ocaml 3.09 transition

[helm.git] / helm / ocaml / mathql_interpreter / mQIUtil.ml

(* Copyright (C) 2000, HELM Team.
 * 
 * This file is part of HELM, an Hypertextual, Electronic
 * Library of Mathematics, developed at the Computer Science
 * Department, University of Bologna, Italy.
 * 
 * HELM is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public License
 * as published by the Free Software Foundation; either version 2
 * of the License, or (at your option) any later version.
 * 
 * HELM is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with HELM; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place - Suite 330, Boston,
 * MA  02111-1307, USA.
 * 
 * For details, see the HELM World-Wide-Web page,
 * http://cs.unibo.it/helm/.
 *)

(*  AUTOR: Ferruccio Guidi <fguidi@cs.unibo.it>
 *)

(* boolean constants  *******************************************************)

let mql_false = []

let mql_true = [""]

(* set theoretic operations *************************************************)

let rec set_sub v1 v2 =
   match v1, v2 with
      | [], _                          -> mql_true 
      | _, []                          -> mql_false
      | h1 :: _, h2 :: _ when h1 < h2  -> mql_false
      | h1 :: _, h2 :: t2 when h1 > h2 -> set_sub v1 t2
      | _ :: t1, _ :: t2               -> set_sub t1 t2

let rec set_meet v1 v2 =
   match v1, v2 with
      | [], _                          -> mql_false 
      | _, []                          -> mql_false
      | h1 :: t1, h2 :: _ when h1 < h2 -> set_meet t1 v2
      | h1 :: _, h2 :: t2 when h1 > h2 -> set_meet v1 t2
      | _, _                           -> mql_true

let set_eq v1 v2 =
   if v1 = v2 then mql_true else mql_false

let rec set_union v1 v2 =
   match v1, v2 with
      | [], v                           -> v
      | v, []                           -> v 
      | h1 :: t1, h2 :: t2 when h1 < h2 -> h1 :: set_union t1 v2
      | h1 :: t1, h2 :: t2 when h1 > h2 -> h2 :: set_union v1 t2
      | h1 :: t1, _ :: t2               -> h1 :: set_union t1 t2

let rec set_intersect v1 v2 =
   match v1, v2 with
      | [], v                          -> []
      | v, []                          -> []
      | h1 :: t1, h2 :: _ when h1 < h2 -> set_intersect t1 v2
      | h1 :: _, h2 :: t2 when h1 > h2 -> set_intersect v1 t2
      | h1 :: t1, _ :: t2              -> h1 :: set_intersect t1 t2

let rec iter f = function
   | []           -> []
   | head :: tail -> set_union (f head) (iter f tail)  

(* MathQL specific set operations  ******************************************)

let rec mql_union s1 s2 =
   match s1, s2 with
      | [], s                                     -> s
      | s, []                                     -> s
      | (r1, g1) :: t1, (r2, _) :: _ when r1 < r2 ->
         (r1, g1) :: mql_union t1 s2
      | (r1, _) :: _, (r2, g2) :: t2 when r1 > r2 ->
         (r2, g2) :: mql_union s1 t2
      | (r1, g1) :: t1, (_, g2) :: t2             ->
         (r1, set_union g1 g2) :: mql_union t1 t2

let rec mql_iter f = function
   | []           -> []
   | head :: tail -> mql_union (f head) (mql_iter f tail)  

let rec mql_iter2 f l1 l2 = match l1, l2 with
   | [], []             -> []
   | h1 :: t1, h2 :: t2 -> mql_union (f h1 h2) (mql_iter2 f t1 t2)
   | _                  -> raise (Invalid_argument "mql_iter2")

let rec mql_prod g1 g2 =
   let mql_prod_aux a = iter (fun h -> [mql_union a h]) g2 in
   iter mql_prod_aux g1      

let rec mql_intersect s1 s2 =
   match s1, s2 with
      | [], s                                    -> []
      | s, []                                    -> []
      | (r1, _) :: t1, (r2, _) :: _ when r1 < r2 -> mql_intersect t1 s2
      | (r1, _) :: _, (r2, _) :: t2 when r1 > r2 -> mql_intersect s1 t2
      | (r1, g1) :: t1, (_, g2) :: t2            ->
         (r1, set_intersect g1 g2) :: mql_intersect t1 t2

let rec mql_diff s1 s2 =
   match s1, s2 with
      | [], _                                     -> []
      | s, []                                     -> s
      | (r1, g1) :: t1 , (r2, _) ::_ when r1 < r2 -> 
         (r1, g1) :: (mql_diff t1 s2)
      | (r1, _) :: _, (r2, _) :: t2 when r1 > r2  -> mql_diff s1 t2
      | _ :: t1, _ :: t2                          -> mql_diff t1 t2

(* logic operations  ********************************************************)

let xor v1 v2 =
   let b = v1 <> mql_false in 
   if b && v2 <> mql_false then mql_false else
   if b then v1 else v2

(* numeric operations  ******************************************************)

let int_of_list = function
   | [s] -> int_of_string s
   | _   -> raise (Failure "int_of_list")

let le v1 v2 =
   try if int_of_list v1 <= int_of_list v2 then mql_true else mql_false
   with _ -> mql_false

let lt v1 v2 =
   try if int_of_list v1 < int_of_list v2 then mql_true else mql_false
   with _ -> mql_false

let align n v =
   let c = String.length v in
   try
      let l = int_of_list [n] in
      if c < l then [(String.make (l - c) ' ') ^ v] else [v] 
   with _ -> [v]

(* context handling  ********************************************************)

let rec set ap = function
   | []                                  -> [ap]
   | head :: tail when fst head = fst ap -> ap :: tail
   | head :: tail                        -> head :: set ap tail