largeRCRF/R/loadForest.R

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#' Load Random Forest
#'
#' Loads a random forest that was saved using \code{\link{saveForest}}.
#'
#' @param directory The directory created that saved the previous forest.
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#' @param forest.output Specifies whether the forest loaded should be loaded
#' into memory, or reflect the saved files where only one tree is loaded at a
#' time.
#' @param maxTreeNum If for some reason you only want to load the number of
#' trees up until a certain point, you can specify maxTreeNum as a single
#' number.
#' @return A JForest object; see \code{\link{train}} for details.
#' @export
#' @seealso \code{\link{train}}, \code{\link{saveForest}}
#' @examples
#' # Regression Example
#' x1 <- rnorm(1000)
#' x2 <- rnorm(1000)
#' y <- 1 + x1 + x2 + rnorm(1000)
#'
#' data <- data.frame(x1, x2, y)
#' forest <- train(y ~ x1 + x2, data,
#' ntree=100, numberOfSplits = 5, mtry = 1, nodeSize = 5)
#'
#' saveForest(forest, "trees")
#' new_forest <- loadForest("trees")
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loadForest <- function(directory, forest.output = c("online", "offline"), maxTreeNum = NULL){
if(is.null(forest.output) | length(forest.output)==0 | !(forest.output[1] %in% c("online", "offline"))){
stop("forest.output must be one of c(\"online\", \"offline\")")
}
# First load the response combiners and the split finders
nodeResponseCombiner.java <- .jcall(.class_DataUtils, makeResponse(.class_Object), "loadObject", paste0(directory, "/nodeResponseCombiner.jData"))
nodeResponseCombiner.java <- .jcast(nodeResponseCombiner.java, .class_ResponseCombiner)
splitFinder.java <- .jcall(.class_DataUtils, makeResponse(.class_Object), "loadObject", paste0(directory, "/splitFinder.jData"))
splitFinder.java <- .jcast(splitFinder.java, .class_SplitFinder)
forestResponseCombiner.java <- .jcall(.class_DataUtils, makeResponse(.class_Object), "loadObject", paste0(directory, "/forestResponseCombiner.jData"))
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forestResponseCombiner.java <- .jcast(forestResponseCombiner.java, .class_ForestResponseCombiner)
covariateList <- .jcall(.class_DataUtils, makeResponse(.class_Object), "loadObject", paste0(directory, "/covariateList.jData"))
covariateList <- .jcast(covariateList, .class_List)
params <- readRDS(paste0(directory, "/parameters.rData"))
call <- readRDS(paste0(directory, "/call.rData"))
params$nodeResponseCombiner$javaObject <- nodeResponseCombiner.java
params$splitFinder$javaObject <- splitFinder.java
params$forestResponseCombiner$javaObject <- forestResponseCombiner.java
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forest <- loadForestArgumentsSpecified(directory, params$nodeResponseCombiner, params$splitFinder,
params$forestResponseCombiner, covariateList, call,
params$ntree, params$numberOfSplits, params$mtry,
params$nodeSize, params$maxNodeDepth, params$splitPureNodes,
params$randomSeed, forest.output, maxTreeNum)
return(forest)
}
# Internal function - if you really need to use it yourself (say to load forests
# saved directly through the Java interface into R), then look at the loadForest
# function to see how this function is used. I'm also open to writing a function
# that uses the Java version's settings yaml file to recreate the forest, but
# I'd appreciate knowing that someone's going to use it first (email me; see
# README).
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loadForestArgumentsSpecified <- function(treeDirectory, nodeResponseCombiner, splitFinder,
forestResponseCombiner, covariateList.java, call,
ntree, numberOfSplits, mtry, nodeSize,
maxNodeDepth = 100000, splitPureNodes=TRUE,
randomSeed=NULL, forest.output = "online", maxTreeNum = NULL){
params <- list(
splitFinder=splitFinder,
nodeResponseCombiner=nodeResponseCombiner,
forestResponseCombiner=forestResponseCombiner,
ntree=ntree,
numberOfSplits=numberOfSplits,
mtry=mtry,
nodeSize=nodeSize,
splitPureNodes=splitPureNodes,
maxNodeDepth=maxNodeDepth,
randomSeed=randomSeed
)
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forest.java <- NULL
if(forest.output[1] == "online"){
castedForestResponseCombiner <- .jcast(forestResponseCombiner$javaObject, .class_ResponseCombiner) # OnlineForest constructor takes a ResponseCombiner
if(is.null(maxTreeNum)){
forest.java <- .jcall(.class_DataUtils, makeResponse(.class_OnlineForest), "loadOnlineForest",
treeDirectory, castedForestResponseCombiner)
} else{
tree.file.array <- .jcall(.class_RUtils, paste0("[", makeResponse(.class_File)), "getTreeFileArray",
treeDirectory, as.integer(maxTreeNum), evalArray = FALSE)
forest.java <- .jcall(.class_DataUtils, makeResponse(.class_OnlineForest), "loadOnlineForest",
tree.file.array, castedForestResponseCombiner)
}
} else{ # offline forest
if(is.null(maxTreeNum)){
path.as.file <- .jnew(.class_File, treeDirectory)
forest.java <- .jnew(.class_OfflineForest, path.as.file, forestResponseCombiner$javaObject)
} else{
tree.file.array <- .jcall(.class_RUtils, paste0("[", makeResponse(.class_File)), "getTreeFileArray",
treeDirectory, as.integer(maxTreeNum), evalArray = FALSE)
forest.java <- .jnew(.class_OfflineForest, tree.file.array, forestResponseCombiner$javaObject)
}
}
forestObject <- list(call=call, javaObject=forest.java, covariateList=covariateList.java, params=params)
class(forestObject) <- "JRandomForest"
return(forestObject)
}