Reindentation

[helm.git] / helm / ocaml / mathql_generator / cGMatchConclusion.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>
 *)

module T = MQGTypes

let text_of_entries out entries =
   out "(** MatchConclusion: results of the term inspection **)\n";
   let text_of_entry (u, b, v) =
      out (string_of_int v ^ " ");
      out (if b then "$MC " else "$IC ");   
      out (u ^ "\n")
   in List.iter text_of_entry entries

let sort_entries entries =
   let comparator (_, _, v1) (_, _, v2) = compare v1 v2 in 
   List.fast_sort comparator entries
   
let levels_of_term metasenv context term =
   let module TC = CicTypeChecker in
   let module Red = CicReduction in
   let module Misc = MQueryMisc in
   let degree t =
      let rec degree_aux = function
         | Cic.Sort _         -> 1 
         | Cic.Cast (u, _)    -> degree_aux u
         | Cic.Prod (_, _, t) -> degree_aux t
         | _                  -> 2
      in 
      let u = TC.type_of_aux' metasenv context t in
      degree_aux (Red.whd context u)
   in
   let entry_eq (s1, b1, v1) (s2, b2, v2) =
      s1 = s2 && b1 = b2 
   in
   let rec entry_in e = function
      | []           -> [e]
      | head :: tail -> 
         head :: if entry_eq head e then tail else entry_in e tail
   in
   let inspect_uri main l uri tc v term =
      let d = degree term in 
      entry_in (Misc.string_of_uriref (uri, tc), main, 2 * v + d - 1) l 
   in
   let rec inspect_term main l v term = match term with
        Cic.Rel _                        -> l
      | Cic.Meta _                       -> l
      | Cic.Sort _                       -> l 
      | Cic.Implicit                     -> l 
      | Cic.Var (u,exp_named_subst)      ->
         let l' = inspect_uri main l u [] v term in
          inspect_exp_named_subst l' (succ v) exp_named_subst
      | Cic.Const (u,exp_named_subst)    ->
         let l' = inspect_uri main l u [] v term in
          inspect_exp_named_subst l' (succ v) exp_named_subst
      | Cic.MutInd (u, t, exp_named_subst) ->
         let l' = inspect_uri main l u [t] v term in
          inspect_exp_named_subst l' (succ v) exp_named_subst
      | Cic.MutConstruct (u, t, c, exp_named_subst)    ->
         let l' = inspect_uri main l u [t; c] v term in
          inspect_exp_named_subst l' (succ v) exp_named_subst
      | Cic.Cast (uu, _)                 -> 
         inspect_term main l v uu
      | Cic.Prod (_, uu, tt)             ->
         let luu = inspect_term false l (succ v) uu in
         inspect_term main luu (succ v) tt         
      | Cic.Lambda (_, uu, tt)           ->
         let luu = inspect_term false l (succ v) uu in
         inspect_term false luu (succ v) tt 
      | Cic.LetIn (_, uu, tt)            ->
         let luu = inspect_term false l (succ v) uu in
         inspect_term false luu (succ v) tt
      | Cic.Appl m                       -> inspect_list main l true v m 
      | Cic.MutCase (u, t, tt, uu, m) -> 
         let lu = inspect_uri main l u [t] (succ v) term in
         let ltt = inspect_term false lu (succ v) tt in
         let luu = inspect_term false ltt (succ v) uu in
         inspect_list main luu false (succ v) m
      | Cic.Fix (_, m)                   -> inspect_ind l (succ v) m 
      | Cic.CoFix (_, m)                 -> inspect_coind l (succ v) m 
   and inspect_list main l head v = function
      | []      -> l
      | tt :: m -> 
         let ltt = inspect_term main l (if head then v else v + 1) tt in
         inspect_list false ltt false v m
   and inspect_exp_named_subst l v = function
        []      -> l
      | (_,t) :: tl -> 
         let l' = inspect_term false l v t in
          inspect_exp_named_subst l' v tl
   and inspect_ind l v = function
      | []                  -> l
      | (_, _, tt, uu) :: m ->  
         let ltt = inspect_term false l v tt in
         let luu = inspect_term false ltt v uu in
         inspect_ind luu v m
   and inspect_coind l v = function
      | []               -> l
      | (_, tt, uu) :: m ->
         let ltt = inspect_term false l v tt in
         let luu = inspect_term false ltt v uu in
         inspect_coind luu v m
   in
   let rec inspect_backbone = function
      | Cic.Cast (uu, _)      -> inspect_backbone uu
      | Cic.Prod (_, _, tt)   -> inspect_backbone tt                
      | Cic.LetIn (_, uu, tt) -> inspect_backbone tt
      | t                     -> inspect_term true [] 0 t
   in 
   inspect_backbone term  

let get_constraints e c t =   
   let can = sort_entries (levels_of_term e c t) in  (* can restrictions *)
   text_of_entries prerr_string can; flush stderr;   (* logging *)
   let rest_of (u, b, _) =
      let p = if b then `MainConclusion None else `InConclusion in (p, u)
   in
   let rec split vp = function
      | [], ((_, _, v) as hd) :: tl -> split v ([rest_of hd], tl)
      | prev, ((_, _, ve) as hd) :: tl  when vp = ve ->
         split vp (rest_of hd :: prev, tl)
      | p, l -> p, l
   in
   let rec mk_musts prev acc = function
      | [] -> prev, acc
      | l  -> 
         let slice, next = split 0 ([], l) in
         let acc = acc @ slice in
         mk_musts (prev @ [acc]) acc next
   in
   mk_musts [] [] can   

let universe = [T.MainConclusion; T.InConclusion]