%------------------------------------------------------------------------------
% File     : SuperZenon---0.0.1
% Problem  : SWV384+1 : TPTP v8.1.0. Released v3.3.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : run_super_zenon -p0 -itptp -om -max-time %d %s

% Computer : n025.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 : Wed Jul 20 21:51:11 EDT 2022

% Result   : Theorem 0.42s 0.60s
% Output   : Proof 0.42s
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.14/0.13  % Problem  : SWV384+1 : TPTP v8.1.0. Released v3.3.0.
% 0.14/0.14  % Command  : run_super_zenon -p0 -itptp -om -max-time %d %s
% 0.14/0.35  % Computer : n025.cluster.edu
% 0.14/0.35  % Model    : x86_64 x86_64
% 0.14/0.35  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.14/0.35  % Memory   : 8042.1875MB
% 0.14/0.35  % OS       : Linux 3.10.0-693.el7.x86_64
% 0.14/0.35  % CPULimit : 300
% 0.14/0.35  % WCLimit  : 600
% 0.14/0.35  % DateTime : Tue Jun 14 17:10:55 EDT 2022
% 0.14/0.35  % CPUTime  : 
% 0.42/0.60  % SZS status Theorem
% 0.42/0.60  (* PROOF-FOUND *)
% 0.42/0.60  (* BEGIN-PROOF *)
% 0.42/0.60  % SZS output start Proof
% 0.42/0.60  1. (-. (check_cpq (triple T_0 T_1 T_2))) (check_cpq (triple T_0 T_1 T_2))   ### Axiom
% 0.42/0.60  2. (-. (-. (check_cpq (triple T_0 T_1 T_2)))) (-. (check_cpq (triple T_0 T_1 T_2)))   ### NotNot 1
% 0.42/0.60  3. (-. ((-. (check_cpq (triple T_0 T_1 T_2))) \/ (-. (ok (triple T_0 T_1 T_2))))) (-. (check_cpq (triple T_0 T_1 T_2)))   ### NotOr 2
% 0.42/0.60  4. (check_cpq (im_succ_cpq (triple T_0 T_1 T_2))) (-. (check_cpq (im_succ_cpq (triple T_0 T_1 T_2))))   ### Axiom
% 0.42/0.60  5. (ok (im_succ_cpq (triple T_0 T_1 T_2))) (-. (ok (im_succ_cpq (triple T_0 T_1 T_2))))   ### Axiom
% 0.42/0.60  6. (((-. (check_cpq (triple T_0 T_1 T_2))) \/ (-. (ok (triple T_0 T_1 T_2)))) => ((-. (check_cpq (im_succ_cpq (triple T_0 T_1 T_2)))) \/ (-. (ok (im_succ_cpq (triple T_0 T_1 T_2)))))) (ok (im_succ_cpq (triple T_0 T_1 T_2))) (check_cpq (im_succ_cpq (triple T_0 T_1 T_2))) (-. (check_cpq (triple T_0 T_1 T_2)))   ### DisjTree 3 4 5
% 0.42/0.60  7. (All W, (((-. (check_cpq (triple T_0 T_1 W))) \/ (-. (ok (triple T_0 T_1 W)))) => ((-. (check_cpq (im_succ_cpq (triple T_0 T_1 W)))) \/ (-. (ok (im_succ_cpq (triple T_0 T_1 W))))))) (-. (check_cpq (triple T_0 T_1 T_2))) (check_cpq (im_succ_cpq (triple T_0 T_1 T_2))) (ok (im_succ_cpq (triple T_0 T_1 T_2)))   ### All 6
% 0.42/0.60  8. (All V, (All W, (((-. (check_cpq (triple T_0 V W))) \/ (-. (ok (triple T_0 V W)))) => ((-. (check_cpq (im_succ_cpq (triple T_0 V W)))) \/ (-. (ok (im_succ_cpq (triple T_0 V W)))))))) (ok (im_succ_cpq (triple T_0 T_1 T_2))) (check_cpq (im_succ_cpq (triple T_0 T_1 T_2))) (-. (check_cpq (triple T_0 T_1 T_2)))   ### All 7
% 0.42/0.60  9. (All U, (All V, (All W, (((-. (check_cpq (triple U V W))) \/ (-. (ok (triple U V W)))) => ((-. (check_cpq (im_succ_cpq (triple U V W)))) \/ (-. (ok (im_succ_cpq (triple U V W))))))))) (-. (check_cpq (triple T_0 T_1 T_2))) (check_cpq (im_succ_cpq (triple T_0 T_1 T_2))) (ok (im_succ_cpq (triple T_0 T_1 T_2)))   ### All 8
% 0.42/0.60  10. (-. (ok (triple T_0 T_1 T_2))) (ok (triple T_0 T_1 T_2))   ### Axiom
% 0.42/0.60  11. (-. (-. (ok (triple T_0 T_1 T_2)))) (-. (ok (triple T_0 T_1 T_2)))   ### NotNot 10
% 0.42/0.60  12. (-. ((-. (check_cpq (triple T_0 T_1 T_2))) \/ (-. (ok (triple T_0 T_1 T_2))))) (-. (ok (triple T_0 T_1 T_2)))   ### NotOr 11
% 0.42/0.60  13. (check_cpq (im_succ_cpq (triple T_0 T_1 T_2))) (-. (check_cpq (im_succ_cpq (triple T_0 T_1 T_2))))   ### Axiom
% 0.42/0.60  14. (ok (im_succ_cpq (triple T_0 T_1 T_2))) (-. (ok (im_succ_cpq (triple T_0 T_1 T_2))))   ### Axiom
% 0.42/0.60  15. (((-. (check_cpq (triple T_0 T_1 T_2))) \/ (-. (ok (triple T_0 T_1 T_2)))) => ((-. (check_cpq (im_succ_cpq (triple T_0 T_1 T_2)))) \/ (-. (ok (im_succ_cpq (triple T_0 T_1 T_2)))))) (ok (im_succ_cpq (triple T_0 T_1 T_2))) (check_cpq (im_succ_cpq (triple T_0 T_1 T_2))) (-. (ok (triple T_0 T_1 T_2)))   ### DisjTree 12 13 14
% 0.42/0.60  16. (All W, (((-. (check_cpq (triple T_0 T_1 W))) \/ (-. (ok (triple T_0 T_1 W)))) => ((-. (check_cpq (im_succ_cpq (triple T_0 T_1 W)))) \/ (-. (ok (im_succ_cpq (triple T_0 T_1 W))))))) (-. (ok (triple T_0 T_1 T_2))) (check_cpq (im_succ_cpq (triple T_0 T_1 T_2))) (ok (im_succ_cpq (triple T_0 T_1 T_2)))   ### All 15
% 0.42/0.60  17. (All V, (All W, (((-. (check_cpq (triple T_0 V W))) \/ (-. (ok (triple T_0 V W)))) => ((-. (check_cpq (im_succ_cpq (triple T_0 V W)))) \/ (-. (ok (im_succ_cpq (triple T_0 V W)))))))) (ok (im_succ_cpq (triple T_0 T_1 T_2))) (check_cpq (im_succ_cpq (triple T_0 T_1 T_2))) (-. (ok (triple T_0 T_1 T_2)))   ### All 16
% 0.42/0.60  18. (All U, (All V, (All W, (((-. (check_cpq (triple U V W))) \/ (-. (ok (triple U V W)))) => ((-. (check_cpq (im_succ_cpq (triple U V W)))) \/ (-. (ok (im_succ_cpq (triple U V W))))))))) (-. (ok (triple T_0 T_1 T_2))) (check_cpq (im_succ_cpq (triple T_0 T_1 T_2))) (ok (im_succ_cpq (triple T_0 T_1 T_2)))   ### All 17
% 0.42/0.60  19. ((-. (check_cpq (triple T_0 T_1 T_2))) \/ (-. (ok (triple T_0 T_1 T_2)))) (ok (im_succ_cpq (triple T_0 T_1 T_2))) (check_cpq (im_succ_cpq (triple T_0 T_1 T_2))) (All U, (All V, (All W, (((-. (check_cpq (triple U V W))) \/ (-. (ok (triple U V W)))) => ((-. (check_cpq (im_succ_cpq (triple U V W)))) \/ (-. (ok (im_succ_cpq (triple U V W)))))))))   ### Or 9 18
% 0.42/0.60  20. (-. ((succ_cpq (triple T_3 T_4 T_5) (triple T_0 T_1 T_2)) => (((-. (check_cpq (triple T_0 T_1 T_2))) \/ (-. (ok (triple T_0 T_1 T_2)))) => ((-. (check_cpq (im_succ_cpq (triple T_0 T_1 T_2)))) \/ (-. (ok (im_succ_cpq (triple T_0 T_1 T_2)))))))) (All U, (All V, (All W, (((-. (check_cpq (triple U V W))) \/ (-. (ok (triple U V W)))) => ((-. (check_cpq (im_succ_cpq (triple U V W)))) \/ (-. (ok (im_succ_cpq (triple U V W)))))))))   ### ConjTree 19
% 0.42/0.60  21. (-. (All Z, ((succ_cpq (triple T_3 T_4 T_5) (triple T_0 T_1 Z)) => (((-. (check_cpq (triple T_0 T_1 Z))) \/ (-. (ok (triple T_0 T_1 Z)))) => ((-. (check_cpq (im_succ_cpq (triple T_0 T_1 Z)))) \/ (-. (ok (im_succ_cpq (triple T_0 T_1 Z))))))))) (All U, (All V, (All W, (((-. (check_cpq (triple U V W))) \/ (-. (ok (triple U V W)))) => ((-. (check_cpq (im_succ_cpq (triple U V W)))) \/ (-. (ok (im_succ_cpq (triple U V W)))))))))   ### NotAllEx 20
% 0.42/0.60  22. (-. (All Y, (All Z, ((succ_cpq (triple T_3 T_4 T_5) (triple T_0 Y Z)) => (((-. (check_cpq (triple T_0 Y Z))) \/ (-. (ok (triple T_0 Y Z)))) => ((-. (check_cpq (im_succ_cpq (triple T_0 Y Z)))) \/ (-. (ok (im_succ_cpq (triple T_0 Y Z)))))))))) (All U, (All V, (All W, (((-. (check_cpq (triple U V W))) \/ (-. (ok (triple U V W)))) => ((-. (check_cpq (im_succ_cpq (triple U V W)))) \/ (-. (ok (im_succ_cpq (triple U V W)))))))))   ### NotAllEx 21
% 0.42/0.60  23. (-. (All X, (All Y, (All Z, ((succ_cpq (triple T_3 T_4 T_5) (triple X Y Z)) => (((-. (check_cpq (triple X Y Z))) \/ (-. (ok (triple X Y Z)))) => ((-. (check_cpq (im_succ_cpq (triple X Y Z)))) \/ (-. (ok (im_succ_cpq (triple X Y Z))))))))))) (All U, (All V, (All W, (((-. (check_cpq (triple U V W))) \/ (-. (ok (triple U V W)))) => ((-. (check_cpq (im_succ_cpq (triple U V W)))) \/ (-. (ok (im_succ_cpq (triple U V W)))))))))   ### NotAllEx 22
% 0.42/0.60  24. (-. (All W, (All X, (All Y, (All Z, ((succ_cpq (triple T_3 T_4 W) (triple X Y Z)) => (((-. (check_cpq (triple X Y Z))) \/ (-. (ok (triple X Y Z)))) => ((-. (check_cpq (im_succ_cpq (triple X Y Z)))) \/ (-. (ok (im_succ_cpq (triple X Y Z)))))))))))) (All U, (All V, (All W, (((-. (check_cpq (triple U V W))) \/ (-. (ok (triple U V W)))) => ((-. (check_cpq (im_succ_cpq (triple U V W)))) \/ (-. (ok (im_succ_cpq (triple U V W)))))))))   ### NotAllEx 23
% 0.42/0.60  25. (-. (All V, (All W, (All X, (All Y, (All Z, ((succ_cpq (triple T_3 V W) (triple X Y Z)) => (((-. (check_cpq (triple X Y Z))) \/ (-. (ok (triple X Y Z)))) => ((-. (check_cpq (im_succ_cpq (triple X Y Z)))) \/ (-. (ok (im_succ_cpq (triple X Y Z))))))))))))) (All U, (All V, (All W, (((-. (check_cpq (triple U V W))) \/ (-. (ok (triple U V W)))) => ((-. (check_cpq (im_succ_cpq (triple U V W)))) \/ (-. (ok (im_succ_cpq (triple U V W)))))))))   ### NotAllEx 24
% 0.42/0.60  26. (-. (All U, (All V, (All W, (All X, (All Y, (All Z, ((succ_cpq (triple U V W) (triple X Y Z)) => (((-. (check_cpq (triple X Y Z))) \/ (-. (ok (triple X Y Z)))) => ((-. (check_cpq (im_succ_cpq (triple X Y Z)))) \/ (-. (ok (im_succ_cpq (triple X Y Z)))))))))))))) (All U, (All V, (All W, (((-. (check_cpq (triple U V W))) \/ (-. (ok (triple U V W)))) => ((-. (check_cpq (im_succ_cpq (triple U V W)))) \/ (-. (ok (im_succ_cpq (triple U V W)))))))))   ### NotAllEx 25
% 0.42/0.60  27. (-. (All X1, (All X2, (All X3, (((-. (check_cpq (triple X1 X2 X3))) \/ (-. (ok (triple X1 X2 X3)))) => (All X4, (All X5, (All X6, ((succ_cpq (triple X1 X2 X3) (triple X4 X5 X6)) => ((-. (ok (triple X4 X5 X6))) \/ (-. (check_cpq (triple X4 X5 X6))))))))))))) (All X1, (All X2, (All X3, (((-. (check_cpq (triple X1 X2 X3))) \/ (-. (ok (triple X1 X2 X3)))) => (All X4, (All X5, (All X6, ((succ_cpq (triple X1 X2 X3) (triple X4 X5 X6)) => ((-. (ok (triple X4 X5 X6))) \/ (-. (check_cpq (triple X4 X5 X6))))))))))))   ### Axiom
% 0.42/0.60  28. ((All U, (All V, (All W, (All X, (All Y, (All Z, ((succ_cpq (triple U V W) (triple X Y Z)) => (((-. (check_cpq (triple X Y Z))) \/ (-. (ok (triple X Y Z)))) => ((-. (check_cpq (im_succ_cpq (triple X Y Z)))) \/ (-. (ok (im_succ_cpq (triple X Y Z))))))))))))) => (All X1, (All X2, (All X3, (((-. (check_cpq (triple X1 X2 X3))) \/ (-. (ok (triple X1 X2 X3)))) => (All X4, (All X5, (All X6, ((succ_cpq (triple X1 X2 X3) (triple X4 X5 X6)) => ((-. (ok (triple X4 X5 X6))) \/ (-. (check_cpq (triple X4 X5 X6))))))))))))) (-. (All X1, (All X2, (All X3, (((-. (check_cpq (triple X1 X2 X3))) \/ (-. (ok (triple X1 X2 X3)))) => (All X4, (All X5, (All X6, ((succ_cpq (triple X1 X2 X3) (triple X4 X5 X6)) => ((-. (ok (triple X4 X5 X6))) \/ (-. (check_cpq (triple X4 X5 X6))))))))))))) (All U, (All V, (All W, (((-. (check_cpq (triple U V W))) \/ (-. (ok (triple U V W)))) => ((-. (check_cpq (im_succ_cpq (triple U V W)))) \/ (-. (ok (im_succ_cpq (triple U V W)))))))))   ### Imply 26 27
% 0.42/0.60  % SZS output end Proof
% 0.42/0.60  (* END-PROOF *)
%------------------------------------------------------------------------------