0.12/0.12	% Problem    : theBenchmark.p : TPTP v0.0.0. Released v0.0.0.
0.12/0.13	% Command    : run_E %s %d THM
0.13/0.34	% Computer : n019.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   : 960
0.13/0.34	% WCLimit    : 120
0.13/0.34	% DateTime   : Tue Aug  9 07:10:51 EDT 2022
0.13/0.35	% CPUTime    : 
0.20/0.48	Running higher-order on 8 cores theorem proving
0.20/0.48	Running: /export/starexec/sandbox2/solver/bin/eprover-ho --delete-bad-limit=2000000000 --definitional-cnf=24 -s --print-statistics -R --print-version --proof-object --auto-schedule=8 --cpu-limit=120 /export/starexec/sandbox2/benchmark/theBenchmark.p
0.20/0.48	# Version: 3.0pre003-ho
0.92/0.58	# Preprocessing class: HSMSSMSSMLLNHSN.
0.92/0.58	# Scheduled 4 strats onto 8 cores with 120 seconds (960 total)
0.92/0.58	# Starting new_ho_10_cnf2 with 600s (5) cores
0.92/0.58	# Starting post_as_ho3 with 120s (1) cores
0.92/0.58	# Starting new_ho_12 with 120s (1) cores
0.92/0.58	# Starting new_bool_2 with 120s (1) cores
0.92/0.58	# new_ho_10_cnf2 with pid 28622 completed with status 0
0.92/0.58	# Result found by new_ho_10_cnf2
0.92/0.58	# Preprocessing class: HSMSSMSSMLLNHSN.
0.92/0.58	# Scheduled 4 strats onto 8 cores with 120 seconds (960 total)
0.92/0.58	# Starting new_ho_10_cnf2 with 600s (5) cores
0.92/0.58	# No SInE strategy applied
0.92/0.58	# Search class: HGHNS-FFMF33-SHSSMFNN
0.92/0.58	# partial match(2): HGHNS-FSLF33-SHSSMFNN
0.92/0.58	# Scheduled 6 strats onto 5 cores with 600 seconds (600 total)
0.92/0.58	# Starting new_ho_15 with 325s (1) cores
0.92/0.58	# Starting new_ho_10_cnf2 with 61s (1) cores
0.92/0.58	# Starting sh5l with 55s (1) cores
0.92/0.58	# Starting ehoh_best8_lambda with 55s (1) cores
0.92/0.58	# Starting new_bool_3 with 55s (1) cores
0.92/0.58	# new_ho_10_cnf2 with pid 28630 completed with status 0
0.92/0.58	# Result found by new_ho_10_cnf2
0.92/0.58	# Preprocessing class: HSMSSMSSMLLNHSN.
0.92/0.58	# Scheduled 4 strats onto 8 cores with 120 seconds (960 total)
0.92/0.58	# Starting new_ho_10_cnf2 with 600s (5) cores
0.92/0.58	# No SInE strategy applied
0.92/0.58	# Search class: HGHNS-FFMF33-SHSSMFNN
0.92/0.58	# partial match(2): HGHNS-FSLF33-SHSSMFNN
0.92/0.58	# Scheduled 6 strats onto 5 cores with 600 seconds (600 total)
0.92/0.58	# Starting new_ho_15 with 325s (1) cores
0.92/0.58	# Starting new_ho_10_cnf2 with 61s (1) cores
0.92/0.58	# Preprocessing time       : 0.002 s
0.92/0.58	# Presaturation interreduction done
0.92/0.58	
0.92/0.58	# Proof found!
0.92/0.58	# SZS status Theorem
0.92/0.58	# SZS output start CNFRefutation
0.92/0.58	thf(decl_22, type, mrel: mworld > mworld > $o).
0.92/0.58	thf(decl_23, type, mactual: mworld).
0.92/0.58	thf(decl_24, type, mlocal: (mworld > $o) > $o).
0.92/0.58	thf(decl_25, type, mnot: (mworld > $o) > mworld > $o).
0.92/0.58	thf(decl_26, type, mand: (mworld > $o) > (mworld > $o) > mworld > $o).
0.92/0.58	thf(decl_27, type, mor: (mworld > $o) > (mworld > $o) > mworld > $o).
0.92/0.58	thf(decl_28, type, mimplies: (mworld > $o) > (mworld > $o) > mworld > $o).
0.92/0.58	thf(decl_29, type, mequiv: (mworld > $o) > (mworld > $o) > mworld > $o).
0.92/0.58	thf(decl_30, type, mbox: (mworld > $o) > mworld > $o).
0.92/0.58	thf(decl_31, type, mdia: (mworld > $o) > mworld > $o).
0.92/0.58	thf(decl_32, type, eiw_di: $i > mworld > $o).
0.92/0.58	thf(decl_33, type, mforall_di: ($i > mworld > $o) > mworld > $o).
0.92/0.58	thf(decl_34, type, mexists_di: ($i > mworld > $o) > mworld > $o).
0.92/0.58	thf(decl_35, type, u: $i).
0.92/0.58	thf(decl_36, type, one: $i).
0.92/0.58	thf(decl_37, type, number: $i > $i > mworld > $o).
0.92/0.58	thf(decl_38, type, string: $i > mworld > $o).
0.92/0.58	thf(decl_39, type, in: $i > $i > $i > mworld > $o).
0.92/0.58	thf(decl_40, type, do: $i > $i > $i > mworld > $o).
0.92/0.58	thf(decl_41, type, entry_box: $i > mworld > $o).
0.92/0.58	thf(decl_42, type, userid: $i > $i > mworld > $o).
0.92/0.58	thf(decl_43, type, esk1_1: mworld > $i).
0.92/0.58	thf(decl_44, type, esk2_0: mworld).
0.92/0.58	thf(decl_45, type, esk3_4: $i > $i > $i > $i > mworld).
0.92/0.58	thf(decl_46, type, esk4_4: $i > $i > $i > $i > mworld).
0.92/0.58	thf(decl_47, type, esk5_4: $i > $i > $i > $i > $i).
0.92/0.58	thf(decl_48, type, esk6_1: mworld > $i).
0.92/0.58	thf(decl_49, type, esk7_0: $i).
0.92/0.58	thf(decl_50, type, esk8_4: mworld > $i > $i > $i > $i).
0.92/0.58	thf(mrel_euclidean, axiom, ![X3:mworld, X5:mworld, X14:mworld]:(((mrel @ X14 @ X5)<=((mrel @ X3 @ X14)&(mrel @ X3 @ X5)))), file('/export/starexec/sandbox2/benchmark/theBenchmark.p', mrel_euclidean)).
0.92/0.58	thf(mlocal_def, axiom, ((mlocal)=(^[X1:mworld > $o]:((X1 @ mactual)))), file('/export/starexec/sandbox2/benchmark/theBenchmark.p', mlocal_def)).
0.92/0.58	thf(mand_def, axiom, ((mand)=(^[X2:mworld > $o, X4:mworld > $o, X3:mworld]:(((X2 @ X3)&(X4 @ X3))))), file('/export/starexec/sandbox2/benchmark/theBenchmark.p', mand_def)).
0.92/0.58	thf(mimplies_def, axiom, ((mimplies)=(^[X2:mworld > $o, X4:mworld > $o, X3:mworld]:(((X2 @ X3)=>(X4 @ X3))))), file('/export/starexec/sandbox2/benchmark/theBenchmark.p', mimplies_def)).
0.92/0.58	thf(mbox_def, axiom, ((mbox)=(^[X1:mworld > $o, X3:mworld]:(![X5:mworld]:(((mrel @ X3 @ X5)=>(X1 @ X5)))))), file('/export/starexec/sandbox2/benchmark/theBenchmark.p', mbox_def)).
0.92/0.58	thf(mforall_di_def, axiom, ((mforall_di)=(^[X6:$i > mworld > $o, X3:mworld]:(![X7:$i]:(((eiw_di @ X7 @ X3)=>(X6 @ X7 @ X3)))))), file('/export/starexec/sandbox2/benchmark/theBenchmark.p', mforall_di_def)).
0.92/0.58	thf(mexists_di_def, axiom, ((mexists_di)=(^[X8:$i > mworld > $o, X3:mworld]:(?[X7:$i]:(((eiw_di @ X7 @ X3)&(X8 @ X7 @ X3)))))), file('/export/starexec/sandbox2/benchmark/theBenchmark.p', mexists_di_def)).
0.92/0.58	thf(mrel_reflexive, axiom, ![X3:mworld]:((mrel @ X3 @ X3)), file('/export/starexec/sandbox2/benchmark/theBenchmark.p', mrel_reflexive)).
0.92/0.58	thf(con, conjecture, (mlocal @ (mbox @ (mexists_di @ (^[X9:$i]:(mexists_di @ (^[X10:$i]:(mexists_di @ (^[X11:$i]:(mexists_di @ (^[X12:$i]:(mand @ (mbox @ (mand @ (userid @ u @ X9) @ (mand @ (entry_box @ X10) @ (number @ X10 @ one)))) @ (mbox @ (mforall_di @ (^[X13:$i]:(mimplies @ (do @ X12 @ X11 @ X13) @ (in @ X9 @ X10 @ X13)))))))))))))))), file('/export/starexec/sandbox2/benchmark/theBenchmark.p', con)).
0.92/0.58	thf(eiw_di_decr, axiom, ![X3:mworld, X5:mworld, X7:$i]:(((eiw_di @ X7 @ X5)<=((eiw_di @ X7 @ X3)&(mrel @ X5 @ X3)))), file('/export/starexec/sandbox2/benchmark/theBenchmark.p', eiw_di_decr)).
0.92/0.58	thf(ax3, axiom, (mlocal @ (mbox @ (mforall_di @ (^[X12:$i]:(mforall_di @ (^[X9:$i]:(mforall_di @ (^[X16:$i]:(mimplies @ (mand @ (string @ X9) @ (entry_box @ X16)) @ (mexists_di @ (^[X17:$i]:(mbox @ (mforall_di @ (^[X13:$i]:(mimplies @ (do @ X12 @ X17 @ X13) @ (in @ X9 @ X16 @ X13)))))))))))))))), file('/export/starexec/sandbox2/benchmark/theBenchmark.p', ax3)).
0.92/0.58	thf(ax2, axiom, (mlocal @ (mexists_di @ (^[X15:$i]:(mbox @ (mand @ (entry_box @ X15) @ (number @ X15 @ one)))))), file('/export/starexec/sandbox2/benchmark/theBenchmark.p', ax2)).
0.92/0.58	thf(ax1, axiom, (mlocal @ (mbox @ (mexists_di @ (^[X9:$i]:(mbox @ (mand @ (userid @ u @ X9) @ (string @ X9))))))), file('/export/starexec/sandbox2/benchmark/theBenchmark.p', ax1)).
0.92/0.58	thf(c_0_13, plain, ![X3:mworld, X5:mworld, X14:mworld]:((((mrel @ X3 @ X14)&(mrel @ X3 @ X5))=>(mrel @ X14 @ X5))), inference(fof_simplification,[status(thm)],[mrel_euclidean])).
0.92/0.58	thf(c_0_14, plain, ((mlocal)=(^[Z0:mworld > $o]:((Z0 @ mactual)))), inference(fof_simplification,[status(thm)],[mlocal_def])).
0.92/0.58	thf(c_0_15, plain, ((mand)=(^[Z0:mworld > $o, Z1:mworld > $o, Z2:mworld]:(((Z0 @ Z2)&(Z1 @ Z2))))), inference(fof_simplification,[status(thm)],[mand_def])).
0.92/0.58	thf(c_0_16, plain, ((mimplies)=(^[Z0:mworld > $o, Z1:mworld > $o, Z2:mworld]:(((Z0 @ Z2)=>(Z1 @ Z2))))), inference(fof_simplification,[status(thm)],[mimplies_def])).
0.92/0.58	thf(c_0_17, plain, ((mbox)=(^[Z0:mworld > $o, Z1:mworld]:(![X5:mworld]:(((mrel @ Z1 @ X5)=>(Z0 @ X5)))))), inference(fof_simplification,[status(thm)],[mbox_def])).
0.92/0.58	thf(c_0_18, plain, ((mforall_di)=(^[Z0:$i > mworld > $o, Z1:mworld]:(![X7:$i]:(((eiw_di @ X7 @ Z1)=>(Z0 @ X7 @ Z1)))))), inference(fof_simplification,[status(thm)],[mforall_di_def])).
0.92/0.58	thf(c_0_19, plain, ((mexists_di)=(^[Z0:$i > mworld > $o, Z1:mworld]:(?[X7:$i]:(((eiw_di @ X7 @ Z1)&(Z0 @ X7 @ Z1)))))), inference(fof_simplification,[status(thm)],[mexists_di_def])).
0.92/0.58	thf(c_0_20, plain, ![X61:mworld, X62:mworld, X63:mworld]:((~(mrel @ X61 @ X63)|~(mrel @ X61 @ X62)|(mrel @ X63 @ X62))), inference(variable_rename,[status(thm)],[inference(fof_nnf,[status(thm)],[c_0_13])])).
0.92/0.58	thf(c_0_21, plain, ![X47:mworld]:((mrel @ X47 @ X47)), inference(variable_rename,[status(thm)],[mrel_reflexive])).
0.92/0.58	thf(c_0_22, negated_conjecture, ~(![X37:mworld]:(((mrel @ mactual @ X37)=>?[X36:$i]:(((eiw_di @ X36 @ X37)&?[X35:$i]:(((eiw_di @ X35 @ X37)&?[X34:$i]:(((eiw_di @ X34 @ X37)&?[X33:$i]:(((eiw_di @ X33 @ X37)&(![X30:mworld]:(((mrel @ X37 @ X30)=>((userid @ u @ X36 @ X30)&((entry_box @ X35 @ X30)&(number @ X35 @ one @ X30)))))&![X32:mworld]:(((mrel @ X37 @ X32)=>![X31:$i]:(((eiw_di @ X31 @ X32)=>((do @ X33 @ X34 @ X31 @ X32)=>(in @ X36 @ X35 @ X31 @ X32)))))))))))))))))), inference(apply_def,[status(thm)],[inference(apply_def,[status(thm)],[inference(apply_def,[status(thm)],[inference(apply_def,[status(thm)],[inference(apply_def,[status(thm)],[inference(apply_def,[status(thm)],[inference(fof_simplification,[status(thm)],[inference(assume_negation,[status(cth)],[con])]), c_0_14]), c_0_15]), c_0_16]), c_0_17]), c_0_18]), c_0_19])).
0.92/0.58	thf(c_0_23, plain, ![X3:mworld, X5:mworld, X7:$i]:((((eiw_di @ X7 @ X3)&(mrel @ X5 @ X3))=>(eiw_di @ X7 @ X5))), inference(fof_simplification,[status(thm)],[eiw_di_decr])).
0.92/0.58	thf(c_0_24, plain, ![X3:mworld, X5:mworld, X14:mworld]:(((mrel @ X5 @ X14)|~((mrel @ X3 @ X5))|~((mrel @ X3 @ X14)))), inference(split_conjunct,[status(thm)],[c_0_20])).
0.92/0.58	thf(c_0_25, plain, ![X3:mworld]:((mrel @ X3 @ X3)), inference(split_conjunct,[status(thm)],[c_0_21])).
0.92/0.58	thf(c_0_26, negated_conjecture, ![X52:$i, X53:$i, X54:$i, X55:$i]:(((mrel @ mactual @ esk2_0)&((((mrel @ esk2_0 @ (esk4_4 @ X52 @ X53 @ X54 @ X55))|(mrel @ esk2_0 @ (esk3_4 @ X52 @ X53 @ X54 @ X55))|~(eiw_di @ X55 @ esk2_0)|~(eiw_di @ X54 @ esk2_0)|~(eiw_di @ X53 @ esk2_0)|~(eiw_di @ X52 @ esk2_0))&(((eiw_di @ (esk5_4 @ X52 @ X53 @ X54 @ X55) @ (esk4_4 @ X52 @ X53 @ X54 @ X55))|(mrel @ esk2_0 @ (esk3_4 @ X52 @ X53 @ X54 @ X55))|~(eiw_di @ X55 @ esk2_0)|~(eiw_di @ X54 @ esk2_0)|~(eiw_di @ X53 @ esk2_0)|~(eiw_di @ X52 @ esk2_0))&(((do @ X55 @ X54 @ (esk5_4 @ X52 @ X53 @ X54 @ X55) @ (esk4_4 @ X52 @ X53 @ X54 @ X55))|(mrel @ esk2_0 @ (esk3_4 @ X52 @ X53 @ X54 @ X55))|~(eiw_di @ X55 @ esk2_0)|~(eiw_di @ X54 @ esk2_0)|~(eiw_di @ X53 @ esk2_0)|~(eiw_di @ X52 @ esk2_0))&(~(in @ X52 @ X53 @ (esk5_4 @ X52 @ X53 @ X54 @ X55) @ (esk4_4 @ X52 @ X53 @ X54 @ X55))|(mrel @ esk2_0 @ (esk3_4 @ X52 @ X53 @ X54 @ X55))|~(eiw_di @ X55 @ esk2_0)|~(eiw_di @ X54 @ esk2_0)|~(eiw_di @ X53 @ esk2_0)|~(eiw_di @ X52 @ esk2_0)))))&(((mrel @ esk2_0 @ (esk4_4 @ X52 @ X53 @ X54 @ X55))|(~(userid @ u @ X52 @ (esk3_4 @ X52 @ X53 @ X54 @ X55))|(~(entry_box @ X53 @ (esk3_4 @ X52 @ X53 @ X54 @ X55))|~(number @ X53 @ one @ (esk3_4 @ X52 @ X53 @ X54 @ X55))))|~(eiw_di @ X55 @ esk2_0)|~(eiw_di @ X54 @ esk2_0)|~(eiw_di @ X53 @ esk2_0)|~(eiw_di @ X52 @ esk2_0))&(((eiw_di @ (esk5_4 @ X52 @ X53 @ X54 @ X55) @ (esk4_4 @ X52 @ X53 @ X54 @ X55))|(~(userid @ u @ X52 @ (esk3_4 @ X52 @ X53 @ X54 @ X55))|(~(entry_box @ X53 @ (esk3_4 @ X52 @ X53 @ X54 @ X55))|~(number @ X53 @ one @ (esk3_4 @ X52 @ X53 @ X54 @ X55))))|~(eiw_di @ X55 @ esk2_0)|~(eiw_di @ X54 @ esk2_0)|~(eiw_di @ X53 @ esk2_0)|~(eiw_di @ X52 @ esk2_0))&(((do @ X55 @ X54 @ (esk5_4 @ X52 @ X53 @ X54 @ X55) @ (esk4_4 @ X52 @ X53 @ X54 @ X55))|(~(userid @ u @ X52 @ (esk3_4 @ X52 @ X53 @ X54 @ X55))|(~(entry_box @ X53 @ (esk3_4 @ X52 @ X53 @ X54 @ X55))|~(number @ X53 @ one @ (esk3_4 @ X52 @ X53 @ X54 @ X55))))|~(eiw_di @ X55 @ esk2_0)|~(eiw_di @ X54 @ esk2_0)|~(eiw_di @ X53 @ esk2_0)|~(eiw_di @ X52 @ esk2_0))&(~(in @ X52 @ X53 @ (esk5_4 @ X52 @ X53 @ X54 @ X55) @ (esk4_4 @ X52 @ X53 @ X54 @ X55))|(~(userid @ u @ X52 @ (esk3_4 @ X52 @ X53 @ X54 @ X55))|(~(entry_box @ X53 @ (esk3_4 @ X52 @ X53 @ X54 @ X55))|~(number @ X53 @ one @ (esk3_4 @ X52 @ X53 @ X54 @ X55))))|~(eiw_di @ X55 @ esk2_0)|~(eiw_di @ X54 @ esk2_0)|~(eiw_di @ X53 @ esk2_0)|~(eiw_di @ X52 @ esk2_0)))))))), inference(distribute,[status(thm)],[inference(shift_quantors,[status(thm)],[inference(skolemize,[status(esa)],[inference(variable_rename,[status(thm)],[inference(fof_nnf,[status(thm)],[c_0_22])])])])])).
0.92/0.58	thf(c_0_27, plain, ![X46:mworld]:(((mrel @ mactual @ X46)=>![X45:$i]:(((eiw_di @ X45 @ X46)=>![X44:$i]:(((eiw_di @ X44 @ X46)=>![X43:$i]:(((eiw_di @ X43 @ X46)=>(((string @ X44 @ X46)&(entry_box @ X43 @ X46))=>?[X42:$i]:(((eiw_di @ X42 @ X46)&![X41:mworld]:(((mrel @ X46 @ X41)=>![X40:$i]:(((eiw_di @ X40 @ X41)=>((do @ X45 @ X42 @ X40 @ X41)=>(in @ X44 @ X43 @ X40 @ X41))))))))))))))))), inference(apply_def,[status(thm)],[inference(apply_def,[status(thm)],[inference(apply_def,[status(thm)],[inference(apply_def,[status(thm)],[inference(apply_def,[status(thm)],[inference(apply_def,[status(thm)],[inference(fof_simplification,[status(thm)],[ax3]), c_0_14]), c_0_15]), c_0_16]), c_0_17]), c_0_18]), c_0_19])).
0.92/0.58	thf(c_0_28, plain, ![X66:mworld, X67:mworld, X68:$i]:((~(eiw_di @ X68 @ X66)|~(mrel @ X67 @ X66)|(eiw_di @ X68 @ X67))), inference(variable_rename,[status(thm)],[inference(fof_nnf,[status(thm)],[c_0_23])])).
0.92/0.58	thf(c_0_29, plain, ![X5:mworld, X3:mworld]:(((mrel @ X3 @ X5)|~((mrel @ X5 @ X3)))), inference(spm,[status(thm)],[c_0_24, c_0_25])).
0.92/0.58	thf(c_0_30, negated_conjecture, (mrel @ mactual @ esk2_0), inference(split_conjunct,[status(thm)],[c_0_26])).
0.92/0.58	thf(c_0_31, plain, ?[X39:$i]:(((eiw_di @ X39 @ mactual)&![X38:mworld]:(((mrel @ mactual @ X38)=>((entry_box @ X39 @ X38)&(number @ X39 @ one @ X38)))))), inference(apply_def,[status(thm)],[inference(apply_def,[status(thm)],[inference(apply_def,[status(thm)],[inference(apply_def,[status(thm)],[inference(fof_simplification,[status(thm)],[ax2]), c_0_14]), c_0_15]), c_0_17]), c_0_19])).
0.92/0.58	thf(c_0_32, plain, ![X69:mworld, X70:$i, X71:$i, X72:$i, X74:mworld, X75:$i]:((((eiw_di @ (esk8_4 @ X69 @ X70 @ X71 @ X72) @ X69)|(~(string @ X71 @ X69)|~(entry_box @ X72 @ X69))|~(eiw_di @ X72 @ X69)|~(eiw_di @ X71 @ X69)|~(eiw_di @ X70 @ X69)|~(mrel @ mactual @ X69))&(~(mrel @ X69 @ X74)|(~(eiw_di @ X75 @ X74)|(~(do @ X70 @ (esk8_4 @ X69 @ X70 @ X71 @ X72) @ X75 @ X74)|(in @ X71 @ X72 @ X75 @ X74)))|(~(string @ X71 @ X69)|~(entry_box @ X72 @ X69))|~(eiw_di @ X72 @ X69)|~(eiw_di @ X71 @ X69)|~(eiw_di @ X70 @ X69)|~(mrel @ mactual @ X69)))), inference(distribute,[status(thm)],[inference(shift_quantors,[status(thm)],[inference(skolemize,[status(esa)],[inference(variable_rename,[status(thm)],[inference(fof_nnf,[status(thm)],[c_0_27])])])])])).
0.92/0.58	thf(c_0_33, plain, ![X7:$i, X5:mworld, X3:mworld]:(((eiw_di @ X7 @ X5)|~((eiw_di @ X7 @ X3))|~((mrel @ X5 @ X3)))), inference(split_conjunct,[status(thm)],[c_0_28])).
0.92/0.58	thf(c_0_34, negated_conjecture, (mrel @ esk2_0 @ mactual), inference(spm,[status(thm)],[c_0_29, c_0_30])).
0.92/0.58	thf(c_0_35, plain, ![X65:mworld]:(((eiw_di @ esk7_0 @ mactual)&(((entry_box @ esk7_0 @ X65)|~(mrel @ mactual @ X65))&((number @ esk7_0 @ one @ X65)|~(mrel @ mactual @ X65))))), inference(distribute,[status(thm)],[inference(shift_quantors,[status(thm)],[inference(skolemize,[status(esa)],[inference(variable_rename,[status(thm)],[inference(fof_nnf,[status(thm)],[c_0_31])])])])])).
0.92/0.58	thf(c_0_36, plain, ![X7:$i, X11:$i, X10:$i, X9:$i, X5:mworld, X3:mworld]:(((in @ X10 @ X11 @ X7 @ X5)|~((mrel @ X3 @ X5))|~((eiw_di @ X7 @ X5))|~((do @ X9 @ (esk8_4 @ X3 @ X9 @ X10 @ X11) @ X7 @ X5))|~((string @ X10 @ X3))|~((entry_box @ X11 @ X3))|~((eiw_di @ X11 @ X3))|~((eiw_di @ X10 @ X3))|~((eiw_di @ X9 @ X3))|~((mrel @ mactual @ X3)))), inference(split_conjunct,[status(thm)],[c_0_32])).
0.92/0.58	thf(c_0_37, negated_conjecture, ![X7:$i, X9:$i, X11:$i, X10:$i]:(((do @ X7 @ X9 @ (esk5_4 @ X10 @ X11 @ X9 @ X7) @ (esk4_4 @ X10 @ X11 @ X9 @ X7))|~((userid @ u @ X10 @ (esk3_4 @ X10 @ X11 @ X9 @ X7)))|~((entry_box @ X11 @ (esk3_4 @ X10 @ X11 @ X9 @ X7)))|~((number @ X11 @ one @ (esk3_4 @ X10 @ X11 @ X9 @ X7)))|~((eiw_di @ X7 @ esk2_0))|~((eiw_di @ X9 @ esk2_0))|~((eiw_di @ X11 @ esk2_0))|~((eiw_di @ X10 @ esk2_0)))), inference(split_conjunct,[status(thm)],[c_0_26])).
0.92/0.58	thf(c_0_38, negated_conjecture, ![X11:$i, X10:$i, X9:$i, X7:$i]:(((eiw_di @ (esk5_4 @ X7 @ X9 @ X10 @ X11) @ (esk4_4 @ X7 @ X9 @ X10 @ X11))|~((userid @ u @ X7 @ (esk3_4 @ X7 @ X9 @ X10 @ X11)))|~((entry_box @ X9 @ (esk3_4 @ X7 @ X9 @ X10 @ X11)))|~((number @ X9 @ one @ (esk3_4 @ X7 @ X9 @ X10 @ X11)))|~((eiw_di @ X11 @ esk2_0))|~((eiw_di @ X10 @ esk2_0))|~((eiw_di @ X9 @ esk2_0))|~((eiw_di @ X7 @ esk2_0)))), inference(split_conjunct,[status(thm)],[c_0_26])).
0.92/0.58	thf(c_0_39, negated_conjecture, ![X7:$i]:(((eiw_di @ X7 @ esk2_0)|~((eiw_di @ X7 @ mactual)))), inference(spm,[status(thm)],[c_0_33, c_0_34])).
0.92/0.58	thf(c_0_40, plain, (eiw_di @ esk7_0 @ mactual), inference(split_conjunct,[status(thm)],[c_0_35])).
0.92/0.58	thf(c_0_41, plain, ![X29:mworld]:(((mrel @ mactual @ X29)=>?[X28:$i]:(((eiw_di @ X28 @ X29)&![X27:mworld]:(((mrel @ X29 @ X27)=>((userid @ u @ X28 @ X27)&(string @ X28 @ X27)))))))), inference(apply_def,[status(thm)],[inference(apply_def,[status(thm)],[inference(apply_def,[status(thm)],[inference(apply_def,[status(thm)],[inference(fof_simplification,[status(thm)],[ax1]), c_0_14]), c_0_15]), c_0_17]), c_0_19])).
0.92/0.58	thf(c_0_42, negated_conjecture, ![X11:$i, X10:$i, X9:$i, X7:$i]:((~((in @ X7 @ X9 @ (esk5_4 @ X7 @ X9 @ X10 @ X11) @ (esk4_4 @ X7 @ X9 @ X10 @ X11)))|~((userid @ u @ X7 @ (esk3_4 @ X7 @ X9 @ X10 @ X11)))|~((entry_box @ X9 @ (esk3_4 @ X7 @ X9 @ X10 @ X11)))|~((number @ X9 @ one @ (esk3_4 @ X7 @ X9 @ X10 @ X11)))|~((eiw_di @ X11 @ esk2_0))|~((eiw_di @ X10 @ esk2_0))|~((eiw_di @ X9 @ esk2_0))|~((eiw_di @ X7 @ esk2_0)))), inference(split_conjunct,[status(thm)],[c_0_26])).
0.92/0.58	thf(c_0_43, negated_conjecture, ![X7:$i, X10:$i, X11:$i, X12:$i, X9:$i, X3:mworld]:(((in @ X7 @ X9 @ (esk5_4 @ X10 @ X11 @ (esk8_4 @ X3 @ X12 @ X7 @ X9) @ X12) @ (esk4_4 @ X10 @ X11 @ (esk8_4 @ X3 @ X12 @ X7 @ X9) @ X12))|~((number @ X11 @ one @ (esk3_4 @ X10 @ X11 @ (esk8_4 @ X3 @ X12 @ X7 @ X9) @ X12)))|~((userid @ u @ X10 @ (esk3_4 @ X10 @ X11 @ (esk8_4 @ X3 @ X12 @ X7 @ X9) @ X12)))|~((mrel @ X3 @ (esk4_4 @ X10 @ X11 @ (esk8_4 @ X3 @ X12 @ X7 @ X9) @ X12)))|~((entry_box @ X11 @ (esk3_4 @ X10 @ X11 @ (esk8_4 @ X3 @ X12 @ X7 @ X9) @ X12)))|~((eiw_di @ (esk8_4 @ X3 @ X12 @ X7 @ X9) @ esk2_0))|~((mrel @ mactual @ X3))|~((eiw_di @ X11 @ esk2_0))|~((eiw_di @ X10 @ esk2_0))|~((eiw_di @ X12 @ esk2_0))|~((eiw_di @ X9 @ X3))|~((eiw_di @ X7 @ X3))|~((eiw_di @ X12 @ X3))|~((string @ X7 @ X3))|~((entry_box @ X9 @ X3)))), inference(csr,[status(thm)],[inference(spm,[status(thm)],[c_0_36, c_0_37]), c_0_38])).
0.92/0.58	thf(c_0_44, negated_conjecture, ![X11:$i, X10:$i, X9:$i, X7:$i]:(((mrel @ esk2_0 @ (esk4_4 @ X7 @ X9 @ X10 @ X11))|~((userid @ u @ X7 @ (esk3_4 @ X7 @ X9 @ X10 @ X11)))|~((entry_box @ X9 @ (esk3_4 @ X7 @ X9 @ X10 @ X11)))|~((number @ X9 @ one @ (esk3_4 @ X7 @ X9 @ X10 @ X11)))|~((eiw_di @ X11 @ esk2_0))|~((eiw_di @ X10 @ esk2_0))|~((eiw_di @ X9 @ esk2_0))|~((eiw_di @ X7 @ esk2_0)))), inference(split_conjunct,[status(thm)],[c_0_26])).
0.92/0.58	thf(c_0_45, plain, ![X3:mworld]:(((number @ esk7_0 @ one @ X3)|~((mrel @ mactual @ X3)))), inference(split_conjunct,[status(thm)],[c_0_35])).
0.92/0.58	thf(c_0_46, negated_conjecture, (eiw_di @ esk7_0 @ esk2_0), inference(spm,[status(thm)],[c_0_39, c_0_40])).
0.92/0.58	thf(c_0_47, plain, ![X3:mworld]:(((entry_box @ esk7_0 @ X3)|~((mrel @ mactual @ X3)))), inference(split_conjunct,[status(thm)],[c_0_35])).
0.92/0.58	thf(c_0_48, plain, ![X48:mworld, X50:mworld]:((((eiw_di @ (esk1_1 @ X48) @ X48)|~(mrel @ mactual @ X48))&(((userid @ u @ (esk1_1 @ X48) @ X50)|~(mrel @ X48 @ X50)|~(mrel @ mactual @ X48))&((string @ (esk1_1 @ X48) @ X50)|~(mrel @ X48 @ X50)|~(mrel @ mactual @ X48))))), inference(distribute,[status(thm)],[inference(shift_quantors,[status(thm)],[inference(skolemize,[status(esa)],[inference(variable_rename,[status(thm)],[inference(fof_nnf,[status(thm)],[c_0_41])])])])])).
0.92/0.58	thf(c_0_49, negated_conjecture, ![X7:$i, X9:$i, X11:$i, X10:$i]:(((do @ X7 @ X9 @ (esk5_4 @ X10 @ X11 @ X9 @ X7) @ (esk4_4 @ X10 @ X11 @ X9 @ X7))|(mrel @ esk2_0 @ (esk3_4 @ X10 @ X11 @ X9 @ X7))|~((eiw_di @ X7 @ esk2_0))|~((eiw_di @ X9 @ esk2_0))|~((eiw_di @ X11 @ esk2_0))|~((eiw_di @ X10 @ esk2_0)))), inference(split_conjunct,[status(thm)],[c_0_26])).
0.92/0.58	thf(c_0_50, negated_conjecture, ![X11:$i, X10:$i, X9:$i, X7:$i]:(((eiw_di @ (esk5_4 @ X7 @ X9 @ X10 @ X11) @ (esk4_4 @ X7 @ X9 @ X10 @ X11))|(mrel @ esk2_0 @ (esk3_4 @ X7 @ X9 @ X10 @ X11))|~((eiw_di @ X11 @ esk2_0))|~((eiw_di @ X10 @ esk2_0))|~((eiw_di @ X9 @ esk2_0))|~((eiw_di @ X7 @ esk2_0)))), inference(split_conjunct,[status(thm)],[c_0_26])).
0.92/0.58	thf(c_0_51, negated_conjecture, ![X7:$i, X10:$i, X9:$i, X3:mworld]:((~((number @ X7 @ one @ (esk3_4 @ X9 @ X7 @ (esk8_4 @ X3 @ X10 @ X9 @ X7) @ X10)))|~((userid @ u @ X9 @ (esk3_4 @ X9 @ X7 @ (esk8_4 @ X3 @ X10 @ X9 @ X7) @ X10)))|~((entry_box @ X7 @ (esk3_4 @ X9 @ X7 @ (esk8_4 @ X3 @ X10 @ X9 @ X7) @ X10)))|~((mrel @ X3 @ (esk4_4 @ X9 @ X7 @ (esk8_4 @ X3 @ X10 @ X9 @ X7) @ X10)))|~((eiw_di @ (esk8_4 @ X3 @ X10 @ X9 @ X7) @ esk2_0))|~((eiw_di @ X10 @ esk2_0))|~((eiw_di @ X7 @ esk2_0))|~((eiw_di @ X9 @ esk2_0))|~((mrel @ mactual @ X3))|~((eiw_di @ X7 @ X3))|~((eiw_di @ X9 @ X3))|~((eiw_di @ X10 @ X3))|~((string @ X9 @ X3))|~((entry_box @ X7 @ X3)))), inference(spm,[status(thm)],[c_0_42, c_0_43])).
0.92/0.58	thf(c_0_52, negated_conjecture, ![X10:$i, X9:$i, X7:$i]:(((mrel @ esk2_0 @ (esk4_4 @ X7 @ esk7_0 @ X9 @ X10))|~((userid @ u @ X7 @ (esk3_4 @ X7 @ esk7_0 @ X9 @ X10)))|~((mrel @ mactual @ (esk3_4 @ X7 @ esk7_0 @ X9 @ X10)))|~((eiw_di @ X10 @ esk2_0))|~((eiw_di @ X9 @ esk2_0))|~((eiw_di @ X7 @ esk2_0)))), inference(csr,[status(thm)],[inference(cn,[status(thm)],[inference(rw,[status(thm)],[inference(spm,[status(thm)],[c_0_44, c_0_45]), c_0_46])]), c_0_47])).
0.92/0.58	thf(c_0_53, plain, ![X5:mworld, X3:mworld]:(((userid @ u @ (esk1_1 @ X3) @ X5)|~((mrel @ X3 @ X5))|~((mrel @ mactual @ X3)))), inference(split_conjunct,[status(thm)],[c_0_48])).
0.92/0.58	thf(c_0_54, negated_conjecture, ![X11:$i, X10:$i, X9:$i, X7:$i]:(((mrel @ esk2_0 @ (esk3_4 @ X7 @ X9 @ X10 @ X11))|~((in @ X7 @ X9 @ (esk5_4 @ X7 @ X9 @ X10 @ X11) @ (esk4_4 @ X7 @ X9 @ X10 @ X11)))|~((eiw_di @ X11 @ esk2_0))|~((eiw_di @ X10 @ esk2_0))|~((eiw_di @ X9 @ esk2_0))|~((eiw_di @ X7 @ esk2_0)))), inference(split_conjunct,[status(thm)],[c_0_26])).
0.92/0.58	thf(c_0_55, negated_conjecture, ![X7:$i, X10:$i, X11:$i, X12:$i, X9:$i, X3:mworld]:(((in @ X7 @ X9 @ (esk5_4 @ X10 @ X11 @ (esk8_4 @ X3 @ X12 @ X7 @ X9) @ X12) @ (esk4_4 @ X10 @ X11 @ (esk8_4 @ X3 @ X12 @ X7 @ X9) @ X12))|(mrel @ esk2_0 @ (esk3_4 @ X10 @ X11 @ (esk8_4 @ X3 @ X12 @ X7 @ X9) @ X12))|~((mrel @ X3 @ (esk4_4 @ X10 @ X11 @ (esk8_4 @ X3 @ X12 @ X7 @ X9) @ X12)))|~((eiw_di @ (esk8_4 @ X3 @ X12 @ X7 @ X9) @ esk2_0))|~((mrel @ mactual @ X3))|~((eiw_di @ X11 @ esk2_0))|~((eiw_di @ X10 @ esk2_0))|~((eiw_di @ X12 @ esk2_0))|~((eiw_di @ X9 @ X3))|~((eiw_di @ X7 @ X3))|~((eiw_di @ X12 @ X3))|~((string @ X7 @ X3))|~((entry_box @ X9 @ X3)))), inference(csr,[status(thm)],[inference(spm,[status(thm)],[c_0_36, c_0_49]), c_0_50])).
0.92/0.58	thf(c_0_56, negated_conjecture, ![X7:$i, X9:$i, X3:mworld]:((~((userid @ u @ X7 @ (esk3_4 @ X7 @ esk7_0 @ (esk8_4 @ X3 @ X9 @ X7 @ esk7_0) @ X9)))|~((mrel @ mactual @ (esk3_4 @ X7 @ esk7_0 @ (esk8_4 @ X3 @ X9 @ X7 @ esk7_0) @ X9)))|~((mrel @ X3 @ (esk4_4 @ X7 @ esk7_0 @ (esk8_4 @ X3 @ X9 @ X7 @ esk7_0) @ X9)))|~((eiw_di @ (esk8_4 @ X3 @ X9 @ X7 @ esk7_0) @ esk2_0))|~((eiw_di @ X9 @ esk2_0))|~((eiw_di @ X7 @ esk2_0))|~((mrel @ mactual @ X3))|~((eiw_di @ esk7_0 @ X3))|~((eiw_di @ X7 @ X3))|~((eiw_di @ X9 @ X3))|~((string @ X7 @ X3)))), inference(csr,[status(thm)],[inference(csr,[status(thm)],[inference(cn,[status(thm)],[inference(rw,[status(thm)],[inference(spm,[status(thm)],[c_0_51, c_0_45]), c_0_46])]), c_0_47]), c_0_47])).
0.92/0.58	thf(c_0_57, negated_conjecture, ![X7:$i, X9:$i, X3:mworld]:(((mrel @ esk2_0 @ (esk4_4 @ (esk1_1 @ X3) @ esk7_0 @ X7 @ X9))|~((mrel @ mactual @ (esk3_4 @ (esk1_1 @ X3) @ esk7_0 @ X7 @ X9)))|~((eiw_di @ (esk1_1 @ X3) @ esk2_0))|~((eiw_di @ X9 @ esk2_0))|~((eiw_di @ X7 @ esk2_0))|~((mrel @ mactual @ X3)))), inference(csr,[status(thm)],[inference(spm,[status(thm)],[c_0_52, c_0_53]), c_0_24])).
0.92/0.58	thf(c_0_58, negated_conjecture, ![X7:$i, X10:$i, X9:$i, X3:mworld]:(((mrel @ esk2_0 @ (esk3_4 @ X7 @ X9 @ (esk8_4 @ X3 @ X10 @ X7 @ X9) @ X10))|~((mrel @ X3 @ (esk4_4 @ X7 @ X9 @ (esk8_4 @ X3 @ X10 @ X7 @ X9) @ X10)))|~((eiw_di @ (esk8_4 @ X3 @ X10 @ X7 @ X9) @ esk2_0))|~((eiw_di @ X10 @ esk2_0))|~((eiw_di @ X9 @ esk2_0))|~((eiw_di @ X7 @ esk2_0))|~((mrel @ mactual @ X3))|~((eiw_di @ X9 @ X3))|~((eiw_di @ X7 @ X3))|~((eiw_di @ X10 @ X3))|~((string @ X7 @ X3))|~((entry_box @ X9 @ X3)))), inference(spm,[status(thm)],[c_0_54, c_0_55])).
0.92/0.58	thf(c_0_59, negated_conjecture, ![X11:$i, X10:$i, X9:$i, X7:$i]:(((mrel @ esk2_0 @ (esk4_4 @ X7 @ X9 @ X10 @ X11))|(mrel @ esk2_0 @ (esk3_4 @ X7 @ X9 @ X10 @ X11))|~((eiw_di @ X11 @ esk2_0))|~((eiw_di @ X10 @ esk2_0))|~((eiw_di @ X9 @ esk2_0))|~((eiw_di @ X7 @ esk2_0)))), inference(split_conjunct,[status(thm)],[c_0_26])).
0.92/0.58	thf(c_0_60, negated_conjecture, ![X7:$i, X3:mworld, X5:mworld]:((~((mrel @ mactual @ (esk3_4 @ (esk1_1 @ X3) @ esk7_0 @ (esk8_4 @ X5 @ X7 @ (esk1_1 @ X3) @ esk7_0) @ X7)))|~((mrel @ X5 @ (esk4_4 @ (esk1_1 @ X3) @ esk7_0 @ (esk8_4 @ X5 @ X7 @ (esk1_1 @ X3) @ esk7_0) @ X7)))|~((eiw_di @ (esk8_4 @ X5 @ X7 @ (esk1_1 @ X3) @ esk7_0) @ esk2_0))|~((eiw_di @ (esk1_1 @ X3) @ esk2_0))|~((eiw_di @ (esk1_1 @ X3) @ X5))|~((string @ (esk1_1 @ X3) @ X5))|~((eiw_di @ X7 @ esk2_0))|~((mrel @ mactual @ X5))|~((eiw_di @ esk7_0 @ X5))|~((mrel @ mactual @ X3))|~((eiw_di @ X7 @ X5)))), inference(csr,[status(thm)],[inference(spm,[status(thm)],[c_0_56, c_0_53]), c_0_24])).
0.92/0.58	thf(c_0_61, negated_conjecture, ![X3:mworld, X7:$i, X9:$i, X5:mworld]:(((mrel @ X3 @ (esk4_4 @ (esk1_1 @ X5) @ esk7_0 @ X7 @ X9))|~((mrel @ mactual @ (esk3_4 @ (esk1_1 @ X5) @ esk7_0 @ X7 @ X9)))|~((eiw_di @ (esk1_1 @ X5) @ esk2_0))|~((mrel @ esk2_0 @ X3))|~((eiw_di @ X9 @ esk2_0))|~((eiw_di @ X7 @ esk2_0))|~((mrel @ mactual @ X5)))), inference(spm,[status(thm)],[c_0_24, c_0_57])).
0.92/0.58	thf(c_0_62, negated_conjecture, ![X7:$i, X10:$i, X9:$i]:(((mrel @ esk2_0 @ (esk3_4 @ X7 @ X9 @ (esk8_4 @ esk2_0 @ X10 @ X7 @ X9) @ X10))|~((eiw_di @ (esk8_4 @ esk2_0 @ X10 @ X7 @ X9) @ esk2_0))|~((eiw_di @ X10 @ esk2_0))|~((eiw_di @ X9 @ esk2_0))|~((eiw_di @ X7 @ esk2_0))|~((string @ X7 @ esk2_0))|~((entry_box @ X9 @ esk2_0)))), inference(cn,[status(thm)],[inference(rw,[status(thm)],[inference(spm,[status(thm)],[c_0_58, c_0_59]), c_0_30])])).
0.92/0.58	thf(c_0_63, negated_conjecture, ![X7:$i, X3:mworld, X5:mworld]:((~((mrel @ mactual @ (esk3_4 @ (esk1_1 @ X3) @ esk7_0 @ (esk8_4 @ X5 @ X7 @ (esk1_1 @ X3) @ esk7_0) @ X7)))|~((eiw_di @ (esk8_4 @ X5 @ X7 @ (esk1_1 @ X3) @ esk7_0) @ esk2_0))|~((eiw_di @ (esk1_1 @ X3) @ X5))|~((string @ (esk1_1 @ X3) @ X5))|~((mrel @ mactual @ X5))|~((eiw_di @ esk7_0 @ X5))|~((mrel @ mactual @ X3))|~((mrel @ esk2_0 @ X5))|~((eiw_di @ X7 @ X5)))), inference(csr,[status(thm)],[inference(csr,[status(thm)],[inference(spm,[status(thm)],[c_0_60, c_0_61]), c_0_33]), c_0_33])).
0.92/0.58	thf(c_0_64, negated_conjecture, ![X7:$i, X3:mworld, X10:$i, X9:$i]:(((mrel @ X3 @ (esk3_4 @ X7 @ X9 @ (esk8_4 @ esk2_0 @ X10 @ X7 @ X9) @ X10))|~((eiw_di @ (esk8_4 @ esk2_0 @ X10 @ X7 @ X9) @ esk2_0))|~((mrel @ esk2_0 @ X3))|~((eiw_di @ X10 @ esk2_0))|~((eiw_di @ X9 @ esk2_0))|~((eiw_di @ X7 @ esk2_0))|~((string @ X7 @ esk2_0))|~((entry_box @ X9 @ esk2_0)))), inference(spm,[status(thm)],[c_0_24, c_0_62])).
0.92/0.58	thf(c_0_65, negated_conjecture, ![X3:mworld, X7:$i]:((~((eiw_di @ (esk8_4 @ esk2_0 @ X7 @ (esk1_1 @ X3) @ esk7_0) @ esk2_0))|~((eiw_di @ (esk1_1 @ X3) @ esk2_0))|~((string @ (esk1_1 @ X3) @ esk2_0))|~((entry_box @ esk7_0 @ esk2_0))|~((mrel @ mactual @ X3))|~((eiw_di @ X7 @ esk2_0)))), inference(cn,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(spm,[status(thm)],[c_0_63, c_0_64]), c_0_30]), c_0_46]), c_0_25]), c_0_34])])).
0.92/0.58	thf(c_0_66, plain, ![X7:$i, X10:$i, X9:$i, X3:mworld]:(((eiw_di @ (esk8_4 @ X3 @ X7 @ X9 @ X10) @ X3)|~((string @ X9 @ X3))|~((entry_box @ X10 @ X3))|~((eiw_di @ X10 @ X3))|~((eiw_di @ X9 @ X3))|~((eiw_di @ X7 @ X3))|~((mrel @ mactual @ X3)))), inference(split_conjunct,[status(thm)],[c_0_32])).
0.92/0.58	thf(c_0_67, negated_conjecture, ![X3:mworld]:((~((eiw_di @ (esk1_1 @ X3) @ esk2_0))|~((string @ (esk1_1 @ X3) @ esk2_0))|~((entry_box @ esk7_0 @ esk2_0))|~((mrel @ mactual @ X3)))), inference(condense,[status(thm)],[inference(cn,[status(thm)],[inference(rw,[status(thm)],[inference(rw,[status(thm)],[inference(spm,[status(thm)],[c_0_65, c_0_66]), c_0_30]), c_0_46])])])).
0.92/0.58	thf(c_0_68, plain, ![X5:mworld, X3:mworld]:(((string @ (esk1_1 @ X3) @ X5)|~((mrel @ X3 @ X5))|~((mrel @ mactual @ X3)))), inference(split_conjunct,[status(thm)],[c_0_48])).
0.92/0.58	thf(c_0_69, negated_conjecture, ![X3:mworld]:(((mrel @ X3 @ esk2_0)|~((mrel @ mactual @ X3)))), inference(spm,[status(thm)],[c_0_24, c_0_30])).
0.92/0.58	thf(c_0_70, negated_conjecture, ![X3:mworld]:((~((eiw_di @ (esk1_1 @ X3) @ esk2_0))|~((entry_box @ esk7_0 @ esk2_0))|~((mrel @ mactual @ X3)))), inference(csr,[status(thm)],[inference(spm,[status(thm)],[c_0_67, c_0_68]), c_0_69])).
0.92/0.58	thf(c_0_71, plain, ![X3:mworld]:(((eiw_di @ (esk1_1 @ X3) @ X3)|~((mrel @ mactual @ X3)))), inference(split_conjunct,[status(thm)],[c_0_48])).
0.92/0.58	thf(c_0_72, negated_conjecture, ~((entry_box @ esk7_0 @ esk2_0)), inference(cn,[status(thm)],[inference(rw,[status(thm)],[inference(spm,[status(thm)],[c_0_70, c_0_71]), c_0_30])])).
0.92/0.58	thf(c_0_73, negated_conjecture, ($false), inference(cn,[status(thm)],[inference(rw,[status(thm)],[inference(spm,[status(thm)],[c_0_72, c_0_47]), c_0_30])]), ['proof']).
0.92/0.58	# SZS output end CNFRefutation
0.92/0.58	# Parsed axioms                        : 40
0.92/0.58	# Removed by relevancy pruning/SinE    : 0
0.92/0.58	# Initial clauses                      : 43
0.92/0.58	# Removed in clause preprocessing      : 22
0.92/0.58	# Initial clauses in saturation        : 21
0.92/0.58	# Processed clauses                    : 194
0.92/0.58	# ...of these trivial                  : 0
0.92/0.58	# ...subsumed                          : 37
0.92/0.58	# ...remaining for further processing  : 157
0.92/0.58	# Other redundant clauses eliminated   : 0
0.92/0.58	# Clauses deleted for lack of memory   : 0
0.92/0.58	# Backward-subsumed                    : 5
0.92/0.58	# Backward-rewritten                   : 0
0.92/0.58	# Generated clauses                    : 803
0.92/0.58	# ...of the previous two non-redundant : 719
0.92/0.58	# ...aggressively subsumed             : 0
0.92/0.58	# Contextual simplify-reflections      : 27
0.92/0.58	# Paramodulations                      : 803
0.92/0.58	# Factorizations                       : 0
0.92/0.58	# NegExts                              : 0
0.92/0.58	# Equation resolutions                 : 0
0.92/0.58	# Propositional unsat checks           : 0
0.92/0.58	#    Propositional check models        : 0
0.92/0.58	#    Propositional check unsatisfiable : 0
0.92/0.58	#    Propositional clauses             : 0
0.92/0.58	#    Propositional clauses after purity: 0
0.92/0.58	#    Propositional unsat core size     : 0
0.92/0.58	#    Propositional preprocessing time  : 0.000
0.92/0.58	#    Propositional encoding time       : 0.000
0.92/0.58	#    Propositional solver time         : 0.000
0.92/0.58	#    Success case prop preproc time    : 0.000
0.92/0.58	#    Success case prop encoding time   : 0.000
0.92/0.58	#    Success case prop solver time     : 0.000
0.92/0.58	# Current number of processed clauses  : 131
0.92/0.58	#    Positive orientable unit clauses  : 8
0.92/0.58	#    Positive unorientable unit clauses: 0
0.92/0.58	#    Negative unit clauses             : 1
0.92/0.58	#    Non-unit-clauses                  : 122
0.92/0.58	# Current number of unprocessed clauses: 567
0.92/0.58	# ...number of literals in the above   : 5253
0.92/0.58	# Current number of archived formulas  : 0
0.92/0.58	# Current number of archived clauses   : 26
0.92/0.58	# Clause-clause subsumption calls (NU) : 6446
0.92/0.58	# Rec. Clause-clause subsumption calls : 2010
0.92/0.58	# Non-unit clause-clause subsumptions  : 73
0.92/0.58	# Unit Clause-clause subsumption calls : 21
0.92/0.58	# Rewrite failures with RHS unbound    : 0
0.92/0.58	# BW rewrite match attempts            : 2
0.92/0.58	# BW rewrite match successes           : 0
0.92/0.58	# Condensation attempts                : 194
0.92/0.58	# Condensation successes               : 5
0.92/0.58	# Termbank termtop insertions          : 64002
0.92/0.58	
0.92/0.58	# -------------------------------------------------
0.92/0.58	# User time                : 0.068 s
0.92/0.58	# System time              : 0.008 s
0.92/0.58	# Total time               : 0.076 s
0.92/0.58	# Maximum resident set size: 2092 pages
0.92/0.58	
0.92/0.58	# -------------------------------------------------
0.92/0.58	# User time                : 0.369 s
0.92/0.58	# System time              : 0.026 s
0.92/0.58	# Total time               : 0.395 s
0.92/0.58	# Maximum resident set size: 1784 pages
0.92/0.58	EOF