#lang sicp

;; get and put definitions
(define operation-table '())

(define (assoc key records)
  (cond ((null? records) #f)
        ((equal? key (caar records)) (car records))
        (else (assoc key (cdr records)))))

(define (assoc-op key records)
   (cond ((null? records) #f)
         ((equal? key (caar records)) (car records))
         (else (assoc-op key (cdr records)))))

(define (put op type-tags proc)
  (let ((op-list-entry (assoc-op op operation-table)))
    (if op-list-entry
        (let ((proc-list (cadr op-list-entry)))
           (let ((proc-pair-entry (assoc type-tags proc-list)))
             (if proc-pair-entry
                 (set-cdr! proc-pair-entry proc)
                 (set-car! (cdr op-list-entry)
                           (cons (cons type-tags proc) proc-list)))))
        (set! operation-table
              (cons (list op (list (cons type-tags proc)))
                    operation-table)))))

(define (get op type-tags)
  (let ((op-list-entry (assoc-op op operation-table)))
    (if op-list-entry
        (let ((proc-list (cadr op-list-entry)))
          (let ((proc-pair-entry (assoc type-tags proc-list)))
            (if proc-pair-entry
                (cdr proc-pair-entry)
                #f)))
        #f)))

;; Modified for ex2-78. 
(define (attach-tag type-tag contents)
  (if (equal? type-tag 'scheme-number) 
      contents
      (cons type-tag contents)))
(define (type-tag datum)
  (cond ((pair? datum) (car datum))
        ((number? datum) 'scheme-number)
        (else (error "Bad tagged datum: TYPE-TAG" datum))))
(define (contents datum)
  (cond ((pair? datum) (cdr datum))
        ((number? datum) datum)
        (else (error "Bad tagged datum: CONTENTS" datum))))
(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))))))

;; Number package
(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 'make 'scheme-number
       (lambda (x) (tag x)))
  'done)

(install-scheme-number-package)

(define (make-scheme-number n)
  ((get 'make 'scheme-number) n))

(display "Output of 
(apply-generic 'mul
  (make-scheme-number 13)
  (make-scheme-number 11))")(newline)

(let ((a (make-scheme-number 13)) 
      (b (make-scheme-number 11)))
      (apply-generic 'mul a b))
