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patmatch.lisp
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patmatch.lisp
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;;;; -*- Mode: Lisp; Syntax: Common-Lisp -*-
;;;; Code from Paradigms of AI Programming
;;;; Copyright (c) 1991 Peter Norvig
;;;; File pat-match.lisp: Pattern matcher from section 6.2
;;; Two bug fixes By Richard Fateman, [email protected] October 92.
;;; The basic are in auxfns.lisp; look for "PATTERN MATCHING FACILITY"
(defun variable-p (x)
"Is x a variable (a symbol beginning with `?')?"
(and (symbolp x) (equal (elt (symbol-name x) 0) #\?)))
(defun pat-match (pattern input &optional (bindings no-bindings))
"Match pattern against input in the context of the bindings"
(cond ((eq bindings fail) fail)
((variable-p pattern)
(match-variable pattern input bindings))
((eql pattern input) bindings)
((segment-pattern-p pattern)
(segment-matcher pattern input bindings))
((single-pattern-p pattern) ; ***
(single-matcher pattern input bindings)) ; ***
((and (consp pattern) (consp input))
(pat-match (rest pattern) (rest input)
(pat-match (first pattern) (first input)
bindings)))
(t fail)))
(setf (get '?is 'single-match) 'match-is)
(setf (get '?or 'single-match) 'match-or)
(setf (get '?and 'single-match) 'match-and)
(setf (get '?not 'single-match) 'match-not)
(setf (get '?* 'segment-match) 'segment-match)
(setf (get '?+ 'segment-match) 'segment-match+)
(setf (get '?? 'segment-match) 'segment-match?)
(setf (get '?if 'segment-match) 'match-if)
(defun segment-pattern-p (pattern)
"Is this a segment-matching pattern like ((?* var) . pat)?"
(and (consp pattern) (consp (first pattern))
(symbolp (first (first pattern)))
(segment-match-fn (first (first pattern)))))
(defun single-pattern-p (pattern)
"Is this a single-matching pattern?
E.g. (?is x predicate) (?and . patterns) (?or . patterns)."
(and (consp pattern)
(single-match-fn (first pattern))))
(defun segment-matcher (pattern input bindings)
"Call the right function for this kind of segment pattern."
(funcall (segment-match-fn (first (first pattern)))
pattern input bindings))
(defun single-matcher (pattern input bindings)
"Call the right function for this kind of single pattern."
(funcall (single-match-fn (first pattern))
(rest pattern) input bindings))
(defun segment-match-fn (x)
"Get the segment-match function for x,
if it is a symbol that has one."
(when (symbolp x) (get x 'segment-match)))
(defun single-match-fn (x)
"Get the single-match function for x,
if it is a symbol that has one."
(when (symbolp x) (get x 'single-match)))
(defun match-is (var-and-pred input bindings)
"Succeed and bind var if the input satisfies pred,
where var-and-pred is the list (var pred)."
(let* ((var (first var-and-pred))
(pred (second var-and-pred))
(new-bindings (pat-match var input bindings)))
(if (or (eq new-bindings fail)
(not (funcall pred input)))
fail
new-bindings)))
(defun match-and (patterns input bindings)
"Succeed if all the patterns match the input."
(cond ((eq bindings fail) fail)
((null patterns) bindings)
(t (match-and (rest patterns) input
(pat-match (first patterns) input
bindings)))))
(defun match-or (patterns input bindings)
"Succeed if any one of the patterns match the input."
(if (null patterns)
fail
(let ((new-bindings (pat-match (first patterns)
input bindings)))
(if (eq new-bindings fail)
(match-or (rest patterns) input bindings)
new-bindings))))
(defun match-not (patterns input bindings)
"Succeed if none of the patterns match the input.
This will never bind any variables."
(if (match-or patterns input bindings)
fail
bindings))
(defun segment-match (pattern input bindings &optional (start 0))
"Match the segment pattern ((?* var) . pat) against input."
(let ((var (second (first pattern)))
(pat (rest pattern)))
(if (null pat)
(match-variable var input bindings)
(let ((pos (first-match-pos (first pat) input start)))
(if (null pos)
fail
(let ((b2 (pat-match
pat (subseq input pos)
(match-variable var (subseq input 0 pos)
bindings))))
;; If this match failed, try another longer one
(if (eq b2 fail)
(segment-match pattern input bindings (+ pos 1))
b2)))))))
(defun first-match-pos (pat1 input start)
"Find the first position that pat1 could possibly match input,
starting at position start. If pat1 is non-constant, then just
return start."
(cond ((and (atom pat1) (not (variable-p pat1)))
(position pat1 input :start start :test #'equal))
((<= start (length input)) start) ;*** fix, rjf 10/1/92 (was <)
(t nil)))
(defun segment-match+ (pattern input bindings)
"Match one or more elements of input."
(segment-match pattern input bindings 1))
(defun segment-match? (pattern input bindings)
"Match zero or one element of input."
(let ((var (second (first pattern)))
(pat (rest pattern)))
(or (pat-match (cons var pat) input bindings)
(pat-match pat input bindings))))
(defun match-if (pattern input bindings)
"Test an arbitrary expression involving variables.
The pattern looks like ((?if code) . rest)."
;; *** fix, rjf 10/1/92 (used to eval binding values)
(and (progv (mapcar #'car bindings)
(mapcar #'cdr bindings)
(eval (second (first pattern))))
(pat-match (rest pattern) input bindings)))
(defun pat-match-abbrev (symbol expansion)
"Define symbol as a macro standing for a pat-match pattern."
(setf (get symbol 'expand-pat-match-abbrev)
(expand-pat-match-abbrev expansion)))
(defun expand-pat-match-abbrev (pat)
"Expand out all pattern matching abbreviations in pat."
(cond ((and (symbolp pat) (get pat 'expand-pat-match-abbrev)))
((atom pat) pat)
(t (cons (expand-pat-match-abbrev (first pat))
(expand-pat-match-abbrev (rest pat))))))
(defun rule-based-translator
(input rules &key (matcher 'pat-match)
(rule-if #'first) (rule-then #'rest) (action #'sublis))
"Find the first rule in rules that matches input,
and apply the action to that rule."
(some
#'(lambda (rule)
(let ((result (funcall matcher (funcall rule-if rule)
input)))
(if (not (eq result fail))
(funcall action result (funcall rule-then rule)))))
rules))