knitr::opts_chunk$set(collapse = TRUE, comment = "#>") options(tibble.print_min = 6L, tibble.print_max = 6L) set.seed(1014) # Manually "import"; only needed for old dplyr which uses old tidyselect # which doesn't attach automatically in tidy-select contexts all_of <- tidyselect::all_of
Most tidyr verbs use tidy evaluation to make interactive data exploration fast and fluid. Tidy evaluation is a special type of non-standard evaluation used throughout the tidyverse. Here's some typical tidyr code:
library(tidyr) iris %>% nest(data = !Species)
Tidy evaluation is why we can use !Species
to say "all the columns except Species
", without having to quote the column name ("Species"
) or refer to the enclosing data frame (iris$Species
).
Two basic forms of tidy evaluation are used in tidyr:
Tidy selection: drop_na()
, fill()
, pivot_longer()
/pivot_wider()
,
nest()
/unnest()
, separate()
/extract()
, and unite()
let you select
variables based on position, name, or type (e.g. 1:3
, starts_with("x")
, or is.numeric
). Literally, you can use all the same techniques as with
dplyr::select()
.
Data masking: expand()
, crossing()
and nesting()
let you refer to
use data variables as if they were variables in the environment (i.e. you
write my_variable
not df$my_variable
).
We focus on tidy selection here, since it's the most common. You can learn more about data masking in the equivalent vignette in dplyr: https://dplyr.tidyverse.org/dev/articles/programming.html. For other considerations when writing tidyr code in packages, please see vignette("in-packages")
.
We've pointed out that tidyr's tidy evaluation interface is optimized for interactive exploration. The flip side is that this adds some challenges to indirect use, i.e. when you're working inside a for
loop or a function. This vignette shows you how to overcome those challenges. We'll first go over the basics of tidy selection and data masking, talk about how to use them indirectly, and then show you a number of recipes to solve common problems.
Before we go on, we reveal the version of tidyr we're using and make a small dataset to use in examples.
packageVersion("tidyr") mini_iris <- as_tibble(iris)[c(1, 2, 51, 52, 101, 102), ] mini_iris
Underneath all functions that use tidy selection is the tidyselect package. It provides a miniature domain specific language that makes it easy to select columns by name, position, or type. For example:
select(df, 1)
selects the first column;
select(df, last_col())
selects the last column.
select(df, c(a, b, c))
selects columns a
, b
, and c
.
select(df, starts_with("a"))
selects all columns whose name starts with "a";
select(df, ends_with("z"))
selects all columns whose name ends with "z".
select(df, where(is.numeric))
selects all numeric columns.
You can see more details in ?tidyr_tidy_select
.
Tidy selection makes a common task easier at the cost of making a less common task harder. When you want to use tidy select indirectly with the column specification stored in an intermediate variable, you'll need to learn some new tools. There are three main cases where this comes up:
When you have the tidy-select specification in a function argument, you must embrace the argument by surrounding it in doubled braces.
```r nest_egg <- function(df, cols) { nest(df, egg = {{ cols }}) }
nest_egg(mini_iris, !Species) ```
When you have a character vector of variable names, you must use all_of()
or any_of()
depending on whether you want the function to error if a
variable is not found. These functions allow you to write for loops or a
function that takes variable names as a character vector.
```r nest_egg <- function(df, cols) { nest(df, egg = all_of(cols)) }
vars <- c("Sepal.Length", "Sepal.Width", "Petal.Length", "Petal.Width") nest_egg(mini_iris, vars) ```
In more complicated cases, you might want to use tidyselect directly:
r
sel_vars <- function(df, cols) {
tidyselect::eval_select(rlang::enquo(cols), df)
}
sel_vars(mini_iris, !Species)
Learn more in vignette("tidyselect")
.
Note that many tidyr functions use ...
so you can easily select many variables, e.g. fill(df, x, y, z)
. I now believe that the disadvantages of this approach outweigh the benefits, and that this interface would have been better as fill(df, c(x, y, z))
. For new functions that select columns, please just use a single argument and not ...
.
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