TSTP Solution File: GEO298+1 by Zipperpin---2.1.9999
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- Process Solution
%------------------------------------------------------------------------------
% File : Zipperpin---2.1.9999
% Problem : GEO298+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.1NsguckSIb true
% Computer : n002.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 23:58:18 EDT 2023
% Result : Theorem 1.52s 1.08s
% Output : Refutation 1.52s
% Verified :
% SZS Type : -
% Comments :
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.11/0.12 % Problem : GEO298+1 : TPTP v8.1.2. Released v4.1.0.
% 0.12/0.13 % Command : python3 /export/starexec/sandbox2/solver/bin/portfolio.lams.parallel.py %s %d /export/starexec/sandbox2/tmp/tmp.1NsguckSIb true
% 0.13/0.34 % Computer : n002.cluster.edu
% 0.13/0.34 % Model : x86_64 x86_64
% 0.13/0.34 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.13/0.34 % Memory : 8042.1875MB
% 0.13/0.34 % OS : Linux 3.10.0-693.el7.x86_64
% 0.13/0.34 % CPULimit : 300
% 0.13/0.34 % WCLimit : 300
% 0.13/0.34 % DateTime : Tue Aug 29 20:35:35 EDT 2023
% 0.13/0.35 % CPUTime :
% 0.13/0.35 % Running portfolio for 300 s
% 0.13/0.35 % File : /export/starexec/sandbox2/benchmark/theBenchmark.p
% 0.13/0.35 % Number of cores: 8
% 0.13/0.35 % Python version: Python 3.6.8
% 0.13/0.35 % Running in FO mode
% 0.20/0.65 % Total configuration time : 435
% 0.20/0.65 % Estimated wc time : 1092
% 0.20/0.65 % Estimated cpu time (7 cpus) : 156.0
% 0.20/0.74 % /export/starexec/sandbox2/solver/bin/fo/fo6_bce.sh running for 75s
% 0.20/0.74 % /export/starexec/sandbox2/solver/bin/fo/fo3_bce.sh running for 75s
% 0.20/0.74 % /export/starexec/sandbox2/solver/bin/fo/fo1_av.sh running for 75s
% 0.20/0.74 % /export/starexec/sandbox2/solver/bin/fo/fo7.sh running for 63s
% 0.20/0.74 % /export/starexec/sandbox2/solver/bin/fo/fo13.sh running for 50s
% 0.20/0.74 % /export/starexec/sandbox2/solver/bin/fo/fo5.sh running for 50s
% 0.20/0.76 % /export/starexec/sandbox2/solver/bin/fo/fo4.sh running for 50s
% 1.52/1.08 % Solved by fo/fo5.sh.
% 1.52/1.08 % done 465 iterations in 0.301s
% 1.52/1.08 % SZS status Theorem for '/export/starexec/sandbox2/benchmark/theBenchmark.p'
% 1.52/1.08 % SZS output start Refutation
% 1.52/1.08 thf(vd1180_type, type, vd1180: $i).
% 1.52/1.08 thf(rR_type, type, rR: $i > $i > $i > $o).
% 1.52/1.08 thf(vd1179_type, type, vd1179: $i).
% 1.52/1.08 thf(rpoint_type, type, rpoint: $i > $o).
% 1.52/1.08 thf(vd1185_type, type, vd1185: $i).
% 1.52/1.08 thf(rS_type, type, rS: $i > $i > $i > $o).
% 1.52/1.08 thf(ron_type, type, ron: $i > $i > $o).
% 1.52/1.08 thf(vangle_type, type, vangle: $i > $i > $i > $i).
% 1.52/1.08 thf(vd1201_type, type, vd1201: $i).
% 1.52/1.08 thf(vd1186_type, type, vd1186: $i).
% 1.52/1.08 thf(vd1178_type, type, vd1178: $i).
% 1.52/1.08 thf(sk__4_type, type, sk__4: $i).
% 1.52/1.08 thf(vf_type, type, vf: $i > $i > $i).
% 1.52/1.08 thf(sk__type, type, sk_: $i).
% 1.52/1.08 thf(vd1232_type, type, vd1232: $i).
% 1.52/1.08 thf(vd1197_type, type, vd1197: $i).
% 1.52/1.08 thf(vd1187_type, type, vd1187: $i).
% 1.52/1.08 thf(rline_type, type, rline: $i > $o).
% 1.52/1.08 thf(sk__6_type, type, sk__6: $i).
% 1.52/1.08 thf('holds(comma_conjunct2(comma_conjunct2(plural(271))), 1214, 0)', axiom,
% 1.52/1.08 (rS @ vd1201 @ vd1187 @ vd1197)).
% 1.52/1.08 thf(zip_derived_cl6, plain, ( (rS @ vd1201 @ vd1187 @ vd1197)),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [holds(comma_conjunct2(comma_conjunct2(plural(271))), 1214, 0)])).
% 1.52/1.08 thf(qe(s3(plural(271))), axiom,
% 1.52/1.08 (?[Vd1205:$i]: ( ( rpoint @ Vd1205 ) & ( ( vd1201 ) = ( Vd1205 ) ) ))).
% 1.52/1.08 thf(zip_derived_cl9, plain, (((vd1201) = (sk_))),
% 1.52/1.08 inference('cnf', [status(esa)], [qe(s3(plural(271)))])).
% 1.52/1.08 thf('and(neg(neg(conjunct2(conjunct2(conjunct2(plural(comma_conjunct2(268))))))), and(holds(conjunct1(conjunct2(conjunct2(plural(comma_conjunct2(268))))), 1194, 0), and(holds(conjunct1(conjunct2(plural(comma_conjunct2(268)))), 1193, 0), and(holds(conjunct1(plural(comma_conjunct2(268))), 1192, 0), and(qe(s3(plural(comma_conjunct2(268)))), and(qe(s2(plural(comma_conjunct2(268)))), and(qe(s1(plural(comma_conjunct2(268)))), and(pred(comma_conjunct1(268), 9), and(pred(comma_conjunct1(268), 8), and(pred(comma_conjunct1(268), 7), and(qe(s3(plural(268))), and(qe(s2(plural(268))), qe(s1(plural(268)))))))))))))))', axiom,
% 1.52/1.08 (( ?[Vd1182:$i]: ( ( rpoint @ Vd1182 ) & ( ( vd1178 ) = ( Vd1182 ) ) ) ) &
% 1.52/1.08 ( ?[Vd1183:$i]: ( ( rpoint @ Vd1183 ) & ( ( vd1179 ) = ( Vd1183 ) ) ) ) &
% 1.52/1.08 ( ?[Vd1184:$i]: ( ( rpoint @ Vd1184 ) & ( ( vd1180 ) = ( Vd1184 ) ) ) ) &
% 1.52/1.08 ( ( vd1178 ) != ( vd1179 ) ) & ( ( vd1178 ) != ( vd1180 ) ) &
% 1.52/1.08 ( ( vd1179 ) != ( vd1180 ) ) &
% 1.52/1.08 ( ?[Vd1189:$i]: ( ( rpoint @ Vd1189 ) & ( ( vd1185 ) = ( Vd1189 ) ) ) ) &
% 1.52/1.08 ( ?[Vd1190:$i]: ( ( rpoint @ Vd1190 ) & ( ( vd1186 ) = ( Vd1190 ) ) ) ) &
% 1.52/1.08 ( ?[Vd1191:$i]: ( ( rpoint @ Vd1191 ) & ( ( vd1187 ) = ( Vd1191 ) ) ) ) &
% 1.52/1.08 ( ( vf @ vd1178 @ vd1179 ) = ( vf @ vd1185 @ vd1186 ) ) &
% 1.52/1.08 ( ( vf @ vd1178 @ vd1180 ) = ( vf @ vd1185 @ vd1187 ) ) &
% 1.52/1.08 ( ( vangle @ vd1179 @ vd1178 @ vd1180 ) =
% 1.52/1.08 ( vangle @ vd1186 @ vd1185 @ vd1187 ) ) &
% 1.52/1.08 ( ~( ?[Vd1195:$i]:
% 1.52/1.08 ( ( rline @ Vd1195 ) & ( ron @ vd1185 @ Vd1195 ) &
% 1.52/1.08 ( ron @ vd1186 @ Vd1195 ) & ( ron @ vd1187 @ Vd1195 ) ) ) ))).
% 1.52/1.08 thf(zip_derived_cl17, plain, (((vd1187) = (sk__6))),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [and(neg(neg(conjunct2(conjunct2(conjunct2(plural(comma_conjunct2(268))))))), and(holds(conjunct1(conjunct2(conjunct2(plural(comma_conjunct2(268))))), 1194, 0), and(holds(conjunct1(conjunct2(plural(comma_conjunct2(268)))), 1193, 0), and(holds(conjunct1(plural(comma_conjunct2(268))), 1192, 0), and(qe(s3(plural(comma_conjunct2(268)))), and(qe(s2(plural(comma_conjunct2(268)))), and(qe(s1(plural(comma_conjunct2(268)))), and(pred(comma_conjunct1(268), 9), and(pred(comma_conjunct1(268), 8), and(pred(comma_conjunct1(268), 7), and(qe(s3(plural(268))), and(qe(s2(plural(268))), qe(s1(plural(268)))))))))))))))])).
% 1.52/1.08 thf(zip_derived_cl340, plain, ( (rS @ sk_ @ sk__6 @ vd1197)),
% 1.52/1.08 inference('demod', [status(thm)],
% 1.52/1.08 [zip_derived_cl6, zip_derived_cl9, zip_derived_cl17])).
% 1.52/1.08 thf('qu(cond(axiom(99), 0), imp(cond(axiom(99), 0)))', axiom,
% 1.52/1.08 (![Vd434:$i,Vd435:$i,Vd439:$i,Vd440:$i]:
% 1.52/1.08 ( ( ( rS @ Vd434 @ Vd435 @ Vd439 ) & ( ( Vd439 ) = ( Vd440 ) ) &
% 1.52/1.08 ( rline @ Vd440 ) &
% 1.52/1.08 ( ?[Vd438:$i]: ( ( rpoint @ Vd438 ) & ( ( Vd435 ) = ( Vd438 ) ) ) ) &
% 1.52/1.08 ( ?[Vd437:$i]: ( ( rpoint @ Vd437 ) & ( ( Vd434 ) = ( Vd437 ) ) ) ) ) =>
% 1.52/1.08 ( ~( ron @ Vd434 @ Vd439 ) ) ))).
% 1.52/1.08 thf(zip_derived_cl86, plain,
% 1.52/1.08 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i, X4 : $i, X5 : $i]:
% 1.52/1.08 (~ (ron @ X0 @ X1)
% 1.52/1.08 | ((X0) != (X2))
% 1.52/1.08 | ~ (rpoint @ X2)
% 1.52/1.08 | ((X4) != (X3))
% 1.52/1.08 | ~ (rpoint @ X3)
% 1.52/1.08 | ~ (rS @ X0 @ X4 @ X1)
% 1.52/1.08 | ((X1) != (X5))
% 1.52/1.08 | ~ (rline @ X5))),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [qu(cond(axiom(99), 0), imp(cond(axiom(99), 0)))])).
% 1.52/1.08 thf(zip_derived_cl898, plain,
% 1.52/1.08 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i, X4 : $i]:
% 1.52/1.08 (~ (rline @ X0)
% 1.52/1.08 | ((X1) != (X0))
% 1.52/1.08 | ~ (rS @ X3 @ X2 @ X1)
% 1.52/1.08 | ~ (rpoint @ X4)
% 1.52/1.08 | ((X2) != (X4))
% 1.52/1.08 | ~ (rpoint @ X3)
% 1.52/1.08 | ~ (ron @ X3 @ X1))),
% 1.52/1.08 inference('eq_res', [status(thm)], [zip_derived_cl86])).
% 1.52/1.08 thf(zip_derived_cl1160, plain,
% 1.52/1.08 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i]:
% 1.52/1.08 (~ (ron @ X1 @ X0)
% 1.52/1.08 | ~ (rpoint @ X1)
% 1.52/1.08 | ((X2) != (X3))
% 1.52/1.08 | ~ (rpoint @ X3)
% 1.52/1.08 | ~ (rS @ X1 @ X2 @ X0)
% 1.52/1.08 | ~ (rline @ X0))),
% 1.52/1.08 inference('eq_res', [status(thm)], [zip_derived_cl898])).
% 1.52/1.08 thf(zip_derived_cl1161, plain,
% 1.52/1.08 (![X0 : $i, X1 : $i, X2 : $i]:
% 1.52/1.08 (~ (rline @ X0)
% 1.52/1.08 | ~ (rS @ X2 @ X1 @ X0)
% 1.52/1.08 | ~ (rpoint @ X1)
% 1.52/1.08 | ~ (rpoint @ X2)
% 1.52/1.08 | ~ (ron @ X2 @ X0))),
% 1.52/1.08 inference('eq_res', [status(thm)], [zip_derived_cl1160])).
% 1.52/1.08 thf(zip_derived_cl1162, plain,
% 1.52/1.08 ((~ (ron @ sk_ @ vd1197)
% 1.52/1.08 | ~ (rpoint @ sk_)
% 1.52/1.08 | ~ (rpoint @ sk__6)
% 1.52/1.08 | ~ (rline @ vd1197))),
% 1.52/1.08 inference('sup-', [status(thm)], [zip_derived_cl340, zip_derived_cl1161])).
% 1.52/1.08 thf('pred(s3(plural(274)), 0)', axiom, (ron @ vd1185 @ vd1197)).
% 1.52/1.08 thf(zip_derived_cl8, plain, ( (ron @ vd1185 @ vd1197)),
% 1.52/1.08 inference('cnf', [status(esa)], [pred(s3(plural(274)), 0)])).
% 1.52/1.08 thf(zip_derived_cl21, plain, (((vd1185) = (sk__4))),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [and(neg(neg(conjunct2(conjunct2(conjunct2(plural(comma_conjunct2(268))))))), and(holds(conjunct1(conjunct2(conjunct2(plural(comma_conjunct2(268))))), 1194, 0), and(holds(conjunct1(conjunct2(plural(comma_conjunct2(268)))), 1193, 0), and(holds(conjunct1(plural(comma_conjunct2(268))), 1192, 0), and(qe(s3(plural(comma_conjunct2(268)))), and(qe(s2(plural(comma_conjunct2(268)))), and(qe(s1(plural(comma_conjunct2(268)))), and(pred(comma_conjunct1(268), 9), and(pred(comma_conjunct1(268), 8), and(pred(comma_conjunct1(268), 7), and(qe(s3(plural(268))), and(qe(s2(plural(268))), qe(s1(plural(268)))))))))))))))])).
% 1.52/1.08 thf(zip_derived_cl361, plain, ( (ron @ sk__4 @ vd1197)),
% 1.52/1.08 inference('demod', [status(thm)], [zip_derived_cl8, zip_derived_cl21])).
% 1.52/1.08 thf('pred(s1(plural(315)), 0)', axiom, (ron @ vd1185 @ vd1232)).
% 1.52/1.08 thf(zip_derived_cl49, plain, ( (ron @ vd1185 @ vd1232)),
% 1.52/1.08 inference('cnf', [status(esa)], [pred(s1(plural(315)), 0)])).
% 1.52/1.08 thf(zip_derived_cl21, plain, (((vd1185) = (sk__4))),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [and(neg(neg(conjunct2(conjunct2(conjunct2(plural(comma_conjunct2(268))))))), and(holds(conjunct1(conjunct2(conjunct2(plural(comma_conjunct2(268))))), 1194, 0), and(holds(conjunct1(conjunct2(plural(comma_conjunct2(268)))), 1193, 0), and(holds(conjunct1(plural(comma_conjunct2(268))), 1192, 0), and(qe(s3(plural(comma_conjunct2(268)))), and(qe(s2(plural(comma_conjunct2(268)))), and(qe(s1(plural(comma_conjunct2(268)))), and(pred(comma_conjunct1(268), 9), and(pred(comma_conjunct1(268), 8), and(pred(comma_conjunct1(268), 7), and(qe(s3(plural(268))), and(qe(s2(plural(268))), qe(s1(plural(268)))))))))))))))])).
% 1.52/1.08 thf(zip_derived_cl372, plain, ( (ron @ sk__4 @ vd1232)),
% 1.52/1.08 inference('demod', [status(thm)], [zip_derived_cl49, zip_derived_cl21])).
% 1.52/1.08 thf('pred(s2(plural(315)), 0)', axiom, (ron @ vd1201 @ vd1232)).
% 1.52/1.08 thf(zip_derived_cl32, plain, ( (ron @ vd1201 @ vd1232)),
% 1.52/1.08 inference('cnf', [status(esa)], [pred(s2(plural(315)), 0)])).
% 1.52/1.08 thf(zip_derived_cl9, plain, (((vd1201) = (sk_))),
% 1.52/1.08 inference('cnf', [status(esa)], [qe(s3(plural(271)))])).
% 1.52/1.08 thf(zip_derived_cl364, plain, ( (ron @ sk_ @ vd1232)),
% 1.52/1.08 inference('demod', [status(thm)], [zip_derived_cl32, zip_derived_cl9])).
% 1.52/1.08 thf('pred(s3(plural(315)), 0)', axiom, (ron @ vd1187 @ vd1232)).
% 1.52/1.08 thf(zip_derived_cl7, plain, ( (ron @ vd1187 @ vd1232)),
% 1.52/1.08 inference('cnf', [status(esa)], [pred(s3(plural(315)), 0)])).
% 1.52/1.08 thf(zip_derived_cl17, plain, (((vd1187) = (sk__6))),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [and(neg(neg(conjunct2(conjunct2(conjunct2(plural(comma_conjunct2(268))))))), and(holds(conjunct1(conjunct2(conjunct2(plural(comma_conjunct2(268))))), 1194, 0), and(holds(conjunct1(conjunct2(plural(comma_conjunct2(268)))), 1193, 0), and(holds(conjunct1(plural(comma_conjunct2(268))), 1192, 0), and(qe(s3(plural(comma_conjunct2(268)))), and(qe(s2(plural(comma_conjunct2(268)))), and(qe(s1(plural(comma_conjunct2(268)))), and(pred(comma_conjunct1(268), 9), and(pred(comma_conjunct1(268), 8), and(pred(comma_conjunct1(268), 7), and(qe(s3(plural(268))), and(qe(s2(plural(268))), qe(s1(plural(268)))))))))))))))])).
% 1.52/1.08 thf(zip_derived_cl349, plain, ( (ron @ sk__6 @ vd1232)),
% 1.52/1.08 inference('demod', [status(thm)], [zip_derived_cl7, zip_derived_cl17])).
% 1.52/1.08 thf('qu(cond(axiom(91), 0), imp(cond(axiom(91), 0)))', axiom,
% 1.52/1.08 (![Vd396:$i,Vd397:$i,Vd398:$i,Vd403:$i,Vd404:$i]:
% 1.52/1.08 ( ( ( ( Vd403 ) = ( Vd404 ) ) & ( ron @ Vd398 @ Vd403 ) &
% 1.52/1.08 ( ron @ Vd397 @ Vd403 ) & ( ron @ Vd396 @ Vd403 ) &
% 1.52/1.08 ( rline @ Vd404 ) & ( ( Vd397 ) != ( Vd398 ) ) &
% 1.52/1.08 ( ( Vd396 ) != ( Vd398 ) ) & ( ( Vd396 ) != ( Vd397 ) ) &
% 1.52/1.08 ( ?[Vd402:$i]: ( ( rpoint @ Vd402 ) & ( ( Vd398 ) = ( Vd402 ) ) ) ) &
% 1.52/1.08 ( ?[Vd401:$i]: ( ( rpoint @ Vd401 ) & ( ( Vd397 ) = ( Vd401 ) ) ) ) &
% 1.52/1.08 ( ?[Vd400:$i]: ( ( rpoint @ Vd400 ) & ( ( Vd396 ) = ( Vd400 ) ) ) ) ) =>
% 1.52/1.08 ( ( rR @ Vd397 @ Vd396 @ Vd398 ) | ( rR @ Vd396 @ Vd397 @ Vd398 ) |
% 1.52/1.08 ( rR @ Vd398 @ Vd396 @ Vd397 ) ) ))).
% 1.52/1.08 thf(zip_derived_cl5, plain,
% 1.52/1.08 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i, X4 : $i, X5 : $i, X6 : $i, X7 : $i]:
% 1.52/1.08 ( (rR @ X0 @ X1 @ X2)
% 1.52/1.08 | (rR @ X1 @ X2 @ X0)
% 1.52/1.08 | (rR @ X2 @ X1 @ X0)
% 1.52/1.08 | ((X1) != (X3))
% 1.52/1.08 | ~ (rpoint @ X3)
% 1.52/1.08 | ((X2) != (X4))
% 1.52/1.08 | ~ (rpoint @ X4)
% 1.52/1.08 | ((X0) != (X5))
% 1.52/1.08 | ~ (rpoint @ X5)
% 1.52/1.08 | ((X1) = (X2))
% 1.52/1.08 | ((X1) = (X0))
% 1.52/1.08 | ((X2) = (X0))
% 1.52/1.08 | ~ (ron @ X1 @ X6)
% 1.52/1.08 | ~ (ron @ X2 @ X6)
% 1.52/1.08 | ~ (ron @ X0 @ X6)
% 1.52/1.08 | ((X6) != (X7))
% 1.52/1.08 | ~ (rline @ X7))),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [qu(cond(axiom(91), 0), imp(cond(axiom(91), 0)))])).
% 1.52/1.08 thf(zip_derived_cl322, plain,
% 1.52/1.08 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i, X4 : $i, X5 : $i, X6 : $i]:
% 1.52/1.08 (~ (rline @ X0)
% 1.52/1.08 | ((X1) != (X0))
% 1.52/1.08 | ~ (ron @ X2 @ X1)
% 1.52/1.08 | ~ (ron @ X3 @ X1)
% 1.52/1.08 | ~ (ron @ X4 @ X1)
% 1.52/1.08 | ((X3) = (X2))
% 1.52/1.08 | ((X4) = (X2))
% 1.52/1.08 | ((X4) = (X3))
% 1.52/1.08 | ~ (rpoint @ X5)
% 1.52/1.08 | ((X2) != (X5))
% 1.52/1.08 | ~ (rpoint @ X6)
% 1.52/1.08 | ((X3) != (X6))
% 1.52/1.08 | ~ (rpoint @ X4)
% 1.52/1.08 | (rR @ X3 @ X4 @ X2)
% 1.52/1.08 | (rR @ X4 @ X3 @ X2)
% 1.52/1.08 | (rR @ X2 @ X4 @ X3))),
% 1.52/1.08 inference('eq_res', [status(thm)], [zip_derived_cl5])).
% 1.52/1.08 thf(zip_derived_cl324, plain,
% 1.52/1.08 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i, X4 : $i, X5 : $i]:
% 1.52/1.08 ( (rR @ X2 @ X1 @ X0)
% 1.52/1.08 | (rR @ X1 @ X0 @ X2)
% 1.52/1.08 | (rR @ X0 @ X1 @ X2)
% 1.52/1.08 | ~ (rpoint @ X1)
% 1.52/1.08 | ((X0) != (X3))
% 1.52/1.08 | ~ (rpoint @ X3)
% 1.52/1.08 | ((X2) != (X4))
% 1.52/1.08 | ~ (rpoint @ X4)
% 1.52/1.08 | ((X1) = (X0))
% 1.52/1.08 | ((X1) = (X2))
% 1.52/1.08 | ((X0) = (X2))
% 1.52/1.08 | ~ (ron @ X1 @ X5)
% 1.52/1.08 | ~ (ron @ X0 @ X5)
% 1.52/1.08 | ~ (ron @ X2 @ X5)
% 1.52/1.08 | ~ (rline @ X5))),
% 1.52/1.08 inference('eq_res', [status(thm)], [zip_derived_cl322])).
% 1.52/1.08 thf(zip_derived_cl325, plain,
% 1.52/1.08 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i, X4 : $i]:
% 1.52/1.08 (~ (rline @ X0)
% 1.52/1.08 | ~ (ron @ X1 @ X0)
% 1.52/1.08 | ~ (ron @ X2 @ X0)
% 1.52/1.08 | ~ (ron @ X3 @ X0)
% 1.52/1.08 | ((X2) = (X1))
% 1.52/1.08 | ((X3) = (X1))
% 1.52/1.08 | ((X3) = (X2))
% 1.52/1.08 | ~ (rpoint @ X4)
% 1.52/1.08 | ((X1) != (X4))
% 1.52/1.08 | ~ (rpoint @ X2)
% 1.52/1.08 | ~ (rpoint @ X3)
% 1.52/1.08 | (rR @ X2 @ X3 @ X1)
% 1.52/1.08 | (rR @ X3 @ X2 @ X1)
% 1.52/1.08 | (rR @ X1 @ X3 @ X2))),
% 1.52/1.08 inference('eq_res', [status(thm)], [zip_derived_cl324])).
% 1.52/1.08 thf(zip_derived_cl326, plain,
% 1.52/1.08 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i]:
% 1.52/1.08 ( (rR @ X2 @ X1 @ X0)
% 1.52/1.08 | (rR @ X1 @ X0 @ X2)
% 1.52/1.08 | (rR @ X0 @ X1 @ X2)
% 1.52/1.08 | ~ (rpoint @ X1)
% 1.52/1.08 | ~ (rpoint @ X0)
% 1.52/1.08 | ~ (rpoint @ X2)
% 1.52/1.08 | ((X1) = (X0))
% 1.52/1.08 | ((X1) = (X2))
% 1.52/1.08 | ((X0) = (X2))
% 1.52/1.08 | ~ (ron @ X1 @ X3)
% 1.52/1.08 | ~ (ron @ X0 @ X3)
% 1.52/1.08 | ~ (ron @ X2 @ X3)
% 1.52/1.08 | ~ (rline @ X3))),
% 1.52/1.08 inference('eq_res', [status(thm)], [zip_derived_cl325])).
% 1.52/1.08 thf(zip_derived_cl350, plain,
% 1.52/1.08 (![X0 : $i, X1 : $i]:
% 1.52/1.08 (~ (rline @ vd1232)
% 1.52/1.08 | ~ (ron @ X0 @ vd1232)
% 1.52/1.08 | ~ (ron @ X1 @ vd1232)
% 1.52/1.08 | ((X1) = (X0))
% 1.52/1.08 | ((sk__6) = (X0))
% 1.52/1.08 | ((sk__6) = (X1))
% 1.52/1.08 | ~ (rpoint @ X0)
% 1.52/1.08 | ~ (rpoint @ X1)
% 1.52/1.08 | ~ (rpoint @ sk__6)
% 1.52/1.08 | (rR @ X1 @ sk__6 @ X0)
% 1.52/1.08 | (rR @ sk__6 @ X1 @ X0)
% 1.52/1.08 | (rR @ X0 @ sk__6 @ X1))),
% 1.52/1.08 inference('sup-', [status(thm)], [zip_derived_cl349, zip_derived_cl326])).
% 1.52/1.08 thf(zip_derived_cl16, plain, ( (rpoint @ sk__6)),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [and(neg(neg(conjunct2(conjunct2(conjunct2(plural(comma_conjunct2(268))))))), and(holds(conjunct1(conjunct2(conjunct2(plural(comma_conjunct2(268))))), 1194, 0), and(holds(conjunct1(conjunct2(plural(comma_conjunct2(268)))), 1193, 0), and(holds(conjunct1(plural(comma_conjunct2(268))), 1192, 0), and(qe(s3(plural(comma_conjunct2(268)))), and(qe(s2(plural(comma_conjunct2(268)))), and(qe(s1(plural(comma_conjunct2(268)))), and(pred(comma_conjunct1(268), 9), and(pred(comma_conjunct1(268), 8), and(pred(comma_conjunct1(268), 7), and(qe(s3(plural(268))), and(qe(s2(plural(268))), qe(s1(plural(268)))))))))))))))])).
% 1.52/1.08 thf(zip_derived_cl351, plain,
% 1.52/1.08 (![X0 : $i, X1 : $i]:
% 1.52/1.08 (~ (rline @ vd1232)
% 1.52/1.08 | ~ (ron @ X0 @ vd1232)
% 1.52/1.08 | ~ (ron @ X1 @ vd1232)
% 1.52/1.08 | ((X1) = (X0))
% 1.52/1.08 | ((sk__6) = (X0))
% 1.52/1.08 | ((sk__6) = (X1))
% 1.52/1.08 | ~ (rpoint @ X0)
% 1.52/1.08 | ~ (rpoint @ X1)
% 1.52/1.08 | (rR @ X1 @ sk__6 @ X0)
% 1.52/1.08 | (rR @ sk__6 @ X1 @ X0)
% 1.52/1.08 | (rR @ X0 @ sk__6 @ X1))),
% 1.52/1.08 inference('demod', [status(thm)], [zip_derived_cl350, zip_derived_cl16])).
% 1.52/1.08 thf('pred(293, 0)', axiom, (rline @ vd1232)).
% 1.52/1.08 thf(zip_derived_cl63, plain, ( (rline @ vd1232)),
% 1.52/1.08 inference('cnf', [status(esa)], [pred(293, 0)])).
% 1.52/1.08 thf(zip_derived_cl352, plain,
% 1.52/1.08 (![X0 : $i, X1 : $i]:
% 1.52/1.08 (~ (ron @ X0 @ vd1232)
% 1.52/1.08 | ~ (ron @ X1 @ vd1232)
% 1.52/1.08 | ((X1) = (X0))
% 1.52/1.08 | ((sk__6) = (X0))
% 1.52/1.08 | ((sk__6) = (X1))
% 1.52/1.08 | ~ (rpoint @ X0)
% 1.52/1.08 | ~ (rpoint @ X1)
% 1.52/1.08 | (rR @ X1 @ sk__6 @ X0)
% 1.52/1.08 | (rR @ sk__6 @ X1 @ X0)
% 1.52/1.08 | (rR @ X0 @ sk__6 @ X1))),
% 1.52/1.08 inference('demod', [status(thm)], [zip_derived_cl351, zip_derived_cl63])).
% 1.52/1.08 thf(zip_derived_cl366, plain,
% 1.52/1.08 (![X0 : $i]:
% 1.52/1.08 ( (rR @ sk_ @ sk__6 @ X0)
% 1.52/1.08 | (rR @ sk__6 @ X0 @ sk_)
% 1.52/1.08 | (rR @ X0 @ sk__6 @ sk_)
% 1.52/1.08 | ~ (rpoint @ X0)
% 1.52/1.08 | ~ (rpoint @ sk_)
% 1.52/1.08 | ((sk__6) = (X0))
% 1.52/1.08 | ((sk__6) = (sk_))
% 1.52/1.08 | ((X0) = (sk_))
% 1.52/1.08 | ~ (ron @ X0 @ vd1232))),
% 1.52/1.08 inference('sup-', [status(thm)], [zip_derived_cl364, zip_derived_cl352])).
% 1.52/1.08 thf(zip_derived_cl10, plain, ( (rpoint @ sk_)),
% 1.52/1.08 inference('cnf', [status(esa)], [qe(s3(plural(271)))])).
% 1.52/1.08 thf(zip_derived_cl368, plain,
% 1.52/1.08 (![X0 : $i]:
% 1.52/1.08 ( (rR @ sk_ @ sk__6 @ X0)
% 1.52/1.08 | (rR @ sk__6 @ X0 @ sk_)
% 1.52/1.08 | (rR @ X0 @ sk__6 @ sk_)
% 1.52/1.08 | ~ (rpoint @ X0)
% 1.52/1.08 | ((sk__6) = (X0))
% 1.52/1.08 | ((sk__6) = (sk_))
% 1.52/1.08 | ((X0) = (sk_))
% 1.52/1.08 | ~ (ron @ X0 @ vd1232))),
% 1.52/1.08 inference('demod', [status(thm)], [zip_derived_cl366, zip_derived_cl10])).
% 1.52/1.08 thf('holds(320, 1251, 0)', axiom, (( vd1201 ) != ( vd1187 ))).
% 1.52/1.08 thf(zip_derived_cl2, plain, (((vd1201) != (vd1187))),
% 1.52/1.08 inference('cnf', [status(esa)], [holds(320, 1251, 0)])).
% 1.52/1.08 thf(zip_derived_cl9, plain, (((vd1201) = (sk_))),
% 1.52/1.08 inference('cnf', [status(esa)], [qe(s3(plural(271)))])).
% 1.52/1.08 thf(zip_derived_cl320, plain, (((sk_) != (vd1187))),
% 1.52/1.08 inference('demod', [status(thm)], [zip_derived_cl2, zip_derived_cl9])).
% 1.52/1.08 thf(zip_derived_cl17, plain, (((vd1187) = (sk__6))),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [and(neg(neg(conjunct2(conjunct2(conjunct2(plural(comma_conjunct2(268))))))), and(holds(conjunct1(conjunct2(conjunct2(plural(comma_conjunct2(268))))), 1194, 0), and(holds(conjunct1(conjunct2(plural(comma_conjunct2(268)))), 1193, 0), and(holds(conjunct1(plural(comma_conjunct2(268))), 1192, 0), and(qe(s3(plural(comma_conjunct2(268)))), and(qe(s2(plural(comma_conjunct2(268)))), and(qe(s1(plural(comma_conjunct2(268)))), and(pred(comma_conjunct1(268), 9), and(pred(comma_conjunct1(268), 8), and(pred(comma_conjunct1(268), 7), and(qe(s3(plural(268))), and(qe(s2(plural(268))), qe(s1(plural(268)))))))))))))))])).
% 1.52/1.08 thf(zip_derived_cl323, plain, (((sk_) != (sk__6))),
% 1.52/1.08 inference('demod', [status(thm)], [zip_derived_cl320, zip_derived_cl17])).
% 1.52/1.08 thf(zip_derived_cl369, plain,
% 1.52/1.08 (![X0 : $i]:
% 1.52/1.08 ( (rR @ sk_ @ sk__6 @ X0)
% 1.52/1.08 | (rR @ sk__6 @ X0 @ sk_)
% 1.52/1.08 | (rR @ X0 @ sk__6 @ sk_)
% 1.52/1.08 | ~ (rpoint @ X0)
% 1.52/1.08 | ((sk__6) = (X0))
% 1.52/1.08 | ((X0) = (sk_))
% 1.52/1.08 | ~ (ron @ X0 @ vd1232))),
% 1.52/1.08 inference('simplify_reflect-', [status(thm)],
% 1.52/1.08 [zip_derived_cl368, zip_derived_cl323])).
% 1.52/1.08 thf(zip_derived_cl390, plain,
% 1.52/1.08 ((((sk__4) = (sk_))
% 1.52/1.08 | ((sk__6) = (sk__4))
% 1.52/1.08 | ~ (rpoint @ sk__4)
% 1.52/1.08 | (rR @ sk__4 @ sk__6 @ sk_)
% 1.52/1.08 | (rR @ sk__6 @ sk__4 @ sk_)
% 1.52/1.08 | (rR @ sk_ @ sk__6 @ sk__4))),
% 1.52/1.08 inference('sup-', [status(thm)], [zip_derived_cl372, zip_derived_cl369])).
% 1.52/1.08 thf(zip_derived_cl20, plain, ( (rpoint @ sk__4)),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [and(neg(neg(conjunct2(conjunct2(conjunct2(plural(comma_conjunct2(268))))))), and(holds(conjunct1(conjunct2(conjunct2(plural(comma_conjunct2(268))))), 1194, 0), and(holds(conjunct1(conjunct2(plural(comma_conjunct2(268)))), 1193, 0), and(holds(conjunct1(plural(comma_conjunct2(268))), 1192, 0), and(qe(s3(plural(comma_conjunct2(268)))), and(qe(s2(plural(comma_conjunct2(268)))), and(qe(s1(plural(comma_conjunct2(268)))), and(pred(comma_conjunct1(268), 9), and(pred(comma_conjunct1(268), 8), and(pred(comma_conjunct1(268), 7), and(qe(s3(plural(268))), and(qe(s2(plural(268))), qe(s1(plural(268)))))))))))))))])).
% 1.52/1.08 thf(zip_derived_cl394, plain,
% 1.52/1.08 ((((sk__4) = (sk_))
% 1.52/1.08 | ((sk__6) = (sk__4))
% 1.52/1.08 | (rR @ sk__4 @ sk__6 @ sk_)
% 1.52/1.08 | (rR @ sk__6 @ sk__4 @ sk_)
% 1.52/1.08 | (rR @ sk_ @ sk__6 @ sk__4))),
% 1.52/1.08 inference('demod', [status(thm)], [zip_derived_cl390, zip_derived_cl20])).
% 1.52/1.08 thf(dis(321), conjecture,
% 1.52/1.08 (( rR @ vd1201 @ vd1185 @ vd1187 ) | ( rR @ vd1187 @ vd1185 @ vd1201 ))).
% 1.52/1.08 thf(zf_stmt_0, negated_conjecture,
% 1.52/1.08 (~( ( rR @ vd1201 @ vd1185 @ vd1187 ) | ( rR @ vd1187 @ vd1185 @ vd1201 ) )),
% 1.52/1.08 inference('cnf.neg', [status(esa)], [dis(321)])).
% 1.52/1.08 thf(zip_derived_cl0, plain, (~ (rR @ vd1187 @ vd1185 @ vd1201)),
% 1.52/1.08 inference('cnf', [status(esa)], [zf_stmt_0])).
% 1.52/1.08 thf(zip_derived_cl9, plain, (((vd1201) = (sk_))),
% 1.52/1.08 inference('cnf', [status(esa)], [qe(s3(plural(271)))])).
% 1.52/1.08 thf(zip_derived_cl318, plain, (~ (rR @ vd1187 @ vd1185 @ sk_)),
% 1.52/1.08 inference('demod', [status(thm)], [zip_derived_cl0, zip_derived_cl9])).
% 1.52/1.08 thf(zip_derived_cl17, plain, (((vd1187) = (sk__6))),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [and(neg(neg(conjunct2(conjunct2(conjunct2(plural(comma_conjunct2(268))))))), and(holds(conjunct1(conjunct2(conjunct2(plural(comma_conjunct2(268))))), 1194, 0), and(holds(conjunct1(conjunct2(plural(comma_conjunct2(268)))), 1193, 0), and(holds(conjunct1(plural(comma_conjunct2(268))), 1192, 0), and(qe(s3(plural(comma_conjunct2(268)))), and(qe(s2(plural(comma_conjunct2(268)))), and(qe(s1(plural(comma_conjunct2(268)))), and(pred(comma_conjunct1(268), 9), and(pred(comma_conjunct1(268), 8), and(pred(comma_conjunct1(268), 7), and(qe(s3(plural(268))), and(qe(s2(plural(268))), qe(s1(plural(268)))))))))))))))])).
% 1.52/1.08 thf(zip_derived_cl21, plain, (((vd1185) = (sk__4))),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [and(neg(neg(conjunct2(conjunct2(conjunct2(plural(comma_conjunct2(268))))))), and(holds(conjunct1(conjunct2(conjunct2(plural(comma_conjunct2(268))))), 1194, 0), and(holds(conjunct1(conjunct2(plural(comma_conjunct2(268)))), 1193, 0), and(holds(conjunct1(plural(comma_conjunct2(268))), 1192, 0), and(qe(s3(plural(comma_conjunct2(268)))), and(qe(s2(plural(comma_conjunct2(268)))), and(qe(s1(plural(comma_conjunct2(268)))), and(pred(comma_conjunct1(268), 9), and(pred(comma_conjunct1(268), 8), and(pred(comma_conjunct1(268), 7), and(qe(s3(plural(268))), and(qe(s2(plural(268))), qe(s1(plural(268)))))))))))))))])).
% 1.52/1.08 thf(zip_derived_cl333, plain, (~ (rR @ sk__6 @ sk__4 @ sk_)),
% 1.52/1.08 inference('demod', [status(thm)],
% 1.52/1.08 [zip_derived_cl318, zip_derived_cl17, zip_derived_cl21])).
% 1.52/1.08 thf(zip_derived_cl397, plain,
% 1.52/1.08 (( (rR @ sk_ @ sk__6 @ sk__4)
% 1.52/1.08 | (rR @ sk__4 @ sk__6 @ sk_)
% 1.52/1.08 | ((sk__6) = (sk__4))
% 1.52/1.08 | ((sk__4) = (sk_)))),
% 1.52/1.08 inference('clc', [status(thm)], [zip_derived_cl394, zip_derived_cl333])).
% 1.52/1.08 thf('holds(295, 1236, 0)', axiom, (rS @ vd1187 @ vd1201 @ vd1197)).
% 1.52/1.08 thf(zip_derived_cl58, plain, ( (rS @ vd1187 @ vd1201 @ vd1197)),
% 1.52/1.08 inference('cnf', [status(esa)], [holds(295, 1236, 0)])).
% 1.52/1.08 thf(zip_derived_cl17, plain, (((vd1187) = (sk__6))),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [and(neg(neg(conjunct2(conjunct2(conjunct2(plural(comma_conjunct2(268))))))), and(holds(conjunct1(conjunct2(conjunct2(plural(comma_conjunct2(268))))), 1194, 0), and(holds(conjunct1(conjunct2(plural(comma_conjunct2(268)))), 1193, 0), and(holds(conjunct1(plural(comma_conjunct2(268))), 1192, 0), and(qe(s3(plural(comma_conjunct2(268)))), and(qe(s2(plural(comma_conjunct2(268)))), and(qe(s1(plural(comma_conjunct2(268)))), and(pred(comma_conjunct1(268), 9), and(pred(comma_conjunct1(268), 8), and(pred(comma_conjunct1(268), 7), and(qe(s3(plural(268))), and(qe(s2(plural(268))), qe(s1(plural(268)))))))))))))))])).
% 1.52/1.08 thf(zip_derived_cl9, plain, (((vd1201) = (sk_))),
% 1.52/1.08 inference('cnf', [status(esa)], [qe(s3(plural(271)))])).
% 1.52/1.08 thf(zip_derived_cl424, plain, ( (rS @ sk__6 @ sk_ @ vd1197)),
% 1.52/1.08 inference('demod', [status(thm)],
% 1.52/1.08 [zip_derived_cl58, zip_derived_cl17, zip_derived_cl9])).
% 1.52/1.08 thf('qu(cond(axiom(109), 0), imp(cond(axiom(109), 0)))', axiom,
% 1.52/1.08 (![Vd489:$i,Vd490:$i,Vd491:$i,Vd496:$i,Vd497:$i]:
% 1.52/1.08 ( ( ( ron @ Vd490 @ Vd496 ) & ( rR @ Vd490 @ Vd489 @ Vd491 ) &
% 1.52/1.08 ( ( Vd496 ) = ( Vd497 ) ) & ( rline @ Vd497 ) &
% 1.52/1.08 ( ?[Vd495:$i]: ( ( rpoint @ Vd495 ) & ( ( Vd491 ) = ( Vd495 ) ) ) ) &
% 1.52/1.08 ( ?[Vd494:$i]: ( ( rpoint @ Vd494 ) & ( ( Vd490 ) = ( Vd494 ) ) ) ) &
% 1.52/1.08 ( ?[Vd493:$i]: ( ( rpoint @ Vd493 ) & ( ( Vd489 ) = ( Vd493 ) ) ) ) ) =>
% 1.52/1.08 ( ~( rS @ Vd489 @ Vd491 @ Vd496 ) ) ))).
% 1.52/1.08 thf(zip_derived_cl31, plain,
% 1.52/1.08 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i, X4 : $i, X5 : $i, X6 : $i, X7 : $i]:
% 1.52/1.08 (~ (rS @ X0 @ X1 @ X2)
% 1.52/1.08 | ((X0) != (X3))
% 1.52/1.08 | ~ (rpoint @ X3)
% 1.52/1.08 | ((X5) != (X4))
% 1.52/1.08 | ~ (rpoint @ X4)
% 1.52/1.08 | ((X1) != (X6))
% 1.52/1.08 | ~ (rpoint @ X6)
% 1.52/1.08 | ~ (rR @ X5 @ X0 @ X1)
% 1.52/1.08 | ~ (ron @ X5 @ X2)
% 1.52/1.08 | ((X2) != (X7))
% 1.52/1.08 | ~ (rline @ X7))),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [qu(cond(axiom(109), 0), imp(cond(axiom(109), 0)))])).
% 1.52/1.08 thf(zip_derived_cl484, plain,
% 1.52/1.08 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i, X4 : $i, X5 : $i, X6 : $i]:
% 1.52/1.08 (~ (rline @ X0)
% 1.52/1.08 | ((X1) != (X0))
% 1.52/1.08 | ~ (ron @ X2 @ X1)
% 1.52/1.08 | ~ (rR @ X2 @ X4 @ X3)
% 1.52/1.08 | ~ (rpoint @ X5)
% 1.52/1.08 | ((X3) != (X5))
% 1.52/1.08 | ~ (rpoint @ X6)
% 1.52/1.08 | ((X2) != (X6))
% 1.52/1.08 | ~ (rpoint @ X4)
% 1.52/1.08 | ~ (rS @ X4 @ X3 @ X1))),
% 1.52/1.08 inference('eq_res', [status(thm)], [zip_derived_cl31])).
% 1.52/1.08 thf(zip_derived_cl485, plain,
% 1.52/1.08 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i, X4 : $i, X5 : $i]:
% 1.52/1.08 (~ (rS @ X2 @ X1 @ X0)
% 1.52/1.08 | ~ (rpoint @ X2)
% 1.52/1.08 | ((X3) != (X4))
% 1.52/1.08 | ~ (rpoint @ X4)
% 1.52/1.08 | ((X1) != (X5))
% 1.52/1.08 | ~ (rpoint @ X5)
% 1.52/1.08 | ~ (rR @ X3 @ X2 @ X1)
% 1.52/1.08 | ~ (ron @ X3 @ X0)
% 1.52/1.08 | ~ (rline @ X0))),
% 1.52/1.08 inference('eq_res', [status(thm)], [zip_derived_cl484])).
% 1.52/1.08 thf(zip_derived_cl486, plain,
% 1.52/1.08 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i, X4 : $i]:
% 1.52/1.08 (~ (rline @ X0)
% 1.52/1.08 | ~ (ron @ X1 @ X0)
% 1.52/1.08 | ~ (rR @ X1 @ X3 @ X2)
% 1.52/1.08 | ~ (rpoint @ X4)
% 1.52/1.08 | ((X2) != (X4))
% 1.52/1.08 | ~ (rpoint @ X1)
% 1.52/1.08 | ~ (rpoint @ X3)
% 1.52/1.08 | ~ (rS @ X3 @ X2 @ X0))),
% 1.52/1.08 inference('eq_res', [status(thm)], [zip_derived_cl485])).
% 1.52/1.08 thf(zip_derived_cl487, plain,
% 1.52/1.08 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i]:
% 1.52/1.08 (~ (rS @ X2 @ X1 @ X0)
% 1.52/1.08 | ~ (rpoint @ X2)
% 1.52/1.08 | ~ (rpoint @ X3)
% 1.52/1.08 | ~ (rpoint @ X1)
% 1.52/1.08 | ~ (rR @ X3 @ X2 @ X1)
% 1.52/1.08 | ~ (ron @ X3 @ X0)
% 1.52/1.08 | ~ (rline @ X0))),
% 1.52/1.08 inference('eq_res', [status(thm)], [zip_derived_cl486])).
% 1.52/1.08 thf(zip_derived_cl489, plain,
% 1.52/1.08 (![X0 : $i]:
% 1.52/1.08 (~ (rline @ vd1197)
% 1.52/1.08 | ~ (ron @ X0 @ vd1197)
% 1.52/1.08 | ~ (rR @ X0 @ sk__6 @ sk_)
% 1.52/1.08 | ~ (rpoint @ sk_)
% 1.52/1.08 | ~ (rpoint @ X0)
% 1.52/1.08 | ~ (rpoint @ sk__6))),
% 1.52/1.08 inference('sup-', [status(thm)], [zip_derived_cl424, zip_derived_cl487])).
% 1.52/1.08 thf('pred(269, 0)', axiom, (rline @ vd1197)).
% 1.52/1.08 thf(zip_derived_cl11, plain, ( (rline @ vd1197)),
% 1.52/1.08 inference('cnf', [status(esa)], [pred(269, 0)])).
% 1.52/1.08 thf(zip_derived_cl10, plain, ( (rpoint @ sk_)),
% 1.52/1.08 inference('cnf', [status(esa)], [qe(s3(plural(271)))])).
% 1.52/1.08 thf(zip_derived_cl16, plain, ( (rpoint @ sk__6)),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [and(neg(neg(conjunct2(conjunct2(conjunct2(plural(comma_conjunct2(268))))))), and(holds(conjunct1(conjunct2(conjunct2(plural(comma_conjunct2(268))))), 1194, 0), and(holds(conjunct1(conjunct2(plural(comma_conjunct2(268)))), 1193, 0), and(holds(conjunct1(plural(comma_conjunct2(268))), 1192, 0), and(qe(s3(plural(comma_conjunct2(268)))), and(qe(s2(plural(comma_conjunct2(268)))), and(qe(s1(plural(comma_conjunct2(268)))), and(pred(comma_conjunct1(268), 9), and(pred(comma_conjunct1(268), 8), and(pred(comma_conjunct1(268), 7), and(qe(s3(plural(268))), and(qe(s2(plural(268))), qe(s1(plural(268)))))))))))))))])).
% 1.52/1.08 thf(zip_derived_cl491, plain,
% 1.52/1.08 (![X0 : $i]:
% 1.52/1.08 (~ (ron @ X0 @ vd1197) | ~ (rR @ X0 @ sk__6 @ sk_) | ~ (rpoint @ X0))),
% 1.52/1.08 inference('demod', [status(thm)],
% 1.52/1.08 [zip_derived_cl489, zip_derived_cl11, zip_derived_cl10,
% 1.52/1.08 zip_derived_cl16])).
% 1.52/1.08 thf(zip_derived_cl526, plain,
% 1.52/1.08 ((((sk__4) = (sk_))
% 1.52/1.08 | ((sk__6) = (sk__4))
% 1.52/1.08 | (rR @ sk_ @ sk__6 @ sk__4)
% 1.52/1.08 | ~ (rpoint @ sk__4)
% 1.52/1.08 | ~ (ron @ sk__4 @ vd1197))),
% 1.52/1.08 inference('sup-', [status(thm)], [zip_derived_cl397, zip_derived_cl491])).
% 1.52/1.08 thf(zip_derived_cl20, plain, ( (rpoint @ sk__4)),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [and(neg(neg(conjunct2(conjunct2(conjunct2(plural(comma_conjunct2(268))))))), and(holds(conjunct1(conjunct2(conjunct2(plural(comma_conjunct2(268))))), 1194, 0), and(holds(conjunct1(conjunct2(plural(comma_conjunct2(268)))), 1193, 0), and(holds(conjunct1(plural(comma_conjunct2(268))), 1192, 0), and(qe(s3(plural(comma_conjunct2(268)))), and(qe(s2(plural(comma_conjunct2(268)))), and(qe(s1(plural(comma_conjunct2(268)))), and(pred(comma_conjunct1(268), 9), and(pred(comma_conjunct1(268), 8), and(pred(comma_conjunct1(268), 7), and(qe(s3(plural(268))), and(qe(s2(plural(268))), qe(s1(plural(268)))))))))))))))])).
% 1.52/1.08 thf(zip_derived_cl361, plain, ( (ron @ sk__4 @ vd1197)),
% 1.52/1.08 inference('demod', [status(thm)], [zip_derived_cl8, zip_derived_cl21])).
% 1.52/1.08 thf(zip_derived_cl527, plain,
% 1.52/1.08 ((((sk__4) = (sk_)) | ((sk__6) = (sk__4)) | (rR @ sk_ @ sk__6 @ sk__4))),
% 1.52/1.08 inference('demod', [status(thm)],
% 1.52/1.08 [zip_derived_cl526, zip_derived_cl20, zip_derived_cl361])).
% 1.52/1.08 thf('qu(cond(axiom(81), 0), imp(cond(axiom(81), 0)))', axiom,
% 1.52/1.08 (![Vd340:$i,Vd341:$i,Vd342:$i]:
% 1.52/1.08 ( ( ( rR @ Vd341 @ Vd340 @ Vd342 ) &
% 1.52/1.08 ( ?[Vd346:$i]: ( ( rpoint @ Vd346 ) & ( ( Vd342 ) = ( Vd346 ) ) ) ) &
% 1.52/1.08 ( ?[Vd345:$i]: ( ( rpoint @ Vd345 ) & ( ( Vd341 ) = ( Vd345 ) ) ) ) &
% 1.52/1.08 ( ?[Vd344:$i]: ( ( rpoint @ Vd344 ) & ( ( Vd340 ) = ( Vd344 ) ) ) ) ) =>
% 1.52/1.08 ( ( ~( rR @ Vd340 @ Vd341 @ Vd342 ) ) & ( ( Vd340 ) != ( Vd342 ) ) &
% 1.52/1.08 ( ( Vd340 ) != ( Vd341 ) ) & ( rR @ Vd341 @ Vd342 @ Vd340 ) ) ))).
% 1.52/1.08 thf(zip_derived_cl152, plain,
% 1.52/1.08 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i, X4 : $i, X5 : $i]:
% 1.52/1.08 (((X1) != (X0))
% 1.52/1.08 | ~ (rpoint @ X0)
% 1.52/1.08 | ((X3) != (X2))
% 1.52/1.08 | ~ (rpoint @ X2)
% 1.52/1.08 | ~ (rR @ X3 @ X1 @ X4)
% 1.52/1.08 | ~ (rpoint @ X5)
% 1.52/1.08 | ((X4) != (X5))
% 1.52/1.08 | ~ (rR @ X1 @ X3 @ X4))),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [qu(cond(axiom(81), 0), imp(cond(axiom(81), 0)))])).
% 1.52/1.08 thf(zip_derived_cl900, plain,
% 1.52/1.08 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i, X4 : $i]:
% 1.52/1.08 (~ (rR @ X2 @ X1 @ X0)
% 1.52/1.08 | ((X0) != (X3))
% 1.52/1.08 | ~ (rpoint @ X3)
% 1.52/1.08 | ~ (rR @ X1 @ X2 @ X0)
% 1.52/1.08 | ~ (rpoint @ X4)
% 1.52/1.08 | ((X1) != (X4))
% 1.52/1.08 | ~ (rpoint @ X2))),
% 1.52/1.08 inference('eq_res', [status(thm)], [zip_derived_cl152])).
% 1.52/1.08 thf(zip_derived_cl906, plain,
% 1.52/1.08 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i]:
% 1.52/1.08 (~ (rpoint @ X0)
% 1.52/1.08 | ((X1) != (X2))
% 1.52/1.08 | ~ (rpoint @ X2)
% 1.52/1.08 | ~ (rR @ X1 @ X0 @ X3)
% 1.52/1.08 | ~ (rpoint @ X3)
% 1.52/1.08 | ~ (rR @ X0 @ X1 @ X3))),
% 1.52/1.08 inference('eq_res', [status(thm)], [zip_derived_cl900])).
% 1.52/1.08 thf(zip_derived_cl907, plain,
% 1.52/1.08 (![X0 : $i, X1 : $i, X2 : $i]:
% 1.52/1.08 (~ (rR @ X2 @ X1 @ X0)
% 1.52/1.08 | ~ (rpoint @ X0)
% 1.52/1.08 | ~ (rR @ X1 @ X2 @ X0)
% 1.52/1.08 | ~ (rpoint @ X1)
% 1.52/1.08 | ~ (rpoint @ X2))),
% 1.52/1.08 inference('eq_res', [status(thm)], [zip_derived_cl906])).
% 1.52/1.08 thf(zip_derived_cl908, plain,
% 1.52/1.08 ((((sk__6) = (sk__4))
% 1.52/1.08 | ((sk__4) = (sk_))
% 1.52/1.08 | ~ (rpoint @ sk_)
% 1.52/1.08 | ~ (rpoint @ sk__6)
% 1.52/1.08 | ~ (rR @ sk__6 @ sk_ @ sk__4)
% 1.52/1.08 | ~ (rpoint @ sk__4))),
% 1.52/1.08 inference('sup-', [status(thm)], [zip_derived_cl527, zip_derived_cl907])).
% 1.52/1.08 thf(zip_derived_cl10, plain, ( (rpoint @ sk_)),
% 1.52/1.08 inference('cnf', [status(esa)], [qe(s3(plural(271)))])).
% 1.52/1.08 thf(zip_derived_cl16, plain, ( (rpoint @ sk__6)),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [and(neg(neg(conjunct2(conjunct2(conjunct2(plural(comma_conjunct2(268))))))), and(holds(conjunct1(conjunct2(conjunct2(plural(comma_conjunct2(268))))), 1194, 0), and(holds(conjunct1(conjunct2(plural(comma_conjunct2(268)))), 1193, 0), and(holds(conjunct1(plural(comma_conjunct2(268))), 1192, 0), and(qe(s3(plural(comma_conjunct2(268)))), and(qe(s2(plural(comma_conjunct2(268)))), and(qe(s1(plural(comma_conjunct2(268)))), and(pred(comma_conjunct1(268), 9), and(pred(comma_conjunct1(268), 8), and(pred(comma_conjunct1(268), 7), and(qe(s3(plural(268))), and(qe(s2(plural(268))), qe(s1(plural(268)))))))))))))))])).
% 1.52/1.08 thf(zip_derived_cl20, plain, ( (rpoint @ sk__4)),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [and(neg(neg(conjunct2(conjunct2(conjunct2(plural(comma_conjunct2(268))))))), and(holds(conjunct1(conjunct2(conjunct2(plural(comma_conjunct2(268))))), 1194, 0), and(holds(conjunct1(conjunct2(plural(comma_conjunct2(268)))), 1193, 0), and(holds(conjunct1(plural(comma_conjunct2(268))), 1192, 0), and(qe(s3(plural(comma_conjunct2(268)))), and(qe(s2(plural(comma_conjunct2(268)))), and(qe(s1(plural(comma_conjunct2(268)))), and(pred(comma_conjunct1(268), 9), and(pred(comma_conjunct1(268), 8), and(pred(comma_conjunct1(268), 7), and(qe(s3(plural(268))), and(qe(s2(plural(268))), qe(s1(plural(268)))))))))))))))])).
% 1.52/1.08 thf(zip_derived_cl917, plain,
% 1.52/1.08 ((((sk__6) = (sk__4)) | ((sk__4) = (sk_)) | ~ (rR @ sk__6 @ sk_ @ sk__4))),
% 1.52/1.08 inference('demod', [status(thm)],
% 1.52/1.08 [zip_derived_cl908, zip_derived_cl10, zip_derived_cl16,
% 1.52/1.08 zip_derived_cl20])).
% 1.52/1.08 thf(zip_derived_cl372, plain, ( (ron @ sk__4 @ vd1232)),
% 1.52/1.08 inference('demod', [status(thm)], [zip_derived_cl49, zip_derived_cl21])).
% 1.52/1.08 thf(zip_derived_cl349, plain, ( (ron @ sk__6 @ vd1232)),
% 1.52/1.08 inference('demod', [status(thm)], [zip_derived_cl7, zip_derived_cl17])).
% 1.52/1.08 thf(zip_derived_cl364, plain, ( (ron @ sk_ @ vd1232)),
% 1.52/1.08 inference('demod', [status(thm)], [zip_derived_cl32, zip_derived_cl9])).
% 1.52/1.08 thf(zip_derived_cl326, plain,
% 1.52/1.08 (![X0 : $i, X1 : $i, X2 : $i, X3 : $i]:
% 1.52/1.08 ( (rR @ X2 @ X1 @ X0)
% 1.52/1.08 | (rR @ X1 @ X0 @ X2)
% 1.52/1.08 | (rR @ X0 @ X1 @ X2)
% 1.52/1.08 | ~ (rpoint @ X1)
% 1.52/1.08 | ~ (rpoint @ X0)
% 1.52/1.08 | ~ (rpoint @ X2)
% 1.52/1.08 | ((X1) = (X0))
% 1.52/1.08 | ((X1) = (X2))
% 1.52/1.08 | ((X0) = (X2))
% 1.52/1.08 | ~ (ron @ X1 @ X3)
% 1.52/1.08 | ~ (ron @ X0 @ X3)
% 1.52/1.08 | ~ (ron @ X2 @ X3)
% 1.52/1.08 | ~ (rline @ X3))),
% 1.52/1.08 inference('eq_res', [status(thm)], [zip_derived_cl325])).
% 1.52/1.08 thf(zip_derived_cl365, plain,
% 1.52/1.08 (![X0 : $i, X1 : $i]:
% 1.52/1.08 (~ (rline @ vd1232)
% 1.52/1.08 | ~ (ron @ X0 @ vd1232)
% 1.52/1.08 | ~ (ron @ X1 @ vd1232)
% 1.52/1.08 | ((X1) = (X0))
% 1.52/1.08 | ((sk_) = (X0))
% 1.52/1.08 | ((sk_) = (X1))
% 1.52/1.08 | ~ (rpoint @ X0)
% 1.52/1.08 | ~ (rpoint @ X1)
% 1.52/1.08 | ~ (rpoint @ sk_)
% 1.52/1.08 | (rR @ X1 @ sk_ @ X0)
% 1.52/1.08 | (rR @ sk_ @ X1 @ X0)
% 1.52/1.08 | (rR @ X0 @ sk_ @ X1))),
% 1.52/1.08 inference('sup-', [status(thm)], [zip_derived_cl364, zip_derived_cl326])).
% 1.52/1.08 thf(zip_derived_cl63, plain, ( (rline @ vd1232)),
% 1.52/1.08 inference('cnf', [status(esa)], [pred(293, 0)])).
% 1.52/1.08 thf(zip_derived_cl10, plain, ( (rpoint @ sk_)),
% 1.52/1.08 inference('cnf', [status(esa)], [qe(s3(plural(271)))])).
% 1.52/1.08 thf(zip_derived_cl367, plain,
% 1.52/1.08 (![X0 : $i, X1 : $i]:
% 1.52/1.08 (~ (ron @ X0 @ vd1232)
% 1.52/1.08 | ~ (ron @ X1 @ vd1232)
% 1.52/1.08 | ((X1) = (X0))
% 1.52/1.08 | ((sk_) = (X0))
% 1.52/1.08 | ((sk_) = (X1))
% 1.52/1.08 | ~ (rpoint @ X0)
% 1.52/1.08 | ~ (rpoint @ X1)
% 1.52/1.08 | (rR @ X1 @ sk_ @ X0)
% 1.52/1.08 | (rR @ sk_ @ X1 @ X0)
% 1.52/1.08 | (rR @ X0 @ sk_ @ X1))),
% 1.52/1.08 inference('demod', [status(thm)],
% 1.52/1.08 [zip_derived_cl365, zip_derived_cl63, zip_derived_cl10])).
% 1.52/1.08 thf(zip_derived_cl441, plain,
% 1.52/1.08 (![X0 : $i]:
% 1.52/1.08 ( (rR @ sk__6 @ sk_ @ X0)
% 1.52/1.08 | (rR @ sk_ @ X0 @ sk__6)
% 1.52/1.08 | (rR @ X0 @ sk_ @ sk__6)
% 1.52/1.08 | ~ (rpoint @ X0)
% 1.52/1.08 | ~ (rpoint @ sk__6)
% 1.52/1.08 | ((sk_) = (X0))
% 1.52/1.08 | ((sk_) = (sk__6))
% 1.52/1.08 | ((X0) = (sk__6))
% 1.52/1.08 | ~ (ron @ X0 @ vd1232))),
% 1.52/1.08 inference('sup-', [status(thm)], [zip_derived_cl349, zip_derived_cl367])).
% 1.52/1.08 thf(zip_derived_cl16, plain, ( (rpoint @ sk__6)),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [and(neg(neg(conjunct2(conjunct2(conjunct2(plural(comma_conjunct2(268))))))), and(holds(conjunct1(conjunct2(conjunct2(plural(comma_conjunct2(268))))), 1194, 0), and(holds(conjunct1(conjunct2(plural(comma_conjunct2(268)))), 1193, 0), and(holds(conjunct1(plural(comma_conjunct2(268))), 1192, 0), and(qe(s3(plural(comma_conjunct2(268)))), and(qe(s2(plural(comma_conjunct2(268)))), and(qe(s1(plural(comma_conjunct2(268)))), and(pred(comma_conjunct1(268), 9), and(pred(comma_conjunct1(268), 8), and(pred(comma_conjunct1(268), 7), and(qe(s3(plural(268))), and(qe(s2(plural(268))), qe(s1(plural(268)))))))))))))))])).
% 1.52/1.08 thf(zip_derived_cl447, plain,
% 1.52/1.08 (![X0 : $i]:
% 1.52/1.08 ( (rR @ sk__6 @ sk_ @ X0)
% 1.52/1.08 | (rR @ sk_ @ X0 @ sk__6)
% 1.52/1.08 | (rR @ X0 @ sk_ @ sk__6)
% 1.52/1.08 | ~ (rpoint @ X0)
% 1.52/1.08 | ((sk_) = (X0))
% 1.52/1.08 | ((sk_) = (sk__6))
% 1.52/1.08 | ((X0) = (sk__6))
% 1.52/1.08 | ~ (ron @ X0 @ vd1232))),
% 1.52/1.08 inference('demod', [status(thm)], [zip_derived_cl441, zip_derived_cl16])).
% 1.52/1.08 thf(zip_derived_cl323, plain, (((sk_) != (sk__6))),
% 1.52/1.08 inference('demod', [status(thm)], [zip_derived_cl320, zip_derived_cl17])).
% 1.52/1.08 thf(zip_derived_cl448, plain,
% 1.52/1.08 (![X0 : $i]:
% 1.52/1.08 ( (rR @ sk__6 @ sk_ @ X0)
% 1.52/1.08 | (rR @ sk_ @ X0 @ sk__6)
% 1.52/1.08 | (rR @ X0 @ sk_ @ sk__6)
% 1.52/1.08 | ~ (rpoint @ X0)
% 1.52/1.08 | ((sk_) = (X0))
% 1.52/1.08 | ((X0) = (sk__6))
% 1.52/1.08 | ~ (ron @ X0 @ vd1232))),
% 1.52/1.08 inference('simplify_reflect-', [status(thm)],
% 1.52/1.08 [zip_derived_cl447, zip_derived_cl323])).
% 1.52/1.08 thf(zip_derived_cl450, plain,
% 1.52/1.08 ((((sk__4) = (sk__6))
% 1.52/1.08 | ((sk_) = (sk__4))
% 1.52/1.08 | ~ (rpoint @ sk__4)
% 1.52/1.08 | (rR @ sk__4 @ sk_ @ sk__6)
% 1.52/1.08 | (rR @ sk_ @ sk__4 @ sk__6)
% 1.52/1.08 | (rR @ sk__6 @ sk_ @ sk__4))),
% 1.52/1.08 inference('sup-', [status(thm)], [zip_derived_cl372, zip_derived_cl448])).
% 1.52/1.08 thf(zip_derived_cl20, plain, ( (rpoint @ sk__4)),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [and(neg(neg(conjunct2(conjunct2(conjunct2(plural(comma_conjunct2(268))))))), and(holds(conjunct1(conjunct2(conjunct2(plural(comma_conjunct2(268))))), 1194, 0), and(holds(conjunct1(conjunct2(plural(comma_conjunct2(268)))), 1193, 0), and(holds(conjunct1(plural(comma_conjunct2(268))), 1192, 0), and(qe(s3(plural(comma_conjunct2(268)))), and(qe(s2(plural(comma_conjunct2(268)))), and(qe(s1(plural(comma_conjunct2(268)))), and(pred(comma_conjunct1(268), 9), and(pred(comma_conjunct1(268), 8), and(pred(comma_conjunct1(268), 7), and(qe(s3(plural(268))), and(qe(s2(plural(268))), qe(s1(plural(268)))))))))))))))])).
% 1.52/1.08 thf(neg(neg(319)), axiom, (~( rR @ vd1185 @ vd1201 @ vd1187 ))).
% 1.52/1.08 thf(zip_derived_cl3, plain, (~ (rR @ vd1185 @ vd1201 @ vd1187)),
% 1.52/1.08 inference('cnf', [status(esa)], [neg(neg(319))])).
% 1.52/1.08 thf(zip_derived_cl9, plain, (((vd1201) = (sk_))),
% 1.52/1.08 inference('cnf', [status(esa)], [qe(s3(plural(271)))])).
% 1.52/1.08 thf(zip_derived_cl321, plain, (~ (rR @ vd1185 @ sk_ @ vd1187)),
% 1.52/1.08 inference('demod', [status(thm)], [zip_derived_cl3, zip_derived_cl9])).
% 1.52/1.08 thf(zip_derived_cl21, plain, (((vd1185) = (sk__4))),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [and(neg(neg(conjunct2(conjunct2(conjunct2(plural(comma_conjunct2(268))))))), and(holds(conjunct1(conjunct2(conjunct2(plural(comma_conjunct2(268))))), 1194, 0), and(holds(conjunct1(conjunct2(plural(comma_conjunct2(268)))), 1193, 0), and(holds(conjunct1(plural(comma_conjunct2(268))), 1192, 0), and(qe(s3(plural(comma_conjunct2(268)))), and(qe(s2(plural(comma_conjunct2(268)))), and(qe(s1(plural(comma_conjunct2(268)))), and(pred(comma_conjunct1(268), 9), and(pred(comma_conjunct1(268), 8), and(pred(comma_conjunct1(268), 7), and(qe(s3(plural(268))), and(qe(s2(plural(268))), qe(s1(plural(268)))))))))))))))])).
% 1.52/1.08 thf(zip_derived_cl17, plain, (((vd1187) = (sk__6))),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [and(neg(neg(conjunct2(conjunct2(conjunct2(plural(comma_conjunct2(268))))))), and(holds(conjunct1(conjunct2(conjunct2(plural(comma_conjunct2(268))))), 1194, 0), and(holds(conjunct1(conjunct2(plural(comma_conjunct2(268)))), 1193, 0), and(holds(conjunct1(plural(comma_conjunct2(268))), 1192, 0), and(qe(s3(plural(comma_conjunct2(268)))), and(qe(s2(plural(comma_conjunct2(268)))), and(qe(s1(plural(comma_conjunct2(268)))), and(pred(comma_conjunct1(268), 9), and(pred(comma_conjunct1(268), 8), and(pred(comma_conjunct1(268), 7), and(qe(s3(plural(268))), and(qe(s2(plural(268))), qe(s1(plural(268)))))))))))))))])).
% 1.52/1.08 thf(zip_derived_cl335, plain, (~ (rR @ sk__4 @ sk_ @ sk__6)),
% 1.52/1.08 inference('demod', [status(thm)],
% 1.52/1.08 [zip_derived_cl321, zip_derived_cl21, zip_derived_cl17])).
% 1.52/1.08 thf(zip_derived_cl1, plain, (~ (rR @ vd1201 @ vd1185 @ vd1187)),
% 1.52/1.08 inference('cnf', [status(esa)], [zf_stmt_0])).
% 1.52/1.08 thf(zip_derived_cl9, plain, (((vd1201) = (sk_))),
% 1.52/1.08 inference('cnf', [status(esa)], [qe(s3(plural(271)))])).
% 1.52/1.08 thf(zip_derived_cl319, plain, (~ (rR @ sk_ @ vd1185 @ vd1187)),
% 1.52/1.08 inference('demod', [status(thm)], [zip_derived_cl1, zip_derived_cl9])).
% 1.52/1.08 thf(zip_derived_cl21, plain, (((vd1185) = (sk__4))),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [and(neg(neg(conjunct2(conjunct2(conjunct2(plural(comma_conjunct2(268))))))), and(holds(conjunct1(conjunct2(conjunct2(plural(comma_conjunct2(268))))), 1194, 0), and(holds(conjunct1(conjunct2(plural(comma_conjunct2(268)))), 1193, 0), and(holds(conjunct1(plural(comma_conjunct2(268))), 1192, 0), and(qe(s3(plural(comma_conjunct2(268)))), and(qe(s2(plural(comma_conjunct2(268)))), and(qe(s1(plural(comma_conjunct2(268)))), and(pred(comma_conjunct1(268), 9), and(pred(comma_conjunct1(268), 8), and(pred(comma_conjunct1(268), 7), and(qe(s3(plural(268))), and(qe(s2(plural(268))), qe(s1(plural(268)))))))))))))))])).
% 1.52/1.08 thf(zip_derived_cl17, plain, (((vd1187) = (sk__6))),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [and(neg(neg(conjunct2(conjunct2(conjunct2(plural(comma_conjunct2(268))))))), and(holds(conjunct1(conjunct2(conjunct2(plural(comma_conjunct2(268))))), 1194, 0), and(holds(conjunct1(conjunct2(plural(comma_conjunct2(268)))), 1193, 0), and(holds(conjunct1(plural(comma_conjunct2(268))), 1192, 0), and(qe(s3(plural(comma_conjunct2(268)))), and(qe(s2(plural(comma_conjunct2(268)))), and(qe(s1(plural(comma_conjunct2(268)))), and(pred(comma_conjunct1(268), 9), and(pred(comma_conjunct1(268), 8), and(pred(comma_conjunct1(268), 7), and(qe(s3(plural(268))), and(qe(s2(plural(268))), qe(s1(plural(268)))))))))))))))])).
% 1.52/1.08 thf(zip_derived_cl334, plain, (~ (rR @ sk_ @ sk__4 @ sk__6)),
% 1.52/1.08 inference('demod', [status(thm)],
% 1.52/1.08 [zip_derived_cl319, zip_derived_cl21, zip_derived_cl17])).
% 1.52/1.08 thf(zip_derived_cl454, plain,
% 1.52/1.08 ((((sk__4) = (sk__6)) | ((sk_) = (sk__4)) | (rR @ sk__6 @ sk_ @ sk__4))),
% 1.52/1.08 inference('demod', [status(thm)],
% 1.52/1.08 [zip_derived_cl450, zip_derived_cl20, zip_derived_cl335,
% 1.52/1.08 zip_derived_cl334])).
% 1.52/1.08 thf(zip_derived_cl925, plain, ((((sk__4) = (sk_)) | ((sk__6) = (sk__4)))),
% 1.52/1.08 inference('clc', [status(thm)], [zip_derived_cl917, zip_derived_cl454])).
% 1.52/1.08 thf(neg(neg(270)), axiom, (~( ron @ vd1187 @ vd1197 ))).
% 1.52/1.08 thf(zip_derived_cl80, plain, (~ (ron @ vd1187 @ vd1197)),
% 1.52/1.08 inference('cnf', [status(esa)], [neg(neg(270))])).
% 1.52/1.08 thf(zip_derived_cl17, plain, (((vd1187) = (sk__6))),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [and(neg(neg(conjunct2(conjunct2(conjunct2(plural(comma_conjunct2(268))))))), and(holds(conjunct1(conjunct2(conjunct2(plural(comma_conjunct2(268))))), 1194, 0), and(holds(conjunct1(conjunct2(plural(comma_conjunct2(268)))), 1193, 0), and(holds(conjunct1(plural(comma_conjunct2(268))), 1192, 0), and(qe(s3(plural(comma_conjunct2(268)))), and(qe(s2(plural(comma_conjunct2(268)))), and(qe(s1(plural(comma_conjunct2(268)))), and(pred(comma_conjunct1(268), 9), and(pred(comma_conjunct1(268), 8), and(pred(comma_conjunct1(268), 7), and(qe(s3(plural(268))), and(qe(s2(plural(268))), qe(s1(plural(268)))))))))))))))])).
% 1.52/1.08 thf(zip_derived_cl332, plain, (~ (ron @ sk__6 @ vd1197)),
% 1.52/1.08 inference('demod', [status(thm)], [zip_derived_cl80, zip_derived_cl17])).
% 1.52/1.08 thf(zip_derived_cl928, plain,
% 1.52/1.08 ((~ (ron @ sk__4 @ vd1197) | ((sk__4) = (sk_)))),
% 1.52/1.08 inference('sup-', [status(thm)], [zip_derived_cl925, zip_derived_cl332])).
% 1.52/1.08 thf(zip_derived_cl361, plain, ( (ron @ sk__4 @ vd1197)),
% 1.52/1.08 inference('demod', [status(thm)], [zip_derived_cl8, zip_derived_cl21])).
% 1.52/1.08 thf(zip_derived_cl950, plain, (((sk__4) = (sk_))),
% 1.52/1.08 inference('demod', [status(thm)], [zip_derived_cl928, zip_derived_cl361])).
% 1.52/1.08 thf(zip_derived_cl960, plain, ( (ron @ sk_ @ vd1197)),
% 1.52/1.08 inference('demod', [status(thm)], [zip_derived_cl361, zip_derived_cl950])).
% 1.52/1.08 thf(zip_derived_cl10, plain, ( (rpoint @ sk_)),
% 1.52/1.08 inference('cnf', [status(esa)], [qe(s3(plural(271)))])).
% 1.52/1.08 thf(zip_derived_cl16, plain, ( (rpoint @ sk__6)),
% 1.52/1.08 inference('cnf', [status(esa)],
% 1.52/1.08 [and(neg(neg(conjunct2(conjunct2(conjunct2(plural(comma_conjunct2(268))))))), and(holds(conjunct1(conjunct2(conjunct2(plural(comma_conjunct2(268))))), 1194, 0), and(holds(conjunct1(conjunct2(plural(comma_conjunct2(268)))), 1193, 0), and(holds(conjunct1(plural(comma_conjunct2(268))), 1192, 0), and(qe(s3(plural(comma_conjunct2(268)))), and(qe(s2(plural(comma_conjunct2(268)))), and(qe(s1(plural(comma_conjunct2(268)))), and(pred(comma_conjunct1(268), 9), and(pred(comma_conjunct1(268), 8), and(pred(comma_conjunct1(268), 7), and(qe(s3(plural(268))), and(qe(s2(plural(268))), qe(s1(plural(268)))))))))))))))])).
% 1.52/1.08 thf(zip_derived_cl11, plain, ( (rline @ vd1197)),
% 1.52/1.08 inference('cnf', [status(esa)], [pred(269, 0)])).
% 1.52/1.08 thf(zip_derived_cl1164, plain, ($false),
% 1.52/1.08 inference('demod', [status(thm)],
% 1.52/1.08 [zip_derived_cl1162, zip_derived_cl960, zip_derived_cl10,
% 1.52/1.08 zip_derived_cl16, zip_derived_cl11])).
% 1.52/1.08
% 1.52/1.08 % SZS output end Refutation
% 1.52/1.08
% 1.52/1.08
% 1.52/1.08 % Terminating...
% 1.52/1.15 % Runner terminated.
% 1.52/1.16 % Zipperpin 1.5 exiting
%------------------------------------------------------------------------------