src/library/graphics/man/stars.Rd - R - Git at Google

 % File src/library/graphics/man/stars.Rd
 % Part of the R package, https://www.R-project.org
 % Copyright 1995-2015 R Core Team
 % Distributed under GPL 2 or later

 \name{stars}
 \alias{stars}
 \title{Star (Spider/Radar) Plots and Segment Diagrams}
 \description{
   Draw star plots or segment diagrams of a multivariate data set.
   With one single location, also draws \sQuote{spider}
   (or \sQuote{radar}) plots.
 }
 \usage{
 stars(x, full = TRUE, scale = TRUE, radius = TRUE,
       labels = dimnames(x)[[1]], locations = NULL,
       nrow = NULL, ncol = NULL, len = 1,
       key.loc = NULL, key.labels = dimnames(x)[[2]],
       key.xpd = TRUE,
       xlim = NULL, ylim = NULL, flip.labels = NULL,
       draw.segments = FALSE,
       col.segments = 1:n.seg, col.stars = NA, col.lines = NA,
       axes = FALSE, frame.plot = axes,
       main = NULL, sub = NULL, xlab = "", ylab = "",
       cex = 0.8, lwd = 0.25, lty = par("lty"), xpd = FALSE,
       mar = pmin(par("mar"),
                  1.1+ c(2*axes+ (xlab != ""),
                  2*axes+ (ylab != ""), 1, 0)),
       add = FALSE, plot = TRUE, \dots)
 }
 \arguments{
   \item{x}{matrix or data frame of data.
     One star or segment plot will be produced for each row of \code{x}.
     Missing values (\code{NA}) are allowed, but they are treated as if
     they were 0 (after scaling, if relevant).}
   \item{full}{logical flag: if \code{TRUE}, the segment plots will
     occupy a full circle.  Otherwise, they occupy the (upper) semicircle
     only.}
   \item{scale}{logical flag: if \code{TRUE}, the columns of the data
     matrix are scaled independently so that the maximum value in each
     column is 1 and the minimum is 0.  If \code{FALSE}, the presumption
     is that the data have been scaled by some other algorithm to the
     range \eqn{[0, 1]}.}
   \item{radius}{logical flag: in \code{TRUE}, the radii corresponding to
     each variable in the data will be drawn.}
   \item{labels}{vector of character strings for labeling the plots.
     Unlike the S function \code{stars}, no attempt is made to construct
     labels if \code{labels = NULL}.}
   \item{locations}{Either two column matrix with the x and y coordinates used
     to place each of the segment plots; or numeric of length 2 when all
     plots should be superimposed (for a \sQuote{spider plot}).
     By default, \code{locations = NULL}, the segment plots will be
     placed in a rectangular grid.}
   \item{nrow, ncol}{integers giving the number of rows and columns to use when
     \code{locations} is \code{NULL}.  By default, \code{nrow == ncol}, a square
     layout will be used.}
   \item{len}{scale factor for the length of radii or segments.}
   \item{key.loc}{vector with x and y coordinates of the unit key.}
   \item{key.labels}{vector of character strings for labeling the
     segments of the unit key.  If omitted, the second component of
     \code{dimnames(x)} is used, if available.}
   \item{key.xpd}{clipping switch for the unit key (drawing and
     labeling), see \code{\link{par}("xpd")}.}
   \item{xlim}{vector with the range of x coordinates to plot. }
   \item{ylim}{vector with the range of y coordinates to plot.}
   \item{flip.labels}{logical indicating if the label locations should
     flip up and down from diagram to diagram. Defaults to a somewhat
     smart heuristic.}
   \item{draw.segments}{logical. If \code{TRUE} draw a segment diagram.}
   \item{col.segments}{color vector (integer or character, see
     \code{\link{par}}), each specifying a color for one of the segments
     (variables).  Ignored if \code{draw.segments = FALSE}.}
   \item{col.stars}{color vector (integer or character, see
     \code{\link{par}}), each specifying a color for one of the stars
     (cases).  Ignored if \code{draw.segments = TRUE}.}
   \item{col.lines}{color vector (integer or character, see
     \code{\link{par}}), each specifying a color for one of the lines
     (cases).  Ignored if \code{draw.segments = TRUE}.}
   \item{axes}{logical flag: if \code{TRUE} axes are added to the plot.}
   \item{frame.plot}{logical flag: if \code{TRUE}, the plot region is framed.}
   \item{main}{a main title for the plot.}
   \item{sub}{a sub title for the plot.}
   \item{xlab}{a label for the x axis.}
   \item{ylab}{a label for the y axis.}
   \item{cex}{character expansion factor for the labels.}
   \item{lwd}{line width used for drawing.}
   \item{lty}{line type used for drawing.}
   \item{xpd}{logical or NA indicating if clipping should be done, see
     \code{\link{par}(xpd = .)}.}
   \item{mar}{argument to \code{\link{par}(mar = *)}, typically choosing
     smaller margins than by default.}
   \item{\dots}{further arguments, passed to the first call of
     \code{plot()}, see \code{\link{plot.default}} and to
     \code{\link{box}()} if \code{frame.plot} is true.}
   \item{add}{logical, if \code{TRUE} \emph{add} stars to current plot.}
   \item{plot}{logical, if \code{FALSE}, nothing is plotted.}
 }
 \details{
   Missing values are treated as 0.

   Each star plot or segment diagram represents one row of the input
   \code{x}.  Variables (columns) start on the right and wind
   counterclockwise around the circle.  The size of the (scaled) column
   is shown by the distance from the center to the point on the star or
   the radius of the segment representing the variable.

   Only one page of output is produced.
 }
 \value{
   Returns the locations of the plots in a two column matrix, invisibly
   when \code{plot = TRUE}.
 }
 \author{Thomas S. Dye}
 \seealso{
   \code{\link{symbols}} for another way to draw stars and other symbols.
 }
 \references{
   Becker, R. A., Chambers, J. M. and Wilks, A. R. (1988)
   \emph{The New S Language}.
   Wadsworth & Brooks/Cole.
 }
 \note{
   This code started life as spatial star plots by David A. Andrews.
 %  See \url{http://www.udallas.edu:8080/~andrews/software/software.html}.

   Prior to \R 1.4.1, scaling only shifted the maximum to 1, although
   documented as here.
 }
 \examples{
 require(grDevices)
 stars(mtcars[, 1:7], key.loc = c(14, 2),
       main = "Motor Trend Cars : stars(*, full = F)", full = FALSE)
 stars(mtcars[, 1:7], key.loc = c(14, 1.5),
       main = "Motor Trend Cars : full stars()", flip.labels = FALSE)

 ## 'Spider' or 'Radar' plot:
 stars(mtcars[, 1:7], locations = c(0, 0), radius = FALSE,
       key.loc = c(0, 0), main = "Motor Trend Cars", lty = 2)

 ## Segment Diagrams:
 palette(rainbow(12, s = 0.6, v = 0.75))
 stars(mtcars[, 1:7], len = 0.8, key.loc = c(12, 1.5),
       main = "Motor Trend Cars", draw.segments = TRUE)
 stars(mtcars[, 1:7], len = 0.6, key.loc = c(1.5, 0),
       main = "Motor Trend Cars", draw.segments = TRUE,
       frame.plot = TRUE, nrow = 4, cex = .7)

 ## scale linearly (not affinely) to [0, 1]
 USJudge <- apply(USJudgeRatings, 2, function(x) x/max(x))
 Jnam <- row.names(USJudgeRatings)
 Snam <- abbreviate(substring(Jnam, 1, regexpr("[,.]",Jnam) - 1), 7)
 stars(USJudge, labels = Jnam, scale = FALSE,
       key.loc = c(13, 1.5), main = "Judge not ...", len = 0.8)
 stars(USJudge, labels = Snam, scale = FALSE,
       key.loc = c(13, 1.5), radius = FALSE)

 loc <- stars(USJudge, labels = NULL, scale = FALSE,
              radius = FALSE, frame.plot = TRUE,
              key.loc = c(13, 1.5), main = "Judge not ...", len = 1.2)
 text(loc, Snam, col = "blue", cex = 0.8, xpd = TRUE)

 ## 'Segments':
 stars(USJudge, draw.segments = TRUE, scale = FALSE, key.loc = c(13,1.5))

 ## 'Spider':
 stars(USJudgeRatings, locations = c(0, 0), scale = FALSE, radius  =  FALSE,
       col.stars = 1:10, key.loc = c(0, 0), main = "US Judges rated")
 ## Same as above, but with colored lines instead of filled polygons.
 stars(USJudgeRatings, locations = c(0, 0), scale = FALSE, radius  =  FALSE,
       col.lines = 1:10, key.loc = c(0, 0), main = "US Judges rated")
 ## 'Radar-Segments'
 stars(USJudgeRatings[1:10,], locations = 0:1, scale = FALSE,
       draw.segments = TRUE, col.segments = 0, col.stars = 1:10, key.loc =  0:1,
       main = "US Judges 1-10 ")
 palette("default")
 stars(cbind(1:16, 10*(16:1)), draw.segments = TRUE,
       main = "A Joke -- do *not* use symbols on 2D data!")
 }
 \keyword{hplot}
 \keyword{multivariate}
	% File src/library/graphics/man/stars.Rd
	% Part of the R package, https://www.R-project.org
	% Copyright 1995-2015 R Core Team
	% Distributed under GPL 2 or later

	\name{stars}
	\alias{stars}
	\title{Star (Spider/Radar) Plots and Segment Diagrams}
	\description{
	Draw star plots or segment diagrams of a multivariate data set.
	With one single location, also draws \sQuote{spider}
	(or \sQuote{radar}) plots.
	}
	\usage{
	stars(x, full = TRUE, scale = TRUE, radius = TRUE,
	labels = dimnames(x)[[1]], locations = NULL,
	nrow = NULL, ncol = NULL, len = 1,
	key.loc = NULL, key.labels = dimnames(x)[[2]],
	key.xpd = TRUE,
	xlim = NULL, ylim = NULL, flip.labels = NULL,
	draw.segments = FALSE,
	col.segments = 1:n.seg, col.stars = NA, col.lines = NA,
	axes = FALSE, frame.plot = axes,
	main = NULL, sub = NULL, xlab = "", ylab = "",
	cex = 0.8, lwd = 0.25, lty = par("lty"), xpd = FALSE,
	mar = pmin(par("mar"),
	1.1+ c(2*axes+ (xlab != ""),
	2*axes+ (ylab != ""), 1, 0)),
	add = FALSE, plot = TRUE, \dots)
	}
	\arguments{
	\item{x}{matrix or data frame of data.
	One star or segment plot will be produced for each row of \code{x}.
	Missing values (\code{NA}) are allowed, but they are treated as if
	they were 0 (after scaling, if relevant).}
	\item{full}{logical flag: if \code{TRUE}, the segment plots will
	occupy a full circle. Otherwise, they occupy the (upper) semicircle
	only.}
	\item{scale}{logical flag: if \code{TRUE}, the columns of the data
	matrix are scaled independently so that the maximum value in each
	column is 1 and the minimum is 0. If \code{FALSE}, the presumption
	is that the data have been scaled by some other algorithm to the
	range \eqn{[0, 1]}.}
	\item{radius}{logical flag: in \code{TRUE}, the radii corresponding to
	each variable in the data will be drawn.}
	\item{labels}{vector of character strings for labeling the plots.
	Unlike the S function \code{stars}, no attempt is made to construct
	labels if \code{labels = NULL}.}
	\item{locations}{Either two column matrix with the x and y coordinates used
	to place each of the segment plots; or numeric of length 2 when all
	plots should be superimposed (for a \sQuote{spider plot}).
	By default, \code{locations = NULL}, the segment plots will be
	placed in a rectangular grid.}
	\item{nrow, ncol}{integers giving the number of rows and columns to use when
	\code{locations} is \code{NULL}. By default, \code{nrow == ncol}, a square
	layout will be used.}
	\item{len}{scale factor for the length of radii or segments.}
	\item{key.loc}{vector with x and y coordinates of the unit key.}
	\item{key.labels}{vector of character strings for labeling the
	segments of the unit key. If omitted, the second component of
	\code{dimnames(x)} is used, if available.}
	\item{key.xpd}{clipping switch for the unit key (drawing and
	labeling), see \code{\link{par}("xpd")}.}
	\item{xlim}{vector with the range of x coordinates to plot. }
	\item{ylim}{vector with the range of y coordinates to plot.}
	\item{flip.labels}{logical indicating if the label locations should
	flip up and down from diagram to diagram. Defaults to a somewhat
	smart heuristic.}
	\item{draw.segments}{logical. If \code{TRUE} draw a segment diagram.}
	\item{col.segments}{color vector (integer or character, see
	\code{\link{par}}), each specifying a color for one of the segments
	(variables). Ignored if \code{draw.segments = FALSE}.}
	\item{col.stars}{color vector (integer or character, see
	\code{\link{par}}), each specifying a color for one of the stars
	(cases). Ignored if \code{draw.segments = TRUE}.}
	\item{col.lines}{color vector (integer or character, see
	\code{\link{par}}), each specifying a color for one of the lines
	(cases). Ignored if \code{draw.segments = TRUE}.}
	\item{axes}{logical flag: if \code{TRUE} axes are added to the plot.}
	\item{frame.plot}{logical flag: if \code{TRUE}, the plot region is framed.}
	\item{main}{a main title for the plot.}
	\item{sub}{a sub title for the plot.}
	\item{xlab}{a label for the x axis.}
	\item{ylab}{a label for the y axis.}
	\item{cex}{character expansion factor for the labels.}
	\item{lwd}{line width used for drawing.}
	\item{lty}{line type used for drawing.}
	\item{xpd}{logical or NA indicating if clipping should be done, see
	\code{\link{par}(xpd = .)}.}
	\item{mar}{argument to \code{\link{par}(mar = *)}, typically choosing
	smaller margins than by default.}
	\item{\dots}{further arguments, passed to the first call of
	\code{plot()}, see \code{\link{plot.default}} and to
	\code{\link{box}()} if \code{frame.plot} is true.}
	\item{add}{logical, if \code{TRUE} \emph{add} stars to current plot.}
	\item{plot}{logical, if \code{FALSE}, nothing is plotted.}
	}
	\details{
	Missing values are treated as 0.

	Each star plot or segment diagram represents one row of the input
	\code{x}. Variables (columns) start on the right and wind
	counterclockwise around the circle. The size of the (scaled) column
	is shown by the distance from the center to the point on the star or
	the radius of the segment representing the variable.

	Only one page of output is produced.
	}
	\value{
	Returns the locations of the plots in a two column matrix, invisibly
	when \code{plot = TRUE}.
	}
	\author{Thomas S. Dye}
	\seealso{
	\code{\link{symbols}} for another way to draw stars and other symbols.
	}
	\references{
	Becker, R. A., Chambers, J. M. and Wilks, A. R. (1988)
	\emph{The New S Language}.
	Wadsworth & Brooks/Cole.
	}
	\note{
	This code started life as spatial star plots by David A. Andrews.
	% See \url{http://www.udallas.edu:8080/~andrews/software/software.html}.

	Prior to \R 1.4.1, scaling only shifted the maximum to 1, although
	documented as here.
	}
	\examples{
	require(grDevices)
	stars(mtcars[, 1:7], key.loc = c(14, 2),
	main = "Motor Trend Cars : stars(*, full = F)", full = FALSE)
	stars(mtcars[, 1:7], key.loc = c(14, 1.5),
	main = "Motor Trend Cars : full stars()", flip.labels = FALSE)

	## 'Spider' or 'Radar' plot:
	stars(mtcars[, 1:7], locations = c(0, 0), radius = FALSE,
	key.loc = c(0, 0), main = "Motor Trend Cars", lty = 2)

	## Segment Diagrams:
	palette(rainbow(12, s = 0.6, v = 0.75))
	stars(mtcars[, 1:7], len = 0.8, key.loc = c(12, 1.5),
	main = "Motor Trend Cars", draw.segments = TRUE)
	stars(mtcars[, 1:7], len = 0.6, key.loc = c(1.5, 0),
	main = "Motor Trend Cars", draw.segments = TRUE,
	frame.plot = TRUE, nrow = 4, cex = .7)

	## scale linearly (not affinely) to [0, 1]
	USJudge <- apply(USJudgeRatings, 2, function(x) x/max(x))
	Jnam <- row.names(USJudgeRatings)
	Snam <- abbreviate(substring(Jnam, 1, regexpr("[,.]",Jnam) - 1), 7)
	stars(USJudge, labels = Jnam, scale = FALSE,
	key.loc = c(13, 1.5), main = "Judge not ...", len = 0.8)
	stars(USJudge, labels = Snam, scale = FALSE,
	key.loc = c(13, 1.5), radius = FALSE)

	loc <- stars(USJudge, labels = NULL, scale = FALSE,
	radius = FALSE, frame.plot = TRUE,
	key.loc = c(13, 1.5), main = "Judge not ...", len = 1.2)
	text(loc, Snam, col = "blue", cex = 0.8, xpd = TRUE)

	## 'Segments':
	stars(USJudge, draw.segments = TRUE, scale = FALSE, key.loc = c(13,1.5))

	## 'Spider':
	stars(USJudgeRatings, locations = c(0, 0), scale = FALSE, radius = FALSE,
	col.stars = 1:10, key.loc = c(0, 0), main = "US Judges rated")
	## Same as above, but with colored lines instead of filled polygons.
	stars(USJudgeRatings, locations = c(0, 0), scale = FALSE, radius = FALSE,
	col.lines = 1:10, key.loc = c(0, 0), main = "US Judges rated")
	## 'Radar-Segments'
	stars(USJudgeRatings[1:10,], locations = 0:1, scale = FALSE,
	draw.segments = TRUE, col.segments = 0, col.stars = 1:10, key.loc = 0:1,
	main = "US Judges 1-10 ")
	palette("default")
	stars(cbind(1:16, 10*(16:1)), draw.segments = TRUE,
	main = "A Joke -- do not use symbols on 2D data!")
	}
	\keyword{hplot}
	\keyword{multivariate}