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The withdots()
function adds ...
to the
argument list of a function if it does not already have it. This lets
the function tolerate extraneous arguments that are passed to it.
You can install the development version of withdots like so:
::install_github("NikKrieger/withdots") remotes
The base R function match()
has no ...
in
its argument list:
match#> function (x, table, nomatch = NA_integer_, incomparables = NULL)
#> .Internal(match(x, table, nomatch, incomparables))
#> <bytecode: 0x2646880>
#> <environment: namespace:base>
Therefore, it can’t handle extraneous arguments:
match("z", letters, bad_arg = "error!")
#> Error in match("z", letters, bad_arg = "error!"): unused argument (bad_arg = "error!")
But if we give it dots, then it can:
library(withdots)
<- withdots(match)
match_with_dots
match_with_dots("z", letters, can_now_handle = "junk arguments")
#> [1] 26
Functions that already have ...
in their argument list
are returned as is:
identical(lapply, withdots(lapply))
#> [1] TRUE
identical(c, withdots(c))
#> [1] TRUE
If a function is a primitive function (see ?primitive
)
with a well-defined argument list containing ...
(e.g.,
c()
, sum()
, as.character()
), then
withdots()
will return it as is. The test for a
“well-defined argument list,” given a function fn
, is
is.function(args(fn))
.
...
If the primitive has a well-defined argument list that does not
contain ...
(e.g., round()
,
is.na()
, sqrt()
), then withdots()
throws an error. To bypass this, all of these functions can be
pre-processed with rlang::as_closure()
, whose result can be
then passed to withdots()
. Observe:
# Observe that round() is a primitive function with no ... in its arg list:
round#> function (x, digits = 0) .Primitive("round")
# So, we can't pass it to withdots() as is:
withdots(round)
#> Error: f must be a closure (non-primitive) or a primitive with a
#> well-defined argument list that already contains ...
#> Consider passing f to rlang::as_closure() first.
# But if we turn it into a closure, we can give it dots:
library(rlang)
<- withdots(as_closure(round))
round
round#> function (x, digits = 0, ...)
#> .Primitive("round")(x, digits)
# And now it can handle extraneous arguments:
round(45.78, digits = 1, junk, arguments)
#> [1] 45.8
However, keep in mind that the argument matching behavior of the result may be different from what is expected, since primitives may use nonstandard argument matching.
If the primitive function does not have a well-defined argument list
(e.g., [
, ~
, function
,
for
), then withdots()
throws an error.
Some of these functions can be pre-processed with
rlang::as_closure()
, whose result definitely can be passed
to withdots()
. They are:
<- getNamespaceExports("base")
all_base <- setNames(nm = all_base)
all_base <- lapply(all_base, function(x) getExportedValue("base", x))
all_base <- Filter(is.primitive, all_base)
all_primitives
<-
primitive_non_well_defined_args Filter(function(fn) !is.function(args(fn)), all_primitives)
<-
as_closure_coercible Filter(
function(fn) tryCatch({as_closure(fn); TRUE}, error = function(e) FALSE),
primitive_non_well_defined_args
)
names(as_closure_coercible)
#> [1] "$" "(" ":" "=" "@" "[" "{" "~" "&&" "<-"
#> [11] "[[" "||" "[[<-" "$<-" "<<-" "@<-" "[<-"
However, there are a handful of primitives that
rlang::as_closure()
is unwilling to process and are
therefore ineligible for withdots()
. They are:
<-
as_closure_noncoercible Filter(
function(fn) tryCatch({as_closure(fn); FALSE}, error = function(e) TRUE),
primitive_non_well_defined_args
)
names(as_closure_noncoercible)
#> [1] "if" "function" "repeat" "for" "break" "return" "next"
#> [8] "while"
srcref
attribute
.Many functions—including those created with
function()
—have a srcref
attribute
. When a function is print
ed,
print.function()
relies on this attribute
by
default to depict the function’s formals
and
body
.
withdots()
adds ...
via
formals<-
, which expressly drops attributes
(see ?`formals<-`
). To prevent this loss,
withdots()
sets the function’s attributes
aside at the beginning and re-attaches them at the end. Normally, this
would re-attach the original function’s srcref
attribute
to the new function, making it so that the newly
added ...
would not be depicted when the new function is
print
ed. For this reason, the old srcref
attribute
is dropped, and only the remaining
attributes
are re-attached to the new function.
Observe what would happen during print
ing if
all original attributes
were naively added
to the modified function:
# Create a function with no dots:
<- function(a = 1) {
foo # Helpful comment
a
}
# Give it important attributes that we can't afford to lose:
attr(foo, "important_attribute") <- "crucial information"
class(foo) <- "very_special_function"
# Print foo, which also prints its important attributes:
foo#> function(a = 1) {
#> # Helpful comment
#> a
#> }
#> attr(,"important_attribute")
#> [1] "crucial information"
#> attr(,"class")
#> [1] "very_special_function"
# Save its attributes:
<- attributes(foo)
old_attributes
# Add dots:
formals(foo)[["..."]] <- quote(expr = )
# See that the important attributes have been dropped:
foo#> function (a = 1, ...)
#> {
#> a
#> }
# Add the attributes back:
attributes(foo) <- old_attributes
# Print it again, and we see that the attributes have returned.
# However, the ... disappears from the argument list.
foo#> function(a = 1) {
#> # Helpful comment
#> a
#> }
#> attr(,"important_attribute")
#> [1] "crucial information"
#> attr(,"class")
#> [1] "very_special_function"
# We know the actual function definitely has dots, since it can handle
# extraneous arguments:
foo(1, 2, junk, "arguments", NULL)
#> [1] 1
# Remove the "srcref" attribute, and the function is printed accurately.
# Furthermore, its important attributes are intact:
attr(foo, "srcref") <- NULL
foo#> function (a = 1, ...)
#> {
#> a
#> }
#> attr(,"important_attribute")
#> [1] "crucial information"
#> attr(,"class")
#> [1] "very_special_function"
# Success! However, the comments in the body of the function are lost.
# Even so, this is better than inaccurate `print`ing.
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.