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Originale Blame Cronologia 

  1. (define (nil? x) "Checks if the argument is nil." (= x nil))

  2. 

  3. (define (number? x) "Checks if the argument is a number." (= (type x) :number))

  4. 

  5. (define (symbol? x) "Checks if the argument is a symbol." (= (type x) :symbol))

  6. 

  7. (define (keyword? x) "Checks if the argument is a keyword." (= (type x) :keyword))

  8. 

  9. (define (pair? x) "Checks if the argument is a pair." (= (type x) :pair))

  10. 

  11. (define (string? x) "Checks if the argument is a string." (= (type x) :string))

  12. 

  13. (define (lambda? x) "Checks if the argument is a function." (= (type x) :dynamic-function))

  14. 

  15. (define (special-lambda? x) "Checks if the argument is a macro." (= (type x) :dynamic-macro))

  16. 

  17. (define (built-n-function? x) "Checks if the argument is a built-in function." (= (type x) :built-in-function))

  18. 

  19. (define (end seq) "Returns the last pair in the sqeuence." (if (or (nil? seq) (not (pair? (rest seq)))) seq (end (rest seq))))

  20. 

  21. (define (last seq) "Returns the (first) of the last (pair) of the given sequence." (first (end seq)))

  22. 

  23. (define (extend seq elem) "Extends a list with the given element, by putting it in

  24. the (rest) of the last element of the sequence." (if (pair? seq) (begin (define e (end seq)) (mutate e (pair (first e) elem)) seq) elem))

  25. 

  26. (define (extend2 seq elem) "Extends a list with the given element, by putting it in

  27. the (rest) of the last element of the sequence." (printf "addr of (end seq)" (addr-of (end seq))) (if (pair? seq) ((lambda (e) (printf "addr if e inner" (addr-of e)) (mutate e (pair (first e) elem)) seq) (end seq))) elem)

  28. 

  29. (define (append seq elem) "Appends an element to a sequence, by extendeing the list

  30. with (pair elem nil)." (extend seq (pair elem ())))

  31. 

  32. (define (length seq) "Returns the length of the given sequence." (if (nil? seq) 0 (+ 1 (length (rest seq)))))

  33. 

  34. (define (increment val) "Adds one to the argument." (+ val 1))

  35. 

  36. (define (decrement val) "Subtracts one from the argument." (- val 1))

  37. 

  38. (define (range :keys from :defaults-to 0 to) "Returns a sequence of numbers starting with the number defined

  39. by the key 'from' and ends with the number defined in 'to'." (if (< from to) (pair from (range :from (+ 1 from) :to to))))

  40. 

  41. (define (range-while :keys from :defaults-to 0 to) "Returns a sequence of numbers starting with the number defined

  42. by the key 'from' and ends with the number defined in 'to'." (define result (list (copy from))) (define head result) (mutate from (increment from)) (while (< from to) (begin (mutate head (pair (first head) (pair (copy from) nil))) (define head (rest head)) (mutate from (increment from)))) result)

  43. 

  44. (define (map fun seq) "Takes a function and a sequence as arguments and returns a new

  45. sequence which contains the results of using the first sequences

  46. elemens as argument to that function." (if (nil? seq) seq (pair (fun (first seq)) (map fun (rest seq)))))

  47. 

  48. (define (reduce fun seq) "Takes a function and a sequence as arguments and applies the

  49. function to the argument sequence. This only works correctly if

  50. the given function accepts a variable amount of parameters. If

  51. your funciton is limited to two arguments, use `reduce-binary'

  52. instead." (eval (pair fun seq)))

  53. 

  54. (define (reduce-binary fun seq) "Takes a function and a sequence as arguments and applies the

  55. function to the argument sequence. reduce-binary applies the

  56. arguments `pair-wise' which means it works with binary functions

  57. as compared to `reduce'." (if (nil? (rest seq)) (first seq) (fun (first seq) (reduce-binary fun (rest seq)))))

  58. 

  59. (define (filter fun seq) "Takes a function and a sequence as arguments and applies the

  60. function to every value in the sequence. If the result of that

  61. funciton application returns a truthy value, the original value is

  62. added to a list, which in the end is returned." (if seq (if (fun (first seq)) (pair (first seq) (filter fun (rest seq))) (filter fun (rest seq)))))

  63. 

  64. (define (zip l1 l2) (if (and (nil? l1) (nil? l2)) nil (pair (list (first l1) (first l2)) (zip (rest l1) (rest l2)))))

  65. 

  66. (define (unzip lists) (if lists (define (iter lists l1 l2) (define elem (first lists)) (if elem (iter (rest lists) (pair (first elem) l1) (pair (first (rest elem)) l2)) (list l1 l2)))) (iter lists () ()))

  67. 

  68. (define (enumerate seq) (define (enumerate-inner seq next-num) (if seq (pair (list (first seq) next-num) (enumerate-inner (rest seq) (+ 1 next-num))))) (enumerate-inner seq 0))

  69. 

  70. (define (printf :keys sep :defaults-to " " end :defaults-to "

  71. " :rest args) "A wrapper for the built-in (print) that accepts a variable number

  72. of arguments and also provides keywords for specifying the printed

  73. separators between the arguments and what should be printed after the

  74. las argument." (define printf-quoted (special-lambda (:keys sep end :rest args) (if (nil? args) (begin (print (eval end)) nil) (begin (print (first args)) (if (nil? (rest args)) nil (print (eval sep))) (eval (pair printf-quoted (extend (list :sep (eval sep) :end (eval end)) (rest args)))))))) (eval (pair printf-quoted (extend (list :sep (eval sep) :end (eval end)) args))))