Step 1: use standard formatting (repairing the first toplevel form).
(defvar A '((X Y Z) (J L O P) (G W U)))
(defvar Z '(X W D U G))
(defvar STOP 'G)
(defun ADD_to_Z (A2)
(prog ()
(cond ((equal (Member_Of_Z (list A2)) 0))
(t (setq Z (append Z (list A2)))))))
(defun Member_of_Z (cdr_A1)
(prog (n temp)
(setq n 0)
(setq temp cdr_A1)
repeat
(cond ((null temp) (return n))
((null (member (car temp) Z) ) (setq n (+ n 1)) (setq temp (cdr temp)))
(t (setq n (+ n 0)) (setq temp (cdr temp))))
(go repeat)))
(defun TEST (A)
(prog (A1 A2)
(cond ((null A ) (return 'Fail))
(t (setq A1 (car A))
(setq A (cdr A))
(setq A2 (car A1))
(cond ((equal (Member_Of_Z (cdr A1)) 0)
(cond ((equal A2 STOP) (return 'SUCCESS))
(t (ADD_to_Z A2) (setq A (cdr A)) (TEST A) )))
(t (TEST A)))))))
Step 2: use standard naming.
(defvar *a* '((x y z) (j l o p) (g w u)))
(defvar *z* '(x w d u g))
(defvar *stop* 'g)
(defun add-to-z (a2)
(prog ()
(cond ((equal (member-of-z (list a2)) 0))
(t (setq *z* (append *z* (list a2)))))))
(defun member-of-z (cdr-a1)
(prog (n temp)
(setq n 0)
(setq temp cdr-a1)
repeat
(cond ((null temp) (return n))
((null (member (car temp) *z*)) (setq n (+ n 1)) (setq temp (cdr temp)))
(t (setq n (+ n 0)) (setq temp (cdr temp))))
(go repeat)))
(defun test (a)
(prog (a1 a2)
(cond ((null a) (return 'fail))
(t (setq a1 (car a))
(setq a (cdr a))
(setq a2 (car a1))
(cond ((equal (member-of-z (cdr a1)) 0)
(cond ((equal a2 *stop*) (return 'success))
(t (add-to-z a2) (setq a (cdr a)) (test a))))
(t (test a)))))))
Step 3: get rid of PROG.
(defvar *a* '((x y z) (j l o p) (g w u)))
(defvar *z* '(x w d u g))
(defvar *stop* 'g)
(defun add-to-z (a2)
(cond ((equal (member-of-z (list a2)) 0))
(t (setq *z* (append *z* (list a2))))))
(defun member-of-z (cdr-a1)
(let ((n 0)
(temp cdr-a1))
repeat
(cond ((null temp) (return n))
((null (member (car temp) z)) (setq n (+ n 1)) (setq temp (cdr temp)))
(t (setq n (+ n 0)) (setq temp (cdr temp))))
(go repeat)))
(defun test (a)
(cond ((null a) (return 'fail))
(t (let ((a1 (car a))
(a (cdr a))
(a2 (car a1)))
(cond ((equal (member-of-z (cdr a1)) 0)
(cond ((equal a2 *stop*) (return 'success))
(t (add-to-z a2) (setq a (cdr a)) (test a))))
(t (test a)))))))
Step 4: replace hand-rolled loop with a structured one.
(defvar *a* '((x y z) (j l o p) (g w u)))
(defvar *z* '(x w d u g))
(defvar *stop* 'g)
(defun add-to-z (a2)
(cond ((equal (member-of-z (list a2)) 0))
(t (setq *z* (append *z* (list a2))))))
(defun member-of-z (cdr-a1)
(let ((n 0)
(temp cdr-a1))
(loop :for element :in temp
:unless (member element *z*)
:do (incf n))
n))
(defun test (a)
(cond ((null a) (return 'fail))
(t (let ((a1 (car a))
(a (cdr a))
(a2 (car a1)))
(cond ((equal (member-of-z (cdr a1)) 0)
(cond ((equal a2 *stop*) (return 'success))
(t (add-to-z a2) (setq a (cdr a)) (test a))))
(t (test a)))))))
Step 5: replace two-clause COND with IF. Reduce RETURN forms when they are in
tail position anyway (and they don't work like that).
(defvar *a* '((x y z) (j l o p) (g w u)))
(defvar *z* '(x w d u g))
(defvar *stop* 'g)
(defun add-to-z (a2)
(if (equal (member-of-z (list a2)) 0)
nil
(setq *z* (append *z* (list a2)))))
(defun member-of-z (cdr-a1)
(let ((n 0)
(temp cdr-a1))
(loop :for element :in temp
:unless (member element *z*)
:do (incf n))
n))
(defun test (a)
(if (null a)
'fail
(let ((a1 (car a))
(a (cdr a))
(a2 (car a1)))
(if (equal (member-of-z (cdr a1)) 0)
(if (equal a2 *stop*)
'success
(progn (add-to-z a2) (setq a (cdr a)) (test a)))
(test a)))))
Step 6: replace loop with simple counting function.
(defvar *a* '((x y z) (j l o p) (g w u)))
(defvar *z* '(x w d u g))
(defvar *stop* 'g)
(defun add-to-z (a2)
(if (equal (member-of-z (list a2)) 0)
nil
(setq *z* (append *z* (list a2)))))
(defun member-of-z (cdr-a1)
(count-if-not (lambda (element)
(member element *z*))
cdr-a1))
(defun test (a)
(if (null a)
'fail
(let ((a1 (car a))
(a (cdr a))
(a2 (car a1)))
(if (equal (member-of-z (cdr a1)) 0)
(if (equal a2 *stop*)
'success
(progn
(add-to-z a2)
(setq a (cdr a))
(test a)))
(test a)))))
At this point, I still have no idea what you are trying to do. Perhaps you want
to find a list in *a*
that is completely contained in *z*
:
(defun test (a)
(find-if (lambda (list)
(every (lambda (element)
(member element *z*))
list))
a))
A
(or it's trying to, but the function parameter shadows the binding).defvar
variables lack their*earmuffs*
so they are indistinguishable with lexical variables. When you aresetq
-ingA
it's the parameter intest
and not the misnamed global you are changing.