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82 lines
3.1 KiB
Common Lisp
82 lines
3.1 KiB
Common Lisp
;;; -*- Mode: Lisp; Syntax: Common-Lisp; Package: snark-user -*-
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;;; File: front-last-example.lisp
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;;; The contents of this file are subject to the Mozilla Public License
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;;; Version 1.1 (the "License"); you may not use this file except in
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;;; compliance with the License. You may obtain a copy of the License at
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;;; http://www.mozilla.org/MPL/
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;;;
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;;; Software distributed under the License is distributed on an "AS IS"
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;;; basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See the
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;;; License for the specific language governing rights and limitations
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;;; under the License.
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;;;
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;;; The Original Code is SNARK.
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;;; The Initial Developer of the Original Code is SRI International.
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;;; Portions created by the Initial Developer are Copyright (C) 1981-2002.
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;;; All Rights Reserved.
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;;;
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;;; Contributor(s): Mark E. Stickel <stickel@ai.sri.com>.
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(in-package :snark-user)
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;;; Let L be a nonempty list.
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;;; Synthesize a program to compute the FRONT and LAST
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;;; of the list where LAST of a list is its last element
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;;; and FRONT is the list of all elements except the last.
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;;;
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;;; The program specification is
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;;; (EXISTS (Y Z) (= L (APPEND Y (CONS Z NIL))))
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;;; i.e., find Y and Z such that L can be formed by
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;;; appending Y (the FRONT of L) and a single element list
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;;; containing Z (the LAST of L).
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;;;
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;;; The appropriate inductive axiom is given explicitly in the axiom
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;;; named induction.
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;;;
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;;; Necessary properties of APPEND, CONS, HEAD, and TAIL are given
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;;; in the axioms named append-nil, append-cons, and cons-definition.
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;;;
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;;; A proof of the query is found and the program
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;;; defined by the values found for variables Y and Z
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;;; in the specification.
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;;;
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;;; Resolution and paramodulation (for equality) are the inference
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;;; rules used.
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(defun front-last-example ()
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;; Waldinger program synthesis example 1989-12-14
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(initialize)
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(use-resolution)
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(use-paramodulation)
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(use-literal-ordering-with-resolution 'literal-ordering-p)
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(use-literal-ordering-with-paramodulation 'literal-ordering-p)
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(use-conditional-answer-creation)
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(declare-constant 'nil)
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(declare-constant 'l)
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(declare-function 'head 1)
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(declare-function 'tail 1)
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(declare-function 'cons 2)
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(declare-function 'append 2)
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(declare-function 'front 1)
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(declare-function 'last 1)
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(declare-ordering-greaterp 'l 'nil)
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(declare-ordering-greaterp 'head 'l)
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(declare-ordering-greaterp 'tail 'l)
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(declare-ordering-greaterp 'cons 'head)
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(declare-ordering-greaterp 'cons 'tail)
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(declare-ordering-greaterp 'append 'cons)
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;;(assert '(forall (x) (= x x)))
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(assert '(/= l nil)
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:name 'l-nonempty)
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(assert '(implies (and (/= l nil) (/= (tail l) nil))
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(= (tail l) (append (front (tail l)) (cons (last (tail l)) nil))))
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:name 'induction)
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(assert '(forall (u) (= (append nil u) u))
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:name 'append-nil)
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(assert '(forall (u v w) (= (append (cons u v) w) (cons u (append v w))))
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:name 'append-cons)
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(assert '(forall (x) (implied-by (= x (cons (head x) (tail x))) (/= x nil)))
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:name 'cons-definition)
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(prove '(= l (append ?y (cons ?z nil))) :answer '(values ?y ?z)))
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;;; front-last-example.lisp EOF
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