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Like any ggplot2 layer, geom_textpath()
and derivatives
recognise several aesthetic mappings. Put simply, an aesthetic
mapping is just an instruction you give to ggplot about which columns in
your data frame should affect which visual elements of the plot. Thus,
you might make a simple scatterplot by mapping one variable to the x
aesthetic and another to a y aesthetic.
Broadly, the aesthetic mappings in geomtextpath
can be
divided into three categories:
geom_text()
. These include
label
, alpha
, family
,
fontface
and size
. Additionally, the
textcolour
aesthetic can be used to set the text colour
independent of the general colour.geom_path()
. These include
x
, y
, group
and
linetype
. Furthermore, to distinguish the text from the
path, there are these additional aesthetics:
linewidth
, which acts as a size
aesthetic
to the path.linecolour
, which acts as a colour
aesthetic to the path.geom_textpath()
or have
a slightly altered meaning. This applies to the following aesthetics: hjust
, vjust
and spacing
, which are explained
below.Note that above, group
applies to the path, implying
that there needs to be one label per path.
Let’s build a plot for which to examine the aesthetics.
t <- seq(5, -1, length.out = 1000) * pi
spiral <- data.frame(
x = sin(t) * 1000:1,
y = cos(t) * 1000:1
)
rhyme <- paste(
"Like a circle in a spiral, like a wheel within a wheel,",
"never ending or beginning on an ever spinning reel"
)
p <- ggplot(spiral, aes(x, y, label = rhyme)) +
coord_equal(xlim = c(-1000, 1000), ylim = c(-1000, 1000))
p + geom_textpath(size = 4)
To start with a straightforward aesthetic,
geom_textpath()
understands the textcolour
and
linecolour
aesthetics which, when specified, overrule the
colour
aesthetic that would by default apply to both the
text and the line.
Likewise, the aesthetics for the textbox default to the
colour
, linetype
and linewidth
aesthetics, but can be set independently when the
boxcolour
, boxlinetype
and
boxlinewidth
aesthetics are set.
p + geom_labelpath(size = 4, textcolour = "#E41A1C", boxcolour = "#377eb8",
fill = "#ffff99", boxlinetype = "dotted", linewidth = 1,
boxlinewidth = 0.5)
The hjust
parameter in text is understood as the
justification of text along the direction of the text, relative to some
anchor point. This coincides with horizontal justification when the text
angle is exactly zero. In geom_textpath()
, there is no
anchor point, so the hjust
parameter is re-interpreted as
justification of text along the curve. In addition, there are scales for justification to finetune control.
p + geom_textpath(size = 4, hjust = 0) +
labs(subtitle = "hjust = 0")
p + geom_textpath(size = 4, hjust = 1) +
labs(subtitle = "hjust = 1")
In some situations you may wish to specify particular positions
relative to the x and y co-ordinates of the plot. For these
circumstances there are some text string aliases that can be used. These
are “xmin”, “xmid”, “xmax”, “ymin”, “ymid”, “ymax” and “auto”. The first
six are self explanatory. As an example, we can look at the effect of
setting hjust = "ymax"
. Here we use a different plot to
demonstrate:
i <- ggplot(iris, aes(x = Sepal.Length, colour = Species, label = Species)) +
ylim(c(0, 1.3))
i + geom_textdensity(size = 5, vjust = -0.2, hjust = "ymax") +
labs(subtitle = "hjust = \"ymax\"")
The “auto” hjust
setting tries to find the straightest
segments of the curves to apply labels:
One potential downside to interpreting hjust
this way,
is that it can’t be used to control the horizontal justification of
multi-line text. Instead, controlling justification among multi-line
text occurs through the halign
parameter, which can be one
of "left"
, "center"
or "right"
.
Note that this parameter doesn’t affect single-line text.
# Separate text with newline
rhyme_lines <- paste(
"Like a circle in a spiral, like a wheel within a wheel,",
"never ending or beginning on an ever spinning reel", sep = "\n"
)
p + geom_textpath(size = 4, label = rhyme_lines, halign = "left") +
labs(subtitle = "halign = 'left'")
p + geom_textpath(size = 4, label = rhyme_lines, halign = "right") +
labs(subtitle = "halign = 'right'")
The vjust
parameter controls the justification of the
text orthogonal to the direction of the text. When the angle of the text
is zero, this is the same as vertical justification. In
geom_textpath()
, there is no single direction of the text
as angles vary along the curve. Instead, it is imagined as an offset to
the path where text should be placed. Like for hjust
,
vjust
also has justification scales.
In the examples below, vjust = 0
aligns the bottom of the
text with the curve, whereas vjust = 1
aligns the top of
the text with the curve.
p + geom_textpath(size = 4, vjust = 0) +
labs(subtitle = "vjust = 0")
p + geom_textpath(size = 4, vjust = 1) +
labs(subtitle = "vjust = 1")
Note: While the
vjust
parameter spiritually does the same thing as vanillageom_text()
’svjust
does, they are not identical for flat text.
It should be noted that when vjust
is outside the [0,1]
interval, text generally shouldn’t intersect the path. As such, the
default behaviour no longer cuts the path at the text positions, but
this can be turned back on by setting gap = TRUE
.
p + geom_textpath(size = 4, vjust = 1.5) +
labs(subtitle = "vjust = 1.5, default gap")
p + geom_textpath(size = 4, vjust = 1.5, gap = TRUE) +
labs(subtitle = "vjust = 1.5, gap = TRUE")
Inversely, you can also turn off path cutting when it is expected to intersect with the text.
p + geom_textpath(size = 4, vjust = 0.5) +
labs(subtitle = "default gap")
p + geom_textpath(size = 4, vjust = 0.5, gap = FALSE) +
labs(subtitle = "gap = FALSE")
Moreover, how much path is cut away to make room for the text is
determined by the padding
parameter. You can set this to a
larger unit
if you think the space between text and path is
too small, or to a negative number if, for some reason, you’d like a
part of the path to intersect with the text.
As an alternative to the vjust
aesthetic, which is
typically multiples of the text height, there is also the
offset
parameter. The offset parameter can be a
grid::unit()
object that are used directly, instead of
having to deal with multiples of the text height. When the
offset
parameter is used, the vjust
aesthetic
is ignored. Note that using the offset
parameter instead of
vjust
makes the auto-guessing of the gap
parameter unusable, so we recommend always setting the gap
parameter whenever the offset
parameter is used.
p + geom_textpath(size = 4, offset = unit(1, "mm"), gap = FALSE) +
labs(subtitle = "offset = 1 mm")
#> Warning: The text offset exceeds the curvature in one or more paths. This will result in
#> displaced letters. Consider reducing the vjust or text size, or use the hjust
#> parameter to move the string to a different point on the path.
This offset
parameter can be used to place text at the
underline position relative to the path.
size <- 4
underline <- systemfonts::font_info(family = "fallback",
size = size * .pt)$underline_pos
underline <- unit(-underline, "pt")
# We need to prevent the automatic flipping of the text in this case
p + geom_textpath(size = size, offset = underline, gap = FALSE, upright = FALSE) +
labs(subtitle = "offset as underline")
#> Warning: The text offset exceeds the curvature in one or more paths. This will result in
#> displaced letters. Consider reducing the vjust or text size, or use the hjust
#> parameter to move the string to a different point on the path.
While geom_textpath()
tries to do a decent job of
plotting text along a curve, sometimes the text can feel ‘too tight’ or
‘too loose’. In order to adjust how text is spaced, there is a
spacing
aesthetic that for positive values increasing the
spacing and for negative values decreases the spacing. In typography,
this is also known as the ‘tracking’ of a text and the units are
measured in 1/1000 em, wherein ‘em’ is the typographical space that the
‘—’ em-dash occupies.
In addition to the custom or repurposed aesthetics, there are additional parameters that can be tuned. These are:
Several of these have been discussed above already, as they are closely related to aesthetics. Below follows a short explanation of the ones we haven’t seen yet.
Most people using the 26-lettered Latin alphabet are used to reading
their text left-to-right with the characters pointing upward. It might
happen that the curve orientation of the path runs counter to that
expectation: in the first plot below, this is the case for the top three
labels. To improve readability, strings for which the majority of
letters would be placed in the wrong order or at uncomfortable angles
are flipped automatically. If this is for some reason undesired, we can
turn off this behaviour by setting upright = FALSE
.
df <- data.frame(
x = cos(seq(0, 2 * pi, length.out = 11)[1:10]),
y = sin(seq(0, 2 * pi, length.out = 11)[1:10]),
lab = rep(c("Denial", "Anger", "Bargaining", "Depression", "Acceptance"),
each = 2)
)
plot <- ggplot(df, aes(x, y, label = lab)) +
coord_equal()
plot + geom_textpath(upright = FALSE) +
labs(subtitle = "upright = FALSE")
plot + geom_textpath(upright = TRUE) +
labs(subtitle = "upright = TRUE (default)")
Whereas we generally recommend using
geom_texpath(stat = "smooth")
or
geom_textsmooth()
or preprocessing the data when the paths
are too rough, there still might be cases in which that option isn’t
available. For example, if you’re already using a stat to calculate a
path, we cannot stack another smoothing stat on top of it. Generally,
when paths are noisy or have sharp curves and edges, placing text on
that path is going to look bad. This is due to the mismatch of what is
the numerically correct position to place a letter and what is the
correct position for readability purposes.
To provide a fallback for such cases, we have the
text_smoothing
parameter that attempts to deal with noisy
paths. It takes a value between 0 and 100 to indicate how much smoothing
should be applied, wherein 0 is no smoothing and 100 is a lot of
smoothing. Depending on the particular level of detail that is desired
to retain, the user should tweak this to their liking.
eco <- ggplot(economics, aes(date, unemploy))
eco +
geom_textpath(label = "Unemployment",
text_smoothing = 0, vjust = -0.5, hjust = 0.25) +
labs(subtitle = "text_smoothing = 0 (default)")
eco +
geom_textpath(label = "Unemployment",
text_smoothing = 30, vjust = -0.5, hjust = 0.25) +
labs(subtitle = "text_smoothing = 30")
Sometimes, for reasons beyond someone’s control, paths might be too
short to place a label on. When this presents a problem, we can remove
labels that are too long with remove_long = TRUE
.
df <- data.frame(
x = c(-0.5, 0.5, -1, 2),
y = c(0.5, 1.5, -1, 2),
lab = rep(c("This label is too long", "This label fits"), each = 2)
)
plot <- ggplot(df, aes(x, y, label = lab)) +
coord_equal()
plot + geom_textpath(size = 6, remove_long = FALSE) +
labs(subtitle = "remove_long = FALSE (default)")
plot + geom_textpath(size = 6, remove_long = TRUE) +
labs(subtitle = "remove_long = TRUE")
The {ggtext} package started supporting rich text in {ggplot2} through the {gridtext} package. Through borrowing from the {gridtext} package, {geomtextpath} also allows rich text, enabling a limited subset of Markdown, HTML and CSS to be displayed on curved text.
This can be useful is parts of a label need to be displayed differently than other parts. Enabling rich text makes it convenient to compose parts of strings with different colours, font families, font sizes, bold/italics or sub- and superscripts.
x <- seq(-3, 3, length.out = 100)
df <- data.frame(x = x, y = -x^2)
labels <- "With <b style='font-family:mono;color:red'>rich = "
labels <- paste0(labels, c("FALSE</b>", "TRUE</b>"))
plot <- ggplot(df, aes(x, y))
plot + geom_textpath(label = labels[1], rich = FALSE)
plot + geom_textpath(label = labels[2], rich = TRUE)
In order to help avoid clashing of labels when there is more than a
single labelled line on a plot, you may want to have each label given
its own vjust
or hjust
value. To make this
easier, we have included scale_hjust_discrete
and
scale_vjust_discrete
. This means that vjust and hjust can
be used as aesthetic mappings even on non-numeric data.
i <- ggplot(iris, aes(x = Sepal.Length, colour = Species, label = Species)) +
geom_textdensity(aes(vjust = Species, hjust = Species), size = 5) +
ylim(c(0, 1.3))
i + scale_vjust_discrete(range = c(-0.5, 0.5)) +
scale_hjust_discrete()
If we want more control over the exact position of each label, we can
use scale_hjust_manual()
and
scale_vjust_manual()
There is also the option for precise control using your input data
frame with scale_hjust_identity
and
scale_vjust_identity
, where the numbers in the mapped
column are read as literal values for the hjust and vjust of each
label.
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.