ruandao · December 4, 2015 03:35
diff --git a/2.80.rkt b/2.80.rkt
 ;#lang planet neil/sicp 
 #lang racket
 (require (planet soegaard/sicp:2:1/sicp))
 (define wave einstein)

 (define (put x) x)
 (define (get x) x)
 (define (square x) (* x x))
 ;; type-tag, contents, attach-tag
 (define (attach-tag tag contents)
  (if (number? contents)
      contents
      (cons tag contents)))

 (define (type-tag value)
  (cond ((number? value) 'scheme-number)
        ((and (pair? value)
              (symbol? (car value)))
         (car value))
        (else (error "Unknown tag -- TYPE-TAG" value))))

 (define (contents value)
  (cond ((number? value) value)
        ((and (pair? value)
              (symbol? (car value)))
         (cdr value))
        (else (error "Unknown contents -- CONTENTS" value))))

 (define (apply-generic op . args)
  (let ((type-tags (map type-tag args)))
    (let ((proc (get op type-tags)))
      (if proc
          (apply proc (map contents args))
          (error "No method for these types -- APPLY-GENERIC"
                 (list op type-tags))))))

 (define (install-scheme-number-package)
  (define (tag x)
    (attach-tag 'scheme-number x))
  (put 'add '(scheme-number scheme-number)       (lambda (x y) (tag (+ x y))))
  (put 'sub '(scheme-number scheme-number)       (lambda (x y) (tag (- x y))))
  (put 'mul '(scheme-number scheme-number)       (lambda (x y) (tag (* x y))))
  (put 'div '(scheme-number scheme-number)       (lambda (x y) (tag (/ x y))))
  (put 'equ? '(scheme-number scheme-number)      (lambda (x y) (= x y)))
  (put '=zero? '(scheme-number)                  (lambda (x)   (= x 0)))
  ;; interface
  (put 'make 'scheme-number
       (lambda (x) (tag x)))
  'done)


 (define (install-rational-package)
  (define (numer x) (car x))
  (define (denom x) (cdr x))
  (define (make-rat n d)
    (let ((g (gcd n d)))
      (cons (/ n g) (/ d g))))
  (define (add-rat x y)
    (make-rat (+ (* (numer x) (denom y))
                 (* (numer y) (denom x)))
              (* (denom x) (denom y))))
  (define (sub-rat x y)
    (make-rat (- (* (numer x) (denom y))
                 (* (numer y) (denom x)))
              (* (denom x) (denom y))))
  (define (mul-rat x y)
    (make-rat (* (numer x) (numer y))
              (* (denom x) (denom y))))
  (define (div-rat x y)
    (make-rat (* (numer x) (denom y))
              (* (denom x) (numer y))))
  (define (equ? x y)
    (and (= (numer x) (numer y))
         (= (denom x) (denom y))))
  (define (=zero? x)
    (= (numer x) 0))
  
  (define (tag x)
    (attach-tag 'rational x))
  ;; interface
  (put 'add '(rational rational)     (lambda (x y) (tag (add-rat x y))))
  (put 'sub '(rational rational)     (lambda (x y) (tag (sub-rat x y))))
  (put 'mul '(rational rational)     (lambda (x y) (tag (mul-rat x y))))
  (put 'div '(rational rational)     (lambda (x y) (tag (div-rat x y))))
  (put 'equ? '(rational rational)    (lambda (x y) (equ? x y)))
  (put '=zero? '(rational)           (lambda (x) (=zero? x)))
  (put 'make 'rational       (lambda (n d) (tag (make-rat n d))))
  'done)


 (define (install-rectangle-package)
  ;; internal
  (define (real-part z) (car z))
  (define (imag-part z) (cdr z))
  (define (make-from-real-imag x y) (cons x y))
  (define (magnitude z)
    (sqrt (+ (square (real-part z))
             (square (imag-part z)))))
  (define (angle z)
    (atan (imag-part z) (real-part z)))
  (define (make-from-mag-ang r a)
    (cons (* r (cos a)) (* r (sin a))))
  ;; interface
  (define (tag x) (attach-tag 'rectangular x))
  (put 'real-part '(rectangular) real-part)
  (put 'imag-part '(rectangular) imag-part)
  (put 'magnitude '(rectangular) magnitude)
  (put 'angle '(rectangular) angle)
  (put 'make-from-real-imag 'rectangular (lambda (x y) (tag (make-from-real-imag x y))))
  (put 'make-from-mag-ang 'rectangular (lambda (r a) (tag (make-from-mag-ang r a))))
  'done)

 (define (install-polar-package)
  ;; internal
  (define (magnitude z) (car z))
  (define (angle z) (cdr z))
  (define (make-from-mag-ang r a) (cons r a))
  (define (real-part z)
    (* (magnitude z) (cos (angle z))))
  (define (make-from-real-imag x y)
    (cons (sqrt (+ (square x) (square y)))
          (atan y x)))
  ;; interface
  (define (tag x) (attach-tag 'polar x))
  (put 'real-part '(polar) real-part)
  (put 'imag-part '(polar) imag-part)
  (put 'magnitude '(polar) magnitude)
  (put 'angle     '(polar) angle)
  (put 'make-from-real-imag 'polar (lambda (x y) (tag (make-from-real-imag x y))))
  (put 'make-from-mag-ang   'polar (lambda (r a) (tag (make-from-mag-ang r a))))
  'done)


 (define (install-complex-package)
  ;; import
  (define (make-from-real-imag x y)
    ((get 'make-from-real-imag 'rectangular) x y))
  (define (make-from-mag-ang r a)
    ((get 'make-from-mag-ang 'polar) r a))
  ;; internal
  (define (add-complex z1 z2)
    (make-from-real-imag (+ (real-part z1) (real-part z2))
                         (+ (imag-part z1) (imag-part z2))))
  (define (sub-complex z1 z2)
    (make-from-real-imag (- (real-part z1) (real-part z2))
                         (- (imag-part z1) (imag-part z2))))
  (define (mul-complex z1 z2)
    (make-from-mag-ang (* (magnitude z1) (magnitude z2))
                       (+ (angle z1) (angle z2))))
  (define (div-complex z1 z2)
    (make-from-mag-ang (/ (magnitude z1) (magnitude z2))
                       (- (angle z1) (angle z2))))
  (define (equ? z1 z2)
    (and (= (real-part z1) (real-part z2))
         (= (imag-part z1) (imag-part z2))))
  (define (=zero? z)
    (= (real-part z) 0))
  ;; interface
  (define (tag z) (attach-tag 'complex z))
  (put 'add       '(complex complex) (lambda (z1 z2) (tag (add-complex z1 z2))))
  (put 'sub       '(complex complex) (lambda (z1 z2) (tag (sub-complex z1 z2))))
  (put 'mul       '(complex complex) (lambda (z1 z2) (tag (mul-complex z1 z2))))
  (put 'div       '(complex complex) (lambda (z1 z2) (tag (div-complex z1 z2))))
  (put 'equ?      '(complex complex) (lambda (z1 z2) (equ? z1 z2)))
  (put '=zero?    '(complex)         (lambda (z)     (=zero? z)))
  (put 'real-part '(complex)         real-part)
  (put 'imag-part '(complex)         imag-part)
  (put 'magnitude '(complex)         magnitude)
  (put 'angle     '(complex)         angle)
  (put 'make-from-real-imag 'complex (lambda (x y) (tag (make-from-real-imag x y))))
  (put 'make-from-mag-ang   'complex (lambda (x y) (tag (make-from-mag-ang x y))))
  'done)


 (define (make-rational n d)                 ((get 'make 'rational) n d))
 (define (make-scheme-number n)              ((get 'make 'scheme-number) n))
 (define (make-complex-from-real-imag x y)   ((get 'make-from-real-imag 'complex) x y))
 (define (make-complex-from-mag-ang r a)     ((get 'make-from-mag-ang 'complex) r a))


 (define (add x y) (apply-generic 'add x y))
 (define (sub x y) (apply-generic 'sub x y))
 (define (mul x y) (apply-generic 'mul x y))
 (define (div x y) (apply-generic 'div x y))

 (define (equ? x y)(apply-generic 'equ? x y))
 (define (=zero? x)(apply-generic '=zero? x))
	;#lang planet neil/sicp
	#lang racket
	(require (planet soegaard/sicp:2:1/sicp))
	(define wave einstein)

	(define (put x) x)
	(define (get x) x)
	(define (square x) (* x x))
	;; type-tag, contents, attach-tag
	(define (attach-tag tag contents)
	(if (number? contents)
	contents
	(cons tag contents)))

	(define (type-tag value)
	(cond ((number? value) 'scheme-number)
	((and (pair? value)
	(symbol? (car value)))
	(car value))
	(else (error "Unknown tag -- TYPE-TAG" value))))

	(define (contents value)
	(cond ((number? value) value)
	((and (pair? value)
	(symbol? (car value)))
	(cdr value))
	(else (error "Unknown contents -- CONTENTS" value))))

	(define (apply-generic op . args)
	(let ((type-tags (map type-tag args)))
	(let ((proc (get op type-tags)))
	(if proc
	(apply proc (map contents args))
	(error "No method for these types -- APPLY-GENERIC"
	(list op type-tags))))))

	(define (install-scheme-number-package)
	(define (tag x)
	(attach-tag 'scheme-number x))
	(put 'add '(scheme-number scheme-number) (lambda (x y) (tag (+ x y))))
	(put 'sub '(scheme-number scheme-number) (lambda (x y) (tag (- x y))))
	(put 'mul '(scheme-number scheme-number) (lambda (x y) (tag (* x y))))
	(put 'div '(scheme-number scheme-number) (lambda (x y) (tag (/ x y))))
	(put 'equ? '(scheme-number scheme-number) (lambda (x y) (= x y)))
	(put '=zero? '(scheme-number) (lambda (x) (= x 0)))
	;; interface
	(put 'make 'scheme-number
	(lambda (x) (tag x)))
	'done)


	(define (install-rational-package)
	(define (numer x) (car x))
	(define (denom x) (cdr x))
	(define (make-rat n d)
	(let ((g (gcd n d)))
	(cons (/ n g) (/ d g))))
	(define (add-rat x y)
	(make-rat (+ (* (numer x) (denom y))
	(* (numer y) (denom x)))
	(* (denom x) (denom y))))
	(define (sub-rat x y)
	(make-rat (- (* (numer x) (denom y))
	(* (numer y) (denom x)))
	(* (denom x) (denom y))))
	(define (mul-rat x y)
	(make-rat (* (numer x) (numer y))
	(* (denom x) (denom y))))
	(define (div-rat x y)
	(make-rat (* (numer x) (denom y))
	(* (denom x) (numer y))))
	(define (equ? x y)
	(and (= (numer x) (numer y))
	(= (denom x) (denom y))))
	(define (=zero? x)
	(= (numer x) 0))

	(define (tag x)
	(attach-tag 'rational x))
	;; interface
	(put 'add '(rational rational) (lambda (x y) (tag (add-rat x y))))
	(put 'sub '(rational rational) (lambda (x y) (tag (sub-rat x y))))
	(put 'mul '(rational rational) (lambda (x y) (tag (mul-rat x y))))
	(put 'div '(rational rational) (lambda (x y) (tag (div-rat x y))))
	(put 'equ? '(rational rational) (lambda (x y) (equ? x y)))
	(put '=zero? '(rational) (lambda (x) (=zero? x)))
	(put 'make 'rational (lambda (n d) (tag (make-rat n d))))
	'done)


	(define (install-rectangle-package)
	;; internal
	(define (real-part z) (car z))
	(define (imag-part z) (cdr z))
	(define (make-from-real-imag x y) (cons x y))
	(define (magnitude z)
	(sqrt (+ (square (real-part z))
	(square (imag-part z)))))
	(define (angle z)
	(atan (imag-part z) (real-part z)))
	(define (make-from-mag-ang r a)
	(cons (* r (cos a)) (* r (sin a))))
	;; interface
	(define (tag x) (attach-tag 'rectangular x))
	(put 'real-part '(rectangular) real-part)
	(put 'imag-part '(rectangular) imag-part)
	(put 'magnitude '(rectangular) magnitude)
	(put 'angle '(rectangular) angle)
	(put 'make-from-real-imag 'rectangular (lambda (x y) (tag (make-from-real-imag x y))))
	(put 'make-from-mag-ang 'rectangular (lambda (r a) (tag (make-from-mag-ang r a))))
	'done)

	(define (install-polar-package)
	;; internal
	(define (magnitude z) (car z))
	(define (angle z) (cdr z))
	(define (make-from-mag-ang r a) (cons r a))
	(define (real-part z)
	(* (magnitude z) (cos (angle z))))
	(define (make-from-real-imag x y)
	(cons (sqrt (+ (square x) (square y)))
	(atan y x)))
	;; interface
	(define (tag x) (attach-tag 'polar x))
	(put 'real-part '(polar) real-part)
	(put 'imag-part '(polar) imag-part)
	(put 'magnitude '(polar) magnitude)
	(put 'angle '(polar) angle)
	(put 'make-from-real-imag 'polar (lambda (x y) (tag (make-from-real-imag x y))))
	(put 'make-from-mag-ang 'polar (lambda (r a) (tag (make-from-mag-ang r a))))
	'done)


	(define (install-complex-package)
	;; import
	(define (make-from-real-imag x y)
	((get 'make-from-real-imag 'rectangular) x y))
	(define (make-from-mag-ang r a)
	((get 'make-from-mag-ang 'polar) r a))
	;; internal
	(define (add-complex z1 z2)
	(make-from-real-imag (+ (real-part z1) (real-part z2))
	(+ (imag-part z1) (imag-part z2))))
	(define (sub-complex z1 z2)
	(make-from-real-imag (- (real-part z1) (real-part z2))
	(- (imag-part z1) (imag-part z2))))
	(define (mul-complex z1 z2)
	(make-from-mag-ang (* (magnitude z1) (magnitude z2))
	(+ (angle z1) (angle z2))))
	(define (div-complex z1 z2)
	(make-from-mag-ang (/ (magnitude z1) (magnitude z2))
	(- (angle z1) (angle z2))))
	(define (equ? z1 z2)
	(and (= (real-part z1) (real-part z2))
	(= (imag-part z1) (imag-part z2))))
	(define (=zero? z)
	(= (real-part z) 0))
	;; interface
	(define (tag z) (attach-tag 'complex z))
	(put 'add '(complex complex) (lambda (z1 z2) (tag (add-complex z1 z2))))
	(put 'sub '(complex complex) (lambda (z1 z2) (tag (sub-complex z1 z2))))
	(put 'mul '(complex complex) (lambda (z1 z2) (tag (mul-complex z1 z2))))
	(put 'div '(complex complex) (lambda (z1 z2) (tag (div-complex z1 z2))))
	(put 'equ? '(complex complex) (lambda (z1 z2) (equ? z1 z2)))
	(put '=zero? '(complex) (lambda (z) (=zero? z)))
	(put 'real-part '(complex) real-part)
	(put 'imag-part '(complex) imag-part)
	(put 'magnitude '(complex) magnitude)
	(put 'angle '(complex) angle)
	(put 'make-from-real-imag 'complex (lambda (x y) (tag (make-from-real-imag x y))))
	(put 'make-from-mag-ang 'complex (lambda (x y) (tag (make-from-mag-ang x y))))
	'done)


	(define (make-rational n d) ((get 'make 'rational) n d))
	(define (make-scheme-number n) ((get 'make 'scheme-number) n))
	(define (make-complex-from-real-imag x y) ((get 'make-from-real-imag 'complex) x y))
	(define (make-complex-from-mag-ang r a) ((get 'make-from-mag-ang 'complex) r a))


	(define (add x y) (apply-generic 'add x y))
	(define (sub x y) (apply-generic 'sub x y))
	(define (mul x y) (apply-generic 'mul x y))
	(define (div x y) (apply-generic 'div x y))

	(define (equ? x y)(apply-generic 'equ? x y))
	(define (=zero? x)(apply-generic '=zero? x))
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