[talweg.git] / pkg / R / getForecast.R

#' @title get Forecast
#'
#' @description Predict time-series curves for the selected days indices (lines in data).
#'
#' @param data Dataset, object of type \code{Data} output of \code{getData}
#' @param indices Days indices where to forecast (the day after)
#' @param forecaster Name of the main forcaster
#' \itemize{
#'   \item Persistence : use values of last (similar, next) day
#'   \item Neighbors : use values from the k closest neighbors' tomorrows
#'   \item Average : global average of all the (similar) "tomorrow of past"
#'   \item Zero : just output 0 (benchmarking purpose)
#' }
#' @param pjump How to predict the jump at the interface between two days ?
#' \itemize{
#'   \item Persistence : use last (similar) day values
#'   \item Neighbors: re-use the weights optimized in corresponding forecaster
#'   \item Zero: just output 0 (no adjustment)
#' }
#' @param memory Data depth (in days) to be used for prediction
#' @param horizon Number of time steps to predict
#' @param ... Additional parameters for the forecasting models
#'
#' @return An object of class Forecast
#'
#' @examples
#' data = getData(ts_data="data/pm10_mesures_H_loc.csv", exo_data="data/meteo_extra_noNAs.csv",
#'   input_tz = "Europe/Paris", working_tz="Europe/Paris", predict_at=7)
#' pred = getForecast(data, 2200:2230, "Persistence", "Persistence", 500, 12)
#' \dontrun{#Sketch for real-time mode:
#' data = new("Data", ...)
#' forecaster = new(..., data=data)
#' repeat {
#'   data$append(some_new_data)
#'   pred = forecaster$predict(data$getSize(), ...)
#'   #do_something_with_pred
#' }}
#' @export
getForecast = function(data, indices, forecaster, pjump=NULL,
	memory=Inf, horizon=data$getStdHorizon(), ...)
{
	# (basic) Arguments sanity checks
	horizon = as.integer(horizon)[1]
	if (horizon<=0 || horizon>length(data$getCenteredSerie(2)))
		stop("Horizon too short or too long")
	indices = sapply( seq_along(indices), function(i) dateIndexToInteger(indices[i], data) )
	if (any(indices<=0 | indices>data$getSize()))
		stop("Indices out of range")
	indices = sapply(indices, dateIndexToInteger, data)
	if (!is.character(forecaster))
		stop("forecaster (name) should be of class character") #pjump could be NULL

	pred = list()
	forecaster = new(paste(forecaster,"Forecaster",sep=""), data=data,
		pjump =
			if (is.null(pjump))
				function() {}
			else
				getFromNamespace(paste("get",pjump,"JumpPredict",sep=""), "talweg"))
	for (today in indices)
	{
		#pred$append(...) is slow; TODO: use R6 class
		pred[[length(pred)+1]] = list(
			"serie" = forecaster$predict(today, memory, horizon, ...),
			"params" = forecaster$getParameters(),
			"index" = today
		)
	}
	new("Forecast",pred=pred)
}
Commit	Line	Data
3d69ff21 BA	1	#' @title get Forecast
	2	#'
	3	#' @description Predict time-series curves for the selected days indices (lines in data).
3d69ff21 BA	4	#'
	5	#' @param data Dataset, object of type \code{Data} output of \code{getData}
	6	#' @param indices Days indices where to forecast (the day after)
e030a6e3	7	#' @param forecaster Name of the main forcaster
3d69ff21 BA	8	#' \itemize{
3d69ff21 BA	9	#' \item Persistence : use values of last (similar, next) day
e030a6e3	10	#' \item Neighbors : use values from the k closest neighbors' tomorrows
3d69ff21	11	#' \item Average : global average of all the (similar) "tomorrow of past"
e030a6e3	12	#' \item Zero : just output 0 (benchmarking purpose)
3d69ff21	13	#' }
e030a6e3	14	#' @param pjump How to predict the jump at the interface between two days ?
3d69ff21 BA	15	#' \itemize{
3d69ff21 BA	16	#' \item Persistence : use last (similar) day values
e030a6e3	17	#' \item Neighbors: re-use the weights optimized in corresponding forecaster
3d69ff21 BA	18	#' \item Zero: just output 0 (no adjustment)
3d69ff21 BA	19	#' }
e030a6e3 BA	20	#' @param memory Data depth (in days) to be used for prediction
e030a6e3 BA	21	#' @param horizon Number of time steps to predict
3d69ff21 BA	22	#' @param ... Additional parameters for the forecasting models
	23	#'
	24	#' @return An object of class Forecast
	25	#'
	26	#' @examples
	27	#' data = getData(ts_data="data/pm10_mesures_H_loc.csv", exo_data="data/meteo_extra_noNAs.csv",
e030a6e3 BA	28	#' input_tz = "Europe/Paris", working_tz="Europe/Paris", predict_at=7)
e030a6e3 BA	29	#' pred = getForecast(data, 2200:2230, "Persistence", "Persistence", 500, 12)
3d69ff21 BA	30	#' \dontrun{#Sketch for real-time mode:
3d69ff21 BA	31	#' data = new("Data", ...)
e030a6e3	32	#' forecaster = new(..., data=data)
3d69ff21 BA	33	#' repeat {
3d69ff21 BA	34	#' data$append(some_new_data)
e030a6e3	35	#' pred = forecaster$predict(data$getSize(), ...)
3d69ff21 BA	36	#' #do_something_with_pred
	37	#' }}
	38	#' @export
e5aa669a	39	getForecast = function(data, indices, forecaster, pjump=NULL,
e030a6e3	40	memory=Inf, horizon=data$getStdHorizon(), ...)
3d69ff21	41	{
e030a6e3	42	# (basic) Arguments sanity checks
3d69ff21 BA	43	horizon = as.integer(horizon)[1]
	44	if (horizon<=0 \|\| horizon>length(data$getCenteredSerie(2)))
	45	stop("Horizon too short or too long")
09cf9c19	46	indices = sapply( seq_along(indices), function(i) dateIndexToInteger(indices[i], data) )
3d69ff21 BA	47	if (any(indices<=0 \| indices>data$getSize()))
	48	stop("Indices out of range")
	49	indices = sapply(indices, dateIndexToInteger, data)
e5aa669a BA	50	if (!is.character(forecaster))
e5aa669a BA	51	stop("forecaster (name) should be of class character") #pjump could be NULL
3d69ff21 BA	52
3d69ff21 BA	53	pred = list()
e030a6e3	54	forecaster = new(paste(forecaster,"Forecaster",sep=""), data=data,
e5aa669a BA	55	pjump =
	56	if (is.null(pjump))
	57	function() {}
	58	else
	59	getFromNamespace(paste("get",pjump,"JumpPredict",sep=""), "talweg"))
3d69ff21 BA	60	for (today in indices)
3d69ff21 BA	61	{
1e20780e	62	#pred$append(...) is slow; TODO: use R6 class
3d69ff21	63	pred[[length(pred)+1]] = list(
e030a6e3 BA	64	"serie" = forecaster$predict(today, memory, horizon, ...),
	65	"params" = forecaster$getParameters(),
	66	"index" = today
	67	)
3d69ff21 BA	68	}
	69	new("Forecast",pred=pred)
	70	}