src/library/grid/man/grid.curve.Rd - R - Git at Google

 % File src/library/grid/man/grid.curve.Rd
 % Part of the R package, https://www.R-project.org
 % Copyright 1995-2007 R Core Team
 % Distributed under GPL 2 or later

 \name{grid.curve}
 \alias{grid.curve}
 \alias{curveGrob}
 \alias{arcCurvature}
 \title{ Draw a Curve Between Locations }
 \concept{connector}
 \description{
   These functions create and draw a curve from one location
   to another.
 }
 \usage{
 grid.curve(...)
 curveGrob(x1, y1, x2, y2, default.units = "npc",
           curvature = 1, angle = 90, ncp = 1, shape = 0.5,
           square = TRUE, squareShape = 1,
           inflect = FALSE, arrow = NULL, open = TRUE,
           debug = FALSE,
           name = NULL, gp = gpar(), vp = NULL)
 arcCurvature(theta)
 }
 \arguments{
   \item{x1}{A numeric vector or unit object specifying the x-location of
     the start point.}
   \item{y1}{A numeric vector or unit object specifying the y-location of
     the start point.}
   \item{x2}{A numeric vector or unit object specifying the x-location of
     the end point.}
   \item{y2}{A numeric vector or unit object specifying the y-location of
     the end point.}
   \item{default.units}{A string indicating the default units to use
     if \code{x1}, \code{y1}, \code{x2} or \code{y2}
     are only given as numeric values.}
   \item{curvature}{A numeric value giving the amount of curvature.
     Negative values produce left-hand curves, positive values
     produce right-hand curves, and zero produces a straight line.}
   \item{angle}{A numeric value between 0 and 180,
     giving an amount to skew the control
     points of the curve.  Values less than 90 skew the curve towards
     the start point and values greater than 90 skew the curve
     towards the end point.}
   \item{ncp}{The number of control points used to draw the curve.
     More control points creates a smoother curve.}
   \item{shape}{A numeric vector of values between -1 and 1, which
     control the shape of the curve relative to its control points.
     See \code{grid.xspline} for more details.}
   \item{square}{A logical value that controls whether control
     points for the curve are created city-block fashion or
     obliquely.  When \code{ncp} is 1 and \code{angle} is 90,
     this is typically \code{TRUE}, otherwise this should probably
     be set to \code{FALSE} (see Examples below).}
   \item{squareShape}{A \code{shape} value to control the behaviour
     of the curve relative to any additional control point that
     is inserted if \code{square} is \code{TRUE}.}
   \item{inflect}{A logical value specifying whether the curve
     should be cut in half and inverted (see Examples below).}
   \item{arrow}{A list describing arrow heads to place at either end
     of the curve, as produced by the \code{arrow} function.}
   \item{open}{A logical value indicating whether to close the curve
     (connect the start and end points).}
   \item{debug}{A logical value indicating whether debugging
     information should be drawn.}
   \item{name}{ A character identifier. }
   \item{gp}{An object of class \code{gpar}, typically the output
     from a call to the function \code{gpar}.  This is basically
     a list of graphical parameter settings.}
   \item{vp}{A Grid viewport object (or NULL).}
   \item{\dots}{Arguments to be passed to \code{curveGrob}.}
   \item{theta}{An angle (in degrees).}
 }
 \value{
   A grob object.
 }
 \details{
   Both functions create a curve grob (a graphical object describing an
   curve), but only \code{grid.curve}
   draws the curve.

   The \code{arcCurvature} function can be used to calculate a
   \code{curvature} such that control points are generated on
   an arc corresponding to angle \code{theta}.  This is typically
   used in conjunction with a large \code{ncp} to produce a curve
   corresponding to the desired arc.
 }
 \seealso{
   \link{Grid},
   \code{\link{viewport}},
   \code{\link{grid.xspline}},
   \code{\link{arrow}}
 }
 \examples{
 curveTest <- function(i, j, ...) {
   pushViewport(viewport(layout.pos.col=j, layout.pos.row=i))
   do.call("grid.curve", c(list(x1=.25, y1=.25, x2=.75, y2=.75), list(...)))
   grid.text(sub("list\\\\((.*)\\\\)", "\\\\1",
                 deparse(substitute(list(...)))),
             y=unit(1, "npc"))
   popViewport()
 }
 # grid.newpage()
 pushViewport(plotViewport(c(0, 0, 1, 0),
                           layout=grid.layout(2, 1, heights=c(2, 1))))
 pushViewport(viewport(layout.pos.row=1,
                       layout=grid.layout(3, 3, respect=TRUE)))
 curveTest(1, 1)
 curveTest(1, 2, inflect=TRUE)
 curveTest(1, 3, angle=135)
 curveTest(2, 1, arrow=arrow())
 curveTest(2, 2, ncp=8)
 curveTest(2, 3, shape=0)
 curveTest(3, 1, curvature=-1)
 curveTest(3, 2, square=FALSE)
 curveTest(3, 3, debug=TRUE)
 popViewport()
 pushViewport(viewport(layout.pos.row=2,
                       layout=grid.layout(3, 3)))
 curveTest(1, 1)
 curveTest(1, 2, inflect=TRUE)
 curveTest(1, 3, angle=135)
 curveTest(2, 1, arrow=arrow())
 curveTest(2, 2, ncp=8)
 curveTest(2, 3, shape=0)
 curveTest(3, 1, curvature=-1)
 curveTest(3, 2, square=FALSE)
 curveTest(3, 3, debug=TRUE)
 popViewport(2)
 }
 \keyword{dplot}
	% File src/library/grid/man/grid.curve.Rd
	% Part of the R package, https://www.R-project.org
	% Copyright 1995-2007 R Core Team
	% Distributed under GPL 2 or later

	\name{grid.curve}
	\alias{grid.curve}
	\alias{curveGrob}
	\alias{arcCurvature}
	\title{ Draw a Curve Between Locations }
	\concept{connector}
	\description{
	These functions create and draw a curve from one location
	to another.
	}
	\usage{
	grid.curve(...)
	curveGrob(x1, y1, x2, y2, default.units = "npc",
	curvature = 1, angle = 90, ncp = 1, shape = 0.5,
	square = TRUE, squareShape = 1,
	inflect = FALSE, arrow = NULL, open = TRUE,
	debug = FALSE,
	name = NULL, gp = gpar(), vp = NULL)
	arcCurvature(theta)
	}
	\arguments{
	\item{x1}{A numeric vector or unit object specifying the x-location of
	the start point.}
	\item{y1}{A numeric vector or unit object specifying the y-location of
	the start point.}
	\item{x2}{A numeric vector or unit object specifying the x-location of
	the end point.}
	\item{y2}{A numeric vector or unit object specifying the y-location of
	the end point.}
	\item{default.units}{A string indicating the default units to use
	if \code{x1}, \code{y1}, \code{x2} or \code{y2}
	are only given as numeric values.}
	\item{curvature}{A numeric value giving the amount of curvature.
	Negative values produce left-hand curves, positive values
	produce right-hand curves, and zero produces a straight line.}
	\item{angle}{A numeric value between 0 and 180,
	giving an amount to skew the control
	points of the curve. Values less than 90 skew the curve towards
	the start point and values greater than 90 skew the curve
	towards the end point.}
	\item{ncp}{The number of control points used to draw the curve.
	More control points creates a smoother curve.}
	\item{shape}{A numeric vector of values between -1 and 1, which
	control the shape of the curve relative to its control points.
	See \code{grid.xspline} for more details.}
	\item{square}{A logical value that controls whether control
	points for the curve are created city-block fashion or
	obliquely. When \code{ncp} is 1 and \code{angle} is 90,
	this is typically \code{TRUE}, otherwise this should probably
	be set to \code{FALSE} (see Examples below).}
	\item{squareShape}{A \code{shape} value to control the behaviour
	of the curve relative to any additional control point that
	is inserted if \code{square} is \code{TRUE}.}
	\item{inflect}{A logical value specifying whether the curve
	should be cut in half and inverted (see Examples below).}
	\item{arrow}{A list describing arrow heads to place at either end
	of the curve, as produced by the \code{arrow} function.}
	\item{open}{A logical value indicating whether to close the curve
	(connect the start and end points).}
	\item{debug}{A logical value indicating whether debugging
	information should be drawn.}
	\item{name}{ A character identifier. }
	\item{gp}{An object of class \code{gpar}, typically the output
	from a call to the function \code{gpar}. This is basically
	a list of graphical parameter settings.}
	\item{vp}{A Grid viewport object (or NULL).}
	\item{\dots}{Arguments to be passed to \code{curveGrob}.}
	\item{theta}{An angle (in degrees).}
	}
	\value{
	A grob object.
	}
	\details{
	Both functions create a curve grob (a graphical object describing an
	curve), but only \code{grid.curve}
	draws the curve.

	The \code{arcCurvature} function can be used to calculate a
	\code{curvature} such that control points are generated on
	an arc corresponding to angle \code{theta}. This is typically
	used in conjunction with a large \code{ncp} to produce a curve
	corresponding to the desired arc.
	}
	\seealso{
	\link{Grid},
	\code{\link{viewport}},
	\code{\link{grid.xspline}},
	\code{\link{arrow}}
	}
	\examples{
	curveTest <- function(i, j, ...) {
	pushViewport(viewport(layout.pos.col=j, layout.pos.row=i))
	do.call("grid.curve", c(list(x1=.25, y1=.25, x2=.75, y2=.75), list(...)))
	grid.text(sub("list\\\\((.*)\\\\)", "\\\\1",
	deparse(substitute(list(...)))),
	y=unit(1, "npc"))
	popViewport()
	}
	# grid.newpage()
	pushViewport(plotViewport(c(0, 0, 1, 0),
	layout=grid.layout(2, 1, heights=c(2, 1))))
	pushViewport(viewport(layout.pos.row=1,
	layout=grid.layout(3, 3, respect=TRUE)))
	curveTest(1, 1)
	curveTest(1, 2, inflect=TRUE)
	curveTest(1, 3, angle=135)
	curveTest(2, 1, arrow=arrow())
	curveTest(2, 2, ncp=8)
	curveTest(2, 3, shape=0)
	curveTest(3, 1, curvature=-1)
	curveTest(3, 2, square=FALSE)
	curveTest(3, 3, debug=TRUE)
	popViewport()
	pushViewport(viewport(layout.pos.row=2,
	layout=grid.layout(3, 3)))
	curveTest(1, 1)
	curveTest(1, 2, inflect=TRUE)
	curveTest(1, 3, angle=135)
	curveTest(2, 1, arrow=arrow())
	curveTest(2, 2, ncp=8)
	curveTest(2, 3, shape=0)
	curveTest(3, 1, curvature=-1)
	curveTest(3, 2, square=FALSE)
	curveTest(3, 3, debug=TRUE)
	popViewport(2)
	}
	\keyword{dplot}