How can I remove nested parentheses recursively in Common LISP Such as
(unnest '(a b c (d e) ((f) g))) => (a b c d e f g) (unnest '(a b)) => (a b) (unnest '(() ((((a)))) ())) => (a)
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Here's what I'd do:
(ql:quickload "alexandria") (alexandria:flatten list)
That works mainly because I have Quicklisp installed already.
I realize this is an old thread, but it is one of the first that comes up when I google lisp flatten. The solution I discovered is similar to those discussed above, but the formatting is slightly different. I will explain it as if you are new to lisp, as I was when I first googled this question, so it's likely that others will be too.
(defun flatten (L) "Converts a list to single level." (if (null L) nil (if (atom (first L)) (cons (first L) (flatten (rest L))) (append (flatten (first L)) (flatten (rest L))))))
For those new to lisp, this is a brief summary.
The following line declares a function called flatten with argument L.
(defun flatten (L)
The line below checks for an empty list.
(if (null L)
The next line returns nil because cons ATOM nil declares a list with one entry (ATOM). This is the base case of the recursion and lets the function know when to stop. The line after this checks to see if the first item in the list is an atom instead of another list.
(if (atom (first L))
Then, if it is, it uses recursion to create a flattened list of this atom combined with the rest of the flattened list that the function will generate. cons combines an atom with another list.
(cons (first L) (flatten (rest L)))
If it's not an atom, then we have to flatten on it, because it is another list that may have further lists inside of it.
(append (flatten (first L)) (flatten (rest L))))))
The append function will append the first list to the start of the second list. Also note that every time you use a function in lisp, you have to surround it with parenthesis. This confused me at first.
Lisp has the function
remove to remove things. Here I use a version
REMOVE-IF that removes every item for which a predicate is true. I test if the thing is a parenthesis and remove it if true.
If you want to remove parentheses, see this function:
(defun unnest (thing) (read-from-string (concatenate 'string "(" (remove-if (lambda (c) (member c '(#\( #\)))) (princ-to-string thing)) ")")))
Note, though, as Svante mentions, one does not usually 'remove' parentheses.
Most of the answers have already mentioned a recursive solution to the Flatten problem. Using Common Lisp Object System's multiple dispatching you could solve the problem recursively by defining 3 methods for 3 possible scenarios:
(defmethod flatten ((tree null)) "Tree is empty list." ()) (defmethod flatten ((tree list)) "Tree is a list." (append (flatten (car tree)) (flatten (cdr tree)))) (defmethod flatten (tree) "Tree is something else (atom?)." (list tree)) (flatten '(2 ((8) 2 (9 (d (s (((((a))))))))))) ; => (2 8 2 9 D S A)
This is a accumulator based approach. The local function %flatten keeps an accumulator of the tail (the right part of the list that's already been flattened). When the part remaining to be flattened (the left part of the list) is empty, it returns the tail. When the part to be flattened is a non-list, it returns that part prefixed onto the tail. When the part to be flattened is a list, it flattens the rest of the list (with the current tail), then uses that result as the tail for flattening the first part of the list.
(defun flatten (list) (labels ((%flatten (list tail) (cond ((null list) tail) ((atom list) (list* list tail)) (t (%flatten (first list) (%flatten (rest list) tail)))))) (%flatten list '())))
CL-USER> (flatten '((1 2) (3 4) ((5) 6) 7)) (1 2 3 4 5 6 7)
I know this question is really old but I noticed that nobody used the push/nreverse idiom, so I am uploading that here.
reverse-atomize takes out each "atom" and puts it into the
output of the next call. At the end it produces a flattened list that is backwards, which is resolved with the
nreverse function in the
(defun reverse-atomize (tree output) "Auxillary function for atomize" (if (null tree) output (if (atom (car tree)) (reverse-atomize (cdr tree) (push (car tree) output)) (reverse-atomize (cdr tree) (nconc (reverse-atomize (car tree) nil) output))))) (defun atomize (tree) "Flattens a list into only the atoms in it" (nreverse (reverse-atomize tree nil)))
atomize '((a b) (c) d) looks like this:
(A B C D)
And if you were to call
reverse-atomize '((a b) (c) d) this would occur:
(D C B A)
People like using functions like
nconc because they use less RAM than their respective
append functions. That being said the double recursive nature of
reverse-atomize does come with it's own RAMifications.
This popular question only has recursive solutions (not counting Rainer's answer).
Let's have a loop version:
(defun flatten (tree &aux todo flat) (check-type tree list) (loop (shiftf todo tree nil) (unless todo (return flat)) (dolist (elt todo) (if (listp elt) (dolist (e elt) (push e tree)) (push elt flat))))))