453 lines
12 KiB
OCaml
453 lines
12 KiB
OCaml
(***********************************************************************)
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(* *)
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(* Objective Caml *)
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(* *)
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(* Jerome Vouillon, projet Cristal, INRIA Rocquencourt *)
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(* *)
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(* Copyright 1996 Institut National de Recherche en Informatique et *)
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(* en Automatique. All rights reserved. This file is distributed *)
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(* under the terms of the GNU Library General Public License, with *)
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(* the special exception on linking described in file ../LICENSE. *)
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(* *)
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(***********************************************************************)
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(* $Id$ *)
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open Obj
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(**** Object representation ****)
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let last_id = ref 0
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let new_id () =
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let id = !last_id in incr last_id; id
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let set_id o id =
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let id0 = !id in
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Array.unsafe_set (Obj.magic o : int array) 1 id0;
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id := id0 + 1
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(**** Object copy ****)
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let copy o =
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let o = (Obj.obj (Obj.dup (Obj.repr o))) in
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set_id o last_id;
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o
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(**** Compression options ****)
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(* Parameters *)
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type params = {
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mutable compact_table : bool;
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mutable copy_parent : bool;
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mutable clean_when_copying : bool;
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mutable retry_count : int;
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mutable bucket_small_size : int
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}
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let params = {
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compact_table = true;
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copy_parent = true;
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clean_when_copying = true;
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retry_count = 3;
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bucket_small_size = 16
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}
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(**** Parameters ****)
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let step = Sys.word_size / 16
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let first_bucket = 0
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let bucket_size = 32 (* Must be 256 or less *)
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let initial_object_size = 2
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(**** Index ****)
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type label = int
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let label_count = ref 0
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let next label =
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incr label_count;
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let label = label + step in
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if label mod (step * bucket_size) = 0 then
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label + step * (65536 - bucket_size)
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else
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label
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let decode label =
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(label / 65536 / step, (label mod (step * bucket_size)) / step)
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(**** Items ****)
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type item
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let dummy_item = (magic () : item)
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(**** Buckets ****)
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type bucket = item array
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let version = ref 0
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let set_bucket_version (bucket : bucket) =
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bucket.(bucket_size) <- (magic !version : item)
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let bucket_version bucket =
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(magic bucket.(bucket_size) : int)
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let bucket_list = ref []
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let empty_bucket = [| |]
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let new_bucket () =
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let bucket = Array.create (bucket_size + 1) dummy_item in
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set_bucket_version bucket;
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bucket_list := bucket :: !bucket_list;
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bucket
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let copy_bucket bucket =
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let bucket = Array.copy bucket in
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set_bucket_version bucket;
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bucket.(bucket_size) <- (magic !version : item);
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bucket_list := bucket :: !bucket_list;
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bucket
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(**** Make a clean bucket ****)
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let new_filled_bucket pos methods =
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let bucket = new_bucket () in
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List.iter
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(fun (lab, met) ->
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let (buck, elem) = decode lab in
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if buck = pos then
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bucket.(elem) <- (magic met : item))
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(List.rev methods);
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bucket
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(**** Bucket merging ****)
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let small_buckets = ref (Array.create 10 [| |])
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let small_bucket_count = ref 0
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let insert_bucket bucket =
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let length = Array.length !small_buckets in
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if !small_bucket_count >= length then begin
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let new_array = Array.create (2 * length) [| |] in
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Array.blit !small_buckets 0 new_array 0 length;
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small_buckets := new_array
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end;
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!small_buckets.(!small_bucket_count) <- bucket;
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incr small_bucket_count
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let remove_bucket n =
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!small_buckets.(n) <- !small_buckets.(!small_bucket_count - 1);
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decr small_bucket_count
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let bucket_used b =
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let n = ref 0 in
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for i = 0 to bucket_size - 1 do
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if b.(i) != dummy_item then incr n
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done;
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!n
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let small_bucket b = bucket_used b <= params.bucket_small_size
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exception Failed
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let rec except e =
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function
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[] -> []
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| e'::l -> if e == e' then l else e'::(except e l)
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let merge_buckets b1 b2 =
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for i = 0 to bucket_size - 1 do
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if
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(b2.(i) != dummy_item) && (b1.(i) != dummy_item) && (b2.(i) != b1.(i))
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then
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raise Failed
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done;
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for i = 0 to bucket_size - 1 do
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if b2.(i) != dummy_item then
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b1.(i) <- b2.(i)
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done;
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bucket_list := except b2 !bucket_list;
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b1
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let rec choose bucket i =
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if (i > 0) && (!small_bucket_count > 0) then begin
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let n = Random.int !small_bucket_count in
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if not (small_bucket !small_buckets.(n)) then begin
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remove_bucket n; choose bucket i
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end else
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try
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merge_buckets !small_buckets.(n) bucket
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with Failed ->
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choose bucket (i - 1)
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end else begin
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insert_bucket bucket;
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bucket
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end
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let compact b =
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if
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(b != empty_bucket) && (bucket_version b = !version) && (small_bucket b)
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then
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choose b params.retry_count
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else
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b
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let compact_buckets buckets =
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for i = first_bucket to Array.length buckets - 1 do
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buckets.(i) <- compact buckets.(i)
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done
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(**** Labels ****)
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let first_label = first_bucket * 65536 * step
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let last_label = ref first_label
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let methods = Hashtbl.create 101
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let new_label () =
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let label = !last_label in
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last_label := next !last_label;
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label
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let new_method met =
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try
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Hashtbl.find methods met
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with Not_found ->
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let label = new_label () in
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Hashtbl.add methods met label;
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label
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let new_anonymous_method =
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new_label
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(**** Types ****)
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type obj = t array
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(**** Sparse array ****)
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module Vars = Map.Make(struct type t = string let compare = compare end)
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type vars = int Vars.t
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module Meths = Map.Make(struct type t = string let compare = compare end)
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type meths = label Meths.t
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module Labs = Map.Make(struct type t = label let compare = compare end)
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type labs = bool Labs.t
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(* The compiler assumes that the first field of this structure is [size]. *)
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type table =
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{ mutable size: int;
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mutable buckets: bucket array;
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mutable methods_by_name: meths;
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mutable methods_by_label: labs;
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mutable previous_states:
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(meths * labs * (label * item) list * vars *
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label list * string list) list;
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mutable hidden_meths: (label * item) list;
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mutable vars: vars;
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mutable initializers: (obj -> unit) list }
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let table_count = ref 0
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let new_table () =
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incr table_count;
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{ buckets = [| |];
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methods_by_name = Meths.empty;
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methods_by_label = Labs.empty;
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previous_states = [];
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hidden_meths = [];
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vars = Vars.empty;
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initializers = [];
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size = initial_object_size }
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let resize array new_size =
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let old_size = Array.length array.buckets in
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if new_size > old_size then begin
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let new_buck = Array.create new_size empty_bucket in
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Array.blit array.buckets 0 new_buck 0 old_size;
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array.buckets <- new_buck
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end
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let put array label element =
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let (buck, elem) = decode label in
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resize array (buck + 1);
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let bucket = ref (array.buckets.(buck)) in
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if !bucket == empty_bucket then begin
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bucket := new_bucket ();
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array.buckets.(buck) <- !bucket
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end;
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!bucket.(elem) <- element
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(**** Classes ****)
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let method_count = ref 0
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let inst_var_count = ref 0
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type t
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type meth = item
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let get_method_label table name =
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try
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Meths.find name table.methods_by_name
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with Not_found ->
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let label = new_anonymous_method () in
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table.methods_by_name <- Meths.add name label table.methods_by_name;
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table.methods_by_label <- Labs.add label true table.methods_by_label;
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label
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let set_method table label element =
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incr method_count;
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if Labs.find label table.methods_by_label then
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put table label element
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else
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table.hidden_meths <- (label, element) :: table.hidden_meths
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let get_method table label =
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try List.assoc label table.hidden_meths with Not_found ->
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let (buck, elem) = decode label in
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table.buckets.(buck).(elem)
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let narrow table vars virt_meths concr_meths =
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let virt_meth_labs = List.map (get_method_label table) virt_meths in
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let concr_meth_labs = List.map (get_method_label table) concr_meths in
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table.previous_states <-
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(table.methods_by_name, table.methods_by_label, table.hidden_meths,
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table.vars, virt_meth_labs, vars)
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:: table.previous_states;
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table.vars <- Vars.empty;
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let by_name = ref Meths.empty in
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let by_label = ref Labs.empty in
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List.iter2
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(fun met label ->
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by_name := Meths.add met label !by_name;
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by_label :=
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Labs.add label
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(try Labs.find label table.methods_by_label with Not_found -> true)
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!by_label)
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concr_meths concr_meth_labs;
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List.iter2
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(fun met label ->
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by_name := Meths.add met label !by_name;
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by_label := Labs.add label false !by_label)
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virt_meths virt_meth_labs;
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table.methods_by_name <- !by_name;
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table.methods_by_label <- !by_label;
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table.hidden_meths <-
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List.fold_right
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(fun ((lab, _) as met) hm ->
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if List.mem lab virt_meth_labs then hm else met::hm)
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table.hidden_meths
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[]
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let widen table =
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let (by_name, by_label, saved_hidden_meths, saved_vars, virt_meths, vars) =
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List.hd table.previous_states
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in
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table.previous_states <- List.tl table.previous_states;
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table.vars <-
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List.fold_left
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(fun s v -> Vars.add v (Vars.find v table.vars) s)
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saved_vars vars;
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table.methods_by_name <- by_name;
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table.methods_by_label <- by_label;
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table.hidden_meths <-
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List.fold_right
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(fun ((lab, _) as met) hm ->
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if List.mem lab virt_meths then hm else met::hm)
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table.hidden_meths
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saved_hidden_meths
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let new_slot table =
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let index = table.size in
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table.size <- index + 1;
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index
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let new_variable table name =
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let index = new_slot table in
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table.vars <- Vars.add name index table.vars;
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index
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let get_variable table name =
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Vars.find name table.vars
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let add_initializer table f =
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table.initializers <- f::table.initializers
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let create_table public_methods =
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let table = new_table () in
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List.iter
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(function met ->
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let lab = new_method met in
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table.methods_by_name <- Meths.add met lab table.methods_by_name;
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table.methods_by_label <- Labs.add lab true table.methods_by_label)
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public_methods;
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table
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let init_class table =
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inst_var_count := !inst_var_count + table.size - 1;
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if params.compact_table then
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compact_buckets table.buckets;
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table.initializers <- List.rev table.initializers
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(**** Objects ****)
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let create_object table =
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(* XXX Appel de [obj_block] *)
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let obj = Obj.new_block Obj.object_tag table.size in
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(* XXX Appel de [modify] *)
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Obj.set_field obj 0 (Obj.repr table.buckets);
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set_id obj last_id;
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(Obj.obj obj)
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let rec iter_f obj =
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function
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[] -> ()
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| f::l -> f obj; iter_f obj l
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let run_initializers obj table =
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let inits = table.initializers in
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if inits <> [] then
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iter_f obj inits
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let send obj lab =
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let (buck, elem) = decode lab in
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(magic obj : (obj -> t) array array array).(0).(buck).(elem) obj
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(**** Statistics ****)
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type stats =
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{ classes: int; labels: int; methods: int; inst_vars: int; buckets: int;
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distrib : int array; small_bucket_count: int; small_bucket_max: int }
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let distrib () =
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let d = Array.create 32 0 in
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List.iter
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(function b ->
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let n = bucket_used b in
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d.(n - 1) <- d.(n - 1) + 1)
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!bucket_list;
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d
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let stats () =
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{ classes = !table_count; labels = !label_count;
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methods = !method_count; inst_vars = !inst_var_count;
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buckets = List.length !bucket_list; distrib = distrib ();
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small_bucket_count = !small_bucket_count;
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small_bucket_max = Array.length !small_buckets }
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let sort_buck lst =
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List.map snd
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(Sort.list (fun (n, _) (n', _) -> n <= n')
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(List.map (function b -> (bucket_used b, b)) lst))
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let show_buckets () =
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List.iter
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(function b ->
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for i = 0 to bucket_size - 1 do
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print_char (if b.(i) == dummy_item then '.' else '*')
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done;
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print_newline ())
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(sort_buck !bucket_list)
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