TSTP Solution File: GEO284+1 by Zipperpin---2.1.9999
View Problem
- Process Solution
%------------------------------------------------------------------------------
% File : Zipperpin---2.1.9999
% Problem : GEO284+1 : TPTP v8.1.2. Released v4.1.0.
% Transfm : NO INFORMATION
% Format : NO INFORMATION
% Command : python3 /export/starexec/sandbox/solver/bin/portfolio.lams.parallel.py %s %d /export/starexec/sandbox/tmp/tmp.M8wjmmYDuO true
% 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 : Wed Aug 30 23:58:15 EDT 2023
% Result : Theorem 1.23s 1.22s
% Output : Refutation 1.23s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.00/0.10 % Problem : GEO284+1 : TPTP v8.1.2. Released v4.1.0.
% 0.00/0.10 % Command : python3 /export/starexec/sandbox/solver/bin/portfolio.lams.parallel.py %s %d /export/starexec/sandbox/tmp/tmp.M8wjmmYDuO true
% 0.10/0.30 % Computer : n008.cluster.edu
% 0.10/0.30 % Model : x86_64 x86_64
% 0.10/0.30 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.10/0.30 % Memory : 8042.1875MB
% 0.10/0.30 % OS : Linux 3.10.0-693.el7.x86_64
% 0.10/0.30 % CPULimit : 300
% 0.10/0.30 % WCLimit : 300
% 0.10/0.30 % DateTime : Tue Aug 29 22:44:02 EDT 2023
% 0.10/0.30 % CPUTime :
% 0.10/0.30 % Running portfolio for 300 s
% 0.10/0.30 % File : /export/starexec/sandbox/benchmark/theBenchmark.p
% 0.10/0.30 % Number of cores: 8
% 0.10/0.30 % Python version: Python 3.6.8
% 0.10/0.30 % Running in FO mode
% 0.16/0.58 % Total configuration time : 435
% 0.16/0.58 % Estimated wc time : 1092
% 0.16/0.58 % Estimated cpu time (7 cpus) : 156.0
% 0.16/0.68 % /export/starexec/sandbox/solver/bin/fo/fo6_bce.sh running for 75s
% 0.16/0.68 % /export/starexec/sandbox/solver/bin/fo/fo1_av.sh running for 75s
% 0.16/0.68 % /export/starexec/sandbox/solver/bin/fo/fo3_bce.sh running for 75s
% 0.16/0.69 % /export/starexec/sandbox/solver/bin/fo/fo5.sh running for 50s
% 0.16/0.69 % /export/starexec/sandbox/solver/bin/fo/fo7.sh running for 63s
% 0.16/0.69 % /export/starexec/sandbox/solver/bin/fo/fo13.sh running for 50s
% 0.16/0.69 % /export/starexec/sandbox/solver/bin/fo/fo4.sh running for 50s
% 1.23/1.22 % Solved by fo/fo5.sh.
% 1.23/1.22 % done 455 iterations in 0.475s
% 1.23/1.22 % SZS status Theorem for '/export/starexec/sandbox/benchmark/theBenchmark.p'
% 1.23/1.22 % SZS output start Refutation
% 1.23/1.22 thf(rcenter_type, type, rcenter: $i > $i > $o).
% 1.23/1.22 thf(rline_type, type, rline: $i > $o).
% 1.23/1.22 thf(vf_type, type, vf: $i > $i > $i).
% 1.23/1.22 thf(vd1128_type, type, vd1128: $i).
% 1.23/1.22 thf(vd1123_type, type, vd1123: $i).
% 1.23/1.22 thf(rcircle_type, type, rcircle: $i > $o).
% 1.23/1.22 thf(vd1127_type, type, vd1127: $i).
% 1.23/1.22 thf(vd1126_type, type, vd1126: $i).
% 1.23/1.22 thf(ron_type, type, ron: $i > $i > $o).
% 1.23/1.22 thf(rless_type, type, rless: $i > $i > $o).
% 1.23/1.22 thf(sk__2_type, type, sk__2: $i > $i > $i).
% 1.23/1.22 thf(vd1130_type, type, vd1130: $i).
% 1.23/1.22 thf(rpoint_type, type, rpoint: $i > $o).
% 1.23/1.22 thf(sk__4_type, type, sk__4: $i > $i > $i).
% 1.23/1.22 thf(vd1124_type, type, vd1124: $i).
% 1.23/1.22 thf(vd1125_type, type, vd1125: $i).
% 1.23/1.22 thf(vd1129_type, type, vd1129: $i).
% 1.23/1.22 thf('qu(cond(axiom(53), 0), imp(cond(axiom(53), 0)))', axiom,
% 1.23/1.22 (![Vd225:$i,Vd226:$i]:
% 1.23/1.22 ( ( ( ( Vd225 ) != ( Vd226 ) ) &
% 1.23/1.22 ( ?[Vd230:$i]: ( ( rpoint @ Vd230 ) & ( ( Vd226 ) = ( Vd230 ) ) ) ) &
% 1.23/1.23 ( ?[Vd229:$i]: ( ( rpoint @ Vd229 ) & ( ( Vd225 ) = ( Vd229 ) ) ) ) ) =>
% 1.23/1.23 ( ?[Vd231:$i]:
% 1.23/1.23 ( ( rcircle @ Vd231 ) & ( rcenter @ Vd225 @ Vd231 ) &
% 1.23/1.23 ( ron @ Vd226 @ Vd231 ) ) ) ))).
% 1.23/1.23 thf(zip_derived_cl41, plain,
% 1.23/1.23 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i]:
% 1.23/1.23 (((X1) != (X0))
% 1.23/1.23 | ~ (rpoint @ X0)
% 1.23/1.23 | ((X1) = (X2))
% 1.23/1.23 | ~ (rpoint @ X3)
% 1.23/1.23 | ((X2) != (X3))
% 1.23/1.23 | (rcircle @ (sk__2 @ X2 @ X1)))),
% 1.23/1.23 inference('cnf', [status(esa)],
% 1.23/1.23 [qu(cond(axiom(53), 0), imp(cond(axiom(53), 0)))])).
% 1.23/1.23 thf(zip_derived_cl492, plain,
% 1.23/1.23 (![X0 : $i, X1 : $i, X2 : $i]:
% 1.23/1.23 ( (rcircle @ (sk__2 @ X1 @ X0))
% 1.23/1.23 | ((X1) != (X2))
% 1.23/1.23 | ~ (rpoint @ X2)
% 1.23/1.23 | ((X0) = (X1))
% 1.23/1.23 | ~ (rpoint @ X0))),
% 1.23/1.23 inference('eq_res', [status(thm)], [zip_derived_cl41])).
% 1.23/1.23 thf(zip_derived_cl697, plain,
% 1.23/1.23 (![X0 : $i, X1 : $i]:
% 1.23/1.23 (~ (rpoint @ X0)
% 1.23/1.23 | ((X0) = (X1))
% 1.23/1.23 | ~ (rpoint @ X1)
% 1.23/1.23 | (rcircle @ (sk__2 @ X1 @ X0)))),
% 1.23/1.23 inference('eq_res', [status(thm)], [zip_derived_cl492])).
% 1.23/1.23 thf(zip_derived_cl42, plain,
% 1.23/1.23 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i]:
% 1.23/1.23 (((X1) != (X0))
% 1.23/1.23 | ~ (rpoint @ X0)
% 1.23/1.23 | ((X1) = (X2))
% 1.23/1.23 | ~ (rpoint @ X3)
% 1.23/1.23 | ((X2) != (X3))
% 1.23/1.23 | (rcenter @ X1 @ (sk__2 @ X2 @ X1)))),
% 1.23/1.23 inference('cnf', [status(esa)],
% 1.23/1.23 [qu(cond(axiom(53), 0), imp(cond(axiom(53), 0)))])).
% 1.23/1.23 thf(zip_derived_cl522, plain,
% 1.23/1.23 (![X0 : $i, X1 : $i, X2 : $i]:
% 1.23/1.23 ( (rcenter @ X0 @ (sk__2 @ X1 @ X0))
% 1.23/1.23 | ((X1) != (X2))
% 1.23/1.23 | ~ (rpoint @ X2)
% 1.23/1.23 | ((X0) = (X1))
% 1.23/1.23 | ~ (rpoint @ X0))),
% 1.23/1.23 inference('eq_res', [status(thm)], [zip_derived_cl42])).
% 1.23/1.23 thf(zip_derived_cl754, plain,
% 1.23/1.23 (![X0 : $i, X1 : $i]:
% 1.23/1.23 (~ (rpoint @ X0)
% 1.23/1.23 | ((X0) = (X1))
% 1.23/1.23 | ~ (rpoint @ X1)
% 1.23/1.23 | (rcenter @ X0 @ (sk__2 @ X1 @ X0)))),
% 1.23/1.23 inference('eq_res', [status(thm)], [zip_derived_cl522])).
% 1.23/1.23 thf(zip_derived_cl43, plain,
% 1.23/1.23 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i]:
% 1.23/1.23 (((X1) != (X0))
% 1.23/1.23 | ~ (rpoint @ X0)
% 1.23/1.23 | ((X1) = (X2))
% 1.23/1.23 | ~ (rpoint @ X3)
% 1.23/1.23 | ((X2) != (X3))
% 1.23/1.23 | (ron @ X2 @ (sk__2 @ X2 @ X1)))),
% 1.23/1.23 inference('cnf', [status(esa)],
% 1.23/1.23 [qu(cond(axiom(53), 0), imp(cond(axiom(53), 0)))])).
% 1.23/1.23 thf(zip_derived_cl537, plain,
% 1.23/1.23 (![X0 : $i, X1 : $i, X2 : $i]:
% 1.23/1.23 ( (ron @ X1 @ (sk__2 @ X1 @ X0))
% 1.23/1.23 | ((X1) != (X2))
% 1.23/1.23 | ~ (rpoint @ X2)
% 1.23/1.23 | ((X0) = (X1))
% 1.23/1.23 | ~ (rpoint @ X0))),
% 1.23/1.23 inference('eq_res', [status(thm)], [zip_derived_cl43])).
% 1.23/1.23 thf(zip_derived_cl755, plain,
% 1.23/1.23 (![X0 : $i, X1 : $i]:
% 1.23/1.23 (~ (rpoint @ X0)
% 1.23/1.23 | ((X0) = (X1))
% 1.23/1.23 | ~ (rpoint @ X1)
% 1.23/1.23 | (ron @ X1 @ (sk__2 @ X1 @ X0)))),
% 1.23/1.23 inference('eq_res', [status(thm)], [zip_derived_cl537])).
% 1.23/1.23 thf('qu(cond(axiom(51), 0), imp(cond(axiom(51), 0)))', axiom,
% 1.23/1.23 (![Vd217:$i,Vd218:$i]:
% 1.23/1.23 ( ( ( ( Vd217 ) != ( Vd218 ) ) &
% 1.23/1.23 ( ?[Vd221:$i]: ( ( rpoint @ Vd221 ) & ( ( Vd218 ) = ( Vd221 ) ) ) ) &
% 1.23/1.23 ( ?[Vd220:$i]: ( ( rpoint @ Vd220 ) & ( ( Vd217 ) = ( Vd220 ) ) ) ) ) =>
% 1.23/1.23 ( ?[Vd223:$i]:
% 1.23/1.23 ( ( rline @ Vd223 ) & ( ron @ Vd217 @ Vd223 ) &
% 1.23/1.23 ( ron @ Vd218 @ Vd223 ) ) ) ))).
% 1.23/1.23 thf(zip_derived_cl64, plain,
% 1.23/1.23 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i]:
% 1.23/1.23 (((X1) != (X0))
% 1.23/1.23 | ~ (rpoint @ X0)
% 1.23/1.23 | ((X1) = (X2))
% 1.23/1.23 | ~ (rpoint @ X3)
% 1.23/1.23 | ((X2) != (X3))
% 1.23/1.23 | (rline @ (sk__4 @ X2 @ X1)))),
% 1.23/1.23 inference('cnf', [status(esa)],
% 1.23/1.23 [qu(cond(axiom(51), 0), imp(cond(axiom(51), 0)))])).
% 1.23/1.23 thf(zip_derived_cl501, plain,
% 1.23/1.23 (![X0 : $i, X1 : $i, X2 : $i]:
% 1.23/1.23 ( (rline @ (sk__4 @ X1 @ X0))
% 1.23/1.23 | ((X1) != (X2))
% 1.23/1.23 | ~ (rpoint @ X2)
% 1.23/1.23 | ((X0) = (X1))
% 1.23/1.23 | ~ (rpoint @ X0))),
% 1.23/1.23 inference('eq_res', [status(thm)], [zip_derived_cl64])).
% 1.23/1.23 thf(zip_derived_cl698, plain,
% 1.23/1.23 (![X0 : $i, X1 : $i]:
% 1.23/1.23 (~ (rpoint @ X0)
% 1.23/1.23 | ((X0) = (X1))
% 1.23/1.23 | ~ (rpoint @ X1)
% 1.23/1.23 | (rline @ (sk__4 @ X1 @ X0)))),
% 1.23/1.23 inference('eq_res', [status(thm)], [zip_derived_cl501])).
% 1.23/1.23 thf(zip_derived_cl66, plain,
% 1.23/1.23 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i]:
% 1.23/1.23 (((X1) != (X0))
% 1.23/1.23 | ~ (rpoint @ X0)
% 1.23/1.23 | ((X1) = (X2))
% 1.23/1.23 | ~ (rpoint @ X3)
% 1.23/1.23 | ((X2) != (X3))
% 1.23/1.23 | (ron @ X2 @ (sk__4 @ X2 @ X1)))),
% 1.23/1.23 inference('cnf', [status(esa)],
% 1.23/1.23 [qu(cond(axiom(51), 0), imp(cond(axiom(51), 0)))])).
% 1.23/1.23 thf(zip_derived_cl562, plain,
% 1.23/1.23 (![X0 : $i, X1 : $i, X2 : $i]:
% 1.23/1.23 ( (ron @ X1 @ (sk__4 @ X1 @ X0))
% 1.23/1.23 | ((X1) != (X2))
% 1.23/1.23 | ~ (rpoint @ X2)
% 1.23/1.23 | ((X0) = (X1))
% 1.23/1.23 | ~ (rpoint @ X0))),
% 1.23/1.23 inference('eq_res', [status(thm)], [zip_derived_cl66])).
% 1.23/1.23 thf(zip_derived_cl772, plain,
% 1.23/1.23 (![X0 : $i, X1 : $i]:
% 1.23/1.23 (~ (rpoint @ X0)
% 1.23/1.23 | ((X0) = (X1))
% 1.23/1.23 | ~ (rpoint @ X1)
% 1.23/1.23 | (ron @ X1 @ (sk__4 @ X1 @ X0)))),
% 1.23/1.23 inference('eq_res', [status(thm)], [zip_derived_cl562])).
% 1.23/1.23 thf(zip_derived_cl65, plain,
% 1.23/1.23 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i]:
% 1.23/1.23 (((X1) != (X0))
% 1.23/1.23 | ~ (rpoint @ X0)
% 1.23/1.23 | ((X1) = (X2))
% 1.23/1.23 | ~ (rpoint @ X3)
% 1.23/1.23 | ((X2) != (X3))
% 1.23/1.23 | (ron @ X1 @ (sk__4 @ X2 @ X1)))),
% 1.23/1.23 inference('cnf', [status(esa)],
% 1.23/1.23 [qu(cond(axiom(51), 0), imp(cond(axiom(51), 0)))])).
% 1.23/1.23 thf(zip_derived_cl561, plain,
% 1.23/1.23 (![X0 : $i, X1 : $i, X2 : $i]:
% 1.23/1.23 ( (ron @ X0 @ (sk__4 @ X1 @ X0))
% 1.23/1.23 | ((X1) != (X2))
% 1.23/1.23 | ~ (rpoint @ X2)
% 1.23/1.23 | ((X0) = (X1))
% 1.23/1.23 | ~ (rpoint @ X0))),
% 1.23/1.23 inference('eq_res', [status(thm)], [zip_derived_cl65])).
% 1.23/1.23 thf(zip_derived_cl771, plain,
% 1.23/1.23 (![X0 : $i, X1 : $i]:
% 1.23/1.23 (~ (rpoint @ X0)
% 1.23/1.23 | ((X0) = (X1))
% 1.23/1.23 | ~ (rpoint @ X1)
% 1.23/1.23 | (ron @ X0 @ (sk__4 @ X1 @ X0)))),
% 1.23/1.23 inference('eq_res', [status(thm)], [zip_derived_cl561])).
% 1.23/1.23 thf(qe(259), conjecture,
% 1.23/1.23 (?[Vd1151:$i,Vd1152:$i]:
% 1.23/1.23 ( ( rline @ Vd1151 ) & ( ron @ vd1123 @ Vd1151 ) &
% 1.23/1.23 ( ron @ vd1125 @ Vd1151 ) & ( rcircle @ Vd1152 ) &
% 1.23/1.23 ( rcenter @ vd1123 @ Vd1152 ) & ( ron @ vd1127 @ Vd1152 ) ))).
% 1.23/1.23 thf(zf_stmt_0, negated_conjecture,
% 1.23/1.23 (~( ?[Vd1151:$i,Vd1152:$i]:
% 1.23/1.23 ( ( rline @ Vd1151 ) & ( ron @ vd1123 @ Vd1151 ) &
% 1.23/1.23 ( ron @ vd1125 @ Vd1151 ) & ( rcircle @ Vd1152 ) &
% 1.23/1.23 ( rcenter @ vd1123 @ Vd1152 ) & ( ron @ vd1127 @ Vd1152 ) ) )),
% 1.23/1.23 inference('cnf.neg', [status(esa)], [qe(259)])).
% 1.23/1.23 thf(zip_derived_cl0, plain,
% 1.23/1.23 (![X0 : $i, X1 : $i]:
% 1.23/1.23 (~ (rline @ X0)
% 1.23/1.23 | ~ (ron @ vd1123 @ X0)
% 1.23/1.23 | ~ (ron @ vd1125 @ X0)
% 1.23/1.23 | ~ (ron @ vd1127 @ X1)
% 1.23/1.23 | ~ (rcenter @ vd1123 @ X1)
% 1.23/1.23 | ~ (rcircle @ X1))),
% 1.23/1.23 inference('cnf', [status(esa)], [zf_stmt_0])).
% 1.23/1.23 thf('and(and(and(and(holds(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1133, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1132, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(242))))), 1131, 0), and(pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 2), pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 1))))), and(pred(conjunct1(conjunct2(conjunct2(242))), 2), pred(conjunct1(conjunct2(conjunct2(242))), 1))), and(pred(conjunct1(conjunct2(242)), 2), pred(conjunct1(conjunct2(242)), 1))), and(pred(conjunct1(242), 2), pred(conjunct1(242), 1)))', axiom,
% 1.23/1.23 (( rpoint @ vd1124 ) & ( ( vd1123 ) = ( vd1124 ) ) & ( rpoint @ vd1126 ) &
% 1.23/1.23 ( ( vd1125 ) = ( vd1126 ) ) & ( rpoint @ vd1128 ) &
% 1.23/1.23 ( ( vd1127 ) = ( vd1128 ) ) & ( rpoint @ vd1130 ) &
% 1.23/1.23 ( ( vd1129 ) = ( vd1130 ) ) & ( ( vd1123 ) != ( vd1125 ) ) &
% 1.23/1.23 ( ( vd1127 ) != ( vd1129 ) ) &
% 1.23/1.23 ( rless @ ( vf @ vd1127 @ vd1129 ) @ ( vf @ vd1123 @ vd1125 ) ))).
% 1.23/1.23 thf(zip_derived_cl18, plain, (((vd1125) = (vd1126))),
% 1.23/1.23 inference('cnf', [status(esa)],
% 1.23/1.23 [and(and(and(and(holds(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1133, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1132, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(242))))), 1131, 0), and(pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 2), pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 1))))), and(pred(conjunct1(conjunct2(conjunct2(242))), 2), pred(conjunct1(conjunct2(conjunct2(242))), 1))), and(pred(conjunct1(conjunct2(242)), 2), pred(conjunct1(conjunct2(242)), 1))), and(pred(conjunct1(242), 2), pred(conjunct1(242), 1)))])).
% 1.23/1.23 thf(zip_derived_cl20, plain, (((vd1127) = (vd1128))),
% 1.23/1.23 inference('cnf', [status(esa)],
% 1.23/1.23 [and(and(and(and(holds(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1133, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1132, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(242))))), 1131, 0), and(pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 2), pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 1))))), and(pred(conjunct1(conjunct2(conjunct2(242))), 2), pred(conjunct1(conjunct2(conjunct2(242))), 1))), and(pred(conjunct1(conjunct2(242)), 2), pred(conjunct1(conjunct2(242)), 1))), and(pred(conjunct1(242), 2), pred(conjunct1(242), 1)))])).
% 1.23/1.23 thf(zip_derived_cl293, plain,
% 1.23/1.23 (![X0 : $i, X1 : $i]:
% 1.23/1.23 (~ (rline @ X0)
% 1.23/1.23 | ~ (ron @ vd1123 @ X0)
% 1.23/1.23 | ~ (ron @ vd1126 @ X0)
% 1.23/1.23 | ~ (ron @ vd1128 @ X1)
% 1.23/1.23 | ~ (rcenter @ vd1123 @ X1)
% 1.23/1.23 | ~ (rcircle @ X1))),
% 1.23/1.23 inference('demod', [status(thm)],
% 1.23/1.23 [zip_derived_cl0, zip_derived_cl18, zip_derived_cl20])).
% 1.23/1.23 thf(zip_derived_cl16, plain, (((vd1123) = (vd1124))),
% 1.23/1.23 inference('cnf', [status(esa)],
% 1.23/1.23 [and(and(and(and(holds(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1133, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1132, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(242))))), 1131, 0), and(pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 2), pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 1))))), and(pred(conjunct1(conjunct2(conjunct2(242))), 2), pred(conjunct1(conjunct2(conjunct2(242))), 1))), and(pred(conjunct1(conjunct2(242)), 2), pred(conjunct1(conjunct2(242)), 1))), and(pred(conjunct1(242), 2), pred(conjunct1(242), 1)))])).
% 1.23/1.23 thf('holds(258, 1150, 0)', axiom, (( vd1123 ) = ( vd1129 ))).
% 1.23/1.23 thf(zip_derived_cl1, plain, (((vd1123) = (vd1129))),
% 1.23/1.23 inference('cnf', [status(esa)], [holds(258, 1150, 0)])).
% 1.23/1.23 thf(zip_derived_cl16, plain, (((vd1123) = (vd1124))),
% 1.23/1.23 inference('cnf', [status(esa)],
% 1.23/1.23 [and(and(and(and(holds(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1133, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1132, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(242))))), 1131, 0), and(pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 2), pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 1))))), and(pred(conjunct1(conjunct2(conjunct2(242))), 2), pred(conjunct1(conjunct2(conjunct2(242))), 1))), and(pred(conjunct1(conjunct2(242)), 2), pred(conjunct1(conjunct2(242)), 1))), and(pred(conjunct1(242), 2), pred(conjunct1(242), 1)))])).
% 1.23/1.23 thf(zip_derived_cl288, plain, (((vd1124) = (vd1129))),
% 1.23/1.23 inference('demod', [status(thm)], [zip_derived_cl1, zip_derived_cl16])).
% 1.23/1.23 thf(zip_derived_cl22, plain, (((vd1129) = (vd1130))),
% 1.23/1.23 inference('cnf', [status(esa)],
% 1.23/1.23 [and(and(and(and(holds(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1133, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1132, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(242))))), 1131, 0), and(pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 2), pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 1))))), and(pred(conjunct1(conjunct2(conjunct2(242))), 2), pred(conjunct1(conjunct2(conjunct2(242))), 1))), and(pred(conjunct1(conjunct2(242)), 2), pred(conjunct1(conjunct2(242)), 1))), and(pred(conjunct1(242), 2), pred(conjunct1(242), 1)))])).
% 1.23/1.23 thf(zip_derived_cl291, plain, (((vd1124) = (vd1130))),
% 1.23/1.23 inference('demod', [status(thm)], [zip_derived_cl288, zip_derived_cl22])).
% 1.23/1.23 thf(zip_derived_cl292, plain, (((vd1123) = (vd1130))),
% 1.23/1.23 inference('demod', [status(thm)], [zip_derived_cl16, zip_derived_cl291])).
% 1.23/1.23 thf(zip_derived_cl292, plain, (((vd1123) = (vd1130))),
% 1.23/1.23 inference('demod', [status(thm)], [zip_derived_cl16, zip_derived_cl291])).
% 1.23/1.23 thf(zip_derived_cl300, plain,
% 1.23/1.23 (![X0 : $i, X1 : $i]:
% 1.23/1.23 (~ (rline @ X0)
% 1.23/1.23 | ~ (ron @ vd1130 @ X0)
% 1.23/1.23 | ~ (ron @ vd1126 @ X0)
% 1.23/1.23 | ~ (ron @ vd1128 @ X1)
% 1.23/1.23 | ~ (rcenter @ vd1130 @ X1)
% 1.23/1.23 | ~ (rcircle @ X1))),
% 1.23/1.23 inference('demod', [status(thm)],
% 1.23/1.23 [zip_derived_cl293, zip_derived_cl292, zip_derived_cl292])).
% 1.23/1.23 thf(zip_derived_cl818, plain,
% 1.23/1.23 (![X0 : $i, X1 : $i]:
% 1.23/1.23 (~ (rpoint @ X0)
% 1.23/1.23 | ((vd1130) = (X0))
% 1.23/1.23 | ~ (rpoint @ vd1130)
% 1.23/1.23 | ~ (rcircle @ X1)
% 1.23/1.23 | ~ (rcenter @ vd1130 @ X1)
% 1.23/1.23 | ~ (ron @ vd1128 @ X1)
% 1.23/1.23 | ~ (ron @ vd1126 @ (sk__4 @ X0 @ vd1130))
% 1.23/1.23 | ~ (rline @ (sk__4 @ X0 @ vd1130)))),
% 1.23/1.23 inference('sup-', [status(thm)], [zip_derived_cl771, zip_derived_cl300])).
% 1.23/1.23 thf(zip_derived_cl15, plain, ( (rpoint @ vd1124)),
% 1.23/1.23 inference('cnf', [status(esa)],
% 1.23/1.23 [and(and(and(and(holds(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1133, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1132, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(242))))), 1131, 0), and(pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 2), pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 1))))), and(pred(conjunct1(conjunct2(conjunct2(242))), 2), pred(conjunct1(conjunct2(conjunct2(242))), 1))), and(pred(conjunct1(conjunct2(242)), 2), pred(conjunct1(conjunct2(242)), 1))), and(pred(conjunct1(242), 2), pred(conjunct1(242), 1)))])).
% 1.23/1.23 thf(zip_derived_cl291, plain, (((vd1124) = (vd1130))),
% 1.23/1.23 inference('demod', [status(thm)], [zip_derived_cl288, zip_derived_cl22])).
% 1.23/1.23 thf(zip_derived_cl313, plain, ( (rpoint @ vd1130)),
% 1.23/1.23 inference('demod', [status(thm)], [zip_derived_cl15, zip_derived_cl291])).
% 1.23/1.23 thf(zip_derived_cl825, plain,
% 1.23/1.23 (![X0 : $i, X1 : $i]:
% 1.23/1.23 (~ (rpoint @ X0)
% 1.23/1.23 | ((vd1130) = (X0))
% 1.23/1.23 | ~ (rcircle @ X1)
% 1.23/1.23 | ~ (rcenter @ vd1130 @ X1)
% 1.23/1.23 | ~ (ron @ vd1128 @ X1)
% 1.23/1.23 | ~ (ron @ vd1126 @ (sk__4 @ X0 @ vd1130))
% 1.23/1.23 | ~ (rline @ (sk__4 @ X0 @ vd1130)))),
% 1.23/1.23 inference('demod', [status(thm)], [zip_derived_cl818, zip_derived_cl313])).
% 1.23/1.23 thf(zip_derived_cl888, plain,
% 1.23/1.23 (![X0 : $i]:
% 1.23/1.23 (~ (rpoint @ vd1126)
% 1.23/1.23 | ((vd1130) = (vd1126))
% 1.23/1.23 | ~ (rpoint @ vd1130)
% 1.23/1.23 | ~ (rline @ (sk__4 @ vd1126 @ vd1130))
% 1.23/1.23 | ~ (ron @ vd1128 @ X0)
% 1.23/1.23 | ~ (rcenter @ vd1130 @ X0)
% 1.23/1.23 | ~ (rcircle @ X0)
% 1.23/1.23 | ((vd1130) = (vd1126))
% 1.23/1.23 | ~ (rpoint @ vd1126))),
% 1.23/1.23 inference('sup-', [status(thm)], [zip_derived_cl772, zip_derived_cl825])).
% 1.23/1.23 thf(zip_derived_cl17, plain, ( (rpoint @ vd1126)),
% 1.23/1.23 inference('cnf', [status(esa)],
% 1.23/1.23 [and(and(and(and(holds(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1133, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1132, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(242))))), 1131, 0), and(pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 2), pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 1))))), and(pred(conjunct1(conjunct2(conjunct2(242))), 2), pred(conjunct1(conjunct2(conjunct2(242))), 1))), and(pred(conjunct1(conjunct2(242)), 2), pred(conjunct1(conjunct2(242)), 1))), and(pred(conjunct1(242), 2), pred(conjunct1(242), 1)))])).
% 1.23/1.23 thf(zip_derived_cl313, plain, ( (rpoint @ vd1130)),
% 1.23/1.23 inference('demod', [status(thm)], [zip_derived_cl15, zip_derived_cl291])).
% 1.23/1.23 thf(zip_derived_cl17, plain, ( (rpoint @ vd1126)),
% 1.23/1.23 inference('cnf', [status(esa)],
% 1.23/1.23 [and(and(and(and(holds(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1133, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1132, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(242))))), 1131, 0), and(pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 2), pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 1))))), and(pred(conjunct1(conjunct2(conjunct2(242))), 2), pred(conjunct1(conjunct2(conjunct2(242))), 1))), and(pred(conjunct1(conjunct2(242)), 2), pred(conjunct1(conjunct2(242)), 1))), and(pred(conjunct1(242), 2), pred(conjunct1(242), 1)))])).
% 1.23/1.23 thf(zip_derived_cl889, plain,
% 1.23/1.23 (![X0 : $i]:
% 1.23/1.23 (((vd1130) = (vd1126))
% 1.23/1.23 | ~ (rline @ (sk__4 @ vd1126 @ vd1130))
% 1.23/1.23 | ~ (ron @ vd1128 @ X0)
% 1.23/1.23 | ~ (rcenter @ vd1130 @ X0)
% 1.23/1.23 | ~ (rcircle @ X0)
% 1.23/1.23 | ((vd1130) = (vd1126)))),
% 1.23/1.23 inference('demod', [status(thm)],
% 1.23/1.23 [zip_derived_cl888, zip_derived_cl17, zip_derived_cl313,
% 1.23/1.23 zip_derived_cl17])).
% 1.23/1.23 thf(zip_derived_cl890, plain,
% 1.23/1.23 (![X0 : $i]:
% 1.23/1.23 (~ (rcircle @ X0)
% 1.23/1.23 | ~ (rcenter @ vd1130 @ X0)
% 1.23/1.23 | ~ (ron @ vd1128 @ X0)
% 1.23/1.23 | ~ (rline @ (sk__4 @ vd1126 @ vd1130))
% 1.23/1.23 | ((vd1130) = (vd1126)))),
% 1.23/1.23 inference('simplify', [status(thm)], [zip_derived_cl889])).
% 1.23/1.23 thf(zip_derived_cl23, plain, (((vd1123) != (vd1125))),
% 1.23/1.23 inference('cnf', [status(esa)],
% 1.23/1.23 [and(and(and(and(holds(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1133, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1132, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(242))))), 1131, 0), and(pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 2), pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 1))))), and(pred(conjunct1(conjunct2(conjunct2(242))), 2), pred(conjunct1(conjunct2(conjunct2(242))), 1))), and(pred(conjunct1(conjunct2(242)), 2), pred(conjunct1(conjunct2(242)), 1))), and(pred(conjunct1(242), 2), pred(conjunct1(242), 1)))])).
% 1.23/1.23 thf(zip_derived_cl1, plain, (((vd1123) = (vd1129))),
% 1.23/1.23 inference('cnf', [status(esa)], [holds(258, 1150, 0)])).
% 1.23/1.23 thf(zip_derived_cl287, plain, (((vd1129) != (vd1125))),
% 1.23/1.23 inference('demod', [status(thm)], [zip_derived_cl23, zip_derived_cl1])).
% 1.23/1.23 thf(zip_derived_cl18, plain, (((vd1125) = (vd1126))),
% 1.23/1.23 inference('cnf', [status(esa)],
% 1.23/1.23 [and(and(and(and(holds(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1133, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1132, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(242))))), 1131, 0), and(pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 2), pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 1))))), and(pred(conjunct1(conjunct2(conjunct2(242))), 2), pred(conjunct1(conjunct2(conjunct2(242))), 1))), and(pred(conjunct1(conjunct2(242)), 2), pred(conjunct1(conjunct2(242)), 1))), and(pred(conjunct1(242), 2), pred(conjunct1(242), 1)))])).
% 1.23/1.23 thf(zip_derived_cl289, plain, (((vd1129) != (vd1126))),
% 1.23/1.23 inference('demod', [status(thm)], [zip_derived_cl287, zip_derived_cl18])).
% 1.23/1.23 thf(zip_derived_cl22, plain, (((vd1129) = (vd1130))),
% 1.23/1.23 inference('cnf', [status(esa)],
% 1.23/1.23 [and(and(and(and(holds(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1133, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1132, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(242))))), 1131, 0), and(pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 2), pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 1))))), and(pred(conjunct1(conjunct2(conjunct2(242))), 2), pred(conjunct1(conjunct2(conjunct2(242))), 1))), and(pred(conjunct1(conjunct2(242)), 2), pred(conjunct1(conjunct2(242)), 1))), and(pred(conjunct1(242), 2), pred(conjunct1(242), 1)))])).
% 1.23/1.23 thf(zip_derived_cl294, plain, (((vd1130) != (vd1126))),
% 1.23/1.23 inference('demod', [status(thm)], [zip_derived_cl289, zip_derived_cl22])).
% 1.23/1.23 thf(zip_derived_cl891, plain,
% 1.23/1.23 (![X0 : $i]:
% 1.23/1.23 (~ (rcircle @ X0)
% 1.23/1.23 | ~ (rcenter @ vd1130 @ X0)
% 1.23/1.23 | ~ (ron @ vd1128 @ X0)
% 1.23/1.23 | ~ (rline @ (sk__4 @ vd1126 @ vd1130)))),
% 1.23/1.23 inference('simplify_reflect-', [status(thm)],
% 1.23/1.23 [zip_derived_cl890, zip_derived_cl294])).
% 1.23/1.23 thf(zip_derived_cl892, plain,
% 1.23/1.23 (![X0 : $i]:
% 1.23/1.23 (~ (rpoint @ vd1126)
% 1.23/1.23 | ((vd1130) = (vd1126))
% 1.23/1.23 | ~ (rpoint @ vd1130)
% 1.23/1.23 | ~ (ron @ vd1128 @ X0)
% 1.23/1.23 | ~ (rcenter @ vd1130 @ X0)
% 1.23/1.23 | ~ (rcircle @ X0))),
% 1.23/1.23 inference('sup-', [status(thm)], [zip_derived_cl698, zip_derived_cl891])).
% 1.23/1.23 thf(zip_derived_cl17, plain, ( (rpoint @ vd1126)),
% 1.23/1.23 inference('cnf', [status(esa)],
% 1.23/1.23 [and(and(and(and(holds(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1133, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1132, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(242))))), 1131, 0), and(pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 2), pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 1))))), and(pred(conjunct1(conjunct2(conjunct2(242))), 2), pred(conjunct1(conjunct2(conjunct2(242))), 1))), and(pred(conjunct1(conjunct2(242)), 2), pred(conjunct1(conjunct2(242)), 1))), and(pred(conjunct1(242), 2), pred(conjunct1(242), 1)))])).
% 1.23/1.23 thf(zip_derived_cl313, plain, ( (rpoint @ vd1130)),
% 1.23/1.23 inference('demod', [status(thm)], [zip_derived_cl15, zip_derived_cl291])).
% 1.23/1.23 thf(zip_derived_cl893, plain,
% 1.23/1.23 (![X0 : $i]:
% 1.23/1.23 (((vd1130) = (vd1126))
% 1.23/1.23 | ~ (ron @ vd1128 @ X0)
% 1.23/1.23 | ~ (rcenter @ vd1130 @ X0)
% 1.23/1.23 | ~ (rcircle @ X0))),
% 1.23/1.23 inference('demod', [status(thm)],
% 1.23/1.23 [zip_derived_cl892, zip_derived_cl17, zip_derived_cl313])).
% 1.23/1.23 thf(zip_derived_cl294, plain, (((vd1130) != (vd1126))),
% 1.23/1.23 inference('demod', [status(thm)], [zip_derived_cl289, zip_derived_cl22])).
% 1.23/1.23 thf(zip_derived_cl894, plain,
% 1.23/1.23 (![X0 : $i]:
% 1.23/1.23 (~ (ron @ vd1128 @ X0) | ~ (rcenter @ vd1130 @ X0) | ~ (rcircle @ X0))),
% 1.23/1.23 inference('simplify_reflect-', [status(thm)],
% 1.23/1.23 [zip_derived_cl893, zip_derived_cl294])).
% 1.23/1.23 thf(zip_derived_cl895, plain,
% 1.23/1.23 (![X0 : $i]:
% 1.23/1.23 (~ (rpoint @ vd1128)
% 1.23/1.23 | ((X0) = (vd1128))
% 1.23/1.23 | ~ (rpoint @ X0)
% 1.23/1.23 | ~ (rcircle @ (sk__2 @ vd1128 @ X0))
% 1.23/1.23 | ~ (rcenter @ vd1130 @ (sk__2 @ vd1128 @ X0)))),
% 1.23/1.23 inference('sup-', [status(thm)], [zip_derived_cl755, zip_derived_cl894])).
% 1.23/1.23 thf(zip_derived_cl19, plain, ( (rpoint @ vd1128)),
% 1.23/1.23 inference('cnf', [status(esa)],
% 1.23/1.23 [and(and(and(and(holds(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1133, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1132, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(242))))), 1131, 0), and(pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 2), pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 1))))), and(pred(conjunct1(conjunct2(conjunct2(242))), 2), pred(conjunct1(conjunct2(conjunct2(242))), 1))), and(pred(conjunct1(conjunct2(242)), 2), pred(conjunct1(conjunct2(242)), 1))), and(pred(conjunct1(242), 2), pred(conjunct1(242), 1)))])).
% 1.23/1.23 thf(zip_derived_cl898, plain,
% 1.23/1.23 (![X0 : $i]:
% 1.23/1.23 (((X0) = (vd1128))
% 1.23/1.23 | ~ (rpoint @ X0)
% 1.23/1.23 | ~ (rcircle @ (sk__2 @ vd1128 @ X0))
% 1.23/1.23 | ~ (rcenter @ vd1130 @ (sk__2 @ vd1128 @ X0)))),
% 1.23/1.23 inference('demod', [status(thm)], [zip_derived_cl895, zip_derived_cl19])).
% 1.23/1.23 thf(zip_derived_cl901, plain,
% 1.23/1.23 ((~ (rpoint @ vd1128)
% 1.23/1.23 | ((vd1130) = (vd1128))
% 1.23/1.23 | ~ (rpoint @ vd1130)
% 1.23/1.23 | ~ (rcircle @ (sk__2 @ vd1128 @ vd1130))
% 1.23/1.23 | ~ (rpoint @ vd1130)
% 1.23/1.23 | ((vd1130) = (vd1128)))),
% 1.23/1.23 inference('sup-', [status(thm)], [zip_derived_cl754, zip_derived_cl898])).
% 1.23/1.23 thf(zip_derived_cl19, plain, ( (rpoint @ vd1128)),
% 1.23/1.23 inference('cnf', [status(esa)],
% 1.23/1.23 [and(and(and(and(holds(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1133, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1132, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(242))))), 1131, 0), and(pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 2), pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 1))))), and(pred(conjunct1(conjunct2(conjunct2(242))), 2), pred(conjunct1(conjunct2(conjunct2(242))), 1))), and(pred(conjunct1(conjunct2(242)), 2), pred(conjunct1(conjunct2(242)), 1))), and(pred(conjunct1(242), 2), pred(conjunct1(242), 1)))])).
% 1.23/1.23 thf(zip_derived_cl313, plain, ( (rpoint @ vd1130)),
% 1.23/1.23 inference('demod', [status(thm)], [zip_derived_cl15, zip_derived_cl291])).
% 1.23/1.23 thf(zip_derived_cl313, plain, ( (rpoint @ vd1130)),
% 1.23/1.23 inference('demod', [status(thm)], [zip_derived_cl15, zip_derived_cl291])).
% 1.23/1.23 thf(zip_derived_cl902, plain,
% 1.23/1.23 ((((vd1130) = (vd1128))
% 1.23/1.23 | ~ (rcircle @ (sk__2 @ vd1128 @ vd1130))
% 1.23/1.23 | ((vd1130) = (vd1128)))),
% 1.23/1.23 inference('demod', [status(thm)],
% 1.23/1.23 [zip_derived_cl901, zip_derived_cl19, zip_derived_cl313,
% 1.23/1.23 zip_derived_cl313])).
% 1.23/1.23 thf(zip_derived_cl903, plain,
% 1.23/1.23 ((~ (rcircle @ (sk__2 @ vd1128 @ vd1130)) | ((vd1130) = (vd1128)))),
% 1.23/1.23 inference('simplify', [status(thm)], [zip_derived_cl902])).
% 1.23/1.23 thf(zip_derived_cl24, plain, (((vd1127) != (vd1129))),
% 1.23/1.23 inference('cnf', [status(esa)],
% 1.23/1.23 [and(and(and(and(holds(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1133, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1132, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(242))))), 1131, 0), and(pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 2), pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 1))))), and(pred(conjunct1(conjunct2(conjunct2(242))), 2), pred(conjunct1(conjunct2(conjunct2(242))), 1))), and(pred(conjunct1(conjunct2(242)), 2), pred(conjunct1(conjunct2(242)), 1))), and(pred(conjunct1(242), 2), pred(conjunct1(242), 1)))])).
% 1.23/1.23 thf(zip_derived_cl20, plain, (((vd1127) = (vd1128))),
% 1.23/1.23 inference('cnf', [status(esa)],
% 1.23/1.23 [and(and(and(and(holds(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1133, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1132, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(242))))), 1131, 0), and(pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 2), pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 1))))), and(pred(conjunct1(conjunct2(conjunct2(242))), 2), pred(conjunct1(conjunct2(conjunct2(242))), 1))), and(pred(conjunct1(conjunct2(242)), 2), pred(conjunct1(conjunct2(242)), 1))), and(pred(conjunct1(242), 2), pred(conjunct1(242), 1)))])).
% 1.23/1.23 thf(zip_derived_cl290, plain, (((vd1128) != (vd1129))),
% 1.23/1.23 inference('demod', [status(thm)], [zip_derived_cl24, zip_derived_cl20])).
% 1.23/1.23 thf(zip_derived_cl22, plain, (((vd1129) = (vd1130))),
% 1.23/1.23 inference('cnf', [status(esa)],
% 1.23/1.23 [and(and(and(and(holds(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1133, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1132, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(242))))), 1131, 0), and(pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 2), pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 1))))), and(pred(conjunct1(conjunct2(conjunct2(242))), 2), pred(conjunct1(conjunct2(conjunct2(242))), 1))), and(pred(conjunct1(conjunct2(242)), 2), pred(conjunct1(conjunct2(242)), 1))), and(pred(conjunct1(242), 2), pred(conjunct1(242), 1)))])).
% 1.23/1.23 thf(zip_derived_cl296, plain, (((vd1128) != (vd1130))),
% 1.23/1.23 inference('demod', [status(thm)], [zip_derived_cl290, zip_derived_cl22])).
% 1.23/1.23 thf(zip_derived_cl904, plain, (~ (rcircle @ (sk__2 @ vd1128 @ vd1130))),
% 1.23/1.23 inference('simplify_reflect-', [status(thm)],
% 1.23/1.23 [zip_derived_cl903, zip_derived_cl296])).
% 1.23/1.23 thf(zip_derived_cl905, plain,
% 1.23/1.23 ((~ (rpoint @ vd1128) | ((vd1130) = (vd1128)) | ~ (rpoint @ vd1130))),
% 1.23/1.23 inference('sup-', [status(thm)], [zip_derived_cl697, zip_derived_cl904])).
% 1.23/1.23 thf(zip_derived_cl19, plain, ( (rpoint @ vd1128)),
% 1.23/1.23 inference('cnf', [status(esa)],
% 1.23/1.23 [and(and(and(and(holds(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1133, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1132, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(242))))), 1131, 0), and(pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 2), pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 1))))), and(pred(conjunct1(conjunct2(conjunct2(242))), 2), pred(conjunct1(conjunct2(conjunct2(242))), 1))), and(pred(conjunct1(conjunct2(242)), 2), pred(conjunct1(conjunct2(242)), 1))), and(pred(conjunct1(242), 2), pred(conjunct1(242), 1)))])).
% 1.23/1.23 thf(zip_derived_cl313, plain, ( (rpoint @ vd1130)),
% 1.23/1.23 inference('demod', [status(thm)], [zip_derived_cl15, zip_derived_cl291])).
% 1.23/1.23 thf(zip_derived_cl906, plain, (((vd1130) = (vd1128))),
% 1.23/1.23 inference('demod', [status(thm)],
% 1.23/1.23 [zip_derived_cl905, zip_derived_cl19, zip_derived_cl313])).
% 1.23/1.23 thf(zip_derived_cl296, plain, (((vd1128) != (vd1130))),
% 1.23/1.23 inference('demod', [status(thm)], [zip_derived_cl290, zip_derived_cl22])).
% 1.23/1.23 thf(zip_derived_cl907, plain, ($false),
% 1.23/1.23 inference('simplify_reflect-', [status(thm)],
% 1.23/1.23 [zip_derived_cl906, zip_derived_cl296])).
% 1.23/1.23
% 1.23/1.23 % SZS output end Refutation
% 1.23/1.23
% 1.23/1.23
% 1.23/1.23 % Terminating...
% 1.86/1.45 % Runner terminated.
% 1.86/1.46 % Zipperpin 1.5 exiting
%------------------------------------------------------------------------------