| C.Cast (te,ty) -> C.Cast (unwind_aux m te, unwind_aux m ty) (*CSC ???*)
| C.Prod (n,s,t) -> C.Prod (n, unwind_aux m s, unwind_aux (m + 1) t)
| C.Lambda (n,s,t) -> C.Lambda (n, unwind_aux m s, unwind_aux (m + 1) t)
| C.Cast (te,ty) -> C.Cast (unwind_aux m te, unwind_aux m ty) (*CSC ???*)
| C.Prod (n,s,t) -> C.Prod (n, unwind_aux m s, unwind_aux (m + 1) t)
| C.Lambda (n,s,t) -> C.Lambda (n, unwind_aux m s, unwind_aux (m + 1) t)
let t' = unwind k e ens t in
if s = [] then t' else C.Appl (t'::(RS.from_stack_list ~unwind s))
| (k, e, _, (C.Sort _ as t), s) -> t (* s should be empty *)
let t' = unwind k e ens t in
if s = [] then t' else C.Appl (t'::(RS.from_stack_list ~unwind s))
| (k, e, _, (C.Sort _ as t), s) -> t (* s should be empty *)
- | (k, e, _, (C.Implicit as t), s) -> t (* s should be empty *)
+ | (k, e, _, (C.Implicit _ as t), s) -> t (* s should be empty *)
| (k, e, ens, (C.Cast (te,ty) as t), s) ->
reduce (k, e, ens, te, s) (* s should be empty *)
| (k, e, ens, (C.Prod _ as t), s) ->
| (k, e, ens, (C.Cast (te,ty) as t), s) ->
reduce (k, e, ens, te, s) (* s should be empty *)
| (k, e, ens, (C.Prod _ as t), s) ->
in
(* ts are already unwinded because they are a sublist of tl *)
reduce (k, e, ens, (List.nth pl (j-1)), (RS.to_stack_list ts)@s)
in
(* ts are already unwinded because they are a sublist of tl *)
reduce (k, e, ens, (List.nth pl (j-1)), (RS.to_stack_list ts)@s)
b && aux context ty1 ty2 && aux (tys@context) bo1 bo2)
fl1 fl2 true
| (C.Cast _, _) | (_, C.Cast _)
b && aux context ty1 ty2 && aux (tys@context) bo1 bo2)
fl1 fl2 true
| (C.Cast _, _) | (_, C.Cast _)