| Quellcodebibliothek Statistik Leitseite products/sources/formale Sprachen/Roqc/kernel/ (Beweissystem des Inria Version 9.1.0©) Datei vom 15.8.2025 mit Größe 3 kB |
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Quelle rtree.mli Sprache: SML |
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(* * The Rocq Prover / The Rocq Development Team *) (* v * Copyright INRIA, CNRS and contributors *) (* <O___,, * (see version control and CREDITS file for authors & dates) *) (* \VV/ **************************************************************) (* // * This file is distributed under the terms of the *) (* * GNU Lesser General Public License Version 2.1 *) (* * (see LICENSE file for the text of the license) *) (************************************************************************) (** Type of regular tree with nodes labelled by values of type 'a The implementation uses de Bruijn indices, so binding capture is avoided by the lift operator (see example below). Note that it differs from standard regular trees by accepting vectors of vectors in nodes, which is useful for encoding disjunctive-conjunctive recursive trees such as inductive types. Standard regular trees can however easily be simulated by using singletons of vectors *) type 'a t (** Building trees *) (** Build a node given a label and a vector of vectors of sons *) val mk_node : 'a -> 'a t array array -> 'a t (** Build mutually recursive trees: X_1 = f_1(X_1,..,X_n) ... X_n = f_n(X_1,..,X_n) is obtained by the following pseudo-code let vx = mk_rec_calls n in let [|x_1;..;x_n|] = mk_rec[|f_1(vx.(0),..,vx.(n-1);..;f_n(vx.(0),..,vx.(n-1))|] First example: build rec X = a(X,Y) and Y = b(X,Y,Y) let [|vx;vy|] = mk_rec_calls 2 in let [|x;y|] = mk_rec [|mk_node a [|[|vx;vy|]|]; mk_node b [|[|vx;vy;vy|]|]|] Another example: nested recursive trees rec Y = b(rec X = a(X,Y),Y,Y) let [|vy|] = mk_rec_calls 1 in let [|vx|] = mk_rec_calls 1 in let [|x|] = mk_rec[|mk_node a [|[|vx;lift 1 vy|]|]|] let [|y|] = mk_rec[|mk_node b [|[|x;vy;vy|]|]|] (note the lift so that Y links to the "rec Y" skipping the "rec X") *) val mk_rec_calls : int -> 'a t array val mk_rec : 'a t array -> 'a t array (** [lift k t] increases of [k] the free parameters of [t]. Needed to avoid captures when a tree appears under [mk_rec] *) val lift : int -> 'a t -> 'a t val is_node : 'a t -> bool (** Destructors (recursive calls are expanded) *) val dest_node : 'a t -> 'a * 'a t array array (** First projection of {!dest_node} *) val dest_head : 'a t -> 'a (** dest_var is not needed for closed trees (i.e. with no free variable) *) val dest_var : 'a t -> int * int (** Tells if a tree has an infinite branch. The first arg is a comparison used to detect already seen elements, hence loops *) val is_infinite : ('a -> 'a -> bool) -> 'a t -> bool (** [Rtree.equiv eq eqlab t1 t2] compares t1 t2 (top-down). If t1 and t2 are both nodes, [eqlab] is called on their labels, in case of success deeper nodes are examined. In case of loop (detected via structural equality parametrized by [eq]), then the comparison is successful. *) val equiv : ('a -> 'a -> bool) -> ('a -> 'a -> bool) -> 'a t -> 'a t -> bool (** [Rtree.equal eq t1 t2] compares t1 and t2, first via physical equality, then by structural equality (using [eq] on elements), then by logical equivalence [Rtree.equiv eq eq] *) val equal : ('a -> 'a -> bool) -> 'a t -> 'a t -> bool val inter : ('a -> 'a -> bool) -> ('a -> 'a -> 'a option) -> 'a -> 'a t -> 'a t -> 'a t val incl : ('a -> 'a -> bool) -> ('a -> 'a -> 'a option) -> 'a -> 'a t -> 'a t -> bool (** Iterators *) (** See also [Smart.map] *) val map : ('a -> 'b) -> 'a t -> 'b t (** Pretty-printer *) val pr_tree : ('a -> Pp.t) -> 'a t -> Pp.t module Smart : sig (** [(Smart.map f t) == t] if [(f a) ==a ] for all nodes *) val map : ('a -> 'a) -> 'a t -> 'a t end module Kind : sig type 'a rtree = 'a t type 'a t type 'a kind = Var of int * int | Node of 'a * 'a t array array val make : 'a rtree -> 'a t val kind : 'a t -> 'a kind val repr : 'a t -> 'a rtree end ¤ Dauer der Verarbeitung: 0.13 Sekunden (vorverarbeitet) ¤*© Formatika GbR, Deutschland |
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2026-03-28