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06-shadows.ss
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06-shadows.ss
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;
; Chapter 6 of The Little Schemer:
; Shadows
;
; Code examples assemled by Peteris Krumins (peter@catonmat.net).
; His blog is at http://www.catonmat.net -- good coders code, great reuse.
;
; Get yourself this wonderful book at Amazon: http://bit.ly/4GjWdP
;
; The atom? primitive
;
(define atom?
(lambda (x)
(and (not (pair? x)) (not (null? x)))))
; The numbered? function determines whether a representation of an arithmetic
; expression contains only numbers besides the o+, ox and o^ (for +, * and exp).
;
(define numbered?
(lambda (aexp)
(cond
((atom? aexp) (number? aexp))
((eq? (car (cdr aexp)) 'o+)
(and (numbered? (car aexp))
(numbered? (car (cdr (cdr aexp))))))
((eq? (car (cdr aexp)) 'ox)
(and (numbered? (car aexp))
(numbered? (car (cdr (cdr aexp))))))
((eq? (car (cdr aexp)) 'o^)
(and (numbered? (car aexp))
(numbered? (car (cdr (cdr aexp))))))
(else #f))))
; Examples of numbered?
;
(numbered? '5) ; #t
(numbered? '(5 o+ 5)) ; #t
(numbered? '(5 o+ a)) ; #f
(numbered? '(5 ox (3 o^ 2))) ; #t
(numbered? '(5 ox (3 'foo 2))) ; #f
(numbered? '((5 o+ 2) ox (3 o^ 2))) ; #t
; Assuming aexp is a numeric expression, numbered? can be simplified
;
(define numbered?
(lambda (aexp)
(cond
((atom? aexp) (number? aexp))
(else
(and (numbered? (car aexp))
(numbered? (car (cdr (cdr aexp)))))))))
; Tests of numbered?
;
(numbered? '5) ; #t
(numbered? '(5 o+ 5)) ; #t
(numbered? '(5 ox (3 o^ 2))) ; #t
(numbered? '((5 o+ 2) ox (3 o^ 2))) ; #t
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; ;
; The seventh commandment ;
; ;
; Recur on the subparts that are of the same nature: ;
; * On the sublists of a list. ;
; * On the subexpressions of an arithmetic expression. ;
; ;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; The value function determines the value of an arithmetic expression
;
(define value
(lambda (nexp)
(cond
((atom? nexp) nexp)
((eq? (car (cdr nexp)) 'o+)
(+ (value (car nexp))
(value (car (cdr (cdr nexp))))))
((eq? (car (cdr nexp)) 'o*)
(* (value (car nexp))
(value (car (cdr (cdr nexp))))))
((eq? (car (cdr nexp)) 'o^)
(expt (value (car nexp))
(value (car (cdr (cdr nexp))))))
(else #f))))
; Examples of value
;
(value 13) ; 13
(value '(1 o+ 3)) ; 4
(value '(1 o+ (3 o^ 4))) ; 82
; The value function for prefix notation
;
(define value-prefix
(lambda (nexp)
(cond
((atom? nexp) nexp)
((eq? (car nexp) 'o+)
(+ (value-prefix (car (cdr nexp)))
(value-prefix (car (cdr (cdr nexp))))))
((eq? (car nexp) 'o*)
(* (value-prefix (car (cdr nexp)))
(value-prefix (car (cdr (cdr nexp))))))
((eq? (car nexp) 'o^)
(expt (value-prefix (car (cdr nexp)))
(value-prefix (car (cdr (cdr nexp))))))
(else #f))))
; Examples of value-prefix
;
(value-prefix 13) ; 13
(value-prefix '(o+ 3 4)) ; 7
(value-prefix '(o+ 1 (o^ 3 4))) ; 82
; It's best to invent 1st-sub-exp and 2nd-sub-exp functions
; instead of writing (car (cdr (cdr nexp))), etc.
; These are for prefix notation.
;
(define 1st-sub-exp
(lambda (aexp)
(car (cdr aexp))))
(define 2nd-sub-exp
(lambda (aexp)
(car (cdr (cdr aexp)))))
; It's also best to invent operator function,
; instead of writing (car nexp), etc.
; This is for prefix notation
;
(define operator
(lambda (aexp)
(car aexp)))
; The new value function that uses helper functions
;
(define value-prefix-helper
(lambda (nexp)
(cond
((atom? nexp) nexp)
((eq? (operator nexp) 'o+)
(+ (value-prefix (1st-sub-exp nexp))
(value-prefix (2nd-sub-exp nexp))))
((eq? (car nexp) 'o*)
(* (value-prefix (1st-sub-exp nexp))
(value-prefix (2nd-sub-exp nexp))))
((eq? (car nexp) 'o^)
(expt (value-prefix (1st-sub-exp nexp))
(value-prefix (2nd-sub-exp nexp))))
(else #f))))
; Examples of value-prefix-helper
;
(value-prefix-helper 13) ; 13
(value-prefix-helper '(o+ 3 4)) ; 7
(value-prefix-helper '(o+ 1 (o^ 3 4))) ; 82
; Redefine helper functions for infix notation
;
(define 1st-sub-exp
(lambda (aexp)
(car aexp)))
(define 2nd-sub-exp
(lambda (aexp)
(car (cdr (cdr aexp)))))
(define operator
(lambda (aexp)
(car (cdr aexp))))
; Examples of value-prefix-helper of infix notation expressions
;
(value-prefix 13) ; 13
(value-prefix '(o+ 3 4)) ; 7
(value-prefix '(o+ 1 (o^ 3 4))) ; 82
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; ;
; The eighth commandment ;
; ;
; Use help functions to abstract from representations. ;
; ;
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
; A different number representation:
; () for zero, (()) for one, (() ()) for two, (() () ()) for three, etc.
;
; sero? just like zero?
;
(define sero?
(lambda (n)
(null? n)))
; edd1 just like add1
;
(define edd1
(lambda (n)
(cons '() n)))
; zub1 just like sub1
;
(define zub1
(lambda (n)
(cdr n)))
; .+ just like o+
;
(define .+
(lambda (n m)
(cond
((sero? m) n)
(else
(edd1 (.+ n (zub1 m)))))))
; Example of .+
;
(.+ '(()) '(() ())) ; (+ 1 2)
;==> '(() () ())
; tat? just like lat?
;
(define tat?
(lambda (l)
(cond
((null? l) #t)
((atom? (car l))
(tat? (cdr l)))
(else #f))))
; But does tat? work
(tat? '((()) (()()) (()()()))) ; (lat? '(1 2 3))
; ==> #f
; Beware of shadows.
;
; Go get yourself this wonderful book and have fun with these examples!
;
; Shortened URL to the book at Amazon.com: http://bit.ly/4GjWdP
;
; Sincerely,
; Peteris Krumins
; http://www.catonmat.net
;