#lang typed-scheme
(provide filter remove
empty empty? enqueue enqueue-front init
last head tail deque deque->list Deque
foldr (rename-out [dqmap map] [dqfoldl foldl]))
(require "stream.ss")
(define-struct: (A) Deque
([front : (Stream A)]
[lenf : Integer]
[scdulF : (Stream A)]
[rear : (Stream A)]
[lenr : Integer]
[scdulR : (Stream A)]))
(define inv-c 2)
(define empty (make-Deque empty-stream 0 empty-stream
empty-stream 0 empty-stream))
(: empty? : (All (A) ((Deque A) -> Boolean)))
(define (empty? rtdq)
(zero? (+ (Deque-lenf rtdq) (Deque-lenr rtdq))))
(: exec-one : (All (A) ((Stream A) -> (Stream A))))
(define (exec-one strem)
(if (empty-stream? strem)
empty-stream
(stream-cdr strem)))
(: exec-two : (All (A) ((Stream A) -> (Stream A))))
(define (exec-two strem)
(exec-one (exec-one strem)))
(: rotate-rev : (All (A) ((Stream A) (Stream A) (Stream A) -> (Stream A))))
(define (rotate-rev frnt rer accum)
(if (empty-stream? frnt)
(rev-append rer accum)
(stream-cons (stream-car frnt)
(rotate-rev (stream-cdr frnt)
(drop inv-c rer)
(rev-append (take inv-c rer) accum)))))
(: rev-append : (All (A) ((Stream A) (Stream A) -> (Stream A))))
(define (rev-append strm accum)
(if (empty-stream? strm)
accum
(rev-append (stream-cdr strm) (stream-cons (stream-car strm) accum))))
(: rotate-drop : (All (A) ((Stream A) Integer (Stream A) -> (Stream A))))
(define (rotate-drop frnt num rer)
(if (< num inv-c)
(rotate-rev frnt (drop num rer) empty-stream)
(stream-cons (stream-car frnt)
(rotate-drop (stream-cdr frnt)
(- num inv-c)
(drop inv-c rer)))))
(define-type-alias (S A) (Stream A))
(: internal-Deque :
(All (A) ((S A) Integer (S A) (S A) Integer (S A) -> (Deque A))))
(define (internal-Deque fr lenf sf r lenr sr)
(cond
[(> lenf (add1 (* lenr inv-c))) (maintainR fr lenf sf r lenr sr)]
[(> lenr (add1 (* lenf inv-c))) (maintainF fr lenf sf r lenr sr)]
[else (make-Deque fr lenf sf r lenr sr)]))
(: maintainR :
(All (A) ((S A) Integer (S A) (S A) Integer (S A) -> (Deque A))))
(define (maintainR front lenf sf rear lenr sr)
(let* ([size (+ lenf lenr)]
[new-lenf (arithmetic-shift size -1)]
[new-lenr (- size new-lenf)]
[newF (take new-lenf front)]
[newR (rotate-drop rear new-lenf front)])
(make-Deque newF new-lenf newF newR new-lenr newR)))
(: maintainF :
(All (A) ((S A) Integer (S A) (S A) Integer (S A) -> (Deque A))))
(define (maintainF front lenf sf rear lenr sr)
(let* ([size (+ lenf lenr)]
[new-lenr (arithmetic-shift size -1)]
[new-lenf (- size new-lenr)]
[newF (rotate-drop front new-lenr rear)]
[newR (take new-lenr rear)])
(make-Deque newF new-lenf newF newR new-lenr newR)))
(: enqueue : (All (A) (A (Deque A) -> (Deque A))))
(define (enqueue elem rtdq)
(internal-Deque (stream-cons elem (Deque-front rtdq))
(add1 (Deque-lenf rtdq))
(exec-one (Deque-scdulF rtdq))
(Deque-rear rtdq)
(Deque-lenr rtdq)
(exec-one (Deque-scdulR rtdq))))
(: enqueue-front : (All (A) (A (Deque A) -> (Deque A))))
(define (enqueue-front elem rtdq)
(internal-Deque (Deque-front rtdq)
(Deque-lenf rtdq)
(exec-one (Deque-scdulF rtdq))
(stream-cons elem (Deque-rear rtdq))
(add1 (Deque-lenr rtdq))
(exec-one (Deque-scdulR rtdq))))
(: last : (All (A) ((Deque A) -> A)))
(define (last rtdq)
(if (empty? rtdq)
(error 'last "given deque is empty")
(let ([front (Deque-front rtdq)])
(if (empty-stream? front)
(stream-car (Deque-rear rtdq))
(stream-car front)))))
(: head : (All (A) ((Deque A) -> A)))
(define (head rtdq)
(if (empty? rtdq)
(error 'head "given deque is empty")
(let ([rear (Deque-rear rtdq)])
(if (empty-stream? rear)
(stream-car (Deque-front rtdq))
(stream-car rear)))))
(: init : (All (A) ((Deque A) -> (Deque A))))
(define (init rtdq)
(if (empty? rtdq)
(error 'init "given deque is empty")
(let ([front (Deque-front rtdq)])
(if (empty-stream? front)
empty
(internal-Deque (stream-cdr front)
(sub1 (Deque-lenf rtdq))
(exec-two (Deque-scdulF rtdq))
(Deque-rear rtdq)
(Deque-lenr rtdq)
(exec-two (Deque-scdulR rtdq)))))))
(: tail : (All (A) ((Deque A) -> (Deque A))))
(define (tail rtdq)
(if (empty? rtdq)
(error 'tail "given deque is empty")
(let ([rear (Deque-rear rtdq)])
(if (empty-stream? rear)
empty
(internal-Deque (Deque-front rtdq)
(Deque-lenf rtdq)
(exec-two (Deque-scdulF rtdq))
(stream-cdr rear)
(sub1 (Deque-lenr rtdq))
(exec-two (Deque-scdulR rtdq)))))))
(: dqmap : (All (A C B ...)
((A B ... B -> C) (Deque A) (Deque B) ... B -> (Deque C))))
(define (dqmap func que . ques)
(: in-map : (All (A C B ...)
((Deque C) (A B ... B -> C) (Deque A) (Deque B) ... B ->
(Deque C))))
(define (in-map accum func que . ques)
(if (or (empty? que) (ormap empty? ques))
accum
(apply in-map
(enqueue (apply func (head que) (map head ques)) accum)
func
(tail que)
(map tail ques))))
(apply in-map empty func que ques))
(: foldr : (All (A C B ...)
((C A B ... B -> C) C (Deque A) (Deque B) ... B -> C)))
(define (foldr func base que . ques)
(if (or (empty? que) (ormap empty? ques))
base
(apply foldr
func
(apply func base (head que) (map head ques))
(tail que)
(map tail ques))))
(: dqfoldl : (All (A C B ...)
((C A B ... B -> C) C (Deque A) (Deque B) ... B -> C)))
(define (dqfoldl func base que . ques)
(if (or (empty? que) (ormap empty? ques))
base
(apply dqfoldl
func
(apply func base (last que) (map last ques))
(init que)
(map init ques))))
(: deque->list : (All (A) ((Deque A) -> (Listof A))))
(define (deque->list dque)
(if (empty? dque)
null
(cons (head dque) (deque->list (tail dque)))))
(: list->deque : (All (A) ((Listof A) -> (Deque A))))
(define (list->deque lst)
(foldl (inst enqueue A) empty lst))
(: deque : (All (A) (A * -> (Deque A))))
(define (deque . lst)
(foldl (inst enqueue A) empty lst))
(: filter : (All (A) ((A -> Boolean) (Deque A) -> (Deque A))))
(define (filter func que)
(: inner : (All (A) ((A -> Boolean) (Deque A) (Deque A) -> (Deque A))))
(define (inner func que accum)
(if (empty? que)
accum
(let ([head (head que)]
[tail (tail que)])
(if (func head)
(inner func tail (enqueue head accum))
(inner func tail accum)))))
(inner func que empty))
(: remove : (All (A) ((A -> Boolean) (Deque A) -> (Deque A))))
(define (remove func que)
(: inner : (All (A) ((A -> Boolean) (Deque A) (Deque A) -> (Deque A))))
(define (inner func que accum)
(if (empty? que)
accum
(let ([head (head que)]
[tail (tail que)])
(if (func head)
(inner func tail accum)
(inner func tail (enqueue head accum))))))
(inner func que empty))
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