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357 lines
19 KiB
Common Lisp
357 lines
19 KiB
Common Lisp
;;; The contents of this file are subject to the Netscape Public License
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;;; Version 1.0 (the "NPL"); you may not use this file except in
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;;; compliance with the NPL. You may obtain a copy of the NPL at
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;;; http://www.mozilla.org/NPL/
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;;;
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;;; Software distributed under the NPL is distributed on an "AS IS" basis,
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;;; WITHOUT WARRANTY OF ANY KIND, either express or implied. See the NPL
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;;; for the specific language governing rights and limitations under the
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;;; NPL.
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;;;
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;;; The Initial Developer of this code under the NPL is Netscape
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;;; Communications Corporation. Portions created by Netscape are
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;;; Copyright (C) 1998 Netscape Communications Corporation. All Rights
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;;; Reserved.
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;;;
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;;; Finite-state machine generator
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;;;
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;;; Waldemar Horwat (waldemar@netscape.com)
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;;;
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;;; ------------------------------------------------------------------------------------------------------
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;;; METATRANSITION
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(defstruct (metatransition (:constructor make-metatransition (next-metastate pre-productions post-productions)))
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(next-metastate nil :read-only t) ;Next metastate to enter or nil if this is an accept transition
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(pre-productions nil :read-only t) ;List of productions reduced by this transition (in order from first to last) before the shift
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(post-productions nil :read-only t)) ;List of productions reduced by this transition (in order from first to last) after the shift
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;;; ------------------------------------------------------------------------------------------------------
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;;; METASTATE
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;;; A metastate is a list of states that represents a possible stack that the
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;;; LALR(1) parser may encounter.
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(defstruct (metastate (:constructor make-metastate (stack number transitions)))
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(stack nil :type list :read-only t) ;List of states that comprises a possible stack
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(number nil :type integer :read-only t) ;Serial number of this metastate
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(transitions nil :type simple-vector :read-only t)) ;Array, indexed by terminal numbers, of either nil or metatransition structures
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(declaim (inline metastate-transition))
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(defun metastate-transition (metastate terminal-number)
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(svref (metastate-transitions metastate) terminal-number))
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(defun print-metastate (metastate metagrammar &optional (stream t))
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(let ((grammar (metagrammar-grammar metagrammar)))
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(pprint-logical-block (stream nil)
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(format stream "M~D:~2I ~@_~<~@{S~D ~:_~}~:>~:@_"
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(metastate-number metastate)
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(nreverse (mapcar #'state-number (metastate-stack metastate))))
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(let ((transitions (metastate-transitions metastate)))
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(dotimes (terminal-number (length transitions))
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(let ((transition (svref transitions terminal-number))
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(terminal (svref (grammar-terminals grammar) terminal-number)))
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(when transition
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(let ((next-metastate (metatransition-next-metastate transition)))
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(pprint-logical-block (stream nil)
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(format stream "~W ==> ~@_~:I~:[accept~;M~:*~D~] ~_"
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terminal
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(and next-metastate (metastate-number next-metastate)))
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(pprint-fill stream (mapcar #'production-name (metatransition-pre-productions transition)))
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(format stream " ~@_")
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(pprint-fill stream (mapcar #'production-name (metatransition-post-productions transition))))
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(pprint-newline :mandatory stream)))))))))
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(defmethod print-object ((metastate metastate) stream)
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(print-unreadable-object (metastate stream)
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(format stream "metastate S~D" (metastate-number metastate))))
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;;; ------------------------------------------------------------------------------------------------------
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;;; METAGRAMMAR
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(defstruct (metagrammar (:constructor allocate-metagrammar))
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(grammar nil :type grammar :read-only t) ;The grammar to which this metagrammar corresponds
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(metastates nil :type list :read-only t) ;List of metastates ordered by metastate numbers
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(start nil :type metastate :read-only t)) ;The start metastate
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(defun make-metagrammar (grammar)
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(let* ((terminals (grammar-terminals grammar))
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(n-terminals (length terminals))
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(metastates-hash (make-hash-table :test #'equal)) ;Hash table of (list of state) -> metastate
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(metastates nil)
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(metastate-number -1))
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(labels
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(;Return the stack after applying the given reduction production.
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(apply-reduction-production (stack production)
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(let* ((stack (nthcdr (production-rhs-length production) stack))
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(state (first stack))
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(dst-state (assert-non-null
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(cdr (assoc (production-lhs production) (state-gotos state) :test *grammar-symbol-=*))))
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(dst-stack (cons dst-state stack)))
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(if (member dst-state stack :test #'eq)
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(error "This grammar cannot be represented by a FSM. Stack: ~S" dst-stack)
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dst-stack)))
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(get-metatransition (stack terminal productions)
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(let* ((state (first stack))
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(transition (cdr (assoc terminal (state-transitions state) :test *grammar-symbol-=*))))
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(when transition
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(case (transition-kind transition)
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(:shift
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(multiple-value-bind (metastate forwarding-productions) (get-metastate (transition-state transition) stack t)
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(make-metatransition metastate (nreverse productions) forwarding-productions)))
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(:reduce
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(let ((production (transition-production transition)))
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(get-metatransition (apply-reduction-production stack production) terminal (cons production productions))))
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(:accept (make-metatransition nil (nreverse productions) nil))
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(t (error "Bad transition: ~S" transition))))))
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;Return the metastate corresponding to the state stack (stack-top . stack-rest). Construct a new
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;metastate if necessary.
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;If simplify is true and stack-top is a state for which every outgoing transition is the same
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;reduction, return two values:
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; the metastate reached by following that reduction (doing it recursively if needed)
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; a list of reduction productions followed this way.
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(get-metastate (stack-top stack-rest simplify)
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(let* ((stack (cons stack-top stack-rest))
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(existing-metastate (gethash stack metastates-hash)))
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(cond
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(existing-metastate (values existing-metastate nil))
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((member stack-top stack-rest :test #'eq)
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(error "This grammar cannot be represented by a FSM. Stack: ~S" stack))
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(t (let ((forwarding-production (and simplify (forwarding-state-production stack-top))))
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(if forwarding-production
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(let ((stack (apply-reduction-production stack forwarding-production)))
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(multiple-value-bind (metastate forwarding-productions) (get-metastate (car stack) (cdr stack) simplify)
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(values metastate (cons forwarding-production forwarding-productions))))
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(let* ((transitions (make-array n-terminals :initial-element nil))
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(metastate (make-metastate stack (incf metastate-number) transitions)))
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(setf (gethash stack metastates-hash) metastate)
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(push metastate metastates)
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(dotimes (n n-terminals)
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(setf (svref transitions n)
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(get-metatransition stack (svref terminals n) nil)))
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(values metastate nil)))))))))
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(let ((start-metastate (get-metastate (grammar-start-state grammar) nil nil)))
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(allocate-metagrammar :grammar grammar
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:metastates (nreverse metastates)
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:start start-metastate)))))
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; Print the metagrammar nicely.
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(defun print-metagrammar (metagrammar &optional (stream t) &key (grammar t) (details t))
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(pprint-logical-block (stream nil)
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(when grammar
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(print-grammar (metagrammar-grammar metagrammar) stream :details details))
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;Print the metastates.
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(format stream "Start metastate: ~@_M~D~:@_~:@_" (metastate-number (metagrammar-start metagrammar)))
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(pprint-logical-block (stream (metagrammar-metastates metagrammar))
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(pprint-exit-if-list-exhausted)
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(format stream "Metastates:~2I~:@_")
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(loop
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(print-metastate (pprint-pop) metagrammar stream)
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(pprint-exit-if-list-exhausted)
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(pprint-newline :mandatory stream))))
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(pprint-newline :mandatory stream))
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(defmethod print-object ((metagrammar metagrammar) stream)
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(print-unreadable-object (metagrammar stream :identity t)
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(write-string "metagrammar" stream)))
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; Find the longest possible prefix of the input list of tokens that is accepted by the
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; grammar. Parse that prefix and return two values:
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; the list of action results;
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; the tail of the input list of tokens remaining to be parsed.
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; Signal an error if no prefix of the input list is accepted by the grammar.
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;
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; token-terminal is a function that returns a terminal symbol when given an input token.
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; If trace is:
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; nil, don't print trace information
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; :code, print trace information, including action code
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; other print trace information
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(defun action-metaparse (metagrammar token-terminal input &key trace)
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(if trace
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(trace-action-metaparse metagrammar token-terminal input trace)
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(let ((grammar (metagrammar-grammar metagrammar)))
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(labels
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((transition-value-stack (value-stack productions)
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(dolist (production productions)
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(setq value-stack (funcall (production-evaluator production) value-stack)))
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value-stack)
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(cut (input good-metastate good-input good-value-stack)
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(unless good-metastate
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(error "Parse error on ~S ..." (ldiff input (nthcdr 10 input))))
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(let ((last-metatransition (metastate-transition good-metastate *end-marker-terminal-number*)))
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(assert-true (null (metatransition-next-metastate last-metatransition)))
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(assert-true (null (metatransition-post-productions last-metatransition)))
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(values
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(reverse (transition-value-stack good-value-stack (metatransition-pre-productions last-metatransition)))
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good-input))))
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(do ((metastate (metagrammar-start metagrammar))
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(input input (cdr input))
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(value-stack nil)
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(last-good-metastate nil)
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last-good-input
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last-good-value-stack)
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(nil)
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(when (metastate-transition metastate *end-marker-terminal-number*)
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(setq last-good-metastate metastate)
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(setq last-good-input input)
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(setq last-good-value-stack value-stack))
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(when (endp input)
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(return (cut input last-good-metastate last-good-input last-good-value-stack)))
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(let* ((token (first input))
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(terminal (funcall token-terminal token))
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(terminal-number (terminal-number grammar terminal))
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(metatransition (metastate-transition metastate terminal-number)))
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(unless metatransition
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(return (cut input last-good-metastate last-good-input last-good-value-stack)))
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(setq value-stack (transition-value-stack value-stack (metatransition-pre-productions metatransition)))
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(dolist (action-function-binding (gethash terminal (grammar-terminal-actions grammar)))
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(push (funcall (cdr action-function-binding) token) value-stack))
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(setq value-stack (transition-value-stack value-stack (metatransition-post-productions metatransition)))
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(setq metastate (metatransition-next-metastate metatransition))))))))
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; Same as action-parse, but with tracing information
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; If trace is:
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; :code, print trace information, including action code
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; other print trace information
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(defun trace-action-metaparse (metagrammar token-terminal input trace)
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(let
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((grammar (metagrammar-grammar metagrammar)))
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(labels
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((print-stacks (value-stack type-stack)
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(write-string " " *trace-output*)
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(if value-stack
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(print-values (reverse value-stack) (reverse type-stack) *trace-output*)
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(write-string "empty" *trace-output*))
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(pprint-newline :mandatory *trace-output*))
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(transition-value-stack (value-stack type-stack productions)
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(dolist (production productions)
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(write-string " reduce " *trace-output*)
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(if (eq trace :code)
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(write production :stream *trace-output* :pretty t)
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(print-production production *trace-output*))
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(pprint-newline :mandatory *trace-output*)
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(setq value-stack (funcall (production-evaluator production) value-stack))
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(setq type-stack (nthcdr (production-n-action-args production) type-stack))
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(dolist (action-signature (grammar-symbol-signature grammar (production-lhs production)))
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(push (cdr action-signature) type-stack))
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(print-stacks value-stack type-stack))
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(values value-stack type-stack))
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(cut (input good-metastate good-input good-value-stack good-type-stack)
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(unless good-metastate
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(error "Parse error on ~S ..." (ldiff input (nthcdr 10 input))))
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(let ((last-metatransition (metastate-transition good-metastate *end-marker-terminal-number*)))
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(assert-true (null (metatransition-next-metastate last-metatransition)))
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(assert-true (null (metatransition-post-productions last-metatransition)))
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(format *trace-output* "cut to M~D~:@_" (metastate-number good-metastate))
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(print-stacks good-value-stack good-type-stack)
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(pprint-newline :mandatory *trace-output*)
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(values
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(reverse (transition-value-stack good-value-stack good-type-stack (metatransition-pre-productions last-metatransition)))
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good-input))))
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(do ((metastate (metagrammar-start metagrammar))
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(input input (cdr input))
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(value-stack nil)
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(type-stack nil)
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(last-good-metastate nil)
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last-good-input
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last-good-value-stack
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last-good-type-stack)
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(nil)
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(format *trace-output* "M~D" (metastate-number metastate))
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(when (metastate-transition metastate *end-marker-terminal-number*)
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(write-string " (good)" *trace-output*)
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(setq last-good-metastate metastate)
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(setq last-good-input input)
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(setq last-good-value-stack value-stack)
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(setq last-good-type-stack type-stack))
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(write-string ": " *trace-output*)
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(when (endp input)
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(return (cut input last-good-metastate last-good-input last-good-value-stack last-good-type-stack)))
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(let* ((token (first input))
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(terminal (funcall token-terminal token))
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(terminal-number (terminal-number grammar terminal))
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(metatransition (metastate-transition metastate terminal-number)))
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(unless metatransition
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(format *trace-output* "shift ~W: " terminal)
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(return (cut input last-good-metastate last-good-input last-good-value-stack last-good-type-stack)))
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(format *trace-output* "transition to M~D~:@_" (metastate-number (metatransition-next-metastate metatransition)))
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(multiple-value-setq (value-stack type-stack)
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(transition-value-stack value-stack type-stack (metatransition-pre-productions metatransition)))
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(dolist (action-function-binding (gethash terminal (grammar-terminal-actions grammar)))
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(push (funcall (cdr action-function-binding) token) value-stack))
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(dolist (action-signature (grammar-symbol-signature grammar terminal))
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(push (cdr action-signature) type-stack))
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(format *trace-output* "shift ~W~:@_" terminal)
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(print-stacks value-stack type-stack)
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(multiple-value-setq (value-stack type-stack)
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(transition-value-stack value-stack type-stack (metatransition-post-productions metatransition)))
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(setq metastate (metatransition-next-metastate metatransition)))))))
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; Compute all representative strings of terminals such that, for each such string S:
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; S is rejected by the grammar's language;
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; all prefixes of S are also rejected by the grammar's language;
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; for any S and all strings of terminals T, the concatenated string ST is also
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; rejected by the grammar's language;
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; no string S1 is a prefix of (or equal to) another string S2.
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; Often there are infinitely many such strings S, so only output one for each illegal
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; metaparser transition.
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; Return a list of S's, where each S is itself a list of terminals.
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(defun compute-illegal-strings (metagrammar)
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(let* ((grammar (metagrammar-grammar metagrammar))
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(terminals (grammar-terminals grammar))
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(n-terminals (length terminals))
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(metastates (metagrammar-metastates metagrammar))
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(n-metastates (length metastates))
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(visited-metastates (make-array n-metastates :element-type 'bit :initial-element 0))
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(illegal-strings nil))
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(labels
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((visit (metastate reversed-string)
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(let ((metastate-number (metastate-number metastate)))
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(when (= (sbit visited-metastates metastate-number) 0)
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(setf (sbit visited-metastates metastate-number) 1)
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(let ((metatransitions (metastate-transitions metastate)))
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;If there is a transition for the end marker from this state, then string
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;is accepted by the language, so cut off the search.
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(unless (svref metatransitions *end-marker-terminal-number*)
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(dotimes (terminal-number n-terminals)
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(unless (= terminal-number *end-marker-terminal-number*)
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(let ((metatransition (svref metatransitions terminal-number))
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(reversed-string (cons (svref terminals terminal-number) reversed-string)))
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(if metatransition
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(visit (metatransition-next-metastate metatransition) reversed-string)
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(push (reverse reversed-string) illegal-strings)))))))))))
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(visit (metagrammar-start metagrammar) nil)
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(nreverse illegal-strings))))
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; Compute and print illegal strings of terminals. See compute-illegal-strings.
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(defun print-illegal-strings (metagrammar &optional (stream t))
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(pprint-logical-block (stream (compute-illegal-strings metagrammar))
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(format stream "Illegal strings:~2I")
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(loop
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(pprint-exit-if-list-exhausted)
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(pprint-newline :mandatory stream)
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(pprint-fill stream (pprint-pop))))
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(pprint-newline :mandatory stream))
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