plot.ppp

0th

Percentile

plot a Spatial Point Pattern

Plot a two-dimensional spatial point pattern

Keywords
hplot, spatial
Usage
## S3 method for class 'ppp':
plot(x, main, \dots, chars, cols, use.marks=TRUE, add=FALSE,
maxsize, markscale)
Arguments
x
The spatial point pattern to be plotted. An object of class "ppp", or data which can be converted into this format by as.ppp().
main
text to be displayed as a title above the plot.
...
extra arguments that will be passed to the plotting functions plot.default, points and/or symbols
chars
plotting character(s) used to plot points.
cols
the colour(s) used to plot points.
use.marks
logical flag; if TRUE, plot points using a different plotting symbol for each mark; if FALSE, only the locations of the points will be plotted, using points().
add
logical flag; if TRUE, just the points are plotted, over the existing plot. A new plot is not created, and the window is not plotted.
maxsize
maximum size of the circles/squares plotted when x is a marked point pattern with numerical marks. Incompatible with markscale.
markscale
physical scale factor determining the sizes of the circles/squares plotted when x is a marked point pattern with numerical marks. Incompatible with maxsize.
Details

This is the plot method for point pattern datasets (of class "ppp", see ppp.object).

First the observation window x$window is plotted. Then the points themselves are plotted, in a fashion that depends on their marks, as follows. [object Object],[object Object],[object Object],[object Object]

Plotting of the window x$window is performed by plot.owin. This plot may be modified through the ... arguments. In particular the extra argument col determines the colour of the window.

Plotting of the points themselves is performed by the function points, except for the case of continuous marks, where it is performed by symbols. Their plotting behaviour may be modified through the ... arguments.

The argument chars determines the plotting character or characters used to display the points (in all cases except for the case of continuous marks). For an unmarked point pattern, this should be a single integer or character determining a plotting character (see par("pch")). For a multitype point pattern, chars should be a vector of integers or characters, of the same length as levels(x$marks), and then the $i$th level or type will be plotted using character chars[i].

If chars is absent, but there is an extra argument pch, then this will determine the plotting character for all points. The argument cols determines the colour or colours used to display the points. For an unmarked point pattern, or a marked point pattern with continuous marks, this should be a character string determining a colour. For a multitype point pattern, cols should be a character vector, of the same length as levels(x$marks). The $i$th level or type will be plotted using colour cols[i].

If cols is absent, the colour used to plot all the points may be determined by the extra argument fg (for multitype point patterns) or the extra argument col (for all other cases). Note that col will also reset the colour of the window.

The arguments maxsize and markscale incompatible. They control the physical size of the circles and squares which represent the marks in a point pattern with continuous marks. If markscale is given, then a mark value of m is plotted as a circle of radius m * markscale (if m is positive) or a square of side abs(m) * markscale (if m is negative). If maxsize is given, then the largest mark in absolute value, mmax=max(abs(x$marks)), will be scaled to have physical size maxsize.

The value returned by this plot function can be used to make a suitable legend, as shown in the examples.

Value

  • NULL, or a vector giving the correspondence between mark values and plotting characters.

See Also

ppp.object, plot, par, points, plot.owin, symbols

Aliases
  • plot.ppp
Examples
data(cells)
   plot(cells)

   # make the plotting symbols larger (for publication at reduced scale)
   plot(cells, cex=2)

   # multitype 
   data(lansing)
   plot(lansing)

   # marked by a real number
   data(longleaf)
   plot(longleaf)

   # just plot the points
   plot(longleaf, use.marks=FALSE)
   plot(unmark(longleaf)) # equivalent

   # controlling COLOURS of points
   plot(cells, cols="blue")
   plot(lansing, cols=c("black", "yellow", "green", 
                        "blue","red","pink"))
   plot(longleaf, fg="blue")

   # make points and window purple
   plot(lansing, col="purple")
   # make everything purple
   plot(lansing, col="purple", col.main="purple")
 
   # controlling PLOT CHARACTERS
   plot(lansing, chars = 11:16)
   plot(lansing, chars = c("o","h","m",".","o","o"))

   # controlling MARK SCALE
   plot(longleaf, markscale=0.1)

   # draw circles of diameter equal to nearest neighbour distance
   plot(cells %mark% (nndist(cells)/2), markscale=1)

   # making the legend
   data(amacrine)
   v <- plot(amacrine)
   legend(0.2, 1.2, pch=v, legend=names(v))
Documentation reproduced from package spatstat, version 1.9-1, License: GPL version 2 or newer

Community examples

Looks like there are no examples yet.