(module sharing mzscheme
(require (lib "contract.ss")
(lib "plt-match.ss")
(lib "list.ss")
(lib "etc.ss")
(only (lib "1.ss" "srfi") partition)
(planet "combinators.ss" ("cce" "combinators.plt" 1 4))
"syntax-errors.scm"
"tags.scm"
"idmap.scm")
(define-struct sharing (order groups))
(provide/contract
[sharing? (-> any/c boolean?)]
[sharing-empty? (-> sharing? boolean?)]
[empty-sharing (-> (listof identifier?) sharing?)]
[sharing-add-clauses
(-> (listof (listof identifier?)) boolean? sharing? sharing?)]
[sharing-representative? (-> sharing? identifier? boolean?)]
[sharing-representative (-> sharing? identifier? identifier?)]
[sharing-remove (-> sharing? (listof identifier?) sharing?)]
[sharing->renaming (-> sharing? idmap?)]
[sharing-subset? (-> sharing? sharing? boolean?)]
[sharing-union (-> sharing? sharing? sharing?)]
[sharing-retag (-> (alistof identifier? identifier?) sharing? sharing?)]
[sharing->sexp (-> sharing? (listof (listof symbol?)))])
(define (sharing-empty? s)
(null? (sharing-groups s)))
(define (empty-sharing ids)
(make-sharing (list->order ids) null))
(define (list->order ids)
(let* ([order (empty-idmap)]
[count 0])
(for-each
(lambda (id)
(set! count (+ count 1))
(idmap-put-unique! order id count))
ids)
order))
(define (sharing-add-clauses cs before? s)
(foldl (curry sharing-add-clause before?) s cs))
(define (sharing-add-clause before? c s)
(let* ([groups (sharing-groups s)]
[order (sharing-order s)]
[_ (for-each (curry order-add! order before?) c)]
[clause (sort-clause order c)])
(let*-values ([(hits rest)
(partition (curry clause-intersects? clause) groups)])
(make-sharing
order
(cons (merge-clauses order (cons clause hits)) rest)))))
(define (clause-intersects? one two)
(ormap (curry clause-contains? one) two))
(define (clause-contains? clause id)
(ormap (curry id=? id) clause))
(define (sort-clause order clause)
(let* ([id<? (order->less-than order)])
(uniquify-clause id<? (sort clause id<?))))
(define (uniquify-clause id<? clause)
(cond
[(null? clause) clause]
[(null? (cdr clause)) clause]
[(id<? (car clause) (cadr clause))
(cons (car clause) (uniquify-clause id<? (cdr clause)))]
[(id=? (car clause) (cadr clause))
(uniquify-clause id<? (cdr clause))]
[else
(syntax-error (car clause) "inconsistent constraint: ~s = ~s"
(syntax-e (car clause)) (syntax-e (cdr clause)))]))
(define (merge-clauses order clauses)
(sort-clause order (apply append clauses)))
(define (order-add! order before? id)
(unless (idmap-member? order id)
(idmap-put! order id before?)))
(define (order->less-than order)
(lambda (one two)
(index<? (order-index order one) (order-index order two))))
(define index<?
(match-lambda*
[(list (? number? a) (? number? b)) (< a b)]
[(list _ #t) #f]
[(list #f _) #f]
[_ #t]))
(define (order-index order id)
(idmap-get
order id
(lambda ()
(syntax-error id "not registered in sharing constraints"))))
(define (sharing-representative s id)
(let* ([clause (findf (lambda (clause) (clause-contains? clause id))
(sharing-groups s))])
(if clause (car clause) id)))
(define (sharing-representative? s id)
(id=? id (sharing-representative s id)))
(define (sharing-remove s ids)
(make-sharing (sharing-order s)
(filter
pair?
(map (curry clause-remove ids) (sharing-groups s)))))
(define (clause-remove ids clause)
(filter (lambda (id) (not (clause-contains? ids id))) clause))
(define (sharing->renaming s)
(alist->idmap
(map (lambda (id)
(cons id (sharing-representative s id)))
(idmap-domain (sharing-order s)))))
(define (sharing-subset? one two)
(let* ([one (sharing->map-of-sets one)]
[two (sharing->map-of-sets two)])
(andmap
(lambda (id)
(idset-subset?
(idmap-get one id (lambda () (sharing-id-vanished! id)))
(idmap-get two id (lambda () (list->idset (list id))))))
(idmap-domain one))))
(define (sharing-id-vanished! id)
(syntax-error id "id ~s vanished from sharing constraints" (syntax-e id)))
(define (sharing->map-of-sets s)
(let* ([clauses (sharing-groups s)]
[idmap (empty-idmap)])
(for-each
(lambda (clause)
(let* ([idset (list->idset clause)])
(for-each
(lambda (id)
(idmap-put-unique! idmap id idset))
clause)))
clauses)
idmap))
(define (sharing-union one two)
(sharing-add-clauses
(append (sharing-groups one) (sharing-groups two))
#f
(make-sharing (order-union (sharing-order one) (sharing-order two)) null)))
(define (order-union one two)
(let* ([new (empty-idmap)]
[count 0]
[count (order-union/count! new count one)]
[count (order-union/count! new count two)])
new))
(define (order-union/count! dest base src)
(let* ([count 0])
(idmap-for-each
src
(lambda (id index)
(when (number? index)
(set! count (max count (+ index 1))))
(unless (idmap-member? dest id)
(idmap-put!
dest id
(if (number? index) (+ index base) index)))))
(+ base count)))
(define (sharing-retag alist s)
(sharing-rename (tag-renaming alist s) s))
(define (renaming->sexp idmap)
(map (lambda (pair)
(cons (syntax-e (car pair))
(syntax-e (cdr pair))))
(idmap->alist idmap)))
(define (sharing-rename idmap s)
(sharing-add-clauses
(map (curry clause-rename idmap) (sharing-groups s))
#f
(make-sharing (order-rename idmap (sharing-order s)) null)))
(define (clause-rename idmap ids)
(map (curry rename idmap) ids))
(define (rename idmap id)
(idmap-get idmap id (lambda () id)))
(define (order-rename idmap old)
(let* ([new (empty-idmap)])
(idmap-for-each
old
(lambda (id index)
(let* ([name (rename idmap id)])
(when (or (not (idmap-member? new name))
(index<? index (idmap-get new name)))
(idmap-put! new name index)))))
new))
(define (tag-renaming alist s)
(let* ([tags (alist->idmap alist)]
[order (sharing-order s)]
[renaming (empty-idmap)])
(idmap-for-each
order
(lambda (id index)
(when (number? index)
(idmap-put! renaming id (retag tags id)))))
renaming))
(define (sharing->sexp sharing)
(map (curry map syntax-e) (sharing-groups sharing)))
)
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