#' Predict tomorrow as a weighted combination of "futures of the past" days.
#' Inherits \code{\link{Forecaster}}
NeighborsForecaster = R6::R6Class("NeighborsForecaster",
- inherit = "Forecaster",
+ inherit = Forecaster,
public = list(
predictShape = function(today, memory, horizon, ...)
{
# (re)initialize computed parameters
- params <<- list("weights"=NA, "indices"=NA, "window"=NA)
+ private$.params <- list("weights"=NA, "indices"=NA, "window"=NA)
+
+ # Determine indices of no-NAs days followed by no-NAs tomorrows
+ fdays = private$.data$getCoupleDays(max(today-memory,1), today-1)
# Get optional args
simtype = ifelse(hasArg("simtype"), list(...)$simtype, "mix") #or "endo", or "exo"
kernel = ifelse(hasArg("kernel"), list(...)$kernel, "Gauss") #or "Epan"
if (hasArg(h_window))
- return (.predictShapeAux(fdays,today,horizon,list(...)$h_window,kernel,simtype,TRUE))
-
- # Determine indices of no-NAs days followed by no-NAs tomorrows
- first_day = max(today - memory, 1)
- fdays = (first_day:(today-1))[ sapply(first_day:(today-1), function(i) {
- !any(is.na(data$getSerie(i)) | is.na(data$getSerie(i+1)))
- }) ]
+ {
+ return ( private$.predictShapeAux(
+ fdays, today, horizon, list(...)$h_window, kernel, simtype, TRUE) )
+ }
# Indices of similar days for cross-validation; TODO: 45 = magic number
sdays = getSimilarDaysIndices(today, limit=45, same_season=FALSE)
for (i in intersect(fdays,sdays))
{
# mix_strategy is never used here (simtype != "mix"), therefore left blank
- prediction = .predictShapeAux(fdays, i, horizon, h, kernel, simtype, FALSE)
+ prediction = private$.predictShapeAux(fdays, i, horizon, h, kernel, simtype, FALSE)
if (!is.na(prediction[1]))
{
nb_jours = nb_jours + 1
- error = error + mean((data$getCenteredSerie(i+1)[1:horizon] - prediction)^2)
+ error = error +
+ mean((private$.data$getCenteredSerie(i+1)[1:horizon] - prediction)^2)
}
}
return (error / nb_jours)
}
if (simtype != "endo")
- h_best_exo = optimize(errorOnLastNdays, c(0,10), kernel=kernel, simtype="exo")$minimum
+ {
+ h_best_exo = optimize(
+ errorOnLastNdays, c(0,10), kernel=kernel, simtype="exo")$minimum
+ }
if (simtype != "exo")
- h_best_endo = optimize(errorOnLastNdays, c(0,10), kernel=kernel, simtype="endo")$minimum
+ {
+ h_best_endo = optimize(
+ errorOnLastNdays, c(0,10), kernel=kernel, simtype="endo")$minimum
+ }
if (simtype == "endo")
- return (.predictShapeAux(fdays, today, horizon, h_best_endo, kernel, "endo", TRUE))
+ {
+ return (private$.predictShapeAux(
+ fdays, today, horizon, h_best_endo, kernel, "endo", TRUE))
+ }
if (simtype == "exo")
- return (.predictShapeAux(fdays, today, horizon, h_best_exo, kernel, "exo", TRUE))
+ {
+ return (private$.predictShapeAux(
+ fdays, today, horizon, h_best_exo, kernel, "exo", TRUE))
+ }
if (simtype == "mix")
{
h_best_mix = c(h_best_endo,h_best_exo)
- return (.predictShapeAux(fdays, today, horizon, h_best_mix, kernel, "mix", TRUE))
+ return(private$.predictShapeAux(
+ fdays, today, horizon, h_best_mix, kernel, "mix", TRUE))
}
}
),
if (length(fdays) < 3)
return (NA)
+ data = private$.data #shorthand
+
if (simtype != "exo")
{
h_endo = ifelse(simtype=="mix", h[1], h)
simils_endo * simils_exo
prediction = rep(0, horizon)
- for (i in seq_along(fdays_indices))
- prediction = prediction + similarities[i] * data$getSerie(fdays_indices[i]+1)[1:horizon]
+ for (i in seq_along(fdays))
+ prediction = prediction + similarities[i] * data$getSerie(fdays[i]+1)[1:horizon]
prediction = prediction / sum(similarities, na.rm=TRUE)
if (final_call)
{
- params$weights <<- similarities
- params$indices <<- fdays_indices
- params$window <<-
+ private$.params$weights <- similarities
+ private$.params$indices <- fdays
+ private$.params$window <-
if (simtype=="endo") {
h_endo
} else if (simtype=="exo") {