is_named() is a scalar predicate that checks that x has a
names attribute and that none of the names are missing or empty
(NA or "").
is_named2() is like is_named() but always returns TRUE for
empty vectors, even those that don't have a names attribute.
In other words, it tests for the property that each element of a
vector is named. is_named2() composes well with names2()
whereas is_named() composes with names().
have_name() is a vectorised variant.
is_named(x)
is_named2(x)
have_name(x)A vector to test.
is_named() and is_named2() are scalar predicates that
return TRUE or FALSE. have_name() is vectorised and returns
a logical vector as long as the input.
is_named() always returns TRUE for empty vectors because
# is_named() is a scalar predicate about the whole vector of names:
is_named(c(a = 1, b = 2))
#> [1] TRUE
is_named(c(a = 1, 2))
#> [1] FALSE
# Unlike is_named2(), is_named() returns `FALSE` for empty vectors
# that don't have a `names` attribute.
is_named(list())
#> [1] FALSE
is_named2(list())
#> [1] TRUE
# have_name() is a vectorised predicate
have_name(c(a = 1, b = 2))
#> [1] TRUE TRUE
have_name(c(a = 1, 2))
#> [1] TRUE FALSE
# Empty and missing names are treated as invalid:
invalid <- set_names(letters[1:5])
names(invalid)[1] <- ""
names(invalid)[3] <- NA
is_named(invalid)
#> [1] FALSE
have_name(invalid)
#> [1] FALSE TRUE FALSE TRUE TRUE
# A data frame normally has valid, unique names
is_named(mtcars)
#> [1] TRUE
have_name(mtcars)
#> [1] TRUE TRUE TRUE TRUE TRUE TRUE TRUE TRUE TRUE TRUE TRUE
# A matrix usually doesn't because the names are stored in a
# different attribute
mat <- matrix(1:4, 2)
colnames(mat) <- c("a", "b")
is_named(mat)
#> [1] FALSE
names(mat)
#> NULL