Nothing
signs
In signs: Insert Proper Minus Signs
knitr::opts_chunk$set(
collapse = TRUE,
comment = "#>"
)
library(scales)
library(signs)
library(dplyr)
library(ggplot2)
library(ggrepel)
The Basics
Using signs is simple, especially if you're familiar
with functions like number(), number_format(),
comma(), comma_format(), percent(), and percent_format()
from the scales
package.
It simply provides two new functions to complement these:
signs() and signs_format().
- Points in group 1 are labeled with a true Unicode minus glyph.
- Points in group 2 are labeled with the traditional ASCII hyphen-minus.
- Basic usage is identical.
theme_set(theme_gray())
theme_update(
panel.grid.minor = element_blank(),
axis.text.y = element_blank(),
axis.ticks.y = element_blank()
)
p <-
ggplot(sleep) +
aes(group, extra) +
geom_point() +
xlab("Drug") +
ylab("Extra Sleep (hours)")
label_hours <- function(mapping) {
geom_text_repel(
mapping,
nudge_x = -.1,
direction = "y",
segment.size = .4,
segment.color = "grey75",
hjust = "right"
)
}
p +
label_hours(
aes(
label = case_when(
group == 1 ~ signs(extra, accuracy = .1),
group == 2 ~ number(extra, accuracy = .1)
)
)
)
Other Number Formats
You can use any formatting function with signs::signs()``r "\u2014"not just
scales::number().
Let's assume everyone gets 8 hours of sleep,
so we can label the points as percentages.
p +
ylab("Extra Sleep (% over 8 hours)") +
label_hours(
aes(
label = case_when(
group == 1 ~ signs(extra / 8, accuracy = .1, format = scales::percent),
group == 2 ~ percent(extra / 8, accuracy = .1)
)
)
)
Or we can muliply by days in a year and use scales::comma().
p +
ylab("Extra Sleep (hours / year)") +
label_hours(
aes(
label = case_when(
group == 1 ~ signs(extra * 365, format = scales::comma),
group == 2 ~ comma(extra * 365)
)
)
)
format can be any function that takes a numeric vector
and returns a character vector.
Matching by Position
Note that format and all other options (see below) come after the dots;
this way you can enjoy the same matching by position
you know from scales.
For example, if you prefer the simplicity of number(x, 1),
you can simply use signs(x, 1).
x <- seq(-4, 4)
number(x, 1) # first argument is accuracy
signs(x, 1) # first argument is accuracy
Other Arguments
signs::signs() offers 3 other arguments for convenience:
add_plussestrim_leading_zeroslabel_at_zero
(#3 is addressed below under Axis Labels.)
Sometimes, as with this dataset,
you want to show change from a baseline.
You might not only want to include a r "\u2212" in front of negative numbers,
but a + in front of positive numbers as well.
This is as simple as add_plusses = TRUE.
p +
label_hours(
aes(
label = case_when(
group == 1 ~ signs(extra, accuracy = .1, add_plusses = TRUE),
group == 2 ~ number(extra, accuracy = .1)
)
)
)
If all values are on the interval (r "\u2212"1, 1),
it can be more compact to remove leading zeros.
Do this with trim_leading_zeros = TRUE:
p +
ylim(-.8, .8) +
label_hours(
aes(
label = case_when(
group == 1 ~ signs(extra, accuracy = .1, trim_leading_zeros = TRUE),
group == 2 ~ number(extra, accuracy = .1)
)
)
) +
theme(
axis.text.y = element_blank(),
axis.ticks.y = element_blank()
)
Axis Labels
You can also use Unicode minus signs on an entire axis.
This function is called signs::signs_format(),
by analogy to scales::number_format(), scales::percent_format(),
and the rest of the _format() functions.
Note that it accepts the same optional arguments as signs::signs() as well.
theme_update(
axis.text.y = element_text(hjust = 1)
)
p +
scale_y_continuous(
limits = c(-.8, .8),
breaks = seq(-.8, .8, by = .2),
labels = signs_format(
accuracy = .1,
add_plusses = TRUE,
trim_leading_zeros = TRUE
)
) +
label_hours(
aes(
label = case_when(
group == 1 ~ signs(
extra,
accuracy = .1,
add_plusses = TRUE,
trim_leading_zeros = TRUE
),
group == 2 ~ number(extra, accuracy = .1)
)
)
)
You may want to treat zero itself differently,
particularly when every other value has either a plus or a minus.
Maybe you'll be extra pedantic about it with label_at_zero = "symbol"
(notice the y-axis labels below, not the data point labels):
p +
scale_y_continuous(
limits = c(-4, 6),
breaks = seq(-4, 6, by = 1),
labels = signs_format(
add_plusses = TRUE,
label_at_zero = "symbol"
)
) +
label_hours(
aes(
label = case_when(
group == 1 ~ signs(
extra,
accuracy = .1,
add_plusses = TRUE
),
group == 2 ~ number(extra, accuracy = .1)
)
)
)
Or, especially if the location of zero is already obvious,
you might want to leave it blank
with label_at_zero = "blank":
p +
scale_y_continuous(
limits = c(-4, 6),
breaks = seq(-4, 6, by = 1),
labels = signs_format(
add_plusses = TRUE,
label_at_zero = "blank"
)
) +
label_hours(
aes(
label = case_when(
group == 1 ~ signs(
extra,
accuracy = .1,
add_plusses = TRUE
),
group == 2 ~ number(extra, accuracy = .1)
)
)
)
Setting Options Globally
You can set format, add_plusses, trim_leading_zeros, or label_at_zero
globally for a script with options():
options(
signs.format = scales::number,
signs.add.plusses = TRUE,
signs.trim.leading.zeros = TRUE,
signs.label.at.zero = "none"
)
p +
scale_y_continuous(
limits = c(-.8, .8),
breaks = seq(-.8, .8, by = .2),
labels = signs_format(accuracy = .1, label_at_zero = "blank")
) +
label_hours(
aes(
label = case_when(
group == 1 ~ signs(extra, accuracy = .1),
group == 2 ~ number(extra, accuracy = .1)
)
)
)
The defaults are scales::number, FALSE, FALSE, and "none", respectively.
Try the signs package in your browser
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signs documentation built on March 26, 2020, 6:32 p.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
knitr::opts_chunk$set( collapse = TRUE, comment = "#>" )
library(scales) library(signs) library(dplyr) library(ggplot2) library(ggrepel)
The Basics
Using signs is simple, especially if you're familiar
with functions like number(), number_format(),
comma(), comma_format(), percent(), and percent_format()
from the scales
package.
It simply provides two new functions to complement these:
signs() and signs_format().
- Points in group 1 are labeled with a true Unicode minus glyph.
- Points in group 2 are labeled with the traditional ASCII hyphen-minus.
- Basic usage is identical.
theme_set(theme_gray()) theme_update( panel.grid.minor = element_blank(), axis.text.y = element_blank(), axis.ticks.y = element_blank() ) p <- ggplot(sleep) + aes(group, extra) + geom_point() + xlab("Drug") + ylab("Extra Sleep (hours)") label_hours <- function(mapping) { geom_text_repel( mapping, nudge_x = -.1, direction = "y", segment.size = .4, segment.color = "grey75", hjust = "right" ) } p + label_hours( aes( label = case_when( group == 1 ~ signs(extra, accuracy = .1), group == 2 ~ number(extra, accuracy = .1) ) ) )
Other Number Formats
You can use any formatting function with signs::signs()``r "\u2014"not just
scales::number().
Let's assume everyone gets 8 hours of sleep,
so we can label the points as percentages.
p + ylab("Extra Sleep (% over 8 hours)") + label_hours( aes( label = case_when( group == 1 ~ signs(extra / 8, accuracy = .1, format = scales::percent), group == 2 ~ percent(extra / 8, accuracy = .1) ) ) )
Or we can muliply by days in a year and use scales::comma().
p + ylab("Extra Sleep (hours / year)") + label_hours( aes( label = case_when( group == 1 ~ signs(extra * 365, format = scales::comma), group == 2 ~ comma(extra * 365) ) ) )
format can be any function that takes a numeric vector
and returns a character vector.
Matching by Position
Note that format and all other options (see below) come after the dots;
this way you can enjoy the same matching by position
you know from scales.
For example, if you prefer the simplicity of number(x, 1),
you can simply use signs(x, 1).
x <- seq(-4, 4) number(x, 1) # first argument is accuracy signs(x, 1) # first argument is accuracy
Other Arguments
signs::signs() offers 3 other arguments for convenience:
add_plussestrim_leading_zeroslabel_at_zero
(#3 is addressed below under Axis Labels.)
Sometimes, as with this dataset,
you want to show change from a baseline.
You might not only want to include a r "\u2212" in front of negative numbers,
but a + in front of positive numbers as well.
This is as simple as add_plusses = TRUE.
p + label_hours( aes( label = case_when( group == 1 ~ signs(extra, accuracy = .1, add_plusses = TRUE), group == 2 ~ number(extra, accuracy = .1) ) ) )
If all values are on the interval (r "\u2212"1, 1),
it can be more compact to remove leading zeros.
Do this with trim_leading_zeros = TRUE:
p + ylim(-.8, .8) + label_hours( aes( label = case_when( group == 1 ~ signs(extra, accuracy = .1, trim_leading_zeros = TRUE), group == 2 ~ number(extra, accuracy = .1) ) ) ) + theme( axis.text.y = element_blank(), axis.ticks.y = element_blank() )
Axis Labels
You can also use Unicode minus signs on an entire axis.
This function is called signs::signs_format(),
by analogy to scales::number_format(), scales::percent_format(),
and the rest of the _format() functions.
Note that it accepts the same optional arguments as signs::signs() as well.
theme_update( axis.text.y = element_text(hjust = 1) ) p + scale_y_continuous( limits = c(-.8, .8), breaks = seq(-.8, .8, by = .2), labels = signs_format( accuracy = .1, add_plusses = TRUE, trim_leading_zeros = TRUE ) ) + label_hours( aes( label = case_when( group == 1 ~ signs( extra, accuracy = .1, add_plusses = TRUE, trim_leading_zeros = TRUE ), group == 2 ~ number(extra, accuracy = .1) ) ) )
You may want to treat zero itself differently,
particularly when every other value has either a plus or a minus.
Maybe you'll be extra pedantic about it with label_at_zero = "symbol"
(notice the y-axis labels below, not the data point labels):
p + scale_y_continuous( limits = c(-4, 6), breaks = seq(-4, 6, by = 1), labels = signs_format( add_plusses = TRUE, label_at_zero = "symbol" ) ) + label_hours( aes( label = case_when( group == 1 ~ signs( extra, accuracy = .1, add_plusses = TRUE ), group == 2 ~ number(extra, accuracy = .1) ) ) )
Or, especially if the location of zero is already obvious,
you might want to leave it blank
with label_at_zero = "blank":
p + scale_y_continuous( limits = c(-4, 6), breaks = seq(-4, 6, by = 1), labels = signs_format( add_plusses = TRUE, label_at_zero = "blank" ) ) + label_hours( aes( label = case_when( group == 1 ~ signs( extra, accuracy = .1, add_plusses = TRUE ), group == 2 ~ number(extra, accuracy = .1) ) ) )
Setting Options Globally
You can set format, add_plusses, trim_leading_zeros, or label_at_zero
globally for a script with options():
options( signs.format = scales::number, signs.add.plusses = TRUE, signs.trim.leading.zeros = TRUE, signs.label.at.zero = "none" ) p + scale_y_continuous( limits = c(-.8, .8), breaks = seq(-.8, .8, by = .2), labels = signs_format(accuracy = .1, label_at_zero = "blank") ) + label_hours( aes( label = case_when( group == 1 ~ signs(extra, accuracy = .1), group == 2 ~ number(extra, accuracy = .1) ) ) )
The defaults are scales::number, FALSE, FALSE, and "none", respectively.
Try the signs package in your browser
Any scripts or data that you put into this service are public.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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