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(************************************************************************)
(*         *   The Coq Proof Assistant / The Coq Development Team       *)
(*  v      *   INRIA, CNRS and contributors - Copyright 1999-2018       *)
(* <O___,, *       (see CREDITS file for the list of authors)           *)
(*   \VV/  **************************************************************)
(*    //   *    This file is distributed under the terms of the         *)
(*         *     GNU Lesser General Public License Version 2.1          *)
(*         *     (see LICENSE file for the text of the license)         *)
(************************************************************************)

open Unify
open Rules
open CErrors
open Util
open EConstr
open Vars
open Tacmach.New
open Tactics
open Tacticals.New
open Proofview.Notations
open Reductionops
open Formula
open Sequent
open Names
open Misctypes
open Context.Rel.Declaration

let compare_instance inst1 inst2=
        let cmp c1 c2 = Constr.compare (EConstr.Unsafe.to_constr c1) (EConstr.Unsafe.to_constr c2) in
	match inst1,inst2 with
	    Phantom(d1),Phantom(d2)->
	      (cmp d1 d2)
	  | Real((m1,c1),n1),Real((m2,c2),n2)->
	      ((-) =? (-) ==? cmp) m2 m1 n1 n2 c1 c2
	  | Phantom(_),Real((m,_),_)-> if Int.equal m 0 then -1 else 1
	  | Real((m,_),_),Phantom(_)-> if Int.equal m 0 then 1 else -1

let compare_gr id1 id2 =
  if id1==id2 then 0 else
    if id1==dummy_id then 1
    else if id2==dummy_id then -1
    else Globnames.RefOrdered.compare id1 id2

module OrderedInstance=
struct
  type t=instance * Globnames.global_reference
  let compare (inst1,id1) (inst2,id2)=
    (compare_instance =? compare_gr) inst2 inst1 id2 id1
    (* we want a __decreasing__ total order *)
end

module IS=Set.Make(OrderedInstance)

let make_simple_atoms seq=
  let ratoms=
    match seq.glatom with
	Some t->[t]
      | None->[]
  in {negative=seq.latoms;positive=ratoms}

let do_sequent sigma setref triv id seq i dom atoms=
  let flag=ref true in
  let phref=ref triv in
  let do_atoms a1 a2 =
    let do_pair t1 t2 =
      match unif_atoms sigma i dom t1 t2 with
	  None->()
	| Some (Phantom _) ->phref:=true
	| Some c ->flag:=false;setref:=IS.add (c,id) !setref in
      List.iter (fun t->List.iter (do_pair t) a2.negative) a1.positive;
      List.iter (fun t->List.iter (do_pair t) a2.positive) a1.negative in
    HP.iter (fun lf->do_atoms atoms lf.atoms) seq.redexes;
    do_atoms atoms (make_simple_atoms seq);
    !flag && !phref

let match_one_quantified_hyp sigma setref seq lf=
  match lf.pat with
      Left(Lforall(i,dom,triv))|Right(Rexists(i,dom,triv))->
	if do_sequent sigma setref triv lf.id seq i dom lf.atoms then
	  setref:=IS.add ((Phantom dom),lf.id) !setref
    | _ -> anomaly (Pp.str "can't happen.")

let give_instances sigma lf seq=
  let setref=ref IS.empty in
    List.iter (match_one_quantified_hyp sigma setref seq) lf;
    IS.elements !setref

(* collector for the engine *)

let rec collect_quantified sigma seq=
  try
    let hd,seq1=take_formula sigma seq in
      (match hd.pat with
	   Left(Lforall(_,_,_)) | Right(Rexists(_,_,_)) ->
	     let (q,seq2)=collect_quantified sigma seq1 in
	       ((hd::q),seq2)
	 | _->[],seq)
  with Heap.EmptyHeap -> [],seq

(* open instances processor *)

let dummy_bvid=Id.of_string "x"

let mk_open_instance env evmap id idc m t =
  let var_id=
    if id==dummy_id then dummy_bvid else
      let typ=Typing.unsafe_type_of env evmap idc in
	(* since we know we will get a product,
	   reduction is not too expensive *)
      let (nam,_,_)=destProd evmap (whd_all env evmap typ) in
	match nam with
	    Name id -> id
	  | Anonymous ->  dummy_bvid in
  let revt=substl (List.init m (fun i->mkRel (m-i))) t in
  let rec aux n avoid env evmap decls =
    if Int.equal n 0 then evmap, decls else
      let nid=(fresh_id_in_env avoid var_id env) in
      let (evmap, (c, _)) = Evarutil.new_type_evar env evmap Evd.univ_flexible in
      let decl = LocalAssum (Name nid, c) in
	aux (n-1) (Id.Set.add nid avoid) (EConstr.push_rel decl env) evmap (decl::decls) in
  let evmap, decls = aux m Id.Set.empty env evmap [] in
  (evmap, decls, revt)

(* tactics   *)

let left_instance_tac (inst,id) continue seq=
  let open EConstr in
  Proofview.Goal.enter begin fun gl ->
  let sigma = project gl in
  match inst with
      Phantom dom->
	if lookup sigma (id,None) seq then
	  tclFAIL 0 (Pp.str "already done")
	else
	  tclTHENS (cut dom)
	    [tclTHENLIST
	       [introf;
                (pf_constr_of_global id >>= fun idc ->
                Proofview.Goal.enter begin fun gl ->
                  let id0 = List.nth (pf_ids_of_hyps gl) 0 in
                  generalize [mkApp(idc, [|mkVar id0|])]
                end);
		introf;
		tclSOLVE [wrap 1 false continue
			    (deepen (record (id,None) seq))]];
	    tclTRY assumption]
    | Real((m,t),_)->
        let c = (m, EConstr.to_constr sigma t) in
	if lookup sigma (id,Some c) seq then
	  tclFAIL 0 (Pp.str "already done")
	else
	  let special_generalize=
	    if m>0 then
	      (pf_constr_of_global id >>= fun idc ->
		Proofview.Goal.enter begin fun gl->
		  let (evmap, rc, ot) = mk_open_instance (pf_env gl) (project gl) id idc m t in
		  let gt=
		    it_mkLambda_or_LetIn
		      (mkApp(idc,[|ot|])) rc in
		  let evmap, _ =
		    try Typing.type_of (pf_env gl) evmap gt
		    with e when CErrors.noncritical e ->
		      user_err Pp.(str "Untypable instance, maybe higher-order non-prenex quantification") in
                  Proofview.tclTHEN (Proofview.Unsafe.tclEVARS evmap)
		    (generalize [gt])
                end)
	    else
	      pf_constr_of_global id >>= fun idc -> generalize [mkApp(idc,[|t|])]
	  in
	    tclTHENLIST
	      [special_generalize;
	       introf;
	       tclSOLVE
		 [wrap 1 false continue (deepen (record (id,Some c) seq))]]
  end

let right_instance_tac inst continue seq=
  let open EConstr in
  Proofview.Goal.enter begin fun gl ->
  match inst with
      Phantom dom ->
	tclTHENS (cut dom)
	[tclTHENLIST
	   [introf;
            Proofview.Goal.enter begin fun gl ->
              let id0 = List.nth (pf_ids_of_hyps gl) 0 in
              split (ImplicitBindings [mkVar id0])
            end;
	    tclSOLVE [wrap 0 true continue (deepen seq)]];
	 tclTRY assumption]
    | Real ((0,t),_) ->
	(tclTHEN (split (ImplicitBindings [t]))
	   (tclSOLVE [wrap 0 true continue (deepen seq)]))
    | Real ((m,t),_) ->
	tclFAIL 0 (Pp.str "not implemented ... yet")
  end

let instance_tac inst=
  if (snd inst)==dummy_id then
    right_instance_tac (fst inst)
  else
    left_instance_tac inst

let quantified_tac lf backtrack continue seq =
  Proofview.Goal.enter begin fun gl ->
  let insts=give_instances (project gl) lf seq in
    tclORELSE
      (tclFIRST (List.map (fun inst->instance_tac inst continue seq) insts))
      backtrack
  end