(define-module (Com Simatime core) #:use-module ((ice-9 format)) #:export ( ;; simple printing fmt printf pr prn ;; navigating data first next second rest ;; booleans true? false? nil nil? ;; dev helpers comment )) (define (flip f) (lambda (x y) (f y x))) (define (curry f a) (lambda (b) (apply f (cons a (list b))))) (define pos? (curry < 0)) (define neg? (curry > 0)) (define (foldr f end lst) (if (null? lst) end (f (car lst) (foldr f end (cdr lst))))) (define (foldl f acc lst) (if (null? lst) acc (foldl f (f acc (car lst)) (cdr lst)))) (define fold foldl) (define (unfold f init pred) (if (pred init) (cons init '()) (cons init (unfold f (f init) pred)))) (define (sum lst) (fold + 0 lst)) (define (produce lst) (fold * 1 lst)) (define count length) ;; ;; clojure-like stuff ;; (define (pr . a) (for-each display a)) (define (prn . a) (apply pr a) (newline)) (define (first a) "Return the first item in the collection." (car a)) (define (rest a) "Returns a list of the items after the first." (cdr a)) (define (next a) "Returns the next item after the first." (cadr a)) (define (second a) (first (next a))) (define (ffirst a) (first (first a))) (define (nnext a) (next (next a))) (define (last coll) "Return the last time in coll, in linear time." (if (next coll) (last coll) (first coll))) (define (butlast ls) "Return everthing execpt the last element in ls." (let ((len (length ls))) (list-head ls (- len 1)))) (define (false? x) (eq? #f x)) (define (true? x) (eq? #t x)) (define nil #nil) (define (nil? x) (eq? nil x)) ;; Ignores body, returns nil. (define-syntax comment (syntax-rules () ((_ ...) nil))) (comment ;; nil is different from null. nil is supposed to be more like ;; 'Nothing' in Haskell, it is the absence of any value or type; ;; whereas null is specifically the empty list, which still has a type ;; of 'list'. (null? '()) ;; => #t (nil? '()) ;; => #f ) (define (some pred coll) (or (pred (first coll)) (some pred (next coll)))) (define comp compose) (define (not-any? pred coll) (comp not some)) (define (printf . args) (display (apply format args))) (define-syntax fmt (syntax-rules () ((_ s args ...) (format #f s args ...)))) ;; If I implement ML-like interface abstractions in scheme, what would it look like? ;; ;; ;; seq ;; (define-class () (_first)) ;; ;; ;; Functor ;; (define-class ()) ;; (define-method (fmap (f ) (coll ))) ;; ;; ;; Applicative ;; ;; a -> f a ;; (define-method (pure (a ))) ;; ;; f (a -> b) -> f a -> f b ;; (define-method (<*> (f ) (a ) (b ))) ;; ;; f a -> f b -> f b ;; (define-method (*> (a ) (b ))) ;; ;; f a -> f b -> f a ;; (define-method (<* (a ) (b )))