm) RunOptions$IniStates[2] <- RunOptions$IniResLevels[2] * Param[3] ### routing store level (mm) } ## Call GR model Fortan RESULTS <- .Fortran("frun_gr4h", PACKAGE = "airGR", ## inputs LInputs = LInputSeries, ### length of input and output series InputsPrecip = InputsModel$Precip[IndPeriod1], ### input series of total precipitation [mm/h] InputsPE = InputsModel$PotEvap[IndPeriod1], ### input series potential evapotranspiration [mm/h] NParam = as.integer(length(Param)), ### number of model parameter Param = Param, ### parameter set NStates = as.integer(length(RunOptions$IniStates)), ### number of state variables used for model initialising StateStart = RunOptions$IniStates, ### state variables used when the model run starts NOutputs = as.integer(length(IndOutputs)), ### number of output series IndOutputs = IndOutputs, ### indices of output series ## outputs Outputs = matrix(as.double(-99e9), nrow = LInputSeries, ncol = length(IndOutputs)), ### output series [mm or mm/h] StateEnd = rep(as.double(-99e9), length(RunOptions$IniStates)) ### state variables at the end of the model run ) RESULTS$Outputs[RESULTS$Outputs <= -99e8] <- NA RESULTS$StateEnd[RESULTS$StateEnd <= -99e8] <- NA if (ExportStateEnd) { RESULTS$StateEnd[-3L] <- ifelse(RESULTS$StateEnd[-3L] < 0, 0, RESULTS$StateEnd[-3L]) ### remove negative values except for the ExpStore location RESULTS$StateEnd <- CreateIniStates(FUN_MOD = RunModel_GR4H, InputsModel = InputsModel, ProdStore = RESULTS$StateEnd[1L], RoutStore = RESULTS$StateEnd[2L], ExpStore = NULL, UH1 = RESULTS$StateEnd[(1:(20*24)) + 7], UH2 = RESULTS$StateEnd[(1:(40*24)) + (7+20*24)], GCemaNeigeLayers = NULL, eTGCemaNeigeLayers = NULL, verbose = FALSE)71727374757677787980
}
## OutputsModel generation
.GetOutputsModelGR(InputsModel,
RunOptions,
RESULTS,
LInputSeries,
Param)
}