TSTP Solution File: KLE129+1 by Zenon---0.7.1

%------------------------------------------------------------------------------
% File     : Zenon---0.7.1
% Problem  : KLE129+1 : TPTP v8.1.0. Released v4.0.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : run_zenon %s %d

% Computer : n020.cluster.edu
% Model    : x86_64 x86_64
% CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 2.10GHz
% Memory   : 8042.1875MB
% OS       : Linux 3.10.0-693.el7.x86_64
% CPULimit : 300s
% WCLimit  : 600s
% DateTime : Sun Jul 17 02:37:43 EDT 2022

% Result   : Theorem 27.55s 27.77s
% Output   : Proof 27.55s
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.00/0.07  % Problem  : KLE129+1 : TPTP v8.1.0. Released v4.0.0.
% 0.00/0.07  % Command  : run_zenon %s %d
% 0.06/0.25  % Computer : n020.cluster.edu
% 0.06/0.25  % Model    : x86_64 x86_64
% 0.06/0.25  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.06/0.25  % Memory   : 8042.1875MB
% 0.06/0.25  % OS       : Linux 3.10.0-693.el7.x86_64
% 0.06/0.26  % CPULimit : 300
% 0.06/0.26  % WCLimit  : 600
% 0.06/0.26  % DateTime : Thu Jun 16 09:44:04 EDT 2022
% 0.06/0.26  % CPUTime  : 
% 27.55/27.77  (* PROOF-FOUND *)
% 27.55/27.77  % SZS status Theorem
% 27.55/27.77  (* BEGIN-PROOF *)
% 27.55/27.77  % SZS output start Proof
% 27.55/27.77  Theorem goals : (forall X0 : zenon_U, ((forall X1 : zenon_U, (((addition (domain X1) (forward_diamond X0 (domain X1))) = (forward_diamond X0 (domain X1)))->((domain X1) = (zero))))->((divergence X0) = (zero)))).
% 27.55/27.77  Proof.
% 27.55/27.77  assert (zenon_L1_ : forall (zenon_TX0_bf : zenon_U), (~((antidomain (antidomain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf))))) = (antidomain (antidomain (multiplication zenon_TX0_bf (domain (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))))))))) -> ((antidomain (antidomain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf))))) = (divergence zenon_TX0_bf)) -> False).
% 27.55/27.77  do 1 intro. intros zenon_H1d zenon_H1e.
% 27.55/27.77  cut (((antidomain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))) = (antidomain (multiplication zenon_TX0_bf (domain (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf))))))))); [idtac | apply NNPP; zenon_intro zenon_H20].
% 27.55/27.77  congruence.
% 27.55/27.77  cut (((multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf))) = (multiplication zenon_TX0_bf (domain (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))))))); [idtac | apply NNPP; zenon_intro zenon_H21].
% 27.55/27.77  congruence.
% 27.55/27.77  cut (((domain (divergence zenon_TX0_bf)) = (domain (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf))))))); [idtac | apply NNPP; zenon_intro zenon_H22].
% 27.55/27.77  cut ((zenon_TX0_bf = zenon_TX0_bf)); [idtac | apply NNPP; zenon_intro zenon_H23].
% 27.55/27.77  congruence.
% 27.55/27.77  apply zenon_H23. apply refl_equal.
% 27.55/27.77  generalize (domain4 (divergence zenon_TX0_bf)). zenon_intro zenon_H24.
% 27.55/27.77  apply (zenon_congruence_lr_s _ (fun zenon_Vq : _ => (~(zenon_Vq = (domain (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))))))) _ _ zenon_H22 zenon_H24). zenon_intro zenon_H25.
% 27.55/27.77  generalize (domain4 (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf))))). zenon_intro zenon_H26.
% 27.55/27.77  apply (zenon_congruence_lr_s _ (fun zenon_Vs : _ => (~((antidomain (antidomain (divergence zenon_TX0_bf))) = zenon_Vs))) _ _ zenon_H25 zenon_H26). zenon_intro zenon_H27.
% 27.55/27.77  cut (((antidomain (divergence zenon_TX0_bf)) = (antidomain (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf))))))); [idtac | apply NNPP; zenon_intro zenon_H28].
% 27.55/27.77  congruence.
% 27.55/27.77  cut (((divergence zenon_TX0_bf) = (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))))); [idtac | apply NNPP; zenon_intro zenon_H29].
% 27.55/27.77  congruence.
% 27.55/27.77  generalize (domain4 (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))). zenon_intro zenon_H2a.
% 27.55/27.77  apply (zenon_congruence_lr_s _ (fun zenon_Vu : _ => (~((divergence zenon_TX0_bf) = zenon_Vu))) _ _ zenon_H29 zenon_H2a). zenon_intro zenon_H2b.
% 27.55/27.77  apply zenon_H2b. apply sym_equal. exact zenon_H1e.
% 27.55/27.77  (* end of lemma zenon_L1_ *)
% 27.55/27.77  apply NNPP. intro zenon_G.
% 27.55/27.77  apply (zenon_notallex_s (fun X0 : zenon_U => ((forall X1 : zenon_U, (((addition (domain X1) (forward_diamond X0 (domain X1))) = (forward_diamond X0 (domain X1)))->((domain X1) = (zero))))->((divergence X0) = (zero)))) zenon_G); [ zenon_intro zenon_H2c; idtac ].
% 27.55/27.77  elim zenon_H2c. zenon_intro zenon_TX0_bf. zenon_intro zenon_H2d.
% 27.55/27.77  apply (zenon_notimply_s _ _ zenon_H2d). zenon_intro zenon_H2f. zenon_intro zenon_H2e.
% 27.55/27.77  generalize (divergence1 zenon_TX0_bf). zenon_intro zenon_H30.
% 27.55/27.77  generalize (forward_diamond zenon_TX0_bf). zenon_intro zenon_H31.
% 27.55/27.77  generalize (zenon_H31 (divergence zenon_TX0_bf)). zenon_intro zenon_H32.
% 27.55/27.77  apply (zenon_congruence_lr_s _ (fun zenon_Vg : _ => (zenon_Vg = (divergence zenon_TX0_bf))) _ _ zenon_H30 zenon_H32). zenon_intro zenon_H33.
% 27.55/27.77  generalize (domain4 (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))). zenon_intro zenon_H2a.
% 27.55/27.77  apply (zenon_congruence_lr_s _ (fun zenon_Vg : _ => (zenon_Vg = (divergence zenon_TX0_bf))) _ _ zenon_H33 zenon_H2a). zenon_intro zenon_H1e.
% 27.55/27.77  elim (classic ((zero) = (zero))); [ zenon_intro zenon_H34 | zenon_intro zenon_H35 ].
% 27.55/27.77  cut (((zero) = (zero)) = ((divergence zenon_TX0_bf) = (zero))).
% 27.55/27.77  intro zenon_D_pnotp.
% 27.55/27.77  apply zenon_H2e.
% 27.55/27.77  rewrite <- zenon_D_pnotp.
% 27.55/27.77  exact zenon_H34.
% 27.55/27.77  cut (((zero) = (zero))); [idtac | apply NNPP; zenon_intro zenon_H35].
% 27.55/27.77  cut (((zero) = (divergence zenon_TX0_bf))); [idtac | apply NNPP; zenon_intro zenon_H36].
% 27.55/27.77  congruence.
% 27.55/27.77  cut (((antidomain (antidomain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf))))) = (divergence zenon_TX0_bf)) = ((zero) = (divergence zenon_TX0_bf))).
% 27.55/27.77  intro zenon_D_pnotp.
% 27.55/27.77  apply zenon_H36.
% 27.55/27.77  rewrite <- zenon_D_pnotp.
% 27.55/27.77  exact zenon_H1e.
% 27.55/27.77  cut (((divergence zenon_TX0_bf) = (divergence zenon_TX0_bf))); [idtac | apply NNPP; zenon_intro zenon_H37].
% 27.55/27.77  cut (((antidomain (antidomain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf))))) = (zero))); [idtac | apply NNPP; zenon_intro zenon_H38].
% 27.55/27.77  congruence.
% 27.55/27.77  elim (classic ((zero) = (zero))); [ zenon_intro zenon_H34 | zenon_intro zenon_H35 ].
% 27.55/27.77  cut (((zero) = (zero)) = ((antidomain (antidomain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf))))) = (zero))).
% 27.55/27.77  intro zenon_D_pnotp.
% 27.55/27.77  apply zenon_H38.
% 27.55/27.77  rewrite <- zenon_D_pnotp.
% 27.55/27.77  exact zenon_H34.
% 27.55/27.77  cut (((zero) = (zero))); [idtac | apply NNPP; zenon_intro zenon_H35].
% 27.55/27.77  cut (((zero) = (antidomain (antidomain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf))))))); [idtac | apply NNPP; zenon_intro zenon_H39].
% 27.55/27.77  congruence.
% 27.55/27.77  generalize (zenon_H2f (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))). zenon_intro zenon_H3a.
% 27.55/27.77  apply (zenon_imply_s _ _ zenon_H3a); [ zenon_intro zenon_H3c | zenon_intro zenon_H3b ].
% 27.55/27.77  generalize (forward_diamond zenon_TX0_bf). zenon_intro zenon_H31.
% 27.55/27.77  generalize (zenon_H31 (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf))))). zenon_intro zenon_H3d.
% 27.55/27.77  apply (zenon_congruence_lr_s _ (fun zenon_Vk : _ => (~((addition (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))) (forward_diamond zenon_TX0_bf (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))))) = zenon_Vk))) _ _ zenon_H3c zenon_H3d). zenon_intro zenon_H3e.
% 27.55/27.77  generalize (domain4 (multiplication zenon_TX0_bf (domain (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf))))))). zenon_intro zenon_H3f.
% 27.55/27.77  apply (zenon_congruence_lr_s _ (fun zenon_Vk : _ => (~((addition (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))) (forward_diamond zenon_TX0_bf (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))))) = zenon_Vk))) _ _ zenon_H3e zenon_H3f). zenon_intro zenon_H40.
% 27.55/27.77  generalize (additive_idempotence (antidomain (antidomain (multiplication zenon_TX0_bf (domain (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf))))))))). zenon_intro zenon_H41.
% 27.55/27.77  cut (((addition (antidomain (antidomain (multiplication zenon_TX0_bf (domain (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))))))) (antidomain (antidomain (multiplication zenon_TX0_bf (domain (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf))))))))) = (antidomain (antidomain (multiplication zenon_TX0_bf (domain (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf))))))))) = ((addition (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))) (forward_diamond zenon_TX0_bf (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))))) = (antidomain (antidomain (multiplication zenon_TX0_bf (domain (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))))))))).
% 27.55/27.77  intro zenon_D_pnotp.
% 27.55/27.77  apply zenon_H40.
% 27.55/27.77  rewrite <- zenon_D_pnotp.
% 27.55/27.77  exact zenon_H41.
% 27.55/27.77  cut (((antidomain (antidomain (multiplication zenon_TX0_bf (domain (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))))))) = (antidomain (antidomain (multiplication zenon_TX0_bf (domain (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))))))))); [idtac | apply NNPP; zenon_intro zenon_H42].
% 27.55/27.77  cut (((addition (antidomain (antidomain (multiplication zenon_TX0_bf (domain (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))))))) (antidomain (antidomain (multiplication zenon_TX0_bf (domain (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf))))))))) = (addition (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))) (forward_diamond zenon_TX0_bf (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))))))); [idtac | apply NNPP; zenon_intro zenon_H43].
% 27.55/27.77  congruence.
% 27.55/27.77  elim (classic ((addition (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))) (forward_diamond zenon_TX0_bf (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))))) = (addition (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))) (forward_diamond zenon_TX0_bf (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))))))); [ zenon_intro zenon_H44 | zenon_intro zenon_H45 ].
% 27.55/27.77  cut (((addition (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))) (forward_diamond zenon_TX0_bf (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))))) = (addition (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))) (forward_diamond zenon_TX0_bf (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf))))))) = ((addition (antidomain (antidomain (multiplication zenon_TX0_bf (domain (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))))))) (antidomain (antidomain (multiplication zenon_TX0_bf (domain (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf))))))))) = (addition (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))) (forward_diamond zenon_TX0_bf (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))))))).
% 27.55/27.77  intro zenon_D_pnotp.
% 27.55/27.77  apply zenon_H43.
% 27.55/27.77  rewrite <- zenon_D_pnotp.
% 27.55/27.77  exact zenon_H44.
% 27.55/27.77  cut (((addition (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))) (forward_diamond zenon_TX0_bf (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))))) = (addition (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))) (forward_diamond zenon_TX0_bf (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))))))); [idtac | apply NNPP; zenon_intro zenon_H45].
% 27.55/27.77  cut (((addition (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))) (forward_diamond zenon_TX0_bf (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))))) = (addition (antidomain (antidomain (multiplication zenon_TX0_bf (domain (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))))))) (antidomain (antidomain (multiplication zenon_TX0_bf (domain (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf))))))))))); [idtac | apply NNPP; zenon_intro zenon_H46].
% 27.55/27.77  congruence.
% 27.55/27.77  cut (((forward_diamond zenon_TX0_bf (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf))))) = (antidomain (antidomain (multiplication zenon_TX0_bf (domain (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))))))))); [idtac | apply NNPP; zenon_intro zenon_H47].
% 27.55/27.77  cut (((domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))) = (antidomain (antidomain (multiplication zenon_TX0_bf (domain (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))))))))); [idtac | apply NNPP; zenon_intro zenon_H48].
% 27.55/27.77  congruence.
% 27.55/27.77  generalize (domain4 (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))). zenon_intro zenon_H2a.
% 27.55/27.77  apply (zenon_congruence_lr_s _ (fun zenon_Vo : _ => (~(zenon_Vo = (antidomain (antidomain (multiplication zenon_TX0_bf (domain (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf))))))))))) _ _ zenon_H48 zenon_H2a). zenon_intro zenon_H1d.
% 27.55/27.77  apply (zenon_L1_ zenon_TX0_bf); trivial.
% 27.55/27.77  generalize (forward_diamond zenon_TX0_bf). zenon_intro zenon_H31.
% 27.55/27.77  generalize (zenon_H31 (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf))))). zenon_intro zenon_H3d.
% 27.55/27.77  apply (zenon_congruence_lr_s _ (fun zenon_Vo : _ => (~(zenon_Vo = (antidomain (antidomain (multiplication zenon_TX0_bf (domain (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf))))))))))) _ _ zenon_H47 zenon_H3d). zenon_intro zenon_H49.
% 27.55/27.77  generalize (domain4 (multiplication zenon_TX0_bf (domain (domain (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf))))))). zenon_intro zenon_H3f.
% 27.55/27.79  exact (zenon_H49 zenon_H3f).
% 27.55/27.79  apply zenon_H45. apply refl_equal.
% 27.55/27.79  apply zenon_H45. apply refl_equal.
% 27.55/27.79  apply zenon_H42. apply refl_equal.
% 27.55/27.79  generalize (domain4 (multiplication zenon_TX0_bf (domain (divergence zenon_TX0_bf)))). zenon_intro zenon_H2a.
% 27.55/27.79  apply (zenon_congruence_lr_s _ (fun zenon_Vz : _ => (zenon_Vz = (zero))) _ _ zenon_H3b zenon_H2a). zenon_intro zenon_H4a.
% 27.55/27.79  apply zenon_H39. apply sym_equal. exact zenon_H4a.
% 27.55/27.79  apply zenon_H35. apply refl_equal.
% 27.55/27.79  apply zenon_H35. apply refl_equal.
% 27.55/27.79  apply zenon_H37. apply refl_equal.
% 27.55/27.79  apply zenon_H35. apply refl_equal.
% 27.55/27.79  apply zenon_H35. apply refl_equal.
% 27.55/27.79  Qed.
% 27.55/27.79  % SZS output end Proof
% 27.55/27.79  (* END-PROOF *)
% 27.55/27.79  nodes searched: 53051
% 27.55/27.79  max branch formulas: 5274
% 27.55/27.79  proof nodes created: 2153
% 27.55/27.79  formulas created: 614523
% 27.55/27.79  
%------------------------------------------------------------------------------