ggpointdensity
Introduces geom_pointdensity()
: A cross between a scatter plot and a 2D density plot.
Installation
To install the package, type this command in R:
install.packages("ggpointdensity")
# Alternatively, you can install the latest
# development version from GitHub:
if (!requireNamespace("devtools", quietly = TRUE))
install.packages("devtools")
devtools::install_github("LKremer/ggpointdensity")
Motivation
There are several ways to visualize data points on a 2D coordinate system:
If you have lots of data points on top of each other, geom_point()
fails to
give you an estimate of how many points are overlapping.
geom_density2d()
and geom_bin2d()
solve this issue, but they make it impossible
to investigate individual outlier points, which may be of interest.
geom_pointdensity()
aims to solve this problem by combining the best of both
worlds: individual points are colored by the number of neighboring points.
This allows you to see the overall distribution, as well as individual points.
Changelog
Added method
argument and renamed the n_neighbor
stat to density
. The available options
are method="auto"
,
method="default"
and method="kde2d"
. default
is the regular n_neighbor calculation
as in the CRAN package. kde2d
uses 2D kernel density estimation to estimate the point density
(credits to @slowkow).
This method is slower for few points, but faster for many (ca. >20k) points. By default,
method="auto"
picks either kde2d
or default
depending on the number of points.
Demo
Generate some toy data and visualize it with geom_pointdensity()
:
library(ggplot2)
library(dplyr)
library(viridis)
library(ggpointdensity)
dat <- bind_rows(
tibble(x = rnorm(7000, sd = 1),
y = rnorm(7000, sd = 10),
group = "foo"),
tibble(x = rnorm(3000, mean = 1, sd = .5),
y = rnorm(3000, mean = 7, sd = 5),
group = "bar"))
ggplot(data = dat, mapping = aes(x = x, y = y)) +
geom_pointdensity() +
scale_color_viridis()
Each point is colored according to the number of neighboring points.
(Note: this here is the dev branch, where I decided to plot the density estimate
instead of n_neighbors now.)
The distance threshold to consider two points as neighbors (smoothing
bandwidth) can be adjusted with the adjust
argument, where adjust = 0.5
means use half of the default bandwidth.
ggplot(data = dat, mapping = aes(x = x, y = y)) +
geom_pointdensity(adjust = .1) +
scale_color_viridis()
ggplot(data = dat, mapping = aes(x = x, y = y)) +
geom_pointdensity(adjust = 4) +
scale_color_viridis()
Of course you can combine the geom with standard ggplot2
features
such as facets...
# Facetting by group
ggplot(data = dat, mapping = aes(x = x, y = y)) +
geom_pointdensity() +
scale_color_viridis() +
facet_wrap( ~ group)
... or point shape and size:
dat_subset <- sample_frac(dat, .1) # smaller data set
ggplot(data = dat_subset, mapping = aes(x = x, y = y)) +
geom_pointdensity(size = 3, shape = 17) +
scale_color_viridis()
Zooming into the axis works as well, keep in mind that xlim()
and
ylim()
change the density since they remove data points.
It may be better to use coord_cartesian()
instead.
ggplot(data = dat, mapping = aes(x = x, y = y)) +
geom_pointdensity() +
scale_color_viridis() +
xlim(c(-1, 3)) + ylim(c(-5, 15))
ggplot(data = dat, mapping = aes(x = x, y = y)) +
geom_pointdensity() +
scale_color_viridis() +
coord_cartesian(xlim = c(-1, 3), ylim = c(-5, 15))
Authors
Lukas PM Kremer (@LPMKremer) and Simon Anders (@s_anders_m), 2019