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;;;  define.lisp --- grammar rules definition

;;;  Copyright (C) 2003-2006, 2009 by Walter C. Pelissero

;;;  Author: Walter C. Pelissero <walter@pelissero.de>
;;;  Project: NPG a Naive Parser Generator

#+cmu (ext:file-comment "$Module: define.lisp $")

;;; This library is free software; you can redistribute it and/or
;;; modify it under the terms of the GNU Lesser General Public License
;;; as published by the Free Software Foundation; either version 2.1
;;; of the License, or (at your option) any later version.
;;; This library is distributed in the hope that it will be useful,
;;; but WITHOUT ANY WARRANTY; without even the implied warranty of
;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
;;; Lesser General Public License for more details.
;;; You should have received a copy of the GNU Lesser General Public
;;; License along with this library; if not, write to the Free
;;; Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
;;; 02111-1307 USA

(in-package :naive-parser-generator)

;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;

(defvar *smart-default-reduction* t
  "If true the default reductions take only the non-static tokens -
those that are not declared as strings in the grammar.")

;; These two are filled with DEFRULE.
(defvar *rules* (make-rules-table))
(defvar *keywords* (make-keywords-table))

(defun make-action-arguments (tokens)
  "Given a list of tokens making up a production, return three values:
the list of variables for the function reducing this production, those
that are non static and their unambiguous user-friendly names."
  (flet ((unique (sym list)
           (if (not (assoc sym list))
               sym
               (loop
                  for i of-type fixnum from 2
                  for x = (intern (format nil "~:@(~A~)~A" sym i))
                  while (assoc x list)
                  finally (return x)))))
    (loop
       for tok in tokens
       for i of-type fixnum from 1
       for arg = (intern (format nil "$~A" i) (find-package #.*package*))
       collect arg into args
       unless (const-terminal-p tok)
         collect arg into vars
         and when (symbolp tok)
           collect (list (unique tok named-vars) arg) into named-vars
       when (and (listp tok)
                 (symbolp (cadr tok)))
         collect (list (unique (cadr tok) named-vars) arg) into named-vars
       finally
       (return (values args vars named-vars)))))

(defun make-action-function (name tokens action)
  "Create a function with name NAME, arguments derived from TOKENS and
body ACTION.  Return it's definition."
  (let ((function
         (multiple-value-bind (args vars named-vars)
             (make-action-arguments tokens)
           `(lambda ,args
              (declare (ignorable ,@args))
              (let (($vars (list ,@vars))
                    ($all (list ,@args))
                    ,@named-vars
                    ($alist (list ,@(mapcar #'(lambda (v)
                                                `(cons ',(intern (symbol-name (car v)))
                                                       ,(cadr v)))
                                            named-vars))))
                (declare (ignorable $vars $all $alist ,@(mapcar #'car named-vars)))
                (flet ((make-object (&optional type args)
                         (apply #'make-instance (or type ',name)
                                (append args $alist))))
                  ,action))))))
    (when *compile-print*
      (if *compile-verbose*
          (format t "; Compiling ~S:~%  ~S~%" name function)
          (format t "; Compiling ~S~%" name)))
    (compile name function)))

(defun define-rule (name productions)
  "Accept a rule in EBNF-like syntax, translate it into a sexp and a
call to INSERT-RULE-IN-CURRENT-GRAMMAR."
  (flet ((transform (productions)
           (loop
              for tok in productions
              with prod = nil
              with action = nil
              with phase = nil
              with new-prods = nil
              while tok
              do (cond ((eq tok :=)
                        (push (list (nreverse prod) action) new-prods)
                        (setf prod nil
                              action nil
                              phase :prod))
                       ((eq tok :reduce)
                        (setf phase :action))
                       ((eq tok :tag)
                        (setf phase :tag))
                       ((eq phase :tag)
                        (setf action `(cons ,tok $vars)))
                       ((eq phase :action)
                        (setf action tok))
                       ((eq phase :prod)
                        (push tok prod)))
              finally
                (return (cdr (nreverse (cons (list (nreverse prod) action) new-prods)))))))
    (insert-rule-in-current-grammar name (transform productions))))

(defmacro defrule (name &rest productions)
  "Wrapper macro for DEFINE-RULE."
  `(define-rule ',name ',productions))

(defun make-optional-rule (token)
  "Make a rule for a possibly missing (non)terminal (? syntax) and
return it."
  (insert-rule-in-current-grammar
   (gensym (concatenate 'string "OPT-"
                        (if (rule-p token)
                            (symbol-name (rule-name token))
                            (string-upcase token))))
   `(((,token)) (()))))

(defun make-alternative-rule (tokens)
  "Make a rule for a list of alternatives (\"or\" syntax) and return it."
  (insert-rule-in-current-grammar
   (gensym "ALT")
   (mapcar #'(lambda (alternative)
               `((,alternative)))
           tokens)))

(defun make-nonempty-list-rule (token &optional separator)
  "Make a rule for a non-empty list (+ syntax) and return it."
  (let ((rule-name (gensym (concatenate 'string "NELST-"
                                        (if (rule-p token)
                                            (symbol-name (rule-name token))
                                            (string-upcase token))))))
    (insert-rule-in-current-grammar
     rule-name
     (if separator
         `(((,token ,separator ,rule-name)
            (cons $1 $3))
           ((,token) ,#'list))
         `(((,token ,rule-name)
            (cons $1 $2))
           ((,token) ,#'list))))))

(defun make-list-rule (token &optional separator)
  "Make a rule for a possibly empty list (* syntax) return it."
  (make-optional-rule (make-nonempty-list-rule token separator)))

(defun const-terminal-p (object)
  (or (stringp object)
      (keywordp object)))

(defun expand-production-token (tok)
  "Translate token of the type NAME? or NAME* or NAME+ into (? NAME)
or (* NAME) or (+ NAME).  This is used by the DEFRULE macro."
  (if (symbolp tok)
      (let* ((name (symbol-name tok))
             (last (char name (1- (length name))))
             ;; this looks silly but we need to make sure that we
             ;; return symbols interned in this package, no one else
             (op (cadr (assoc last '((#\? ?) (#\+ +) (#\* *))))))
        (if (and (> (length name) 1) op)
            (list op
                  (intern (subseq name 0 (1- (length name)))))
            tok))
      tok))

(defun EBNF-to-SEBNF (tokens)
  "Take a production as a list of TOKENS and expand it.  This turns a
EBNF syntax into a sexp-based EBNF syntax or SEBNF."
  (loop
     for tok in tokens
     for token = (expand-production-token tok)
     with new-tokens = '()
     do (cond ((member token '(* + ?))
               (setf (car new-tokens)
                     (list token (car new-tokens))))
              (t
               (push token new-tokens)))
     finally (return (nreverse new-tokens))))

(defun SEBNF-to-BNF (tokens)
  "Take a production in SEBNF (Symbolic Extended BNF) syntax and turn
it into BNF.  The production is simplified but the current grammar is
populated with additional rules."
  (flet ((make-complex-token-rule (tok)
           (ecase (car tok)
             (* (apply #'make-list-rule (cdr tok)))
             (+ (apply #'make-nonempty-list-rule (cdr tok)))
             (? (make-optional-rule (cadr tok)))
             (or (make-alternative-rule (cdr tok))))))
    (loop
       for token in tokens
       with new-tokens = '()
       with keywords = '()
       do (cond ((listp token)
                 (push (make-complex-token-rule token) new-tokens))
                (t
                 (push token new-tokens)
                 (when (const-terminal-p token)
                   (push token keywords))))
       finally (return (values (nreverse new-tokens) keywords)))))

(defun make-default-action-function (name tokens)
  "Create a sexp to be used as default action in case one is not
supplied in the production.  This is usually a quite sensible
one.  That is, only the non-constant tokens are returned in a
list and in case only a variable token is available that one is
returned (not included in a list).  If all the tokens are
constant, then all of them are returned in a list."
  (cond ((null tokens)
         ;; if the production matched the empty list (no tokens) we
         ;; return always nil, that is the function LIST applied to no
         ;; arguments
         #'list)
        ((null (cdr tokens))
         ;; if the production matches just one token we simply return
         ;; that
         #'identity)
        (*smart-default-reduction*
         ;; If we are required to be "smart" then create a function
         ;; that simply returns the non static tokens of the
         ;; production.  If the production doesn't have nonterminal,
         ;; then return all the tokens.  If the production has only
         ;; one argument then return that one only.
         (make-action-function name tokens '(cond
                                             ((null $vars) $all)
                                             ((null (cdr $vars)) (car $vars))
                                             (t $vars))))
        (t
         ;; in all the other cases we return all the token matching
         ;; the production
         #'list)))

(defun make-production-from-descr (name production-description)
  "Take a production NAME and its description in the form of a sexp
and return a production structure object together with a list of used
keywords."
  (destructuring-bind (tokens &optional action) production-description
    (let ((expanded-tokens (EBNF-to-SEBNF tokens)))
      (multiple-value-bind (production-tokens keywords)
          (sebnf-to-bnf expanded-tokens)
      (let ((funct
             (cond ((not action)
                    (make-default-action-function name expanded-tokens))
                   ((or (listp action)
                        ;; the case when the action is simply to
                        ;; return a token (ie $2) or a constant value
                        (symbolp action))
                    (make-action-function name expanded-tokens action))
                   ((functionp action)
                    action)
                   (t			; action is a constant
                    #'(lambda (&rest args)
                        (declare (ignore args))
                        action)))))
        (values
         ;; Make a promise instead of actually resolving the
         ;; nonterminals.  This avoids endless recursion.
         (make-production :tokens production-tokens
                          :tokens-length (length production-tokens)
                          :action funct)
         keywords))))))

(defun remove-immediate-left-recursivity (rule)
  "Turn left recursive rules of the type
    A -> A x | y
into
    A -> y A2
    A2 -> x A2 | E
where E is the empty production."
  (let ((name (rule-name rule))
        (productions (rule-productions rule)))
    (loop
       for prod in productions
       for tokens = (prod-tokens prod)
       ;; when immediately left recursive
       when (eq (car tokens) rule)
       collect prod into left-recursive
       else
       collect prod into non-left-recursive
       finally
         ;; found any left recursive production?
         (when left-recursive
           (warn "rule ~S is left recursive" name)
           (let ((new-rule (make-rule :name (gensym "REWRITE"))))
             ;; A -> y A2
             (setf (rule-productions rule)
                   (mapcar #'(lambda (p)
                               (let ((tokens (prod-tokens p))
                                     (action (prod-action p)))
                                 (make-production :tokens (append tokens (list new-rule))
                                                  :tokens-length (1+ (prod-tokens-length p))
                                                  :action #'(lambda (&rest args)
                                                              (let ((f-A2 (car (last args)))
                                                                    (head (butlast args)))
                                                                (funcall f-A2 (apply action head)))))))
                           non-left-recursive))
             ;; A2 -> x A2 | E
             (setf (rule-productions new-rule)
                   (append
                    (mapcar #'(lambda (p)
                                (let ((tokens (prod-tokens p))
                                      (action (prod-action p)))
                                  (make-production :tokens (append (cdr tokens) (list new-rule))
                                                   :tokens-length (prod-tokens-length p)
                                                   :action #'(lambda (&rest args)
                                                               (let ((f-A2 (car (last args)))
                                                                     (head (butlast args)))
                                                                 #'(lambda (x)
                                                                     (funcall f-A2 (apply action x head))))))))
                            left-recursive)
                    (list
                     (make-production :tokens nil
                                      :tokens-length 0
                                      :action #'(lambda () #'(lambda (arg) arg)))))))))))

(defun remove-left-recursivity-from-rules (rules)
  (loop
     for rule being each hash-value in rules
     do
     ;; More to be done here.  For now only the trivial immediate left
     ;; recursivity is removed -wcp18/11/03.
       (remove-immediate-left-recursivity rule)))

(defun resolve-all-nonterminals (rules)
  (loop
     for rule being each hash-value in rules
     do (loop
           for production in (rule-productions rule)
           do (setf (prod-tokens production)
                    (resolve-nonterminals (prod-tokens production) rules)))))

(defun make-rule-productions (rule-name production-descriptions)
  "Return a production object that belongs to RULE-NAME made according
to PRODUCTION-DESCRIPTIONS.  See also MAKE-PRODUCTION-FROM-DESCR."
  (loop
     for descr in production-descriptions
     for i of-type fixnum from 1 by 1
     for prod-name = (intern (format nil "~:@(~A~)-PROD~A" rule-name i))
     with productions = '()
     with keywords = '()
     do (progn
          (multiple-value-bind (production keyws)
              (make-production-from-descr prod-name descr)
            (push production productions)
            (setf keywords (append keyws keywords))))
     finally (return
               (values (nreverse productions) keywords))))

(defun create-rule (name production-descriptions)
  "Return a new rule object together with a list of keywords making up
the production definitions."
  (multiple-value-bind (productions keywords)
      (make-rule-productions name production-descriptions)
    (values (make-rule :name name :productions productions)
            keywords)))

(defun insert-rule-in-current-grammar (name productions)
  "Add rule to the current grammar and its keywords to the keywords
hash table.  You don't want to use this directly.  See DEFRULE macro
instead."
  (when (find-rule name *rules*)
    (error "redefining rule ~A" name))
  (multiple-value-bind (rule keywords)
      (create-rule name productions)
    (add-rule name rule *rules*)
    (dolist (term keywords)
      (add-keyword term *keywords*))
    rule))

(defun resolve-nonterminals (tokens rules)
  "Given a list of production tokens, try to expand the nonterminal
ones with their respective rule from the the RULES pool."
  (flet ((resolve-symbol (sym)
           (or (find-rule sym rules)
               sym)))
    (mapcar #'(lambda (tok)
                (if (symbolp tok)
                    (resolve-symbol tok)
                    tok))
            tokens)))

(defun reset-grammar ()
  "Empty the current grammar from any existing rule."
  (setf *rules* (make-rules-table)
        *keywords* (make-keywords-table)))

(defun generate-grammar (&optional (equal-p #'string-equal))
  "Return a GRAMMAR structure suitable for the PARSE function, using
the current rules.  EQUAL-P, if present, is a function to be used to
match the input tokens; it defaults to STRING-EQUAL."
  (resolve-all-nonterminals *rules*)
  (remove-left-recursivity-from-rules *rules*)
  (make-grammar :rules *rules*
                :keywords *keywords*
                :equal-p equal-p))