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% Generated by roxygen2: do not edit by hand
% Please edit documentation in R/xgb.importance.R
\name{xgb.importance}
\alias{xgb.importance}
\title{Importance of features in a model.}
\usage{
xgb.importance(feature_names = NULL, model = NULL, trees = NULL,
  data = NULL, label = NULL, target = NULL)
}
\arguments{
\item{feature_names}{character vector of feature names. If the model already
contains feature names, those would be used when \code{feature_names=NULL} (default value).
Non-null \code{feature_names} could be provided to override those in the model.}

\item{model}{object of class \code{xgb.Booster}.}

\item{trees}{(only for the gbtree booster) an integer vector of tree indices that should be included
into the importance calculation. If set to \code{NULL}, all trees of the model are parsed.
It could be useful, e.g., in multiclass classification to get feature importances 
for each class separately. IMPORTANT: the tree index in xgboost models
is zero-based (e.g., use \code{trees = 0:4} for first 5 trees).}

\item{data}{deprecated.}

\item{label}{deprecated.}

\item{target}{deprecated.}
}
\value{
For a tree model, a \code{data.table} with the following columns:
\itemize{
  \item \code{Features} names of the features used in the model;
  \item \code{Gain} represents fractional contribution of each feature to the model based on
       the total gain of this feature's splits. Higher percentage means a more important 
       predictive feature.
  \item \code{Cover} metric of the number of observation related to this feature;
  \item \code{Frequency} percentage representing the relative number of times
       a feature have been used in trees.
}

A linear model's importance \code{data.table} has the following columns:
\itemize{
  \item \code{Features} names of the features used in the model;
  \item \code{Weight} the linear coefficient of this feature;
  \item \code{Class} (only for multiclass models) class label.
}

If \code{feature_names} is not provided and \code{model} doesn't have \code{feature_names}, 
index of the features will be used instead. Because the index is extracted from the model dump
(based on C++ code), it starts at 0 (as in C/C++ or Python) instead of 1 (usual in R).
}
\description{
Creates a \code{data.table} of feature importances in a model.
}
\details{
This function works for both linear and tree models.

For linear models, the importance is the absolute magnitude of linear coefficients. 
For that reason, in order to obtain a meaningful ranking by importance for a linear model, 
the features need to be on the same scale (which you also would want to do when using either 
L1 or L2 regularization).
}