SICP 2.25~2.29习题答案

Scheme编程挑战

最新推荐文章于 2019-01-17 14:04:40 发布

原创最新推荐文章于 2019-01-17 14:04:40 发布 · 203 阅读

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#Mobile #Scheme

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本文通过具体的Scheme语言编程实例，展示了如何实现列表操作、深反转、叶子计数及树状结构的平衡判断等功能。深入探讨了递归算法在处理复杂数据结构中的应用。

这一节难度开始加大，有一些答案是借鉴了别人才做出来的。

;; 2.25
(define list1 (list 1 3 (list 5 7) 9))
;(car (cdr (car (cdr (cdr list1)))))

(define list2 (list (list 7)))
;(car (car list2))

(define list3 (list 1 (list 2 (list 3 (list 4 (list 5 (list 6 7)))))))
;(car (cdr (car (cdr (car (cdr (car (cdr (car (cdr (car (cdr list3))))))))))))

;; 2.26
(define x (list 1 2 3))
(define y (list 4 5 6))
;(append x y)
;(cons x y)
;(list x y)

;; 2.27
(define (deep-reverse items)  
  (if (null? items) nil
      (append (deep-reverse (cdr items)) 
              (cons (if (pair? (car items)) (deep-reverse (car items))
                        (car items))
                    nil))))

(define x (list (list 1 2) (list 3 4)))
;(deep-reverse x)

(define (count-leaves x)
  (cond ((null? x) 0)
        ((not (pair? x)) 1)
        (else (+ (count-leaves (car x))
                 (count-leaves (cdr x))))))

;; 2.28
(define (fringe items)
  (cond ((null? items) nil)
        ((pair? items) (append (fringe (car items))
                               (fringe (cdr items))))
        (else (list items))))

(define x (list (list 1 2) (list 3 4)))
;(fringe x)
;(fringe (list x x))

;; 2.29
;(define (make-mobile left right) (list left right))
;(define (make-branch length structure) (list length structure))
;(define (left-branch mobile) (car mobile))
;(define (right-branch mobile) (car (cdr mobile)))
;(define (branch-length branch) (car branch))
;(define (branch-structure branch) (car (cdr branch)))

(define (make-mobile left right) (cons left right))
(define (make-branch length structure) (cons length structure))
(define (left-branch mobile) (car mobile))
(define (right-branch mobile) (cdr mobile))
(define (branch-length branch) (car branch))
(define (branch-structure branch) (cdr branch))

(define (mobile? structure) (pair? structure))

(define (branch-weight branch)
  (let ((structure (branch-structure branch)))
    (if (mobile? structure) (total-weight structure)
        structure)))

(define (total-weight mobile)
  (+ (branch-weight (left-branch mobile))
     (branch-weight (right-branch mobile))))

(define (weight branch)
  (* (branch-length branch) (branch-weight branch)))

(define (balance? mobile)
  (let ((left (left-branch mobile))
        (right (right-branch mobile)))
    (and (= (weight left) (weight right))
         (if (mobile? (branch-structure left)) (balance? left) #t)
         (if (mobile? (branch-structure right)) (balance? right) #t))))