TSTP Solution File: REL004-2 by Twee---2.4.2

%------------------------------------------------------------------------------
% File     : Twee---2.4.2
% Problem  : REL004-2 : TPTP v8.1.2. Released v4.0.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : parallel-twee %s --tstp --conditional-encoding if --smaller --drop-non-horn --give-up-on-saturation --explain-encoding --formal-proof

% Computer : n008.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  : 300s
% DateTime : Thu Aug 31 13:43:43 EDT 2023

% Result   : Unsatisfiable 0.21s 0.59s
% Output   : Proof 0.21s
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.00/0.13  % Problem  : REL004-2 : TPTP v8.1.2. Released v4.0.0.
% 0.00/0.14  % Command  : parallel-twee %s --tstp --conditional-encoding if --smaller --drop-non-horn --give-up-on-saturation --explain-encoding --formal-proof
% 0.13/0.35  % Computer : n008.cluster.edu
% 0.13/0.35  % Model    : x86_64 x86_64
% 0.13/0.35  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.13/0.35  % Memory   : 8042.1875MB
% 0.13/0.35  % OS       : Linux 3.10.0-693.el7.x86_64
% 0.13/0.35  % CPULimit : 300
% 0.13/0.35  % WCLimit  : 300
% 0.13/0.35  % DateTime : Fri Aug 25 19:18:47 EDT 2023
% 0.13/0.35  % CPUTime  : 
% 0.21/0.59  Command-line arguments: --no-flatten-goal
% 0.21/0.59  
% 0.21/0.59  % SZS status Unsatisfiable
% 0.21/0.59  
% 0.21/0.64  % SZS output start Proof
% 0.21/0.64  Axiom 1 (maddux1_join_commutativity_1): join(X, Y) = join(Y, X).
% 0.21/0.64  Axiom 2 (converse_idempotence_8): converse(converse(X)) = X.
% 0.21/0.64  Axiom 3 (composition_identity_6): composition(X, one) = X.
% 0.21/0.64  Axiom 4 (def_zero_13): zero = meet(X, complement(X)).
% 0.21/0.64  Axiom 5 (def_top_12): top = join(X, complement(X)).
% 0.21/0.64  Axiom 6 (converse_additivity_9): converse(join(X, Y)) = join(converse(X), converse(Y)).
% 0.21/0.64  Axiom 7 (maddux2_join_associativity_2): join(X, join(Y, Z)) = join(join(X, Y), Z).
% 0.21/0.64  Axiom 8 (converse_multiplicativity_10): converse(composition(X, Y)) = composition(converse(Y), converse(X)).
% 0.21/0.64  Axiom 9 (composition_associativity_5): composition(X, composition(Y, Z)) = composition(composition(X, Y), Z).
% 0.21/0.64  Axiom 10 (maddux4_definiton_of_meet_4): meet(X, Y) = complement(join(complement(X), complement(Y))).
% 0.21/0.64  Axiom 11 (composition_distributivity_7): composition(join(X, Y), Z) = join(composition(X, Z), composition(Y, Z)).
% 0.21/0.64  Axiom 12 (converse_cancellativity_11): join(composition(converse(X), complement(composition(X, Y))), complement(Y)) = complement(Y).
% 0.21/0.64  Axiom 13 (maddux3_a_kind_of_de_Morgan_3): X = join(complement(join(complement(X), complement(Y))), complement(join(complement(X), Y))).
% 0.21/0.64  Axiom 14 (modular_law_2_16): join(meet(composition(X, Y), Z), meet(composition(meet(X, composition(Z, converse(Y))), Y), Z)) = meet(composition(meet(X, composition(Z, converse(Y))), Y), Z).
% 0.21/0.64  
% 0.21/0.64  Lemma 15: complement(top) = zero.
% 0.21/0.64  Proof:
% 0.21/0.64    complement(top)
% 0.21/0.64  = { by axiom 5 (def_top_12) }
% 0.21/0.64    complement(join(complement(X), complement(complement(X))))
% 0.21/0.64  = { by axiom 10 (maddux4_definiton_of_meet_4) R->L }
% 0.21/0.64    meet(X, complement(X))
% 0.21/0.64  = { by axiom 4 (def_zero_13) R->L }
% 0.21/0.64    zero
% 0.21/0.64  
% 0.21/0.64  Lemma 16: join(X, join(Y, complement(X))) = join(Y, top).
% 0.21/0.64  Proof:
% 0.21/0.64    join(X, join(Y, complement(X)))
% 0.21/0.64  = { by axiom 1 (maddux1_join_commutativity_1) R->L }
% 0.21/0.64    join(X, join(complement(X), Y))
% 0.21/0.64  = { by axiom 7 (maddux2_join_associativity_2) }
% 0.21/0.64    join(join(X, complement(X)), Y)
% 0.21/0.64  = { by axiom 5 (def_top_12) R->L }
% 0.21/0.64    join(top, Y)
% 0.21/0.64  = { by axiom 1 (maddux1_join_commutativity_1) }
% 0.21/0.64    join(Y, top)
% 0.21/0.64  
% 0.21/0.64  Lemma 17: converse(composition(converse(X), Y)) = composition(converse(Y), X).
% 0.21/0.64  Proof:
% 0.21/0.64    converse(composition(converse(X), Y))
% 0.21/0.64  = { by axiom 8 (converse_multiplicativity_10) }
% 0.21/0.64    composition(converse(Y), converse(converse(X)))
% 0.21/0.64  = { by axiom 2 (converse_idempotence_8) }
% 0.21/0.64    composition(converse(Y), X)
% 0.21/0.64  
% 0.21/0.64  Lemma 18: composition(converse(one), X) = X.
% 0.21/0.64  Proof:
% 0.21/0.64    composition(converse(one), X)
% 0.21/0.64  = { by lemma 17 R->L }
% 0.21/0.64    converse(composition(converse(X), one))
% 0.21/0.64  = { by axiom 3 (composition_identity_6) }
% 0.21/0.64    converse(converse(X))
% 0.21/0.64  = { by axiom 2 (converse_idempotence_8) }
% 0.21/0.64    X
% 0.21/0.64  
% 0.21/0.64  Lemma 19: composition(one, X) = X.
% 0.21/0.64  Proof:
% 0.21/0.64    composition(one, X)
% 0.21/0.64  = { by lemma 18 R->L }
% 0.21/0.64    composition(converse(one), composition(one, X))
% 0.21/0.64  = { by axiom 9 (composition_associativity_5) }
% 0.21/0.64    composition(composition(converse(one), one), X)
% 0.21/0.64  = { by axiom 3 (composition_identity_6) }
% 0.21/0.64    composition(converse(one), X)
% 0.21/0.64  = { by lemma 18 }
% 0.21/0.64    X
% 0.21/0.64  
% 0.21/0.64  Lemma 20: join(complement(X), composition(converse(Y), complement(composition(Y, X)))) = complement(X).
% 0.21/0.64  Proof:
% 0.21/0.64    join(complement(X), composition(converse(Y), complement(composition(Y, X))))
% 0.21/0.64  = { by axiom 1 (maddux1_join_commutativity_1) R->L }
% 0.21/0.64    join(composition(converse(Y), complement(composition(Y, X))), complement(X))
% 0.21/0.64  = { by axiom 12 (converse_cancellativity_11) }
% 0.21/0.64    complement(X)
% 0.21/0.64  
% 0.21/0.64  Lemma 21: join(complement(X), complement(X)) = complement(X).
% 0.21/0.64  Proof:
% 0.21/0.64    join(complement(X), complement(X))
% 0.21/0.64  = { by lemma 18 R->L }
% 0.21/0.64    join(complement(X), composition(converse(one), complement(X)))
% 0.21/0.64  = { by lemma 19 R->L }
% 0.21/0.64    join(complement(X), composition(converse(one), complement(composition(one, X))))
% 0.21/0.64  = { by lemma 20 }
% 0.21/0.64    complement(X)
% 0.21/0.64  
% 0.21/0.64  Lemma 22: join(top, complement(X)) = top.
% 0.21/0.64  Proof:
% 0.21/0.64    join(top, complement(X))
% 0.21/0.64  = { by axiom 1 (maddux1_join_commutativity_1) R->L }
% 0.21/0.64    join(complement(X), top)
% 0.21/0.64  = { by lemma 16 R->L }
% 0.21/0.64    join(X, join(complement(X), complement(X)))
% 0.21/0.64  = { by lemma 21 }
% 0.21/0.64    join(X, complement(X))
% 0.21/0.64  = { by axiom 5 (def_top_12) R->L }
% 0.21/0.64    top
% 0.21/0.64  
% 0.21/0.64  Lemma 23: join(Y, top) = join(X, top).
% 0.21/0.64  Proof:
% 0.21/0.64    join(Y, top)
% 0.21/0.64  = { by lemma 22 R->L }
% 0.21/0.64    join(Y, join(top, complement(Y)))
% 0.21/0.64  = { by lemma 16 }
% 0.21/0.64    join(top, top)
% 0.21/0.64  = { by lemma 16 R->L }
% 0.21/0.64    join(X, join(top, complement(X)))
% 0.21/0.64  = { by lemma 22 }
% 0.21/0.65    join(X, top)
% 0.21/0.65  
% 0.21/0.65  Lemma 24: join(meet(X, Y), complement(join(complement(X), Y))) = X.
% 0.21/0.65  Proof:
% 0.21/0.65    join(meet(X, Y), complement(join(complement(X), Y)))
% 0.21/0.65  = { by axiom 10 (maddux4_definiton_of_meet_4) }
% 0.21/0.65    join(complement(join(complement(X), complement(Y))), complement(join(complement(X), Y)))
% 0.21/0.65  = { by axiom 13 (maddux3_a_kind_of_de_Morgan_3) R->L }
% 0.21/0.65    X
% 0.21/0.65  
% 0.21/0.65  Lemma 25: join(zero, meet(X, X)) = X.
% 0.21/0.65  Proof:
% 0.21/0.65    join(zero, meet(X, X))
% 0.21/0.65  = { by axiom 10 (maddux4_definiton_of_meet_4) }
% 0.21/0.65    join(zero, complement(join(complement(X), complement(X))))
% 0.21/0.65  = { by axiom 4 (def_zero_13) }
% 0.21/0.65    join(meet(X, complement(X)), complement(join(complement(X), complement(X))))
% 0.21/0.65  = { by lemma 24 }
% 0.21/0.65    X
% 0.21/0.65  
% 0.21/0.65  Lemma 26: join(zero, join(X, complement(complement(Y)))) = join(X, Y).
% 0.21/0.65  Proof:
% 0.21/0.65    join(zero, join(X, complement(complement(Y))))
% 0.21/0.65  = { by axiom 1 (maddux1_join_commutativity_1) R->L }
% 0.21/0.65    join(zero, join(complement(complement(Y)), X))
% 0.21/0.65  = { by lemma 21 R->L }
% 0.21/0.65    join(zero, join(complement(join(complement(Y), complement(Y))), X))
% 0.21/0.65  = { by axiom 10 (maddux4_definiton_of_meet_4) R->L }
% 0.21/0.65    join(zero, join(meet(Y, Y), X))
% 0.21/0.65  = { by axiom 7 (maddux2_join_associativity_2) }
% 0.21/0.65    join(join(zero, meet(Y, Y)), X)
% 0.21/0.65  = { by lemma 25 }
% 0.21/0.65    join(Y, X)
% 0.21/0.65  = { by axiom 1 (maddux1_join_commutativity_1) }
% 0.21/0.65    join(X, Y)
% 0.21/0.65  
% 0.21/0.65  Lemma 27: join(zero, complement(complement(X))) = X.
% 0.21/0.65  Proof:
% 0.21/0.65    join(zero, complement(complement(X)))
% 0.21/0.65  = { by axiom 4 (def_zero_13) }
% 0.21/0.65    join(meet(X, complement(X)), complement(complement(X)))
% 0.21/0.65  = { by lemma 21 R->L }
% 0.21/0.65    join(meet(X, complement(X)), complement(join(complement(X), complement(X))))
% 0.21/0.65  = { by lemma 24 }
% 0.21/0.65    X
% 0.21/0.65  
% 0.21/0.65  Lemma 28: join(X, zero) = join(X, X).
% 0.21/0.65  Proof:
% 0.21/0.65    join(X, zero)
% 0.21/0.65  = { by axiom 1 (maddux1_join_commutativity_1) R->L }
% 0.21/0.65    join(zero, X)
% 0.21/0.65  = { by lemma 27 R->L }
% 0.21/0.65    join(zero, join(zero, complement(complement(X))))
% 0.21/0.65  = { by lemma 21 R->L }
% 0.21/0.65    join(zero, join(zero, join(complement(complement(X)), complement(complement(X)))))
% 0.21/0.65  = { by lemma 26 }
% 0.21/0.65    join(zero, join(complement(complement(X)), X))
% 0.21/0.65  = { by axiom 1 (maddux1_join_commutativity_1) }
% 0.21/0.65    join(zero, join(X, complement(complement(X))))
% 0.21/0.65  = { by lemma 26 }
% 0.21/0.65    join(X, X)
% 0.21/0.65  
% 0.21/0.65  Lemma 29: join(zero, complement(X)) = complement(X).
% 0.21/0.65  Proof:
% 0.21/0.65    join(zero, complement(X))
% 0.21/0.65  = { by axiom 1 (maddux1_join_commutativity_1) R->L }
% 0.21/0.65    join(complement(X), zero)
% 0.21/0.65  = { by lemma 28 }
% 0.21/0.65    join(complement(X), complement(X))
% 0.21/0.65  = { by lemma 21 }
% 0.21/0.65    complement(X)
% 0.21/0.65  
% 0.21/0.65  Lemma 30: join(X, zero) = X.
% 0.21/0.65  Proof:
% 0.21/0.65    join(X, zero)
% 0.21/0.65  = { by axiom 1 (maddux1_join_commutativity_1) R->L }
% 0.21/0.65    join(zero, X)
% 0.21/0.65  = { by lemma 26 R->L }
% 0.21/0.65    join(zero, join(zero, complement(complement(X))))
% 0.21/0.65  = { by lemma 29 }
% 0.21/0.65    join(zero, complement(complement(X)))
% 0.21/0.65  = { by lemma 27 }
% 0.21/0.65    X
% 0.21/0.65  
% 0.21/0.65  Lemma 31: join(X, top) = top.
% 0.21/0.65  Proof:
% 0.21/0.65    join(X, top)
% 0.21/0.65  = { by lemma 23 }
% 0.21/0.65    join(join(zero, zero), top)
% 0.21/0.65  = { by axiom 1 (maddux1_join_commutativity_1) R->L }
% 0.21/0.65    join(top, join(zero, zero))
% 0.21/0.65  = { by lemma 30 }
% 0.21/0.65    join(top, zero)
% 0.21/0.65  = { by lemma 30 }
% 0.21/0.65    top
% 0.21/0.65  
% 0.21/0.65  Lemma 32: converse(join(X, converse(Y))) = join(Y, converse(X)).
% 0.21/0.65  Proof:
% 0.21/0.65    converse(join(X, converse(Y)))
% 0.21/0.65  = { by axiom 1 (maddux1_join_commutativity_1) R->L }
% 0.21/0.65    converse(join(converse(Y), X))
% 0.21/0.65  = { by axiom 6 (converse_additivity_9) }
% 0.21/0.65    join(converse(converse(Y)), converse(X))
% 0.21/0.65  = { by axiom 2 (converse_idempotence_8) }
% 0.21/0.65    join(Y, converse(X))
% 0.21/0.65  
% 0.21/0.65  Lemma 33: converse(join(converse(X), Y)) = join(X, converse(Y)).
% 0.21/0.65  Proof:
% 0.21/0.65    converse(join(converse(X), Y))
% 0.21/0.65  = { by axiom 1 (maddux1_join_commutativity_1) R->L }
% 0.21/0.65    converse(join(Y, converse(X)))
% 0.21/0.65  = { by lemma 32 }
% 0.21/0.65    join(X, converse(Y))
% 0.21/0.65  
% 0.21/0.65  Lemma 34: join(X, converse(complement(converse(X)))) = converse(top).
% 0.21/0.65  Proof:
% 0.21/0.65    join(X, converse(complement(converse(X))))
% 0.21/0.65  = { by lemma 33 R->L }
% 0.21/0.65    converse(join(converse(X), complement(converse(X))))
% 0.21/0.65  = { by axiom 5 (def_top_12) R->L }
% 0.21/0.65    converse(top)
% 0.21/0.65  
% 0.21/0.65  Lemma 35: join(X, join(complement(X), Y)) = top.
% 0.21/0.65  Proof:
% 0.21/0.65    join(X, join(complement(X), Y))
% 0.21/0.65  = { by axiom 1 (maddux1_join_commutativity_1) R->L }
% 0.21/0.65    join(X, join(Y, complement(X)))
% 0.21/0.65  = { by lemma 16 }
% 0.21/0.65    join(Y, top)
% 0.21/0.65  = { by lemma 23 R->L }
% 0.21/0.65    join(Z, top)
% 0.21/0.65  = { by lemma 31 }
% 0.21/0.65    top
% 0.21/0.65  
% 0.21/0.65  Lemma 36: join(X, converse(top)) = top.
% 0.21/0.65  Proof:
% 0.21/0.65    join(X, converse(top))
% 0.21/0.65  = { by lemma 34 R->L }
% 0.21/0.65    join(X, join(complement(X), converse(complement(converse(complement(X))))))
% 0.21/0.65  = { by lemma 35 }
% 0.21/0.65    top
% 0.21/0.65  
% 0.21/0.65  Lemma 37: converse(top) = top.
% 0.21/0.65  Proof:
% 0.21/0.65    converse(top)
% 0.21/0.65  = { by lemma 31 R->L }
% 0.21/0.65    converse(join(X, top))
% 0.21/0.65  = { by axiom 6 (converse_additivity_9) }
% 0.21/0.65    join(converse(X), converse(top))
% 0.21/0.65  = { by lemma 36 }
% 0.21/0.65    top
% 0.21/0.65  
% 0.21/0.65  Lemma 38: join(zero, X) = X.
% 0.21/0.65  Proof:
% 0.21/0.65    join(zero, X)
% 0.21/0.65  = { by axiom 1 (maddux1_join_commutativity_1) R->L }
% 0.21/0.65    join(X, zero)
% 0.21/0.65  = { by lemma 30 }
% 0.21/0.65    X
% 0.21/0.65  
% 0.21/0.65  Lemma 39: meet(Y, X) = meet(X, Y).
% 0.21/0.65  Proof:
% 0.21/0.65    meet(Y, X)
% 0.21/0.65  = { by axiom 10 (maddux4_definiton_of_meet_4) }
% 0.21/0.65    complement(join(complement(Y), complement(X)))
% 0.21/0.65  = { by axiom 1 (maddux1_join_commutativity_1) R->L }
% 0.21/0.65    complement(join(complement(X), complement(Y)))
% 0.21/0.65  = { by axiom 10 (maddux4_definiton_of_meet_4) R->L }
% 0.21/0.65    meet(X, Y)
% 0.21/0.65  
% 0.21/0.65  Lemma 40: complement(join(zero, complement(X))) = meet(X, top).
% 0.21/0.65  Proof:
% 0.21/0.65    complement(join(zero, complement(X)))
% 0.21/0.65  = { by lemma 15 R->L }
% 0.21/0.65    complement(join(complement(top), complement(X)))
% 0.21/0.65  = { by axiom 10 (maddux4_definiton_of_meet_4) R->L }
% 0.21/0.65    meet(top, X)
% 0.21/0.65  = { by lemma 39 R->L }
% 0.21/0.65    meet(X, top)
% 0.21/0.65  
% 0.21/0.65  Lemma 41: join(X, complement(zero)) = top.
% 0.21/0.65  Proof:
% 0.21/0.65    join(X, complement(zero))
% 0.21/0.65  = { by axiom 1 (maddux1_join_commutativity_1) R->L }
% 0.21/0.65    join(complement(zero), X)
% 0.21/0.65  = { by lemma 26 R->L }
% 0.21/0.65    join(zero, join(complement(zero), complement(complement(X))))
% 0.21/0.65  = { by lemma 35 }
% 0.21/0.65    top
% 0.21/0.65  
% 0.21/0.65  Lemma 42: meet(X, zero) = zero.
% 0.21/0.65  Proof:
% 0.21/0.65    meet(X, zero)
% 0.21/0.65  = { by axiom 10 (maddux4_definiton_of_meet_4) }
% 0.21/0.65    complement(join(complement(X), complement(zero)))
% 0.21/0.65  = { by lemma 41 }
% 0.21/0.65    complement(top)
% 0.21/0.65  = { by lemma 15 }
% 0.21/0.65    zero
% 0.21/0.65  
% 0.21/0.65  Lemma 43: join(meet(X, Y), meet(X, complement(Y))) = X.
% 0.21/0.65  Proof:
% 0.21/0.65    join(meet(X, Y), meet(X, complement(Y)))
% 0.21/0.65  = { by axiom 1 (maddux1_join_commutativity_1) R->L }
% 0.21/0.65    join(meet(X, complement(Y)), meet(X, Y))
% 0.21/0.65  = { by axiom 10 (maddux4_definiton_of_meet_4) }
% 0.21/0.65    join(meet(X, complement(Y)), complement(join(complement(X), complement(Y))))
% 0.21/0.65  = { by lemma 24 }
% 0.21/0.65    X
% 0.21/0.65  
% 0.21/0.65  Lemma 44: meet(X, top) = X.
% 0.21/0.65  Proof:
% 0.21/0.65    meet(X, top)
% 0.21/0.65  = { by lemma 40 R->L }
% 0.21/0.65    complement(join(zero, complement(X)))
% 0.21/0.65  = { by lemma 29 R->L }
% 0.21/0.65    join(zero, complement(join(zero, complement(X))))
% 0.21/0.65  = { by lemma 40 }
% 0.21/0.65    join(zero, meet(X, top))
% 0.21/0.65  = { by lemma 41 R->L }
% 0.21/0.65    join(zero, meet(X, join(complement(zero), complement(zero))))
% 0.21/0.65  = { by lemma 21 }
% 0.21/0.65    join(zero, meet(X, complement(zero)))
% 0.21/0.65  = { by lemma 42 R->L }
% 0.21/0.65    join(meet(X, zero), meet(X, complement(zero)))
% 0.21/0.65  = { by lemma 43 }
% 0.21/0.65    X
% 0.21/0.65  
% 0.21/0.65  Lemma 45: join(meet(X, Y), meet(X, Y)) = meet(X, Y).
% 0.21/0.65  Proof:
% 0.21/0.65    join(meet(X, Y), meet(X, Y))
% 0.21/0.65  = { by lemma 39 }
% 0.21/0.65    join(meet(Y, X), meet(X, Y))
% 0.21/0.65  = { by lemma 39 }
% 0.21/0.65    join(meet(Y, X), meet(Y, X))
% 0.21/0.65  = { by axiom 10 (maddux4_definiton_of_meet_4) }
% 0.21/0.65    join(meet(Y, X), complement(join(complement(Y), complement(X))))
% 0.21/0.65  = { by axiom 10 (maddux4_definiton_of_meet_4) }
% 0.21/0.65    join(complement(join(complement(Y), complement(X))), complement(join(complement(Y), complement(X))))
% 0.21/0.65  = { by lemma 21 }
% 0.21/0.65    complement(join(complement(Y), complement(X)))
% 0.21/0.65  = { by axiom 10 (maddux4_definiton_of_meet_4) R->L }
% 0.21/0.65    meet(Y, X)
% 0.21/0.65  = { by lemma 39 R->L }
% 0.21/0.65    meet(X, Y)
% 0.21/0.65  
% 0.21/0.65  Lemma 46: converse(zero) = zero.
% 0.21/0.65  Proof:
% 0.21/0.65    converse(zero)
% 0.21/0.65  = { by lemma 38 R->L }
% 0.21/0.65    join(zero, converse(zero))
% 0.21/0.65  = { by lemma 33 R->L }
% 0.21/0.65    converse(join(converse(zero), zero))
% 0.21/0.65  = { by lemma 28 }
% 0.21/0.65    converse(join(converse(zero), converse(zero)))
% 0.21/0.65  = { by lemma 32 }
% 0.21/0.65    join(zero, converse(converse(zero)))
% 0.21/0.65  = { by axiom 2 (converse_idempotence_8) }
% 0.21/0.65    join(zero, zero)
% 0.21/0.65  = { by lemma 44 R->L }
% 0.21/0.65    join(zero, meet(zero, top))
% 0.21/0.65  = { by lemma 44 R->L }
% 0.21/0.65    join(meet(zero, top), meet(zero, top))
% 0.21/0.65  = { by lemma 45 }
% 0.21/0.65    meet(zero, top)
% 0.21/0.65  = { by lemma 44 }
% 0.21/0.65    zero
% 0.21/0.65  
% 0.21/0.65  Lemma 47: join(top, X) = top.
% 0.21/0.65  Proof:
% 0.21/0.65    join(top, X)
% 0.21/0.65  = { by axiom 1 (maddux1_join_commutativity_1) R->L }
% 0.21/0.65    join(X, top)
% 0.21/0.65  = { by lemma 23 R->L }
% 0.21/0.65    join(Y, top)
% 0.21/0.65  = { by lemma 31 }
% 0.21/0.65    top
% 0.21/0.65  
% 0.21/0.65  Lemma 48: meet(zero, X) = zero.
% 0.21/0.65  Proof:
% 0.21/0.65    meet(zero, X)
% 0.21/0.65  = { by lemma 39 }
% 0.21/0.65    meet(X, zero)
% 0.21/0.65  = { by lemma 42 }
% 0.21/0.65    zero
% 0.21/0.65  
% 0.21/0.65  Lemma 49: composition(top, zero) = zero.
% 0.21/0.65  Proof:
% 0.21/0.65    composition(top, zero)
% 0.21/0.65  = { by lemma 37 R->L }
% 0.21/0.65    composition(converse(top), zero)
% 0.21/0.65  = { by lemma 38 R->L }
% 0.21/0.65    join(zero, composition(converse(top), zero))
% 0.21/0.65  = { by lemma 15 R->L }
% 0.21/0.65    join(complement(top), composition(converse(top), zero))
% 0.21/0.65  = { by lemma 15 R->L }
% 0.21/0.65    join(complement(top), composition(converse(top), complement(top)))
% 0.21/0.65  = { by lemma 47 R->L }
% 0.21/0.65    join(complement(top), composition(converse(top), complement(join(top, composition(top, top)))))
% 0.21/0.65  = { by lemma 37 R->L }
% 0.21/0.65    join(complement(top), composition(converse(top), complement(join(top, composition(converse(top), top)))))
% 0.21/0.65  = { by lemma 19 R->L }
% 0.21/0.65    join(complement(top), composition(converse(top), complement(join(composition(one, top), composition(converse(top), top)))))
% 0.21/0.65  = { by axiom 11 (composition_distributivity_7) R->L }
% 0.21/0.65    join(complement(top), composition(converse(top), complement(composition(join(one, converse(top)), top))))
% 0.21/0.65  = { by lemma 36 }
% 0.21/0.65    join(complement(top), composition(converse(top), complement(composition(top, top))))
% 0.21/0.65  = { by lemma 20 }
% 0.21/0.65    complement(top)
% 0.21/0.65  = { by lemma 15 }
% 0.21/0.65    zero
% 0.21/0.65  
% 0.21/0.65  Lemma 50: composition(zero, X) = zero.
% 0.21/0.65  Proof:
% 0.21/0.65    composition(zero, X)
% 0.21/0.65  = { by lemma 46 R->L }
% 0.21/0.65    composition(converse(zero), X)
% 0.21/0.65  = { by lemma 17 R->L }
% 0.21/0.65    converse(composition(converse(X), zero))
% 0.21/0.65  = { by lemma 38 R->L }
% 0.21/0.65    converse(join(zero, composition(converse(X), zero)))
% 0.21/0.65  = { by lemma 49 R->L }
% 0.21/0.65    converse(join(composition(top, zero), composition(converse(X), zero)))
% 0.21/0.65  = { by axiom 11 (composition_distributivity_7) R->L }
% 0.21/0.65    converse(composition(join(top, converse(X)), zero))
% 0.21/0.65  = { by lemma 47 }
% 0.21/0.65    converse(composition(top, zero))
% 0.21/0.65  = { by lemma 49 }
% 0.21/0.65    converse(zero)
% 0.21/0.65  = { by lemma 46 }
% 0.21/0.65    zero
% 0.21/0.65  
% 0.21/0.65  Lemma 51: meet(X, join(complement(Y), complement(Z))) = complement(join(complement(X), meet(Y, Z))).
% 0.21/0.65  Proof:
% 0.21/0.65    meet(X, join(complement(Y), complement(Z)))
% 0.21/0.65  = { by axiom 1 (maddux1_join_commutativity_1) R->L }
% 0.21/0.65    meet(X, join(complement(Z), complement(Y)))
% 0.21/0.65  = { by lemma 39 }
% 0.21/0.65    meet(join(complement(Z), complement(Y)), X)
% 0.21/0.65  = { by axiom 10 (maddux4_definiton_of_meet_4) }
% 0.21/0.65    complement(join(complement(join(complement(Z), complement(Y))), complement(X)))
% 0.21/0.65  = { by axiom 10 (maddux4_definiton_of_meet_4) R->L }
% 0.21/0.65    complement(join(meet(Z, Y), complement(X)))
% 0.21/0.65  = { by axiom 1 (maddux1_join_commutativity_1) }
% 0.21/0.65    complement(join(complement(X), meet(Z, Y)))
% 0.21/0.65  = { by lemma 39 R->L }
% 0.21/0.65    complement(join(complement(X), meet(Y, Z)))
% 0.21/0.65  
% 0.21/0.65  Lemma 52: complement(join(complement(X), Y)) = meet(X, complement(Y)).
% 0.21/0.65  Proof:
% 0.21/0.65    complement(join(complement(X), Y))
% 0.21/0.65  = { by lemma 44 R->L }
% 0.21/0.65    complement(join(complement(X), meet(Y, top)))
% 0.21/0.65  = { by lemma 39 R->L }
% 0.21/0.65    complement(join(complement(X), meet(top, Y)))
% 0.21/0.65  = { by lemma 51 R->L }
% 0.21/0.65    meet(X, join(complement(top), complement(Y)))
% 0.21/0.65  = { by lemma 15 }
% 0.21/0.65    meet(X, join(zero, complement(Y)))
% 0.21/0.65  = { by lemma 29 }
% 0.21/0.65    meet(X, complement(Y))
% 0.21/0.65  
% 0.21/0.65  Lemma 53: meet(one, composition(converse(complement(X)), X)) = zero.
% 0.21/0.65  Proof:
% 0.21/0.65    meet(one, composition(converse(complement(X)), X))
% 0.21/0.65  = { by lemma 39 }
% 0.21/0.65    meet(composition(converse(complement(X)), X), one)
% 0.21/0.65  = { by lemma 27 R->L }
% 0.21/0.65    meet(composition(converse(complement(X)), X), join(zero, complement(complement(one))))
% 0.21/0.65  = { by lemma 29 }
% 0.21/0.66    meet(composition(converse(complement(X)), X), complement(complement(one)))
% 0.21/0.66  = { by lemma 20 R->L }
% 0.21/0.66    meet(composition(converse(complement(X)), X), complement(join(complement(one), composition(converse(join(zero, complement(X))), complement(composition(join(zero, complement(X)), one))))))
% 0.21/0.66  = { by axiom 3 (composition_identity_6) }
% 0.21/0.66    meet(composition(converse(complement(X)), X), complement(join(complement(one), composition(converse(join(zero, complement(X))), complement(join(zero, complement(X)))))))
% 0.21/0.66  = { by lemma 40 }
% 0.21/0.66    meet(composition(converse(complement(X)), X), complement(join(complement(one), composition(converse(join(zero, complement(X))), meet(X, top)))))
% 0.21/0.66  = { by lemma 29 }
% 0.21/0.66    meet(composition(converse(complement(X)), X), complement(join(complement(one), composition(converse(complement(X)), meet(X, top)))))
% 0.21/0.66  = { by lemma 44 }
% 0.21/0.66    meet(composition(converse(complement(X)), X), complement(join(complement(one), composition(converse(complement(X)), X))))
% 0.21/0.66  = { by lemma 52 }
% 0.21/0.66    meet(composition(converse(complement(X)), X), meet(one, complement(composition(converse(complement(X)), X))))
% 0.21/0.66  = { by lemma 39 }
% 0.21/0.66    meet(composition(converse(complement(X)), X), meet(complement(composition(converse(complement(X)), X)), one))
% 0.21/0.66  = { by axiom 10 (maddux4_definiton_of_meet_4) }
% 0.21/0.66    complement(join(complement(composition(converse(complement(X)), X)), complement(meet(complement(composition(converse(complement(X)), X)), one))))
% 0.21/0.66  = { by lemma 45 R->L }
% 0.21/0.66    complement(join(complement(composition(converse(complement(X)), X)), complement(join(meet(complement(composition(converse(complement(X)), X)), one), meet(complement(composition(converse(complement(X)), X)), one)))))
% 0.21/0.66  = { by axiom 10 (maddux4_definiton_of_meet_4) }
% 0.21/0.66    complement(join(complement(composition(converse(complement(X)), X)), complement(join(complement(join(complement(complement(composition(converse(complement(X)), X))), complement(one))), meet(complement(composition(converse(complement(X)), X)), one)))))
% 0.21/0.66  = { by lemma 29 R->L }
% 0.21/0.66    complement(join(complement(composition(converse(complement(X)), X)), join(zero, complement(join(complement(join(complement(complement(composition(converse(complement(X)), X))), complement(one))), meet(complement(composition(converse(complement(X)), X)), one))))))
% 0.21/0.66  = { by lemma 51 R->L }
% 0.21/0.66    complement(join(complement(composition(converse(complement(X)), X)), join(zero, meet(join(complement(complement(composition(converse(complement(X)), X))), complement(one)), join(complement(complement(composition(converse(complement(X)), X))), complement(one))))))
% 0.21/0.66  = { by lemma 25 }
% 0.21/0.66    complement(join(complement(composition(converse(complement(X)), X)), join(complement(complement(composition(converse(complement(X)), X))), complement(one))))
% 0.21/0.66  = { by axiom 1 (maddux1_join_commutativity_1) }
% 0.21/0.66    complement(join(complement(composition(converse(complement(X)), X)), join(complement(one), complement(complement(composition(converse(complement(X)), X))))))
% 0.21/0.66  = { by lemma 16 }
% 0.21/0.66    complement(join(complement(one), top))
% 0.21/0.66  = { by lemma 31 }
% 0.21/0.66    complement(top)
% 0.21/0.66  = { by lemma 15 }
% 0.21/0.66    zero
% 0.21/0.66  
% 0.21/0.66  Goal 1 (goals_17): converse(complement(sk1)) = complement(converse(sk1)).
% 0.21/0.66  Proof:
% 0.21/0.66    converse(complement(sk1))
% 0.21/0.66  = { by lemma 29 R->L }
% 0.21/0.66    converse(join(zero, complement(sk1)))
% 0.21/0.66  = { by lemma 24 R->L }
% 0.21/0.66    converse(join(meet(join(zero, complement(sk1)), complement(converse(complement(converse(complement(join(zero, complement(sk1)))))))), complement(join(complement(join(zero, complement(sk1))), complement(converse(complement(converse(complement(join(zero, complement(sk1)))))))))))
% 0.21/0.66  = { by lemma 52 R->L }
% 0.21/0.66    converse(join(complement(join(complement(join(zero, complement(sk1))), converse(complement(converse(complement(join(zero, complement(sk1)))))))), complement(join(complement(join(zero, complement(sk1))), complement(converse(complement(converse(complement(join(zero, complement(sk1)))))))))))
% 0.21/0.66  = { by lemma 34 }
% 0.21/0.66    converse(join(complement(converse(top)), complement(join(complement(join(zero, complement(sk1))), complement(converse(complement(converse(complement(join(zero, complement(sk1)))))))))))
% 0.21/0.66  = { by lemma 37 }
% 0.21/0.66    converse(join(complement(top), complement(join(complement(join(zero, complement(sk1))), complement(converse(complement(converse(complement(join(zero, complement(sk1)))))))))))
% 0.21/0.66  = { by lemma 15 }
% 0.21/0.66    converse(join(zero, complement(join(complement(join(zero, complement(sk1))), complement(converse(complement(converse(complement(join(zero, complement(sk1)))))))))))
% 0.21/0.66  = { by lemma 29 }
% 0.21/0.66    converse(complement(join(complement(join(zero, complement(sk1))), complement(converse(complement(converse(complement(join(zero, complement(sk1))))))))))
% 0.21/0.66  = { by axiom 10 (maddux4_definiton_of_meet_4) R->L }
% 0.21/0.66    converse(meet(join(zero, complement(sk1)), converse(complement(converse(complement(join(zero, complement(sk1))))))))
% 0.21/0.66  = { by lemma 30 R->L }
% 0.21/0.66    converse(join(meet(join(zero, complement(sk1)), converse(complement(converse(complement(join(zero, complement(sk1))))))), zero))
% 0.21/0.66  = { by lemma 48 R->L }
% 0.21/0.66    converse(join(meet(join(zero, complement(sk1)), converse(complement(converse(complement(join(zero, complement(sk1))))))), meet(zero, converse(complement(converse(complement(join(zero, complement(sk1)))))))))
% 0.21/0.66  = { by lemma 50 R->L }
% 0.21/0.66    converse(join(meet(join(zero, complement(sk1)), converse(complement(converse(complement(join(zero, complement(sk1))))))), meet(composition(zero, complement(join(zero, complement(sk1)))), converse(complement(converse(complement(join(zero, complement(sk1)))))))))
% 0.21/0.66  = { by lemma 53 R->L }
% 0.21/0.66    converse(join(meet(join(zero, complement(sk1)), converse(complement(converse(complement(join(zero, complement(sk1))))))), meet(composition(meet(one, composition(converse(complement(converse(complement(join(zero, complement(sk1)))))), converse(complement(join(zero, complement(sk1)))))), complement(join(zero, complement(sk1)))), converse(complement(converse(complement(join(zero, complement(sk1)))))))))
% 0.21/0.66  = { by axiom 14 (modular_law_2_16) R->L }
% 0.21/0.66    converse(join(meet(join(zero, complement(sk1)), converse(complement(converse(complement(join(zero, complement(sk1))))))), join(meet(composition(one, complement(join(zero, complement(sk1)))), converse(complement(converse(complement(join(zero, complement(sk1))))))), meet(composition(meet(one, composition(converse(complement(converse(complement(join(zero, complement(sk1)))))), converse(complement(join(zero, complement(sk1)))))), complement(join(zero, complement(sk1)))), converse(complement(converse(complement(join(zero, complement(sk1))))))))))
% 0.21/0.66  = { by lemma 53 }
% 0.21/0.66    converse(join(meet(join(zero, complement(sk1)), converse(complement(converse(complement(join(zero, complement(sk1))))))), join(meet(composition(one, complement(join(zero, complement(sk1)))), converse(complement(converse(complement(join(zero, complement(sk1))))))), meet(composition(zero, complement(join(zero, complement(sk1)))), converse(complement(converse(complement(join(zero, complement(sk1))))))))))
% 0.21/0.66  = { by lemma 19 }
% 0.21/0.66    converse(join(meet(join(zero, complement(sk1)), converse(complement(converse(complement(join(zero, complement(sk1))))))), join(meet(complement(join(zero, complement(sk1))), converse(complement(converse(complement(join(zero, complement(sk1))))))), meet(composition(zero, complement(join(zero, complement(sk1)))), converse(complement(converse(complement(join(zero, complement(sk1))))))))))
% 0.21/0.66  = { by lemma 50 }
% 0.21/0.66    converse(join(meet(join(zero, complement(sk1)), converse(complement(converse(complement(join(zero, complement(sk1))))))), join(meet(complement(join(zero, complement(sk1))), converse(complement(converse(complement(join(zero, complement(sk1))))))), meet(zero, converse(complement(converse(complement(join(zero, complement(sk1))))))))))
% 0.21/0.66  = { by lemma 48 }
% 0.21/0.66    converse(join(meet(join(zero, complement(sk1)), converse(complement(converse(complement(join(zero, complement(sk1))))))), join(meet(complement(join(zero, complement(sk1))), converse(complement(converse(complement(join(zero, complement(sk1))))))), zero)))
% 0.21/0.66  = { by lemma 30 }
% 0.21/0.66    converse(join(meet(join(zero, complement(sk1)), converse(complement(converse(complement(join(zero, complement(sk1))))))), meet(complement(join(zero, complement(sk1))), converse(complement(converse(complement(join(zero, complement(sk1)))))))))
% 0.21/0.66  = { by lemma 39 }
% 0.21/0.66    converse(join(meet(join(zero, complement(sk1)), converse(complement(converse(complement(join(zero, complement(sk1))))))), meet(converse(complement(converse(complement(join(zero, complement(sk1)))))), complement(join(zero, complement(sk1))))))
% 0.21/0.66  = { by lemma 39 }
% 0.21/0.66    converse(join(meet(converse(complement(converse(complement(join(zero, complement(sk1)))))), join(zero, complement(sk1))), meet(converse(complement(converse(complement(join(zero, complement(sk1)))))), complement(join(zero, complement(sk1))))))
% 0.21/0.66  = { by lemma 43 }
% 0.21/0.66    converse(converse(complement(converse(complement(join(zero, complement(sk1)))))))
% 0.21/0.66  = { by axiom 2 (converse_idempotence_8) }
% 0.21/0.66    complement(converse(complement(join(zero, complement(sk1)))))
% 0.21/0.66  = { by lemma 40 }
% 0.21/0.66    complement(converse(meet(sk1, top)))
% 0.21/0.66  = { by lemma 44 }
% 0.21/0.66    complement(converse(sk1))
% 0.21/0.66  % SZS output end Proof
% 0.21/0.66  
% 0.21/0.66  RESULT: Unsatisfiable (the axioms are contradictory).
%------------------------------------------------------------------------------