654 lines
19 KiB
Scheme
654 lines
19 KiB
Scheme
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;;;;QUERY SYSTEM FROM SECTION 4.4.4 OF
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;;;; STRUCTURE AND INTERPRETATION OF COMPUTER PROGRAMS
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;;;;Matches code in ch4.scm
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;;;;Includes:
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;;;; -- supporting code from 4.1, chapter 3, and instructor's manual
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;;;; -- data base from Section 4.4.1 -- see microshaft-data-base below
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;;;;This file can be loaded into Scheme as a whole.
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;;;;In order to run the query system, the Scheme must support streams.
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;;;;NB. PUT's are commented out and no top-level table is set up.
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;;;;Instead use initialize-data-base (from manual), supplied in this file.
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;;;SECTION 4.4.4.1
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;;;The Driver Loop and Instantiation
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(define input-prompt ";;; Query input:")
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(define output-prompt ";;; Query results:")
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(define (query-driver-loop)
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(prompt-for-input input-prompt)
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(let ((q (query-syntax-process (read))))
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(cond ((assertion-to-be-added? q)
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(add-rule-or-assertion! (add-assertion-body q))
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(newline)
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(display "Assertion added to data base.")
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(query-driver-loop))
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(else
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(newline)
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(display output-prompt)
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;; [extra newline at end] (announce-output output-prompt)
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(display-stream
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(stream-map
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(lambda (frame)
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(instantiate q
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frame
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(lambda (v f)
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(contract-question-mark v))))
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(qeval q (singleton-stream '()))))
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(query-driver-loop)))))
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(define (instantiate exp frame unbound-var-handler)
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(define (copy exp)
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(cond ((var? exp)
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(let ((binding (binding-in-frame exp frame)))
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(if binding
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(copy (binding-value binding))
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(unbound-var-handler exp frame))))
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((pair? exp)
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(cons (copy (car exp)) (copy (cdr exp))))
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(else exp)))
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(copy exp))
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;;;SECTION 4.4.4.2
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;;;The Evaluator
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(define (qeval query frame-stream)
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(let ((qproc (get (type query) 'qeval)))
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(if qproc
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(qproc (contents query) frame-stream)
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(simple-query query frame-stream))))
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;;;Simple queries
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(define (simple-query query-pattern frame-stream)
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(stream-flatmap
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(lambda (frame)
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(stream-append-delayed
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(find-assertions query-pattern frame)
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(delay (apply-rules query-pattern frame))))
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frame-stream))
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;;;Compound queries
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(define (conjoin conjuncts frame-stream)
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(if (empty-conjunction? conjuncts)
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frame-stream
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(conjoin (rest-conjuncts conjuncts)
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(qeval (first-conjunct conjuncts)
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frame-stream))))
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;;(put 'and 'qeval conjoin)
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(define (disjoin disjuncts frame-stream)
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(if (empty-disjunction? disjuncts)
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the-empty-stream
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(interleave-delayed
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(qeval (first-disjunct disjuncts) frame-stream)
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(delay (disjoin (rest-disjuncts disjuncts)
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frame-stream)))))
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;;(put 'or 'qeval disjoin)
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;;;Filters
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(define (negate operands frame-stream)
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(stream-flatmap
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(lambda (frame)
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(if (stream-null? (qeval (negated-query operands)
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(singleton-stream frame)))
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(singleton-stream frame)
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the-empty-stream))
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frame-stream))
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;;(put 'not 'qeval negate)
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(define (lisp-value call frame-stream)
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(stream-flatmap
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(lambda (frame)
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(if (execute
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(instantiate
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call
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frame
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(lambda (v f)
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(error "Unknown pat var -- LISP-VALUE" v))))
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(singleton-stream frame)
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the-empty-stream))
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frame-stream))
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;;(put 'lisp-value 'qeval lisp-value)
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(define (execute exp)
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(apply (eval (predicate exp) user-initial-environment)
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(args exp)))
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(define (always-true ignore frame-stream) frame-stream)
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;;(put 'always-true 'qeval always-true)
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;;;SECTION 4.4.4.3
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;;;Finding Assertions by Pattern Matching
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(define (find-assertions pattern frame)
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(stream-flatmap (lambda (datum)
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(check-an-assertion datum pattern frame))
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(fetch-assertions pattern frame)))
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(define (check-an-assertion assertion query-pat query-frame)
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(let ((match-result
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(pattern-match query-pat assertion query-frame)))
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(if (eq? match-result 'failed)
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the-empty-stream
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(singleton-stream match-result))))
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(define (pattern-match pat dat frame)
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(cond ((eq? frame 'failed) 'failed)
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((equal? pat dat) frame)
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((var? pat) (extend-if-consistent pat dat frame))
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((and (pair? pat) (pair? dat))
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(pattern-match (cdr pat)
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(cdr dat)
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(pattern-match (car pat)
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(car dat)
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frame)))
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(else 'failed)))
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(define (extend-if-consistent var dat frame)
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(let ((binding (binding-in-frame var frame)))
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(if binding
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(pattern-match (binding-value binding) dat frame)
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(extend var dat frame))))
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;;;SECTION 4.4.4.4
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;;;Rules and Unification
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(define (apply-rules pattern frame)
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(stream-flatmap (lambda (rule)
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(apply-a-rule rule pattern frame))
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(fetch-rules pattern frame)))
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(define (apply-a-rule rule query-pattern query-frame)
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(let ((clean-rule (rename-variables-in rule)))
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(let ((unify-result
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(unify-match query-pattern
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(conclusion clean-rule)
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query-frame)))
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(if (eq? unify-result 'failed)
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the-empty-stream
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(qeval (rule-body clean-rule)
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(singleton-stream unify-result))))))
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(define (rename-variables-in rule)
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(let ((rule-application-id (new-rule-application-id)))
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(define (tree-walk exp)
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(cond ((var? exp)
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(make-new-variable exp rule-application-id))
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((pair? exp)
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(cons (tree-walk (car exp))
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(tree-walk (cdr exp))))
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(else exp)))
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(tree-walk rule)))
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(define (unify-match p1 p2 frame)
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(cond ((eq? frame 'failed) 'failed)
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((equal? p1 p2) frame)
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((var? p1) (extend-if-possible p1 p2 frame))
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((var? p2) (extend-if-possible p2 p1 frame)) ; {\em ; ***}
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((and (pair? p1) (pair? p2))
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(unify-match (cdr p1)
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(cdr p2)
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(unify-match (car p1)
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(car p2)
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frame)))
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(else 'failed)))
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(define (extend-if-possible var val frame)
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(let ((binding (binding-in-frame var frame)))
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(cond (binding
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(unify-match
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(binding-value binding) val frame))
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((var? val) ; {\em ; ***}
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(let ((binding (binding-in-frame val frame)))
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(if binding
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(unify-match
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var (binding-value binding) frame)
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(extend var val frame))))
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((depends-on? val var frame) ; {\em ; ***}
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'failed)
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(else (extend var val frame)))))
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(define (depends-on? exp var frame)
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(define (tree-walk e)
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(cond ((var? e)
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(if (equal? var e)
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true
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(let ((b (binding-in-frame e frame)))
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(if b
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(tree-walk (binding-value b))
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false))))
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((pair? e)
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(or (tree-walk (car e))
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(tree-walk (cdr e))))
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(else false)))
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(tree-walk exp))
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;;;SECTION 4.4.4.5
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;;;Maintaining the Data Base
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(define THE-ASSERTIONS the-empty-stream)
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(define (fetch-assertions pattern frame)
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(if (use-index? pattern)
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(get-indexed-assertions pattern)
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(get-all-assertions)))
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(define (get-all-assertions) THE-ASSERTIONS)
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(define (get-indexed-assertions pattern)
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(get-stream (index-key-of pattern) 'assertion-stream))
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(define (get-stream key1 key2)
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(let ((s (get key1 key2)))
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(if s s the-empty-stream)))
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(define THE-RULES the-empty-stream)
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(define (fetch-rules pattern frame)
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(if (use-index? pattern)
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(get-indexed-rules pattern)
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(get-all-rules)))
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(define (get-all-rules) THE-RULES)
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(define (get-indexed-rules pattern)
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(stream-append
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(get-stream (index-key-of pattern) 'rule-stream)
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(get-stream '? 'rule-stream)))
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(define (add-rule-or-assertion! assertion)
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(if (rule? assertion)
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(add-rule! assertion)
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(add-assertion! assertion)))
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(define (add-assertion! assertion)
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(store-assertion-in-index assertion)
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(let ((old-assertions THE-ASSERTIONS))
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(set! THE-ASSERTIONS
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(cons-stream assertion old-assertions))
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'ok))
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(define (add-rule! rule)
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(store-rule-in-index rule)
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(let ((old-rules THE-RULES))
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(set! THE-RULES (cons-stream rule old-rules))
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'ok))
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(define (store-assertion-in-index assertion)
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(if (indexable? assertion)
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(let ((key (index-key-of assertion)))
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(let ((current-assertion-stream
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(get-stream key 'assertion-stream)))
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(put key
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'assertion-stream
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(cons-stream assertion
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current-assertion-stream))))))
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(define (store-rule-in-index rule)
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(let ((pattern (conclusion rule)))
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(if (indexable? pattern)
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(let ((key (index-key-of pattern)))
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(let ((current-rule-stream
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(get-stream key 'rule-stream)))
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(put key
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'rule-stream
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(cons-stream rule
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current-rule-stream)))))))
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(define (indexable? pat)
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(or (constant-symbol? (car pat))
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(var? (car pat))))
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(define (index-key-of pat)
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(let ((key (car pat)))
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(if (var? key) '? key)))
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(define (use-index? pat)
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(constant-symbol? (car pat)))
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;;;SECTION 4.4.4.6
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;;;Stream operations
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(define (stream-append-delayed s1 delayed-s2)
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(if (stream-null? s1)
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(force delayed-s2)
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(cons-stream
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(stream-car s1)
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(stream-append-delayed (stream-cdr s1) delayed-s2))))
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(define (interleave-delayed s1 delayed-s2)
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(if (stream-null? s1)
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(force delayed-s2)
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(cons-stream
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(stream-car s1)
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(interleave-delayed (force delayed-s2)
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(delay (stream-cdr s1))))))
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(define (stream-flatmap proc s)
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(flatten-stream (stream-map proc s)))
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(define (flatten-stream stream)
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(if (stream-null? stream)
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the-empty-stream
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(interleave-delayed
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(stream-car stream)
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(delay (flatten-stream (stream-cdr stream))))))
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(define (singleton-stream x)
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(cons-stream x the-empty-stream))
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;;;SECTION 4.4.4.7
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;;;Query syntax procedures
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(define (type exp)
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(if (pair? exp)
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(car exp)
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(error "Unknown expression TYPE" exp)))
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(define (contents exp)
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(if (pair? exp)
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(cdr exp)
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(error "Unknown expression CONTENTS" exp)))
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(define (assertion-to-be-added? exp)
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(eq? (type exp) 'assert!))
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(define (add-assertion-body exp)
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(car (contents exp)))
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(define (empty-conjunction? exps) (null? exps))
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(define (first-conjunct exps) (car exps))
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(define (rest-conjuncts exps) (cdr exps))
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(define (empty-disjunction? exps) (null? exps))
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(define (first-disjunct exps) (car exps))
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(define (rest-disjuncts exps) (cdr exps))
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(define (negated-query exps) (car exps))
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(define (predicate exps) (car exps))
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(define (args exps) (cdr exps))
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(define (rule? statement)
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(tagged-list? statement 'rule))
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(define (conclusion rule) (cadr rule))
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(define (rule-body rule)
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(if (null? (cddr rule))
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'(always-true)
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(caddr rule)))
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(define (query-syntax-process exp)
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(map-over-symbols expand-question-mark exp))
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(define (map-over-symbols proc exp)
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(cond ((pair? exp)
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(cons (map-over-symbols proc (car exp))
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(map-over-symbols proc (cdr exp))))
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((symbol? exp) (proc exp))
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(else exp)))
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(define (expand-question-mark symbol)
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(let ((chars (symbol->string symbol)))
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(if (string=? (substring chars 0 1) "?")
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(list '?
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(string->symbol
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(substring chars 1 (string-length chars))))
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symbol)))
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(define (var? exp)
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(tagged-list? exp '?))
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(define (constant-symbol? exp) (symbol? exp))
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(define rule-counter 0)
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(define (new-rule-application-id)
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(set! rule-counter (+ 1 rule-counter))
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rule-counter)
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(define (make-new-variable var rule-application-id)
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(cons '? (cons rule-application-id (cdr var))))
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|
|
|||
|
(define (contract-question-mark variable)
|
|||
|
(string->symbol
|
|||
|
(string-append "?"
|
|||
|
(if (number? (cadr variable))
|
|||
|
(string-append (symbol->string (caddr variable))
|
|||
|
"-"
|
|||
|
(number->string (cadr variable)))
|
|||
|
(symbol->string (cadr variable))))))
|
|||
|
|
|||
|
|
|||
|
;;;SECTION 4.4.4.8
|
|||
|
;;;Frames and bindings
|
|||
|
(define (make-binding variable value)
|
|||
|
(cons variable value))
|
|||
|
|
|||
|
(define (binding-variable binding)
|
|||
|
(car binding))
|
|||
|
|
|||
|
(define (binding-value binding)
|
|||
|
(cdr binding))
|
|||
|
|
|||
|
|
|||
|
(define (binding-in-frame variable frame)
|
|||
|
(assoc variable frame))
|
|||
|
|
|||
|
(define (extend variable value frame)
|
|||
|
(cons (make-binding variable value) frame))
|
|||
|
|
|||
|
|
|||
|
;;;;From Section 4.1
|
|||
|
|
|||
|
(define (tagged-list? exp tag)
|
|||
|
(if (pair? exp)
|
|||
|
(eq? (car exp) tag)
|
|||
|
false))
|
|||
|
|
|||
|
(define (prompt-for-input string)
|
|||
|
(newline) (newline) (display string) (newline))
|
|||
|
|
|||
|
|
|||
|
;;;;Stream support from Chapter 3
|
|||
|
|
|||
|
(define (stream-map proc s)
|
|||
|
(if (stream-null? s)
|
|||
|
the-empty-stream
|
|||
|
(cons-stream (proc (stream-car s))
|
|||
|
(stream-map proc (stream-cdr s)))))
|
|||
|
|
|||
|
(define (stream-for-each proc s)
|
|||
|
(if (stream-null? s)
|
|||
|
'done
|
|||
|
(begin (proc (stream-car s))
|
|||
|
(stream-for-each proc (stream-cdr s)))))
|
|||
|
|
|||
|
(define (display-stream s)
|
|||
|
(stream-for-each display-line s))
|
|||
|
(define (display-line x)
|
|||
|
(newline)
|
|||
|
(display x))
|
|||
|
|
|||
|
(define (stream-filter pred stream)
|
|||
|
(cond ((stream-null? stream) the-empty-stream)
|
|||
|
((pred (stream-car stream))
|
|||
|
(cons-stream (stream-car stream)
|
|||
|
(stream-filter pred
|
|||
|
(stream-cdr stream))))
|
|||
|
(else (stream-filter pred (stream-cdr stream)))))
|
|||
|
|
|||
|
(define (stream-append s1 s2)
|
|||
|
(if (stream-null? s1)
|
|||
|
s2
|
|||
|
(cons-stream (stream-car s1)
|
|||
|
(stream-append (stream-cdr s1) s2))))
|
|||
|
|
|||
|
(define (interleave s1 s2)
|
|||
|
(if (stream-null? s1)
|
|||
|
s2
|
|||
|
(cons-stream (stream-car s1)
|
|||
|
(interleave s2 (stream-cdr s1)))))
|
|||
|
|
|||
|
;;;;Table support from Chapter 3, Section 3.3.3 (local tables)
|
|||
|
|
|||
|
(define (make-table)
|
|||
|
(let ((local-table (list '*table*)))
|
|||
|
(define (lookup key-1 key-2)
|
|||
|
(let ((subtable (assoc key-1 (cdr local-table))))
|
|||
|
(if subtable
|
|||
|
(let ((record (assoc key-2 (cdr subtable))))
|
|||
|
(if record
|
|||
|
(cdr record)
|
|||
|
false))
|
|||
|
false)))
|
|||
|
(define (insert! key-1 key-2 value)
|
|||
|
(let ((subtable (assoc key-1 (cdr local-table))))
|
|||
|
(if subtable
|
|||
|
(let ((record (assoc key-2 (cdr subtable))))
|
|||
|
(if record
|
|||
|
(set-cdr! record value)
|
|||
|
(set-cdr! subtable
|
|||
|
(cons (cons key-2 value)
|
|||
|
(cdr subtable)))))
|
|||
|
(set-cdr! local-table
|
|||
|
(cons (list key-1
|
|||
|
(cons key-2 value))
|
|||
|
(cdr local-table)))))
|
|||
|
'ok)
|
|||
|
(define (dispatch m)
|
|||
|
(cond ((eq? m 'lookup-proc) lookup)
|
|||
|
((eq? m 'insert-proc!) insert!)
|
|||
|
(else (error "Unknown operation -- TABLE" m))))
|
|||
|
dispatch))
|
|||
|
|
|||
|
;;;; From instructor's manual
|
|||
|
|
|||
|
(define get '())
|
|||
|
|
|||
|
(define put '())
|
|||
|
|
|||
|
(define (initialize-data-base rules-and-assertions)
|
|||
|
(define (deal-out r-and-a rules assertions)
|
|||
|
(cond ((null? r-and-a)
|
|||
|
(set! THE-ASSERTIONS (list->stream assertions))
|
|||
|
(set! THE-RULES (list->stream rules))
|
|||
|
'done)
|
|||
|
(else
|
|||
|
(let ((s (query-syntax-process (car r-and-a))))
|
|||
|
(cond ((rule? s)
|
|||
|
(store-rule-in-index s)
|
|||
|
(deal-out (cdr r-and-a)
|
|||
|
(cons s rules)
|
|||
|
assertions))
|
|||
|
(else
|
|||
|
(store-assertion-in-index s)
|
|||
|
(deal-out (cdr r-and-a)
|
|||
|
rules
|
|||
|
(cons s assertions))))))))
|
|||
|
(let ((operation-table (make-table)))
|
|||
|
(set! get (operation-table 'lookup-proc))
|
|||
|
(set! put (operation-table 'insert-proc!)))
|
|||
|
(put 'and 'qeval conjoin)
|
|||
|
(put 'or 'qeval disjoin)
|
|||
|
(put 'not 'qeval negate)
|
|||
|
(put 'lisp-value 'qeval lisp-value)
|
|||
|
(put 'always-true 'qeval always-true)
|
|||
|
(deal-out rules-and-assertions '() '()))
|
|||
|
|
|||
|
;; Do following to reinit the data base from microshaft-data-base
|
|||
|
;; in Scheme (not in the query driver loop)
|
|||
|
;; (initialize-data-base microshaft-data-base)
|
|||
|
|
|||
|
(define microshaft-data-base
|
|||
|
'(
|
|||
|
;; from section 4.4.1
|
|||
|
(address (Bitdiddle Ben) (Slumerville (Ridge Road) 10))
|
|||
|
(job (Bitdiddle Ben) (computer wizard))
|
|||
|
(salary (Bitdiddle Ben) 60000)
|
|||
|
|
|||
|
(address (Hacker Alyssa P) (Cambridge (Mass Ave) 78))
|
|||
|
(job (Hacker Alyssa P) (computer programmer))
|
|||
|
(salary (Hacker Alyssa P) 40000)
|
|||
|
(supervisor (Hacker Alyssa P) (Bitdiddle Ben))
|
|||
|
|
|||
|
(address (Fect Cy D) (Cambridge (Ames Street) 3))
|
|||
|
(job (Fect Cy D) (computer programmer))
|
|||
|
(salary (Fect Cy D) 35000)
|
|||
|
(supervisor (Fect Cy D) (Bitdiddle Ben))
|
|||
|
|
|||
|
(address (Tweakit Lem E) (Boston (Bay State Road) 22))
|
|||
|
(job (Tweakit Lem E) (computer technician))
|
|||
|
(salary (Tweakit Lem E) 25000)
|
|||
|
(supervisor (Tweakit Lem E) (Bitdiddle Ben))
|
|||
|
|
|||
|
(address (Reasoner Louis) (Slumerville (Pine Tree Road) 80))
|
|||
|
(job (Reasoner Louis) (computer programmer trainee))
|
|||
|
(salary (Reasoner Louis) 30000)
|
|||
|
(supervisor (Reasoner Louis) (Hacker Alyssa P))
|
|||
|
|
|||
|
(supervisor (Bitdiddle Ben) (Warbucks Oliver))
|
|||
|
|
|||
|
(address (Warbucks Oliver) (Swellesley (Top Heap Road)))
|
|||
|
(job (Warbucks Oliver) (administration big wheel))
|
|||
|
(salary (Warbucks Oliver) 150000)
|
|||
|
|
|||
|
(address (Scrooge Eben) (Weston (Shady Lane) 10))
|
|||
|
(job (Scrooge Eben) (accounting chief accountant))
|
|||
|
(salary (Scrooge Eben) 75000)
|
|||
|
(supervisor (Scrooge Eben) (Warbucks Oliver))
|
|||
|
|
|||
|
(address (Cratchet Robert) (Allston (N Harvard Street) 16))
|
|||
|
(job (Cratchet Robert) (accounting scrivener))
|
|||
|
(salary (Cratchet Robert) 18000)
|
|||
|
(supervisor (Cratchet Robert) (Scrooge Eben))
|
|||
|
|
|||
|
(address (Aull DeWitt) (Slumerville (Onion Square) 5))
|
|||
|
(job (Aull DeWitt) (administration secretary))
|
|||
|
(salary (Aull DeWitt) 25000)
|
|||
|
(supervisor (Aull DeWitt) (Warbucks Oliver))
|
|||
|
|
|||
|
(can-do-job (computer wizard) (computer programmer))
|
|||
|
(can-do-job (computer wizard) (computer technician))
|
|||
|
|
|||
|
(can-do-job (computer programmer)
|
|||
|
(computer programmer trainee))
|
|||
|
|
|||
|
(can-do-job (administration secretary)
|
|||
|
(administration big wheel))
|
|||
|
|
|||
|
(rule (lives-near ?person-1 ?person-2)
|
|||
|
(and (address ?person-1 (?town . ?rest-1))
|
|||
|
(address ?person-2 (?town . ?rest-2))
|
|||
|
(not (same ?person-1 ?person-2))))
|
|||
|
|
|||
|
(rule (same ?x ?x))
|
|||
|
|
|||
|
(rule (wheel ?person)
|
|||
|
(and (supervisor ?middle-manager ?person)
|
|||
|
(supervisor ?x ?middle-manager)))
|
|||
|
|
|||
|
(rule (outranked-by ?staff-person ?boss)
|
|||
|
(or (supervisor ?staff-person ?boss)
|
|||
|
(and (supervisor ?staff-person ?middle-manager)
|
|||
|
(outranked-by ?middle-manager ?boss))))
|
|||
|
))
|