match t with
| Terms.Leaf _
| Terms.Var _ ->
- let module NCicBlob = NCicBlob.NCicBlob(
+ (*let module NCicBlob = NCicBlob.NCicBlob(
struct
let metasenv = [] let subst = [] let context = []
end)
in
- let module Pp = Pp.Pp(NCicBlob) in
- (* prerr_endline ("term: " ^ Pp.pp_foterm ft);
+ let module Pp = Pp.Pp(NCicBlob) in
+ prerr_endline ("term: " ^ Pp.pp_foterm ft);
prerr_endline ("path: " ^ String.concat ","
(List.map string_of_int p1));
prerr_endline ("leading to: " ^ Pp.pp_foterm t); *)
;;
let mk_proof status ?(demod=false) (bag : NCic.term Terms.bag) mp subst steps=
- let module NCicBlob =
+ (*let module NCicBlob =
NCicBlob.NCicBlob(
struct
let metasenv = [] let subst = [] let context = []
end)
in
- let module Pp = Pp.Pp(NCicBlob)
- in
+ let module Pp = Pp.Pp(NCicBlob) in*)
let module Subst = FoSubst in
(*let compose subst1 subst2 =
let s1 = List.map (fun (x,t) -> (x, Subst.apply_subst subst2 t)) subst1 in
let lit =match lit with
| Terms.Predicate t -> t (* assert false *)
| Terms.Equation (l,r,ty,_) ->
- Terms.Node [ Terms.Leaf eqP(); ty; l; r]
+ Terms.Node [ Terms.Leaf (eqP()); ty; l; r]
in
lit, vl, proof
in