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simple.lisp
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simple.lisp
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;;;; -*- Mode: Lisp; Syntax: Common-Lisp -*-
;;; Code from Paradigms of Artificial Intelligence Programming
;;; Copyright (c) 1991 Peter Norvig
(defun sentence () (append (noun-phrase) (verb-phrase)))
(defun noun-phrase () (append (Article) (Noun)))
(defun verb-phrase () (append (Verb) (noun-phrase)))
(defun Article () (one-of '(the a)))
(defun Noun () (one-of '(man ball woman table)))
(defun Verb () (one-of '(hit took saw liked)))
;;; ==============================
(defun one-of (set)
"Pick one element of set, and make a list of it."
(list (random-elt set)))
(defun random-elt (choices)
"Choose an element from a list at random."
(elt choices (random (length choices))))
;;; ==============================
(defun Adj* ()
(if (= (random 2) 0)
nil
(append (Adj) (Adj*))))
(defun PP* ()
(if (random-elt '(t nil))
(append (PP) (PP*))
nil))
;; (defun noun-phrase () (append (Article) (Adj*) (Noun) (PP*)))
(defun PP () (append (Prep) (noun-phrase)))
(defun Adj () (one-of '(big little blue green adiabatic)))
(defun Prep () (one-of '(to in by with on)))
;;; ==============================
(defparameter *simple-grammar*
'((sentence -> (noun-phrase verb-phrase))
(noun-phrase -> (Article Noun))
(verb-phrase -> (Verb noun-phrase))
(Article -> the a)
(Noun -> man ball woman table)
(Verb -> hit took saw liked))
"A grammar for a trivial subset of English.")
(defvar *grammar* *simple-grammar*
"The grammar used by generate. Initially, this is
*simple-grammar*, but we can switch to other grammars.")
;;; ==============================
(defun rule-lhs (rule)
"The left hand side of a rule."
(first rule))
(defun rule-rhs (rule)
"The right hand side of a rule."
(rest (rest rule)))
(defun rewrites (category)
"Return a list of the possible rewrites for this category."
(rule-rhs (assoc category *grammar*)))
;;; ==============================
(defun generate (phrase)
"Generate a random sentence or phrase"
(cond ((listp phrase)
(mappend #'generate phrase))
((rewrites phrase)
(generate (random-elt (rewrites phrase))))
(t (list phrase))))
;;; ==============================
(defparameter *bigger-grammar*
'((sentence -> (noun-phrase verb-phrase))
(noun-phrase -> (Article Adj* Noun PP*) (Name) (Pronoun))
(verb-phrase -> (Verb noun-phrase PP*))
(PP* -> () (PP PP*))
(Adj* -> () (Adj Adj*))
(PP -> (Prep noun-phrase))
(Prep -> to in by with on)
(Adj -> big little blue green adiabatic)
(Article -> the a)
(Name -> Pat Kim Lee Terry Robin)
(Noun -> man ball woman table)
(Verb -> hit took saw liked)
(Pronoun -> he she it these those that)))
;; (setf *grammar* *bigger-grammar*)
;;; ==============================
(defun generate-tree (phrase)
"Generate a random sentence or phrase,
with a complete parse tree."
(cond ((listp phrase)
(mapcar #'generate-tree phrase))
((rewrites phrase)
(cons phrase
(generate-tree (random-elt (rewrites phrase)))))
(t (list phrase))))
;;; ==============================
(defun generate-all (phrase)
"Generate a list of all possible expansions of this phrase."
(cond ((null phrase) (list nil))
((listp phrase)
(combine-all (generate-all (first phrase))
(generate-all (rest phrase))))
((rewrites phrase)
(mappend #'generate-all (rewrites phrase)))
(t (list (list phrase)))))
(defun combine-all (xlist ylist)
"Return a list of lists formed by appending a y to an x.
E.g., (combine-all '((a) (b)) '((1) (2)))
-> ((A 1) (B 1) (A 2) (B 2))."
(mappend #'(lambda (y)
(mapcar #'(lambda (x) (append x y)) xlist))
ylist))