#' agghoo #' #' Run the (core) agghoo procedure. #' Arguments specify the list of models, their parameters and the #' cross-validation settings, among others. #' #' @param data Data frame or matrix containing the data in lines. #' @param target The target values to predict. Generally a vector, #' but possibly a matrix in the case of "soft classification". #' @param task "classification" or "regression". Default: #' regression if target is numerical, classification otherwise. #' @param gmodel A "generic model", which is a function returning a predict #' function (taking X as only argument) from the tuple #' (dataHO, targetHO, param), where 'HO' stands for 'Hold-Out', #' referring to cross-validation. Cross-validation is run on an array #' of 'param's. See params argument. Default: see R6::Model. #' @param params A list of parameters. Often, one list cell is just a #' numerical value, but in general it could be of any type. #' Default: see R6::Model. #' @param loss A function assessing the error of a prediction. #' Arguments are y1 and y2 (comparing a prediction to known values). #' loss(y1, y2) --> real number (error). Default: see R6::AgghooCV. #' #' @return #' An R6::AgghooCV object o. Then, call o$fit() and finally o$predict(newData) #' #' @examples #' # Regression: #' a_reg <- agghoo(iris[,-c(2,5)], iris[,2]) #' a_reg$fit() #' pr <- a_reg$predict(iris[,-c(2,5)] + rnorm(450, sd=0.1)) #' # Classification #' a_cla <- agghoo(iris[,-5], iris[,5]) #' a_cla$fit() #' pc <- a_cla$predict(iris[,-5] + rnorm(600, sd=0.1)) #' #' @seealso Function \code{\link{compareTo}} #' #' @references #' Guillaume Maillard, Sylvain Arlot, Matthieu Lerasle. "Aggregated hold-out". #' Journal of Machine Learning Research 22(20):1--55, 2021. #' #' @export agghoo <- function( data, target, task = NULL, gmodel = NULL, params = NULL, loss = NULL ) { # Args check: checkDaTa(data, target) task <- checkTask(task, target) modPar <- checkModPar(gmodel, params) loss <- checkLoss(loss, task) # Build Model object (= list of parameterized models) model <- Model$new(data, target, task, modPar$gmodel, modPar$params) # Return AgghooCV object, to run and predict AgghooCV$new(data, target, task, model, loss) }