% Generated by roxygen2 (4.1.0): do not edit by hand
% Please edit documentation in R/xgb.cv.R
\name{xgb.cv}
\alias{xgb.cv}
\title{Cross Validation}
\usage{
xgb.cv(params = list(), data, nrounds, nfold, label = NULL,
  missing = NULL, prediction = FALSE, showsd = TRUE, metrics = list(),
  obj = NULL, feval = NULL, verbose = T, ...)
}
\arguments{
\item{params}{the list of parameters. Commonly used ones are:
\itemize{
  \item \code{objective} objective function, common ones are
  \itemize{
    \item \code{reg:linear} linear regression
    \item \code{binary:logistic} logistic regression for classification
  }
  \item \code{eta} step size of each boosting step
  \item \code{max.depth} maximum depth of the tree
  \item \code{nthread} number of thread used in training, if not set, all threads are used
}

  See \link{xgb.train} for further details.
  See also demo/ for walkthrough example in R.}

\item{data}{takes an \code{xgb.DMatrix} or \code{Matrix} as the input.}

\item{nrounds}{the max number of iterations}

\item{nfold}{the original dataset is randomly partitioned into \code{nfold} equal size subsamples.}

\item{label}{option field, when data is \code{Matrix}}

\item{missing}{Missing is only used when input is dense matrix, pick a float
value that represents missing value. Sometime a data use 0 or other extreme value to represents missing values.}

\item{prediction}{A logical value indicating whether to return the prediction vector.}

\item{showsd}{\code{boolean}, whether show standard deviation of cross validation}

\item{metrics,}{list of evaluation metrics to be used in corss validation,
  when it is not specified, the evaluation metric is chosen according to objective function.
  Possible options are:
\itemize{
  \item \code{error} binary classification error rate
  \item \code{rmse} Rooted mean square error
  \item \code{logloss} negative log-likelihood function
  \item \code{auc} Area under curve
  \item \code{merror} Exact matching error, used to evaluate multi-class classification
}}

\item{obj}{customized objective function. Returns gradient and second order
gradient with given prediction and dtrain,}

\item{feval}{custimized evaluation function. Returns
\code{list(metric='metric-name', value='metric-value')} with given
prediction and dtrain,}

\item{verbose}{\code{boolean}, print the statistics during the process.}

\item{...}{other parameters to pass to \code{params}.}
}
\value{
A \code{data.table} with each mean and standard deviation stat for training set and test set.
}
\description{
The cross valudation function of xgboost
}
\details{
The original sample is randomly partitioned into \code{nfold} equal size subsamples.

Of the \code{nfold} subsamples, a single subsample is retained as the validation data for testing the model, and the remaining \code{nfold - 1} subsamples are used as training data.

The cross-validation process is then repeated \code{nrounds} times, with each of the \code{nfold} subsamples used exactly once as the validation data.

All observations are used for both training and validation.

Adapted from \url{http://en.wikipedia.org/wiki/Cross-validation_\%28statistics\%29#k-fold_cross-validation}
}
\examples{
data(agaricus.train, package='xgboost')
dtrain <- xgb.DMatrix(agaricus.train$data, label = agaricus.train$label)
history <- xgb.cv(data = dtrain, nround=3, nthread = 2, nfold = 5, metrics=list("rmse","auc"),
                  max.depth =3, eta = 1, objective = "binary:logistic")
print(history)
}