+ List.map (fun s -> NCic.Type s) universes))) status itl
+ | _ -> status
+ in
+ let status = match nobj with
+ NCic.Inductive (is_ind,leftno,itl,_) ->
+ (* first leibniz *)
+ let status' = List.fold_left
+ (fun status it ->
+ let _,ind_name,ty,cl = it in
+ let status = status#set_ng_mode `ProofMode in
+ try
+ (let status,invobj =
+ NDestructTac.mk_discriminator ~use_jmeq:false
+ (ind_name ^ "_discr")
+ it leftno status status#baseuri in
+ let _,_,menv,_,_ = invobj in
+ (match menv with
+ [] -> eval_ncommand ~include_paths opts status
+ ("",0,GrafiteAst.NQed(Stdpp.dummy_loc,false))
+ | _ -> status))
+ (* XXX *)
+ with
+ | NDestructTac.ConstructorTooBig k ->
+ HLog.warn (Printf.sprintf
+ "unable to generate leibniz discrimination principle (constructor %s too big)"
+ k);
+ let status = status#set_ng_mode `CommandMode in status
+ | _ -> (*HLog.warn "error in generating discrimination principle"; *)
+ let status = status#set_ng_mode `CommandMode in
+ status)
+ status itl
+ in
+ (* then JMeq *)
+ List.fold_left
+ (fun status it ->
+ let _,ind_name,ty,cl = it in
+ let status = status#set_ng_mode `ProofMode in
+ try
+ (let status,invobj =
+ NDestructTac.mk_discriminator ~use_jmeq:true
+ (ind_name ^ "_jmdiscr")
+ it leftno status status#baseuri in
+ let _,_,menv,_,_ = invobj in
+ (match menv with
+ [] -> eval_ncommand ~include_paths opts status
+ ("",0,GrafiteAst.NQed(Stdpp.dummy_loc,false))
+ | _ -> status))
+ (* XXX *)
+ with
+ Sys.Break as exn -> raise exn
+ | _ -> (*HLog.warn "error in generating discrimination principle"; *)
+ let status = status#set_ng_mode `CommandMode in
+ status)
+ status' itl