0.03/0.12 % Problem : theBenchmark.p : TPTP v0.0.0. Released v0.0.0. 0.03/0.12 % Command : run_E /export/starexec/sandbox/benchmark/theBenchmark.p 240 THM 0.12/0.33 % Computer : n019.cluster.edu 0.12/0.33 % Model : x86_64 x86_64 0.12/0.33 % CPU : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz 0.12/0.33 % Memory : 8042.1875MB 0.12/0.33 % OS : Linux 3.10.0-693.el7.x86_64 0.12/0.33 % CPULimit : 1920 0.12/0.33 % WCLimit : 240 0.12/0.33 % DateTime : Wed Jul 30 03:09:34 EDT 2025 0.12/0.34 % CPUTime : 0.21/0.48 Running higher-order theorem proving 0.21/0.49 Running: /export/starexec/sandbox/solver/bin/eprover-ho --delete-bad-limit=2000000000 --definitional-cnf=24 -s --print-statistics -R --print-version --proof-object --auto-schedule=8 --cpu-limit=240 /export/starexec/sandbox/tmp/tmp.9553NYziON/E---3.1_7543.p 0.21/0.53 # Version: 3.0.0-ho 0.21/0.53 # Preprocessing class: HSSSSMSSMLSNHSN. 0.21/0.53 # Scheduled 4 strats onto 8 cores with 240 seconds (1920 total) 0.21/0.53 # Starting new_ho_9 with 1200s (5) cores 0.21/0.53 # Starting post_as_ho1 with 240s (1) cores 0.21/0.53 # Starting sh1l with 240s (1) cores 0.21/0.53 # Starting post_as_ho10 with 240s (1) cores 0.21/0.53 # new_ho_9 with pid 7621 completed with status 0 0.21/0.53 # Result found by new_ho_9 0.21/0.53 # Preprocessing class: HSSSSMSSMLSNHSN. 0.21/0.53 # Scheduled 4 strats onto 8 cores with 240 seconds (1920 total) 0.21/0.53 # Starting new_ho_9 with 1200s (5) cores 0.21/0.53 # No SInE strategy applied 0.21/0.53 # Search class: HGHSF-FFMF11-SHSSMMBN 0.21/0.53 # Scheduled 6 strats onto 5 cores with 1200 seconds (1200 total) 0.21/0.53 # Starting new_ho_10 with 540s (1) cores 0.21/0.53 # Starting new_ho_9 with 121s (1) cores 0.21/0.53 # Starting new_bool_2 with 135s (1) cores 0.21/0.53 # Starting ehoh_best_sine_rwall with 135s (1) cores 0.21/0.53 # Starting lpo1_def_fix with 135s (1) cores 0.21/0.53 # new_ho_9 with pid 7628 completed with status 0 0.21/0.53 # Result found by new_ho_9 0.21/0.53 # Preprocessing class: HSSSSMSSMLSNHSN. 0.21/0.53 # Scheduled 4 strats onto 8 cores with 240 seconds (1920 total) 0.21/0.53 # Starting new_ho_9 with 1200s (5) cores 0.21/0.53 # No SInE strategy applied 0.21/0.53 # Search class: HGHSF-FFMF11-SHSSMMBN 0.21/0.53 # Scheduled 6 strats onto 5 cores with 1200 seconds (1200 total) 0.21/0.53 # Starting new_ho_10 with 540s (1) cores 0.21/0.53 # Starting new_ho_9 with 121s (1) cores 0.21/0.53 # Preprocessing time : 0.005 s 0.21/0.53 # Presaturation interreduction done 0.21/0.53 0.21/0.53 # Proof found! 0.21/0.53 # SZS status Theorem 0.21/0.53 # SZS output start CNFRefutation 0.21/0.53 thf(decl_23, type, subrel: ($i > $i > $o) > ($i > $i > $o) > $o). 0.21/0.53 thf(decl_28, type, refl: ($i > $i > $o) > $o). 0.21/0.53 thf(decl_30, type, rc: ($i > $i > $o) > $i > $i > $o). 0.21/0.53 thf(decl_35, type, trans: ($i > $i > $o) > $o). 0.21/0.53 thf(decl_36, type, tc: ($i > $i > $o) > $i > $i > $o). 0.21/0.53 thf(decl_37, type, trc: ($i > $i > $o) > $i > $i > $o). 0.21/0.53 thf(decl_52, type, epred1_0: $i > $i > $o). 0.21/0.53 thf(decl_53, type, esk1_0: $i). 0.21/0.53 thf(decl_54, type, esk2_0: $i). 0.21/0.53 thf(decl_55, type, esk3_0: $i). 0.21/0.53 thf(decl_56, type, esk4_1: ($i > $i > $o) > $i). 0.21/0.53 thf(decl_57, type, esk5_1: ($i > $i > $o) > $i). 0.21/0.53 thf(decl_58, type, esk6_1: ($i > $i > $o) > $i). 0.21/0.53 thf(decl_59, type, esk7_1: ($i > $i > $o) > $i). 0.21/0.53 thf(decl_60, type, esk8_1: ($i > $i > $o) > $i). 0.21/0.53 thf(decl_61, type, esk9_1: ($i > $i > $o) > $i). 0.21/0.53 thf(decl_62, type, esk10_1: ($i > $i > $o) > $i). 0.21/0.53 thf(decl_63, type, esk11_1: ($i > $i > $o) > $i). 0.21/0.53 thf(decl_64, type, esk12_1: ($i > $i > $o) > $i). 0.21/0.53 thf(decl_65, type, esk13_1: ($i > $i > $o) > $i). 0.21/0.53 thf(decl_66, type, epred2_0: $i > $i > $o). 0.21/0.53 thf(decl_67, type, esk14_0: $i). 0.21/0.53 thf(decl_68, type, epred3_0: $i > $i > $o). 0.21/0.53 thf(transitive_closure, axiom, ((tc)=(^[X1:$i > $i > $o, X3:$i, X4:$i]:(![X2:$i > $i > $o]:((((trans @ X2)&(subrel @ X1 @ X2))=>(X2 @ X3 @ X4)))))), file('/export/starexec/sandbox/tmp/tmp.9553NYziON/E---3.1_7543.p', transitive_closure)). 0.21/0.53 thf(subrel, axiom, ((subrel)=(^[X1:$i > $i > $o, X2:$i > $i > $o]:(![X3:$i, X4:$i]:(((X1 @ X3 @ X4)=>(X2 @ X3 @ X4)))))), file('/export/starexec/sandbox/tmp/tmp.9553NYziON/E---3.1_7543.p', subrel)). 0.21/0.53 thf(transitive, axiom, ((trans)=(^[X1:$i > $i > $o]:(![X3:$i, X4:$i, X6:$i]:((((X1 @ X3 @ X4)&(X1 @ X4 @ X6))=>(X1 @ X3 @ X6)))))), file('/export/starexec/sandbox/tmp/tmp.9553NYziON/E---3.1_7543.p', transitive)). 0.21/0.53 thf(transitive_reflexive_closure, axiom, ((trc)=(^[X1:$i > $i > $o]:(rc @ (tc @ X1)))), file('/export/starexec/sandbox/tmp/tmp.9553NYziON/E---3.1_7543.p', transitive_reflexive_closure)). 0.21/0.53 thf(reflexive_closure, axiom, ((rc)=(^[X1:$i > $i > $o, X3:$i, X4:$i]:((((X3)=(X4))|(X1 @ X3 @ X4))))), file('/export/starexec/sandbox/tmp/tmp.9553NYziON/E---3.1_7543.p', reflexive_closure)). 0.21/0.53 thf(reflexive, axiom, ((refl)=(^[X1:$i > $i > $o]:(![X3:$i]:((X1 @ X3 @ X3))))), file('/export/starexec/sandbox/tmp/tmp.9553NYziON/E---3.1_7543.p', reflexive)). 0.21/0.53 thf(transitive_reflexive_closure_is_transitive_reflexive, conjecture, ![X1:$i > $i > $o]:(((trans @ (trc @ X1))&(refl @ (trc @ X1)))), file('/export/starexec/sandbox/tmp/tmp.9553NYziON/E---3.1_7543.p', transitive_reflexive_closure_is_transitive_reflexive)). 0.21/0.53 thf(c_0_7, plain, ((tc)=(^[Z0/* 19 */:$i > $i > $o, Z1:$i, Z2:$i]:(![X2:$i > $i > $o]:((((![X16:$i, X17:$i, X18:$i]:((((X2 @ X16 @ X17)&(X2 @ X17 @ X18))=>(X2 @ X16 @ X18))))&(![X19:$i, X20:$i]:(((Z0 @ X19 @ X20)=>(X2 @ X19 @ X20)))))=>(X2 @ Z1 @ Z2)))))), inference(fof_simplification,[status(thm)],[transitive_closure])). 0.21/0.53 thf(c_0_8, plain, ((subrel)=(^[Z0/* 19 */:$i > $i > $o, Z1:$i > $i > $o]:(![X3:$i, X4:$i]:(((Z0 @ X3 @ X4)=>(Z1 @ X3 @ X4)))))), inference(fof_simplification,[status(thm)],[subrel])). 0.21/0.53 thf(c_0_9, plain, ((trans)=(^[Z0/* 6 */:$i > $i > $o]:(![X3:$i, X4:$i, X6:$i]:((((Z0 @ X3 @ X4)&(Z0 @ X4 @ X6))=>(Z0 @ X3 @ X6)))))), inference(fof_simplification,[status(thm)],[transitive])). 0.21/0.53 thf(c_0_10, plain, ((trc)=(^[Z0/* 19 */:$i > $i > $o, Z1:$i, Z2:$i]:((((Z1)=(Z2))|(![X21:$i > $i > $o]:((((![X22:$i, X23:$i, X24:$i]:((((X21 @ X22 @ X23)&(X21 @ X23 @ X24))=>(X21 @ X22 @ X24))))&(![X25:$i, X26:$i]:(((Z0 @ X25 @ X26)=>(X21 @ X25 @ X26)))))=>(X21 @ Z1 @ Z2)))))))), inference(fof_simplification,[status(thm)],[transitive_reflexive_closure])). 0.21/0.53 thf(c_0_11, plain, ((rc)=(^[Z0/* 19 */:$i > $i > $o, Z1:$i, Z2:$i]:((((Z1)=(Z2))|(Z0 @ Z1 @ Z2))))), inference(fof_simplification,[status(thm)],[reflexive_closure])). 0.21/0.53 thf(c_0_12, plain, ((tc)=(^[Z0/* 19 */:$i > $i > $o, Z1:$i, Z2:$i]:(![X2:$i > $i > $o]:((((![X16:$i, X17:$i, X18:$i]:((((X2 @ X16 @ X17)&(X2 @ X17 @ X18))=>(X2 @ X16 @ X18))))&(![X19:$i, X20:$i]:(((Z0 @ X19 @ X20)=>(X2 @ X19 @ X20)))))=>(X2 @ Z1 @ Z2)))))), inference(apply_def,[status(thm)],[inference(apply_def,[status(thm)],[c_0_7, c_0_8]), c_0_9])). 0.21/0.53 thf(c_0_13, plain, ((refl)=(^[Z0/* 6 */:$i > $i > $o]:(![X3:$i]:((Z0 @ X3 @ X3))))), inference(fof_simplification,[status(thm)],[reflexive])). 0.21/0.53 thf(c_0_14, plain, ((trc)=(^[Z0/* 19 */:$i > $i > $o, Z1:$i, Z2:$i]:((((Z1)=(Z2))|(![X21:$i > $i > $o]:((((![X22:$i, X23:$i, X24:$i]:((((X21 @ X22 @ X23)&(X21 @ X23 @ X24))=>(X21 @ X22 @ X24))))&(![X25:$i, X26:$i]:(((Z0 @ X25 @ X26)=>(X21 @ X25 @ X26)))))=>(X21 @ Z1 @ Z2)))))))), inference(apply_def,[status(thm)],[inference(apply_def,[status(thm)],[c_0_10, c_0_11]), c_0_12])). 0.21/0.53 thf(c_0_15, negated_conjecture, ~(![X1:$i > $i > $o]:((![X164:$i, X165:$i, X166:$i]:((((((X164)=(X165))|![X158:$i > $i > $o]:(((![X159:$i, X160:$i, X161:$i]:((((X158 @ X159 @ X160)&(X158 @ X160 @ X161))=>(X158 @ X159 @ X161)))&![X162:$i, X163:$i]:(((X1 @ X162 @ X163)=>(X158 @ X162 @ X163))))=>(X158 @ X164 @ X165))))&(((X165)=(X166))|![X158:$i > $i > $o]:(((![X159:$i, X160:$i, X161:$i]:((((X158 @ X159 @ X160)&(X158 @ X160 @ X161))=>(X158 @ X159 @ X161)))&![X162:$i, X163:$i]:(((X1 @ X162 @ X163)=>(X158 @ X162 @ X163))))=>(X158 @ X165 @ X166)))))=>(((X164)=(X166))|![X158:$i > $i > $o]:(((![X159:$i, X160:$i, X161:$i]:((((X158 @ X159 @ X160)&(X158 @ X160 @ X161))=>(X158 @ X159 @ X161)))&![X162:$i, X163:$i]:(((X1 @ X162 @ X163)=>(X158 @ X162 @ X163))))=>(X158 @ X164 @ X166))))))&![X173:$i]:((((X173)=(X173))|![X167:$i > $i > $o]:(((![X168:$i, X169:$i, X170:$i]:((((X167 @ X168 @ X169)&(X167 @ X169 @ X170))=>(X167 @ X168 @ X170)))&![X171:$i, X172:$i]:(((X1 @ X171 @ X172)=>(X167 @ X171 @ X172))))=>(X167 @ X173 @ X173)))))))), inference(apply_def,[status(thm)],[inference(apply_def,[status(thm)],[inference(apply_def,[status(thm)],[inference(assume_negation,[status(cth)],[transitive_reflexive_closure_is_transitive_reflexive]), c_0_13]), c_0_9]), c_0_14])). 0.21/0.53 thf(c_0_16, negated_conjecture, ![X178:$i > $i > $o, X184:$i > $i > $o, X191:$i, X192:$i, X193:$i, X194:$i, X195:$i, X198:$i, X199:$i, X200:$i, X201:$i, X202:$i]:((((((((((esk14_0)!=(esk14_0))|((epred1_0 @ (esk7_1 @ X178) @ (esk8_1 @ X178))|(X178 @ (esk4_1 @ X178) @ (esk5_1 @ X178))|(X178 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0))))&(((~(epred3_0 @ X198 @ X199)|~(epred3_0 @ X199 @ X200)|(epred3_0 @ X198 @ X200)|((epred1_0 @ (esk7_1 @ X178) @ (esk8_1 @ X178))|(X178 @ (esk4_1 @ X178) @ (esk5_1 @ X178))|(X178 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0))))&(~(epred1_0 @ X201 @ X202)|(epred3_0 @ X201 @ X202)|((epred1_0 @ (esk7_1 @ X178) @ (esk8_1 @ X178))|(X178 @ (esk4_1 @ X178) @ (esk5_1 @ X178))|(X178 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0)))))&(~(epred3_0 @ esk14_0 @ esk14_0)|((epred1_0 @ (esk7_1 @ X178) @ (esk8_1 @ X178))|(X178 @ (esk4_1 @ X178) @ (esk5_1 @ X178))|(X178 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0))))))&((((esk14_0)!=(esk14_0))|(~(X178 @ (esk7_1 @ X178) @ (esk8_1 @ X178))|(X178 @ (esk4_1 @ X178) @ (esk5_1 @ X178))|(X178 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0))))&(((~(epred3_0 @ X198 @ X199)|~(epred3_0 @ X199 @ X200)|(epred3_0 @ X198 @ X200)|(~(X178 @ (esk7_1 @ X178) @ (esk8_1 @ X178))|(X178 @ (esk4_1 @ X178) @ (esk5_1 @ X178))|(X178 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0))))&(~(epred1_0 @ X201 @ X202)|(epred3_0 @ X201 @ X202)|(~(X178 @ (esk7_1 @ X178) @ (esk8_1 @ X178))|(X178 @ (esk4_1 @ X178) @ (esk5_1 @ X178))|(X178 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0)))))&(~(epred3_0 @ esk14_0 @ esk14_0)|(~(X178 @ (esk7_1 @ X178) @ (esk8_1 @ X178))|(X178 @ (esk4_1 @ X178) @ (esk5_1 @ X178))|(X178 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0)))))))&(((((esk14_0)!=(esk14_0))|((epred1_0 @ (esk7_1 @ X178) @ (esk8_1 @ X178))|(X178 @ (esk5_1 @ X178) @ (esk6_1 @ X178))|(X178 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0))))&(((~(epred3_0 @ X198 @ X199)|~(epred3_0 @ X199 @ X200)|(epred3_0 @ X198 @ X200)|((epred1_0 @ (esk7_1 @ X178) @ (esk8_1 @ X178))|(X178 @ (esk5_1 @ X178) @ (esk6_1 @ X178))|(X178 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0))))&(~(epred1_0 @ X201 @ X202)|(epred3_0 @ X201 @ X202)|((epred1_0 @ (esk7_1 @ X178) @ (esk8_1 @ X178))|(X178 @ (esk5_1 @ X178) @ (esk6_1 @ X178))|(X178 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0)))))&(~(epred3_0 @ esk14_0 @ esk14_0)|((epred1_0 @ (esk7_1 @ X178) @ (esk8_1 @ X178))|(X178 @ (esk5_1 @ X178) @ (esk6_1 @ X178))|(X178 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0))))))&((((esk14_0)!=(esk14_0))|(~(X178 @ (esk7_1 @ X178) @ (esk8_1 @ X178))|(X178 @ (esk5_1 @ X178) @ (esk6_1 @ X178))|(X178 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0))))&(((~(epred3_0 @ X198 @ X199)|~(epred3_0 @ X199 @ X200)|(epred3_0 @ X198 @ X200)|(~(X178 @ (esk7_1 @ X178) @ (esk8_1 @ X178))|(X178 @ (esk5_1 @ X178) @ (esk6_1 @ X178))|(X178 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0))))&(~(epred1_0 @ X201 @ X202)|(epred3_0 @ X201 @ X202)|(~(X178 @ (esk7_1 @ X178) @ (esk8_1 @ X178))|(X178 @ (esk5_1 @ X178) @ (esk6_1 @ X178))|(X178 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0)))))&(~(epred3_0 @ esk14_0 @ esk14_0)|(~(X178 @ (esk7_1 @ X178) @ (esk8_1 @ X178))|(X178 @ (esk5_1 @ X178) @ (esk6_1 @ X178))|(X178 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0))))))))&(((((esk14_0)!=(esk14_0))|((epred1_0 @ (esk7_1 @ X178) @ (esk8_1 @ X178))|~(X178 @ (esk4_1 @ X178) @ (esk6_1 @ X178))|(X178 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0))))&(((~(epred3_0 @ X198 @ X199)|~(epred3_0 @ X199 @ X200)|(epred3_0 @ X198 @ X200)|((epred1_0 @ (esk7_1 @ X178) @ (esk8_1 @ X178))|~(X178 @ (esk4_1 @ X178) @ (esk6_1 @ X178))|(X178 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0))))&(~(epred1_0 @ X201 @ X202)|(epred3_0 @ X201 @ X202)|((epred1_0 @ (esk7_1 @ X178) @ (esk8_1 @ X178))|~(X178 @ (esk4_1 @ X178) @ (esk6_1 @ X178))|(X178 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0)))))&(~(epred3_0 @ esk14_0 @ esk14_0)|((epred1_0 @ (esk7_1 @ X178) @ (esk8_1 @ X178))|~(X178 @ (esk4_1 @ X178) @ (esk6_1 @ X178))|(X178 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0))))))&((((esk14_0)!=(esk14_0))|(~(X178 @ (esk7_1 @ X178) @ (esk8_1 @ X178))|~(X178 @ (esk4_1 @ X178) @ (esk6_1 @ X178))|(X178 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0))))&(((~(epred3_0 @ X198 @ X199)|~(epred3_0 @ X199 @ X200)|(epred3_0 @ X198 @ X200)|(~(X178 @ (esk7_1 @ X178) @ (esk8_1 @ X178))|~(X178 @ (esk4_1 @ X178) @ (esk6_1 @ X178))|(X178 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0))))&(~(epred1_0 @ X201 @ X202)|(epred3_0 @ X201 @ X202)|(~(X178 @ (esk7_1 @ X178) @ (esk8_1 @ X178))|~(X178 @ (esk4_1 @ X178) @ (esk6_1 @ X178))|(X178 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0)))))&(~(epred3_0 @ esk14_0 @ esk14_0)|(~(X178 @ (esk7_1 @ X178) @ (esk8_1 @ X178))|~(X178 @ (esk4_1 @ X178) @ (esk6_1 @ X178))|(X178 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0))))))))&(((((((esk14_0)!=(esk14_0))|((epred1_0 @ (esk12_1 @ X184) @ (esk13_1 @ X184))|(X184 @ (esk9_1 @ X184) @ (esk10_1 @ X184))|(X184 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0))))&(((~(epred3_0 @ X198 @ X199)|~(epred3_0 @ X199 @ X200)|(epred3_0 @ X198 @ X200)|((epred1_0 @ (esk12_1 @ X184) @ (esk13_1 @ X184))|(X184 @ (esk9_1 @ X184) @ (esk10_1 @ X184))|(X184 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0))))&(~(epred1_0 @ X201 @ X202)|(epred3_0 @ X201 @ X202)|((epred1_0 @ (esk12_1 @ X184) @ (esk13_1 @ X184))|(X184 @ (esk9_1 @ X184) @ (esk10_1 @ X184))|(X184 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0)))))&(~(epred3_0 @ esk14_0 @ esk14_0)|((epred1_0 @ (esk12_1 @ X184) @ (esk13_1 @ X184))|(X184 @ (esk9_1 @ X184) @ (esk10_1 @ X184))|(X184 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0))))))&((((esk14_0)!=(esk14_0))|(~(X184 @ (esk12_1 @ X184) @ (esk13_1 @ X184))|(X184 @ (esk9_1 @ X184) @ (esk10_1 @ X184))|(X184 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0))))&(((~(epred3_0 @ X198 @ X199)|~(epred3_0 @ X199 @ X200)|(epred3_0 @ X198 @ X200)|(~(X184 @ (esk12_1 @ X184) @ (esk13_1 @ X184))|(X184 @ (esk9_1 @ X184) @ (esk10_1 @ X184))|(X184 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0))))&(~(epred1_0 @ X201 @ X202)|(epred3_0 @ X201 @ X202)|(~(X184 @ (esk12_1 @ X184) @ (esk13_1 @ X184))|(X184 @ (esk9_1 @ X184) @ (esk10_1 @ X184))|(X184 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0)))))&(~(epred3_0 @ esk14_0 @ esk14_0)|(~(X184 @ (esk12_1 @ X184) @ (esk13_1 @ X184))|(X184 @ (esk9_1 @ X184) @ (esk10_1 @ X184))|(X184 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0)))))))&(((((esk14_0)!=(esk14_0))|((epred1_0 @ (esk12_1 @ X184) @ (esk13_1 @ X184))|(X184 @ (esk10_1 @ X184) @ (esk11_1 @ X184))|(X184 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0))))&(((~(epred3_0 @ X198 @ X199)|~(epred3_0 @ X199 @ X200)|(epred3_0 @ X198 @ X200)|((epred1_0 @ (esk12_1 @ X184) @ (esk13_1 @ X184))|(X184 @ (esk10_1 @ X184) @ (esk11_1 @ X184))|(X184 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0))))&(~(epred1_0 @ X201 @ X202)|(epred3_0 @ X201 @ X202)|((epred1_0 @ (esk12_1 @ X184) @ (esk13_1 @ X184))|(X184 @ (esk10_1 @ X184) @ (esk11_1 @ X184))|(X184 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0)))))&(~(epred3_0 @ esk14_0 @ esk14_0)|((epred1_0 @ (esk12_1 @ X184) @ (esk13_1 @ X184))|(X184 @ (esk10_1 @ X184) @ (esk11_1 @ X184))|(X184 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0))))))&((((esk14_0)!=(esk14_0))|(~(X184 @ (esk12_1 @ X184) @ (esk13_1 @ X184))|(X184 @ (esk10_1 @ X184) @ (esk11_1 @ X184))|(X184 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0))))&(((~(epred3_0 @ X198 @ X199)|~(epred3_0 @ X199 @ X200)|(epred3_0 @ X198 @ X200)|(~(X184 @ (esk12_1 @ X184) @ (esk13_1 @ X184))|(X184 @ (esk10_1 @ X184) @ (esk11_1 @ X184))|(X184 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0))))&(~(epred1_0 @ X201 @ X202)|(epred3_0 @ X201 @ X202)|(~(X184 @ (esk12_1 @ X184) @ (esk13_1 @ X184))|(X184 @ (esk10_1 @ X184) @ (esk11_1 @ X184))|(X184 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0)))))&(~(epred3_0 @ esk14_0 @ esk14_0)|(~(X184 @ (esk12_1 @ X184) @ (esk13_1 @ X184))|(X184 @ (esk10_1 @ X184) @ (esk11_1 @ X184))|(X184 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0))))))))&(((((esk14_0)!=(esk14_0))|((epred1_0 @ (esk12_1 @ X184) @ (esk13_1 @ X184))|~(X184 @ (esk9_1 @ X184) @ (esk11_1 @ X184))|(X184 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0))))&(((~(epred3_0 @ X198 @ X199)|~(epred3_0 @ X199 @ X200)|(epred3_0 @ X198 @ X200)|((epred1_0 @ (esk12_1 @ X184) @ (esk13_1 @ X184))|~(X184 @ (esk9_1 @ X184) @ (esk11_1 @ X184))|(X184 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0))))&(~(epred1_0 @ X201 @ X202)|(epred3_0 @ X201 @ X202)|((epred1_0 @ (esk12_1 @ X184) @ (esk13_1 @ X184))|~(X184 @ (esk9_1 @ X184) @ (esk11_1 @ X184))|(X184 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0)))))&(~(epred3_0 @ esk14_0 @ esk14_0)|((epred1_0 @ (esk12_1 @ X184) @ (esk13_1 @ X184))|~(X184 @ (esk9_1 @ X184) @ (esk11_1 @ X184))|(X184 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0))))))&((((esk14_0)!=(esk14_0))|(~(X184 @ (esk12_1 @ X184) @ (esk13_1 @ X184))|~(X184 @ (esk9_1 @ X184) @ (esk11_1 @ X184))|(X184 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0))))&(((~(epred3_0 @ X198 @ X199)|~(epred3_0 @ X199 @ X200)|(epred3_0 @ X198 @ X200)|(~(X184 @ (esk12_1 @ X184) @ (esk13_1 @ X184))|~(X184 @ (esk9_1 @ X184) @ (esk11_1 @ X184))|(X184 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0))))&(~(epred1_0 @ X201 @ X202)|(epred3_0 @ X201 @ X202)|(~(X184 @ (esk12_1 @ X184) @ (esk13_1 @ X184))|~(X184 @ (esk9_1 @ X184) @ (esk11_1 @ X184))|(X184 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0)))))&(~(epred3_0 @ esk14_0 @ esk14_0)|(~(X184 @ (esk12_1 @ X184) @ (esk13_1 @ X184))|~(X184 @ (esk9_1 @ X184) @ (esk11_1 @ X184))|(X184 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0)))))))))&(((((esk14_0)!=(esk14_0))|((esk1_0)!=(esk3_0)))&(((~(epred3_0 @ X198 @ X199)|~(epred3_0 @ X199 @ X200)|(epred3_0 @ X198 @ X200)|((esk1_0)!=(esk3_0)))&(~(epred1_0 @ X201 @ X202)|(epred3_0 @ X201 @ X202)|((esk1_0)!=(esk3_0))))&(~(epred3_0 @ esk14_0 @ esk14_0)|((esk1_0)!=(esk3_0)))))&((((((esk14_0)!=(esk14_0))|(~(epred2_0 @ X191 @ X192)|~(epred2_0 @ X192 @ X193)|(epred2_0 @ X191 @ X193)))&(((~(epred3_0 @ X198 @ X199)|~(epred3_0 @ X199 @ X200)|(epred3_0 @ X198 @ X200)|(~(epred2_0 @ X191 @ X192)|~(epred2_0 @ X192 @ X193)|(epred2_0 @ X191 @ X193)))&(~(epred1_0 @ X201 @ X202)|(epred3_0 @ X201 @ X202)|(~(epred2_0 @ X191 @ X192)|~(epred2_0 @ X192 @ X193)|(epred2_0 @ X191 @ X193))))&(~(epred3_0 @ esk14_0 @ esk14_0)|(~(epred2_0 @ X191 @ X192)|~(epred2_0 @ X192 @ X193)|(epred2_0 @ X191 @ X193)))))&((((esk14_0)!=(esk14_0))|(~(epred1_0 @ X194 @ X195)|(epred2_0 @ X194 @ X195)))&(((~(epred3_0 @ X198 @ X199)|~(epred3_0 @ X199 @ X200)|(epred3_0 @ X198 @ X200)|(~(epred1_0 @ X194 @ X195)|(epred2_0 @ X194 @ X195)))&(~(epred1_0 @ X201 @ X202)|(epred3_0 @ X201 @ X202)|(~(epred1_0 @ X194 @ X195)|(epred2_0 @ X194 @ X195))))&(~(epred3_0 @ esk14_0 @ esk14_0)|(~(epred1_0 @ X194 @ X195)|(epred2_0 @ X194 @ X195))))))&((((esk14_0)!=(esk14_0))|~(epred2_0 @ esk1_0 @ esk3_0))&(((~(epred3_0 @ X198 @ X199)|~(epred3_0 @ X199 @ X200)|(epred3_0 @ X198 @ X200)|~(epred2_0 @ esk1_0 @ esk3_0))&(~(epred1_0 @ X201 @ X202)|(epred3_0 @ X201 @ X202)|~(epred2_0 @ esk1_0 @ esk3_0)))&(~(epred3_0 @ esk14_0 @ esk14_0)|~(epred2_0 @ esk1_0 @ esk3_0)))))))), inference(distribute,[status(thm)],[inference(fof_nnf,[status(thm)],[inference(shift_quantors,[status(thm)],[inference(skolemize,[status(esa)],[inference(variable_rename,[status(thm)],[inference(fof_nnf,[status(thm)],[c_0_15])])])])])])). 0.21/0.53 thf(c_0_17, negated_conjecture, ![X1:$i > $i > $o]:(((X1 @ (esk10_1 @ X1) @ (esk11_1 @ X1))|(X1 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0))|((esk14_0)!=(esk14_0))|~((X1 @ (esk12_1 @ X1) @ (esk13_1 @ X1))))), inference(split_conjunct,[status(thm)],[c_0_16])). 0.21/0.53 thf(c_0_18, negated_conjecture, ![X3:$i, X4:$i]:(((epred2_0 @ X3 @ X4)|((esk14_0)!=(esk14_0))|~((epred1_0 @ X3 @ X4)))), inference(split_conjunct,[status(thm)],[c_0_16])). 0.21/0.53 thf(c_0_19, negated_conjecture, ![X1:$i > $i > $o]:(((epred1_0 @ (esk12_1 @ X1) @ (esk13_1 @ X1))|(X1 @ (esk10_1 @ X1) @ (esk11_1 @ X1))|(X1 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0))|((esk14_0)!=(esk14_0)))), inference(split_conjunct,[status(thm)],[c_0_16])). 0.21/0.53 thf(c_0_20, negated_conjecture, ![X3:$i, X4:$i, X6:$i]:(((epred2_0 @ X3 @ X6)|((esk14_0)!=(esk14_0))|~((epred2_0 @ X3 @ X4))|~((epred2_0 @ X4 @ X6)))), inference(split_conjunct,[status(thm)],[c_0_16])). 0.21/0.53 thf(c_0_21, negated_conjecture, ![X1:$i > $i > $o]:((((esk3_0)=(esk2_0))|(X1 @ esk2_0 @ esk3_0)|(X1 @ (esk10_1 @ X1) @ (esk11_1 @ X1))|~((X1 @ (esk12_1 @ X1) @ (esk13_1 @ X1))))), inference(cn,[status(thm)],[c_0_17])). 0.21/0.53 thf(c_0_22, negated_conjecture, ![X3:$i, X4:$i]:(((epred2_0 @ X3 @ X4)|~((epred1_0 @ X3 @ X4)))), inference(cn,[status(thm)],[c_0_18])). 0.21/0.53 thf(c_0_23, negated_conjecture, ![X1:$i > $i > $o]:((((esk3_0)=(esk2_0))|(X1 @ esk2_0 @ esk3_0)|(X1 @ (esk10_1 @ X1) @ (esk11_1 @ X1))|(epred1_0 @ (esk12_1 @ X1) @ (esk13_1 @ X1)))), inference(cn,[status(thm)],[c_0_19])). 0.21/0.53 thf(c_0_24, negated_conjecture, ![X1:$i > $i > $o]:(((epred1_0 @ (esk7_1 @ X1) @ (esk8_1 @ X1))|(X1 @ (esk5_1 @ X1) @ (esk6_1 @ X1))|(X1 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0))|((esk14_0)!=(esk14_0)))), inference(split_conjunct,[status(thm)],[c_0_16])). 0.21/0.53 thf(c_0_25, negated_conjecture, ![X1:$i > $i > $o]:(((X1 @ (esk9_1 @ X1) @ (esk10_1 @ X1))|(X1 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0))|((esk14_0)!=(esk14_0))|~((X1 @ (esk12_1 @ X1) @ (esk13_1 @ X1))))), inference(split_conjunct,[status(thm)],[c_0_16])). 0.21/0.53 thf(c_0_26, negated_conjecture, ![X3:$i, X6:$i, X4:$i]:(((epred2_0 @ X3 @ X6)|~((epred2_0 @ X4 @ X6))|~((epred2_0 @ X3 @ X4)))), inference(cn,[status(thm)],[c_0_20])). 0.21/0.53 thf(c_0_27, negated_conjecture, (((esk3_0)=(esk2_0))|(epred2_0 @ (esk10_1 @ epred2_0) @ (esk11_1 @ epred2_0))|(epred2_0 @ esk2_0 @ esk3_0)), inference(csr,[status(thm)],[inference(spm,[status(thm)],[c_0_21, c_0_22]), c_0_23])). 0.21/0.53 thf(c_0_28, negated_conjecture, ![X1:$i > $i > $o]:(((epred1_0 @ (esk12_1 @ X1) @ (esk13_1 @ X1))|(X1 @ (esk9_1 @ X1) @ (esk10_1 @ X1))|(X1 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0))|((esk14_0)!=(esk14_0)))), inference(split_conjunct,[status(thm)],[c_0_16])). 0.21/0.53 thf(c_0_29, negated_conjecture, ![X1:$i > $i > $o]:(((epred1_0 @ (esk12_1 @ X1) @ (esk13_1 @ X1))|(X1 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0))|((esk14_0)!=(esk14_0))|~((X1 @ (esk9_1 @ X1) @ (esk11_1 @ X1))))), inference(split_conjunct,[status(thm)],[c_0_16])). 0.21/0.53 thf(c_0_30, negated_conjecture, ![X1:$i > $i > $o]:(((X1 @ (esk5_1 @ X1) @ (esk6_1 @ X1))|(X1 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0))|((esk14_0)!=(esk14_0))|~((X1 @ (esk7_1 @ X1) @ (esk8_1 @ X1))))), inference(split_conjunct,[status(thm)],[c_0_16])). 0.21/0.53 thf(c_0_31, negated_conjecture, ![X1:$i > $i > $o]:((((esk2_0)=(esk1_0))|(X1 @ esk1_0 @ esk2_0)|(X1 @ (esk5_1 @ X1) @ (esk6_1 @ X1))|(epred1_0 @ (esk7_1 @ X1) @ (esk8_1 @ X1)))), inference(cn,[status(thm)],[c_0_24])). 0.21/0.53 thf(c_0_32, negated_conjecture, ![X1:$i > $i > $o]:(((epred1_0 @ (esk7_1 @ X1) @ (esk8_1 @ X1))|(X1 @ (esk4_1 @ X1) @ (esk5_1 @ X1))|(X1 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0))|((esk14_0)!=(esk14_0)))), inference(split_conjunct,[status(thm)],[c_0_16])). 0.21/0.53 thf(c_0_33, negated_conjecture, ![X1:$i > $i > $o]:(((epred1_0 @ (esk7_1 @ X1) @ (esk8_1 @ X1))|(X1 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0))|((esk14_0)!=(esk14_0))|~((X1 @ (esk4_1 @ X1) @ (esk6_1 @ X1))))), inference(split_conjunct,[status(thm)],[c_0_16])). 0.21/0.53 thf(c_0_34, negated_conjecture, ![X1:$i > $i > $o]:((((esk3_0)=(esk2_0))|(X1 @ esk2_0 @ esk3_0)|(X1 @ (esk9_1 @ X1) @ (esk10_1 @ X1))|~((X1 @ (esk12_1 @ X1) @ (esk13_1 @ X1))))), inference(cn,[status(thm)],[c_0_25])). 0.21/0.53 thf(c_0_35, negated_conjecture, ![X3:$i]:((((esk3_0)=(esk2_0))|(epred2_0 @ X3 @ (esk11_1 @ epred2_0))|(epred2_0 @ esk2_0 @ esk3_0)|~((epred2_0 @ X3 @ (esk10_1 @ epred2_0))))), inference(spm,[status(thm)],[c_0_26, c_0_27])). 0.21/0.53 thf(c_0_36, negated_conjecture, ![X1:$i > $i > $o]:((((esk3_0)=(esk2_0))|(X1 @ esk2_0 @ esk3_0)|(X1 @ (esk9_1 @ X1) @ (esk10_1 @ X1))|(epred1_0 @ (esk12_1 @ X1) @ (esk13_1 @ X1)))), inference(cn,[status(thm)],[c_0_28])). 0.21/0.53 thf(c_0_37, negated_conjecture, ![X1:$i > $i > $o]:((((esk3_0)=(esk2_0))|(X1 @ esk2_0 @ esk3_0)|(epred1_0 @ (esk12_1 @ X1) @ (esk13_1 @ X1))|~((X1 @ (esk9_1 @ X1) @ (esk11_1 @ X1))))), inference(cn,[status(thm)],[c_0_29])). 0.21/0.53 thf(c_0_38, negated_conjecture, ![X1:$i > $i > $o]:((((esk2_0)=(esk1_0))|(X1 @ esk1_0 @ esk2_0)|(X1 @ (esk5_1 @ X1) @ (esk6_1 @ X1))|~((X1 @ (esk7_1 @ X1) @ (esk8_1 @ X1))))), inference(cn,[status(thm)],[c_0_30])). 0.21/0.53 thf(c_0_39, negated_conjecture, ![X3:$i]:((((esk1_0)=(esk2_0))|(epred1_0 @ (esk7_1 @ epred2_0) @ (esk8_1 @ epred2_0))|(epred2_0 @ X3 @ (esk6_1 @ epred2_0))|(epred2_0 @ esk1_0 @ esk2_0)|~((epred2_0 @ X3 @ (esk5_1 @ epred2_0))))), inference(spm,[status(thm)],[c_0_26, c_0_31])). 0.21/0.53 thf(c_0_40, negated_conjecture, ![X1:$i > $i > $o]:((((esk2_0)=(esk1_0))|(X1 @ esk1_0 @ esk2_0)|(X1 @ (esk4_1 @ X1) @ (esk5_1 @ X1))|(epred1_0 @ (esk7_1 @ X1) @ (esk8_1 @ X1)))), inference(cn,[status(thm)],[c_0_32])). 0.21/0.53 thf(c_0_41, negated_conjecture, ![X1:$i > $i > $o]:((((esk2_0)=(esk1_0))|(X1 @ esk1_0 @ esk2_0)|(epred1_0 @ (esk7_1 @ X1) @ (esk8_1 @ X1))|~((X1 @ (esk4_1 @ X1) @ (esk6_1 @ X1))))), inference(cn,[status(thm)],[c_0_33])). 0.21/0.53 thf(c_0_42, negated_conjecture, ![X1:$i > $i > $o]:(((X1 @ (esk4_1 @ X1) @ (esk5_1 @ X1))|(X1 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0))|((esk14_0)!=(esk14_0))|~((X1 @ (esk7_1 @ X1) @ (esk8_1 @ X1))))), inference(split_conjunct,[status(thm)],[c_0_16])). 0.21/0.53 thf(c_0_43, negated_conjecture, (((esk3_0)=(esk2_0))|(epred2_0 @ (esk9_1 @ epred2_0) @ (esk10_1 @ epred2_0))|(epred2_0 @ esk2_0 @ esk3_0)|~((epred1_0 @ (esk12_1 @ epred2_0) @ (esk13_1 @ epred2_0)))), inference(spm,[status(thm)],[c_0_34, c_0_22])). 0.21/0.53 thf(c_0_44, negated_conjecture, (((esk3_0)=(esk2_0))|(epred1_0 @ (esk12_1 @ epred2_0) @ (esk13_1 @ epred2_0))|(epred2_0 @ esk2_0 @ esk3_0)), inference(csr,[status(thm)],[inference(spm,[status(thm)],[c_0_35, c_0_36]), c_0_37])). 0.21/0.53 thf(c_0_45, negated_conjecture, (((esk1_0)=(esk2_0))|(epred2_0 @ (esk5_1 @ epred2_0) @ (esk6_1 @ epred2_0))|(epred2_0 @ esk1_0 @ esk2_0)|~((epred1_0 @ (esk7_1 @ epred2_0) @ (esk8_1 @ epred2_0)))), inference(spm,[status(thm)],[c_0_38, c_0_22])). 0.21/0.53 thf(c_0_46, negated_conjecture, (((esk1_0)=(esk2_0))|(epred1_0 @ (esk7_1 @ epred2_0) @ (esk8_1 @ epred2_0))|(epred2_0 @ esk1_0 @ esk2_0)), inference(csr,[status(thm)],[inference(spm,[status(thm)],[c_0_39, c_0_40]), c_0_41])). 0.21/0.53 thf(c_0_47, negated_conjecture, ![X1:$i > $i > $o]:((((esk2_0)=(esk1_0))|(X1 @ esk1_0 @ esk2_0)|(X1 @ (esk4_1 @ X1) @ (esk5_1 @ X1))|~((X1 @ (esk7_1 @ X1) @ (esk8_1 @ X1))))), inference(cn,[status(thm)],[c_0_42])). 0.21/0.53 thf(c_0_48, negated_conjecture, ![X1:$i > $i > $o]:(((X1 @ esk2_0 @ esk3_0)|((esk2_0)=(esk3_0))|((esk14_0)!=(esk14_0))|~((X1 @ (esk12_1 @ X1) @ (esk13_1 @ X1)))|~((X1 @ (esk9_1 @ X1) @ (esk11_1 @ X1))))), inference(split_conjunct,[status(thm)],[c_0_16])). 0.21/0.53 thf(c_0_49, negated_conjecture, (((esk3_0)=(esk2_0))|(epred2_0 @ (esk9_1 @ epred2_0) @ (esk10_1 @ epred2_0))|(epred2_0 @ esk2_0 @ esk3_0)), inference(spm,[status(thm)],[c_0_43, c_0_44])). 0.21/0.53 thf(c_0_50, negated_conjecture, (((esk1_0)=(esk2_0))|(epred2_0 @ (esk5_1 @ epred2_0) @ (esk6_1 @ epred2_0))|(epred2_0 @ esk1_0 @ esk2_0)), inference(spm,[status(thm)],[c_0_45, c_0_46])). 0.21/0.53 thf(c_0_51, negated_conjecture, (((esk1_0)=(esk2_0))|(epred2_0 @ (esk4_1 @ epred2_0) @ (esk5_1 @ epred2_0))|(epred2_0 @ esk1_0 @ esk2_0)|~((epred1_0 @ (esk7_1 @ epred2_0) @ (esk8_1 @ epred2_0)))), inference(spm,[status(thm)],[c_0_47, c_0_22])). 0.21/0.53 thf(c_0_52, negated_conjecture, ![X1:$i > $i > $o]:((((esk3_0)=(esk2_0))|(X1 @ esk2_0 @ esk3_0)|~((X1 @ (esk9_1 @ X1) @ (esk11_1 @ X1)))|~((X1 @ (esk12_1 @ X1) @ (esk13_1 @ X1))))), inference(cn,[status(thm)],[c_0_48])). 0.21/0.53 thf(c_0_53, negated_conjecture, (((esk3_0)=(esk2_0))|(epred2_0 @ (esk9_1 @ epred2_0) @ (esk11_1 @ epred2_0))|(epred2_0 @ esk2_0 @ esk3_0)), inference(spm,[status(thm)],[c_0_35, c_0_49])). 0.21/0.53 thf(c_0_54, negated_conjecture, ![X1:$i > $i > $o]:(((X1 @ esk1_0 @ esk2_0)|((esk1_0)=(esk2_0))|((esk14_0)!=(esk14_0))|~((X1 @ (esk7_1 @ X1) @ (esk8_1 @ X1)))|~((X1 @ (esk4_1 @ X1) @ (esk6_1 @ X1))))), inference(split_conjunct,[status(thm)],[c_0_16])). 0.21/0.53 thf(c_0_55, negated_conjecture, ![X3:$i]:((((esk1_0)=(esk2_0))|(epred2_0 @ X3 @ (esk6_1 @ epred2_0))|(epred2_0 @ esk1_0 @ esk2_0)|~((epred2_0 @ X3 @ (esk5_1 @ epred2_0))))), inference(spm,[status(thm)],[c_0_26, c_0_50])). 0.21/0.53 thf(c_0_56, negated_conjecture, (((esk1_0)=(esk2_0))|(epred2_0 @ (esk4_1 @ epred2_0) @ (esk5_1 @ epred2_0))|(epred2_0 @ esk1_0 @ esk2_0)), inference(spm,[status(thm)],[c_0_51, c_0_46])). 0.21/0.53 thf(c_0_57, negated_conjecture, (((esk3_0)=(esk2_0))|(epred2_0 @ esk2_0 @ esk3_0)|~((epred2_0 @ (esk12_1 @ epred2_0) @ (esk13_1 @ epred2_0)))), inference(spm,[status(thm)],[c_0_52, c_0_53])). 0.21/0.53 thf(c_0_58, negated_conjecture, ![X1:$i > $i > $o]:((((esk2_0)=(esk1_0))|(X1 @ esk1_0 @ esk2_0)|~((X1 @ (esk4_1 @ X1) @ (esk6_1 @ X1)))|~((X1 @ (esk7_1 @ X1) @ (esk8_1 @ X1))))), inference(cn,[status(thm)],[c_0_54])). 0.21/0.53 thf(c_0_59, negated_conjecture, (((esk1_0)=(esk2_0))|(epred2_0 @ (esk4_1 @ epred2_0) @ (esk6_1 @ epred2_0))|(epred2_0 @ esk1_0 @ esk2_0)), inference(spm,[status(thm)],[c_0_55, c_0_56])). 0.21/0.53 thf(c_0_60, negated_conjecture, (((esk3_0)=(esk2_0))|(epred2_0 @ esk2_0 @ esk3_0)), inference(csr,[status(thm)],[inference(spm,[status(thm)],[c_0_57, c_0_22]), c_0_44])). 0.21/0.53 thf(c_0_61, negated_conjecture, (((esk1_0)=(esk2_0))|(epred2_0 @ esk1_0 @ esk2_0)|~((epred2_0 @ (esk7_1 @ epred2_0) @ (esk8_1 @ epred2_0)))), inference(spm,[status(thm)],[c_0_58, c_0_59])). 0.21/0.53 thf(c_0_62, negated_conjecture, (((esk14_0)!=(esk14_0))|~((epred2_0 @ esk1_0 @ esk3_0))), inference(split_conjunct,[status(thm)],[c_0_16])). 0.21/0.53 thf(c_0_63, negated_conjecture, ![X3:$i]:((((esk3_0)=(esk2_0))|(epred2_0 @ X3 @ esk3_0)|~((epred2_0 @ X3 @ esk2_0)))), inference(spm,[status(thm)],[c_0_26, c_0_60])). 0.21/0.53 thf(c_0_64, negated_conjecture, (((esk1_0)=(esk2_0))|(epred2_0 @ esk1_0 @ esk2_0)), inference(csr,[status(thm)],[inference(spm,[status(thm)],[c_0_61, c_0_22]), c_0_46])). 0.21/0.53 thf(c_0_65, negated_conjecture, ~((epred2_0 @ esk1_0 @ esk3_0)), inference(cn,[status(thm)],[c_0_62])). 0.21/0.53 thf(c_0_66, negated_conjecture, (((esk14_0)!=(esk14_0))|((esk1_0)!=(esk3_0))), inference(split_conjunct,[status(thm)],[c_0_16])). 0.21/0.53 thf(c_0_67, negated_conjecture, (((esk1_0)=(esk2_0))|((esk3_0)=(esk2_0))), inference(sr,[status(thm)],[inference(spm,[status(thm)],[c_0_63, c_0_64]), c_0_65])). 0.21/0.53 thf(c_0_68, negated_conjecture, ((esk3_0)!=(esk1_0)), inference(cn,[status(thm)],[c_0_66])). 0.21/0.53 thf(c_0_69, negated_conjecture, ((esk1_0)=(esk2_0)), inference(csr,[status(thm)],[inference(spm,[status(thm)],[c_0_65, c_0_67]), c_0_64])). 0.21/0.53 thf(c_0_70, negated_conjecture, ((esk3_0)!=(esk2_0)), inference(rw,[status(thm)],[c_0_68, c_0_69])). 0.21/0.53 thf(c_0_71, negated_conjecture, ~((epred2_0 @ esk2_0 @ esk3_0)), inference(rw,[status(thm)],[c_0_65, c_0_69])). 0.21/0.53 thf(c_0_72, negated_conjecture, ($false), inference(sr,[status(thm)],[inference(sr,[status(thm)],[c_0_60, c_0_70]), c_0_71]), ['proof']). 0.21/0.53 # SZS output end CNFRefutation 0.21/0.53 # Parsed axioms : 59 0.21/0.53 # Removed by relevancy pruning/SinE : 0 0.21/0.53 # Initial clauses : 93 0.21/0.53 # Removed in clause preprocessing : 29 0.21/0.53 # Initial clauses in saturation : 64 0.21/0.53 # Processed clauses : 133 0.21/0.53 # ...of these trivial : 0 0.21/0.53 # ...subsumed : 51 0.21/0.53 # ...remaining for further processing : 81 0.21/0.53 # Other redundant clauses eliminated : 0 0.21/0.53 # Clauses deleted for lack of memory : 0 0.21/0.53 # Backward-subsumed : 31 0.21/0.53 # Backward-rewritten : 14 0.21/0.53 # Generated clauses : 75 0.21/0.53 # ...of the previous two non-redundant : 77 0.21/0.53 # ...aggressively subsumed : 0 0.21/0.53 # Contextual simplify-reflections : 8 0.21/0.53 # Paramodulations : 72 0.21/0.53 # Factorizations : 0 0.21/0.53 # NegExts : 0 0.21/0.53 # Equation resolutions : 0 0.21/0.53 # Disequality decompositions : 0 0.21/0.53 # Total rewrite steps : 24 0.21/0.53 # ...of those cached : 23 0.21/0.53 # Propositional unsat checks : 0 0.21/0.53 # Propositional check models : 0 0.21/0.53 # Propositional check unsatisfiable : 0 0.21/0.53 # Propositional clauses : 0 0.21/0.53 # Propositional clauses after purity: 0 0.21/0.53 # Propositional unsat core size : 0 0.21/0.53 # Propositional preprocessing time : 0.000 0.21/0.53 # Propositional encoding time : 0.000 0.21/0.53 # Propositional solver time : 0.000 0.21/0.53 # Success case prop preproc time : 0.000 0.21/0.53 # Success case prop encoding time : 0.000 0.21/0.53 # Success case prop solver time : 0.000 0.21/0.53 # Current number of processed clauses : 17 0.21/0.53 # Positive orientable unit clauses : 1 0.21/0.53 # Positive unorientable unit clauses: 0 0.21/0.53 # Negative unit clauses : 3 0.21/0.53 # Non-unit-clauses : 13 0.21/0.53 # Current number of unprocessed clauses: 18 0.21/0.53 # ...number of literals in the above : 76 0.21/0.53 # Current number of archived formulas : 0 0.21/0.53 # Current number of archived clauses : 64 0.21/0.53 # Clause-clause subsumption calls (NU) : 845 0.21/0.53 # Rec. Clause-clause subsumption calls : 348 0.21/0.53 # Non-unit clause-clause subsumptions : 83 0.21/0.53 # Unit Clause-clause subsumption calls : 26 0.21/0.53 # Rewrite failures with RHS unbound : 0 0.21/0.53 # BW rewrite match attempts : 1 0.21/0.53 # BW rewrite match successes : 1 0.21/0.53 # Condensation attempts : 133 0.21/0.53 # Condensation successes : 0 0.21/0.53 # Termbank termtop insertions : 11366 0.21/0.53 # Search garbage collected termcells : 1432 0.21/0.53 0.21/0.53 # ------------------------------------------------- 0.21/0.53 # User time : 0.017 s 0.21/0.53 # System time : 0.007 s 0.21/0.53 # Total time : 0.024 s 0.21/0.53 # Maximum resident set size: 2400 pages 0.21/0.53 0.21/0.53 # ------------------------------------------------- 0.21/0.53 # User time : 0.074 s 0.21/0.53 # System time : 0.026 s 0.21/0.53 # Total time : 0.100 s 0.21/0.53 # Maximum resident set size: 1776 pages 0.21/0.53 % E exiting 0.21/0.53 % E exiting 0.21/0.53 EOF