From: Wilmer Ricciotti Date: Wed, 19 Jan 2011 11:06:23 +0000 (+0000) Subject: Added some typing info to elimination principles, allowing the refiner X-Git-Tag: make_still_working~2588 X-Git-Url: http://matita.cs.unibo.it/gitweb/?a=commitdiff_plain;h=ec73d44deba0365d258df455b0bd04ae1764cf76;p=helm.git Added some typing info to elimination principles, allowing the refiner to succeed in more cases, also speeding up the generation process (no more slow record definitions). --- diff --git a/helm/software/components/ng_tactics/nCicElim.ml b/helm/software/components/ng_tactics/nCicElim.ml index b493edb6a..4d32c197d 100644 --- a/helm/software/components/ng_tactics/nCicElim.ml +++ b/helm/software/components/ng_tactics/nCicElim.ml @@ -53,30 +53,34 @@ let mk_elim uri leftno it (outsort,suffix) pragma = let args,sort = NCicReduction.split_prods ~subst:[] [] (-1) ty in let args = List.rev_map (function name,_ -> mk_id name) args in let rec_arg = mk_id (fresh_name ()) in - let p_ty = + let mk_prods = List.fold_right - (fun name res -> CicNotationPt.Binder (`Forall,(name,None),res)) args + (fun name res -> CicNotationPt.Binder (`Forall,(name,None),res)) in + let p_ty = mk_prods args (CicNotationPt.Binder (`Forall, (rec_arg,Some (mk_appl (mk_id ind_name :: params @ args))), CicNotationPt.Sort outsort)) in + let mk_arrs n = mk_prods (HExtlib.mk_list (mk_id "_") n) in let args = args @ [rec_arg] in let k_names = List.map (function _,name,_ -> name_of_k name) cl in + (* let final_params = List.map (function name -> name, None) params @ [p_name,Some p_ty] @ List.map (function name -> name, None) k_names @ List.map (function name -> name, None) args in + *) let cty = mk_appl (p_name :: args) in let ty = Some cty in - let branches = + let branches_with_args = List.map (function (_,name,ty) -> let _,ty = NCicReduction.split_prods ~subst:[] [] leftno ty in let cargs,ty= my_split_prods ~subst:[] [] (-1) ty in - let cargs_and_recursive_args = - List.rev_map - (function + let cargs_recargs_nih = + List.fold_left + (fun (acc,nih) -> function _,NCic.Def _ -> assert false | name,NCic.Decl ty -> let context,ty = my_split_prods ~subst:[] [] (-1) ty in @@ -89,7 +93,7 @@ let mk_elim uri leftno it (outsort,suffix) pragma = -> let abs = List.rev_map (fun id,_ -> mk_id id) context in let name = mk_id name in - name, Some ( + (name, Some ( List.fold_right (fun id res -> CicNotationPt.Binder (`Lambda,(id,None),res)) @@ -101,16 +105,29 @@ let mk_elim uri leftno it (outsort,suffix) pragma = k_names @ List.map (fun _ -> CicNotationPt.Implicit `JustOne) (List.tl args) @ - [mk_appl (name::abs)]))) - | _ -> mk_id name,None - ) cargs in + [mk_appl (name::abs)]))))::acc, nih + 1 + | _ -> (mk_id name,None)::acc,nih + ) ([],0) cargs in + let cargs_and_recursive_args, nih = cargs_recargs_nih in let cargs,recursive_args = List.split cargs_and_recursive_args in let recursive_args = HExtlib.filter_map (fun x -> x) recursive_args in - CicNotationPt.Pattern (name,None,List.map (fun x -> x,None) cargs), - mk_appl (name_of_k name :: cargs @ recursive_args) + (CicNotationPt.Pattern (name,None,List.map (fun x -> x,None) cargs), + mk_appl (name_of_k name :: cargs @ recursive_args)), (name,cargs, nih) ) cl in + let branches, branch_args = List.split branches_with_args in let bo = CicNotationPt.Case (rec_arg,Some (ind_name,None),None,branches) in + let final_params = + List.map (function name -> name, None) params @ + [p_name,Some p_ty] @ + List.map (function name, cargs, nih -> + name_of_k name, + Some (mk_prods cargs (mk_arrs nih + (mk_appl + (p_name::HExtlib.mk_list (CicNotationPt.Implicit `JustOne) + (List.length args - 1) @ + [mk_appl (mk_id name :: params @ cargs)]))))) branch_args @ + List.map (function name -> name, None) args in let recno = List.length final_params in let where = recno - 1 in let res =