本文解析了Scheme编程语言中的一系列经典练习题,包括嵌套列表操作、递归算法实现及树形数据结构处理等,旨在帮助读者深入理解高级程序设计技巧。
练习2.24
;; 嵌套结构的list
1 ]=> (list 1 (list 2 (list 3 4)))
;Value : (1 (2 (3 4)))
*
/ \
1 *
/ \
2 *
/ \
3 4
练习2.25
;; (1 3 (5 7) 9) 1 ]=> (define list1 (list 1 3 (list 5 7) 9)) 1 ]=> list1 ;Value : (1 3 (5 7) 9) 1 ]=> (car (cdr (car (cdr (cdr list1))))) ;Value: 7 ;; ((7)) 1 ]=> (define list1 (list (list 7))) 1 ]=> list1 ;Value : ((7)) 1 ]=> (car (car list1)) ;Value: 7 ;; (1 (2 (3 (4 (5 (6 7)))))) 1 ]=> (define list1 (list 1 (list 2 (list 3 (list 4 (list 5 (list 6 7))))))) 1 ]=> list1 ;Value : (1 (2 (3 (4 (5 (6 7)))))) 1 ]=> (car (cdr (car (cdr (car (cdr (car (cdr (car (cdr (car (cdr list1)))))))))))) ;Value: 7
练习2.26
1 ]=> (append x y) ;Value : (1 2 3 4 5 6) 1 ]=> (cons x y) ;Value : ((1 2 3) 4 5 6) 1 ]=> (list x y) ;Value : ((1 2 3) (4 5 6))
练习2.27
(define (deep-reverse items) (cond ((null? items) '()) ((pair? (car items)) (append (deep-reverse (cdr items)) (list (deep-reverse (car items))))) (else (append (deep-reverse (cdr items)) (list (car items))))))
练习2.28
;; 采用递归的方式,如果是序对就将左子树和右子树的结果拼接,否则直接拼接
(define (fringe items)
(define (frings-iter things answer)
(cond ((null? things) answer)
((pair? things)
(append (frings-iter (car things) answer)
(frings-iter (cdr things) answer)))
(else
(append answer (list things)))))
(frings-iter items '()))
练习2.29
;; a
(define (left-branch mobile)
(car mobile))
(define (right-branch mobile)
(cdr mobile))
(define (branch-length branch)
(car branch))
(define (branch-structure branch)
(car (cdr branch)))
;; b
;; 先检查是不是二叉活动体,如果是则递归求两个分支的重量
;; 再检查分支的structure是否仍然是活动体, 如果是则递归求structure的重量
;; 最后对于最简单的分支情况直接相加重量
(define (total-weight mobile)
(define (mobile-flag m)
(pair? (left-branch m)))
(define (branch-flag m)
(pair? (branch-structure m)))
(define (total-weight-iter m tw)
(cond ((null? m) tw)
((mobile-flag m) (+ (total-weight-iter (left-branch m) tw)
(total-weight-iter (right-branch m) tw)))
((branch-flag m) (+ (total-weight-iter (branch-structure m) tw)))
(else (+ tw (branch-structure m)))))
(total-weight-iter mobile 0))
;; 或者可以将活动体的重量看做是两个分支重量之和
;; 但是在对分支求重量时仍然要区分是否还有分支
(define (total-weight mobile)
(if (pair? (left-branch mobile))
(+ (branch-weight (left-branch mobile))
(branch-weight (right-branch mobile)))
(branch-weight mobile)))
(define (branch-weight branch)
(let ((structure
(if (null? (right-branch branch))
(left-branch branch)
(branch-structure branch))))
(if (pair? structure)
(branch-weight structure)
structure)))
;; c
;; 首先定义分支的力矩,依据其是否有分支分别处理
(define (branch-value branch)
(if (null? (right-branch branch))
(* (branch-length (left-branch branch)) (branch-weight branch))
(* (branch-length branch) (branch-weight branch))))
;; 然后实现活动体的检测过程:两个分支平衡且两个分支的力矩相等
(define (check-balance mobile)
(if (pair? (left-branch mobile))
(and (check-balance (left-branch mobile))
(check-balance (car (right-branch mobile)))
(= (branch-value (left-branch mobile))
(branch-value (right-branch mobile))))
#t))
;; d
;; 需要对structure过程修改
(define (branch-structure branch)
;;(car (cdr branch)))
(cdr branch))
(define (check-balance mobile)
(if (pair? (left-branch mobile))
(and (check-balance (left-branch mobile))
;;(check-balance (car (right-branch mobile)))
(check-balance (right-branch mobile))
(= (branch-value (left-branch mobile))
(branch-value (right-branch mobile))))
#t))
;; 验证
(define mtest
(make-mobile (make-branch 3 4)
(make-branch 2 6)))
1 ]=> (total-weight mtest)
;Value: 10
1 ]=> (check-balance mtest)
;Value: #t
练习2.30
(define (square-tree tree)
(cond ((null? tree) '())
((not (pair? tree)) (square tree))
(else (cons (square-tree (car tree))
(square-tree (cdr tree))))))
(define (map-square-tree tree)
(map (lambda (sub-tree)
(if (pair? sub-tree)
(map-square-tree sub-tree)
(square sub-tree)))
tree))
1 ]=> (square-tree (list 1 (list 2 (list 3 4) 5) (list 6 7)))
;Value : (1 (4 (9 16) 25) (36 49))
1 ]=> (map-square-tree (list 1 (list 2 (list 3 4) 5) (list 6 7)))
;Value : (1 (4 (9 16) 25) (36 49))
练习2.31
(define (tree-map fun tree)
(map (lambda (sub-tree)
(if (pair? sub-tree)
(tree-map fun sub-tree)
(fun sub-tree)))
tree))
1 ]=> (define (square-tree-test tree) (tree-map square tree))
;Value : square-tree-test
1 ]=> (square-tree-test (list 1 (list 2 (list 3 4) 5) (list 6 7)))
;Value : (1 (4 (9 16) 25) (36 49))
练习2.32
;; 仿照换零钱的例子
;; rest取不包含(car s)元素的所有剩余元素的组合
;; 则应加上(car s)元素与所有剩余元素的组合
(define (subsets s)
(if (null? s)
(list '())
(let ((rest (subsets (cdr s))))
(append rest (map (lambda (r) (append (list (car s)) r)) rest)))))
1 ]=> (subsets s)
;Value : (() (3) (2) (2 3) (1) (1 3) (1 2) (1 2 3))
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