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# Themes {#sec-polishing}
```{r}
#| echo: false
#| message: false
#| results: asis
source("common.R")
status("drafting")
```
## Introduction
In this chapter you will learn how to use the ggplot2 theme system, which allows you to exercise fine control over the non-data elements of your plot.
The theme system does not affect how the data is rendered by geoms, or how it is transformed by scales.
Themes don't change the perceptual properties of the plot, but they do help you make the plot aesthetically pleasing or match an existing style guide.
Themes give you control over things like fonts, ticks, panel strips, and backgrounds.
\index{Themes}
This separation of control into data and non-data parts is quite different from base and lattice graphics.
In base and lattice graphics, most functions take a large number of arguments that specify both data and non-data appearance, which makes the functions complicated and harder to learn.
ggplot2 takes a different approach: when creating the plot you determine how the data is displayed, then *after* it has been created you can edit every detail of the rendering, using the theming system.
The theming system is composed of four main components:
- Theme **elements** specify the non-data elements that you can control.
For example, the `plot.title` element controls the appearance of the plot title; `axis.ticks.x`, the ticks on the x axis; `legend.key.height`, the height of the keys in the legend.
- Each element is associated with an **element function**, which describes the visual properties of the element.
For example, `element_text()` sets the font size, colour and face of text elements like `plot.title`.
- The `theme()` function which allows you to override the default theme elements by calling element functions, like `theme(plot.title = element_text(colour = "red"))`.
- Complete **themes**, like `theme_grey()` set all of the theme elements to values designed to work together harmoniously.
For example, imagine you've made the following plot of your data.
```{r}
#| label: motivation-1
base <- ggplot(mpg, aes(cty, hwy, color = factor(cyl))) +
geom_jitter() +
geom_abline(colour = "grey50", size = 2)
base
```
It's served its purpose for you: you've learned that `cty` and `hwy` are highly correlated, both are tightly coupled with `cyl`, and that `hwy` is always greater than `cty` (and the difference increases as `cty` increases).
Now you want to share the plot with others, perhaps by publishing it in a paper.
That requires some changes.
First, you need to make sure the plot can stand alone by:
- Improving the axes and legend labels.
- Adding a title for the plot.
- Tweaking the colour scale.
Fortunately, you know how to do that already because you've read @sec-titles and @sec-scale-colour:
```{r}
#| label: motivation-2
labelled <- base +
labs(
x = "City mileage/gallon",
y = "Highway mileage/gallon",
colour = "Cylinders",
title = "Highway and city mileage are highly correlated"
) +
scale_colour_brewer(type = "seq", palette = "Spectral")
labelled
```
Next, you need to make sure the plot matches the style guidelines of your journal:
- The background should be white, not pale grey.
- The legend should be placed inside the plot if there's room.
- Major gridlines should be a pale grey and minor gridlines should be removed.
- The plot title should be 12pt bold text.
In this chapter, you'll learn how to use the theming system to make those changes, as shown below:
```{r}
#| label: motivation-3
styled <- labelled +
theme_bw() +
theme(
plot.title = element_text(face = "bold", size = 12),
legend.background = element_rect(
fill = "white",
linewidth = 4,
colour = "white"
),
legend.justification = c(0, 1),
legend.position = c(0, 1),
axis.ticks = element_line(colour = "grey70", linewidth = 0.2),
panel.grid.major = element_line(colour = "grey70", linewidth = 0.2),
panel.grid.minor = element_blank()
)
styled
```
Finally, the journal wants the figure as a 600 dpi TIFF file.
You'll learn the fine details of `ggsave()` in @sec-saving.
## Complete themes {#sec-themes}
ggplot2 comes with a number of built-in themes.
The most important is `theme_grey()`, the signature ggplot2 theme with a light grey background and white gridlines.
The theme is designed to put the data forward while supporting comparisons, following the advice of [@tufte:2006; @brewer:1994; @carr:2002; @carr:1994; @carr:1999].
We can still see the gridlines to aid in the judgement of position [@cleveland:1993a], but they have little visual impact and we can easily 'tune' them out.
The grey background gives the plot a similar typographic colour to the text, ensuring that the graphics fit in with the flow of a document without jumping out with a bright white background.
Finally, the grey background creates a continuous field of colour which ensures that the plot is perceived as a single visual entity.
\index{Themes!built-in} \indexf{theme\_grey}
There are seven other themes built in to ggplot2 1.1.0:
- `theme_bw()`: a variation on `theme_grey()` that uses a white background and thin grey grid lines.
\indexf{theme\_bw}
- `theme_linedraw()`: a theme with only black lines of various widths on white backgrounds, reminiscent of a line drawing.
\indexf{theme\_linedraw}
- `theme_light()`: similar to `theme_linedraw()` but with light grey lines and axes, to direct more attention towards the data.
\indexf{theme\_light}
- `theme_dark()`: the dark cousin of `theme_light()`, with similar line sizes but a dark background.
Useful to make thin coloured lines pop out.
\indexf{theme\_dark}
- `theme_minimal()`: a minimalistic theme with no background annotations.
\indexf{theme\_minimal}
- `theme_classic()`: a classic-looking theme, with x and y axis lines and no gridlines.
\indexf{theme\_classic}
- `theme_void()`: a completely empty theme.
\indexf{theme\_void}
```{r}
#| label: built-in
#| layout-ncol: 3
#| fig-width: 3
df <- data.frame(x = 1:3, y = 1:3)
base <- ggplot(df, aes(x, y)) + geom_point()
base + theme_grey() + ggtitle("theme_grey()")
base + theme_bw() + ggtitle("theme_bw()")
base + theme_linedraw() + ggtitle("theme_linedraw()")
```
```{r}
#| layout-ncol: 3
#| fig-width: 3
base + theme_light() + ggtitle("theme_light()")
base + theme_dark() + ggtitle("theme_dark()")
base + theme_minimal() + ggtitle("theme_minimal()")
```
```{r}
#| layout-ncol: 2
#| fig-width: 4
base + theme_classic() + ggtitle("theme_classic()")
base + theme_void() + ggtitle("theme_void()")
```
All themes have a `base_size` parameter which controls the base font size.
The base font size is the size that the axis titles use: the plot title is usually bigger (1.2x), and the tick and strip labels are smaller (0.8x).
If you want to control these sizes separately, you'll need to modify the individual elements as described below.
As well as applying themes a plot at a time, you can change the default theme with `theme_set()`.
For example, if you really hate the default grey background, run `theme_set(theme_bw())` to use a white background for all plots.
\indexf{theme\_set}
You're not limited to the themes built-in to ggplot2.
Other packages, like ggthemes by Jeffrey Arnold, add even more.
Here are a few of my favourites from ggthemes: \index{ggtheme}
```{r}
#| label: ggtheme
#| layout-ncol: 3
#| fig-width: 3
#| message: false
#| warning: false
library(ggthemes)
base + theme_tufte() + ggtitle("theme_tufte()")
base + theme_solarized() + ggtitle("theme_solarized()")
base + theme_excel() + ggtitle("theme_excel()") # ;)
```
The complete themes are a great place to start but don't give you a lot of control.
To modify individual elements, you need to use `theme()` to override the default setting for an element with an element function.
### Exercises
1. Try out all the themes in ggthemes.
Which do you like the best?
2. What aspects of the default theme do you like?
What don't you like?\
What would you change?
3. Look at the plots in your favourite scientific journal.
What theme do they most resemble?
What are the main differences?
## Modifying theme components
To modify an individual theme component you use code like `plot + theme(element.name = element_function())`.
In this section you'll learn about the basic element functions, and then in the next section, you'll see all the elements that you can modify.
\indexf{theme}
There are four basic types of built-in element functions: text, lines, rectangles, and blank.
Each element function has a set of parameters that control the appearance:
- `element_text()` draws labels and headings.
You can control the font `family`, `face`, `colour`, `size` (in points), `hjust`, `vjust`, `angle` (in degrees) and `lineheight` (as ratio of `fontcase`).
More details on the parameters can be found in `vignette("ggplot2-specs")`.
Setting the font face is particularly challenging.
\index{Themes!labels} \indexf{element\_text}
```{r}
#| label: element_text
#| layout-ncol: 3
#| fig-width: 3
base_t <- base + labs(title = "This is a ggplot") + xlab(NULL) + ylab(NULL)
base_t + theme(plot.title = element_text(size = 16))
base_t + theme(plot.title = element_text(face = "bold", colour = "red"))
base_t + theme(plot.title = element_text(hjust = 1))
```
You can control the margins around the text with the `margin` argument and `margin()` function.
`margin()` has four arguments: the amount of space (in points) to add to the top, right, bottom and left sides of the text.
Any elements not specified default to 0.
```{r}
#| label: element_text-margin
#| layout-ncol: 3
#| fig-width: 3
# The margins here look asymmetric because there are also plot margins
base_t + theme(plot.title = element_text(margin = margin()))
base_t + theme(plot.title = element_text(margin = margin(t = 10, b = 10)))
base_t + theme(axis.title.y = element_text(margin = margin(r = 10)))
```
- `element_line()` draws lines parameterised by `colour`, `linewidth` and `linetype`: \indexf{element\_line} \index{Themes!lines}
```{r}
#| label: element_line
#| layout-ncol: 3
#| fig-width: 3
base + theme(panel.grid.major = element_line(colour = "black"))
base + theme(panel.grid.major = element_line(linewidth = 2))
base + theme(panel.grid.major = element_line(linetype = "dotted"))
```
- `element_rect()` draws rectangles, mostly used for backgrounds, parameterised by `fill` colour and border `colour`, `linewidth` and `linetype`.\
\index{Background} \index{Themes!background} \indexf{theme\_rect}
```{r}
#| label: element_rect
#| layout-ncol: 3
#| fig-width: 3
base + theme(plot.background = element_rect(fill = "grey80", colour = NA))
base + theme(plot.background = element_rect(colour = "red", linewidth = 2))
base + theme(panel.background = element_rect(fill = "linen"))
```
- `element_blank()` draws nothing.
Use this if you don't want anything drawn, and no space allocated for that element.
The following example uses `element_blank()` to progressively suppress the appearance of elements we're not interested in.
Notice how the plot automatically reclaims the space previously used by these elements: if you don't want this to happen (perhaps because they need to line up with other plots on the page), use `colour = NA, fill = NA` to create invisible elements that still take up space.
\indexf{element\_blank}
```{r}
#| label: element_blank
#| layout-ncol: 3
#| fig-width: 3
base
last_plot() + theme(panel.grid.minor = element_blank())
last_plot() + theme(panel.grid.major = element_blank())
```
```{r}
#| label: element_blank-2
#| layout-ncol: 3
#| fig-width: 3
last_plot() + theme(panel.background = element_blank())
last_plot() + theme(
axis.title.x = element_blank(),
axis.title.y = element_blank()
)
last_plot() + theme(axis.line = element_line(colour = "grey50"))
```
- A few other settings take grid units.
Create them with `unit(1, "cm")` or `unit(0.25, "in")`.
To modify theme elements for all future plots, use `theme_update()`.
It returns the previous theme settings, so you can easily restore the original parameters once you're done.
\index{Themes!updating} \indexf{theme\_set}
```{r}
#| label: theme-update
#| layout-ncol: 2
#| fig-width: 4
old_theme <- theme_update(
plot.background = element_rect(fill = "lightblue3", colour = NA),
panel.background = element_rect(fill = "lightblue", colour = NA),
axis.text = element_text(colour = "linen"),
axis.title = element_text(colour = "linen")
)
base
theme_set(old_theme)
base
```
## Theme elements {#sec-theme-elements}
There are around 40 unique elements that control the appearance of the plot.
They can be roughly grouped into five categories: plot, axis, legend, panel and facet.
The following sections describe each in turn.
\index{Themes!elements}
### Plot elements
\index{Themes!plot}
Some elements affect the plot as a whole:
| Element | Setter | Description |
|-----------------|------------------|---------------------|
| plot.background | `element_rect()` | plot background |
| plot.title | `element_text()` | plot title |
| plot.margin | `margin()` | margins around plot |
`plot.background` draws a rectangle that underlies everything else on the plot.
By default, ggplot2 uses a white background which ensures that the plot is usable wherever it might end up (e.g. even if you save as a png and put on a slide with a black background).
When exporting plots to use in other systems, you might want to make the background transparent with `fill = NA`.
Similarly, if you're embedding a plot in a system that already has margins you might want to eliminate the built-in margins.
Note that a small margin is still necessary if you want to draw a border around the plot.
```{r}
#| label: plot
#| layout-ncol: 3
#| fig-width: 3
base + theme(plot.background = element_rect(colour = "grey50", linewidth = 2))
base + theme(
plot.background = element_rect(colour = "grey50", linewidth = 2),
plot.margin = margin(2, 2, 2, 2)
)
base + theme(plot.background = element_rect(fill = "lightblue"))
```
### Axis elements {#sec-theme-axis}
\index{Themes!axis} \index{Axis!styling}
The axis elements control the appearance of the axes:
| Element | Setter | Description |
|-------------------|------------------|--------------------------------------------------|
| axis.line | `element_line()` | line parallel to axis (hidden in default themes) |
| axis.text | `element_text()` | tick labels |
| axis.text.x | `element_text()` | x-axis tick labels |
| axis.text.y | `element_text()` | y-axis tick labels |
| axis.title | `element_text()` | axis titles |
| axis.title.x | `element_text()` | x-axis title |
| axis.title.y | `element_text()` | y-axis title |
| axis.ticks | `element_line()` | axis tick marks |
| axis.ticks.length | `unit()` | length of tick marks |
Note that `axis.text` (and `axis.title`) comes in three forms: `axis.text`, `axis.text.x`, and `axis.text.y`.
Use the first form if you want to modify the properties of both axes at once: any properties that you don't explicitly set in `axis.text.x` and `axis.text.y` will be inherited from `axis.text`.
```{r}
#| label: axis
#| layout-ncol: 3
#| fig-width: 3
df <- data.frame(x = 1:3, y = 1:3)
base <- ggplot(df, aes(x, y)) + geom_point()
# Accentuate the axes
base + theme(axis.line = element_line(colour = "grey50", linewidth = 1))
# Style both x and y axis labels
base + theme(axis.text = element_text(color = "blue", size = 12))
# Useful for long labels
base + theme(axis.text.x = element_text(angle = -90, vjust = 0.5))
```
The most common adjustment is to rotate the x-axis labels to avoid long overlapping labels.
If you do this, note negative angles tend to look best and you should set `hjust = 0` and `vjust = 1`:
```{r}
#| label: axis-labels
#| layout-ncol: 2
#| fig-width: 4
df <- data.frame(
x = c("label", "a long label", "an even longer label"),
y = 1:3
)
base <- ggplot(df, aes(x, y)) + geom_point()
base
base +
theme(axis.text.x = element_text(angle = -30, vjust = 1, hjust = 0)) +
xlab(NULL) +
ylab(NULL)
```
### Legend elements
\index{Themes!legend} \index{Legend!styling}
The legend elements control the appearance of all legends.
You can also modify the appearance of individual legends by modifying the same elements in `guide_legend()` or `guide_colourbar()`.
| Element | Setter | Description |
|--------------------|------------------|----------------------------------------------|
| legend.background | `element_rect()` | legend background |
| legend.key | `element_rect()` | background of legend keys |
| legend.key.size | `unit()` | legend key size |
| legend.key.height | `unit()` | legend key height |
| legend.key.width | `unit()` | legend key width |
| legend.margin | `unit()` | legend margin |
| legend.text | `element_text()` | legend labels |
| legend.text.align | 0--1 | legend label alignment (0 = right, 1 = left) |
| legend.title | `element_text()` | legend name |
| legend.title.align | 0--1 | legend name alignment (0 = right, 1 = left) |
These options are illustrated below:
```{r}
#| label: legend
#| layout-ncol: 3
#| fig-width: 3
df <- data.frame(x = 1:4, y = 1:4, z = rep(c("a", "b"), each = 2))
base <- ggplot(df, aes(x, y, colour = z)) + geom_point()
base + theme(
legend.background = element_rect(
fill = "lemonchiffon",
colour = "grey50",
linewidth = 1
)
)
base + theme(
legend.key = element_rect(color = "grey50"),
legend.key.width = unit(0.9, "cm"),
legend.key.height = unit(0.75, "cm")
)
base + theme(
legend.text = element_text(size = 15),
legend.title = element_text(size = 15, face = "bold")
)
```
There are four other properties that control how legends are laid out in the context of the plot (`legend.position`, `legend.direction`, `legend.justification`, `legend.box`).
They are described in @sec-legend-layout.
### Panel elements
\index{Themes!panel} \index{Aspect ratio}
Panel elements control the appearance of the plotting panels:
| Element | Setter | Description |
|--------------------|------------------|-------------------------------|
| panel.background | `element_rect()` | panel background (under data) |
| panel.border | `element_rect()` | panel border (over data) |
| panel.grid.major | `element_line()` | major grid lines |
| panel.grid.major.x | `element_line()` | vertical major grid lines |
| panel.grid.major.y | `element_line()` | horizontal major grid lines |
| panel.grid.minor | `element_line()` | minor grid lines |
| panel.grid.minor.x | `element_line()` | vertical minor grid lines |
| panel.grid.minor.y | `element_line()` | horizontal minor grid lines |
| aspect.ratio | numeric | plot aspect ratio |
The main difference between `panel.background` and `panel.border` is that the background is drawn underneath the data, and the border is drawn on top of it.
For that reason, you'll always need to assign `fill = NA` when overriding `panel.border`.
```{r}
#| label: panel
#| layout-ncol: 3
#| fig-width: 3
base <- ggplot(df, aes(x, y)) + geom_point()
# Modify background
base + theme(panel.background = element_rect(fill = "lightblue"))
# Tweak major grid lines
base + theme(
panel.grid.major = element_line(color = "gray60", linewidth = 0.8)
)
# Just in one direction
base + theme(
panel.grid.major.x = element_line(color = "gray60", linewidth = 0.8)
)
```
Note that aspect ratio controls the aspect ratio of the *panel*, not the overall plot:
```{r}
#| label: aspect-ratio
#| layout-ncol: 3
#| fig-width: 3
base2 <- base + theme(plot.background = element_rect(colour = "grey50"))
# Wide screen
base2 + theme(aspect.ratio = 9 / 16)
# Long and skinny
base2 + theme(aspect.ratio = 2 / 1)
# Square
base2 + theme(aspect.ratio = 1)
```
### Faceting elements
\index{Themes!facets} \index{Faceting!styling}
The following theme elements are associated with faceted ggplots:
| Element | Setter | Description |
|------------------|------------------|------------------------------------|
| strip.background | `element_rect()` | background of panel strips |
| strip.text | `element_text()` | strip text |
| strip.text.x | `element_text()` | horizontal strip text |
| strip.text.y | `element_text()` | vertical strip text |
| panel.spacing | `unit()` | margin between facets |
| panel.spacing.x | `unit()` | margin between facets (vertical) |
| panel.spacing.y | `unit()` | margin between facets (horizontal) |
Element `strip.text.x` affects both `facet_wrap()` or `facet_grid()`; `strip.text.y` only affects `facet_grid()`.
```{r}
#| label: faceting
#| layout-ncol: 3
#| fig-width: 3
df <- data.frame(x = 1:4, y = 1:4, z = c("a", "a", "b", "b"))
base_f <- ggplot(df, aes(x, y)) + geom_point() + facet_wrap(~z)
base_f
base_f + theme(panel.spacing = unit(0.5, "in"))
base_f + theme(
strip.text = element_text(colour = "white"),
strip.background = element_rect(
fill = "grey20",
color = "grey80",
linewidth = 1
)
)
```
### Exercises
1. Create the ugliest plot possible!
(Contributed by Andrew D. Steen, University of Tennessee - Knoxville)
2. `theme_dark()` makes the inside of the plot dark, but not the outside.
Change the plot background to black, and then update the text settings so you can still read the labels.
3. Make an elegant theme that uses "linen" as the background colour and a serif font for the text.
4. Systematically explore the effects of `hjust` when you have a multiline title.
Why doesn't `vjust` do anything?
## Saving your output {#sec-saving}
When saving a plot to use in another program, you have two basic choices of output: raster or vector: \index{Exporting} \index{Saving output}
- Vector graphics describe a plot as sequence of operations: draw a line from $(x_1, y_1)$ to $(x_2, y_2)$, draw a circle at $(x_3, x_4)$ with radius $r$.
This means that they are effectively 'infinitely' zoomable; there is no loss of detail.
The most useful vector graphic formats are pdf and svg.
- Raster graphics are stored as an array of pixel colours and have a fixed optimal viewing size.
The most useful raster graphic format is png.
The figure below illustrates the basic differences in these formats for a circle.
```{r}
#| label: vector-raster
#| echo: false
#| out.width: 100%
#| fig.cap: The schematic difference between raster (left) and vector (right) graphics.
knitr::include_graphics("diagrams/vector-raster.png", dpi = 300, auto_pdf = TRUE)
```
Unless there is a compelling reason not to, use vector graphics: they look better in more places.
There are two main reasons to use raster graphics:
- You have a plot (e.g. a scatterplot) with thousands of graphical objects (i.e. points).
A vector version will be large and slow to render.
- You want to embed the graphic in MS Office.
MS has poor support for vector graphics (except for their own DrawingXML format which is not currently easy to make from R), so raster graphics are easier.
There are two ways to save output from ggplot2.
You can use the standard R approach where you open a graphics device, generate the plot, then close the device: \indexf{pdf}
``` r
pdf("output.pdf", width = 6, height = 6)
ggplot(mpg, aes(displ, cty)) + geom_point()
dev.off()
```
This works for all packages, but is verbose.
ggplot2 provides a convenient shorthand with `ggsave()`:
``` r
ggplot(mpg, aes(displ, cty)) + geom_point()
ggsave("output.pdf")
```
`ggsave()` is optimised for interactive use: you can use it after you've drawn a plot.
It has the following important arguments: \indexf{ggsave}
- The first argument, `path`, specifies the path where the image should be saved.
The file extension will be used to automatically select the correct graphics device.
`ggsave()` can produce `.eps`, `.pdf`, `.svg`, `.wmf`, `.png`, `.jpg`, `.bmp`, and `.tiff`.
- `width` and `height` control the output size, specified in inches.
If left blank, they'll use the size of the on-screen graphics device.
- For raster graphics (i.e. `.png`, `.jpg`), the `dpi` argument controls the resolution of the plot.
It defaults to 300, which is appropriate for most printers, but you may want to use 600 for particularly high-resolution output, or 96 for on-screen (e.g., web) display.
See `?ggsave` for more details.