more functional approach

main
Inga 🏳‍🌈 1 year ago
parent 7e979bb2cf
commit 80aa85f17b
  1. 67
      day01-easy/main.scm

@ -10,51 +10,46 @@
'()
(cons line (loop (read-line))))))
(define (reduce-right reducer initial list)
(if
(null? list)
initial
(reducer (car list) (reduce-right reducer initial (cdr list)))))
(define (id value) value)
(define (map mapper list)
(define (compose result-transformer f argument-transformer)
(lambda (value)
(result-transformer (f (argument-transformer value)))))
(define Y (lambda (f) (f (lambda (x) ((Y f) x)))))
(define (reduce-right reducer initial) (Y
(lambda (f) (lambda (list)
(if (null? list) initial (reducer (car list) (f (cdr list))))))))
(define (map mapper)
(reduce-right
(lambda (current accumulator) (cons (mapper current) accumulator))
'()
list))
'()))
(define (combine combiner a b)
(if (null? a) b (if (null? b) a (combiner a b))))
(define (combine combiner)
(lambda (a b) (if (null? a) b (if (null? b) a (combiner a b)))))
(define (sum numbers) (reduce-right + 0 numbers))
(define sum (reduce-right + 0))
(define
(repeat value number)
(if
(= number 0)
'()
(cons value (repeat value (- number 1)))))
(define (repeat value) (Y
(lambda (f) (lambda (n)
(if (= n 0) '() (cons value (f (- n 1))))))))
(define (is-numeric-char char) (if (char-numeric? char) #t #f))
(define (first-last predicate list)
(define (first-last predicate) (compose
id
(reduce-right
(lambda (current accumulator)
(combine
(lambda (left right) (cons (car left) (cdr right)))
current
accumulator))
'()
(map
(lambda (entry)
(if (predicate entry) (repeat entry 2) '()))
list)))
(define (solve-line line)
((lambda (first-last-result)
(string->number (list->string first-last-result)))
(first-last is-numeric-char (string->list line))))
(define (solve-all lines)
(sum (map solve-line lines)))
(combine (lambda (left right) (cons (car left) (cdr right))))
'())
(map (lambda (entry) (if (predicate entry) ((repeat entry) 2) '())))))
(define solve-line (compose
(lambda (first-last-result) (string->number (list->string first-last-result)))
(first-last is-numeric-char)
string->list))
(define (solve-all lines) (sum ((map solve-line) lines)))
(display (solve-all (read-lines)))

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