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zoo (version 1.8-9)

xblocks: Plot contiguous blocks along x axis.

Description

Plot contiguous blocks along x axis. A typical use would be to highlight events or periods of missing data.

Usage

xblocks(x, ...)

# S3 method for default xblocks(x, y, ..., col = NULL, border = NA, ybottom = par("usr")[3], ytop = ybottom + height, height = diff(par("usr")[3:4]), last.step = median(diff(tail(x))))

# S3 method for zoo xblocks(x, y = x, ...)

# S3 method for ts xblocks(x, y = x, ...)

Arguments

x, y

In the default method, x gives the ordinates along the x axis and must be in increasing order. y gives the color values to plot as contiguous blocks. If y is numeric, data coverage is plotted, by converting it into a logical (!is.na(y)). Finally, if y is a function, it is applied to x (time(x) in the time series methods).

If y has character (or factor) values, these are interpreted as colors -- and should therefore be color names or hex codes. Missing values in y are not plotted. The default color is taken from palette()[1]. If col is given, this over-rides the block colors given as y.

The ts and zoo methods plot the coredata(y) values against the time index index(x).

In the default method, further arguments are graphical parameters passed on to gpar.

col

if col is specified, it determines the colors of the blocks defined by y. If multiple colors are specified they will be repeated to cover the total number of blocks.

border

border color.

ybottom, ytop, height

y axis position of the blocks. The default it to fill the whole plot region, but by setting these values one can draw blocks along the top of bottom of the plot. Note that height is not used directly, it only sets the default value of ytop.

last.step

width (in native units) of the final block. Defaults to the median of the last 5 time steps (assuming steps are regular).

Details

Blocks are drawn forward in "time" from the specified x locations, up until the following value. Contiguous blocks are calculated using rle.

See Also

rect

Examples

Run this code
# NOT RUN {
## example time series:
suppressWarnings(RNGversion("3.5.0"))
set.seed(0)
flow <- ts(filter(rlnorm(200, mean = 1), 0.8, method = "r"))

## highlight values above and below thresholds.
## this draws on top using semi-transparent colors.
rgb <- hcl(c(0, 0, 260), c = c(100, 0, 100), l = c(50, 90, 50), alpha = 0.3)
plot(flow)
xblocks(flow > 30, col = rgb[1]) ## high values red
xblocks(flow < 15, col = rgb[3]) ## low value blue
xblocks(flow >= 15 & flow <= 30, col = rgb[2]) ## the rest gray

## same thing:
plot(flow)
xblocks(time(flow), cut(flow, c(0,15,30,Inf), labels = rev(rgb)))

## another approach is to plot blocks underneath without transparency.
plot(flow)
## note that 'ifelse' keeps its result as class 'ts'
xblocks(ifelse(flow < mean(flow), hcl(0, 0, 90), hcl(0, 80, 70)))
## need to redraw data series on top:
lines(flow)
box()

## for single series only: plot.default has a panel.first argument
plot(time(flow), flow, type = "l",
  panel.first = xblocks(flow > 20, col = "lightgray"))
## (see also the 'panel' argument for use with multiple series, below)

## insert some missing values
flow[c(1:10, 50:80, 100)] <- NA

## the default plot shows data coverage
## (most useful when displaying multiple series, see below)
plot(flow)
xblocks(flow)

## can also show gaps:
plot(flow, type = "s")
xblocks(time(flow), is.na(flow), col = "gray")

## Example of alternating colors, here showing calendar months
flowdates <- as.Date("2000-01-01") + as.numeric(time(flow))
flowz <- zoo(coredata(flow), flowdates)
plot(flowz)
xblocks(flowz, months, ## i.e. months(time(flowz)),
  col = gray.colors(2, start = 0.7), border = "slategray")
lines(flowz)

## Example of multiple series.
## set up example data
z <- ts(cbind(A = 0:5, B = c(6:7, NA, NA, 10:11), C = c(NA, 13:17)))

## show data coverage only (highlighting gaps)
plot(z, panel = function(x, ...)
  xblocks(x, col = "darkgray"))

## draw gaps in darkgray
plot(z, type = "s", panel = function(x, ...) {
  xblocks(time(x), is.na(x), col = "darkgray")
  lines(x, ...); points(x)
})

## Example of overlaying blocks from a different series.
## Are US presidential approval ratings linked to sunspot activity?
## Set block height to plot blocks along the bottom.
plot(presidents)
xblocks(sunspot.year > 50, height = 2)
# }

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