C_02_trellis.par.get {lattice} | R Documentation |
Functions used to query, display and modify graphical parameters for fine control of Trellis displays. Modifications are made to the settings for the currently active device only.
trellis.par.set(name, value, ..., theme, warn = TRUE, strict = FALSE) trellis.par.get(name = NULL) show.settings(x = NULL)
name |
A character string giving the name of a component. If unspecified
in |
value |
a list giving the desired value of the component. Components that
are already defined as part of the current settings but are not
mentioned in |
theme |
a list decribing how to change the settings, similar to what is
returned by As in |
... |
Multiple settings can be specified in |
warn |
A logical flag, indicating whether a warning should be issued when
|
strict |
Usually a logical flag, indicating whether the An even stricter interpretation is allowed by specifying
|
x |
optional list of components that change the settings (any valid
value of |
The various graphical parameters (color, line type, background etc)
that control the look and feel of Trellis displays are highly
customizable. Also, R can produce graphics on a number of devices, and
it is expected that a different set of parameters would be more suited
to different devices. These parameters are stored internally in a
variable named lattice.theme
, which is a list whose components
define settings for particular devices. The components are idenified
by the name of the device they represent (as obtained by
.Device
), and are created as and when new devices are opened
for the first time using trellis.device
(or Lattice plots are
drawn on a device for the first time in that session).
The initial settings for each device defaults to values appropriate
for that device. In practice, this boils down to three distinct
settings, one for screen devices like x11
and windows
,
one for black and white plots (mostly useful for postscript
)
and one for color printers (color postcript
, pdf
).
Once a device is open, its settings can be modified. When another
instance of the same device is opened later using
trellis.device
, the settings for that device are reset to its
defaults, unless otherwise specified in the call to
trellis.device
. But settings for different devices are treated
separately, i.e., opening a postscript device will not alter the x11
settings, which will remain in effect whenever an x11 device is
active.
The functions trellis.par.*
are meant to be interfaces to the
global settings. They always apply on the settings for the currently
ACTIVE device.
trellis.par.get
, called without any arguments, returns the full
list of settings for the active device. With the name
argument
present, it returns that component only. trellis.par.get
sets
the value of the name
component of the current active device
settings to value
.
trellis.par.get
is usually used inside trellis functions to get
graphical parameters before plotting. Modifications by users via
trellis.par.set
is traditionally done as follows:
add.line <- trellis.par.get("add.line")
add.line$col <- "red"
trellis.par.set("add.line", add.line)
More convenient (but not S compatible) ways to do this are
trellis.par.set(list(add.line = list(col = "red")))
and
trellis.par.set(add.line = list(col = "red"))
The actual list of the components in trellis.settings
has not
been finalized, so I'm not attempting to list them here. The current
value can be obtained by print(trellis.par.get())
. Most names
should be self-explanatory.
show.settings
provides a graphical display summarizing some of
the values in the current settings.
trellis.par.get
returns a list giving parameters for that
component. If name
is missing, it returns the full list.
Most of the settings are graphical parameters that control various elements of a lattice plot. For details, see the examples below. The more unusual settings are described here.
Grid graphical parameters that are in effect globally unless overridden by specific settings.
A list of two components (each a numeric scalar),
text
and points
, for text and symbols
respectively.
A list of two components (each a character string,
either "on"
or "off"
), panel
and
strip
.
In some ways, trellis.par.get
and trellis.par.set
together are a replacement for the par
function used in
traditional R graphics. In particular, changing par
settings
has little (if any) effect on lattice output. Since lattice plots are
implemented using Grid graphics, its parameter system does have
an effect unless overridden by a suitable lattice parameter setting.
Such parameters can be specified as part of a lattice theme by
including them in the grid.pars
component (see
gpar
for a list of valid parameter names).
Deepayan Sarkar Deepayan.Sarkar@R-project.org
show.settings() tp <- trellis.par.get() unusual <- c("grid.pars", "fontsize", "clip", "axis.components", "layout.heights", "layout.widths") for (u in unusual) tp[[u]] <- NULL names.tp <- lapply(tp, names) unames <- sort(unique(unlist(names.tp))) ans <- matrix(0, nrow = length(names.tp), ncol = length(unames)) rownames(ans) <- names(names.tp) colnames(ans) <- unames for (i in seq(along = names.tp)) ans[i, ] <- as.numeric(unames %in% names.tp[[i]]) ans <- ans[, order(-colSums(ans))] ans <- ans[order(rowSums(ans)), ] ans[ans == 0] <- NA levelplot(t(ans), colorkey = FALSE, scales = list(x = list(rot = 90)), panel = function(x, y, z, ...) { panel.abline(v = unique(as.numeric(x)), h = unique(as.numeric(y)), col = "darkgrey") panel.xyplot(x, y, pch = 16 * z, ...) }, xlab = "Graphical parameters", ylab = "Setting names")