lustrec / src / mmap.ml @ 08cbfc23
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| 1 | 40d33d55 | xavier.thirioux | (***********************************************************************) |
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| 2 | (* *) |
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| 3 | (* OCaml *) |
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| 4 | (* *) |
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| 5 | (* Xavier Leroy, projet Cristal, INRIA Rocquencourt *) |
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| 6 | (* *) |
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| 7 | (* Copyright 1996 Institut National de Recherche en Informatique et *) |
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| 8 | (* en Automatique. All rights reserved. This file is distributed *) |
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| 9 | (* under the terms of the GNU Library General Public License, with *) |
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| 10 | (* the special exception on linking described in file ../LICENSE. *) |
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| 11 | (* *) |
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| 12 | (***********************************************************************) |
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| 13 | |||
| 14 | module type OrderedType = |
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| 15 | sig |
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| 16 | type t |
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| 17 | val compare: t -> t -> int |
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| 18 | end |
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| 19 | |||
| 20 | module type S = |
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| 21 | sig |
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| 22 | type key |
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| 23 | type +'a t |
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| 24 | val empty: 'a t |
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| 25 | val is_empty: 'a t -> bool |
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| 26 | val mem: key -> 'a t -> bool |
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| 27 | val add: key -> 'a -> 'a t -> 'a t |
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| 28 | val singleton: key -> 'a -> 'a t |
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| 29 | val remove: key -> 'a t -> 'a t |
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| 30 | val merge: |
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| 31 | (key -> 'a option -> 'b option -> 'c option) -> 'a t -> 'b t -> 'c t |
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| 32 | val compare: ('a -> 'a -> int) -> 'a t -> 'a t -> int
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| 33 | val equal: ('a -> 'a -> bool) -> 'a t -> 'a t -> bool
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| 34 | val iter: (key -> 'a -> unit) -> 'a t -> unit |
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| 35 | val fold: (key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b |
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| 36 | val for_all: (key -> 'a -> bool) -> 'a t -> bool |
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| 37 | val exists: (key -> 'a -> bool) -> 'a t -> bool |
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| 38 | val filter: (key -> 'a -> bool) -> 'a t -> 'a t |
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| 39 | val partition: (key -> 'a -> bool) -> 'a t -> 'a t * 'a t |
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| 40 | val cardinal: 'a t -> int |
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| 41 | val bindings: 'a t -> (key * 'a) list |
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| 42 | val min_binding: 'a t -> (key * 'a) |
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| 43 | val max_binding: 'a t -> (key * 'a) |
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| 44 | val choose: 'a t -> (key * 'a) |
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| 45 | val split: key -> 'a t -> 'a t * 'a option * 'a t |
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| 46 | val find: key -> 'a t -> 'a |
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| 47 | val map: ('a -> 'b) -> 'a t -> 'b t
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| 48 | val mapi: (key -> 'a -> 'b) -> 'a t -> 'b t |
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| 49 | end |
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| 50 | |||
| 51 | module Make(Ord: OrderedType) = struct |
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| 52 | |||
| 53 | type key = Ord.t |
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| 54 | |||
| 55 | type 'a t = |
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| 56 | Empty |
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| 57 | | Node of 'a t * key * 'a * 'a t * int |
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| 58 | |||
| 59 | let height = function |
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| 60 | Empty -> 0 |
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| 61 | | Node(_,_,_,_,h) -> h |
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| 62 | |||
| 63 | let create l x d r = |
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| 64 | let hl = height l and hr = height r in |
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| 65 | Node(l, x, d, r, (if hl >= hr then hl + 1 else hr + 1)) |
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| 66 | |||
| 67 | let singleton x d = Node(Empty, x, d, Empty, 1) |
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| 68 | |||
| 69 | let bal l x d r = |
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| 70 | let hl = match l with Empty -> 0 | Node(_,_,_,_,h) -> h in |
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| 71 | let hr = match r with Empty -> 0 | Node(_,_,_,_,h) -> h in |
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| 72 | if hl > hr + 2 then begin |
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| 73 | match l with |
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| 74 | Empty -> invalid_arg "Map.bal" |
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| 75 | | Node(ll, lv, ld, lr, _) -> |
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| 76 | if height ll >= height lr then |
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| 77 | create ll lv ld (create lr x d r) |
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| 78 | else begin |
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| 79 | match lr with |
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| 80 | Empty -> invalid_arg "Map.bal" |
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| 81 | | Node(lrl, lrv, lrd, lrr, _)-> |
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| 82 | create (create ll lv ld lrl) lrv lrd (create lrr x d r) |
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| 83 | end |
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| 84 | end else if hr > hl + 2 then begin |
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| 85 | match r with |
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| 86 | Empty -> invalid_arg "Map.bal" |
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| 87 | | Node(rl, rv, rd, rr, _) -> |
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| 88 | if height rr >= height rl then |
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| 89 | create (create l x d rl) rv rd rr |
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| 90 | else begin |
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| 91 | match rl with |
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| 92 | Empty -> invalid_arg "Map.bal" |
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| 93 | | Node(rll, rlv, rld, rlr, _) -> |
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| 94 | create (create l x d rll) rlv rld (create rlr rv rd rr) |
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| 95 | end |
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| 96 | end else |
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| 97 | Node(l, x, d, r, (if hl >= hr then hl + 1 else hr + 1)) |
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| 98 | |||
| 99 | let empty = Empty |
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| 100 | |||
| 101 | let is_empty = function Empty -> true | _ -> false |
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| 102 | |||
| 103 | let rec add x data = function |
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| 104 | Empty -> |
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| 105 | Node(Empty, x, data, Empty, 1) |
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| 106 | | Node(l, v, d, r, h) -> |
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| 107 | let c = Ord.compare x v in |
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| 108 | if c = 0 then |
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| 109 | Node(l, x, data, r, h) |
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| 110 | else if c < 0 then |
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| 111 | bal (add x data l) v d r |
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| 112 | else |
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| 113 | bal l v d (add x data r) |
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| 114 | |||
| 115 | let rec find x = function |
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| 116 | Empty -> |
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| 117 | raise Not_found |
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| 118 | | Node(l, v, d, r, _) -> |
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| 119 | let c = Ord.compare x v in |
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| 120 | if c = 0 then d |
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| 121 | else find x (if c < 0 then l else r) |
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| 122 | |||
| 123 | let rec mem x = function |
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| 124 | Empty -> |
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| 125 | false |
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| 126 | | Node(l, v, d, r, _) -> |
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| 127 | let c = Ord.compare x v in |
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| 128 | c = 0 || mem x (if c < 0 then l else r) |
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| 129 | |||
| 130 | let rec min_binding = function |
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| 131 | Empty -> raise Not_found |
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| 132 | | Node(Empty, x, d, r, _) -> (x, d) |
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| 133 | | Node(l, x, d, r, _) -> min_binding l |
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| 134 | |||
| 135 | let rec max_binding = function |
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| 136 | Empty -> raise Not_found |
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| 137 | | Node(l, x, d, Empty, _) -> (x, d) |
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| 138 | | Node(l, x, d, r, _) -> max_binding r |
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| 139 | |||
| 140 | let rec remove_min_binding = function |
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| 141 | Empty -> invalid_arg "Map.remove_min_elt" |
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| 142 | | Node(Empty, x, d, r, _) -> r |
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| 143 | | Node(l, x, d, r, _) -> bal (remove_min_binding l) x d r |
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| 144 | |||
| 145 | let merge t1 t2 = |
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| 146 | match (t1, t2) with |
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| 147 | (Empty, t) -> t |
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| 148 | | (t, Empty) -> t |
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| 149 | | (_, _) -> |
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| 150 | let (x, d) = min_binding t2 in |
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| 151 | bal t1 x d (remove_min_binding t2) |
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| 152 | |||
| 153 | let rec remove x = function |
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| 154 | Empty -> |
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| 155 | Empty |
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| 156 | | Node(l, v, d, r, h) -> |
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| 157 | let c = Ord.compare x v in |
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| 158 | if c = 0 then |
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| 159 | merge l r |
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| 160 | else if c < 0 then |
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| 161 | bal (remove x l) v d r |
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| 162 | else |
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| 163 | bal l v d (remove x r) |
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| 164 | |||
| 165 | let rec iter f = function |
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| 166 | Empty -> () |
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| 167 | | Node(l, v, d, r, _) -> |
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| 168 | iter f l; f v d; iter f r |
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| 169 | |||
| 170 | let rec map f = function |
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| 171 | Empty -> |
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| 172 | Empty |
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| 173 | | Node(l, v, d, r, h) -> |
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| 174 | let l' = map f l in |
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| 175 | let d' = f d in |
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| 176 | let r' = map f r in |
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| 177 | Node(l', v, d', r', h) |
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| 178 | |||
| 179 | let rec mapi f = function |
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| 180 | Empty -> |
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| 181 | Empty |
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| 182 | | Node(l, v, d, r, h) -> |
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| 183 | let l' = mapi f l in |
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| 184 | let d' = f v d in |
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| 185 | let r' = mapi f r in |
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| 186 | Node(l', v, d', r', h) |
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| 187 | |||
| 188 | let rec fold f m accu = |
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| 189 | match m with |
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| 190 | Empty -> accu |
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| 191 | | Node(l, v, d, r, _) -> |
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| 192 | fold f r (f v d (fold f l accu)) |
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| 193 | |||
| 194 | let rec for_all p = function |
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| 195 | Empty -> true |
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| 196 | | Node(l, v, d, r, _) -> p v d && for_all p l && for_all p r |
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| 197 | |||
| 198 | let rec exists p = function |
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| 199 | Empty -> false |
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| 200 | | Node(l, v, d, r, _) -> p v d || exists p l || exists p r |
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| 201 | |||
| 202 | (* Beware: those two functions assume that the added k is *strictly* |
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| 203 | smaller (or bigger) than all the present keys in the tree; it |
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| 204 | does not test for equality with the current min (or max) key. |
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| 205 | |||
| 206 | Indeed, they are only used during the "join" operation which |
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| 207 | respects this precondition. |
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| 208 | *) |
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| 209 | |||
| 210 | let rec add_min_binding k v = function |
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| 211 | | Empty -> singleton k v |
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| 212 | | Node (l, x, d, r, h) -> |
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| 213 | bal (add_min_binding k v l) x d r |
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| 214 | |||
| 215 | let rec add_max_binding k v = function |
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| 216 | | Empty -> singleton k v |
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| 217 | | Node (l, x, d, r, h) -> |
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| 218 | bal l x d (add_max_binding k v r) |
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| 219 | |||
| 220 | (* Same as create and bal, but no assumptions are made on the |
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| 221 | relative heights of l and r. *) |
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| 222 | |||
| 223 | let rec join l v d r = |
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| 224 | match (l, r) with |
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| 225 | (Empty, _) -> add_min_binding v d r |
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| 226 | | (_, Empty) -> add_max_binding v d l |
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| 227 | | (Node(ll, lv, ld, lr, lh), Node(rl, rv, rd, rr, rh)) -> |
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| 228 | if lh > rh + 2 then bal ll lv ld (join lr v d r) else |
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| 229 | if rh > lh + 2 then bal (join l v d rl) rv rd rr else |
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| 230 | create l v d r |
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| 231 | |||
| 232 | (* Merge two trees l and r into one. |
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| 233 | All elements of l must precede the elements of r. |
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| 234 | No assumption on the heights of l and r. *) |
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| 235 | |||
| 236 | let concat t1 t2 = |
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| 237 | match (t1, t2) with |
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| 238 | (Empty, t) -> t |
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| 239 | | (t, Empty) -> t |
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| 240 | | (_, _) -> |
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| 241 | let (x, d) = min_binding t2 in |
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| 242 | join t1 x d (remove_min_binding t2) |
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| 243 | |||
| 244 | let concat_or_join t1 v d t2 = |
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| 245 | match d with |
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| 246 | | Some d -> join t1 v d t2 |
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| 247 | | None -> concat t1 t2 |
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| 248 | |||
| 249 | let rec split x = function |
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| 250 | Empty -> |
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| 251 | (Empty, None, Empty) |
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| 252 | | Node(l, v, d, r, _) -> |
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| 253 | let c = Ord.compare x v in |
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| 254 | if c = 0 then (l, Some d, r) |
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| 255 | else if c < 0 then |
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| 256 | let (ll, pres, rl) = split x l in (ll, pres, join rl v d r) |
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| 257 | else |
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| 258 | let (lr, pres, rr) = split x r in (join l v d lr, pres, rr) |
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| 259 | |||
| 260 | let rec merge f s1 s2 = |
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| 261 | match (s1, s2) with |
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| 262 | (Empty, Empty) -> Empty |
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| 263 | | (Node (l1, v1, d1, r1, h1), _) when h1 >= height s2 -> |
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| 264 | let (l2, d2, r2) = split v1 s2 in |
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| 265 | concat_or_join (merge f l1 l2) v1 (f v1 (Some d1) d2) (merge f r1 r2) |
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| 266 | | (_, Node (l2, v2, d2, r2, h2)) -> |
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| 267 | let (l1, d1, r1) = split v2 s1 in |
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| 268 | concat_or_join (merge f l1 l2) v2 (f v2 d1 (Some d2)) (merge f r1 r2) |
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| 269 | | _ -> |
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| 270 | assert false |
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| 271 | |||
| 272 | let rec filter p = function |
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| 273 | Empty -> Empty |
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| 274 | | Node(l, v, d, r, _) -> |
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| 275 | (* call [p] in the expected left-to-right order *) |
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| 276 | let l' = filter p l in |
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| 277 | let pvd = p v d in |
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| 278 | let r' = filter p r in |
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| 279 | if pvd then join l' v d r' else concat l' r' |
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| 280 | |||
| 281 | let rec partition p = function |
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| 282 | Empty -> (Empty, Empty) |
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| 283 | | Node(l, v, d, r, _) -> |
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| 284 | (* call [p] in the expected left-to-right order *) |
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| 285 | let (lt, lf) = partition p l in |
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| 286 | let pvd = p v d in |
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| 287 | let (rt, rf) = partition p r in |
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| 288 | if pvd |
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| 289 | then (join lt v d rt, concat lf rf) |
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| 290 | else (concat lt rt, join lf v d rf) |
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| 291 | |||
| 292 | type 'a enumeration = End | More of key * 'a * 'a t * 'a enumeration |
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| 293 | |||
| 294 | let rec cons_enum m e = |
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| 295 | match m with |
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| 296 | Empty -> e |
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| 297 | | Node(l, v, d, r, _) -> cons_enum l (More(v, d, r, e)) |
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| 298 | |||
| 299 | let compare cmp m1 m2 = |
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| 300 | let rec compare_aux e1 e2 = |
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| 301 | match (e1, e2) with |
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| 302 | (End, End) -> 0 |
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| 303 | | (End, _) -> -1 |
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| 304 | | (_, End) -> 1 |
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| 305 | | (More(v1, d1, r1, e1), More(v2, d2, r2, e2)) -> |
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| 306 | let c = Ord.compare v1 v2 in |
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| 307 | if c <> 0 then c else |
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| 308 | let c = cmp d1 d2 in |
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| 309 | if c <> 0 then c else |
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| 310 | compare_aux (cons_enum r1 e1) (cons_enum r2 e2) |
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| 311 | in compare_aux (cons_enum m1 End) (cons_enum m2 End) |
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| 312 | |||
| 313 | let equal cmp m1 m2 = |
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| 314 | let rec equal_aux e1 e2 = |
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| 315 | match (e1, e2) with |
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| 316 | (End, End) -> true |
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| 317 | | (End, _) -> false |
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| 318 | | (_, End) -> false |
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| 319 | | (More(v1, d1, r1, e1), More(v2, d2, r2, e2)) -> |
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| 320 | Ord.compare v1 v2 = 0 && cmp d1 d2 && |
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| 321 | equal_aux (cons_enum r1 e1) (cons_enum r2 e2) |
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| 322 | in equal_aux (cons_enum m1 End) (cons_enum m2 End) |
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| 323 | |||
| 324 | let rec cardinal = function |
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| 325 | Empty -> 0 |
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| 326 | | Node(l, _, _, r, _) -> cardinal l + 1 + cardinal r |
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| 327 | |||
| 328 | let rec bindings_aux accu = function |
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| 329 | Empty -> accu |
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| 330 | | Node(l, v, d, r, _) -> bindings_aux ((v, d) :: bindings_aux accu r) l |
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| 331 | |||
| 332 | let bindings s = |
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| 333 | bindings_aux [] s |
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| 334 | |||
| 335 | let choose = min_binding |
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| 336 | |||
| 337 | end |