\name{runifpoint3}
\alias{runifpoint3}
\title{
Generate N Uniform Random Points in Three Dimensions
}
\description{
Generate a random point pattern containing \code{n}
independent, uniform random points in three dimensions.
}
\usage{
runifpoint3(n, domain = box3(), nsim=1, drop=TRUE)
}
\arguments{
\item{n}{
Number of points to be generated.
}
\item{domain}{
Three-dimensional box in which the process should be generated.
An object of class \code{"box3"}.
}
\item{nsim}{Number of simulated realisations to be generated.}
\item{drop}{
Logical. If \code{nsim=1} and \code{drop=TRUE} (the default), the
result will be a point pattern, rather than a list
containing a point pattern.
}
}
\value{
If \code{nsim = 1} and \code{drop=TRUE}, a point pattern in
three dimensions (an object of class \code{"pp3"}).
If \code{nsim > 1}, a list of such point patterns.
}
\details{
This function generates \code{n} independent random points,
uniformly distributed in the three-dimensional box \code{domain}.
}
\seealso{
\code{\link{rpoispp3}},
\code{\link{pp3}},
\code{\link{box3}}
}
\examples{
X <- runifpoint3(50)
}
\author{\adrian
and \rolf
}
\keyword{spatial}
\keyword{datagen}