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Forked from HYCAR-Hydro / airGR
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RunModel_Lag.R 4.77 KiB
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RunModel_Lag <- function(InputsModel, RunOptions, Param, QcontribDown) {
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  NParam <- 1
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  ##Arguments_check
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  if (!inherits(InputsModel, "InputsModel")) {
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    stop("'InputsModel' must be of class 'InputsModel'")
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  }
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  if (!inherits(InputsModel, "SD")) {
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    stop("'InputsModel' must be of class 'SD'")
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  }
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  if (!inherits(RunOptions, "RunOptions")) {
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    stop("'RunOptions' must be of class 'RunOptions'")
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  }
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  if (!is.vector(Param) | !is.numeric(Param)) {
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    stop("'Param' must be a numeric vector")
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  }
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  if (sum(!is.na(Param)) != NParam) {
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    stop(paste("'Param' must be a vector of length", NParam, "and contain no NA"))
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  }
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  if (inherits(QcontribDown, "OutputsModel")) {
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    if (is.null(QcontribDown$Qsim)) {
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      stop("'QcontribDown' should contain a key 'Qsim' containing the output of the runoff of the downstream subcatchment")
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    }
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    OutputsModel <- QcontribDown
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    OutputsModel$QsimDown <- OutputsModel$Qsim
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  } else if (is.vector(QcontribDown) && is.numeric(QcontribDown)) {
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    OutputsModel <- list()
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    class(OutputsModel) <- c("OutputsModel", class(OutputsModel))
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    OutputsModel$QsimDown <- QcontribDown
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  } else {
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    stop("'QcontribDown' must be a numeric vector or a 'OutputsModel' object")
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  }
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  if (length(OutputsModel$QsimDown) != length(RunOptions$IndPeriod_Run)) {
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    stop("Time series in 'QcontribDown' should have the same lenght as 'RunOptions$IndPeriod_Run'")
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  }
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  if (inherits(InputsModel, "hourly")) {
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    TimeStep <- 60 * 60
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  } else if (inherits(InputsModel, "daily")) {
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    TimeStep <- 60 * 60 * 24
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  } else {
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    stop("'InputsModel' should be of class \"daily\" or \"hourly\"")
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  }
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  # propagation time from upstream meshes to outlet
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  PT <- InputsModel$LengthHydro * 1e3 / Param[1L] / TimeStep
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  HUTRANS <- rbind(1 - (PT - floor(PT)), PT - floor(PT))
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  NbUpBasins <- length(InputsModel$LengthHydro)
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  LengthTs <- length(OutputsModel$QsimDown)
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  OutputsModel$Qsim_m3 <- OutputsModel$QsimDown * InputsModel$BasinAreas[length(InputsModel$BasinAreas)] * 1e3
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  IniSD <- RunOptions$IniStates[grep("SD", names(RunOptions$IniStates))]
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  if (length(IniSD) > 0) {
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    if (sum(floor(PT)) + NbUpBasins != length(IniSD)) {
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      stop(
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        sprintf(
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          "SD initial states has a length of %i and a length of %i is required",
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          length(IniSD),
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          sum(floor(PT)) + NbUpBasins
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        )
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      )
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    }
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    IniStates <- lapply(seq_len(NbUpBasins), function(x) {
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      iStart <- 1
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      if (x > 1) {
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        iStart <- iStart + sum(floor(PT[1:x - 1]) + 1)
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      }
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      IniSD[iStart:(iStart + PT[x])]
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    })
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} else { IniStates <- lapply( seq_len(NbUpBasins), function(iUpBasins) { iWarmUp <- seq.int( from = max(1, RunOptions$IndPeriod_WarmUp[length(RunOptions$IndPeriod_WarmUp)] - floor(PT[iUpBasins])), to = max(1, RunOptions$IndPeriod_WarmUp[length(RunOptions$IndPeriod_WarmUp)]) ) ini <- InputsModel$Qupstream[iWarmUp, iUpBasins] if (length(ini) != floor(PT[iUpBasins] + 1)) { # If warm-up period is not enough long complete beginning with first value ini <- c(rep(ini[1], floor(PT[iUpBasins] + 1) - length(ini)), ini) } return(as.vector(ini)) } ) } # message("Initstates: ", paste(IniStates, collapse = ", ")) for (upstream_basin in seq_len(NbUpBasins)) { Qupstream <- c(IniStates[[upstream_basin]], InputsModel$Qupstream[RunOptions$IndPeriod_Run, upstream_basin]) # message("Qupstream[", upstream_basin, "]: ", paste(Qupstream, collapse = ", ")) OutputsModel$Qsim_m3 <- OutputsModel$Qsim_m3 + Qupstream[2:(1 + LengthTs)] * HUTRANS[1, upstream_basin] + Qupstream[1:LengthTs] * HUTRANS[2, upstream_basin] } # Convert back Qsim to mm OutputsModel$Qsim <- OutputsModel$Qsim_m3 / sum(InputsModel$BasinAreas, na.rm = TRUE) / 1e3 # message("Qsim: ", paste(OutputsModel$Qsim, collapse = ", ")) # Warning for negative flows or NAs only in extended outputs if (length(RunOptions$Outputs_Sim) > 2) { if (any(OutputsModel$Qsim[!is.na(OutputsModel$Qsim)] < 0)) { warning(length(which(OutputsModel$Qsim < 0)), " time steps with negative flow, set to zero.") OutputsModel$Qsim[OutputsModel$Qsim < 0] <- 0 } # Warning for NAs if (any(is.na(OutputsModel$Qsim))) { warning(length(which(is.na(OutputsModel$Qsim))), " time steps with NA values") } } if ("StateEnd" %in% RunOptions$Outputs_Sim) { OutputsModel$StateEnd$SD <- lapply(seq(NbUpBasins), function(x) { lastTS <- RunOptions$IndPeriod_Run[length(RunOptions$IndPeriod_Run)] InputsModel$Qupstream[(lastTS - floor(PT[x])):lastTS, x] }) # message("StateEnd: ", paste(OutputsModel$StateEnd$SD, collapse = ", ")) } if ("Param" %in% RunOptions$Outputs_Sim) { OutputsModel$Param <- c(Param, OutputsModel$Param) } return(OutputsModel) }