There is no disadvantage in defining
(defun hash-keys (hash-table)
(loop for key being the hash-keys of hash-table collect key))
because in Common Lisp the function is compiled. If your vendor provided this function, it would pretty much do the same thing and not be much more efficient than yours, if at all.
In interpreted languages, nearly anything you write yourself has a performance disadvantage compared to an "intrinsic" routine.
Consing up the contents of a hash is wasteful; loop lets you process the hash without consing up memory. So maybe you want a macro instead (Some Lisps provide a
dohash or similar as an extension).
(defmacro do-hash ((key-var val-var hash-expr &optional result-form) &body body)
(let ((hash-var (gensym "HASH-")))
`(loop with ,hash-var = ,hash-expr
for ,key-var being the hash-keys of ,hash-var
for ,val-var being the hash-values of ,hash-var
do (progn ,@body)
finally (return ,result-form))))
Or a hash mapping function:
(defun mapc-hash (hash-table fun)
(loop for key being the hash-keys of hash-table
for value being the hash-values of hash-table
do (funcall fun key value)))
Should the language have every possible gadget like this that anyone can write in a minute?
In Common Lisp, there are included batteries, but they are other kinds of batteries: things that are actually hard to do. For example, a
compile function for dynamically compiling code at run time. It would be prohibitively difficult for most users to develop such a thing from scratch compared to pulling keys or values from a hash table in half a dozen different ways.