(***********************************************************************) (* *) (* 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. *) (* *) (***********************************************************************) (* $Id$ *) (* Hash tables *) external hash_param : int -> int -> 'a -> int = "caml_hash_univ_param" "noalloc" let hash x = hash_param 10 100 x (* We do dynamic hashing, and resize the table and rehash the elements when buckets become too long. *) type ('a, 'b) t = { mutable size: int; (* number of elements *) mutable data: ('a, 'b) bucketlist array } (* the buckets *) and ('a, 'b) bucketlist = Empty | Cons of 'a * 'b * ('a, 'b) bucketlist let create initial_size = let s = min (max 1 initial_size) Sys.max_array_length in { size = 0; data = Array.make s Empty } let clear h = for i = 0 to Array.length h.data - 1 do h.data.(i) <- Empty done; h.size <- 0 let copy h = { size = h.size; data = Array.copy h.data } let length h = h.size let resize hashfun tbl = let odata = tbl.data in let osize = Array.length odata in let nsize = min (2 * osize + 1) Sys.max_array_length in if nsize <> osize then begin let ndata = Array.create nsize Empty in let rec insert_bucket = function Empty -> () | Cons(key, data, rest) -> insert_bucket rest; (* preserve original order of elements *) let nidx = (hashfun key) mod nsize in ndata.(nidx) <- Cons(key, data, ndata.(nidx)) in for i = 0 to osize - 1 do insert_bucket odata.(i) done; tbl.data <- ndata; end let add h key info = let i = (hash key) mod (Array.length h.data) in let bucket = Cons(key, info, h.data.(i)) in h.data.(i) <- bucket; h.size <- succ h.size; if h.size > Array.length h.data lsl 1 then resize hash h let remove h key = let rec remove_bucket = function Empty -> Empty | Cons(k, i, next) -> if compare k key = 0 then begin h.size <- pred h.size; next end else Cons(k, i, remove_bucket next) in let i = (hash key) mod (Array.length h.data) in h.data.(i) <- remove_bucket h.data.(i) let rec find_rec key = function Empty -> raise Not_found | Cons(k, d, rest) -> if compare key k = 0 then d else find_rec key rest let find h key = match h.data.((hash key) mod (Array.length h.data)) with Empty -> raise Not_found | Cons(k1, d1, rest1) -> if compare key k1 = 0 then d1 else match rest1 with Empty -> raise Not_found | Cons(k2, d2, rest2) -> if compare key k2 = 0 then d2 else match rest2 with Empty -> raise Not_found | Cons(k3, d3, rest3) -> if compare key k3 = 0 then d3 else find_rec key rest3 let find_all h key = let rec find_in_bucket = function Empty -> [] | Cons(k, d, rest) -> if compare k key = 0 then d :: find_in_bucket rest else find_in_bucket rest in find_in_bucket h.data.((hash key) mod (Array.length h.data)) let replace h key info = let rec replace_bucket = function Empty -> raise Not_found | Cons(k, i, next) -> if compare k key = 0 then Cons(k, info, next) else Cons(k, i, replace_bucket next) in let i = (hash key) mod (Array.length h.data) in let l = h.data.(i) in try h.data.(i) <- replace_bucket l with Not_found -> h.data.(i) <- Cons(key, info, l); h.size <- succ h.size; if h.size > Array.length h.data lsl 1 then resize hash h let mem h key = let rec mem_in_bucket = function | Empty -> false | Cons(k, d, rest) -> compare k key = 0 || mem_in_bucket rest in mem_in_bucket h.data.((hash key) mod (Array.length h.data)) let iter f h = let rec do_bucket = function Empty -> () | Cons(k, d, rest) -> f k d; do_bucket rest in let d = h.data in for i = 0 to Array.length d - 1 do do_bucket d.(i) done let fold f h init = let rec do_bucket b accu = match b with Empty -> accu | Cons(k, d, rest) -> do_bucket rest (f k d accu) in let d = h.data in let accu = ref init in for i = 0 to Array.length d - 1 do accu := do_bucket d.(i) !accu done; !accu (* Functorial interface *) module type HashedType = sig type t val equal: t -> t -> bool val hash: t -> int end module type S = sig type key type 'a t val create: int -> 'a t val clear: 'a t -> unit val copy: 'a t -> 'a t val add: 'a t -> key -> 'a -> unit val remove: 'a t -> key -> unit val find: 'a t -> key -> 'a val find_all: 'a t -> key -> 'a list val replace : 'a t -> key -> 'a -> unit val mem : 'a t -> key -> bool val iter: (key -> 'a -> unit) -> 'a t -> unit val fold: (key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b val length: 'a t -> int end module Make(H: HashedType): (S with type key = H.t) = struct type key = H.t type 'a hashtbl = (key, 'a) t type 'a t = 'a hashtbl let create = create let clear = clear let copy = copy let safehash key = (H.hash key) land max_int let add h key info = let i = (safehash key) mod (Array.length h.data) in let bucket = Cons(key, info, h.data.(i)) in h.data.(i) <- bucket; h.size <- succ h.size; if h.size > Array.length h.data lsl 1 then resize safehash h let remove h key = let rec remove_bucket = function Empty -> Empty | Cons(k, i, next) -> if H.equal k key then begin h.size <- pred h.size; next end else Cons(k, i, remove_bucket next) in let i = (safehash key) mod (Array.length h.data) in h.data.(i) <- remove_bucket h.data.(i) let rec find_rec key = function Empty -> raise Not_found | Cons(k, d, rest) -> if H.equal key k then d else find_rec key rest let find h key = match h.data.((safehash key) mod (Array.length h.data)) with Empty -> raise Not_found | Cons(k1, d1, rest1) -> if H.equal key k1 then d1 else match rest1 with Empty -> raise Not_found | Cons(k2, d2, rest2) -> if H.equal key k2 then d2 else match rest2 with Empty -> raise Not_found | Cons(k3, d3, rest3) -> if H.equal key k3 then d3 else find_rec key rest3 let find_all h key = let rec find_in_bucket = function Empty -> [] | Cons(k, d, rest) -> if H.equal k key then d :: find_in_bucket rest else find_in_bucket rest in find_in_bucket h.data.((safehash key) mod (Array.length h.data)) let replace h key info = let rec replace_bucket = function Empty -> raise Not_found | Cons(k, i, next) -> if H.equal k key then Cons(k, info, next) else Cons(k, i, replace_bucket next) in let i = (safehash key) mod (Array.length h.data) in let l = h.data.(i) in try h.data.(i) <- replace_bucket l with Not_found -> h.data.(i) <- Cons(key, info, l); h.size <- succ h.size; if h.size > Array.length h.data lsl 1 then resize safehash h let mem h key = let rec mem_in_bucket = function | Empty -> false | Cons(k, d, rest) -> H.equal k key || mem_in_bucket rest in mem_in_bucket h.data.((safehash key) mod (Array.length h.data)) let iter = iter let fold = fold let length = length end