let u,h,metasenv, subst,o = status#obj in
let o =
NCicUntrusted.map_obj_kind ~skip_body:true
- (NCicUntrusted.apply_subst subst []) o
+ (NCicUntrusted.apply_subst status subst []) o
in
- status#set_obj(u,h,NCicUntrusted.apply_subst_metasenv subst metasenv,subst,o)
+ status#set_obj(u,h,NCicUntrusted.apply_subst_metasenv status subst metasenv,subst,o)
;;
(* input: nome della variabile riscritta
* output: lista dei nomi delle variabili il cui tipo dipende dall'input *)
-let cascade_select_in_ctx ~subst ctx skip iname =
+let cascade_select_in_ctx status ~subst ctx skip iname =
let lctx, rctx = HExtlib.split_nth (iname - 1) ctx in
let lctx = List.rev lctx in
let rec rm_last = function
(fun (acc,context) item ->
match item with
| n,(NCic.Decl s | NCic.Def (s,_))
- when (not (List.for_all (fun x -> NCicTypeChecker.does_not_occur ~subst context (x-1) x s) acc)
+ when (not (List.for_all (fun x -> NCicTypeChecker.does_not_occur status ~subst context (x-1) x s) acc)
&& not (List.mem n skip)) ->
List.iter (fun m -> pp (lazy ("acc has " ^ (string_of_int m)))) acc;
pp (lazy ("acc occurs in the type of " ^ n));
let indices = rm_last indices in
let res = List.map (fun n -> let s,_ = List.nth ctx (n-1) in s) indices in
List.iter (fun n -> pp (lazy n)) res;
- pp (lazy (NCicPp.ppcontext ~metasenv:[] ~subst ctx));
+ pp (lazy (status#ppcontext ~metasenv:[] ~subst ctx));
res, indices
;;
let principle = NotationPt.Binder (`Lambda, (mk_id "x", Some xyty),
NotationPt.Binder (`Lambda, (mk_id "y", Some xyty), outer))
in
- pp (lazy ("discriminator = " ^ (NotationPp.pp_term principle)));
+ pp (lazy ("discriminator = " ^ (NotationPp.pp_term status principle)));
status, principle
;;
pp (lazy (Printf.sprintf "discriminate: equation %s" (name_of_rel ~context cur_eq)));
let dbranch it ~use_jmeq leftno consno =
- let refl_id = mk_id (if use_jmeq then "refl_jmeq" else "refl") in
+ let refl_id = mk_id (if use_jmeq then "jmrefl" else "refl") in
pp (lazy (Printf.sprintf "dbranch %d %d" leftno consno));
let nlist = HExtlib.list_seq 0 (nargs it leftno consno) in
(* (\forall ...\forall P.\forall DH : ( ... = ... -> P). P) *)
| NCic.Const (NReference.Ref (uri, NReference.Ind (_,indtyno,_)) as r)
| NCic.Appl (NCic.Const
(NReference.Ref (uri, NReference.Ind (_,indtyno,_)) as r)::_) ->
- uri, indtyno, NCicEnvironment.get_checked_indtys r
- | _ -> pp (lazy ("discriminate: indty =" ^ NCicPp.ppterm
+ uri, indtyno, NCicEnvironment.get_checked_indtys status r
+ | _ -> pp (lazy ("discriminate: indty =" ^ status#ppterm
~metasenv:[] ~subst:[] ~context:[] it)) ; assert false in
let _,leftno,its,_,_ = its in
status, leftno, List.nth its indtyno, use_jmeq
NotationPt.Binder (`Forall, (mk_id "e",
Some (mk_appl [mk_id "eq";NotationPt.Implicit `JustOne; mk_id "x"; mk_id "y"])),
mk_appl [discr; mk_id "x"; mk_id "y"(*;mk_id "e"*)])))) in
- let status = print_tac (lazy ("cut_term = "^ NotationPp.pp_term cut_term)) status in
+ let status = print_tac (lazy ("cut_term = "^ NotationPp.pp_term status cut_term)) status in
NTactics.cut_tac ("",0, cut_term)
status);
NTactics.branch_tac;
in match ix with
| None -> acc
| Some (i,_) ->
- fst (cascade_select_in_ctx ~subst:(get_subst status) context [] (i+1)) @ acc) skip skip)
+ fst (cascade_select_in_ctx status ~subst:(get_subst status) context [] (i+1)) @ acc) skip skip)
;;
let subst_tac ~context ~dir skip cur_eq =
let names_to_gen, _ =
match var with
| NCic.Rel var ->
- cascade_select_in_ctx ~subst:(get_subst status) context skip (var+cur_eq)
- | _ -> cascade_select_in_ctx ~subst:(get_subst status) context skip cur_eq in
+ cascade_select_in_ctx status ~subst:(get_subst status) context skip (var+cur_eq)
+ | _ -> cascade_select_in_ctx status ~subst:(get_subst status) context skip cur_eq in
let names_to_gen = List.filter (fun n -> n <> eq_name) names_to_gen in
if (List.exists (fun x -> List.mem x skip) names_to_gen)
then oldstatus
let streicher_id = mk_id "streicherK"
in
let names_to_gen, _ =
- cascade_select_in_ctx ~subst:(get_subst status) context skip cur_eq in
+ cascade_select_in_ctx status ~subst:(get_subst status) context skip cur_eq in
let names_to_gen = names_to_gen @ [eq_name] in
let gen_tac x =
NTactics.generalize_tac
let streicher_id = mk_id "streicherK"
in
let names_to_gen, _ =
- cascade_select_in_ctx ~subst:(get_subst status) context skip cur_eq in
+ cascade_select_in_ctx status ~subst:(get_subst status) context skip cur_eq in
let names_to_gen = names_to_gen (* @ [eq_name]*) in
let gen_tac x =
NTactics.generalize_tac
let select_eq ctx acc domain status goal =
let classify ~subst ctx' l r =
(* FIXME: metasenv *)
- if NCicReduction.are_convertible ~metasenv:[] ~subst ctx' l r
+ if NCicReduction.are_convertible status ~metasenv:[] ~subst ctx' l r
then status, `Identity
else status, (match hd_of_term l, hd_of_term r with
| NCic.Const (NReference.Ref (_,NReference.Con (_,ki,nleft)) as kref),
if ki != kj then `Discriminate (0,true)
else
let rit = NReference.mk_indty true kref in
- let _,_,its,_,itno = NCicEnvironment.get_checked_indtys rit in
+ let _,_,its,_,itno = NCicEnvironment.get_checked_indtys status rit in
let it = List.nth its itno in
let newprods = nargs it nleft (ki-1) in
`Discriminate (newprods, false)
| NCic.Rel j, _
- when NCicTypeChecker.does_not_occur ~subst ctx' (j-1) j r
+ when NCicTypeChecker.does_not_occur status ~subst ctx' (j-1) j r
&& l = NCic.Rel j -> `Subst `LeftToRight
| _, NCic.Rel j
- when NCicTypeChecker.does_not_occur ~subst ctx' (j-1) j l
+ when NCicTypeChecker.does_not_occur status ~subst ctx' (j-1) j l
&& r = NCic.Rel j -> `Subst `RightToLeft
| (NCic.Rel _, _ | _, NCic.Rel _ ) -> `Cycle (* could be a blob too... *)
| _ -> `Blob) in
(let _,ctx_ty = HExtlib.split_nth index ctx in
let status, ty = NTacStatus.whd status ctx_ty (mk_cic_term ctx_ty ty) in
let status, ty = term_of_cic_term status ty ctx_ty in
- pp (lazy (Printf.sprintf "select_eq tries %s" (NCicPp.ppterm ~context:ctx_ty ~subst:[] ~metasenv:[] ty)));
+ pp (lazy (Printf.sprintf "select_eq tries %s" (status#ppterm ~context:ctx_ty ~subst:[] ~metasenv:[] ty)));
let status, kind = match ty with
| NCic.Appl [NCic.Const (NReference.Ref (u,_)) ;_;l;r]
when NUri.name_of_uri u = "eq" ->
classify ~subst:(get_subst status) ctx_ty l r
| NCic.Appl [NCic.Const (NReference.Ref (u,_)) ;lty;l;rty;r]
when NUri.name_of_uri u = "jmeq" &&
- NCicReduction.are_convertible ~metasenv:[]
+ NCicReduction.are_convertible status ~metasenv:[]
~subst:(get_subst status) ctx_ty lty rty
-> classify ~subst:(get_subst status) ctx_ty l r
| _ -> status, `NonEq
pp (lazy ("destruct: acc is " ^ String.concat "," acc ));
match selection, kind with
| None, _ ->
- pp (lazy (Printf.sprintf "destruct: nprods is %d, no selection, context is %s" nprods (NCicPp.ppcontext ~metasenv:[] ~subst ctx)));
+ pp (lazy (Printf.sprintf "destruct: nprods is %d, no selection, context is %s" nprods (status#ppcontext ~metasenv:[] ~subst ctx)));
if nprods > 0 then
let fresh = mk_fresh_name ctx 'e' 0 in
let status' = NTactics.exec (NTactics.intro_tac fresh) status goal in
else
status
| Some cur_eq, `Discriminate (newprods,conflict) ->
- pp (lazy (Printf.sprintf "destruct: discriminate - nprods is %d, selection is %d, context is %s" nprods cur_eq (NCicPp.ppcontext ~metasenv:[] ~subst ctx)));
+ pp (lazy (Printf.sprintf "destruct: discriminate - nprods is %d, selection is %d, context is %s" nprods cur_eq (status#ppcontext ~metasenv:[] ~subst ctx)));
let status' = NTactics.exec (discriminate_tac ~context:ctx cur_eq) status goal in
if conflict then status'
else
skip
status' (get_newgoal status status' goal)
| Some cur_eq, `Subst dir ->
- pp (lazy (Printf.sprintf "destruct: subst - nprods is %d, selection is %d, context is %s" nprods cur_eq (NCicPp.ppcontext ~metasenv:[] ~subst ctx)));
+ pp (lazy (Printf.sprintf "destruct: subst - nprods is %d, selection is %d, context is %s" nprods cur_eq (status#ppcontext ~metasenv:[] ~subst ctx)));
let status' = NTactics.exec (subst_tac ~context:ctx ~dir skip cur_eq) status goal in
- pp (lazy (Printf.sprintf " ctx after subst = %s" (NCicPp.ppcontext ~metasenv:[] ~subst (get_ctx status' (get_newgoal status status' goal)))));
+ pp (lazy (Printf.sprintf " ctx after subst = %s" (status#ppcontext ~metasenv:[] ~subst (get_ctx status' (get_newgoal status status' goal)))));
let eq_name,_ = List.nth ctx (cur_eq-1) in
let newgoal = get_newgoal status status' goal in
let has_cleared =
let domain = rm_eq has_cleared domain in
destruct_tac0 nprods acc domain skip status' newgoal
| Some cur_eq, `Identity ->
- pp (lazy (Printf.sprintf "destruct: identity - nprods is %d, selection is %d, context is %s" nprods cur_eq (NCicPp.ppcontext ~metasenv:[] ~subst ctx)));
+ pp (lazy (Printf.sprintf "destruct: identity - nprods is %d, selection is %d, context is %s" nprods cur_eq (status#ppcontext ~metasenv:[] ~subst ctx)));
let eq_name,_ = List.nth ctx (cur_eq-1) in
let status' = NTactics.exec (clearid_tac ~context:ctx skip cur_eq) status goal in
let newgoal = get_newgoal status status' goal in
let domain = rm_eq has_cleared domain in
destruct_tac0 nprods acc domain skip status' newgoal
| Some cur_eq, `Cycle -> (* TODO, should never happen *)
- pp (lazy (Printf.sprintf "destruct: cycle - nprods is %d, selection is %d, context is %s" nprods cur_eq (NCicPp.ppcontext ~metasenv:[] ~subst ctx)));
+ pp (lazy (Printf.sprintf "destruct: cycle - nprods is %d, selection is %d, context is %s" nprods cur_eq (status#ppcontext ~metasenv:[] ~subst ctx)));
assert false
| Some cur_eq, `Blob ->
- pp (lazy (Printf.sprintf "destruct: blob - nprods is %d, selection is %d, context is %s" nprods cur_eq (NCicPp.ppcontext ~metasenv:[] ~subst ctx)));
+ pp (lazy (Printf.sprintf "destruct: blob - nprods is %d, selection is %d, context is %s" nprods cur_eq (status#ppcontext ~metasenv:[] ~subst ctx)));
assert false
| _ -> assert false
;;