end
;;
-let compute_keys uri height kind =
- let mk_item orig_ty spec =
- let ty,_,_ = NCicMetaSubst.saturate ~delta:max_int [] [] [] orig_ty 0 in
- let keys =
- match ty with
- | NCic.Const (NReference.Ref (_,NReference.Def h))
- | NCic.Appl (NCic.Const (NReference.Ref (_,NReference.Def h))::_)
- when h > 0 ->
- let ty',_,_=
- NCicMetaSubst.saturate ~delta:(h-1) [] [] [] orig_ty 0 in
- [ty;ty']
- | _ -> [ty]
- in
- keys,NCic.Const(NReference.reference_of_spec uri spec)
- in
- let data =
- match kind with
- | NCic.Fixpoint (ind,ifl,_) ->
- HExtlib.list_mapi
- (fun (_,_,rno,ty,_) i ->
- if ind then mk_item ty (NReference.Fix (i,rno,height))
- else mk_item ty (NReference.CoFix height)) ifl
- | NCic.Inductive (b,lno,itl,_) ->
- HExtlib.list_mapi
- (fun (_,_,ty,_) i -> mk_item ty (NReference.Ind (b,i,lno))) itl
- @
- List.map
- (fun ((_,_,ty),i,j) ->
- mk_item ty (NReference.Con (i,j+1,lno)))
- (List.flatten
- (HExtlib.list_mapi
- (fun (_,_,_,cl) i -> HExtlib.list_mapi (fun x j-> x,i,j) cl)
- itl))
- | NCic.Constant (_,_,Some _, ty, _) ->
- [ mk_item ty (NReference.Def height) ]
- | NCic.Constant (_,_,None, ty, _) ->
- [ mk_item ty NReference.Decl ]
- in
- let data = HExtlib.filter_map
- (fun (keys, t) ->
- let keys = List.filter
- (function
- | (NCic.Meta _)
- | (NCic.Appl (NCic.Meta _::_)) -> false
- | _ -> true)
- keys
- in
- if keys <> [] then
- begin
- HLog.debug ("Indexing:" ^
- NCicPp.ppterm ~metasenv:[] ~subst:[] ~context:[] t);
- HLog.debug ("With keys:" ^ String.concat "\n" (List.map (fun t ->
- NCicPp.ppterm ~metasenv:[] ~subst:[] ~context:[] t) keys));
- Some (keys,t)
- end
- else
- begin
- HLog.debug ("Not indexing:" ^
- NCicPp.ppterm ~metasenv:[] ~subst:[] ~context:[] t);
- None
- end)
+let compute_keys status uri height kind =
+ let mk_item ty spec =
+ let orig_ty = NTacStatus.mk_cic_term [] ty in
+ let status,keys = NnAuto.keys_of_type status orig_ty in
+ let keys =
+ List.map
+ (fun t ->
+ snd (NTacStatus.term_of_cic_term status t (NTacStatus.ctx_of t)))
+ keys
+ in
+ keys,NCic.Const(NReference.reference_of_spec uri spec)
+ in
+ let data =
+ match kind with
+ | NCic.Fixpoint (ind,ifl,_) ->
+ HExtlib.list_mapi
+ (fun (_,_,rno,ty,_) i ->
+ if ind then mk_item ty (NReference.Fix (i,rno,height))
+ else mk_item ty (NReference.CoFix height)) ifl
+ | NCic.Inductive (b,lno,itl,_) ->
+ HExtlib.list_mapi
+ (fun (_,_,ty,_) i -> mk_item ty (NReference.Ind (b,i,lno))) itl
+ @
+ List.map (fun ((_,_,ty),i,j) -> mk_item ty (NReference.Con (i,j+1,lno)))
+ (List.flatten (HExtlib.list_mapi
+ (fun (_,_,_,cl) i -> HExtlib.list_mapi (fun x j-> x,i,j) cl)
+ itl))
+ | NCic.Constant (_,_,Some _, ty, _) ->
+ [ mk_item ty (NReference.Def height) ]
+ | NCic.Constant (_,_,None, ty, _) ->
+ [ mk_item ty NReference.Decl ]
+ in
+ HExtlib.filter_map
+ (fun (keys, t) ->
+ let keys = List.filter
+ (function
+ | (NCic.Meta _)
+ | (NCic.Appl (NCic.Meta _::_)) -> false
+ | _ -> true)
+ keys
+ in
+ if keys <> [] then
+ begin
+ HLog.debug ("Indexing:" ^
+ NCicPp.ppterm ~metasenv:[] ~subst:[] ~context:[] t);
+ HLog.debug ("With keys:" ^ String.concat "\n" (List.map (fun t ->
+ NCicPp.ppterm ~metasenv:[] ~subst:[] ~context:[] t) keys));
+ Some (keys,t)
+ end
+ else
+ begin
+ HLog.debug ("Not indexing:" ^
+ NCicPp.ppterm ~metasenv:[] ~subst:[] ~context:[] t);
+ None
+ end)
data
- in data
;;
let index_obj_for_auto status (uri, height, _, _, kind) =
(*prerr_endline (string_of_int height);*)
- let data = compute_keys uri height kind in
+ let data = compute_keys status uri height kind in
let status = basic_index_obj data status in
let dump = record_index_obj data :: status#dump in
status#set_dump dump
) hyps,
(text,prefix_len,concl))
) seqs)
- | GrafiteAst.NAuto (_loc, (None,a)) -> NAuto.auto_tac ~params:(None,a)
+ | GrafiteAst.NAuto (_loc, (None,a)) ->
+ NAuto.auto_tac ~params:(None,a) ?trace_ref:None
| GrafiteAst.NAuto (_loc, (Some l,a)) ->
NAuto.auto_tac
- ~params:(Some List.map (fun x -> "",0,x) l,a)
+ ~params:(Some List.map (fun x -> "",0,x) l,a) ?trace_ref:None
| GrafiteAst.NBranch _ -> NTactics.branch_tac ~force:false
| GrafiteAst.NCases (_loc, what, where) ->
NTactics.cases_tac
| GrafiteAst.NCut (_loc, t) -> NTactics.cut_tac (text,prefix_len,t)
(*| GrafiteAst.NDiscriminate (_,what) -> NDestructTac.discriminate_tac ~what:(text,prefix_len,what)
| GrafiteAst.NSubst (_,what) -> NDestructTac.subst_tac ~what:(text,prefix_len,what)*)
- | GrafiteAst.NDestruct _ -> NDestructTac.destruct_tac
+ | GrafiteAst.NDestruct (_,dom,skip) -> NDestructTac.destruct_tac dom skip
| GrafiteAst.NDot _ -> NTactics.dot_tac
| GrafiteAst.NElim (_loc, what, where) ->
NTactics.elim_tac
NTactics.generalize_tac ~where:(text,prefix_len,where)
| GrafiteAst.NId _ -> (fun x -> x)
| GrafiteAst.NIntro (_loc,n) -> NTactics.intro_tac n
+ | GrafiteAst.NIntros (_loc,ns) -> NTactics.intros_tac ns
| GrafiteAst.NInversion (_loc, what, where) ->
NTactics.inversion_tac
~what:(text,prefix_len,what)
| GrafiteAst.NUnfocus _ -> NTactics.unfocus_tac
| GrafiteAst.NWildcard _ -> NTactics.wildcard_tac
| GrafiteAst.NTry (_,tac) -> NTactics.try_tac
- (aux f (text, prefix_len, tac))
+ (f f (text, prefix_len, tac))
| GrafiteAst.NAssumption _ -> NTactics.assumption_tac
| GrafiteAst.NBlock (_,l) ->
NTactics.block_tac (List.map (fun x -> aux f (text,prefix_len,x)) l)
| _ -> obj_kind
in
let obj = uri,height,[],[],obj_kind in
+ (*prerr_endline ("pp new obj \n"^NCicPp.ppobj obj);*)
let old_status = status in
let status = NCicLibrary.add_obj status obj in
let index_obj =
let status =
if index_obj then
let status = index_obj_for_auto status obj in
- index_eq_for_auto status uri
+ (try index_eq_for_auto status uri
+ with _ -> status)
else
status in
(*
in
if nstatus#ng_mode <> `CommandMode then
begin
- HLog.error "error in generating projection/eliminator";
- prerr_endline (NCicPp.ppobj nstatus#obj);
- nstatus, uris
+ (*HLog.warn "error in generating projection/eliminator";*)
+ status, uris
end
else
nstatus, concat_nuris uris nuris
with
- | MultiPassDisambiguator.DisambiguationError _
+ | MultiPassDisambiguator.DisambiguationError _
| NCicTypeChecker.TypeCheckerFailure _ ->
- HLog.warn "error in generating projection/eliminator";
+ (*HLog.warn "error in generating projection/eliminator";*)
status,uris
) (status,`New [] (* uris *)) boxml in
let _,_,_,_,nobj = obj in
let status = match nobj with
- NCic.Inductive (true,leftno,[it],_) ->
+ NCic.Inductive (is_ind,leftno,[it],_) ->
let _,ind_name,ty,cl = it in
List.fold_left
(fun status outsort ->
let status = status#set_ng_mode `ProofMode in
try
- (let status,invobj = NInversion.mk_inverter
- (ind_name ^ "_inv_" ^ (snd (NCicElim.ast_of_sort outsort)))
- it leftno outsort status status#baseuri in
+ (let status,invobj =
+ NInversion.mk_inverter
+ (ind_name ^ "_inv_" ^
+ (snd (NCicElim.ast_of_sort outsort)))
+ is_ind it leftno outsort status status#baseuri in
let _,_,menv,_,_ = invobj in
fst (match menv with
[] -> eval_ncommand opts status ("",0,GrafiteAst.NQed Stdpp.dummy_loc)
| _ -> status,`New []))
(* XXX *)
- with _ -> HLog.warn "error in generating inversion principle";
+ with _ -> (*HLog.warn "error in generating inversion principle"; *)
let status = status#set_ng_mode `CommandMode in status)
status
(NCic.Prop::
indtyno, NCicEnvironment.get_checked_indtys r
| _ -> prerr_endline ("engine: indty =" ^ NCicPp.ppterm ~metasenv:[] ~subst:[] ~context:[] indty) ; assert false in
let it = List.nth tys indtyno in
- let status,obj = NInversion.mk_inverter name it leftno ?selection sort
+ let status,obj = NInversion.mk_inverter name true it leftno ?selection sort
status status#baseuri in
let _,_,menv,_,_ = obj in
(match menv with