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A quick demonstration of capping the lines.
First, load the package, generate a dataset and display it.
library(ggplot2)
library(lemon)
dat1 <- data.frame(
gp = factor(rep(letters[1:3], each = 10)),
y = rnorm(30),
cl = sample.int(3, 30, replace=TRUE),
cl2 = sample(c('a','b','c'), 30, replace=TRUE)
)
my.theme <- theme_light()
(
p <- ggplot(dat1, aes(gp, y)) + geom_point() + my.theme
)
NB: In order to manipulate the axis lines, they must
be drawn. Modify the theme so the panel.border
is not drawn
(it will be on top of the axis lines), and have the axis lines
drawn:
my.theme <- my.theme + theme(panel.border=element_blank(),
axis.line = element_line(),
axis.ticks = element_line(colour='black'))
p <- p + my.theme
Now, let’s have some fun.
We cap the bottom axis line to the right-most tick. The left end is
also capped by the amount specified with the gap
argument
(at time of writing, defaulted at 0.01
).
To keep the axis lines consistent, we also specify the
left
argument, which still caps the left axis line by the
amount specified with the gap
argument.
To avoid overplotting, we can apply a jitter. To emphasise that the x-axis is categorical, we can place brackets. We finally polish the plot by removing the redundant vertical grid lines.
ggplot(dat1, aes(gp, y)) + geom_point(position=position_jitter(width=0.2, height=0)) +
coord_capped_cart(left='none', bottom=brackets_horizontal()) +
my.theme + theme(panel.grid.major.x = element_blank())
coord
objectsggplot2’s Cartesian coordinates systems,
coord_cartesian
, have been extended to allow for flexible
specification of how axes are drawn. You’ve seen them above. The
following table summarises the connection between ggplot2’s coord
functions and those of lemon.
ggplot2 | lemon’s flexible | lemon’s short hand |
---|---|---|
coord_cartesian |
coord_flex_cart |
coord_capped_cart |
coord_flip |
coord_flex_flip |
coord_capped_flip |
coord_fixed |
coord_flex_fixed |
– |
The short hand functions in the table’s right column simply are
almost identical to those in the middle column. If one of the side
arguments are specified with a character value, the relevant axis
drawing function is used. You can however choose to use e.g.
brackets_horizontal
in place.
** Following section no longer applicable as of ggplot2 v. 3.3.0 (-ish)! **
The functions capped_horizontal
or
brackets_vertical
returns a function that is called when
ggplot2 prints the plot. In this package, we use ggplot2 to build the
axes, then modify in place the return grobs.
The function is called by the coord
objects when
printing the plot, and is called with the arguments
scale_details, axis, scale, position, theme
The function should then return a grob. Some pointers to how it is
used can be found in ggplot2’s help pages on ggproto
(?"ggplot2-ggproto"
)
The arguments are as follows1
scale_details
: Details of the scales in ‘npc’ units (see
grid::unit
). In the example below, a secondary y-axis is
used, so we find both y.major
, etc., and
y.sec.major
, etc.
List of 20
$ x.range : num [1:2] 0.4 3.6
$ x.labels : chr [1:3] "a" "b" "c"
$ x.major : num [1:3] 0.187 0.5 0.812
$ x.minor : NULL
$ x.major_source : int [1:3] 1 2 3
$ x.minor_source : NULL
$ x.arrange : chr [1:2] "secondary" "primary"
$ y.range : num [1:2] -2.17 2.26
$ y.labels : chr [1:5] "-2" "-1" "0" "1" ...
$ y.major : num [1:5] 0.0378 0.2635 0.4892 0.7149 0.9406
$ y.minor : num [1:9] 0.0378 0.1506 0.2635 0.3763 0.4892 ...
$ y.major_source : num [1:5] -2 -1 0 1 2
$ y.minor_source : num [1:9] -2 -1.5 -1 -0.5 0 0.5 1 1.5 2
$ y.sec.range : num [1:2] -10.8 11.3
$ y.sec.labels : chr [1:5] "-10" "-5" "0" "5" ...
$ y.sec.major : num [1:5] 0.038 0.263 0.489 0.715 0.941
$ y.sec.minor : num [1:9] 0.0378 0.1506 0.2635 0.3763 0.4892 ...
$ y.sec.major_source: num [1:5] -10 -5 0 5 10
$ y.sec.minor_source: num [1:9] -10 -7.5 -5 -2.5 0 2.5 5 7.5 10
$ y.arrange : chr [1:2] "primary" "secondary"
The secondary y-axis mulitplied the values by 5. Ticks are drawn at
major
coordinates, as are major grid lines. Minor grid
lines, if the theme supports them, are drawn at minor
.
Observe the connection between y.label
and
y.major_source
; it only becomes apparent when also
observing the same for the x-axis. The x.major_source
are
the factor integers.
axis
: Character, either "primary"
or
"secondary"
. Recall that the function is called per
axis drawn.
scale
: Character, either "x"
or
"y"
.
position
: Character, one of the sides,
"top"
, "right"
, "bottom"
, or
"left"
.
theme
: The plot’s theme. This is however not in absolute
terms, e.g. so text sizes may be described in relative terms to the base
size. To resolve a usable gp
(graphic parameters, see
?grid::gpar
) for a grob, use
ggplot2:::element_render(theme, 'axis.text.x')
, in which
the second argument would resolve to the labels of the x-axis.
The brackets comes in two orientations:
brackets_horizontal
and brackets_vertical
. If
you attempt to use a vertical bracket on a horizontal axis, it will fail
with a undescriptive error.
The bracket functions accept a direction
argument, which
can be used to control which direction the end-points are pointing:
p <- ggplot(mpg, aes(cyl, hwy, colour=class)) +
geom_point(position=position_jitter(width=0.3)) +
scale_x_continuous(breaks=c(4,5,6,8), sec.axis=dup_axis()) +
scale_y_continuous(sec.axis=dup_axis()) +
coord_flex_cart(bottom=brackets_horizontal(),
top=brackets_horizontal(direction='down'),
left=brackets_vertical(),
right=brackets_vertical(direction='right')) +
my.theme
p
The look of the brackets are controlled via
theme(axis.ticks)
. The length of the end-point are
controlled via the theme theme(axis.ticks.length)
. If these
needs to be specified for each margin, use the argument
tick.length
:
p <- ggplot(mpg, aes(cyl, hwy, colour=class)) +
geom_point(position=position_jitter(width=0.3)) +
coord_flex_cart(bottom=brackets_horizontal(tick.length=0),
left=brackets_vertical(tick.length = unit(1, 'cm'))) +
my.theme
p
As shown above, using tick.length=unit(0, 'cm')
results
in a flat line.
Having produced such wonderous axes, it is a pity they are not plotted around all panels when using faceting.
dsamp <- diamonds[sample(nrow(diamonds), 1000), ]
(d <- ggplot(dsamp, aes(carat, price)) +
geom_point(aes(colour = clarity)) +
coord_capped_cart(bottom='none', left='bottom') +
facet_grid(.~cut) + my.theme
)
facet_grid
and facet_wrap
have been
implemented in versions that display the axis lines (and labels) on all
panels. They work exactly like ggplot2’s functions, and are named with
_rep_
:
If we want the labels shown as well, use the argument:
It also works for facet_wrap
:
Finally, the legend can be repositioned to fit in a panel by using
reposition_legend
. See the vignette legend
.
The addition of theme(legend.background)
is merely to
provide a border around the legend.
As of lemon v0.4.2, you can now use symmetric y- og x-axis scales.
The same effect could be achieved with coord_cartesian
or use of scale_y_continuous
; however when used with a
facet where each row (or column) should scale to the data,
scale_x_symmetric
and scale_y_symmetric
ensures the data will remain centered.
To get the contents of the arguments, I usually include
a line in the function’s code to save them as a RDS object:
saveRDS(list(scale_details=scale_details, axis=axis, scale=scale, position=position, theme=theme), file='whatever.rds')
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