491 lines
18 KiB
Racket
491 lines
18 KiB
Racket
#lang racket/base
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;; Gestalts: representations of (replicated) state.
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(require racket/set)
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(require racket/match)
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(require (only-in racket/list make-list))
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(require (only-in racket/port with-output-to-string))
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(require "route.rkt")
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(provide (struct-out gestalt)
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(struct-out projection)
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gestalt-match-value
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project-subs
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project-pubs
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projection?
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projection-spec
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projection->gestalt
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gestalt-project*
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gestalt-project
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gestalt-project/keys
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gestalt-project/single
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drop-gestalt
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lift-gestalt
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simple-gestalt
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gestalt-empty
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gestalt-empty?
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gestalt-full
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gestalt-union*
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gestalt-union
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gestalt-filter
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gestalt-match
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gestalt-subtract
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gestalt-transform
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gestalt-matcher-transform
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strip-gestalt-label
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label-gestalt
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gestalt-level-count
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pretty-print-gestalt
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gestalt->pretty-string
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gestalt->jsexpr
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jsexpr->gestalt)
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;; A Gestalt is a (gestalt (Listof Metalevel)), representing the total
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;; interests of a process or group of processes at all metalevels and
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;; levels.
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;;
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;; A Level is a (Pairof Matcher Matcher), representing active
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;; subscriptions and advertisements at a particular level and
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;; metalevel.
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;;
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;; A Metalevel is a (Listof Level), representing all Levels (ordered
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;; by level number) at a given metalevel.
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;;
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;; --
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;;
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;; The outer list of a Gestalt has an entry for each active metalevel,
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;; starting with metalevel 0 in the car.
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;;
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;; The middle list has an entry for each active level within its
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;; metalevel, starting with level 0 in the car.
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;;
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;; The inner pairs have cars holding matchers representing active
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;; subscriptions, and cdrs representing active advertisements.
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;;
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;; Each of the Matchers maps to (NonemptySetof PID).
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;;
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;; --
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;;
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;; "... a few standardised subsystems, identical from citizen to
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;; citizen. Two of these were channels for incoming data — one for
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;; gestalt, and one for linear, the two primary modalities of all
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;; Konishi citizens, distant descendants of vision and hearing."
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;; -- Greg Egan, "Diaspora"
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;; http://gregegan.customer.netspace.net.au/DIASPORA/01/Orphanogenesis.html
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;;
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(struct gestalt (metalevels))
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;; Convention: A GestaltSet is a Gestalt where the Matchers map to #t
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;; instead of (NonemptySetof PID) or any other value.
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;; A GestaltProjection is a single-metalevel, single-level fragment of
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;; a gestalt with capture-groups. See matcher-project in route.rkt.
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(struct projection (metalevel level get-advertisements? spec compiled))
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;; (Listof X) Nat [-> X] -> X
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(define (safe-list-ref xs n [fail-thunk (lambda () (error 'safe-list-ref "No such index ~v" n))])
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(let loop ((xs xs) (n n))
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(match xs
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['() (fail-thunk)]
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[(cons x xs) (if (zero? n) x (loop xs (- n 1)))])))
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;; (Listof X) -> (Listof X)
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;; ->> HISTORICAL IRONY <<-
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(define (safe-cdr xs)
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(if (null? xs)
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'()
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(cdr xs)))
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;; X -> X (Listof X) -> (Listof X)
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;; Conses a onto d, unless d is '() and a is the special unit value.
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(define ((guarded-cons unit) a d)
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(if (and (null? d) (equal? a unit))
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'()
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(cons a d)))
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;; Level
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;; The empty level, matching no messages.
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(define empty-level '(#f . #f))
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;; The empty metalevel, matching no messages at any level.
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(define empty-metalevel '())
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;; Level Metalevel -> Metalevel
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;; Only adds to its second argument if its first is nonempty.
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(define cons-level (guarded-cons empty-level))
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;; Metalevel (Listof Metalevel) -> (Listof Metalevel).
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;; Only adds to its second argument if its first is nonempty.
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(define cons-metalevel (guarded-cons empty-metalevel))
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;; Gestalt Nat -> Metalevel
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(define (gestalt-metalevel-ref g n)
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(safe-list-ref (gestalt-metalevels g) n (lambda () empty-metalevel)))
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;; Gestalt × Value × Natural × Boolean → (Setof PID)
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;; Retrieves those PIDs that have active subscriptions/advertisements
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;; covering the given message at the given metalevel.
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(define (gestalt-match-value g body metalevel is-feedback?)
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(define extract-matcher (if is-feedback? cdr car)) ;; feedback targets advertisers/publishers
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(define (pids-at level) (matcher-match-value (extract-matcher level) body))
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(apply set-union (set) (map pids-at (gestalt-metalevel-ref g metalevel))))
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;; project-subs : Projection [#:meta-level Nat] [#:level Nat] -> GestaltProjection
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;; project-pubs : Projection [#:meta-level Nat] [#:level Nat] -> GestaltProjection
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;;
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;; Construct projectors representing subscriptions/advertisements
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;; matching the given pattern, at the given meta-level and level.
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;; Used with gestalt-project.
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(define (project-subs p #:meta-level [ml 0] #:level [l 0])
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(projection ml l #f p (compile-projection p)))
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(define (project-pubs p #:meta-level [ml 0] #:level [l 0])
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(projection ml l #t p (compile-projection p)))
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;; GestaltProjection -> Gestalt
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;; Converts a projection to an atomic unit of gestalt that will detect
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;; things extractable by the projection.
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(define (projection->gestalt pr)
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(simple-gestalt (not (projection-get-advertisements? pr))
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(projection->pattern (projection-spec pr))
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(+ (projection-level pr) 1)
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(projection-metalevel pr)))
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;; Gestalt × Nat × Nat × Boolean × CompiledProjection → Matcher
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;; Retrieves the Matcher within g projected by the arguments.
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(define (gestalt-project* g metalevel level get-advertisements? capture-spec)
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(define extract-matcher (if get-advertisements? cdr car))
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(define l (safe-list-ref (gestalt-metalevel-ref g metalevel) level (lambda () empty-level)))
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(matcher-project (extract-matcher l) capture-spec))
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;; Gestalt × GestaltProjection → Matcher
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;; Retrieves the Matcher within g projected by pr.
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(define (gestalt-project g pr)
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(match-define (projection metalevel level get-advertisements? _ capture-spec) pr)
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(gestalt-project* g metalevel level get-advertisements? capture-spec))
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;; Gestalt × GestaltProjection → (Option (Setof (Listof Value)))
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;; Projects g with pr and calls matcher-key-set on the result.
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(define (gestalt-project/keys g pr)
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(check-projection-result g pr (matcher-key-set (gestalt-project g pr))))
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;; Gestalt × GestaltProjection → (Option (Setof Value))
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;; Projects g with pr and calls matcher-key-set/single on the result.
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(define (gestalt-project/single g pr)
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(check-projection-result g pr (matcher-key-set/single (gestalt-project g pr))))
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;; Gestalt × GestaltProjection × (Option A) → (Option A)
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(define (check-projection-result g pr result)
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(when (not result)
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(match-define (projection metalevel level get-advertisements? spec _) pr)
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(log-warning "Wildcard detected projecting ~a at metalevel ~a, level ~a\nwith pattern ~v from gestalt:\n~a"
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(if get-advertisements? "advs" "subs")
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metalevel
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level
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spec
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(gestalt->pretty-string g)))
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result)
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;; Gestalt -> Gestalt
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;; Discards the 0th metalevel, renumbering others appropriately.
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;; Used to map a Gestalt from a World to Gestalts of its containing World.
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(define (drop-gestalt g)
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(gestalt (safe-cdr (gestalt-metalevels g))))
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;; Gestalt -> Gestalt
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;; Adds a fresh empty 0th metalevel, renumbering others appropriately.
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;; Used to map Gestalt from a World's container to the World's own Gestalt.
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(define (lift-gestalt g)
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(gestalt (cons-metalevel empty-metalevel (gestalt-metalevels g))))
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;; Nat X (Listof X) -> (Listof X)
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;; Prepends n references to x to xs.
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(define (prepend n x xs)
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(if (zero? n)
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xs
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(cons x (prepend (- n 1) x xs))))
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;; Boolean Pattern Nat Nat -> Gestalt
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;; Compiles p and embeds it at the appropriate level and metalevel
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;; within a Gestalt. Used by (pub) and (sub) to construct "atomic"
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;; Gestalts.
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(define (simple-gestalt is-adv? p level metalevel)
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(define m (pattern->matcher #t p))
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(define pom (if is-adv? (cons #f m) (cons m #f)))
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(gestalt (prepend metalevel empty-metalevel (list (prepend level empty-level (list pom))))))
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;; -> Gestalt
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;; The empty gestalt.
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(define (gestalt-empty) (gestalt '()))
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;; Gestalt -> Boolean
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;; True iff the gestalt matches no messages.
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;; TODO: our invariants should ensure that (gestalt-empty? g) iff (equal? g (gestalt '())).
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;; Make sure this actually is true.
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(define (gestalt-empty? g)
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(for*/and [(ml (in-list (gestalt-metalevels g))) (l (in-list ml))]
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(and (matcher-empty? (car l)) (matcher-empty? (cdr l)))))
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;; Nat Nat -> GestaltSet
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;; Produces a "full" gestalt including the wildcard matcher at each of
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;; the n metalevels and m levels.
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(define (gestalt-full n m)
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(define w (pattern->matcher ?))
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(gestalt (make-list n (make-list m (cons w w)))))
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;; map-zip: ((U 'right-longer 'left-longer) (Listof X) -> (Listof Y))
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;; (X X -> Y)
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;; (Y (Listof Y) -> (Listof Y))
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;; (Listof X)
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;; (Listof X)
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;; -> (Listof Y)
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;; Horrific map-like function that isn't quite as picky as map about
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;; ragged input lists. The imbalance-handler is used to handle ragged
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;; inputs.
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(define (map-zip imbalance-handler item-handler gcons ls1 ls2)
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(let walk ((ls1 ls1) (ls2 ls2))
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(match* (ls1 ls2)
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[('() '()) '()]
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[('() ls) (imbalance-handler 'right-longer ls)]
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[(ls '()) (imbalance-handler 'left-longer ls)]
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[((cons l1 ls1) (cons l2 ls2))
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(gcons (item-handler l1 l2) (walk ls1 ls2))])))
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;; Gestalt Gestalt (...->...) (Level Level -> Level) -> Gestalt
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;; Combine two gestalts with the given level-combiner.
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;; The type of imbalance-handler is awkward because of the punning.
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(define (gestalt-combine g1 g2 imbalance-handler level-combiner)
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(gestalt (map-zip imbalance-handler
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(lambda (ls1 ls2)
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(map-zip imbalance-handler level-combiner cons-level ls1 ls2))
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cons-metalevel
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(gestalt-metalevels g1)
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(gestalt-metalevels g2))))
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;; Gestalt Gestalt (...->...) (Matcher Matcher -> Matcher) -> Gestalt
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;; Combines g1 and g2, giving subs/subs and advs/advs from g1 and g2
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;; to the matcher-combiner.
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(define (gestalt-combine-straight g1 g2 imbalance-handler matcher-combiner)
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(gestalt-combine g1 g2
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imbalance-handler
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(lambda (sa1 sa2)
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(cons (matcher-combiner (car sa1) (car sa2))
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(matcher-combiner (cdr sa1) (cdr sa2))))))
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;; (Listof Gestalt) -> Gestalt
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;; Computes the union of the given gestalts.
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(define (gestalt-union* gs)
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(if (null? gs)
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(gestalt-empty)
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(let walk ((gs gs))
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(match gs
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[(list g) g]
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[(cons g rest) (gestalt-union1 g (walk rest))]))))
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;; Gestalt* -> Gestalt
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;; Computes the union of its arguments.
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(define (gestalt-union . gs)
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(gestalt-union* gs))
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;; Gestalt Gestalt -> Gestalt
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;; Computes the union of its arguments.
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(define (gestalt-union1 g1 g2) (gestalt-combine-straight g1 g2 (lambda (side x) x) matcher-union))
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;; TODO: abstract out the folding skeletons of gestalt-filter and gestalt-match.
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;; Gestalt Gestalt -> Gestalt
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;; View on g1 from g2's perspective.
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;; Implements the "(p)_n || <p>_m if n < m" part of NC.
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(define gestalt-filter
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(let ()
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(define (filter-metalevels mls1 mls2)
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(match* (mls1 mls2)
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[('() _) '()]
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[(_ '()) '()]
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[((cons ls1 mrest1) (cons ls2-unshifted mrest2))
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(cons-metalevel (filter-levels ls1 (safe-cdr ls2-unshifted))
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(filter-metalevels mrest1 mrest2))]))
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(define (filter-levels ls1 ls2)
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(match ls1
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['() '()]
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[(cons (cons subs1 advs1) lrest1)
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(if (null? ls2)
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'()
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(cons-level (filter-single-level subs1 advs1 ls2)
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(filter-levels lrest1 (cdr ls2))))]))
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(define (filter-single-level subs1 advs1 ls2)
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(let loop ((ls2 ls2) (subs #f) (advs #f))
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(match ls2
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['() (cons subs advs)]
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[(cons (cons subs2 advs2) lrest2)
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(loop lrest2
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(matcher-union subs (matcher-intersect subs1 advs2))
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(matcher-union advs (matcher-intersect advs1 subs2)))])))
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(lambda (g1 g2)
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(parameterize ((matcher-intersect-successes (lambda (v1 v2) v1)))
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(gestalt (filter-metalevels (gestalt-metalevels g1) (gestalt-metalevels g2)))))))
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;; Gestalt Gestalt -> (Setof PID)
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;; Much like gestalt-filter, takes a view on gestalt g1 from g2's
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;; perspective. However, instead of returning the filtered g1, returns
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;; just the set of values in the g2-map that were overlapped by some
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;; part of g1.
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(define gestalt-match
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(let ()
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(define (match-metalevels mls1 mls2 acc)
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(match* (mls1 mls2)
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[('() _) acc]
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[(_ '()) acc]
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[((cons ls1 mrest1) (cons ls2-unshifted mrest2))
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(match-levels ls1 (safe-cdr ls2-unshifted) (match-metalevels mrest1 mrest2 acc))]))
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(define (match-levels ls1 ls2 acc)
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(match ls1
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['() acc]
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[(cons (cons subs1 advs1) lrest1)
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(if (null? ls2)
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acc
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(match-single-level subs1 advs1 ls2 (match-levels lrest1 (cdr ls2) acc)))]))
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(define (match-single-level subs1 advs1 ls2 acc)
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(let loop ((ls2 ls2) (acc acc))
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(match ls2
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['() acc]
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[(cons (cons subs2 advs2) lrest2)
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(loop lrest2 (set-union (matcher-match-matcher subs1 advs2)
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(matcher-match-matcher advs1 subs2)
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acc))])))
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(lambda (g1 g2)
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(parameterize ((matcher-match-matcher-successes (lambda (v1 v2 acc) (set-union v2 acc)))
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(matcher-match-matcher-unit (set)))
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(match-metalevels (gestalt-metalevels g1) (gestalt-metalevels g2) (set))))))
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;; Gestalt Gestalt -> Gestalt
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;; Erases the g2-subset of g1 from g1, yielding the result.
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(define (gestalt-subtract g1 g2)
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(gestalt-combine-straight g1 g2
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erase-imbalance-handler
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matcher-subtract))
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;; (U 'right-longer 'left-longer) (Listof X) -> (Listof X)
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;; Asymmetric imbalance handler suitable for use in subtraction operations.
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(define (erase-imbalance-handler side x)
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(case side
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[(left-longer) x]
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[(right-longer) '()]))
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;; Gestalt (Nat Nat Level -> Level) -> Gestalt
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;; Maps f over all levels in g, passing f the metalevel number, the
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;; level number, and the level itself, in that order.
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(define (gestalt-transform g f)
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(gestalt (let loop-outer ((mls (gestalt-metalevels g)) (i 0))
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(cond [(null? mls) '()]
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[else (cons-metalevel
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(let loop-inner ((ls (car mls)) (j 0))
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(cond [(null? ls) '()]
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[else (cons-level (f i j (car ls))
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(loop-inner (cdr ls) (+ j 1)))]))
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(loop-outer (cdr mls) (+ i 1)))]))))
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;; Gestalt (Matcher -> Matcher) -> Gestalt
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;; Maps f over all matchers in g.
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(define (gestalt-matcher-transform g f)
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(gestalt-transform g (lambda (i j p) (cons (f (car p)) (f (cdr p))))))
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;; Gestalt -> GestaltSet
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;; Blurs the distinctions between mapped-to processes in g.
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(define (strip-gestalt-label g)
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(gestalt-matcher-transform g (lambda (m) (matcher-relabel m (lambda (v) #t)))))
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;; GestaltSet -> Gestalt
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;; Relabels g so that all matched keys map to (set pid).
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(define (label-gestalt g pid)
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(define pidset (set pid))
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(gestalt-matcher-transform g (lambda (m) (matcher-relabel m (lambda (v) pidset)))))
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;; Gestalt Nat -> Nat
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;; Returns the number of "interesting" levels in g at metalevel n.
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(define (gestalt-level-count g n)
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(length (gestalt-metalevel-ref g n)))
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;; Gestalt [OutputPort] -> Void
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;; Pretty-prints g on port.
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(define (pretty-print-gestalt g [port (current-output-port)])
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(if (gestalt-empty? g)
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(fprintf port "EMPTY GESTALT\n")
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(for [(metalevel (in-naturals)) (ls (in-list (gestalt-metalevels g)))]
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(for [(level (in-naturals)) (p (in-list ls))]
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(match-define (cons subs advs) p)
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(when (or subs advs)
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(fprintf port "GESTALT metalevel ~v level ~v:\n" metalevel level)
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(when subs (fprintf port " - subs:") (pretty-print-matcher subs port #:indent 9))
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(when advs (fprintf port " - advs:") (pretty-print-matcher advs port #:indent 9)))))))
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;; Gestalt -> String
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;; Returns a string containing the pretty-printing of g.
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(define (gestalt->pretty-string g)
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(with-output-to-string (lambda () (pretty-print-gestalt g))))
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;; Gestalt [(Value -> JSExpr)] -> JSExpr
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;; Serializes a gestalt to a JSON expression.
|
||
(define (gestalt->jsexpr g [success->jsexpr (lambda (v) #t)])
|
||
(list "gestalt" (for/list [(ls (in-list (gestalt-metalevels g)))]
|
||
(for/list [(l (in-list ls))]
|
||
(match-define (cons subs advs) l)
|
||
(list (matcher->jsexpr subs success->jsexpr)
|
||
(matcher->jsexpr advs success->jsexpr))))))
|
||
|
||
;; JSExpr [(JSExpr -> Value)] -> Gestalt
|
||
;; Deserializes a gestalt from a JSON expression.
|
||
(define (jsexpr->gestalt j [jsexpr->success (lambda (v) #t)])
|
||
(match j
|
||
[(list "gestalt" mlsj)
|
||
(gestalt (for/list [(lsj (in-list mlsj))]
|
||
(for/list [(lj (in-list lsj))]
|
||
(match-define (list sj aj) lj)
|
||
(cons (jsexpr->matcher sj jsexpr->success)
|
||
(jsexpr->matcher aj jsexpr->success)))))]))
|
||
|
||
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
|
||
|
||
(module+ test
|
||
(require rackunit)
|
||
|
||
(check-equal? (simple-gestalt #f 'a 0 0)
|
||
(gestalt (list (list (cons (pattern->matcher #t 'a) #f)))))
|
||
(check-equal? (simple-gestalt #t 'b 0 0)
|
||
(gestalt (list (list (cons #f (pattern->matcher #t 'b))))))
|
||
(check-equal? (simple-gestalt #f 'a 2 2)
|
||
(gestalt (list empty-metalevel empty-metalevel
|
||
(list empty-level empty-level
|
||
(cons (pattern->matcher #t 'a) #f)))))
|
||
(check-equal? (simple-gestalt #t 'b 2 2)
|
||
(gestalt (list empty-metalevel empty-metalevel
|
||
(list empty-level empty-level
|
||
(cons #f (pattern->matcher #t 'b))))))
|
||
|
||
(check-equal? (gestalt-union (simple-gestalt #f 'a 0 0)
|
||
(simple-gestalt #t 'b 0 0))
|
||
(gestalt (list (list (cons (pattern->matcher #t 'a)
|
||
(pattern->matcher #t 'b))))))
|
||
(check-equal? (gestalt-union (simple-gestalt #f 'a 2 2)
|
||
(simple-gestalt #t 'b 2 2))
|
||
(gestalt (list empty-metalevel empty-metalevel
|
||
(list empty-level empty-level
|
||
(cons (pattern->matcher #t 'a)
|
||
(pattern->matcher #t 'b))))))
|
||
|
||
(require json)
|
||
(let ((J (string->jsexpr "[\"gestalt\",[[[[[\"A\",[[[\")\"],[\"\",true]]]]],[]]],[],[[[],[]],[[],[]],[[],[[\"B\",[[[\")\"],[\"\",true]]]]]]]]]"))
|
||
(G (gestalt-union (simple-gestalt #f "A" 0 0) (simple-gestalt #t "B" 2 2))))
|
||
(check-equal? (jsexpr->gestalt J (lambda (v) v)) G)
|
||
(check-equal? (gestalt->jsexpr G (lambda (v) v)) J)))
|