| _ -> prerr_endline "2"; assert false)
else if conclude.Con.conclude_method = "Exact" then
(match conclude.Con.conclude_args with
- [Con.Term t] -> deannotate t
+ [Con.Term (_,t)] -> deannotate t
| [Con.Premise prem] ->
(match prem.Con.premise_n with
None -> assert false
conclude.Con.conclude_method = "Exists" ||
conclude.Con.conclude_method = "FalseInd") then
(match (List.tl conclude.Con.conclude_args) with
- Con.Term (C.AAppl (
+ Con.Term (_,C.AAppl (
id,((C.AConst(idc,uri,exp_named_subst))::params_and_IP)))::args ->
let subst =
List.map (fun (u,t) -> (u, deannotate t)) exp_named_subst in
| _ -> prerr_endline "5"; assert false)
else if (conclude.Con.conclude_method = "Rewrite") then
(match conclude.Con.conclude_args with
- Con.Term (C.AConst (sid,uri,exp_named_subst))::args ->
+ Con.Term (_,C.AConst (sid,uri,exp_named_subst))::args ->
let subst =
List.map (fun (u,t) -> (u, deannotate t)) exp_named_subst in
let cargs = args2cic premise_env args in
| _ -> prerr_endline "6"; assert false)
else if (conclude.Con.conclude_method = "Case") then
(match conclude.Con.conclude_args with
- Con.Aux(uri)::Con.Aux(notype)::Con.Term(ty)::Con.Premise(prem)::patterns ->
+ Con.Aux(uri)::Con.Aux(notype)::Con.Term(_,ty)::Con.Premise(prem)::patterns ->
C.MutCase
(UriManager.uri_of_string uri,
int_of_string notype, deannotate ty,
(function
Con.ArgProof p -> proof2cic [] p
| _ -> prerr_endline "7a"; assert false) patterns)
- | Con.Aux(uri)::Con.Aux(notype)::Con.Term(ty)::Con.Term(te)::patterns -> C.MutCase
+ | Con.Aux(uri)::Con.Aux(notype)::Con.Term(_,ty)::Con.Term(_,te)::patterns -> C.MutCase
(UriManager.uri_of_string uri,
int_of_string notype, deannotate ty, deannotate te,
List.map
raise Not_found))
| Con.Lemma lemma ->
CicUtil.term_of_uri (UriManager.uri_of_string lemma.Con.lemma_uri)
- | Con.Term t -> deannotate t
+ | Con.Term (_,t) -> deannotate t
| Con.ArgProof p -> proof2cic [] p (* empty! *)
| Con.ArgMethod s -> raise TO_DO