I have implemented a problem which determines the non-productive or inaccessible elements from a Grammar (Vn;Vt;P;S) where Vn - set of variables; Vt- set of terminals and P - production rules, and S - start symbol.
;;; Defining a grammar
(defvar *VN* '(A B C D S)) ; non-terminal variables
(defvar *VT* '(k m n)) ; terminal
(defvar *P* '((S A B) ; set of production rules
(S C D)
(S A k)
(A k)
(B m)
(B D m D)
(C n)))
;;; FINDING PRODUCTIVE ELEMENTS
(defun PROD-STEP (VT P PRODS)
;;(format t "P = ~S~%" P)
;;(format t "PRODS = ~S~%" PRODS)
(if (null P)
PRODS
(if (subsetp (rest (first P)) (union VT PRODS))
(PROD-STEP VT (rest P) (union (cons (first (first P)) nil) PRODS))
(PROD-STEP VT (rest P) PRODS))))
(defun PROD-AUX (VT P PRODS oldLength)
(if (= (length PRODS) oldLength)
PRODS
(PROD-AUX VT P (PROD-STEP VT P PRODS) (length PRODS))))
(defun PROD (VT P)
(PROD-AUX VT P nil -1))
;;; END OF FINDING PROD ELEMENTS
(trace PROD-STEP)
(trace PROD-AUX)
(trace PROD)
(PROD *VT* *P*)
;;; FINDING ACCESSIBLE ELEMENTS
(defun ACCESS-STEP (P ACC)
;;(format t "Pacc = ~S~%" P)
;;(format t "ACC = ~S~%" ACC)
(if (null P)
ACC
(if (member (first (first P)) ACC)
(ACCESS-STEP (rest P) (union (rest (first P)) ACC))
(ACCESS-STEP (rest P) ACC))))
(defun ACCESS-AUX (P ACC oldLength)
(if (= (length ACC) oldLength)
ACC
(ACCESS-AUX P (ACCESS-STEP P ACC) (length ACC))))
(defun ACCESS (P S)
;;(format t "Paccess = ~S~%" P)
(ACCESS-AUX P (cons S nil) 0))
;;; END OF FINDING ACCESSIBLE ELEMENTS
(trace ACCESS-STEP)
(trace ACCESS-AUX)
(trace ACCESS)
(ACCESS *P* 'S)
;;; REMOVING INACCESSIBLE AND NOT PRODUCTIVE ELEMENTS
(defun BuildRules-AUX (VT ACCS PRODS P newP)
;;(format t "newP = ~S~%" newP)
(if (null P)
newP
;; VN' = (ACCESS(G) INTERSECT PROD(G))
;; VT' = (VT INTERSECT ACCESS(G))
;; DACA REGULA ESTE A->X, A = (first (first P)) SI X = (rest (first P))
;; VERIFICAM DACA A APARTINE VN' SI X APARTINE (VT' UNION VN')
(if (and (member (first (first P)) (intersection PRODS ACCS))
(subsetp (rest (first P))
(union (intersection ACCS PRODS)
(intersection VT ACCS))))
(BuildRules-AUX VT ACCS PRODS (rest P) (union newP
(cons (first P) nil)))
(BuildRules-AUX VT ACCS PRODS (rest P) newP))))
(defun BuildRules (VT ACCS PRODS P)
(BuildRules-AUX VT ACCS PRODS P nil))
(trace BuildRules-AUX)
(trace BuildRules)
(BuildRules *VT* (ACCESS *P* 'S) (PROD *VT* *P*)*P*)
(defun SIMPL-AUX (VN VT P S ACCS PRODS)
(setq ACCS (ACCESS P S))
(setq PRODS (PROD VT P))
(if (and (null (set-difference (union VN VT) ACCS))
(null (set-difference VN PRODS)))
(cons VN (cons VT (cons P S)))
(SIMPL-AUX (intersection ACCS PRODS)
(intersection VT ACCS)
(BuildRules VT ACCS PRODS P)
S
ACCS
PRODS)))
(defun SIMPL (VN VT P S)
(SIMPL-AUX *VN* *VT* *P* 'S nil nil))
;;; END OF REMOVING INACCESSIBLE AND NOT PRODUCTIVE ELEMENTS
;;; GETTING THE RESULTS
(SIMPL *VN* *VT* *P* 'S)
But now I'm stuck with getting some intermediate results.
For productive and accessible it's clear that I would use PROD and ACCESS,
(PROD *VT* *P*)
(ACCESS *P* 'S)
but I'm not sure how to get some intermediate results for:
- Non-productive
- Not-accessible
as I have only one function for this:
(BuildRules *VT* (ACCESS *P* 'S) (PROD *VT* *P*) *P*)
Can you please help to figure this out?
terminalsinstead ofVT, orproduction-rulesinstead ofP.