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(************************************************************************)
(*  v      *   The Coq Proof Assistant  /  The Coq Development Team     *)
(* <O___,, *   INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2010     *)
(*   \VV/  **************************************************************)
(*    //   *      This file is distributed under the terms of the       *)
(*         *       GNU Lesser General Public License Version 2.1        *)
(************************************************************************)

(*i camlp4deps: "parsing/grammar.cma" i*)

open Pp
open Util
open Names
open Nameops
open Term
open Termops
open Sign
open Reduction
open Proof_type
open Declarations
open Tacticals
open Tacmach
open Evar_refiner
open Tactics
open Pattern
open Clenv
open Auto
open Glob_term
open Hiddentac

let eauto_unif_flags = { auto_unif_flags with Unification.modulo_delta = full_transparent_state }

let e_give_exact ?(flags=eauto_unif_flags) c gl = let t1 = (pf_type_of gl c) and t2 = pf_concl gl in
  if occur_existential t1 or occur_existential t2 then
     tclTHEN (Clenvtac.unify ~flags t1) (exact_check c) gl
  else exact_check c gl

let assumption id = e_give_exact (mkVar id)

let e_assumption gl =
  tclFIRST (List.map assumption (pf_ids_of_hyps gl)) gl

TACTIC EXTEND eassumption
| [ "eassumption" ] -> [ e_assumption ]
END

TACTIC EXTEND eexact
| [ "eexact" constr(c) ] -> [ e_give_exact c ]
END

let registered_e_assumption gl =
  tclFIRST (List.map (fun id gl -> e_give_exact (mkVar id) gl)
              (pf_ids_of_hyps gl)) gl

(************************************************************************)
(*   PROLOG tactic                                                      *)
(************************************************************************)

let one_step l gl =
  [Tactics.intro]
  @ (List.map h_simplest_eapply (List.map mkVar (pf_ids_of_hyps gl)))
  @ (List.map h_simplest_eapply l)
  @ (List.map assumption (pf_ids_of_hyps gl))

let rec prolog l n gl =
  if n <= 0 then error "prolog - failure";
  let prol = (prolog l (n-1)) in
  (tclFIRST (List.map (fun t -> (tclTHEN t prol)) (one_step l gl))) gl

let prolog_tac l n gl =
  let l = List.map (prepare_hint (pf_env gl)) l in
  let n =
    match n with
      |  ArgArg n -> n
      | _ -> error "Prolog called with a non closed argument."
  in
  try (prolog l n gl)
  with UserError ("Refiner.tclFIRST",_) ->
    errorlabstrm "Prolog.prolog" (str "Prolog failed.")

TACTIC EXTEND prolog
| [ "prolog" "[" open_constr_list(l) "]" int_or_var(n) ] -> [ prolog_tac l n ]
END

open Auto
open Unification

(***************************************************************************)
(* A tactic similar to Auto, but using EApply, Assumption and e_give_exact *)
(***************************************************************************)

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

let unify_e_resolve flags (c,clenv) gls =
  let clenv' = connect_clenv gls clenv in
  let _ = clenv_unique_resolver ~flags clenv' gls in
  h_simplest_eapply c gls

let rec e_trivial_fail_db db_list local_db goal =
  let tacl =
    registered_e_assumption ::
    (tclTHEN Tactics.intro
       (function g'->
	  let d = pf_last_hyp g' in
	  let hintl = make_resolve_hyp (pf_env g') (project g') d in
          (e_trivial_fail_db db_list
	      (Hint_db.add_list hintl local_db) g'))) ::
    (List.map fst (e_trivial_resolve db_list local_db (pf_concl goal)) )
  in
  tclFIRST (List.map tclCOMPLETE tacl) goal

and e_my_find_search db_list local_db hdc concl =
  let hdc = head_of_constr_reference hdc in
  let hintl =
    if occur_existential concl then
      list_map_append (fun db ->
	let flags = {auto_unif_flags with modulo_delta = Hint_db.transparent_state db} in
	  List.map (fun x -> flags, x) (Hint_db.map_all hdc db)) (local_db::db_list)
    else
      list_map_append (fun db ->
	let flags = {auto_unif_flags with modulo_delta = Hint_db.transparent_state db} in
	  List.map (fun x -> flags, x) (Hint_db.map_auto (hdc,concl) db)) (local_db::db_list)
  in
  let tac_of_hint =
    fun (st, {pri=b; pat = p; code=t}) ->
      (b,
       let tac =
	 match t with
	   | Res_pf (term,cl) -> unify_resolve st (term,cl)
	   | ERes_pf (term,cl) -> unify_e_resolve st (term,cl)
	   | Give_exact (c) -> e_give_exact c
	   | Res_pf_THEN_trivial_fail (term,cl) ->
               tclTHEN (unify_e_resolve st (term,cl))
		 (e_trivial_fail_db db_list local_db)
	   | Unfold_nth c -> h_reduce (Unfold [all_occurrences_expr,c]) onConcl
	   | Extern tacast -> conclPattern concl p tacast
       in
       (tac,lazy (pr_autotactic t)))
       (*i
	 fun gls -> pPNL (pr_autotactic t); Format.print_flush ();
                     try tac gls
		     with e when Logic.catchable_exception(e) ->
                            (Format.print_string "Fail\n";
			     Format.print_flush ();
			     raise e)
       i*)
  in
  List.map tac_of_hint hintl

and e_trivial_resolve db_list local_db gl =
  try
    priority
      (e_my_find_search db_list local_db
	 (fst (head_constr_bound gl)) gl)
  with Bound | Not_found -> []

let e_possible_resolve db_list local_db gl =
  try List.map snd
    (e_my_find_search db_list local_db
	(fst (head_constr_bound gl)) gl)
  with Bound | Not_found -> []

let find_first_goal gls =
  try first_goal gls with UserError _ -> assert false

(*s The following module [SearchProblem] is used to instantiate the generic
    exploration functor [Explore.Make]. *)

type search_state = {
  depth : int; (*r depth of search before failing *)
  tacres : goal list sigma;
  last_tactic : std_ppcmds Lazy.t;
  dblist : Auto.hint_db list;
  localdb :  Auto.hint_db list }

module SearchProblem = struct

  type state = search_state

  let success s = (sig_it s.tacres) = []

  let pr_ev evs ev = Printer.pr_constr_env (Evd.evar_env ev) (Evarutil.nf_evar evs ev.Evd.evar_concl)

  let pr_goals gls =
    let evars = Evarutil.nf_evar_map (Refiner.project gls) in
      prlist (pr_ev evars) (sig_it gls)

  let filter_tactics glls l =
(*     let _ = Proof_trees.db_pr_goal (List.hd (sig_it glls)) in *)
(*     let evars = Evarutil.nf_evars (Refiner.project glls) in *)
(*     msg (str"Goal:" ++ pr_ev evars (List.hd (sig_it glls)) ++ str"\n"); *)
    let rec aux = function
      | [] -> []
      | (tac,pptac) :: tacl ->
	  try
	    let lgls = apply_tac_list tac glls in
(* 	    let gl = Proof_trees.db_pr_goal (List.hd (sig_it glls)) in *)
(* 	      msg (hov 1 (pptac ++ str" gives: \n" ++ pr_goals lgls ++ str"\n")); *)
	      (lgls,pptac) :: aux tacl
	  with e -> Refiner.catch_failerror e; aux tacl
    in aux l

  (* Ordering of states is lexicographic on depth (greatest first) then
     number of remaining goals. *)
  let compare s s' =
    let d = s'.depth - s.depth in
    let nbgoals s = List.length (sig_it s.tacres) in
    if d <> 0 then d else nbgoals s - nbgoals s'

  let branching s =
    if s.depth = 0 then
      []
    else
      let lg = s.tacres in
      let nbgl = List.length (sig_it lg) in
      assert (nbgl > 0);
      let g = find_first_goal lg in
      let assumption_tacs =
	let l =
	  filter_tactics s.tacres
	    (List.map
	       (fun id -> (e_give_exact (mkVar id),
			   lazy (str "exact" ++ spc () ++ pr_id id)))
	       (pf_ids_of_hyps g))
	in
	List.map (fun (res,pp) -> { depth = s.depth; tacres = res;
				    last_tactic = pp; dblist = s.dblist;
				    localdb = List.tl s.localdb }) l
      in
      let intro_tac =
	List.map
	  (fun (lgls as res,pp) ->
	     let g' = first_goal lgls in
	     let hintl =
	       make_resolve_hyp (pf_env g') (project g') (pf_last_hyp g')
	     in
             let ldb = Hint_db.add_list hintl (List.hd s.localdb) in
	     { depth = s.depth; tacres = res;
	       last_tactic = pp; dblist = s.dblist;
	       localdb = ldb :: List.tl s.localdb })
	  (filter_tactics s.tacres [Tactics.intro,lazy (str "intro")])
      in
      let rec_tacs =
	let l =
	  filter_tactics s.tacres (e_possible_resolve s.dblist (List.hd s.localdb) (pf_concl g))
	in
	List.map
	  (fun (lgls as res, pp) ->
	     let nbgl' = List.length (sig_it lgls) in
	     if nbgl' < nbgl then
	       { depth = s.depth; tacres = res; last_tactic = pp;
		 dblist = s.dblist; localdb = List.tl s.localdb }
	     else
	       { depth = pred s.depth; tacres = res;
		 dblist = s.dblist; last_tactic = pp;
		 localdb =
		   list_addn (nbgl'-nbgl) (List.hd s.localdb) s.localdb })
	  l
      in
      List.sort compare (assumption_tacs @ intro_tac @ rec_tacs)

  let pp s =
    msg (hov 0 (str " depth=" ++ int s.depth ++ spc () ++
		  (Lazy.force s.last_tactic) ++ str "\n"))

end

module Search = Explore.Make(SearchProblem)

let make_initial_state n gl dblist localdb =
  { depth = n;
    tacres = tclIDTAC gl;
    last_tactic = lazy (mt());
    dblist = dblist;
    localdb = [localdb] }

let e_depth_search debug p db_list local_db gl =
  try
    let tac = if debug then Search.debug_depth_first else Search.depth_first in
    let s = tac (make_initial_state p gl db_list local_db) in
    s.tacres
  with Not_found -> error "eauto: depth first search failed."

let e_breadth_search debug n db_list local_db gl =
  try
    let tac =
      if debug then Search.debug_breadth_first else Search.breadth_first
    in
    let s = tac (make_initial_state n gl db_list local_db) in
    s.tacres
  with Not_found -> error "eauto: breadth first search failed."

let e_search_auto debug (in_depth,p) lems db_list gl =
  let local_db = make_local_hint_db ~ts:full_transparent_state true lems gl in
  if in_depth then
    e_depth_search debug p db_list local_db gl
  else
    e_breadth_search debug p db_list local_db gl

open Evd

let eauto_with_bases debug np lems db_list =
  tclTRY (e_search_auto debug np lems db_list)

let eauto debug np lems dbnames =
  let db_list = make_db_list dbnames in
  tclTRY (e_search_auto debug np lems db_list)

let full_eauto debug n lems gl =
  let dbnames = current_db_names () in
  let dbnames =  list_remove "v62" dbnames in
  let db_list = List.map searchtable_map dbnames in
  tclTRY (e_search_auto debug n lems db_list) gl

let gen_eauto d np lems = function
  | None -> full_eauto d np lems
  | Some l -> eauto d np lems l

let make_depth = function
  | None -> !default_search_depth
  | Some (ArgArg d) -> d
  | _ -> error "eauto called with a non closed argument."

let make_dimension n = function
  | None -> (true,make_depth n)
  | Some (ArgArg d) -> (false,d)
  | _ -> error "eauto called with a non closed argument."

open Genarg

(* Hint bases *)

let pr_hintbases _prc _prlc _prt = Pptactic.pr_hintbases

ARGUMENT EXTEND hintbases
  TYPED AS preident_list_opt
  PRINTED BY pr_hintbases
| [ "with" "*" ] -> [ None ]
| [ "with" ne_preident_list(l) ] -> [ Some l ]
| [ ] -> [ Some [] ]
END

let pr_constr_coma_sequence prc _ _ =
  prlist_with_sep pr_comma (fun (_,c) -> prc c)

ARGUMENT EXTEND constr_coma_sequence
  TYPED AS open_constr_list
  PRINTED BY pr_constr_coma_sequence
| [ open_constr(c) "," constr_coma_sequence(l) ] -> [ c::l ]
| [ open_constr(c) ] -> [ [c] ]
END

let pr_auto_using prc _prlc _prt = Pptactic.pr_auto_using (fun (_,c) -> prc c)

ARGUMENT EXTEND auto_using
  TYPED AS open_constr_list
  PRINTED BY pr_auto_using
| [ "using" constr_coma_sequence(l) ] -> [ l ]
| [ ] -> [ [] ]
END

TACTIC EXTEND eauto
| [ "eauto" int_or_var_opt(n) int_or_var_opt(p) auto_using(lems)
    hintbases(db) ] ->
    [ gen_eauto false (make_dimension n p) lems db ]
END

TACTIC EXTEND new_eauto
| [ "new" "auto" int_or_var_opt(n) auto_using(lems)
    hintbases(db) ] ->
    [ match db with
      | None -> new_full_auto (make_depth n) lems
      | Some l ->
	  new_auto (make_depth n) lems l ]
END

TACTIC EXTEND debug_eauto
| [ "debug" "eauto" int_or_var_opt(n) int_or_var_opt(p) auto_using(lems)
    hintbases(db) ] ->
    [ gen_eauto true (make_dimension n p) lems db ]
END

TACTIC EXTEND dfs_eauto
| [ "dfs" "eauto" int_or_var_opt(p) auto_using(lems)
      hintbases(db) ] ->
    [ gen_eauto false (true, make_depth p) lems db ]
END

let cons a l = a :: l

let autounfolds db occs =
  let unfolds = List.concat (List.map (fun dbname -> 
    let db = try searchtable_map dbname 
      with Not_found -> errorlabstrm "autounfold" (str "Unknown database " ++ str dbname)
    in
    let (ids, csts) = Hint_db.unfolds db in
      Cset.fold (fun cst -> cons (all_occurrences, EvalConstRef cst)) csts
	(Idset.fold (fun id -> cons (all_occurrences, EvalVarRef id)) ids [])) db)
  in unfold_option unfolds

let autounfold db cls gl =
  let cls = concrete_clause_of cls gl in
  let tac = autounfolds db in
  tclMAP (function
    | OnHyp (id,occs,where) -> tac occs (Some (id,where))
    | OnConcl occs -> tac occs None)
    cls gl

open Extraargs

TACTIC EXTEND autounfold
| [ "autounfold" hintbases(db) in_arg_hyp(id) ] ->
    [ autounfold (match db with None -> Auto.current_db_names () | Some [] -> ["core"] | Some x -> x) 
	(glob_in_arg_hyp_to_clause id) ]
END

let unfold_head env (ids, csts) c = 
  let rec aux c = 
    match kind_of_term c with
    | Var id when Idset.mem id ids ->
	(match Environ.named_body id env with
	| Some b -> true, b
	| None -> false, c)
    | Const cst when Cset.mem cst csts ->
	true, Environ.constant_value env cst
    | App (f, args) ->
	(match aux f with
	| true, f' -> true, Reductionops.whd_betaiota Evd.empty (mkApp (f', args))
	| false, _ -> 
	    let done_, args' = 
	      array_fold_left_i (fun i (done_, acc) arg -> 
		if done_ then done_, arg :: acc 
		else match aux arg with
		| true, arg' -> true, arg' :: acc
		| false, arg' -> false, arg :: acc)
		(false, []) args
	    in 
	      if done_ then true, mkApp (f, Array.of_list (List.rev args'))
	      else false, c)
    | _ -> 
	let done_ = ref false in
	let c' = map_constr (fun c -> 
	  if !done_ then c else 
	    let x, c' = aux c in
	      done_ := x; c') c
	in !done_, c'
  in aux c

let autounfold_one db cl gl =
  let st =
    List.fold_left (fun (i,c) dbname -> 
      let db = try searchtable_map dbname 
	with Not_found -> errorlabstrm "autounfold" (str "Unknown database " ++ str dbname)
      in
      let (ids, csts) = Hint_db.unfolds db in
	(Idset.union ids i, Cset.union csts c)) (Idset.empty, Cset.empty) db
  in
  let did, c' = unfold_head (pf_env gl) st (match cl with Some (id, _) -> pf_get_hyp_typ gl id | None -> pf_concl gl) in
    if did then
      match cl with
      | Some hyp -> change_in_hyp None c' hyp gl
      | None -> convert_concl_no_check c' DEFAULTcast gl
    else tclFAIL 0 (str "Nothing to unfold") gl

(* 	  Cset.fold (fun cst -> cons (all_occurrences, EvalConstRef cst)) csts *)
(* 	    (Idset.fold (fun id -> cons (all_occurrences, EvalVarRef id)) ids [])) db) *)
(*       in unfold_option unfolds cl *)

(*       let db = try searchtable_map dbname  *)
(* 	with Not_found -> errorlabstrm "autounfold" (str "Unknown database " ++ str dbname) *)
(*       in *)
(*       let (ids, csts) = Hint_db.unfolds db in *)
(* 	Cset.fold (fun cst -> tclORELSE (unfold_option [(occ, EvalVarRef id)] cst)) csts *)
(* 	  (Idset.fold (fun id -> tclORELSE (unfold_option [(occ, EvalVarRef id)] cl) ids acc))) *)
(*       (tclFAIL 0 (mt())) db *)
      
TACTIC EXTEND autounfold_one
| [ "autounfold_one" hintbases(db) "in" hyp(id) ] ->
    [ autounfold_one (match db with None -> ["core"] | Some x -> "core"::x) (Some (id, InHyp)) ]
| [ "autounfold_one" hintbases(db) ] ->
    [ autounfold_one (match db with None -> ["core"] | Some x -> "core"::x) None ]
      END

TACTIC EXTEND autounfoldify
| [ "autounfoldify" constr(x) ] -> [
    let db = match kind_of_term x with
      | Const c -> string_of_label (con_label c)
      | _ -> assert false
    in autounfold ["core";db] onConcl ]
END

TACTIC EXTEND unify
| ["unify" constr(x) constr(y) ] -> [ unify x y ]
| ["unify" constr(x) constr(y) "with" preident(base)  ] -> [
    unify ~state:(Hint_db.transparent_state (searchtable_map base)) x y ]
END


TACTIC EXTEND convert_concl_no_check
| ["convert_concl_no_check" constr(x) ] -> [ convert_concl_no_check x DEFAULTcast ]
END