(***********************************************************************) (* *) (* Objective Caml *) (* *) (* Xavier Leroy, projet Cristal, INRIA Rocquencourt *) (* *) (* Copyright 1996 Institut National de Recherche en Informatique et *) (* Automatique. Distributed only by permission. *) (* *) (***********************************************************************) (* $Id$ *) (* Module [Set]: sets over ordered types *) (* This module implements the set data structure, given a total ordering function over the set elements. All operations over sets are purely applicative (no side-effects). The implementation uses balanced binary trees, and is therefore reasonably efficient: insertion and membership take time logarithmic in the size of the set, for instance. *) module type OrderedType = sig type t val compare: t -> t -> int end (* The input signature of the functor [Set.Make]. [t] is the type of the set elements. [compare] is a total ordering function over the set elements. This is a two-argument function [f] such that [f e1 e2] is zero if the elements [e1] and [e2] are equal, [f e1 e2] is strictly negative if [e1] is smaller than [e2], and [f e1 e2] is strictly positive if [e1] is greater than [e2]. Examples: a suitable ordering function for type [int] is [(-)]. You can also use the generic structural comparison function [compare]. *) module type S = sig type elt (* The type of the set elements. *) type t (* The type of sets. *) val empty: t (* The empty set. *) val is_empty: t -> bool (* Test whether a set is empty or not. *) val mem: elt -> t -> bool (* [mem x s] tests whether [x] belongs to the set [s]. *) val add: elt -> t -> t (* [add x s] returns a set containing all elements of [s], plus [x]. If [x] was already in [s], [s] is returned unchanged. *) val remove: elt -> t -> t (* [remove x s] returns a set containing all elements of [s], except [x]. If [x] was not in [s], [s] is returned unchanged. *) val union: t -> t -> t val inter: t -> t -> t val diff: t -> t -> t (* Union, intersection and set difference. *) val compare: t -> t -> int (* Total ordering between sets. Can be used as the ordering function for doing sets of sets. *) val equal: t -> t -> bool (* [equal s1 s2] tests whether the sets [s1] and [s2] are equal, that is, contain the same elements. *) val iter: (elt -> 'a) -> t -> unit (* [iter f s] applies [f] in turn to all elements of [s], and discards the results. The elements of [s] are presented to [f] in a non-specified order. *) val fold: (elt -> 'a -> 'a) -> t -> 'a -> 'a (* [fold f s a] computes [(f xN ... (f x2 (f x1 a))...)], where [x1 ... xN] are the elements of [s]. The order in which elements of [s] are presented to [f] is not specified. *) val cardinal: t -> int (* Return the number of elements of a set. *) val elements: t -> elt list (* Return the list of all elements of the given set. The elements appear in the list in some non-specified order. *) val choose: t -> elt (* Return one element of the given set, or raise [Not_found] if the set is empty. Which element is chosen is not specified, but equal elements will be chosen for equal sets. *) end module Make(Ord: OrderedType): (S with type elt = Ord.t) (* Functor building an implementation of the set structure given a totally ordered type. *)