let rec aux newmeta =
function
C.Cast (he,_) -> aux newmeta he
+(* CSC: patch to generate ?1 : ?2 : Type in place of ?1 : Type to simulate ?1 :< Type
(* If the expected type is a Type, then also Set is OK ==>
* we accept any term of type Type *)
(*CSC: BUG HERE: in this way it is possible for the term of
* type Type to be different from a Sort!!! *)
- | C.Prod (name,(C.Sort C.Type as s),t) ->
+ | C.Prod (name,(C.Sort (C.Type _) as s),t) ->
+ (* TASSI: ask CSC if BUG HERE refers to the C.Cast or C.Propd case *)
let irl =
CicMkImplicit.identity_relocation_list_for_metavariable context
in
res,
(newmeta,[],s)::(newmeta+1,context,C.Meta (newmeta,[]))::newmetasenv,
newargument::arguments,lastmeta
+*)
| C.Prod (name,s,t) ->
let irl =
CicMkImplicit.identity_relocation_list_for_metavariable context
CicSubstitution.subst_vars !exp_named_subst_diff ty
| _ -> raise (WrongUriToVariable (UriManager.string_of_uri uri))
in
- let irl =
- CicMkImplicit.identity_relocation_list_for_metavariable context
- in
- let subst_item = uri,C.Meta (!next_fresh_meta,irl) in
- newmetasenvfragment :=
- (!next_fresh_meta,context,ty)::!newmetasenvfragment ;
- exp_named_subst_diff := !exp_named_subst_diff @ [subst_item] ;
- incr next_fresh_meta ;
- subst_item::(aux (tl,[]))
+(* CSC: patch to generate ?1 : ?2 : Type in place of ?1 : Type to simulate ?1 :< Type
+ (match ty with
+ C.Sort (C.Type _) as s -> (* TASSI: ?? *)
+ let fresh_meta = !next_fresh_meta in
+ let fresh_meta' = fresh_meta + 1 in
+ next_fresh_meta := !next_fresh_meta + 2 ;
+ let subst_item = uri,C.Meta (fresh_meta',[]) in
+ newmetasenvfragment :=
+ (fresh_meta,[],C.Sort (C.Type (CicUniv.fresh()))) ::
+ (* TASSI: ?? *)
+ (fresh_meta',[],C.Meta (fresh_meta,[])) :: !newmetasenvfragment ;
+ exp_named_subst_diff := !exp_named_subst_diff @ [subst_item] ;
+ subst_item::(aux (tl,[]))
+ | _ ->
+*)
+ let irl =
+ CicMkImplicit.identity_relocation_list_for_metavariable context
+ in
+ let subst_item = uri,C.Meta (!next_fresh_meta,irl) in
+ newmetasenvfragment :=
+ (!next_fresh_meta,context,ty)::!newmetasenvfragment ;
+ exp_named_subst_diff := !exp_named_subst_diff @ [subst_item] ;
+ incr next_fresh_meta ;
+ subst_item::(aux (tl,[]))(*)*)
| uri::tl1,((uri',_) as s)::tl2 ->
assert (UriManager.eq uri uri') ;
s::(aux (tl1,tl2))
!exp_named_subst_diff,!next_fresh_meta,
List.rev !newmetasenvfragment, exp_named_subst'
in
-prerr_endline ("@@@ " ^ CicPp.ppterm (Cic.Var (uri,exp_named_subst)) ^ " |--> " ^ CicPp.ppterm (Cic.Var (uri,exp_named_subst'))) ;
new_fresh_meta,newmetasenvfragment,exp_named_subst',exp_named_subst_diff
;;
-let apply_tac ~term ~status:(proof, goal) =
+let apply_tac ~term (proof, goal) =
(* Assumption: The term "term" must be closed in the current context *)
let module T = CicTypeChecker in
let module R = CicReduction in
Cic.Appl (term'::arguments)
)
in
-prerr_endline ("XXXX " ^ CicPp.ppterm (if List.length newmetas = 0 then term' else Cic.Appl (term'::arguments)) ^ " |>>> " ^ CicPp.ppterm bo') ;
let newmetasenv'' = new_uninstantiatedmetas@old_uninstantiatedmetas in
let (newproof, newmetasenv''') =
let subst_in = CicMetaSubst.apply_subst ((metano,bo')::subst) in
(* TODO per implementare i tatticali e' necessario che tutte le tattiche
sollevino _solamente_ Fail *)
-let apply_tac ~term ~status =
+let apply_tac ~term status =
try
- apply_tac ~term ~status
+ apply_tac ~term status
(* TODO cacciare anche altre eccezioni? *)
with CicUnification.UnificationFailure _ as e ->
raise (Fail (Printexc.to_string e))
let intros_tac
?(mk_fresh_name_callback = FreshNamesGenerator.mk_fresh_name) ()
- ~status:(proof, goal)
+ (proof, goal)
=
let module C = Cic in
let module R = CicReduction in
let cut_tac
?(mk_fresh_name_callback = FreshNamesGenerator.mk_fresh_name)
- term ~status:(proof, goal)
+ term (proof, goal)
=
let module C = Cic in
let curi,metasenv,pbo,pty = proof in
let letin_tac
?(mk_fresh_name_callback = FreshNamesGenerator.mk_fresh_name)
- term ~status:(proof, goal)
+ term (proof, goal)
=
let module C = Cic in
let curi,metasenv,pbo,pty = proof in
(newproof, [newmeta])
(** functional part of the "exact" tactic *)
-let exact_tac ~term ~status:(proof, goal) =
+let exact_tac ~term (proof, goal) =
(* Assumption: the term bo must be closed in the current context *)
let (_,metasenv,_,_) = proof in
let metano,context,ty = CicUtil.lookup_meta goal metasenv in
(* not really "primitive" tactics .... *)
-let elim_tac ~term ~status:(proof, goal) =
+let elim_tac ~term (proof, goal) =
let module T = CicTypeChecker in
let module U = UriManager in
let module R = CicReduction in
C.Sort C.Prop -> "_ind"
| C.Sort C.Set -> "_rec"
| C.Sort C.CProp -> "_rec"
- | C.Sort C.Type -> "_rect"
+ | C.Sort (C.Type _)-> "_rect" (* TASSI *)
| _ -> assert false
in
U.uri_of_string (buri ^ "/" ^ name ^ ext ^ ".con")
(*CSC: while [what] can have a richer context (because of binders) *)
(*CSC: So it is _NOT_ possible to use those binders in the [with_what] term. *)
(*CSC: Is that evident? Is that right? Or should it be changed? *)
-let change_tac ~what ~with_what ~status:(proof, goal) =
+let change_tac ~what ~with_what (proof, goal) =
let curi,metasenv,pbo,pty = proof in
let metano,context,ty = CicUtil.lookup_meta goal metasenv in
(* are_convertible works only on well-typed terms *)