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ErrorCrit_KGE2 <- function(InputsCrit, OutputsModel, warnings = TRUE, verbose = TRUE) {
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##Arguments_check________________________________
if (!inherits(InputsCrit, "InputsCrit")) {
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stop("InputsCrit must be of class 'InputsCrit'")
}
if (inherits(InputsCrit, "Multi") | inherits(InputsCrit, "Compo")) {
stop("InputsCrit must be of class 'Single'. Use the ErrorCrit function on objects of class 'Multi' or 'Compo' with KGE'")
}
if (!inherits(OutputsModel, "OutputsModel")) {
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stop("OutputsModel must be of class 'OutputsModel'")
}
##Initialisation_________________________________
CritName <- NA
CritVar <- InputsCrit$varObs
if (InputsCrit$transfo == "") {
CritName <- "KGE'[CritVar]"
}
if (InputsCrit$transfo == "sqrt") {
CritName <- "KGE'[sqrt(CritVar)]"
}
if (InputsCrit$transfo == "log") {
CritName <- "KGE'[log(CritVar)]"
}
if (InputsCrit$transfo == "inv") {
CritName <- "KGE'[1/CritVar]"
}
if (InputsCrit$transfo == "sort") {
CritName <- "KGE'[sort(CritVar)]"
}
CritName <- gsub(pattern = "CritVar", replacement = CritVar, x = CritName)
CritValue <- NA
CritBestValue <- +1
Multiplier <- -1
### must be equal to -1 or +1 only
##Data_preparation_______________________________
VarObs <- InputsCrit$obs
VarObs[!InputsCrit$BoolCrit] <- NA
if (InputsCrit$varObs == "Q") {
VarSim <- OutputsModel$Qsim
}
if (InputsCrit$varObs == "SCA") {
VarSim <- rowMeans(sapply(OutputsModel$CemaNeigeLayers[InputsCrit$idLayer], FUN = "[[", "Gratio"))
}
if (InputsCrit$varObs == "SWE") {
VarSim <- rowMeans(sapply(OutputsModel$CemaNeigeLayers[InputsCrit$idLayer], FUN = "[[", "SnowPack"))
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VarSim[!InputsCrit$BoolCrit] <- NA
##Data_transformation
if (InputsCrit$transfo %in% c("log", "inv") & is.null(InputsCrit$epsilon) & warnings) {
if (any(VarObs %in% 0)) {
warning("zeroes detected in Qobs: the corresponding time-steps will be excluded from the criteria computation if the epsilon argument of 'CreateInputsCrit' = NULL")
}
if (any(VarSim %in% 0)) {
warning("zeroes detected in Qsim: the corresponding time-steps will be excluded from the criteria computation if the epsilon argument of 'CreateInputsCrit' = NULL")
}
}
if ("epsilon" %in% names(InputsCrit) & !is.null(InputsCrit$epsilon)) {
VarObs <- VarObs + InputsCrit$epsilon
VarSim <- VarSim + InputsCrit$epsilon
}
if (InputsCrit$transfo == "sqrt") {
VarObs <- sqrt(VarObs)
VarSim <- sqrt(VarSim)
}
if (InputsCrit$transfo == "log") {
VarObs <- log(VarObs)
VarSim <- log(VarSim)
VarSim[VarSim < -1e100] <- NA
}
if (InputsCrit$transfo == "inv") {
VarObs <- 1 / VarObs
VarSim <- 1 / VarSim
VarSim[abs(VarSim) > 1e+100] <- NA
}
if (InputsCrit$transfo == "sort") {
VarSim[is.na(VarObs)] <- NA
VarSim <- sort(VarSim, na.last = TRUE)
VarObs <- sort(VarObs, na.last = TRUE)
InputsCrit$BoolCrit <- sort(InputsCrit$BoolCrit, decreasing = TRUE)
}
##TS_ignore
TS_ignore <- !is.finite(VarObs) | !is.finite(VarSim) | !InputsCrit$BoolCrit
Ind_TS_ignore <- which(TS_ignore)
if (length(Ind_TS_ignore) == 0) {
Ind_TS_ignore <- NULL
}
if (sum(!TS_ignore) == 0) {
OutputsCrit <- list(NA)
names(OutputsCrit) <- c("CritValue")
return(OutputsCrit)
}
if (sum(!TS_ignore) == 1) {
OutputsCrit <- list(NA)
names(OutputsCrit) <- c("CritValue")
return(OutputsCrit)
} ### to avoid a problem in standard deviation computation
if (inherits(OutputsModel, "hourly")) {
WarningTS <- 365
}
if (inherits(OutputsModel, "daily")) {
WarningTS <- 365
}
if (inherits(OutputsModel, "monthly")) {
WarningTS <- 12
}
if (inherits(OutputsModel, "yearly")) {
WarningTS <- 3
}
if (sum(!TS_ignore) < WarningTS & warnings) {
warning("\t criterion computed on less than ", WarningTS, " time-steps")
}
##Other_variables_preparation
meanVarObs <- mean(VarObs[!TS_ignore])
meanVarSim <- mean(VarSim[!TS_ignore])
iCrit <- 0
SubCritPrint <- NULL
SubCritNames <- NULL
SubCritValues <- NULL
##SubErrorCrit_____KGE_rPearson__________________
iCrit <- iCrit + 1
SubCritPrint[iCrit] <- paste(CritName, " cor(sim, obs, \"pearson\") =", sep = "")
SubCritValues[iCrit] <- NA
SubCritNames[iCrit] <- "r"
Numer <- sum((VarObs[!TS_ignore] - meanVarObs) * (VarSim[!TS_ignore] - meanVarSim))
Deno1 <- sqrt(sum((VarObs[!TS_ignore] - meanVarObs)^2))
Deno2 <- sqrt(sum((VarSim[!TS_ignore] - meanVarSim)^2))
if (Numer == 0) {
if (Deno1 == 0 & Deno2 == 0) {
} else {
Crit <- Numer / (Deno1 * Deno2)
}
if (is.numeric(Crit) & is.finite(Crit)) {
SubCritValues[iCrit] <- Crit
}
##SubErrorCrit_____KGE_gamma______________________
iCrit <- iCrit + 1
SubCritPrint[iCrit] <- paste(CritName, " cv(sim)/cv(obs) =", sep = "")
SubCritValues[iCrit] <- NA
SubCritNames[iCrit] <- "gamma"
if (meanVarSim == 0) {
if (sd(VarSim[!TS_ignore]) == 0) {
CVsim <- 1
} else {
CVsim <- sd(VarSim[!TS_ignore]) / meanVarSim
}
if (meanVarObs == 0) {
if (sd(VarObs[!TS_ignore]) == 0) {
CVobs <- 1
} else {
CVobs <- 99999
} else {
CVobs <- sd(VarObs[!TS_ignore]) / meanVarObs
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}
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if (CVsim == 0 &
CVobs == 0) {
Crit <- 1
} else {
Crit <- CVsim / CVobs
}
if (is.numeric(Crit) & is.finite(Crit)) {
SubCritValues[iCrit] <- Crit
}
##SubErrorCrit_____KGE_beta______________________
iCrit <- iCrit + 1
SubCritPrint[iCrit] <- paste(CritName, " mean(sim)/mean(obs) =", sep = "")
SubCritValues[iCrit] <- NA
SubCritNames[iCrit] <- "beta"
if (meanVarSim == 0 & meanVarObs == 0) {
Crit <- 1
} else {
Crit <- meanVarSim / meanVarObs
}
if (is.numeric(Crit) & is.finite(Crit)) {
SubCritValues[iCrit] <- Crit
}
##ErrorCrit______________________________________
if (sum(is.na(SubCritValues)) == 0) {
CritValue <- (1 - sqrt((SubCritValues[1] - 1)^2 + (SubCritValues[2] - 1)^2 + (SubCritValues[3] - 1)^2))
}
##Verbose______________________________________
if (verbose) {
message("Crit. ", CritName, " = ", sprintf("%.4f", CritValue))
message(paste("\tSubCrit.", SubCritPrint, sprintf("%.4f", SubCritValues), "\n", sep = " "))
}
##Output_________________________________________
OutputsCrit <- list(CritValue = CritValue,
CritName = CritName,
SubCritValues = SubCritValues,
SubCritNames = SubCritNames,
CritBestValue = CritBestValue,
Multiplier = Multiplier,
Ind_notcomputed = Ind_TS_ignore
)
class(OutputsCrit) <- c("KGE2", "ErrorCrit")
return(OutputsCrit)
}