X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=blobdiff_plain;f=components%2Ftactics%2FeliminationTactics.ml;h=29961db389d1c3a039b23286b4eb643f075a0146;hb=42f2dc48b4fef5b404f406bf512d6a0cde35c067;hp=37a4f713688a21ac4bcbf65082466b190d10c2a9;hpb=f68f452173a5077c58f93587faad65fcced77223;p=helm.git diff --git a/components/tactics/eliminationTactics.ml b/components/tactics/eliminationTactics.ml index 37a4f7136..29961db38 100644 --- a/components/tactics/eliminationTactics.ml +++ b/components/tactics/eliminationTactics.ml @@ -25,71 +25,122 @@ (* $Id$ *) -module C = Cic -module P = PrimitiveTactics -module T = Tacticals -module S = ProofEngineStructuralRules -module F = FreshNamesGenerator -module E = ProofEngineTypes -module H = ProofEngineHelpers +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.empty_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.empty_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 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 H.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 + PET.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 - -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 ****************************************************************) @@ -102,35 +153,18 @@ let debug_print = fun _ -> () (** 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=[]) ?what ~dbd = +let decompose_tac ?(sorts=[CicPp.ppsort C.Prop; CicPp.ppsort C.CProp]) + ?(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 tactic = elim_clear_unfold_tac ~sorts ~mk_fresh_name_callback in let old_context_length = List.length context in - let tac = match what with - | Some what -> - T.then_ ~start:(tactic ~what) - ~continuation:(scan_tac ~old_context_length ~index:1 ~tactic) - | None -> - scan_tac ~old_context_length ~index:old_context_length ~tactic + 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 + PET.mk_tactic decompose_tac