Path: news.eternal-september.org!eternal-september.org!.POSTED!not-for-mail From: "B. Pym" Newsgroups: comp.lang.lisp,comp.lang.scheme Subject: Re: count symbols in a list Date: Sun, 6 Jul 2025 19:30:29 -0000 (UTC) Organization: A noiseless patient Spider Lines: 68 Message-ID: <104eisk$2d5qt$1@dont-email.me> References: <104eaue$2am2p$1@dont-email.me> MIME-Version: 1.0 Content-Type: text/plain; charset=iso-8859-1 Injection-Date: Sun, 06 Jul 2025 21:30:30 +0200 (CEST) Injection-Info: dont-email.me; posting-host="e9607d0181b6eedff585ea84ac51b55a"; logging-data="2529117"; mail-complaints-to="abuse@eternal-september.org"; posting-account="U2FsdGVkX1+zJ7Sg/p+kpxTyJGfIDjwy" User-Agent: XanaNews/1.18.1.6 Cancel-Lock: sha1:98GSwzWSMZ5gExHzKVZ6cpfU+J0= B. Pym wrote: > Erik Naggum wrote: > > > > I want to write a function that takes a list of symbols k and and lisp > > > expression l and counts the number of times each symbol in k occurs in > > > the lisp expression. It should return an alist binding each symbol to its > > > count. I want to do this without flattening the list before I go through > > > it looking for symbols. > > > > Look for two things in this code: How it is formatted, and how it does > > its work. (The way you have formatted your code annoys people.) Explain > > to me why this works and gives the right answer when you have ascertained > > that it does. Explain why it is efficient in both time and space. > > > > (defun count-member (symbols tree) > > (let* ((counts (loop for symbol in symbols collect (cons symbol 0))) > > Why didn't he use the simpler "mapcar" instead of "loop"? > Example: > > (mapcar (lambda(s) (cons s 0)) '(a b c)) > ===> > ((A . 0) (B . 0) (C . 0)) > > > > (lists (list tree)) > > (tail lists)) > > (dolist (list lists) > > (dolist (element list) > > (cond ((consp element) > > (setf tail (setf (cdr tail) (list element)))) > > ((member element symbols :test #'eq) > > (incf (cdr (assoc element counts :test #'eq))))))) > > counts)) > > > Testing: > > * (count-member '(w x y z) '(a x (b y y (z) z))) > > ((W . 0) (X . 1) (Y . 0) (Z . 0)) > > It only counts the top-level symbols! > Looking at the code, it seems that he tried to avoid recursion by continually modifying the list over which he was iterating. Let's try it that way. Gauche Scheme ;; Using list-copy to remove immutability. (define (count-member symbols tree) (let ((counts (map (cut cons <> 0) symbols)) (tree (list-copy tree))) (dolist (x tree) (cond ((pair? x) (set! tree (append! tree (list-copy x)))) (#t (let1 found (assoc x counts) (if found (inc! (cdr found))))))) counts)) (count-member '(w x y z) '(a x (b y y (z) z))) ===> ((w . 0) (x . 1) (y . 2) (z . 2))