geom_bar {ggplot2} | R Documentation |
Bar charts
Description
There are two types of bar charts: geom_bar()
and geom_col()
.
geom_bar()
makes the height of the bar proportional to the number of
cases in each group (or if the weight
aesthetic is supplied, the sum
of the weights). If you want the heights of the bars to represent values
in the data, use geom_col()
instead. geom_bar()
uses stat_count()
by
default: it counts the number of cases at each x position. geom_col()
uses stat_identity()
: it leaves the data as is.
Usage
geom_bar(
mapping = NULL,
data = NULL,
stat = "count",
position = "stack",
...,
just = 0.5,
width = NULL,
na.rm = FALSE,
orientation = NA,
show.legend = NA,
inherit.aes = TRUE
)
geom_col(
mapping = NULL,
data = NULL,
position = "stack",
...,
just = 0.5,
width = NULL,
na.rm = FALSE,
show.legend = NA,
inherit.aes = TRUE
)
stat_count(
mapping = NULL,
data = NULL,
geom = "bar",
position = "stack",
...,
width = NULL,
na.rm = FALSE,
orientation = NA,
show.legend = NA,
inherit.aes = TRUE
)
Arguments
mapping |
Set of aesthetic mappings created by |
data |
The data to be displayed in this layer. There are three options: If A A |
position |
A position adjustment to use on the data for this layer. This
can be used in various ways, including to prevent overplotting and
improving the display. The
|
... |
Other arguments passed on to
|
just |
Adjustment for column placement. Set to |
width |
Bar width. By default, set to 90% of the |
na.rm |
If |
orientation |
The orientation of the layer. The default ( |
show.legend |
logical. Should this layer be included in the legends?
|
inherit.aes |
If |
geom , stat |
Override the default connection between |
Details
A bar chart uses height to represent a value, and so the base of the
bar must always be shown to produce a valid visual comparison.
Proceed with caution when using transformed scales with a bar chart.
It's important to always use a meaningful reference point for the base of the bar.
For example, for log transformations the reference point is 1. In fact, when
using a log scale, geom_bar()
automatically places the base of the bar at 1.
Furthermore, never use stacked bars with a transformed scale, because scaling
happens before stacking. As a consequence, the height of bars will be wrong
when stacking occurs with a transformed scale.
By default, multiple bars occupying the same x
position will be stacked
atop one another by position_stack()
. If you want them to be dodged
side-to-side, use position_dodge()
or position_dodge2()
. Finally,
position_fill()
shows relative proportions at each x
by stacking the
bars and then standardising each bar to have the same height.
Orientation
This geom treats each axis differently and, thus, can thus have two orientations. Often the orientation is easy to deduce from a combination of the given mappings and the types of positional scales in use. Thus, ggplot2 will by default try to guess which orientation the layer should have. Under rare circumstances, the orientation is ambiguous and guessing may fail. In that case the orientation can be specified directly using the orientation
parameter, which can be either "x"
or "y"
. The value gives the axis that the geom should run along, "x"
being the default orientation you would expect for the geom.
Aesthetics
geom_bar()
understands the following aesthetics (required aesthetics are in bold):
Learn more about setting these aesthetics in vignette("ggplot2-specs")
.
geom_col()
understands the following aesthetics (required aesthetics are in bold):
Learn more about setting these aesthetics in vignette("ggplot2-specs")
.
stat_count()
understands the following aesthetics (required aesthetics are in bold):
Learn more about setting these aesthetics in vignette("ggplot2-specs")
.
Computed variables
These are calculated by the 'stat' part of layers and can be accessed with delayed evaluation.
-
after_stat(count)
number of points in bin. -
after_stat(prop)
groupwise proportion
See Also
geom_histogram()
for continuous data,
position_dodge()
and position_dodge2()
for creating side-by-side
bar charts.
stat_bin()
, which bins data in ranges and counts the
cases in each range. It differs from stat_count()
, which counts the
number of cases at each x
position (without binning into ranges).
stat_bin()
requires continuous x
data, whereas
stat_count()
can be used for both discrete and continuous x
data.
Examples
# geom_bar is designed to make it easy to create bar charts that show
# counts (or sums of weights)
g <- ggplot(mpg, aes(class))
# Number of cars in each class:
g + geom_bar()
# Total engine displacement of each class
g + geom_bar(aes(weight = displ))
# Map class to y instead to flip the orientation
ggplot(mpg) + geom_bar(aes(y = class))
# Bar charts are automatically stacked when multiple bars are placed
# at the same location. The order of the fill is designed to match
# the legend
g + geom_bar(aes(fill = drv))
# If you need to flip the order (because you've flipped the orientation)
# call position_stack() explicitly:
ggplot(mpg, aes(y = class)) +
geom_bar(aes(fill = drv), position = position_stack(reverse = TRUE)) +
theme(legend.position = "top")
# To show (e.g.) means, you need geom_col()
df <- data.frame(trt = c("a", "b", "c"), outcome = c(2.3, 1.9, 3.2))
ggplot(df, aes(trt, outcome)) +
geom_col()
# But geom_point() displays exactly the same information and doesn't
# require the y-axis to touch zero.
ggplot(df, aes(trt, outcome)) +
geom_point()
# You can also use geom_bar() with continuous data, in which case
# it will show counts at unique locations
df <- data.frame(x = rep(c(2.9, 3.1, 4.5), c(5, 10, 4)))
ggplot(df, aes(x)) + geom_bar()
# cf. a histogram of the same data
ggplot(df, aes(x)) + geom_histogram(binwidth = 0.5)
# Use `just` to control how columns are aligned with axis breaks:
df <- data.frame(x = as.Date(c("2020-01-01", "2020-02-01")), y = 1:2)
# Columns centered on the first day of the month
ggplot(df, aes(x, y)) + geom_col(just = 0.5)
# Columns begin on the first day of the month
ggplot(df, aes(x, y)) + geom_col(just = 1)