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

 % File src/library/grid/man/grid.path.Rd
 % Part of the R package, https://www.R-project.org
 % Copyright 1995-2011 R Core Team
 % Distributed under GPL 2 or later

 \name{grid.path}
 \alias{grid.path}
 \alias{pathGrob}
 \title{ Draw a Path }
 \description{
   These functions create and draw one or more paths.
   The final point of a path will automatically
   be connected to the initial point.
 }
 \usage{
 pathGrob(x, y,
          id=NULL, id.lengths=NULL,
          pathId=NULL, pathId.lengths=NULL,
          rule="winding",
          default.units="npc",
          name=NULL, gp=gpar(), vp=NULL)
 grid.path(\dots)
 }
 \arguments{
   \item{x}{A numeric vector or unit object specifying x-locations.}
   \item{y}{A numeric vector or unit object specifying y-locations.}
   \item{id}{A numeric vector used to separate locations in \code{x} and
     \code{y} into sub-paths.  All locations with the same
     \code{id} belong to the same sub-path.}
   \item{id.lengths}{A numeric vector used to separate locations in \code{x} and
     \code{y} into sub-paths.  Specifies consecutive blocks of
     locations which make up separate sub-paths.}
   \item{pathId}{A numeric vector used to separate locations in \code{x} and
     \code{y} into distinct paths.  All locations with the same
     \code{pathId} belong to the same path.}
   \item{pathId.lengths}{A numeric vector used to separate locations in \code{x}
     and \code{y} into paths.  Specifies consecutive blocks of locations which
     make up separate paths.}
   \item{rule}{A character value specifying the fill rule: either
     \code{"winding"} or \code{"evenodd"}.}
   \item{default.units}{A string indicating the default units to use
     if \code{x} or \code{y}
     are only given as numeric vectors.}
   \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 passed to \code{pathGrob()}.}
 }
 \value{
   A grob object.
 }
 \details{
   Both functions create a path grob (a graphical object describing a
   path), but only \code{grid.path} draws the path (and then only if
   \code{draw} is \code{TRUE}).

   A path is like a polygon except that the former can contain holes, as
   interpreted by the fill rule; these fill a region if the path border
   encircles it an odd or non-zero number of times, respectively.

   Not all graphics devices support this function: for example
   \code{xfig} and \code{pictex} do not.
 }
 \author{Paul Murrell}
 \seealso{
   \link{Grid},
   \code{\link{viewport}}
 }
 \examples{
 pathSample <- function(x, y, rule, gp = gpar()) {
     if (is.na(rule))
         grid.path(x, y, id = rep(1:2, each = 4), gp = gp)
     else
         grid.path(x, y, id = rep(1:2, each = 4), rule = rule, gp = gp)
     if (!is.na(rule))
         grid.text(paste("Rule:", rule), y = 0, just = "bottom")
 }

 pathTriplet <- function(x, y, title) {
     pushViewport(viewport(height = 0.9, layout = grid.layout(1, 3),
                           gp = gpar(cex = .7)))
     grid.rect(y = 1, height = unit(1, "char"), just = "top",
               gp = gpar(col = NA, fill = "grey"))
     grid.text(title, y = 1, just = "top")
     pushViewport(viewport(layout.pos.col = 1))
     pathSample(x, y, rule = "winding",
                gp = gpar(fill = "grey"))
     popViewport()
     pushViewport(viewport(layout.pos.col = 2))
     pathSample(x, y, rule = "evenodd",
                gp = gpar(fill = "grey"))
     popViewport()
     pushViewport(viewport(layout.pos.col = 3))
     pathSample(x, y, rule = NA)
     popViewport()
     popViewport()
 }

 pathTest <- function() {
     grid.newpage()
     pushViewport(viewport(layout = grid.layout(5, 1)))
     pushViewport(viewport(layout.pos.row = 1))
     pathTriplet(c(.1, .1, .9, .9, .2, .2, .8, .8),
                 c(.1, .9, .9, .1, .2, .8, .8, .2),
                 "Nested rectangles, both clockwise")
     popViewport()
     pushViewport(viewport(layout.pos.row = 2))
     pathTriplet(c(.1, .1, .9, .9, .2, .8, .8, .2),
                 c(.1, .9, .9, .1, .2, .2, .8, .8),
                 "Nested rectangles, outer clockwise, inner anti-clockwise")
     popViewport()
     pushViewport(viewport(layout.pos.row = 3))
     pathTriplet(c(.1, .1, .4, .4, .6, .9, .9, .6),
                 c(.1, .4, .4, .1, .6, .6, .9, .9),
                 "Disjoint rectangles")
     popViewport()
     pushViewport(viewport(layout.pos.row = 4))
     pathTriplet(c(.1, .1, .6, .6, .4, .4, .9, .9),
                 c(.1, .6, .6, .1, .4, .9, .9, .4),
                 "Overlapping rectangles, both clockwise")
     popViewport()
     pushViewport(viewport(layout.pos.row = 5))
     pathTriplet(c(.1, .1, .6, .6, .4, .9, .9, .4),
                 c(.1, .6, .6, .1, .4, .4, .9, .9),
                 "Overlapping rectangles, one clockwise, other anti-clockwise")
     popViewport()
     popViewport()
 }

 pathTest()

 # Drawing multiple paths at once
 holed_rect <- cbind(c(.15, .15, -.15, -.15, .1, .1, -.1, -.1),
                     c(.15, -.15, -.15, .15, .1, -.1, -.1, .1))
 holed_rects <- rbind(
     holed_rect + matrix(c(.7, .2), nrow = 8, ncol = 2, byrow = TRUE),
     holed_rect + matrix(c(.7, .8), nrow = 8, ncol = 2, byrow = TRUE),
     holed_rect + matrix(c(.2, .5), nrow = 8, ncol = 2, byrow = TRUE)
 )
 grid.newpage()
 grid.path(x = holed_rects[, 1], y = holed_rects[, 2],
           id = rep(1:6, each = 4), pathId = rep(1:3, each = 8),
           gp = gpar(fill = c('red', 'blue', 'green')),
           rule = 'evenodd')

 # Not specifying pathId will treat all points as part of the same path, thus
 # having same fill
 grid.newpage()
 grid.path(x = holed_rects[, 1], y = holed_rects[, 2],
           id = rep(1:6, each = 4),
           gp = gpar(fill = c('red', 'blue', 'green')),
           rule = 'evenodd')
 }
 \keyword{dplot}
	% File src/library/grid/man/grid.path.Rd
	% Part of the R package, https://www.R-project.org
	% Copyright 1995-2011 R Core Team
	% Distributed under GPL 2 or later

	\name{grid.path}
	\alias{grid.path}
	\alias{pathGrob}
	\title{ Draw a Path }
	\description{
	These functions create and draw one or more paths.
	The final point of a path will automatically
	be connected to the initial point.
	}
	\usage{
	pathGrob(x, y,
	id=NULL, id.lengths=NULL,
	pathId=NULL, pathId.lengths=NULL,
	rule="winding",
	default.units="npc",
	name=NULL, gp=gpar(), vp=NULL)
	grid.path(\dots)
	}
	\arguments{
	\item{x}{A numeric vector or unit object specifying x-locations.}
	\item{y}{A numeric vector or unit object specifying y-locations.}
	\item{id}{A numeric vector used to separate locations in \code{x} and
	\code{y} into sub-paths. All locations with the same
	\code{id} belong to the same sub-path.}
	\item{id.lengths}{A numeric vector used to separate locations in \code{x} and
	\code{y} into sub-paths. Specifies consecutive blocks of
	locations which make up separate sub-paths.}
	\item{pathId}{A numeric vector used to separate locations in \code{x} and
	\code{y} into distinct paths. All locations with the same
	\code{pathId} belong to the same path.}
	\item{pathId.lengths}{A numeric vector used to separate locations in \code{x}
	and \code{y} into paths. Specifies consecutive blocks of locations which
	make up separate paths.}
	\item{rule}{A character value specifying the fill rule: either
	\code{"winding"} or \code{"evenodd"}.}
	\item{default.units}{A string indicating the default units to use
	if \code{x} or \code{y}
	are only given as numeric vectors.}
	\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 passed to \code{pathGrob()}.}
	}
	\value{
	A grob object.
	}
	\details{
	Both functions create a path grob (a graphical object describing a
	path), but only \code{grid.path} draws the path (and then only if
	\code{draw} is \code{TRUE}).

	A path is like a polygon except that the former can contain holes, as
	interpreted by the fill rule; these fill a region if the path border
	encircles it an odd or non-zero number of times, respectively.

	Not all graphics devices support this function: for example
	\code{xfig} and \code{pictex} do not.
	}
	\author{Paul Murrell}
	\seealso{
	\link{Grid},
	\code{\link{viewport}}
	}
	\examples{
	pathSample <- function(x, y, rule, gp = gpar()) {
	if (is.na(rule))
	grid.path(x, y, id = rep(1:2, each = 4), gp = gp)
	else
	grid.path(x, y, id = rep(1:2, each = 4), rule = rule, gp = gp)
	if (!is.na(rule))
	grid.text(paste("Rule:", rule), y = 0, just = "bottom")
	}

	pathTriplet <- function(x, y, title) {
	pushViewport(viewport(height = 0.9, layout = grid.layout(1, 3),
	gp = gpar(cex = .7)))
	grid.rect(y = 1, height = unit(1, "char"), just = "top",
	gp = gpar(col = NA, fill = "grey"))
	grid.text(title, y = 1, just = "top")
	pushViewport(viewport(layout.pos.col = 1))
	pathSample(x, y, rule = "winding",
	gp = gpar(fill = "grey"))
	popViewport()
	pushViewport(viewport(layout.pos.col = 2))
	pathSample(x, y, rule = "evenodd",
	gp = gpar(fill = "grey"))
	popViewport()
	pushViewport(viewport(layout.pos.col = 3))
	pathSample(x, y, rule = NA)
	popViewport()
	popViewport()
	}

	pathTest <- function() {
	grid.newpage()
	pushViewport(viewport(layout = grid.layout(5, 1)))
	pushViewport(viewport(layout.pos.row = 1))
	pathTriplet(c(.1, .1, .9, .9, .2, .2, .8, .8),
	c(.1, .9, .9, .1, .2, .8, .8, .2),
	"Nested rectangles, both clockwise")
	popViewport()
	pushViewport(viewport(layout.pos.row = 2))
	pathTriplet(c(.1, .1, .9, .9, .2, .8, .8, .2),
	c(.1, .9, .9, .1, .2, .2, .8, .8),
	"Nested rectangles, outer clockwise, inner anti-clockwise")
	popViewport()
	pushViewport(viewport(layout.pos.row = 3))
	pathTriplet(c(.1, .1, .4, .4, .6, .9, .9, .6),
	c(.1, .4, .4, .1, .6, .6, .9, .9),
	"Disjoint rectangles")
	popViewport()
	pushViewport(viewport(layout.pos.row = 4))
	pathTriplet(c(.1, .1, .6, .6, .4, .4, .9, .9),
	c(.1, .6, .6, .1, .4, .9, .9, .4),
	"Overlapping rectangles, both clockwise")
	popViewport()
	pushViewport(viewport(layout.pos.row = 5))
	pathTriplet(c(.1, .1, .6, .6, .4, .9, .9, .4),
	c(.1, .6, .6, .1, .4, .4, .9, .9),
	"Overlapping rectangles, one clockwise, other anti-clockwise")
	popViewport()
	popViewport()
	}

	pathTest()

	# Drawing multiple paths at once
	holed_rect <- cbind(c(.15, .15, -.15, -.15, .1, .1, -.1, -.1),
	c(.15, -.15, -.15, .15, .1, -.1, -.1, .1))
	holed_rects <- rbind(
	holed_rect + matrix(c(.7, .2), nrow = 8, ncol = 2, byrow = TRUE),
	holed_rect + matrix(c(.7, .8), nrow = 8, ncol = 2, byrow = TRUE),
	holed_rect + matrix(c(.2, .5), nrow = 8, ncol = 2, byrow = TRUE)
	)
	grid.newpage()
	grid.path(x = holed_rects[, 1], y = holed_rects[, 2],
	id = rep(1:6, each = 4), pathId = rep(1:3, each = 8),
	gp = gpar(fill = c('red', 'blue', 'green')),
	rule = 'evenodd')

	# Not specifying pathId will treat all points as part of the same path, thus
	# having same fill
	grid.newpage()
	grid.path(x = holed_rects[, 1], y = holed_rects[, 2],
	id = rep(1:6, each = 4),
	gp = gpar(fill = c('red', 'blue', 'green')),
	rule = 'evenodd')
	}
	\keyword{dplot}