90648f61ff
Each state must be typed in the global environment and then the accumulator must be joined.
274 lines
7.4 KiB
OCaml
274 lines
7.4 KiB
OCaml
(**************************************************************************)
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(* *)
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(* Heptagon *)
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(* *)
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(* Author : Marc Pouzet *)
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(* Organization : Demons, LRI, University of Paris-Sud, Orsay *)
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(* *)
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(**************************************************************************)
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(* useful stuff *)
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let optional f = function
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| None -> None
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| Some x -> Some (f x)
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let optional_wacc f acc = function
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| None -> None, acc
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| Some x -> let x, acc = f acc x in Some x, acc
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let optunit f = function
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| None -> ()
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| Some x -> f x
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(** Print to a string *)
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let print_pp_to_string print_fun element =
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let _ = Format.flush_str_formatter () in (* Ensure that the buffer is empty *)
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print_fun Format.str_formatter element;
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Format.flush_str_formatter ()
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(** Replace all non [a-z A-Z 0-9] character of a string by [_] *)
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let sanitize_string s =
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Str.global_replace (Str.regexp "[^a-zA-Z0-9]") "_" s
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(* creation of names. Ensure unicity for the whole compilation chain *)
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let symbol = ref 0
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let gen_symbol () = incr symbol; "_"^(string_of_int !symbol)
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let reset_symbol () = symbol := (*!min_symbol*) 0
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let unique l =
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let tbl = Hashtbl.create (List.length l) in
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List.iter (fun i -> Hashtbl.replace tbl i ()) l;
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Hashtbl.fold (fun key _ accu -> key :: accu) tbl []
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let rec map_butlast f l =
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match l with
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| [] -> []
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| [a] -> [a]
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| a::l -> (f a)::(map_butlast f l)
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let rec last_element l =
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match l with
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| [] -> assert false
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| [v] -> v
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| _::l -> last_element l
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(** [split_last l] returns l without its last element and
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the last element of l. *)
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let rec split_last = function
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| [] -> assert false
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| [a] -> [], a
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| v::l ->
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let l, a = split_last l in
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v::l, a
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exception List_too_short
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(** [split_at n l] splits [l] in two after the [n]th value.
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Raises List_too_short exception if the list is too short. *)
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let rec split_at n l = match n, l with
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| 0, l -> [], l
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| _, [] -> raise List_too_short
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| n, x::l ->
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let l1, l2 = split_at (n-1) l in
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x::l1, l2
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let remove x l =
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List.filter (fun y -> x <> y) l
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let list_compare c l1 l2 =
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let rec aux l1 l2 = match (l1, l2) with
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| (h1::t1, h2::t2) ->
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let result = c h1 h2 in
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if result = 0 then aux t1 t2 else result
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| ([], [] ) -> 0
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| (_, [] ) -> 1
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| ([], _ ) -> -1
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in aux l1 l2
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let option_compare f ox1 ox2 = match ox1, ox2 with
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| None, None -> 0
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| Some x1, Some x2 -> f x1 x2
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| None, _ -> -1
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| _, None -> 1
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let is_empty = function
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| [] -> true
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| _ -> false
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(** [repeat_list v n] returns a list with n times the value v. *)
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let repeat_list v n =
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let rec aux = function
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| 0 -> []
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| n -> v::(aux (n-1))
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in
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aux n
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(** Same as List.mem_assoc but using the value instead of the key. *)
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let rec memd_assoc value = function
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| [] -> false
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| (_,d)::l -> (d = value) or (memd_assoc value l)
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(** Same as List.assoc but searching for a data and returning the key. *)
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let rec assocd value = function
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| [] -> raise Not_found
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| (k,d)::l ->
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if d = value then
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k
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else
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assocd value l
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(** { 3 Compiler iterators } *)
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(** Mapfold *) (* TODO optim : in a lot of places we don't need the List.rev *)
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let mapfold f acc l =
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let l,acc = List.fold_left
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(fun (l,acc) e -> let e,acc = f acc e in e::l, acc)
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([],acc) l in
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List.rev l, acc
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let mapfold2 f acc l1 l2 =
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let l,acc = List.fold_left2
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(fun (l,acc) e1 e2 -> let e,acc = f acc e1 e2 in e::l, acc)
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([],acc) l1 l2 in
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List.rev l, acc
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let mapfold_right f l acc =
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List.fold_right (fun e (acc, l) -> let acc, e = f e acc in (acc, e :: l))
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l (acc, [])
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let mapi f l =
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let rec aux i = function
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| [] -> []
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| v::l -> (f i v)::(aux (i+1) l)
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in
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aux 0 l
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let mapi2 f l1 l2 =
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let rec aux i l1 l2 =
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match l1, l2 with
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| [], [] -> []
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| [], _ -> invalid_arg ""
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| _, [] -> invalid_arg ""
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| v1::l1, v2::l2 -> (f i v1 v2)::(aux (i+1) l1 l2)
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in
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aux 0 l1 l2
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let mapi3 f l1 l2 l3 =
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let rec aux i l1 l2 l3 =
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match l1, l2, l3 with
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| [], [], [] -> []
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| [], _, _ -> invalid_arg ""
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| _, [], _ -> invalid_arg ""
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| _, _, [] -> invalid_arg ""
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| v1::l1, v2::l2, v3::l3 ->
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(f i v1 v2 v3)::(aux (i+1) l1 l2 l3)
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in
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aux 0 l1 l2 l3
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let fold_righti f l acc =
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let rec aux i l acc = match l with
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| [] -> acc
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| h :: l -> f i h (aux (i + 1) l acc) in
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aux 0 l acc
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exception Assert_false
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let internal_error passe code =
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Format.eprintf "@.---------\n
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Internal compiler error\n
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Passe : %s, Code : %d\n
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----------@." passe code;
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raise Assert_false
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exception Unsupported
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let unsupported passe code =
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Format.eprintf "@.---------\n
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Unsupported feature, please report it\n
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Passe : %s, Code : %d\n
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----------@." passe code;
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raise Unsupported
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(* Functions to decompose a list into a tuple *)
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let _arity_error i l =
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Format.eprintf "@.---------\n
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Internal compiler error: wrong list size (found %d, expected %d).\n
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----------@." (List.length l) i;
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raise Assert_false
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let _arity_min_error i l =
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Format.eprintf "@.---------\n
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Internal compiler error: wrong list size (found %d, expected %d at least).\n
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----------@." (List.length l) i;
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raise Assert_false
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let assert_empty = function
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| [] -> ()
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| l -> _arity_error 0 l
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let assert_1 = function
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| [v] -> v
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| l -> _arity_error 1 l
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let assert_1min = function
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| v::l -> v, l
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| l -> _arity_min_error 1 l
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let assert_2 = function
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| [v1; v2] -> v1, v2
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| l -> _arity_error 2 l
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let assert_2min = function
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| v1::v2::l -> v1, v2, l
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| l -> _arity_min_error 2 l
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let assert_3 = function
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| [v1; v2; v3] -> v1, v2, v3
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| l -> _arity_error 3 l
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let (|>) x f = f x
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let split_string s separator = Str.split (separator |> Str.quote |> Str.regexp) s
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let file_extension s = split_string s "." |> last_element
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(** Memoize the result of the function [f]*)
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let memoize f =
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let map = Hashtbl.create 100 in
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fun x ->
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try
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Hashtbl.find map x
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with
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| Not_found -> let r = f x in Hashtbl.add map x r; r
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(** Memoize the result of the function [f], taht should expect a
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tuple as input and be reflexive (f (x,y) = f (y,x)) *)
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let memoize_couple f =
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let map = Hashtbl.create 100 in
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fun (x,y) ->
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try
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Hashtbl.find map (x,y)
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with
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| Not_found ->
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let r = f (x,y) in Hashtbl.add map (x,y) r; Hashtbl.add map (y,x) r; r
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(** [iter_couple f l] calls f for all x and y distinct in [l]. *)
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let rec iter_couple f l = match l with
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| [] -> ()
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| x::l ->
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List.iter (f x) l;
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iter_couple f l
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(** [iter_couple_2 f l1 l2] calls f for all x in [l1] and y in [l2]. *)
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let iter_couple_2 f l1 l2 =
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List.iter (fun v1 -> List.iter (f v1) l2) l1
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(** [index p l] returns the idx of the first element in l
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that satisfies predicate p.*)
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let index p l =
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let rec aux i = function
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| [] -> -1
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| v::l -> if p v then i else aux (i+1) l
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in
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aux 0 l
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