glue offers interpreted string literals that are small, fast, and dependency-free. glue does this by embedding R expressions in curly braces, which are then evaluated and inserted into the string.
# Install released version from CRAN
install.packages("glue")
# Install development version from GitHub
pak::pak("tidyverse/glue")
glue()
makes it easy to interpolate data into strings:
library(glue)
name <- "Fred"
glue("My name is {name}.")
#> My name is Fred.
stringr::str_glue()
is an alias for glue::glue()
. So if you’ve
already attached stringr (or perhaps the whole tidyverse), you can use
str_glue()
to access all of the functionality of glue()
:
library(stringr) # or library(tidyverse)
name <- "Wilma"
str_glue("My name is {name}.")
#> My name is Wilma.
You’re not limited to using a bare symbol inside {}
; it can be any
little bit of R code:
name <- "Pebbles"
glue("Here is my name in uppercase and doubled: {strrep(toupper(name), 2)}.")
#> Here is my name in uppercase and doubled: PEBBLESPEBBLES.
glue can interpolate values from the local environment or from data
passed in name = value
form:
x <- "the local environment"
glue(
"`glue()` can access values from {x} or from {y}. {z}",
y = "named arguments",
z = "Woo!"
)
#> `glue()` can access values from the local environment or from named arguments. Woo!
If the relevant data lives in a data frame (or list or environment), use
glue_data()
instead:
mini_mtcars <- head(cbind(model = rownames(mtcars), mtcars))
glue_data(mini_mtcars, "{model} has {hp} hp.")
#> Mazda RX4 has 110 hp.
#> Mazda RX4 Wag has 110 hp.
#> Datsun 710 has 93 hp.
#> Hornet 4 Drive has 110 hp.
#> Hornet Sportabout has 175 hp.
#> Valiant has 105 hp.
glue_data()
is very natural to use with the pipe:
mini_mtcars |>
glue_data("{model} gets {mpg} miles per gallon.")
#> Mazda RX4 gets 21 miles per gallon.
#> Mazda RX4 Wag gets 21 miles per gallon.
#> Datsun 710 gets 22.8 miles per gallon.
#> Hornet 4 Drive gets 21.4 miles per gallon.
#> Hornet Sportabout gets 18.7 miles per gallon.
#> Valiant gets 18.1 miles per gallon.
These glue_data()
examples also demonstrate that glue()
is
vectorized over the data.
glue()
lets you write code that makes it easy to predict what the
final string will look like. There is considerably less syntactical
noise and mystery compared to paste()
and sprintf()
.
Empty first and last lines are automatically trimmed, as is leading
whitespace that is common across all lines. You don’t have to choose
between indenting your code properly and getting the output you actually
want. Consider what happens when glue()
is used inside the body of a
function:
foo <- function() {
glue("
A formatted string
Can have multiple lines
with additional indention preserved")
}
foo()
#> A formatted string
#> Can have multiple lines
#> with additional indention preserved
The leading whitespace that is common to all 3 lines is absent from the result.
glue is a relatively small and focused package, but there’s more to it
than the basic usage of glue()
and glue_data()
shown here. More
recommended functions and resources:
- The “Get started” article (
vignette("glue")
) demonstrates more interesting features ofglue()
andglue_data()
. glue_sql()
andglue_data_sql()
are specialized functions for producing SQL statements.- glue provides a couple of custom knitr engines that allow you to use
glue syntax in chunks; learn more in
vignette("engines", package = "glue")
.
Please note that this project is released with a Contributor Code of Conduct. By participating in this project, you agree to abide by its terms.