(* $Id$ *)
-module C = Cic
-module P = PrimitiveTactics
-module T = Tacticals
-module S = ProofEngineStructuralRules
-module F = FreshNamesGenerator
-module E = ProofEngineTypes
-module H = ProofEngineHelpers
-
-(*
-let induction_tac ~term status =
- let (proof, goal) = status in
- let module C = Cic in
- let module R = CicReduction in
- let module P = PrimitiveTactics in
- let module T = Tacticals in
- let module S = ProofEngineStructuralRules in
- let module U = UriManager in
- let (_,metasenv,_,_) = proof in
- let _,context,ty = CicUtil.lookup_meta goal metasenv in
- let termty = CicTypeChecker.type_of_aux' metasenv context term in (* per ora non serve *)
-
- T.then_ ~start:(T.repeat_tactic
- ~tactic:(T.then_ ~start:(VariousTactics.generalize_tac ~term) (* chissa' se cosi' funziona? *)
- ~continuation:(P.intros))
- ~continuation:(P.elim_intros_simpl ~term)
- status
-;;
-*)
+module C = Cic
+module I = CicInspect
+module S = CicSubstitution
+module TC = CicTypeChecker
+module P = PrimitiveTactics
+module T = Tacticals
+module PESR = ProofEngineStructuralRules
+module F = FreshNamesGenerator
+module PET = ProofEngineTypes
+module RT = ReductionTactics
+module E = CicEnvironment
+module R = CicReduction
+module Un = CicUniv
+module PEH = ProofEngineHelpers
+
+let premise_pattern what = None, [what, C.Implicit (Some `Hole)], None
+
+let get_inductive_def uri =
+ match E.get_obj Un.oblivion_ugraph uri with
+ | C.InductiveDefinition (tys, _, lpsno, _), _ ->
+ lpsno, tys
+ | _ -> assert false
+
+let is_not_recursive uri tyno tys =
+ let map mutinds (_, ty) =
+(* FG: we can do much better here *)
+ let map mutinds (_, t) = I.S.union mutinds (I.get_mutinds_of_uri uri t) in
+(**********************************)
+ let premises, _ = PEH.split_with_whd ([], ty) in
+ List.fold_left map mutinds (List.tl premises)
+ in
+ let msg = "recursiveness check non implemented for mutually inductive types" in
+ if List.length tys > 1 then raise (PET.Fail (lazy msg)) else
+ let _, _, _, constructors = List.nth tys tyno in
+ let mutinds = List.fold_left map I.S.empty constructors in
+ I.S.is_empty mutinds
+
+let rec check_type sorts metasenv context t =
+ match R.whd ~delta:true context t with
+ | C.MutInd (uri, tyno, _) as t ->
+ let lpsno, tys = get_inductive_def uri in
+ let _, inductive, arity, _ = List.nth tys tyno in
+ let _, psno = PEH.split_with_whd ([], arity) in
+ let not_relation = (lpsno = psno) in
+ let not_recursive = is_not_recursive uri tyno tys in
+ let ty_ty, _ = TC.type_of_aux' metasenv context t Un.oblivion_ugraph in
+ let sort = match PEH.split_with_whd (context, ty_ty) with
+ | (_, C.Sort sort) ::_ , _ -> CicPp.ppsort sort
+ | (_, C.Meta _) :: _, _ -> CicPp.ppsort (C.Type (Un.fresh ()))
+ | _ -> assert false
+ in
+ let right_sort = List.mem sort sorts in
+ if not_relation && inductive && not_recursive && right_sort then
+ begin
+ HLog.warn (Printf.sprintf "Decomposing %s %u" (UriManager.string_of_uri uri) (succ tyno));
+ true
+ end
+ else false
+ | C.Appl (hd :: tl) -> check_type sorts metasenv context hd
+ | _ -> false
(* unexported tactics *******************************************************)
-let get_name context index =
- try match List.nth context (pred index) with
- | Some (Cic.Name name, _) -> Some name
- | _ -> None
- with Invalid_argument "List.nth" -> None
-
let rec scan_tac ~old_context_length ~index ~tactic =
let scan_tac status =
let (proof, goal) = status in
- let _, metasenv, _, _ = proof in
+ let _, metasenv, _subst, _, _, _ = proof in
let _, context, _ = CicUtil.lookup_meta goal metasenv in
let context_length = List.length context in
let rec aux index =
- match get_name context index with
+ match PEH.get_name context index with
| _ when index <= 0 -> (proof, [goal])
| None -> aux (pred index)
| Some what ->
let tac = T.then_ ~start:(tactic ~what)
~continuation:(scan_tac ~old_context_length:context_length ~index ~tactic)
in
- try E.apply_tactic tac status
- with E.Fail _ -> aux (pred index)
- in aux (index + context_length - old_context_length - 1)
+ try PET.apply_tactic tac status
+ with PET.Fail _ -> aux (pred index)
+ in aux (index + context_length - old_context_length)
in
- E.mk_tactic scan_tac
-
-let rec check_inductive_types types = function
- | C.MutInd (uri, typeno, _) -> List.mem (uri, typeno) types
- | C.Appl (hd :: tl) -> check_inductive_types types hd
- | _ -> false
+ PET.mk_tactic scan_tac
-let elim_clear_tac ~mk_fresh_name_callback ~types ~what =
- let elim_clear_tac status =
+let elim_clear_unfold_tac ~sorts ~mk_fresh_name_callback ~what =
+ let elim_clear_unfold_tac status =
let (proof, goal) = status in
- let _, metasenv, _, _ = proof in
+ let _, metasenv, _subst, _, _, _ = proof in
let _, context, _ = CicUtil.lookup_meta goal metasenv in
- let index, ty = H.lookup_type metasenv context what in
- if check_inductive_types types ty then
- let tac = T.then_ ~start:(P.elim_intros_tac ~mk_fresh_name_callback (C.Rel index))
- ~continuation:(S.clear what)
- in
- E.apply_tactic tac status
- else raise (E.Fail (lazy "unexported elim_clear: not an eliminable type"))
+ let index, ty = PEH.lookup_type metasenv context what in
+ let tac =
+ if check_type sorts metasenv context (S.lift index ty) then
+ T.then_ ~start:(P.elim_intros_tac ~mk_fresh_name_callback (C.Rel index))
+ ~continuation:(PESR.clear [what])
+ else
+ let msg = "unexported elim_clear: not an decomposable type" in
+ raise (PET.Fail (lazy msg))
+ in
+ PET.apply_tactic tac status
in
- E.mk_tactic elim_clear_tac
+ PET.mk_tactic elim_clear_unfold_tac
(* elim type ****************************************************************)
let elim_type_tac ?(mk_fresh_name_callback = F.mk_fresh_name ~subst:[]) ?depth
?using what
=
- let elim what =
- P.elim_intros_simpl_tac ?using ?depth ~mk_fresh_name_callback what
+ let elim =
+ P.elim_intros_simpl_tac ?using ?depth ~mk_fresh_name_callback
in
let elim_type_tac status =
let tac =
T.thens ~start: (P.cut_tac what) ~continuations:[elim (C.Rel 1); T.id_tac]
in
- E.apply_tactic tac status
+ PET.apply_tactic tac status
in
- E.mk_tactic elim_type_tac
+ PET.mk_tactic elim_type_tac
(* decompose ****************************************************************)
(** debugging print *)
let warn s = debug_print (lazy ("DECOMPOSE: " ^ (Lazy.force s)))
-(* search in term the Inductive Types and return a list of uris as triples like this: (uri,typeno,exp_named_subst) *)
-let search_inductive_types ty =
- let rec aux types = function
- | C.MutInd (uri, typeno, _) when (not (List.mem (uri, typeno) types)) ->
- (uri, typeno) :: types
- | C.Appl applist -> List.fold_left aux types applist
- | _ -> types
- in
- aux [] ty
-(* N.B: in un caso tipo (and A forall C:Prop.(or B C)) l'or *non* viene selezionato! *)
-
(* roba seria ------------------------------------------------------------- *)
-let decompose_tac ?(mk_fresh_name_callback = F.mk_fresh_name ~subst:[])
- ?(user_types=[]) ~dbd what =
+let decompose_tac ?(sorts=[CicPp.ppsort C.Prop; CicPp.ppsort (C.CProp (CicUniv.fresh ()))])
+ ?(mk_fresh_name_callback = F.mk_fresh_name ~subst:[]) () =
let decompose_tac status =
let (proof, goal) = status in
- let _, metasenv,_,_ = proof in
+ let _, metasenv, _subst, _,_, _ = proof in
let _, context, _ = CicUtil.lookup_meta goal metasenv in
- let types = List.rev_append user_types (FwdQueries.decomposables dbd) in
- let tactic = elim_clear_tac ~mk_fresh_name_callback ~types in
- let old_context_length = List.length context in
- let tac = T.then_ ~start:(tactic ~what)
- ~continuation:(scan_tac ~old_context_length ~index:1 ~tactic)
+ let tactic = elim_clear_unfold_tac ~sorts ~mk_fresh_name_callback in
+ let old_context_length = List.length context in
+ let tac = scan_tac ~old_context_length ~index:old_context_length ~tactic
in
- E.apply_tactic tac status
+ PET.apply_tactic tac status
in
- E.mk_tactic decompose_tac
-
-(*
-module R = CicReduction
-
- let rec elim_clear_tac ~term' ~nr_of_hyp_still_to_elim status =
- let (proof, goal) = status in
- warn (lazy ("nr_of_hyp_still_to_elim=" ^ (string_of_int nr_of_hyp_still_to_elim)));
- if nr_of_hyp_still_to_elim <> 0 then
- let _,metasenv,_,_ = proof in
- let _,context,_ = CicUtil.lookup_meta goal metasenv in
- let old_context_len = List.length context in
- let termty,_ =
- CicTypeChecker.type_of_aux' metasenv context term'
- CicUniv.empty_ugraph in
- warn (lazy ("elim_clear termty= " ^ CicPp.ppterm termty));
- match termty with
- C.MutInd (uri,typeno,exp_named_subst)
- | C.Appl((C.MutInd (uri,typeno,exp_named_subst))::_)
- when (List.mem (uri,typeno,exp_named_subst) urilist) ->
- warn (lazy ("elim " ^ CicPp.ppterm termty));
- ProofEngineTypes.apply_tactic
- (T.then_
- ~start:(P.elim_intros_simpl_tac term')
- ~continuation:(
- (* clear the hyp that has just been eliminated *)
- ProofEngineTypes.mk_tactic (fun status ->
- let (proof, goal) = status in
- let _,metasenv,_,_ = proof in
- let _,context,_ = CicUtil.lookup_meta goal metasenv in
- let new_context_len = List.length context in
- warn (lazy ("newcon=" ^ (string_of_int new_context_len) ^ " & oldcon=" ^ (string_of_int old_context_len) ^ " & old_nr_of_hyp=" ^ (string_of_int nr_of_hyp_still_to_elim)));
- let new_nr_of_hyp_still_to_elim = nr_of_hyp_still_to_elim + (new_context_len - old_context_len) - 1 in
- let hyp_name =
- match List.nth context new_nr_of_hyp_still_to_elim with
- None
- | Some (Cic.Anonymous,_) -> assert false
- | Some (Cic.Name name,_) -> name
- in
- ProofEngineTypes.apply_tactic
- (T.then_
- ~start:(
- if (term'==term) (* if it's the first application of elim, there's no need to clear the hyp *)
- then begin debug_print (lazy ("%%%%%%% no clear")); T.id_tac end
- else begin debug_print (lazy ("%%%%%%% clear " ^ (string_of_int (new_nr_of_hyp_still_to_elim)))); (S.clear ~hyp:hyp_name) end)
- ~continuation:(ProofEngineTypes.mk_tactic (elim_clear_tac ~term':(C.Rel new_nr_of_hyp_still_to_elim) ~nr_of_hyp_still_to_elim:new_nr_of_hyp_still_to_elim)))
- status
- )))
- status
- | _ ->
- let new_nr_of_hyp_still_to_elim = nr_of_hyp_still_to_elim - 1 in
- warn (lazy ("fail; hyp=" ^ (string_of_int new_nr_of_hyp_still_to_elim)));
- elim_clear_tac ~term':(C.Rel new_nr_of_hyp_still_to_elim) ~nr_of_hyp_still_to_elim:new_nr_of_hyp_still_to_elim status
- else (* no hyp to elim left in this goal *)
- ProofEngineTypes.apply_tactic T.id_tac status
-
- in
- elim_clear_tac ~term':term ~nr_of_hyp_still_to_elim:1 status
-*)
+ PET.mk_tactic decompose_tac