You can get basic control over how a vector is printed in a tibble by
providing a format()
method. If you want greater control,
you need to understand how printing works. The presentation of a column
in a tibble is controlled by two S3 generics:
vctrs::vec_ptype_abbr()
determines what goes into the
column header.pillar::pillar_shaft()
determines what goes into the
body, or the shaft, of the column.Technically a pillar is composed of a shaft (decorated with an ornament), with a capital above and a base below. Multiple pillars form a colonnade, which can be stacked in multiple tiers. This is the motivation behind the names in our API.
This short vignette shows the basics of column styling using a
"latlon"
vector. The vignette imagines the code is in a
package, so that you can see the roxygen2 commands you’ll need to create
documentation and the NAMESPACE
file. In this vignette,
we’ll attach pillar and vctrs:
You don’t need to do this in a package. Instead, you’ll need to
import the packages by then to the Imports:
section of your DESCRIPTION
. The following helper does this
for you:
To illustrate the basic ideas we’re going to create a
"latlon"
class that encodes geographic coordinates in a
record. We’ll pretend that this code lives in a package called earth.
For simplicity, the values are printed as degrees and minutes only. By
using vctrs_rcrd()
, we already get the infrastructure to
make this class fully compatible with data frames for free. See
vignette("s3-vector", package = "vctrs")
for details on the
record data type.
#' @export
latlon <- function(lat, lon) {
new_rcrd(list(lat = lat, lon = lon), class = "earth_latlon")
}
#' @export
format.earth_latlon <- function(x, ..., formatter = deg_min) {
x_valid <- which(!is.na(x))
lat <- field(x, "lat")[x_valid]
lon <- field(x, "lon")[x_valid]
ret <- rep(NA_character_, vec_size(x))
ret[x_valid] <- paste0(formatter(lat, "lat"), " ", formatter(lon, "lon"))
# It's important to keep NA in the vector!
ret
}
deg_min <- function(x, direction) {
pm <- if (direction == "lat") c("N", "S") else c("E", "W")
sign <- sign(x)
x <- abs(x)
deg <- trunc(x)
x <- x - deg
min <- round(x * 60)
# Ensure the columns are always the same width so they line up nicely
ret <- sprintf("%d°%.2d'%s", deg, min, ifelse(sign >= 0, pm[[1]], pm[[2]]))
format(ret, justify = "right")
}
latlon(c(32.71, 2.95), c(-117.17, 1.67))
#> <earth_latlon[2]>
#> [1] 32°43'N 117°10'W 2°57'N 1°40'E
Columns of this class can be used in a tibble right away because
we’ve made a class using the vctrs infrastructure and have provided a
format()
method:
library(tibble)
#>
#> Attaching package: 'tibble'
#> The following object is masked from 'package:vctrs':
#>
#> data_frame
loc <- latlon(
c(28.3411783, 32.7102978, 30.2622356, 37.7859102, 28.5, NA),
c(-81.5480348, -117.1704058, -97.7403327, -122.4131357, -81.4, NA)
)
data <- tibble(venue = "rstudio::conf", year = 2017:2022, loc = loc)
data
#> # A tibble: 6 × 3
#> venue year loc
#> <chr> <int> <erth_ltl>
#> 1 rstudio::conf 2017 28°20'N 81°33'W
#> 2 rstudio::conf 2018 32°43'N 117°10'W
#> 3 rstudio::conf 2019 30°16'N 97°44'W
#> 4 rstudio::conf 2020 37°47'N 122°25'W
#> 5 rstudio::conf 2021 28°30'N 81°24'W
#> 6 rstudio::conf 2022 NA
This output is ok, but we could improve it by:
Using a more description type abbreviation than
<erth_ltl>
.
Using a dash of colour to highlight the most important parts of the value.
Providing a narrower view when horizontal space is at a premium.
The following sections show how to enhance the rendering.
Instead of <erth_ltl>
we’d prefer to use
<latlon>
. We can do that by implementing the
vec_ptype_abbr()
method, which should return a string that
can be used in a column header. For your own classes, strive for an
evocative abbreviation that’s under 6 characters.
#' @export
vec_ptype_abbr.earth_latlon <- function(x) {
"latlon"
}
data
#> # A tibble: 6 × 3
#> venue year loc
#> <chr> <int> <latlon>
#> 1 rstudio::conf 2017 28°20'N 81°33'W
#> 2 rstudio::conf 2018 32°43'N 117°10'W
#> 3 rstudio::conf 2019 30°16'N 97°44'W
#> 4 rstudio::conf 2020 37°47'N 122°25'W
#> 5 rstudio::conf 2021 28°30'N 81°24'W
#> 6 rstudio::conf 2022 NA
The format()
method is used by default for rendering.
For custom formatting you need to implement the
pillar_shaft()
method. This function should always return a
pillar shaft object, created by new_pillar_shaft_simple()
or similar. new_pillar_shaft_simple()
accepts ANSI escape
codes for colouring, and pillar includes some built in styles like
style_subtle()
. We can use subtle style for the degree and
minute separators to make the data more obvious.
First we define a degree formatter that makes use of
style_subtle()
:
deg_min_color <- function(x, direction) {
pm <- if (direction == "lat") c("N", "S") else c("E", "W")
sign <- sign(x)
x <- abs(x)
deg <- trunc(x)
x <- x - deg
rad <- round(x * 60)
ret <- sprintf(
"%d%s%.2d%s%s",
deg,
pillar::style_subtle("°"),
rad,
pillar::style_subtle("'"),
pm[ifelse(sign >= 0, 1, 2)]
)
format(ret, justify = "right")
}
And then we pass that to our format()
method:
#' @importFrom pillar pillar_shaft
#' @export
pillar_shaft.earth_latlon <- function(x, ...) {
out <- format(x, formatter = deg_min_color)
pillar::new_pillar_shaft_simple(out, align = "right")
}
Currently, ANSI escapes are not rendered in vignettes, so this result doesn’t look any different, but if you run the code yourself you’ll see an improved display.
data
#> # A tibble: 6 × 3
#> venue year loc
#> <chr> <int> <latlon>
#> 1 rstudio::conf 2017 28°20'N 81°33'W
#> 2 rstudio::conf 2018 32°43'N 117°10'W
#> 3 rstudio::conf 2019 30°16'N 97°44'W
#> 4 rstudio::conf 2020 37°47'N 122°25'W
#> 5 rstudio::conf 2021 28°30'N 81°24'W
#> 6 rstudio::conf 2022 NA
As well as the functions in pillar, the cli package provides a variety of tools for styling text.
Tibbles can automatically compacts columns when there’s no enough horizontal space to display everything:
print(data, width = 30)
#> # A tibble: 6 × 3
#> venue year loc
#> <chr> <int> <latlon>
#> 1 rstu… 2017 28°20'N 81°33'W
#> 2 rstu… 2018 32°43'N 117°10'W
#> 3 rstu… 2019 30°16'N 97°44'W
#> 4 rstu… 2020 37°47'N 122°25'W
#> 5 rstu… 2021 28°30'N 81°24'W
#> 6 rstu… 2022 NA
Currently the latlon class isn’t ever compacted because we haven’t specified a minimum width when constructing the shaft. Let’s fix that and re-print the data:
#' @importFrom pillar pillar_shaft
#' @export
pillar_shaft.earth_latlon <- function(x, ...) {
out <- format(x)
pillar::new_pillar_shaft_simple(out, align = "right", min_width = 10)
}
print(data, width = 30)
#> # A tibble: 6 × 3
#> venue year loc
#> <chr> <int> <latlon>
#> 1 rstudio::c… 2017 28°20'N …
#> 2 rstudio::c… 2018 32°43'N 1…
#> 3 rstudio::c… 2019 30°16'N …
#> 4 rstudio::c… 2020 37°47'N 1…
#> 5 rstudio::c… 2021 28°30'N …
#> 6 rstudio::c… 2022 NA
Truncation may be useful for character data, but for lat-lon data it’d be nicer to show full degrees and remove the minutes. We’ll first write a function that does this:
deg <- function(x, direction) {
pm <- if (direction == "lat") c("N", "S") else c("E", "W")
sign <- sign(x)
x <- abs(x)
deg <- round(x)
ret <- sprintf("%d°%s", deg, pm[ifelse(sign >= 0, 1, 2)])
format(ret, justify = "right")
}
Then use it as part of more sophisticated implementation of the
pillar_shaft()
method:
#' @importFrom pillar pillar_shaft
#' @export
pillar_shaft.earth_latlon <- function(x, ...) {
deg <- format(x, formatter = deg)
deg_min <- format(x)
pillar::new_pillar_shaft(
list(deg = deg, deg_min = deg_min),
width = pillar::get_max_extent(deg_min),
min_width = pillar::get_max_extent(deg),
class = "pillar_shaft_latlon"
)
}
Now the pillar_shaft()
method returns an object of class
"pillar_shaft_latlon"
created by
new_pillar_shaft()
. This object contains the necessary
information to render the values, and also minimum and maximum width
values. For simplicity, both formats are pre-rendered, and the minimum
and maximum widths are computed from there.
(get_max_extent()
is a helper that computes the maximum
display width occupied by the values in a character vector.)
All that’s left to do is to implement a format()
method
for our new "pillar_shaft_latlon"
class. This method will
be called with a width
argument, which then determines
which of the formats to choose. The formatting of our choice is passed
to the new_ornament()
function:
#' @export
format.pillar_shaft_latlon <- function(x, width, ...) {
if (get_max_extent(x$deg_min) <= width) {
ornament <- x$deg_min
} else {
ornament <- x$deg
}
pillar::new_ornament(ornament, align = "right")
}
data
#> # A tibble: 6 × 3
#> venue year loc
#> <chr> <int> <latlon>
#> 1 rstudio::conf 2017 28°20'N 81°33'W
#> 2 rstudio::conf 2018 32°43'N 117°10'W
#> 3 rstudio::conf 2019 30°16'N 97°44'W
#> 4 rstudio::conf 2020 37°47'N 122°25'W
#> 5 rstudio::conf 2021 28°30'N 81°24'W
#> 6 rstudio::conf 2022 NA
print(data, width = 30)
#> # A tibble: 6 × 3
#> venue year loc
#> <chr> <int> <latlon>
#> 1 rstudio::c… 2017 28°N 82°W
#> 2 rstudio::c… 2018 33°N 117°W
#> 3 rstudio::c… 2019 30°N 98°W
#> 4 rstudio::c… 2020 38°N 122°W
#> 5 rstudio::c… 2021 28°N 81°W
#> 6 rstudio::c… 2022 NA
If you want to test the output of your code, you can compare it with
a known state recorded in a text file. The
testthat::expect_snapshot()
function offers an easy way to
test output-generating functions. It takes care about details such as
Unicode, ANSI escapes, and output width. Furthermore it won’t make the
tests fail on CRAN. This is important because your output may rely on
details out of your control, which should be fixed eventually but should
not lead to your package being removed from CRAN.
Use this testthat expectation in one of your test files to create a snapshot test:
See https://testthat.r-lib.org/articles/snapshotting.html for more information.