xyplot.zoo

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Plot zoo Series with Lattice

xyplot methods for time series objects (of class "zoo", "its", or "tis").

Keywords
hplot, ts
Usage
## S3 method for class 'zoo':
xyplot(x, data, ...)

## S3 method for class 'zoo':
llines(x, y = NULL, ...)
## S3 method for class 'zoo':
lpoints(x, y = NULL, ...)
## S3 method for class 'zoo':
ltext(x, y = NULL, ...)

panel.segments.zoo(x0, x1, ...)
panel.rect.zoo(x0, x1, ...)
panel.polygon.zoo(x, ...)
Arguments
x, x0, x1
time series object of class "zoo", "its" or "tis". For panel.plot.default it should be a numeric vector.
y
numeric vector or matrix.
data
not used.
...
arguments are passed to xyplot.ts, and may be passed through to xyplot and panel.x
Details

xyplot.zoo plots a "zoo", "its" or "tis" object using xyplot.ts from lattice. Series of other classes are coerced to "zoo" first. The handling of several graphical parameters is more flexible for multivariate series. These parameters can be vectors of the same length as the number of series plotted or are recycled if shorter. They can also be (partially) named list, e.g., list(A = c(1,2), c(3,4)) in which c(3, 4) is the default value and c(1, 2) the value only for series A. The screens argument can be specified in a similar way. Note that since zoo 1.6-3 plot.panel.default and plot.panel.custom are no longer necessary, as normal panel functions (panel.xyplot by default) will work. Similarly, there are now methods for the generic lattice drawing functions llines, lpoints, and ltext. These can also be called as panel.lines, panel.points, and panel.text, respectively. The old interfaces (panel.lines.zoo, panel.points.zoo, and panel.text.zoo), will be removed in future versions. panel.polygon.zoo may also be removed.

Value

  • Invisibly returns a "trellis" class object. Printing this object using print will display it.

See Also

xyplot.ts, zoo, plot.ts, barplot, plot.zoo

Aliases
  • xyplot.zoo
  • xyplot.its
  • xyplot.tis
  • llines.zoo
  • llines.its
  • llines.tis
  • lpoints.zoo
  • lpoints.its
  • lpoints.tis
  • ltext.zoo
  • ltext.its
  • ltext.tis
  • panel.lines.zoo
  • panel.lines.ts
  • panel.lines.its
  • panel.lines.tis
  • panel.points.zoo
  • panel.points.ts
  • panel.points.its
  • panel.points.tis
  • panel.text.zoo
  • panel.text.ts
  • panel.text.its
  • panel.text.tis
  • panel.plot.default
  • panel.plot.custom
  • panel.segments.zoo
  • panel.segments.ts
  • panel.segments.its
  • panel.segments.tis
  • panel.rect.zoo
  • panel.rect.ts
  • panel.rect.its
  • panel.rect.tis
  • panel.polygon.zoo
  • panel.polygon.ts
  • panel.polygon.its
  • panel.polygon.tis
Examples
if(require("lattice") & require("grid")) {

set.seed(1)
z <- zoo(cbind(a = 1:5, b = 11:15, c = 21:25) + rnorm(5))

# plot z using same Y axis on all plots
xyplot(z, scales = list(y = list(relation = "same", alternating = FALSE)))
 
# plot a double-line-width running mean on the panel of b.
# Also add a grid.
# We show two ways to do it. 

# change strip background to levels of grey
# If you like the defaults, this can be omitted.
strip.background <- trellis.par.get("strip.background")
trellis.par.set(strip.background = list(col = grey(7:1/8)))


# Number 1.  Using trellis.focus.
print( xyplot(z) )
trellis.focus("panel", 1, 2, highlight = FALSE)
# (or just trellis.focus() for interactive use)
z.mean <- rollmean(z, 3)
panel.lines(z.mean[,2], lwd = 2)
panel.grid(h = 10, v = 10, col = "grey", lty = 3)
trellis.unfocus()

# Number 2. Using a custom panel routine.
xyplot(z, panel = function(x, y, ...) {
    if (packet.number() == 2) {
        panel.grid(h = 10, v = 10, col = "grey", lty = 3)
        panel.lines(rollmean(zoo(y, x), 3), lwd = 2)
    }
    panel.xyplot(x, y, ...)
})

# plot a light grey rectangle "behind" panel b
trellis.focus("panel", 1, 2)
grid.rect(x = 2, w = 1, default.units = "native", 
  gp = gpar(fill = "light grey"))
# do.call("panel.xyplot", trellis.panelArgs())
do.call("panel.lines", trellis.panelArgs()[1:2])
trellis.unfocus()
# a better method is to use a custom panel function.
# see also panel.xblocks() and layer() in the latticeExtra package.

# same but make first panel twice as large as others
lopt <- list(layout.heights = list(panel = list(x = c(2,1,1))))
xyplot(z, lattice.options = lopt)
# add a grid
update(trellis.last.object(), type = c("l", "g"))

# Plot all in one panel.
xyplot(z, screens = 1)
# Same with default styles and auto.key:
xyplot(z, superpose = TRUE)

# Plot first two columns in first panel and third column in second panel.
# Plot first series using points, second series using lines and third
#  series via overprinting both lines and points
# Use colors 1, 2 and 3 for the three series (1=black, 2=red, 3=green)
# Make 2nd (lower) panel 3x the height of the 1st (upper) panel
# Also make the strip background orange.
p <- xyplot(z, screens = c(1,1,2), type = c("p", "l", "o"), col = 1:3,
  par.settings = list(strip.background = list(col = "orange")))
print(p, panel.height = list(y = c(1, 3), units = "null"))

# Example of using a custom axis
# Months are labelled with smaller ticks for weeks and even smaller
# ticks for days.
Days <- seq(from = as.Date("2006-1-1"), to = as.Date("2006-8-8"), by = "day")
z1 <- zoo(seq(length(Days))^2, Days)
Months <- Days[format(Days, "%d") == "01"]
Weeks <- Days[format(Days, "%w") == "0"]
print( xyplot(z1, scales = list(x = list(at = Months))) )
trellis.focus("panel", 1, 1, clip.off = TRUE)
panel.axis("bottom", check.overlap = TRUE, outside = TRUE, labels = FALSE, 
  tck = .7, at = as.numeric(Weeks))
panel.axis("bottom", check.overlap = TRUE, outside = TRUE, labels = FALSE, 
  tck = .4, at = as.numeric(Days))
trellis.unfocus()

trellis.par.set(strip.background = strip.background)

# separate the panels and suppress the ticks on very top
xyplot(z, between = list(y = 1), scales = list(tck = c(1,0)))

# left strips but no top strips
xyplot(z, screens = colnames(z), strip = FALSE, strip.left = TRUE)

# plot list of zoo objects using different x scales
z.l <- list(
	zoo(cbind(a = rnorm(10), b = rnorm(10)), as.Date("2006-01-01") + 0:9),
	zoo(cbind(c = rnorm(10), d = rnorm(10)), as.Date("2006-12-01") + 0:9)
)
zm <- do.call(merge, z.l)
xlim <- lapply(zm, function(x) range(time(na.omit(x))))
xyplot(zm, xlim = xlim, scale = list(relation = "free"))
# to avoid merging see xyplot.list() in the latticeExtra package.

}

## playwith (>= 0.9)
library("playwith")

z3 <- zoo(cbind(a = rnorm(100), b = rnorm(100) + 1), as.Date(1:100))
playwith(xyplot(z3), time.mode = TRUE)
# hold down Shift key and drag to zoom in to a time period.
# then use the horizontal scroll bar.

# set custom labels; right click on points to view or add labels
labs <- paste(round(z3,1), index(z3), sep = "@")
trellis.par.set(user.text = list(cex = 0.7))
playwith(xyplot(z3, type = "o"), labels = labs)

# this returns indexes into times of clicked points 
ids <- playGetIDs()
z3[ids,]

## another example of using playwith with zoo
# set up data
dat <- zoo(matrix(rnorm(100*100),ncol=100), Sys.Date()+1:100)
colnames(dat) <- paste("Series", 1:100)

# This will give you a spin button to choose the column to plot,
# and a button to print out the current series number.
playwith(xyplot(dat[,c(1,i)]),  parameters = list(i = 1:100,
   do_something = function(playState) print(playState$env$i))
Documentation reproduced from package zoo, version 1.7-0, License: GPL-2

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