| Fold (_, kind, term) ->
countterm (current_size + 5) term
| Fourier _ -> current_size + 7
+ | Generalize (_,term,pattern) -> assert false (* TODO *)
| Goal (_, n) -> current_size + 4 + int_of_float (ceil (log10 (float n)))
| Injection (_, ident) -> current_size + 10 + (String.length ident)
| Intros (_, num, idents) ->
Box.Text([],string_of_kind kind)]);
Box.indent(ast2astBox term)])
| Fourier _ -> Box.Text([],"fourier")
+ | Generalize _ -> assert false (* TODO *)
| Goal (_, n) -> Box.Text([],"goal " ^ string_of_int n)
| Injection (_, ident) ->
Box.V([],[Box.Text([],"transitivity");
(* ANCORA DA DEBUGGARE *)
exception AllSelectedTermsMustBeConvertible;;
+exception CannotGeneralizeInHypotheses;;
(* serve una funzione che cerchi nel ty dal basso a partire da term, i lambda
e li aggiunga nel context, poi si conta la lunghezza di questo nuovo
contesto e si lifta di tot... COSA SIGNIFICA TUTTO CIO'?????? *)
let generalize_tac
- ?(mk_fresh_name_callback = FreshNamesGenerator.mk_fresh_name ~subst:[]) terms
+ ?(mk_fresh_name_callback = FreshNamesGenerator.mk_fresh_name ~subst:[])
+ ~term pattern
=
let module PET = ProofEngineTypes in
- let generalize_tac mk_fresh_name_callback terms status =
+ let generalize_tac mk_fresh_name_callback ~term (hyps_pat,concl_pat) status =
+ if hyps_pat <> [] then raise CannotGeneralizeInHypotheses ;
let (proof, goal) = status in
let module C = Cic in
let module P = PrimitiveTactics in
let module T = Tacticals in
let _,metasenv,_,_ = proof in
let _,context,ty = CicUtil.lookup_meta goal metasenv in
- let typ,_ =
- match terms with
- [] -> assert false
- | he::tl ->
- (* We need to check that all the convertibility of all the terms *)
- let u = List.fold_left ( (* TASSI: FIXME *)
- fun u t ->
- let b,u1 = CicReduction.are_convertible context he t u in
- if not b then
- raise AllSelectedTermsMustBeConvertible
- else
- u1) CicUniv.empty_ugraph tl in
- (CicTypeChecker.type_of_aux' metasenv context he u)
+ let terms =
+ let path =
+ match concl_pat with
+ None -> Cic.Implicit (Some `Hole)
+ | Some path -> path in
+ let roots = CicUtil.select ~term:ty ~context:path in
+ List.fold_left
+ (fun acc (i, r) ->
+ ProofEngineHelpers.find_subterms
+ ~eq:ProofEngineReduction.alpha_equivalence ~wanted:term r @ acc
+ ) [] roots
+ in
+ let typ =
+ let typ,u =
+ CicTypeChecker.type_of_aux' metasenv context term CicUniv.empty_ugraph in
+ (* We need to check that all the convertibility of all the terms *)
+ ignore (
+ (* TASSI: FIXME *)
+ List.fold_left
+ (fun u t ->
+ let b,u1 = CicReduction.are_convertible context term t u in
+ if not b then
+ raise AllSelectedTermsMustBeConvertible
+ else
+ u1
+ ) u terms) ;
+ typ
in
PET.apply_tactic
(T.thens
~with_what:(List.map (function _ -> C.Rel 1) terms)
~where:ty)
)))
- ~continuations: [(P.apply_tac ~term:(C.Rel 1)) ; T.id_tac])
+ ~continuations:
+ [(P.apply_tac ~term:(C.Appl [C.Rel 1; CicSubstitution.lift 1 term])) ;
+ T.id_tac])
status
in
- PET.mk_tactic (generalize_tac mk_fresh_name_callback terms)
+ PET.mk_tactic (generalize_tac mk_fresh_name_callback ~term pattern)
;;
let set_goal n =
projects / helm.git / commitdiff