0.06/0.11 % Problem : theBenchmark.p : TPTP v0.0.0. Released v0.0.0. 0.06/0.13 % Command : python3 /export/starexec/sandbox2/solver/bin/portfolio.lams.parallel.py %s %d /export/starexec/sandbox2/tmp/tmp.YQnILXvvAb true 0.12/0.34 % Computer : n009.cluster.edu 0.12/0.34 % Model : x86_64 x86_64 0.12/0.34 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz 0.12/0.34 % Memory : 8042.1875MB 0.12/0.34 % OS : Linux 3.10.0-693.el7.x86_64 0.12/0.34 % CPULimit : 960 0.12/0.34 % WCLimit : 120 0.12/0.34 % DateTime : Tue Aug 9 07:28:50 EDT 2022 0.12/0.34 % CPUTime : 0.12/0.34 % Running portfolio for 960 s 0.12/0.34 % File : /export/starexec/sandbox2/benchmark/theBenchmark.p 0.12/0.34 % Number of cores: 8 0.12/0.34 % Python version: Python 3.6.8 0.12/0.34 % Running in HO mode 0.46/0.62 % Total configuration time : 828 0.46/0.62 % Estimated wc time : 1656 0.46/0.62 % Estimated cpu time (8 cpus) : 207.0 0.49/0.70 % /export/starexec/sandbox2/solver/bin/lams/40_c.s.sh running for 80s 0.49/0.71 % /export/starexec/sandbox2/solver/bin/lams/35_full_unif4.sh running for 80s 0.49/0.71 % /export/starexec/sandbox2/solver/bin/lams/40_c_ic.sh running for 80s 0.49/0.71 % /export/starexec/sandbox2/solver/bin/lams/15_e_short1.sh running for 30s 0.49/0.71 % /export/starexec/sandbox2/solver/bin/lams/40_b.comb.sh running for 70s 0.49/0.72 % /export/starexec/sandbox2/solver/bin/lams/40_noforms.sh running for 90s 0.49/0.72 % /export/starexec/sandbox2/solver/bin/lams/20_acsne_simpl.sh running for 40s 0.51/0.74 % /export/starexec/sandbox2/solver/bin/lams/30_sp5.sh running for 60s 33.56/5.08 % /export/starexec/sandbox2/solver/bin/lams/30_b.l.sh running for 90s 127.28/16.91 % Solved by lams/40_c.s.sh. 127.28/16.91 % done 568 iterations in 16.149s 127.28/16.91 % SZS status Theorem for '/export/starexec/sandbox2/benchmark/theBenchmark.p' 127.28/16.91 % SZS output start Refutation 127.28/16.91 thf(emptyset_type, type, emptyset: $i). 127.28/16.91 thf(diffprop_type, type, diffprop: $i > $i > $i > $o). 127.28/16.91 thf(omega_type, type, omega: $i). 127.28/16.91 thf(d_not_type, type, d_not: $o > $o). 127.28/16.91 thf(is_of_type, type, is_of: $i > ($i > $o) > $o). 127.28/16.91 thf(in_type, type, in: $i > $i > $o). 127.28/16.91 thf(moreis_type, type, moreis: $i > $i > $o). 127.28/16.91 thf(sk__3_type, type, sk__3: $i). 127.28/16.91 thf(e_is_type, type, e_is: $i > $i > $i > $o). 127.28/16.91 thf(nat_type, type, nat: $i). 127.28/16.91 thf(iii_type, type, iii: $i > $i > $o). 127.28/16.91 thf(l_or_type, type, l_or: $o > $o > $o). 127.28/16.91 thf(sk__4_type, type, sk__4: $i). 127.28/16.91 thf(d_Sep_type, type, d_Sep: $i > ($i > $o) > $i). 127.28/16.91 thf(sk__2_type, type, sk__2: $i). 127.28/16.91 thf(imp_type, type, imp: $o > $o > $o). 127.28/16.91 thf(all_of_type, type, all_of: ($i > $o) > ($i > $o) > $o). 127.28/16.91 thf(n_is_type, type, n_is: $i > $i > $o). 127.28/16.91 thf(n_some_type, type, n_some: ($i > $o) > $o). 127.28/16.91 thf(d_29_ii_type, type, d_29_ii: $i > $i > $o). 127.28/16.91 thf(def_moreis, axiom,(( moreis ) = 127.28/16.91 (^[X0:$i,X1:$i]: ( l_or @ ( d_29_ii @ X0 @ X1 ) @ ( n_is @ X0 @ X1 ) )))). 127.28/16.91 thf(def_d_29_ii, axiom,(( d_29_ii ) = 127.28/16.91 (^[X0:$i,X1:$i]: ( n_some @ ( diffprop @ X0 @ X1 ) )))). 127.28/16.91 thf('0', plain, 127.28/16.91 (( d_29_ii ) = ( ^[X0:$i,X1:$i]: ( n_some @ ( diffprop @ X0 @ X1 ) ) )), 127.28/16.91 inference('simplify_rw_rule', [status(thm)], [def_d_29_ii])). 127.28/16.91 thf('1', plain, 127.28/16.91 (( d_29_ii ) = 127.28/16.91 ( ^[V_1:$i,V_2:$i]: ( n_some @ ( diffprop @ V_1 @ V_2 ) ) )), 127.28/16.91 define([status(thm)])).thf(def_n_is, axiom,(( n_is ) = (e_is @ nat))). 127.28/16.91 thf(def_nat, axiom,(( nat ) = 127.28/16.91 (d_Sep @ omega @ ( ^[X0:$i]: ( ( X0 ) != ( emptyset ) ) )))). 127.28/16.91 thf('2', plain, 127.28/16.91 (( nat ) = ( d_Sep @ omega @ ( ^[X0:$i]: ( ( X0 ) != ( emptyset ) ) ) )), 127.28/16.91 inference('simplify_rw_rule', [status(thm)], [def_nat])). 127.28/16.91 thf('3', plain, 127.28/16.91 (( nat ) = ( d_Sep @ omega @ ( ^[V_1:$i]: ( ( V_1 ) != ( emptyset ) ) ) )), 127.28/16.91 define([status(thm)])). 127.28/16.91 thf(def_e_is, axiom,(( e_is ) = (^[X0:$i,X:$i,Y:$i]: ( ( X ) = ( Y ) )))). 127.28/16.91 thf('4', plain, (( e_is ) = ( ^[X0:$i,X:$i,Y:$i]: ( ( X ) = ( Y ) ) )), 127.28/16.91 inference('simplify_rw_rule', [status(thm)], [def_e_is])). 127.28/16.91 thf('5', plain, 127.28/16.91 (( e_is ) = ( ^[V_1:$i,V_2:$i,V_3:$i]: ( ( V_2 ) = ( V_3 ) ) )), 127.28/16.91 define([status(thm)])). 127.28/16.91 thf('6', plain, (( n_is ) = ( e_is @ nat )), 127.28/16.91 inference('simplify_rw_rule', [status(thm)], [def_n_is, '3', '5'])). 127.28/16.91 thf('7', plain, (( n_is ) = ( e_is @ nat )), define([status(thm)])). 127.28/16.91 thf(def_l_or, axiom,(( l_or ) = (^[X0:$o]: ( imp @ ( d_not @ X0 ) )))). 127.28/16.91 thf(def_d_not, axiom,(( d_not ) = (^[X0:$o]: ( imp @ X0 @ $false )))). 127.28/16.91 thf(def_imp, axiom,(( imp ) = (^[X0:$o,X1:$o]: ( ( X0 ) => ( X1 ) )))). 127.28/16.91 thf('8', plain, (( imp ) = ( ^[X0:$o,X1:$o]: ( ( X0 ) => ( X1 ) ) )), 127.28/16.91 inference('simplify_rw_rule', [status(thm)], [def_imp])). 127.28/16.91 thf('9', plain, (( imp ) = ( ^[V_1:$o,V_2:$o]: ( ( V_1 ) => ( V_2 ) ) )), 127.28/16.91 define([status(thm)])). 127.28/16.91 thf('10', plain, (( d_not ) = ( ^[X0:$o]: ( imp @ X0 @ $false ) )), 127.28/16.91 inference('simplify_rw_rule', [status(thm)], [def_d_not, '9'])). 127.28/16.91 thf('11', plain, (( d_not ) = ( ^[V_1:$o]: ( imp @ V_1 @ $false ) )), 127.28/16.91 define([status(thm)])). 127.28/16.91 thf('12', plain, (( l_or ) = ( ^[X0:$o]: ( imp @ ( d_not @ X0 ) ) )), 127.28/16.91 inference('simplify_rw_rule', [status(thm)], [def_l_or, '11', '9'])). 127.28/16.91 thf('13', plain, (( l_or ) = ( ^[V_1:$o]: ( imp @ ( d_not @ V_1 ) ) )), 127.28/16.91 define([status(thm)])). 127.28/16.91 thf('14', plain, 127.28/16.91 (( moreis ) = 127.28/16.91 ( ^[X0:$i,X1:$i]: ( l_or @ ( d_29_ii @ X0 @ X1 ) @ ( n_is @ X0 @ X1 ) ) )), 127.28/16.91 inference('simplify_rw_rule', [status(thm)], 127.28/16.91 [def_moreis, '1', '7', '3', '5', '13', '11', '9'])). 127.28/16.91 thf('15', plain, 127.28/16.91 (( moreis ) = 127.28/16.91 ( ^[V_1:$i,V_2:$i]: 127.28/16.91 ( l_or @ ( d_29_ii @ V_1 @ V_2 ) @ ( n_is @ V_1 @ V_2 ) ) )), 127.28/16.91 define([status(thm)])). 127.28/16.91 thf(def_all_of, axiom,(( all_of ) = 127.28/16.91 (^[X0:( $i > $o ),X1:( $i > $o )]: 127.28/16.91 ( ![X2:$i]: ( ( is_of @ X2 @ X0 ) => ( X1 @ X2 ) ) )))). 127.28/16.91 thf('16', plain, 127.28/16.91 (( all_of ) = 127.28/16.91 ( ^[X0:( $i > $o ),X1:( $i > $o )]: 127.28/16.91 ( ![X2:$i]: ( ( is_of @ X2 @ X0 ) => ( X1 @ X2 ) ) ) )), 127.28/16.91 inference('simplify_rw_rule', [status(thm)], [def_all_of])). 127.28/16.91 thf('17', plain, 127.28/16.91 (( all_of ) = 127.28/16.91 ( ^[V_1:( $i > $o ),V_2:( $i > $o )]: 127.28/16.91 ( ![X4:$i]: ( ( is_of @ X4 @ V_1 ) => ( V_2 @ X4 ) ) ) )), 127.28/16.91 define([status(thm)])). 127.28/16.91 thf(satz16d, conjecture, 127.28/16.91 (all_of @ 127.28/16.91 ( ^[X0:$i]: ( in @ X0 @ nat ) ) @ 127.28/16.91 ( ^[X0:$i]: 127.28/16.91 ( all_of @ 127.28/16.91 ( ^[X1:$i]: ( in @ X1 @ nat ) ) @ 127.28/16.91 ( ^[X1:$i]: 127.28/16.91 ( all_of @ 127.28/16.91 ( ^[X2:$i]: ( in @ X2 @ nat ) ) @ 127.28/16.91 ( ^[X2:$i]: 127.28/16.91 ( ( d_29_ii @ X0 @ X1 ) => 127.28/16.91 ( ( moreis @ X1 @ X2 ) => ( d_29_ii @ X0 @ X2 ) ) ) ) ) ) ) ))). 127.28/16.91 thf(zf_stmt_0, conjecture, 127.28/16.91 (![X4:$i]: 127.28/16.91 ( ( is_of @ 127.28/16.91 X4 @ 127.28/16.91 ( ^[V_1:$i]: 127.28/16.91 ( in @ 127.28/16.91 V_1 @ 127.28/16.91 ( d_Sep @ omega @ ( ^[V_2:$i]: ( ( V_2 ) != ( emptyset ) ) ) ) ) ) ) => 127.28/16.91 ( ![X6:$i]: 127.28/16.91 ( ( is_of @ 127.28/16.91 X6 @ 127.28/16.91 ( ^[V_3:$i]: 127.28/16.91 ( in @ 127.28/16.91 V_3 @ 127.28/16.91 ( d_Sep @ omega @ ( ^[V_4:$i]: ( ( V_4 ) != ( emptyset ) ) ) ) ) ) ) => 127.28/16.91 ( ![X8:$i]: 127.28/16.91 ( ( is_of @ 127.28/16.91 X8 @ 127.28/16.91 ( ^[V_5:$i]: 127.28/16.91 ( in @ 127.28/16.91 V_5 @ 127.28/16.91 ( d_Sep @ 127.28/16.91 omega @ ( ^[V_6:$i]: ( ( V_6 ) != ( emptyset ) ) ) ) ) ) ) => 127.28/16.91 ( ( n_some @ ( diffprop @ X4 @ X6 ) ) => 127.28/16.91 ( ( ( ~( n_some @ ( diffprop @ X6 @ X8 ) ) ) => 127.28/16.91 ( ( X6 ) = ( X8 ) ) ) => 127.28/16.91 ( n_some @ ( diffprop @ X4 @ X8 ) ) ) ) ) ) ) ) ))). 127.28/16.91 thf(zf_stmt_1, negated_conjecture, 127.28/16.91 (~( ![X4:$i]: 127.28/16.91 ( ( is_of @ 127.28/16.91 X4 @ 127.28/16.91 ( ^[V_1:$i]: 127.28/16.91 ( in @ 127.28/16.91 V_1 @ 127.28/16.91 ( d_Sep @ omega @ ( ^[V_2:$i]: ( ( V_2 ) != ( emptyset ) ) ) ) ) ) ) => 127.28/16.91 ( ![X6:$i]: 127.28/16.91 ( ( is_of @ 127.28/16.91 X6 @ 127.28/16.91 ( ^[V_3:$i]: 127.28/16.91 ( in @ 127.28/16.91 V_3 @ 127.28/16.91 ( d_Sep @ 127.28/16.91 omega @ ( ^[V_4:$i]: ( ( V_4 ) != ( emptyset ) ) ) ) ) ) ) => 127.28/16.91 ( ![X8:$i]: 127.28/16.91 ( ( is_of @ 127.28/16.91 X8 @ 127.28/16.91 ( ^[V_5:$i]: 127.28/16.91 ( in @ 127.28/16.91 V_5 @ 127.28/16.91 ( d_Sep @ 127.28/16.91 omega @ ( ^[V_6:$i]: ( ( V_6 ) != ( emptyset ) ) ) ) ) ) ) => 127.28/16.91 ( ( n_some @ ( diffprop @ X4 @ X6 ) ) => 127.28/16.91 ( ( ( ~( n_some @ ( diffprop @ X6 @ X8 ) ) ) => 127.28/16.91 ( ( X6 ) = ( X8 ) ) ) => 127.28/16.91 ( n_some @ ( diffprop @ X4 @ X8 ) ) ) ) ) ) ) ) ) )), 127.28/16.91 inference('cnf.neg', [status(esa)], [zf_stmt_0])). 127.28/16.91 thf(zip_derived_cl57, plain, 127.28/16.91 ((((sk__3) = (sk__4)) | (n_some @ (diffprop @ sk__3 @ sk__4)))), 127.28/16.91 inference('cnf', [status(esa)], [zf_stmt_1])). 127.28/16.91 thf(zip_derived_cl59, plain, ( (n_some @ (diffprop @ sk__2 @ sk__3))), 127.28/16.91 inference('cnf', [status(esa)], [zf_stmt_1])). 127.28/16.91 thf(zip_derived_cl60, plain, 127.28/16.91 ( (is_of @ sk__3 @ 127.28/16.91 (^[Y0 : $i]: 127.28/16.91 (in @ Y0 @ (d_Sep @ omega @ (^[Y1 : $i]: (((Y1) != (emptyset))))))))), 127.28/16.91 inference('cnf', [status(esa)], [zf_stmt_1])). 127.28/16.91 thf(satz11, axiom, 127.28/16.91 (all_of @ 127.28/16.91 ( ^[X0:$i]: ( in @ X0 @ nat ) ) @ 127.28/16.91 ( ^[X0:$i]: 127.28/16.91 ( all_of @ 127.28/16.91 ( ^[X1:$i]: ( in @ X1 @ nat ) ) @ 127.28/16.91 ( ^[X1:$i]: ( ( d_29_ii @ X0 @ X1 ) => ( iii @ X1 @ X0 ) ) ) ) ))). 127.28/16.91 thf(zf_stmt_2, axiom, 127.28/16.91 (![X4:$i]: 127.28/16.91 ( ( is_of @ 127.28/16.91 X4 @ 127.28/16.91 ( ^[V_1:$i]: 127.28/16.91 ( in @ 127.28/16.91 V_1 @ 127.28/16.91 ( d_Sep @ omega @ ( ^[V_2:$i]: ( ( V_2 ) != ( emptyset ) ) ) ) ) ) ) => 127.28/16.91 ( ![X6:$i]: 127.28/16.91 ( ( is_of @ 127.28/16.91 X6 @ 127.28/16.91 ( ^[V_3:$i]: 127.28/16.91 ( in @ 127.28/16.91 V_3 @ 127.28/16.91 ( d_Sep @ omega @ ( ^[V_4:$i]: ( ( V_4 ) != ( emptyset ) ) ) ) ) ) ) => 127.28/16.91 ( ( n_some @ ( diffprop @ X4 @ X6 ) ) => ( iii @ X6 @ X4 ) ) ) ) ))). 127.28/16.91 thf(zip_derived_cl38, plain, 127.28/16.91 (![X0 : $i, X1 : $i]: 127.28/16.91 (~ (is_of @ X0 @ 127.28/16.91 (^[Y0 : $i]: 127.28/16.91 (in @ Y0 @ 127.28/16.91 (d_Sep @ omega @ (^[Y1 : $i]: (((Y1) != (emptyset)))))))) 127.28/16.91 | (iii @ X0 @ X1) 127.28/16.91 | ~ (n_some @ (diffprop @ X1 @ X0)) 127.28/16.91 | ~ (is_of @ X1 @ 127.28/16.91 (^[Y0 : $i]: 127.28/16.91 (in @ Y0 @ 127.28/16.91 (d_Sep @ omega @ (^[Y1 : $i]: (((Y1) != (emptyset)))))))))), 127.28/16.91 inference('cnf', [status(esa)], [zf_stmt_2])). 127.28/16.91 thf(zip_derived_cl58, plain, (~ (n_some @ (diffprop @ sk__2 @ sk__4))), 127.28/16.91 inference('cnf', [status(esa)], [zf_stmt_1])). 127.28/16.91 thf(zip_derived_cl55, plain, 127.28/16.91 ( (is_of @ sk__2 @ 127.28/16.91 (^[Y0 : $i]: 127.28/16.91 (in @ Y0 @ (d_Sep @ omega @ (^[Y1 : $i]: (((Y1) != (emptyset))))))))), 127.28/16.91 inference('cnf', [status(esa)], [zf_stmt_1])). 127.28/16.91 thf(satz12, axiom, 127.28/16.91 (all_of @ 127.28/16.91 ( ^[X0:$i]: ( in @ X0 @ nat ) ) @ 127.28/16.91 ( ^[X0:$i]: 127.28/16.91 ( all_of @ 127.28/16.91 ( ^[X1:$i]: ( in @ X1 @ nat ) ) @ 127.28/16.91 ( ^[X1:$i]: ( ( iii @ X0 @ X1 ) => ( d_29_ii @ X1 @ X0 ) ) ) ) ))). 127.28/16.91 thf(zf_stmt_3, axiom, 127.28/16.91 (![X4:$i]: 127.28/16.91 ( ( is_of @ 127.28/16.91 X4 @ 127.28/16.91 ( ^[V_1:$i]: 127.28/16.91 ( in @ 127.28/16.91 V_1 @ 127.28/16.91 ( d_Sep @ omega @ ( ^[V_2:$i]: ( ( V_2 ) != ( emptyset ) ) ) ) ) ) ) => 127.28/16.91 ( ![X6:$i]: 127.28/16.91 ( ( is_of @ 127.28/16.91 X6 @ 127.28/16.91 ( ^[V_3:$i]: 127.28/16.91 ( in @ 127.28/16.91 V_3 @ 127.28/16.91 ( d_Sep @ omega @ ( ^[V_4:$i]: ( ( V_4 ) != ( emptyset ) ) ) ) ) ) ) => 127.28/16.91 ( ( iii @ X4 @ X6 ) => ( n_some @ ( diffprop @ X6 @ X4 ) ) ) ) ) ))). 127.28/16.91 thf(zip_derived_cl12, plain, 127.28/16.91 (![X0 : $i, X1 : $i]: 127.28/16.91 (~ (is_of @ X0 @ 127.28/16.91 (^[Y0 : $i]: 127.28/16.91 (in @ Y0 @ 127.28/16.91 (d_Sep @ omega @ (^[Y1 : $i]: (((Y1) != (emptyset)))))))) 127.28/16.91 | (n_some @ (diffprop @ X0 @ X1)) 127.28/16.91 | ~ (iii @ X1 @ X0) 127.28/16.91 | ~ (is_of @ X1 @ 127.28/16.91 (^[Y0 : $i]: 127.28/16.91 (in @ Y0 @ 127.28/16.91 (d_Sep @ omega @ (^[Y1 : $i]: (((Y1) != (emptyset)))))))))), 127.28/16.91 inference('cnf', [status(esa)], [zf_stmt_3])). 127.28/16.91 thf(zip_derived_cl56, plain, 127.28/16.91 ( (is_of @ sk__4 @ 127.28/16.91 (^[Y0 : $i]: 127.28/16.91 (in @ Y0 @ (d_Sep @ omega @ (^[Y1 : $i]: (((Y1) != (emptyset))))))))), 127.28/16.91 inference('cnf', [status(esa)], [zf_stmt_1])). 127.28/16.91 thf(satz16c, axiom, 127.28/16.91 (all_of @ 127.28/16.91 ( ^[X0:$i]: ( in @ X0 @ nat ) ) @ 127.28/16.91 ( ^[X0:$i]: 127.28/16.91 ( all_of @ 127.28/16.91 ( ^[X1:$i]: ( in @ X1 @ nat ) ) @ 127.28/16.91 ( ^[X1:$i]: 127.28/16.91 ( all_of @ 127.28/16.91 ( ^[X2:$i]: ( in @ X2 @ nat ) ) @ 127.28/16.91 ( ^[X2:$i]: 127.28/16.91 ( ( moreis @ X0 @ X1 ) => 127.28/16.91 ( ( d_29_ii @ X1 @ X2 ) => ( d_29_ii @ X0 @ X2 ) ) ) ) ) ) ) ))). 127.28/16.91 thf(zf_stmt_4, axiom, 127.28/16.91 (![X4:$i]: 127.28/16.91 ( ( is_of @ 127.28/16.91 X4 @ 127.28/16.91 ( ^[V_1:$i]: 127.28/16.91 ( in @ 127.28/16.91 V_1 @ 127.28/16.91 ( d_Sep @ omega @ ( ^[V_2:$i]: ( ( V_2 ) != ( emptyset ) ) ) ) ) ) ) => 127.28/16.91 ( ![X6:$i]: 127.28/16.91 ( ( is_of @ 127.28/16.91 X6 @ 127.28/16.91 ( ^[V_3:$i]: 127.28/16.91 ( in @ 127.28/16.91 V_3 @ 127.28/16.91 ( d_Sep @ omega @ ( ^[V_4:$i]: ( ( V_4 ) != ( emptyset ) ) ) ) ) ) ) => 127.28/16.91 ( ![X8:$i]: 127.28/16.91 ( ( is_of @ 127.28/16.91 X8 @ 127.28/16.91 ( ^[V_5:$i]: 127.28/16.91 ( in @ 127.28/16.91 V_5 @ 127.28/16.91 ( d_Sep @ 127.28/16.91 omega @ ( ^[V_6:$i]: ( ( V_6 ) != ( emptyset ) ) ) ) ) ) ) => 127.28/16.91 ( ( ( ~( n_some @ ( diffprop @ X4 @ X6 ) ) ) => 127.28/16.91 ( ( X4 ) = ( X6 ) ) ) => 127.28/16.91 ( ( n_some @ ( diffprop @ X6 @ X8 ) ) => 127.28/16.91 ( n_some @ ( diffprop @ X4 @ X8 ) ) ) ) ) ) ) ) ))). 127.28/16.91 thf(zip_derived_cl29, plain, 127.28/16.91 (![X0 : $i, X1 : $i, X2 : $i]: 127.28/16.91 (~ (is_of @ X0 @ 127.28/16.91 (^[Y0 : $i]: 127.28/16.91 (in @ Y0 @ 127.28/16.91 (d_Sep @ omega @ (^[Y1 : $i]: (((Y1) != (emptyset)))))))) 127.28/16.91 | ~ (n_some @ (diffprop @ X1 @ X0)) 127.28/16.91 | (n_some @ (diffprop @ X1 @ X2)) 127.28/16.91 | ~ (n_some @ (diffprop @ X0 @ X2)) 127.28/16.91 | ~ (is_of @ X2 @ 127.28/16.91 (^[Y0 : $i]: 127.28/16.91 (in @ Y0 @ 127.28/16.91 (d_Sep @ omega @ (^[Y1 : $i]: (((Y1) != (emptyset)))))))) 127.28/16.91 | ~ (is_of @ X1 @ 127.28/16.91 (^[Y0 : $i]: 127.28/16.91 (in @ Y0 @ 127.28/16.91 (d_Sep @ omega @ (^[Y1 : $i]: (((Y1) != (emptyset)))))))))), 127.28/16.91 inference('cnf', [status(esa)], [zf_stmt_4])). 127.28/16.91 thf(zip_derived_cl5508, plain, ($false), 127.28/16.91 inference('eprover', [status(thm)], 127.28/16.91 [zip_derived_cl57, zip_derived_cl59, zip_derived_cl60, 127.28/16.91 zip_derived_cl38, zip_derived_cl58, zip_derived_cl55, 127.28/16.91 zip_derived_cl12, zip_derived_cl56, zip_derived_cl29])). 127.28/16.91 127.28/16.91 % SZS output end Refutation 127.28/16.91 127.28/16.91 127.28/16.91 % Terminating... 127.79/16.99 % Runner terminated. 127.79/17.00 % Zipperpin 1.5 exiting 127.79/17.00 EOF