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Does anyone know how gbm in R handles missing values? I can't seem to find any explanation using google.

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Exactly what detail are you looking for? The help page for ?gbm shows that it can handle missing values. Do you want to know something else or additional? –  Bryan Hanson Feb 5 '13 at 23:37
    
@BryanHanson: I know it can handle them, I'm just looking for an explanation of how it's done. –  screechOwl Feb 5 '13 at 23:53

4 Answers 4

Start with the source code then. Just typing gbm at the console shows you the source code:

function (formula = formula(data), distribution = "bernoulli", 
    data = list(), weights, var.monotone = NULL, n.trees = 100, 
    interaction.depth = 1, n.minobsinnode = 10, shrinkage = 0.001, 
    bag.fraction = 0.5, train.fraction = 1, cv.folds = 0, keep.data = TRUE, 
    verbose = TRUE) 
{
    mf <- match.call(expand.dots = FALSE)
    m <- match(c("formula", "data", "weights", "offset"), names(mf), 
        0)
    mf <- mf[c(1, m)]
    mf$drop.unused.levels <- TRUE
    mf$na.action <- na.pass
    mf[[1]] <- as.name("model.frame")
    mf <- eval(mf, parent.frame())
    Terms <- attr(mf, "terms")
    y <- model.response(mf, "numeric")
    w <- model.weights(mf)
    offset <- model.offset(mf)
    var.names <- attributes(Terms)$term.labels
    x <- model.frame(terms(reformulate(var.names)), data, na.action = na.pass)
    response.name <- as.character(formula[[2]])
    if (is.character(distribution)) 
        distribution <- list(name = distribution)
    cv.error <- NULL
    if (cv.folds > 1) {
        if (distribution$name == "coxph") 
            i.train <- 1:floor(train.fraction * nrow(y))
        else i.train <- 1:floor(train.fraction * length(y))
        cv.group <- sample(rep(1:cv.folds, length = length(i.train)))
        cv.error <- rep(0, n.trees)
        for (i.cv in 1:cv.folds) {
            if (verbose) 
                cat("CV:", i.cv, "\n")
            i <- order(cv.group == i.cv)
            gbm.obj <- gbm.fit(x[i.train, , drop = FALSE][i, 
                , drop = FALSE], y[i.train][i], offset = offset[i.train][i], 
                distribution = distribution, w = ifelse(w == 
                  NULL, NULL, w[i.train][i]), var.monotone = var.monotone, 
                n.trees = n.trees, interaction.depth = interaction.depth, 
                n.minobsinnode = n.minobsinnode, shrinkage = shrinkage, 
                bag.fraction = bag.fraction, train.fraction = mean(cv.group != 
                  i.cv), keep.data = FALSE, verbose = verbose, 
                var.names = var.names, response.name = response.name)
            cv.error <- cv.error + gbm.obj$valid.error * sum(cv.group == 
                i.cv)
        }
        cv.error <- cv.error/length(i.train)
    }
    gbm.obj <- gbm.fit(x, y, offset = offset, distribution = distribution, 
        w = w, var.monotone = var.monotone, n.trees = n.trees, 
        interaction.depth = interaction.depth, n.minobsinnode = n.minobsinnode, 
        shrinkage = shrinkage, bag.fraction = bag.fraction, train.fraction = train.fraction, 
        keep.data = keep.data, verbose = verbose, var.names = var.names, 
        response.name = response.name)
    gbm.obj$Terms <- Terms
    gbm.obj$cv.error <- cv.error
    gbm.obj$cv.folds <- cv.folds
    return(gbm.obj)
}
<environment: namespace:gbm>

A quick read suggests that the data is put into a model frame and that NA's are handled with na.pass so in turn, ?na.pass Reading that, it looks like it does nothing special with them, but you'd probably have to read up on the whole fitting process to see what that means in the long run. Looks like you might need to also look at the code of gbm.fit and so on.

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The official guide to gbms introduces missing values to the test data, so I would assume that they are coded to handle missing values.

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It appears to send missing values to a separate node within each tree. If you have a gbm object called "mygbm" then you'll see by typing "pretty.gbm.tree(mygbm, i.tree = 1)" that for each split in the tree there is a LeftNode a RightNode and a MissingNode. This implies that (assuming you have interaction.depth=1) each tree will have 3 terminal nodes (1 for each side of the split and one for where the predictor is missing).

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The gbm package in particular deals with NAs (missing values) as follows. The algorithm works by building and serially combining classification or regression trees. So-called base learner trees are built by divvying up observations into Left and Right splits (@user2332165 is right). There is also a separate node type of Missing in gbm. If the row or observation does not have a value for that variable, the algorithm will apply a surrogate split method.

If you want to understand surrogate splitting better, I recommend reading the package rpart vignette.

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