https://github.com/cran/pracma
Tip revision: e970b8e92676e0d1f2c84b116f0bad93b03b89c6 authored by Hans W. Borchers on 15 December 2019, 21:30:02 UTC
version 2.2.9
version 2.2.9
Tip revision: e970b8e
segm_distance.Rd
\name{segm_distance}
\alias{segm_distance}
\title{
Segment Distance
}
\description{
The minimum distance between a point and a segment, or the
minimum distance between points of two segments.
}
\usage{
segm_distance(p1, p2, p3, p4 = c())
}
\arguments{
\item{p1, p2}{end points of the first segment.}
\item{p3, p4}{end points of the second segment, or the point \code{p3}
alone if \code{p4} is \code{NULL}.}
}
\details{
If \code{p4=c()}, determines the orthogonal line to the segment through
the single point and computes the distance to the intersection point.
Otherwise, it computes the distances of all four end points to the
other segment and takes the minimum of those.
}
\value{
Returns a list with component \code{l} the minimum distance and components
\code{p, q} the two nearest points.
If \code{p4=c()} then point \code{p} lies on the segment and \code{q} is
\code{p4}.
}
\note{
The interfaces of \code{segm_intersect} and \code{segm_distance} should be
brought into line.
}
\seealso{
\code{\link{segm_intersect}}
}
\examples{
\dontrun{
plot(c(0, 1), c(0, 1), type = "n", asp=1,
xlab = "", ylab = "", main = "Segment Distances")
grid()
for (i in 1:20) {
s1 <- matrix(runif(4), 2, 2)
s2 <- matrix(runif(4), 2, 2)
lines(s1[, 1], s1[, 2], col = "red")
lines(s2[, 1], s2[, 2], col = "darkred")
S <- segm_distance(s1[1,], s1[2,], s2[1,], s2[2,])
S$d
points(c(S$p[1], S$q[1]), c(S$p[2], S$q[2]), pch=20, col="navy")
lines(c(S$p[1], S$q[1]), c(S$p[2], S$q[2]), col="gray")
}}
}
\keyword{ geom }