#' @export
makeRLearner.regr.ranger = function() {
makeRLearnerRegr(
cl = "regr.ranger",
package = "ranger",
par.set = makeParamSet(
makeIntegerLearnerParam(id = "num.trees", lower = 1L, default = 500L),
makeIntegerLearnerParam(id = "mtry", lower = 1L),
makeIntegerLearnerParam(id = "min.node.size", lower = 1L, default = 5L),
makeLogicalLearnerParam(id = "replace", default = TRUE),
makeNumericLearnerParam(id = "sample.fraction", lower = 0L, upper = 1L),
makeNumericVectorLearnerParam(id = "split.select.weights", lower = 0, upper = 1),
makeUntypedLearnerParam(id = "always.split.variables"),
makeDiscreteLearnerParam("respect.unordered.factors", values = c("ignore", "order", "partition"), default = "ignore"),
makeDiscreteLearnerParam(id = "importance", values = c("none", "impurity", "permutation"), default = "none", tunable = FALSE),
makeLogicalLearnerParam(id = "write.forest", default = TRUE, tunable = FALSE),
makeLogicalLearnerParam(id = "scale.permutation.importance", default = FALSE, requires = quote(importance == "permutation"), tunable = FALSE),
makeIntegerLearnerParam(id = "num.threads", lower = 1L, when = "both", tunable = FALSE),
makeLogicalLearnerParam(id = "save.memory", default = FALSE, tunable = FALSE),
makeLogicalLearnerParam(id = "verbose", default = TRUE, when = "both", tunable = FALSE),
makeIntegerLearnerParam(id = "seed", when = "both", tunable = FALSE),
makeDiscreteLearnerParam(id = "splitrule", values = c("variance", "extratrees", "maxstat"), default = "variance"),
makeIntegerLearnerParam(id = "num.random.splits", lower = 1L, default = 1L, requires = quote(splitrule == "extratrees")),
makeNumericLearnerParam(id = "alpha", lower = 0L, upper = 1L, default = 0.5, requires = quote(splitrule == "maxstat")),
makeNumericLearnerParam(id = "minprop", lower = 0, upper = 0.5, default = 0.1, requires = quote(splitrule == "maxstat")),
makeLogicalLearnerParam(id = "keep.inbag", default = FALSE, tunable = FALSE),
makeDiscreteLearnerParam(id = "se.method", default = "infjack", values = c("jack", "infjack"), requires = quote(keep.inbag == TRUE), when = "predict")
),
par.vals = list(num.threads = 1L, verbose = FALSE, respect.unordered.factors = "order"),
properties = c("numerics", "factors", "ordered", "oobpreds", "featimp", "se", "weights"),
name = "Random Forests",
short.name = "ranger",
note = "By default, internal parallelization is switched off (`num.threads = 1`), `verbose` output is disabled, `respect.unordered.factors` is set to `order` for all splitrules. All settings are changeable. `mtry.perc` sets `mtry` to `mtry.perc*getTaskNFeats(.task)`. Default for `mtry` is the floor of square root of number of features in task. SE estimation is mc bias-corrected jackknife after bootstrap, see the section about 'regr.randomForest' in `?makeLearner` for more details.",
callees = "ranger"
)
}
#' @export
trainLearner.regr.ranger = function(.learner, .task, .subset, .weights = NULL, keep.inbag = NULL, ...) {
tn = getTaskTargetNames(.task)
if (is.null(keep.inbag)) keep.inbag = (.learner$predict.type == "se") # needed for jacknife and infjack!
ranger::ranger(formula = NULL, dependent.variable.name = tn, data = getTaskData(.task, .subset),
case.weights = .weights, keep.inbag = keep.inbag, ...)
}
#' @export
predictLearner.regr.ranger = function(.learner, .model, .newdata, se.method = "sd", ...) {
pred = predict(object = .model$learner.model, data = .newdata, type = ifelse(.learner$predict.type == "se", "se", "response"), ...)
p = pred$predictions
if (is.matrix(p)) { # if someone set predict.all = TRUE for ranger
p = rowMeans(pred$predictions)
}
if (.learner$predict.type == "se") {
return(cbind(p, pred$se))
} else {
return(p)
}
}
#' @export
getOOBPredsLearner.regr.ranger = function(.learner, .model) {
getLearnerModel(.model, more.unwrap = TRUE)$predictions
}
#' @export
getFeatureImportanceLearner.regr.ranger = function(.learner, .model, ...) {
getFeatureImportanceLearner.classif.ranger(.learner, .model, ...)
}
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