[agghoo.git] / R / agghoo.R

#' 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:
  if (!is.data.frame(data) && !is.matrix(data))
    stop("data: data.frame or matrix")
  if (is.data.frame(target) || is.matrix(target)) {
    if (nrow(target) != nrow(data) || ncol(target) == 1)
      stop("target probability matrix does not match data size")
  }
  else if (!is.numeric(target) && !is.factor(target) && !is.character(target))
    stop("target: numeric, factor or character vector")
  if (!is.null(task))
    task = match.arg(task, c("classification", "regression"))
  if (is.character(gmodel))
    gmodel <- match.arg(gmodel, c("knn", "ppr", "rf", "tree"))
  else if (!is.null(gmodel) && !is.function(gmodel))
    # No further checks here: fingers crossed :)
    stop("gmodel: function(dataHO, targetHO, param) --> function(X) --> y")
  if (is.numeric(params) || is.character(params))
    params <- as.list(params)
  if (!is.list(params) && !is.null(params))
    stop("params: numerical, character, or list (passed to model)")
  if (is.function(gmodel) && !is.list(params))
    stop("params must be provided when using a custom model")
  if (is.list(params) && is.null(gmodel))
    stop("model (or family) must be provided when using custom params")
  if (!is.null(loss) && !is.function(loss))
    # No more checks here as well... TODO:?
    stop("loss: function(y1, y2) --> Real")

  if (is.null(task)) {
    if (is.numeric(target))
      task = "regression"
    else
      task = "classification"
  }
  # Build Model object (= list of parameterized models)
  model <- Model$new(data, target, task, gmodel, params)
  # Return AgghooCV object, to run and predict
  AgghooCV$new(data, target, task, model, loss)
}
Commit	Line	Data
	1	#' agghoo
	2	#'
	3	#' Run the (core) agghoo procedure.
	4	#' Arguments specify the list of models, their parameters and the
	5	#' cross-validation settings, among others.
	6	#'
	7	#' @param data Data frame or matrix containing the data in lines.
	8	#' @param target The target values to predict. Generally a vector,
	9	#' but possibly a matrix in the case of "soft classification".
	10	#' @param task "classification" or "regression". Default:
	11	#' regression if target is numerical, classification otherwise.
	12	#' @param gmodel A "generic model", which is a function returning a predict
	13	#' function (taking X as only argument) from the tuple
	14	#' (dataHO, targetHO, param), where 'HO' stands for 'Hold-Out',
	15	#' referring to cross-validation. Cross-validation is run on an array
	16	#' of 'param's. See params argument. Default: see R6::Model.
	17	#' @param params A list of parameters. Often, one list cell is just a
	18	#' numerical value, but in general it could be of any type.
	19	#' Default: see R6::Model.
	20	#' @param loss A function assessing the error of a prediction.
	21	#' Arguments are y1 and y2 (comparing a prediction to known values).
	22	#' loss(y1, y2) --> real number (error). Default: see R6::AgghooCV.
	23	#'
	24	#' @return
	25	#' An R6::AgghooCV object o. Then, call o$fit() and finally o$predict(newData)
	26	#'
	27	#' @examples
	28	#' # Regression:
	29	#' a_reg <- agghoo(iris[,-c(2,5)], iris[,2])
	30	#' a_reg$fit()
	31	#' pr <- a_reg$predict(iris[,-c(2,5)] + rnorm(450, sd=0.1))
	32	#' # Classification
	33	#' a_cla <- agghoo(iris[,-5], iris[,5])
	34	#' a_cla$fit()
	35	#' pc <- a_cla$predict(iris[,-5] + rnorm(600, sd=0.1))
	36	#'
	37	#' @seealso Function \code{\link{compareTo}}
	38	#'
	39	#' @references
	40	#' Guillaume Maillard, Sylvain Arlot, Matthieu Lerasle. "Aggregated hold-out".
	41	#' Journal of Machine Learning Research 22(20):1--55, 2021.
	42	#'
	43	#' @export
	44	agghoo <- function(data, target, task = NULL, gmodel = NULL, params = NULL, loss = NULL) {
	45	# Args check:
	46	if (!is.data.frame(data) && !is.matrix(data))
	47	stop("data: data.frame or matrix")
	48	if (is.data.frame(target) \|\| is.matrix(target)) {
	49	if (nrow(target) != nrow(data) \|\| ncol(target) == 1)
	50	stop("target probability matrix does not match data size")
	51	}
	52	else if (!is.numeric(target) && !is.factor(target) && !is.character(target))
	53	stop("target: numeric, factor or character vector")
	54	if (!is.null(task))
	55	task = match.arg(task, c("classification", "regression"))
	56	if (is.character(gmodel))
	57	gmodel <- match.arg(gmodel, c("knn", "ppr", "rf", "tree"))
	58	else if (!is.null(gmodel) && !is.function(gmodel))
	59	# No further checks here: fingers crossed :)
	60	stop("gmodel: function(dataHO, targetHO, param) --> function(X) --> y")
	61	if (is.numeric(params) \|\| is.character(params))
	62	params <- as.list(params)
	63	if (!is.list(params) && !is.null(params))
	64	stop("params: numerical, character, or list (passed to model)")
	65	if (is.function(gmodel) && !is.list(params))
	66	stop("params must be provided when using a custom model")
	67	if (is.list(params) && is.null(gmodel))
	68	stop("model (or family) must be provided when using custom params")
	69	if (!is.null(loss) && !is.function(loss))
	70	# No more checks here as well... TODO:?
	71	stop("loss: function(y1, y2) --> Real")
	72
	73	if (is.null(task)) {
	74	if (is.numeric(target))
	75	task = "regression"
	76	else
	77	task = "classification"
	78	}
	79	# Build Model object (= list of parameterized models)
	80	model <- Model$new(data, target, task, gmodel, params)
	81	# Return AgghooCV object, to run and predict
	82	AgghooCV$new(data, target, task, model, loss)
	83	}