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(************************************************************************)
(*  v      *   The Coq Proof Assistant  /  The Coq Development Team     *)
(* <O___,, * CNRS-Ecole Polytechnique-INRIA Futurs-Universite Paris Sud *)
(*   \VV/  **************************************************************)
(*    //   *      This file is distributed under the terms of the       *)
(*         *       GNU Lesser General Public License Version 2.1        *)
(************************************************************************)

(* $Id: auto.ml 9154 2006-09-20 17:18:18Z corbinea $ *)

open Pp
open Util
open Names
open Nameops
open Term
open Termops
open Sign
open Environ
open Inductive
open Evd
open Reduction
open Typing
open Pattern
open Matching
open Tacmach
open Proof_type
open Pfedit
open Rawterm
open Evar_refiner
open Tacred
open Tactics
open Tacticals
open Clenv
open Hiddentac
open Libnames
open Nametab
open Libobject
open Library
open Printer
open Declarations
open Tacexpr
open Mod_subst

(****************************************************************************)
(*            The Type of Constructions Autotactic Hints                    *)
(****************************************************************************)

type auto_tactic = 
  | Res_pf     of constr * clausenv (* Hint Apply *)
  | ERes_pf    of constr * clausenv (* Hint EApply *)
  | Give_exact of constr                  
  | Res_pf_THEN_trivial_fail of constr * clausenv (* Hint Immediate *)
  | Unfold_nth of evaluable_global_reference       (* Hint Unfold *)
  | Extern     of glob_tactic_expr       (* Hint Extern *) 

type pri_auto_tactic = { 
  pri  : int;            (* A number between 0 and 4, 4 = lower priority *)
  pat  : constr_pattern option; (* A pattern for the concl of the Goal *)
  code : auto_tactic     (* the tactic to apply when the concl matches pat *)
}

let pri_ord {pri=pri1} {pri=pri2} = pri1 - pri2

let pri_order {pri=pri1} {pri=pri2} = pri1 <= pri2

let insert v l = 
  let rec insrec = function
    | [] -> [v]
    | h::tl -> if pri_order v h then v::h::tl else h::(insrec tl)
  in 
  insrec l

(* Nov 98 -- Papageno *)
(* Les Hints sont ré-organisés en plusieurs databases. 

  La table impérative "searchtable", de type "hint_db_table",
   associe une database (hint_db) à chaque nom.

  Une hint_db est une table d'association fonctionelle constr -> search_entry
  Le constr correspond à la constante de tête de la conclusion.

  Une search_entry est un triplet comprenant :
     - la liste des tactiques qui n'ont pas de pattern associé
     - la liste des tactiques qui ont un pattern
     - un discrimination net borné (Btermdn.t) constitué de tous les
       patterns de la seconde liste de tactiques *)

type stored_data = pri_auto_tactic

type search_entry = stored_data list * stored_data list * stored_data Btermdn.t

let empty_se = ([],[],Btermdn.create ())

let add_tac t (l,l',dn) =
  match t.pat with
      None -> (insert t l, l', dn)
    | Some pat -> (l, insert t l', Btermdn.add dn (pat,t))


let lookup_tacs (hdc,c) (l,l',dn) =
  let l'  = List.map snd (Btermdn.lookup dn c) in
  let sl' = Sort.list pri_order l' in
    Sort.merge pri_order l sl'


module Constr_map = Map.Make(struct 
			       type t = global_reference
			       let compare = Pervasives.compare 
			     end)

module Hint_db = struct

  type t = search_entry Constr_map.t

  let empty = Constr_map.empty

  let find key db =
    try Constr_map.find key db
    with Not_found -> empty_se

  let map_all k db =
    let (l,l',_) = find k db in
      Sort.merge pri_order l l'
   
  let map_auto (k,c) db =
    lookup_tacs (k,c) (find k db)

  let add_one (k,v) db =
    let oval = find k db in 
      Constr_map.add k (add_tac v oval) db

  let add_list l db = List.fold_right add_one l db

  let iter f db = Constr_map.iter (fun k (l,l',_) -> f k (l@l')) db

end

module Hintdbmap = Gmap

type frozen_hint_db_table = (string,Hint_db.t) Hintdbmap.t 

type hint_db_table = (string,Hint_db.t) Hintdbmap.t ref

type hint_db_name = string

let searchtable = (ref Hintdbmap.empty : hint_db_table)

let searchtable_map name = 
  Hintdbmap.find name !searchtable
let searchtable_add (name,db) = 
  searchtable := Hintdbmap.add name db !searchtable
let current_db_names () =
  Hintdbmap.dom !searchtable

(**************************************************************************)
(*                       Definition of the summary                        *)
(**************************************************************************)

let init     () = searchtable := Hintdbmap.empty
let freeze   () = !searchtable
let unfreeze fs = searchtable := fs

let _ = Summary.declare_summary "search"
	  { Summary.freeze_function   = freeze;
	    Summary.unfreeze_function = unfreeze;
	    Summary.init_function     = init;
	    Summary.survive_module = false;
	    Summary.survive_section   = false }

 
(**************************************************************************)
(*             Auxiliary functions to prepare AUTOHINT objects            *)
(**************************************************************************)

let rec nb_hyp c = match kind_of_term c with
  | Prod(_,_,c2) -> if noccurn 1 c2 then 1+(nb_hyp c2) else nb_hyp c2
  | _ -> 0 

(* adding and removing tactics in the search table *)

let try_head_pattern c = 
  try head_pattern_bound c
  with BoundPattern -> error "Bound head variable"

let make_exact_entry (c,cty) =
  let cty = strip_outer_cast cty in
  match kind_of_term cty with
    | Prod (_,_,_) -> 
	failwith "make_exact_entry"
    | _ ->
	(head_of_constr_reference (List.hd (head_constr cty)),
	   { pri=0; pat=None; code=Give_exact c })

let dummy_goal =
  {it={evar_hyps=empty_named_context_val;
       evar_concl=mkProp;
       evar_body=Evar_empty;
       evar_extra=None};
   sigma=Evd.empty}

let make_apply_entry env sigma (eapply,verbose) (c,cty) =
  let cty = hnf_constr env sigma cty in
  match kind_of_term cty with
    | Prod _ ->
        let ce = mk_clenv_from dummy_goal (c,cty) in
	let c' = clenv_type ce in
	let pat = Pattern.pattern_of_constr c' in
        let hd = (try head_pattern_bound pat
                  with BoundPattern -> failwith "make_apply_entry") in
        let nmiss = List.length (clenv_missing ce) 
        in 
	if eapply & (nmiss <> 0) then begin
          if verbose then 
	    warn (str "the hint: eapply " ++ pr_lconstr c ++
		  str " will only be used by eauto"); 
          (hd,
           { pri = nb_hyp cty + nmiss;
             pat = Some pat;
             code = ERes_pf(c,{ce with templenv=empty_env}) })
        end else 
	  (hd,
           { pri = nb_hyp cty;
             pat = Some pat;
             code = Res_pf(c,{ce with templenv=empty_env}) })
    | _ -> failwith "make_apply_entry"
 
(* eap is (e,v) with e=true if eapply and v=true if verbose 
   c is a constr
   cty is the type of constr *)

let make_resolves env sigma eap c =
  let cty = type_of env sigma c in
  let ents = 
    map_succeed 
      (fun f -> f (c,cty)) 
      [make_exact_entry; make_apply_entry env sigma (eap,Options.is_verbose())]
  in 
  if ents = [] then
    errorlabstrm "Hint" 
      (pr_lconstr c ++ spc() ++ str"cannot be used as a hint");
  ents


(* used to add an hypothesis to the local hint database *)
let make_resolve_hyp env sigma (hname,_,htyp) = 
  try
    [make_apply_entry env sigma (true, false)
       (mkVar hname,  htyp)]
  with 
    | Failure _ -> []
    | e when Logic.catchable_exception e -> anomaly "make_resolve_hyp"

(* REM : in most cases hintname = id *)
let make_unfold (ref, eref) =
  (ref,
   { pri = 4;
     pat = None;
     code = Unfold_nth eref })

let make_extern pri pat tacast = 
  let hdconstr = try_head_pattern pat in 
  (hdconstr,
   { pri=pri;
     pat = Some pat;
     code= Extern tacast })

let make_trivial env sigma c =
  let t = hnf_constr env sigma (type_of env sigma c) in
  let hd = head_of_constr_reference (List.hd (head_constr t)) in
  let ce = mk_clenv_from dummy_goal (c,t) in
  (hd, { pri=1;
         pat = Some (Pattern.pattern_of_constr (clenv_type ce));
         code=Res_pf_THEN_trivial_fail(c,{ce with templenv=empty_env}) })

open Vernacexpr

(**************************************************************************)
(*               declaration of the AUTOHINT library object               *)
(**************************************************************************)

(* If the database does not exist, it is created *)
(* TODO: should a warning be printed in this case ?? *)
let add_hint dbname hintlist = 
  try 
    let db = searchtable_map dbname in
    let db' = Hint_db.add_list hintlist db in
    searchtable_add (dbname,db')
  with Not_found -> 
    let db = Hint_db.add_list hintlist Hint_db.empty in
    searchtable_add (dbname,db)

let cache_autohint (_,(local,name,hintlist)) = add_hint name hintlist

let forward_subst_tactic = 
  ref (fun _ -> failwith "subst_tactic is not installed for auto")

let set_extern_subst_tactic f = forward_subst_tactic := f

let subst_autohint (_,subst,(local,name,hintlist as obj)) = 
  let trans_clenv clenv = Clenv.subst_clenv subst clenv in
  let trans_data data code = 	      
    { data with
	pat = option_smartmap (subst_pattern subst) data.pat ;
	code = code ;
    }
  in
  let subst_hint (lab,data as hint) =
    let lab',elab' = subst_global subst lab in
    let lab' =
     try head_of_constr_reference (List.hd (head_constr_bound elab' []))
     with Tactics.Bound -> lab' in
    let data' = match data.code with
      | Res_pf (c, clenv) ->
	  let c' = subst_mps subst c in
	    if c==c' then data else
	      trans_data data (Res_pf (c', trans_clenv clenv))
      | ERes_pf (c, clenv) ->
	  let c' = subst_mps subst c in
	    if c==c' then data else
	      trans_data data (ERes_pf (c', trans_clenv clenv))
      | Give_exact c ->
	  let c' = subst_mps subst c in
	    if c==c' then data else
	      trans_data data (Give_exact c')
      | Res_pf_THEN_trivial_fail (c, clenv) ->
	  let c' = subst_mps subst c in
	    if c==c' then data else
	      let code' = Res_pf_THEN_trivial_fail (c', trans_clenv clenv) in
		trans_data data code'
      | Unfold_nth ref -> 
          let ref' = subst_evaluable_reference subst ref in
           if ref==ref' then data else
	    trans_data data (Unfold_nth ref')
      | Extern tac ->
	  let tac' = !forward_subst_tactic subst tac in
	    if tac==tac' then data else
	      trans_data data (Extern tac')
    in
      if lab' == lab && data' == data then hint else
	(lab',data')
  in
  let hintlist' = list_smartmap subst_hint hintlist in
    if hintlist' == hintlist then obj else
      (local,name,hintlist')

let classify_autohint (_,((local,name,hintlist) as obj)) =
  if local or hintlist = [] then Dispose else Substitute obj

let export_autohint ((local,name,hintlist) as obj) =
  if local then None else Some obj

let (inAutoHint,outAutoHint) =
  declare_object {(default_object "AUTOHINT") with
                    cache_function = cache_autohint;
		    load_function = (fun _ -> cache_autohint);
		    subst_function = subst_autohint;
		    classify_function = classify_autohint;
                    export_function = export_autohint }


(**************************************************************************)
(*                     The "Hint" vernacular command                      *)
(**************************************************************************)
let add_resolves env sigma clist local dbnames =
  List.iter
    (fun dbname ->
       Lib.add_anonymous_leaf
	 (inAutoHint
	    (local,dbname,
     	     List.flatten (List.map (make_resolves env sigma true) clist))))
    dbnames


let add_unfolds l local dbnames =
  List.iter 
    (fun dbname -> Lib.add_anonymous_leaf 
       (inAutoHint (local,dbname, List.map make_unfold l)))
    dbnames


let add_extern pri (patmetas,pat) tacast local dbname =
  (* We check that all metas that appear in tacast have at least
     one occurence in the left pattern pat *)
  let tacmetas = [] in
  match (list_subtract tacmetas patmetas) with
    | i::_ ->
	errorlabstrm "add_extern" 
	  (str "The meta-variable ?" ++ pr_patvar i ++ str" is not bound")
    | []  ->
	Lib.add_anonymous_leaf
	  (inAutoHint(local,dbname, [make_extern pri pat tacast]))

let add_externs pri pat tacast local dbnames = 
  List.iter (add_extern pri pat tacast local) dbnames

let add_trivials env sigma l local dbnames =
  List.iter
    (fun dbname ->
       Lib.add_anonymous_leaf (
	 inAutoHint(local,dbname, List.map (make_trivial env sigma) l)))
    dbnames

let forward_intern_tac = 
  ref (fun _ -> failwith "intern_tac is not installed for auto")

let set_extern_intern_tac f = forward_intern_tac := f

let add_hints local dbnames0 h =
  let dbnames = if dbnames0 = [] then ["core"] else dbnames0 in
  let env = Global.env() and sigma = Evd.empty in
  let f = Constrintern.interp_constr sigma env in
  match h with
  | HintsResolve lhints ->	
      add_resolves env sigma (List.map f lhints) local dbnames
  | HintsImmediate lhints ->
      add_trivials env sigma (List.map f lhints) local dbnames
  | HintsUnfold lhints ->
      let f qid =
	let r = Nametab.global qid in
        let r' = match r with
         | ConstRef c -> EvalConstRef c
         | VarRef c -> EvalVarRef c
         | _ -> 
           errorlabstrm "evalref_of_ref"
            (str "Cannot coerce" ++ spc () ++ pr_global r ++ spc () ++
             str "to an evaluable reference")
        in
	 (r,r') in
      add_unfolds (List.map f lhints) local dbnames
  | HintsConstructors lqid ->
      let add_one qid =
        let env = Global.env() and sigma = Evd.empty in
        let isp = global_inductive qid in
        let consnames = (snd (Global.lookup_inductive isp)).mind_consnames in
        let lcons = list_tabulate
          (fun i -> mkConstruct (isp,i+1)) (Array.length consnames) in
        add_resolves env sigma lcons local dbnames in
      List.iter add_one lqid
  | HintsExtern (pri, patcom, tacexp) ->
      let pat =	Constrintern.interp_constrpattern Evd.empty (Global.env()) patcom in
      let tacexp = !forward_intern_tac (fst pat) tacexp in
      add_externs pri pat tacexp local dbnames
  | HintsDestruct(na,pri,loc,pat,code) ->
      if dbnames0<>[] then
        warn (str"Database selection not implemented for destruct hints");
      Dhyp.add_destructor_hint local na loc pat pri code

(**************************************************************************)
(*                    Functions for printing the hints                    *)
(**************************************************************************)

let fmt_autotactic =
  function
  | Res_pf (c,clenv) -> (str"apply " ++ pr_lconstr c)
  | ERes_pf (c,clenv) -> (str"eapply " ++ pr_lconstr c)
  | Give_exact c -> (str"exact " ++ pr_lconstr c)
  | Res_pf_THEN_trivial_fail (c,clenv) -> 
      (str"apply " ++ pr_lconstr c ++ str" ; trivial")
  | Unfold_nth c -> (str"unfold " ++  pr_evaluable_reference c)
  | Extern tac -> 
      (str "(external) " ++ Pptactic.pr_glob_tactic (Global.env()) tac)

let fmt_hint v =
  (fmt_autotactic v.code ++ str"(" ++ int v.pri ++ str")" ++ spc ())

let fmt_hint_list hintlist =
  (str "  " ++ hov 0 (prlist fmt_hint hintlist) ++ fnl ())

let fmt_hints_db (name,db,hintlist) =
  (str "In the database " ++ str name ++ str ":" ++
     if hintlist = [] then (str " nothing" ++ fnl ())
     else (fnl () ++ fmt_hint_list hintlist))

(* Print all hints associated to head c in any database *)
let fmt_hint_list_for_head c = 
  let dbs = Hintdbmap.to_list !searchtable in
  let valid_dbs = 
    map_succeed 
      (fun (name,db) -> (name,db,Hint_db.map_all c db)) 
      dbs 
  in
  if valid_dbs = [] then 
    (str "No hint declared for :" ++ pr_global c)
  else 
    hov 0 
      (str"For " ++ pr_global c ++ str" -> " ++ fnl () ++
	 hov 0 (prlist fmt_hints_db valid_dbs))

let fmt_hint_ref ref = fmt_hint_list_for_head ref

(* Print all hints associated to head id in any database *)
let print_hint_ref ref =  ppnl(fmt_hint_ref ref)

let fmt_hint_term cl = 
  try 
    let (hdc,args) = match head_constr_bound cl [] with 
      | hdc::args -> (hdc,args)
      | [] -> assert false 
    in
    let hd = head_of_constr_reference hdc in
    let dbs = Hintdbmap.to_list !searchtable in
    let valid_dbs = 
      if occur_existential cl then 
	map_succeed 
	  (fun (name, db) -> (name, db, Hint_db.map_all hd db)) 
	  dbs
      else 
	map_succeed 
	  (fun (name, db) -> 
	     (name, db, Hint_db.map_auto (hd,applist(hdc,args)) db)) 
	  dbs
    in 
    if valid_dbs = [] then 
      (str "No hint applicable for current goal")
    else
      (str "Applicable Hints :" ++ fnl () ++
	 hov 0 (prlist fmt_hints_db valid_dbs))
  with Bound | Match_failure _ | Failure _ -> 
    (str "No hint applicable for current goal")
	  
let print_hint_term cl = ppnl (fmt_hint_term cl)

(* print all hints that apply to the concl of the current goal *)
let print_applicable_hint () = 
  let pts = get_pftreestate () in 
  let gl = nth_goal_of_pftreestate 1 pts in 
  print_hint_term (pf_concl gl)
    
(* displays the whole hint database db *)
let print_hint_db db =
  Hint_db.iter 
    (fun head hintlist ->
       msg (hov 0 
	      (str "For " ++ pr_global head ++ str " -> " ++
		 fmt_hint_list hintlist)))
    db

let print_hint_db_by_name dbname =
  try 
    let db = searchtable_map dbname in print_hint_db db
  with Not_found -> 
    error (dbname^" : No such Hint database")
  
(* displays all the hints of all databases *)
let print_searchtable () =
  Hintdbmap.iter
    (fun name db ->
       msg (str "In the database " ++ str name ++ fnl ());
       print_hint_db db)
    !searchtable

(**************************************************************************)
(*                           Automatic tactics                            *)
(**************************************************************************)

(**************************************************************************)
(*          tactics with a trace mechanism for automatic search           *)
(**************************************************************************)

let priority l = List.map snd (List.filter (fun (pr,_) -> pr = 0) l)


(* Try unification with the precompiled clause, then use registered Apply *)

let unify_resolve (c,clenv) gls = 
  let clenv' = connect_clenv gls clenv in
  let _ = clenv_unique_resolver false clenv' gls in  
  h_simplest_apply c gls

(* builds a hint database from a constr signature *)
(* typically used with (lid, ltyp) = pf_hyps_types <some goal> *)

let make_local_hint_db lems g =
  let sign = pf_hyps g in
  let hintlist = list_map_append (pf_apply make_resolve_hyp g) sign in
  let hintlist' = list_map_append (pf_apply make_resolves g true) lems in
  Hint_db.add_list hintlist' (Hint_db.add_list hintlist Hint_db.empty)

(* Serait-ce possible de compiler d'abord la tactique puis de faire la
   substitution sans passer par bdize dont l'objectif est de préparer un
   terme pour l'affichage ? (HH) *)

(* Si on enlève le dernier argument (gl) conclPattern est calculé une
fois pour toutes : en particulier si Pattern.somatch produit une UserError 
Ce qui fait que si la conclusion ne matche pas le pattern, Auto échoue, même
si après Intros la conclusion matche le pattern.
*)

(* conclPattern doit échouer avec error car il est rattraper par tclFIRST *)

let forward_interp_tactic = 
  ref (fun _ -> failwith "interp_tactic is not installed for auto")

let set_extern_interp f = forward_interp_tactic := f

let conclPattern concl pat tac gl =
  let constr_bindings =
    try matches pat concl
    with PatternMatchingFailure -> error "conclPattern" in
  !forward_interp_tactic constr_bindings tac gl

(**************************************************************************)
(*                           The Trivial tactic                           *)
(**************************************************************************)

(* local_db is a Hint database containing the hypotheses of current goal *)
(* Papageno : cette fonction a été pas mal simplifiée depuis que la base
  de Hint impérative a été remplacée par plusieurs bases fonctionnelles *)

let rec trivial_fail_db db_list local_db gl =
  let intro_tac = 
    tclTHEN intro 
      (fun g'->
	 let hintl = make_resolve_hyp (pf_env g') (project g') (pf_last_hyp g')
	 in trivial_fail_db db_list (Hint_db.add_list hintl local_db) g')
  in
  tclFIRST 
    (assumption::intro_tac::
     (List.map tclCOMPLETE 
	(trivial_resolve db_list local_db (pf_concl gl)))) gl

and my_find_search db_list local_db hdc concl =
  let tacl = 
    if occur_existential concl then 
      list_map_append (fun db -> Hint_db.map_all hdc db) (local_db::db_list)
    else 
      list_map_append (fun db -> Hint_db.map_auto (hdc,concl) db)
      	(local_db::db_list)
  in
  List.map 
    (fun {pri=b; pat=p; code=t} -> 
       (b,
	match t with
	  | Res_pf (term,cl)  -> unify_resolve (term,cl)
	  | ERes_pf (_,c) -> (fun gl -> error "eres_pf")
	  | Give_exact c  -> exact_check c
	  | Res_pf_THEN_trivial_fail (term,cl) -> 
	      tclTHEN 
		(unify_resolve (term,cl)) 
		(trivial_fail_db db_list local_db)
	  | Unfold_nth c -> unfold_in_concl [[],c]
	  | Extern tacast -> 
	      conclPattern concl (out_some p) tacast))
    tacl

and trivial_resolve db_list local_db cl = 
  try 
    let hdconstr = List.hd (head_constr_bound cl []) in
    priority 
      (my_find_search db_list local_db (head_of_constr_reference hdconstr) cl)
  with Bound | Not_found -> 
    []

let trivial lems dbnames gl =
  let db_list = 
    List.map
      (fun x -> 
	 try 
	   searchtable_map x
	 with Not_found -> 
	   error ("trivial: "^x^": No such Hint database"))
      ("core"::dbnames) 
  in
  tclTRY (trivial_fail_db db_list (make_local_hint_db lems gl)) gl 
    
let full_trivial lems gl =
  let dbnames = Hintdbmap.dom !searchtable in
  let dbnames = list_subtract dbnames ["v62"] in
  let db_list = List.map (fun x -> searchtable_map x) dbnames in
  tclTRY (trivial_fail_db db_list (make_local_hint_db lems gl)) gl

let gen_trivial lems = function
  | None -> full_trivial lems
  | Some l -> trivial lems l

let h_trivial lems l =
  Refiner.abstract_tactic (TacTrivial (lems,l)) (gen_trivial lems l)

(**************************************************************************)
(*                       The classical Auto tactic                        *)
(**************************************************************************)

let possible_resolve db_list local_db cl =
  try 
    let hdconstr = List.hd (head_constr_bound cl []) in
    List.map snd 
      (my_find_search db_list local_db (head_of_constr_reference hdconstr) cl)
  with Bound | Not_found -> 
    []

let decomp_unary_term c gls = 
  let typc = pf_type_of gls c in 
  let hd = List.hd (head_constr typc) in 
  if Hipattern.is_conjunction hd then 
    simplest_case c gls 
  else 
    errorlabstrm "Auto.decomp_unary_term" (str "not a unary type") 

let decomp_empty_term c gls = 
  let typc = pf_type_of gls c in 
  let (hd,_) = decompose_app typc in 
  if Hipattern.is_empty_type hd then 
    simplest_case c gls 
  else 
    errorlabstrm "Auto.decomp_empty_term" (str "not an empty type") 


(* decomp is an natural number giving an indication on decomposition 
   of conjunction in hypotheses, 0 corresponds to no decomposition *)
(* n is the max depth of search *)
(* local_db contains the local Hypotheses *)

let rec search_gen decomp n db_list local_db extra_sign goal =
  if n=0 then error "BOUND 2";
  let decomp_tacs = match decomp with 
    | 0 -> [] 
    | p -> 
	(tclTRY_sign decomp_empty_term extra_sign)
	::
	(List.map 
	   (fun id -> tclTHENSEQ
               [decomp_unary_term (mkVar id);
                clear [id];
		search_gen decomp p db_list local_db []])
	   (pf_ids_of_hyps goal)) 
  in
  let intro_tac = 
    tclTHEN intro 
      (fun g' -> 
	 let (hid,_,htyp as d) = pf_last_hyp g' in
	 let hintl = 
	   try 
	     [make_apply_entry (pf_env g') (project g')
		(true,false) 
		(mkVar hid, htyp)]
	   with Failure _ -> [] 
	 in
         search_gen decomp n db_list (Hint_db.add_list hintl local_db) [d] g') 
  in
  let rec_tacs = 
    List.map 
      (fun ntac -> 
	 tclTHEN ntac
	   (search_gen decomp (n-1) db_list local_db empty_named_context))
      (possible_resolve db_list local_db (pf_concl goal))
  in 
  tclFIRST (assumption::(decomp_tacs@(intro_tac::rec_tacs))) goal


let search = search_gen 0

let default_search_depth = ref 5

let auto n lems dbnames gl =
  let db_list = 
    List.map
      (fun x -> 
	 try 
	   searchtable_map x
	 with Not_found -> 
	   error ("auto: "^x^": No such Hint database"))
      ("core"::dbnames) 
  in
  let hyps = pf_hyps gl in
  tclTRY (search n db_list (make_local_hint_db lems gl) hyps) gl

let default_auto = auto !default_search_depth [] []

let full_auto n lems gl = 
  let dbnames = Hintdbmap.dom !searchtable in
  let dbnames = list_subtract dbnames ["v62"] in
  let db_list = List.map (fun x -> searchtable_map x) dbnames in
  let hyps = pf_hyps gl in
  tclTRY (search n db_list (make_local_hint_db lems gl) hyps) gl
  
let default_full_auto gl = full_auto !default_search_depth [] gl

let gen_auto n lems dbnames =
  let n = match n with None -> !default_search_depth | Some n -> n in
  match dbnames with
  | None -> full_auto n lems
  | Some l -> auto n lems l

let inj_or_var = option_map (fun n -> ArgArg n)

let h_auto n lems l =
  Refiner.abstract_tactic (TacAuto (inj_or_var n,lems,l)) (gen_auto n lems l)

(**************************************************************************)
(*                  The "destructing Auto" from Eduardo                   *)
(**************************************************************************)

(* Depth of search after decomposition of hypothesis, by default 
   one look for an immediate solution *) 
(* Papageno : de toute façon un paramète > 1 est traité comme 1 pour 
   l'instant *)
let default_search_decomp = ref 1

let destruct_auto des_opt n gl = 
  let hyps = pf_hyps gl in
  search_gen des_opt n [searchtable_map "core"] 
    (make_local_hint_db [] gl) hyps gl
    
let dautomatic des_opt n = tclTRY (destruct_auto des_opt n)

let default_dauto = dautomatic !default_search_decomp !default_search_depth

let dauto = function
  | None, None     -> default_dauto
  | Some n, None   -> dautomatic !default_search_decomp n
  | Some n, Some p -> dautomatic p n
  | None, Some p   -> dautomatic p !default_search_depth

let h_dauto (n,p) =
  Refiner.abstract_tactic (TacDAuto (inj_or_var n,p)) (dauto (n,p))

(***************************************)
(*** A new formulation of Auto *********)
(***************************************)

let make_resolve_any_hyp env sigma (id,_,ty) =
  let ents = 
    map_succeed
      (fun f -> f (mkVar id,ty)) 
      [make_exact_entry; make_apply_entry env sigma (true,false)]
  in 
  ents

type autoArguments =
  | UsingTDB       
  | Destructing   

let keepAfter tac1 tac2 = 
  (tclTHEN tac1 
     (function g -> tac2 [pf_last_hyp g] g))

let compileAutoArg contac = function
  | Destructing -> 
      (function g -> 
         let ctx = pf_hyps g in  
	 tclFIRST 
           (List.map 
              (fun (id,_,typ) -> 
                let cl = snd (decompose_prod typ) in
                 if Hipattern.is_conjunction cl
		 then 
		   tclTHENSEQ [simplest_elim (mkVar id); clear [id]; contac] 
                 else 
		   tclFAIL 0 (pr_id id ++ str" is not a conjunction"))
	     ctx) g)
  | UsingTDB ->  
      (tclTHEN  
         (Tacticals.tryAllClauses 
            (function 
               | Some ((_,id),_) -> Dhyp.h_destructHyp false id
               | None          -> Dhyp.h_destructConcl))
         contac)

let compileAutoArgList contac = List.map (compileAutoArg contac)

let rec super_search n db_list local_db argl goal =
  if n = 0 then error "BOUND 2";
  tclFIRST
    (assumption
     ::
     (tclTHEN intro 
        (fun g -> 
	   let hintl = pf_apply make_resolve_any_hyp g (pf_last_hyp g) in
	   super_search n db_list (Hint_db.add_list hintl local_db)
	     argl g))
     ::
     ((List.map 
         (fun ntac -> 
            tclTHEN ntac 
              (super_search (n-1) db_list local_db argl))
         (possible_resolve db_list local_db (pf_concl goal)))
      @
      (compileAutoArgList  
         (super_search (n-1) db_list local_db argl) argl))) goal

let search_superauto n to_add argl g = 
  let sigma =
    List.fold_right
      (fun (id,c) -> add_named_decl (id, None, pf_type_of g c))
      to_add empty_named_context in
  let db0 = list_map_append (make_resolve_hyp (pf_env g) (project g)) sigma in
  let db = Hint_db.add_list db0 (make_local_hint_db [] g) in
  super_search n [Hintdbmap.find "core" !searchtable] db argl g

let superauto n to_add argl  = 
  tclTRY (tclCOMPLETE (search_superauto n to_add argl))

let default_superauto g = superauto !default_search_depth [] [] g

let interp_to_add gl locqid =
  let r = Nametab.global locqid in
  let id = id_of_global r in
  (next_ident_away id (pf_ids_of_hyps gl), constr_of_global r)

let gen_superauto nopt l a b gl =
  let n = match nopt with Some n -> n | None -> !default_search_depth in
  let al = (if a then [Destructing] else [])@(if b then [UsingTDB] else []) in
  superauto n (List.map (interp_to_add gl) l) al gl

let h_superauto no l a b =
  Refiner.abstract_tactic (TacSuperAuto (no,l,a,b)) (gen_superauto no l a b)