#lang scheme
(require (planet cce/scheme:4:1/planet)
(this-package-in private/tree)
(this-package-in private/fold)
(this-package-in private/scons))
(define indx-msg "index ~a too large for list: ~a")
(define-struct (ra:kons s:kons) ()
#:property prop:sequence
(lambda (ra)
(let ((init (s:foldr (lambda (p r) (cons (cdr p) r)) empty ra)))
(make-do-sequence
(lambda ()
(values
(lambda (x) (tree-val (car x)))
(lambda (p)
(let ((tr (car p)))
(cond [(leaf? tr) (cdr p)]
[else
(cons (node-left tr)
(cons (node-right tr)
(cdr p)))])))
init cons? void void))))))
(define (half n)
(arithmetic-shift n -1))
(define (tree-ref/update s t i f)
(cond [(zero? i)
(values (tree-val t)
(let ((v* (f (tree-val t))))
(cond [(leaf? t) (make-leaf v*)]
[else
(make-node v* (node-left t) (node-right t))])))]
[else
(let ((s* (half s)))
(if (<= i s*)
(let-values ([(v* t*)
(tree-ref/update s* (node-left t) (- i 1) f)])
(values v* (make-node (tree-val t) t* (node-right t))))
(let-values ([(v* t*)
(tree-ref/update s* (node-right t) (- i 1 s*) f)])
(values v* (make-node (tree-val t) (node-left t) t*)))))]))
(define (ra:list-ref/update ls i f)
(let loop ((xs ls) (j i))
(match xs
[(s:empty) (error 'ra:list-ref/update indx-msg i ls)]
[(s:cons (cons s t) r)
(cond [(< j s)
(let-values ([(v* t*) (tree-ref/update s t j f)])
(values v* (make-ra:kons (cons s t*) r)))]
[else
(let-values ([(v* r*) (loop r (- j s))])
(values v* (make-ra:kons (s:first xs) r*)))])])))
(define (ra:list-ref/set ls i v)
(ra:list-ref/update ls i (lambda (_) v)))
(define (ra:list-ref ls i)
(let-values ([(v* _) (ra:list-ref/set ls i '_)]) v*))
(define (ra:list-set ls i v)
(let-values ([(_ l*) (ra:list-ref/set ls i v)]) l*))
(define (ra:cons x ls)
(match ls
[(s:cons (cons s t1) (s:cons (cons s t2) r))
(make-ra:kons (cons (+ 1 s s) (make-node x t1 t2)) r)]
[else
(make-ra:kons (cons 1 (make-leaf x)) ls)]))
(define (ra:first ls)
(match ls
[(s:empty) (error 'ra:first "expected non-empty list")]
[(s:cons (cons s (struct tree (x))) r) x]))
(define (ra:rest ls)
(match ls
[(s:empty) (error 'ra:rest "expected non-empty list")]
[(s:cons (cons s (struct leaf (x))) r) r]
[(s:cons (cons s (struct node (x t1 t2))) r)
(let ((s* (half s)))
(make-ra:kons (cons s* t1) (make-ra:kons (cons s* t2) r)))]))
(define ra:empty s:empty)
(define ra:empty? s:empty?)
(define ra:foldl (make-foldl ra:empty? ra:first ra:rest))
(define ra:foldr (make-foldr ra:empty? ra:first ra:rest))
(define (ra:cons? x)
(match x
[(s:cons (cons (? integer?) (? tree?)) r) true]
[else false]))
(define (ra:list? x)
(or (ra:empty? x)
(ra:cons? x)))
(define (ra:list . xs)
(foldr ra:cons ra:empty xs))
(define (ra:list* x . r+t)
(let loop ((xs+t (cons x r+t)))
(match xs+t
[(list (? ra:list? t)) t]
[(list x) (error 'ra:list* "expected list, given: ~a" x)]
[(cons x xs+t) (ra:cons x (loop xs+t))])))
(define (ra:build-list n f)
(let loop ((i n) (a ra:empty))
(cond [(zero? i) a]
[else (loop (sub1 i)
(ra:cons (f (sub1 i)) a))])))
(define (ra:map f ls)
(s:foldr (lambda (p r)
(make-ra:kons (cons (car p) (tree-map f (cdr p))) r))
s:empty
ls))
(define (ra:length ls)
(s:foldl (lambda (p len) (+ len (car p))) 0 ls))
(define (ra:list-tail ls i)
(let loop ((xs ls) (j i))
(cond [(zero? j) xs]
[(ra:empty? xs) (error 'ra:list-tail indx-msg i ls)]
[else (loop (ra:rest xs) (sub1 j))])))
(define (ra:append ls1 ls2)
(ra:foldr ra:cons ls2 ls1))
(define (ra:reverse ls)
(ra:foldl ra:cons ra:empty ls))
(define-sequence-syntax ra:in-list
(lambda () #'(lambda (x) x))
(lambda (stx)
(syntax-case stx ()
[((id) (_ ra-list-exp))
#'[(id)
(:do-in
([(forest)
(s:foldr (lambda (p r) (cons (cdr p) r)) empty ra-list-exp)])
'outer-check
([forest forest])
(cons? forest)
([(id) (tree-val (car forest))])
#t #t ((let ((tr (car forest)))
(cond [(leaf? tr) (cdr forest)]
[else
(cons (node-left tr)
(cons (node-right tr)
(cdr forest)))]))))]]
[_ #f])))
(provide (rename-out [ra:in-list in-list]))
(provide/contract
(rename ra:cons cons (-> any/c ra:list? ra:cons?))
(rename ra:empty empty ra:empty?)
(rename ra:list-ref list-ref (-> ra:cons? natural-number/c any))
(rename ra:list-set list-set (-> ra:cons? natural-number/c any/c ra:cons?))
(rename ra:cons? cons? (-> any/c boolean?))
(rename ra:empty? empty? (-> any/c boolean?))
(rename ra:list? list? (-> any/c boolean?))
(rename ra:first first (-> ra:cons? any))
(rename ra:rest rest (-> ra:cons? ra:list?))
(rename ra:map map (-> (-> any/c any) ra:list? ra:list?))
(rename ra:foldr foldr (-> (-> any/c any/c any) any/c ra:list? any))
(rename ra:foldl foldl (-> (-> any/c any/c any) any/c ra:list? any))
(rename ra:list list (->* () () #:rest (listof any/c) ra:list?))
(rename ra:list* list* (->* (any/c) () #:rest (listof any/c) ra:list?))
(rename ra:length length (-> ra:list? natural-number/c))
(rename ra:append append (-> ra:list? ra:list? ra:list?))
(rename ra:reverse reverse (-> ra:list? ra:list?))
(rename ra:list-tail list-tail (-> ra:list? natural-number/c ra:list?))
(rename ra:list-ref/update list-ref/update
(-> ra:cons? natural-number/c (-> any/c any) (values any/c ra:cons?)))
(rename ra:list-ref/set list-ref/set
(-> ra:cons? natural-number/c any/c (values any/c ra:cons?)))
(rename ra:build-list build-list
(-> natural-number/c (-> natural-number/c any) ra:list?)))
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