TSTP Solution File: GEO282+1 by Zipperpin---2.1.9999
View Problem
- Process Solution
%------------------------------------------------------------------------------
% File : Zipperpin---2.1.9999
% Problem : GEO282+1 : TPTP v8.1.2. Released v4.1.0.
% Transfm : NO INFORMATION
% Format : NO INFORMATION
% Command : python3 /export/starexec/sandbox2/solver/bin/portfolio.lams.parallel.py %s %d /export/starexec/sandbox2/tmp/tmp.zYq807ADhv true
% Computer : n014.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 23:58:14 EDT 2023
% Result : Theorem 40.78s 6.51s
% Output : Refutation 40.78s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.00/0.14 % Problem : GEO282+1 : TPTP v8.1.2. Released v4.1.0.
% 0.00/0.15 % Command : python3 /export/starexec/sandbox2/solver/bin/portfolio.lams.parallel.py %s %d /export/starexec/sandbox2/tmp/tmp.zYq807ADhv true
% 0.15/0.36 % Computer : n014.cluster.edu
% 0.15/0.36 % Model : x86_64 x86_64
% 0.15/0.36 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.15/0.36 % Memory : 8042.1875MB
% 0.15/0.36 % OS : Linux 3.10.0-693.el7.x86_64
% 0.15/0.36 % CPULimit : 300
% 0.15/0.36 % WCLimit : 300
% 0.15/0.36 % DateTime : Tue Aug 29 23:12:30 EDT 2023
% 0.15/0.36 % CPUTime :
% 0.15/0.36 % Running portfolio for 300 s
% 0.15/0.36 % File : /export/starexec/sandbox2/benchmark/theBenchmark.p
% 0.15/0.37 % Number of cores: 8
% 0.15/0.37 % Python version: Python 3.6.8
% 0.15/0.37 % Running in FO mode
% 0.22/0.66 % Total configuration time : 435
% 0.22/0.66 % Estimated wc time : 1092
% 0.22/0.66 % Estimated cpu time (7 cpus) : 156.0
% 0.22/0.73 % /export/starexec/sandbox2/solver/bin/fo/fo6_bce.sh running for 75s
% 0.22/0.78 % /export/starexec/sandbox2/solver/bin/fo/fo3_bce.sh running for 75s
% 0.22/0.78 % /export/starexec/sandbox2/solver/bin/fo/fo13.sh running for 50s
% 0.22/0.78 % /export/starexec/sandbox2/solver/bin/fo/fo1_av.sh running for 75s
% 0.22/0.78 % /export/starexec/sandbox2/solver/bin/fo/fo7.sh running for 63s
% 0.22/0.78 % /export/starexec/sandbox2/solver/bin/fo/fo4.sh running for 50s
% 0.22/0.78 % /export/starexec/sandbox2/solver/bin/fo/fo5.sh running for 50s
% 1.37/0.96 % /export/starexec/sandbox2/solver/bin/fo/fo1_lcnf.sh running for 50s
% 40.78/6.51 % Solved by fo/fo5.sh.
% 40.78/6.51 % done 4464 iterations in 5.700s
% 40.78/6.51 % SZS status Theorem for '/export/starexec/sandbox2/benchmark/theBenchmark.p'
% 40.78/6.51 % SZS output start Refutation
% 40.78/6.51 thf(vd1129_type, type, vd1129: $i).
% 40.78/6.51 thf(vd1127_type, type, vd1127: $i).
% 40.78/6.51 thf(vd1130_type, type, vd1130: $i).
% 40.78/6.51 thf(vd1124_type, type, vd1124: $i).
% 40.78/6.51 thf(ron_type, type, ron: $i > $i > $o).
% 40.78/6.51 thf(sk__type, type, sk_: $i > $i > $i).
% 40.78/6.51 thf(vd1145_type, type, vd1145: $i).
% 40.78/6.51 thf(vf_type, type, vf: $i > $i > $i).
% 40.78/6.51 thf(vd1128_type, type, vd1128: $i).
% 40.78/6.51 thf(vd1123_type, type, vd1123: $i).
% 40.78/6.51 thf(vd1146_type, type, vd1146: $i).
% 40.78/6.51 thf(rless_type, type, rless: $i > $i > $o).
% 40.78/6.51 thf(sk__14_type, type, sk__14: $i > $i > $i).
% 40.78/6.51 thf(vd1125_type, type, vd1125: $i).
% 40.78/6.51 thf(rinside_type, type, rinside: $i > $i > $o).
% 40.78/6.51 thf(rcircle_type, type, rcircle: $i > $o).
% 40.78/6.51 thf(rpoint_type, type, rpoint: $i > $o).
% 40.78/6.51 thf(vd1126_type, type, vd1126: $i).
% 40.78/6.51 thf(rintersect_type, type, rintersect: $i > $i > $o).
% 40.78/6.51 thf(rcenter_type, type, rcenter: $i > $i > $o).
% 40.78/6.51 thf('qu(cond(axiom(53), 0), imp(cond(axiom(53), 0)))', axiom,
% 40.78/6.51 (![Vd225:$i,Vd226:$i]:
% 40.78/6.51 ( ( ( ( Vd225 ) != ( Vd226 ) ) &
% 40.78/6.51 ( ?[Vd230:$i]: ( ( rpoint @ Vd230 ) & ( ( Vd226 ) = ( Vd230 ) ) ) ) &
% 40.78/6.51 ( ?[Vd229:$i]: ( ( rpoint @ Vd229 ) & ( ( Vd225 ) = ( Vd229 ) ) ) ) ) =>
% 40.78/6.51 ( ?[Vd231:$i]:
% 40.78/6.51 ( ( rcircle @ Vd231 ) & ( rcenter @ Vd225 @ Vd231 ) &
% 40.78/6.51 ( ron @ Vd226 @ Vd231 ) ) ) ))).
% 40.78/6.51 thf(zip_derived_cl37, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i]:
% 40.78/6.51 (((X1) != (X0))
% 40.78/6.51 | ~ (rpoint @ X0)
% 40.78/6.51 | ((X1) = (X2))
% 40.78/6.51 | ~ (rpoint @ X3)
% 40.78/6.51 | ((X2) != (X3))
% 40.78/6.51 | (ron @ X2 @ (sk_ @ X2 @ X1)))),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [qu(cond(axiom(53), 0), imp(cond(axiom(53), 0)))])).
% 40.78/6.51 thf(zip_derived_cl428, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i]:
% 40.78/6.51 ( (ron @ X1 @ (sk_ @ X1 @ X0))
% 40.78/6.51 | ((X1) != (X2))
% 40.78/6.51 | ~ (rpoint @ X2)
% 40.78/6.51 | ((X0) = (X1))
% 40.78/6.51 | ~ (rpoint @ X0))),
% 40.78/6.51 inference('eq_res', [status(thm)], [zip_derived_cl37])).
% 40.78/6.51 thf(zip_derived_cl761, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i]:
% 40.78/6.51 (~ (rpoint @ X0)
% 40.78/6.51 | ((X0) = (X1))
% 40.78/6.51 | ~ (rpoint @ X1)
% 40.78/6.51 | (ron @ X1 @ (sk_ @ X1 @ X0)))),
% 40.78/6.51 inference('eq_res', [status(thm)], [zip_derived_cl428])).
% 40.78/6.51 thf(zip_derived_cl36, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i]:
% 40.78/6.51 (((X1) != (X0))
% 40.78/6.51 | ~ (rpoint @ X0)
% 40.78/6.51 | ((X1) = (X2))
% 40.78/6.51 | ~ (rpoint @ X3)
% 40.78/6.51 | ((X2) != (X3))
% 40.78/6.51 | (rcenter @ X1 @ (sk_ @ X2 @ X1)))),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [qu(cond(axiom(53), 0), imp(cond(axiom(53), 0)))])).
% 40.78/6.51 thf(zip_derived_cl408, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i]:
% 40.78/6.51 ( (rcenter @ X0 @ (sk_ @ X1 @ X0))
% 40.78/6.51 | ((X1) != (X2))
% 40.78/6.51 | ~ (rpoint @ X2)
% 40.78/6.51 | ((X0) = (X1))
% 40.78/6.51 | ~ (rpoint @ X0))),
% 40.78/6.51 inference('eq_res', [status(thm)], [zip_derived_cl36])).
% 40.78/6.51 thf(zip_derived_cl410, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i]:
% 40.78/6.51 (~ (rpoint @ X0)
% 40.78/6.51 | ((X0) = (X1))
% 40.78/6.51 | ~ (rpoint @ X1)
% 40.78/6.51 | (rcenter @ X0 @ (sk_ @ X1 @ X0)))),
% 40.78/6.51 inference('eq_res', [status(thm)], [zip_derived_cl408])).
% 40.78/6.51 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,
% 40.78/6.51 (( rpoint @ vd1124 ) & ( ( vd1123 ) = ( vd1124 ) ) & ( rpoint @ vd1126 ) &
% 40.78/6.51 ( ( vd1125 ) = ( vd1126 ) ) & ( rpoint @ vd1128 ) &
% 40.78/6.51 ( ( vd1127 ) = ( vd1128 ) ) & ( rpoint @ vd1130 ) &
% 40.78/6.51 ( ( vd1129 ) = ( vd1130 ) ) & ( ( vd1123 ) != ( vd1125 ) ) &
% 40.78/6.51 ( ( vd1127 ) != ( vd1129 ) ) &
% 40.78/6.51 ( rless @ ( vf @ vd1127 @ vd1129 ) @ ( vf @ vd1123 @ vd1125 ) ))).
% 40.78/6.51 thf(zip_derived_cl34, plain,
% 40.78/6.51 ( (rless @ (vf @ vd1127 @ vd1129) @ (vf @ vd1123 @ vd1125))),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl29, plain, (((vd1127) = (vd1128))),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl31, plain, (((vd1129) = (vd1130))),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl25, plain, (((vd1123) = (vd1124))),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf('holds(252, 1144, 0)', axiom, (( vd1123 ) = ( vd1127 ))).
% 40.78/6.51 thf(zip_derived_cl7, plain, (((vd1123) = (vd1127))),
% 40.78/6.51 inference('cnf', [status(esa)], [holds(252, 1144, 0)])).
% 40.78/6.51 thf(zip_derived_cl25, plain, (((vd1123) = (vd1124))),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl283, plain, (((vd1124) = (vd1127))),
% 40.78/6.51 inference('demod', [status(thm)], [zip_derived_cl7, zip_derived_cl25])).
% 40.78/6.51 thf(zip_derived_cl29, plain, (((vd1127) = (vd1128))),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl288, plain, (((vd1124) = (vd1128))),
% 40.78/6.51 inference('demod', [status(thm)], [zip_derived_cl283, zip_derived_cl29])).
% 40.78/6.51 thf(zip_derived_cl290, plain, (((vd1123) = (vd1128))),
% 40.78/6.51 inference('demod', [status(thm)], [zip_derived_cl25, zip_derived_cl288])).
% 40.78/6.51 thf(zip_derived_cl27, plain, (((vd1125) = (vd1126))),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl393, plain,
% 40.78/6.51 ( (rless @ (vf @ vd1128 @ vd1130) @ (vf @ vd1128 @ vd1126))),
% 40.78/6.51 inference('demod', [status(thm)],
% 40.78/6.51 [zip_derived_cl34, zip_derived_cl29, zip_derived_cl31,
% 40.78/6.51 zip_derived_cl290, zip_derived_cl27])).
% 40.78/6.51 thf('qu(cond(axiom(186), 0), imp(cond(axiom(186), 0)))', axiom,
% 40.78/6.51 (![Vd854:$i,Vd855:$i,Vd859:$i,Vd860:$i]:
% 40.78/6.51 ( ( ( ron @ Vd855 @ Vd860 ) & ( rcenter @ Vd859 @ Vd860 ) &
% 40.78/6.51 ( ?[Vd858:$i]: ( ( rpoint @ Vd858 ) & ( ( Vd855 ) = ( Vd858 ) ) ) ) &
% 40.78/6.51 ( ?[Vd857:$i]: ( ( rpoint @ Vd857 ) & ( ( Vd854 ) = ( Vd857 ) ) ) ) ) =>
% 40.78/6.51 ( ( rless @ ( vf @ Vd859 @ Vd854 ) @ ( vf @ Vd859 @ Vd855 ) ) <=>
% 40.78/6.51 ( rinside @ Vd854 @ Vd860 ) ) ))).
% 40.78/6.51 thf(zip_derived_cl41, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i, X4 : $i, X5 : $i]:
% 40.78/6.51 (((X1) != (X0))
% 40.78/6.51 | ~ (rpoint @ X0)
% 40.78/6.51 | ((X3) != (X2))
% 40.78/6.51 | ~ (rpoint @ X2)
% 40.78/6.51 | ~ (ron @ X3 @ X4)
% 40.78/6.51 | ~ (rcenter @ X5 @ X4)
% 40.78/6.51 | (rinside @ X1 @ X4)
% 40.78/6.51 | ~ (rless @ (vf @ X5 @ X1) @ (vf @ X5 @ X3)))),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [qu(cond(axiom(186), 0), imp(cond(axiom(186), 0)))])).
% 40.78/6.51 thf(zip_derived_cl488, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i]:
% 40.78/6.51 ( (rinside @ vd1130 @ X0)
% 40.78/6.51 | ~ (rcenter @ vd1128 @ X0)
% 40.78/6.51 | ~ (ron @ vd1126 @ X0)
% 40.78/6.51 | ~ (rpoint @ X1)
% 40.78/6.51 | ((vd1126) != (X1))
% 40.78/6.51 | ~ (rpoint @ X2)
% 40.78/6.51 | ((vd1130) != (X2)))),
% 40.78/6.51 inference('sup-', [status(thm)], [zip_derived_cl393, zip_derived_cl41])).
% 40.78/6.51 thf(zip_derived_cl1103, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i]:
% 40.78/6.51 (~ (rpoint @ X0)
% 40.78/6.51 | ((vd1128) = (X0))
% 40.78/6.51 | ~ (rpoint @ vd1128)
% 40.78/6.51 | ((vd1130) != (X1))
% 40.78/6.51 | ~ (rpoint @ X1)
% 40.78/6.51 | ((vd1126) != (X2))
% 40.78/6.51 | ~ (rpoint @ X2)
% 40.78/6.51 | ~ (ron @ vd1126 @ (sk_ @ X0 @ vd1128))
% 40.78/6.51 | (rinside @ vd1130 @ (sk_ @ X0 @ vd1128)))),
% 40.78/6.51 inference('sup-', [status(thm)], [zip_derived_cl410, zip_derived_cl488])).
% 40.78/6.51 thf(zip_derived_cl28, plain, ( (rpoint @ vd1128)),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl1105, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i]:
% 40.78/6.51 (~ (rpoint @ X0)
% 40.78/6.51 | ((vd1128) = (X0))
% 40.78/6.51 | ((vd1130) != (X1))
% 40.78/6.51 | ~ (rpoint @ X1)
% 40.78/6.51 | ((vd1126) != (X2))
% 40.78/6.51 | ~ (rpoint @ X2)
% 40.78/6.51 | ~ (ron @ vd1126 @ (sk_ @ X0 @ vd1128))
% 40.78/6.51 | (rinside @ vd1130 @ (sk_ @ X0 @ vd1128)))),
% 40.78/6.51 inference('demod', [status(thm)], [zip_derived_cl1103, zip_derived_cl28])).
% 40.78/6.51 thf(zip_derived_cl20615, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i]:
% 40.78/6.51 (~ (rpoint @ vd1126)
% 40.78/6.51 | ((vd1128) = (vd1126))
% 40.78/6.51 | ~ (rpoint @ vd1128)
% 40.78/6.51 | (rinside @ vd1130 @ (sk_ @ vd1126 @ vd1128))
% 40.78/6.51 | ~ (rpoint @ X0)
% 40.78/6.51 | ((vd1126) != (X0))
% 40.78/6.51 | ~ (rpoint @ X1)
% 40.78/6.51 | ((vd1130) != (X1))
% 40.78/6.51 | ((vd1128) = (vd1126))
% 40.78/6.51 | ~ (rpoint @ vd1126))),
% 40.78/6.51 inference('sup-', [status(thm)], [zip_derived_cl761, zip_derived_cl1105])).
% 40.78/6.51 thf(zip_derived_cl26, plain, ( (rpoint @ vd1126)),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl28, plain, ( (rpoint @ vd1128)),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl26, plain, ( (rpoint @ vd1126)),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl20616, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i]:
% 40.78/6.51 (((vd1128) = (vd1126))
% 40.78/6.51 | (rinside @ vd1130 @ (sk_ @ vd1126 @ vd1128))
% 40.78/6.51 | ~ (rpoint @ X0)
% 40.78/6.51 | ((vd1126) != (X0))
% 40.78/6.51 | ~ (rpoint @ X1)
% 40.78/6.51 | ((vd1130) != (X1))
% 40.78/6.51 | ((vd1128) = (vd1126)))),
% 40.78/6.51 inference('demod', [status(thm)],
% 40.78/6.51 [zip_derived_cl20615, zip_derived_cl26, zip_derived_cl28,
% 40.78/6.51 zip_derived_cl26])).
% 40.78/6.51 thf(zip_derived_cl20617, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i]:
% 40.78/6.51 (((vd1130) != (X1))
% 40.78/6.51 | ~ (rpoint @ X1)
% 40.78/6.51 | ((vd1126) != (X0))
% 40.78/6.51 | ~ (rpoint @ X0)
% 40.78/6.51 | (rinside @ vd1130 @ (sk_ @ vd1126 @ vd1128))
% 40.78/6.51 | ((vd1128) = (vd1126)))),
% 40.78/6.51 inference('simplify', [status(thm)], [zip_derived_cl20616])).
% 40.78/6.51 thf(zip_derived_cl32, plain, (((vd1123) != (vd1125))),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl27, plain, (((vd1125) = (vd1126))),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl281, plain, (((vd1123) != (vd1126))),
% 40.78/6.51 inference('demod', [status(thm)], [zip_derived_cl32, zip_derived_cl27])).
% 40.78/6.51 thf(zip_derived_cl7, plain, (((vd1123) = (vd1127))),
% 40.78/6.51 inference('cnf', [status(esa)], [holds(252, 1144, 0)])).
% 40.78/6.51 thf(zip_derived_cl282, plain, (((vd1127) != (vd1126))),
% 40.78/6.51 inference('demod', [status(thm)], [zip_derived_cl281, zip_derived_cl7])).
% 40.78/6.51 thf(zip_derived_cl29, plain, (((vd1127) = (vd1128))),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl286, plain, (((vd1128) != (vd1126))),
% 40.78/6.51 inference('demod', [status(thm)], [zip_derived_cl282, zip_derived_cl29])).
% 40.78/6.51 thf(zip_derived_cl20618, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i]:
% 40.78/6.51 (((vd1130) != (X1))
% 40.78/6.51 | ~ (rpoint @ X1)
% 40.78/6.51 | ((vd1126) != (X0))
% 40.78/6.51 | ~ (rpoint @ X0)
% 40.78/6.51 | (rinside @ vd1130 @ (sk_ @ vd1126 @ vd1128)))),
% 40.78/6.51 inference('simplify_reflect-', [status(thm)],
% 40.78/6.51 [zip_derived_cl20617, zip_derived_cl286])).
% 40.78/6.51 thf(zip_derived_cl20619, plain,
% 40.78/6.51 (![X0 : $i]:
% 40.78/6.51 ( (rinside @ vd1130 @ (sk_ @ vd1126 @ vd1128))
% 40.78/6.51 | ~ (rpoint @ X0)
% 40.78/6.51 | ((vd1126) != (X0))
% 40.78/6.51 | ~ (rpoint @ vd1130))),
% 40.78/6.51 inference('eq_res', [status(thm)], [zip_derived_cl20618])).
% 40.78/6.51 thf(zip_derived_cl30, plain, ( (rpoint @ vd1130)),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl20620, plain,
% 40.78/6.51 (![X0 : $i]:
% 40.78/6.51 ( (rinside @ vd1130 @ (sk_ @ vd1126 @ vd1128))
% 40.78/6.51 | ~ (rpoint @ X0)
% 40.78/6.51 | ((vd1126) != (X0)))),
% 40.78/6.51 inference('demod', [status(thm)], [zip_derived_cl20619, zip_derived_cl30])).
% 40.78/6.51 thf(zip_derived_cl20621, plain,
% 40.78/6.51 ((~ (rpoint @ vd1126) | (rinside @ vd1130 @ (sk_ @ vd1126 @ vd1128)))),
% 40.78/6.51 inference('eq_res', [status(thm)], [zip_derived_cl20620])).
% 40.78/6.51 thf(zip_derived_cl26, plain, ( (rpoint @ vd1126)),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl20622, plain,
% 40.78/6.51 ( (rinside @ vd1130 @ (sk_ @ vd1126 @ vd1128))),
% 40.78/6.51 inference('demod', [status(thm)], [zip_derived_cl20621, zip_derived_cl26])).
% 40.78/6.51 thf(zip_derived_cl35, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i]:
% 40.78/6.51 (((X1) != (X0))
% 40.78/6.51 | ~ (rpoint @ X0)
% 40.78/6.51 | ((X1) = (X2))
% 40.78/6.51 | ~ (rpoint @ X3)
% 40.78/6.51 | ((X2) != (X3))
% 40.78/6.51 | (rcircle @ (sk_ @ X2 @ X1)))),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [qu(cond(axiom(53), 0), imp(cond(axiom(53), 0)))])).
% 40.78/6.51 thf(zip_derived_cl398, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i]:
% 40.78/6.51 ( (rcircle @ (sk_ @ X1 @ X0))
% 40.78/6.51 | ((X1) != (X2))
% 40.78/6.51 | ~ (rpoint @ X2)
% 40.78/6.51 | ((X0) = (X1))
% 40.78/6.51 | ~ (rpoint @ X0))),
% 40.78/6.51 inference('eq_res', [status(thm)], [zip_derived_cl35])).
% 40.78/6.51 thf(zip_derived_cl409, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i]:
% 40.78/6.51 (~ (rpoint @ X0)
% 40.78/6.51 | ((X0) = (X1))
% 40.78/6.51 | ~ (rpoint @ X1)
% 40.78/6.51 | (rcircle @ (sk_ @ X1 @ X0)))),
% 40.78/6.51 inference('eq_res', [status(thm)], [zip_derived_cl398])).
% 40.78/6.51 thf(zip_derived_cl761, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i]:
% 40.78/6.51 (~ (rpoint @ X0)
% 40.78/6.51 | ((X0) = (X1))
% 40.78/6.51 | ~ (rpoint @ X1)
% 40.78/6.51 | (ron @ X1 @ (sk_ @ X1 @ X0)))),
% 40.78/6.51 inference('eq_res', [status(thm)], [zip_derived_cl428])).
% 40.78/6.51 thf(zip_derived_cl20622, plain,
% 40.78/6.51 ( (rinside @ vd1130 @ (sk_ @ vd1126 @ vd1128))),
% 40.78/6.51 inference('demod', [status(thm)], [zip_derived_cl20621, zip_derived_cl26])).
% 40.78/6.51 thf('and(and(pred(comma_conjunct2(comma_conjunct2(comma_conjunct2(253))), 0), and(pred(comma_conjunct1(comma_conjunct2(comma_conjunct2(253))), 0), and(pred(comma_conjunct2(comma_conjunct2(253)), 0), pred(comma_conjunct1(comma_conjunct2(253)), 0)))), pred(comma_conjunct1(253), 0))', axiom,
% 40.78/6.51 (( ron @ vd1123 @ vd1145 ) & ( ron @ vd1125 @ vd1145 ) &
% 40.78/6.51 ( rcircle @ vd1146 ) & ( rcenter @ vd1123 @ vd1146 ) &
% 40.78/6.51 ( ron @ vd1129 @ vd1146 ))).
% 40.78/6.51 thf(zip_derived_cl5, plain, ( (ron @ vd1129 @ vd1146)),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [and(and(pred(comma_conjunct2(comma_conjunct2(comma_conjunct2(253))), 0), and(pred(comma_conjunct1(comma_conjunct2(comma_conjunct2(253))), 0), and(pred(comma_conjunct2(comma_conjunct2(253)), 0), pred(comma_conjunct1(comma_conjunct2(253)), 0)))), pred(comma_conjunct1(253), 0))])).
% 40.78/6.51 thf(zip_derived_cl31, plain, (((vd1129) = (vd1130))),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl294, plain, ( (ron @ vd1130 @ vd1146)),
% 40.78/6.51 inference('demod', [status(thm)], [zip_derived_cl5, zip_derived_cl31])).
% 40.78/6.51 thf('qu(cond(axiom(135), 0), imp(cond(axiom(135), 0)))', axiom,
% 40.78/6.51 (![Vd676:$i,Vd677:$i,Vd681:$i,Vd682:$i]:
% 40.78/6.51 ( ( ( ron @ Vd677 @ Vd682 ) & ( rinside @ Vd676 @ Vd682 ) &
% 40.78/6.51 ( rinside @ Vd677 @ Vd681 ) & ( ron @ Vd676 @ Vd681 ) &
% 40.78/6.51 ( ?[Vd680:$i]: ( ( rpoint @ Vd680 ) & ( ( Vd677 ) = ( Vd680 ) ) ) ) &
% 40.78/6.51 ( ?[Vd679:$i]: ( ( rpoint @ Vd679 ) & ( ( Vd676 ) = ( Vd679 ) ) ) ) ) =>
% 40.78/6.51 ( rintersect @ Vd681 @ Vd682 ) ))).
% 40.78/6.51 thf(zip_derived_cl94, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i, X4 : $i, X5 : $i]:
% 40.78/6.51 (((X1) != (X0))
% 40.78/6.51 | ~ (rpoint @ X0)
% 40.78/6.51 | ((X3) != (X2))
% 40.78/6.51 | ~ (rpoint @ X2)
% 40.78/6.51 | ~ (ron @ X1 @ X4)
% 40.78/6.51 | ~ (rinside @ X3 @ X4)
% 40.78/6.51 | ~ (ron @ X3 @ X5)
% 40.78/6.51 | ~ (rinside @ X1 @ X5)
% 40.78/6.51 | (rintersect @ X4 @ X5))),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [qu(cond(axiom(135), 0), imp(cond(axiom(135), 0)))])).
% 40.78/6.51 thf(zip_derived_cl705, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i, X4 : $i]:
% 40.78/6.51 ( (rintersect @ X1 @ X0)
% 40.78/6.51 | ~ (rinside @ X2 @ X0)
% 40.78/6.51 | ~ (ron @ X3 @ X0)
% 40.78/6.51 | ~ (rinside @ X3 @ X1)
% 40.78/6.51 | ~ (ron @ X2 @ X1)
% 40.78/6.51 | ~ (rpoint @ X4)
% 40.78/6.51 | ((X3) != (X4))
% 40.78/6.51 | ~ (rpoint @ X2))),
% 40.78/6.51 inference('eq_res', [status(thm)], [zip_derived_cl94])).
% 40.78/6.51 thf(zip_derived_cl4628, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i]:
% 40.78/6.51 (~ (rpoint @ X0)
% 40.78/6.51 | ~ (rpoint @ X1)
% 40.78/6.51 | ~ (ron @ X0 @ X2)
% 40.78/6.51 | ~ (rinside @ X1 @ X2)
% 40.78/6.51 | ~ (ron @ X1 @ X3)
% 40.78/6.51 | ~ (rinside @ X0 @ X3)
% 40.78/6.51 | (rintersect @ X2 @ X3))),
% 40.78/6.51 inference('eq_res', [status(thm)], [zip_derived_cl705])).
% 40.78/6.51 thf(zip_derived_cl4634, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i]:
% 40.78/6.51 ( (rintersect @ vd1146 @ X0)
% 40.78/6.51 | ~ (rinside @ vd1130 @ X0)
% 40.78/6.51 | ~ (ron @ X1 @ X0)
% 40.78/6.51 | ~ (rinside @ X1 @ vd1146)
% 40.78/6.51 | ~ (rpoint @ X1)
% 40.78/6.51 | ~ (rpoint @ vd1130))),
% 40.78/6.51 inference('sup-', [status(thm)], [zip_derived_cl294, zip_derived_cl4628])).
% 40.78/6.51 thf(zip_derived_cl30, plain, ( (rpoint @ vd1130)),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl4673, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i]:
% 40.78/6.51 ( (rintersect @ vd1146 @ X0)
% 40.78/6.51 | ~ (rinside @ vd1130 @ X0)
% 40.78/6.51 | ~ (ron @ X1 @ X0)
% 40.78/6.51 | ~ (rinside @ X1 @ vd1146)
% 40.78/6.51 | ~ (rpoint @ X1))),
% 40.78/6.51 inference('demod', [status(thm)], [zip_derived_cl4634, zip_derived_cl30])).
% 40.78/6.51 thf(zip_derived_cl20630, plain,
% 40.78/6.51 (![X0 : $i]:
% 40.78/6.51 (~ (rpoint @ X0)
% 40.78/6.51 | ~ (rinside @ X0 @ vd1146)
% 40.78/6.51 | ~ (ron @ X0 @ (sk_ @ vd1126 @ vd1128))
% 40.78/6.51 | (rintersect @ vd1146 @ (sk_ @ vd1126 @ vd1128)))),
% 40.78/6.51 inference('sup-', [status(thm)],
% 40.78/6.51 [zip_derived_cl20622, zip_derived_cl4673])).
% 40.78/6.51 thf(zip_derived_cl21001, plain,
% 40.78/6.51 ((~ (rpoint @ vd1126)
% 40.78/6.51 | ((vd1128) = (vd1126))
% 40.78/6.51 | ~ (rpoint @ vd1128)
% 40.78/6.51 | (rintersect @ vd1146 @ (sk_ @ vd1126 @ vd1128))
% 40.78/6.51 | ~ (rinside @ vd1126 @ vd1146)
% 40.78/6.51 | ~ (rpoint @ vd1126))),
% 40.78/6.51 inference('sup-', [status(thm)], [zip_derived_cl761, zip_derived_cl20630])).
% 40.78/6.51 thf(zip_derived_cl26, plain, ( (rpoint @ vd1126)),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl28, plain, ( (rpoint @ vd1128)),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(neg(neg(254)), conjecture, (~( rinside @ vd1125 @ vd1146 ))).
% 40.78/6.51 thf(zf_stmt_0, negated_conjecture, (rinside @ vd1125 @ vd1146),
% 40.78/6.51 inference('cnf.neg', [status(esa)], [neg(neg(254))])).
% 40.78/6.51 thf(zip_derived_cl0, plain, ( (rinside @ vd1125 @ vd1146)),
% 40.78/6.51 inference('cnf', [status(esa)], [zf_stmt_0])).
% 40.78/6.51 thf(zip_derived_cl27, plain, (((vd1125) = (vd1126))),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl280, plain, ( (rinside @ vd1126 @ vd1146)),
% 40.78/6.51 inference('demod', [status(thm)], [zip_derived_cl0, zip_derived_cl27])).
% 40.78/6.51 thf(zip_derived_cl26, plain, ( (rpoint @ vd1126)),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl21029, plain,
% 40.78/6.51 ((((vd1128) = (vd1126))
% 40.78/6.51 | (rintersect @ vd1146 @ (sk_ @ vd1126 @ vd1128)))),
% 40.78/6.51 inference('demod', [status(thm)],
% 40.78/6.51 [zip_derived_cl21001, zip_derived_cl26, zip_derived_cl28,
% 40.78/6.51 zip_derived_cl280, zip_derived_cl26])).
% 40.78/6.51 thf(zip_derived_cl286, plain, (((vd1128) != (vd1126))),
% 40.78/6.51 inference('demod', [status(thm)], [zip_derived_cl282, zip_derived_cl29])).
% 40.78/6.51 thf(zip_derived_cl21030, plain,
% 40.78/6.51 ( (rintersect @ vd1146 @ (sk_ @ vd1126 @ vd1128))),
% 40.78/6.51 inference('simplify_reflect-', [status(thm)],
% 40.78/6.51 [zip_derived_cl21029, zip_derived_cl286])).
% 40.78/6.51 thf('qu(cond(axiom(67), 0), imp(cond(axiom(67), 0)))', axiom,
% 40.78/6.51 (![Vd280:$i,Vd281:$i]:
% 40.78/6.51 ( ( ( rintersect @ Vd280 @ Vd281 ) &
% 40.78/6.51 ( ?[Vd284:$i]: ( ( rcircle @ Vd284 ) & ( ( Vd281 ) = ( Vd284 ) ) ) ) &
% 40.78/6.51 ( ?[Vd283:$i]: ( ( rcircle @ Vd283 ) & ( ( Vd280 ) = ( Vd283 ) ) ) ) ) =>
% 40.78/6.51 ( ?[Vd285:$i,Vd286:$i]:
% 40.78/6.51 ( ( rpoint @ Vd285 ) & ( ron @ Vd285 @ Vd280 ) &
% 40.78/6.51 ( ron @ Vd285 @ Vd281 ) & ( rpoint @ Vd286 ) &
% 40.78/6.51 ( ron @ Vd286 @ Vd280 ) & ( ron @ Vd286 @ Vd281 ) &
% 40.78/6.51 ( ( Vd285 ) != ( Vd286 ) ) ) ) ))).
% 40.78/6.51 thf(zip_derived_cl148, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i]:
% 40.78/6.51 (((X1) != (X0))
% 40.78/6.51 | ~ (rcircle @ X0)
% 40.78/6.51 | ~ (rintersect @ X1 @ X2)
% 40.78/6.51 | ~ (rcircle @ X3)
% 40.78/6.51 | ((X2) != (X3))
% 40.78/6.51 | (ron @ (sk__14 @ X2 @ X1) @ X2))),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [qu(cond(axiom(67), 0), imp(cond(axiom(67), 0)))])).
% 40.78/6.51 thf(zip_derived_cl513, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i]:
% 40.78/6.51 ( (ron @ (sk__14 @ X0 @ X1) @ X0)
% 40.78/6.51 | ((X0) != (X2))
% 40.78/6.51 | ~ (rcircle @ X2)
% 40.78/6.51 | ~ (rintersect @ X1 @ X0)
% 40.78/6.51 | ~ (rcircle @ X1))),
% 40.78/6.51 inference('eq_res', [status(thm)], [zip_derived_cl148])).
% 40.78/6.51 thf(zip_derived_cl754, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i]:
% 40.78/6.51 (~ (rcircle @ X0)
% 40.78/6.51 | ~ (rintersect @ X0 @ X1)
% 40.78/6.51 | ~ (rcircle @ X1)
% 40.78/6.51 | (ron @ (sk__14 @ X1 @ X0) @ X1))),
% 40.78/6.51 inference('eq_res', [status(thm)], [zip_derived_cl513])).
% 40.78/6.51 thf(zip_derived_cl21042, plain,
% 40.78/6.51 (( (ron @ (sk__14 @ (sk_ @ vd1126 @ vd1128) @ vd1146) @
% 40.78/6.51 (sk_ @ vd1126 @ vd1128))
% 40.78/6.51 | ~ (rcircle @ (sk_ @ vd1126 @ vd1128))
% 40.78/6.51 | ~ (rcircle @ vd1146))),
% 40.78/6.51 inference('sup-', [status(thm)], [zip_derived_cl21030, zip_derived_cl754])).
% 40.78/6.51 thf(zip_derived_cl3, plain, ( (rcircle @ vd1146)),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [and(and(pred(comma_conjunct2(comma_conjunct2(comma_conjunct2(253))), 0), and(pred(comma_conjunct1(comma_conjunct2(comma_conjunct2(253))), 0), and(pred(comma_conjunct2(comma_conjunct2(253)), 0), pred(comma_conjunct1(comma_conjunct2(253)), 0)))), pred(comma_conjunct1(253), 0))])).
% 40.78/6.51 thf(zip_derived_cl21060, plain,
% 40.78/6.51 (( (ron @ (sk__14 @ (sk_ @ vd1126 @ vd1128) @ vd1146) @
% 40.78/6.51 (sk_ @ vd1126 @ vd1128))
% 40.78/6.51 | ~ (rcircle @ (sk_ @ vd1126 @ vd1128)))),
% 40.78/6.51 inference('demod', [status(thm)], [zip_derived_cl21042, zip_derived_cl3])).
% 40.78/6.51 thf(zip_derived_cl26582, plain,
% 40.78/6.51 ((~ (rpoint @ vd1126)
% 40.78/6.51 | ((vd1128) = (vd1126))
% 40.78/6.51 | ~ (rpoint @ vd1128)
% 40.78/6.51 | (ron @ (sk__14 @ (sk_ @ vd1126 @ vd1128) @ vd1146) @
% 40.78/6.51 (sk_ @ vd1126 @ vd1128)))),
% 40.78/6.51 inference('sup-', [status(thm)], [zip_derived_cl409, zip_derived_cl21060])).
% 40.78/6.51 thf(zip_derived_cl26, plain, ( (rpoint @ vd1126)),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl28, plain, ( (rpoint @ vd1128)),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl26583, plain,
% 40.78/6.51 ((((vd1128) = (vd1126))
% 40.78/6.51 | (ron @ (sk__14 @ (sk_ @ vd1126 @ vd1128) @ vd1146) @
% 40.78/6.51 (sk_ @ vd1126 @ vd1128)))),
% 40.78/6.51 inference('demod', [status(thm)],
% 40.78/6.51 [zip_derived_cl26582, zip_derived_cl26, zip_derived_cl28])).
% 40.78/6.51 thf(zip_derived_cl286, plain, (((vd1128) != (vd1126))),
% 40.78/6.51 inference('demod', [status(thm)], [zip_derived_cl282, zip_derived_cl29])).
% 40.78/6.51 thf(zip_derived_cl26584, plain,
% 40.78/6.51 ( (ron @ (sk__14 @ (sk_ @ vd1126 @ vd1128) @ vd1146) @
% 40.78/6.51 (sk_ @ vd1126 @ vd1128))),
% 40.78/6.51 inference('simplify_reflect-', [status(thm)],
% 40.78/6.51 [zip_derived_cl26583, zip_derived_cl286])).
% 40.78/6.51 thf(zip_derived_cl410, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i]:
% 40.78/6.51 (~ (rpoint @ X0)
% 40.78/6.51 | ((X0) = (X1))
% 40.78/6.51 | ~ (rpoint @ X1)
% 40.78/6.51 | (rcenter @ X0 @ (sk_ @ X1 @ X0)))),
% 40.78/6.51 inference('eq_res', [status(thm)], [zip_derived_cl408])).
% 40.78/6.51 thf(zip_derived_cl4, plain, ( (rcenter @ vd1123 @ vd1146)),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [and(and(pred(comma_conjunct2(comma_conjunct2(comma_conjunct2(253))), 0), and(pred(comma_conjunct1(comma_conjunct2(comma_conjunct2(253))), 0), and(pred(comma_conjunct2(comma_conjunct2(253)), 0), pred(comma_conjunct1(comma_conjunct2(253)), 0)))), pred(comma_conjunct1(253), 0))])).
% 40.78/6.51 thf(zip_derived_cl290, plain, (((vd1123) = (vd1128))),
% 40.78/6.51 inference('demod', [status(thm)], [zip_derived_cl25, zip_derived_cl288])).
% 40.78/6.51 thf(zip_derived_cl293, plain, ( (rcenter @ vd1128 @ vd1146)),
% 40.78/6.51 inference('demod', [status(thm)], [zip_derived_cl4, zip_derived_cl290])).
% 40.78/6.51 thf('qu(cond(axiom(182), 0), imp(cond(axiom(182), 0)))', axiom,
% 40.78/6.51 (![Vd837:$i,Vd838:$i,Vd842:$i,Vd843:$i,Vd844:$i]:
% 40.78/6.51 ( ( ( ( vf @ Vd842 @ Vd837 ) = ( vf @ Vd842 @ Vd838 ) ) &
% 40.78/6.51 ( ron @ Vd838 @ Vd844 ) & ( ron @ Vd837 @ Vd843 ) &
% 40.78/6.51 ( rcenter @ Vd842 @ Vd844 ) & ( rcenter @ Vd842 @ Vd843 ) &
% 40.78/6.51 ( ?[Vd841:$i]: ( ( rpoint @ Vd841 ) & ( ( Vd838 ) = ( Vd841 ) ) ) ) &
% 40.78/6.51 ( ?[Vd840:$i]: ( ( rpoint @ Vd840 ) & ( ( Vd837 ) = ( Vd840 ) ) ) ) ) =>
% 40.78/6.51 ( ( Vd843 ) = ( Vd844 ) ) ))).
% 40.78/6.51 thf(zip_derived_cl85, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i, X4 : $i, X5 : $i, X6 : $i]:
% 40.78/6.51 (((X1) != (X0))
% 40.78/6.51 | ~ (rpoint @ X0)
% 40.78/6.51 | ((X3) != (X2))
% 40.78/6.51 | ~ (rpoint @ X2)
% 40.78/6.51 | ~ (rcenter @ X4 @ X5)
% 40.78/6.51 | ~ (ron @ X1 @ X5)
% 40.78/6.51 | ((vf @ X4 @ X1) != (vf @ X4 @ X3))
% 40.78/6.51 | ~ (ron @ X3 @ X6)
% 40.78/6.51 | ~ (rcenter @ X4 @ X6)
% 40.78/6.51 | ((X5) = (X6)))),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [qu(cond(axiom(182), 0), imp(cond(axiom(182), 0)))])).
% 40.78/6.51 thf(zip_derived_cl812, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i, X4 : $i, X5 : $i]:
% 40.78/6.51 (((X0) = (X1))
% 40.78/6.51 | ~ (rcenter @ X2 @ X1)
% 40.78/6.51 | ~ (ron @ X3 @ X1)
% 40.78/6.51 | ~ (ron @ X3 @ X0)
% 40.78/6.51 | ~ (rcenter @ X2 @ X0)
% 40.78/6.51 | ~ (rpoint @ X4)
% 40.78/6.51 | ((X3) != (X4))
% 40.78/6.51 | ~ (rpoint @ X5)
% 40.78/6.51 | ((X3) != (X5)))),
% 40.78/6.51 inference('eq_res', [status(thm)], [zip_derived_cl85])).
% 40.78/6.51 thf(zip_derived_cl9885, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i, X4 : $i]:
% 40.78/6.51 (((X0) != (X1))
% 40.78/6.51 | ~ (rpoint @ X1)
% 40.78/6.51 | ~ (rpoint @ X0)
% 40.78/6.51 | ~ (rcenter @ X3 @ X2)
% 40.78/6.51 | ~ (ron @ X0 @ X2)
% 40.78/6.51 | ~ (ron @ X0 @ X4)
% 40.78/6.51 | ~ (rcenter @ X3 @ X4)
% 40.78/6.51 | ((X2) = (X4)))),
% 40.78/6.51 inference('eq_res', [status(thm)], [zip_derived_cl812])).
% 40.78/6.51 thf(zip_derived_cl10808, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i]:
% 40.78/6.51 (((X0) = (X1))
% 40.78/6.51 | ~ (rcenter @ X2 @ X1)
% 40.78/6.51 | ~ (ron @ X3 @ X1)
% 40.78/6.51 | ~ (ron @ X3 @ X0)
% 40.78/6.51 | ~ (rcenter @ X2 @ X0)
% 40.78/6.51 | ~ (rpoint @ X3)
% 40.78/6.51 | ~ (rpoint @ X3))),
% 40.78/6.51 inference('eq_res', [status(thm)], [zip_derived_cl9885])).
% 40.78/6.51 thf(zip_derived_cl10809, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i]:
% 40.78/6.51 (~ (rpoint @ X3)
% 40.78/6.51 | ~ (rcenter @ X2 @ X0)
% 40.78/6.51 | ~ (ron @ X3 @ X0)
% 40.78/6.51 | ~ (ron @ X3 @ X1)
% 40.78/6.51 | ~ (rcenter @ X2 @ X1)
% 40.78/6.51 | ((X0) = (X1)))),
% 40.78/6.51 inference('simplify', [status(thm)], [zip_derived_cl10808])).
% 40.78/6.51 thf(zip_derived_cl10811, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i]:
% 40.78/6.51 (((vd1146) = (X0))
% 40.78/6.51 | ~ (rcenter @ vd1128 @ X0)
% 40.78/6.51 | ~ (ron @ X1 @ X0)
% 40.78/6.51 | ~ (ron @ X1 @ vd1146)
% 40.78/6.51 | ~ (rpoint @ X1))),
% 40.78/6.51 inference('sup-', [status(thm)], [zip_derived_cl293, zip_derived_cl10809])).
% 40.78/6.51 thf(zip_derived_cl10814, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i]:
% 40.78/6.51 (~ (rpoint @ X0)
% 40.78/6.51 | ((vd1128) = (X0))
% 40.78/6.51 | ~ (rpoint @ vd1128)
% 40.78/6.51 | ~ (rpoint @ X1)
% 40.78/6.51 | ~ (ron @ X1 @ vd1146)
% 40.78/6.51 | ~ (ron @ X1 @ (sk_ @ X0 @ vd1128))
% 40.78/6.51 | ((vd1146) = (sk_ @ X0 @ vd1128)))),
% 40.78/6.51 inference('sup-', [status(thm)], [zip_derived_cl410, zip_derived_cl10811])).
% 40.78/6.51 thf(zip_derived_cl28, plain, ( (rpoint @ vd1128)),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl10816, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i]:
% 40.78/6.51 (~ (rpoint @ X0)
% 40.78/6.51 | ((vd1128) = (X0))
% 40.78/6.51 | ~ (rpoint @ X1)
% 40.78/6.51 | ~ (ron @ X1 @ vd1146)
% 40.78/6.51 | ~ (ron @ X1 @ (sk_ @ X0 @ vd1128))
% 40.78/6.51 | ((vd1146) = (sk_ @ X0 @ vd1128)))),
% 40.78/6.51 inference('demod', [status(thm)], [zip_derived_cl10814, zip_derived_cl28])).
% 40.78/6.51 thf(zip_derived_cl36858, plain,
% 40.78/6.51 ((((vd1146) = (sk_ @ vd1126 @ vd1128))
% 40.78/6.51 | ~ (ron @ (sk__14 @ (sk_ @ vd1126 @ vd1128) @ vd1146) @ vd1146)
% 40.78/6.51 | ~ (rpoint @ (sk__14 @ (sk_ @ vd1126 @ vd1128) @ vd1146))
% 40.78/6.51 | ((vd1128) = (vd1126))
% 40.78/6.51 | ~ (rpoint @ vd1126))),
% 40.78/6.51 inference('sup-', [status(thm)],
% 40.78/6.51 [zip_derived_cl26584, zip_derived_cl10816])).
% 40.78/6.51 thf(zip_derived_cl409, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i]:
% 40.78/6.51 (~ (rpoint @ X0)
% 40.78/6.51 | ((X0) = (X1))
% 40.78/6.51 | ~ (rpoint @ X1)
% 40.78/6.51 | (rcircle @ (sk_ @ X1 @ X0)))),
% 40.78/6.51 inference('eq_res', [status(thm)], [zip_derived_cl398])).
% 40.78/6.51 thf(zip_derived_cl21030, plain,
% 40.78/6.51 ( (rintersect @ vd1146 @ (sk_ @ vd1126 @ vd1128))),
% 40.78/6.51 inference('simplify_reflect-', [status(thm)],
% 40.78/6.51 [zip_derived_cl21029, zip_derived_cl286])).
% 40.78/6.51 thf(zip_derived_cl147, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i]:
% 40.78/6.51 (((X1) != (X0))
% 40.78/6.51 | ~ (rcircle @ X0)
% 40.78/6.51 | ~ (rintersect @ X1 @ X2)
% 40.78/6.51 | ~ (rcircle @ X3)
% 40.78/6.51 | ((X2) != (X3))
% 40.78/6.51 | (ron @ (sk__14 @ X2 @ X1) @ X1))),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [qu(cond(axiom(67), 0), imp(cond(axiom(67), 0)))])).
% 40.78/6.51 thf(zip_derived_cl512, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i]:
% 40.78/6.51 ( (ron @ (sk__14 @ X1 @ X0) @ X0)
% 40.78/6.51 | ((X1) != (X2))
% 40.78/6.51 | ~ (rcircle @ X2)
% 40.78/6.51 | ~ (rintersect @ X0 @ X1)
% 40.78/6.51 | ~ (rcircle @ X0))),
% 40.78/6.51 inference('eq_res', [status(thm)], [zip_derived_cl147])).
% 40.78/6.51 thf(zip_derived_cl753, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i]:
% 40.78/6.51 (~ (rcircle @ X0)
% 40.78/6.51 | ~ (rintersect @ X0 @ X1)
% 40.78/6.51 | ~ (rcircle @ X1)
% 40.78/6.51 | (ron @ (sk__14 @ X1 @ X0) @ X0))),
% 40.78/6.51 inference('eq_res', [status(thm)], [zip_derived_cl512])).
% 40.78/6.51 thf(zip_derived_cl21041, plain,
% 40.78/6.51 (( (ron @ (sk__14 @ (sk_ @ vd1126 @ vd1128) @ vd1146) @ vd1146)
% 40.78/6.51 | ~ (rcircle @ (sk_ @ vd1126 @ vd1128))
% 40.78/6.51 | ~ (rcircle @ vd1146))),
% 40.78/6.51 inference('sup-', [status(thm)], [zip_derived_cl21030, zip_derived_cl753])).
% 40.78/6.51 thf(zip_derived_cl3, plain, ( (rcircle @ vd1146)),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [and(and(pred(comma_conjunct2(comma_conjunct2(comma_conjunct2(253))), 0), and(pred(comma_conjunct1(comma_conjunct2(comma_conjunct2(253))), 0), and(pred(comma_conjunct2(comma_conjunct2(253)), 0), pred(comma_conjunct1(comma_conjunct2(253)), 0)))), pred(comma_conjunct1(253), 0))])).
% 40.78/6.51 thf(zip_derived_cl21059, plain,
% 40.78/6.51 (( (ron @ (sk__14 @ (sk_ @ vd1126 @ vd1128) @ vd1146) @ vd1146)
% 40.78/6.51 | ~ (rcircle @ (sk_ @ vd1126 @ vd1128)))),
% 40.78/6.51 inference('demod', [status(thm)], [zip_derived_cl21041, zip_derived_cl3])).
% 40.78/6.51 thf(zip_derived_cl21385, plain,
% 40.78/6.51 ((~ (rpoint @ vd1126)
% 40.78/6.51 | ((vd1128) = (vd1126))
% 40.78/6.51 | ~ (rpoint @ vd1128)
% 40.78/6.51 | (ron @ (sk__14 @ (sk_ @ vd1126 @ vd1128) @ vd1146) @ vd1146))),
% 40.78/6.51 inference('sup-', [status(thm)], [zip_derived_cl409, zip_derived_cl21059])).
% 40.78/6.51 thf(zip_derived_cl26, plain, ( (rpoint @ vd1126)),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl28, plain, ( (rpoint @ vd1128)),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl21386, plain,
% 40.78/6.51 ((((vd1128) = (vd1126))
% 40.78/6.51 | (ron @ (sk__14 @ (sk_ @ vd1126 @ vd1128) @ vd1146) @ vd1146))),
% 40.78/6.51 inference('demod', [status(thm)],
% 40.78/6.51 [zip_derived_cl21385, zip_derived_cl26, zip_derived_cl28])).
% 40.78/6.51 thf(zip_derived_cl286, plain, (((vd1128) != (vd1126))),
% 40.78/6.51 inference('demod', [status(thm)], [zip_derived_cl282, zip_derived_cl29])).
% 40.78/6.51 thf(zip_derived_cl21387, plain,
% 40.78/6.51 ( (ron @ (sk__14 @ (sk_ @ vd1126 @ vd1128) @ vd1146) @ vd1146)),
% 40.78/6.51 inference('simplify_reflect-', [status(thm)],
% 40.78/6.51 [zip_derived_cl21386, zip_derived_cl286])).
% 40.78/6.51 thf(zip_derived_cl409, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i]:
% 40.78/6.51 (~ (rpoint @ X0)
% 40.78/6.51 | ((X0) = (X1))
% 40.78/6.51 | ~ (rpoint @ X1)
% 40.78/6.51 | (rcircle @ (sk_ @ X1 @ X0)))),
% 40.78/6.51 inference('eq_res', [status(thm)], [zip_derived_cl398])).
% 40.78/6.51 thf(zip_derived_cl21030, plain,
% 40.78/6.51 ( (rintersect @ vd1146 @ (sk_ @ vd1126 @ vd1128))),
% 40.78/6.51 inference('simplify_reflect-', [status(thm)],
% 40.78/6.51 [zip_derived_cl21029, zip_derived_cl286])).
% 40.78/6.51 thf(zip_derived_cl146, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i]:
% 40.78/6.51 (((X1) != (X0))
% 40.78/6.51 | ~ (rcircle @ X0)
% 40.78/6.51 | ~ (rintersect @ X1 @ X2)
% 40.78/6.51 | ~ (rcircle @ X3)
% 40.78/6.51 | ((X2) != (X3))
% 40.78/6.51 | (rpoint @ (sk__14 @ X2 @ X1)))),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [qu(cond(axiom(67), 0), imp(cond(axiom(67), 0)))])).
% 40.78/6.51 thf(zip_derived_cl477, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i]:
% 40.78/6.51 ( (rpoint @ (sk__14 @ X1 @ X0))
% 40.78/6.51 | ((X1) != (X2))
% 40.78/6.51 | ~ (rcircle @ X2)
% 40.78/6.51 | ~ (rintersect @ X0 @ X1)
% 40.78/6.51 | ~ (rcircle @ X0))),
% 40.78/6.51 inference('eq_res', [status(thm)], [zip_derived_cl146])).
% 40.78/6.51 thf(zip_derived_cl496, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i]:
% 40.78/6.51 (~ (rcircle @ X0)
% 40.78/6.51 | ~ (rintersect @ X0 @ X1)
% 40.78/6.51 | ~ (rcircle @ X1)
% 40.78/6.51 | (rpoint @ (sk__14 @ X1 @ X0)))),
% 40.78/6.51 inference('eq_res', [status(thm)], [zip_derived_cl477])).
% 40.78/6.51 thf(zip_derived_cl21035, plain,
% 40.78/6.51 (( (rpoint @ (sk__14 @ (sk_ @ vd1126 @ vd1128) @ vd1146))
% 40.78/6.51 | ~ (rcircle @ (sk_ @ vd1126 @ vd1128))
% 40.78/6.51 | ~ (rcircle @ vd1146))),
% 40.78/6.51 inference('sup-', [status(thm)], [zip_derived_cl21030, zip_derived_cl496])).
% 40.78/6.51 thf(zip_derived_cl3, plain, ( (rcircle @ vd1146)),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [and(and(pred(comma_conjunct2(comma_conjunct2(comma_conjunct2(253))), 0), and(pred(comma_conjunct1(comma_conjunct2(comma_conjunct2(253))), 0), and(pred(comma_conjunct2(comma_conjunct2(253)), 0), pred(comma_conjunct1(comma_conjunct2(253)), 0)))), pred(comma_conjunct1(253), 0))])).
% 40.78/6.51 thf(zip_derived_cl21056, plain,
% 40.78/6.51 (( (rpoint @ (sk__14 @ (sk_ @ vd1126 @ vd1128) @ vd1146))
% 40.78/6.51 | ~ (rcircle @ (sk_ @ vd1126 @ vd1128)))),
% 40.78/6.51 inference('demod', [status(thm)], [zip_derived_cl21035, zip_derived_cl3])).
% 40.78/6.51 thf(zip_derived_cl21065, plain,
% 40.78/6.51 ((~ (rpoint @ vd1126)
% 40.78/6.51 | ((vd1128) = (vd1126))
% 40.78/6.51 | ~ (rpoint @ vd1128)
% 40.78/6.51 | (rpoint @ (sk__14 @ (sk_ @ vd1126 @ vd1128) @ vd1146)))),
% 40.78/6.51 inference('sup-', [status(thm)], [zip_derived_cl409, zip_derived_cl21056])).
% 40.78/6.51 thf(zip_derived_cl26, plain, ( (rpoint @ vd1126)),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl28, plain, ( (rpoint @ vd1128)),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl21066, plain,
% 40.78/6.51 ((((vd1128) = (vd1126))
% 40.78/6.51 | (rpoint @ (sk__14 @ (sk_ @ vd1126 @ vd1128) @ vd1146)))),
% 40.78/6.51 inference('demod', [status(thm)],
% 40.78/6.51 [zip_derived_cl21065, zip_derived_cl26, zip_derived_cl28])).
% 40.78/6.51 thf(zip_derived_cl286, plain, (((vd1128) != (vd1126))),
% 40.78/6.51 inference('demod', [status(thm)], [zip_derived_cl282, zip_derived_cl29])).
% 40.78/6.51 thf(zip_derived_cl21067, plain,
% 40.78/6.51 ( (rpoint @ (sk__14 @ (sk_ @ vd1126 @ vd1128) @ vd1146))),
% 40.78/6.51 inference('simplify_reflect-', [status(thm)],
% 40.78/6.51 [zip_derived_cl21066, zip_derived_cl286])).
% 40.78/6.51 thf(zip_derived_cl26, plain, ( (rpoint @ vd1126)),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [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)))])).
% 40.78/6.51 thf(zip_derived_cl36888, plain,
% 40.78/6.51 ((((vd1146) = (sk_ @ vd1126 @ vd1128)) | ((vd1128) = (vd1126)))),
% 40.78/6.51 inference('demod', [status(thm)],
% 40.78/6.51 [zip_derived_cl36858, zip_derived_cl21387,
% 40.78/6.51 zip_derived_cl21067, zip_derived_cl26])).
% 40.78/6.51 thf(zip_derived_cl286, plain, (((vd1128) != (vd1126))),
% 40.78/6.51 inference('demod', [status(thm)], [zip_derived_cl282, zip_derived_cl29])).
% 40.78/6.51 thf(zip_derived_cl36889, plain, (((vd1146) = (sk_ @ vd1126 @ vd1128))),
% 40.78/6.51 inference('simplify_reflect-', [status(thm)],
% 40.78/6.51 [zip_derived_cl36888, zip_derived_cl286])).
% 40.78/6.51 thf(zip_derived_cl294, plain, ( (ron @ vd1130 @ vd1146)),
% 40.78/6.51 inference('demod', [status(thm)], [zip_derived_cl5, zip_derived_cl31])).
% 40.78/6.51 thf('qu(cond(axiom(79), 0), imp(cond(axiom(79), 0)))', axiom,
% 40.78/6.51 (![Vd336:$i,Vd337:$i,Vd338:$i,Vd339:$i]:
% 40.78/6.51 ( ( ( rinside @ Vd336 @ Vd338 ) & ( ( Vd338 ) = ( Vd339 ) ) &
% 40.78/6.51 ( rcircle @ Vd339 ) & ( ( Vd336 ) = ( Vd337 ) ) & ( rpoint @ Vd337 ) ) =>
% 40.78/6.51 ( ~( ron @ Vd336 @ Vd338 ) ) ))).
% 40.78/6.51 thf(zip_derived_cl134, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i]:
% 40.78/6.51 (~ (ron @ X0 @ X1)
% 40.78/6.51 | ~ (rpoint @ X2)
% 40.78/6.51 | ((X0) != (X2))
% 40.78/6.51 | ~ (rinside @ X0 @ X1)
% 40.78/6.51 | ((X1) != (X3))
% 40.78/6.51 | ~ (rcircle @ X3))),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [qu(cond(axiom(79), 0), imp(cond(axiom(79), 0)))])).
% 40.78/6.51 thf(zip_derived_cl412, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i, X2 : $i]:
% 40.78/6.51 (~ (rcircle @ X0)
% 40.78/6.51 | ((X1) != (X0))
% 40.78/6.51 | ~ (rinside @ X2 @ X1)
% 40.78/6.51 | ~ (rpoint @ X2)
% 40.78/6.51 | ~ (ron @ X2 @ X1))),
% 40.78/6.51 inference('eq_res', [status(thm)], [zip_derived_cl134])).
% 40.78/6.51 thf(zip_derived_cl429, plain,
% 40.78/6.51 (![X0 : $i, X1 : $i]:
% 40.78/6.51 (~ (ron @ X1 @ X0)
% 40.78/6.51 | ~ (rpoint @ X1)
% 40.78/6.51 | ~ (rinside @ X1 @ X0)
% 40.78/6.51 | ~ (rcircle @ X0))),
% 40.78/6.51 inference('eq_res', [status(thm)], [zip_derived_cl412])).
% 40.78/6.51 thf(zip_derived_cl430, plain,
% 40.78/6.51 ((~ (rcircle @ vd1146)
% 40.78/6.51 | ~ (rinside @ vd1130 @ vd1146)
% 40.78/6.51 | ~ (rpoint @ vd1130))),
% 40.78/6.51 inference('sup-', [status(thm)], [zip_derived_cl294, zip_derived_cl429])).
% 40.78/6.51 thf(zip_derived_cl3, plain, ( (rcircle @ vd1146)),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [and(and(pred(comma_conjunct2(comma_conjunct2(comma_conjunct2(253))), 0), and(pred(comma_conjunct1(comma_conjunct2(comma_conjunct2(253))), 0), and(pred(comma_conjunct2(comma_conjunct2(253)), 0), pred(comma_conjunct1(comma_conjunct2(253)), 0)))), pred(comma_conjunct1(253), 0))])).
% 40.78/6.51 thf(zip_derived_cl30, plain, ( (rpoint @ vd1130)),
% 40.78/6.51 inference('cnf', [status(esa)],
% 40.78/6.51 [and(and(and(and(holds(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1133, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(conjunct2(242)))))), 1132, 0), and(holds(conjunct1(conjunct2(conjunct2(conjunct2(conjunct2(242))))), 1131, 0), and(pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 2), pred(conjunct1(conjunct2(conjunct2(conjunct2(242)))), 1))))), and(pred(conjunct1(conjunct2(conjunct2(242))), 2), pred(conjunct1(conjunct2(conjunct2(242))), 1))), and(pred(conjunct1(conjunct2(242)), 2), pred(conjunct1(conjunct2(242)), 1))), and(pred(conjunct1(242), 2), pred(conjunct1(242), 1)))])).
% 40.78/6.51 thf(zip_derived_cl435, plain, (~ (rinside @ vd1130 @ vd1146)),
% 40.78/6.51 inference('demod', [status(thm)],
% 40.78/6.51 [zip_derived_cl430, zip_derived_cl3, zip_derived_cl30])).
% 40.78/6.51 thf(zip_derived_cl37109, plain, ($false),
% 40.78/6.51 inference('demod', [status(thm)],
% 40.78/6.51 [zip_derived_cl20622, zip_derived_cl36889, zip_derived_cl435])).
% 40.78/6.51
% 40.78/6.51 % SZS output end Refutation
% 40.78/6.51
% 40.78/6.51
% 40.78/6.51 % Terminating...
% 40.78/6.61 % Runner terminated.
% 40.78/6.61 % Zipperpin 1.5 exiting
%------------------------------------------------------------------------------