largeRCRF/R/regressionComponents.R

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#' WeightedVarianceSplitFinder
#'
#' This split finder is used in regression random forests. When a split is made,
#' this finder computes the sample variance in each group (divided by n, not
#' n-1); it then minimizes the sum of these variances, each of them weighted by
#' their sample size divided by the total sample size of that node.
#'
#' @note There are other split finders that are used in regression random
#' forests that are not included in this package. This package is oriented
#' toward the competing risks side of survival analysis; the regression
#' options are provided as an example of how extensible the back-end Java
#' package is. If you are interested in using this package for regression (or
#' other uses), feel free to write your own components. It's not too hard to
#' write these components; the WeightedVarianceSplitFinder Java class is quite
#' short; most of the code is to reuse calculations from previous considered
#' splits. I (the author) am also willing to assist if you have any questions.
#' @export
#' @return A split finder object to be used in \code{\link{train}}; not useful
#' on its own.
#' @examples
#' splitFinder <- WeightedVarianceSplitFinder()
#' # You would then use it in train()
#'
#' @references https://kogalur.github.io/randomForestSRC/theory.html#section8.3
WeightedVarianceSplitFinder <- function(){
javaObject <- .jnew(.class_WeightedVarianceSplitFinder)
javaObject <- .jcast(javaObject, .class_SplitFinder)
splitFinder <- list(javaObject=javaObject, call=match.call())
class(splitFinder) <- "SplitFinder"
return(splitFinder)
}
#' MeanResponseCombiner
#'
#' This response combiner is used in regression random forests, where the
#' response in the data is a single number that needs to be averaged in each
#' terminal node, and then averaged across trees. This response combiner is
#' appropriate as an argument for both the \code{nodeResponseCombiner} and
#' \code{forestResponseCombiner} parameters in \code{\link{train}} when doing
#' regression.
#' @export
#' @examples
#' responseCombiner <- MeanResponseCombiner()
#' # You would then use it in train()
#'
MeanResponseCombiner <- function(){
javaObject <- .jnew(.class_MeanResponseCombiner)
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javaObject <- .jcast(javaObject, .class_ForestResponseCombiner)
combiner <- list(javaObject=javaObject, call=match.call(), outputClass="numeric")
combiner$convertToRFunction <- function(javaObject, ...){
return(.jcall(javaObject, "D", "doubleValue"))
}
class(combiner) <- "ResponseCombiner"
return(combiner)
}