gganimate
extends the grammar of graphics as implemented by
ggplot2
to include the
description of animation. It does this by providing a range of new
grammar classes that can be added to the plot object in order to
customise how it should change with time.
transition_*()
defines how the data should be spread out and how it
relates to itself across time.view_*()
defines how the positional scales should change along the
animation.shadow_*()
defines how data from other points in time should be
presented in the given point in time.enter_*()
/exit_*()
defines how new data should appear and how old
data should disappear during the course of the animation.ease_aes()
defines how different aesthetics should be eased during
transitions.All of the above might seem a bit abstract. Let’s try with a contrived example:
library(ggplot2)
library(gganimate)
ggplot(mtcars, aes(factor(cyl), mpg)) +
geom_boxplot() +
# Here comes the gganimate code
transition_states(
gear,
transition_length = 2,
state_length = 1
) +
enter_fade() +
exit_shrink() +
ease_aes('sine-in-out')
Here we take a simple boxplot of fuel consumption as a function of
cylinders and lets it transition between the number of gears available
in the cars. As this is a discrete split (gear
being best described as
an ordered factor) we use transition_states
and provides a relative
length to use for transition and state view. As not all combinations of
data is present there are states missing a box. We define that when a
box appears it should fade into view, whereas at should shrink away when
it disappear. Lastly we decide to use a sinusoidal easing for all our
aesthetics (here, only y
is changing)
gganimate
is available on CRAN and can be installed with
install.packages('gganimate')
. If you wish to install the development
version you can install directly from github using devtools:
# install.packages('pak')
pak::pak('thomasp85/gganimate')
It is impossible to cover everything possible with gganimate
in a
README, but animations are fun, so let’s at least have one more:
library(gapminder)
ggplot(gapminder, aes(gdpPercap, lifeExp, size = pop, colour = country)) +
geom_point(alpha = 0.7, show.legend = FALSE) +
scale_colour_manual(values = country_colors) +
scale_size(range = c(2, 12)) +
scale_x_log10() +
facet_wrap(~continent) +
# Here comes the gganimate specific bits
labs(title = 'Year: {frame_time}', x = 'GDP per capita', y = 'life expectancy') +
transition_time(year) +
ease_aes('linear')
In this example we see the use of transition_time()
which can be used
with continuous variables such as year
. With this transition it is not
necessary to provide transition and state length as the “transition
variable” provides this directly (e.g. it should take twice as long to
transition between 1980 and 1990 compared to 2000 to 2005). We also see
the use of string literal interpolation in titles. gganimate
lets you
specify variables to evaluate inside titles and different transitions
provide different type of information to use.
gganimate
mimics the way ggplot2
renders its output, in that the
rendering is done automatically when the gganim
object is printed.
Under the hood, the animate()
function is called which renders the
frame and passes the frames to a renderer functions which takes care of
combining them to the final animation. The default renderer is
gifski_renderer()
which returns a gif_image
object which is a simple
wrapper around a path to a gif file. If animate()
has been called
implicitly as part of print
the gif_image
object is available using
the last_animation()
function (analogous to ggplot2::last_plot()
).
In order to save the animation to a specific location, you can use the
anim_save()
function which, like ggplot2::ggsave
, defaults to taking
the last rendered animation and writes it to a file.
gif is a fantastic format for animations due to its wide support, but
sometimes another format is required. gganimate
is agnostic to the
renderer and while the default is to use
gifski to combine the frames into a
gif, it doesn’t have to be so. By passing an alternate renderer to the
animate()
function you can control the animation format, and
gganimate
comes with a bunch (and you can write your own). To create
video files you can e.g. use the ffmpeg_renderer()
:
p <- ggplot(airquality, aes(Day, Temp)) +
geom_line(size = 2, colour = 'steelblue') +
transition_states(Month, 4, 1) +
shadow_mark(size = 1, colour = 'grey')
animate(p, renderer = ffmpeg_renderer())
Video output are automatically embedded in RMarkdown documents, but GitHub strips video when rendering READMEs so you can’t see it here
Further there’s support for rendering to sprite sheets if that is your vice.
This is the second iteration of the gganimate package. The first,
developed by David Robinson had a very
different API, and relied on specifying animation frame membership
inside aes()
blocks in the geom_*()
calls. This approach was easy to
grasp, but essentially limited in capabilities and has thus been
abandoned for a more thorough grammar.
Code written for the old API will not work with this gganimate
version
and there will not come a future support for it. If you wish to continue
using the old API then avoid upgrading gganimate
. If you’ve already
upgraded and wish to downgrade, the latest version of the old API is
available as a GitHub
release.
If you wish to convert your old animations to the new API, the closest
you get is probably with transition_manual
, even though it is not
completely substitutable:
# Old code
ggplot(mtcars) +
geom_boxplot(aes(factor(cyl), mpg, frame = gear))
# New code
ggplot(mtcars) +
geom_boxplot(aes(factor(cyl), mpg)) +
transition_manual(gear)
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