Add report generator + first draft of report.gj

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

#' @title Acquire data in a clean format
#'
#' @description Take in input data frames and/or files containing raw data, and timezones, and
#'   output a Data object, roughly corresponding to a list where each cell contains all value
#'   for one day (see \code{?Data}).
#'
#' @param ts_data Time-series, as a data frame (DB style: 2 columns, first is date/time,
#'   second is value) or a CSV file
#' @param exo_data Exogenous variables, as a data frame or a CSV file; first comlumn is dates,
#'   next block are measurements for the day, and final block are exogenous forecasts
#' @param input_tz Timezone in the input files ("GMT" or e.g. "Europe/Paris")
#' @param date_format How date/time are stored (e.g. year/month/day hour:minutes;
#'   see \code{strptime})
#' @param working_tz Timezone to work with ("GMT" or e.g. "Europe/Paris")
#' @param predict_at When does the prediction take place ? Integer, in hours. Default: 0
#' @param limit Number of days to extract (default: Inf, for "all")
#'
#' @return An object of class Data
#'
#' @examples
#' ts_data = read.csv(system.file("extdata","pm10_mesures_H_loc.csv",package="talweg"))
#' exo_data = read.csv(system.file("extdata","meteo_extra_noNAs.csv",package="talweg"))
#' data = getData(ts_data, exo_data, limit=120)
#' @export
getData = function(ts_data, exo_data, input_tz="GMT", date_format="%d/%m/%Y %H:%M",
    working_tz="GMT", predict_at=0, limit=Inf)
{
    # Sanity checks (not full, but sufficient at this stage)
    if (!is.character(input_tz) || !is.character(working_tz))
        stop("Bad timezone (see ?timezone)")
    input_tz = input_tz[1]
    working_tz = working_tz[1]
    if ( (!is.data.frame(ts_data) && !is.character(ts_data)) ||
            (!is.data.frame(exo_data) && !is.character(exo_data)) )
        stop("Bad time-series / exogenous input (data frame or CSV file)")
    if (is.character(ts_data))
        ts_data = ts_data[1]
    if (is.character(exo_data))
        exo_data = exo_data[1]
    predict_at = as.integer(predict_at)[1]
    if (predict_at<0 || predict_at>23)
        stop("Bad predict_at (0-23)")
    if (!is.character(date_format))
        stop("Bad date_format (character)")
    date_format = date_format[1]

    ts_df =
        if (is.character(ts_data))
            read.csv(ts_data)
        else
            ts_data
    exo_df =
        if (is.character(exo_data))
            read.csv(exo_data)
        else
            exo_data
    # Convert to the desired timezone (usually "GMT" or "Europe/Paris")
    formatted_dates_POSIXlt = strptime(as.character(ts_df[,1]), date_format, tz=input_tz)
    ts_df[,1] = format(as.POSIXct(formatted_dates_POSIXlt), tz=working_tz, usetz=TRUE)

    line = 1 #index in PM10 file (24 lines for 1 cell)
    nb_lines = nrow(ts_df)
    nb_exos = ( ncol(exo_df) - 1 ) / 2
    data = Data$new()
    i = 1 #index of a cell in data
    while (line <= nb_lines)
    {
        time = c()
        serie = c()
        repeat
        {
            {
                time = c(time, ts_df[line,1])
                serie = c(serie, ts_df[line,2])
                line = line + 1
            };
            if (line >= nb_lines + 1 || as.POSIXlt(ts_df[line-1,1])$hour == predict_at)
                break
        }

        exo = as.data.frame( exo_df[i,2:(1+nb_exos)] )
        exo_hat = as.data.frame( exo_df[i,(1+nb_exos+1):(1+2*nb_exos)] )
        level = mean(serie, na.rm=TRUE)
        centered_serie = serie - level
        data$append(time, centered_serie, level, exo, exo_hat)
        if (i >= limit)
            break
        i = i + 1
    }
    if (length(data$getCenteredSerie(1)) < length(data$getCenteredSerie(2)))
        data$removeFirst()
    if (length(data$getCenteredSerie(data$getSize()))
        < length(data$getCenteredSerie(data$getSize()-1)))
    {
        data$removeLast()
    }
    data
}