% Generated by roxygen2: do not edit by hand
% Please edit documentation in R/methods.R, R/methods_row.R
\name{colQuantiles,dgCMatrix-method}
\alias{colQuantiles,dgCMatrix-method}
\alias{rowQuantiles,dgCMatrix-method}
\title{Calculates quantiles for each row (column) of a matrix-like object}
\usage{
\S4method{colQuantiles}{dgCMatrix}(
x,
rows = NULL,
cols = NULL,
probs = seq(from = 0, to = 1, by = 0.25),
na.rm = FALSE,
drop = TRUE
)

\S4method{rowQuantiles}{dgCMatrix}(
x,
rows = NULL,
cols = NULL,
probs = seq(from = 0, to = 1, by = 0.25),
na.rm = FALSE,
drop = TRUE
)
}
\arguments{
\item{x}{An NxK matrix-like object.}

\item{rows}{A \code{\link{vector}} indicating the subset of rows
(and/or columns) to operate over. If \code{\link{NULL}}, no subsetting is
done.}

\item{cols}{A \code{\link{vector}} indicating the subset of rows
(and/or columns) to operate over. If \code{\link{NULL}}, no subsetting is
done.}

\item{probs}{A numeric vector of J probabilities in [0, 1].}

are excluded first, otherwise not.}

\item{drop}{If \code{TRUE} a vector is returned if \code{J == 1}.
Note, that this is not a generic argument and not all implementation of
this function have to provide it.}
}
\value{
\code{\link{matrix}}, where N (K) is the number of rows (columns) for
which the J values are calculated.
}
\description{
Calculates quantiles for each row (column) of a matrix-like object.
}
\details{
The S4 methods for \code{x} of type \code{\link{matrix}},
\code{matrixStats::rowQuantiles}
/ \code{matrixStats::colQuantiles}.
}
\examples{
mat <- matrix(rnorm(15), nrow = 5, ncol = 3)
mat[2, 1] <- NA
mat[3, 3] <- Inf
mat[4, 1] <- 0

print(mat)

rowQuantiles(mat)
colQuantiles(mat)
}
\seealso{
\itemize{