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

 % File src/library/graphics/man/layout.Rd
 % Part of the R package, https://www.R-project.org
 % Copyright 1995-2018 R Core Team
 % Distributed under GPL 2 or later

 \name{layout}
 \alias{layout}
 \alias{layout.show}
 \alias{lcm}
 \title{Specifying Complex Plot Arrangements}
 \author{Paul R. Murrell}
 \description{
   \code{layout} divides the device up into as many rows and columns as
   there are in matrix \code{mat}, with the column-widths and the
   row-heights specified in the respective arguments.
 }
 \usage{
 layout(mat, widths = rep.int(1, ncol(mat)),
        heights = rep.int(1, nrow(mat)), respect = FALSE)

 layout.show(n = 1)
 lcm(x)
 }
 \arguments{
   \item{mat}{a matrix object specifying the location of the next
     \eqn{N} figures on the output device.  Each value in the matrix must
     be \code{0} or a positive integer.  If \eqn{N} is the largest
     positive integer in the matrix, then the integers
     \eqn{\{1, \dots, N-1\}}{{1, \dots, N-1}} must also appear at least once in the matrix.}
   \item{widths}{a vector of values for the widths of columns on the
     device.  Relative widths are specified with numeric values.    Absolute
     widths (in centimetres) are specified with the \code{lcm()} function (see
     examples).}
   \item{heights}{a vector of values for the heights of rows on the device.
     Relative and absolute heights can be specified, see \code{widths} above.}
   \item{respect}{either a logical value or a matrix object.  If the
     latter, then it must have the same dimensions as \code{mat} and
     each value in the matrix must be either \code{0} or \code{1}.}
   \item{n}{number of figures to plot.}
   \item{x}{a dimension to be interpreted as a number of centimetres.}
 }
 \details{
     Figure \eqn{i} is allocated a region composed from a subset
     of these rows and columns, based on the rows and columns
     in which \eqn{i} occurs in \code{mat}.

     The \code{respect} argument controls whether a unit column-width is
     the same physical measurement on the device as a unit row-height.

     There is a limit (currently 200) for the numbers of rows and columns
     in the layout, and also for the total number of cells (10007).

     \code{layout.show(n)} plots (part of) the current layout, namely the
     outlines of the next \code{n} figures.

     \code{lcm} is a trivial function, to be used as \emph{the} interface
     for specifying absolute dimensions for the \code{widths} and
     \code{heights} arguments of \code{layout()}.
 }
 \value{
   \code{layout} returns the number of figures, \eqn{N}, see above.
 }
 \references{
   Murrell, P. R. (1999).
   Layouts: A mechanism for arranging plots on a page.
   \emph{Journal of Computational and Graphical Statistics},
   \bold{8}, 121--134.
   \doi{10.2307/1390924}.

   Chapter 5 of Paul Murrell's Ph.D. thesis.

   Murrell, P. (2005).
   \emph{R Graphics}.
   Chapman & Hall/CRC Press.
 }
 \seealso{
   \code{\link{par}} with arguments \code{mfrow}, \code{mfcol}, or
   \code{mfg}.
 }
 \section{Warnings}{
   These functions are totally incompatible with the other mechanisms for
   arranging plots on a device: \code{\link{par}(mfrow)},
   \code{par(mfcol)} and \code{\link{split.screen}}.
 }
 \examples{
 def.par <- par(no.readonly = TRUE) # save default, for resetting...

 ## divide the device into two rows and two columns
 ## allocate figure 1 all of row 1
 ## allocate figure 2 the intersection of column 2 and row 2
 layout(matrix(c(1,1,0,2), 2, 2, byrow = TRUE))
 ## show the regions that have been allocated to each plot
 layout.show(2)

 ## divide device into two rows and two columns
 ## allocate figure 1 and figure 2 as above
 ## respect relations between widths and heights
 nf <- layout(matrix(c(1,1,0,2), 2, 2, byrow = TRUE), respect = TRUE)
 layout.show(nf)

 ## create single figure which is 5cm square
 nf <- layout(matrix(1), widths = lcm(5), heights = lcm(5))
 layout.show(nf)


 ##-- Create a scatterplot with marginal histograms -----

 x <- pmin(3, pmax(-3, stats::rnorm(50)))
 y <- pmin(3, pmax(-3, stats::rnorm(50)))
 xhist <- hist(x, breaks = seq(-3,3,0.5), plot = FALSE)
 yhist <- hist(y, breaks = seq(-3,3,0.5), plot = FALSE)
 top <- max(c(xhist$counts, yhist$counts))
 xrange <- c(-3, 3)
 yrange <- c(-3, 3)
 nf <- layout(matrix(c(2,0,1,3),2,2,byrow = TRUE), c(3,1), c(1,3), TRUE)
 layout.show(nf)

 par(mar = c(3,3,1,1))
 plot(x, y, xlim = xrange, ylim = yrange, xlab = "", ylab = "")
 par(mar = c(0,3,1,1))
 barplot(xhist$counts, axes = FALSE, ylim = c(0, top), space = 0)
 par(mar = c(3,0,1,1))
 barplot(yhist$counts, axes = FALSE, xlim = c(0, top), space = 0, horiz = TRUE)

 par(def.par)  #- reset to default
 }
 \keyword{iplot}
 \keyword{dplot}
 \keyword{environment}
	% File src/library/graphics/man/layout.Rd
	% Part of the R package, https://www.R-project.org
	% Copyright 1995-2018 R Core Team
	% Distributed under GPL 2 or later

	\name{layout}
	\alias{layout}
	\alias{layout.show}
	\alias{lcm}
	\title{Specifying Complex Plot Arrangements}
	\author{Paul R. Murrell}
	\description{
	\code{layout} divides the device up into as many rows and columns as
	there are in matrix \code{mat}, with the column-widths and the
	row-heights specified in the respective arguments.
	}
	\usage{
	layout(mat, widths = rep.int(1, ncol(mat)),
	heights = rep.int(1, nrow(mat)), respect = FALSE)

	layout.show(n = 1)
	lcm(x)
	}
	\arguments{
	\item{mat}{a matrix object specifying the location of the next
	\eqn{N} figures on the output device. Each value in the matrix must
	be \code{0} or a positive integer. If \eqn{N} is the largest
	positive integer in the matrix, then the integers
	\eqn{\{1, \dots, N-1\}}{{1, \dots, N-1}} must also appear at least once in the matrix.}
	\item{widths}{a vector of values for the widths of columns on the
	device. Relative widths are specified with numeric values. Absolute
	widths (in centimetres) are specified with the \code{lcm()} function (see
	examples).}
	\item{heights}{a vector of values for the heights of rows on the device.
	Relative and absolute heights can be specified, see \code{widths} above.}
	\item{respect}{either a logical value or a matrix object. If the
	latter, then it must have the same dimensions as \code{mat} and
	each value in the matrix must be either \code{0} or \code{1}.}
	\item{n}{number of figures to plot.}
	\item{x}{a dimension to be interpreted as a number of centimetres.}
	}
	\details{
	Figure \eqn{i} is allocated a region composed from a subset
	of these rows and columns, based on the rows and columns
	in which \eqn{i} occurs in \code{mat}.

	The \code{respect} argument controls whether a unit column-width is
	the same physical measurement on the device as a unit row-height.

	There is a limit (currently 200) for the numbers of rows and columns
	in the layout, and also for the total number of cells (10007).

	\code{layout.show(n)} plots (part of) the current layout, namely the
	outlines of the next \code{n} figures.

	\code{lcm} is a trivial function, to be used as \emph{the} interface
	for specifying absolute dimensions for the \code{widths} and
	\code{heights} arguments of \code{layout()}.
	}
	\value{
	\code{layout} returns the number of figures, \eqn{N}, see above.
	}
	\references{
	Murrell, P. R. (1999).
	Layouts: A mechanism for arranging plots on a page.
	\emph{Journal of Computational and Graphical Statistics},
	\bold{8}, 121--134.
	\doi{10.2307/1390924}.

	Chapter 5 of Paul Murrell's Ph.D. thesis.

	Murrell, P. (2005).
	\emph{R Graphics}.
	Chapman & Hall/CRC Press.
	}
	\seealso{
	\code{\link{par}} with arguments \code{mfrow}, \code{mfcol}, or
	\code{mfg}.
	}
	\section{Warnings}{
	These functions are totally incompatible with the other mechanisms for
	arranging plots on a device: \code{\link{par}(mfrow)},
	\code{par(mfcol)} and \code{\link{split.screen}}.
	}
	\examples{
	def.par <- par(no.readonly = TRUE) # save default, for resetting...

	## divide the device into two rows and two columns
	## allocate figure 1 all of row 1
	## allocate figure 2 the intersection of column 2 and row 2
	layout(matrix(c(1,1,0,2), 2, 2, byrow = TRUE))
	## show the regions that have been allocated to each plot
	layout.show(2)

	## divide device into two rows and two columns
	## allocate figure 1 and figure 2 as above
	## respect relations between widths and heights
	nf <- layout(matrix(c(1,1,0,2), 2, 2, byrow = TRUE), respect = TRUE)
	layout.show(nf)

	## create single figure which is 5cm square
	nf <- layout(matrix(1), widths = lcm(5), heights = lcm(5))
	layout.show(nf)


	##-- Create a scatterplot with marginal histograms -----

	x <- pmin(3, pmax(-3, stats::rnorm(50)))
	y <- pmin(3, pmax(-3, stats::rnorm(50)))
	xhist <- hist(x, breaks = seq(-3,3,0.5), plot = FALSE)
	yhist <- hist(y, breaks = seq(-3,3,0.5), plot = FALSE)
	top <- max(c(xhist$counts, yhist$counts))
	xrange <- c(-3, 3)
	yrange <- c(-3, 3)
	nf <- layout(matrix(c(2,0,1,3),2,2,byrow = TRUE), c(3,1), c(1,3), TRUE)
	layout.show(nf)

	par(mar = c(3,3,1,1))
	plot(x, y, xlim = xrange, ylim = yrange, xlab = "", ylab = "")
	par(mar = c(0,3,1,1))
	barplot(xhist$counts, axes = FALSE, ylim = c(0, top), space = 0)
	par(mar = c(3,0,1,1))
	barplot(yhist$counts, axes = FALSE, xlim = c(0, top), space = 0, horiz = TRUE)

	par(def.par) #- reset to default
	}
	\keyword{iplot}
	\keyword{dplot}
	\keyword{environment}