(CicSubstitution.lift 1 termty)
isSetType (CicSubstitution.lift 1 term))
| [] -> ProofEngineReduction.replace_lifting
- ~equality:(CicUtil.alpha_equivalence)
+ ~equality:(fun _ -> CicUtil.alpha_equivalence)
+ ~context:[]
~what: (if isSetType
then (rightparameters_ @ [term] )
else (rightparameters_ ) )
| [] when isSetType -> Cic.Lambda (
(Cic.Name ("lambda" ^ (string_of_int nright))),
(ProofEngineReduction.replace_lifting
- ~equality:(CicUtil.alpha_equivalence)
+ ~equality:(fun _ -> CicUtil.alpha_equivalence)
+ ~context:[]
~what: (rightparameters_ )
~with_what: (List.map (CicSubstitution.lift (-1)) created_vars)
~where:termty), (* type of H with replaced right parameters *)
let private_inversion_tac ~term (proof, goal) =
(*DEBUG*) debug_print (lazy ("private inversion begins"));
- let _,metasenv,_,_, _ = proof in
+ let _,metasenv,_subst,_,_, _ = proof in
let uri_of_eq =
match LibraryObjects.eq_URI () with
None -> raise EqualityNotDefinedYet
(*DEBUG*) debug_print (lazy ("after apply HCUT;reflexivity
in private inversion"));
(* apply (ledx_ind( lambda x. lambda y, ...)) *)
- let t1,metasenv,t3,t4, attrs = proof2 in
+ let t1,metasenv,_subst,t3,t4, attrs = proof2 in
let goal2 = List.hd (List.tl gl1) in
let (_,context,_) = CicUtil.lookup_meta goal2 metasenv in
(* rightparameters type list *)
in
(*DEBUG*) debug_print (lazy ("private inversion: termine after refinement: "
^ CicPp.ppterm ref_t));
- let proof2 = (t1,metasenv'',t3,t4, attrs) in
+ let proof2 = (t1,metasenv'',_subst,t3,t4, attrs) in
let my_apply_tac =
let my_apply_tac status =
let proof,goals =
ProofEngineTypes.apply_tactic (P.apply_tac ref_t) status in
let patched_new_goals =
- let (_,metasenv''',_,_, _) = proof in
+ let (_,metasenv''',_subst,_,_, _) = proof in
let new_goals = ProofEngineHelpers.compare_metasenvs
~oldmetasenv:metasenv ~newmetasenv:metasenv''
in
let module PET = ProofEngineTypes in
let inversion_tac ~term (proof, goal) =
(*DEBUG*) debug_print (lazy ("inversion begins"));
- let _,metasenv,_,_, _ = proof in
+ let _,metasenv,_subst,_,_, _ = proof in
let (_,context,goalty) = CicUtil.lookup_meta goal metasenv in
let termty,_ = T.type_of_aux' metasenv context term CicUniv.empty_ugraph in
let uri, typeno =
for n = 1 to arity_consno do
a := (Cic.Implicit None)::(!a)
done;
- (* apply i_inv ? ...? H). *)
- Cic.Appl ([Cic.Const(uri,[])] @ !a @ [Cic.Rel 1])
+ (* apply i_inv ? ...? H). *)
+ Cic.Appl ([Cic.Const(uri,[])] @ !a @ [term])
in
let t = appl_term (arity_length + (List.length cons_list)) inversor_uri in
- let (t1,metasenv,t3,t4, attrs) = proof in
+ let (t1,metasenv,_subst,t3,t4, attrs) = proof in
let (ref_t,_,metasenv'',_) = CicRefine.type_of_aux' metasenv context t
CicUniv.empty_ugraph
in
- let proof = (t1,metasenv'',t3,t4, attrs) in
+ let proof = (t1,metasenv'',_subst,t3,t4, attrs) in
let proof3,gl3 =
ProofEngineTypes.apply_tactic (P.apply_tac ref_t) (proof,goal) in
let patched_new_goals =
- let (_,metasenv''',_,_, _) = proof3 in
+ let (_,metasenv''',_subst,_,_, _) = proof3 in
let new_goals = ProofEngineHelpers.compare_metasenvs
~oldmetasenv:metasenv ~newmetasenv:metasenv''
in