(***********************************************************************) (* *) (* Objective Caml *) (* *) (* Xavier Leroy, projet Cristal, INRIA Rocquencourt *) (* *) (* Copyright 1996 Institut National de Recherche en Informatique et *) (* en Automatique. All rights reserved. This file is distributed *) (* under the terms of the GNU Library General Public License, with *) (* the special exception on linking described in file ../LICENSE. *) (* *) (***********************************************************************) (* $Id$ *) module type OrderedType = sig type t val compare: t -> t -> int end module type S = sig type key type +'a t val empty: 'a t val is_empty: 'a t -> bool val add: key -> 'a -> 'a t -> 'a t val find: key -> 'a t -> 'a val remove: key -> 'a t -> 'a t val mem: key -> 'a t -> bool val iter: (key -> 'a -> unit) -> 'a t -> unit val map: ('a -> 'b) -> 'a t -> 'b t val mapi: (key -> 'a -> 'b) -> 'a t -> 'b t val fold: (key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b val compare: ('a -> 'a -> int) -> 'a t -> 'a t -> int val equal: ('a -> 'a -> bool) -> 'a t -> 'a t -> bool end module Make(Ord: OrderedType) = struct type key = Ord.t type 'a t = Empty | Node of 'a t * key * 'a * 'a t * int let height = function Empty -> 0 | Node(_,_,_,_,h) -> h let create l x d r = let hl = height l and hr = height r in Node(l, x, d, r, (if hl >= hr then hl + 1 else hr + 1)) let bal l x d r = let hl = match l with Empty -> 0 | Node(_,_,_,_,h) -> h in let hr = match r with Empty -> 0 | Node(_,_,_,_,h) -> h in if hl > hr + 2 then begin match l with Empty -> invalid_arg "Map.bal" | Node(ll, lv, ld, lr, _) -> if height ll >= height lr then create ll lv ld (create lr x d r) else begin match lr with Empty -> invalid_arg "Map.bal" | Node(lrl, lrv, lrd, lrr, _)-> create (create ll lv ld lrl) lrv lrd (create lrr x d r) end end else if hr > hl + 2 then begin match r with Empty -> invalid_arg "Map.bal" | Node(rl, rv, rd, rr, _) -> if height rr >= height rl then create (create l x d rl) rv rd rr else begin match rl with Empty -> invalid_arg "Map.bal" | Node(rll, rlv, rld, rlr, _) -> create (create l x d rll) rlv rld (create rlr rv rd rr) end end else Node(l, x, d, r, (if hl >= hr then hl + 1 else hr + 1)) let empty = Empty let is_empty = function Empty -> true | _ -> false let rec add x data = function Empty -> Node(Empty, x, data, Empty, 1) | Node(l, v, d, r, h) -> let c = Ord.compare x v in if c = 0 then Node(l, x, data, r, h) else if c < 0 then bal (add x data l) v d r else bal l v d (add x data r) let rec find x = function Empty -> raise Not_found | Node(l, v, d, r, _) -> let c = Ord.compare x v in if c = 0 then d else find x (if c < 0 then l else r) let rec mem x = function Empty -> false | Node(l, v, d, r, _) -> let c = Ord.compare x v in c = 0 || mem x (if c < 0 then l else r) let rec min_binding = function Empty -> raise Not_found | Node(Empty, x, d, r, _) -> (x, d) | Node(l, x, d, r, _) -> min_binding l let rec remove_min_binding = function Empty -> invalid_arg "Map.remove_min_elt" | Node(Empty, x, d, r, _) -> r | Node(l, x, d, r, _) -> bal (remove_min_binding l) x d r let merge t1 t2 = match (t1, t2) with (Empty, t) -> t | (t, Empty) -> t | (_, _) -> let (x, d) = min_binding t2 in bal t1 x d (remove_min_binding t2) let rec remove x = function Empty -> Empty | Node(l, v, d, r, h) -> let c = Ord.compare x v in if c = 0 then merge l r else if c < 0 then bal (remove x l) v d r else bal l v d (remove x r) let rec iter f = function Empty -> () | Node(l, v, d, r, _) -> iter f l; f v d; iter f r let rec map f = function Empty -> Empty | Node(l, v, d, r, h) -> Node(map f l, v, f d, map f r, h) let rec mapi f = function Empty -> Empty | Node(l, v, d, r, h) -> Node(mapi f l, v, f v d, mapi f r, h) let rec fold f m accu = match m with Empty -> accu | Node(l, v, d, r, _) -> fold f l (f v d (fold f r accu)) type 'a enumeration = End | More of key * 'a * 'a t * 'a enumeration let rec cons_enum m e = match m with Empty -> e | Node(l, v, d, r, _) -> cons_enum l (More(v, d, r, e)) let compare cmp m1 m2 = let rec compare_aux e1 e2 = match (e1, e2) with (End, End) -> 0 | (End, _) -> -1 | (_, End) -> 1 | (More(v1, d1, r1, e1), More(v2, d2, r2, e2)) -> let c = Ord.compare v1 v2 in if c <> 0 then c else let c = cmp d1 d2 in if c <> 0 then c else compare_aux (cons_enum r1 e1) (cons_enum r2 e2) in compare_aux (cons_enum m1 End) (cons_enum m2 End) let equal cmp m1 m2 = let rec equal_aux e1 e2 = match (e1, e2) with (End, End) -> true | (End, _) -> false | (_, End) -> false | (More(v1, d1, r1, e1), More(v2, d2, r2, e2)) -> Ord.compare v1 v2 = 0 && cmp d1 d2 && equal_aux (cons_enum r1 e1) (cons_enum r2 e2) in equal_aux (cons_enum m1 End) (cons_enum m2 End) end