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slime/bin/tests/sicp.slime

342 行
7.3 KiB
原始文件 永久链接 Blame 文件历史 

  1. 

  2. (define (abs x)

  3.   (cond ((< x 0) (- x))

  4.         (else x)))

  5. 

  6. (assert (= (abs 1) 1))

  7. (assert (= (abs (- 2)) 2))

  8. 

  9. 

  10. (define (abs x)

  11.   (if (< x 0)

  12.       (- x)

  13.     x))

  14. 

  15. (assert (= (abs 12) 12))

  16. (assert (= (abs (- 32)) 32))

  17. 

  18. 

  19. (define (>= x y)

  20.   (or (> x y)

  21.       (= x y)))

  22. 

  23. (assert (>= 2 2))

  24. (assert (>= 3 2))

  25. (assert (not (>= 1 2)))

  26. (assert (not (>= 12 44)))

  27. 

  28. 

  29. (define (>= x y)

  30.   (not (< x y)))

  31. 

  32. (assert (>= 2 2))

  33. (assert (>= 3 2))

  34. (assert (not (>= 1 2)))

  35. (assert (not (>= 12 44)))

  36. 

  37. 

  38. (define (a-plus-abs-b a b)

  39.   ((if (> b 0) + -) a b))

  40. 

  41. (assert (= (a-plus-abs-b 1  2) 3))

  42. (assert (= (a-plus-abs-b 1 -2) 3))

  43. 

  44. (define (square x) (* x x))

  45. (define (cube x) (* x x x))

  46. 

  47. (assert (= ((lambda (x y z)

  48.               (+ x y (square z)))

  49.             1 2 3)

  50.            12))

  51. 

  52. ;; ;;; --------------------

  53. ;; ;;;    newtons method

  54. ;; ;;; --------------------

  55. 

  56. (define tolerance 0.001)

  57. 

  58. (define (square x)

  59.   (* x x))

  60. 

  61. (define (average x y)

  62.   (/ (+ x y) 2))

  63. 

  64. (define (improve guess x)

  65.   (average guess (/ x guess)))

  66. 

  67. (define (good-enough? guess x)

  68.   (< (abs (- (square guess) x)) tolerance))

  69. 

  70. (define (sqrt-iter guess x)

  71.   (if (good-enough? guess x)

  72.       guess

  73.     (sqrt-iter (improve guess x) x)))

  74. 

  75. (define (sqrt x)

  76.   (sqrt-iter 1.0 x))

  77. 

  78. (define (sqrt2 x)

  79.   (define (good-enough? guess x)

  80.     (< (abs (- (square guess) x)) 0.001))

  81. 

  82.   (define (improve guess x)

  83.     (average guess (/ x guess)))

  84. 

  85.   (define (sqrt-iter guess x)

  86.     (if (good-enough? guess x)

  87.         guess

  88.       (sqrt-iter (improve guess x) x)))

  89. 

  90.   (sqrt-iter 1.0 x))

  91. 

  92. (define (sqrt3 x)

  93.   (define (good-enough? guess)

  94.     (< (abs (- (square guess) x)) 0.001))

  95. 

  96.   (define (improve guess)

  97.     (average guess (/ x guess)))

  98. 

  99.   (define (sqrt-iter guess)

  100.     (if (good-enough? guess)

  101.         guess

  102.       (sqrt-iter (improve guess))))

  103. 

  104.   (sqrt-iter 1.0))

  105. 

  106. (assert      (< (abs (- 3 (sqrt 9)))  tolerance))

  107. (assert      (< (abs (- 4 (sqrt 16))) tolerance))

  108. (assert (not (< (abs (- 4 (sqrt 15))) tolerance)))

  109. 

  110. (assert      (< (abs (- 3 (sqrt2 9)))  tolerance))

  111. (assert      (< (abs (- 4 (sqrt2 16))) tolerance))

  112. (assert (not (< (abs (- 4 (sqrt2 15))) tolerance)))

  113. 

  114. (assert      (< (abs (- 3 (sqrt3 9)))  tolerance))

  115. (assert      (< (abs (- 4 (sqrt3 16))) tolerance))

  116. (assert (not (< (abs (- 4 (sqrt3 15))) tolerance)))

  117. 

  118. 

  119. ;;; -----------------

  120. ;;;     factorial

  121. ;;; -----------------

  122. 

  123. (define (factorial n)

  124.   (if (= n 1)

  125.       1

  126.     (* n (factorial (- n 1)))))

  127. 

  128. (define (factorial2 n)

  129.   (fact-iter 1 1 n))

  130. 

  131. (define (fact-iter product counter max-count)

  132.   (if (> counter max-count)

  133.       product

  134.     (fact-iter (* counter product) (+ counter 1) max-count)))

  135. 

  136. (define (factorial3 n)

  137.   (define (iter product counter)

  138.     (if (> counter n)

  139.         product

  140.       (iter (* counter product) (+ counter 1))))

  141. 

  142.   (iter 1 1))

  143. 

  144. (assert (= (factorial  6) 720))

  145. (assert (= (factorial2 6) 720))

  146. (assert (= (factorial3 6) 720))

  147. 

  148. ;;; ----------------

  149. ;;;     ackermann

  150. ;;; ----------------

  151. 

  152. (define (A m n)

  153.     (cond ((= m 0) (+ n 1))

  154.           ((= n 0) (A (- m 1) 1))

  155.           (else (A (- m 1) (A m (- n 1))))))

  156. 

  157. (assert (= (A 0 0) 1))

  158. (assert (= (A 1 2) 4))

  159. (assert (= (A 3 1) 13))

  160. 

  161. 

  162. ;; ;;; ---------------

  163. ;; ;;;    Fibonacci

  164. ;; ;;; ---------------

  165. 

  166. (define (fib n)

  167.   (cond ((= n 0) 0)

  168.         ((= n 1) 1)

  169.         (else (+ (fib (- n 1)) (fib (- n 2))))))

  170. 

  171. (define (fib2 n)

  172.   (fib-iter 1 0 n))

  173. 

  174. (define (fib-iter a b count)

  175.   (if (= count 0)

  176.       b

  177.     (fib-iter (+ a b) a (- count 1))))

  178. 

  179. (assert (= (fib 2) 1))

  180. (assert (= (fib 3) 2))

  181. (assert (= (fib 4) 3))

  182. (assert (= (fib 5) 5))

  183. (assert (= (fib 6) 8))

  184. 

  185. (assert (= (fib2 2) 1))

  186. (assert (= (fib2 3) 2))

  187. (assert (= (fib2 4) 3))

  188. (assert (= (fib2 5) 5))

  189. (assert (= (fib2 6) 8))

  190. 

  191. ;;; ------------------

  192. ;;;    count change

  193. ;;; ------------------

  194. 

  195. (define (count-change amount)

  196.   (define (cc amount kinds-of-coins)

  197.     (cond ((= amount 0) 1)

  198.           ((or (< amount 0) (= kinds-of-coins 0)) 0)

  199.           (else (+ (cc amount (- kinds-of-coins 1))

  200.                    (cc (- amount (first-denomination kinds-of-coins)) kinds-of-coins)))))

  201. 

  202.   (define (first-denomination kinds-of-coins)

  203.     (cond ((= kinds-of-coins 1) 1)

  204.           ((= kinds-of-coins 2) 5)

  205.           ((= kinds-of-coins 3) 10)

  206.           ((= kinds-of-coins 4) 25)

  207.           ((= kinds-of-coins 5) 50)))

  208. 

  209.   (cc amount 5))

  210. 

  211. ;; (assert (= (count-change 100) 292))

  212. 

  213. ;; ;;; --------------------

  214. ;; ;;;    exponentiation

  215. ;; ;;; --------------------

  216. 

  217. (define (expt b n)

  218.   (if (= n 0)

  219.       1

  220.     (* b (expt b (- n 1)))))

  221. 

  222. (define (expt2 b n)

  223.   (define (expt-iter b counter product)

  224.     (if (= counter 0)

  225.         product

  226.       (expt-iter b (- counter 1) (* b product))))

  227. 

  228.   (expt-iter b n 1))

  229. 

  230. (define (fast-expt b n)

  231.   (define (even? n)

  232.     (= (% n 2) 0))

  233. 

  234.   (cond ((= n 0) 1)

  235.         ((even? n) (square (fast-expt b (/ n 2))))

  236.         (else (* b (fast-expt b (- n 1))))))

  237. 

  238. (assert (= (expt 1 2) 1))

  239. (assert (= (expt 2 2) 4))

  240. (assert (= (expt 2 3) 8))

  241. 

  242. (assert (= (expt2 1 2) 1))

  243. (assert (= (expt2 2 2) 4))

  244. (assert (= (expt2 2 3) 8))

  245. 

  246. (assert (= (fast-expt 1 2) 1))

  247. (assert (= (fast-expt 2 2) 4))

  248. (assert (= (fast-expt 2 3) 8))

  249. 

  250. ;;; ----------

  251. ;;;    gcd

  252. ;;; ----------

  253. 

  254. (define (gcd a b)

  255.   (if (= b 0)

  256.       a

  257.     (gcd b (% a b))))

  258. 

  259. (assert (= (gcd 40 6) 2))

  260. (assert (= (gcd 13 4) 1))

  261. 

  262. 

  263. ;;; ----------

  264. ;;;   primes

  265. ;;; ----------

  266. 

  267. (define (smallest-divisor n)

  268.   (find-divisor n 2))

  269. 

  270. (define (find-divisor n test-divisor)

  271.   (cond ((> (square test-divisor) n) n)

  272.         ((divides? test-divisor n) test-divisor)

  273.         (else (find-divisor n (+ test-divisor 1)))))

  274. 

  275. (define (divides? a b)

  276.   (= (% b a) 0))

  277. 

  278. (define (prime? n)

  279.   (= n (smallest-divisor n)))

  280. 

  281. (assert (prime? 13))

  282. (assert (prime? 11))

  283. (assert (not (prime? 12)))

  284. 

  285. 

  286. ;; ----------------------

  287.    ;; simple integral

  288. ;; ----------------------

  289. 

  290. (define (sum term a next b)

  291.   (if (> a b)

  292.       0

  293.     (+ (term a) (sum term (next a) next b))))

  294. 

  295. (define (integral f a b dx)

  296.   (define (add-dx x) (+ x dx))

  297.   (* (sum f (+ a (/ dx 2.0)) add-dx b) dx))

  298. 

  299. (define (pi-sum a b)

  300.   (define (pi-term x) (/ 1.0 (* x (+ x 2))))

  301.   (define (pi-next x) (+ x 4))

  302.   (sum pi-term a pi-next b))

  303. 

  304. (assert (< (abs (- (* 8 (pi-sum 1 100))     3.121595)) 0.0001))

  305. (assert (< (abs (- (integral cube 0 1 0.02) 0.249950)) 0.0001))

  306. 

  307. 

  308. ;; ------------------------------------------------------------

  309.       ;; F(x,y) = x(1 + xy)^2 + y(1 − y) + (1 + xy)(1 − y)

  310. ;; ------------------------------------------------------------

  311. 

  312. (define (f x y)

  313.   (let ((a (+ 1 (* x y)))

  314.         (b (- 1 y)))

  315.     (+ (* x (square a))

  316.        (* y b)

  317.        (* a b))))

  318. 

  319. (assert (= (f 0 0) 1))

  320. (assert (= (f 1 1) 4))

  321. 

  322. 

  323. ;;; ---------------

  324. ;;;    find zero

  325. ;;; ---------------

  326. 

  327. (define (positive? x) (< 0 x))

  328. (define (negative? x) (< x 0))

  329. 

  330. (define (search f neg-point pos-point)

  331.   (let ((midpoint (average neg-point pos-point)))

  332.     (if (close-enough? neg-point pos-point)

  333.         midpoint

  334.       (let ((test-value (f midpoint)))

  335.         (cond ((positive? test-value) (search f neg-point midpoint))

  336.               ((negative? test-value) (search f midpoint pos-point))

  337.               (else midpoint))))))

  338. 

  339. (define (close-enough? x y) (< (abs (- x y)) 0.001))

  340. 

  341. (assert (close-enough? (search (lambda (x) (- 1 (square x))) -3 3) -1))